1#[cfg(not(feature = "std"))]
16use alloc::{
17 boxed::Box,
18 format,
19 string::{String, ToString},
20 vec,
21 vec::Vec,
22};
23use core::{
24 fmt::{self, Display},
25 str::FromStr,
26};
27use helpers::attached_token::AttachedToken;
28
29use log::debug;
30
31use recursion::RecursionCounter;
32use IsLateral::*;
33use IsOptional::*;
34
35use crate::ast::*;
36use crate::ast::{
37 comments,
38 helpers::{
39 key_value_options::{
40 KeyValueOption, KeyValueOptionKind, KeyValueOptions, KeyValueOptionsDelimiter,
41 },
42 stmt_create_table::{CreateTableBuilder, CreateTableConfiguration},
43 },
44};
45use crate::dialect::*;
46use crate::keywords::{Keyword, ALL_KEYWORDS};
47use crate::tokenizer::*;
48use sqlparser::parser::ParserState::ColumnDefinition;
49
50#[derive(Debug, Clone, PartialEq, Eq)]
52pub enum ParserError {
53 TokenizerError(String),
55 ParserError(String),
57 RecursionLimitExceeded,
59}
60
61macro_rules! parser_err {
63 ($MSG:expr, $loc:expr) => {
64 Err(ParserError::ParserError(format!("{}{}", $MSG, $loc)))
65 };
66}
67
68mod alter;
69mod merge;
70
71#[cfg(feature = "std")]
72mod recursion {
74 use std::cell::Cell;
75 use std::rc::Rc;
76
77 use super::ParserError;
78
79 pub(crate) struct RecursionCounter {
90 remaining_depth: Rc<Cell<usize>>,
91 }
92
93 impl RecursionCounter {
94 pub fn new(remaining_depth: usize) -> Self {
97 Self {
98 remaining_depth: Rc::new(remaining_depth.into()),
99 }
100 }
101
102 pub fn try_decrease(&self) -> Result<DepthGuard, ParserError> {
109 let old_value = self.remaining_depth.get();
110 if old_value == 0 {
112 Err(ParserError::RecursionLimitExceeded)
113 } else {
114 self.remaining_depth.set(old_value - 1);
115 Ok(DepthGuard::new(Rc::clone(&self.remaining_depth)))
116 }
117 }
118 }
119
120 pub struct DepthGuard {
122 remaining_depth: Rc<Cell<usize>>,
123 }
124
125 impl DepthGuard {
126 fn new(remaining_depth: Rc<Cell<usize>>) -> Self {
127 Self { remaining_depth }
128 }
129 }
130 impl Drop for DepthGuard {
131 fn drop(&mut self) {
132 let old_value = self.remaining_depth.get();
133 self.remaining_depth.set(old_value + 1);
134 }
135 }
136}
137
138#[cfg(not(feature = "std"))]
139mod recursion {
140 pub(crate) struct RecursionCounter {}
146
147 impl RecursionCounter {
148 pub fn new(_remaining_depth: usize) -> Self {
149 Self {}
150 }
151 pub fn try_decrease(&self) -> Result<DepthGuard, super::ParserError> {
152 Ok(DepthGuard {})
153 }
154 }
155
156 pub struct DepthGuard {}
157}
158
159#[derive(PartialEq, Eq)]
160pub enum IsOptional {
162 Optional,
164 Mandatory,
166}
167
168pub enum IsLateral {
170 Lateral,
172 NotLateral,
174}
175
176pub enum WildcardExpr {
178 Expr(Expr),
180 QualifiedWildcard(ObjectName),
182 Wildcard,
184}
185
186impl From<TokenizerError> for ParserError {
187 fn from(e: TokenizerError) -> Self {
188 ParserError::TokenizerError(e.to_string())
189 }
190}
191
192impl fmt::Display for ParserError {
193 fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
194 write!(
195 f,
196 "sql parser error: {}",
197 match self {
198 ParserError::TokenizerError(s) => s,
199 ParserError::ParserError(s) => s,
200 ParserError::RecursionLimitExceeded => "recursion limit exceeded",
201 }
202 )
203 }
204}
205
206impl core::error::Error for ParserError {}
207
208const DEFAULT_REMAINING_DEPTH: usize = 50;
210
211const EOF_TOKEN: TokenWithSpan = TokenWithSpan {
213 token: Token::EOF,
214 span: Span {
215 start: Location { line: 0, column: 0 },
216 end: Location { line: 0, column: 0 },
217 },
218};
219
220struct MatchedTrailingBracket(bool);
233
234impl From<bool> for MatchedTrailingBracket {
235 fn from(value: bool) -> Self {
236 Self(value)
237 }
238}
239
240#[derive(Debug, Clone, PartialEq, Eq)]
242pub struct ParserOptions {
243 pub trailing_commas: bool,
245 pub unescape: bool,
248 pub require_semicolon_stmt_delimiter: bool,
251}
252
253impl Default for ParserOptions {
254 fn default() -> Self {
255 Self {
256 trailing_commas: false,
257 unescape: true,
258 require_semicolon_stmt_delimiter: true,
259 }
260 }
261}
262
263impl ParserOptions {
264 pub fn new() -> Self {
266 Default::default()
267 }
268
269 pub fn with_trailing_commas(mut self, trailing_commas: bool) -> Self {
281 self.trailing_commas = trailing_commas;
282 self
283 }
284
285 pub fn with_unescape(mut self, unescape: bool) -> Self {
288 self.unescape = unescape;
289 self
290 }
291}
292
293#[derive(Copy, Clone)]
294enum ParserState {
295 Normal,
297 ConnectBy,
301 ColumnDefinition,
307}
308
309pub struct Parser<'a> {
348 tokens: Vec<TokenWithSpan>,
350 index: usize,
352 state: ParserState,
354 dialect: &'a dyn Dialect,
356 options: ParserOptions,
360 recursion_counter: RecursionCounter,
362}
363
364impl<'a> Parser<'a> {
365 pub fn new(dialect: &'a dyn Dialect) -> Self {
381 Self {
382 tokens: vec![],
383 index: 0,
384 state: ParserState::Normal,
385 dialect,
386 recursion_counter: RecursionCounter::new(DEFAULT_REMAINING_DEPTH),
387 options: ParserOptions::new().with_trailing_commas(dialect.supports_trailing_commas()),
388 }
389 }
390
391 pub fn with_recursion_limit(mut self, recursion_limit: usize) -> Self {
414 self.recursion_counter = RecursionCounter::new(recursion_limit);
415 self
416 }
417
418 pub fn with_options(mut self, options: ParserOptions) -> Self {
441 self.options = options;
442 self
443 }
444
445 pub fn with_tokens_with_locations(mut self, tokens: Vec<TokenWithSpan>) -> Self {
447 self.tokens = tokens;
448 self.index = 0;
449 self
450 }
451
452 pub fn with_tokens(self, tokens: Vec<Token>) -> Self {
454 let tokens_with_locations: Vec<TokenWithSpan> = tokens
456 .into_iter()
457 .map(|token| TokenWithSpan {
458 token,
459 span: Span::empty(),
460 })
461 .collect();
462 self.with_tokens_with_locations(tokens_with_locations)
463 }
464
465 pub fn try_with_sql(self, sql: &str) -> Result<Self, ParserError> {
472 debug!("Parsing sql '{sql}'...");
473 let tokens = Tokenizer::new(self.dialect, sql)
474 .with_unescape(self.options.unescape)
475 .tokenize_with_location()?;
476 Ok(self.with_tokens_with_locations(tokens))
477 }
478
479 pub fn parse_statements(&mut self) -> Result<Vec<Statement>, ParserError> {
495 let mut stmts = Vec::new();
496 let mut expecting_statement_delimiter = false;
497 loop {
498 while self.consume_token(&Token::SemiColon) {
500 expecting_statement_delimiter = false;
501 }
502
503 if !self.options.require_semicolon_stmt_delimiter {
504 expecting_statement_delimiter = false;
505 }
506
507 match &self.peek_token_ref().token {
508 Token::EOF => break,
509
510 Token::Word(word)
512 if expecting_statement_delimiter && word.keyword == Keyword::END =>
513 {
514 break;
515 }
516 _ => {}
517 }
518
519 if expecting_statement_delimiter {
520 return self.expected_ref("end of statement", self.peek_token_ref());
521 }
522
523 let statement = self.parse_statement()?;
524 stmts.push(statement);
525 expecting_statement_delimiter = true;
526 }
527 Ok(stmts)
528 }
529
530 pub fn parse_sql(dialect: &dyn Dialect, sql: &str) -> Result<Vec<Statement>, ParserError> {
546 Parser::new(dialect).try_with_sql(sql)?.parse_statements()
547 }
548
549 pub fn parse_sql_with_comments(
554 dialect: &'a dyn Dialect,
555 sql: &str,
556 ) -> Result<(Vec<Statement>, comments::Comments), ParserError> {
557 let mut p = Parser::new(dialect).try_with_sql(sql)?;
558 p.parse_statements().map(|stmts| (stmts, p.into_comments()))
559 }
560
561 fn into_comments(self) -> comments::Comments {
563 let mut comments = comments::Comments::default();
564 for t in self.tokens.into_iter() {
565 match t.token {
566 Token::Whitespace(Whitespace::SingleLineComment { comment, prefix }) => {
567 comments.offer(comments::CommentWithSpan {
568 comment: comments::Comment::SingleLine {
569 content: comment,
570 prefix,
571 },
572 span: t.span,
573 });
574 }
575 Token::Whitespace(Whitespace::MultiLineComment(comment)) => {
576 comments.offer(comments::CommentWithSpan {
577 comment: comments::Comment::MultiLine(comment),
578 span: t.span,
579 });
580 }
581 _ => {}
582 }
583 }
584 comments
585 }
586
587 pub fn parse_statement(&mut self) -> Result<Statement, ParserError> {
590 let _guard = self.recursion_counter.try_decrease()?;
591
592 if let Some(statement) = self.dialect.parse_statement(self) {
594 return statement;
595 }
596
597 let next_token = self.next_token();
598 match &next_token.token {
599 Token::Word(w) => match w.keyword {
600 Keyword::KILL => self.parse_kill(),
601 Keyword::FLUSH => self.parse_flush(),
602 Keyword::DESC => self.parse_explain(DescribeAlias::Desc),
603 Keyword::DESCRIBE => self.parse_explain(DescribeAlias::Describe),
604 Keyword::EXPLAIN => self.parse_explain(DescribeAlias::Explain),
605 Keyword::ANALYZE => self.parse_analyze().map(Into::into),
606 Keyword::CASE => {
607 self.prev_token();
608 self.parse_case_stmt().map(Into::into)
609 }
610 Keyword::IF => {
611 self.prev_token();
612 self.parse_if_stmt().map(Into::into)
613 }
614 Keyword::WHILE => {
615 self.prev_token();
616 self.parse_while().map(Into::into)
617 }
618 Keyword::RAISE => {
619 self.prev_token();
620 self.parse_raise_stmt().map(Into::into)
621 }
622 Keyword::SELECT | Keyword::WITH | Keyword::VALUES | Keyword::FROM => {
623 self.prev_token();
624 self.parse_query().map(Into::into)
625 }
626 Keyword::TRUNCATE => self.parse_truncate().map(Into::into),
627 Keyword::ATTACH => {
628 if dialect_of!(self is DuckDbDialect) {
629 self.parse_attach_duckdb_database()
630 } else {
631 self.parse_attach_database()
632 }
633 }
634 Keyword::DETACH if self.dialect.supports_detach() => {
635 self.parse_detach_duckdb_database()
636 }
637 Keyword::MSCK => self.parse_msck().map(Into::into),
638 Keyword::CREATE => self.parse_create(),
639 Keyword::CACHE => self.parse_cache_table(),
640 Keyword::DROP => self.parse_drop(),
641 Keyword::DISCARD => self.parse_discard(),
642 Keyword::DECLARE => self.parse_declare(),
643 Keyword::FETCH => self.parse_fetch_statement(),
644 Keyword::DELETE => self.parse_delete(next_token),
645 Keyword::INSERT => self.parse_insert(next_token),
646 Keyword::REPLACE => self.parse_replace(next_token),
647 Keyword::UNCACHE => self.parse_uncache_table(),
648 Keyword::UPDATE => self.parse_update(next_token),
649 Keyword::ALTER => self.parse_alter(),
650 Keyword::CALL => self.parse_call(),
651 Keyword::COPY => self.parse_copy(),
652 Keyword::OPEN => {
653 self.prev_token();
654 self.parse_open()
655 }
656 Keyword::CLOSE => self.parse_close(),
657 Keyword::SET => self.parse_set(),
658 Keyword::SHOW => self.parse_show(),
659 Keyword::USE => self.parse_use(),
660 Keyword::GRANT => self.parse_grant().map(Into::into),
661 Keyword::DENY => {
662 self.prev_token();
663 self.parse_deny()
664 }
665 Keyword::REVOKE => self.parse_revoke().map(Into::into),
666 Keyword::START => self.parse_start_transaction(),
667 Keyword::BEGIN => self.parse_begin(),
668 Keyword::END => self.parse_end(),
669 Keyword::SAVEPOINT => self.parse_savepoint(),
670 Keyword::RELEASE => self.parse_release(),
671 Keyword::COMMIT => self.parse_commit(),
672 Keyword::RAISERROR => Ok(self.parse_raiserror()?),
673 Keyword::THROW => {
674 self.prev_token();
675 self.parse_throw().map(Into::into)
676 }
677 Keyword::ROLLBACK => self.parse_rollback(),
678 Keyword::ASSERT => self.parse_assert(),
679 Keyword::DEALLOCATE => self.parse_deallocate(),
682 Keyword::EXECUTE | Keyword::EXEC => self.parse_execute(),
683 Keyword::PREPARE => self.parse_prepare(),
684 Keyword::MERGE => self.parse_merge(next_token).map(Into::into),
685 Keyword::LISTEN if self.dialect.supports_listen_notify() => self.parse_listen(),
688 Keyword::UNLISTEN if self.dialect.supports_listen_notify() => self.parse_unlisten(),
689 Keyword::NOTIFY if self.dialect.supports_listen_notify() => self.parse_notify(),
690 Keyword::PRAGMA => self.parse_pragma(),
692 Keyword::UNLOAD => {
693 self.prev_token();
694 self.parse_unload()
695 }
696 Keyword::RENAME => self.parse_rename(),
697 Keyword::INSTALL if self.dialect.supports_install() => self.parse_install(),
699 Keyword::LOAD => self.parse_load(),
700 Keyword::LOCK => {
701 self.prev_token();
702 self.parse_lock_statement().map(Into::into)
703 }
704 Keyword::OPTIMIZE if self.dialect.supports_optimize_table() => {
705 self.parse_optimize_table()
706 }
707 Keyword::COMMENT if self.dialect.supports_comment_on() => self.parse_comment(),
709 Keyword::PRINT => self.parse_print(),
710 Keyword::WAITFOR => self.parse_waitfor(),
712 Keyword::RETURN => self.parse_return(),
713 Keyword::EXPORT => {
714 self.prev_token();
715 self.parse_export_data()
716 }
717 Keyword::VACUUM => {
718 self.prev_token();
719 self.parse_vacuum()
720 }
721 Keyword::RESET => self.parse_reset().map(Into::into),
722 _ => self.expected("an SQL statement", next_token),
723 },
724 Token::LParen => {
725 self.prev_token();
726 self.parse_query().map(Into::into)
727 }
728 _ => self.expected("an SQL statement", next_token),
729 }
730 }
731
732 pub fn parse_case_stmt(&mut self) -> Result<CaseStatement, ParserError> {
736 let case_token = self.expect_keyword(Keyword::CASE)?;
737
738 let match_expr = if self.peek_keyword(Keyword::WHEN) {
739 None
740 } else {
741 Some(self.parse_expr()?)
742 };
743
744 self.expect_keyword_is(Keyword::WHEN)?;
745 let when_blocks = self.parse_keyword_separated(Keyword::WHEN, |parser| {
746 parser.parse_conditional_statement_block(&[Keyword::WHEN, Keyword::ELSE, Keyword::END])
747 })?;
748
749 let else_block = if self.parse_keyword(Keyword::ELSE) {
750 Some(self.parse_conditional_statement_block(&[Keyword::END])?)
751 } else {
752 None
753 };
754
755 let mut end_case_token = self.expect_keyword(Keyword::END)?;
756 if self.peek_keyword(Keyword::CASE) {
757 end_case_token = self.expect_keyword(Keyword::CASE)?;
758 }
759
760 Ok(CaseStatement {
761 case_token: AttachedToken(case_token),
762 match_expr,
763 when_blocks,
764 else_block,
765 end_case_token: AttachedToken(end_case_token),
766 })
767 }
768
769 pub fn parse_if_stmt(&mut self) -> Result<IfStatement, ParserError> {
773 self.expect_keyword_is(Keyword::IF)?;
774 let if_block = self.parse_conditional_statement_block(&[
775 Keyword::ELSE,
776 Keyword::ELSEIF,
777 Keyword::END,
778 ])?;
779
780 let elseif_blocks = if self.parse_keyword(Keyword::ELSEIF) {
781 self.parse_keyword_separated(Keyword::ELSEIF, |parser| {
782 parser.parse_conditional_statement_block(&[
783 Keyword::ELSEIF,
784 Keyword::ELSE,
785 Keyword::END,
786 ])
787 })?
788 } else {
789 vec![]
790 };
791
792 let else_block = if self.parse_keyword(Keyword::ELSE) {
793 Some(self.parse_conditional_statement_block(&[Keyword::END])?)
794 } else {
795 None
796 };
797
798 self.expect_keyword_is(Keyword::END)?;
799 let end_token = self.expect_keyword(Keyword::IF)?;
800
801 Ok(IfStatement {
802 if_block,
803 elseif_blocks,
804 else_block,
805 end_token: Some(AttachedToken(end_token)),
806 })
807 }
808
809 fn parse_while(&mut self) -> Result<WhileStatement, ParserError> {
813 self.expect_keyword_is(Keyword::WHILE)?;
814 let while_block = self.parse_conditional_statement_block(&[Keyword::END])?;
815
816 Ok(WhileStatement { while_block })
817 }
818
819 fn parse_conditional_statement_block(
827 &mut self,
828 terminal_keywords: &[Keyword],
829 ) -> Result<ConditionalStatementBlock, ParserError> {
830 let start_token = self.get_current_token().clone(); let mut then_token = None;
832
833 let condition = match &start_token.token {
834 Token::Word(w) if w.keyword == Keyword::ELSE => None,
835 Token::Word(w) if w.keyword == Keyword::WHILE => {
836 let expr = self.parse_expr()?;
837 Some(expr)
838 }
839 _ => {
840 let expr = self.parse_expr()?;
841 then_token = Some(AttachedToken(self.expect_keyword(Keyword::THEN)?));
842 Some(expr)
843 }
844 };
845
846 let conditional_statements = self.parse_conditional_statements(terminal_keywords)?;
847
848 Ok(ConditionalStatementBlock {
849 start_token: AttachedToken(start_token),
850 condition,
851 then_token,
852 conditional_statements,
853 })
854 }
855
856 pub(crate) fn parse_conditional_statements(
859 &mut self,
860 terminal_keywords: &[Keyword],
861 ) -> Result<ConditionalStatements, ParserError> {
862 let conditional_statements = if self.peek_keyword(Keyword::BEGIN) {
863 let begin_token = self.expect_keyword(Keyword::BEGIN)?;
864 let statements = self.parse_statement_list(terminal_keywords)?;
865 let end_token = self.expect_keyword(Keyword::END)?;
866
867 ConditionalStatements::BeginEnd(BeginEndStatements {
868 begin_token: AttachedToken(begin_token),
869 statements,
870 end_token: AttachedToken(end_token),
871 })
872 } else {
873 ConditionalStatements::Sequence {
874 statements: self.parse_statement_list(terminal_keywords)?,
875 }
876 };
877 Ok(conditional_statements)
878 }
879
880 pub fn parse_raise_stmt(&mut self) -> Result<RaiseStatement, ParserError> {
884 self.expect_keyword_is(Keyword::RAISE)?;
885
886 let value = if self.parse_keywords(&[Keyword::USING, Keyword::MESSAGE]) {
887 self.expect_token(&Token::Eq)?;
888 Some(RaiseStatementValue::UsingMessage(self.parse_expr()?))
889 } else {
890 self.maybe_parse(|parser| parser.parse_expr().map(RaiseStatementValue::Expr))?
891 };
892
893 Ok(RaiseStatement { value })
894 }
895 pub fn parse_comment(&mut self) -> Result<Statement, ParserError> {
899 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
900
901 self.expect_keyword_is(Keyword::ON)?;
902 let token = self.next_token();
903
904 let (object_type, object_name) = match token.token {
905 Token::Word(w) if w.keyword == Keyword::COLLATION => {
906 (CommentObject::Collation, self.parse_object_name(false)?)
907 }
908 Token::Word(w) if w.keyword == Keyword::COLUMN => {
909 (CommentObject::Column, self.parse_object_name(false)?)
910 }
911 Token::Word(w) if w.keyword == Keyword::DATABASE => {
912 (CommentObject::Database, self.parse_object_name(false)?)
913 }
914 Token::Word(w) if w.keyword == Keyword::DOMAIN => {
915 (CommentObject::Domain, self.parse_object_name(false)?)
916 }
917 Token::Word(w) if w.keyword == Keyword::EXTENSION => {
918 (CommentObject::Extension, self.parse_object_name(false)?)
919 }
920 Token::Word(w) if w.keyword == Keyword::FUNCTION => {
921 (CommentObject::Function, self.parse_object_name(false)?)
922 }
923 Token::Word(w) if w.keyword == Keyword::INDEX => {
924 (CommentObject::Index, self.parse_object_name(false)?)
925 }
926 Token::Word(w) if w.keyword == Keyword::MATERIALIZED => {
927 self.expect_keyword_is(Keyword::VIEW)?;
928 (
929 CommentObject::MaterializedView,
930 self.parse_object_name(false)?,
931 )
932 }
933 Token::Word(w) if w.keyword == Keyword::PROCEDURE => {
934 (CommentObject::Procedure, self.parse_object_name(false)?)
935 }
936 Token::Word(w) if w.keyword == Keyword::ROLE => {
937 (CommentObject::Role, self.parse_object_name(false)?)
938 }
939 Token::Word(w) if w.keyword == Keyword::SCHEMA => {
940 (CommentObject::Schema, self.parse_object_name(false)?)
941 }
942 Token::Word(w) if w.keyword == Keyword::SEQUENCE => {
943 (CommentObject::Sequence, self.parse_object_name(false)?)
944 }
945 Token::Word(w) if w.keyword == Keyword::TABLE => {
946 (CommentObject::Table, self.parse_object_name(false)?)
947 }
948 Token::Word(w) if w.keyword == Keyword::TYPE => {
949 (CommentObject::Type, self.parse_object_name(false)?)
950 }
951 Token::Word(w) if w.keyword == Keyword::USER => {
952 (CommentObject::User, self.parse_object_name(false)?)
953 }
954 Token::Word(w) if w.keyword == Keyword::VIEW => {
955 (CommentObject::View, self.parse_object_name(false)?)
956 }
957 _ => self.expected("comment object_type", token)?,
958 };
959
960 self.expect_keyword_is(Keyword::IS)?;
961 let comment = if self.parse_keyword(Keyword::NULL) {
962 None
963 } else {
964 Some(self.parse_literal_string()?)
965 };
966 Ok(Statement::Comment {
967 object_type,
968 object_name,
969 comment,
970 if_exists,
971 })
972 }
973
974 pub fn parse_flush(&mut self) -> Result<Statement, ParserError> {
976 let mut channel = None;
977 let mut tables: Vec<ObjectName> = vec![];
978 let mut read_lock = false;
979 let mut export = false;
980
981 if !dialect_of!(self is MySqlDialect | GenericDialect) {
982 return parser_err!(
983 "Unsupported statement FLUSH",
984 self.peek_token_ref().span.start
985 );
986 }
987
988 let location = if self.parse_keyword(Keyword::NO_WRITE_TO_BINLOG) {
989 Some(FlushLocation::NoWriteToBinlog)
990 } else if self.parse_keyword(Keyword::LOCAL) {
991 Some(FlushLocation::Local)
992 } else {
993 None
994 };
995
996 let object_type = if self.parse_keywords(&[Keyword::BINARY, Keyword::LOGS]) {
997 FlushType::BinaryLogs
998 } else if self.parse_keywords(&[Keyword::ENGINE, Keyword::LOGS]) {
999 FlushType::EngineLogs
1000 } else if self.parse_keywords(&[Keyword::ERROR, Keyword::LOGS]) {
1001 FlushType::ErrorLogs
1002 } else if self.parse_keywords(&[Keyword::GENERAL, Keyword::LOGS]) {
1003 FlushType::GeneralLogs
1004 } else if self.parse_keywords(&[Keyword::HOSTS]) {
1005 FlushType::Hosts
1006 } else if self.parse_keyword(Keyword::PRIVILEGES) {
1007 FlushType::Privileges
1008 } else if self.parse_keyword(Keyword::OPTIMIZER_COSTS) {
1009 FlushType::OptimizerCosts
1010 } else if self.parse_keywords(&[Keyword::RELAY, Keyword::LOGS]) {
1011 if self.parse_keywords(&[Keyword::FOR, Keyword::CHANNEL]) {
1012 channel = Some(self.parse_object_name(false)?.to_string());
1013 }
1014 FlushType::RelayLogs
1015 } else if self.parse_keywords(&[Keyword::SLOW, Keyword::LOGS]) {
1016 FlushType::SlowLogs
1017 } else if self.parse_keyword(Keyword::STATUS) {
1018 FlushType::Status
1019 } else if self.parse_keyword(Keyword::USER_RESOURCES) {
1020 FlushType::UserResources
1021 } else if self.parse_keywords(&[Keyword::LOGS]) {
1022 FlushType::Logs
1023 } else if self.parse_keywords(&[Keyword::TABLES]) {
1024 loop {
1025 let next_token = self.next_token();
1026 match &next_token.token {
1027 Token::Word(w) => match w.keyword {
1028 Keyword::WITH => {
1029 read_lock = self.parse_keywords(&[Keyword::READ, Keyword::LOCK]);
1030 }
1031 Keyword::FOR => {
1032 export = self.parse_keyword(Keyword::EXPORT);
1033 }
1034 Keyword::NoKeyword => {
1035 self.prev_token();
1036 tables = self.parse_comma_separated(|p| p.parse_object_name(false))?;
1037 }
1038 _ => {}
1039 },
1040 _ => {
1041 break;
1042 }
1043 }
1044 }
1045
1046 FlushType::Tables
1047 } else {
1048 return self.expected_ref(
1049 "BINARY LOGS, ENGINE LOGS, ERROR LOGS, GENERAL LOGS, HOSTS, LOGS, PRIVILEGES, OPTIMIZER_COSTS,\
1050 RELAY LOGS [FOR CHANNEL channel], SLOW LOGS, STATUS, USER_RESOURCES",
1051 self.peek_token_ref(),
1052 );
1053 };
1054
1055 Ok(Statement::Flush {
1056 object_type,
1057 location,
1058 channel,
1059 read_lock,
1060 export,
1061 tables,
1062 })
1063 }
1064
1065 pub fn parse_msck(&mut self) -> Result<Msck, ParserError> {
1067 let repair = self.parse_keyword(Keyword::REPAIR);
1068 self.expect_keyword_is(Keyword::TABLE)?;
1069 let table_name = self.parse_object_name(false)?;
1070 let partition_action = self
1071 .maybe_parse(|parser| {
1072 let pa = match parser.parse_one_of_keywords(&[
1073 Keyword::ADD,
1074 Keyword::DROP,
1075 Keyword::SYNC,
1076 ]) {
1077 Some(Keyword::ADD) => Some(AddDropSync::ADD),
1078 Some(Keyword::DROP) => Some(AddDropSync::DROP),
1079 Some(Keyword::SYNC) => Some(AddDropSync::SYNC),
1080 _ => None,
1081 };
1082 parser.expect_keyword_is(Keyword::PARTITIONS)?;
1083 Ok(pa)
1084 })?
1085 .unwrap_or_default();
1086 Ok(Msck {
1087 repair,
1088 table_name,
1089 partition_action,
1090 })
1091 }
1092
1093 pub fn parse_truncate(&mut self) -> Result<Truncate, ParserError> {
1095 let table = self.parse_keyword(Keyword::TABLE);
1096 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
1097
1098 let table_names = self.parse_comma_separated(|p| {
1099 let only = p.parse_keyword(Keyword::ONLY);
1100 let name = p.parse_object_name(false)?;
1101 let has_asterisk = p.consume_token(&Token::Mul);
1102 Ok(TruncateTableTarget {
1103 name,
1104 only,
1105 has_asterisk,
1106 })
1107 })?;
1108
1109 let mut partitions = None;
1110 if self.parse_keyword(Keyword::PARTITION) {
1111 self.expect_token(&Token::LParen)?;
1112 partitions = Some(self.parse_comma_separated(Parser::parse_expr)?);
1113 self.expect_token(&Token::RParen)?;
1114 }
1115
1116 let mut identity = None;
1117 let mut cascade = None;
1118
1119 if dialect_of!(self is PostgreSqlDialect | GenericDialect) {
1120 identity = if self.parse_keywords(&[Keyword::RESTART, Keyword::IDENTITY]) {
1121 Some(TruncateIdentityOption::Restart)
1122 } else if self.parse_keywords(&[Keyword::CONTINUE, Keyword::IDENTITY]) {
1123 Some(TruncateIdentityOption::Continue)
1124 } else {
1125 None
1126 };
1127
1128 cascade = self.parse_cascade_option();
1129 };
1130
1131 let on_cluster = self.parse_optional_on_cluster()?;
1132
1133 Ok(Truncate {
1134 table_names,
1135 partitions,
1136 table,
1137 if_exists,
1138 identity,
1139 cascade,
1140 on_cluster,
1141 })
1142 }
1143
1144 fn parse_cascade_option(&mut self) -> Option<CascadeOption> {
1145 if self.parse_keyword(Keyword::CASCADE) {
1146 Some(CascadeOption::Cascade)
1147 } else if self.parse_keyword(Keyword::RESTRICT) {
1148 Some(CascadeOption::Restrict)
1149 } else {
1150 None
1151 }
1152 }
1153
1154 pub fn parse_attach_duckdb_database_options(
1156 &mut self,
1157 ) -> Result<Vec<AttachDuckDBDatabaseOption>, ParserError> {
1158 if !self.consume_token(&Token::LParen) {
1159 return Ok(vec![]);
1160 }
1161
1162 let mut options = vec![];
1163 loop {
1164 if self.parse_keyword(Keyword::READ_ONLY) {
1165 let boolean = if self.parse_keyword(Keyword::TRUE) {
1166 Some(true)
1167 } else if self.parse_keyword(Keyword::FALSE) {
1168 Some(false)
1169 } else {
1170 None
1171 };
1172 options.push(AttachDuckDBDatabaseOption::ReadOnly(boolean));
1173 } else if self.parse_keyword(Keyword::TYPE) {
1174 let ident = self.parse_identifier()?;
1175 options.push(AttachDuckDBDatabaseOption::Type(ident));
1176 } else {
1177 return self
1178 .expected_ref("expected one of: ), READ_ONLY, TYPE", self.peek_token_ref());
1179 };
1180
1181 if self.consume_token(&Token::RParen) {
1182 return Ok(options);
1183 } else if self.consume_token(&Token::Comma) {
1184 continue;
1185 } else {
1186 return self.expected_ref("expected one of: ')', ','", self.peek_token_ref());
1187 }
1188 }
1189 }
1190
1191 pub fn parse_attach_duckdb_database(&mut self) -> Result<Statement, ParserError> {
1193 let database = self.parse_keyword(Keyword::DATABASE);
1194 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
1195 let database_path = self.parse_identifier()?;
1196 let database_alias = if self.parse_keyword(Keyword::AS) {
1197 Some(self.parse_identifier()?)
1198 } else {
1199 None
1200 };
1201
1202 let attach_options = self.parse_attach_duckdb_database_options()?;
1203 Ok(Statement::AttachDuckDBDatabase {
1204 if_not_exists,
1205 database,
1206 database_path,
1207 database_alias,
1208 attach_options,
1209 })
1210 }
1211
1212 pub fn parse_detach_duckdb_database(&mut self) -> Result<Statement, ParserError> {
1214 let database = self.parse_keyword(Keyword::DATABASE);
1215 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
1216 let database_alias = self.parse_identifier()?;
1217 Ok(Statement::DetachDuckDBDatabase {
1218 if_exists,
1219 database,
1220 database_alias,
1221 })
1222 }
1223
1224 pub fn parse_attach_database(&mut self) -> Result<Statement, ParserError> {
1226 let database = self.parse_keyword(Keyword::DATABASE);
1227 let database_file_name = self.parse_expr()?;
1228 self.expect_keyword_is(Keyword::AS)?;
1229 let schema_name = self.parse_identifier()?;
1230 Ok(Statement::AttachDatabase {
1231 database,
1232 schema_name,
1233 database_file_name,
1234 })
1235 }
1236
1237 pub fn parse_analyze(&mut self) -> Result<Analyze, ParserError> {
1239 let has_table_keyword = self.parse_keyword(Keyword::TABLE);
1240 let table_name = self.maybe_parse(|parser| parser.parse_object_name(false))?;
1241 let mut for_columns = false;
1242 let mut cache_metadata = false;
1243 let mut noscan = false;
1244 let mut partitions = None;
1245 let mut compute_statistics = false;
1246 let mut columns = vec![];
1247
1248 if table_name.is_some() && self.consume_token(&Token::LParen) {
1250 columns = self.parse_comma_separated(|p| p.parse_identifier())?;
1251 self.expect_token(&Token::RParen)?;
1252 }
1253
1254 loop {
1255 match self.parse_one_of_keywords(&[
1256 Keyword::PARTITION,
1257 Keyword::FOR,
1258 Keyword::CACHE,
1259 Keyword::NOSCAN,
1260 Keyword::COMPUTE,
1261 ]) {
1262 Some(Keyword::PARTITION) => {
1263 self.expect_token(&Token::LParen)?;
1264 partitions = Some(self.parse_comma_separated(Parser::parse_expr)?);
1265 self.expect_token(&Token::RParen)?;
1266 }
1267 Some(Keyword::NOSCAN) => noscan = true,
1268 Some(Keyword::FOR) => {
1269 self.expect_keyword_is(Keyword::COLUMNS)?;
1270
1271 columns = self
1272 .maybe_parse(|parser| {
1273 parser.parse_comma_separated(|p| p.parse_identifier())
1274 })?
1275 .unwrap_or_default();
1276 for_columns = true
1277 }
1278 Some(Keyword::CACHE) => {
1279 self.expect_keyword_is(Keyword::METADATA)?;
1280 cache_metadata = true
1281 }
1282 Some(Keyword::COMPUTE) => {
1283 self.expect_keyword_is(Keyword::STATISTICS)?;
1284 compute_statistics = true
1285 }
1286 _ => break,
1287 }
1288 }
1289
1290 Ok(Analyze {
1291 has_table_keyword,
1292 table_name,
1293 for_columns,
1294 columns,
1295 partitions,
1296 cache_metadata,
1297 noscan,
1298 compute_statistics,
1299 })
1300 }
1301
1302 pub fn parse_wildcard_expr(&mut self) -> Result<Expr, ParserError> {
1304 let index = self.index;
1305
1306 let next_token = self.next_token();
1307 match next_token.token {
1308 t @ (Token::Word(_) | Token::SingleQuotedString(_))
1309 if self.peek_token_ref().token == Token::Period =>
1310 {
1311 let mut id_parts: Vec<Ident> = vec![match t {
1312 Token::Word(w) => w.into_ident(next_token.span),
1313 Token::SingleQuotedString(s) => Ident::with_quote('\'', s),
1314 _ => {
1315 return Err(ParserError::ParserError(
1316 "Internal parser error: unexpected token type".to_string(),
1317 ))
1318 }
1319 }];
1320
1321 while self.consume_token(&Token::Period) {
1322 let next_token = self.next_token();
1323 match next_token.token {
1324 Token::Word(w) => id_parts.push(w.into_ident(next_token.span)),
1325 Token::SingleQuotedString(s) => {
1326 id_parts.push(Ident::with_quote('\'', s))
1328 }
1329 Token::Placeholder(s) => {
1330 id_parts.push(Ident::new(s))
1333 }
1334 Token::Mul => {
1335 return Ok(Expr::QualifiedWildcard(
1336 ObjectName::from(id_parts),
1337 AttachedToken(next_token),
1338 ));
1339 }
1340 _ => {
1341 return self.expected("an identifier or a '*' after '.'", next_token);
1342 }
1343 }
1344 }
1345 }
1346 Token::Mul => {
1347 return Ok(Expr::Wildcard(AttachedToken(next_token)));
1348 }
1349 Token::LParen => {
1351 let [maybe_mul, maybe_rparen] = self.peek_tokens_ref();
1352 if maybe_mul.token == Token::Mul && maybe_rparen.token == Token::RParen {
1353 let mul_token = self.next_token(); self.next_token(); return Ok(Expr::Wildcard(AttachedToken(mul_token)));
1356 }
1357 }
1358 _ => (),
1359 };
1360
1361 self.index = index;
1362 self.parse_expr()
1363 }
1364
1365 pub fn parse_expr(&mut self) -> Result<Expr, ParserError> {
1367 self.parse_subexpr(self.dialect.prec_unknown())
1368 }
1369
1370 pub fn parse_expr_with_alias_and_order_by(
1372 &mut self,
1373 ) -> Result<ExprWithAliasAndOrderBy, ParserError> {
1374 let expr = self.parse_expr()?;
1375
1376 fn validator(explicit: bool, kw: &Keyword, _parser: &mut Parser) -> bool {
1377 explicit || !&[Keyword::ASC, Keyword::DESC, Keyword::GROUP].contains(kw)
1378 }
1379 let alias = self.parse_optional_alias_inner(None, validator)?;
1380 let order_by = OrderByOptions {
1381 sort: self.parse_optional_order_by_sort(),
1382 nulls_first: None,
1383 };
1384 Ok(ExprWithAliasAndOrderBy {
1385 expr: ExprWithAlias { expr, alias },
1386 order_by,
1387 })
1388 }
1389
1390 #[cfg_attr(feature = "recursive-protection", recursive::recursive)]
1392 pub fn parse_subexpr(&mut self, precedence: u8) -> Result<Expr, ParserError> {
1393 let _guard = self.recursion_counter.try_decrease()?;
1394 debug!("parsing expr");
1395 let mut expr = self.parse_prefix()?;
1396
1397 expr = self.parse_compound_expr(expr, vec![])?;
1398
1399 if !self.in_column_definition_state() && self.parse_keyword(Keyword::COLLATE) {
1403 expr = Expr::Collate {
1404 expr: Box::new(expr),
1405 collation: self.parse_object_name(false)?,
1406 };
1407 }
1408
1409 debug!("prefix: {expr:?}");
1410 loop {
1411 let next_precedence = self.get_next_precedence()?;
1412 debug!("next precedence: {next_precedence:?}");
1413
1414 if precedence >= next_precedence {
1415 break;
1416 }
1417
1418 if Token::Period == self.peek_token_ref().token {
1421 break;
1422 }
1423
1424 expr = self.parse_infix(expr, next_precedence)?;
1425 }
1426 Ok(expr)
1427 }
1428
1429 pub fn parse_assert(&mut self) -> Result<Statement, ParserError> {
1431 let condition = self.parse_expr()?;
1432 let message = if self.parse_keyword(Keyword::AS) {
1433 Some(self.parse_expr()?)
1434 } else {
1435 None
1436 };
1437
1438 Ok(Statement::Assert { condition, message })
1439 }
1440
1441 pub fn parse_savepoint(&mut self) -> Result<Statement, ParserError> {
1443 let name = self.parse_identifier()?;
1444 Ok(Statement::Savepoint { name })
1445 }
1446
1447 pub fn parse_release(&mut self) -> Result<Statement, ParserError> {
1449 let _ = self.parse_keyword(Keyword::SAVEPOINT);
1450 let name = self.parse_identifier()?;
1451
1452 Ok(Statement::ReleaseSavepoint { name })
1453 }
1454
1455 pub fn parse_listen(&mut self) -> Result<Statement, ParserError> {
1457 let channel = self.parse_identifier()?;
1458 Ok(Statement::LISTEN { channel })
1459 }
1460
1461 pub fn parse_unlisten(&mut self) -> Result<Statement, ParserError> {
1463 let channel = if self.consume_token(&Token::Mul) {
1464 Ident::new(Expr::Wildcard(AttachedToken::empty()).to_string())
1465 } else {
1466 match self.parse_identifier() {
1467 Ok(expr) => expr,
1468 _ => {
1469 self.prev_token();
1470 return self.expected_ref("wildcard or identifier", self.peek_token_ref());
1471 }
1472 }
1473 };
1474 Ok(Statement::UNLISTEN { channel })
1475 }
1476
1477 pub fn parse_notify(&mut self) -> Result<Statement, ParserError> {
1479 let channel = self.parse_identifier()?;
1480 let payload = if self.consume_token(&Token::Comma) {
1481 Some(self.parse_literal_string()?)
1482 } else {
1483 None
1484 };
1485 Ok(Statement::NOTIFY { channel, payload })
1486 }
1487
1488 pub fn parse_rename(&mut self) -> Result<Statement, ParserError> {
1490 if self.peek_keyword(Keyword::TABLE) {
1491 self.expect_keyword(Keyword::TABLE)?;
1492 let rename_tables = self.parse_comma_separated(|parser| {
1493 let old_name = parser.parse_object_name(false)?;
1494 parser.expect_keyword(Keyword::TO)?;
1495 let new_name = parser.parse_object_name(false)?;
1496
1497 Ok(RenameTable { old_name, new_name })
1498 })?;
1499 Ok(rename_tables.into())
1500 } else {
1501 self.expected_ref("KEYWORD `TABLE` after RENAME", self.peek_token_ref())
1502 }
1503 }
1504
1505 fn parse_expr_prefix_by_reserved_word(
1508 &mut self,
1509 w: &Word,
1510 w_span: Span,
1511 ) -> Result<Option<Expr>, ParserError> {
1512 match w.keyword {
1513 Keyword::TRUE | Keyword::FALSE if self.dialect.supports_boolean_literals() => {
1514 self.prev_token();
1515 Ok(Some(Expr::Value(self.parse_value()?)))
1516 }
1517 Keyword::NULL => {
1518 self.prev_token();
1519 Ok(Some(Expr::Value(self.parse_value()?)))
1520 }
1521 Keyword::CURRENT_CATALOG
1522 | Keyword::CURRENT_USER
1523 | Keyword::SESSION_USER
1524 | Keyword::USER
1525 if dialect_of!(self is PostgreSqlDialect | GenericDialect) =>
1526 {
1527 Ok(Some(Expr::Function(Function {
1528 name: ObjectName::from(vec![w.to_ident(w_span)]),
1529 uses_odbc_syntax: false,
1530 parameters: FunctionArguments::None,
1531 args: FunctionArguments::None,
1532 null_treatment: None,
1533 filter: None,
1534 over: None,
1535 within_group: vec![],
1536 })))
1537 }
1538 Keyword::CURRENT_TIMESTAMP
1539 | Keyword::CURRENT_TIME
1540 | Keyword::CURRENT_DATE
1541 | Keyword::LOCALTIME
1542 | Keyword::LOCALTIMESTAMP => {
1543 Ok(Some(self.parse_time_functions(ObjectName::from(vec![w.to_ident(w_span)]))?))
1544 }
1545 Keyword::CASE => Ok(Some(self.parse_case_expr()?)),
1546 Keyword::CONVERT => Ok(Some(self.parse_convert_expr(false)?)),
1547 Keyword::TRY_CONVERT if self.dialect.supports_try_convert() => Ok(Some(self.parse_convert_expr(true)?)),
1548 Keyword::CAST => Ok(Some(self.parse_cast_expr(CastKind::Cast)?)),
1549 Keyword::TRY_CAST => Ok(Some(self.parse_cast_expr(CastKind::TryCast)?)),
1550 Keyword::SAFE_CAST => Ok(Some(self.parse_cast_expr(CastKind::SafeCast)?)),
1551 Keyword::EXISTS
1552 if !dialect_of!(self is DatabricksDialect)
1554 || matches!(
1555 self.peek_nth_token_ref(1).token,
1556 Token::Word(Word {
1557 keyword: Keyword::SELECT | Keyword::WITH,
1558 ..
1559 })
1560 ) =>
1561 {
1562 Ok(Some(self.parse_exists_expr(false)?))
1563 }
1564 Keyword::EXTRACT => Ok(Some(self.parse_extract_expr()?)),
1565 Keyword::CEIL => Ok(Some(self.parse_ceil_floor_expr(true)?)),
1566 Keyword::FLOOR => Ok(Some(self.parse_ceil_floor_expr(false)?)),
1567 Keyword::POSITION if self.peek_token_ref().token == Token::LParen => {
1568 Ok(Some(self.parse_position_expr(w.to_ident(w_span))?))
1569 }
1570 Keyword::SUBSTR | Keyword::SUBSTRING => {
1571 self.prev_token();
1572 Ok(Some(self.parse_substring()?))
1573 }
1574 Keyword::OVERLAY => Ok(Some(self.parse_overlay_expr()?)),
1575 Keyword::TRIM => Ok(Some(self.parse_trim_expr()?)),
1576 Keyword::INTERVAL => Ok(Some(self.parse_interval()?)),
1577 Keyword::ARRAY if *self.peek_token_ref() == Token::LBracket => {
1579 self.expect_token(&Token::LBracket)?;
1580 Ok(Some(self.parse_array_expr(true)?))
1581 }
1582 Keyword::ARRAY
1583 if self.peek_token_ref().token == Token::LParen
1584 && !dialect_of!(self is ClickHouseDialect | DatabricksDialect) =>
1585 {
1586 self.expect_token(&Token::LParen)?;
1587 let query = self.parse_query()?;
1588 self.expect_token(&Token::RParen)?;
1589 Ok(Some(Expr::Function(Function {
1590 name: ObjectName::from(vec![w.to_ident(w_span)]),
1591 uses_odbc_syntax: false,
1592 parameters: FunctionArguments::None,
1593 args: FunctionArguments::Subquery(query),
1594 filter: None,
1595 null_treatment: None,
1596 over: None,
1597 within_group: vec![],
1598 })))
1599 }
1600 Keyword::NOT => Ok(Some(self.parse_not()?)),
1601 Keyword::MATCH if self.dialect.supports_match_against() => {
1602 Ok(Some(self.parse_match_against()?))
1603 }
1604 Keyword::STRUCT if self.dialect.supports_struct_literal() => {
1605 let struct_expr = self.parse_struct_literal()?;
1606 Ok(Some(struct_expr))
1607 }
1608 Keyword::PRIOR if matches!(self.state, ParserState::ConnectBy) => {
1609 let expr = self.parse_subexpr(self.dialect.prec_value(Precedence::PlusMinus))?;
1610 Ok(Some(Expr::Prior(Box::new(expr))))
1611 }
1612 Keyword::MAP if *self.peek_token_ref() == Token::LBrace && self.dialect.support_map_literal_syntax() => {
1613 Ok(Some(self.parse_duckdb_map_literal()?))
1614 }
1615 Keyword::LAMBDA if self.dialect.supports_lambda_functions() => {
1616 Ok(Some(self.parse_lambda_expr()?))
1617 }
1618 _ if self.dialect.supports_geometric_types() => match w.keyword {
1619 Keyword::CIRCLE => Ok(Some(self.parse_geometric_type(GeometricTypeKind::Circle)?)),
1620 Keyword::BOX => Ok(Some(self.parse_geometric_type(GeometricTypeKind::GeometricBox)?)),
1621 Keyword::PATH => Ok(Some(self.parse_geometric_type(GeometricTypeKind::GeometricPath)?)),
1622 Keyword::LINE => Ok(Some(self.parse_geometric_type(GeometricTypeKind::Line)?)),
1623 Keyword::LSEG => Ok(Some(self.parse_geometric_type(GeometricTypeKind::LineSegment)?)),
1624 Keyword::POINT => Ok(Some(self.parse_geometric_type(GeometricTypeKind::Point)?)),
1625 Keyword::POLYGON => Ok(Some(self.parse_geometric_type(GeometricTypeKind::Polygon)?)),
1626 _ => Ok(None),
1627 },
1628 _ => Ok(None),
1629 }
1630 }
1631
1632 fn parse_expr_prefix_by_unreserved_word(
1634 &mut self,
1635 w: &Word,
1636 w_span: Span,
1637 ) -> Result<Expr, ParserError> {
1638 let is_outer_join = self.peek_outer_join_operator();
1639 match &self.peek_token_ref().token {
1640 Token::LParen if !is_outer_join => {
1641 let id_parts = vec![w.to_ident(w_span)];
1642 self.parse_function(ObjectName::from(id_parts))
1643 }
1644 Token::SingleQuotedString(_)
1646 | Token::DoubleQuotedString(_)
1647 | Token::HexStringLiteral(_)
1648 if w.value.starts_with('_') =>
1649 {
1650 Ok(Expr::Prefixed {
1651 prefix: w.to_ident(w_span),
1652 value: self.parse_introduced_string_expr()?.into(),
1653 })
1654 }
1655 Token::SingleQuotedString(_)
1657 | Token::DoubleQuotedString(_)
1658 | Token::HexStringLiteral(_)
1659 if w.value.starts_with('_') =>
1660 {
1661 Ok(Expr::Prefixed {
1662 prefix: w.to_ident(w_span),
1663 value: self.parse_introduced_string_expr()?.into(),
1664 })
1665 }
1666 Token::Arrow if self.dialect.supports_lambda_functions() => {
1670 self.expect_token(&Token::Arrow)?;
1671 Ok(Expr::Lambda(LambdaFunction {
1672 params: OneOrManyWithParens::One(LambdaFunctionParameter {
1673 name: w.to_ident(w_span),
1674 data_type: None,
1675 }),
1676 body: Box::new(self.parse_expr()?),
1677 syntax: LambdaSyntax::Arrow,
1678 }))
1679 }
1680 Token::Word(_)
1684 if self.dialect.supports_lambda_functions()
1685 && self.peek_nth_token_ref(1).token == Token::Arrow =>
1686 {
1687 let data_type = self.parse_data_type()?;
1688 self.expect_token(&Token::Arrow)?;
1689 Ok(Expr::Lambda(LambdaFunction {
1690 params: OneOrManyWithParens::One(LambdaFunctionParameter {
1691 name: w.to_ident(w_span),
1692 data_type: Some(data_type),
1693 }),
1694 body: Box::new(self.parse_expr()?),
1695 syntax: LambdaSyntax::Arrow,
1696 }))
1697 }
1698 _ => Ok(Expr::Identifier(w.to_ident(w_span))),
1699 }
1700 }
1701
1702 fn is_simple_unquoted_object_name(name: &ObjectName, expected: &str) -> bool {
1705 if let [ObjectNamePart::Identifier(ident)] = name.0.as_slice() {
1706 ident.quote_style.is_none() && ident.value.eq_ignore_ascii_case(expected)
1707 } else {
1708 false
1709 }
1710 }
1711
1712 pub fn parse_prefix(&mut self) -> Result<Expr, ParserError> {
1714 if let Some(prefix) = self.dialect.parse_prefix(self) {
1716 return prefix;
1717 }
1718
1719 let loc = self.peek_token_ref().span.start;
1736 let opt_expr = self.maybe_parse(|parser| {
1737 match parser.parse_data_type()? {
1738 DataType::Interval { .. } => parser.parse_interval(),
1739 DataType::Custom(ref name, ref modifiers)
1750 if modifiers.is_empty()
1751 && Self::is_simple_unquoted_object_name(name, "xml")
1752 && parser.dialect.supports_xml_expressions() =>
1753 {
1754 Ok(Expr::TypedString(TypedString {
1755 data_type: DataType::Custom(name.clone(), modifiers.clone()),
1756 value: parser.parse_value()?,
1757 uses_odbc_syntax: false,
1758 }))
1759 }
1760 DataType::Custom(..) => parser_err!("dummy", loc),
1761 DataType::Binary(..) if self.dialect.supports_binary_kw_as_cast() => {
1763 Ok(Expr::Cast {
1764 kind: CastKind::Cast,
1765 expr: Box::new(parser.parse_expr()?),
1766 data_type: DataType::Binary(None),
1767 array: false,
1768 format: None,
1769 })
1770 }
1771 data_type => Ok(Expr::TypedString(TypedString {
1772 data_type,
1773 value: parser.parse_value()?,
1774 uses_odbc_syntax: false,
1775 })),
1776 }
1777 })?;
1778
1779 if let Some(expr) = opt_expr {
1780 return Ok(expr);
1781 }
1782
1783 let dialect = self.dialect;
1787
1788 self.advance_token();
1789 let next_token_index = self.get_current_index();
1790 let next_token = self.get_current_token();
1791 let span = next_token.span;
1792 let expr = match &next_token.token {
1793 Token::Word(w) => {
1794 let w = w.clone();
1803 match self.try_parse(|parser| parser.parse_expr_prefix_by_reserved_word(&w, span)) {
1804 Ok(Some(expr)) => Ok(expr),
1806
1807 Ok(None) => Ok(self.parse_expr_prefix_by_unreserved_word(&w, span)?),
1809
1810 Err(e) => {
1817 if !self.dialect.is_reserved_for_identifier(w.keyword) {
1818 if let Ok(Some(expr)) = self.maybe_parse(|parser| {
1819 parser.parse_expr_prefix_by_unreserved_word(&w, span)
1820 }) {
1821 return Ok(expr);
1822 }
1823 }
1824 return Err(e);
1825 }
1826 }
1827 } Token::LBracket => self.parse_array_expr(false),
1830 tok @ Token::Minus | tok @ Token::Plus => {
1831 let op = if *tok == Token::Plus {
1832 UnaryOperator::Plus
1833 } else {
1834 UnaryOperator::Minus
1835 };
1836 Ok(Expr::UnaryOp {
1837 op,
1838 expr: Box::new(
1839 self.parse_subexpr(self.dialect.prec_value(Precedence::MulDivModOp))?,
1840 ),
1841 })
1842 }
1843 Token::ExclamationMark if dialect.supports_bang_not_operator() => Ok(Expr::UnaryOp {
1844 op: UnaryOperator::BangNot,
1845 expr: Box::new(self.parse_subexpr(self.dialect.prec_value(Precedence::UnaryNot))?),
1846 }),
1847 tok @ Token::DoubleExclamationMark
1848 | tok @ Token::PGSquareRoot
1849 | tok @ Token::PGCubeRoot
1850 | tok @ Token::AtSign
1851 if dialect_is!(dialect is PostgreSqlDialect) =>
1852 {
1853 let op = match tok {
1854 Token::DoubleExclamationMark => UnaryOperator::PGPrefixFactorial,
1855 Token::PGSquareRoot => UnaryOperator::PGSquareRoot,
1856 Token::PGCubeRoot => UnaryOperator::PGCubeRoot,
1857 Token::AtSign => UnaryOperator::PGAbs,
1858 _ => {
1859 return Err(ParserError::ParserError(
1860 "Internal parser error: unexpected unary operator token".to_string(),
1861 ))
1862 }
1863 };
1864 Ok(Expr::UnaryOp {
1865 op,
1866 expr: Box::new(
1867 self.parse_subexpr(self.dialect.prec_value(Precedence::PlusMinus))?,
1868 ),
1869 })
1870 }
1871 Token::Tilde => Ok(Expr::UnaryOp {
1872 op: UnaryOperator::BitwiseNot,
1873 expr: Box::new(self.parse_subexpr(self.dialect.prec_value(Precedence::PlusMinus))?),
1874 }),
1875 tok @ Token::Sharp
1876 | tok @ Token::AtDashAt
1877 | tok @ Token::AtAt
1878 | tok @ Token::QuestionMarkDash
1879 | tok @ Token::QuestionPipe
1880 if self.dialect.supports_geometric_types() =>
1881 {
1882 let op = match tok {
1883 Token::Sharp => UnaryOperator::Hash,
1884 Token::AtDashAt => UnaryOperator::AtDashAt,
1885 Token::AtAt => UnaryOperator::DoubleAt,
1886 Token::QuestionMarkDash => UnaryOperator::QuestionDash,
1887 Token::QuestionPipe => UnaryOperator::QuestionPipe,
1888 _ => {
1889 return Err(ParserError::ParserError(format!(
1890 "Unexpected token in unary operator parsing: {tok:?}"
1891 )))
1892 }
1893 };
1894 Ok(Expr::UnaryOp {
1895 op,
1896 expr: Box::new(
1897 self.parse_subexpr(self.dialect.prec_value(Precedence::PlusMinus))?,
1898 ),
1899 })
1900 }
1901 Token::EscapedStringLiteral(_) if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) =>
1902 {
1903 self.prev_token();
1904 Ok(Expr::Value(self.parse_value()?))
1905 }
1906 Token::UnicodeStringLiteral(_) => {
1907 self.prev_token();
1908 Ok(Expr::Value(self.parse_value()?))
1909 }
1910 Token::Number(_, _)
1911 | Token::SingleQuotedString(_)
1912 | Token::DoubleQuotedString(_)
1913 | Token::TripleSingleQuotedString(_)
1914 | Token::TripleDoubleQuotedString(_)
1915 | Token::DollarQuotedString(_)
1916 | Token::SingleQuotedByteStringLiteral(_)
1917 | Token::DoubleQuotedByteStringLiteral(_)
1918 | Token::TripleSingleQuotedByteStringLiteral(_)
1919 | Token::TripleDoubleQuotedByteStringLiteral(_)
1920 | Token::SingleQuotedRawStringLiteral(_)
1921 | Token::DoubleQuotedRawStringLiteral(_)
1922 | Token::TripleSingleQuotedRawStringLiteral(_)
1923 | Token::TripleDoubleQuotedRawStringLiteral(_)
1924 | Token::NationalStringLiteral(_)
1925 | Token::QuoteDelimitedStringLiteral(_)
1926 | Token::NationalQuoteDelimitedStringLiteral(_)
1927 | Token::HexStringLiteral(_) => {
1928 self.prev_token();
1929 Ok(Expr::Value(self.parse_value()?))
1930 }
1931 Token::LParen => {
1932 let expr =
1933 if let Some(expr) = self.try_parse_expr_sub_query()? {
1934 expr
1935 } else if let Some(lambda) = self.try_parse_lambda()? {
1936 return Ok(lambda);
1937 } else {
1938 let exprs = self.with_state(ParserState::Normal, |p| {
1949 p.parse_comma_separated(Parser::parse_expr)
1950 })?;
1951 match exprs.len() {
1952 0 => return Err(ParserError::ParserError(
1953 "Internal parser error: parse_comma_separated returned empty list"
1954 .to_string(),
1955 )),
1956 1 => Expr::Nested(Box::new(exprs.into_iter().next().unwrap())),
1957 _ => Expr::Tuple(exprs),
1958 }
1959 };
1960 self.expect_token(&Token::RParen)?;
1961 Ok(expr)
1962 }
1963 Token::Placeholder(_) | Token::Colon | Token::AtSign => {
1964 self.prev_token();
1965 Ok(Expr::Value(self.parse_value()?))
1966 }
1967 Token::LBrace => {
1968 self.prev_token();
1969 self.parse_lbrace_expr()
1970 }
1971 _ => self.expected_at("an expression", next_token_index),
1972 }?;
1973
1974 Ok(expr)
1975 }
1976
1977 fn parse_geometric_type(&mut self, kind: GeometricTypeKind) -> Result<Expr, ParserError> {
1978 Ok(Expr::TypedString(TypedString {
1979 data_type: DataType::GeometricType(kind),
1980 value: self.parse_value()?,
1981 uses_odbc_syntax: false,
1982 }))
1983 }
1984
1985 pub fn parse_compound_expr(
1992 &mut self,
1993 root: Expr,
1994 mut chain: Vec<AccessExpr>,
1995 ) -> Result<Expr, ParserError> {
1996 let mut ending_wildcard: Option<TokenWithSpan> = None;
1997 loop {
1998 if self.consume_token(&Token::Period) {
1999 let next_token = self.peek_token_ref();
2000 match &next_token.token {
2001 Token::Mul => {
2002 if dialect_of!(self is PostgreSqlDialect) {
2005 ending_wildcard = Some(self.next_token());
2006 } else {
2007 self.prev_token(); }
2014
2015 break;
2016 }
2017 Token::SingleQuotedString(s) => {
2018 let expr =
2019 Expr::Identifier(Ident::with_quote_and_span('\'', next_token.span, s));
2020 chain.push(AccessExpr::Dot(expr));
2021 self.advance_token(); }
2023 Token::Placeholder(s) => {
2024 let expr = Expr::Identifier(Ident::with_span(next_token.span, s));
2027 chain.push(AccessExpr::Dot(expr));
2028 self.advance_token(); }
2030 _ => {
2035 let expr = self.maybe_parse(|parser| {
2036 let expr = parser
2037 .parse_subexpr(parser.dialect.prec_value(Precedence::Period))?;
2038 match &expr {
2039 Expr::CompoundFieldAccess { .. }
2040 | Expr::CompoundIdentifier(_)
2041 | Expr::Identifier(_)
2042 | Expr::Value(_)
2043 | Expr::Function(_) => Ok(expr),
2044 _ => parser.expected_ref(
2045 "an identifier or value",
2046 parser.peek_token_ref(),
2047 ),
2048 }
2049 })?;
2050
2051 match expr {
2052 Some(Expr::CompoundFieldAccess { root, access_chain }) => {
2061 chain.push(AccessExpr::Dot(*root));
2062 chain.extend(access_chain);
2063 }
2064 Some(Expr::CompoundIdentifier(parts)) => chain.extend(
2065 parts.into_iter().map(Expr::Identifier).map(AccessExpr::Dot),
2066 ),
2067 Some(expr) => {
2068 chain.push(AccessExpr::Dot(expr));
2069 }
2070 None => {
2074 chain.push(AccessExpr::Dot(Expr::Identifier(
2075 self.parse_identifier()?,
2076 )));
2077 }
2078 }
2079 }
2080 }
2081 } else if !self.dialect.supports_partiql()
2082 && self.peek_token_ref().token == Token::LBracket
2083 {
2084 self.parse_multi_dim_subscript(&mut chain)?;
2085 } else {
2086 break;
2087 }
2088 }
2089
2090 let tok_index = self.get_current_index();
2091 if let Some(wildcard_token) = ending_wildcard {
2092 if !Self::is_all_ident(&root, &chain) {
2093 return self
2094 .expected_ref("an identifier or a '*' after '.'", self.peek_token_ref());
2095 };
2096 Ok(Expr::QualifiedWildcard(
2097 ObjectName::from(Self::exprs_to_idents(root, chain)?),
2098 AttachedToken(wildcard_token),
2099 ))
2100 } else if self.maybe_parse_outer_join_operator() {
2101 if !Self::is_all_ident(&root, &chain) {
2102 return self.expected_at("column identifier before (+)", tok_index);
2103 };
2104 let expr = if chain.is_empty() {
2105 root
2106 } else {
2107 Expr::CompoundIdentifier(Self::exprs_to_idents(root, chain)?)
2108 };
2109 Ok(Expr::OuterJoin(expr.into()))
2110 } else {
2111 Self::build_compound_expr(root, chain)
2112 }
2113 }
2114
2115 fn build_compound_expr(
2120 root: Expr,
2121 mut access_chain: Vec<AccessExpr>,
2122 ) -> Result<Expr, ParserError> {
2123 if access_chain.is_empty() {
2124 return Ok(root);
2125 }
2126
2127 if Self::is_all_ident(&root, &access_chain) {
2128 return Ok(Expr::CompoundIdentifier(Self::exprs_to_idents(
2129 root,
2130 access_chain,
2131 )?));
2132 }
2133
2134 if matches!(root, Expr::Identifier(_))
2139 && matches!(
2140 access_chain.last(),
2141 Some(AccessExpr::Dot(Expr::Function(_)))
2142 )
2143 && access_chain
2144 .iter()
2145 .rev()
2146 .skip(1) .all(|access| matches!(access, AccessExpr::Dot(Expr::Identifier(_))))
2148 {
2149 let Some(AccessExpr::Dot(Expr::Function(mut func))) = access_chain.pop() else {
2150 return parser_err!("expected function expression", root.span().start);
2151 };
2152
2153 let compound_func_name = [root]
2154 .into_iter()
2155 .chain(access_chain.into_iter().flat_map(|access| match access {
2156 AccessExpr::Dot(expr) => Some(expr),
2157 _ => None,
2158 }))
2159 .flat_map(|expr| match expr {
2160 Expr::Identifier(ident) => Some(ident),
2161 _ => None,
2162 })
2163 .map(ObjectNamePart::Identifier)
2164 .chain(func.name.0)
2165 .collect::<Vec<_>>();
2166 func.name = ObjectName(compound_func_name);
2167
2168 return Ok(Expr::Function(func));
2169 }
2170
2171 if access_chain.len() == 1
2176 && matches!(
2177 access_chain.last(),
2178 Some(AccessExpr::Dot(Expr::OuterJoin(_)))
2179 )
2180 {
2181 let Some(AccessExpr::Dot(Expr::OuterJoin(inner_expr))) = access_chain.pop() else {
2182 return parser_err!("expected (+) expression", root.span().start);
2183 };
2184
2185 if !Self::is_all_ident(&root, &[]) {
2186 return parser_err!("column identifier before (+)", root.span().start);
2187 };
2188
2189 let token_start = root.span().start;
2190 let mut idents = Self::exprs_to_idents(root, vec![])?;
2191 match *inner_expr {
2192 Expr::CompoundIdentifier(suffix) => idents.extend(suffix),
2193 Expr::Identifier(suffix) => idents.push(suffix),
2194 _ => {
2195 return parser_err!("column identifier before (+)", token_start);
2196 }
2197 }
2198
2199 return Ok(Expr::OuterJoin(Expr::CompoundIdentifier(idents).into()));
2200 }
2201
2202 Ok(Expr::CompoundFieldAccess {
2203 root: Box::new(root),
2204 access_chain,
2205 })
2206 }
2207
2208 fn keyword_to_modifier(k: Keyword) -> Option<ContextModifier> {
2209 match k {
2210 Keyword::LOCAL => Some(ContextModifier::Local),
2211 Keyword::GLOBAL => Some(ContextModifier::Global),
2212 Keyword::SESSION => Some(ContextModifier::Session),
2213 _ => None,
2214 }
2215 }
2216
2217 fn is_all_ident(root: &Expr, fields: &[AccessExpr]) -> bool {
2219 if !matches!(root, Expr::Identifier(_)) {
2220 return false;
2221 }
2222 fields
2223 .iter()
2224 .all(|x| matches!(x, AccessExpr::Dot(Expr::Identifier(_))))
2225 }
2226
2227 fn exprs_to_idents(root: Expr, fields: Vec<AccessExpr>) -> Result<Vec<Ident>, ParserError> {
2229 let mut idents = vec![];
2230 if let Expr::Identifier(root) = root {
2231 idents.push(root);
2232 for x in fields {
2233 if let AccessExpr::Dot(Expr::Identifier(ident)) = x {
2234 idents.push(ident);
2235 } else {
2236 return parser_err!(
2237 format!("Expected identifier, found: {}", x),
2238 x.span().start
2239 );
2240 }
2241 }
2242 Ok(idents)
2243 } else {
2244 parser_err!(
2245 format!("Expected identifier, found: {}", root),
2246 root.span().start
2247 )
2248 }
2249 }
2250
2251 fn peek_outer_join_operator(&mut self) -> bool {
2253 if !self.dialect.supports_outer_join_operator() {
2254 return false;
2255 }
2256
2257 let [maybe_lparen, maybe_plus, maybe_rparen] = self.peek_tokens_ref();
2258 Token::LParen == maybe_lparen.token
2259 && Token::Plus == maybe_plus.token
2260 && Token::RParen == maybe_rparen.token
2261 }
2262
2263 fn maybe_parse_outer_join_operator(&mut self) -> bool {
2266 self.dialect.supports_outer_join_operator()
2267 && self.consume_tokens(&[Token::LParen, Token::Plus, Token::RParen])
2268 }
2269
2270 pub fn parse_utility_options(&mut self) -> Result<Vec<UtilityOption>, ParserError> {
2272 self.expect_token(&Token::LParen)?;
2273 let options = self.parse_comma_separated(Self::parse_utility_option)?;
2274 self.expect_token(&Token::RParen)?;
2275
2276 Ok(options)
2277 }
2278
2279 fn parse_utility_option(&mut self) -> Result<UtilityOption, ParserError> {
2280 let name = self.parse_identifier()?;
2281
2282 let next_token = self.peek_token_ref();
2283 if next_token == &Token::Comma || next_token == &Token::RParen {
2284 return Ok(UtilityOption { name, arg: None });
2285 }
2286 let arg = self.parse_expr()?;
2287
2288 Ok(UtilityOption {
2289 name,
2290 arg: Some(arg),
2291 })
2292 }
2293
2294 fn try_parse_expr_sub_query(&mut self) -> Result<Option<Expr>, ParserError> {
2295 if !self.peek_sub_query() {
2296 return Ok(None);
2297 }
2298
2299 Ok(Some(Expr::Subquery(self.parse_query()?)))
2300 }
2301
2302 fn try_parse_lambda(&mut self) -> Result<Option<Expr>, ParserError> {
2303 if !self.dialect.supports_lambda_functions() {
2304 return Ok(None);
2305 }
2306 self.maybe_parse(|p| {
2307 let params = p.parse_comma_separated(|p| p.parse_lambda_function_parameter())?;
2308 p.expect_token(&Token::RParen)?;
2309 p.expect_token(&Token::Arrow)?;
2310 let expr = p.parse_expr()?;
2311 Ok(Expr::Lambda(LambdaFunction {
2312 params: OneOrManyWithParens::Many(params),
2313 body: Box::new(expr),
2314 syntax: LambdaSyntax::Arrow,
2315 }))
2316 })
2317 }
2318
2319 fn parse_lambda_expr(&mut self) -> Result<Expr, ParserError> {
2329 let params = self.parse_lambda_function_parameters()?;
2331 self.expect_token(&Token::Colon)?;
2333 let body = self.parse_expr()?;
2335 Ok(Expr::Lambda(LambdaFunction {
2336 params,
2337 body: Box::new(body),
2338 syntax: LambdaSyntax::LambdaKeyword,
2339 }))
2340 }
2341
2342 fn parse_lambda_function_parameters(
2344 &mut self,
2345 ) -> Result<OneOrManyWithParens<LambdaFunctionParameter>, ParserError> {
2346 let params = if self.consume_token(&Token::LParen) {
2348 let params = self.parse_comma_separated(|p| p.parse_lambda_function_parameter())?;
2350 self.expect_token(&Token::RParen)?;
2351 OneOrManyWithParens::Many(params)
2352 } else {
2353 let params = self.parse_comma_separated(|p| p.parse_lambda_function_parameter())?;
2355 if params.len() == 1 {
2356 OneOrManyWithParens::One(params.into_iter().next().unwrap())
2357 } else {
2358 OneOrManyWithParens::Many(params)
2359 }
2360 };
2361 Ok(params)
2362 }
2363
2364 fn parse_lambda_function_parameter(&mut self) -> Result<LambdaFunctionParameter, ParserError> {
2366 let name = self.parse_identifier()?;
2367 let data_type = match &self.peek_token_ref().token {
2368 Token::Word(_) => self.maybe_parse(|p| p.parse_data_type())?,
2369 _ => None,
2370 };
2371 Ok(LambdaFunctionParameter { name, data_type })
2372 }
2373
2374 fn maybe_parse_odbc_body(&mut self) -> Result<Option<Expr>, ParserError> {
2381 if let Some(expr) = self.maybe_parse_odbc_fn_body()? {
2383 return Ok(Some(expr));
2384 }
2385 self.maybe_parse_odbc_body_datetime()
2387 }
2388
2389 fn maybe_parse_odbc_body_datetime(&mut self) -> Result<Option<Expr>, ParserError> {
2400 self.maybe_parse(|p| {
2401 let token = p.next_token().clone();
2402 let word_string = token.token.to_string();
2403 let data_type = match word_string.as_str() {
2404 "t" => DataType::Time(None, TimezoneInfo::None),
2405 "d" => DataType::Date,
2406 "ts" => DataType::Timestamp(None, TimezoneInfo::None),
2407 _ => return p.expected("ODBC datetime keyword (t, d, or ts)", token),
2408 };
2409 let value = p.parse_value()?;
2410 Ok(Expr::TypedString(TypedString {
2411 data_type,
2412 value,
2413 uses_odbc_syntax: true,
2414 }))
2415 })
2416 }
2417
2418 fn maybe_parse_odbc_fn_body(&mut self) -> Result<Option<Expr>, ParserError> {
2427 self.maybe_parse(|p| {
2428 p.expect_keyword(Keyword::FN)?;
2429 let fn_name = p.parse_object_name(false)?;
2430 let mut fn_call = p.parse_function_call(fn_name)?;
2431 fn_call.uses_odbc_syntax = true;
2432 Ok(Expr::Function(fn_call))
2433 })
2434 }
2435
2436 pub fn parse_function(&mut self, name: ObjectName) -> Result<Expr, ParserError> {
2438 self.parse_function_call(name).map(Expr::Function)
2439 }
2440
2441 fn parse_function_call(&mut self, name: ObjectName) -> Result<Function, ParserError> {
2442 self.expect_token(&Token::LParen)?;
2443
2444 if self.dialect.supports_subquery_as_function_arg() && self.peek_sub_query() {
2447 let subquery = self.parse_query()?;
2448 self.expect_token(&Token::RParen)?;
2449 return Ok(Function {
2450 name,
2451 uses_odbc_syntax: false,
2452 parameters: FunctionArguments::None,
2453 args: FunctionArguments::Subquery(subquery),
2454 filter: None,
2455 null_treatment: None,
2456 over: None,
2457 within_group: vec![],
2458 });
2459 }
2460
2461 let mut args = self.parse_function_argument_list()?;
2462 let mut parameters = FunctionArguments::None;
2463 if dialect_of!(self is ClickHouseDialect | GenericDialect)
2466 && self.consume_token(&Token::LParen)
2467 {
2468 parameters = FunctionArguments::List(args);
2469 args = self.parse_function_argument_list()?;
2470 }
2471
2472 let within_group = if self.parse_keywords(&[Keyword::WITHIN, Keyword::GROUP]) {
2473 self.expect_token(&Token::LParen)?;
2474 self.expect_keywords(&[Keyword::ORDER, Keyword::BY])?;
2475 let order_by = self.parse_comma_separated(Parser::parse_order_by_expr)?;
2476 self.expect_token(&Token::RParen)?;
2477 order_by
2478 } else {
2479 vec![]
2480 };
2481
2482 let filter = if self.dialect.supports_filter_during_aggregation()
2483 && self.parse_keyword(Keyword::FILTER)
2484 && self.consume_token(&Token::LParen)
2485 && self.parse_keyword(Keyword::WHERE)
2486 {
2487 let filter = Some(Box::new(self.parse_expr()?));
2488 self.expect_token(&Token::RParen)?;
2489 filter
2490 } else {
2491 None
2492 };
2493
2494 let null_treatment = if args
2497 .clauses
2498 .iter()
2499 .all(|clause| !matches!(clause, FunctionArgumentClause::IgnoreOrRespectNulls(_)))
2500 {
2501 self.parse_null_treatment()?
2502 } else {
2503 None
2504 };
2505
2506 let over = if self.parse_keyword(Keyword::OVER) {
2507 if self.consume_token(&Token::LParen) {
2508 let window_spec = self.parse_window_spec()?;
2509 Some(WindowType::WindowSpec(window_spec))
2510 } else {
2511 Some(WindowType::NamedWindow(self.parse_identifier()?))
2512 }
2513 } else {
2514 None
2515 };
2516
2517 Ok(Function {
2518 name,
2519 uses_odbc_syntax: false,
2520 parameters,
2521 args: FunctionArguments::List(args),
2522 null_treatment,
2523 filter,
2524 over,
2525 within_group,
2526 })
2527 }
2528
2529 fn parse_null_treatment(&mut self) -> Result<Option<NullTreatment>, ParserError> {
2531 match self.parse_one_of_keywords(&[Keyword::RESPECT, Keyword::IGNORE]) {
2532 Some(keyword) => {
2533 self.expect_keyword_is(Keyword::NULLS)?;
2534
2535 Ok(match keyword {
2536 Keyword::RESPECT => Some(NullTreatment::RespectNulls),
2537 Keyword::IGNORE => Some(NullTreatment::IgnoreNulls),
2538 _ => None,
2539 })
2540 }
2541 None => Ok(None),
2542 }
2543 }
2544
2545 pub fn parse_time_functions(&mut self, name: ObjectName) -> Result<Expr, ParserError> {
2547 let args = if self.consume_token(&Token::LParen) {
2548 FunctionArguments::List(self.parse_function_argument_list()?)
2549 } else {
2550 FunctionArguments::None
2551 };
2552 Ok(Expr::Function(Function {
2553 name,
2554 uses_odbc_syntax: false,
2555 parameters: FunctionArguments::None,
2556 args,
2557 filter: None,
2558 over: None,
2559 null_treatment: None,
2560 within_group: vec![],
2561 }))
2562 }
2563
2564 pub fn parse_window_frame_units(&mut self) -> Result<WindowFrameUnits, ParserError> {
2566 let next_token = self.next_token();
2567 match &next_token.token {
2568 Token::Word(w) => match w.keyword {
2569 Keyword::ROWS => Ok(WindowFrameUnits::Rows),
2570 Keyword::RANGE => Ok(WindowFrameUnits::Range),
2571 Keyword::GROUPS => Ok(WindowFrameUnits::Groups),
2572 _ => self.expected("ROWS, RANGE, GROUPS", next_token)?,
2573 },
2574 _ => self.expected("ROWS, RANGE, GROUPS", next_token),
2575 }
2576 }
2577
2578 pub fn parse_window_frame(&mut self) -> Result<WindowFrame, ParserError> {
2580 let units = self.parse_window_frame_units()?;
2581 let (start_bound, end_bound) = if self.parse_keyword(Keyword::BETWEEN) {
2582 let start_bound = self.parse_window_frame_bound()?;
2583 self.expect_keyword_is(Keyword::AND)?;
2584 let end_bound = Some(self.parse_window_frame_bound()?);
2585 (start_bound, end_bound)
2586 } else {
2587 (self.parse_window_frame_bound()?, None)
2588 };
2589 Ok(WindowFrame {
2590 units,
2591 start_bound,
2592 end_bound,
2593 })
2594 }
2595
2596 pub fn parse_window_frame_bound(&mut self) -> Result<WindowFrameBound, ParserError> {
2598 if self.parse_keywords(&[Keyword::CURRENT, Keyword::ROW]) {
2599 Ok(WindowFrameBound::CurrentRow)
2600 } else {
2601 let rows = if self.parse_keyword(Keyword::UNBOUNDED) {
2602 None
2603 } else {
2604 Some(Box::new(match &self.peek_token_ref().token {
2605 Token::SingleQuotedString(_) => self.parse_interval()?,
2606 _ => self.parse_expr()?,
2607 }))
2608 };
2609 if self.parse_keyword(Keyword::PRECEDING) {
2610 Ok(WindowFrameBound::Preceding(rows))
2611 } else if self.parse_keyword(Keyword::FOLLOWING) {
2612 Ok(WindowFrameBound::Following(rows))
2613 } else {
2614 self.expected_ref("PRECEDING or FOLLOWING", self.peek_token_ref())
2615 }
2616 }
2617 }
2618
2619 fn parse_group_by_expr(&mut self) -> Result<Expr, ParserError> {
2621 if self.dialect.supports_group_by_expr() {
2622 if self.parse_keywords(&[Keyword::GROUPING, Keyword::SETS]) {
2623 self.expect_token(&Token::LParen)?;
2624 let result = self.parse_comma_separated(|p| p.parse_tuple(true, true))?;
2625 self.expect_token(&Token::RParen)?;
2626 Ok(Expr::GroupingSets(result))
2627 } else if self.parse_keyword(Keyword::CUBE) {
2628 self.expect_token(&Token::LParen)?;
2629 let result = self.parse_comma_separated(|p| p.parse_tuple(true, true))?;
2630 self.expect_token(&Token::RParen)?;
2631 Ok(Expr::Cube(result))
2632 } else if self.parse_keyword(Keyword::ROLLUP) {
2633 self.expect_token(&Token::LParen)?;
2634 let result = self.parse_comma_separated(|p| p.parse_tuple(true, true))?;
2635 self.expect_token(&Token::RParen)?;
2636 Ok(Expr::Rollup(result))
2637 } else if self.consume_tokens(&[Token::LParen, Token::RParen]) {
2638 Ok(Expr::Tuple(vec![]))
2642 } else {
2643 self.parse_expr()
2644 }
2645 } else {
2646 self.parse_expr()
2648 }
2649 }
2650
2651 fn parse_tuple(
2655 &mut self,
2656 lift_singleton: bool,
2657 allow_empty: bool,
2658 ) -> Result<Vec<Expr>, ParserError> {
2659 if lift_singleton {
2660 if self.consume_token(&Token::LParen) {
2661 let result = if allow_empty && self.consume_token(&Token::RParen) {
2662 vec![]
2663 } else {
2664 let result = self.parse_comma_separated(Parser::parse_expr)?;
2665 self.expect_token(&Token::RParen)?;
2666 result
2667 };
2668 Ok(result)
2669 } else {
2670 Ok(vec![self.parse_expr()?])
2671 }
2672 } else {
2673 self.expect_token(&Token::LParen)?;
2674 let result = if allow_empty && self.consume_token(&Token::RParen) {
2675 vec![]
2676 } else {
2677 let result = self.parse_comma_separated(Parser::parse_expr)?;
2678 self.expect_token(&Token::RParen)?;
2679 result
2680 };
2681 Ok(result)
2682 }
2683 }
2684
2685 pub fn parse_case_expr(&mut self) -> Result<Expr, ParserError> {
2687 let case_token = AttachedToken(self.get_current_token().clone());
2688 let mut operand = None;
2689 if !self.parse_keyword(Keyword::WHEN) {
2690 operand = Some(Box::new(self.parse_expr()?));
2691 self.expect_keyword_is(Keyword::WHEN)?;
2692 }
2693 let mut conditions = vec![];
2694 loop {
2695 let condition = self.parse_expr()?;
2696 self.expect_keyword_is(Keyword::THEN)?;
2697 let result = self.parse_expr()?;
2698 conditions.push(CaseWhen { condition, result });
2699 if !self.parse_keyword(Keyword::WHEN) {
2700 break;
2701 }
2702 }
2703 let else_result = if self.parse_keyword(Keyword::ELSE) {
2704 Some(Box::new(self.parse_expr()?))
2705 } else {
2706 None
2707 };
2708 let end_token = AttachedToken(self.expect_keyword(Keyword::END)?);
2709 Ok(Expr::Case {
2710 case_token,
2711 end_token,
2712 operand,
2713 conditions,
2714 else_result,
2715 })
2716 }
2717
2718 pub fn parse_optional_cast_format(&mut self) -> Result<Option<CastFormat>, ParserError> {
2720 if self.parse_keyword(Keyword::FORMAT) {
2721 let value = self.parse_value()?;
2722 match self.parse_optional_time_zone()? {
2723 Some(tz) => Ok(Some(CastFormat::ValueAtTimeZone(value, tz))),
2724 None => Ok(Some(CastFormat::Value(value))),
2725 }
2726 } else {
2727 Ok(None)
2728 }
2729 }
2730
2731 pub fn parse_optional_time_zone(&mut self) -> Result<Option<ValueWithSpan>, ParserError> {
2733 if self.parse_keywords(&[Keyword::AT, Keyword::TIME, Keyword::ZONE]) {
2734 self.parse_value().map(Some)
2735 } else {
2736 Ok(None)
2737 }
2738 }
2739
2740 fn parse_mssql_convert(&mut self, is_try: bool) -> Result<Expr, ParserError> {
2742 self.expect_token(&Token::LParen)?;
2743 let data_type = self.parse_data_type()?;
2744 self.expect_token(&Token::Comma)?;
2745 let expr = self.parse_expr()?;
2746 let styles = if self.consume_token(&Token::Comma) {
2747 self.parse_comma_separated(Parser::parse_expr)?
2748 } else {
2749 Default::default()
2750 };
2751 self.expect_token(&Token::RParen)?;
2752 Ok(Expr::Convert {
2753 is_try,
2754 expr: Box::new(expr),
2755 data_type: Some(data_type),
2756 charset: None,
2757 target_before_value: true,
2758 styles,
2759 })
2760 }
2761
2762 pub fn parse_convert_expr(&mut self, is_try: bool) -> Result<Expr, ParserError> {
2767 if self.dialect.convert_type_before_value() {
2768 return self.parse_mssql_convert(is_try);
2769 }
2770 self.expect_token(&Token::LParen)?;
2771 let expr = self.parse_expr()?;
2772 if self.parse_keyword(Keyword::USING) {
2773 let charset = self.parse_object_name(false)?;
2774 self.expect_token(&Token::RParen)?;
2775 return Ok(Expr::Convert {
2776 is_try,
2777 expr: Box::new(expr),
2778 data_type: None,
2779 charset: Some(charset),
2780 target_before_value: false,
2781 styles: vec![],
2782 });
2783 }
2784 self.expect_token(&Token::Comma)?;
2785 let data_type = self.parse_data_type()?;
2786 let charset = if self.parse_keywords(&[Keyword::CHARACTER, Keyword::SET]) {
2787 Some(self.parse_object_name(false)?)
2788 } else {
2789 None
2790 };
2791 self.expect_token(&Token::RParen)?;
2792 Ok(Expr::Convert {
2793 is_try,
2794 expr: Box::new(expr),
2795 data_type: Some(data_type),
2796 charset,
2797 target_before_value: false,
2798 styles: vec![],
2799 })
2800 }
2801
2802 pub fn parse_cast_expr(&mut self, kind: CastKind) -> Result<Expr, ParserError> {
2804 self.expect_token(&Token::LParen)?;
2805 let expr = self.parse_expr()?;
2806 self.expect_keyword_is(Keyword::AS)?;
2807 let data_type = self.parse_data_type()?;
2808 let array = self.parse_keyword(Keyword::ARRAY);
2809 let format = self.parse_optional_cast_format()?;
2810 self.expect_token(&Token::RParen)?;
2811 Ok(Expr::Cast {
2812 kind,
2813 expr: Box::new(expr),
2814 data_type,
2815 array,
2816 format,
2817 })
2818 }
2819
2820 pub fn parse_exists_expr(&mut self, negated: bool) -> Result<Expr, ParserError> {
2822 self.expect_token(&Token::LParen)?;
2823 let exists_node = Expr::Exists {
2824 negated,
2825 subquery: self.parse_query()?,
2826 };
2827 self.expect_token(&Token::RParen)?;
2828 Ok(exists_node)
2829 }
2830
2831 pub fn parse_extract_expr(&mut self) -> Result<Expr, ParserError> {
2833 self.expect_token(&Token::LParen)?;
2834 let field = self.parse_date_time_field()?;
2835
2836 let syntax = if self.parse_keyword(Keyword::FROM) {
2837 ExtractSyntax::From
2838 } else if self.dialect.supports_extract_comma_syntax() && self.consume_token(&Token::Comma)
2839 {
2840 ExtractSyntax::Comma
2841 } else {
2842 return Err(ParserError::ParserError(
2843 "Expected 'FROM' or ','".to_string(),
2844 ));
2845 };
2846
2847 let expr = self.parse_expr()?;
2848 self.expect_token(&Token::RParen)?;
2849 Ok(Expr::Extract {
2850 field,
2851 expr: Box::new(expr),
2852 syntax,
2853 })
2854 }
2855
2856 pub fn parse_ceil_floor_expr(&mut self, is_ceil: bool) -> Result<Expr, ParserError> {
2858 self.expect_token(&Token::LParen)?;
2859 let expr = self.parse_expr()?;
2860 let field = if self.parse_keyword(Keyword::TO) {
2862 CeilFloorKind::DateTimeField(self.parse_date_time_field()?)
2864 } else if self.consume_token(&Token::Comma) {
2865 let v = self.parse_value()?;
2867 if matches!(v.value, Value::Number(_, _)) {
2868 CeilFloorKind::Scale(v)
2869 } else {
2870 return Err(ParserError::ParserError(
2871 "Scale field can only be of number type".to_string(),
2872 ));
2873 }
2874 } else {
2875 CeilFloorKind::DateTimeField(DateTimeField::NoDateTime)
2876 };
2877 self.expect_token(&Token::RParen)?;
2878 if is_ceil {
2879 Ok(Expr::Ceil {
2880 expr: Box::new(expr),
2881 field,
2882 })
2883 } else {
2884 Ok(Expr::Floor {
2885 expr: Box::new(expr),
2886 field,
2887 })
2888 }
2889 }
2890
2891 pub fn parse_position_expr(&mut self, ident: Ident) -> Result<Expr, ParserError> {
2893 let between_prec = self.dialect.prec_value(Precedence::Between);
2894 let position_expr = self.maybe_parse(|p| {
2895 p.expect_token(&Token::LParen)?;
2897
2898 let expr = p.parse_subexpr(between_prec)?;
2900 p.expect_keyword_is(Keyword::IN)?;
2901 let from = p.parse_expr()?;
2902 p.expect_token(&Token::RParen)?;
2903 Ok(Expr::Position {
2904 expr: Box::new(expr),
2905 r#in: Box::new(from),
2906 })
2907 })?;
2908 match position_expr {
2909 Some(expr) => Ok(expr),
2910 None => self.parse_function(ObjectName::from(vec![ident])),
2913 }
2914 }
2915
2916 pub fn parse_substring(&mut self) -> Result<Expr, ParserError> {
2918 let shorthand = match self.expect_one_of_keywords(&[Keyword::SUBSTR, Keyword::SUBSTRING])? {
2919 Keyword::SUBSTR => true,
2920 Keyword::SUBSTRING => false,
2921 _ => {
2922 self.prev_token();
2923 return self.expected_ref("SUBSTR or SUBSTRING", self.peek_token_ref());
2924 }
2925 };
2926 self.expect_token(&Token::LParen)?;
2927 let expr = self.parse_expr()?;
2928 let mut from_expr = None;
2929 let special = self.consume_token(&Token::Comma);
2930 if special || self.parse_keyword(Keyword::FROM) {
2931 from_expr = Some(self.parse_expr()?);
2932 }
2933
2934 let mut to_expr = None;
2935 if self.parse_keyword(Keyword::FOR) || self.consume_token(&Token::Comma) {
2936 to_expr = Some(self.parse_expr()?);
2937 }
2938 self.expect_token(&Token::RParen)?;
2939
2940 Ok(Expr::Substring {
2941 expr: Box::new(expr),
2942 substring_from: from_expr.map(Box::new),
2943 substring_for: to_expr.map(Box::new),
2944 special,
2945 shorthand,
2946 })
2947 }
2948
2949 pub fn parse_overlay_expr(&mut self) -> Result<Expr, ParserError> {
2953 self.expect_token(&Token::LParen)?;
2955 let expr = self.parse_expr()?;
2956 self.expect_keyword_is(Keyword::PLACING)?;
2957 let what_expr = self.parse_expr()?;
2958 self.expect_keyword_is(Keyword::FROM)?;
2959 let from_expr = self.parse_expr()?;
2960 let mut for_expr = None;
2961 if self.parse_keyword(Keyword::FOR) {
2962 for_expr = Some(self.parse_expr()?);
2963 }
2964 self.expect_token(&Token::RParen)?;
2965
2966 Ok(Expr::Overlay {
2967 expr: Box::new(expr),
2968 overlay_what: Box::new(what_expr),
2969 overlay_from: Box::new(from_expr),
2970 overlay_for: for_expr.map(Box::new),
2971 })
2972 }
2973
2974 pub fn parse_trim_expr(&mut self) -> Result<Expr, ParserError> {
2980 self.expect_token(&Token::LParen)?;
2981 let mut trim_where = None;
2982 if let Token::Word(word) = &self.peek_token_ref().token {
2983 if [Keyword::BOTH, Keyword::LEADING, Keyword::TRAILING].contains(&word.keyword) {
2984 trim_where = Some(self.parse_trim_where()?);
2985 }
2986 }
2987 let expr = self.parse_expr()?;
2988 if self.parse_keyword(Keyword::FROM) {
2989 let trim_what = Box::new(expr);
2990 let expr = self.parse_expr()?;
2991 self.expect_token(&Token::RParen)?;
2992 Ok(Expr::Trim {
2993 expr: Box::new(expr),
2994 trim_where,
2995 trim_what: Some(trim_what),
2996 trim_characters: None,
2997 })
2998 } else if self.dialect.supports_comma_separated_trim() && self.consume_token(&Token::Comma)
2999 {
3000 let characters = self.parse_comma_separated(Parser::parse_expr)?;
3001 self.expect_token(&Token::RParen)?;
3002 Ok(Expr::Trim {
3003 expr: Box::new(expr),
3004 trim_where: None,
3005 trim_what: None,
3006 trim_characters: Some(characters),
3007 })
3008 } else {
3009 self.expect_token(&Token::RParen)?;
3010 Ok(Expr::Trim {
3011 expr: Box::new(expr),
3012 trim_where,
3013 trim_what: None,
3014 trim_characters: None,
3015 })
3016 }
3017 }
3018
3019 pub fn parse_trim_where(&mut self) -> Result<TrimWhereField, ParserError> {
3023 let next_token = self.next_token();
3024 match &next_token.token {
3025 Token::Word(w) => match w.keyword {
3026 Keyword::BOTH => Ok(TrimWhereField::Both),
3027 Keyword::LEADING => Ok(TrimWhereField::Leading),
3028 Keyword::TRAILING => Ok(TrimWhereField::Trailing),
3029 _ => self.expected("trim_where field", next_token)?,
3030 },
3031 _ => self.expected("trim_where field", next_token),
3032 }
3033 }
3034
3035 pub fn parse_array_expr(&mut self, named: bool) -> Result<Expr, ParserError> {
3038 let exprs = self.parse_comma_separated0(Parser::parse_expr, Token::RBracket)?;
3039 self.expect_token(&Token::RBracket)?;
3040 Ok(Expr::Array(Array { elem: exprs, named }))
3041 }
3042
3043 pub fn parse_listagg_on_overflow(&mut self) -> Result<Option<ListAggOnOverflow>, ParserError> {
3047 if self.parse_keywords(&[Keyword::ON, Keyword::OVERFLOW]) {
3048 if self.parse_keyword(Keyword::ERROR) {
3049 Ok(Some(ListAggOnOverflow::Error))
3050 } else {
3051 self.expect_keyword_is(Keyword::TRUNCATE)?;
3052 let filler = match &self.peek_token_ref().token {
3053 Token::Word(w)
3054 if w.keyword == Keyword::WITH || w.keyword == Keyword::WITHOUT =>
3055 {
3056 None
3057 }
3058 Token::SingleQuotedString(_)
3059 | Token::EscapedStringLiteral(_)
3060 | Token::UnicodeStringLiteral(_)
3061 | Token::NationalStringLiteral(_)
3062 | Token::QuoteDelimitedStringLiteral(_)
3063 | Token::NationalQuoteDelimitedStringLiteral(_)
3064 | Token::HexStringLiteral(_) => Some(Box::new(self.parse_expr()?)),
3065 _ => self.expected_ref(
3066 "either filler, WITH, or WITHOUT in LISTAGG",
3067 self.peek_token_ref(),
3068 )?,
3069 };
3070 let with_count = self.parse_keyword(Keyword::WITH);
3071 if !with_count && !self.parse_keyword(Keyword::WITHOUT) {
3072 self.expected_ref("either WITH or WITHOUT in LISTAGG", self.peek_token_ref())?;
3073 }
3074 self.expect_keyword_is(Keyword::COUNT)?;
3075 Ok(Some(ListAggOnOverflow::Truncate { filler, with_count }))
3076 }
3077 } else {
3078 Ok(None)
3079 }
3080 }
3081
3082 pub fn parse_date_time_field(&mut self) -> Result<DateTimeField, ParserError> {
3089 let next_token = self.next_token();
3090 match &next_token.token {
3091 Token::Word(w) => match w.keyword {
3092 Keyword::YEAR => Ok(DateTimeField::Year),
3093 Keyword::YEARS => Ok(DateTimeField::Years),
3094 Keyword::MONTH => Ok(DateTimeField::Month),
3095 Keyword::MONTHS => Ok(DateTimeField::Months),
3096 Keyword::WEEK => {
3097 let week_day = if dialect_of!(self is BigQueryDialect | GenericDialect)
3098 && self.consume_token(&Token::LParen)
3099 {
3100 let week_day = self.parse_identifier()?;
3101 self.expect_token(&Token::RParen)?;
3102 Some(week_day)
3103 } else {
3104 None
3105 };
3106 Ok(DateTimeField::Week(week_day))
3107 }
3108 Keyword::WEEKS => Ok(DateTimeField::Weeks),
3109 Keyword::DAY => Ok(DateTimeField::Day),
3110 Keyword::DAYOFWEEK => Ok(DateTimeField::DayOfWeek),
3111 Keyword::DAYOFYEAR => Ok(DateTimeField::DayOfYear),
3112 Keyword::DAYS => Ok(DateTimeField::Days),
3113 Keyword::DATE => Ok(DateTimeField::Date),
3114 Keyword::DATETIME => Ok(DateTimeField::Datetime),
3115 Keyword::HOUR => Ok(DateTimeField::Hour),
3116 Keyword::HOURS => Ok(DateTimeField::Hours),
3117 Keyword::MINUTE => Ok(DateTimeField::Minute),
3118 Keyword::MINUTES => Ok(DateTimeField::Minutes),
3119 Keyword::SECOND => Ok(DateTimeField::Second),
3120 Keyword::SECONDS => Ok(DateTimeField::Seconds),
3121 Keyword::CENTURY => Ok(DateTimeField::Century),
3122 Keyword::DECADE => Ok(DateTimeField::Decade),
3123 Keyword::DOY => Ok(DateTimeField::Doy),
3124 Keyword::DOW => Ok(DateTimeField::Dow),
3125 Keyword::EPOCH => Ok(DateTimeField::Epoch),
3126 Keyword::ISODOW => Ok(DateTimeField::Isodow),
3127 Keyword::ISOYEAR => Ok(DateTimeField::Isoyear),
3128 Keyword::ISOWEEK => Ok(DateTimeField::IsoWeek),
3129 Keyword::JULIAN => Ok(DateTimeField::Julian),
3130 Keyword::MICROSECOND => Ok(DateTimeField::Microsecond),
3131 Keyword::MICROSECONDS => Ok(DateTimeField::Microseconds),
3132 Keyword::MILLENIUM => Ok(DateTimeField::Millenium),
3133 Keyword::MILLENNIUM => Ok(DateTimeField::Millennium),
3134 Keyword::MILLISECOND => Ok(DateTimeField::Millisecond),
3135 Keyword::MILLISECONDS => Ok(DateTimeField::Milliseconds),
3136 Keyword::NANOSECOND => Ok(DateTimeField::Nanosecond),
3137 Keyword::NANOSECONDS => Ok(DateTimeField::Nanoseconds),
3138 Keyword::QUARTER => Ok(DateTimeField::Quarter),
3139 Keyword::TIME => Ok(DateTimeField::Time),
3140 Keyword::TIMEZONE => Ok(DateTimeField::Timezone),
3141 Keyword::TIMEZONE_ABBR => Ok(DateTimeField::TimezoneAbbr),
3142 Keyword::TIMEZONE_HOUR => Ok(DateTimeField::TimezoneHour),
3143 Keyword::TIMEZONE_MINUTE => Ok(DateTimeField::TimezoneMinute),
3144 Keyword::TIMEZONE_REGION => Ok(DateTimeField::TimezoneRegion),
3145 _ if self.dialect.allow_extract_custom() => {
3146 self.prev_token();
3147 let custom = self.parse_identifier()?;
3148 Ok(DateTimeField::Custom(custom))
3149 }
3150 _ => self.expected("date/time field", next_token),
3151 },
3152 Token::SingleQuotedString(_) if self.dialect.allow_extract_single_quotes() => {
3153 self.prev_token();
3154 let custom = self.parse_identifier()?;
3155 Ok(DateTimeField::Custom(custom))
3156 }
3157 _ => self.expected("date/time field", next_token),
3158 }
3159 }
3160
3161 pub fn parse_not(&mut self) -> Result<Expr, ParserError> {
3165 match &self.peek_token_ref().token {
3166 Token::Word(w) => match w.keyword {
3167 Keyword::EXISTS => {
3168 let negated = true;
3169 let _ = self.parse_keyword(Keyword::EXISTS);
3170 self.parse_exists_expr(negated)
3171 }
3172 _ => Ok(Expr::UnaryOp {
3173 op: UnaryOperator::Not,
3174 expr: Box::new(
3175 self.parse_subexpr(self.dialect.prec_value(Precedence::UnaryNot))?,
3176 ),
3177 }),
3178 },
3179 _ => Ok(Expr::UnaryOp {
3180 op: UnaryOperator::Not,
3181 expr: Box::new(self.parse_subexpr(self.dialect.prec_value(Precedence::UnaryNot))?),
3182 }),
3183 }
3184 }
3185
3186 fn parse_lbrace_expr(&mut self) -> Result<Expr, ParserError> {
3196 let token = self.expect_token(&Token::LBrace)?;
3197
3198 if let Some(fn_expr) = self.maybe_parse_odbc_body()? {
3199 self.expect_token(&Token::RBrace)?;
3200 return Ok(fn_expr);
3201 }
3202
3203 if self.dialect.supports_dictionary_syntax() {
3204 self.prev_token(); return self.parse_dictionary();
3206 }
3207
3208 self.expected("an expression", token)
3209 }
3210
3211 pub fn parse_match_against(&mut self) -> Result<Expr, ParserError> {
3217 let columns = self.parse_parenthesized_qualified_column_list(Mandatory, false)?;
3218
3219 self.expect_keyword_is(Keyword::AGAINST)?;
3220
3221 self.expect_token(&Token::LParen)?;
3222
3223 let match_value = self.parse_value()?;
3225
3226 let in_natural_language_mode_keywords = &[
3227 Keyword::IN,
3228 Keyword::NATURAL,
3229 Keyword::LANGUAGE,
3230 Keyword::MODE,
3231 ];
3232
3233 let with_query_expansion_keywords = &[Keyword::WITH, Keyword::QUERY, Keyword::EXPANSION];
3234
3235 let in_boolean_mode_keywords = &[Keyword::IN, Keyword::BOOLEAN, Keyword::MODE];
3236
3237 let opt_search_modifier = if self.parse_keywords(in_natural_language_mode_keywords) {
3238 if self.parse_keywords(with_query_expansion_keywords) {
3239 Some(SearchModifier::InNaturalLanguageModeWithQueryExpansion)
3240 } else {
3241 Some(SearchModifier::InNaturalLanguageMode)
3242 }
3243 } else if self.parse_keywords(in_boolean_mode_keywords) {
3244 Some(SearchModifier::InBooleanMode)
3245 } else if self.parse_keywords(with_query_expansion_keywords) {
3246 Some(SearchModifier::WithQueryExpansion)
3247 } else {
3248 None
3249 };
3250
3251 self.expect_token(&Token::RParen)?;
3252
3253 Ok(Expr::MatchAgainst {
3254 columns,
3255 match_value,
3256 opt_search_modifier,
3257 })
3258 }
3259
3260 pub fn parse_interval(&mut self) -> Result<Expr, ParserError> {
3276 let value = if self.dialect.require_interval_qualifier() {
3285 self.parse_expr()?
3287 } else {
3288 self.parse_prefix()?
3291 };
3292
3293 let leading_field = if self.next_token_is_temporal_unit() {
3299 Some(self.parse_date_time_field()?)
3300 } else if self.dialect.require_interval_qualifier() {
3301 return parser_err!(
3302 "INTERVAL requires a unit after the literal value",
3303 self.peek_token_ref().span.start
3304 );
3305 } else {
3306 None
3307 };
3308
3309 let (leading_precision, last_field, fsec_precision) =
3310 if leading_field == Some(DateTimeField::Second) {
3311 let last_field = None;
3317 let (leading_precision, fsec_precision) = self.parse_optional_precision_scale()?;
3318 (leading_precision, last_field, fsec_precision)
3319 } else {
3320 let leading_precision = self.parse_optional_precision()?;
3321 if self.parse_keyword(Keyword::TO) {
3322 let last_field = Some(self.parse_date_time_field()?);
3323 let fsec_precision = if last_field == Some(DateTimeField::Second) {
3324 self.parse_optional_precision()?
3325 } else {
3326 None
3327 };
3328 (leading_precision, last_field, fsec_precision)
3329 } else {
3330 (leading_precision, None, None)
3331 }
3332 };
3333
3334 Ok(Expr::Interval(Interval {
3335 value: Box::new(value),
3336 leading_field,
3337 leading_precision,
3338 last_field,
3339 fractional_seconds_precision: fsec_precision,
3340 }))
3341 }
3342
3343 pub fn next_token_is_temporal_unit(&mut self) -> bool {
3346 if let Token::Word(word) = &self.peek_token_ref().token {
3347 matches!(
3348 word.keyword,
3349 Keyword::YEAR
3350 | Keyword::YEARS
3351 | Keyword::MONTH
3352 | Keyword::MONTHS
3353 | Keyword::WEEK
3354 | Keyword::WEEKS
3355 | Keyword::DAY
3356 | Keyword::DAYS
3357 | Keyword::HOUR
3358 | Keyword::HOURS
3359 | Keyword::MINUTE
3360 | Keyword::MINUTES
3361 | Keyword::SECOND
3362 | Keyword::SECONDS
3363 | Keyword::CENTURY
3364 | Keyword::DECADE
3365 | Keyword::DOW
3366 | Keyword::DOY
3367 | Keyword::EPOCH
3368 | Keyword::ISODOW
3369 | Keyword::ISOYEAR
3370 | Keyword::JULIAN
3371 | Keyword::MICROSECOND
3372 | Keyword::MICROSECONDS
3373 | Keyword::MILLENIUM
3374 | Keyword::MILLENNIUM
3375 | Keyword::MILLISECOND
3376 | Keyword::MILLISECONDS
3377 | Keyword::NANOSECOND
3378 | Keyword::NANOSECONDS
3379 | Keyword::QUARTER
3380 | Keyword::TIMEZONE
3381 | Keyword::TIMEZONE_HOUR
3382 | Keyword::TIMEZONE_MINUTE
3383 )
3384 } else {
3385 false
3386 }
3387 }
3388
3389 fn parse_struct_literal(&mut self) -> Result<Expr, ParserError> {
3397 self.prev_token();
3399 let (fields, trailing_bracket) =
3400 self.parse_struct_type_def(Self::parse_struct_field_def)?;
3401 if trailing_bracket.0 {
3402 return parser_err!(
3403 "unmatched > in STRUCT literal",
3404 self.peek_token_ref().span.start
3405 );
3406 }
3407
3408 self.expect_token(&Token::LParen)?;
3410 let values = self
3411 .parse_comma_separated(|parser| parser.parse_struct_field_expr(!fields.is_empty()))?;
3412 self.expect_token(&Token::RParen)?;
3413
3414 Ok(Expr::Struct { values, fields })
3415 }
3416
3417 fn parse_struct_field_expr(&mut self, typed_syntax: bool) -> Result<Expr, ParserError> {
3431 let expr = self.parse_expr()?;
3432 if self.parse_keyword(Keyword::AS) {
3433 if typed_syntax {
3434 return parser_err!("Typed syntax does not allow AS", {
3435 self.prev_token();
3436 self.peek_token_ref().span.start
3437 });
3438 }
3439 let field_name = self.parse_identifier()?;
3440 Ok(Expr::Named {
3441 expr: expr.into(),
3442 name: field_name,
3443 })
3444 } else {
3445 Ok(expr)
3446 }
3447 }
3448
3449 fn parse_struct_type_def<F>(
3462 &mut self,
3463 mut elem_parser: F,
3464 ) -> Result<(Vec<StructField>, MatchedTrailingBracket), ParserError>
3465 where
3466 F: FnMut(&mut Parser<'a>) -> Result<(StructField, MatchedTrailingBracket), ParserError>,
3467 {
3468 self.expect_keyword_is(Keyword::STRUCT)?;
3469
3470 if self.peek_token_ref().token != Token::Lt {
3472 return Ok((Default::default(), false.into()));
3473 }
3474 self.next_token();
3475
3476 let mut field_defs = vec![];
3477 let trailing_bracket = loop {
3478 let (def, trailing_bracket) = elem_parser(self)?;
3479 field_defs.push(def);
3480 if trailing_bracket.0 || !self.consume_token(&Token::Comma) {
3482 break trailing_bracket;
3483 }
3484 };
3485
3486 Ok((
3487 field_defs,
3488 self.expect_closing_angle_bracket(trailing_bracket)?,
3489 ))
3490 }
3491
3492 fn parse_duckdb_struct_type_def(&mut self) -> Result<Vec<StructField>, ParserError> {
3494 self.expect_keyword_is(Keyword::STRUCT)?;
3495 self.expect_token(&Token::LParen)?;
3496 let struct_body = self.parse_comma_separated(|parser| {
3497 let field_name = parser.parse_identifier()?;
3498 let field_type = parser.parse_data_type()?;
3499
3500 Ok(StructField {
3501 field_name: Some(field_name),
3502 field_type,
3503 options: None,
3504 })
3505 });
3506 self.expect_token(&Token::RParen)?;
3507 struct_body
3508 }
3509
3510 fn parse_struct_field_def(
3522 &mut self,
3523 ) -> Result<(StructField, MatchedTrailingBracket), ParserError> {
3524 let is_named_field = matches!(
3527 (self.peek_nth_token(0).token, self.peek_nth_token(1).token),
3528 (Token::Word(_), Token::Word(_)) | (Token::Word(_), Token::Colon)
3529 );
3530
3531 let field_name = if is_named_field {
3532 let name = self.parse_identifier()?;
3533 let _ = self.consume_token(&Token::Colon);
3534 Some(name)
3535 } else {
3536 None
3537 };
3538
3539 let (field_type, trailing_bracket) = self.parse_data_type_helper()?;
3540
3541 let options = self.maybe_parse_options(Keyword::OPTIONS)?;
3542 Ok((
3543 StructField {
3544 field_name,
3545 field_type,
3546 options,
3547 },
3548 trailing_bracket,
3549 ))
3550 }
3551
3552 fn parse_union_type_def(&mut self) -> Result<Vec<UnionField>, ParserError> {
3562 self.expect_keyword_is(Keyword::UNION)?;
3563
3564 self.expect_token(&Token::LParen)?;
3565
3566 let fields = self.parse_comma_separated(|p| {
3567 Ok(UnionField {
3568 field_name: p.parse_identifier()?,
3569 field_type: p.parse_data_type()?,
3570 })
3571 })?;
3572
3573 self.expect_token(&Token::RParen)?;
3574
3575 Ok(fields)
3576 }
3577
3578 fn parse_dictionary(&mut self) -> Result<Expr, ParserError> {
3589 self.expect_token(&Token::LBrace)?;
3590
3591 let fields = self.parse_comma_separated0(Self::parse_dictionary_field, Token::RBrace)?;
3592
3593 self.expect_token(&Token::RBrace)?;
3594
3595 Ok(Expr::Dictionary(fields))
3596 }
3597
3598 fn parse_dictionary_field(&mut self) -> Result<DictionaryField, ParserError> {
3609 let key = self.parse_identifier()?;
3610
3611 self.expect_token(&Token::Colon)?;
3612
3613 let expr = self.parse_expr()?;
3614
3615 Ok(DictionaryField {
3616 key,
3617 value: Box::new(expr),
3618 })
3619 }
3620
3621 fn parse_duckdb_map_literal(&mut self) -> Result<Expr, ParserError> {
3631 self.expect_token(&Token::LBrace)?;
3632 let fields = self.parse_comma_separated0(Self::parse_duckdb_map_field, Token::RBrace)?;
3633 self.expect_token(&Token::RBrace)?;
3634 Ok(Expr::Map(Map { entries: fields }))
3635 }
3636
3637 fn parse_duckdb_map_field(&mut self) -> Result<MapEntry, ParserError> {
3647 let key = self.parse_subexpr(self.dialect.prec_value(Precedence::Colon))?;
3649
3650 self.expect_token(&Token::Colon)?;
3651
3652 let value = self.parse_expr()?;
3653
3654 Ok(MapEntry {
3655 key: Box::new(key),
3656 value: Box::new(value),
3657 })
3658 }
3659
3660 fn parse_click_house_map_def(&mut self) -> Result<(DataType, DataType), ParserError> {
3670 self.expect_keyword_is(Keyword::MAP)?;
3671 self.expect_token(&Token::LParen)?;
3672 let key_data_type = self.parse_data_type()?;
3673 self.expect_token(&Token::Comma)?;
3674 let value_data_type = self.parse_data_type()?;
3675 self.expect_token(&Token::RParen)?;
3676
3677 Ok((key_data_type, value_data_type))
3678 }
3679
3680 fn parse_click_house_tuple_def(&mut self) -> Result<Vec<StructField>, ParserError> {
3690 self.expect_keyword_is(Keyword::TUPLE)?;
3691 self.expect_token(&Token::LParen)?;
3692 let mut field_defs = vec![];
3693 loop {
3694 let (def, _) = self.parse_struct_field_def()?;
3695 field_defs.push(def);
3696 if !self.consume_token(&Token::Comma) {
3697 break;
3698 }
3699 }
3700 self.expect_token(&Token::RParen)?;
3701
3702 Ok(field_defs)
3703 }
3704
3705 fn expect_closing_angle_bracket(
3710 &mut self,
3711 trailing_bracket: MatchedTrailingBracket,
3712 ) -> Result<MatchedTrailingBracket, ParserError> {
3713 let trailing_bracket = if !trailing_bracket.0 {
3714 match &self.peek_token_ref().token {
3715 Token::Gt => {
3716 self.next_token();
3717 false.into()
3718 }
3719 Token::ShiftRight => {
3720 self.next_token();
3721 true.into()
3722 }
3723 _ => return self.expected_ref(">", self.peek_token_ref()),
3724 }
3725 } else {
3726 false.into()
3727 };
3728
3729 Ok(trailing_bracket)
3730 }
3731
3732 pub fn parse_infix(&mut self, expr: Expr, precedence: u8) -> Result<Expr, ParserError> {
3734 if let Some(infix) = self.dialect.parse_infix(self, &expr, precedence) {
3736 return infix;
3737 }
3738
3739 let dialect = self.dialect;
3740
3741 self.advance_token();
3742 let tok = self.get_current_token();
3743 debug!("infix: {tok:?}");
3744 let tok_index = self.get_current_index();
3745 let span = tok.span;
3746 let regular_binary_operator = match &tok.token {
3747 Token::Spaceship => Some(BinaryOperator::Spaceship),
3748 Token::DoubleEq => Some(BinaryOperator::Eq),
3749 Token::Assignment => Some(BinaryOperator::Assignment),
3750 Token::Eq => Some(BinaryOperator::Eq),
3751 Token::Neq => Some(BinaryOperator::NotEq),
3752 Token::Gt => Some(BinaryOperator::Gt),
3753 Token::GtEq => Some(BinaryOperator::GtEq),
3754 Token::Lt => Some(BinaryOperator::Lt),
3755 Token::LtEq => Some(BinaryOperator::LtEq),
3756 Token::Plus => Some(BinaryOperator::Plus),
3757 Token::Minus => Some(BinaryOperator::Minus),
3758 Token::Mul => Some(BinaryOperator::Multiply),
3759 Token::Mod => Some(BinaryOperator::Modulo),
3760 Token::StringConcat => Some(BinaryOperator::StringConcat),
3761 Token::Pipe => Some(BinaryOperator::BitwiseOr),
3762 Token::Caret => {
3763 if dialect_is!(dialect is PostgreSqlDialect) {
3766 Some(BinaryOperator::PGExp)
3767 } else {
3768 Some(BinaryOperator::BitwiseXor)
3769 }
3770 }
3771 Token::Ampersand => Some(BinaryOperator::BitwiseAnd),
3772 Token::Div => Some(BinaryOperator::Divide),
3773 Token::DuckIntDiv if dialect_is!(dialect is DuckDbDialect | GenericDialect) => {
3774 Some(BinaryOperator::DuckIntegerDivide)
3775 }
3776 Token::ShiftLeft if dialect.supports_bitwise_shift_operators() => {
3777 Some(BinaryOperator::PGBitwiseShiftLeft)
3778 }
3779 Token::ShiftRight if dialect.supports_bitwise_shift_operators() => {
3780 Some(BinaryOperator::PGBitwiseShiftRight)
3781 }
3782 Token::Sharp if dialect_is!(dialect is PostgreSqlDialect | RedshiftSqlDialect) => {
3783 Some(BinaryOperator::PGBitwiseXor)
3784 }
3785 Token::Overlap if dialect_is!(dialect is PostgreSqlDialect | RedshiftSqlDialect) => {
3786 Some(BinaryOperator::PGOverlap)
3787 }
3788 Token::Overlap if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) => {
3789 Some(BinaryOperator::PGOverlap)
3790 }
3791 Token::Overlap if dialect.supports_double_ampersand_operator() => {
3792 Some(BinaryOperator::And)
3793 }
3794 Token::CaretAt if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) => {
3795 Some(BinaryOperator::PGStartsWith)
3796 }
3797 Token::Tilde => Some(BinaryOperator::PGRegexMatch),
3798 Token::TildeAsterisk => Some(BinaryOperator::PGRegexIMatch),
3799 Token::ExclamationMarkTilde => Some(BinaryOperator::PGRegexNotMatch),
3800 Token::ExclamationMarkTildeAsterisk => Some(BinaryOperator::PGRegexNotIMatch),
3801 Token::DoubleTilde => Some(BinaryOperator::PGLikeMatch),
3802 Token::DoubleTildeAsterisk => Some(BinaryOperator::PGILikeMatch),
3803 Token::ExclamationMarkDoubleTilde => Some(BinaryOperator::PGNotLikeMatch),
3804 Token::ExclamationMarkDoubleTildeAsterisk => Some(BinaryOperator::PGNotILikeMatch),
3805 Token::Arrow => Some(BinaryOperator::Arrow),
3806 Token::LongArrow => Some(BinaryOperator::LongArrow),
3807 Token::HashArrow => Some(BinaryOperator::HashArrow),
3808 Token::HashLongArrow => Some(BinaryOperator::HashLongArrow),
3809 Token::AtArrow => Some(BinaryOperator::AtArrow),
3810 Token::ArrowAt => Some(BinaryOperator::ArrowAt),
3811 Token::HashMinus => Some(BinaryOperator::HashMinus),
3812 Token::AtQuestion => Some(BinaryOperator::AtQuestion),
3813 Token::AtAt => Some(BinaryOperator::AtAt),
3814 Token::Question => Some(BinaryOperator::Question),
3815 Token::QuestionAnd => Some(BinaryOperator::QuestionAnd),
3816 Token::QuestionPipe => Some(BinaryOperator::QuestionPipe),
3817 Token::CustomBinaryOperator(s) => Some(BinaryOperator::Custom(s.clone())),
3818 Token::DoubleSharp if self.dialect.supports_geometric_types() => {
3819 Some(BinaryOperator::DoubleHash)
3820 }
3821
3822 Token::AmpersandLeftAngleBracket if self.dialect.supports_geometric_types() => {
3823 Some(BinaryOperator::AndLt)
3824 }
3825 Token::AmpersandRightAngleBracket if self.dialect.supports_geometric_types() => {
3826 Some(BinaryOperator::AndGt)
3827 }
3828 Token::QuestionMarkDash if self.dialect.supports_geometric_types() => {
3829 Some(BinaryOperator::QuestionDash)
3830 }
3831 Token::AmpersandLeftAngleBracketVerticalBar
3832 if self.dialect.supports_geometric_types() =>
3833 {
3834 Some(BinaryOperator::AndLtPipe)
3835 }
3836 Token::VerticalBarAmpersandRightAngleBracket
3837 if self.dialect.supports_geometric_types() =>
3838 {
3839 Some(BinaryOperator::PipeAndGt)
3840 }
3841 Token::TwoWayArrow if self.dialect.supports_geometric_types() => {
3842 Some(BinaryOperator::LtDashGt)
3843 }
3844 Token::LeftAngleBracketCaret if self.dialect.supports_geometric_types() => {
3845 Some(BinaryOperator::LtCaret)
3846 }
3847 Token::RightAngleBracketCaret if self.dialect.supports_geometric_types() => {
3848 Some(BinaryOperator::GtCaret)
3849 }
3850 Token::QuestionMarkSharp if self.dialect.supports_geometric_types() => {
3851 Some(BinaryOperator::QuestionHash)
3852 }
3853 Token::QuestionMarkDoubleVerticalBar if self.dialect.supports_geometric_types() => {
3854 Some(BinaryOperator::QuestionDoublePipe)
3855 }
3856 Token::QuestionMarkDashVerticalBar if self.dialect.supports_geometric_types() => {
3857 Some(BinaryOperator::QuestionDashPipe)
3858 }
3859 Token::TildeEqual if self.dialect.supports_geometric_types() => {
3860 Some(BinaryOperator::TildeEq)
3861 }
3862 Token::ShiftLeftVerticalBar if self.dialect.supports_geometric_types() => {
3863 Some(BinaryOperator::LtLtPipe)
3864 }
3865 Token::VerticalBarShiftRight if self.dialect.supports_geometric_types() => {
3866 Some(BinaryOperator::PipeGtGt)
3867 }
3868 Token::AtSign if self.dialect.supports_geometric_types() => Some(BinaryOperator::At),
3869
3870 Token::Word(w) => match w.keyword {
3871 Keyword::AND => Some(BinaryOperator::And),
3872 Keyword::OR => Some(BinaryOperator::Or),
3873 Keyword::XOR => Some(BinaryOperator::Xor),
3874 Keyword::OVERLAPS => Some(BinaryOperator::Overlaps),
3875 Keyword::OPERATOR if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) => {
3876 self.expect_token(&Token::LParen)?;
3877 let mut idents = vec![];
3882 loop {
3883 self.advance_token();
3884 idents.push(self.get_current_token().to_string());
3885 if !self.consume_token(&Token::Period) {
3886 break;
3887 }
3888 }
3889 self.expect_token(&Token::RParen)?;
3890 Some(BinaryOperator::PGCustomBinaryOperator(idents))
3891 }
3892 _ => None,
3893 },
3894 _ => None,
3895 };
3896
3897 let tok = self.token_at(tok_index);
3898 if let Some(op) = regular_binary_operator {
3899 if let Some(keyword) =
3900 self.parse_one_of_keywords(&[Keyword::ANY, Keyword::ALL, Keyword::SOME])
3901 {
3902 self.expect_token(&Token::LParen)?;
3903 let right = if self.peek_sub_query() {
3904 self.prev_token(); self.parse_subexpr(precedence)?
3908 } else {
3909 let right = self.parse_subexpr(precedence)?;
3911 self.expect_token(&Token::RParen)?;
3912 right
3913 };
3914
3915 if !matches!(
3916 op,
3917 BinaryOperator::Gt
3918 | BinaryOperator::Lt
3919 | BinaryOperator::GtEq
3920 | BinaryOperator::LtEq
3921 | BinaryOperator::Eq
3922 | BinaryOperator::NotEq
3923 | BinaryOperator::PGRegexMatch
3924 | BinaryOperator::PGRegexIMatch
3925 | BinaryOperator::PGRegexNotMatch
3926 | BinaryOperator::PGRegexNotIMatch
3927 | BinaryOperator::PGLikeMatch
3928 | BinaryOperator::PGILikeMatch
3929 | BinaryOperator::PGNotLikeMatch
3930 | BinaryOperator::PGNotILikeMatch
3931 ) {
3932 return parser_err!(
3933 format!(
3934 "Expected one of [=, >, <, =>, =<, !=, ~, ~*, !~, !~*, ~~, ~~*, !~~, !~~*] as comparison operator, found: {op}"
3935 ),
3936 span.start
3937 );
3938 };
3939
3940 Ok(match keyword {
3941 Keyword::ALL => Expr::AllOp {
3942 left: Box::new(expr),
3943 compare_op: op,
3944 right: Box::new(right),
3945 },
3946 Keyword::ANY | Keyword::SOME => Expr::AnyOp {
3947 left: Box::new(expr),
3948 compare_op: op,
3949 right: Box::new(right),
3950 is_some: keyword == Keyword::SOME,
3951 },
3952 unexpected_keyword => return Err(ParserError::ParserError(
3953 format!("Internal parser error: expected any of {{ALL, ANY, SOME}}, got {unexpected_keyword:?}"),
3954 )),
3955 })
3956 } else {
3957 Ok(Expr::BinaryOp {
3958 left: Box::new(expr),
3959 op,
3960 right: Box::new(self.parse_subexpr(precedence)?),
3961 })
3962 }
3963 } else if let Token::Word(w) = &tok.token {
3964 match w.keyword {
3965 Keyword::IS => {
3966 if self.parse_keyword(Keyword::NULL) {
3967 Ok(Expr::IsNull(Box::new(expr)))
3968 } else if self.parse_keywords(&[Keyword::NOT, Keyword::NULL]) {
3969 Ok(Expr::IsNotNull(Box::new(expr)))
3970 } else if self.parse_keywords(&[Keyword::TRUE]) {
3971 Ok(Expr::IsTrue(Box::new(expr)))
3972 } else if self.parse_keywords(&[Keyword::NOT, Keyword::TRUE]) {
3973 Ok(Expr::IsNotTrue(Box::new(expr)))
3974 } else if self.parse_keywords(&[Keyword::FALSE]) {
3975 Ok(Expr::IsFalse(Box::new(expr)))
3976 } else if self.parse_keywords(&[Keyword::NOT, Keyword::FALSE]) {
3977 Ok(Expr::IsNotFalse(Box::new(expr)))
3978 } else if self.parse_keywords(&[Keyword::UNKNOWN]) {
3979 Ok(Expr::IsUnknown(Box::new(expr)))
3980 } else if self.parse_keywords(&[Keyword::NOT, Keyword::UNKNOWN]) {
3981 Ok(Expr::IsNotUnknown(Box::new(expr)))
3982 } else if self.parse_keywords(&[Keyword::DISTINCT, Keyword::FROM]) {
3983 let expr2 = self.parse_expr()?;
3984 Ok(Expr::IsDistinctFrom(Box::new(expr), Box::new(expr2)))
3985 } else if self.parse_keywords(&[Keyword::NOT, Keyword::DISTINCT, Keyword::FROM])
3986 {
3987 let expr2 = self.parse_expr()?;
3988 Ok(Expr::IsNotDistinctFrom(Box::new(expr), Box::new(expr2)))
3989 } else if let Ok(is_normalized) = self.parse_unicode_is_normalized(expr) {
3990 Ok(is_normalized)
3991 } else {
3992 self.expected_ref(
3993 "[NOT] NULL | TRUE | FALSE | DISTINCT | [form] NORMALIZED FROM after IS",
3994 self.peek_token_ref(),
3995 )
3996 }
3997 }
3998 Keyword::AT => {
3999 self.expect_keywords(&[Keyword::TIME, Keyword::ZONE])?;
4000 Ok(Expr::AtTimeZone {
4001 timestamp: Box::new(expr),
4002 time_zone: Box::new(self.parse_subexpr(precedence)?),
4003 })
4004 }
4005 Keyword::NOT
4006 | Keyword::IN
4007 | Keyword::BETWEEN
4008 | Keyword::LIKE
4009 | Keyword::ILIKE
4010 | Keyword::SIMILAR
4011 | Keyword::REGEXP
4012 | Keyword::RLIKE => {
4013 self.prev_token();
4014 let negated = self.parse_keyword(Keyword::NOT);
4015 let regexp = self.parse_keyword(Keyword::REGEXP);
4016 let rlike = self.parse_keyword(Keyword::RLIKE);
4017 let null = if !self.in_column_definition_state() {
4018 self.parse_keyword(Keyword::NULL)
4019 } else {
4020 false
4021 };
4022 if regexp || rlike {
4023 Ok(Expr::RLike {
4024 negated,
4025 expr: Box::new(expr),
4026 pattern: Box::new(
4027 self.parse_subexpr(self.dialect.prec_value(Precedence::Like))?,
4028 ),
4029 regexp,
4030 })
4031 } else if negated && null {
4032 Ok(Expr::IsNotNull(Box::new(expr)))
4033 } else if self.parse_keyword(Keyword::IN) {
4034 self.parse_in(expr, negated)
4035 } else if self.parse_keyword(Keyword::BETWEEN) {
4036 self.parse_between(expr, negated)
4037 } else if self.parse_keyword(Keyword::LIKE) {
4038 Ok(Expr::Like {
4039 negated,
4040 any: self.parse_keyword(Keyword::ANY),
4041 expr: Box::new(expr),
4042 pattern: Box::new(
4043 self.parse_subexpr(self.dialect.prec_value(Precedence::Like))?,
4044 ),
4045 escape_char: self.parse_escape_char()?,
4046 })
4047 } else if self.parse_keyword(Keyword::ILIKE) {
4048 Ok(Expr::ILike {
4049 negated,
4050 any: self.parse_keyword(Keyword::ANY),
4051 expr: Box::new(expr),
4052 pattern: Box::new(
4053 self.parse_subexpr(self.dialect.prec_value(Precedence::Like))?,
4054 ),
4055 escape_char: self.parse_escape_char()?,
4056 })
4057 } else if self.parse_keywords(&[Keyword::SIMILAR, Keyword::TO]) {
4058 Ok(Expr::SimilarTo {
4059 negated,
4060 expr: Box::new(expr),
4061 pattern: Box::new(
4062 self.parse_subexpr(self.dialect.prec_value(Precedence::Like))?,
4063 ),
4064 escape_char: self.parse_escape_char()?,
4065 })
4066 } else {
4067 self.expected_ref("IN or BETWEEN after NOT", self.peek_token_ref())
4068 }
4069 }
4070 Keyword::NOTNULL if dialect.supports_notnull_operator() => {
4071 Ok(Expr::IsNotNull(Box::new(expr)))
4072 }
4073 Keyword::MEMBER => {
4074 if self.parse_keyword(Keyword::OF) {
4075 self.expect_token(&Token::LParen)?;
4076 let array = self.parse_expr()?;
4077 self.expect_token(&Token::RParen)?;
4078 Ok(Expr::MemberOf(MemberOf {
4079 value: Box::new(expr),
4080 array: Box::new(array),
4081 }))
4082 } else {
4083 self.expected_ref("OF after MEMBER", self.peek_token_ref())
4084 }
4085 }
4086 _ => parser_err!(
4088 format!("No infix parser for token {:?}", tok.token),
4089 tok.span.start
4090 ),
4091 }
4092 } else if Token::DoubleColon == *tok {
4093 Ok(Expr::Cast {
4094 kind: CastKind::DoubleColon,
4095 expr: Box::new(expr),
4096 data_type: self.parse_data_type()?,
4097 array: false,
4098 format: None,
4099 })
4100 } else if Token::ExclamationMark == *tok && self.dialect.supports_factorial_operator() {
4101 Ok(Expr::UnaryOp {
4102 op: UnaryOperator::PGPostfixFactorial,
4103 expr: Box::new(expr),
4104 })
4105 } else if Token::LBracket == *tok && self.dialect.supports_partiql()
4106 || (Token::Colon == *tok)
4107 {
4108 self.prev_token();
4109 self.parse_json_access(expr)
4110 } else {
4111 parser_err!(
4113 format!("No infix parser for token {:?}", tok.token),
4114 tok.span.start
4115 )
4116 }
4117 }
4118
4119 pub fn parse_escape_char(&mut self) -> Result<Option<ValueWithSpan>, ParserError> {
4121 if self.parse_keyword(Keyword::ESCAPE) {
4122 Ok(Some(self.parse_value()?))
4123 } else {
4124 Ok(None)
4125 }
4126 }
4127
4128 fn parse_subscript_inner(&mut self) -> Result<Subscript, ParserError> {
4138 let lower_bound = if self.consume_token(&Token::Colon) {
4140 None
4141 } else {
4142 Some(self.parse_subexpr(self.dialect.prec_value(Precedence::Colon))?)
4144 };
4145
4146 if self.consume_token(&Token::RBracket) {
4148 if let Some(lower_bound) = lower_bound {
4149 return Ok(Subscript::Index { index: lower_bound });
4150 };
4151 return Ok(Subscript::Slice {
4152 lower_bound,
4153 upper_bound: None,
4154 stride: None,
4155 });
4156 }
4157
4158 if lower_bound.is_some() {
4160 self.expect_token(&Token::Colon)?;
4161 }
4162
4163 let upper_bound = if self.consume_token(&Token::RBracket) {
4165 return Ok(Subscript::Slice {
4166 lower_bound,
4167 upper_bound: None,
4168 stride: None,
4169 });
4170 } else {
4171 Some(self.parse_subexpr(self.dialect.prec_value(Precedence::Colon))?)
4173 };
4174
4175 if self.consume_token(&Token::RBracket) {
4177 return Ok(Subscript::Slice {
4178 lower_bound,
4179 upper_bound,
4180 stride: None,
4181 });
4182 }
4183
4184 self.expect_token(&Token::Colon)?;
4186 let stride = if self.consume_token(&Token::RBracket) {
4187 None
4188 } else {
4189 Some(self.parse_expr()?)
4190 };
4191
4192 if stride.is_some() {
4193 self.expect_token(&Token::RBracket)?;
4194 }
4195
4196 Ok(Subscript::Slice {
4197 lower_bound,
4198 upper_bound,
4199 stride,
4200 })
4201 }
4202
4203 pub fn parse_multi_dim_subscript(
4205 &mut self,
4206 chain: &mut Vec<AccessExpr>,
4207 ) -> Result<(), ParserError> {
4208 while self.consume_token(&Token::LBracket) {
4209 self.parse_subscript(chain)?;
4210 }
4211 Ok(())
4212 }
4213
4214 fn parse_subscript(&mut self, chain: &mut Vec<AccessExpr>) -> Result<(), ParserError> {
4218 let subscript = self.parse_subscript_inner()?;
4219 chain.push(AccessExpr::Subscript(subscript));
4220 Ok(())
4221 }
4222
4223 fn parse_json_path_object_key(&mut self) -> Result<JsonPathElem, ParserError> {
4224 let token = self.next_token();
4225 match token.token {
4226 Token::Word(Word {
4227 value,
4228 quote_style: quote_style @ (Some('"') | Some('`') | None),
4231 keyword: _,
4234 }) => Ok(JsonPathElem::Dot {
4235 key: value,
4236 quoted: quote_style.is_some(),
4237 }),
4238
4239 Token::DoubleQuotedString(key) => Ok(JsonPathElem::Dot { key, quoted: true }),
4243
4244 _ => self.expected("variant object key name", token),
4245 }
4246 }
4247
4248 fn parse_json_access(&mut self, expr: Expr) -> Result<Expr, ParserError> {
4249 let path = self.parse_json_path()?;
4250 Ok(Expr::JsonAccess {
4251 value: Box::new(expr),
4252 path,
4253 })
4254 }
4255
4256 fn parse_json_path(&mut self) -> Result<JsonPath, ParserError> {
4257 let mut path = Vec::new();
4258 loop {
4259 match self.next_token().token {
4260 Token::Colon if path.is_empty() && self.peek_token_ref() == &Token::LBracket => {
4261 self.next_token();
4262 let key = self.parse_wildcard_expr()?;
4263 self.expect_token(&Token::RBracket)?;
4264 path.push(JsonPathElem::ColonBracket { key });
4265 }
4266 Token::Colon if path.is_empty() => {
4267 path.push(self.parse_json_path_object_key()?);
4268 }
4269 Token::Period if !path.is_empty() => {
4270 path.push(self.parse_json_path_object_key()?);
4271 }
4272 Token::LBracket => {
4273 let key = self.parse_wildcard_expr()?;
4274 self.expect_token(&Token::RBracket)?;
4275
4276 path.push(JsonPathElem::Bracket { key });
4277 }
4278 _ => {
4279 self.prev_token();
4280 break;
4281 }
4282 };
4283 }
4284
4285 debug_assert!(!path.is_empty());
4286 Ok(JsonPath { path })
4287 }
4288
4289 pub fn parse_in(&mut self, expr: Expr, negated: bool) -> Result<Expr, ParserError> {
4291 if self.parse_keyword(Keyword::UNNEST) {
4294 self.expect_token(&Token::LParen)?;
4295 let array_expr = self.parse_expr()?;
4296 self.expect_token(&Token::RParen)?;
4297 return Ok(Expr::InUnnest {
4298 expr: Box::new(expr),
4299 array_expr: Box::new(array_expr),
4300 negated,
4301 });
4302 }
4303 self.expect_token(&Token::LParen)?;
4304 let in_op = match self.maybe_parse(|p| p.parse_query())? {
4305 Some(subquery) => Expr::InSubquery {
4306 expr: Box::new(expr),
4307 subquery,
4308 negated,
4309 },
4310 None => Expr::InList {
4311 expr: Box::new(expr),
4312 list: if self.dialect.supports_in_empty_list() {
4313 self.parse_comma_separated0(Parser::parse_expr, Token::RParen)?
4314 } else {
4315 self.parse_comma_separated(Parser::parse_expr)?
4316 },
4317 negated,
4318 },
4319 };
4320 self.expect_token(&Token::RParen)?;
4321 Ok(in_op)
4322 }
4323
4324 pub fn parse_between(&mut self, expr: Expr, negated: bool) -> Result<Expr, ParserError> {
4326 let low = self.parse_subexpr(self.dialect.prec_value(Precedence::Between))?;
4329 self.expect_keyword_is(Keyword::AND)?;
4330 let high = self.parse_subexpr(self.dialect.prec_value(Precedence::Between))?;
4331 Ok(Expr::Between {
4332 expr: Box::new(expr),
4333 negated,
4334 low: Box::new(low),
4335 high: Box::new(high),
4336 })
4337 }
4338
4339 pub fn parse_pg_cast(&mut self, expr: Expr) -> Result<Expr, ParserError> {
4341 Ok(Expr::Cast {
4342 kind: CastKind::DoubleColon,
4343 expr: Box::new(expr),
4344 data_type: self.parse_data_type()?,
4345 array: false,
4346 format: None,
4347 })
4348 }
4349
4350 pub fn get_next_precedence(&self) -> Result<u8, ParserError> {
4352 self.dialect.get_next_precedence_default(self)
4353 }
4354
4355 pub fn token_at(&self, index: usize) -> &TokenWithSpan {
4358 self.tokens.get(index).unwrap_or(&EOF_TOKEN)
4359 }
4360
4361 pub fn peek_token(&self) -> TokenWithSpan {
4366 self.peek_nth_token(0)
4367 }
4368
4369 pub fn peek_token_ref(&self) -> &TokenWithSpan {
4372 self.peek_nth_token_ref(0)
4373 }
4374
4375 pub fn peek_tokens<const N: usize>(&self) -> [Token; N] {
4398 self.peek_tokens_with_location()
4399 .map(|with_loc| with_loc.token)
4400 }
4401
4402 pub fn peek_tokens_with_location<const N: usize>(&self) -> [TokenWithSpan; N] {
4407 let mut index = self.index;
4408 core::array::from_fn(|_| loop {
4409 let token = self.tokens.get(index);
4410 index += 1;
4411 if let Some(TokenWithSpan {
4412 token: Token::Whitespace(_),
4413 span: _,
4414 }) = token
4415 {
4416 continue;
4417 }
4418 break token.cloned().unwrap_or(TokenWithSpan {
4419 token: Token::EOF,
4420 span: Span::empty(),
4421 });
4422 })
4423 }
4424
4425 pub fn peek_tokens_ref<const N: usize>(&self) -> [&TokenWithSpan; N] {
4430 let mut index = self.index;
4431 core::array::from_fn(|_| loop {
4432 let token = self.tokens.get(index);
4433 index += 1;
4434 if let Some(TokenWithSpan {
4435 token: Token::Whitespace(_),
4436 span: _,
4437 }) = token
4438 {
4439 continue;
4440 }
4441 break token.unwrap_or(&EOF_TOKEN);
4442 })
4443 }
4444
4445 pub fn peek_nth_token(&self, n: usize) -> TokenWithSpan {
4447 self.peek_nth_token_ref(n).clone()
4448 }
4449
4450 pub fn peek_nth_token_ref(&self, mut n: usize) -> &TokenWithSpan {
4452 let mut index = self.index;
4453 loop {
4454 index += 1;
4455 match self.tokens.get(index - 1) {
4456 Some(TokenWithSpan {
4457 token: Token::Whitespace(_),
4458 span: _,
4459 }) => continue,
4460 non_whitespace => {
4461 if n == 0 {
4462 return non_whitespace.unwrap_or(&EOF_TOKEN);
4463 }
4464 n -= 1;
4465 }
4466 }
4467 }
4468 }
4469
4470 pub fn peek_token_no_skip(&self) -> TokenWithSpan {
4473 self.peek_nth_token_no_skip(0)
4474 }
4475
4476 pub fn peek_nth_token_no_skip(&self, n: usize) -> TokenWithSpan {
4478 self.tokens
4479 .get(self.index + n)
4480 .cloned()
4481 .unwrap_or(TokenWithSpan {
4482 token: Token::EOF,
4483 span: Span::empty(),
4484 })
4485 }
4486
4487 fn peek_nth_token_no_skip_ref(&self, n: usize) -> &TokenWithSpan {
4489 self.tokens.get(self.index + n).unwrap_or(&EOF_TOKEN)
4490 }
4491
4492 fn peek_keywords(&mut self, expected: &[Keyword]) -> bool {
4496 let index = self.index;
4497 let matched = self.parse_keywords(expected);
4498 self.index = index;
4499 matched
4500 }
4501
4502 pub fn next_token(&mut self) -> TokenWithSpan {
4507 self.advance_token();
4508 self.get_current_token().clone()
4509 }
4510
4511 pub fn get_current_index(&self) -> usize {
4516 self.index.saturating_sub(1)
4517 }
4518
4519 pub fn next_token_no_skip(&mut self) -> Option<&TokenWithSpan> {
4521 self.index += 1;
4522 self.tokens.get(self.index - 1)
4523 }
4524
4525 pub fn advance_token(&mut self) {
4529 loop {
4530 self.index += 1;
4531 match self.tokens.get(self.index - 1) {
4532 Some(TokenWithSpan {
4533 token: Token::Whitespace(_),
4534 span: _,
4535 }) => continue,
4536 _ => break,
4537 }
4538 }
4539 }
4540
4541 pub fn get_current_token(&self) -> &TokenWithSpan {
4545 self.token_at(self.index.saturating_sub(1))
4546 }
4547
4548 pub fn get_previous_token(&self) -> &TokenWithSpan {
4552 self.token_at(self.index.saturating_sub(2))
4553 }
4554
4555 pub fn get_next_token(&self) -> &TokenWithSpan {
4559 self.token_at(self.index)
4560 }
4561
4562 pub fn prev_token(&mut self) {
4569 loop {
4570 assert!(self.index > 0);
4571 self.index -= 1;
4572 if let Some(TokenWithSpan {
4573 token: Token::Whitespace(_),
4574 span: _,
4575 }) = self.tokens.get(self.index)
4576 {
4577 continue;
4578 }
4579 return;
4580 }
4581 }
4582
4583 pub fn expected<T>(&self, expected: &str, found: TokenWithSpan) -> Result<T, ParserError> {
4585 parser_err!(
4586 format!("Expected: {expected}, found: {found}"),
4587 found.span.start
4588 )
4589 }
4590
4591 pub fn expected_ref<T>(&self, expected: &str, found: &TokenWithSpan) -> Result<T, ParserError> {
4593 parser_err!(
4594 format!("Expected: {expected}, found: {found}"),
4595 found.span.start
4596 )
4597 }
4598
4599 pub fn expected_at<T>(&self, expected: &str, index: usize) -> Result<T, ParserError> {
4601 let found = self.tokens.get(index).unwrap_or(&EOF_TOKEN);
4602 parser_err!(
4603 format!("Expected: {expected}, found: {found}"),
4604 found.span.start
4605 )
4606 }
4607
4608 #[must_use]
4611 pub fn parse_keyword(&mut self, expected: Keyword) -> bool {
4612 if self.peek_keyword(expected) {
4613 self.advance_token();
4614 true
4615 } else {
4616 false
4617 }
4618 }
4619
4620 #[must_use]
4621 pub fn peek_keyword(&self, expected: Keyword) -> bool {
4625 matches!(&self.peek_token_ref().token, Token::Word(w) if expected == w.keyword)
4626 }
4627
4628 pub fn parse_keyword_with_tokens(&mut self, expected: Keyword, tokens: &[Token]) -> bool {
4636 self.keyword_with_tokens(expected, tokens, true)
4637 }
4638
4639 pub(crate) fn peek_keyword_with_tokens(&mut self, expected: Keyword, tokens: &[Token]) -> bool {
4644 self.keyword_with_tokens(expected, tokens, false)
4645 }
4646
4647 fn keyword_with_tokens(&mut self, expected: Keyword, tokens: &[Token], consume: bool) -> bool {
4648 match &self.peek_token_ref().token {
4649 Token::Word(w) if expected == w.keyword => {
4650 for (idx, token) in tokens.iter().enumerate() {
4651 if self.peek_nth_token_ref(idx + 1).token != *token {
4652 return false;
4653 }
4654 }
4655
4656 if consume {
4657 for _ in 0..(tokens.len() + 1) {
4658 self.advance_token();
4659 }
4660 }
4661
4662 true
4663 }
4664 _ => false,
4665 }
4666 }
4667
4668 #[must_use]
4672 pub fn parse_keywords(&mut self, keywords: &[Keyword]) -> bool {
4673 self.parse_keywords_indexed(keywords).is_some()
4674 }
4675
4676 #[must_use]
4679 fn parse_keywords_indexed(&mut self, keywords: &[Keyword]) -> Option<usize> {
4680 let start_index = self.index;
4681 let mut first_keyword_index = None;
4682 for &keyword in keywords {
4683 if !self.parse_keyword(keyword) {
4684 self.index = start_index;
4685 return None;
4686 }
4687 if first_keyword_index.is_none() {
4688 first_keyword_index = Some(self.index.saturating_sub(1));
4689 }
4690 }
4691 first_keyword_index
4692 }
4693
4694 #[must_use]
4697 pub fn peek_one_of_keywords(&self, keywords: &[Keyword]) -> Option<Keyword> {
4698 for keyword in keywords {
4699 if self.peek_keyword(*keyword) {
4700 return Some(*keyword);
4701 }
4702 }
4703 None
4704 }
4705
4706 #[must_use]
4710 pub fn parse_one_of_keywords(&mut self, keywords: &[Keyword]) -> Option<Keyword> {
4711 match &self.peek_token_ref().token {
4712 Token::Word(w) => {
4713 keywords
4714 .iter()
4715 .find(|keyword| **keyword == w.keyword)
4716 .map(|keyword| {
4717 self.advance_token();
4718 *keyword
4719 })
4720 }
4721 _ => None,
4722 }
4723 }
4724
4725 pub fn expect_one_of_keywords(&mut self, keywords: &[Keyword]) -> Result<Keyword, ParserError> {
4728 if let Some(keyword) = self.parse_one_of_keywords(keywords) {
4729 Ok(keyword)
4730 } else {
4731 let keywords: Vec<String> = keywords.iter().map(|x| format!("{x:?}")).collect();
4732 self.expected_ref(
4733 &format!("one of {}", keywords.join(" or ")),
4734 self.peek_token_ref(),
4735 )
4736 }
4737 }
4738
4739 pub fn expect_keyword(&mut self, expected: Keyword) -> Result<TokenWithSpan, ParserError> {
4744 if self.parse_keyword(expected) {
4745 Ok(self.get_current_token().clone())
4746 } else {
4747 self.expected_ref(format!("{:?}", &expected).as_str(), self.peek_token_ref())
4748 }
4749 }
4750
4751 pub fn expect_keyword_is(&mut self, expected: Keyword) -> Result<(), ParserError> {
4757 if self.parse_keyword(expected) {
4758 Ok(())
4759 } else {
4760 self.expected_ref(format!("{:?}", &expected).as_str(), self.peek_token_ref())
4761 }
4762 }
4763
4764 pub fn expect_keywords(&mut self, expected: &[Keyword]) -> Result<(), ParserError> {
4767 for &kw in expected {
4768 self.expect_keyword_is(kw)?;
4769 }
4770 Ok(())
4771 }
4772
4773 #[must_use]
4777 pub fn consume_token(&mut self, expected: &Token) -> bool {
4778 if self.peek_token_ref() == expected {
4779 self.advance_token();
4780 true
4781 } else {
4782 false
4783 }
4784 }
4785
4786 #[must_use]
4790 pub fn consume_tokens(&mut self, tokens: &[Token]) -> bool {
4791 let index = self.index;
4792 for token in tokens {
4793 if !self.consume_token(token) {
4794 self.index = index;
4795 return false;
4796 }
4797 }
4798 true
4799 }
4800
4801 pub fn expect_token(&mut self, expected: &Token) -> Result<TokenWithSpan, ParserError> {
4803 if self.peek_token_ref() == expected {
4804 Ok(self.next_token())
4805 } else {
4806 self.expected_ref(&expected.to_string(), self.peek_token_ref())
4807 }
4808 }
4809
4810 fn parse<T: FromStr>(s: String, loc: Location) -> Result<T, ParserError>
4811 where
4812 <T as FromStr>::Err: Display,
4813 {
4814 s.parse::<T>().map_err(|e| {
4815 ParserError::ParserError(format!(
4816 "Could not parse '{s}' as {}: {e}{loc}",
4817 core::any::type_name::<T>()
4818 ))
4819 })
4820 }
4821
4822 pub fn parse_projection(&mut self) -> Result<Vec<SelectItem>, ParserError> {
4824 let trailing_commas =
4830 self.options.trailing_commas | self.dialect.supports_projection_trailing_commas();
4831
4832 self.parse_comma_separated_with_trailing_commas(
4833 |p| p.parse_select_item(),
4834 trailing_commas,
4835 Self::is_reserved_for_column_alias,
4836 )
4837 }
4838
4839 pub fn parse_actions_list(&mut self) -> Result<Vec<Action>, ParserError> {
4841 let mut values = vec![];
4842 loop {
4843 values.push(self.parse_grant_permission()?);
4844 if !self.consume_token(&Token::Comma) {
4845 break;
4846 } else if self.options.trailing_commas {
4847 match &self.peek_token_ref().token {
4848 Token::Word(kw) if kw.keyword == Keyword::ON => {
4849 break;
4850 }
4851 Token::RParen
4852 | Token::SemiColon
4853 | Token::EOF
4854 | Token::RBracket
4855 | Token::RBrace => break,
4856 _ => continue,
4857 }
4858 }
4859 }
4860 Ok(values)
4861 }
4862
4863 fn parse_table_with_joins(&mut self) -> Result<Vec<TableWithJoins>, ParserError> {
4865 let trailing_commas = self.dialect.supports_from_trailing_commas();
4866
4867 self.parse_comma_separated_with_trailing_commas(
4868 Parser::parse_table_and_joins,
4869 trailing_commas,
4870 |kw, parser| !self.dialect.is_table_factor(kw, parser),
4871 )
4872 }
4873
4874 fn is_parse_comma_separated_end_with_trailing_commas<R>(
4881 &mut self,
4882 trailing_commas: bool,
4883 is_reserved_keyword: &R,
4884 ) -> bool
4885 where
4886 R: Fn(&Keyword, &mut Parser) -> bool,
4887 {
4888 if !self.consume_token(&Token::Comma) {
4889 true
4890 } else if trailing_commas {
4891 let token = self.next_token().token;
4892 let is_end = match token {
4893 Token::Word(ref kw) if is_reserved_keyword(&kw.keyword, self) => true,
4894 Token::RParen | Token::SemiColon | Token::EOF | Token::RBracket | Token::RBrace => {
4895 true
4896 }
4897 _ => false,
4898 };
4899 self.prev_token();
4900
4901 is_end
4902 } else {
4903 false
4904 }
4905 }
4906
4907 fn is_parse_comma_separated_end(&mut self) -> bool {
4910 self.is_parse_comma_separated_end_with_trailing_commas(
4911 self.options.trailing_commas,
4912 &Self::is_reserved_for_column_alias,
4913 )
4914 }
4915
4916 pub fn parse_comma_separated<T, F>(&mut self, f: F) -> Result<Vec<T>, ParserError>
4918 where
4919 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
4920 {
4921 self.parse_comma_separated_with_trailing_commas(
4922 f,
4923 self.options.trailing_commas,
4924 Self::is_reserved_for_column_alias,
4925 )
4926 }
4927
4928 fn parse_comma_separated_with_trailing_commas<T, F, R>(
4933 &mut self,
4934 mut f: F,
4935 trailing_commas: bool,
4936 is_reserved_keyword: R,
4937 ) -> Result<Vec<T>, ParserError>
4938 where
4939 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
4940 R: Fn(&Keyword, &mut Parser) -> bool,
4941 {
4942 let mut values = vec![];
4943 loop {
4944 values.push(f(self)?);
4945 if self.is_parse_comma_separated_end_with_trailing_commas(
4946 trailing_commas,
4947 &is_reserved_keyword,
4948 ) {
4949 break;
4950 }
4951 }
4952 Ok(values)
4953 }
4954
4955 fn parse_period_separated<T, F>(&mut self, mut f: F) -> Result<Vec<T>, ParserError>
4957 where
4958 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
4959 {
4960 let mut values = vec![];
4961 loop {
4962 values.push(f(self)?);
4963 if !self.consume_token(&Token::Period) {
4964 break;
4965 }
4966 }
4967 Ok(values)
4968 }
4969
4970 pub fn parse_keyword_separated<T, F>(
4972 &mut self,
4973 keyword: Keyword,
4974 mut f: F,
4975 ) -> Result<Vec<T>, ParserError>
4976 where
4977 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
4978 {
4979 let mut values = vec![];
4980 loop {
4981 values.push(f(self)?);
4982 if !self.parse_keyword(keyword) {
4983 break;
4984 }
4985 }
4986 Ok(values)
4987 }
4988
4989 pub fn parse_parenthesized<T, F>(&mut self, mut f: F) -> Result<T, ParserError>
4991 where
4992 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
4993 {
4994 self.expect_token(&Token::LParen)?;
4995 let res = f(self)?;
4996 self.expect_token(&Token::RParen)?;
4997 Ok(res)
4998 }
4999
5000 pub fn parse_comma_separated0<T, F>(
5003 &mut self,
5004 f: F,
5005 end_token: Token,
5006 ) -> Result<Vec<T>, ParserError>
5007 where
5008 F: FnMut(&mut Parser<'a>) -> Result<T, ParserError>,
5009 {
5010 if self.peek_token_ref().token == end_token {
5011 return Ok(vec![]);
5012 }
5013
5014 if self.options.trailing_commas && self.peek_tokens() == [Token::Comma, end_token] {
5015 let _ = self.consume_token(&Token::Comma);
5016 return Ok(vec![]);
5017 }
5018
5019 self.parse_comma_separated(f)
5020 }
5021
5022 pub(crate) fn parse_statement_list(
5026 &mut self,
5027 terminal_keywords: &[Keyword],
5028 ) -> Result<Vec<Statement>, ParserError> {
5029 let mut values = vec![];
5030 loop {
5031 match &self.peek_nth_token_ref(0).token {
5032 Token::EOF => break,
5033 Token::Word(w)
5034 if w.quote_style.is_none() && terminal_keywords.contains(&w.keyword) =>
5035 {
5036 break;
5037 }
5038 _ => {}
5039 }
5040
5041 values.push(self.parse_statement()?);
5042 self.expect_token(&Token::SemiColon)?;
5043 }
5044 Ok(values)
5045 }
5046
5047 fn is_reserved_for_column_alias(kw: &Keyword, parser: &mut Parser) -> bool {
5051 !parser.dialect.is_column_alias(kw, parser)
5052 }
5053
5054 pub fn maybe_parse<T, F>(&mut self, f: F) -> Result<Option<T>, ParserError>
5058 where
5059 F: FnMut(&mut Parser) -> Result<T, ParserError>,
5060 {
5061 match self.try_parse(f) {
5062 Ok(t) => Ok(Some(t)),
5063 Err(ParserError::RecursionLimitExceeded) => Err(ParserError::RecursionLimitExceeded),
5064 _ => Ok(None),
5065 }
5066 }
5067
5068 pub fn try_parse<T, F>(&mut self, mut f: F) -> Result<T, ParserError>
5070 where
5071 F: FnMut(&mut Parser) -> Result<T, ParserError>,
5072 {
5073 let index = self.index;
5074 match f(self) {
5075 Ok(t) => Ok(t),
5076 Err(e) => {
5077 self.index = index;
5079 Err(e)
5080 }
5081 }
5082 }
5083
5084 pub fn parse_all_or_distinct(&mut self) -> Result<Option<Distinct>, ParserError> {
5087 let loc = self.peek_token_ref().span.start;
5088 let distinct = match self.parse_one_of_keywords(&[Keyword::ALL, Keyword::DISTINCT]) {
5089 Some(Keyword::ALL) => {
5090 if self.peek_keyword(Keyword::DISTINCT) {
5091 return parser_err!("Cannot specify ALL then DISTINCT".to_string(), loc);
5092 }
5093 Some(Distinct::All)
5094 }
5095 Some(Keyword::DISTINCT) => {
5096 if self.peek_keyword(Keyword::ALL) {
5097 return parser_err!("Cannot specify DISTINCT then ALL".to_string(), loc);
5098 }
5099 Some(Distinct::Distinct)
5100 }
5101 None => return Ok(None),
5102 _ => return parser_err!("ALL or DISTINCT", loc),
5103 };
5104
5105 let Some(Distinct::Distinct) = distinct else {
5106 return Ok(distinct);
5107 };
5108 if !self.parse_keyword(Keyword::ON) {
5109 return Ok(Some(Distinct::Distinct));
5110 }
5111
5112 self.expect_token(&Token::LParen)?;
5113 let col_names = if self.consume_token(&Token::RParen) {
5114 self.prev_token();
5115 Vec::new()
5116 } else {
5117 self.parse_comma_separated(Parser::parse_expr)?
5118 };
5119 self.expect_token(&Token::RParen)?;
5120 Ok(Some(Distinct::On(col_names)))
5121 }
5122
5123 pub fn parse_create(&mut self) -> Result<Statement, ParserError> {
5125 let or_replace = self.parse_keywords(&[Keyword::OR, Keyword::REPLACE]);
5126 let or_alter = self.parse_keywords(&[Keyword::OR, Keyword::ALTER]);
5127 let multiset = self.maybe_parse_multiset();
5128 let local = self.parse_one_of_keywords(&[Keyword::LOCAL]).is_some();
5129 let global = self.parse_one_of_keywords(&[Keyword::GLOBAL]).is_some();
5130 let transient = self.parse_one_of_keywords(&[Keyword::TRANSIENT]).is_some();
5131 let global: Option<bool> = if global {
5132 Some(true)
5133 } else if local {
5134 Some(false)
5135 } else {
5136 None
5137 };
5138 let temporary = self
5139 .parse_one_of_keywords(&[Keyword::TEMP, Keyword::TEMPORARY])
5140 .is_some();
5141 let volatile = self.parse_keyword(Keyword::VOLATILE);
5142 let persistent = dialect_of!(self is DuckDbDialect)
5143 && self.parse_one_of_keywords(&[Keyword::PERSISTENT]).is_some();
5144 let create_view_params = self.parse_create_view_params()?;
5145 if self.peek_keywords(&[Keyword::SNAPSHOT, Keyword::TABLE]) {
5146 self.parse_create_snapshot_table().map(Into::into)
5147 } else if self.parse_keyword(Keyword::TABLE) {
5148 self.parse_create_table(or_replace, temporary, global, transient, volatile, multiset)
5149 .map(Into::into)
5150 } else if self.peek_keyword(Keyword::MATERIALIZED)
5151 || self.peek_keyword(Keyword::VIEW)
5152 || self.peek_keywords(&[Keyword::SECURE, Keyword::MATERIALIZED, Keyword::VIEW])
5153 || self.peek_keywords(&[Keyword::SECURE, Keyword::VIEW])
5154 {
5155 self.parse_create_view(or_alter, or_replace, temporary, create_view_params)
5156 .map(Into::into)
5157 } else if self.parse_keyword(Keyword::POLICY) {
5158 self.parse_create_policy().map(Into::into)
5159 } else if self.parse_keyword(Keyword::EXTERNAL) {
5160 self.parse_create_external_table(or_replace).map(Into::into)
5161 } else if self.parse_keyword(Keyword::FUNCTION) {
5162 self.parse_create_function(or_alter, or_replace, temporary)
5163 } else if self.parse_keyword(Keyword::DOMAIN) {
5164 self.parse_create_domain().map(Into::into)
5165 } else if self.parse_keyword(Keyword::TRIGGER) {
5166 self.parse_create_trigger(temporary, or_alter, or_replace, false)
5167 .map(Into::into)
5168 } else if self.parse_keywords(&[Keyword::CONSTRAINT, Keyword::TRIGGER]) {
5169 self.parse_create_trigger(temporary, or_alter, or_replace, true)
5170 .map(Into::into)
5171 } else if self.parse_keyword(Keyword::MACRO) {
5172 self.parse_create_macro(or_replace, temporary)
5173 } else if self.parse_keyword(Keyword::SECRET) {
5174 self.parse_create_secret(or_replace, temporary, persistent)
5175 } else if self.parse_keyword(Keyword::USER) {
5176 self.parse_create_user(or_replace).map(Into::into)
5177 } else if or_replace {
5178 self.expected_ref(
5179 "[EXTERNAL] TABLE or [MATERIALIZED] VIEW or FUNCTION after CREATE OR REPLACE",
5180 self.peek_token_ref(),
5181 )
5182 } else if self.parse_keyword(Keyword::EXTENSION) {
5183 self.parse_create_extension().map(Into::into)
5184 } else if self.parse_keyword(Keyword::INDEX) {
5185 self.parse_create_index(false).map(Into::into)
5186 } else if self.parse_keywords(&[Keyword::UNIQUE, Keyword::INDEX]) {
5187 self.parse_create_index(true).map(Into::into)
5188 } else if self.parse_keyword(Keyword::VIRTUAL) {
5189 self.parse_create_virtual_table()
5190 } else if self.parse_keyword(Keyword::SCHEMA) {
5191 self.parse_create_schema()
5192 } else if self.parse_keyword(Keyword::DATABASE) {
5193 self.parse_create_database()
5194 } else if self.parse_keyword(Keyword::ROLE) {
5195 self.parse_create_role().map(Into::into)
5196 } else if self.parse_keyword(Keyword::SEQUENCE) {
5197 self.parse_create_sequence(temporary)
5198 } else if self.parse_keyword(Keyword::COLLATION) {
5199 self.parse_create_collation().map(Into::into)
5200 } else if self.parse_keyword(Keyword::TYPE) {
5201 self.parse_create_type()
5202 } else if self.parse_keyword(Keyword::PROCEDURE) {
5203 self.parse_create_procedure(or_alter)
5204 } else if self.parse_keyword(Keyword::CONNECTOR) {
5205 self.parse_create_connector().map(Into::into)
5206 } else if self.parse_keyword(Keyword::OPERATOR) {
5207 if self.parse_keyword(Keyword::FAMILY) {
5209 self.parse_create_operator_family().map(Into::into)
5210 } else if self.parse_keyword(Keyword::CLASS) {
5211 self.parse_create_operator_class().map(Into::into)
5212 } else {
5213 self.parse_create_operator().map(Into::into)
5214 }
5215 } else if self.parse_keyword(Keyword::SERVER) {
5216 self.parse_pg_create_server()
5217 } else {
5218 self.expected_ref("an object type after CREATE", self.peek_token_ref())
5219 }
5220 }
5221
5222 fn parse_create_user(&mut self, or_replace: bool) -> Result<CreateUser, ParserError> {
5223 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5224 let name = self.parse_identifier()?;
5225 let options = self
5226 .parse_key_value_options(false, &[Keyword::WITH, Keyword::TAG])?
5227 .options;
5228 let with_tags = self.parse_keyword(Keyword::WITH);
5229 let tags = if self.parse_keyword(Keyword::TAG) {
5230 self.parse_key_value_options(true, &[])?.options
5231 } else {
5232 vec![]
5233 };
5234 Ok(CreateUser {
5235 or_replace,
5236 if_not_exists,
5237 name,
5238 options: KeyValueOptions {
5239 options,
5240 delimiter: KeyValueOptionsDelimiter::Space,
5241 },
5242 with_tags,
5243 tags: KeyValueOptions {
5244 options: tags,
5245 delimiter: KeyValueOptionsDelimiter::Comma,
5246 },
5247 })
5248 }
5249
5250 pub fn parse_create_secret(
5252 &mut self,
5253 or_replace: bool,
5254 temporary: bool,
5255 persistent: bool,
5256 ) -> Result<Statement, ParserError> {
5257 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5258
5259 let mut storage_specifier = None;
5260 let mut name = None;
5261 if self.peek_token_ref().token != Token::LParen {
5262 if self.parse_keyword(Keyword::IN) {
5263 storage_specifier = self.parse_identifier().ok()
5264 } else {
5265 name = self.parse_identifier().ok();
5266 }
5267
5268 if storage_specifier.is_none()
5270 && self.peek_token_ref().token != Token::LParen
5271 && self.parse_keyword(Keyword::IN)
5272 {
5273 storage_specifier = self.parse_identifier().ok();
5274 }
5275 }
5276
5277 self.expect_token(&Token::LParen)?;
5278 self.expect_keyword_is(Keyword::TYPE)?;
5279 let secret_type = self.parse_identifier()?;
5280
5281 let mut options = Vec::new();
5282 if self.consume_token(&Token::Comma) {
5283 options.append(&mut self.parse_comma_separated(|p| {
5284 let key = p.parse_identifier()?;
5285 let value = p.parse_identifier()?;
5286 Ok(SecretOption { key, value })
5287 })?);
5288 }
5289 self.expect_token(&Token::RParen)?;
5290
5291 let temp = match (temporary, persistent) {
5292 (true, false) => Some(true),
5293 (false, true) => Some(false),
5294 (false, false) => None,
5295 _ => self.expected_ref("TEMPORARY or PERSISTENT", self.peek_token_ref())?,
5296 };
5297
5298 Ok(Statement::CreateSecret {
5299 or_replace,
5300 temporary: temp,
5301 if_not_exists,
5302 name,
5303 storage_specifier,
5304 secret_type,
5305 options,
5306 })
5307 }
5308
5309 pub fn parse_cache_table(&mut self) -> Result<Statement, ParserError> {
5311 let (mut table_flag, mut options, mut has_as, mut query) = (None, vec![], false, None);
5312 if self.parse_keyword(Keyword::TABLE) {
5313 let table_name = self.parse_object_name(false)?;
5314 if self.peek_token_ref().token != Token::EOF {
5315 if let Token::Word(word) = &self.peek_token_ref().token {
5316 if word.keyword == Keyword::OPTIONS {
5317 options = self.parse_options(Keyword::OPTIONS)?
5318 }
5319 };
5320
5321 if self.peek_token_ref().token != Token::EOF {
5322 let (a, q) = self.parse_as_query()?;
5323 has_as = a;
5324 query = Some(q);
5325 }
5326
5327 Ok(Statement::Cache {
5328 table_flag,
5329 table_name,
5330 has_as,
5331 options,
5332 query,
5333 })
5334 } else {
5335 Ok(Statement::Cache {
5336 table_flag,
5337 table_name,
5338 has_as,
5339 options,
5340 query,
5341 })
5342 }
5343 } else {
5344 table_flag = Some(self.parse_object_name(false)?);
5345 if self.parse_keyword(Keyword::TABLE) {
5346 let table_name = self.parse_object_name(false)?;
5347 if self.peek_token_ref().token != Token::EOF {
5348 if let Token::Word(word) = &self.peek_token_ref().token {
5349 if word.keyword == Keyword::OPTIONS {
5350 options = self.parse_options(Keyword::OPTIONS)?
5351 }
5352 };
5353
5354 if self.peek_token_ref().token != Token::EOF {
5355 let (a, q) = self.parse_as_query()?;
5356 has_as = a;
5357 query = Some(q);
5358 }
5359
5360 Ok(Statement::Cache {
5361 table_flag,
5362 table_name,
5363 has_as,
5364 options,
5365 query,
5366 })
5367 } else {
5368 Ok(Statement::Cache {
5369 table_flag,
5370 table_name,
5371 has_as,
5372 options,
5373 query,
5374 })
5375 }
5376 } else {
5377 if self.peek_token_ref().token == Token::EOF {
5378 self.prev_token();
5379 }
5380 self.expected_ref("a `TABLE` keyword", self.peek_token_ref())
5381 }
5382 }
5383 }
5384
5385 pub fn parse_as_query(&mut self) -> Result<(bool, Box<Query>), ParserError> {
5387 match &self.peek_token_ref().token {
5388 Token::Word(word) => match word.keyword {
5389 Keyword::AS => {
5390 self.next_token();
5391 Ok((true, self.parse_query()?))
5392 }
5393 _ => Ok((false, self.parse_query()?)),
5394 },
5395 _ => self.expected_ref("a QUERY statement", self.peek_token_ref()),
5396 }
5397 }
5398
5399 pub fn parse_uncache_table(&mut self) -> Result<Statement, ParserError> {
5401 self.expect_keyword_is(Keyword::TABLE)?;
5402 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
5403 let table_name = self.parse_object_name(false)?;
5404 Ok(Statement::UNCache {
5405 table_name,
5406 if_exists,
5407 })
5408 }
5409
5410 pub fn parse_create_virtual_table(&mut self) -> Result<Statement, ParserError> {
5412 self.expect_keyword_is(Keyword::TABLE)?;
5413 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5414 let table_name = self.parse_object_name(false)?;
5415 self.expect_keyword_is(Keyword::USING)?;
5416 let module_name = self.parse_identifier()?;
5417 let module_args = self.parse_parenthesized_column_list(Optional, false)?;
5422 Ok(Statement::CreateVirtualTable {
5423 name: table_name,
5424 if_not_exists,
5425 module_name,
5426 module_args,
5427 })
5428 }
5429
5430 pub fn parse_create_schema(&mut self) -> Result<Statement, ParserError> {
5432 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5433
5434 let schema_name = self.parse_schema_name()?;
5435
5436 let default_collate_spec = if self.parse_keywords(&[Keyword::DEFAULT, Keyword::COLLATE]) {
5437 Some(self.parse_expr()?)
5438 } else {
5439 None
5440 };
5441
5442 let with = if self.peek_keyword(Keyword::WITH) {
5443 Some(self.parse_options(Keyword::WITH)?)
5444 } else {
5445 None
5446 };
5447
5448 let options = if self.peek_keyword(Keyword::OPTIONS) {
5449 Some(self.parse_options(Keyword::OPTIONS)?)
5450 } else {
5451 None
5452 };
5453
5454 let clone = if self.parse_keyword(Keyword::CLONE) {
5455 Some(self.parse_object_name(false)?)
5456 } else {
5457 None
5458 };
5459
5460 Ok(Statement::CreateSchema {
5461 schema_name,
5462 if_not_exists,
5463 with,
5464 options,
5465 default_collate_spec,
5466 clone,
5467 })
5468 }
5469
5470 fn parse_schema_name(&mut self) -> Result<SchemaName, ParserError> {
5471 if self.parse_keyword(Keyword::AUTHORIZATION) {
5472 Ok(SchemaName::UnnamedAuthorization(self.parse_identifier()?))
5473 } else {
5474 let name = self.parse_object_name(false)?;
5475
5476 if self.parse_keyword(Keyword::AUTHORIZATION) {
5477 Ok(SchemaName::NamedAuthorization(
5478 name,
5479 self.parse_identifier()?,
5480 ))
5481 } else {
5482 Ok(SchemaName::Simple(name))
5483 }
5484 }
5485 }
5486
5487 pub fn parse_create_database(&mut self) -> Result<Statement, ParserError> {
5489 let ine = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5490 let db_name = self.parse_object_name(false)?;
5491 let mut location = None;
5492 let mut managed_location = None;
5493 loop {
5494 match self.parse_one_of_keywords(&[Keyword::LOCATION, Keyword::MANAGEDLOCATION]) {
5495 Some(Keyword::LOCATION) => location = Some(self.parse_literal_string()?),
5496 Some(Keyword::MANAGEDLOCATION) => {
5497 managed_location = Some(self.parse_literal_string()?)
5498 }
5499 _ => break,
5500 }
5501 }
5502 let clone = if self.parse_keyword(Keyword::CLONE) {
5503 Some(self.parse_object_name(false)?)
5504 } else {
5505 None
5506 };
5507
5508 let mut default_charset = None;
5516 let mut default_collation = None;
5517 loop {
5518 let has_default = self.parse_keyword(Keyword::DEFAULT);
5519 if default_charset.is_none() && self.parse_keywords(&[Keyword::CHARACTER, Keyword::SET])
5520 || self.parse_keyword(Keyword::CHARSET)
5521 {
5522 let _ = self.consume_token(&Token::Eq);
5523 default_charset = Some(self.parse_identifier()?.value);
5524 } else if self.parse_keyword(Keyword::COLLATE) {
5525 let _ = self.consume_token(&Token::Eq);
5526 default_collation = Some(self.parse_identifier()?.value);
5527 } else if has_default {
5528 self.prev_token();
5530 break;
5531 } else {
5532 break;
5533 }
5534 }
5535
5536 Ok(Statement::CreateDatabase {
5537 db_name,
5538 if_not_exists: ine,
5539 location,
5540 managed_location,
5541 or_replace: false,
5542 transient: false,
5543 clone,
5544 data_retention_time_in_days: None,
5545 max_data_extension_time_in_days: None,
5546 external_volume: None,
5547 catalog: None,
5548 replace_invalid_characters: None,
5549 default_ddl_collation: None,
5550 storage_serialization_policy: None,
5551 comment: None,
5552 default_charset,
5553 default_collation,
5554 catalog_sync: None,
5555 catalog_sync_namespace_mode: None,
5556 catalog_sync_namespace_flatten_delimiter: None,
5557 with_tags: None,
5558 with_contacts: None,
5559 })
5560 }
5561
5562 pub fn parse_optional_create_function_using(
5564 &mut self,
5565 ) -> Result<Option<CreateFunctionUsing>, ParserError> {
5566 if !self.parse_keyword(Keyword::USING) {
5567 return Ok(None);
5568 };
5569 let keyword =
5570 self.expect_one_of_keywords(&[Keyword::JAR, Keyword::FILE, Keyword::ARCHIVE])?;
5571
5572 let uri = self.parse_literal_string()?;
5573
5574 match keyword {
5575 Keyword::JAR => Ok(Some(CreateFunctionUsing::Jar(uri))),
5576 Keyword::FILE => Ok(Some(CreateFunctionUsing::File(uri))),
5577 Keyword::ARCHIVE => Ok(Some(CreateFunctionUsing::Archive(uri))),
5578 _ => self.expected(
5579 "JAR, FILE or ARCHIVE, got {:?}",
5580 TokenWithSpan::wrap(Token::make_keyword(format!("{keyword:?}").as_str())),
5581 ),
5582 }
5583 }
5584
5585 pub fn parse_create_function(
5587 &mut self,
5588 or_alter: bool,
5589 or_replace: bool,
5590 temporary: bool,
5591 ) -> Result<Statement, ParserError> {
5592 if dialect_of!(self is HiveDialect) {
5593 self.parse_hive_create_function(or_replace, temporary)
5594 .map(Into::into)
5595 } else if dialect_of!(self is PostgreSqlDialect | GenericDialect) {
5596 self.parse_postgres_create_function(or_replace, temporary)
5597 .map(Into::into)
5598 } else if dialect_of!(self is DuckDbDialect) {
5599 self.parse_create_macro(or_replace, temporary)
5600 } else if dialect_of!(self is BigQueryDialect) {
5601 self.parse_bigquery_create_function(or_replace, temporary)
5602 .map(Into::into)
5603 } else if dialect_of!(self is MsSqlDialect) {
5604 self.parse_mssql_create_function(or_alter, or_replace, temporary)
5605 .map(Into::into)
5606 } else {
5607 self.prev_token();
5608 self.expected_ref("an object type after CREATE", self.peek_token_ref())
5609 }
5610 }
5611
5612 fn parse_postgres_create_function(
5616 &mut self,
5617 or_replace: bool,
5618 temporary: bool,
5619 ) -> Result<CreateFunction, ParserError> {
5620 let name = self.parse_object_name(false)?;
5621
5622 self.expect_token(&Token::LParen)?;
5623 let args = if Token::RParen != self.peek_token_ref().token {
5624 self.parse_comma_separated(Parser::parse_function_arg)?
5625 } else {
5626 vec![]
5627 };
5628 self.expect_token(&Token::RParen)?;
5629
5630 let return_type = if self.parse_keyword(Keyword::RETURNS) {
5631 Some(self.parse_function_return_type()?)
5632 } else {
5633 None
5634 };
5635
5636 #[derive(Default)]
5637 struct Body {
5638 language: Option<Ident>,
5639 behavior: Option<FunctionBehavior>,
5640 function_body: Option<CreateFunctionBody>,
5641 called_on_null: Option<FunctionCalledOnNull>,
5642 parallel: Option<FunctionParallel>,
5643 security: Option<FunctionSecurity>,
5644 }
5645 let mut body = Body::default();
5646 let mut set_params: Vec<FunctionDefinitionSetParam> = Vec::new();
5647 loop {
5648 fn ensure_not_set<T>(field: &Option<T>, name: &str) -> Result<(), ParserError> {
5649 if field.is_some() {
5650 return Err(ParserError::ParserError(format!(
5651 "{name} specified more than once",
5652 )));
5653 }
5654 Ok(())
5655 }
5656 if self.parse_keyword(Keyword::AS) {
5657 ensure_not_set(&body.function_body, "AS")?;
5658 body.function_body = Some(self.parse_create_function_body_string()?);
5659 } else if self.parse_keyword(Keyword::LANGUAGE) {
5660 ensure_not_set(&body.language, "LANGUAGE")?;
5661 body.language = Some(self.parse_identifier()?);
5662 } else if self.parse_keyword(Keyword::IMMUTABLE) {
5663 ensure_not_set(&body.behavior, "IMMUTABLE | STABLE | VOLATILE")?;
5664 body.behavior = Some(FunctionBehavior::Immutable);
5665 } else if self.parse_keyword(Keyword::STABLE) {
5666 ensure_not_set(&body.behavior, "IMMUTABLE | STABLE | VOLATILE")?;
5667 body.behavior = Some(FunctionBehavior::Stable);
5668 } else if self.parse_keyword(Keyword::VOLATILE) {
5669 ensure_not_set(&body.behavior, "IMMUTABLE | STABLE | VOLATILE")?;
5670 body.behavior = Some(FunctionBehavior::Volatile);
5671 } else if self.parse_keywords(&[
5672 Keyword::CALLED,
5673 Keyword::ON,
5674 Keyword::NULL,
5675 Keyword::INPUT,
5676 ]) {
5677 ensure_not_set(
5678 &body.called_on_null,
5679 "CALLED ON NULL INPUT | RETURNS NULL ON NULL INPUT | STRICT",
5680 )?;
5681 body.called_on_null = Some(FunctionCalledOnNull::CalledOnNullInput);
5682 } else if self.parse_keywords(&[
5683 Keyword::RETURNS,
5684 Keyword::NULL,
5685 Keyword::ON,
5686 Keyword::NULL,
5687 Keyword::INPUT,
5688 ]) {
5689 ensure_not_set(
5690 &body.called_on_null,
5691 "CALLED ON NULL INPUT | RETURNS NULL ON NULL INPUT | STRICT",
5692 )?;
5693 body.called_on_null = Some(FunctionCalledOnNull::ReturnsNullOnNullInput);
5694 } else if self.parse_keyword(Keyword::STRICT) {
5695 ensure_not_set(
5696 &body.called_on_null,
5697 "CALLED ON NULL INPUT | RETURNS NULL ON NULL INPUT | STRICT",
5698 )?;
5699 body.called_on_null = Some(FunctionCalledOnNull::Strict);
5700 } else if self.parse_keyword(Keyword::PARALLEL) {
5701 ensure_not_set(&body.parallel, "PARALLEL { UNSAFE | RESTRICTED | SAFE }")?;
5702 if self.parse_keyword(Keyword::UNSAFE) {
5703 body.parallel = Some(FunctionParallel::Unsafe);
5704 } else if self.parse_keyword(Keyword::RESTRICTED) {
5705 body.parallel = Some(FunctionParallel::Restricted);
5706 } else if self.parse_keyword(Keyword::SAFE) {
5707 body.parallel = Some(FunctionParallel::Safe);
5708 } else {
5709 return self
5710 .expected_ref("one of UNSAFE | RESTRICTED | SAFE", self.peek_token_ref());
5711 }
5712 } else if self.parse_keyword(Keyword::SECURITY) {
5713 ensure_not_set(&body.security, "SECURITY { DEFINER | INVOKER }")?;
5714 if self.parse_keyword(Keyword::DEFINER) {
5715 body.security = Some(FunctionSecurity::Definer);
5716 } else if self.parse_keyword(Keyword::INVOKER) {
5717 body.security = Some(FunctionSecurity::Invoker);
5718 } else {
5719 return self.expected_ref("DEFINER or INVOKER", self.peek_token_ref());
5720 }
5721 } else if self.parse_keyword(Keyword::SET) {
5722 let name = self.parse_object_name(false)?;
5723 let value = if self.parse_keywords(&[Keyword::FROM, Keyword::CURRENT]) {
5724 FunctionSetValue::FromCurrent
5725 } else {
5726 if !self.consume_token(&Token::Eq) && !self.parse_keyword(Keyword::TO) {
5727 return self.expected_ref("= or TO", self.peek_token_ref());
5728 }
5729 if self.parse_keyword(Keyword::DEFAULT) {
5730 FunctionSetValue::Default
5731 } else {
5732 let values = self.parse_comma_separated(Parser::parse_expr)?;
5733 FunctionSetValue::Values(values)
5734 }
5735 };
5736 set_params.push(FunctionDefinitionSetParam { name, value });
5737 } else if self.parse_keyword(Keyword::RETURN) {
5738 ensure_not_set(&body.function_body, "RETURN")?;
5739 body.function_body = Some(CreateFunctionBody::Return(self.parse_expr()?));
5740 } else {
5741 break;
5742 }
5743 }
5744
5745 Ok(CreateFunction {
5746 or_alter: false,
5747 or_replace,
5748 temporary,
5749 name,
5750 args: Some(args),
5751 return_type,
5752 behavior: body.behavior,
5753 called_on_null: body.called_on_null,
5754 parallel: body.parallel,
5755 security: body.security,
5756 set_params,
5757 language: body.language,
5758 function_body: body.function_body,
5759 if_not_exists: false,
5760 using: None,
5761 determinism_specifier: None,
5762 options: None,
5763 remote_connection: None,
5764 })
5765 }
5766
5767 fn parse_hive_create_function(
5771 &mut self,
5772 or_replace: bool,
5773 temporary: bool,
5774 ) -> Result<CreateFunction, ParserError> {
5775 let name = self.parse_object_name(false)?;
5776 self.expect_keyword_is(Keyword::AS)?;
5777
5778 let body = self.parse_create_function_body_string()?;
5779 let using = self.parse_optional_create_function_using()?;
5780
5781 Ok(CreateFunction {
5782 or_alter: false,
5783 or_replace,
5784 temporary,
5785 name,
5786 function_body: Some(body),
5787 using,
5788 if_not_exists: false,
5789 args: None,
5790 return_type: None,
5791 behavior: None,
5792 called_on_null: None,
5793 parallel: None,
5794 security: None,
5795 set_params: vec![],
5796 language: None,
5797 determinism_specifier: None,
5798 options: None,
5799 remote_connection: None,
5800 })
5801 }
5802
5803 fn parse_bigquery_create_function(
5807 &mut self,
5808 or_replace: bool,
5809 temporary: bool,
5810 ) -> Result<CreateFunction, ParserError> {
5811 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
5812 let (name, args) = self.parse_create_function_name_and_params()?;
5813
5814 let return_type = if self.parse_keyword(Keyword::RETURNS) {
5815 Some(self.parse_function_return_type()?)
5816 } else {
5817 None
5818 };
5819
5820 let determinism_specifier = if self.parse_keyword(Keyword::DETERMINISTIC) {
5821 Some(FunctionDeterminismSpecifier::Deterministic)
5822 } else if self.parse_keywords(&[Keyword::NOT, Keyword::DETERMINISTIC]) {
5823 Some(FunctionDeterminismSpecifier::NotDeterministic)
5824 } else {
5825 None
5826 };
5827
5828 let language = if self.parse_keyword(Keyword::LANGUAGE) {
5829 Some(self.parse_identifier()?)
5830 } else {
5831 None
5832 };
5833
5834 let remote_connection =
5835 if self.parse_keywords(&[Keyword::REMOTE, Keyword::WITH, Keyword::CONNECTION]) {
5836 Some(self.parse_object_name(false)?)
5837 } else {
5838 None
5839 };
5840
5841 let mut options = self.maybe_parse_options(Keyword::OPTIONS)?;
5844
5845 let function_body = if remote_connection.is_none() {
5846 self.expect_keyword_is(Keyword::AS)?;
5847 let expr = self.parse_expr()?;
5848 if options.is_none() {
5849 options = self.maybe_parse_options(Keyword::OPTIONS)?;
5850 Some(CreateFunctionBody::AsBeforeOptions {
5851 body: expr,
5852 link_symbol: None,
5853 })
5854 } else {
5855 Some(CreateFunctionBody::AsAfterOptions(expr))
5856 }
5857 } else {
5858 None
5859 };
5860
5861 Ok(CreateFunction {
5862 or_alter: false,
5863 or_replace,
5864 temporary,
5865 if_not_exists,
5866 name,
5867 args: Some(args),
5868 return_type,
5869 function_body,
5870 language,
5871 determinism_specifier,
5872 options,
5873 remote_connection,
5874 using: None,
5875 behavior: None,
5876 called_on_null: None,
5877 parallel: None,
5878 security: None,
5879 set_params: vec![],
5880 })
5881 }
5882
5883 fn parse_mssql_create_function(
5887 &mut self,
5888 or_alter: bool,
5889 or_replace: bool,
5890 temporary: bool,
5891 ) -> Result<CreateFunction, ParserError> {
5892 let (name, args) = self.parse_create_function_name_and_params()?;
5893
5894 self.expect_keyword(Keyword::RETURNS)?;
5895
5896 let return_table = self.maybe_parse(|p| {
5897 let return_table_name = p.parse_identifier()?;
5898
5899 p.expect_keyword_is(Keyword::TABLE)?;
5900 p.prev_token();
5901
5902 let table_column_defs = match p.parse_data_type()? {
5903 DataType::Table(Some(table_column_defs)) if !table_column_defs.is_empty() => {
5904 table_column_defs
5905 }
5906 _ => parser_err!(
5907 "Expected table column definitions after TABLE keyword",
5908 p.peek_token_ref().span.start
5909 )?,
5910 };
5911
5912 Ok(DataType::NamedTable {
5913 name: ObjectName(vec![ObjectNamePart::Identifier(return_table_name)]),
5914 columns: table_column_defs,
5915 })
5916 })?;
5917
5918 let data_type = match return_table {
5919 Some(table_type) => table_type,
5920 None => self.parse_data_type()?,
5921 };
5922 let return_type = Some(FunctionReturnType::DataType(data_type));
5923
5924 let _ = self.parse_keyword(Keyword::AS);
5925
5926 let function_body = if self.peek_keyword(Keyword::BEGIN) {
5927 let begin_token = self.expect_keyword(Keyword::BEGIN)?;
5928 let statements = self.parse_statement_list(&[Keyword::END])?;
5929 let end_token = self.expect_keyword(Keyword::END)?;
5930
5931 Some(CreateFunctionBody::AsBeginEnd(BeginEndStatements {
5932 begin_token: AttachedToken(begin_token),
5933 statements,
5934 end_token: AttachedToken(end_token),
5935 }))
5936 } else if self.parse_keyword(Keyword::RETURN) {
5937 if self.peek_token_ref().token == Token::LParen {
5938 Some(CreateFunctionBody::AsReturnExpr(self.parse_expr()?))
5939 } else if self.peek_keyword(Keyword::SELECT) {
5940 let select = self.parse_select()?;
5941 Some(CreateFunctionBody::AsReturnSelect(select))
5942 } else {
5943 parser_err!(
5944 "Expected a subquery (or bare SELECT statement) after RETURN",
5945 self.peek_token_ref().span.start
5946 )?
5947 }
5948 } else {
5949 parser_err!("Unparsable function body", self.peek_token_ref().span.start)?
5950 };
5951
5952 Ok(CreateFunction {
5953 or_alter,
5954 or_replace,
5955 temporary,
5956 if_not_exists: false,
5957 name,
5958 args: Some(args),
5959 return_type,
5960 function_body,
5961 language: None,
5962 determinism_specifier: None,
5963 options: None,
5964 remote_connection: None,
5965 using: None,
5966 behavior: None,
5967 called_on_null: None,
5968 parallel: None,
5969 security: None,
5970 set_params: vec![],
5971 })
5972 }
5973
5974 fn parse_function_return_type(&mut self) -> Result<FunctionReturnType, ParserError> {
5975 if self.parse_keyword(Keyword::SETOF) {
5976 Ok(FunctionReturnType::SetOf(self.parse_data_type()?))
5977 } else {
5978 Ok(FunctionReturnType::DataType(self.parse_data_type()?))
5979 }
5980 }
5981
5982 fn parse_create_function_name_and_params(
5983 &mut self,
5984 ) -> Result<(ObjectName, Vec<OperateFunctionArg>), ParserError> {
5985 let name = self.parse_object_name(false)?;
5986 let parse_function_param =
5987 |parser: &mut Parser| -> Result<OperateFunctionArg, ParserError> {
5988 let name = parser.parse_identifier()?;
5989 let data_type = parser.parse_data_type()?;
5990 let default_expr = if parser.consume_token(&Token::Eq) {
5991 Some(parser.parse_expr()?)
5992 } else {
5993 None
5994 };
5995
5996 Ok(OperateFunctionArg {
5997 mode: None,
5998 name: Some(name),
5999 data_type,
6000 default_expr,
6001 })
6002 };
6003 self.expect_token(&Token::LParen)?;
6004 let args = self.parse_comma_separated0(parse_function_param, Token::RParen)?;
6005 self.expect_token(&Token::RParen)?;
6006 Ok((name, args))
6007 }
6008
6009 fn parse_function_arg(&mut self) -> Result<OperateFunctionArg, ParserError> {
6010 let mode = if self.parse_keyword(Keyword::IN) {
6011 Some(ArgMode::In)
6012 } else if self.parse_keyword(Keyword::OUT) {
6013 Some(ArgMode::Out)
6014 } else if self.parse_keyword(Keyword::INOUT) {
6015 Some(ArgMode::InOut)
6016 } else if self.parse_keyword(Keyword::VARIADIC) {
6017 Some(ArgMode::Variadic)
6018 } else {
6019 None
6020 };
6021
6022 let mut name = None;
6024 let mut data_type = self.parse_data_type()?;
6025
6026 let data_type_idx = self.get_current_index();
6030
6031 fn parse_data_type_no_default(parser: &mut Parser) -> Result<DataType, ParserError> {
6033 if parser.peek_keyword(Keyword::DEFAULT) {
6034 parser_err!(
6036 "The DEFAULT keyword is not a type",
6037 parser.peek_token_ref().span.start
6038 )
6039 } else {
6040 parser.parse_data_type()
6041 }
6042 }
6043
6044 if let Some(next_data_type) = self.maybe_parse(parse_data_type_no_default)? {
6045 let token = self.token_at(data_type_idx);
6046
6047 if !matches!(token.token, Token::Word(_)) {
6049 return self.expected("a name or type", token.clone());
6050 }
6051
6052 name = Some(Ident::new(token.to_string()));
6053 data_type = next_data_type;
6054 }
6055
6056 let default_expr = if self.parse_keyword(Keyword::DEFAULT) || self.consume_token(&Token::Eq)
6057 {
6058 Some(self.parse_expr()?)
6059 } else {
6060 None
6061 };
6062 Ok(OperateFunctionArg {
6063 mode,
6064 name,
6065 data_type,
6066 default_expr,
6067 })
6068 }
6069
6070 fn parse_aggregate_function_arg(&mut self) -> Result<OperateFunctionArg, ParserError> {
6071 let mode = if self.parse_keyword(Keyword::IN) {
6072 Some(ArgMode::In)
6073 } else {
6074 if self
6075 .peek_one_of_keywords(&[Keyword::OUT, Keyword::INOUT, Keyword::VARIADIC])
6076 .is_some()
6077 {
6078 return self.expected_ref(
6079 "IN or argument type in aggregate signature",
6080 self.peek_token_ref(),
6081 );
6082 }
6083 None
6084 };
6085
6086 let mut name = None;
6089 let mut data_type = self.parse_data_type()?;
6090 let data_type_idx = self.get_current_index();
6091
6092 fn parse_data_type_for_aggregate_arg(parser: &mut Parser) -> Result<DataType, ParserError> {
6093 if parser.peek_keyword(Keyword::DEFAULT)
6094 || parser.peek_keyword(Keyword::ORDER)
6095 || parser.peek_token_ref().token == Token::Comma
6096 || parser.peek_token_ref().token == Token::RParen
6097 {
6098 parser_err!(
6100 "The current token cannot start an aggregate argument type",
6101 parser.peek_token_ref().span.start
6102 )
6103 } else {
6104 parser.parse_data_type()
6105 }
6106 }
6107
6108 if let Some(next_data_type) = self.maybe_parse(parse_data_type_for_aggregate_arg)? {
6109 let token = self.token_at(data_type_idx);
6110 if !matches!(token.token, Token::Word(_)) {
6111 return self.expected("a name or type", token.clone());
6112 }
6113
6114 name = Some(Ident::new(token.to_string()));
6115 data_type = next_data_type;
6116 }
6117
6118 if self.peek_keyword(Keyword::DEFAULT) || self.peek_token_ref().token == Token::Eq {
6119 return self.expected_ref(
6120 "',' or ')' or ORDER BY after aggregate argument type",
6121 self.peek_token_ref(),
6122 );
6123 }
6124
6125 Ok(OperateFunctionArg {
6126 mode,
6127 name,
6128 data_type,
6129 default_expr: None,
6130 })
6131 }
6132
6133 pub fn parse_drop_trigger(&mut self) -> Result<DropTrigger, ParserError> {
6139 if !dialect_of!(self is PostgreSqlDialect | SQLiteDialect | GenericDialect | MySqlDialect | MsSqlDialect)
6140 {
6141 self.prev_token();
6142 return self.expected_ref("an object type after DROP", self.peek_token_ref());
6143 }
6144 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
6145 let trigger_name = self.parse_object_name(false)?;
6146 let table_name = if self.parse_keyword(Keyword::ON) {
6147 Some(self.parse_object_name(false)?)
6148 } else {
6149 None
6150 };
6151 let option = match self.parse_one_of_keywords(&[Keyword::CASCADE, Keyword::RESTRICT]) {
6152 Some(Keyword::CASCADE) => Some(ReferentialAction::Cascade),
6153 Some(Keyword::RESTRICT) => Some(ReferentialAction::Restrict),
6154 Some(unexpected_keyword) => return Err(ParserError::ParserError(
6155 format!("Internal parser error: expected any of {{CASCADE, RESTRICT}}, got {unexpected_keyword:?}"),
6156 )),
6157 None => None,
6158 };
6159 Ok(DropTrigger {
6160 if_exists,
6161 trigger_name,
6162 table_name,
6163 option,
6164 })
6165 }
6166
6167 pub fn parse_create_trigger(
6169 &mut self,
6170 temporary: bool,
6171 or_alter: bool,
6172 or_replace: bool,
6173 is_constraint: bool,
6174 ) -> Result<CreateTrigger, ParserError> {
6175 if !dialect_of!(self is PostgreSqlDialect | SQLiteDialect | GenericDialect | MySqlDialect | MsSqlDialect)
6176 {
6177 self.prev_token();
6178 return self.expected_ref("an object type after CREATE", self.peek_token_ref());
6179 }
6180
6181 let name = self.parse_object_name(false)?;
6182 let period = self.maybe_parse(|parser| parser.parse_trigger_period())?;
6183
6184 let events = self.parse_keyword_separated(Keyword::OR, Parser::parse_trigger_event)?;
6185 self.expect_keyword_is(Keyword::ON)?;
6186 let table_name = self.parse_object_name(false)?;
6187
6188 let referenced_table_name = if self.parse_keyword(Keyword::FROM) {
6189 self.parse_object_name(true).ok()
6190 } else {
6191 None
6192 };
6193
6194 let characteristics = self.parse_constraint_characteristics()?;
6195
6196 let mut referencing = vec![];
6197 if self.parse_keyword(Keyword::REFERENCING) {
6198 while let Some(refer) = self.parse_trigger_referencing()? {
6199 referencing.push(refer);
6200 }
6201 }
6202
6203 let trigger_object = if self.parse_keyword(Keyword::FOR) {
6204 let include_each = self.parse_keyword(Keyword::EACH);
6205 let trigger_object =
6206 match self.expect_one_of_keywords(&[Keyword::ROW, Keyword::STATEMENT])? {
6207 Keyword::ROW => TriggerObject::Row,
6208 Keyword::STATEMENT => TriggerObject::Statement,
6209 unexpected_keyword => return Err(ParserError::ParserError(
6210 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in ROW/STATEMENT"),
6211 )),
6212 };
6213
6214 Some(if include_each {
6215 TriggerObjectKind::ForEach(trigger_object)
6216 } else {
6217 TriggerObjectKind::For(trigger_object)
6218 })
6219 } else {
6220 let _ = self.parse_keyword(Keyword::FOR);
6221
6222 None
6223 };
6224
6225 let condition = self
6226 .parse_keyword(Keyword::WHEN)
6227 .then(|| self.parse_expr())
6228 .transpose()?;
6229
6230 let mut exec_body = None;
6231 let mut statements = None;
6232 if self.parse_keyword(Keyword::EXECUTE) {
6233 exec_body = Some(self.parse_trigger_exec_body()?);
6234 } else {
6235 statements = Some(self.parse_conditional_statements(&[Keyword::END])?);
6236 }
6237
6238 Ok(CreateTrigger {
6239 or_alter,
6240 temporary,
6241 or_replace,
6242 is_constraint,
6243 name,
6244 period,
6245 period_before_table: true,
6246 events,
6247 table_name,
6248 referenced_table_name,
6249 referencing,
6250 trigger_object,
6251 condition,
6252 exec_body,
6253 statements_as: false,
6254 statements,
6255 characteristics,
6256 })
6257 }
6258
6259 pub fn parse_trigger_period(&mut self) -> Result<TriggerPeriod, ParserError> {
6261 Ok(
6262 match self.expect_one_of_keywords(&[
6263 Keyword::FOR,
6264 Keyword::BEFORE,
6265 Keyword::AFTER,
6266 Keyword::INSTEAD,
6267 ])? {
6268 Keyword::FOR => TriggerPeriod::For,
6269 Keyword::BEFORE => TriggerPeriod::Before,
6270 Keyword::AFTER => TriggerPeriod::After,
6271 Keyword::INSTEAD => self
6272 .expect_keyword_is(Keyword::OF)
6273 .map(|_| TriggerPeriod::InsteadOf)?,
6274 unexpected_keyword => return Err(ParserError::ParserError(
6275 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in trigger period"),
6276 )),
6277 },
6278 )
6279 }
6280
6281 pub fn parse_trigger_event(&mut self) -> Result<TriggerEvent, ParserError> {
6283 Ok(
6284 match self.expect_one_of_keywords(&[
6285 Keyword::INSERT,
6286 Keyword::UPDATE,
6287 Keyword::DELETE,
6288 Keyword::TRUNCATE,
6289 ])? {
6290 Keyword::INSERT => TriggerEvent::Insert,
6291 Keyword::UPDATE => {
6292 if self.parse_keyword(Keyword::OF) {
6293 let cols = self.parse_comma_separated(Parser::parse_identifier)?;
6294 TriggerEvent::Update(cols)
6295 } else {
6296 TriggerEvent::Update(vec![])
6297 }
6298 }
6299 Keyword::DELETE => TriggerEvent::Delete,
6300 Keyword::TRUNCATE => TriggerEvent::Truncate,
6301 unexpected_keyword => return Err(ParserError::ParserError(
6302 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in trigger event"),
6303 )),
6304 },
6305 )
6306 }
6307
6308 pub fn parse_trigger_referencing(&mut self) -> Result<Option<TriggerReferencing>, ParserError> {
6310 let refer_type = match self.parse_one_of_keywords(&[Keyword::OLD, Keyword::NEW]) {
6311 Some(Keyword::OLD) if self.parse_keyword(Keyword::TABLE) => {
6312 TriggerReferencingType::OldTable
6313 }
6314 Some(Keyword::NEW) if self.parse_keyword(Keyword::TABLE) => {
6315 TriggerReferencingType::NewTable
6316 }
6317 _ => {
6318 return Ok(None);
6319 }
6320 };
6321
6322 let is_as = self.parse_keyword(Keyword::AS);
6323 let transition_relation_name = self.parse_object_name(false)?;
6324 Ok(Some(TriggerReferencing {
6325 refer_type,
6326 is_as,
6327 transition_relation_name,
6328 }))
6329 }
6330
6331 pub fn parse_trigger_exec_body(&mut self) -> Result<TriggerExecBody, ParserError> {
6333 Ok(TriggerExecBody {
6334 exec_type: match self
6335 .expect_one_of_keywords(&[Keyword::FUNCTION, Keyword::PROCEDURE])?
6336 {
6337 Keyword::FUNCTION => TriggerExecBodyType::Function,
6338 Keyword::PROCEDURE => TriggerExecBodyType::Procedure,
6339 unexpected_keyword => return Err(ParserError::ParserError(
6340 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in trigger exec body"),
6341 )),
6342 },
6343 func_desc: self.parse_function_desc()?,
6344 })
6345 }
6346
6347 pub fn parse_create_macro(
6349 &mut self,
6350 or_replace: bool,
6351 temporary: bool,
6352 ) -> Result<Statement, ParserError> {
6353 if dialect_of!(self is DuckDbDialect | GenericDialect) {
6354 let name = self.parse_object_name(false)?;
6355 self.expect_token(&Token::LParen)?;
6356 let args = if self.consume_token(&Token::RParen) {
6357 self.prev_token();
6358 None
6359 } else {
6360 Some(self.parse_comma_separated(Parser::parse_macro_arg)?)
6361 };
6362
6363 self.expect_token(&Token::RParen)?;
6364 self.expect_keyword_is(Keyword::AS)?;
6365
6366 Ok(Statement::CreateMacro {
6367 or_replace,
6368 temporary,
6369 name,
6370 args,
6371 definition: if self.parse_keyword(Keyword::TABLE) {
6372 MacroDefinition::Table(self.parse_query()?)
6373 } else {
6374 MacroDefinition::Expr(self.parse_expr()?)
6375 },
6376 })
6377 } else {
6378 self.prev_token();
6379 self.expected_ref("an object type after CREATE", self.peek_token_ref())
6380 }
6381 }
6382
6383 fn parse_macro_arg(&mut self) -> Result<MacroArg, ParserError> {
6384 let name = self.parse_identifier()?;
6385
6386 let default_expr =
6387 if self.consume_token(&Token::Assignment) || self.consume_token(&Token::RArrow) {
6388 Some(self.parse_expr()?)
6389 } else {
6390 None
6391 };
6392 Ok(MacroArg { name, default_expr })
6393 }
6394
6395 pub fn parse_create_external_table(
6397 &mut self,
6398 or_replace: bool,
6399 ) -> Result<CreateTable, ParserError> {
6400 self.expect_keyword_is(Keyword::TABLE)?;
6401 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
6402 let table_name = self.parse_object_name(false)?;
6403 let (columns, constraints) = self.parse_columns()?;
6404
6405 let hive_distribution = self.parse_hive_distribution()?;
6406 let hive_formats = self.parse_hive_formats()?;
6407
6408 let file_format = if let Some(ref hf) = hive_formats {
6409 if let Some(ref ff) = hf.storage {
6410 match ff {
6411 HiveIOFormat::FileFormat { format } => Some(*format),
6412 _ => None,
6413 }
6414 } else {
6415 None
6416 }
6417 } else {
6418 None
6419 };
6420 let location = hive_formats.as_ref().and_then(|hf| hf.location.clone());
6421
6422 let with_connection = if self.parse_keywords(&[Keyword::WITH, Keyword::CONNECTION]) {
6423 Some(self.parse_object_name(false)?)
6424 } else {
6425 None
6426 };
6427 let table_properties = self.parse_options(Keyword::TBLPROPERTIES)?;
6428 let table_options = if !table_properties.is_empty() {
6429 CreateTableOptions::TableProperties(table_properties)
6430 } else if let Some(options) = self.maybe_parse_options(Keyword::OPTIONS)? {
6431 CreateTableOptions::Options(options)
6432 } else {
6433 CreateTableOptions::None
6434 };
6435 Ok(CreateTableBuilder::new(table_name)
6436 .columns(columns)
6437 .constraints(constraints)
6438 .hive_distribution(hive_distribution)
6439 .hive_formats(hive_formats)
6440 .table_options(table_options)
6441 .with_connection(with_connection)
6442 .or_replace(or_replace)
6443 .if_not_exists(if_not_exists)
6444 .external(true)
6445 .file_format(file_format)
6446 .location(location)
6447 .build())
6448 }
6449
6450 pub fn parse_create_snapshot_table(&mut self) -> Result<CreateTable, ParserError> {
6454 self.expect_keywords(&[Keyword::SNAPSHOT, Keyword::TABLE])?;
6455 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
6456 let table_name = self.parse_object_name(true)?;
6457
6458 self.expect_keyword_is(Keyword::CLONE)?;
6459 let clone = Some(self.parse_object_name(true)?);
6460
6461 let version =
6462 if self.parse_keywords(&[Keyword::FOR, Keyword::SYSTEM_TIME, Keyword::AS, Keyword::OF])
6463 {
6464 Some(TableVersion::ForSystemTimeAsOf(self.parse_expr()?))
6465 } else {
6466 None
6467 };
6468
6469 let table_options = if let Some(options) = self.maybe_parse_options(Keyword::OPTIONS)? {
6470 CreateTableOptions::Options(options)
6471 } else {
6472 CreateTableOptions::None
6473 };
6474
6475 Ok(CreateTableBuilder::new(table_name)
6476 .snapshot(true)
6477 .if_not_exists(if_not_exists)
6478 .clone_clause(clone)
6479 .version(version)
6480 .table_options(table_options)
6481 .build())
6482 }
6483
6484 pub fn parse_file_format(&mut self) -> Result<FileFormat, ParserError> {
6486 let next_token = self.next_token();
6487 match &next_token.token {
6488 Token::Word(w) => match w.keyword {
6489 Keyword::AVRO => Ok(FileFormat::AVRO),
6490 Keyword::JSONFILE => Ok(FileFormat::JSONFILE),
6491 Keyword::ORC => Ok(FileFormat::ORC),
6492 Keyword::PARQUET => Ok(FileFormat::PARQUET),
6493 Keyword::RCFILE => Ok(FileFormat::RCFILE),
6494 Keyword::SEQUENCEFILE => Ok(FileFormat::SEQUENCEFILE),
6495 Keyword::TEXTFILE => Ok(FileFormat::TEXTFILE),
6496 _ => self.expected("fileformat", next_token),
6497 },
6498 _ => self.expected("fileformat", next_token),
6499 }
6500 }
6501
6502 fn parse_analyze_format_kind(&mut self) -> Result<AnalyzeFormatKind, ParserError> {
6503 if self.consume_token(&Token::Eq) {
6504 Ok(AnalyzeFormatKind::Assignment(self.parse_analyze_format()?))
6505 } else {
6506 Ok(AnalyzeFormatKind::Keyword(self.parse_analyze_format()?))
6507 }
6508 }
6509
6510 pub fn parse_analyze_format(&mut self) -> Result<AnalyzeFormat, ParserError> {
6512 let next_token = self.next_token();
6513 match &next_token.token {
6514 Token::Word(w) => match w.keyword {
6515 Keyword::TEXT => Ok(AnalyzeFormat::TEXT),
6516 Keyword::GRAPHVIZ => Ok(AnalyzeFormat::GRAPHVIZ),
6517 Keyword::JSON => Ok(AnalyzeFormat::JSON),
6518 Keyword::TREE => Ok(AnalyzeFormat::TREE),
6519 _ => self.expected("fileformat", next_token),
6520 },
6521 _ => self.expected("fileformat", next_token),
6522 }
6523 }
6524
6525 pub fn parse_create_view(
6527 &mut self,
6528 or_alter: bool,
6529 or_replace: bool,
6530 temporary: bool,
6531 create_view_params: Option<CreateViewParams>,
6532 ) -> Result<CreateView, ParserError> {
6533 let secure = self.parse_keyword(Keyword::SECURE);
6534 let materialized = self.parse_keyword(Keyword::MATERIALIZED);
6535 self.expect_keyword_is(Keyword::VIEW)?;
6536 let allow_unquoted_hyphen = dialect_of!(self is BigQueryDialect);
6537 let if_not_exists_first =
6540 self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
6541 let name = self.parse_object_name(allow_unquoted_hyphen)?;
6542 let name_before_not_exists = !if_not_exists_first
6543 && self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
6544 let if_not_exists = if_not_exists_first || name_before_not_exists;
6545 let mut copy_grants = self.parse_keywords(&[Keyword::COPY, Keyword::GRANTS]);
6546 let columns = self.parse_view_columns()?;
6549 if !copy_grants {
6553 copy_grants = self.parse_keywords(&[Keyword::COPY, Keyword::GRANTS]);
6554 }
6555 let mut options = CreateTableOptions::None;
6556 let with_options = self.parse_options(Keyword::WITH)?;
6557 if !with_options.is_empty() {
6558 options = CreateTableOptions::With(with_options);
6559 }
6560
6561 let cluster_by = if self.parse_keyword(Keyword::CLUSTER) {
6562 self.expect_keyword_is(Keyword::BY)?;
6563 self.parse_parenthesized_column_list(Optional, false)?
6564 } else {
6565 vec![]
6566 };
6567
6568 if dialect_of!(self is BigQueryDialect | GenericDialect) {
6569 if let Some(opts) = self.maybe_parse_options(Keyword::OPTIONS)? {
6570 if !opts.is_empty() {
6571 options = CreateTableOptions::Options(opts);
6572 }
6573 };
6574 }
6575
6576 let to = if dialect_of!(self is ClickHouseDialect | GenericDialect)
6577 && self.parse_keyword(Keyword::TO)
6578 {
6579 Some(self.parse_object_name(false)?)
6580 } else {
6581 None
6582 };
6583
6584 let comment = if self.dialect.supports_create_view_comment_syntax()
6585 && self.parse_keyword(Keyword::COMMENT)
6586 {
6587 self.expect_token(&Token::Eq)?;
6588 Some(self.parse_comment_value()?)
6589 } else {
6590 None
6591 };
6592
6593 self.expect_keyword_is(Keyword::AS)?;
6594 let query = self.parse_query()?;
6595 let with_no_schema_binding = dialect_of!(self is RedshiftSqlDialect | GenericDialect)
6598 && self.parse_keywords(&[
6599 Keyword::WITH,
6600 Keyword::NO,
6601 Keyword::SCHEMA,
6602 Keyword::BINDING,
6603 ]);
6604
6605 Ok(CreateView {
6606 or_alter,
6607 name,
6608 columns,
6609 query,
6610 materialized,
6611 secure,
6612 or_replace,
6613 options,
6614 cluster_by,
6615 comment,
6616 with_no_schema_binding,
6617 if_not_exists,
6618 temporary,
6619 copy_grants,
6620 to,
6621 params: create_view_params,
6622 name_before_not_exists,
6623 })
6624 }
6625
6626 fn parse_create_view_params(&mut self) -> Result<Option<CreateViewParams>, ParserError> {
6630 let algorithm = if self.parse_keyword(Keyword::ALGORITHM) {
6631 self.expect_token(&Token::Eq)?;
6632 Some(
6633 match self.expect_one_of_keywords(&[
6634 Keyword::UNDEFINED,
6635 Keyword::MERGE,
6636 Keyword::TEMPTABLE,
6637 ])? {
6638 Keyword::UNDEFINED => CreateViewAlgorithm::Undefined,
6639 Keyword::MERGE => CreateViewAlgorithm::Merge,
6640 Keyword::TEMPTABLE => CreateViewAlgorithm::TempTable,
6641 _ => {
6642 self.prev_token();
6643 let found = self.next_token();
6644 return self
6645 .expected("UNDEFINED or MERGE or TEMPTABLE after ALGORITHM =", found);
6646 }
6647 },
6648 )
6649 } else {
6650 None
6651 };
6652 let definer = if self.parse_keyword(Keyword::DEFINER) {
6653 self.expect_token(&Token::Eq)?;
6654 Some(self.parse_grantee_name()?)
6655 } else {
6656 None
6657 };
6658 let security = if self.parse_keywords(&[Keyword::SQL, Keyword::SECURITY]) {
6659 Some(
6660 match self.expect_one_of_keywords(&[Keyword::DEFINER, Keyword::INVOKER])? {
6661 Keyword::DEFINER => CreateViewSecurity::Definer,
6662 Keyword::INVOKER => CreateViewSecurity::Invoker,
6663 _ => {
6664 self.prev_token();
6665 let found = self.next_token();
6666 return self.expected("DEFINER or INVOKER after SQL SECURITY", found);
6667 }
6668 },
6669 )
6670 } else {
6671 None
6672 };
6673 if algorithm.is_some() || definer.is_some() || security.is_some() {
6674 Ok(Some(CreateViewParams {
6675 algorithm,
6676 definer,
6677 security,
6678 }))
6679 } else {
6680 Ok(None)
6681 }
6682 }
6683
6684 pub fn parse_create_role(&mut self) -> Result<CreateRole, ParserError> {
6686 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
6687 let names = self.parse_comma_separated(|p| p.parse_object_name(false))?;
6688
6689 let _ = self.parse_keyword(Keyword::WITH); let optional_keywords = if dialect_of!(self is MsSqlDialect) {
6692 vec![Keyword::AUTHORIZATION]
6693 } else if dialect_of!(self is PostgreSqlDialect) {
6694 vec![
6695 Keyword::LOGIN,
6696 Keyword::NOLOGIN,
6697 Keyword::INHERIT,
6698 Keyword::NOINHERIT,
6699 Keyword::BYPASSRLS,
6700 Keyword::NOBYPASSRLS,
6701 Keyword::PASSWORD,
6702 Keyword::CREATEDB,
6703 Keyword::NOCREATEDB,
6704 Keyword::CREATEROLE,
6705 Keyword::NOCREATEROLE,
6706 Keyword::SUPERUSER,
6707 Keyword::NOSUPERUSER,
6708 Keyword::REPLICATION,
6709 Keyword::NOREPLICATION,
6710 Keyword::CONNECTION,
6711 Keyword::VALID,
6712 Keyword::IN,
6713 Keyword::ROLE,
6714 Keyword::ADMIN,
6715 Keyword::USER,
6716 ]
6717 } else {
6718 vec![]
6719 };
6720
6721 let mut authorization_owner = None;
6723 let mut login = None;
6725 let mut inherit = None;
6726 let mut bypassrls = None;
6727 let mut password = None;
6728 let mut create_db = None;
6729 let mut create_role = None;
6730 let mut superuser = None;
6731 let mut replication = None;
6732 let mut connection_limit = None;
6733 let mut valid_until = None;
6734 let mut in_role = vec![];
6735 let mut in_group = vec![];
6736 let mut role = vec![];
6737 let mut user = vec![];
6738 let mut admin = vec![];
6739
6740 while let Some(keyword) = self.parse_one_of_keywords(&optional_keywords) {
6741 let loc = self
6742 .tokens
6743 .get(self.index - 1)
6744 .map_or(Location { line: 0, column: 0 }, |t| t.span.start);
6745 match keyword {
6746 Keyword::AUTHORIZATION => {
6747 if authorization_owner.is_some() {
6748 parser_err!("Found multiple AUTHORIZATION", loc)
6749 } else {
6750 authorization_owner = Some(self.parse_object_name(false)?);
6751 Ok(())
6752 }
6753 }
6754 Keyword::LOGIN | Keyword::NOLOGIN => {
6755 if login.is_some() {
6756 parser_err!("Found multiple LOGIN or NOLOGIN", loc)
6757 } else {
6758 login = Some(keyword == Keyword::LOGIN);
6759 Ok(())
6760 }
6761 }
6762 Keyword::INHERIT | Keyword::NOINHERIT => {
6763 if inherit.is_some() {
6764 parser_err!("Found multiple INHERIT or NOINHERIT", loc)
6765 } else {
6766 inherit = Some(keyword == Keyword::INHERIT);
6767 Ok(())
6768 }
6769 }
6770 Keyword::BYPASSRLS | Keyword::NOBYPASSRLS => {
6771 if bypassrls.is_some() {
6772 parser_err!("Found multiple BYPASSRLS or NOBYPASSRLS", loc)
6773 } else {
6774 bypassrls = Some(keyword == Keyword::BYPASSRLS);
6775 Ok(())
6776 }
6777 }
6778 Keyword::CREATEDB | Keyword::NOCREATEDB => {
6779 if create_db.is_some() {
6780 parser_err!("Found multiple CREATEDB or NOCREATEDB", loc)
6781 } else {
6782 create_db = Some(keyword == Keyword::CREATEDB);
6783 Ok(())
6784 }
6785 }
6786 Keyword::CREATEROLE | Keyword::NOCREATEROLE => {
6787 if create_role.is_some() {
6788 parser_err!("Found multiple CREATEROLE or NOCREATEROLE", loc)
6789 } else {
6790 create_role = Some(keyword == Keyword::CREATEROLE);
6791 Ok(())
6792 }
6793 }
6794 Keyword::SUPERUSER | Keyword::NOSUPERUSER => {
6795 if superuser.is_some() {
6796 parser_err!("Found multiple SUPERUSER or NOSUPERUSER", loc)
6797 } else {
6798 superuser = Some(keyword == Keyword::SUPERUSER);
6799 Ok(())
6800 }
6801 }
6802 Keyword::REPLICATION | Keyword::NOREPLICATION => {
6803 if replication.is_some() {
6804 parser_err!("Found multiple REPLICATION or NOREPLICATION", loc)
6805 } else {
6806 replication = Some(keyword == Keyword::REPLICATION);
6807 Ok(())
6808 }
6809 }
6810 Keyword::PASSWORD => {
6811 if password.is_some() {
6812 parser_err!("Found multiple PASSWORD", loc)
6813 } else {
6814 password = if self.parse_keyword(Keyword::NULL) {
6815 Some(Password::NullPassword)
6816 } else {
6817 Some(Password::Password(Expr::Value(self.parse_value()?)))
6818 };
6819 Ok(())
6820 }
6821 }
6822 Keyword::CONNECTION => {
6823 self.expect_keyword_is(Keyword::LIMIT)?;
6824 if connection_limit.is_some() {
6825 parser_err!("Found multiple CONNECTION LIMIT", loc)
6826 } else {
6827 connection_limit = Some(Expr::Value(self.parse_number_value()?));
6828 Ok(())
6829 }
6830 }
6831 Keyword::VALID => {
6832 self.expect_keyword_is(Keyword::UNTIL)?;
6833 if valid_until.is_some() {
6834 parser_err!("Found multiple VALID UNTIL", loc)
6835 } else {
6836 valid_until = Some(Expr::Value(self.parse_value()?));
6837 Ok(())
6838 }
6839 }
6840 Keyword::IN => {
6841 if self.parse_keyword(Keyword::ROLE) {
6842 if !in_role.is_empty() {
6843 parser_err!("Found multiple IN ROLE", loc)
6844 } else {
6845 in_role = self.parse_comma_separated(|p| p.parse_identifier())?;
6846 Ok(())
6847 }
6848 } else if self.parse_keyword(Keyword::GROUP) {
6849 if !in_group.is_empty() {
6850 parser_err!("Found multiple IN GROUP", loc)
6851 } else {
6852 in_group = self.parse_comma_separated(|p| p.parse_identifier())?;
6853 Ok(())
6854 }
6855 } else {
6856 self.expected_ref("ROLE or GROUP after IN", self.peek_token_ref())
6857 }
6858 }
6859 Keyword::ROLE => {
6860 if !role.is_empty() {
6861 parser_err!("Found multiple ROLE", loc)
6862 } else {
6863 role = self.parse_comma_separated(|p| p.parse_identifier())?;
6864 Ok(())
6865 }
6866 }
6867 Keyword::USER => {
6868 if !user.is_empty() {
6869 parser_err!("Found multiple USER", loc)
6870 } else {
6871 user = self.parse_comma_separated(|p| p.parse_identifier())?;
6872 Ok(())
6873 }
6874 }
6875 Keyword::ADMIN => {
6876 if !admin.is_empty() {
6877 parser_err!("Found multiple ADMIN", loc)
6878 } else {
6879 admin = self.parse_comma_separated(|p| p.parse_identifier())?;
6880 Ok(())
6881 }
6882 }
6883 _ => break,
6884 }?
6885 }
6886
6887 Ok(CreateRole {
6888 names,
6889 if_not_exists,
6890 login,
6891 inherit,
6892 bypassrls,
6893 password,
6894 create_db,
6895 create_role,
6896 replication,
6897 superuser,
6898 connection_limit,
6899 valid_until,
6900 in_role,
6901 in_group,
6902 role,
6903 user,
6904 admin,
6905 authorization_owner,
6906 })
6907 }
6908
6909 pub fn parse_owner(&mut self) -> Result<Owner, ParserError> {
6911 let owner = match self.parse_one_of_keywords(&[Keyword::CURRENT_USER, Keyword::CURRENT_ROLE, Keyword::SESSION_USER]) {
6912 Some(Keyword::CURRENT_USER) => Owner::CurrentUser,
6913 Some(Keyword::CURRENT_ROLE) => Owner::CurrentRole,
6914 Some(Keyword::SESSION_USER) => Owner::SessionUser,
6915 Some(unexpected_keyword) => return Err(ParserError::ParserError(
6916 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in owner"),
6917 )),
6918 None => {
6919 match self.parse_identifier() {
6920 Ok(ident) => Owner::Ident(ident),
6921 Err(e) => {
6922 return Err(ParserError::ParserError(format!("Expected: CURRENT_USER, CURRENT_ROLE, SESSION_USER or identifier after OWNER TO. {e}")))
6923 }
6924 }
6925 }
6926 };
6927 Ok(owner)
6928 }
6929
6930 fn parse_create_domain(&mut self) -> Result<CreateDomain, ParserError> {
6932 let name = self.parse_object_name(false)?;
6933 self.expect_keyword_is(Keyword::AS)?;
6934 let data_type = self.parse_data_type()?;
6935 let collation = if self.parse_keyword(Keyword::COLLATE) {
6936 Some(self.parse_identifier()?)
6937 } else {
6938 None
6939 };
6940 let default = if self.parse_keyword(Keyword::DEFAULT) {
6941 Some(self.parse_expr()?)
6942 } else {
6943 None
6944 };
6945 let mut constraints = Vec::new();
6946 while let Some(constraint) = self.parse_optional_table_constraint()? {
6947 constraints.push(constraint);
6948 }
6949
6950 Ok(CreateDomain {
6951 name,
6952 data_type,
6953 collation,
6954 default,
6955 constraints,
6956 })
6957 }
6958
6959 pub fn parse_create_policy(&mut self) -> Result<CreatePolicy, ParserError> {
6969 let name = self.parse_identifier()?;
6970 self.expect_keyword_is(Keyword::ON)?;
6971 let table_name = self.parse_object_name(false)?;
6972
6973 let policy_type = if self.parse_keyword(Keyword::AS) {
6974 let keyword =
6975 self.expect_one_of_keywords(&[Keyword::PERMISSIVE, Keyword::RESTRICTIVE])?;
6976 Some(match keyword {
6977 Keyword::PERMISSIVE => CreatePolicyType::Permissive,
6978 Keyword::RESTRICTIVE => CreatePolicyType::Restrictive,
6979 unexpected_keyword => return Err(ParserError::ParserError(
6980 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in policy type"),
6981 )),
6982 })
6983 } else {
6984 None
6985 };
6986
6987 let command = if self.parse_keyword(Keyword::FOR) {
6988 let keyword = self.expect_one_of_keywords(&[
6989 Keyword::ALL,
6990 Keyword::SELECT,
6991 Keyword::INSERT,
6992 Keyword::UPDATE,
6993 Keyword::DELETE,
6994 ])?;
6995 Some(match keyword {
6996 Keyword::ALL => CreatePolicyCommand::All,
6997 Keyword::SELECT => CreatePolicyCommand::Select,
6998 Keyword::INSERT => CreatePolicyCommand::Insert,
6999 Keyword::UPDATE => CreatePolicyCommand::Update,
7000 Keyword::DELETE => CreatePolicyCommand::Delete,
7001 unexpected_keyword => return Err(ParserError::ParserError(
7002 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in policy command"),
7003 )),
7004 })
7005 } else {
7006 None
7007 };
7008
7009 let to = if self.parse_keyword(Keyword::TO) {
7010 Some(self.parse_comma_separated(|p| p.parse_owner())?)
7011 } else {
7012 None
7013 };
7014
7015 let using = if self.parse_keyword(Keyword::USING) {
7016 self.expect_token(&Token::LParen)?;
7017 let expr = self.parse_expr()?;
7018 self.expect_token(&Token::RParen)?;
7019 Some(expr)
7020 } else {
7021 None
7022 };
7023
7024 let with_check = if self.parse_keywords(&[Keyword::WITH, Keyword::CHECK]) {
7025 self.expect_token(&Token::LParen)?;
7026 let expr = self.parse_expr()?;
7027 self.expect_token(&Token::RParen)?;
7028 Some(expr)
7029 } else {
7030 None
7031 };
7032
7033 Ok(CreatePolicy {
7034 name,
7035 table_name,
7036 policy_type,
7037 command,
7038 to,
7039 using,
7040 with_check,
7041 })
7042 }
7043
7044 pub fn parse_create_connector(&mut self) -> Result<CreateConnector, ParserError> {
7054 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
7055 let name = self.parse_identifier()?;
7056
7057 let connector_type = if self.parse_keyword(Keyword::TYPE) {
7058 Some(self.parse_literal_string()?)
7059 } else {
7060 None
7061 };
7062
7063 let url = if self.parse_keyword(Keyword::URL) {
7064 Some(self.parse_literal_string()?)
7065 } else {
7066 None
7067 };
7068
7069 let comment = self.parse_optional_inline_comment()?;
7070
7071 let with_dcproperties =
7072 match self.parse_options_with_keywords(&[Keyword::WITH, Keyword::DCPROPERTIES])? {
7073 properties if !properties.is_empty() => Some(properties),
7074 _ => None,
7075 };
7076
7077 Ok(CreateConnector {
7078 name,
7079 if_not_exists,
7080 connector_type,
7081 url,
7082 comment,
7083 with_dcproperties,
7084 })
7085 }
7086
7087 fn parse_operator_name(&mut self) -> Result<ObjectName, ParserError> {
7093 let mut parts = vec![];
7094 loop {
7095 parts.push(ObjectNamePart::Identifier(Ident::new(
7096 self.next_token().to_string(),
7097 )));
7098 if !self.consume_token(&Token::Period) {
7099 break;
7100 }
7101 }
7102 Ok(ObjectName(parts))
7103 }
7104
7105 pub fn parse_create_operator(&mut self) -> Result<CreateOperator, ParserError> {
7109 let name = self.parse_operator_name()?;
7110 self.expect_token(&Token::LParen)?;
7111
7112 let mut function: Option<ObjectName> = None;
7113 let mut is_procedure = false;
7114 let mut left_arg: Option<DataType> = None;
7115 let mut right_arg: Option<DataType> = None;
7116 let mut options: Vec<OperatorOption> = Vec::new();
7117
7118 loop {
7119 let keyword = self.expect_one_of_keywords(&[
7120 Keyword::FUNCTION,
7121 Keyword::PROCEDURE,
7122 Keyword::LEFTARG,
7123 Keyword::RIGHTARG,
7124 Keyword::COMMUTATOR,
7125 Keyword::NEGATOR,
7126 Keyword::RESTRICT,
7127 Keyword::JOIN,
7128 Keyword::HASHES,
7129 Keyword::MERGES,
7130 ])?;
7131
7132 match keyword {
7133 Keyword::HASHES if !options.iter().any(|o| matches!(o, OperatorOption::Hashes)) => {
7134 options.push(OperatorOption::Hashes);
7135 }
7136 Keyword::MERGES if !options.iter().any(|o| matches!(o, OperatorOption::Merges)) => {
7137 options.push(OperatorOption::Merges);
7138 }
7139 Keyword::FUNCTION | Keyword::PROCEDURE if function.is_none() => {
7140 self.expect_token(&Token::Eq)?;
7141 function = Some(self.parse_object_name(false)?);
7142 is_procedure = keyword == Keyword::PROCEDURE;
7143 }
7144 Keyword::LEFTARG if left_arg.is_none() => {
7145 self.expect_token(&Token::Eq)?;
7146 left_arg = Some(self.parse_data_type()?);
7147 }
7148 Keyword::RIGHTARG if right_arg.is_none() => {
7149 self.expect_token(&Token::Eq)?;
7150 right_arg = Some(self.parse_data_type()?);
7151 }
7152 Keyword::COMMUTATOR
7153 if !options
7154 .iter()
7155 .any(|o| matches!(o, OperatorOption::Commutator(_))) =>
7156 {
7157 self.expect_token(&Token::Eq)?;
7158 if self.parse_keyword(Keyword::OPERATOR) {
7159 self.expect_token(&Token::LParen)?;
7160 let op = self.parse_operator_name()?;
7161 self.expect_token(&Token::RParen)?;
7162 options.push(OperatorOption::Commutator(op));
7163 } else {
7164 options.push(OperatorOption::Commutator(self.parse_operator_name()?));
7165 }
7166 }
7167 Keyword::NEGATOR
7168 if !options
7169 .iter()
7170 .any(|o| matches!(o, OperatorOption::Negator(_))) =>
7171 {
7172 self.expect_token(&Token::Eq)?;
7173 if self.parse_keyword(Keyword::OPERATOR) {
7174 self.expect_token(&Token::LParen)?;
7175 let op = self.parse_operator_name()?;
7176 self.expect_token(&Token::RParen)?;
7177 options.push(OperatorOption::Negator(op));
7178 } else {
7179 options.push(OperatorOption::Negator(self.parse_operator_name()?));
7180 }
7181 }
7182 Keyword::RESTRICT
7183 if !options
7184 .iter()
7185 .any(|o| matches!(o, OperatorOption::Restrict(_))) =>
7186 {
7187 self.expect_token(&Token::Eq)?;
7188 options.push(OperatorOption::Restrict(Some(
7189 self.parse_object_name(false)?,
7190 )));
7191 }
7192 Keyword::JOIN if !options.iter().any(|o| matches!(o, OperatorOption::Join(_))) => {
7193 self.expect_token(&Token::Eq)?;
7194 options.push(OperatorOption::Join(Some(self.parse_object_name(false)?)));
7195 }
7196 _ => {
7197 return Err(ParserError::ParserError(format!(
7198 "Duplicate or unexpected keyword {:?} in CREATE OPERATOR",
7199 keyword
7200 )))
7201 }
7202 }
7203
7204 if !self.consume_token(&Token::Comma) {
7205 break;
7206 }
7207 }
7208
7209 self.expect_token(&Token::RParen)?;
7211
7212 let function = function.ok_or_else(|| {
7214 ParserError::ParserError("CREATE OPERATOR requires FUNCTION parameter".to_string())
7215 })?;
7216
7217 Ok(CreateOperator {
7218 name,
7219 function,
7220 is_procedure,
7221 left_arg,
7222 right_arg,
7223 options,
7224 })
7225 }
7226
7227 pub fn parse_create_operator_family(&mut self) -> Result<CreateOperatorFamily, ParserError> {
7231 let name = self.parse_object_name(false)?;
7232 self.expect_keyword(Keyword::USING)?;
7233 let using = self.parse_identifier()?;
7234
7235 Ok(CreateOperatorFamily { name, using })
7236 }
7237
7238 pub fn parse_create_operator_class(&mut self) -> Result<CreateOperatorClass, ParserError> {
7242 let name = self.parse_object_name(false)?;
7243 let default = self.parse_keyword(Keyword::DEFAULT);
7244 self.expect_keywords(&[Keyword::FOR, Keyword::TYPE])?;
7245 let for_type = self.parse_data_type()?;
7246 self.expect_keyword(Keyword::USING)?;
7247 let using = self.parse_identifier()?;
7248
7249 let family = if self.parse_keyword(Keyword::FAMILY) {
7250 Some(self.parse_object_name(false)?)
7251 } else {
7252 None
7253 };
7254
7255 self.expect_keyword(Keyword::AS)?;
7256
7257 let mut items = vec![];
7258 loop {
7259 if self.parse_keyword(Keyword::OPERATOR) {
7260 let strategy_number = self.parse_literal_uint()?;
7261 let operator_name = self.parse_operator_name()?;
7262
7263 let op_types = if self.consume_token(&Token::LParen) {
7265 let left = self.parse_data_type()?;
7266 self.expect_token(&Token::Comma)?;
7267 let right = self.parse_data_type()?;
7268 self.expect_token(&Token::RParen)?;
7269 Some(OperatorArgTypes { left, right })
7270 } else {
7271 None
7272 };
7273
7274 let purpose = if self.parse_keyword(Keyword::FOR) {
7276 if self.parse_keyword(Keyword::SEARCH) {
7277 Some(OperatorPurpose::ForSearch)
7278 } else if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
7279 let sort_family = self.parse_object_name(false)?;
7280 Some(OperatorPurpose::ForOrderBy { sort_family })
7281 } else {
7282 return self
7283 .expected_ref("SEARCH or ORDER BY after FOR", self.peek_token_ref());
7284 }
7285 } else {
7286 None
7287 };
7288
7289 items.push(OperatorClassItem::Operator {
7290 strategy_number,
7291 operator_name,
7292 op_types,
7293 purpose,
7294 });
7295 } else if self.parse_keyword(Keyword::FUNCTION) {
7296 let support_number = self.parse_literal_uint()?;
7297
7298 let op_types = if self.consume_token(&Token::LParen)
7300 && self.peek_token_ref().token != Token::RParen
7301 {
7302 let mut types = vec![];
7303 loop {
7304 types.push(self.parse_data_type()?);
7305 if !self.consume_token(&Token::Comma) {
7306 break;
7307 }
7308 }
7309 self.expect_token(&Token::RParen)?;
7310 Some(types)
7311 } else if self.consume_token(&Token::LParen) {
7312 self.expect_token(&Token::RParen)?;
7313 Some(vec![])
7314 } else {
7315 None
7316 };
7317
7318 let function_name = self.parse_object_name(false)?;
7319
7320 let argument_types = if self.consume_token(&Token::LParen) {
7322 let mut types = vec![];
7323 loop {
7324 if self.peek_token_ref().token == Token::RParen {
7325 break;
7326 }
7327 types.push(self.parse_data_type()?);
7328 if !self.consume_token(&Token::Comma) {
7329 break;
7330 }
7331 }
7332 self.expect_token(&Token::RParen)?;
7333 types
7334 } else {
7335 vec![]
7336 };
7337
7338 items.push(OperatorClassItem::Function {
7339 support_number,
7340 op_types,
7341 function_name,
7342 argument_types,
7343 });
7344 } else if self.parse_keyword(Keyword::STORAGE) {
7345 let storage_type = self.parse_data_type()?;
7346 items.push(OperatorClassItem::Storage { storage_type });
7347 } else {
7348 break;
7349 }
7350
7351 if !self.consume_token(&Token::Comma) {
7353 break;
7354 }
7355 }
7356
7357 Ok(CreateOperatorClass {
7358 name,
7359 default,
7360 for_type,
7361 using,
7362 family,
7363 items,
7364 })
7365 }
7366
7367 pub fn parse_drop(&mut self) -> Result<Statement, ParserError> {
7369 let temporary = dialect_of!(self is MySqlDialect | GenericDialect | DuckDbDialect)
7371 && self.parse_keyword(Keyword::TEMPORARY);
7372 let persistent = dialect_of!(self is DuckDbDialect)
7373 && self.parse_one_of_keywords(&[Keyword::PERSISTENT]).is_some();
7374
7375 let object_type = if self.parse_keyword(Keyword::TABLE) {
7376 ObjectType::Table
7377 } else if self.parse_keyword(Keyword::COLLATION) {
7378 ObjectType::Collation
7379 } else if self.parse_keyword(Keyword::VIEW) {
7380 ObjectType::View
7381 } else if self.parse_keywords(&[Keyword::MATERIALIZED, Keyword::VIEW]) {
7382 ObjectType::MaterializedView
7383 } else if self.parse_keyword(Keyword::INDEX) {
7384 ObjectType::Index
7385 } else if self.parse_keyword(Keyword::ROLE) {
7386 ObjectType::Role
7387 } else if self.parse_keyword(Keyword::SCHEMA) {
7388 ObjectType::Schema
7389 } else if self.parse_keyword(Keyword::DATABASE) {
7390 ObjectType::Database
7391 } else if self.parse_keyword(Keyword::SEQUENCE) {
7392 ObjectType::Sequence
7393 } else if self.parse_keyword(Keyword::STAGE) {
7394 ObjectType::Stage
7395 } else if self.parse_keyword(Keyword::TYPE) {
7396 ObjectType::Type
7397 } else if self.parse_keyword(Keyword::USER) {
7398 ObjectType::User
7399 } else if self.parse_keyword(Keyword::STREAM) {
7400 ObjectType::Stream
7401 } else if self.parse_keyword(Keyword::FUNCTION) {
7402 return self.parse_drop_function().map(Into::into);
7403 } else if self.parse_keyword(Keyword::POLICY) {
7404 return self.parse_drop_policy().map(Into::into);
7405 } else if self.parse_keyword(Keyword::CONNECTOR) {
7406 return self.parse_drop_connector();
7407 } else if self.parse_keyword(Keyword::DOMAIN) {
7408 return self.parse_drop_domain().map(Into::into);
7409 } else if self.parse_keyword(Keyword::PROCEDURE) {
7410 return self.parse_drop_procedure();
7411 } else if self.parse_keyword(Keyword::SECRET) {
7412 return self.parse_drop_secret(temporary, persistent);
7413 } else if self.parse_keyword(Keyword::TRIGGER) {
7414 return self.parse_drop_trigger().map(Into::into);
7415 } else if self.parse_keyword(Keyword::EXTENSION) {
7416 return self.parse_drop_extension();
7417 } else if self.parse_keyword(Keyword::OPERATOR) {
7418 return if self.parse_keyword(Keyword::FAMILY) {
7420 self.parse_drop_operator_family()
7421 } else if self.parse_keyword(Keyword::CLASS) {
7422 self.parse_drop_operator_class()
7423 } else {
7424 self.parse_drop_operator()
7425 };
7426 } else {
7427 return self.expected_ref(
7428 "COLLATION, CONNECTOR, DATABASE, EXTENSION, FUNCTION, INDEX, OPERATOR, POLICY, PROCEDURE, ROLE, SCHEMA, SECRET, SEQUENCE, STAGE, TABLE, TRIGGER, TYPE, VIEW, MATERIALIZED VIEW or USER after DROP",
7429 self.peek_token_ref(),
7430 );
7431 };
7432 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7435 let names = self.parse_comma_separated(|p| p.parse_object_name(false))?;
7436
7437 let loc = self.peek_token_ref().span.start;
7438 let cascade = self.parse_keyword(Keyword::CASCADE);
7439 let restrict = self.parse_keyword(Keyword::RESTRICT);
7440 let purge = self.parse_keyword(Keyword::PURGE);
7441 if cascade && restrict {
7442 return parser_err!("Cannot specify both CASCADE and RESTRICT in DROP", loc);
7443 }
7444 if object_type == ObjectType::Role && (cascade || restrict || purge) {
7445 return parser_err!(
7446 "Cannot specify CASCADE, RESTRICT, or PURGE in DROP ROLE",
7447 loc
7448 );
7449 }
7450 let table = if self.parse_keyword(Keyword::ON) {
7451 Some(self.parse_object_name(false)?)
7452 } else {
7453 None
7454 };
7455 Ok(Statement::Drop {
7456 object_type,
7457 if_exists,
7458 names,
7459 cascade,
7460 restrict,
7461 purge,
7462 temporary,
7463 table,
7464 })
7465 }
7466
7467 fn parse_optional_drop_behavior(&mut self) -> Option<DropBehavior> {
7468 match self.parse_one_of_keywords(&[Keyword::CASCADE, Keyword::RESTRICT]) {
7469 Some(Keyword::CASCADE) => Some(DropBehavior::Cascade),
7470 Some(Keyword::RESTRICT) => Some(DropBehavior::Restrict),
7471 _ => None,
7472 }
7473 }
7474
7475 fn parse_drop_function(&mut self) -> Result<DropFunction, ParserError> {
7480 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7481 let func_desc = self.parse_comma_separated(Parser::parse_function_desc)?;
7482 let drop_behavior = self.parse_optional_drop_behavior();
7483 Ok(DropFunction {
7484 if_exists,
7485 func_desc,
7486 drop_behavior,
7487 })
7488 }
7489
7490 fn parse_drop_policy(&mut self) -> Result<DropPolicy, ParserError> {
7496 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7497 let name = self.parse_identifier()?;
7498 self.expect_keyword_is(Keyword::ON)?;
7499 let table_name = self.parse_object_name(false)?;
7500 let drop_behavior = self.parse_optional_drop_behavior();
7501 Ok(DropPolicy {
7502 if_exists,
7503 name,
7504 table_name,
7505 drop_behavior,
7506 })
7507 }
7508 fn parse_drop_connector(&mut self) -> Result<Statement, ParserError> {
7514 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7515 let name = self.parse_identifier()?;
7516 Ok(Statement::DropConnector { if_exists, name })
7517 }
7518
7519 fn parse_drop_domain(&mut self) -> Result<DropDomain, ParserError> {
7523 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7524 let name = self.parse_object_name(false)?;
7525 let drop_behavior = self.parse_optional_drop_behavior();
7526 Ok(DropDomain {
7527 if_exists,
7528 name,
7529 drop_behavior,
7530 })
7531 }
7532
7533 fn parse_drop_procedure(&mut self) -> Result<Statement, ParserError> {
7538 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7539 let proc_desc = self.parse_comma_separated(Parser::parse_function_desc)?;
7540 let drop_behavior = self.parse_optional_drop_behavior();
7541 Ok(Statement::DropProcedure {
7542 if_exists,
7543 proc_desc,
7544 drop_behavior,
7545 })
7546 }
7547
7548 fn parse_function_desc(&mut self) -> Result<FunctionDesc, ParserError> {
7549 let name = self.parse_object_name(false)?;
7550
7551 let args = if self.consume_token(&Token::LParen) {
7552 if self.consume_token(&Token::RParen) {
7553 Some(vec![])
7554 } else {
7555 let args = self.parse_comma_separated(Parser::parse_function_arg)?;
7556 self.expect_token(&Token::RParen)?;
7557 Some(args)
7558 }
7559 } else {
7560 None
7561 };
7562
7563 Ok(FunctionDesc { name, args })
7564 }
7565
7566 fn parse_drop_secret(
7568 &mut self,
7569 temporary: bool,
7570 persistent: bool,
7571 ) -> Result<Statement, ParserError> {
7572 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
7573 let name = self.parse_identifier()?;
7574 let storage_specifier = if self.parse_keyword(Keyword::FROM) {
7575 self.parse_identifier().ok()
7576 } else {
7577 None
7578 };
7579 let temp = match (temporary, persistent) {
7580 (true, false) => Some(true),
7581 (false, true) => Some(false),
7582 (false, false) => None,
7583 _ => self.expected_ref("TEMPORARY or PERSISTENT", self.peek_token_ref())?,
7584 };
7585
7586 Ok(Statement::DropSecret {
7587 if_exists,
7588 temporary: temp,
7589 name,
7590 storage_specifier,
7591 })
7592 }
7593
7594 pub fn parse_declare(&mut self) -> Result<Statement, ParserError> {
7604 if dialect_of!(self is BigQueryDialect) {
7605 return self.parse_big_query_declare();
7606 }
7607 if dialect_of!(self is SnowflakeDialect) {
7608 return self.parse_snowflake_declare();
7609 }
7610 if dialect_of!(self is MsSqlDialect) {
7611 return self.parse_mssql_declare();
7612 }
7613
7614 let name = self.parse_identifier()?;
7615
7616 let binary = Some(self.parse_keyword(Keyword::BINARY));
7617 let sensitive = if self.parse_keyword(Keyword::INSENSITIVE) {
7618 Some(true)
7619 } else if self.parse_keyword(Keyword::ASENSITIVE) {
7620 Some(false)
7621 } else {
7622 None
7623 };
7624 let scroll = if self.parse_keyword(Keyword::SCROLL) {
7625 Some(true)
7626 } else if self.parse_keywords(&[Keyword::NO, Keyword::SCROLL]) {
7627 Some(false)
7628 } else {
7629 None
7630 };
7631
7632 self.expect_keyword_is(Keyword::CURSOR)?;
7633 let declare_type = Some(DeclareType::Cursor);
7634
7635 let hold = match self.parse_one_of_keywords(&[Keyword::WITH, Keyword::WITHOUT]) {
7636 Some(keyword) => {
7637 self.expect_keyword_is(Keyword::HOLD)?;
7638
7639 match keyword {
7640 Keyword::WITH => Some(true),
7641 Keyword::WITHOUT => Some(false),
7642 unexpected_keyword => return Err(ParserError::ParserError(
7643 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in cursor hold"),
7644 )),
7645 }
7646 }
7647 None => None,
7648 };
7649
7650 self.expect_keyword_is(Keyword::FOR)?;
7651
7652 let query = Some(self.parse_query()?);
7653
7654 Ok(Statement::Declare {
7655 stmts: vec![Declare {
7656 names: vec![name],
7657 data_type: None,
7658 assignment: None,
7659 declare_type,
7660 binary,
7661 sensitive,
7662 scroll,
7663 hold,
7664 for_query: query,
7665 }],
7666 })
7667 }
7668
7669 pub fn parse_big_query_declare(&mut self) -> Result<Statement, ParserError> {
7677 let names = self.parse_comma_separated(Parser::parse_identifier)?;
7678
7679 let data_type = match &self.peek_token_ref().token {
7680 Token::Word(w) if w.keyword == Keyword::DEFAULT => None,
7681 _ => Some(self.parse_data_type()?),
7682 };
7683
7684 let expr = if data_type.is_some() {
7685 if self.parse_keyword(Keyword::DEFAULT) {
7686 Some(self.parse_expr()?)
7687 } else {
7688 None
7689 }
7690 } else {
7691 self.expect_keyword_is(Keyword::DEFAULT)?;
7694 Some(self.parse_expr()?)
7695 };
7696
7697 Ok(Statement::Declare {
7698 stmts: vec![Declare {
7699 names,
7700 data_type,
7701 assignment: expr.map(|expr| DeclareAssignment::Default(Box::new(expr))),
7702 declare_type: None,
7703 binary: None,
7704 sensitive: None,
7705 scroll: None,
7706 hold: None,
7707 for_query: None,
7708 }],
7709 })
7710 }
7711
7712 pub fn parse_snowflake_declare(&mut self) -> Result<Statement, ParserError> {
7737 let mut stmts = vec![];
7738 loop {
7739 let name = self.parse_identifier()?;
7740 let (declare_type, for_query, assigned_expr, data_type) =
7741 if self.parse_keyword(Keyword::CURSOR) {
7742 self.expect_keyword_is(Keyword::FOR)?;
7743 match &self.peek_token_ref().token {
7744 Token::Word(w) if w.keyword == Keyword::SELECT => (
7745 Some(DeclareType::Cursor),
7746 Some(self.parse_query()?),
7747 None,
7748 None,
7749 ),
7750 _ => (
7751 Some(DeclareType::Cursor),
7752 None,
7753 Some(DeclareAssignment::For(Box::new(self.parse_expr()?))),
7754 None,
7755 ),
7756 }
7757 } else if self.parse_keyword(Keyword::RESULTSET) {
7758 let assigned_expr = if self.peek_token_ref().token != Token::SemiColon {
7759 self.parse_snowflake_variable_declaration_expression()?
7760 } else {
7761 None
7763 };
7764
7765 (Some(DeclareType::ResultSet), None, assigned_expr, None)
7766 } else if self.parse_keyword(Keyword::EXCEPTION) {
7767 let assigned_expr = if self.peek_token_ref().token == Token::LParen {
7768 Some(DeclareAssignment::Expr(Box::new(self.parse_expr()?)))
7769 } else {
7770 None
7772 };
7773
7774 (Some(DeclareType::Exception), None, assigned_expr, None)
7775 } else {
7776 let (assigned_expr, data_type) = if let Some(assigned_expr) =
7778 self.parse_snowflake_variable_declaration_expression()?
7779 {
7780 (Some(assigned_expr), None)
7781 } else if let Token::Word(_) = &self.peek_token_ref().token {
7782 let data_type = self.parse_data_type()?;
7783 (
7784 self.parse_snowflake_variable_declaration_expression()?,
7785 Some(data_type),
7786 )
7787 } else {
7788 (None, None)
7789 };
7790 (None, None, assigned_expr, data_type)
7791 };
7792 let stmt = Declare {
7793 names: vec![name],
7794 data_type,
7795 assignment: assigned_expr,
7796 declare_type,
7797 binary: None,
7798 sensitive: None,
7799 scroll: None,
7800 hold: None,
7801 for_query,
7802 };
7803
7804 stmts.push(stmt);
7805 if self.consume_token(&Token::SemiColon) {
7806 match &self.peek_token_ref().token {
7807 Token::Word(w)
7808 if ALL_KEYWORDS
7809 .binary_search(&w.value.to_uppercase().as_str())
7810 .is_err() =>
7811 {
7812 continue;
7814 }
7815 _ => {
7816 self.prev_token();
7818 }
7819 }
7820 }
7821
7822 break;
7823 }
7824
7825 Ok(Statement::Declare { stmts })
7826 }
7827
7828 pub fn parse_mssql_declare(&mut self) -> Result<Statement, ParserError> {
7840 let stmts = self.parse_comma_separated(Parser::parse_mssql_declare_stmt)?;
7841
7842 Ok(Statement::Declare { stmts })
7843 }
7844
7845 pub fn parse_mssql_declare_stmt(&mut self) -> Result<Declare, ParserError> {
7856 let name = {
7857 let ident = self.parse_identifier()?;
7858 if !ident.value.starts_with('@')
7859 && !matches!(
7860 &self.peek_token_ref().token,
7861 Token::Word(w) if w.keyword == Keyword::CURSOR
7862 )
7863 {
7864 Err(ParserError::TokenizerError(
7865 "Invalid MsSql variable declaration.".to_string(),
7866 ))
7867 } else {
7868 Ok(ident)
7869 }
7870 }?;
7871
7872 let (declare_type, data_type) = match &self.peek_token_ref().token {
7873 Token::Word(w) => match w.keyword {
7874 Keyword::CURSOR => {
7875 self.next_token();
7876 (Some(DeclareType::Cursor), None)
7877 }
7878 Keyword::AS => {
7879 self.next_token();
7880 (None, Some(self.parse_data_type()?))
7881 }
7882 _ => (None, Some(self.parse_data_type()?)),
7883 },
7884 _ => (None, Some(self.parse_data_type()?)),
7885 };
7886
7887 let (for_query, assignment) = if self.peek_keyword(Keyword::FOR) {
7888 self.next_token();
7889 let query = Some(self.parse_query()?);
7890 (query, None)
7891 } else {
7892 let assignment = self.parse_mssql_variable_declaration_expression()?;
7893 (None, assignment)
7894 };
7895
7896 Ok(Declare {
7897 names: vec![name],
7898 data_type,
7899 assignment,
7900 declare_type,
7901 binary: None,
7902 sensitive: None,
7903 scroll: None,
7904 hold: None,
7905 for_query,
7906 })
7907 }
7908
7909 pub fn parse_snowflake_variable_declaration_expression(
7917 &mut self,
7918 ) -> Result<Option<DeclareAssignment>, ParserError> {
7919 Ok(match &self.peek_token_ref().token {
7920 Token::Word(w) if w.keyword == Keyword::DEFAULT => {
7921 self.next_token(); Some(DeclareAssignment::Default(Box::new(self.parse_expr()?)))
7923 }
7924 Token::Assignment => {
7925 self.next_token(); Some(DeclareAssignment::DuckAssignment(Box::new(
7927 self.parse_expr()?,
7928 )))
7929 }
7930 _ => None,
7931 })
7932 }
7933
7934 pub fn parse_mssql_variable_declaration_expression(
7941 &mut self,
7942 ) -> Result<Option<DeclareAssignment>, ParserError> {
7943 Ok(match &self.peek_token_ref().token {
7944 Token::Eq => {
7945 self.next_token(); Some(DeclareAssignment::MsSqlAssignment(Box::new(
7947 self.parse_expr()?,
7948 )))
7949 }
7950 _ => None,
7951 })
7952 }
7953
7954 pub fn parse_fetch_statement(&mut self) -> Result<Statement, ParserError> {
7956 let direction = if self.parse_keyword(Keyword::NEXT) {
7957 FetchDirection::Next
7958 } else if self.parse_keyword(Keyword::PRIOR) {
7959 FetchDirection::Prior
7960 } else if self.parse_keyword(Keyword::FIRST) {
7961 FetchDirection::First
7962 } else if self.parse_keyword(Keyword::LAST) {
7963 FetchDirection::Last
7964 } else if self.parse_keyword(Keyword::ABSOLUTE) {
7965 FetchDirection::Absolute {
7966 limit: self.parse_number_value()?,
7967 }
7968 } else if self.parse_keyword(Keyword::RELATIVE) {
7969 FetchDirection::Relative {
7970 limit: self.parse_number_value()?,
7971 }
7972 } else if self.parse_keyword(Keyword::FORWARD) {
7973 if self.parse_keyword(Keyword::ALL) {
7974 FetchDirection::ForwardAll
7975 } else {
7976 FetchDirection::Forward {
7977 limit: Some(self.parse_number_value()?),
7979 }
7980 }
7981 } else if self.parse_keyword(Keyword::BACKWARD) {
7982 if self.parse_keyword(Keyword::ALL) {
7983 FetchDirection::BackwardAll
7984 } else {
7985 FetchDirection::Backward {
7986 limit: Some(self.parse_number_value()?),
7988 }
7989 }
7990 } else if self.parse_keyword(Keyword::ALL) {
7991 FetchDirection::All
7992 } else {
7993 FetchDirection::Count {
7994 limit: self.parse_number_value()?,
7995 }
7996 };
7997
7998 let position = if self.peek_keyword(Keyword::FROM) {
7999 self.expect_keyword(Keyword::FROM)?;
8000 FetchPosition::From
8001 } else if self.peek_keyword(Keyword::IN) {
8002 self.expect_keyword(Keyword::IN)?;
8003 FetchPosition::In
8004 } else {
8005 return parser_err!("Expected FROM or IN", self.peek_token_ref().span.start);
8006 };
8007
8008 let name = self.parse_identifier()?;
8009
8010 let into = if self.parse_keyword(Keyword::INTO) {
8011 Some(self.parse_object_name(false)?)
8012 } else {
8013 None
8014 };
8015
8016 Ok(Statement::Fetch {
8017 name,
8018 direction,
8019 position,
8020 into,
8021 })
8022 }
8023
8024 pub fn parse_discard(&mut self) -> Result<Statement, ParserError> {
8026 let object_type = if self.parse_keyword(Keyword::ALL) {
8027 DiscardObject::ALL
8028 } else if self.parse_keyword(Keyword::PLANS) {
8029 DiscardObject::PLANS
8030 } else if self.parse_keyword(Keyword::SEQUENCES) {
8031 DiscardObject::SEQUENCES
8032 } else if self.parse_keyword(Keyword::TEMP) || self.parse_keyword(Keyword::TEMPORARY) {
8033 DiscardObject::TEMP
8034 } else {
8035 return self.expected_ref(
8036 "ALL, PLANS, SEQUENCES, TEMP or TEMPORARY after DISCARD",
8037 self.peek_token_ref(),
8038 );
8039 };
8040 Ok(Statement::Discard { object_type })
8041 }
8042
8043 pub fn parse_create_index(&mut self, unique: bool) -> Result<CreateIndex, ParserError> {
8045 let concurrently = self.parse_keyword(Keyword::CONCURRENTLY);
8046 let r#async = self.parse_keyword(Keyword::ASYNC);
8047 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
8048
8049 let mut using = None;
8050
8051 let index_name = if if_not_exists || !self.parse_keyword(Keyword::ON) {
8052 let index_name = self.parse_object_name(false)?;
8053 using = self.parse_optional_using_then_index_type()?;
8055 self.expect_keyword_is(Keyword::ON)?;
8056 Some(index_name)
8057 } else {
8058 None
8059 };
8060
8061 let table_name = self.parse_object_name(false)?;
8062
8063 using = self.parse_optional_using_then_index_type()?.or(using);
8066
8067 let columns = self.parse_parenthesized_index_column_list()?;
8068
8069 let include = if self.parse_keyword(Keyword::INCLUDE) {
8070 self.expect_token(&Token::LParen)?;
8071 let columns = self.parse_comma_separated(|p| p.parse_identifier())?;
8072 self.expect_token(&Token::RParen)?;
8073 columns
8074 } else {
8075 vec![]
8076 };
8077
8078 let nulls_distinct = if self.parse_keyword(Keyword::NULLS) {
8079 let not = self.parse_keyword(Keyword::NOT);
8080 self.expect_keyword_is(Keyword::DISTINCT)?;
8081 Some(!not)
8082 } else {
8083 None
8084 };
8085
8086 let with = if self.dialect.supports_create_index_with_clause()
8087 && self.parse_keyword(Keyword::WITH)
8088 {
8089 self.expect_token(&Token::LParen)?;
8090 let with_params = self.parse_comma_separated(Parser::parse_expr)?;
8091 self.expect_token(&Token::RParen)?;
8092 with_params
8093 } else {
8094 Vec::new()
8095 };
8096
8097 let predicate = if self.parse_keyword(Keyword::WHERE) {
8098 Some(self.parse_expr()?)
8099 } else {
8100 None
8101 };
8102
8103 let index_options = self.parse_index_options()?;
8109
8110 let mut alter_options = Vec::new();
8112 while self
8113 .peek_one_of_keywords(&[Keyword::ALGORITHM, Keyword::LOCK])
8114 .is_some()
8115 {
8116 alter_options.push(self.parse_alter_table_operation()?)
8117 }
8118
8119 Ok(CreateIndex {
8120 name: index_name,
8121 table_name,
8122 using,
8123 columns,
8124 unique,
8125 concurrently,
8126 r#async,
8127 if_not_exists,
8128 include,
8129 nulls_distinct,
8130 with,
8131 predicate,
8132 index_options,
8133 alter_options,
8134 })
8135 }
8136
8137 pub fn parse_create_extension(&mut self) -> Result<CreateExtension, ParserError> {
8139 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
8140 let name = self.parse_identifier()?;
8141
8142 let (schema, version, cascade) = if self.parse_keyword(Keyword::WITH) {
8143 let schema = if self.parse_keyword(Keyword::SCHEMA) {
8144 Some(self.parse_identifier()?)
8145 } else {
8146 None
8147 };
8148
8149 let version = if self.parse_keyword(Keyword::VERSION) {
8150 Some(self.parse_identifier()?)
8151 } else {
8152 None
8153 };
8154
8155 let cascade = self.parse_keyword(Keyword::CASCADE);
8156
8157 (schema, version, cascade)
8158 } else {
8159 (None, None, false)
8160 };
8161
8162 Ok(CreateExtension {
8163 name,
8164 if_not_exists,
8165 schema,
8166 version,
8167 cascade,
8168 })
8169 }
8170
8171 pub fn parse_create_collation(&mut self) -> Result<CreateCollation, ParserError> {
8173 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
8174 let name = self.parse_object_name(false)?;
8175
8176 let definition = if self.parse_keyword(Keyword::FROM) {
8177 CreateCollationDefinition::From(self.parse_object_name(false)?)
8178 } else if self.consume_token(&Token::LParen) {
8179 let options = self.parse_comma_separated(Parser::parse_sql_option)?;
8180 self.expect_token(&Token::RParen)?;
8181 CreateCollationDefinition::Options(options)
8182 } else {
8183 return self.expected_ref(
8184 "FROM or parenthesized option list after CREATE COLLATION name",
8185 self.peek_token_ref(),
8186 );
8187 };
8188
8189 Ok(CreateCollation {
8190 if_not_exists,
8191 name,
8192 definition,
8193 })
8194 }
8195
8196 pub fn parse_drop_extension(&mut self) -> Result<Statement, ParserError> {
8198 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
8199 let names = self.parse_comma_separated(|p| p.parse_identifier())?;
8200 let cascade_or_restrict =
8201 self.parse_one_of_keywords(&[Keyword::CASCADE, Keyword::RESTRICT]);
8202 Ok(Statement::DropExtension(DropExtension {
8203 names,
8204 if_exists,
8205 cascade_or_restrict: cascade_or_restrict
8206 .map(|k| match k {
8207 Keyword::CASCADE => Ok(ReferentialAction::Cascade),
8208 Keyword::RESTRICT => Ok(ReferentialAction::Restrict),
8209 _ => self.expected_ref("CASCADE or RESTRICT", self.peek_token_ref()),
8210 })
8211 .transpose()?,
8212 }))
8213 }
8214
8215 pub fn parse_drop_operator(&mut self) -> Result<Statement, ParserError> {
8218 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
8219 let operators = self.parse_comma_separated(|p| p.parse_drop_operator_signature())?;
8220 let drop_behavior = self.parse_optional_drop_behavior();
8221 Ok(Statement::DropOperator(DropOperator {
8222 if_exists,
8223 operators,
8224 drop_behavior,
8225 }))
8226 }
8227
8228 fn parse_drop_operator_signature(&mut self) -> Result<DropOperatorSignature, ParserError> {
8231 let name = self.parse_operator_name()?;
8232 self.expect_token(&Token::LParen)?;
8233
8234 let left_type = if self.parse_keyword(Keyword::NONE) {
8236 None
8237 } else {
8238 Some(self.parse_data_type()?)
8239 };
8240
8241 self.expect_token(&Token::Comma)?;
8242
8243 let right_type = self.parse_data_type()?;
8245
8246 self.expect_token(&Token::RParen)?;
8247
8248 Ok(DropOperatorSignature {
8249 name,
8250 left_type,
8251 right_type,
8252 })
8253 }
8254
8255 pub fn parse_drop_operator_family(&mut self) -> Result<Statement, ParserError> {
8259 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
8260 let names = self.parse_comma_separated(|p| p.parse_object_name(false))?;
8261 self.expect_keyword(Keyword::USING)?;
8262 let using = self.parse_identifier()?;
8263 let drop_behavior = self.parse_optional_drop_behavior();
8264 Ok(Statement::DropOperatorFamily(DropOperatorFamily {
8265 if_exists,
8266 names,
8267 using,
8268 drop_behavior,
8269 }))
8270 }
8271
8272 pub fn parse_drop_operator_class(&mut self) -> Result<Statement, ParserError> {
8276 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
8277 let names = self.parse_comma_separated(|p| p.parse_object_name(false))?;
8278 self.expect_keyword(Keyword::USING)?;
8279 let using = self.parse_identifier()?;
8280 let drop_behavior = self.parse_optional_drop_behavior();
8281 Ok(Statement::DropOperatorClass(DropOperatorClass {
8282 if_exists,
8283 names,
8284 using,
8285 drop_behavior,
8286 }))
8287 }
8288
8289 pub fn parse_hive_distribution(&mut self) -> Result<HiveDistributionStyle, ParserError> {
8293 if self.parse_keywords(&[Keyword::PARTITIONED, Keyword::BY]) {
8294 self.expect_token(&Token::LParen)?;
8295 let columns =
8296 self.parse_comma_separated(|parser| parser.parse_column_def_inner(true))?;
8297 self.expect_token(&Token::RParen)?;
8298 Ok(HiveDistributionStyle::PARTITIONED { columns })
8299 } else {
8300 Ok(HiveDistributionStyle::NONE)
8301 }
8302 }
8303
8304 fn parse_dist_style(&mut self) -> Result<DistStyle, ParserError> {
8308 let token = self.next_token();
8309 match &token.token {
8310 Token::Word(w) => match w.keyword {
8311 Keyword::AUTO => Ok(DistStyle::Auto),
8312 Keyword::EVEN => Ok(DistStyle::Even),
8313 Keyword::KEY => Ok(DistStyle::Key),
8314 Keyword::ALL => Ok(DistStyle::All),
8315 _ => self.expected("AUTO, EVEN, KEY, or ALL", token),
8316 },
8317 _ => self.expected("AUTO, EVEN, KEY, or ALL", token),
8318 }
8319 }
8320
8321 pub fn parse_hive_formats(&mut self) -> Result<Option<HiveFormat>, ParserError> {
8323 let mut hive_format: Option<HiveFormat> = None;
8324 loop {
8325 match self.parse_one_of_keywords(&[
8326 Keyword::ROW,
8327 Keyword::STORED,
8328 Keyword::LOCATION,
8329 Keyword::WITH,
8330 Keyword::USING,
8331 ]) {
8332 Some(Keyword::ROW) => {
8333 hive_format
8334 .get_or_insert_with(HiveFormat::default)
8335 .row_format = Some(self.parse_row_format()?);
8336 }
8337 Some(Keyword::STORED) => {
8338 self.expect_keyword_is(Keyword::AS)?;
8339 if self.parse_keyword(Keyword::INPUTFORMAT) {
8340 let input_format = self.parse_expr()?;
8341 self.expect_keyword_is(Keyword::OUTPUTFORMAT)?;
8342 let output_format = self.parse_expr()?;
8343 hive_format.get_or_insert_with(HiveFormat::default).storage =
8344 Some(HiveIOFormat::IOF {
8345 input_format,
8346 output_format,
8347 });
8348 } else {
8349 let format = self.parse_file_format()?;
8350 hive_format.get_or_insert_with(HiveFormat::default).storage =
8351 Some(HiveIOFormat::FileFormat { format });
8352 }
8353 }
8354 Some(Keyword::LOCATION) => {
8355 hive_format.get_or_insert_with(HiveFormat::default).location =
8356 Some(self.parse_literal_string()?);
8357 }
8358 Some(Keyword::WITH) => {
8359 self.prev_token();
8360 let properties = self
8361 .parse_options_with_keywords(&[Keyword::WITH, Keyword::SERDEPROPERTIES])?;
8362 if !properties.is_empty() {
8363 hive_format
8364 .get_or_insert_with(HiveFormat::default)
8365 .serde_properties = Some(properties);
8366 } else {
8367 break;
8368 }
8369 }
8370 Some(Keyword::USING) if self.dialect.supports_create_table_using() => {
8371 let format = self.parse_identifier()?;
8372 hive_format.get_or_insert_with(HiveFormat::default).storage =
8373 Some(HiveIOFormat::Using { format });
8374 }
8375 Some(Keyword::USING) => {
8376 self.prev_token();
8378 break;
8379 }
8380 None => break,
8381 _ => break,
8382 }
8383 }
8384
8385 Ok(hive_format)
8386 }
8387
8388 pub fn parse_row_format(&mut self) -> Result<HiveRowFormat, ParserError> {
8390 self.expect_keyword_is(Keyword::FORMAT)?;
8391 match self.parse_one_of_keywords(&[Keyword::SERDE, Keyword::DELIMITED]) {
8392 Some(Keyword::SERDE) => {
8393 let class = self.parse_literal_string()?;
8394 Ok(HiveRowFormat::SERDE { class })
8395 }
8396 _ => {
8397 let mut row_delimiters = vec![];
8398
8399 loop {
8400 match self.parse_one_of_keywords(&[
8401 Keyword::FIELDS,
8402 Keyword::COLLECTION,
8403 Keyword::MAP,
8404 Keyword::LINES,
8405 Keyword::NULL,
8406 ]) {
8407 Some(Keyword::FIELDS)
8408 if self.parse_keywords(&[Keyword::TERMINATED, Keyword::BY]) =>
8409 {
8410 row_delimiters.push(HiveRowDelimiter {
8411 delimiter: HiveDelimiter::FieldsTerminatedBy,
8412 char: self.parse_identifier()?,
8413 });
8414
8415 if self.parse_keywords(&[Keyword::ESCAPED, Keyword::BY]) {
8416 row_delimiters.push(HiveRowDelimiter {
8417 delimiter: HiveDelimiter::FieldsEscapedBy,
8418 char: self.parse_identifier()?,
8419 });
8420 }
8421 }
8422 Some(Keyword::COLLECTION)
8423 if self.parse_keywords(&[
8424 Keyword::ITEMS,
8425 Keyword::TERMINATED,
8426 Keyword::BY,
8427 ]) =>
8428 {
8429 row_delimiters.push(HiveRowDelimiter {
8430 delimiter: HiveDelimiter::CollectionItemsTerminatedBy,
8431 char: self.parse_identifier()?,
8432 });
8433 }
8434 Some(Keyword::MAP)
8435 if self.parse_keywords(&[
8436 Keyword::KEYS,
8437 Keyword::TERMINATED,
8438 Keyword::BY,
8439 ]) =>
8440 {
8441 row_delimiters.push(HiveRowDelimiter {
8442 delimiter: HiveDelimiter::MapKeysTerminatedBy,
8443 char: self.parse_identifier()?,
8444 });
8445 }
8446 Some(Keyword::LINES)
8447 if self.parse_keywords(&[Keyword::TERMINATED, Keyword::BY]) =>
8448 {
8449 row_delimiters.push(HiveRowDelimiter {
8450 delimiter: HiveDelimiter::LinesTerminatedBy,
8451 char: self.parse_identifier()?,
8452 });
8453 }
8454 Some(Keyword::NULL)
8455 if self.parse_keywords(&[Keyword::DEFINED, Keyword::AS]) =>
8456 {
8457 row_delimiters.push(HiveRowDelimiter {
8458 delimiter: HiveDelimiter::NullDefinedAs,
8459 char: self.parse_identifier()?,
8460 });
8461 }
8462 _ => {
8463 break;
8464 }
8465 }
8466 }
8467
8468 Ok(HiveRowFormat::DELIMITED {
8469 delimiters: row_delimiters,
8470 })
8471 }
8472 }
8473 }
8474
8475 fn parse_optional_on_cluster(&mut self) -> Result<Option<Ident>, ParserError> {
8476 if self.parse_keywords(&[Keyword::ON, Keyword::CLUSTER]) {
8477 Ok(Some(self.parse_identifier()?))
8478 } else {
8479 Ok(None)
8480 }
8481 }
8482
8483 pub fn parse_create_table(
8485 &mut self,
8486 or_replace: bool,
8487 temporary: bool,
8488 global: Option<bool>,
8489 transient: bool,
8490 volatile: bool,
8491 multiset: Option<bool>,
8492 ) -> Result<CreateTable, ParserError> {
8493 let allow_unquoted_hyphen = dialect_of!(self is BigQueryDialect);
8494 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
8495 let table_name = self.parse_object_name(allow_unquoted_hyphen)?;
8496
8497 let fallback = if self.dialect.supports_leading_comma_before_table_options()
8498 && self.consume_token(&Token::Comma)
8499 {
8500 let fallback = self.maybe_parse_fallback()?;
8501 if fallback.is_none() {
8502 self.prev_token(); }
8504 fallback
8505 } else {
8506 None
8507 };
8508
8509 let partition_of = if self.parse_keywords(&[Keyword::PARTITION, Keyword::OF]) {
8520 Some(self.parse_object_name(allow_unquoted_hyphen)?)
8521 } else {
8522 None
8523 };
8524
8525 let on_cluster = self.parse_optional_on_cluster()?;
8527
8528 let like = self.maybe_parse_create_table_like(allow_unquoted_hyphen)?;
8529
8530 let clone = if self.parse_keyword(Keyword::CLONE) {
8531 self.parse_object_name(allow_unquoted_hyphen).ok()
8532 } else {
8533 None
8534 };
8535
8536 let (columns, constraints) = self.parse_columns()?;
8538 let comment_after_column_def =
8539 if dialect_of!(self is HiveDialect) && self.parse_keyword(Keyword::COMMENT) {
8540 let next_token = self.next_token();
8541 match next_token.token {
8542 Token::SingleQuotedString(str) => Some(CommentDef::WithoutEq(str)),
8543 _ => self.expected("comment", next_token)?,
8544 }
8545 } else {
8546 None
8547 };
8548
8549 let for_values = if partition_of.is_some() {
8551 if self.peek_keyword(Keyword::FOR) || self.peek_keyword(Keyword::DEFAULT) {
8552 Some(self.parse_partition_for_values()?)
8553 } else {
8554 return self.expected_ref(
8555 "FOR VALUES or DEFAULT after PARTITION OF",
8556 self.peek_token_ref(),
8557 );
8558 }
8559 } else {
8560 None
8561 };
8562
8563 let without_rowid = self.parse_keywords(&[Keyword::WITHOUT, Keyword::ROWID]);
8565
8566 let hive_distribution = self.parse_hive_distribution()?;
8567 let clustered_by = self.parse_optional_clustered_by()?;
8568 let hive_formats = self.parse_hive_formats()?;
8569
8570 let create_table_config = self.parse_optional_create_table_config()?;
8571
8572 let primary_key = if dialect_of!(self is ClickHouseDialect | GenericDialect)
8575 && self.parse_keywords(&[Keyword::PRIMARY, Keyword::KEY])
8576 {
8577 Some(Box::new(self.parse_expr()?))
8578 } else {
8579 None
8580 };
8581
8582 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
8583 if self.consume_token(&Token::LParen) {
8584 let columns = if self.peek_token_ref().token != Token::RParen {
8585 self.parse_comma_separated(|p| p.parse_expr())?
8586 } else {
8587 vec![]
8588 };
8589 self.expect_token(&Token::RParen)?;
8590 Some(OneOrManyWithParens::Many(columns))
8591 } else {
8592 Some(OneOrManyWithParens::One(self.parse_expr()?))
8593 }
8594 } else {
8595 None
8596 };
8597
8598 let partition_by = if create_table_config.partition_by.is_none()
8601 && self.dialect.supports_partition_by_after_order_by()
8602 && self.parse_keywords(&[Keyword::PARTITION, Keyword::BY])
8603 {
8604 Some(Box::new(self.parse_expr()?))
8605 } else {
8606 create_table_config.partition_by
8607 };
8608
8609 let on_commit = if self.parse_keywords(&[Keyword::ON, Keyword::COMMIT]) {
8610 Some(self.parse_create_table_on_commit()?)
8611 } else {
8612 None
8613 };
8614
8615 let strict = self.parse_keyword(Keyword::STRICT);
8616
8617 let backup = if self.parse_keyword(Keyword::BACKUP) {
8619 let keyword = self.expect_one_of_keywords(&[Keyword::YES, Keyword::NO])?;
8620 Some(keyword == Keyword::YES)
8621 } else {
8622 None
8623 };
8624
8625 let diststyle = if self.parse_keyword(Keyword::DISTSTYLE) {
8627 Some(self.parse_dist_style()?)
8628 } else {
8629 None
8630 };
8631 let distkey = if self.parse_keyword(Keyword::DISTKEY) {
8632 self.expect_token(&Token::LParen)?;
8633 let expr = self.parse_expr()?;
8634 self.expect_token(&Token::RParen)?;
8635 Some(expr)
8636 } else {
8637 None
8638 };
8639 let sortkey = if self.parse_keyword(Keyword::SORTKEY) {
8640 self.expect_token(&Token::LParen)?;
8641 let columns = self.parse_comma_separated(|p| p.parse_expr())?;
8642 self.expect_token(&Token::RParen)?;
8643 Some(columns)
8644 } else {
8645 None
8646 };
8647
8648 let query = if self.parse_keyword(Keyword::AS) {
8650 Some(self.parse_query()?)
8651 } else if self.dialect.supports_create_table_select() && self.parse_keyword(Keyword::SELECT)
8652 {
8653 self.prev_token();
8655 Some(self.parse_query()?)
8656 } else {
8657 None
8658 };
8659
8660 let with_data = if query.is_some() {
8662 self.maybe_parse_with_data()?
8663 } else {
8664 None
8665 };
8666
8667 Ok(CreateTableBuilder::new(table_name)
8668 .temporary(temporary)
8669 .columns(columns)
8670 .constraints(constraints)
8671 .or_replace(or_replace)
8672 .if_not_exists(if_not_exists)
8673 .transient(transient)
8674 .volatile(volatile)
8675 .multiset(multiset)
8676 .fallback(fallback)
8677 .hive_distribution(hive_distribution)
8678 .hive_formats(hive_formats)
8679 .global(global)
8680 .query(query)
8681 .without_rowid(without_rowid)
8682 .like(like)
8683 .clone_clause(clone)
8684 .comment_after_column_def(comment_after_column_def)
8685 .order_by(order_by)
8686 .on_commit(on_commit)
8687 .on_cluster(on_cluster)
8688 .clustered_by(clustered_by)
8689 .partition_by(partition_by)
8690 .cluster_by(create_table_config.cluster_by)
8691 .inherits(create_table_config.inherits)
8692 .partition_of(partition_of)
8693 .for_values(for_values)
8694 .table_options(create_table_config.table_options)
8695 .primary_key(primary_key)
8696 .with_data(with_data)
8697 .strict(strict)
8698 .backup(backup)
8699 .diststyle(diststyle)
8700 .distkey(distkey)
8701 .sortkey(sortkey)
8702 .build())
8703 }
8704
8705 fn maybe_parse_multiset(&mut self) -> Option<bool> {
8707 match self.parse_one_of_keywords(&[Keyword::SET, Keyword::MULTISET]) {
8708 Some(Keyword::MULTISET) => Some(true),
8709 Some(Keyword::SET) => Some(false),
8710 _ => None,
8711 }
8712 }
8713
8714 fn maybe_parse_fallback(&mut self) -> Result<Option<bool>, ParserError> {
8716 if self.parse_keywords(&[Keyword::NO, Keyword::FALLBACK]) {
8717 Ok(Some(false))
8718 } else if self.parse_keyword(Keyword::FALLBACK) {
8719 Ok(Some(true))
8720 } else {
8721 Ok(None)
8722 }
8723 }
8724
8725 fn maybe_parse_with_data(&mut self) -> Result<Option<WithData>, ParserError> {
8727 let data = if self.parse_keywords(&[Keyword::WITH, Keyword::DATA]) {
8728 true
8729 } else if self.parse_keywords(&[Keyword::WITH, Keyword::NO, Keyword::DATA]) {
8730 false
8731 } else {
8732 return Ok(None);
8733 };
8734
8735 let statistics = if self.parse_keywords(&[Keyword::AND, Keyword::STATISTICS]) {
8736 Some(true)
8737 } else if self.parse_keywords(&[Keyword::AND, Keyword::NO, Keyword::STATISTICS]) {
8738 Some(false)
8739 } else {
8740 None
8741 };
8742
8743 Ok(Some(WithData { data, statistics }))
8744 }
8745
8746 fn maybe_parse_create_table_like(
8747 &mut self,
8748 allow_unquoted_hyphen: bool,
8749 ) -> Result<Option<CreateTableLikeKind>, ParserError> {
8750 let like = if self.dialect.supports_create_table_like_parenthesized()
8751 && self.consume_token(&Token::LParen)
8752 {
8753 if self.parse_keyword(Keyword::LIKE) {
8754 let name = self.parse_object_name(allow_unquoted_hyphen)?;
8755 let defaults = if self.parse_keywords(&[Keyword::INCLUDING, Keyword::DEFAULTS]) {
8756 Some(CreateTableLikeDefaults::Including)
8757 } else if self.parse_keywords(&[Keyword::EXCLUDING, Keyword::DEFAULTS]) {
8758 Some(CreateTableLikeDefaults::Excluding)
8759 } else {
8760 None
8761 };
8762 self.expect_token(&Token::RParen)?;
8763 Some(CreateTableLikeKind::Parenthesized(CreateTableLike {
8764 name,
8765 defaults,
8766 }))
8767 } else {
8768 self.prev_token();
8770 None
8771 }
8772 } else if self.parse_keyword(Keyword::LIKE) || self.parse_keyword(Keyword::ILIKE) {
8773 let name = self.parse_object_name(allow_unquoted_hyphen)?;
8774 Some(CreateTableLikeKind::Plain(CreateTableLike {
8775 name,
8776 defaults: None,
8777 }))
8778 } else {
8779 None
8780 };
8781 Ok(like)
8782 }
8783
8784 pub(crate) fn parse_create_table_on_commit(&mut self) -> Result<OnCommit, ParserError> {
8785 if self.parse_keywords(&[Keyword::DELETE, Keyword::ROWS]) {
8786 Ok(OnCommit::DeleteRows)
8787 } else if self.parse_keywords(&[Keyword::PRESERVE, Keyword::ROWS]) {
8788 Ok(OnCommit::PreserveRows)
8789 } else if self.parse_keywords(&[Keyword::DROP]) {
8790 Ok(OnCommit::Drop)
8791 } else {
8792 parser_err!(
8793 "Expecting DELETE ROWS, PRESERVE ROWS or DROP",
8794 self.peek_token_ref()
8795 )
8796 }
8797 }
8798
8799 fn parse_partition_for_values(&mut self) -> Result<ForValues, ParserError> {
8805 if self.parse_keyword(Keyword::DEFAULT) {
8806 return Ok(ForValues::Default);
8807 }
8808
8809 self.expect_keywords(&[Keyword::FOR, Keyword::VALUES])?;
8810
8811 if self.parse_keyword(Keyword::IN) {
8812 self.expect_token(&Token::LParen)?;
8814 if self.peek_token_ref().token == Token::RParen {
8815 return self.expected_ref("at least one value", self.peek_token_ref());
8816 }
8817 let values = self.parse_comma_separated(Parser::parse_expr)?;
8818 self.expect_token(&Token::RParen)?;
8819 Ok(ForValues::In(values))
8820 } else if self.parse_keyword(Keyword::FROM) {
8821 self.expect_token(&Token::LParen)?;
8823 if self.peek_token_ref().token == Token::RParen {
8824 return self.expected_ref("at least one value", self.peek_token_ref());
8825 }
8826 let from = self.parse_comma_separated(Parser::parse_partition_bound_value)?;
8827 self.expect_token(&Token::RParen)?;
8828 self.expect_keyword(Keyword::TO)?;
8829 self.expect_token(&Token::LParen)?;
8830 if self.peek_token_ref().token == Token::RParen {
8831 return self.expected_ref("at least one value", self.peek_token_ref());
8832 }
8833 let to = self.parse_comma_separated(Parser::parse_partition_bound_value)?;
8834 self.expect_token(&Token::RParen)?;
8835 Ok(ForValues::From { from, to })
8836 } else if self.parse_keyword(Keyword::WITH) {
8837 self.expect_token(&Token::LParen)?;
8839 self.expect_keyword(Keyword::MODULUS)?;
8840 let modulus = self.parse_literal_uint()?;
8841 self.expect_token(&Token::Comma)?;
8842 self.expect_keyword(Keyword::REMAINDER)?;
8843 let remainder = self.parse_literal_uint()?;
8844 self.expect_token(&Token::RParen)?;
8845 Ok(ForValues::With { modulus, remainder })
8846 } else {
8847 self.expected_ref("IN, FROM, or WITH after FOR VALUES", self.peek_token_ref())
8848 }
8849 }
8850
8851 fn parse_partition_bound_value(&mut self) -> Result<PartitionBoundValue, ParserError> {
8853 if self.parse_keyword(Keyword::MINVALUE) {
8854 Ok(PartitionBoundValue::MinValue)
8855 } else if self.parse_keyword(Keyword::MAXVALUE) {
8856 Ok(PartitionBoundValue::MaxValue)
8857 } else {
8858 Ok(PartitionBoundValue::Expr(self.parse_expr()?))
8859 }
8860 }
8861
8862 fn parse_optional_create_table_config(
8868 &mut self,
8869 ) -> Result<CreateTableConfiguration, ParserError> {
8870 let mut table_options = CreateTableOptions::None;
8871
8872 let inherits = if self.parse_keyword(Keyword::INHERITS) {
8873 Some(self.parse_parenthesized_qualified_column_list(IsOptional::Mandatory, false)?)
8874 } else {
8875 None
8876 };
8877
8878 let with_options = self.parse_options(Keyword::WITH)?;
8880 if !with_options.is_empty() {
8881 table_options = CreateTableOptions::With(with_options)
8882 }
8883
8884 let table_properties = self.parse_options(Keyword::TBLPROPERTIES)?;
8885 if !table_properties.is_empty() {
8886 table_options = CreateTableOptions::TableProperties(table_properties);
8887 }
8888 let partition_by = if dialect_of!(self is BigQueryDialect | PostgreSqlDialect | GenericDialect)
8889 && self.parse_keywords(&[Keyword::PARTITION, Keyword::BY])
8890 {
8891 Some(Box::new(self.parse_expr()?))
8892 } else {
8893 None
8894 };
8895
8896 let mut cluster_by = None;
8897 if dialect_of!(self is BigQueryDialect | GenericDialect) {
8898 if self.parse_keywords(&[Keyword::CLUSTER, Keyword::BY]) {
8899 cluster_by = Some(WrappedCollection::NoWrapping(
8900 self.parse_comma_separated(|p| p.parse_expr())?,
8901 ));
8902 };
8903
8904 if let Token::Word(word) = &self.peek_token_ref().token {
8905 if word.keyword == Keyword::OPTIONS {
8906 table_options =
8907 CreateTableOptions::Options(self.parse_options(Keyword::OPTIONS)?)
8908 }
8909 };
8910 }
8911
8912 if !dialect_of!(self is HiveDialect) && table_options == CreateTableOptions::None {
8913 let plain_options = self.parse_plain_options()?;
8914 if !plain_options.is_empty() {
8915 table_options = CreateTableOptions::Plain(plain_options)
8916 }
8917 };
8918
8919 Ok(CreateTableConfiguration {
8920 partition_by,
8921 cluster_by,
8922 inherits,
8923 table_options,
8924 })
8925 }
8926
8927 fn parse_plain_option(&mut self) -> Result<Option<SqlOption>, ParserError> {
8928 if self.parse_keywords(&[Keyword::START, Keyword::TRANSACTION]) {
8931 return Ok(Some(SqlOption::Ident(Ident::new("START TRANSACTION"))));
8932 }
8933
8934 if self.parse_keywords(&[Keyword::COMMENT]) {
8937 let has_eq = self.consume_token(&Token::Eq);
8938 let value = self.next_token();
8939
8940 let comment = match (has_eq, value.token) {
8941 (true, Token::SingleQuotedString(s)) => {
8942 Ok(Some(SqlOption::Comment(CommentDef::WithEq(s))))
8943 }
8944 (false, Token::SingleQuotedString(s)) => {
8945 Ok(Some(SqlOption::Comment(CommentDef::WithoutEq(s))))
8946 }
8947 (_, token) => {
8948 self.expected("Token::SingleQuotedString", TokenWithSpan::wrap(token))
8949 }
8950 };
8951 return comment;
8952 }
8953
8954 if self.parse_keywords(&[Keyword::ENGINE]) {
8957 let _ = self.consume_token(&Token::Eq);
8958 let value = self.next_token();
8959
8960 let engine = match value.token {
8961 Token::Word(w) => {
8962 let parameters = if self.peek_token_ref().token == Token::LParen {
8963 self.parse_parenthesized_identifiers()?
8964 } else {
8965 vec![]
8966 };
8967
8968 Ok(Some(SqlOption::NamedParenthesizedList(
8969 NamedParenthesizedList {
8970 key: Ident::new("ENGINE"),
8971 name: Some(Ident::new(w.value)),
8972 values: parameters,
8973 },
8974 )))
8975 }
8976 _ => {
8977 return self.expected("Token::Word", value)?;
8978 }
8979 };
8980
8981 return engine;
8982 }
8983
8984 if self.parse_keywords(&[Keyword::TABLESPACE]) {
8986 let _ = self.consume_token(&Token::Eq);
8987 let value = self.next_token();
8988
8989 let tablespace = match value.token {
8990 Token::Word(Word { value: name, .. }) | Token::SingleQuotedString(name) => {
8991 let storage = match self.parse_keyword(Keyword::STORAGE) {
8992 true => {
8993 let _ = self.consume_token(&Token::Eq);
8994 let storage_token = self.next_token();
8995 match &storage_token.token {
8996 Token::Word(w) => match w.value.to_uppercase().as_str() {
8997 "DISK" => Some(StorageType::Disk),
8998 "MEMORY" => Some(StorageType::Memory),
8999 _ => self
9000 .expected("Storage type (DISK or MEMORY)", storage_token)?,
9001 },
9002 _ => self.expected("Token::Word", storage_token)?,
9003 }
9004 }
9005 false => None,
9006 };
9007
9008 Ok(Some(SqlOption::TableSpace(TablespaceOption {
9009 name,
9010 storage,
9011 })))
9012 }
9013 _ => {
9014 return self.expected("Token::Word", value)?;
9015 }
9016 };
9017
9018 return tablespace;
9019 }
9020
9021 if self.parse_keyword(Keyword::UNION) {
9023 let _ = self.consume_token(&Token::Eq);
9024 let value = self.next_token();
9025
9026 match value.token {
9027 Token::LParen => {
9028 let tables: Vec<Ident> =
9029 self.parse_comma_separated0(Parser::parse_identifier, Token::RParen)?;
9030 self.expect_token(&Token::RParen)?;
9031
9032 return Ok(Some(SqlOption::NamedParenthesizedList(
9033 NamedParenthesizedList {
9034 key: Ident::new("UNION"),
9035 name: None,
9036 values: tables,
9037 },
9038 )));
9039 }
9040 _ => {
9041 return self.expected("Token::LParen", value)?;
9042 }
9043 }
9044 }
9045
9046 let key = if self.parse_keywords(&[Keyword::DEFAULT, Keyword::CHARSET]) {
9048 Ident::new("DEFAULT CHARSET")
9049 } else if self.parse_keyword(Keyword::CHARSET) {
9050 Ident::new("CHARSET")
9051 } else if self.parse_keywords(&[Keyword::DEFAULT, Keyword::CHARACTER, Keyword::SET]) {
9052 Ident::new("DEFAULT CHARACTER SET")
9053 } else if self.parse_keywords(&[Keyword::CHARACTER, Keyword::SET]) {
9054 Ident::new("CHARACTER SET")
9055 } else if self.parse_keywords(&[Keyword::DEFAULT, Keyword::COLLATE]) {
9056 Ident::new("DEFAULT COLLATE")
9057 } else if self.parse_keyword(Keyword::COLLATE) {
9058 Ident::new("COLLATE")
9059 } else if self.parse_keywords(&[Keyword::DATA, Keyword::DIRECTORY]) {
9060 Ident::new("DATA DIRECTORY")
9061 } else if self.parse_keywords(&[Keyword::INDEX, Keyword::DIRECTORY]) {
9062 Ident::new("INDEX DIRECTORY")
9063 } else if self.parse_keyword(Keyword::KEY_BLOCK_SIZE) {
9064 Ident::new("KEY_BLOCK_SIZE")
9065 } else if self.parse_keyword(Keyword::ROW_FORMAT) {
9066 Ident::new("ROW_FORMAT")
9067 } else if self.parse_keyword(Keyword::PACK_KEYS) {
9068 Ident::new("PACK_KEYS")
9069 } else if self.parse_keyword(Keyword::STATS_AUTO_RECALC) {
9070 Ident::new("STATS_AUTO_RECALC")
9071 } else if self.parse_keyword(Keyword::STATS_PERSISTENT) {
9072 Ident::new("STATS_PERSISTENT")
9073 } else if self.parse_keyword(Keyword::STATS_SAMPLE_PAGES) {
9074 Ident::new("STATS_SAMPLE_PAGES")
9075 } else if self.parse_keyword(Keyword::DELAY_KEY_WRITE) {
9076 Ident::new("DELAY_KEY_WRITE")
9077 } else if self.parse_keyword(Keyword::COMPRESSION) {
9078 Ident::new("COMPRESSION")
9079 } else if self.parse_keyword(Keyword::ENCRYPTION) {
9080 Ident::new("ENCRYPTION")
9081 } else if self.parse_keyword(Keyword::MAX_ROWS) {
9082 Ident::new("MAX_ROWS")
9083 } else if self.parse_keyword(Keyword::MIN_ROWS) {
9084 Ident::new("MIN_ROWS")
9085 } else if self.parse_keyword(Keyword::AUTOEXTEND_SIZE) {
9086 Ident::new("AUTOEXTEND_SIZE")
9087 } else if self.parse_keyword(Keyword::AVG_ROW_LENGTH) {
9088 Ident::new("AVG_ROW_LENGTH")
9089 } else if self.parse_keyword(Keyword::CHECKSUM) {
9090 Ident::new("CHECKSUM")
9091 } else if self.parse_keyword(Keyword::CONNECTION) {
9092 Ident::new("CONNECTION")
9093 } else if self.parse_keyword(Keyword::ENGINE_ATTRIBUTE) {
9094 Ident::new("ENGINE_ATTRIBUTE")
9095 } else if self.parse_keyword(Keyword::PASSWORD) {
9096 Ident::new("PASSWORD")
9097 } else if self.parse_keyword(Keyword::SECONDARY_ENGINE_ATTRIBUTE) {
9098 Ident::new("SECONDARY_ENGINE_ATTRIBUTE")
9099 } else if self.parse_keyword(Keyword::INSERT_METHOD) {
9100 Ident::new("INSERT_METHOD")
9101 } else if self.parse_keyword(Keyword::AUTO_INCREMENT) {
9102 Ident::new("AUTO_INCREMENT")
9103 } else {
9104 return Ok(None);
9105 };
9106
9107 let _ = self.consume_token(&Token::Eq);
9108
9109 let value = match self
9110 .maybe_parse(|parser| parser.parse_value())?
9111 .map(Expr::Value)
9112 {
9113 Some(expr) => expr,
9114 None => Expr::Identifier(self.parse_identifier()?),
9115 };
9116
9117 Ok(Some(SqlOption::KeyValue { key, value }))
9118 }
9119
9120 pub fn parse_plain_options(&mut self) -> Result<Vec<SqlOption>, ParserError> {
9122 let mut options = Vec::new();
9123
9124 while let Some(option) = self.parse_plain_option()? {
9125 options.push(option);
9126 let _ = self.consume_token(&Token::Comma);
9129 }
9130
9131 Ok(options)
9132 }
9133
9134 pub fn parse_optional_inline_comment(&mut self) -> Result<Option<CommentDef>, ParserError> {
9136 let comment = if self.parse_keyword(Keyword::COMMENT) {
9137 let has_eq = self.consume_token(&Token::Eq);
9138 let comment = self.parse_comment_value()?;
9139 Some(if has_eq {
9140 CommentDef::WithEq(comment)
9141 } else {
9142 CommentDef::WithoutEq(comment)
9143 })
9144 } else {
9145 None
9146 };
9147 Ok(comment)
9148 }
9149
9150 pub fn parse_comment_value(&mut self) -> Result<String, ParserError> {
9152 let next_token = self.next_token();
9153 let value = match next_token.token {
9154 Token::SingleQuotedString(str) => str,
9155 Token::DollarQuotedString(str) => str.value,
9156 _ => self.expected("string literal", next_token)?,
9157 };
9158 Ok(value)
9159 }
9160
9161 pub fn parse_optional_procedure_parameters(
9163 &mut self,
9164 ) -> Result<Option<Vec<ProcedureParam>>, ParserError> {
9165 let mut params = vec![];
9166 if !self.consume_token(&Token::LParen) || self.consume_token(&Token::RParen) {
9167 return Ok(Some(params));
9168 }
9169 loop {
9170 if let Token::Word(_) = &self.peek_token_ref().token {
9171 params.push(self.parse_procedure_param()?)
9172 }
9173 let comma = self.consume_token(&Token::Comma);
9174 if self.consume_token(&Token::RParen) {
9175 break;
9177 } else if !comma {
9178 return self.expected_ref(
9179 "',' or ')' after parameter definition",
9180 self.peek_token_ref(),
9181 );
9182 }
9183 }
9184 Ok(Some(params))
9185 }
9186
9187 pub fn parse_columns(&mut self) -> Result<(Vec<ColumnDef>, Vec<TableConstraint>), ParserError> {
9189 let mut columns = vec![];
9190 let mut constraints = vec![];
9191 if !self.consume_token(&Token::LParen) || self.consume_token(&Token::RParen) {
9192 return Ok((columns, constraints));
9193 }
9194
9195 loop {
9196 if let Some(constraint) = self.parse_optional_table_constraint()? {
9197 constraints.push(constraint);
9198 } else if let Token::Word(_) = &self.peek_token_ref().token {
9199 columns.push(self.parse_column_def()?);
9200 } else {
9201 return self.expected_ref(
9202 "column name or constraint definition",
9203 self.peek_token_ref(),
9204 );
9205 }
9206
9207 let comma = self.consume_token(&Token::Comma);
9208 let rparen = self.peek_token_ref().token == Token::RParen;
9209
9210 if !comma && !rparen {
9211 return self
9212 .expected_ref("',' or ')' after column definition", self.peek_token_ref());
9213 };
9214
9215 if rparen
9216 && (!comma
9217 || self.dialect.supports_column_definition_trailing_commas()
9218 || self.options.trailing_commas)
9219 {
9220 let _ = self.consume_token(&Token::RParen);
9221 break;
9222 }
9223 }
9224
9225 Ok((columns, constraints))
9226 }
9227
9228 pub fn parse_procedure_param(&mut self) -> Result<ProcedureParam, ParserError> {
9230 let mode = if self.parse_keyword(Keyword::IN) {
9231 Some(ArgMode::In)
9232 } else if self.parse_keyword(Keyword::OUT) {
9233 Some(ArgMode::Out)
9234 } else if self.parse_keyword(Keyword::INOUT) {
9235 Some(ArgMode::InOut)
9236 } else {
9237 None
9238 };
9239 let name = self.parse_identifier()?;
9240 let data_type = self.parse_data_type()?;
9241 let default = if self.consume_token(&Token::Eq) {
9242 Some(self.parse_expr()?)
9243 } else {
9244 None
9245 };
9246
9247 Ok(ProcedureParam {
9248 name,
9249 data_type,
9250 mode,
9251 default,
9252 })
9253 }
9254
9255 pub fn parse_column_def(&mut self) -> Result<ColumnDef, ParserError> {
9257 self.parse_column_def_inner(false)
9258 }
9259
9260 fn parse_column_def_inner(
9261 &mut self,
9262 optional_data_type: bool,
9263 ) -> Result<ColumnDef, ParserError> {
9264 let col_name = self.parse_identifier()?;
9265 let data_type = if self.is_column_type_sqlite_unspecified() {
9266 DataType::Unspecified
9267 } else if optional_data_type {
9268 self.maybe_parse(|parser| parser.parse_data_type())?
9269 .unwrap_or(DataType::Unspecified)
9270 } else {
9271 self.parse_data_type()?
9272 };
9273 let mut options = vec![];
9274 loop {
9275 if self.parse_keyword(Keyword::CONSTRAINT) {
9276 let name = Some(self.parse_identifier()?);
9277 if let Some(option) = self.parse_optional_column_option()? {
9278 options.push(ColumnOptionDef { name, option });
9279 } else {
9280 return self.expected_ref(
9281 "constraint details after CONSTRAINT <name>",
9282 self.peek_token_ref(),
9283 );
9284 }
9285 } else if let Some(option) = self.parse_optional_column_option()? {
9286 options.push(ColumnOptionDef { name: None, option });
9287 } else {
9288 break;
9289 };
9290 }
9291 Ok(ColumnDef {
9292 name: col_name,
9293 data_type,
9294 options,
9295 })
9296 }
9297
9298 fn is_column_type_sqlite_unspecified(&mut self) -> bool {
9299 if dialect_of!(self is SQLiteDialect) {
9300 match &self.peek_token_ref().token {
9301 Token::Word(word) => matches!(
9302 word.keyword,
9303 Keyword::CONSTRAINT
9304 | Keyword::PRIMARY
9305 | Keyword::NOT
9306 | Keyword::UNIQUE
9307 | Keyword::CHECK
9308 | Keyword::DEFAULT
9309 | Keyword::COLLATE
9310 | Keyword::REFERENCES
9311 | Keyword::GENERATED
9312 | Keyword::AS
9313 ),
9314 _ => true, }
9316 } else {
9317 false
9318 }
9319 }
9320
9321 pub fn parse_optional_column_option(&mut self) -> Result<Option<ColumnOption>, ParserError> {
9323 if let Some(option) = self.dialect.parse_column_option(self)? {
9324 return option;
9325 }
9326
9327 self.with_state(
9328 ColumnDefinition,
9329 |parser| -> Result<Option<ColumnOption>, ParserError> {
9330 parser.parse_optional_column_option_inner()
9331 },
9332 )
9333 }
9334
9335 fn parse_optional_column_option_inner(&mut self) -> Result<Option<ColumnOption>, ParserError> {
9336 if self.parse_keywords(&[Keyword::CHARACTER, Keyword::SET]) {
9337 Ok(Some(ColumnOption::CharacterSet(
9338 self.parse_object_name(false)?,
9339 )))
9340 } else if self.parse_keywords(&[Keyword::COLLATE]) {
9341 Ok(Some(ColumnOption::Collation(
9342 self.parse_object_name(false)?,
9343 )))
9344 } else if self.parse_keywords(&[Keyword::NOT, Keyword::NULL]) {
9345 Ok(Some(ColumnOption::NotNull))
9346 } else if self.parse_keywords(&[Keyword::COMMENT]) {
9347 Ok(Some(ColumnOption::Comment(self.parse_comment_value()?)))
9348 } else if self.parse_keyword(Keyword::NULL) {
9349 Ok(Some(ColumnOption::Null))
9350 } else if self.parse_keyword(Keyword::DEFAULT) {
9351 Ok(Some(ColumnOption::Default(self.parse_expr()?)))
9352 } else if dialect_of!(self is ClickHouseDialect| GenericDialect)
9353 && self.parse_keyword(Keyword::MATERIALIZED)
9354 {
9355 Ok(Some(ColumnOption::Materialized(self.parse_expr()?)))
9356 } else if dialect_of!(self is ClickHouseDialect| GenericDialect)
9357 && self.parse_keyword(Keyword::ALIAS)
9358 {
9359 Ok(Some(ColumnOption::Alias(self.parse_expr()?)))
9360 } else if dialect_of!(self is ClickHouseDialect| GenericDialect)
9361 && self.parse_keyword(Keyword::EPHEMERAL)
9362 {
9363 if matches!(self.peek_token_ref().token, Token::Comma | Token::RParen) {
9366 Ok(Some(ColumnOption::Ephemeral(None)))
9367 } else {
9368 Ok(Some(ColumnOption::Ephemeral(Some(self.parse_expr()?))))
9369 }
9370 } else if self.parse_keywords(&[Keyword::PRIMARY, Keyword::KEY]) {
9371 let characteristics = self.parse_constraint_characteristics()?;
9372 Ok(Some(
9373 PrimaryKeyConstraint {
9374 name: None,
9375 index_name: None,
9376 index_type: None,
9377 columns: vec![],
9378 index_options: vec![],
9379 characteristics,
9380 }
9381 .into(),
9382 ))
9383 } else if self.parse_keyword(Keyword::UNIQUE) {
9384 let index_type_display =
9385 if self.dialect.supports_key_column_option() && self.parse_keyword(Keyword::KEY) {
9386 KeyOrIndexDisplay::Key
9387 } else {
9388 KeyOrIndexDisplay::None
9389 };
9390 let characteristics = self.parse_constraint_characteristics()?;
9391 Ok(Some(
9392 UniqueConstraint {
9393 name: None,
9394 index_name: None,
9395 index_type_display,
9396 index_type: None,
9397 columns: vec![],
9398 index_options: vec![],
9399 characteristics,
9400 nulls_distinct: NullsDistinctOption::None,
9401 }
9402 .into(),
9403 ))
9404 } else if self.dialect.supports_key_column_option() && self.parse_keyword(Keyword::KEY) {
9405 let characteristics = self.parse_constraint_characteristics()?;
9408 Ok(Some(
9409 PrimaryKeyConstraint {
9410 name: None,
9411 index_name: None,
9412 index_type: None,
9413 columns: vec![],
9414 index_options: vec![],
9415 characteristics,
9416 }
9417 .into(),
9418 ))
9419 } else if self.parse_keyword(Keyword::REFERENCES) {
9420 let foreign_table = self.parse_object_name(false)?;
9421 let referred_columns = self.parse_parenthesized_column_list(Optional, false)?;
9424 let mut match_kind = None;
9425 let mut on_delete = None;
9426 let mut on_update = None;
9427 loop {
9428 if match_kind.is_none() && self.parse_keyword(Keyword::MATCH) {
9429 match_kind = Some(self.parse_match_kind()?);
9430 } else if on_delete.is_none()
9431 && self.parse_keywords(&[Keyword::ON, Keyword::DELETE])
9432 {
9433 on_delete = Some(self.parse_referential_action()?);
9434 } else if on_update.is_none()
9435 && self.parse_keywords(&[Keyword::ON, Keyword::UPDATE])
9436 {
9437 on_update = Some(self.parse_referential_action()?);
9438 } else {
9439 break;
9440 }
9441 }
9442 let characteristics = self.parse_constraint_characteristics()?;
9443
9444 Ok(Some(
9445 ForeignKeyConstraint {
9446 name: None, index_name: None, columns: vec![], foreign_table,
9450 referred_columns,
9451 on_delete,
9452 on_update,
9453 match_kind,
9454 characteristics,
9455 }
9456 .into(),
9457 ))
9458 } else if self.parse_keyword(Keyword::CHECK) {
9459 self.expect_token(&Token::LParen)?;
9460 let expr: Expr = self.with_state(ParserState::Normal, |p| p.parse_expr())?;
9462 self.expect_token(&Token::RParen)?;
9463
9464 let enforced = if self.parse_keyword(Keyword::ENFORCED) {
9465 Some(true)
9466 } else if self.parse_keywords(&[Keyword::NOT, Keyword::ENFORCED]) {
9467 Some(false)
9468 } else {
9469 None
9470 };
9471
9472 Ok(Some(
9473 CheckConstraint {
9474 name: None, expr: Box::new(expr),
9476 enforced,
9477 }
9478 .into(),
9479 ))
9480 } else if self.parse_keyword(Keyword::AUTO_INCREMENT)
9481 && dialect_of!(self is MySqlDialect | GenericDialect)
9482 {
9483 Ok(Some(ColumnOption::DialectSpecific(vec![
9485 Token::make_keyword("AUTO_INCREMENT"),
9486 ])))
9487 } else if self.parse_keyword(Keyword::AUTOINCREMENT)
9488 && dialect_of!(self is SQLiteDialect | GenericDialect)
9489 {
9490 Ok(Some(ColumnOption::DialectSpecific(vec![
9492 Token::make_keyword("AUTOINCREMENT"),
9493 ])))
9494 } else if self.parse_keyword(Keyword::ASC)
9495 && self.dialect.supports_asc_desc_in_column_definition()
9496 {
9497 Ok(Some(ColumnOption::DialectSpecific(vec![
9499 Token::make_keyword("ASC"),
9500 ])))
9501 } else if self.parse_keyword(Keyword::DESC)
9502 && self.dialect.supports_asc_desc_in_column_definition()
9503 {
9504 Ok(Some(ColumnOption::DialectSpecific(vec![
9506 Token::make_keyword("DESC"),
9507 ])))
9508 } else if self.parse_keywords(&[Keyword::ON, Keyword::UPDATE])
9509 && dialect_of!(self is MySqlDialect | GenericDialect)
9510 {
9511 let expr = self.parse_expr()?;
9512 Ok(Some(ColumnOption::OnUpdate(expr)))
9513 } else if self.parse_keyword(Keyword::GENERATED) {
9514 self.parse_optional_column_option_generated()
9515 } else if dialect_of!(self is BigQueryDialect | GenericDialect)
9516 && self.parse_keyword(Keyword::OPTIONS)
9517 {
9518 self.prev_token();
9519 Ok(Some(ColumnOption::Options(
9520 self.parse_options(Keyword::OPTIONS)?,
9521 )))
9522 } else if self.parse_keyword(Keyword::AS)
9523 && dialect_of!(self is MySqlDialect | SQLiteDialect | DuckDbDialect | GenericDialect)
9524 {
9525 self.parse_optional_column_option_as()
9526 } else if self.parse_keyword(Keyword::SRID)
9527 && dialect_of!(self is MySqlDialect | GenericDialect)
9528 {
9529 Ok(Some(ColumnOption::Srid(Box::new(self.parse_expr()?))))
9530 } else if self.parse_keyword(Keyword::IDENTITY)
9531 && dialect_of!(self is MsSqlDialect | GenericDialect)
9532 {
9533 let parameters = if self.consume_token(&Token::LParen) {
9534 let seed = self.parse_number()?;
9535 self.expect_token(&Token::Comma)?;
9536 let increment = self.parse_number()?;
9537 self.expect_token(&Token::RParen)?;
9538
9539 Some(IdentityPropertyFormatKind::FunctionCall(
9540 IdentityParameters { seed, increment },
9541 ))
9542 } else {
9543 None
9544 };
9545 Ok(Some(ColumnOption::Identity(
9546 IdentityPropertyKind::Identity(IdentityProperty {
9547 parameters,
9548 order: None,
9549 }),
9550 )))
9551 } else if dialect_of!(self is SQLiteDialect | GenericDialect)
9552 && self.parse_keywords(&[Keyword::ON, Keyword::CONFLICT])
9553 {
9554 Ok(Some(ColumnOption::OnConflict(
9556 self.expect_one_of_keywords(&[
9557 Keyword::ROLLBACK,
9558 Keyword::ABORT,
9559 Keyword::FAIL,
9560 Keyword::IGNORE,
9561 Keyword::REPLACE,
9562 ])?,
9563 )))
9564 } else if self.parse_keyword(Keyword::INVISIBLE) {
9565 Ok(Some(ColumnOption::Invisible))
9566 } else {
9567 Ok(None)
9568 }
9569 }
9570
9571 pub(crate) fn parse_tag(&mut self) -> Result<Tag, ParserError> {
9572 let name = self.parse_object_name(false)?;
9573 self.expect_token(&Token::Eq)?;
9574 let value = self.parse_literal_string()?;
9575
9576 Ok(Tag::new(name, value))
9577 }
9578
9579 fn parse_optional_column_option_generated(
9580 &mut self,
9581 ) -> Result<Option<ColumnOption>, ParserError> {
9582 if self.parse_keywords(&[Keyword::ALWAYS, Keyword::AS, Keyword::IDENTITY]) {
9583 let mut sequence_options = vec![];
9584 if self.expect_token(&Token::LParen).is_ok() {
9585 sequence_options = self.parse_create_sequence_options()?;
9586 self.expect_token(&Token::RParen)?;
9587 }
9588 Ok(Some(ColumnOption::Generated {
9589 generated_as: GeneratedAs::Always,
9590 sequence_options: Some(sequence_options),
9591 generation_expr: None,
9592 generation_expr_mode: None,
9593 generated_keyword: true,
9594 }))
9595 } else if self.parse_keywords(&[
9596 Keyword::BY,
9597 Keyword::DEFAULT,
9598 Keyword::AS,
9599 Keyword::IDENTITY,
9600 ]) {
9601 let mut sequence_options = vec![];
9602 if self.expect_token(&Token::LParen).is_ok() {
9603 sequence_options = self.parse_create_sequence_options()?;
9604 self.expect_token(&Token::RParen)?;
9605 }
9606 Ok(Some(ColumnOption::Generated {
9607 generated_as: GeneratedAs::ByDefault,
9608 sequence_options: Some(sequence_options),
9609 generation_expr: None,
9610 generation_expr_mode: None,
9611 generated_keyword: true,
9612 }))
9613 } else if self.parse_keywords(&[Keyword::ALWAYS, Keyword::AS]) {
9614 if self.expect_token(&Token::LParen).is_ok() {
9615 let expr: Expr = self.with_state(ParserState::Normal, |p| p.parse_expr())?;
9616 self.expect_token(&Token::RParen)?;
9617 let (gen_as, expr_mode) = if self.parse_keywords(&[Keyword::STORED]) {
9618 Ok((
9619 GeneratedAs::ExpStored,
9620 Some(GeneratedExpressionMode::Stored),
9621 ))
9622 } else if dialect_of!(self is PostgreSqlDialect) {
9623 self.expected_ref("STORED", self.peek_token_ref())
9625 } else if self.parse_keywords(&[Keyword::VIRTUAL]) {
9626 Ok((GeneratedAs::Always, Some(GeneratedExpressionMode::Virtual)))
9627 } else {
9628 Ok((GeneratedAs::Always, None))
9629 }?;
9630
9631 Ok(Some(ColumnOption::Generated {
9632 generated_as: gen_as,
9633 sequence_options: None,
9634 generation_expr: Some(expr),
9635 generation_expr_mode: expr_mode,
9636 generated_keyword: true,
9637 }))
9638 } else {
9639 Ok(None)
9640 }
9641 } else {
9642 Ok(None)
9643 }
9644 }
9645
9646 fn parse_optional_column_option_as(&mut self) -> Result<Option<ColumnOption>, ParserError> {
9647 self.expect_token(&Token::LParen)?;
9649 let expr = self.parse_expr()?;
9650 self.expect_token(&Token::RParen)?;
9651
9652 let (gen_as, expr_mode) = if self.parse_keywords(&[Keyword::STORED]) {
9653 (
9654 GeneratedAs::ExpStored,
9655 Some(GeneratedExpressionMode::Stored),
9656 )
9657 } else if self.parse_keywords(&[Keyword::VIRTUAL]) {
9658 (GeneratedAs::Always, Some(GeneratedExpressionMode::Virtual))
9659 } else {
9660 (GeneratedAs::Always, None)
9661 };
9662
9663 Ok(Some(ColumnOption::Generated {
9664 generated_as: gen_as,
9665 sequence_options: None,
9666 generation_expr: Some(expr),
9667 generation_expr_mode: expr_mode,
9668 generated_keyword: false,
9669 }))
9670 }
9671
9672 pub fn parse_optional_clustered_by(&mut self) -> Result<Option<ClusteredBy>, ParserError> {
9674 let clustered_by = if dialect_of!(self is HiveDialect|GenericDialect)
9675 && self.parse_keywords(&[Keyword::CLUSTERED, Keyword::BY])
9676 {
9677 let columns = self.parse_parenthesized_column_list(Mandatory, false)?;
9678
9679 let sorted_by = if self.parse_keywords(&[Keyword::SORTED, Keyword::BY]) {
9680 self.expect_token(&Token::LParen)?;
9681 let sorted_by_columns = self.parse_comma_separated(|p| p.parse_order_by_expr())?;
9682 self.expect_token(&Token::RParen)?;
9683 Some(sorted_by_columns)
9684 } else {
9685 None
9686 };
9687
9688 self.expect_keyword_is(Keyword::INTO)?;
9689 let num_buckets = self.parse_number_value()?.value;
9690 self.expect_keyword_is(Keyword::BUCKETS)?;
9691 Some(ClusteredBy {
9692 columns,
9693 sorted_by,
9694 num_buckets,
9695 })
9696 } else {
9697 None
9698 };
9699 Ok(clustered_by)
9700 }
9701
9702 pub fn parse_referential_action(&mut self) -> Result<ReferentialAction, ParserError> {
9706 if self.parse_keyword(Keyword::RESTRICT) {
9707 Ok(ReferentialAction::Restrict)
9708 } else if self.parse_keyword(Keyword::CASCADE) {
9709 Ok(ReferentialAction::Cascade)
9710 } else if self.parse_keywords(&[Keyword::SET, Keyword::NULL]) {
9711 Ok(ReferentialAction::SetNull)
9712 } else if self.parse_keywords(&[Keyword::NO, Keyword::ACTION]) {
9713 Ok(ReferentialAction::NoAction)
9714 } else if self.parse_keywords(&[Keyword::SET, Keyword::DEFAULT]) {
9715 Ok(ReferentialAction::SetDefault)
9716 } else {
9717 self.expected_ref(
9718 "one of RESTRICT, CASCADE, SET NULL, NO ACTION or SET DEFAULT",
9719 self.peek_token_ref(),
9720 )
9721 }
9722 }
9723
9724 pub fn parse_match_kind(&mut self) -> Result<ConstraintReferenceMatchKind, ParserError> {
9726 if self.parse_keyword(Keyword::FULL) {
9727 Ok(ConstraintReferenceMatchKind::Full)
9728 } else if self.parse_keyword(Keyword::PARTIAL) {
9729 Ok(ConstraintReferenceMatchKind::Partial)
9730 } else if self.parse_keyword(Keyword::SIMPLE) {
9731 Ok(ConstraintReferenceMatchKind::Simple)
9732 } else {
9733 self.expected_ref("one of FULL, PARTIAL or SIMPLE", self.peek_token_ref())
9734 }
9735 }
9736
9737 fn parse_constraint_using_index(
9740 &mut self,
9741 name: Option<Ident>,
9742 ) -> Result<ConstraintUsingIndex, ParserError> {
9743 let index_name = self.parse_identifier()?;
9744 let characteristics = self.parse_constraint_characteristics()?;
9745 Ok(ConstraintUsingIndex {
9746 name,
9747 index_name,
9748 characteristics,
9749 })
9750 }
9751
9752 pub fn parse_constraint_characteristics(
9754 &mut self,
9755 ) -> Result<Option<ConstraintCharacteristics>, ParserError> {
9756 let mut cc = ConstraintCharacteristics::default();
9757
9758 loop {
9759 if cc.deferrable.is_none() && self.parse_keywords(&[Keyword::NOT, Keyword::DEFERRABLE])
9760 {
9761 cc.deferrable = Some(false);
9762 } else if cc.deferrable.is_none() && self.parse_keyword(Keyword::DEFERRABLE) {
9763 cc.deferrable = Some(true);
9764 } else if cc.initially.is_none() && self.parse_keyword(Keyword::INITIALLY) {
9765 if self.parse_keyword(Keyword::DEFERRED) {
9766 cc.initially = Some(DeferrableInitial::Deferred);
9767 } else if self.parse_keyword(Keyword::IMMEDIATE) {
9768 cc.initially = Some(DeferrableInitial::Immediate);
9769 } else {
9770 self.expected_ref("one of DEFERRED or IMMEDIATE", self.peek_token_ref())?;
9771 }
9772 } else if cc.enforced.is_none() && self.parse_keyword(Keyword::ENFORCED) {
9773 cc.enforced = Some(true);
9774 } else if cc.enforced.is_none()
9775 && self.parse_keywords(&[Keyword::NOT, Keyword::ENFORCED])
9776 {
9777 cc.enforced = Some(false);
9778 } else {
9779 break;
9780 }
9781 }
9782
9783 if cc.deferrable.is_some() || cc.initially.is_some() || cc.enforced.is_some() {
9784 Ok(Some(cc))
9785 } else {
9786 Ok(None)
9787 }
9788 }
9789
9790 pub fn parse_optional_table_constraint(
9792 &mut self,
9793 ) -> Result<Option<TableConstraint>, ParserError> {
9794 let name = if self.parse_keyword(Keyword::CONSTRAINT) {
9795 if self.dialect.supports_constraint_keyword_without_name()
9796 && self
9797 .peek_one_of_keywords(&[
9798 Keyword::CHECK,
9799 Keyword::PRIMARY,
9800 Keyword::UNIQUE,
9801 Keyword::FOREIGN,
9802 ])
9803 .is_some()
9804 {
9805 None
9806 } else {
9807 Some(self.parse_identifier()?)
9808 }
9809 } else {
9810 None
9811 };
9812
9813 let next_token = self.next_token();
9814 match next_token.token {
9815 Token::Word(w) if w.keyword == Keyword::UNIQUE => {
9816 if self.parse_keywords(&[Keyword::USING, Keyword::INDEX]) {
9819 return Ok(Some(TableConstraint::UniqueUsingIndex(
9820 self.parse_constraint_using_index(name)?,
9821 )));
9822 }
9823
9824 let index_type_display = self.parse_index_type_display();
9825 if !dialect_of!(self is GenericDialect | MySqlDialect)
9826 && !index_type_display.is_none()
9827 {
9828 return self.expected_ref(
9829 "`index_name` or `(column_name [, ...])`",
9830 self.peek_token_ref(),
9831 );
9832 }
9833
9834 let nulls_distinct = self.parse_optional_nulls_distinct()?;
9835
9836 let index_name = self.parse_optional_ident()?;
9838 let index_type = self.parse_optional_using_then_index_type()?;
9839
9840 let columns = self.parse_parenthesized_index_column_list()?;
9841 let index_options = self.parse_index_options()?;
9842 let characteristics = self.parse_constraint_characteristics()?;
9843 Ok(Some(
9844 UniqueConstraint {
9845 name,
9846 index_name,
9847 index_type_display,
9848 index_type,
9849 columns,
9850 index_options,
9851 characteristics,
9852 nulls_distinct,
9853 }
9854 .into(),
9855 ))
9856 }
9857 Token::Word(w) if w.keyword == Keyword::PRIMARY => {
9858 self.expect_keyword_is(Keyword::KEY)?;
9860
9861 if self.parse_keywords(&[Keyword::USING, Keyword::INDEX]) {
9864 return Ok(Some(TableConstraint::PrimaryKeyUsingIndex(
9865 self.parse_constraint_using_index(name)?,
9866 )));
9867 }
9868
9869 let index_name = self.parse_optional_ident()?;
9871 let index_type = self.parse_optional_using_then_index_type()?;
9872
9873 let columns = self.parse_parenthesized_index_column_list()?;
9874 let index_options = self.parse_index_options()?;
9875 let characteristics = self.parse_constraint_characteristics()?;
9876 Ok(Some(
9877 PrimaryKeyConstraint {
9878 name,
9879 index_name,
9880 index_type,
9881 columns,
9882 index_options,
9883 characteristics,
9884 }
9885 .into(),
9886 ))
9887 }
9888 Token::Word(w) if w.keyword == Keyword::FOREIGN => {
9889 self.expect_keyword_is(Keyword::KEY)?;
9890 let index_name = self.parse_optional_ident()?;
9891 let columns = self.parse_parenthesized_column_list(Mandatory, false)?;
9892 self.expect_keyword_is(Keyword::REFERENCES)?;
9893 let foreign_table = self.parse_object_name(false)?;
9894 let referred_columns = self.parse_parenthesized_column_list(Optional, false)?;
9895 let mut match_kind = None;
9896 let mut on_delete = None;
9897 let mut on_update = None;
9898 loop {
9899 if match_kind.is_none() && self.parse_keyword(Keyword::MATCH) {
9900 match_kind = Some(self.parse_match_kind()?);
9901 } else if on_delete.is_none()
9902 && self.parse_keywords(&[Keyword::ON, Keyword::DELETE])
9903 {
9904 on_delete = Some(self.parse_referential_action()?);
9905 } else if on_update.is_none()
9906 && self.parse_keywords(&[Keyword::ON, Keyword::UPDATE])
9907 {
9908 on_update = Some(self.parse_referential_action()?);
9909 } else {
9910 break;
9911 }
9912 }
9913
9914 let characteristics = self.parse_constraint_characteristics()?;
9915
9916 Ok(Some(
9917 ForeignKeyConstraint {
9918 name,
9919 index_name,
9920 columns,
9921 foreign_table,
9922 referred_columns,
9923 on_delete,
9924 on_update,
9925 match_kind,
9926 characteristics,
9927 }
9928 .into(),
9929 ))
9930 }
9931 Token::Word(w) if w.keyword == Keyword::CHECK => {
9932 self.expect_token(&Token::LParen)?;
9933 let expr = Box::new(self.parse_expr()?);
9934 self.expect_token(&Token::RParen)?;
9935
9936 let enforced = if self.parse_keyword(Keyword::ENFORCED) {
9937 Some(true)
9938 } else if self.parse_keywords(&[Keyword::NOT, Keyword::ENFORCED]) {
9939 Some(false)
9940 } else {
9941 None
9942 };
9943
9944 Ok(Some(
9945 CheckConstraint {
9946 name,
9947 expr,
9948 enforced,
9949 }
9950 .into(),
9951 ))
9952 }
9953 Token::Word(w)
9954 if (w.keyword == Keyword::INDEX || w.keyword == Keyword::KEY)
9955 && dialect_of!(self is GenericDialect | MySqlDialect)
9956 && name.is_none() =>
9957 {
9958 let display_as_key = w.keyword == Keyword::KEY;
9959
9960 let name = match &self.peek_token_ref().token {
9961 Token::Word(word) if word.keyword == Keyword::USING => None,
9962 _ => self.parse_optional_ident()?,
9963 };
9964
9965 let index_type = self.parse_optional_using_then_index_type()?;
9966 let columns = self.parse_parenthesized_index_column_list()?;
9967 let index_options = self.parse_index_options()?;
9968
9969 Ok(Some(
9970 IndexConstraint {
9971 display_as_key,
9972 name,
9973 index_type,
9974 columns,
9975 index_options,
9976 }
9977 .into(),
9978 ))
9979 }
9980 Token::Word(w)
9981 if (w.keyword == Keyword::FULLTEXT || w.keyword == Keyword::SPATIAL)
9982 && dialect_of!(self is GenericDialect | MySqlDialect) =>
9983 {
9984 if let Some(name) = name {
9985 return self.expected(
9986 "FULLTEXT or SPATIAL option without constraint name",
9987 TokenWithSpan {
9988 token: Token::make_keyword(&name.to_string()),
9989 span: next_token.span,
9990 },
9991 );
9992 }
9993
9994 let fulltext = w.keyword == Keyword::FULLTEXT;
9995
9996 let index_type_display = self.parse_index_type_display();
9997
9998 let opt_index_name = self.parse_optional_ident()?;
9999
10000 let columns = self.parse_parenthesized_index_column_list()?;
10001
10002 Ok(Some(
10003 FullTextOrSpatialConstraint {
10004 fulltext,
10005 index_type_display,
10006 opt_index_name,
10007 columns,
10008 }
10009 .into(),
10010 ))
10011 }
10012 _ => {
10013 if name.is_some() {
10014 self.expected("PRIMARY, UNIQUE, FOREIGN, or CHECK", next_token)
10015 } else {
10016 self.prev_token();
10017 Ok(None)
10018 }
10019 }
10020 }
10021 }
10022
10023 fn parse_optional_nulls_distinct(&mut self) -> Result<NullsDistinctOption, ParserError> {
10024 Ok(if self.parse_keyword(Keyword::NULLS) {
10025 let not = self.parse_keyword(Keyword::NOT);
10026 self.expect_keyword_is(Keyword::DISTINCT)?;
10027 if not {
10028 NullsDistinctOption::NotDistinct
10029 } else {
10030 NullsDistinctOption::Distinct
10031 }
10032 } else {
10033 NullsDistinctOption::None
10034 })
10035 }
10036
10037 pub fn maybe_parse_options(
10039 &mut self,
10040 keyword: Keyword,
10041 ) -> Result<Option<Vec<SqlOption>>, ParserError> {
10042 if let Token::Word(word) = &self.peek_token_ref().token {
10043 if word.keyword == keyword {
10044 return Ok(Some(self.parse_options(keyword)?));
10045 }
10046 };
10047 Ok(None)
10048 }
10049
10050 pub fn parse_options(&mut self, keyword: Keyword) -> Result<Vec<SqlOption>, ParserError> {
10052 if self.parse_keyword(keyword) {
10053 self.expect_token(&Token::LParen)?;
10054 let options = self.parse_comma_separated0(Parser::parse_sql_option, Token::RParen)?;
10055 self.expect_token(&Token::RParen)?;
10056 Ok(options)
10057 } else {
10058 Ok(vec![])
10059 }
10060 }
10061
10062 pub fn parse_options_with_keywords(
10064 &mut self,
10065 keywords: &[Keyword],
10066 ) -> Result<Vec<SqlOption>, ParserError> {
10067 if self.parse_keywords(keywords) {
10068 self.expect_token(&Token::LParen)?;
10069 let options = self.parse_comma_separated(Parser::parse_sql_option)?;
10070 self.expect_token(&Token::RParen)?;
10071 Ok(options)
10072 } else {
10073 Ok(vec![])
10074 }
10075 }
10076
10077 pub fn parse_index_type(&mut self) -> Result<IndexType, ParserError> {
10079 Ok(if self.parse_keyword(Keyword::BTREE) {
10080 IndexType::BTree
10081 } else if self.parse_keyword(Keyword::HASH) {
10082 IndexType::Hash
10083 } else if self.parse_keyword(Keyword::GIN) {
10084 IndexType::GIN
10085 } else if self.parse_keyword(Keyword::GIST) {
10086 IndexType::GiST
10087 } else if self.parse_keyword(Keyword::SPGIST) {
10088 IndexType::SPGiST
10089 } else if self.parse_keyword(Keyword::BRIN) {
10090 IndexType::BRIN
10091 } else if self.parse_keyword(Keyword::BLOOM) {
10092 IndexType::Bloom
10093 } else {
10094 IndexType::Custom(self.parse_identifier()?)
10095 })
10096 }
10097
10098 pub fn parse_optional_using_then_index_type(
10105 &mut self,
10106 ) -> Result<Option<IndexType>, ParserError> {
10107 if self.parse_keyword(Keyword::USING) {
10108 Ok(Some(self.parse_index_type()?))
10109 } else {
10110 Ok(None)
10111 }
10112 }
10113
10114 pub fn parse_optional_ident(&mut self) -> Result<Option<Ident>, ParserError> {
10118 self.maybe_parse(|parser| parser.parse_identifier())
10119 }
10120
10121 #[must_use]
10122 pub fn parse_index_type_display(&mut self) -> KeyOrIndexDisplay {
10124 if self.parse_keyword(Keyword::KEY) {
10125 KeyOrIndexDisplay::Key
10126 } else if self.parse_keyword(Keyword::INDEX) {
10127 KeyOrIndexDisplay::Index
10128 } else {
10129 KeyOrIndexDisplay::None
10130 }
10131 }
10132
10133 pub fn parse_optional_index_option(&mut self) -> Result<Option<IndexOption>, ParserError> {
10135 if let Some(index_type) = self.parse_optional_using_then_index_type()? {
10136 Ok(Some(IndexOption::Using(index_type)))
10137 } else if self.parse_keyword(Keyword::COMMENT) {
10138 let s = self.parse_literal_string()?;
10139 Ok(Some(IndexOption::Comment(s)))
10140 } else {
10141 Ok(None)
10142 }
10143 }
10144
10145 pub fn parse_index_options(&mut self) -> Result<Vec<IndexOption>, ParserError> {
10147 let mut options = Vec::new();
10148
10149 loop {
10150 match self.parse_optional_index_option()? {
10151 Some(index_option) => options.push(index_option),
10152 None => return Ok(options),
10153 }
10154 }
10155 }
10156
10157 pub fn parse_sql_option(&mut self) -> Result<SqlOption, ParserError> {
10159 let is_mssql = dialect_of!(self is MsSqlDialect|GenericDialect);
10160
10161 match &self.peek_token_ref().token {
10162 Token::Word(w) if w.keyword == Keyword::HEAP && is_mssql => {
10163 Ok(SqlOption::Ident(self.parse_identifier()?))
10164 }
10165 Token::Word(w) if w.keyword == Keyword::PARTITION && is_mssql => {
10166 self.parse_option_partition()
10167 }
10168 Token::Word(w) if w.keyword == Keyword::CLUSTERED && is_mssql => {
10169 self.parse_option_clustered()
10170 }
10171 _ => {
10172 let name = self.parse_identifier()?;
10173 self.expect_token(&Token::Eq)?;
10174 let value = self.parse_expr()?;
10175
10176 Ok(SqlOption::KeyValue { key: name, value })
10177 }
10178 }
10179 }
10180
10181 pub fn parse_option_clustered(&mut self) -> Result<SqlOption, ParserError> {
10183 if self.parse_keywords(&[
10184 Keyword::CLUSTERED,
10185 Keyword::COLUMNSTORE,
10186 Keyword::INDEX,
10187 Keyword::ORDER,
10188 ]) {
10189 Ok(SqlOption::Clustered(
10190 TableOptionsClustered::ColumnstoreIndexOrder(
10191 self.parse_parenthesized_column_list(IsOptional::Mandatory, false)?,
10192 ),
10193 ))
10194 } else if self.parse_keywords(&[Keyword::CLUSTERED, Keyword::COLUMNSTORE, Keyword::INDEX]) {
10195 Ok(SqlOption::Clustered(
10196 TableOptionsClustered::ColumnstoreIndex,
10197 ))
10198 } else if self.parse_keywords(&[Keyword::CLUSTERED, Keyword::INDEX]) {
10199 self.expect_token(&Token::LParen)?;
10200
10201 let columns = self.parse_comma_separated(|p| {
10202 let name = p.parse_identifier()?;
10203 let asc = p.parse_asc_desc();
10204
10205 Ok(ClusteredIndex { name, asc })
10206 })?;
10207
10208 self.expect_token(&Token::RParen)?;
10209
10210 Ok(SqlOption::Clustered(TableOptionsClustered::Index(columns)))
10211 } else {
10212 Err(ParserError::ParserError(
10213 "invalid CLUSTERED sequence".to_string(),
10214 ))
10215 }
10216 }
10217
10218 pub fn parse_option_partition(&mut self) -> Result<SqlOption, ParserError> {
10220 self.expect_keyword_is(Keyword::PARTITION)?;
10221 self.expect_token(&Token::LParen)?;
10222 let column_name = self.parse_identifier()?;
10223
10224 self.expect_keyword_is(Keyword::RANGE)?;
10225 let range_direction = if self.parse_keyword(Keyword::LEFT) {
10226 Some(PartitionRangeDirection::Left)
10227 } else if self.parse_keyword(Keyword::RIGHT) {
10228 Some(PartitionRangeDirection::Right)
10229 } else {
10230 None
10231 };
10232
10233 self.expect_keywords(&[Keyword::FOR, Keyword::VALUES])?;
10234 self.expect_token(&Token::LParen)?;
10235
10236 let for_values = self.parse_comma_separated(Parser::parse_expr)?;
10237
10238 self.expect_token(&Token::RParen)?;
10239 self.expect_token(&Token::RParen)?;
10240
10241 Ok(SqlOption::Partition {
10242 column_name,
10243 range_direction,
10244 for_values,
10245 })
10246 }
10247
10248 pub fn parse_partition(&mut self) -> Result<Partition, ParserError> {
10250 self.expect_token(&Token::LParen)?;
10251 let partitions = self.parse_comma_separated(Parser::parse_expr)?;
10252 self.expect_token(&Token::RParen)?;
10253 Ok(Partition::Partitions(partitions))
10254 }
10255
10256 pub fn parse_projection_select(&mut self) -> Result<ProjectionSelect, ParserError> {
10258 self.expect_token(&Token::LParen)?;
10259 self.expect_keyword_is(Keyword::SELECT)?;
10260 let projection = self.parse_projection()?;
10261 let group_by = self.parse_optional_group_by()?;
10262 let order_by = self.parse_optional_order_by()?;
10263 self.expect_token(&Token::RParen)?;
10264 Ok(ProjectionSelect {
10265 projection,
10266 group_by,
10267 order_by,
10268 })
10269 }
10270 pub fn parse_alter_table_add_projection(&mut self) -> Result<AlterTableOperation, ParserError> {
10272 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
10273 let name = self.parse_identifier()?;
10274 let query = self.parse_projection_select()?;
10275 Ok(AlterTableOperation::AddProjection {
10276 if_not_exists,
10277 name,
10278 select: query,
10279 })
10280 }
10281
10282 fn parse_alter_sort_key(&mut self) -> Result<AlterTableOperation, ParserError> {
10286 self.expect_keyword_is(Keyword::ALTER)?;
10287 self.expect_keyword_is(Keyword::SORTKEY)?;
10288 self.expect_token(&Token::LParen)?;
10289 let columns = self.parse_comma_separated(|p| p.parse_expr())?;
10290 self.expect_token(&Token::RParen)?;
10291 Ok(AlterTableOperation::AlterSortKey { columns })
10292 }
10293
10294 pub fn parse_alter_table_operation(&mut self) -> Result<AlterTableOperation, ParserError> {
10296 let operation = if self.parse_keyword(Keyword::ADD) {
10297 if let Some(constraint) = self.parse_optional_table_constraint()? {
10298 let not_valid = self.parse_keywords(&[Keyword::NOT, Keyword::VALID]);
10299 AlterTableOperation::AddConstraint {
10300 constraint,
10301 not_valid,
10302 }
10303 } else if dialect_of!(self is ClickHouseDialect|GenericDialect)
10304 && self.parse_keyword(Keyword::PROJECTION)
10305 {
10306 return self.parse_alter_table_add_projection();
10307 } else {
10308 let if_not_exists =
10309 self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
10310 let mut new_partitions = vec![];
10311 loop {
10312 if self.parse_keyword(Keyword::PARTITION) {
10313 new_partitions.push(self.parse_partition()?);
10314 } else {
10315 break;
10316 }
10317 }
10318 if !new_partitions.is_empty() {
10319 AlterTableOperation::AddPartitions {
10320 if_not_exists,
10321 new_partitions,
10322 }
10323 } else {
10324 let column_keyword = self.parse_keyword(Keyword::COLUMN);
10325
10326 let if_not_exists = if dialect_of!(self is PostgreSqlDialect | BigQueryDialect | DuckDbDialect | GenericDialect)
10327 {
10328 self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS])
10329 || if_not_exists
10330 } else {
10331 false
10332 };
10333
10334 let column_def = self.parse_column_def()?;
10335
10336 let column_position = self.parse_column_position()?;
10337
10338 AlterTableOperation::AddColumn {
10339 column_keyword,
10340 if_not_exists,
10341 column_def,
10342 column_position,
10343 }
10344 }
10345 }
10346 } else if self.parse_keyword(Keyword::RENAME) {
10347 if dialect_of!(self is PostgreSqlDialect) && self.parse_keyword(Keyword::CONSTRAINT) {
10348 let old_name = self.parse_identifier()?;
10349 self.expect_keyword_is(Keyword::TO)?;
10350 let new_name = self.parse_identifier()?;
10351 AlterTableOperation::RenameConstraint { old_name, new_name }
10352 } else if self.parse_keyword(Keyword::TO) {
10353 let table_name = self.parse_object_name(false)?;
10354 AlterTableOperation::RenameTable {
10355 table_name: RenameTableNameKind::To(table_name),
10356 }
10357 } else if self.parse_keyword(Keyword::AS) {
10358 let table_name = self.parse_object_name(false)?;
10359 AlterTableOperation::RenameTable {
10360 table_name: RenameTableNameKind::As(table_name),
10361 }
10362 } else {
10363 let _ = self.parse_keyword(Keyword::COLUMN); let old_column_name = self.parse_identifier()?;
10365 self.expect_keyword_is(Keyword::TO)?;
10366 let new_column_name = self.parse_identifier()?;
10367 AlterTableOperation::RenameColumn {
10368 old_column_name,
10369 new_column_name,
10370 }
10371 }
10372 } else if self.parse_keyword(Keyword::DISABLE) {
10373 if self.parse_keywords(&[Keyword::ROW, Keyword::LEVEL, Keyword::SECURITY]) {
10374 AlterTableOperation::DisableRowLevelSecurity {}
10375 } else if self.parse_keyword(Keyword::RULE) {
10376 let name = self.parse_identifier()?;
10377 AlterTableOperation::DisableRule { name }
10378 } else if self.parse_keyword(Keyword::TRIGGER) {
10379 let name = self.parse_identifier()?;
10380 AlterTableOperation::DisableTrigger { name }
10381 } else {
10382 return self.expected_ref(
10383 "ROW LEVEL SECURITY, RULE, or TRIGGER after DISABLE",
10384 self.peek_token_ref(),
10385 );
10386 }
10387 } else if self.parse_keyword(Keyword::ENABLE) {
10388 if self.parse_keywords(&[Keyword::ALWAYS, Keyword::RULE]) {
10389 let name = self.parse_identifier()?;
10390 AlterTableOperation::EnableAlwaysRule { name }
10391 } else if self.parse_keywords(&[Keyword::ALWAYS, Keyword::TRIGGER]) {
10392 let name = self.parse_identifier()?;
10393 AlterTableOperation::EnableAlwaysTrigger { name }
10394 } else if self.parse_keywords(&[Keyword::ROW, Keyword::LEVEL, Keyword::SECURITY]) {
10395 AlterTableOperation::EnableRowLevelSecurity {}
10396 } else if self.parse_keywords(&[Keyword::REPLICA, Keyword::RULE]) {
10397 let name = self.parse_identifier()?;
10398 AlterTableOperation::EnableReplicaRule { name }
10399 } else if self.parse_keywords(&[Keyword::REPLICA, Keyword::TRIGGER]) {
10400 let name = self.parse_identifier()?;
10401 AlterTableOperation::EnableReplicaTrigger { name }
10402 } else if self.parse_keyword(Keyword::RULE) {
10403 let name = self.parse_identifier()?;
10404 AlterTableOperation::EnableRule { name }
10405 } else if self.parse_keyword(Keyword::TRIGGER) {
10406 let name = self.parse_identifier()?;
10407 AlterTableOperation::EnableTrigger { name }
10408 } else {
10409 return self.expected_ref(
10410 "ALWAYS, REPLICA, ROW LEVEL SECURITY, RULE, or TRIGGER after ENABLE",
10411 self.peek_token_ref(),
10412 );
10413 }
10414 } else if self.parse_keywords(&[
10415 Keyword::FORCE,
10416 Keyword::ROW,
10417 Keyword::LEVEL,
10418 Keyword::SECURITY,
10419 ]) {
10420 AlterTableOperation::ForceRowLevelSecurity
10421 } else if self.parse_keywords(&[
10422 Keyword::NO,
10423 Keyword::FORCE,
10424 Keyword::ROW,
10425 Keyword::LEVEL,
10426 Keyword::SECURITY,
10427 ]) {
10428 AlterTableOperation::NoForceRowLevelSecurity
10429 } else if self.parse_keywords(&[Keyword::CLEAR, Keyword::PROJECTION])
10430 && dialect_of!(self is ClickHouseDialect|GenericDialect)
10431 {
10432 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
10433 let name = self.parse_identifier()?;
10434 let partition = if self.parse_keywords(&[Keyword::IN, Keyword::PARTITION]) {
10435 Some(self.parse_identifier()?)
10436 } else {
10437 None
10438 };
10439 AlterTableOperation::ClearProjection {
10440 if_exists,
10441 name,
10442 partition,
10443 }
10444 } else if self.parse_keywords(&[Keyword::MATERIALIZE, Keyword::PROJECTION])
10445 && dialect_of!(self is ClickHouseDialect|GenericDialect)
10446 {
10447 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
10448 let name = self.parse_identifier()?;
10449 let partition = if self.parse_keywords(&[Keyword::IN, Keyword::PARTITION]) {
10450 Some(self.parse_identifier()?)
10451 } else {
10452 None
10453 };
10454 AlterTableOperation::MaterializeProjection {
10455 if_exists,
10456 name,
10457 partition,
10458 }
10459 } else if self.parse_keyword(Keyword::DROP) {
10460 if self.parse_keywords(&[Keyword::IF, Keyword::EXISTS, Keyword::PARTITION]) {
10461 self.expect_token(&Token::LParen)?;
10462 let partitions = self.parse_comma_separated(Parser::parse_expr)?;
10463 self.expect_token(&Token::RParen)?;
10464 AlterTableOperation::DropPartitions {
10465 partitions,
10466 if_exists: true,
10467 }
10468 } else if self.parse_keyword(Keyword::PARTITION) {
10469 self.expect_token(&Token::LParen)?;
10470 let partitions = self.parse_comma_separated(Parser::parse_expr)?;
10471 self.expect_token(&Token::RParen)?;
10472 AlterTableOperation::DropPartitions {
10473 partitions,
10474 if_exists: false,
10475 }
10476 } else if self.parse_keyword(Keyword::CONSTRAINT) {
10477 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
10478 let name = self.parse_identifier()?;
10479 let drop_behavior = self.parse_optional_drop_behavior();
10480 AlterTableOperation::DropConstraint {
10481 if_exists,
10482 name,
10483 drop_behavior,
10484 }
10485 } else if self.parse_keywords(&[Keyword::PRIMARY, Keyword::KEY]) {
10486 let drop_behavior = self.parse_optional_drop_behavior();
10487 AlterTableOperation::DropPrimaryKey { drop_behavior }
10488 } else if self.parse_keywords(&[Keyword::FOREIGN, Keyword::KEY]) {
10489 let name = self.parse_identifier()?;
10490 let drop_behavior = self.parse_optional_drop_behavior();
10491 AlterTableOperation::DropForeignKey {
10492 name,
10493 drop_behavior,
10494 }
10495 } else if self.parse_keyword(Keyword::INDEX) {
10496 let name = self.parse_identifier()?;
10497 AlterTableOperation::DropIndex { name }
10498 } else if self.parse_keyword(Keyword::PROJECTION)
10499 && dialect_of!(self is ClickHouseDialect|GenericDialect)
10500 {
10501 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
10502 let name = self.parse_identifier()?;
10503 AlterTableOperation::DropProjection { if_exists, name }
10504 } else if self.parse_keywords(&[Keyword::CLUSTERING, Keyword::KEY]) {
10505 AlterTableOperation::DropClusteringKey
10506 } else {
10507 let has_column_keyword = self.parse_keyword(Keyword::COLUMN); let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
10509 let column_names = if self.dialect.supports_comma_separated_drop_column_list() {
10510 self.parse_comma_separated(Parser::parse_identifier)?
10511 } else {
10512 vec![self.parse_identifier()?]
10513 };
10514 let drop_behavior = self.parse_optional_drop_behavior();
10515 AlterTableOperation::DropColumn {
10516 has_column_keyword,
10517 column_names,
10518 if_exists,
10519 drop_behavior,
10520 }
10521 }
10522 } else if self.parse_keyword(Keyword::PARTITION) {
10523 self.expect_token(&Token::LParen)?;
10524 let before = self.parse_comma_separated(Parser::parse_expr)?;
10525 self.expect_token(&Token::RParen)?;
10526 self.expect_keyword_is(Keyword::RENAME)?;
10527 self.expect_keywords(&[Keyword::TO, Keyword::PARTITION])?;
10528 self.expect_token(&Token::LParen)?;
10529 let renames = self.parse_comma_separated(Parser::parse_expr)?;
10530 self.expect_token(&Token::RParen)?;
10531 AlterTableOperation::RenamePartitions {
10532 old_partitions: before,
10533 new_partitions: renames,
10534 }
10535 } else if self.parse_keyword(Keyword::CHANGE) {
10536 let _ = self.parse_keyword(Keyword::COLUMN); let old_name = self.parse_identifier()?;
10538 let new_name = self.parse_identifier()?;
10539 let data_type = self.parse_data_type()?;
10540 let mut options = vec![];
10541 while let Some(option) = self.parse_optional_column_option()? {
10542 options.push(option);
10543 }
10544
10545 let column_position = self.parse_column_position()?;
10546
10547 AlterTableOperation::ChangeColumn {
10548 old_name,
10549 new_name,
10550 data_type,
10551 options,
10552 column_position,
10553 }
10554 } else if self.parse_keyword(Keyword::MODIFY) {
10555 let _ = self.parse_keyword(Keyword::COLUMN); let col_name = self.parse_identifier()?;
10557 let data_type = self.parse_data_type()?;
10558 let mut options = vec![];
10559 while let Some(option) = self.parse_optional_column_option()? {
10560 options.push(option);
10561 }
10562
10563 let column_position = self.parse_column_position()?;
10564
10565 AlterTableOperation::ModifyColumn {
10566 col_name,
10567 data_type,
10568 options,
10569 column_position,
10570 }
10571 } else if self.parse_keyword(Keyword::ALTER) {
10572 if self.peek_keyword(Keyword::SORTKEY) {
10573 self.prev_token();
10574 return self.parse_alter_sort_key();
10575 }
10576
10577 let _ = self.parse_keyword(Keyword::COLUMN); let column_name = self.parse_identifier()?;
10579 let is_postgresql = dialect_of!(self is PostgreSqlDialect);
10580
10581 let op: AlterColumnOperation = if self.parse_keywords(&[
10582 Keyword::SET,
10583 Keyword::NOT,
10584 Keyword::NULL,
10585 ]) {
10586 AlterColumnOperation::SetNotNull {}
10587 } else if self.parse_keywords(&[Keyword::DROP, Keyword::NOT, Keyword::NULL]) {
10588 AlterColumnOperation::DropNotNull {}
10589 } else if self.parse_keywords(&[Keyword::SET, Keyword::DEFAULT]) {
10590 AlterColumnOperation::SetDefault {
10591 value: self.parse_expr()?,
10592 }
10593 } else if self.parse_keywords(&[Keyword::DROP, Keyword::DEFAULT]) {
10594 AlterColumnOperation::DropDefault {}
10595 } else if self.parse_keywords(&[Keyword::SET, Keyword::DATA, Keyword::TYPE]) {
10596 self.parse_set_data_type(true)?
10597 } else if self.parse_keyword(Keyword::TYPE) {
10598 self.parse_set_data_type(false)?
10599 } else if self.parse_keywords(&[Keyword::ADD, Keyword::GENERATED]) {
10600 let generated_as = if self.parse_keyword(Keyword::ALWAYS) {
10601 Some(GeneratedAs::Always)
10602 } else if self.parse_keywords(&[Keyword::BY, Keyword::DEFAULT]) {
10603 Some(GeneratedAs::ByDefault)
10604 } else {
10605 None
10606 };
10607
10608 self.expect_keywords(&[Keyword::AS, Keyword::IDENTITY])?;
10609
10610 let mut sequence_options: Option<Vec<SequenceOptions>> = None;
10611
10612 if self.peek_token_ref().token == Token::LParen {
10613 self.expect_token(&Token::LParen)?;
10614 sequence_options = Some(self.parse_create_sequence_options()?);
10615 self.expect_token(&Token::RParen)?;
10616 }
10617
10618 AlterColumnOperation::AddGenerated {
10619 generated_as,
10620 sequence_options,
10621 }
10622 } else {
10623 let message = if is_postgresql {
10624 "SET/DROP NOT NULL, SET DEFAULT, SET DATA TYPE, or ADD GENERATED after ALTER COLUMN"
10625 } else {
10626 "SET/DROP NOT NULL, SET DEFAULT, or SET DATA TYPE after ALTER COLUMN"
10627 };
10628
10629 return self.expected_ref(message, self.peek_token_ref());
10630 };
10631 AlterTableOperation::AlterColumn { column_name, op }
10632 } else if self.parse_keyword(Keyword::SWAP) {
10633 self.expect_keyword_is(Keyword::WITH)?;
10634 let table_name = self.parse_object_name(false)?;
10635 AlterTableOperation::SwapWith { table_name }
10636 } else if dialect_of!(self is PostgreSqlDialect | GenericDialect)
10637 && self.parse_keywords(&[Keyword::OWNER, Keyword::TO])
10638 {
10639 let new_owner = self.parse_owner()?;
10640 AlterTableOperation::OwnerTo { new_owner }
10641 } else if dialect_of!(self is ClickHouseDialect|GenericDialect)
10642 && self.parse_keyword(Keyword::ATTACH)
10643 {
10644 AlterTableOperation::AttachPartition {
10645 partition: self.parse_part_or_partition()?,
10646 }
10647 } else if dialect_of!(self is ClickHouseDialect|GenericDialect)
10648 && self.parse_keyword(Keyword::DETACH)
10649 {
10650 AlterTableOperation::DetachPartition {
10651 partition: self.parse_part_or_partition()?,
10652 }
10653 } else if dialect_of!(self is ClickHouseDialect|GenericDialect)
10654 && self.parse_keyword(Keyword::FREEZE)
10655 {
10656 let partition = self.parse_part_or_partition()?;
10657 let with_name = if self.parse_keyword(Keyword::WITH) {
10658 self.expect_keyword_is(Keyword::NAME)?;
10659 Some(self.parse_identifier()?)
10660 } else {
10661 None
10662 };
10663 AlterTableOperation::FreezePartition {
10664 partition,
10665 with_name,
10666 }
10667 } else if dialect_of!(self is ClickHouseDialect|GenericDialect)
10668 && self.parse_keyword(Keyword::UNFREEZE)
10669 {
10670 let partition = self.parse_part_or_partition()?;
10671 let with_name = if self.parse_keyword(Keyword::WITH) {
10672 self.expect_keyword_is(Keyword::NAME)?;
10673 Some(self.parse_identifier()?)
10674 } else {
10675 None
10676 };
10677 AlterTableOperation::UnfreezePartition {
10678 partition,
10679 with_name,
10680 }
10681 } else if self.parse_keywords(&[Keyword::CLUSTER, Keyword::BY]) {
10682 self.expect_token(&Token::LParen)?;
10683 let exprs = self.parse_comma_separated(|parser| parser.parse_expr())?;
10684 self.expect_token(&Token::RParen)?;
10685 AlterTableOperation::ClusterBy { exprs }
10686 } else if self.parse_keywords(&[Keyword::SUSPEND, Keyword::RECLUSTER]) {
10687 AlterTableOperation::SuspendRecluster
10688 } else if self.parse_keywords(&[Keyword::RESUME, Keyword::RECLUSTER]) {
10689 AlterTableOperation::ResumeRecluster
10690 } else if self.parse_keyword(Keyword::LOCK) {
10691 let equals = self.consume_token(&Token::Eq);
10692 let lock = match self.parse_one_of_keywords(&[
10693 Keyword::DEFAULT,
10694 Keyword::EXCLUSIVE,
10695 Keyword::NONE,
10696 Keyword::SHARED,
10697 ]) {
10698 Some(Keyword::DEFAULT) => AlterTableLock::Default,
10699 Some(Keyword::EXCLUSIVE) => AlterTableLock::Exclusive,
10700 Some(Keyword::NONE) => AlterTableLock::None,
10701 Some(Keyword::SHARED) => AlterTableLock::Shared,
10702 _ => self.expected_ref(
10703 "DEFAULT, EXCLUSIVE, NONE or SHARED after LOCK [=]",
10704 self.peek_token_ref(),
10705 )?,
10706 };
10707 AlterTableOperation::Lock { equals, lock }
10708 } else if self.parse_keyword(Keyword::ALGORITHM) {
10709 let equals = self.consume_token(&Token::Eq);
10710 let algorithm = match self.parse_one_of_keywords(&[
10711 Keyword::DEFAULT,
10712 Keyword::INSTANT,
10713 Keyword::INPLACE,
10714 Keyword::COPY,
10715 ]) {
10716 Some(Keyword::DEFAULT) => AlterTableAlgorithm::Default,
10717 Some(Keyword::INSTANT) => AlterTableAlgorithm::Instant,
10718 Some(Keyword::INPLACE) => AlterTableAlgorithm::Inplace,
10719 Some(Keyword::COPY) => AlterTableAlgorithm::Copy,
10720 _ => self.expected_ref(
10721 "DEFAULT, INSTANT, INPLACE, or COPY after ALGORITHM [=]",
10722 self.peek_token_ref(),
10723 )?,
10724 };
10725 AlterTableOperation::Algorithm { equals, algorithm }
10726 } else if self.parse_keyword(Keyword::AUTO_INCREMENT) {
10727 let equals = self.consume_token(&Token::Eq);
10728 let value = self.parse_number_value()?;
10729 AlterTableOperation::AutoIncrement { equals, value }
10730 } else if self.parse_keywords(&[Keyword::REPLICA, Keyword::IDENTITY]) {
10731 let identity = if self.parse_keyword(Keyword::NOTHING) {
10732 ReplicaIdentity::Nothing
10733 } else if self.parse_keyword(Keyword::FULL) {
10734 ReplicaIdentity::Full
10735 } else if self.parse_keyword(Keyword::DEFAULT) {
10736 ReplicaIdentity::Default
10737 } else if self.parse_keywords(&[Keyword::USING, Keyword::INDEX]) {
10738 ReplicaIdentity::Index(self.parse_identifier()?)
10739 } else {
10740 return self.expected_ref(
10741 "NOTHING, FULL, DEFAULT, or USING INDEX index_name after REPLICA IDENTITY",
10742 self.peek_token_ref(),
10743 );
10744 };
10745
10746 AlterTableOperation::ReplicaIdentity { identity }
10747 } else if self.parse_keywords(&[Keyword::VALIDATE, Keyword::CONSTRAINT]) {
10748 let name = self.parse_identifier()?;
10749 AlterTableOperation::ValidateConstraint { name }
10750 } else {
10751 let mut options =
10752 self.parse_options_with_keywords(&[Keyword::SET, Keyword::TBLPROPERTIES])?;
10753 if !options.is_empty() {
10754 AlterTableOperation::SetTblProperties {
10755 table_properties: options,
10756 }
10757 } else {
10758 options = self.parse_options(Keyword::SET)?;
10759 if !options.is_empty() {
10760 AlterTableOperation::SetOptionsParens { options }
10761 } else {
10762 return self.expected_ref(
10763 "ADD, RENAME, PARTITION, SWAP, DROP, REPLICA IDENTITY, SET, or SET TBLPROPERTIES after ALTER TABLE",
10764 self.peek_token_ref(),
10765 );
10766 }
10767 }
10768 };
10769 Ok(operation)
10770 }
10771
10772 fn parse_set_data_type(&mut self, had_set: bool) -> Result<AlterColumnOperation, ParserError> {
10773 let data_type = self.parse_data_type()?;
10774 let using = if self.dialect.supports_alter_column_type_using()
10775 && self.parse_keyword(Keyword::USING)
10776 {
10777 Some(self.parse_expr()?)
10778 } else {
10779 None
10780 };
10781 Ok(AlterColumnOperation::SetDataType {
10782 data_type,
10783 using,
10784 had_set,
10785 })
10786 }
10787
10788 fn parse_part_or_partition(&mut self) -> Result<Partition, ParserError> {
10789 let keyword = self.expect_one_of_keywords(&[Keyword::PART, Keyword::PARTITION])?;
10790 match keyword {
10791 Keyword::PART => Ok(Partition::Part(self.parse_expr()?)),
10792 Keyword::PARTITION => Ok(Partition::Expr(self.parse_expr()?)),
10793 unexpected_keyword => Err(ParserError::ParserError(
10795 format!("Internal parser error: expected any of {{PART, PARTITION}}, got {unexpected_keyword:?}"),
10796 )),
10797 }
10798 }
10799
10800 pub fn parse_alter(&mut self) -> Result<Statement, ParserError> {
10802 let object_type = self.expect_one_of_keywords(&[
10803 Keyword::VIEW,
10804 Keyword::TYPE,
10805 Keyword::COLLATION,
10806 Keyword::TABLE,
10807 Keyword::INDEX,
10808 Keyword::FUNCTION,
10809 Keyword::AGGREGATE,
10810 Keyword::ROLE,
10811 Keyword::POLICY,
10812 Keyword::CONNECTOR,
10813 Keyword::ICEBERG,
10814 Keyword::SCHEMA,
10815 Keyword::USER,
10816 Keyword::OPERATOR,
10817 ])?;
10818 match object_type {
10819 Keyword::SCHEMA => {
10820 self.prev_token();
10821 self.prev_token();
10822 self.parse_alter_schema()
10823 }
10824 Keyword::VIEW => self.parse_alter_view(),
10825 Keyword::TYPE => self.parse_alter_type(),
10826 Keyword::COLLATION => self.parse_alter_collation().map(Into::into),
10827 Keyword::TABLE => self.parse_alter_table(false),
10828 Keyword::ICEBERG => {
10829 self.expect_keyword(Keyword::TABLE)?;
10830 self.parse_alter_table(true)
10831 }
10832 Keyword::INDEX => {
10833 let index_name = self.parse_object_name(false)?;
10834 let operation = if self.parse_keyword(Keyword::RENAME) {
10835 if self.parse_keyword(Keyword::TO) {
10836 let index_name = self.parse_object_name(false)?;
10837 AlterIndexOperation::RenameIndex { index_name }
10838 } else {
10839 return self.expected_ref("TO after RENAME", self.peek_token_ref());
10840 }
10841 } else {
10842 return self.expected_ref("RENAME after ALTER INDEX", self.peek_token_ref());
10843 };
10844
10845 Ok(Statement::AlterIndex {
10846 name: index_name,
10847 operation,
10848 })
10849 }
10850 Keyword::FUNCTION => self.parse_alter_function(AlterFunctionKind::Function),
10851 Keyword::AGGREGATE => self.parse_alter_function(AlterFunctionKind::Aggregate),
10852 Keyword::OPERATOR => {
10853 if self.parse_keyword(Keyword::FAMILY) {
10854 self.parse_alter_operator_family().map(Into::into)
10855 } else if self.parse_keyword(Keyword::CLASS) {
10856 self.parse_alter_operator_class().map(Into::into)
10857 } else {
10858 self.parse_alter_operator().map(Into::into)
10859 }
10860 }
10861 Keyword::ROLE => self.parse_alter_role(),
10862 Keyword::POLICY => self.parse_alter_policy().map(Into::into),
10863 Keyword::CONNECTOR => self.parse_alter_connector(),
10864 Keyword::USER => self.parse_alter_user().map(Into::into),
10865 unexpected_keyword => Err(ParserError::ParserError(
10867 format!("Internal parser error: expected any of {{VIEW, TYPE, COLLATION, TABLE, INDEX, FUNCTION, AGGREGATE, ROLE, POLICY, CONNECTOR, ICEBERG, SCHEMA, USER, OPERATOR}}, got {unexpected_keyword:?}"),
10868 )),
10869 }
10870 }
10871
10872 fn parse_alter_aggregate_signature(
10873 &mut self,
10874 ) -> Result<(FunctionDesc, bool, Option<Vec<OperateFunctionArg>>), ParserError> {
10875 let name = self.parse_object_name(false)?;
10876 self.expect_token(&Token::LParen)?;
10877
10878 if self.consume_token(&Token::Mul) {
10879 self.expect_token(&Token::RParen)?;
10880 return Ok((
10881 FunctionDesc {
10882 name,
10883 args: Some(vec![]),
10884 },
10885 true,
10886 None,
10887 ));
10888 }
10889
10890 let args =
10891 if self.peek_keyword(Keyword::ORDER) || self.peek_token_ref().token == Token::RParen {
10892 vec![]
10893 } else {
10894 self.parse_comma_separated(Parser::parse_aggregate_function_arg)?
10895 };
10896
10897 let aggregate_order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
10898 Some(self.parse_comma_separated(Parser::parse_aggregate_function_arg)?)
10899 } else {
10900 None
10901 };
10902
10903 self.expect_token(&Token::RParen)?;
10904 Ok((
10905 FunctionDesc {
10906 name,
10907 args: Some(args),
10908 },
10909 false,
10910 aggregate_order_by,
10911 ))
10912 }
10913
10914 fn parse_alter_function_action(&mut self) -> Result<Option<AlterFunctionAction>, ParserError> {
10915 let action = if self.parse_keywords(&[
10916 Keyword::CALLED,
10917 Keyword::ON,
10918 Keyword::NULL,
10919 Keyword::INPUT,
10920 ]) {
10921 Some(AlterFunctionAction::CalledOnNull(
10922 FunctionCalledOnNull::CalledOnNullInput,
10923 ))
10924 } else if self.parse_keywords(&[
10925 Keyword::RETURNS,
10926 Keyword::NULL,
10927 Keyword::ON,
10928 Keyword::NULL,
10929 Keyword::INPUT,
10930 ]) {
10931 Some(AlterFunctionAction::CalledOnNull(
10932 FunctionCalledOnNull::ReturnsNullOnNullInput,
10933 ))
10934 } else if self.parse_keyword(Keyword::STRICT) {
10935 Some(AlterFunctionAction::CalledOnNull(
10936 FunctionCalledOnNull::Strict,
10937 ))
10938 } else if self.parse_keyword(Keyword::IMMUTABLE) {
10939 Some(AlterFunctionAction::Behavior(FunctionBehavior::Immutable))
10940 } else if self.parse_keyword(Keyword::STABLE) {
10941 Some(AlterFunctionAction::Behavior(FunctionBehavior::Stable))
10942 } else if self.parse_keyword(Keyword::VOLATILE) {
10943 Some(AlterFunctionAction::Behavior(FunctionBehavior::Volatile))
10944 } else if self.parse_keyword(Keyword::NOT) {
10945 self.expect_keyword(Keyword::LEAKPROOF)?;
10946 Some(AlterFunctionAction::Leakproof(false))
10947 } else if self.parse_keyword(Keyword::LEAKPROOF) {
10948 Some(AlterFunctionAction::Leakproof(true))
10949 } else if self.parse_keyword(Keyword::EXTERNAL) {
10950 self.expect_keyword(Keyword::SECURITY)?;
10951 let security = if self.parse_keyword(Keyword::DEFINER) {
10952 FunctionSecurity::Definer
10953 } else if self.parse_keyword(Keyword::INVOKER) {
10954 FunctionSecurity::Invoker
10955 } else {
10956 return self.expected_ref("DEFINER or INVOKER", self.peek_token_ref());
10957 };
10958 Some(AlterFunctionAction::Security {
10959 external: true,
10960 security,
10961 })
10962 } else if self.parse_keyword(Keyword::SECURITY) {
10963 let security = if self.parse_keyword(Keyword::DEFINER) {
10964 FunctionSecurity::Definer
10965 } else if self.parse_keyword(Keyword::INVOKER) {
10966 FunctionSecurity::Invoker
10967 } else {
10968 return self.expected_ref("DEFINER or INVOKER", self.peek_token_ref());
10969 };
10970 Some(AlterFunctionAction::Security {
10971 external: false,
10972 security,
10973 })
10974 } else if self.parse_keyword(Keyword::PARALLEL) {
10975 let parallel = if self.parse_keyword(Keyword::UNSAFE) {
10976 FunctionParallel::Unsafe
10977 } else if self.parse_keyword(Keyword::RESTRICTED) {
10978 FunctionParallel::Restricted
10979 } else if self.parse_keyword(Keyword::SAFE) {
10980 FunctionParallel::Safe
10981 } else {
10982 return self
10983 .expected_ref("one of UNSAFE | RESTRICTED | SAFE", self.peek_token_ref());
10984 };
10985 Some(AlterFunctionAction::Parallel(parallel))
10986 } else if self.parse_keyword(Keyword::COST) {
10987 Some(AlterFunctionAction::Cost(self.parse_number()?))
10988 } else if self.parse_keyword(Keyword::ROWS) {
10989 Some(AlterFunctionAction::Rows(self.parse_number()?))
10990 } else if self.parse_keyword(Keyword::SUPPORT) {
10991 Some(AlterFunctionAction::Support(self.parse_object_name(false)?))
10992 } else if self.parse_keyword(Keyword::SET) {
10993 let name = self.parse_object_name(false)?;
10994 let value = if self.parse_keywords(&[Keyword::FROM, Keyword::CURRENT]) {
10995 FunctionSetValue::FromCurrent
10996 } else {
10997 if !self.consume_token(&Token::Eq) && !self.parse_keyword(Keyword::TO) {
10998 return self.expected_ref("= or TO", self.peek_token_ref());
10999 }
11000 if self.parse_keyword(Keyword::DEFAULT) {
11001 FunctionSetValue::Default
11002 } else {
11003 FunctionSetValue::Values(self.parse_comma_separated(Parser::parse_expr)?)
11004 }
11005 };
11006 Some(AlterFunctionAction::Set(FunctionDefinitionSetParam {
11007 name,
11008 value,
11009 }))
11010 } else if self.parse_keyword(Keyword::RESET) {
11011 let reset_config = if self.parse_keyword(Keyword::ALL) {
11012 ResetConfig::ALL
11013 } else {
11014 ResetConfig::ConfigName(self.parse_object_name(false)?)
11015 };
11016 Some(AlterFunctionAction::Reset(reset_config))
11017 } else {
11018 None
11019 };
11020
11021 Ok(action)
11022 }
11023
11024 fn parse_alter_function_actions(
11025 &mut self,
11026 ) -> Result<(Vec<AlterFunctionAction>, bool), ParserError> {
11027 let mut actions = vec![];
11028 while let Some(action) = self.parse_alter_function_action()? {
11029 actions.push(action);
11030 }
11031 if actions.is_empty() {
11032 return self.expected_ref("at least one ALTER FUNCTION action", self.peek_token_ref());
11033 }
11034 let restrict = self.parse_keyword(Keyword::RESTRICT);
11035 Ok((actions, restrict))
11036 }
11037
11038 pub fn parse_alter_function(
11040 &mut self,
11041 kind: AlterFunctionKind,
11042 ) -> Result<Statement, ParserError> {
11043 let (function, aggregate_star, aggregate_order_by) = match kind {
11044 AlterFunctionKind::Function => (self.parse_function_desc()?, false, None),
11045 AlterFunctionKind::Aggregate => self.parse_alter_aggregate_signature()?,
11046 };
11047
11048 let operation = if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11049 let new_name = self.parse_identifier()?;
11050 AlterFunctionOperation::RenameTo { new_name }
11051 } else if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11052 AlterFunctionOperation::OwnerTo(self.parse_owner()?)
11053 } else if self.parse_keywords(&[Keyword::SET, Keyword::SCHEMA]) {
11054 AlterFunctionOperation::SetSchema {
11055 schema_name: self.parse_object_name(false)?,
11056 }
11057 } else if matches!(kind, AlterFunctionKind::Function) && self.parse_keyword(Keyword::NO) {
11058 if !self.parse_keyword(Keyword::DEPENDS) {
11059 return self.expected_ref("DEPENDS after NO", self.peek_token_ref());
11060 }
11061 self.expect_keywords(&[Keyword::ON, Keyword::EXTENSION])?;
11062 AlterFunctionOperation::DependsOnExtension {
11063 no: true,
11064 extension_name: self.parse_object_name(false)?,
11065 }
11066 } else if matches!(kind, AlterFunctionKind::Function)
11067 && self.parse_keyword(Keyword::DEPENDS)
11068 {
11069 self.expect_keywords(&[Keyword::ON, Keyword::EXTENSION])?;
11070 AlterFunctionOperation::DependsOnExtension {
11071 no: false,
11072 extension_name: self.parse_object_name(false)?,
11073 }
11074 } else if matches!(kind, AlterFunctionKind::Function) {
11075 let (actions, restrict) = self.parse_alter_function_actions()?;
11076 AlterFunctionOperation::Actions { actions, restrict }
11077 } else {
11078 return self.expected_ref(
11079 "RENAME TO, OWNER TO, or SET SCHEMA after ALTER AGGREGATE",
11080 self.peek_token_ref(),
11081 );
11082 };
11083
11084 Ok(Statement::AlterFunction(AlterFunction {
11085 kind,
11086 function,
11087 aggregate_order_by,
11088 aggregate_star,
11089 operation,
11090 }))
11091 }
11092
11093 pub fn parse_alter_table(&mut self, iceberg: bool) -> Result<Statement, ParserError> {
11095 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
11096 let only = self.parse_keyword(Keyword::ONLY); let table_name = self.parse_object_name(false)?;
11098 let on_cluster = self.parse_optional_on_cluster()?;
11099 let operations = self.parse_comma_separated(Parser::parse_alter_table_operation)?;
11100
11101 let mut location = None;
11102 if self.parse_keyword(Keyword::LOCATION) {
11103 location = Some(HiveSetLocation {
11104 has_set: false,
11105 location: self.parse_identifier()?,
11106 });
11107 } else if self.parse_keywords(&[Keyword::SET, Keyword::LOCATION]) {
11108 location = Some(HiveSetLocation {
11109 has_set: true,
11110 location: self.parse_identifier()?,
11111 });
11112 }
11113
11114 let end_token = if self.peek_token_ref().token == Token::SemiColon {
11115 self.peek_token_ref().clone()
11116 } else {
11117 self.get_current_token().clone()
11118 };
11119
11120 Ok(AlterTable {
11121 name: table_name,
11122 if_exists,
11123 only,
11124 operations,
11125 location,
11126 on_cluster,
11127 table_type: if iceberg {
11128 Some(AlterTableType::Iceberg)
11129 } else {
11130 None
11131 },
11132 end_token: AttachedToken(end_token),
11133 }
11134 .into())
11135 }
11136
11137 pub fn parse_alter_view(&mut self) -> Result<Statement, ParserError> {
11139 let name = self.parse_object_name(false)?;
11140 let columns = self.parse_parenthesized_column_list(Optional, false)?;
11141
11142 let with_options = self.parse_options(Keyword::WITH)?;
11143
11144 self.expect_keyword_is(Keyword::AS)?;
11145 let query = self.parse_query()?;
11146
11147 Ok(Statement::AlterView {
11148 name,
11149 columns,
11150 query,
11151 with_options,
11152 })
11153 }
11154
11155 pub fn parse_alter_type(&mut self) -> Result<Statement, ParserError> {
11157 let name = self.parse_object_name(false)?;
11158
11159 if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11160 let new_name = self.parse_identifier()?;
11161 Ok(Statement::AlterType(AlterType {
11162 name,
11163 operation: AlterTypeOperation::Rename(AlterTypeRename { new_name }),
11164 }))
11165 } else if self.parse_keywords(&[Keyword::ADD, Keyword::VALUE]) {
11166 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
11167 let new_enum_value = self.parse_identifier()?;
11168 let position = if self.parse_keyword(Keyword::BEFORE) {
11169 Some(AlterTypeAddValuePosition::Before(self.parse_identifier()?))
11170 } else if self.parse_keyword(Keyword::AFTER) {
11171 Some(AlterTypeAddValuePosition::After(self.parse_identifier()?))
11172 } else {
11173 None
11174 };
11175
11176 Ok(Statement::AlterType(AlterType {
11177 name,
11178 operation: AlterTypeOperation::AddValue(AlterTypeAddValue {
11179 if_not_exists,
11180 value: new_enum_value,
11181 position,
11182 }),
11183 }))
11184 } else if self.parse_keywords(&[Keyword::RENAME, Keyword::VALUE]) {
11185 let existing_enum_value = self.parse_identifier()?;
11186 self.expect_keyword(Keyword::TO)?;
11187 let new_enum_value = self.parse_identifier()?;
11188
11189 Ok(Statement::AlterType(AlterType {
11190 name,
11191 operation: AlterTypeOperation::RenameValue(AlterTypeRenameValue {
11192 from: existing_enum_value,
11193 to: new_enum_value,
11194 }),
11195 }))
11196 } else {
11197 self.expected_ref(
11198 "{RENAME TO | { RENAME | ADD } VALUE}",
11199 self.peek_token_ref(),
11200 )
11201 }
11202 }
11203
11204 pub fn parse_alter_collation(&mut self) -> Result<AlterCollation, ParserError> {
11208 let name = self.parse_object_name(false)?;
11209 let operation = if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11210 AlterCollationOperation::RenameTo {
11211 new_name: self.parse_identifier()?,
11212 }
11213 } else if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11214 AlterCollationOperation::OwnerTo(self.parse_owner()?)
11215 } else if self.parse_keywords(&[Keyword::SET, Keyword::SCHEMA]) {
11216 AlterCollationOperation::SetSchema {
11217 schema_name: self.parse_object_name(false)?,
11218 }
11219 } else if self.parse_keywords(&[Keyword::REFRESH, Keyword::VERSION]) {
11220 AlterCollationOperation::RefreshVersion
11221 } else {
11222 return self.expected_ref(
11223 "RENAME TO, OWNER TO, SET SCHEMA, or REFRESH VERSION after ALTER COLLATION",
11224 self.peek_token_ref(),
11225 );
11226 };
11227
11228 Ok(AlterCollation { name, operation })
11229 }
11230
11231 pub fn parse_alter_operator(&mut self) -> Result<AlterOperator, ParserError> {
11235 let name = self.parse_operator_name()?;
11236
11237 self.expect_token(&Token::LParen)?;
11239
11240 let left_type = if self.parse_keyword(Keyword::NONE) {
11241 None
11242 } else {
11243 Some(self.parse_data_type()?)
11244 };
11245
11246 self.expect_token(&Token::Comma)?;
11247 let right_type = self.parse_data_type()?;
11248 self.expect_token(&Token::RParen)?;
11249
11250 let operation = if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11252 let owner = if self.parse_keyword(Keyword::CURRENT_ROLE) {
11253 Owner::CurrentRole
11254 } else if self.parse_keyword(Keyword::CURRENT_USER) {
11255 Owner::CurrentUser
11256 } else if self.parse_keyword(Keyword::SESSION_USER) {
11257 Owner::SessionUser
11258 } else {
11259 Owner::Ident(self.parse_identifier()?)
11260 };
11261 AlterOperatorOperation::OwnerTo(owner)
11262 } else if self.parse_keywords(&[Keyword::SET, Keyword::SCHEMA]) {
11263 let schema_name = self.parse_object_name(false)?;
11264 AlterOperatorOperation::SetSchema { schema_name }
11265 } else if self.parse_keyword(Keyword::SET) {
11266 self.expect_token(&Token::LParen)?;
11267
11268 let mut options = Vec::new();
11269 loop {
11270 let keyword = self.expect_one_of_keywords(&[
11271 Keyword::RESTRICT,
11272 Keyword::JOIN,
11273 Keyword::COMMUTATOR,
11274 Keyword::NEGATOR,
11275 Keyword::HASHES,
11276 Keyword::MERGES,
11277 ])?;
11278
11279 match keyword {
11280 Keyword::RESTRICT => {
11281 self.expect_token(&Token::Eq)?;
11282 let proc_name = if self.parse_keyword(Keyword::NONE) {
11283 None
11284 } else {
11285 Some(self.parse_object_name(false)?)
11286 };
11287 options.push(OperatorOption::Restrict(proc_name));
11288 }
11289 Keyword::JOIN => {
11290 self.expect_token(&Token::Eq)?;
11291 let proc_name = if self.parse_keyword(Keyword::NONE) {
11292 None
11293 } else {
11294 Some(self.parse_object_name(false)?)
11295 };
11296 options.push(OperatorOption::Join(proc_name));
11297 }
11298 Keyword::COMMUTATOR => {
11299 self.expect_token(&Token::Eq)?;
11300 let op_name = self.parse_operator_name()?;
11301 options.push(OperatorOption::Commutator(op_name));
11302 }
11303 Keyword::NEGATOR => {
11304 self.expect_token(&Token::Eq)?;
11305 let op_name = self.parse_operator_name()?;
11306 options.push(OperatorOption::Negator(op_name));
11307 }
11308 Keyword::HASHES => {
11309 options.push(OperatorOption::Hashes);
11310 }
11311 Keyword::MERGES => {
11312 options.push(OperatorOption::Merges);
11313 }
11314 unexpected_keyword => return Err(ParserError::ParserError(
11315 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in operator option"),
11316 )),
11317 }
11318
11319 if !self.consume_token(&Token::Comma) {
11320 break;
11321 }
11322 }
11323
11324 self.expect_token(&Token::RParen)?;
11325 AlterOperatorOperation::Set { options }
11326 } else {
11327 return self.expected_ref(
11328 "OWNER TO, SET SCHEMA, or SET after ALTER OPERATOR",
11329 self.peek_token_ref(),
11330 );
11331 };
11332
11333 Ok(AlterOperator {
11334 name,
11335 left_type,
11336 right_type,
11337 operation,
11338 })
11339 }
11340
11341 fn parse_operator_family_add_operator(&mut self) -> Result<OperatorFamilyItem, ParserError> {
11343 let strategy_number = self.parse_literal_uint()?;
11344 let operator_name = self.parse_operator_name()?;
11345
11346 self.expect_token(&Token::LParen)?;
11348 let op_types = self.parse_comma_separated(Parser::parse_data_type)?;
11349 self.expect_token(&Token::RParen)?;
11350
11351 let purpose = if self.parse_keyword(Keyword::FOR) {
11353 if self.parse_keyword(Keyword::SEARCH) {
11354 Some(OperatorPurpose::ForSearch)
11355 } else if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
11356 let sort_family = self.parse_object_name(false)?;
11357 Some(OperatorPurpose::ForOrderBy { sort_family })
11358 } else {
11359 return self.expected_ref("SEARCH or ORDER BY after FOR", self.peek_token_ref());
11360 }
11361 } else {
11362 None
11363 };
11364
11365 Ok(OperatorFamilyItem::Operator {
11366 strategy_number,
11367 operator_name,
11368 op_types,
11369 purpose,
11370 })
11371 }
11372
11373 fn parse_operator_family_add_function(&mut self) -> Result<OperatorFamilyItem, ParserError> {
11375 let support_number = self.parse_literal_uint()?;
11376
11377 let op_types =
11379 if self.consume_token(&Token::LParen) && self.peek_token_ref().token != Token::RParen {
11380 let types = self.parse_comma_separated(Parser::parse_data_type)?;
11381 self.expect_token(&Token::RParen)?;
11382 Some(types)
11383 } else if self.consume_token(&Token::LParen) {
11384 self.expect_token(&Token::RParen)?;
11385 Some(vec![])
11386 } else {
11387 None
11388 };
11389
11390 let function_name = self.parse_object_name(false)?;
11391
11392 let argument_types = if self.consume_token(&Token::LParen) {
11394 if self.peek_token_ref().token == Token::RParen {
11395 self.expect_token(&Token::RParen)?;
11396 vec![]
11397 } else {
11398 let types = self.parse_comma_separated(Parser::parse_data_type)?;
11399 self.expect_token(&Token::RParen)?;
11400 types
11401 }
11402 } else {
11403 vec![]
11404 };
11405
11406 Ok(OperatorFamilyItem::Function {
11407 support_number,
11408 op_types,
11409 function_name,
11410 argument_types,
11411 })
11412 }
11413
11414 fn parse_operator_family_drop_operator(
11416 &mut self,
11417 ) -> Result<OperatorFamilyDropItem, ParserError> {
11418 let strategy_number = self.parse_literal_uint()?;
11419
11420 self.expect_token(&Token::LParen)?;
11422 let op_types = self.parse_comma_separated(Parser::parse_data_type)?;
11423 self.expect_token(&Token::RParen)?;
11424
11425 Ok(OperatorFamilyDropItem::Operator {
11426 strategy_number,
11427 op_types,
11428 })
11429 }
11430
11431 fn parse_operator_family_drop_function(
11433 &mut self,
11434 ) -> Result<OperatorFamilyDropItem, ParserError> {
11435 let support_number = self.parse_literal_uint()?;
11436
11437 self.expect_token(&Token::LParen)?;
11439 let op_types = self.parse_comma_separated(Parser::parse_data_type)?;
11440 self.expect_token(&Token::RParen)?;
11441
11442 Ok(OperatorFamilyDropItem::Function {
11443 support_number,
11444 op_types,
11445 })
11446 }
11447
11448 fn parse_operator_family_add_item(&mut self) -> Result<OperatorFamilyItem, ParserError> {
11450 if self.parse_keyword(Keyword::OPERATOR) {
11451 self.parse_operator_family_add_operator()
11452 } else if self.parse_keyword(Keyword::FUNCTION) {
11453 self.parse_operator_family_add_function()
11454 } else {
11455 self.expected_ref("OPERATOR or FUNCTION", self.peek_token_ref())
11456 }
11457 }
11458
11459 fn parse_operator_family_drop_item(&mut self) -> Result<OperatorFamilyDropItem, ParserError> {
11461 if self.parse_keyword(Keyword::OPERATOR) {
11462 self.parse_operator_family_drop_operator()
11463 } else if self.parse_keyword(Keyword::FUNCTION) {
11464 self.parse_operator_family_drop_function()
11465 } else {
11466 self.expected_ref("OPERATOR or FUNCTION", self.peek_token_ref())
11467 }
11468 }
11469
11470 pub fn parse_alter_operator_family(&mut self) -> Result<AlterOperatorFamily, ParserError> {
11473 let name = self.parse_object_name(false)?;
11474 self.expect_keyword(Keyword::USING)?;
11475 let using = self.parse_identifier()?;
11476
11477 let operation = if self.parse_keyword(Keyword::ADD) {
11478 let items = self.parse_comma_separated(Parser::parse_operator_family_add_item)?;
11479 AlterOperatorFamilyOperation::Add { items }
11480 } else if self.parse_keyword(Keyword::DROP) {
11481 let items = self.parse_comma_separated(Parser::parse_operator_family_drop_item)?;
11482 AlterOperatorFamilyOperation::Drop { items }
11483 } else if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11484 let new_name = self.parse_object_name(false)?;
11485 AlterOperatorFamilyOperation::RenameTo { new_name }
11486 } else if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11487 let owner = self.parse_owner()?;
11488 AlterOperatorFamilyOperation::OwnerTo(owner)
11489 } else if self.parse_keywords(&[Keyword::SET, Keyword::SCHEMA]) {
11490 let schema_name = self.parse_object_name(false)?;
11491 AlterOperatorFamilyOperation::SetSchema { schema_name }
11492 } else {
11493 return self.expected_ref(
11494 "ADD, DROP, RENAME TO, OWNER TO, or SET SCHEMA after ALTER OPERATOR FAMILY",
11495 self.peek_token_ref(),
11496 );
11497 };
11498
11499 Ok(AlterOperatorFamily {
11500 name,
11501 using,
11502 operation,
11503 })
11504 }
11505
11506 pub fn parse_alter_operator_class(&mut self) -> Result<AlterOperatorClass, ParserError> {
11510 let name = self.parse_object_name(false)?;
11511 self.expect_keyword(Keyword::USING)?;
11512 let using = self.parse_identifier()?;
11513
11514 let operation = if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11515 let new_name = self.parse_object_name(false)?;
11516 AlterOperatorClassOperation::RenameTo { new_name }
11517 } else if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11518 let owner = self.parse_owner()?;
11519 AlterOperatorClassOperation::OwnerTo(owner)
11520 } else if self.parse_keywords(&[Keyword::SET, Keyword::SCHEMA]) {
11521 let schema_name = self.parse_object_name(false)?;
11522 AlterOperatorClassOperation::SetSchema { schema_name }
11523 } else {
11524 return self.expected_ref(
11525 "RENAME TO, OWNER TO, or SET SCHEMA after ALTER OPERATOR CLASS",
11526 self.peek_token_ref(),
11527 );
11528 };
11529
11530 Ok(AlterOperatorClass {
11531 name,
11532 using,
11533 operation,
11534 })
11535 }
11536
11537 pub fn parse_alter_schema(&mut self) -> Result<Statement, ParserError> {
11541 self.expect_keywords(&[Keyword::ALTER, Keyword::SCHEMA])?;
11542 let if_exists = self.parse_keywords(&[Keyword::IF, Keyword::EXISTS]);
11543 let name = self.parse_object_name(false)?;
11544 let operation = if self.parse_keywords(&[Keyword::SET, Keyword::OPTIONS]) {
11545 self.prev_token();
11546 let options = self.parse_options(Keyword::OPTIONS)?;
11547 AlterSchemaOperation::SetOptionsParens { options }
11548 } else if self.parse_keywords(&[Keyword::SET, Keyword::DEFAULT, Keyword::COLLATE]) {
11549 let collate = self.parse_expr()?;
11550 AlterSchemaOperation::SetDefaultCollate { collate }
11551 } else if self.parse_keywords(&[Keyword::ADD, Keyword::REPLICA]) {
11552 let replica = self.parse_identifier()?;
11553 let options = if self.peek_keyword(Keyword::OPTIONS) {
11554 Some(self.parse_options(Keyword::OPTIONS)?)
11555 } else {
11556 None
11557 };
11558 AlterSchemaOperation::AddReplica { replica, options }
11559 } else if self.parse_keywords(&[Keyword::DROP, Keyword::REPLICA]) {
11560 let replica = self.parse_identifier()?;
11561 AlterSchemaOperation::DropReplica { replica }
11562 } else if self.parse_keywords(&[Keyword::RENAME, Keyword::TO]) {
11563 let new_name = self.parse_object_name(false)?;
11564 AlterSchemaOperation::Rename { name: new_name }
11565 } else if self.parse_keywords(&[Keyword::OWNER, Keyword::TO]) {
11566 let owner = self.parse_owner()?;
11567 AlterSchemaOperation::OwnerTo { owner }
11568 } else {
11569 return self.expected_ref("ALTER SCHEMA operation", self.peek_token_ref());
11570 };
11571 Ok(Statement::AlterSchema(AlterSchema {
11572 name,
11573 if_exists,
11574 operations: vec![operation],
11575 }))
11576 }
11577
11578 pub fn parse_call(&mut self) -> Result<Statement, ParserError> {
11581 let object_name = self.parse_object_name(false)?;
11582 if self.peek_token_ref().token == Token::LParen {
11583 match self.parse_function(object_name)? {
11584 Expr::Function(f) => Ok(Statement::Call(f)),
11585 other => parser_err!(
11586 format!("Expected a simple procedure call but found: {other}"),
11587 self.peek_token_ref().span.start
11588 ),
11589 }
11590 } else {
11591 Ok(Statement::Call(Function {
11592 name: object_name,
11593 uses_odbc_syntax: false,
11594 parameters: FunctionArguments::None,
11595 args: FunctionArguments::None,
11596 over: None,
11597 filter: None,
11598 null_treatment: None,
11599 within_group: vec![],
11600 }))
11601 }
11602 }
11603
11604 pub fn parse_copy(&mut self) -> Result<Statement, ParserError> {
11606 let source;
11607 if self.consume_token(&Token::LParen) {
11608 source = CopySource::Query(self.parse_query()?);
11609 self.expect_token(&Token::RParen)?;
11610 } else {
11611 let table_name = self.parse_object_name(false)?;
11612 let columns = self.parse_parenthesized_column_list(Optional, false)?;
11613 source = CopySource::Table {
11614 table_name,
11615 columns,
11616 };
11617 }
11618 let to = match self.parse_one_of_keywords(&[Keyword::FROM, Keyword::TO]) {
11619 Some(Keyword::FROM) => false,
11620 Some(Keyword::TO) => true,
11621 _ => self.expected_ref("FROM or TO", self.peek_token_ref())?,
11622 };
11623 if !to {
11624 if let CopySource::Query(_) = source {
11627 return Err(ParserError::ParserError(
11628 "COPY ... FROM does not support query as a source".to_string(),
11629 ));
11630 }
11631 }
11632 let target = if self.parse_keyword(Keyword::STDIN) {
11633 CopyTarget::Stdin
11634 } else if self.parse_keyword(Keyword::STDOUT) {
11635 CopyTarget::Stdout
11636 } else if self.parse_keyword(Keyword::PROGRAM) {
11637 CopyTarget::Program {
11638 command: self.parse_literal_string()?,
11639 }
11640 } else {
11641 CopyTarget::File {
11642 filename: self.parse_literal_string()?,
11643 }
11644 };
11645 let _ = self.parse_keyword(Keyword::WITH); let mut options = vec![];
11647 if self.consume_token(&Token::LParen) {
11648 options = self.parse_comma_separated(Parser::parse_copy_option)?;
11649 self.expect_token(&Token::RParen)?;
11650 }
11651 let mut legacy_options = vec![];
11652 while let Some(opt) = self.maybe_parse(|parser| parser.parse_copy_legacy_option())? {
11653 legacy_options.push(opt);
11654 }
11655 let values =
11656 if matches!(target, CopyTarget::Stdin) && self.peek_token_ref().token != Token::EOF {
11657 self.expect_token(&Token::SemiColon)?;
11658 self.parse_tsv()
11659 } else {
11660 vec![]
11661 };
11662 Ok(Statement::Copy {
11663 source,
11664 to,
11665 target,
11666 options,
11667 legacy_options,
11668 values,
11669 })
11670 }
11671
11672 fn parse_open(&mut self) -> Result<Statement, ParserError> {
11674 self.expect_keyword(Keyword::OPEN)?;
11675 Ok(Statement::Open(OpenStatement {
11676 cursor_name: self.parse_identifier()?,
11677 }))
11678 }
11679
11680 pub fn parse_close(&mut self) -> Result<Statement, ParserError> {
11682 let cursor = if self.parse_keyword(Keyword::ALL) {
11683 CloseCursor::All
11684 } else {
11685 let name = self.parse_identifier()?;
11686
11687 CloseCursor::Specific { name }
11688 };
11689
11690 Ok(Statement::Close { cursor })
11691 }
11692
11693 fn parse_copy_option(&mut self) -> Result<CopyOption, ParserError> {
11694 let ret = match self.parse_one_of_keywords(&[
11695 Keyword::FORMAT,
11696 Keyword::FREEZE,
11697 Keyword::DELIMITER,
11698 Keyword::NULL,
11699 Keyword::HEADER,
11700 Keyword::QUOTE,
11701 Keyword::ESCAPE,
11702 Keyword::FORCE_QUOTE,
11703 Keyword::FORCE_NOT_NULL,
11704 Keyword::FORCE_NULL,
11705 Keyword::ENCODING,
11706 ]) {
11707 Some(Keyword::FORMAT) => CopyOption::Format(self.parse_identifier()?),
11708 Some(Keyword::FREEZE) => CopyOption::Freeze(!matches!(
11709 self.parse_one_of_keywords(&[Keyword::TRUE, Keyword::FALSE]),
11710 Some(Keyword::FALSE)
11711 )),
11712 Some(Keyword::DELIMITER) => CopyOption::Delimiter(self.parse_literal_char()?),
11713 Some(Keyword::NULL) => CopyOption::Null(self.parse_literal_string()?),
11714 Some(Keyword::HEADER) => CopyOption::Header(!matches!(
11715 self.parse_one_of_keywords(&[Keyword::TRUE, Keyword::FALSE]),
11716 Some(Keyword::FALSE)
11717 )),
11718 Some(Keyword::QUOTE) => CopyOption::Quote(self.parse_literal_char()?),
11719 Some(Keyword::ESCAPE) => CopyOption::Escape(self.parse_literal_char()?),
11720 Some(Keyword::FORCE_QUOTE) => {
11721 CopyOption::ForceQuote(self.parse_parenthesized_column_list(Mandatory, false)?)
11722 }
11723 Some(Keyword::FORCE_NOT_NULL) => {
11724 CopyOption::ForceNotNull(self.parse_parenthesized_column_list(Mandatory, false)?)
11725 }
11726 Some(Keyword::FORCE_NULL) => {
11727 CopyOption::ForceNull(self.parse_parenthesized_column_list(Mandatory, false)?)
11728 }
11729 Some(Keyword::ENCODING) => CopyOption::Encoding(self.parse_literal_string()?),
11730 _ => self.expected_ref("option", self.peek_token_ref())?,
11731 };
11732 Ok(ret)
11733 }
11734
11735 fn parse_copy_legacy_option(&mut self) -> Result<CopyLegacyOption, ParserError> {
11736 if self.parse_keyword(Keyword::FORMAT) {
11738 let _ = self.parse_keyword(Keyword::AS);
11739 }
11740
11741 let ret = match self.parse_one_of_keywords(&[
11742 Keyword::ACCEPTANYDATE,
11743 Keyword::ACCEPTINVCHARS,
11744 Keyword::ADDQUOTES,
11745 Keyword::ALLOWOVERWRITE,
11746 Keyword::BINARY,
11747 Keyword::BLANKSASNULL,
11748 Keyword::BZIP2,
11749 Keyword::CLEANPATH,
11750 Keyword::COMPUPDATE,
11751 Keyword::CREDENTIALS,
11752 Keyword::CSV,
11753 Keyword::DATEFORMAT,
11754 Keyword::DELIMITER,
11755 Keyword::EMPTYASNULL,
11756 Keyword::ENCRYPTED,
11757 Keyword::ESCAPE,
11758 Keyword::EXTENSION,
11759 Keyword::FIXEDWIDTH,
11760 Keyword::GZIP,
11761 Keyword::HEADER,
11762 Keyword::IAM_ROLE,
11763 Keyword::IGNOREHEADER,
11764 Keyword::JSON,
11765 Keyword::MANIFEST,
11766 Keyword::MAXFILESIZE,
11767 Keyword::NULL,
11768 Keyword::PARALLEL,
11769 Keyword::PARQUET,
11770 Keyword::PARTITION,
11771 Keyword::REGION,
11772 Keyword::REMOVEQUOTES,
11773 Keyword::ROWGROUPSIZE,
11774 Keyword::STATUPDATE,
11775 Keyword::TIMEFORMAT,
11776 Keyword::TRUNCATECOLUMNS,
11777 Keyword::ZSTD,
11778 ]) {
11779 Some(Keyword::ACCEPTANYDATE) => CopyLegacyOption::AcceptAnyDate,
11780 Some(Keyword::ACCEPTINVCHARS) => {
11781 let _ = self.parse_keyword(Keyword::AS); let ch = if matches!(self.peek_token_ref().token, Token::SingleQuotedString(_)) {
11783 Some(self.parse_literal_string()?)
11784 } else {
11785 None
11786 };
11787 CopyLegacyOption::AcceptInvChars(ch)
11788 }
11789 Some(Keyword::ADDQUOTES) => CopyLegacyOption::AddQuotes,
11790 Some(Keyword::ALLOWOVERWRITE) => CopyLegacyOption::AllowOverwrite,
11791 Some(Keyword::BINARY) => CopyLegacyOption::Binary,
11792 Some(Keyword::BLANKSASNULL) => CopyLegacyOption::BlankAsNull,
11793 Some(Keyword::BZIP2) => CopyLegacyOption::Bzip2,
11794 Some(Keyword::CLEANPATH) => CopyLegacyOption::CleanPath,
11795 Some(Keyword::COMPUPDATE) => {
11796 let preset = self.parse_keyword(Keyword::PRESET);
11797 let enabled = match self.parse_one_of_keywords(&[
11798 Keyword::TRUE,
11799 Keyword::FALSE,
11800 Keyword::ON,
11801 Keyword::OFF,
11802 ]) {
11803 Some(Keyword::TRUE) | Some(Keyword::ON) => Some(true),
11804 Some(Keyword::FALSE) | Some(Keyword::OFF) => Some(false),
11805 _ => None,
11806 };
11807 CopyLegacyOption::CompUpdate { preset, enabled }
11808 }
11809 Some(Keyword::CREDENTIALS) => {
11810 CopyLegacyOption::Credentials(self.parse_literal_string()?)
11811 }
11812 Some(Keyword::CSV) => CopyLegacyOption::Csv({
11813 let mut opts = vec![];
11814 while let Some(opt) =
11815 self.maybe_parse(|parser| parser.parse_copy_legacy_csv_option())?
11816 {
11817 opts.push(opt);
11818 }
11819 opts
11820 }),
11821 Some(Keyword::DATEFORMAT) => {
11822 let _ = self.parse_keyword(Keyword::AS);
11823 let fmt = if matches!(self.peek_token_ref().token, Token::SingleQuotedString(_)) {
11824 Some(self.parse_literal_string()?)
11825 } else {
11826 None
11827 };
11828 CopyLegacyOption::DateFormat(fmt)
11829 }
11830 Some(Keyword::DELIMITER) => {
11831 let _ = self.parse_keyword(Keyword::AS);
11832 CopyLegacyOption::Delimiter(self.parse_literal_char()?)
11833 }
11834 Some(Keyword::EMPTYASNULL) => CopyLegacyOption::EmptyAsNull,
11835 Some(Keyword::ENCRYPTED) => {
11836 let auto = self.parse_keyword(Keyword::AUTO);
11837 CopyLegacyOption::Encrypted { auto }
11838 }
11839 Some(Keyword::ESCAPE) => CopyLegacyOption::Escape,
11840 Some(Keyword::EXTENSION) => {
11841 let ext = self.parse_literal_string()?;
11842 CopyLegacyOption::Extension(ext)
11843 }
11844 Some(Keyword::FIXEDWIDTH) => {
11845 let spec = self.parse_literal_string()?;
11846 CopyLegacyOption::FixedWidth(spec)
11847 }
11848 Some(Keyword::GZIP) => CopyLegacyOption::Gzip,
11849 Some(Keyword::HEADER) => CopyLegacyOption::Header,
11850 Some(Keyword::IAM_ROLE) => CopyLegacyOption::IamRole(self.parse_iam_role_kind()?),
11851 Some(Keyword::IGNOREHEADER) => {
11852 let _ = self.parse_keyword(Keyword::AS);
11853 let num_rows = self.parse_literal_uint()?;
11854 CopyLegacyOption::IgnoreHeader(num_rows)
11855 }
11856 Some(Keyword::JSON) => {
11857 let _ = self.parse_keyword(Keyword::AS);
11858 let fmt = if matches!(self.peek_token_ref().token, Token::SingleQuotedString(_)) {
11859 Some(self.parse_literal_string()?)
11860 } else {
11861 None
11862 };
11863 CopyLegacyOption::Json(fmt)
11864 }
11865 Some(Keyword::MANIFEST) => {
11866 let verbose = self.parse_keyword(Keyword::VERBOSE);
11867 CopyLegacyOption::Manifest { verbose }
11868 }
11869 Some(Keyword::MAXFILESIZE) => {
11870 let _ = self.parse_keyword(Keyword::AS);
11871 let size = self.parse_number_value()?;
11872 let unit = match self.parse_one_of_keywords(&[Keyword::MB, Keyword::GB]) {
11873 Some(Keyword::MB) => Some(FileSizeUnit::MB),
11874 Some(Keyword::GB) => Some(FileSizeUnit::GB),
11875 _ => None,
11876 };
11877 CopyLegacyOption::MaxFileSize(FileSize { size, unit })
11878 }
11879 Some(Keyword::NULL) => {
11880 let _ = self.parse_keyword(Keyword::AS);
11881 CopyLegacyOption::Null(self.parse_literal_string()?)
11882 }
11883 Some(Keyword::PARALLEL) => {
11884 let enabled = match self.parse_one_of_keywords(&[
11885 Keyword::TRUE,
11886 Keyword::FALSE,
11887 Keyword::ON,
11888 Keyword::OFF,
11889 ]) {
11890 Some(Keyword::TRUE) | Some(Keyword::ON) => Some(true),
11891 Some(Keyword::FALSE) | Some(Keyword::OFF) => Some(false),
11892 _ => None,
11893 };
11894 CopyLegacyOption::Parallel(enabled)
11895 }
11896 Some(Keyword::PARQUET) => CopyLegacyOption::Parquet,
11897 Some(Keyword::PARTITION) => {
11898 self.expect_keyword(Keyword::BY)?;
11899 let columns = self.parse_parenthesized_column_list(IsOptional::Mandatory, false)?;
11900 let include = self.parse_keyword(Keyword::INCLUDE);
11901 CopyLegacyOption::PartitionBy(UnloadPartitionBy { columns, include })
11902 }
11903 Some(Keyword::REGION) => {
11904 let _ = self.parse_keyword(Keyword::AS);
11905 let region = self.parse_literal_string()?;
11906 CopyLegacyOption::Region(region)
11907 }
11908 Some(Keyword::REMOVEQUOTES) => CopyLegacyOption::RemoveQuotes,
11909 Some(Keyword::ROWGROUPSIZE) => {
11910 let _ = self.parse_keyword(Keyword::AS);
11911 let file_size = self.parse_file_size()?;
11912 CopyLegacyOption::RowGroupSize(file_size)
11913 }
11914 Some(Keyword::STATUPDATE) => {
11915 let enabled = match self.parse_one_of_keywords(&[
11916 Keyword::TRUE,
11917 Keyword::FALSE,
11918 Keyword::ON,
11919 Keyword::OFF,
11920 ]) {
11921 Some(Keyword::TRUE) | Some(Keyword::ON) => Some(true),
11922 Some(Keyword::FALSE) | Some(Keyword::OFF) => Some(false),
11923 _ => None,
11924 };
11925 CopyLegacyOption::StatUpdate(enabled)
11926 }
11927 Some(Keyword::TIMEFORMAT) => {
11928 let _ = self.parse_keyword(Keyword::AS);
11929 let fmt = if matches!(self.peek_token_ref().token, Token::SingleQuotedString(_)) {
11930 Some(self.parse_literal_string()?)
11931 } else {
11932 None
11933 };
11934 CopyLegacyOption::TimeFormat(fmt)
11935 }
11936 Some(Keyword::TRUNCATECOLUMNS) => CopyLegacyOption::TruncateColumns,
11937 Some(Keyword::ZSTD) => CopyLegacyOption::Zstd,
11938 _ => self.expected_ref("option", self.peek_token_ref())?,
11939 };
11940 Ok(ret)
11941 }
11942
11943 fn parse_file_size(&mut self) -> Result<FileSize, ParserError> {
11944 let size = self.parse_number_value()?;
11945 let unit = self.maybe_parse_file_size_unit();
11946 Ok(FileSize { size, unit })
11947 }
11948
11949 fn maybe_parse_file_size_unit(&mut self) -> Option<FileSizeUnit> {
11950 match self.parse_one_of_keywords(&[Keyword::MB, Keyword::GB]) {
11951 Some(Keyword::MB) => Some(FileSizeUnit::MB),
11952 Some(Keyword::GB) => Some(FileSizeUnit::GB),
11953 _ => None,
11954 }
11955 }
11956
11957 fn parse_iam_role_kind(&mut self) -> Result<IamRoleKind, ParserError> {
11958 if self.parse_keyword(Keyword::DEFAULT) {
11959 Ok(IamRoleKind::Default)
11960 } else {
11961 let arn = self.parse_literal_string()?;
11962 Ok(IamRoleKind::Arn(arn))
11963 }
11964 }
11965
11966 fn parse_copy_legacy_csv_option(&mut self) -> Result<CopyLegacyCsvOption, ParserError> {
11967 let ret = match self.parse_one_of_keywords(&[
11968 Keyword::HEADER,
11969 Keyword::QUOTE,
11970 Keyword::ESCAPE,
11971 Keyword::FORCE,
11972 ]) {
11973 Some(Keyword::HEADER) => CopyLegacyCsvOption::Header,
11974 Some(Keyword::QUOTE) => {
11975 let _ = self.parse_keyword(Keyword::AS); CopyLegacyCsvOption::Quote(self.parse_literal_char()?)
11977 }
11978 Some(Keyword::ESCAPE) => {
11979 let _ = self.parse_keyword(Keyword::AS); CopyLegacyCsvOption::Escape(self.parse_literal_char()?)
11981 }
11982 Some(Keyword::FORCE) if self.parse_keywords(&[Keyword::NOT, Keyword::NULL]) => {
11983 CopyLegacyCsvOption::ForceNotNull(
11984 self.parse_comma_separated(|p| p.parse_identifier())?,
11985 )
11986 }
11987 Some(Keyword::FORCE) if self.parse_keywords(&[Keyword::QUOTE]) => {
11988 CopyLegacyCsvOption::ForceQuote(
11989 self.parse_comma_separated(|p| p.parse_identifier())?,
11990 )
11991 }
11992 _ => self.expected_ref("csv option", self.peek_token_ref())?,
11993 };
11994 Ok(ret)
11995 }
11996
11997 fn parse_literal_char(&mut self) -> Result<char, ParserError> {
11998 let s = self.parse_literal_string()?;
11999 if s.len() != 1 {
12000 let loc = self
12001 .tokens
12002 .get(self.index - 1)
12003 .map_or(Location { line: 0, column: 0 }, |t| t.span.start);
12004 return parser_err!(format!("Expect a char, found {s:?}"), loc);
12005 }
12006 Ok(s.chars().next().unwrap())
12007 }
12008
12009 pub fn parse_tsv(&mut self) -> Vec<Option<String>> {
12012 self.parse_tab_value()
12013 }
12014
12015 pub fn parse_tab_value(&mut self) -> Vec<Option<String>> {
12017 let mut values = vec![];
12018 let mut content = String::new();
12019 while let Some(t) = self.next_token_no_skip().map(|t| &t.token) {
12020 match t {
12021 Token::Whitespace(Whitespace::Tab) => {
12022 values.push(Some(core::mem::take(&mut content)));
12023 }
12024 Token::Whitespace(Whitespace::Newline) => {
12025 values.push(Some(core::mem::take(&mut content)));
12026 }
12027 Token::Backslash => {
12028 if self.consume_token(&Token::Period) {
12029 return values;
12030 }
12031 if let Token::Word(w) = self.next_token().token {
12032 if w.value == "N" {
12033 values.push(None);
12034 }
12035 }
12036 }
12037 _ => {
12038 content.push_str(&t.to_string());
12039 }
12040 }
12041 }
12042 values
12043 }
12044
12045 pub fn parse_value(&mut self) -> Result<ValueWithSpan, ParserError> {
12047 let next_token = self.next_token();
12048 let span = next_token.span;
12049 let ok_value = |value: Value| Ok(value.with_span(span));
12050 match next_token.token {
12051 Token::Word(w) => match w.keyword {
12052 Keyword::TRUE if self.dialect.supports_boolean_literals() => {
12053 ok_value(Value::Boolean(true))
12054 }
12055 Keyword::FALSE if self.dialect.supports_boolean_literals() => {
12056 ok_value(Value::Boolean(false))
12057 }
12058 Keyword::NULL => ok_value(Value::Null),
12059 Keyword::NoKeyword if w.quote_style.is_some() => match w.quote_style {
12060 Some('"') => ok_value(Value::DoubleQuotedString(w.value)),
12061 Some('\'') => ok_value(Value::SingleQuotedString(w.value)),
12062 _ => self.expected(
12063 "A value?",
12064 TokenWithSpan {
12065 token: Token::Word(w),
12066 span,
12067 },
12068 )?,
12069 },
12070 _ => self.expected(
12071 "a concrete value",
12072 TokenWithSpan {
12073 token: Token::Word(w),
12074 span,
12075 },
12076 ),
12077 },
12078 Token::Number(n, l) => ok_value(Value::Number(Self::parse(n, span.start)?, l)),
12082 Token::SingleQuotedString(ref s) => ok_value(Value::SingleQuotedString(
12083 self.maybe_concat_string_literal(s.to_string()),
12084 )),
12085 Token::DoubleQuotedString(ref s) => ok_value(Value::DoubleQuotedString(
12086 self.maybe_concat_string_literal(s.to_string()),
12087 )),
12088 Token::TripleSingleQuotedString(ref s) => {
12089 ok_value(Value::TripleSingleQuotedString(s.to_string()))
12090 }
12091 Token::TripleDoubleQuotedString(ref s) => {
12092 ok_value(Value::TripleDoubleQuotedString(s.to_string()))
12093 }
12094 Token::DollarQuotedString(ref s) => ok_value(Value::DollarQuotedString(s.clone())),
12095 Token::SingleQuotedByteStringLiteral(ref s) => {
12096 ok_value(Value::SingleQuotedByteStringLiteral(s.clone()))
12097 }
12098 Token::DoubleQuotedByteStringLiteral(ref s) => {
12099 ok_value(Value::DoubleQuotedByteStringLiteral(s.clone()))
12100 }
12101 Token::TripleSingleQuotedByteStringLiteral(ref s) => {
12102 ok_value(Value::TripleSingleQuotedByteStringLiteral(s.clone()))
12103 }
12104 Token::TripleDoubleQuotedByteStringLiteral(ref s) => {
12105 ok_value(Value::TripleDoubleQuotedByteStringLiteral(s.clone()))
12106 }
12107 Token::SingleQuotedRawStringLiteral(ref s) => {
12108 ok_value(Value::SingleQuotedRawStringLiteral(s.clone()))
12109 }
12110 Token::DoubleQuotedRawStringLiteral(ref s) => {
12111 ok_value(Value::DoubleQuotedRawStringLiteral(s.clone()))
12112 }
12113 Token::TripleSingleQuotedRawStringLiteral(ref s) => {
12114 ok_value(Value::TripleSingleQuotedRawStringLiteral(s.clone()))
12115 }
12116 Token::TripleDoubleQuotedRawStringLiteral(ref s) => {
12117 ok_value(Value::TripleDoubleQuotedRawStringLiteral(s.clone()))
12118 }
12119 Token::NationalStringLiteral(ref s) => {
12120 ok_value(Value::NationalStringLiteral(s.to_string()))
12121 }
12122 Token::QuoteDelimitedStringLiteral(v) => {
12123 ok_value(Value::QuoteDelimitedStringLiteral(v))
12124 }
12125 Token::NationalQuoteDelimitedStringLiteral(v) => {
12126 ok_value(Value::NationalQuoteDelimitedStringLiteral(v))
12127 }
12128 Token::EscapedStringLiteral(ref s) => {
12129 ok_value(Value::EscapedStringLiteral(s.to_string()))
12130 }
12131 Token::UnicodeStringLiteral(ref s) => {
12132 ok_value(Value::UnicodeStringLiteral(s.to_string()))
12133 }
12134 Token::HexStringLiteral(ref s) => ok_value(Value::HexStringLiteral(s.to_string())),
12135 Token::Placeholder(ref s) => ok_value(Value::Placeholder(s.to_string())),
12136 tok @ Token::Colon | tok @ Token::AtSign => {
12137 let next_token = self.next_token_no_skip().unwrap_or(&EOF_TOKEN).clone();
12145 let ident = match next_token.token {
12146 Token::Word(w) => Ok(w.into_ident(next_token.span)),
12147 Token::Number(w, false) => Ok(Ident::with_span(next_token.span, w)),
12148 _ => self.expected("placeholder", next_token),
12149 }?;
12150 Ok(Value::Placeholder(format!("{tok}{}", ident.value))
12151 .with_span(Span::new(span.start, ident.span.end)))
12152 }
12153 unexpected => self.expected(
12154 "a value",
12155 TokenWithSpan {
12156 token: unexpected,
12157 span,
12158 },
12159 ),
12160 }
12161 }
12162
12163 fn maybe_concat_string_literal(&mut self, mut str: String) -> String {
12164 if self.dialect.supports_string_literal_concatenation() {
12165 while let Token::SingleQuotedString(ref s) | Token::DoubleQuotedString(ref s) =
12166 self.peek_token_ref().token
12167 {
12168 str.push_str(s);
12169 self.advance_token();
12170 }
12171 } else if self
12172 .dialect
12173 .supports_string_literal_concatenation_with_newline()
12174 {
12175 let mut after_newline = false;
12178 loop {
12179 match self.peek_token_no_skip().token {
12180 Token::Whitespace(Whitespace::Newline) => {
12181 after_newline = true;
12182 self.next_token_no_skip();
12183 }
12184 Token::Whitespace(_) => {
12185 self.next_token_no_skip();
12186 }
12187 Token::SingleQuotedString(ref s) | Token::DoubleQuotedString(ref s)
12188 if after_newline =>
12189 {
12190 str.push_str(s.clone().as_str());
12191 self.next_token_no_skip();
12192 after_newline = false;
12193 }
12194 _ => break,
12195 }
12196 }
12197 }
12198
12199 str
12200 }
12201
12202 pub fn parse_number_value(&mut self) -> Result<ValueWithSpan, ParserError> {
12204 let value_wrapper = self.parse_value()?;
12205 match &value_wrapper.value {
12206 Value::Number(_, _) => Ok(value_wrapper),
12207 Value::Placeholder(_) => Ok(value_wrapper),
12208 _ => {
12209 self.prev_token();
12210 self.expected_ref("literal number", self.peek_token_ref())
12211 }
12212 }
12213 }
12214
12215 pub fn parse_number(&mut self) -> Result<Expr, ParserError> {
12218 let next_token = self.next_token();
12219 match next_token.token {
12220 Token::Plus => Ok(Expr::UnaryOp {
12221 op: UnaryOperator::Plus,
12222 expr: Box::new(Expr::Value(self.parse_number_value()?)),
12223 }),
12224 Token::Minus => Ok(Expr::UnaryOp {
12225 op: UnaryOperator::Minus,
12226 expr: Box::new(Expr::Value(self.parse_number_value()?)),
12227 }),
12228 _ => {
12229 self.prev_token();
12230 Ok(Expr::Value(self.parse_number_value()?))
12231 }
12232 }
12233 }
12234
12235 fn parse_introduced_string_expr(&mut self) -> Result<Expr, ParserError> {
12236 let next_token = self.next_token();
12237 let span = next_token.span;
12238 match next_token.token {
12239 Token::SingleQuotedString(ref s) => Ok(Expr::Value(
12240 Value::SingleQuotedString(s.to_string()).with_span(span),
12241 )),
12242 Token::DoubleQuotedString(ref s) => Ok(Expr::Value(
12243 Value::DoubleQuotedString(s.to_string()).with_span(span),
12244 )),
12245 Token::HexStringLiteral(ref s) => Ok(Expr::Value(
12246 Value::HexStringLiteral(s.to_string()).with_span(span),
12247 )),
12248 unexpected => self.expected(
12249 "a string value",
12250 TokenWithSpan {
12251 token: unexpected,
12252 span,
12253 },
12254 ),
12255 }
12256 }
12257
12258 pub fn parse_literal_uint(&mut self) -> Result<u64, ParserError> {
12260 let next_token = self.next_token();
12261 match next_token.token {
12262 Token::Number(s, _) => Self::parse::<u64>(s, next_token.span.start),
12263 _ => self.expected("literal int", next_token),
12264 }
12265 }
12266
12267 fn parse_create_function_body_string(&mut self) -> Result<CreateFunctionBody, ParserError> {
12270 let parse_string_expr = |parser: &mut Parser| -> Result<Expr, ParserError> {
12271 let peek_token = parser.peek_token();
12272 let span = peek_token.span;
12273 match peek_token.token {
12274 Token::DollarQuotedString(s) if dialect_of!(parser is PostgreSqlDialect | GenericDialect) =>
12275 {
12276 parser.next_token();
12277 Ok(Expr::Value(Value::DollarQuotedString(s).with_span(span)))
12278 }
12279 _ => Ok(Expr::Value(
12280 Value::SingleQuotedString(parser.parse_literal_string()?).with_span(span),
12281 )),
12282 }
12283 };
12284
12285 Ok(CreateFunctionBody::AsBeforeOptions {
12286 body: parse_string_expr(self)?,
12287 link_symbol: if self.consume_token(&Token::Comma) {
12288 Some(parse_string_expr(self)?)
12289 } else {
12290 None
12291 },
12292 })
12293 }
12294
12295 pub fn parse_literal_string(&mut self) -> Result<String, ParserError> {
12297 let next_token = self.next_token();
12298 match next_token.token {
12299 Token::Word(Word {
12300 value,
12301 keyword: Keyword::NoKeyword,
12302 ..
12303 }) => Ok(value),
12304 Token::SingleQuotedString(s) => Ok(s),
12305 Token::DoubleQuotedString(s) => Ok(s),
12306 Token::EscapedStringLiteral(s) if dialect_of!(self is PostgreSqlDialect | GenericDialect) => {
12307 Ok(s)
12308 }
12309 Token::UnicodeStringLiteral(s) => Ok(s),
12310 _ => self.expected("literal string", next_token),
12311 }
12312 }
12313
12314 pub(crate) fn parse_boolean_string(&mut self) -> Result<bool, ParserError> {
12316 match self.parse_one_of_keywords(&[Keyword::TRUE, Keyword::FALSE]) {
12317 Some(Keyword::TRUE) => Ok(true),
12318 Some(Keyword::FALSE) => Ok(false),
12319 _ => self.expected_ref("TRUE or FALSE", self.peek_token_ref()),
12320 }
12321 }
12322
12323 pub fn parse_unicode_is_normalized(&mut self, expr: Expr) -> Result<Expr, ParserError> {
12325 let neg = self.parse_keyword(Keyword::NOT);
12326 let normalized_form = self.maybe_parse(|parser| {
12327 match parser.parse_one_of_keywords(&[
12328 Keyword::NFC,
12329 Keyword::NFD,
12330 Keyword::NFKC,
12331 Keyword::NFKD,
12332 ]) {
12333 Some(Keyword::NFC) => Ok(NormalizationForm::NFC),
12334 Some(Keyword::NFD) => Ok(NormalizationForm::NFD),
12335 Some(Keyword::NFKC) => Ok(NormalizationForm::NFKC),
12336 Some(Keyword::NFKD) => Ok(NormalizationForm::NFKD),
12337 _ => parser.expected_ref("unicode normalization form", parser.peek_token_ref()),
12338 }
12339 })?;
12340 if self.parse_keyword(Keyword::NORMALIZED) {
12341 return Ok(Expr::IsNormalized {
12342 expr: Box::new(expr),
12343 form: normalized_form,
12344 negated: neg,
12345 });
12346 }
12347 self.expected_ref("unicode normalization form", self.peek_token_ref())
12348 }
12349
12350 pub fn parse_enum_values(&mut self) -> Result<Vec<EnumMember>, ParserError> {
12352 self.expect_token(&Token::LParen)?;
12353 let values = self.parse_comma_separated(|parser| {
12354 let name = parser.parse_literal_string()?;
12355 let e = if parser.consume_token(&Token::Eq) {
12356 let value = parser.parse_number()?;
12357 EnumMember::NamedValue(name, value)
12358 } else {
12359 EnumMember::Name(name)
12360 };
12361 Ok(e)
12362 })?;
12363 self.expect_token(&Token::RParen)?;
12364
12365 Ok(values)
12366 }
12367
12368 pub fn parse_data_type(&mut self) -> Result<DataType, ParserError> {
12370 let (ty, trailing_bracket) = self.parse_data_type_helper()?;
12371 if trailing_bracket.0 {
12372 return parser_err!(
12373 format!("unmatched > after parsing data type {ty}"),
12374 self.peek_token_ref()
12375 );
12376 }
12377
12378 Ok(ty)
12379 }
12380
12381 fn parse_data_type_helper(
12382 &mut self,
12383 ) -> Result<(DataType, MatchedTrailingBracket), ParserError> {
12384 let dialect = self.dialect;
12385 self.advance_token();
12386 let next_token = self.get_current_token();
12387 let next_token_index = self.get_current_index();
12388
12389 let mut trailing_bracket: MatchedTrailingBracket = false.into();
12390 let mut data = match &next_token.token {
12391 Token::Word(w) => match w.keyword {
12392 Keyword::BOOLEAN => Ok(DataType::Boolean),
12393 Keyword::BOOL => Ok(DataType::Bool),
12394 Keyword::FLOAT => {
12395 let precision = self.parse_exact_number_optional_precision_scale()?;
12396
12397 if self.parse_keyword(Keyword::UNSIGNED) {
12398 Ok(DataType::FloatUnsigned(precision))
12399 } else {
12400 Ok(DataType::Float(precision))
12401 }
12402 }
12403 Keyword::REAL => {
12404 if self.parse_keyword(Keyword::UNSIGNED) {
12405 Ok(DataType::RealUnsigned)
12406 } else {
12407 Ok(DataType::Real)
12408 }
12409 }
12410 Keyword::FLOAT4 => Ok(DataType::Float4),
12411 Keyword::FLOAT32 => Ok(DataType::Float32),
12412 Keyword::FLOAT64 => Ok(DataType::Float64),
12413 Keyword::FLOAT8 => Ok(DataType::Float8),
12414 Keyword::DOUBLE => {
12415 if self.parse_keyword(Keyword::PRECISION) {
12416 if self.parse_keyword(Keyword::UNSIGNED) {
12417 Ok(DataType::DoublePrecisionUnsigned)
12418 } else {
12419 Ok(DataType::DoublePrecision)
12420 }
12421 } else {
12422 let precision = self.parse_exact_number_optional_precision_scale()?;
12423
12424 if self.parse_keyword(Keyword::UNSIGNED) {
12425 Ok(DataType::DoubleUnsigned(precision))
12426 } else {
12427 Ok(DataType::Double(precision))
12428 }
12429 }
12430 }
12431 Keyword::TINYINT => {
12432 let optional_precision = self.parse_optional_precision();
12433 if self.parse_keyword(Keyword::UNSIGNED) {
12434 Ok(DataType::TinyIntUnsigned(optional_precision?))
12435 } else {
12436 if dialect.supports_data_type_signed_suffix() {
12437 let _ = self.parse_keyword(Keyword::SIGNED);
12438 }
12439 Ok(DataType::TinyInt(optional_precision?))
12440 }
12441 }
12442 Keyword::INT2 => {
12443 let optional_precision = self.parse_optional_precision();
12444 if self.parse_keyword(Keyword::UNSIGNED) {
12445 Ok(DataType::Int2Unsigned(optional_precision?))
12446 } else {
12447 Ok(DataType::Int2(optional_precision?))
12448 }
12449 }
12450 Keyword::SMALLINT => {
12451 let optional_precision = self.parse_optional_precision();
12452 if self.parse_keyword(Keyword::UNSIGNED) {
12453 Ok(DataType::SmallIntUnsigned(optional_precision?))
12454 } else {
12455 if dialect.supports_data_type_signed_suffix() {
12456 let _ = self.parse_keyword(Keyword::SIGNED);
12457 }
12458 Ok(DataType::SmallInt(optional_precision?))
12459 }
12460 }
12461 Keyword::MEDIUMINT => {
12462 let optional_precision = self.parse_optional_precision();
12463 if self.parse_keyword(Keyword::UNSIGNED) {
12464 Ok(DataType::MediumIntUnsigned(optional_precision?))
12465 } else {
12466 if dialect.supports_data_type_signed_suffix() {
12467 let _ = self.parse_keyword(Keyword::SIGNED);
12468 }
12469 Ok(DataType::MediumInt(optional_precision?))
12470 }
12471 }
12472 Keyword::INT => {
12473 let optional_precision = self.parse_optional_precision();
12474 if self.parse_keyword(Keyword::UNSIGNED) {
12475 Ok(DataType::IntUnsigned(optional_precision?))
12476 } else {
12477 if dialect.supports_data_type_signed_suffix() {
12478 let _ = self.parse_keyword(Keyword::SIGNED);
12479 }
12480 Ok(DataType::Int(optional_precision?))
12481 }
12482 }
12483 Keyword::INT4 => {
12484 let optional_precision = self.parse_optional_precision();
12485 if self.parse_keyword(Keyword::UNSIGNED) {
12486 Ok(DataType::Int4Unsigned(optional_precision?))
12487 } else {
12488 Ok(DataType::Int4(optional_precision?))
12489 }
12490 }
12491 Keyword::INT8 => {
12492 let optional_precision = self.parse_optional_precision();
12493 if self.parse_keyword(Keyword::UNSIGNED) {
12494 Ok(DataType::Int8Unsigned(optional_precision?))
12495 } else {
12496 Ok(DataType::Int8(optional_precision?))
12497 }
12498 }
12499 Keyword::INT16 => Ok(DataType::Int16),
12500 Keyword::INT32 => Ok(DataType::Int32),
12501 Keyword::INT64 => Ok(DataType::Int64),
12502 Keyword::INT128 => Ok(DataType::Int128),
12503 Keyword::INT256 => Ok(DataType::Int256),
12504 Keyword::INTEGER => {
12505 let optional_precision = self.parse_optional_precision();
12506 if self.parse_keyword(Keyword::UNSIGNED) {
12507 Ok(DataType::IntegerUnsigned(optional_precision?))
12508 } else {
12509 if dialect.supports_data_type_signed_suffix() {
12510 let _ = self.parse_keyword(Keyword::SIGNED);
12511 }
12512 Ok(DataType::Integer(optional_precision?))
12513 }
12514 }
12515 Keyword::BIGINT => {
12516 let optional_precision = self.parse_optional_precision();
12517 if self.parse_keyword(Keyword::UNSIGNED) {
12518 Ok(DataType::BigIntUnsigned(optional_precision?))
12519 } else {
12520 if dialect.supports_data_type_signed_suffix() {
12521 let _ = self.parse_keyword(Keyword::SIGNED);
12522 }
12523 Ok(DataType::BigInt(optional_precision?))
12524 }
12525 }
12526 Keyword::HUGEINT => Ok(DataType::HugeInt),
12527 Keyword::UBIGINT => Ok(DataType::UBigInt),
12528 Keyword::UHUGEINT => Ok(DataType::UHugeInt),
12529 Keyword::USMALLINT => Ok(DataType::USmallInt),
12530 Keyword::UTINYINT => Ok(DataType::UTinyInt),
12531 Keyword::UINT8 => Ok(DataType::UInt8),
12532 Keyword::UINT16 => Ok(DataType::UInt16),
12533 Keyword::UINT32 => Ok(DataType::UInt32),
12534 Keyword::UINT64 => Ok(DataType::UInt64),
12535 Keyword::UINT128 => Ok(DataType::UInt128),
12536 Keyword::UINT256 => Ok(DataType::UInt256),
12537 Keyword::VARCHAR => Ok(DataType::Varchar(self.parse_optional_character_length()?)),
12538 Keyword::NVARCHAR => {
12539 Ok(DataType::Nvarchar(self.parse_optional_character_length()?))
12540 }
12541 Keyword::CHARACTER => {
12542 if self.parse_keyword(Keyword::VARYING) {
12543 Ok(DataType::CharacterVarying(
12544 self.parse_optional_character_length()?,
12545 ))
12546 } else if self.parse_keywords(&[Keyword::LARGE, Keyword::OBJECT]) {
12547 Ok(DataType::CharacterLargeObject(
12548 self.parse_optional_precision()?,
12549 ))
12550 } else {
12551 Ok(DataType::Character(self.parse_optional_character_length()?))
12552 }
12553 }
12554 Keyword::CHAR => {
12555 if self.parse_keyword(Keyword::VARYING) {
12556 Ok(DataType::CharVarying(
12557 self.parse_optional_character_length()?,
12558 ))
12559 } else if self.parse_keywords(&[Keyword::LARGE, Keyword::OBJECT]) {
12560 Ok(DataType::CharLargeObject(self.parse_optional_precision()?))
12561 } else {
12562 Ok(DataType::Char(self.parse_optional_character_length()?))
12563 }
12564 }
12565 Keyword::CLOB => Ok(DataType::Clob(self.parse_optional_precision()?)),
12566 Keyword::BINARY => Ok(DataType::Binary(self.parse_optional_precision()?)),
12567 Keyword::VARBINARY => Ok(DataType::Varbinary(self.parse_optional_binary_length()?)),
12568 Keyword::BLOB => Ok(DataType::Blob(self.parse_optional_precision()?)),
12569 Keyword::TINYBLOB => Ok(DataType::TinyBlob),
12570 Keyword::MEDIUMBLOB => Ok(DataType::MediumBlob),
12571 Keyword::LONGBLOB => Ok(DataType::LongBlob),
12572 Keyword::LONG if self.dialect.supports_long_type_as_bigint() => {
12573 Ok(DataType::BigInt(None))
12574 }
12575 Keyword::BYTES => Ok(DataType::Bytes(self.parse_optional_precision()?)),
12576 Keyword::BIT => {
12577 if self.parse_keyword(Keyword::VARYING) {
12578 Ok(DataType::BitVarying(self.parse_optional_precision()?))
12579 } else {
12580 Ok(DataType::Bit(self.parse_optional_precision()?))
12581 }
12582 }
12583 Keyword::VARBIT => Ok(DataType::VarBit(self.parse_optional_precision()?)),
12584 Keyword::UUID => Ok(DataType::Uuid),
12585 Keyword::DATE => Ok(DataType::Date),
12586 Keyword::DATE32 => Ok(DataType::Date32),
12587 Keyword::DATETIME => Ok(DataType::Datetime(self.parse_optional_precision()?)),
12588 Keyword::DATETIME64 => {
12589 self.prev_token();
12590 let (precision, time_zone) = self.parse_datetime_64()?;
12591 Ok(DataType::Datetime64(precision, time_zone))
12592 }
12593 Keyword::TIMESTAMP => {
12594 let precision = self.parse_optional_precision()?;
12595 let tz = if self.parse_keyword(Keyword::WITH) {
12596 self.expect_keywords(&[Keyword::TIME, Keyword::ZONE])?;
12597 TimezoneInfo::WithTimeZone
12598 } else if self.parse_keyword(Keyword::WITHOUT) {
12599 self.expect_keywords(&[Keyword::TIME, Keyword::ZONE])?;
12600 TimezoneInfo::WithoutTimeZone
12601 } else {
12602 TimezoneInfo::None
12603 };
12604 Ok(DataType::Timestamp(precision, tz))
12605 }
12606 Keyword::TIMESTAMPTZ => Ok(DataType::Timestamp(
12607 self.parse_optional_precision()?,
12608 TimezoneInfo::Tz,
12609 )),
12610 Keyword::TIMESTAMP_NTZ => {
12611 Ok(DataType::TimestampNtz(self.parse_optional_precision()?))
12612 }
12613 Keyword::TIME => {
12614 let precision = self.parse_optional_precision()?;
12615 let tz = if self.parse_keyword(Keyword::WITH) {
12616 self.expect_keywords(&[Keyword::TIME, Keyword::ZONE])?;
12617 TimezoneInfo::WithTimeZone
12618 } else if self.parse_keyword(Keyword::WITHOUT) {
12619 self.expect_keywords(&[Keyword::TIME, Keyword::ZONE])?;
12620 TimezoneInfo::WithoutTimeZone
12621 } else {
12622 TimezoneInfo::None
12623 };
12624 Ok(DataType::Time(precision, tz))
12625 }
12626 Keyword::TIMETZ => Ok(DataType::Time(
12627 self.parse_optional_precision()?,
12628 TimezoneInfo::Tz,
12629 )),
12630 Keyword::INTERVAL => {
12631 if self.dialect.supports_interval_options() {
12632 let fields = self.maybe_parse_optional_interval_fields()?;
12633 let precision = self.parse_optional_precision()?;
12634 Ok(DataType::Interval { fields, precision })
12635 } else {
12636 Ok(DataType::Interval {
12637 fields: None,
12638 precision: None,
12639 })
12640 }
12641 }
12642 Keyword::JSON => Ok(DataType::JSON),
12643 Keyword::JSONB => Ok(DataType::JSONB),
12644 Keyword::REGCLASS => Ok(DataType::Regclass),
12645 Keyword::STRING => Ok(DataType::String(self.parse_optional_precision()?)),
12646 Keyword::FIXEDSTRING => {
12647 self.expect_token(&Token::LParen)?;
12648 let character_length = self.parse_literal_uint()?;
12649 self.expect_token(&Token::RParen)?;
12650 Ok(DataType::FixedString(character_length))
12651 }
12652 Keyword::TEXT => {
12653 if let Some(modifiers) = self.parse_optional_type_modifiers()? {
12654 Ok(DataType::Custom(
12655 ObjectName::from(vec![Ident::new("TEXT")]),
12656 modifiers,
12657 ))
12658 } else {
12659 Ok(DataType::Text)
12660 }
12661 }
12662 Keyword::TINYTEXT => Ok(DataType::TinyText),
12663 Keyword::MEDIUMTEXT => Ok(DataType::MediumText),
12664 Keyword::LONGTEXT => Ok(DataType::LongText),
12665 Keyword::BYTEA => Ok(DataType::Bytea),
12666 Keyword::NUMERIC => Ok(DataType::Numeric(
12667 self.parse_exact_number_optional_precision_scale()?,
12668 )),
12669 Keyword::DECIMAL => {
12670 let precision = self.parse_exact_number_optional_precision_scale()?;
12671
12672 if self.parse_keyword(Keyword::UNSIGNED) {
12673 Ok(DataType::DecimalUnsigned(precision))
12674 } else {
12675 Ok(DataType::Decimal(precision))
12676 }
12677 }
12678 Keyword::DEC => {
12679 let precision = self.parse_exact_number_optional_precision_scale()?;
12680
12681 if self.parse_keyword(Keyword::UNSIGNED) {
12682 Ok(DataType::DecUnsigned(precision))
12683 } else {
12684 Ok(DataType::Dec(precision))
12685 }
12686 }
12687 Keyword::BIGNUMERIC => Ok(DataType::BigNumeric(
12688 self.parse_exact_number_optional_precision_scale()?,
12689 )),
12690 Keyword::BIGDECIMAL => Ok(DataType::BigDecimal(
12691 self.parse_exact_number_optional_precision_scale()?,
12692 )),
12693 Keyword::ENUM => Ok(DataType::Enum(self.parse_enum_values()?, None)),
12694 Keyword::ENUM8 => Ok(DataType::Enum(self.parse_enum_values()?, Some(8))),
12695 Keyword::ENUM16 => Ok(DataType::Enum(self.parse_enum_values()?, Some(16))),
12696 Keyword::SET => Ok(DataType::Set(self.parse_string_values()?)),
12697 Keyword::ARRAY => {
12698 if self.dialect.supports_array_typedef_without_element_type() {
12699 Ok(DataType::Array(ArrayElemTypeDef::None))
12700 } else if dialect_of!(self is ClickHouseDialect) {
12701 Ok(self.parse_sub_type(|internal_type| {
12702 DataType::Array(ArrayElemTypeDef::Parenthesis(internal_type))
12703 })?)
12704 } else {
12705 self.expect_token(&Token::Lt)?;
12706 let (inside_type, _trailing_bracket) = self.parse_data_type_helper()?;
12707 trailing_bracket = self.expect_closing_angle_bracket(_trailing_bracket)?;
12708 Ok(DataType::Array(ArrayElemTypeDef::AngleBracket(Box::new(
12709 inside_type,
12710 ))))
12711 }
12712 }
12713 Keyword::STRUCT if dialect_is!(dialect is DuckDbDialect) => {
12714 self.prev_token();
12715 let field_defs = self.parse_duckdb_struct_type_def()?;
12716 Ok(DataType::Struct(field_defs, StructBracketKind::Parentheses))
12717 }
12718 Keyword::STRUCT if self.dialect.supports_struct_literal() => {
12719 self.prev_token();
12720 let (field_defs, _trailing_bracket) =
12721 self.parse_struct_type_def(Self::parse_struct_field_def)?;
12722 trailing_bracket = _trailing_bracket;
12723 Ok(DataType::Struct(
12724 field_defs,
12725 StructBracketKind::AngleBrackets,
12726 ))
12727 }
12728 Keyword::UNION if dialect_is!(dialect is DuckDbDialect | GenericDialect) => {
12729 self.prev_token();
12730 let fields = self.parse_union_type_def()?;
12731 Ok(DataType::Union(fields))
12732 }
12733 Keyword::NULLABLE if dialect_is!(dialect is ClickHouseDialect | GenericDialect) => {
12734 Ok(self.parse_sub_type(DataType::Nullable)?)
12735 }
12736 Keyword::LOWCARDINALITY if dialect_is!(dialect is ClickHouseDialect | GenericDialect) => {
12737 Ok(self.parse_sub_type(DataType::LowCardinality)?)
12738 }
12739 Keyword::MAP if self.dialect.supports_map_literal_with_angle_brackets() => {
12740 self.expect_token(&Token::Lt)?;
12741 let key_data_type = self.parse_data_type()?;
12742 self.expect_token(&Token::Comma)?;
12743 let (value_data_type, _trailing_bracket) = self.parse_data_type_helper()?;
12744 trailing_bracket = self.expect_closing_angle_bracket(_trailing_bracket)?;
12745 Ok(DataType::Map(
12746 Box::new(key_data_type),
12747 Box::new(value_data_type),
12748 ))
12749 }
12750 Keyword::MAP if dialect_is!(dialect is ClickHouseDialect | GenericDialect) => {
12751 self.prev_token();
12752 let (key_data_type, value_data_type) = self.parse_click_house_map_def()?;
12753 Ok(DataType::Map(
12754 Box::new(key_data_type),
12755 Box::new(value_data_type),
12756 ))
12757 }
12758 Keyword::NESTED if dialect_is!(dialect is ClickHouseDialect | GenericDialect) => {
12759 self.expect_token(&Token::LParen)?;
12760 let field_defs = self.parse_comma_separated(Parser::parse_column_def)?;
12761 self.expect_token(&Token::RParen)?;
12762 Ok(DataType::Nested(field_defs))
12763 }
12764 Keyword::TUPLE if dialect_is!(dialect is ClickHouseDialect | GenericDialect) => {
12765 self.prev_token();
12766 let field_defs = self.parse_click_house_tuple_def()?;
12767 Ok(DataType::Tuple(field_defs))
12768 }
12769 Keyword::TRIGGER => Ok(DataType::Trigger),
12770 Keyword::ANY if self.peek_keyword(Keyword::TYPE) => {
12771 let _ = self.parse_keyword(Keyword::TYPE);
12772 Ok(DataType::AnyType)
12773 }
12774 Keyword::TABLE => {
12775 if self.peek_token_ref().token == Token::LParen {
12778 let columns = self.parse_returns_table_columns()?;
12779 Ok(DataType::Table(Some(columns)))
12780 } else {
12781 Ok(DataType::Table(None))
12782 }
12783 }
12784 Keyword::SIGNED => {
12785 if self.parse_keyword(Keyword::INTEGER) {
12786 Ok(DataType::SignedInteger)
12787 } else {
12788 Ok(DataType::Signed)
12789 }
12790 }
12791 Keyword::UNSIGNED => {
12792 if self.parse_keyword(Keyword::INTEGER) {
12793 Ok(DataType::UnsignedInteger)
12794 } else {
12795 Ok(DataType::Unsigned)
12796 }
12797 }
12798 Keyword::TSVECTOR if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) => {
12799 Ok(DataType::TsVector)
12800 }
12801 Keyword::TSQUERY if dialect_is!(dialect is PostgreSqlDialect | GenericDialect) => {
12802 Ok(DataType::TsQuery)
12803 }
12804 _ => {
12805 self.prev_token();
12806 let type_name = self.parse_object_name(false)?;
12807 if let Some(modifiers) = self.parse_optional_type_modifiers()? {
12808 Ok(DataType::Custom(type_name, modifiers))
12809 } else {
12810 Ok(DataType::Custom(type_name, vec![]))
12811 }
12812 }
12813 },
12814 _ => self.expected_at("a data type name", next_token_index),
12815 }?;
12816
12817 if self.dialect.supports_array_typedef_with_brackets() {
12818 while self.consume_token(&Token::LBracket) {
12819 let size = self.maybe_parse(|p| p.parse_literal_uint())?;
12821 self.expect_token(&Token::RBracket)?;
12822 data = DataType::Array(ArrayElemTypeDef::SquareBracket(Box::new(data), size))
12823 }
12824 }
12825 Ok((data, trailing_bracket))
12826 }
12827
12828 fn parse_returns_table_column(&mut self) -> Result<ColumnDef, ParserError> {
12829 self.parse_column_def()
12830 }
12831
12832 fn parse_returns_table_columns(&mut self) -> Result<Vec<ColumnDef>, ParserError> {
12833 self.expect_token(&Token::LParen)?;
12834 let columns = self.parse_comma_separated(Parser::parse_returns_table_column)?;
12835 self.expect_token(&Token::RParen)?;
12836 Ok(columns)
12837 }
12838
12839 pub fn parse_string_values(&mut self) -> Result<Vec<String>, ParserError> {
12841 self.expect_token(&Token::LParen)?;
12842 let mut values = Vec::new();
12843 loop {
12844 let next_token = self.next_token();
12845 match next_token.token {
12846 Token::SingleQuotedString(value) => values.push(value),
12847 _ => self.expected("a string", next_token)?,
12848 }
12849 let next_token = self.next_token();
12850 match next_token.token {
12851 Token::Comma => (),
12852 Token::RParen => break,
12853 _ => self.expected(", or }", next_token)?,
12854 }
12855 }
12856 Ok(values)
12857 }
12858
12859 pub fn parse_identifier_with_alias(&mut self) -> Result<IdentWithAlias, ParserError> {
12861 let ident = self.parse_identifier()?;
12862 self.expect_keyword_is(Keyword::AS)?;
12863 let alias = self.parse_identifier()?;
12864 Ok(IdentWithAlias { ident, alias })
12865 }
12866
12867 fn parse_identifier_with_optional_alias(&mut self) -> Result<IdentWithAlias, ParserError> {
12869 let ident = self.parse_identifier()?;
12870 let _after_as = self.parse_keyword(Keyword::AS);
12871 let alias = self.parse_identifier()?;
12872 Ok(IdentWithAlias { ident, alias })
12873 }
12874
12875 fn parse_pipe_operator_queries(&mut self) -> Result<Vec<Query>, ParserError> {
12877 self.parse_comma_separated(|parser| {
12878 parser.expect_token(&Token::LParen)?;
12879 let query = parser.parse_query()?;
12880 parser.expect_token(&Token::RParen)?;
12881 Ok(*query)
12882 })
12883 }
12884
12885 fn parse_distinct_required_set_quantifier(
12887 &mut self,
12888 operator_name: &str,
12889 ) -> Result<SetQuantifier, ParserError> {
12890 let quantifier = self.parse_set_quantifier(&Some(SetOperator::Intersect));
12891 match quantifier {
12892 SetQuantifier::Distinct | SetQuantifier::DistinctByName => Ok(quantifier),
12893 _ => Err(ParserError::ParserError(format!(
12894 "{operator_name} pipe operator requires DISTINCT modifier",
12895 ))),
12896 }
12897 }
12898
12899 fn parse_identifier_optional_alias(&mut self) -> Result<Option<Ident>, ParserError> {
12901 if self.parse_keyword(Keyword::AS) {
12902 Ok(Some(self.parse_identifier()?))
12903 } else {
12904 self.maybe_parse(|parser| parser.parse_identifier())
12906 }
12907 }
12908
12909 fn maybe_parse_select_item_alias(&mut self) -> Result<Option<Ident>, ParserError> {
12911 fn validator(explicit: bool, kw: &Keyword, parser: &mut Parser) -> bool {
12912 parser.dialect.is_select_item_alias(explicit, kw, parser)
12913 }
12914 self.parse_optional_alias_inner(None, validator)
12915 }
12916
12917 pub fn maybe_parse_table_alias(&mut self) -> Result<Option<TableAlias>, ParserError> {
12921 fn validator(explicit: bool, kw: &Keyword, parser: &mut Parser) -> bool {
12922 parser.dialect.is_table_factor_alias(explicit, kw, parser)
12923 }
12924 let explicit = self.peek_keyword(Keyword::AS);
12925 match self.parse_optional_alias_inner(None, validator)? {
12926 Some(name) => {
12927 let columns = self.parse_table_alias_column_defs()?;
12928 let at = if self.dialect.supports_partiql() && self.parse_keyword(Keyword::AT) {
12929 Some(self.parse_identifier()?)
12930 } else {
12931 None
12932 };
12933 Ok(Some(TableAlias {
12934 explicit,
12935 name,
12936 columns,
12937 at,
12938 }))
12939 }
12940 None => Ok(None),
12941 }
12942 }
12943
12944 fn parse_table_index_hints(&mut self) -> Result<Vec<TableIndexHints>, ParserError> {
12945 let mut hints = vec![];
12946 while let Some(hint_type) =
12947 self.parse_one_of_keywords(&[Keyword::USE, Keyword::IGNORE, Keyword::FORCE])
12948 {
12949 let hint_type = match hint_type {
12950 Keyword::USE => TableIndexHintType::Use,
12951 Keyword::IGNORE => TableIndexHintType::Ignore,
12952 Keyword::FORCE => TableIndexHintType::Force,
12953 _ => {
12954 return self.expected_ref(
12955 "expected to match USE/IGNORE/FORCE keyword",
12956 self.peek_token_ref(),
12957 )
12958 }
12959 };
12960 let index_type = match self.parse_one_of_keywords(&[Keyword::INDEX, Keyword::KEY]) {
12961 Some(Keyword::INDEX) => TableIndexType::Index,
12962 Some(Keyword::KEY) => TableIndexType::Key,
12963 _ => {
12964 return self
12965 .expected_ref("expected to match INDEX/KEY keyword", self.peek_token_ref())
12966 }
12967 };
12968 let for_clause = if self.parse_keyword(Keyword::FOR) {
12969 let clause = if self.parse_keyword(Keyword::JOIN) {
12970 TableIndexHintForClause::Join
12971 } else if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
12972 TableIndexHintForClause::OrderBy
12973 } else if self.parse_keywords(&[Keyword::GROUP, Keyword::BY]) {
12974 TableIndexHintForClause::GroupBy
12975 } else {
12976 return self.expected_ref(
12977 "expected to match FOR/ORDER BY/GROUP BY table hint in for clause",
12978 self.peek_token_ref(),
12979 );
12980 };
12981 Some(clause)
12982 } else {
12983 None
12984 };
12985
12986 self.expect_token(&Token::LParen)?;
12987 let index_names = if self.peek_token_ref().token != Token::RParen {
12988 self.parse_comma_separated(Parser::parse_identifier)?
12989 } else {
12990 vec![]
12991 };
12992 self.expect_token(&Token::RParen)?;
12993 hints.push(TableIndexHints {
12994 hint_type,
12995 index_type,
12996 for_clause,
12997 index_names,
12998 });
12999 }
13000 Ok(hints)
13001 }
13002
13003 pub fn parse_optional_alias(
13007 &mut self,
13008 reserved_kwds: &[Keyword],
13009 ) -> Result<Option<Ident>, ParserError> {
13010 fn validator(_explicit: bool, _kw: &Keyword, _parser: &mut Parser) -> bool {
13011 false
13012 }
13013 self.parse_optional_alias_inner(Some(reserved_kwds), validator)
13014 }
13015
13016 fn parse_optional_alias_inner<F>(
13023 &mut self,
13024 reserved_kwds: Option<&[Keyword]>,
13025 validator: F,
13026 ) -> Result<Option<Ident>, ParserError>
13027 where
13028 F: Fn(bool, &Keyword, &mut Parser) -> bool,
13029 {
13030 let after_as = self.parse_keyword(Keyword::AS);
13031
13032 let next_token = self.next_token();
13033 match next_token.token {
13034 Token::Word(w)
13037 if reserved_kwds.is_some()
13038 && (after_as || reserved_kwds.is_some_and(|x| !x.contains(&w.keyword))) =>
13039 {
13040 Ok(Some(w.into_ident(next_token.span)))
13041 }
13042 Token::Word(w) if validator(after_as, &w.keyword, self) => {
13046 Ok(Some(w.into_ident(next_token.span)))
13047 }
13048 Token::SingleQuotedString(s) => Ok(Some(Ident::with_quote('\'', s))),
13050 Token::DoubleQuotedString(s) => Ok(Some(Ident::with_quote('\"', s))),
13051 _ => {
13052 if after_as {
13053 return self.expected("an identifier after AS", next_token);
13054 }
13055 self.prev_token();
13056 Ok(None) }
13058 }
13059 }
13060
13061 pub fn parse_optional_group_by(&mut self) -> Result<Option<GroupByExpr>, ParserError> {
13063 if self.parse_keywords(&[Keyword::GROUP, Keyword::BY]) {
13064 let expressions = if self.parse_keyword(Keyword::ALL) {
13065 None
13066 } else {
13067 Some(self.parse_comma_separated(Parser::parse_group_by_expr)?)
13068 };
13069
13070 let mut modifiers = vec![];
13071 if self.dialect.supports_group_by_with_modifier() {
13072 loop {
13073 if !self.parse_keyword(Keyword::WITH) {
13074 break;
13075 }
13076 let keyword = self.expect_one_of_keywords(&[
13077 Keyword::ROLLUP,
13078 Keyword::CUBE,
13079 Keyword::TOTALS,
13080 ])?;
13081 modifiers.push(match keyword {
13082 Keyword::ROLLUP => GroupByWithModifier::Rollup,
13083 Keyword::CUBE => GroupByWithModifier::Cube,
13084 Keyword::TOTALS => GroupByWithModifier::Totals,
13085 _ => {
13086 return parser_err!(
13087 "BUG: expected to match GroupBy modifier keyword",
13088 self.peek_token_ref().span.start
13089 )
13090 }
13091 });
13092 }
13093 }
13094 if self.parse_keywords(&[Keyword::GROUPING, Keyword::SETS]) {
13095 self.expect_token(&Token::LParen)?;
13096 let result = self.parse_comma_separated(|p| {
13097 if p.peek_token_ref().token == Token::LParen {
13098 p.parse_tuple(true, true)
13099 } else {
13100 Ok(vec![p.parse_expr()?])
13101 }
13102 })?;
13103 self.expect_token(&Token::RParen)?;
13104 modifiers.push(GroupByWithModifier::GroupingSets(Expr::GroupingSets(
13105 result,
13106 )));
13107 };
13108 let group_by = match expressions {
13109 None => GroupByExpr::All(modifiers),
13110 Some(exprs) => GroupByExpr::Expressions(exprs, modifiers),
13111 };
13112 Ok(Some(group_by))
13113 } else {
13114 Ok(None)
13115 }
13116 }
13117
13118 pub fn parse_optional_order_by(&mut self) -> Result<Option<OrderBy>, ParserError> {
13120 if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
13121 let order_by =
13122 if self.dialect.supports_order_by_all() && self.parse_keyword(Keyword::ALL) {
13123 let order_by_options = self.parse_order_by_options()?;
13124 OrderBy {
13125 kind: OrderByKind::All(order_by_options),
13126 interpolate: None,
13127 }
13128 } else {
13129 let exprs = self.parse_comma_separated(Parser::parse_order_by_expr)?;
13130 let interpolate = if self.dialect.supports_interpolate() {
13131 self.parse_interpolations()?
13132 } else {
13133 None
13134 };
13135 OrderBy {
13136 kind: OrderByKind::Expressions(exprs),
13137 interpolate,
13138 }
13139 };
13140 Ok(Some(order_by))
13141 } else {
13142 Ok(None)
13143 }
13144 }
13145
13146 fn parse_optional_limit_clause(&mut self) -> Result<Option<LimitClause>, ParserError> {
13147 let mut offset = if self.parse_keyword(Keyword::OFFSET) {
13148 Some(self.parse_offset()?)
13149 } else {
13150 None
13151 };
13152
13153 let (limit, limit_by) = if self.parse_keyword(Keyword::LIMIT) {
13154 let expr = self.parse_limit()?;
13155
13156 if self.dialect.supports_limit_comma()
13157 && offset.is_none()
13158 && expr.is_some() && self.consume_token(&Token::Comma)
13160 {
13161 let offset = expr.ok_or_else(|| {
13162 ParserError::ParserError(
13163 "Missing offset for LIMIT <offset>, <limit>".to_string(),
13164 )
13165 })?;
13166 return Ok(Some(LimitClause::OffsetCommaLimit {
13167 offset,
13168 limit: self.parse_expr()?,
13169 }));
13170 }
13171
13172 let limit_by = if self.dialect.supports_limit_by() && self.parse_keyword(Keyword::BY) {
13173 Some(self.parse_comma_separated(Parser::parse_expr)?)
13174 } else {
13175 None
13176 };
13177
13178 (Some(expr), limit_by)
13179 } else {
13180 (None, None)
13181 };
13182
13183 if offset.is_none() && limit.is_some() && self.parse_keyword(Keyword::OFFSET) {
13184 offset = Some(self.parse_offset()?);
13185 }
13186
13187 if offset.is_some() || (limit.is_some() && limit != Some(None)) || limit_by.is_some() {
13188 Ok(Some(LimitClause::LimitOffset {
13189 limit: limit.unwrap_or_default(),
13190 offset,
13191 limit_by: limit_by.unwrap_or_default(),
13192 }))
13193 } else {
13194 Ok(None)
13195 }
13196 }
13197
13198 pub fn parse_table_object(&mut self) -> Result<TableObject, ParserError> {
13201 if self.dialect.supports_insert_table_function() && self.parse_keyword(Keyword::FUNCTION) {
13202 let fn_name = self.parse_object_name(false)?;
13203 self.parse_function_call(fn_name)
13204 .map(TableObject::TableFunction)
13205 } else if self.dialect.supports_insert_table_query() && self.peek_subquery_or_cte_start() {
13206 self.parse_parenthesized(|p| p.parse_query())
13207 .map(TableObject::TableQuery)
13208 } else {
13209 self.parse_object_name(false).map(TableObject::TableName)
13210 }
13211 }
13212
13213 pub fn parse_object_name(&mut self, in_table_clause: bool) -> Result<ObjectName, ParserError> {
13220 self.parse_object_name_inner(in_table_clause, false)
13221 }
13222
13223 fn parse_object_name_inner(
13233 &mut self,
13234 in_table_clause: bool,
13235 allow_wildcards: bool,
13236 ) -> Result<ObjectName, ParserError> {
13237 let mut parts = vec![];
13238 if dialect_of!(self is BigQueryDialect) && in_table_clause {
13239 loop {
13240 let (ident, end_with_period) = self.parse_unquoted_hyphenated_identifier()?;
13241 parts.push(ObjectNamePart::Identifier(ident));
13242 if !self.consume_token(&Token::Period) && !end_with_period {
13243 break;
13244 }
13245 }
13246 } else {
13247 loop {
13248 if allow_wildcards && self.peek_token_ref().token == Token::Mul {
13249 let span = self.next_token().span;
13250 parts.push(ObjectNamePart::Identifier(Ident {
13251 value: Token::Mul.to_string(),
13252 quote_style: None,
13253 span,
13254 }));
13255 } else if dialect_of!(self is BigQueryDialect) && in_table_clause {
13256 let (ident, end_with_period) = self.parse_unquoted_hyphenated_identifier()?;
13257 parts.push(ObjectNamePart::Identifier(ident));
13258 if !self.consume_token(&Token::Period) && !end_with_period {
13259 break;
13260 }
13261 } else if self.dialect.supports_object_name_double_dot_notation()
13262 && parts.len() == 1
13263 && matches!(self.peek_token_ref().token, Token::Period)
13264 {
13265 parts.push(ObjectNamePart::Identifier(Ident::new("")));
13267 } else {
13268 let ident = self.parse_identifier()?;
13269 let part = if self
13270 .dialect
13271 .is_identifier_generating_function_name(&ident, &parts)
13272 {
13273 self.expect_token(&Token::LParen)?;
13274 let args: Vec<FunctionArg> =
13275 self.parse_comma_separated0(Self::parse_function_args, Token::RParen)?;
13276 self.expect_token(&Token::RParen)?;
13277 ObjectNamePart::Function(ObjectNamePartFunction { name: ident, args })
13278 } else {
13279 ObjectNamePart::Identifier(ident)
13280 };
13281 parts.push(part);
13282 }
13283
13284 if !self.consume_token(&Token::Period) {
13285 break;
13286 }
13287 }
13288 }
13289
13290 if dialect_of!(self is BigQueryDialect)
13293 && parts.iter().any(|part| {
13294 part.as_ident()
13295 .is_some_and(|ident| ident.value.contains('.'))
13296 })
13297 {
13298 parts = parts
13299 .into_iter()
13300 .flat_map(|part| match part.as_ident() {
13301 Some(ident) => ident
13302 .value
13303 .split('.')
13304 .map(|value| {
13305 ObjectNamePart::Identifier(Ident {
13306 value: value.into(),
13307 quote_style: ident.quote_style,
13308 span: ident.span,
13309 })
13310 })
13311 .collect::<Vec<_>>(),
13312 None => vec![part],
13313 })
13314 .collect()
13315 }
13316
13317 Ok(ObjectName(parts))
13318 }
13319
13320 pub fn parse_identifiers(&mut self) -> Result<Vec<Ident>, ParserError> {
13322 let mut idents = vec![];
13323 loop {
13324 let token = self.peek_token_ref();
13325 match &token.token {
13326 Token::Word(w) => {
13327 idents.push(w.to_ident(token.span));
13328 }
13329 Token::EOF | Token::Eq | Token::SemiColon | Token::VerticalBarRightAngleBracket => {
13330 break
13331 }
13332 _ => {}
13333 }
13334 self.advance_token();
13335 }
13336 Ok(idents)
13337 }
13338
13339 pub fn parse_multipart_identifier(&mut self) -> Result<Vec<Ident>, ParserError> {
13379 let mut idents = vec![];
13380
13381 let next_token = self.next_token();
13383 match next_token.token {
13384 Token::Word(w) => idents.push(w.into_ident(next_token.span)),
13385 Token::EOF => {
13386 return Err(ParserError::ParserError(
13387 "Empty input when parsing identifier".to_string(),
13388 ))?
13389 }
13390 token => {
13391 return Err(ParserError::ParserError(format!(
13392 "Unexpected token in identifier: {token}"
13393 )))?
13394 }
13395 };
13396
13397 loop {
13399 match self.next_token().token {
13400 Token::Period => {
13402 let next_token = self.next_token();
13403 match next_token.token {
13404 Token::Word(w) => idents.push(w.into_ident(next_token.span)),
13405 Token::EOF => {
13406 return Err(ParserError::ParserError(
13407 "Trailing period in identifier".to_string(),
13408 ))?
13409 }
13410 token => {
13411 return Err(ParserError::ParserError(format!(
13412 "Unexpected token following period in identifier: {token}"
13413 )))?
13414 }
13415 }
13416 }
13417 Token::EOF => break,
13418 token => {
13419 return Err(ParserError::ParserError(format!(
13420 "Unexpected token in identifier: {token}"
13421 )))?;
13422 }
13423 }
13424 }
13425
13426 Ok(idents)
13427 }
13428
13429 pub fn parse_identifier(&mut self) -> Result<Ident, ParserError> {
13431 let next_token = self.next_token();
13432 match next_token.token {
13433 Token::Word(w) => Ok(w.into_ident(next_token.span)),
13434 Token::SingleQuotedString(s) => Ok(Ident::with_quote('\'', s)),
13435 Token::DoubleQuotedString(s) => Ok(Ident::with_quote('\"', s)),
13436 _ => self.expected("identifier", next_token),
13437 }
13438 }
13439
13440 fn parse_unquoted_hyphenated_identifier(&mut self) -> Result<(Ident, bool), ParserError> {
13451 match self.peek_token().token {
13452 Token::Word(w) => {
13453 let quote_style_is_none = w.quote_style.is_none();
13454 let mut requires_whitespace = false;
13455 let mut ident = w.into_ident(self.next_token().span);
13456 if quote_style_is_none {
13457 while matches!(self.peek_token_no_skip().token, Token::Minus) {
13458 self.next_token();
13459 ident.value.push('-');
13460
13461 let token = self
13462 .next_token_no_skip()
13463 .cloned()
13464 .unwrap_or(TokenWithSpan::wrap(Token::EOF));
13465 requires_whitespace = match token.token {
13466 Token::Word(next_word) if next_word.quote_style.is_none() => {
13467 ident.value.push_str(&next_word.value);
13468 false
13469 }
13470 Token::Number(s, false) => {
13471 if s.ends_with('.') {
13478 let Some(s) = s.split('.').next().filter(|s| {
13479 !s.is_empty() && s.chars().all(|c| c.is_ascii_digit())
13480 }) else {
13481 return self.expected(
13482 "continuation of hyphenated identifier",
13483 TokenWithSpan::new(Token::Number(s, false), token.span),
13484 );
13485 };
13486 ident.value.push_str(s);
13487 return Ok((ident, true));
13488 } else {
13489 ident.value.push_str(&s);
13490 }
13491 !matches!(self.peek_token_ref().token, Token::Period)
13494 }
13495 _ => {
13496 return self
13497 .expected("continuation of hyphenated identifier", token);
13498 }
13499 }
13500 }
13501
13502 if requires_whitespace {
13505 let token = self.next_token();
13506 if !matches!(token.token, Token::EOF | Token::Whitespace(_)) {
13507 return self
13508 .expected("whitespace following hyphenated identifier", token);
13509 }
13510 }
13511 }
13512 Ok((ident, false))
13513 }
13514 _ => Ok((self.parse_identifier()?, false)),
13515 }
13516 }
13517
13518 fn parse_view_columns(&mut self) -> Result<Vec<ViewColumnDef>, ParserError> {
13520 if self.consume_token(&Token::LParen) {
13521 if self.peek_token_ref().token == Token::RParen {
13522 self.next_token();
13523 Ok(vec![])
13524 } else {
13525 let cols = self.parse_comma_separated_with_trailing_commas(
13526 Parser::parse_view_column,
13527 self.dialect.supports_column_definition_trailing_commas(),
13528 Self::is_reserved_for_column_alias,
13529 )?;
13530 self.expect_token(&Token::RParen)?;
13531 Ok(cols)
13532 }
13533 } else {
13534 Ok(vec![])
13535 }
13536 }
13537
13538 fn parse_view_column(&mut self) -> Result<ViewColumnDef, ParserError> {
13540 let name = self.parse_identifier()?;
13541 let options = self.parse_view_column_options()?;
13542 let data_type = if dialect_of!(self is ClickHouseDialect) {
13543 Some(self.parse_data_type()?)
13544 } else {
13545 None
13546 };
13547 Ok(ViewColumnDef {
13548 name,
13549 data_type,
13550 options,
13551 })
13552 }
13553
13554 fn parse_view_column_options(&mut self) -> Result<Option<ColumnOptions>, ParserError> {
13555 let mut options = Vec::new();
13556 loop {
13557 let option = self.parse_optional_column_option()?;
13558 if let Some(option) = option {
13559 options.push(option);
13560 } else {
13561 break;
13562 }
13563 }
13564 if options.is_empty() {
13565 Ok(None)
13566 } else if self.dialect.supports_space_separated_column_options() {
13567 Ok(Some(ColumnOptions::SpaceSeparated(options)))
13568 } else {
13569 Ok(Some(ColumnOptions::CommaSeparated(options)))
13570 }
13571 }
13572
13573 pub fn parse_parenthesized_column_list(
13576 &mut self,
13577 optional: IsOptional,
13578 allow_empty: bool,
13579 ) -> Result<Vec<Ident>, ParserError> {
13580 self.parse_parenthesized_column_list_inner(optional, allow_empty, |p| p.parse_identifier())
13581 }
13582
13583 pub fn parse_parenthesized_compound_identifier_list(
13585 &mut self,
13586 optional: IsOptional,
13587 allow_empty: bool,
13588 ) -> Result<Vec<Expr>, ParserError> {
13589 self.parse_parenthesized_column_list_inner(optional, allow_empty, |p| {
13590 Ok(Expr::CompoundIdentifier(
13591 p.parse_period_separated(|p| p.parse_identifier())?,
13592 ))
13593 })
13594 }
13595
13596 fn parse_parenthesized_index_column_list(&mut self) -> Result<Vec<IndexColumn>, ParserError> {
13599 self.parse_parenthesized_column_list_inner(Mandatory, false, |p| {
13600 p.parse_create_index_expr()
13601 })
13602 }
13603
13604 pub fn parse_parenthesized_qualified_column_list(
13607 &mut self,
13608 optional: IsOptional,
13609 allow_empty: bool,
13610 ) -> Result<Vec<ObjectName>, ParserError> {
13611 self.parse_parenthesized_column_list_inner(optional, allow_empty, |p| {
13612 p.parse_object_name(true)
13613 })
13614 }
13615
13616 fn parse_parenthesized_column_list_inner<F, T>(
13619 &mut self,
13620 optional: IsOptional,
13621 allow_empty: bool,
13622 mut f: F,
13623 ) -> Result<Vec<T>, ParserError>
13624 where
13625 F: FnMut(&mut Parser) -> Result<T, ParserError>,
13626 {
13627 if self.consume_token(&Token::LParen) {
13628 if allow_empty && self.peek_token_ref().token == Token::RParen {
13629 self.next_token();
13630 Ok(vec![])
13631 } else {
13632 let cols = self.parse_comma_separated(|p| f(p))?;
13633 self.expect_token(&Token::RParen)?;
13634 Ok(cols)
13635 }
13636 } else if optional == Optional {
13637 Ok(vec![])
13638 } else {
13639 self.expected_ref("a list of columns in parentheses", self.peek_token_ref())
13640 }
13641 }
13642
13643 fn parse_table_alias_column_defs(&mut self) -> Result<Vec<TableAliasColumnDef>, ParserError> {
13645 if self.consume_token(&Token::LParen) {
13646 let cols = self.parse_comma_separated(|p| {
13647 let name = p.parse_identifier()?;
13648 let data_type = p.maybe_parse(|p| p.parse_data_type())?;
13649 Ok(TableAliasColumnDef { name, data_type })
13650 })?;
13651 self.expect_token(&Token::RParen)?;
13652 Ok(cols)
13653 } else {
13654 Ok(vec![])
13655 }
13656 }
13657
13658 pub fn parse_precision(&mut self) -> Result<u64, ParserError> {
13660 self.expect_token(&Token::LParen)?;
13661 let n = self.parse_literal_uint()?;
13662 self.expect_token(&Token::RParen)?;
13663 Ok(n)
13664 }
13665
13666 pub fn parse_optional_precision(&mut self) -> Result<Option<u64>, ParserError> {
13668 if self.consume_token(&Token::LParen) {
13669 let n = self.parse_literal_uint()?;
13670 self.expect_token(&Token::RParen)?;
13671 Ok(Some(n))
13672 } else {
13673 Ok(None)
13674 }
13675 }
13676
13677 fn maybe_parse_optional_interval_fields(
13678 &mut self,
13679 ) -> Result<Option<IntervalFields>, ParserError> {
13680 match self.parse_one_of_keywords(&[
13681 Keyword::YEAR,
13683 Keyword::DAY,
13684 Keyword::HOUR,
13685 Keyword::MINUTE,
13686 Keyword::MONTH,
13688 Keyword::SECOND,
13689 ]) {
13690 Some(Keyword::YEAR) => {
13691 if self.peek_keyword(Keyword::TO) {
13692 self.expect_keyword(Keyword::TO)?;
13693 self.expect_keyword(Keyword::MONTH)?;
13694 Ok(Some(IntervalFields::YearToMonth))
13695 } else {
13696 Ok(Some(IntervalFields::Year))
13697 }
13698 }
13699 Some(Keyword::DAY) => {
13700 if self.peek_keyword(Keyword::TO) {
13701 self.expect_keyword(Keyword::TO)?;
13702 match self.expect_one_of_keywords(&[
13703 Keyword::HOUR,
13704 Keyword::MINUTE,
13705 Keyword::SECOND,
13706 ])? {
13707 Keyword::HOUR => Ok(Some(IntervalFields::DayToHour)),
13708 Keyword::MINUTE => Ok(Some(IntervalFields::DayToMinute)),
13709 Keyword::SECOND => Ok(Some(IntervalFields::DayToSecond)),
13710 _ => {
13711 self.prev_token();
13712 self.expected_ref("HOUR, MINUTE, or SECOND", self.peek_token_ref())
13713 }
13714 }
13715 } else {
13716 Ok(Some(IntervalFields::Day))
13717 }
13718 }
13719 Some(Keyword::HOUR) => {
13720 if self.peek_keyword(Keyword::TO) {
13721 self.expect_keyword(Keyword::TO)?;
13722 match self.expect_one_of_keywords(&[Keyword::MINUTE, Keyword::SECOND])? {
13723 Keyword::MINUTE => Ok(Some(IntervalFields::HourToMinute)),
13724 Keyword::SECOND => Ok(Some(IntervalFields::HourToSecond)),
13725 _ => {
13726 self.prev_token();
13727 self.expected_ref("MINUTE or SECOND", self.peek_token_ref())
13728 }
13729 }
13730 } else {
13731 Ok(Some(IntervalFields::Hour))
13732 }
13733 }
13734 Some(Keyword::MINUTE) => {
13735 if self.peek_keyword(Keyword::TO) {
13736 self.expect_keyword(Keyword::TO)?;
13737 self.expect_keyword(Keyword::SECOND)?;
13738 Ok(Some(IntervalFields::MinuteToSecond))
13739 } else {
13740 Ok(Some(IntervalFields::Minute))
13741 }
13742 }
13743 Some(Keyword::MONTH) => Ok(Some(IntervalFields::Month)),
13744 Some(Keyword::SECOND) => Ok(Some(IntervalFields::Second)),
13745 Some(_) => {
13746 self.prev_token();
13747 self.expected_ref(
13748 "YEAR, MONTH, DAY, HOUR, MINUTE, or SECOND",
13749 self.peek_token_ref(),
13750 )
13751 }
13752 None => Ok(None),
13753 }
13754 }
13755
13756 pub fn parse_datetime_64(&mut self) -> Result<(u64, Option<String>), ParserError> {
13764 self.expect_keyword_is(Keyword::DATETIME64)?;
13765 self.expect_token(&Token::LParen)?;
13766 let precision = self.parse_literal_uint()?;
13767 let time_zone = if self.consume_token(&Token::Comma) {
13768 Some(self.parse_literal_string()?)
13769 } else {
13770 None
13771 };
13772 self.expect_token(&Token::RParen)?;
13773 Ok((precision, time_zone))
13774 }
13775
13776 pub fn parse_optional_character_length(
13778 &mut self,
13779 ) -> Result<Option<CharacterLength>, ParserError> {
13780 if self.consume_token(&Token::LParen) {
13781 let character_length = self.parse_character_length()?;
13782 self.expect_token(&Token::RParen)?;
13783 Ok(Some(character_length))
13784 } else {
13785 Ok(None)
13786 }
13787 }
13788
13789 pub fn parse_optional_binary_length(&mut self) -> Result<Option<BinaryLength>, ParserError> {
13791 if self.consume_token(&Token::LParen) {
13792 let binary_length = self.parse_binary_length()?;
13793 self.expect_token(&Token::RParen)?;
13794 Ok(Some(binary_length))
13795 } else {
13796 Ok(None)
13797 }
13798 }
13799
13800 pub fn parse_character_length(&mut self) -> Result<CharacterLength, ParserError> {
13802 if self.parse_keyword(Keyword::MAX) {
13803 return Ok(CharacterLength::Max);
13804 }
13805 let length = self.parse_literal_uint()?;
13806 let unit = if self.parse_keyword(Keyword::CHARACTERS) {
13807 Some(CharLengthUnits::Characters)
13808 } else if self.parse_keyword(Keyword::OCTETS) {
13809 Some(CharLengthUnits::Octets)
13810 } else {
13811 None
13812 };
13813 Ok(CharacterLength::IntegerLength { length, unit })
13814 }
13815
13816 pub fn parse_binary_length(&mut self) -> Result<BinaryLength, ParserError> {
13818 if self.parse_keyword(Keyword::MAX) {
13819 return Ok(BinaryLength::Max);
13820 }
13821 let length = self.parse_literal_uint()?;
13822 Ok(BinaryLength::IntegerLength { length })
13823 }
13824
13825 pub fn parse_optional_precision_scale(
13827 &mut self,
13828 ) -> Result<(Option<u64>, Option<u64>), ParserError> {
13829 if self.consume_token(&Token::LParen) {
13830 let n = self.parse_literal_uint()?;
13831 let scale = if self.consume_token(&Token::Comma) {
13832 Some(self.parse_literal_uint()?)
13833 } else {
13834 None
13835 };
13836 self.expect_token(&Token::RParen)?;
13837 Ok((Some(n), scale))
13838 } else {
13839 Ok((None, None))
13840 }
13841 }
13842
13843 pub fn parse_exact_number_optional_precision_scale(
13845 &mut self,
13846 ) -> Result<ExactNumberInfo, ParserError> {
13847 if self.consume_token(&Token::LParen) {
13848 let precision = self.parse_literal_uint()?;
13849 let scale = if self.consume_token(&Token::Comma) {
13850 Some(self.parse_signed_integer()?)
13851 } else {
13852 None
13853 };
13854
13855 self.expect_token(&Token::RParen)?;
13856
13857 match scale {
13858 None => Ok(ExactNumberInfo::Precision(precision)),
13859 Some(scale) => Ok(ExactNumberInfo::PrecisionAndScale(precision, scale)),
13860 }
13861 } else {
13862 Ok(ExactNumberInfo::None)
13863 }
13864 }
13865
13866 fn parse_signed_integer(&mut self) -> Result<i64, ParserError> {
13868 let is_negative = self.consume_token(&Token::Minus);
13869
13870 if !is_negative {
13871 let _ = self.consume_token(&Token::Plus);
13872 }
13873
13874 let current_token = self.peek_token_ref();
13875 match ¤t_token.token {
13876 Token::Number(s, _) => {
13877 let s = s.clone();
13878 let span_start = current_token.span.start;
13879 self.advance_token();
13880 let value = Self::parse::<i64>(s, span_start)?;
13881 Ok(if is_negative { -value } else { value })
13882 }
13883 _ => self.expected_ref("number", current_token),
13884 }
13885 }
13886
13887 pub fn parse_optional_type_modifiers(&mut self) -> Result<Option<Vec<String>>, ParserError> {
13889 if self.consume_token(&Token::LParen) {
13890 let mut modifiers = Vec::new();
13891 loop {
13892 let next_token = self.next_token();
13893 match next_token.token {
13894 Token::Word(w) => modifiers.push(w.to_string()),
13895 Token::Number(n, _) => modifiers.push(n),
13896 Token::SingleQuotedString(s) => modifiers.push(s),
13897
13898 Token::Comma => {
13899 continue;
13900 }
13901 Token::RParen => {
13902 break;
13903 }
13904 _ => self.expected("type modifiers", next_token)?,
13905 }
13906 }
13907
13908 Ok(Some(modifiers))
13909 } else {
13910 Ok(None)
13911 }
13912 }
13913
13914 fn parse_sub_type<F>(&mut self, parent_type: F) -> Result<DataType, ParserError>
13916 where
13917 F: FnOnce(Box<DataType>) -> DataType,
13918 {
13919 self.expect_token(&Token::LParen)?;
13920 let inside_type = self.parse_data_type()?;
13921 self.expect_token(&Token::RParen)?;
13922 Ok(parent_type(inside_type.into()))
13923 }
13924
13925 fn parse_delete_setexpr_boxed(
13929 &mut self,
13930 delete_token: TokenWithSpan,
13931 ) -> Result<Box<SetExpr>, ParserError> {
13932 Ok(Box::new(SetExpr::Delete(self.parse_delete(delete_token)?)))
13933 }
13934
13935 pub fn parse_delete(&mut self, delete_token: TokenWithSpan) -> Result<Statement, ParserError> {
13937 let optimizer_hints = self.maybe_parse_optimizer_hints()?;
13938 let (tables, with_from_keyword) = if !self.parse_keyword(Keyword::FROM) {
13939 if dialect_of!(self is BigQueryDialect | OracleDialect | GenericDialect) {
13942 (vec![], false)
13943 } else {
13944 let tables = self.parse_comma_separated(|p| p.parse_object_name(false))?;
13945 self.expect_keyword_is(Keyword::FROM)?;
13946 (tables, true)
13947 }
13948 } else {
13949 (vec![], true)
13950 };
13951
13952 let from = self.parse_comma_separated(Parser::parse_table_and_joins)?;
13953
13954 let output = self.maybe_parse_output_clause()?;
13955
13956 let using = if self.parse_keyword(Keyword::USING) {
13957 Some(self.parse_comma_separated(Parser::parse_table_and_joins)?)
13958 } else {
13959 None
13960 };
13961 let selection = if self.parse_keyword(Keyword::WHERE) {
13962 Some(self.parse_expr()?)
13963 } else {
13964 None
13965 };
13966 let returning = if self.parse_keyword(Keyword::RETURNING) {
13967 Some(self.parse_comma_separated(Parser::parse_select_item)?)
13968 } else {
13969 None
13970 };
13971 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
13972 self.parse_comma_separated(Parser::parse_order_by_expr)?
13973 } else {
13974 vec![]
13975 };
13976 let limit = if self.parse_keyword(Keyword::LIMIT) {
13977 self.parse_limit()?
13978 } else {
13979 None
13980 };
13981
13982 Ok(Statement::Delete(Delete {
13983 delete_token: delete_token.into(),
13984 optimizer_hints,
13985 tables,
13986 from: if with_from_keyword {
13987 FromTable::WithFromKeyword(from)
13988 } else {
13989 FromTable::WithoutKeyword(from)
13990 },
13991 using,
13992 selection,
13993 returning,
13994 output,
13995 order_by,
13996 limit,
13997 }))
13998 }
13999
14000 pub fn parse_kill(&mut self) -> Result<Statement, ParserError> {
14003 let modifier_keyword =
14004 self.parse_one_of_keywords(&[Keyword::CONNECTION, Keyword::QUERY, Keyword::MUTATION]);
14005
14006 let id = self.parse_literal_uint()?;
14007
14008 let modifier = match modifier_keyword {
14009 Some(Keyword::CONNECTION) => Some(KillType::Connection),
14010 Some(Keyword::QUERY) => Some(KillType::Query),
14011 Some(Keyword::MUTATION) => {
14012 if dialect_of!(self is ClickHouseDialect | GenericDialect) {
14013 Some(KillType::Mutation)
14014 } else {
14015 self.expected_ref(
14016 "Unsupported type for KILL, allowed: CONNECTION | QUERY",
14017 self.peek_token_ref(),
14018 )?
14019 }
14020 }
14021 _ => None,
14022 };
14023
14024 Ok(Statement::Kill { modifier, id })
14025 }
14026
14027 pub fn parse_explain(
14029 &mut self,
14030 describe_alias: DescribeAlias,
14031 ) -> Result<Statement, ParserError> {
14032 let mut analyze = false;
14033 let mut verbose = false;
14034 let mut query_plan = false;
14035 let mut estimate = false;
14036 let mut format = None;
14037 let mut options = None;
14038
14039 if describe_alias == DescribeAlias::Explain
14042 && self.dialect.supports_explain_with_utility_options()
14043 && self.peek_token_ref().token == Token::LParen
14044 {
14045 options = Some(self.parse_utility_options()?)
14046 } else if self.parse_keywords(&[Keyword::QUERY, Keyword::PLAN]) {
14047 query_plan = true;
14048 } else if self.parse_keyword(Keyword::ESTIMATE) {
14049 estimate = true;
14050 } else {
14051 analyze = self.parse_keyword(Keyword::ANALYZE);
14052 verbose = self.parse_keyword(Keyword::VERBOSE);
14053 if self.parse_keyword(Keyword::FORMAT) {
14054 format = Some(self.parse_analyze_format_kind()?);
14055 }
14056 }
14057
14058 match self.maybe_parse(|parser| parser.parse_statement())? {
14059 Some(Statement::Explain { .. }) | Some(Statement::ExplainTable { .. }) => Err(
14060 ParserError::ParserError("Explain must be root of the plan".to_string()),
14061 ),
14062 Some(statement) => Ok(Statement::Explain {
14063 describe_alias,
14064 analyze,
14065 verbose,
14066 query_plan,
14067 estimate,
14068 statement: Box::new(statement),
14069 format,
14070 options,
14071 }),
14072 _ => {
14073 let hive_format =
14074 match self.parse_one_of_keywords(&[Keyword::EXTENDED, Keyword::FORMATTED]) {
14075 Some(Keyword::EXTENDED) => Some(HiveDescribeFormat::Extended),
14076 Some(Keyword::FORMATTED) => Some(HiveDescribeFormat::Formatted),
14077 _ => None,
14078 };
14079
14080 let has_table_keyword = if self.dialect.describe_requires_table_keyword() {
14081 self.parse_keyword(Keyword::TABLE)
14083 } else {
14084 false
14085 };
14086
14087 let table_name = self.parse_object_name(false)?;
14088 Ok(Statement::ExplainTable {
14089 describe_alias,
14090 hive_format,
14091 has_table_keyword,
14092 table_name,
14093 })
14094 }
14095 }
14096 }
14097
14098 #[cfg_attr(feature = "recursive-protection", recursive::recursive)]
14103 pub fn parse_query(&mut self) -> Result<Box<Query>, ParserError> {
14104 let _guard = self.recursion_counter.try_decrease()?;
14105 let with = if self.parse_keyword(Keyword::WITH) {
14106 let with_token = self.get_current_token();
14107 Some(With {
14108 with_token: with_token.clone().into(),
14109 recursive: self.parse_keyword(Keyword::RECURSIVE),
14110 cte_tables: self.parse_comma_separated(Parser::parse_cte)?,
14111 })
14112 } else {
14113 None
14114 };
14115 if self.parse_keyword(Keyword::INSERT) {
14116 Ok(Query {
14117 with,
14118 body: self.parse_insert_setexpr_boxed(self.get_current_token().clone())?,
14119 order_by: None,
14120 limit_clause: None,
14121 fetch: None,
14122 locks: vec![],
14123 for_clause: None,
14124 settings: None,
14125 format_clause: None,
14126 pipe_operators: vec![],
14127 }
14128 .into())
14129 } else if self.parse_keyword(Keyword::UPDATE) {
14130 Ok(Query {
14131 with,
14132 body: self.parse_update_setexpr_boxed(self.get_current_token().clone())?,
14133 order_by: None,
14134 limit_clause: None,
14135 fetch: None,
14136 locks: vec![],
14137 for_clause: None,
14138 settings: None,
14139 format_clause: None,
14140 pipe_operators: vec![],
14141 }
14142 .into())
14143 } else if self.parse_keyword(Keyword::DELETE) {
14144 Ok(Query {
14145 with,
14146 body: self.parse_delete_setexpr_boxed(self.get_current_token().clone())?,
14147 limit_clause: None,
14148 order_by: None,
14149 fetch: None,
14150 locks: vec![],
14151 for_clause: None,
14152 settings: None,
14153 format_clause: None,
14154 pipe_operators: vec![],
14155 }
14156 .into())
14157 } else if self.parse_keyword(Keyword::MERGE) {
14158 Ok(Query {
14159 with,
14160 body: self.parse_merge_setexpr_boxed(self.get_current_token().clone())?,
14161 limit_clause: None,
14162 order_by: None,
14163 fetch: None,
14164 locks: vec![],
14165 for_clause: None,
14166 settings: None,
14167 format_clause: None,
14168 pipe_operators: vec![],
14169 }
14170 .into())
14171 } else {
14172 let body = self.parse_query_body(self.dialect.prec_unknown())?;
14173
14174 let order_by = self.parse_optional_order_by()?;
14175
14176 let limit_clause = self.parse_optional_limit_clause()?;
14177
14178 let settings = self.parse_settings()?;
14179
14180 let fetch = if self.parse_keyword(Keyword::FETCH) {
14181 Some(self.parse_fetch()?)
14182 } else {
14183 None
14184 };
14185
14186 let mut for_clause = None;
14187 let mut locks = Vec::new();
14188 while self.parse_keyword(Keyword::FOR) {
14189 if let Some(parsed_for_clause) = self.parse_for_clause()? {
14190 for_clause = Some(parsed_for_clause);
14191 break;
14192 } else {
14193 locks.push(self.parse_lock()?);
14194 }
14195 }
14196 let format_clause =
14197 if self.dialect.supports_select_format() && self.parse_keyword(Keyword::FORMAT) {
14198 if self.parse_keyword(Keyword::NULL) {
14199 Some(FormatClause::Null)
14200 } else {
14201 let ident = self.parse_identifier()?;
14202 Some(FormatClause::Identifier(ident))
14203 }
14204 } else {
14205 None
14206 };
14207
14208 let pipe_operators = if self.dialect.supports_pipe_operator() {
14209 self.parse_pipe_operators()?
14210 } else {
14211 Vec::new()
14212 };
14213
14214 Ok(Query {
14215 with,
14216 body,
14217 order_by,
14218 limit_clause,
14219 fetch,
14220 locks,
14221 for_clause,
14222 settings,
14223 format_clause,
14224 pipe_operators,
14225 }
14226 .into())
14227 }
14228 }
14229
14230 fn parse_pipe_operators(&mut self) -> Result<Vec<PipeOperator>, ParserError> {
14231 let mut pipe_operators = Vec::new();
14232
14233 while self.consume_token(&Token::VerticalBarRightAngleBracket) {
14234 let kw = self.expect_one_of_keywords(&[
14235 Keyword::SELECT,
14236 Keyword::EXTEND,
14237 Keyword::SET,
14238 Keyword::DROP,
14239 Keyword::AS,
14240 Keyword::WHERE,
14241 Keyword::LIMIT,
14242 Keyword::AGGREGATE,
14243 Keyword::ORDER,
14244 Keyword::TABLESAMPLE,
14245 Keyword::RENAME,
14246 Keyword::UNION,
14247 Keyword::INTERSECT,
14248 Keyword::EXCEPT,
14249 Keyword::CALL,
14250 Keyword::PIVOT,
14251 Keyword::UNPIVOT,
14252 Keyword::JOIN,
14253 Keyword::INNER,
14254 Keyword::LEFT,
14255 Keyword::RIGHT,
14256 Keyword::FULL,
14257 Keyword::CROSS,
14258 ])?;
14259 match kw {
14260 Keyword::SELECT => {
14261 let exprs = self.parse_comma_separated(Parser::parse_select_item)?;
14262 pipe_operators.push(PipeOperator::Select { exprs })
14263 }
14264 Keyword::EXTEND => {
14265 let exprs = self.parse_comma_separated(Parser::parse_select_item)?;
14266 pipe_operators.push(PipeOperator::Extend { exprs })
14267 }
14268 Keyword::SET => {
14269 let assignments = self.parse_comma_separated(Parser::parse_assignment)?;
14270 pipe_operators.push(PipeOperator::Set { assignments })
14271 }
14272 Keyword::DROP => {
14273 let columns = self.parse_identifiers()?;
14274 pipe_operators.push(PipeOperator::Drop { columns })
14275 }
14276 Keyword::AS => {
14277 let alias = self.parse_identifier()?;
14278 pipe_operators.push(PipeOperator::As { alias })
14279 }
14280 Keyword::WHERE => {
14281 let expr = self.parse_expr()?;
14282 pipe_operators.push(PipeOperator::Where { expr })
14283 }
14284 Keyword::LIMIT => {
14285 let expr = self.parse_expr()?;
14286 let offset = if self.parse_keyword(Keyword::OFFSET) {
14287 Some(self.parse_expr()?)
14288 } else {
14289 None
14290 };
14291 pipe_operators.push(PipeOperator::Limit { expr, offset })
14292 }
14293 Keyword::AGGREGATE => {
14294 let full_table_exprs = if self.peek_keyword(Keyword::GROUP) {
14295 vec![]
14296 } else {
14297 self.parse_comma_separated(|parser| {
14298 parser.parse_expr_with_alias_and_order_by()
14299 })?
14300 };
14301
14302 let group_by_expr = if self.parse_keywords(&[Keyword::GROUP, Keyword::BY]) {
14303 self.parse_comma_separated(|parser| {
14304 parser.parse_expr_with_alias_and_order_by()
14305 })?
14306 } else {
14307 vec![]
14308 };
14309
14310 pipe_operators.push(PipeOperator::Aggregate {
14311 full_table_exprs,
14312 group_by_expr,
14313 })
14314 }
14315 Keyword::ORDER => {
14316 self.expect_one_of_keywords(&[Keyword::BY])?;
14317 let exprs = self.parse_comma_separated(Parser::parse_order_by_expr)?;
14318 pipe_operators.push(PipeOperator::OrderBy { exprs })
14319 }
14320 Keyword::TABLESAMPLE => {
14321 let sample = self.parse_table_sample(TableSampleModifier::TableSample)?;
14322 pipe_operators.push(PipeOperator::TableSample { sample });
14323 }
14324 Keyword::RENAME => {
14325 let mappings =
14326 self.parse_comma_separated(Parser::parse_identifier_with_optional_alias)?;
14327 pipe_operators.push(PipeOperator::Rename { mappings });
14328 }
14329 Keyword::UNION => {
14330 let set_quantifier = self.parse_set_quantifier(&Some(SetOperator::Union));
14331 let queries = self.parse_pipe_operator_queries()?;
14332 pipe_operators.push(PipeOperator::Union {
14333 set_quantifier,
14334 queries,
14335 });
14336 }
14337 Keyword::INTERSECT => {
14338 let set_quantifier =
14339 self.parse_distinct_required_set_quantifier("INTERSECT")?;
14340 let queries = self.parse_pipe_operator_queries()?;
14341 pipe_operators.push(PipeOperator::Intersect {
14342 set_quantifier,
14343 queries,
14344 });
14345 }
14346 Keyword::EXCEPT => {
14347 let set_quantifier = self.parse_distinct_required_set_quantifier("EXCEPT")?;
14348 let queries = self.parse_pipe_operator_queries()?;
14349 pipe_operators.push(PipeOperator::Except {
14350 set_quantifier,
14351 queries,
14352 });
14353 }
14354 Keyword::CALL => {
14355 let function_name = self.parse_object_name(false)?;
14356 let function_expr = self.parse_function(function_name)?;
14357 if let Expr::Function(function) = function_expr {
14358 let alias = self.parse_identifier_optional_alias()?;
14359 pipe_operators.push(PipeOperator::Call { function, alias });
14360 } else {
14361 return Err(ParserError::ParserError(
14362 "Expected function call after CALL".to_string(),
14363 ));
14364 }
14365 }
14366 Keyword::PIVOT => {
14367 self.expect_token(&Token::LParen)?;
14368 let aggregate_functions =
14369 self.parse_comma_separated(Self::parse_pivot_aggregate_function)?;
14370 self.expect_keyword_is(Keyword::FOR)?;
14371 let value_column = self.parse_period_separated(|p| p.parse_identifier())?;
14372 self.expect_keyword_is(Keyword::IN)?;
14373
14374 self.expect_token(&Token::LParen)?;
14375 let value_source = if self.parse_keyword(Keyword::ANY) {
14376 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
14377 self.parse_comma_separated(Parser::parse_order_by_expr)?
14378 } else {
14379 vec![]
14380 };
14381 PivotValueSource::Any(order_by)
14382 } else if self.peek_sub_query() {
14383 PivotValueSource::Subquery(self.parse_query()?)
14384 } else {
14385 PivotValueSource::List(
14386 self.parse_comma_separated(Self::parse_expr_with_alias)?,
14387 )
14388 };
14389 self.expect_token(&Token::RParen)?;
14390 self.expect_token(&Token::RParen)?;
14391
14392 let alias = self.parse_identifier_optional_alias()?;
14393
14394 pipe_operators.push(PipeOperator::Pivot {
14395 aggregate_functions,
14396 value_column,
14397 value_source,
14398 alias,
14399 });
14400 }
14401 Keyword::UNPIVOT => {
14402 self.expect_token(&Token::LParen)?;
14403 let value_column = self.parse_identifier()?;
14404 self.expect_keyword(Keyword::FOR)?;
14405 let name_column = self.parse_identifier()?;
14406 self.expect_keyword(Keyword::IN)?;
14407
14408 self.expect_token(&Token::LParen)?;
14409 let unpivot_columns = self.parse_comma_separated(Parser::parse_identifier)?;
14410 self.expect_token(&Token::RParen)?;
14411
14412 self.expect_token(&Token::RParen)?;
14413
14414 let alias = self.parse_identifier_optional_alias()?;
14415
14416 pipe_operators.push(PipeOperator::Unpivot {
14417 value_column,
14418 name_column,
14419 unpivot_columns,
14420 alias,
14421 });
14422 }
14423 Keyword::JOIN
14424 | Keyword::INNER
14425 | Keyword::LEFT
14426 | Keyword::RIGHT
14427 | Keyword::FULL
14428 | Keyword::CROSS => {
14429 self.prev_token();
14430 let mut joins = self.parse_joins()?;
14431 if joins.len() != 1 {
14432 return Err(ParserError::ParserError(
14433 "Join pipe operator must have a single join".to_string(),
14434 ));
14435 }
14436 let join = joins.swap_remove(0);
14437 pipe_operators.push(PipeOperator::Join(join))
14438 }
14439 unhandled => {
14440 return Err(ParserError::ParserError(format!(
14441 "`expect_one_of_keywords` further up allowed unhandled keyword: {unhandled:?}"
14442 )))
14443 }
14444 }
14445 }
14446 Ok(pipe_operators)
14447 }
14448
14449 fn parse_settings(&mut self) -> Result<Option<Vec<Setting>>, ParserError> {
14450 let settings = if self.dialect.supports_settings() && self.parse_keyword(Keyword::SETTINGS)
14451 {
14452 let key_values = self.parse_comma_separated(|p| {
14453 let key = p.parse_identifier()?;
14454 p.expect_token(&Token::Eq)?;
14455 let value = p.parse_expr()?;
14456 Ok(Setting { key, value })
14457 })?;
14458 Some(key_values)
14459 } else {
14460 None
14461 };
14462 Ok(settings)
14463 }
14464
14465 pub fn parse_for_clause(&mut self) -> Result<Option<ForClause>, ParserError> {
14467 if self.parse_keyword(Keyword::XML) {
14468 Ok(Some(self.parse_for_xml()?))
14469 } else if self.parse_keyword(Keyword::JSON) {
14470 Ok(Some(self.parse_for_json()?))
14471 } else if self.parse_keyword(Keyword::BROWSE) {
14472 Ok(Some(ForClause::Browse))
14473 } else {
14474 Ok(None)
14475 }
14476 }
14477
14478 pub fn parse_for_xml(&mut self) -> Result<ForClause, ParserError> {
14480 let for_xml = if self.parse_keyword(Keyword::RAW) {
14481 let mut element_name = None;
14482 if self.peek_token_ref().token == Token::LParen {
14483 self.expect_token(&Token::LParen)?;
14484 element_name = Some(self.parse_literal_string()?);
14485 self.expect_token(&Token::RParen)?;
14486 }
14487 ForXml::Raw(element_name)
14488 } else if self.parse_keyword(Keyword::AUTO) {
14489 ForXml::Auto
14490 } else if self.parse_keyword(Keyword::EXPLICIT) {
14491 ForXml::Explicit
14492 } else if self.parse_keyword(Keyword::PATH) {
14493 let mut element_name = None;
14494 if self.peek_token_ref().token == Token::LParen {
14495 self.expect_token(&Token::LParen)?;
14496 element_name = Some(self.parse_literal_string()?);
14497 self.expect_token(&Token::RParen)?;
14498 }
14499 ForXml::Path(element_name)
14500 } else {
14501 return Err(ParserError::ParserError(
14502 "Expected FOR XML [RAW | AUTO | EXPLICIT | PATH ]".to_string(),
14503 ));
14504 };
14505 let mut elements = false;
14506 let mut binary_base64 = false;
14507 let mut root = None;
14508 let mut r#type = false;
14509 while self.peek_token_ref().token == Token::Comma {
14510 self.next_token();
14511 if self.parse_keyword(Keyword::ELEMENTS) {
14512 elements = true;
14513 } else if self.parse_keyword(Keyword::BINARY) {
14514 self.expect_keyword_is(Keyword::BASE64)?;
14515 binary_base64 = true;
14516 } else if self.parse_keyword(Keyword::ROOT) {
14517 self.expect_token(&Token::LParen)?;
14518 root = Some(self.parse_literal_string()?);
14519 self.expect_token(&Token::RParen)?;
14520 } else if self.parse_keyword(Keyword::TYPE) {
14521 r#type = true;
14522 }
14523 }
14524 Ok(ForClause::Xml {
14525 for_xml,
14526 elements,
14527 binary_base64,
14528 root,
14529 r#type,
14530 })
14531 }
14532
14533 pub fn parse_for_json(&mut self) -> Result<ForClause, ParserError> {
14535 let for_json = if self.parse_keyword(Keyword::AUTO) {
14536 ForJson::Auto
14537 } else if self.parse_keyword(Keyword::PATH) {
14538 ForJson::Path
14539 } else {
14540 return Err(ParserError::ParserError(
14541 "Expected FOR JSON [AUTO | PATH ]".to_string(),
14542 ));
14543 };
14544 let mut root = None;
14545 let mut include_null_values = false;
14546 let mut without_array_wrapper = false;
14547 while self.peek_token_ref().token == Token::Comma {
14548 self.next_token();
14549 if self.parse_keyword(Keyword::ROOT) {
14550 self.expect_token(&Token::LParen)?;
14551 root = Some(self.parse_literal_string()?);
14552 self.expect_token(&Token::RParen)?;
14553 } else if self.parse_keyword(Keyword::INCLUDE_NULL_VALUES) {
14554 include_null_values = true;
14555 } else if self.parse_keyword(Keyword::WITHOUT_ARRAY_WRAPPER) {
14556 without_array_wrapper = true;
14557 }
14558 }
14559 Ok(ForClause::Json {
14560 for_json,
14561 root,
14562 include_null_values,
14563 without_array_wrapper,
14564 })
14565 }
14566
14567 pub fn parse_cte(&mut self) -> Result<Cte, ParserError> {
14569 let name = self.parse_identifier()?;
14570
14571 let as_optional = self.dialect.supports_cte_without_as();
14572
14573 if as_optional && !self.peek_keyword(Keyword::AS) {
14575 if let Some((query, closing_paren_token)) = self.maybe_parse(|p| {
14576 p.expect_token(&Token::LParen)?;
14577 let query = p.parse_query()?;
14578 let closing_paren_token = p.expect_token(&Token::RParen)?;
14579 Ok((query, closing_paren_token))
14580 })? {
14581 let mut cte = Cte {
14582 alias: TableAlias {
14583 explicit: false,
14584 name,
14585 columns: vec![],
14586 at: None,
14587 },
14588 query,
14589 from: None,
14590 materialized: None,
14591 closing_paren_token: closing_paren_token.into(),
14592 };
14593 if self.parse_keyword(Keyword::FROM) {
14594 cte.from = Some(self.parse_identifier()?);
14595 }
14596 return Ok(cte);
14597 }
14598 }
14599
14600 let columns = if self.parse_keyword(Keyword::AS) {
14602 vec![]
14603 } else {
14604 let columns = self.parse_table_alias_column_defs()?;
14605 if as_optional {
14606 let _ = self.parse_keyword(Keyword::AS);
14607 } else {
14608 self.expect_keyword_is(Keyword::AS)?;
14609 }
14610 columns
14611 };
14612
14613 let mut is_materialized = None;
14614 if dialect_of!(self is PostgreSqlDialect) {
14615 if self.parse_keyword(Keyword::MATERIALIZED) {
14616 is_materialized = Some(CteAsMaterialized::Materialized);
14617 } else if self.parse_keywords(&[Keyword::NOT, Keyword::MATERIALIZED]) {
14618 is_materialized = Some(CteAsMaterialized::NotMaterialized);
14619 }
14620 }
14621
14622 self.expect_token(&Token::LParen)?;
14623 let query = self.parse_query()?;
14624 let closing_paren_token = self.expect_token(&Token::RParen)?;
14625
14626 let mut cte = Cte {
14627 alias: TableAlias {
14628 explicit: false,
14629 name,
14630 columns,
14631 at: None,
14632 },
14633 query,
14634 from: None,
14635 materialized: is_materialized,
14636 closing_paren_token: closing_paren_token.into(),
14637 };
14638 if self.dialect.supports_from_first_insert() && self.parse_keyword(Keyword::FROM) {
14639 cte.from = Some(self.parse_identifier()?);
14640 }
14641 Ok(cte)
14642 }
14643
14644 pub fn parse_query_body(&mut self, precedence: u8) -> Result<Box<SetExpr>, ParserError> {
14653 let expr = if self.peek_keyword(Keyword::SELECT)
14656 || (self.peek_keyword(Keyword::FROM) && self.dialect.supports_from_first_select())
14657 {
14658 SetExpr::Select(self.parse_select().map(Box::new)?)
14659 } else if self.consume_token(&Token::LParen) {
14660 let subquery = self.parse_query()?;
14662 self.expect_token(&Token::RParen)?;
14663 SetExpr::Query(subquery)
14664 } else if self.parse_keyword(Keyword::VALUES) {
14665 let is_mysql = dialect_of!(self is MySqlDialect);
14666 SetExpr::Values(self.parse_values(is_mysql, false)?)
14667 } else if self.parse_keyword(Keyword::VALUE) {
14668 let is_mysql = dialect_of!(self is MySqlDialect);
14669 SetExpr::Values(self.parse_values(is_mysql, true)?)
14670 } else if self.parse_keyword(Keyword::TABLE) {
14671 SetExpr::Table(Box::new(self.parse_as_table()?))
14672 } else {
14673 return self.expected_ref(
14674 "SELECT, VALUES, or a subquery in the query body",
14675 self.peek_token_ref(),
14676 );
14677 };
14678
14679 self.parse_remaining_set_exprs(expr, precedence)
14680 }
14681
14682 fn parse_remaining_set_exprs(
14686 &mut self,
14687 mut expr: SetExpr,
14688 precedence: u8,
14689 ) -> Result<Box<SetExpr>, ParserError> {
14690 loop {
14691 let op = self.parse_set_operator(&self.peek_token().token);
14693 let next_precedence = match op {
14694 Some(SetOperator::Union) | Some(SetOperator::Except) | Some(SetOperator::Minus) => {
14696 10
14697 }
14698 Some(SetOperator::Intersect) => 20,
14700 None => break,
14702 };
14703 if precedence >= next_precedence {
14704 break;
14705 }
14706 self.next_token(); let set_quantifier = self.parse_set_quantifier(&op);
14708 expr = SetExpr::SetOperation {
14709 left: Box::new(expr),
14710 op: op.unwrap(),
14711 set_quantifier,
14712 right: self.parse_query_body(next_precedence)?,
14713 };
14714 }
14715
14716 Ok(expr.into())
14717 }
14718
14719 pub fn parse_set_operator(&mut self, token: &Token) -> Option<SetOperator> {
14721 match token {
14722 Token::Word(w) if w.keyword == Keyword::UNION => Some(SetOperator::Union),
14723 Token::Word(w) if w.keyword == Keyword::EXCEPT => Some(SetOperator::Except),
14724 Token::Word(w) if w.keyword == Keyword::INTERSECT => Some(SetOperator::Intersect),
14725 Token::Word(w) if w.keyword == Keyword::MINUS => Some(SetOperator::Minus),
14726 _ => None,
14727 }
14728 }
14729
14730 pub fn parse_set_quantifier(&mut self, op: &Option<SetOperator>) -> SetQuantifier {
14732 match op {
14733 Some(
14734 SetOperator::Except
14735 | SetOperator::Intersect
14736 | SetOperator::Union
14737 | SetOperator::Minus,
14738 ) => {
14739 if self.parse_keywords(&[Keyword::DISTINCT, Keyword::BY, Keyword::NAME]) {
14740 SetQuantifier::DistinctByName
14741 } else if self.parse_keywords(&[Keyword::BY, Keyword::NAME]) {
14742 SetQuantifier::ByName
14743 } else if self.parse_keyword(Keyword::ALL) {
14744 if self.parse_keywords(&[Keyword::BY, Keyword::NAME]) {
14745 SetQuantifier::AllByName
14746 } else {
14747 SetQuantifier::All
14748 }
14749 } else if self.parse_keyword(Keyword::DISTINCT) {
14750 SetQuantifier::Distinct
14751 } else {
14752 SetQuantifier::None
14753 }
14754 }
14755 _ => SetQuantifier::None,
14756 }
14757 }
14758
14759 pub fn parse_select(&mut self) -> Result<Select, ParserError> {
14761 let mut from_first = None;
14762
14763 if self.dialect.supports_from_first_select() && self.peek_keyword(Keyword::FROM) {
14764 let from_token = self.expect_keyword(Keyword::FROM)?;
14765 let from = self.parse_table_with_joins()?;
14766 if !self.peek_keyword(Keyword::SELECT) {
14767 return Ok(Select {
14768 select_token: AttachedToken(from_token),
14769 optimizer_hints: vec![],
14770 distinct: None,
14771 select_modifiers: None,
14772 top: None,
14773 top_before_distinct: false,
14774 projection: vec![],
14775 exclude: None,
14776 into: None,
14777 from,
14778 lateral_views: vec![],
14779 prewhere: None,
14780 selection: None,
14781 group_by: GroupByExpr::Expressions(vec![], vec![]),
14782 cluster_by: vec![],
14783 distribute_by: vec![],
14784 sort_by: vec![],
14785 having: None,
14786 named_window: vec![],
14787 window_before_qualify: false,
14788 qualify: None,
14789 value_table_mode: None,
14790 connect_by: vec![],
14791 flavor: SelectFlavor::FromFirstNoSelect,
14792 });
14793 }
14794 from_first = Some(from);
14795 }
14796
14797 let select_token = self.expect_keyword(Keyword::SELECT)?;
14798 let optimizer_hints = self.maybe_parse_optimizer_hints()?;
14799 let value_table_mode = self.parse_value_table_mode()?;
14800
14801 let (select_modifiers, distinct_select_modifier) =
14802 if self.dialect.supports_select_modifiers() {
14803 self.parse_select_modifiers()?
14804 } else {
14805 (None, None)
14806 };
14807
14808 let mut top_before_distinct = false;
14809 let mut top = None;
14810 if self.dialect.supports_top_before_distinct() && self.parse_keyword(Keyword::TOP) {
14811 top = Some(self.parse_top()?);
14812 top_before_distinct = true;
14813 }
14814
14815 let distinct = if distinct_select_modifier.is_some() {
14816 distinct_select_modifier
14817 } else {
14818 self.parse_all_or_distinct()?
14819 };
14820
14821 if !self.dialect.supports_top_before_distinct() && self.parse_keyword(Keyword::TOP) {
14822 top = Some(self.parse_top()?);
14823 }
14824
14825 let projection =
14826 if self.dialect.supports_empty_projections() && self.peek_keyword(Keyword::FROM) {
14827 vec![]
14828 } else {
14829 self.parse_projection()?
14830 };
14831
14832 let exclude = if self.dialect.supports_select_exclude() {
14833 self.parse_optional_select_item_exclude()?
14834 } else {
14835 None
14836 };
14837
14838 let into = if self.parse_keyword(Keyword::INTO) {
14839 Some(self.parse_select_into()?)
14840 } else {
14841 None
14842 };
14843
14844 let (from, from_first) = if let Some(from) = from_first.take() {
14850 (from, true)
14851 } else if self.parse_keyword(Keyword::FROM) {
14852 (self.parse_table_with_joins()?, false)
14853 } else {
14854 (vec![], false)
14855 };
14856
14857 let mut lateral_views = vec![];
14858 loop {
14859 if self.parse_keywords(&[Keyword::LATERAL, Keyword::VIEW]) {
14860 let outer = self.parse_keyword(Keyword::OUTER);
14861 let lateral_view = self.parse_expr()?;
14862 let lateral_view_name = self.parse_object_name(false)?;
14863 let lateral_col_alias = self
14864 .parse_comma_separated(|parser| {
14865 parser.parse_optional_alias(&[
14866 Keyword::WHERE,
14867 Keyword::GROUP,
14868 Keyword::CLUSTER,
14869 Keyword::HAVING,
14870 Keyword::LATERAL,
14871 ]) })?
14873 .into_iter()
14874 .flatten()
14875 .collect();
14876
14877 lateral_views.push(LateralView {
14878 lateral_view,
14879 lateral_view_name,
14880 lateral_col_alias,
14881 outer,
14882 });
14883 } else {
14884 break;
14885 }
14886 }
14887
14888 let prewhere = if self.dialect.supports_prewhere() && self.parse_keyword(Keyword::PREWHERE)
14889 {
14890 Some(self.parse_expr()?)
14891 } else {
14892 None
14893 };
14894
14895 let selection = if self.parse_keyword(Keyword::WHERE) {
14896 Some(self.parse_expr()?)
14897 } else {
14898 None
14899 };
14900
14901 let connect_by = self.maybe_parse_connect_by()?;
14902
14903 let group_by = self
14904 .parse_optional_group_by()?
14905 .unwrap_or_else(|| GroupByExpr::Expressions(vec![], vec![]));
14906
14907 let cluster_by = if self.parse_keywords(&[Keyword::CLUSTER, Keyword::BY]) {
14908 self.parse_comma_separated(Parser::parse_expr)?
14909 } else {
14910 vec![]
14911 };
14912
14913 let distribute_by = if self.parse_keywords(&[Keyword::DISTRIBUTE, Keyword::BY]) {
14914 self.parse_comma_separated(Parser::parse_expr)?
14915 } else {
14916 vec![]
14917 };
14918
14919 let sort_by = if self.parse_keywords(&[Keyword::SORT, Keyword::BY]) {
14920 self.parse_comma_separated(Parser::parse_order_by_expr)?
14921 } else {
14922 vec![]
14923 };
14924
14925 let having = if self.parse_keyword(Keyword::HAVING) {
14926 Some(self.parse_expr()?)
14927 } else {
14928 None
14929 };
14930
14931 let (named_windows, qualify, window_before_qualify) = if self.parse_keyword(Keyword::WINDOW)
14933 {
14934 let named_windows = self.parse_comma_separated(Parser::parse_named_window)?;
14935 if self.parse_keyword(Keyword::QUALIFY) {
14936 (named_windows, Some(self.parse_expr()?), true)
14937 } else {
14938 (named_windows, None, true)
14939 }
14940 } else if self.parse_keyword(Keyword::QUALIFY) {
14941 let qualify = Some(self.parse_expr()?);
14942 if self.parse_keyword(Keyword::WINDOW) {
14943 (
14944 self.parse_comma_separated(Parser::parse_named_window)?,
14945 qualify,
14946 false,
14947 )
14948 } else {
14949 (Default::default(), qualify, false)
14950 }
14951 } else {
14952 Default::default()
14953 };
14954
14955 Ok(Select {
14956 select_token: AttachedToken(select_token),
14957 optimizer_hints,
14958 distinct,
14959 select_modifiers,
14960 top,
14961 top_before_distinct,
14962 projection,
14963 exclude,
14964 into,
14965 from,
14966 lateral_views,
14967 prewhere,
14968 selection,
14969 group_by,
14970 cluster_by,
14971 distribute_by,
14972 sort_by,
14973 having,
14974 named_window: named_windows,
14975 window_before_qualify,
14976 qualify,
14977 value_table_mode,
14978 connect_by,
14979 flavor: if from_first {
14980 SelectFlavor::FromFirst
14981 } else {
14982 SelectFlavor::Standard
14983 },
14984 })
14985 }
14986
14987 fn maybe_parse_optimizer_hints(&mut self) -> Result<Vec<OptimizerHint>, ParserError> {
14996 let supports_hints = self.dialect.supports_comment_optimizer_hint();
14997 if !supports_hints {
14998 return Ok(vec![]);
14999 }
15000 let mut hints = vec![];
15001 loop {
15002 let t = self.peek_nth_token_no_skip_ref(0);
15003 let Token::Whitespace(ws) = &t.token else {
15004 break;
15005 };
15006 match ws {
15007 Whitespace::SingleLineComment { comment, prefix } => {
15008 if let Some((hint_prefix, text)) = Self::extract_hint_prefix_and_text(comment) {
15009 hints.push(OptimizerHint {
15010 prefix: hint_prefix,
15011 text,
15012 style: OptimizerHintStyle::SingleLine {
15013 prefix: prefix.clone(),
15014 },
15015 });
15016 }
15017 self.next_token_no_skip();
15018 }
15019 Whitespace::MultiLineComment(comment) => {
15020 if let Some((hint_prefix, text)) = Self::extract_hint_prefix_and_text(comment) {
15021 hints.push(OptimizerHint {
15022 prefix: hint_prefix,
15023 text,
15024 style: OptimizerHintStyle::MultiLine,
15025 });
15026 }
15027 self.next_token_no_skip();
15028 }
15029 Whitespace::Space | Whitespace::Tab | Whitespace::Newline => {
15030 self.next_token_no_skip();
15031 }
15032 }
15033 }
15034 Ok(hints)
15035 }
15036
15037 fn extract_hint_prefix_and_text(comment: &str) -> Option<(String, String)> {
15040 let (before_plus, text) = comment.split_once('+')?;
15041 if before_plus.chars().all(|c| c.is_ascii_alphanumeric()) {
15042 Some((before_plus.to_string(), text.to_string()))
15043 } else {
15044 None
15045 }
15046 }
15047
15048 fn parse_select_modifiers(
15055 &mut self,
15056 ) -> Result<(Option<SelectModifiers>, Option<Distinct>), ParserError> {
15057 let mut modifiers = SelectModifiers::default();
15058 let mut distinct = None;
15059
15060 let keywords = &[
15061 Keyword::ALL,
15062 Keyword::DISTINCT,
15063 Keyword::DISTINCTROW,
15064 Keyword::HIGH_PRIORITY,
15065 Keyword::STRAIGHT_JOIN,
15066 Keyword::SQL_SMALL_RESULT,
15067 Keyword::SQL_BIG_RESULT,
15068 Keyword::SQL_BUFFER_RESULT,
15069 Keyword::SQL_NO_CACHE,
15070 Keyword::SQL_CALC_FOUND_ROWS,
15071 ];
15072
15073 while let Some(keyword) = self.parse_one_of_keywords(keywords) {
15074 match keyword {
15075 Keyword::ALL | Keyword::DISTINCT if distinct.is_none() => {
15076 self.prev_token();
15077 distinct = self.parse_all_or_distinct()?;
15078 }
15079 Keyword::DISTINCTROW if distinct.is_none() => {
15081 distinct = Some(Distinct::Distinct);
15082 }
15083 Keyword::HIGH_PRIORITY => modifiers.high_priority = true,
15084 Keyword::STRAIGHT_JOIN => modifiers.straight_join = true,
15085 Keyword::SQL_SMALL_RESULT => modifiers.sql_small_result = true,
15086 Keyword::SQL_BIG_RESULT => modifiers.sql_big_result = true,
15087 Keyword::SQL_BUFFER_RESULT => modifiers.sql_buffer_result = true,
15088 Keyword::SQL_NO_CACHE => modifiers.sql_no_cache = true,
15089 Keyword::SQL_CALC_FOUND_ROWS => modifiers.sql_calc_found_rows = true,
15090 _ => {
15091 self.prev_token();
15092 return self.expected_ref(
15093 "HIGH_PRIORITY, STRAIGHT_JOIN, or other MySQL select modifier",
15094 self.peek_token_ref(),
15095 );
15096 }
15097 }
15098 }
15099
15100 let select_modifiers = if modifiers.is_any_set() {
15103 Some(modifiers)
15104 } else {
15105 None
15106 };
15107 Ok((select_modifiers, distinct))
15108 }
15109
15110 fn parse_value_table_mode(&mut self) -> Result<Option<ValueTableMode>, ParserError> {
15111 if !dialect_of!(self is BigQueryDialect) {
15112 return Ok(None);
15113 }
15114
15115 let mode = if self.parse_keywords(&[Keyword::DISTINCT, Keyword::AS, Keyword::VALUE]) {
15116 Some(ValueTableMode::DistinctAsValue)
15117 } else if self.parse_keywords(&[Keyword::DISTINCT, Keyword::AS, Keyword::STRUCT]) {
15118 Some(ValueTableMode::DistinctAsStruct)
15119 } else if self.parse_keywords(&[Keyword::AS, Keyword::VALUE])
15120 || self.parse_keywords(&[Keyword::ALL, Keyword::AS, Keyword::VALUE])
15121 {
15122 Some(ValueTableMode::AsValue)
15123 } else if self.parse_keywords(&[Keyword::AS, Keyword::STRUCT])
15124 || self.parse_keywords(&[Keyword::ALL, Keyword::AS, Keyword::STRUCT])
15125 {
15126 Some(ValueTableMode::AsStruct)
15127 } else if self.parse_keyword(Keyword::AS) {
15128 self.expected_ref("VALUE or STRUCT", self.peek_token_ref())?
15129 } else {
15130 None
15131 };
15132
15133 Ok(mode)
15134 }
15135
15136 fn with_state<T, F>(&mut self, state: ParserState, mut f: F) -> Result<T, ParserError>
15140 where
15141 F: FnMut(&mut Parser) -> Result<T, ParserError>,
15142 {
15143 let current_state = self.state;
15144 self.state = state;
15145 let res = f(self);
15146 self.state = current_state;
15147 res
15148 }
15149
15150 pub fn maybe_parse_connect_by(&mut self) -> Result<Vec<ConnectByKind>, ParserError> {
15152 let mut clauses = Vec::with_capacity(2);
15153 loop {
15154 if let Some(idx) = self.parse_keywords_indexed(&[Keyword::START, Keyword::WITH]) {
15155 clauses.push(ConnectByKind::StartWith {
15156 start_token: self.token_at(idx).clone().into(),
15157 condition: self.parse_expr()?.into(),
15158 });
15159 } else if let Some(idx) = self.parse_keywords_indexed(&[Keyword::CONNECT, Keyword::BY])
15160 {
15161 clauses.push(ConnectByKind::ConnectBy {
15162 connect_token: self.token_at(idx).clone().into(),
15163 nocycle: self.parse_keyword(Keyword::NOCYCLE),
15164 relationships: self.with_state(ParserState::ConnectBy, |parser| {
15165 parser.parse_comma_separated(Parser::parse_expr)
15166 })?,
15167 });
15168 } else {
15169 break;
15170 }
15171 }
15172 Ok(clauses)
15173 }
15174
15175 pub fn parse_as_table(&mut self) -> Result<Table, ParserError> {
15177 let token1 = self.next_token();
15178 let token2 = self.next_token();
15179 let token3 = self.next_token();
15180
15181 let table_name;
15182 let schema_name;
15183 if token2 == Token::Period {
15184 match token1.token {
15185 Token::Word(w) => {
15186 schema_name = w.value;
15187 }
15188 _ => {
15189 return self.expected("Schema name", token1);
15190 }
15191 }
15192 match token3.token {
15193 Token::Word(w) => {
15194 table_name = w.value;
15195 }
15196 _ => {
15197 return self.expected("Table name", token3);
15198 }
15199 }
15200 Ok(Table {
15201 table_name: Some(table_name),
15202 schema_name: Some(schema_name),
15203 })
15204 } else {
15205 match token1.token {
15206 Token::Word(w) => {
15207 table_name = w.value;
15208 }
15209 _ => {
15210 return self.expected("Table name", token1);
15211 }
15212 }
15213 Ok(Table {
15214 table_name: Some(table_name),
15215 schema_name: None,
15216 })
15217 }
15218 }
15219
15220 fn parse_set_role(
15222 &mut self,
15223 modifier: Option<ContextModifier>,
15224 ) -> Result<Statement, ParserError> {
15225 self.expect_keyword_is(Keyword::ROLE)?;
15226
15227 let role_name = if self.parse_keyword(Keyword::NONE) {
15228 None
15229 } else {
15230 Some(self.parse_identifier()?)
15231 };
15232 Ok(Statement::Set(Set::SetRole {
15233 context_modifier: modifier,
15234 role_name,
15235 }))
15236 }
15237
15238 fn parse_set_values(
15239 &mut self,
15240 parenthesized_assignment: bool,
15241 ) -> Result<Vec<Expr>, ParserError> {
15242 let mut values = vec![];
15243
15244 if parenthesized_assignment {
15245 self.expect_token(&Token::LParen)?;
15246 }
15247
15248 loop {
15249 let value = if let Some(expr) = self.try_parse_expr_sub_query()? {
15250 expr
15251 } else if let Ok(expr) = self.parse_expr() {
15252 expr
15253 } else {
15254 self.expected_ref("variable value", self.peek_token_ref())?
15255 };
15256
15257 values.push(value);
15258 if self.consume_token(&Token::Comma) {
15259 continue;
15260 }
15261
15262 if parenthesized_assignment {
15263 self.expect_token(&Token::RParen)?;
15264 }
15265 return Ok(values);
15266 }
15267 }
15268
15269 fn parse_context_modifier(&mut self) -> Option<ContextModifier> {
15270 let modifier =
15271 self.parse_one_of_keywords(&[Keyword::SESSION, Keyword::LOCAL, Keyword::GLOBAL])?;
15272
15273 Self::keyword_to_modifier(modifier)
15274 }
15275
15276 fn parse_set_assignment(&mut self) -> Result<SetAssignment, ParserError> {
15278 let scope = self.parse_context_modifier();
15279
15280 let name = if self.dialect.supports_parenthesized_set_variables()
15281 && self.consume_token(&Token::LParen)
15282 {
15283 self.expected_ref("Unparenthesized assignment", self.peek_token_ref())?
15287 } else {
15288 self.parse_object_name(false)?
15289 };
15290
15291 if !(self.consume_token(&Token::Eq) || self.parse_keyword(Keyword::TO)) {
15292 return self.expected_ref("assignment operator", self.peek_token_ref());
15293 }
15294
15295 let value = self.parse_expr()?;
15296
15297 Ok(SetAssignment { scope, name, value })
15298 }
15299
15300 fn parse_set(&mut self) -> Result<Statement, ParserError> {
15301 let hivevar = self.parse_keyword(Keyword::HIVEVAR);
15302
15303 let scope = if !hivevar {
15305 self.parse_context_modifier()
15306 } else {
15307 None
15308 };
15309
15310 if hivevar {
15311 self.expect_token(&Token::Colon)?;
15312 }
15313
15314 if let Some(set_role_stmt) = self.maybe_parse(|parser| parser.parse_set_role(scope))? {
15315 return Ok(set_role_stmt);
15316 }
15317
15318 if self.parse_keywords(&[Keyword::TIME, Keyword::ZONE])
15320 || self.parse_keyword(Keyword::TIMEZONE)
15321 {
15322 if self.consume_token(&Token::Eq) || self.parse_keyword(Keyword::TO) {
15323 return Ok(Set::SingleAssignment {
15324 scope,
15325 hivevar,
15326 variable: ObjectName::from(vec!["TIMEZONE".into()]),
15327 values: self.parse_set_values(false)?,
15328 }
15329 .into());
15330 } else {
15331 return Ok(Set::SetTimeZone {
15335 local: scope == Some(ContextModifier::Local),
15336 value: self.parse_expr()?,
15337 }
15338 .into());
15339 }
15340 } else if self.dialect.supports_set_names() && self.parse_keyword(Keyword::NAMES) {
15341 if self.parse_keyword(Keyword::DEFAULT) {
15342 return Ok(Set::SetNamesDefault {}.into());
15343 }
15344 let charset_name = self.parse_identifier()?;
15345 let collation_name = if self.parse_one_of_keywords(&[Keyword::COLLATE]).is_some() {
15346 Some(self.parse_literal_string()?)
15347 } else {
15348 None
15349 };
15350
15351 return Ok(Set::SetNames {
15352 charset_name,
15353 collation_name,
15354 }
15355 .into());
15356 } else if self.parse_keyword(Keyword::CHARACTERISTICS) {
15357 self.expect_keywords(&[Keyword::AS, Keyword::TRANSACTION])?;
15358 return Ok(Set::SetTransaction {
15359 modes: self.parse_transaction_modes()?,
15360 snapshot: None,
15361 session: true,
15362 }
15363 .into());
15364 } else if self.parse_keyword(Keyword::TRANSACTION) {
15365 if self.parse_keyword(Keyword::SNAPSHOT) {
15366 let snapshot_id = self.parse_value()?;
15367 return Ok(Set::SetTransaction {
15368 modes: vec![],
15369 snapshot: Some(snapshot_id),
15370 session: false,
15371 }
15372 .into());
15373 }
15374 return Ok(Set::SetTransaction {
15375 modes: self.parse_transaction_modes()?,
15376 snapshot: None,
15377 session: false,
15378 }
15379 .into());
15380 } else if self.parse_keyword(Keyword::AUTHORIZATION) {
15381 let scope = match scope {
15382 Some(s) => s,
15383 None => {
15384 return self.expected_at(
15385 "SESSION, LOCAL, or other scope modifier before AUTHORIZATION",
15386 self.get_current_index(),
15387 )
15388 }
15389 };
15390 let auth_value = if self.parse_keyword(Keyword::DEFAULT) {
15391 SetSessionAuthorizationParamKind::Default
15392 } else {
15393 let value = self.parse_identifier()?;
15394 SetSessionAuthorizationParamKind::User(value)
15395 };
15396 return Ok(Set::SetSessionAuthorization(SetSessionAuthorizationParam {
15397 scope,
15398 kind: auth_value,
15399 })
15400 .into());
15401 }
15402
15403 if self.dialect.supports_comma_separated_set_assignments() {
15404 if scope.is_some() {
15405 self.prev_token();
15406 }
15407
15408 if let Some(assignments) = self
15409 .maybe_parse(|parser| parser.parse_comma_separated(Parser::parse_set_assignment))?
15410 {
15411 return if assignments.len() > 1 {
15412 Ok(Set::MultipleAssignments { assignments }.into())
15413 } else {
15414 let SetAssignment { scope, name, value } =
15415 assignments.into_iter().next().ok_or_else(|| {
15416 ParserError::ParserError("Expected at least one assignment".to_string())
15417 })?;
15418
15419 Ok(Set::SingleAssignment {
15420 scope,
15421 hivevar,
15422 variable: name,
15423 values: vec![value],
15424 }
15425 .into())
15426 };
15427 }
15428 }
15429
15430 let variables = if self.dialect.supports_parenthesized_set_variables()
15431 && self.consume_token(&Token::LParen)
15432 {
15433 let vars = OneOrManyWithParens::Many(
15434 self.parse_comma_separated(|parser: &mut Parser<'a>| parser.parse_identifier())?
15435 .into_iter()
15436 .map(|ident| ObjectName::from(vec![ident]))
15437 .collect(),
15438 );
15439 self.expect_token(&Token::RParen)?;
15440 vars
15441 } else {
15442 OneOrManyWithParens::One(self.parse_object_name(false)?)
15443 };
15444
15445 if self.consume_token(&Token::Eq) || self.parse_keyword(Keyword::TO) {
15446 let stmt = match variables {
15447 OneOrManyWithParens::One(var) => Set::SingleAssignment {
15448 scope,
15449 hivevar,
15450 variable: var,
15451 values: self.parse_set_values(false)?,
15452 },
15453 OneOrManyWithParens::Many(vars) => Set::ParenthesizedAssignments {
15454 variables: vars,
15455 values: self.parse_set_values(true)?,
15456 },
15457 };
15458
15459 return Ok(stmt.into());
15460 }
15461
15462 if self.dialect.supports_set_stmt_without_operator() {
15463 self.prev_token();
15464 return self.parse_set_session_params();
15465 };
15466
15467 self.expected_ref("equals sign or TO", self.peek_token_ref())
15468 }
15469
15470 pub fn parse_set_session_params(&mut self) -> Result<Statement, ParserError> {
15472 if self.parse_keyword(Keyword::STATISTICS) {
15473 let topic = match self.parse_one_of_keywords(&[
15474 Keyword::IO,
15475 Keyword::PROFILE,
15476 Keyword::TIME,
15477 Keyword::XML,
15478 ]) {
15479 Some(Keyword::IO) => SessionParamStatsTopic::IO,
15480 Some(Keyword::PROFILE) => SessionParamStatsTopic::Profile,
15481 Some(Keyword::TIME) => SessionParamStatsTopic::Time,
15482 Some(Keyword::XML) => SessionParamStatsTopic::Xml,
15483 _ => return self.expected_ref("IO, PROFILE, TIME or XML", self.peek_token_ref()),
15484 };
15485 let value = self.parse_session_param_value()?;
15486 Ok(
15487 Set::SetSessionParam(SetSessionParamKind::Statistics(SetSessionParamStatistics {
15488 topic,
15489 value,
15490 }))
15491 .into(),
15492 )
15493 } else if self.parse_keyword(Keyword::IDENTITY_INSERT) {
15494 let obj = self.parse_object_name(false)?;
15495 let value = self.parse_session_param_value()?;
15496 Ok(Set::SetSessionParam(SetSessionParamKind::IdentityInsert(
15497 SetSessionParamIdentityInsert { obj, value },
15498 ))
15499 .into())
15500 } else if self.parse_keyword(Keyword::OFFSETS) {
15501 let keywords = self.parse_comma_separated(|parser| {
15502 let next_token = parser.next_token();
15503 match &next_token.token {
15504 Token::Word(w) => Ok(w.to_string()),
15505 _ => parser.expected("SQL keyword", next_token),
15506 }
15507 })?;
15508 let value = self.parse_session_param_value()?;
15509 Ok(
15510 Set::SetSessionParam(SetSessionParamKind::Offsets(SetSessionParamOffsets {
15511 keywords,
15512 value,
15513 }))
15514 .into(),
15515 )
15516 } else {
15517 let names = self.parse_comma_separated(|parser| {
15518 let next_token = parser.next_token();
15519 match next_token.token {
15520 Token::Word(w) => Ok(w.to_string()),
15521 _ => parser.expected("Session param name", next_token),
15522 }
15523 })?;
15524 let value = self.parse_expr()?.to_string();
15525 Ok(
15526 Set::SetSessionParam(SetSessionParamKind::Generic(SetSessionParamGeneric {
15527 names,
15528 value,
15529 }))
15530 .into(),
15531 )
15532 }
15533 }
15534
15535 fn parse_session_param_value(&mut self) -> Result<SessionParamValue, ParserError> {
15536 if self.parse_keyword(Keyword::ON) {
15537 Ok(SessionParamValue::On)
15538 } else if self.parse_keyword(Keyword::OFF) {
15539 Ok(SessionParamValue::Off)
15540 } else {
15541 self.expected_ref("ON or OFF", self.peek_token_ref())
15542 }
15543 }
15544
15545 pub fn parse_show(&mut self) -> Result<Statement, ParserError> {
15547 let terse = self.parse_keyword(Keyword::TERSE);
15548 let extended = self.parse_keyword(Keyword::EXTENDED);
15549 let full = self.parse_keyword(Keyword::FULL);
15550 let session = self.parse_keyword(Keyword::SESSION);
15551 let global = self.parse_keyword(Keyword::GLOBAL);
15552 let external = self.parse_keyword(Keyword::EXTERNAL);
15553 if self
15554 .parse_one_of_keywords(&[Keyword::COLUMNS, Keyword::FIELDS])
15555 .is_some()
15556 {
15557 Ok(self.parse_show_columns(extended, full)?)
15558 } else if self.parse_keyword(Keyword::TABLES) {
15559 Ok(self.parse_show_tables(terse, extended, full, external)?)
15560 } else if self.parse_keywords(&[Keyword::MATERIALIZED, Keyword::VIEWS]) {
15561 Ok(self.parse_show_views(terse, true)?)
15562 } else if self.parse_keyword(Keyword::VIEWS) {
15563 Ok(self.parse_show_views(terse, false)?)
15564 } else if self.parse_keyword(Keyword::FUNCTIONS) {
15565 Ok(self.parse_show_functions()?)
15566 } else if self.parse_keyword(Keyword::PROCESSLIST) {
15567 Ok(Statement::ShowProcessList { full })
15568 } else if extended || full {
15569 Err(ParserError::ParserError(
15570 "EXTENDED/FULL are not supported with this type of SHOW query".to_string(),
15571 ))
15572 } else if self.parse_one_of_keywords(&[Keyword::CREATE]).is_some() {
15573 Ok(self.parse_show_create()?)
15574 } else if self.parse_keyword(Keyword::COLLATION) {
15575 Ok(self.parse_show_collation()?)
15576 } else if self.parse_keyword(Keyword::VARIABLES)
15577 && dialect_of!(self is MySqlDialect | GenericDialect)
15578 {
15579 Ok(Statement::ShowVariables {
15580 filter: self.parse_show_statement_filter()?,
15581 session,
15582 global,
15583 })
15584 } else if self.parse_keyword(Keyword::STATUS)
15585 && dialect_of!(self is MySqlDialect | GenericDialect)
15586 {
15587 Ok(Statement::ShowStatus {
15588 filter: self.parse_show_statement_filter()?,
15589 session,
15590 global,
15591 })
15592 } else if self.parse_keyword(Keyword::CATALOGS) {
15593 self.parse_show_catalogs(terse)
15594 } else if self.parse_keyword(Keyword::DATABASES) {
15595 self.parse_show_databases(terse)
15596 } else if self.parse_keyword(Keyword::SCHEMAS) {
15597 self.parse_show_schemas(terse)
15598 } else if self.parse_keywords(&[Keyword::CHARACTER, Keyword::SET]) {
15599 self.parse_show_charset(false)
15600 } else if self.parse_keyword(Keyword::CHARSET) {
15601 self.parse_show_charset(true)
15602 } else {
15603 Ok(Statement::ShowVariable {
15604 variable: self.parse_identifiers()?,
15605 })
15606 }
15607 }
15608
15609 fn parse_show_charset(&mut self, is_shorthand: bool) -> Result<Statement, ParserError> {
15610 Ok(Statement::ShowCharset(ShowCharset {
15612 is_shorthand,
15613 filter: self.parse_show_statement_filter()?,
15614 }))
15615 }
15616
15617 fn parse_show_catalogs(&mut self, terse: bool) -> Result<Statement, ParserError> {
15618 let history = self.parse_keyword(Keyword::HISTORY);
15619 let show_options = self.parse_show_stmt_options()?;
15620 Ok(Statement::ShowCatalogs {
15621 terse,
15622 history,
15623 show_options,
15624 })
15625 }
15626
15627 fn parse_show_databases(&mut self, terse: bool) -> Result<Statement, ParserError> {
15628 let history = self.parse_keyword(Keyword::HISTORY);
15629 let show_options = self.parse_show_stmt_options()?;
15630 Ok(Statement::ShowDatabases {
15631 terse,
15632 history,
15633 show_options,
15634 })
15635 }
15636
15637 fn parse_show_schemas(&mut self, terse: bool) -> Result<Statement, ParserError> {
15638 let history = self.parse_keyword(Keyword::HISTORY);
15639 let show_options = self.parse_show_stmt_options()?;
15640 Ok(Statement::ShowSchemas {
15641 terse,
15642 history,
15643 show_options,
15644 })
15645 }
15646
15647 pub fn parse_show_create(&mut self) -> Result<Statement, ParserError> {
15649 let obj_type = match self.expect_one_of_keywords(&[
15650 Keyword::TABLE,
15651 Keyword::TRIGGER,
15652 Keyword::FUNCTION,
15653 Keyword::PROCEDURE,
15654 Keyword::EVENT,
15655 Keyword::VIEW,
15656 ])? {
15657 Keyword::TABLE => Ok(ShowCreateObject::Table),
15658 Keyword::TRIGGER => Ok(ShowCreateObject::Trigger),
15659 Keyword::FUNCTION => Ok(ShowCreateObject::Function),
15660 Keyword::PROCEDURE => Ok(ShowCreateObject::Procedure),
15661 Keyword::EVENT => Ok(ShowCreateObject::Event),
15662 Keyword::VIEW => Ok(ShowCreateObject::View),
15663 keyword => Err(ParserError::ParserError(format!(
15664 "Unable to map keyword to ShowCreateObject: {keyword:?}"
15665 ))),
15666 }?;
15667
15668 let obj_name = self.parse_object_name(false)?;
15669
15670 Ok(Statement::ShowCreate { obj_type, obj_name })
15671 }
15672
15673 pub fn parse_show_columns(
15675 &mut self,
15676 extended: bool,
15677 full: bool,
15678 ) -> Result<Statement, ParserError> {
15679 let show_options = self.parse_show_stmt_options()?;
15680 Ok(Statement::ShowColumns {
15681 extended,
15682 full,
15683 show_options,
15684 })
15685 }
15686
15687 fn parse_show_tables(
15688 &mut self,
15689 terse: bool,
15690 extended: bool,
15691 full: bool,
15692 external: bool,
15693 ) -> Result<Statement, ParserError> {
15694 let history = !external && self.parse_keyword(Keyword::HISTORY);
15695 let show_options = self.parse_show_stmt_options()?;
15696 Ok(Statement::ShowTables {
15697 terse,
15698 history,
15699 extended,
15700 full,
15701 external,
15702 show_options,
15703 })
15704 }
15705
15706 fn parse_show_views(
15707 &mut self,
15708 terse: bool,
15709 materialized: bool,
15710 ) -> Result<Statement, ParserError> {
15711 let show_options = self.parse_show_stmt_options()?;
15712 Ok(Statement::ShowViews {
15713 materialized,
15714 terse,
15715 show_options,
15716 })
15717 }
15718
15719 pub fn parse_show_functions(&mut self) -> Result<Statement, ParserError> {
15721 let filter = self.parse_show_statement_filter()?;
15722 Ok(Statement::ShowFunctions { filter })
15723 }
15724
15725 pub fn parse_show_collation(&mut self) -> Result<Statement, ParserError> {
15727 let filter = self.parse_show_statement_filter()?;
15728 Ok(Statement::ShowCollation { filter })
15729 }
15730
15731 pub fn parse_show_statement_filter(
15733 &mut self,
15734 ) -> Result<Option<ShowStatementFilter>, ParserError> {
15735 if self.parse_keyword(Keyword::LIKE) {
15736 Ok(Some(ShowStatementFilter::Like(
15737 self.parse_literal_string()?,
15738 )))
15739 } else if self.parse_keyword(Keyword::ILIKE) {
15740 Ok(Some(ShowStatementFilter::ILike(
15741 self.parse_literal_string()?,
15742 )))
15743 } else if self.parse_keyword(Keyword::WHERE) {
15744 Ok(Some(ShowStatementFilter::Where(self.parse_expr()?)))
15745 } else {
15746 self.maybe_parse(|parser| -> Result<String, ParserError> {
15747 parser.parse_literal_string()
15748 })?
15749 .map_or(Ok(None), |filter| {
15750 Ok(Some(ShowStatementFilter::NoKeyword(filter)))
15751 })
15752 }
15753 }
15754
15755 pub fn parse_use(&mut self) -> Result<Statement, ParserError> {
15757 let parsed_keyword = if dialect_of!(self is HiveDialect) {
15759 if self.parse_keyword(Keyword::DEFAULT) {
15761 return Ok(Statement::Use(Use::Default));
15762 }
15763 None } else if dialect_of!(self is DatabricksDialect) {
15765 self.parse_one_of_keywords(&[Keyword::CATALOG, Keyword::DATABASE, Keyword::SCHEMA])
15766 } else if dialect_of!(self is SnowflakeDialect) {
15767 self.parse_one_of_keywords(&[
15768 Keyword::DATABASE,
15769 Keyword::SCHEMA,
15770 Keyword::WAREHOUSE,
15771 Keyword::ROLE,
15772 Keyword::SECONDARY,
15773 ])
15774 } else {
15775 None };
15777
15778 let result = if matches!(parsed_keyword, Some(Keyword::SECONDARY)) {
15779 self.parse_secondary_roles()?
15780 } else {
15781 let obj_name = self.parse_object_name(false)?;
15782 match parsed_keyword {
15783 Some(Keyword::CATALOG) => Use::Catalog(obj_name),
15784 Some(Keyword::DATABASE) => Use::Database(obj_name),
15785 Some(Keyword::SCHEMA) => Use::Schema(obj_name),
15786 Some(Keyword::WAREHOUSE) => Use::Warehouse(obj_name),
15787 Some(Keyword::ROLE) => Use::Role(obj_name),
15788 _ => Use::Object(obj_name),
15789 }
15790 };
15791
15792 Ok(Statement::Use(result))
15793 }
15794
15795 fn parse_secondary_roles(&mut self) -> Result<Use, ParserError> {
15796 self.expect_one_of_keywords(&[Keyword::ROLES, Keyword::ROLE])?;
15797 if self.parse_keyword(Keyword::NONE) {
15798 Ok(Use::SecondaryRoles(SecondaryRoles::None))
15799 } else if self.parse_keyword(Keyword::ALL) {
15800 Ok(Use::SecondaryRoles(SecondaryRoles::All))
15801 } else {
15802 let roles = self.parse_comma_separated(|parser| parser.parse_identifier())?;
15803 Ok(Use::SecondaryRoles(SecondaryRoles::List(roles)))
15804 }
15805 }
15806
15807 pub fn parse_table_and_joins(&mut self) -> Result<TableWithJoins, ParserError> {
15809 let relation = self.parse_table_factor()?;
15810 let joins = self.parse_joins()?;
15814 Ok(TableWithJoins { relation, joins })
15815 }
15816
15817 fn parse_joins(&mut self) -> Result<Vec<Join>, ParserError> {
15818 let mut joins = vec![];
15819 loop {
15820 let global = self.parse_keyword(Keyword::GLOBAL);
15821 let join = if self.parse_keyword(Keyword::CROSS) {
15822 let join_operator = if self.parse_keyword(Keyword::JOIN) {
15823 JoinOperator::CrossJoin(JoinConstraint::None)
15824 } else if self.parse_keyword(Keyword::APPLY) {
15825 JoinOperator::CrossApply
15827 } else {
15828 return self.expected_ref("JOIN or APPLY after CROSS", self.peek_token_ref());
15829 };
15830 let relation = self.parse_table_factor()?;
15831 let join_operator = if matches!(join_operator, JoinOperator::CrossJoin(_))
15832 && self.dialect.supports_cross_join_constraint()
15833 {
15834 let constraint = self.parse_join_constraint(false)?;
15835 JoinOperator::CrossJoin(constraint)
15836 } else {
15837 join_operator
15838 };
15839 Join {
15840 relation,
15841 global,
15842 join_operator,
15843 }
15844 } else if self.parse_keyword(Keyword::OUTER) {
15845 self.expect_keyword_is(Keyword::APPLY)?;
15847 Join {
15848 relation: self.parse_table_factor()?,
15849 global,
15850 join_operator: JoinOperator::OuterApply,
15851 }
15852 } else if self.parse_keyword(Keyword::ASOF) {
15853 self.expect_keyword_is(Keyword::JOIN)?;
15854 let relation = self.parse_table_factor()?;
15855 self.expect_keyword_is(Keyword::MATCH_CONDITION)?;
15856 let match_condition = self.parse_parenthesized(Self::parse_expr)?;
15857 Join {
15858 relation,
15859 global,
15860 join_operator: JoinOperator::AsOf {
15861 match_condition,
15862 constraint: self.parse_join_constraint(false)?,
15863 },
15864 }
15865 } else if self.dialect.supports_array_join_syntax()
15866 && self.parse_keywords(&[Keyword::INNER, Keyword::ARRAY, Keyword::JOIN])
15867 {
15868 Join {
15870 relation: self.parse_table_factor()?,
15871 global,
15872 join_operator: JoinOperator::InnerArrayJoin,
15873 }
15874 } else if self.dialect.supports_array_join_syntax()
15875 && self.parse_keywords(&[Keyword::LEFT, Keyword::ARRAY, Keyword::JOIN])
15876 {
15877 Join {
15879 relation: self.parse_table_factor()?,
15880 global,
15881 join_operator: JoinOperator::LeftArrayJoin,
15882 }
15883 } else if self.dialect.supports_array_join_syntax()
15884 && self.parse_keywords(&[Keyword::ARRAY, Keyword::JOIN])
15885 {
15886 Join {
15888 relation: self.parse_table_factor()?,
15889 global,
15890 join_operator: JoinOperator::ArrayJoin,
15891 }
15892 } else {
15893 let natural = self.parse_keyword(Keyword::NATURAL);
15894 let peek_keyword = if let Token::Word(w) = &self.peek_token_ref().token {
15895 w.keyword
15896 } else {
15897 Keyword::NoKeyword
15898 };
15899
15900 let join_operator_type = match peek_keyword {
15901 Keyword::INNER | Keyword::JOIN => {
15902 let inner = self.parse_keyword(Keyword::INNER); self.expect_keyword_is(Keyword::JOIN)?;
15904 if inner {
15905 JoinOperator::Inner
15906 } else {
15907 JoinOperator::Join
15908 }
15909 }
15910 kw @ Keyword::LEFT | kw @ Keyword::RIGHT => {
15911 let _ = self.next_token(); let is_left = kw == Keyword::LEFT;
15913 let join_type = self.parse_one_of_keywords(&[
15914 Keyword::OUTER,
15915 Keyword::SEMI,
15916 Keyword::ANTI,
15917 Keyword::JOIN,
15918 ]);
15919 match join_type {
15920 Some(Keyword::OUTER) => {
15921 self.expect_keyword_is(Keyword::JOIN)?;
15922 if is_left {
15923 JoinOperator::LeftOuter
15924 } else {
15925 JoinOperator::RightOuter
15926 }
15927 }
15928 Some(Keyword::SEMI) => {
15929 self.expect_keyword_is(Keyword::JOIN)?;
15930 if is_left {
15931 JoinOperator::LeftSemi
15932 } else {
15933 JoinOperator::RightSemi
15934 }
15935 }
15936 Some(Keyword::ANTI) => {
15937 self.expect_keyword_is(Keyword::JOIN)?;
15938 if is_left {
15939 JoinOperator::LeftAnti
15940 } else {
15941 JoinOperator::RightAnti
15942 }
15943 }
15944 Some(Keyword::JOIN) => {
15945 if is_left {
15946 JoinOperator::Left
15947 } else {
15948 JoinOperator::Right
15949 }
15950 }
15951 _ => {
15952 return Err(ParserError::ParserError(format!(
15953 "expected OUTER, SEMI, ANTI or JOIN after {kw:?}"
15954 )))
15955 }
15956 }
15957 }
15958 Keyword::ANTI => {
15959 let _ = self.next_token(); self.expect_keyword_is(Keyword::JOIN)?;
15961 JoinOperator::Anti
15962 }
15963 Keyword::SEMI => {
15964 let _ = self.next_token(); self.expect_keyword_is(Keyword::JOIN)?;
15966 JoinOperator::Semi
15967 }
15968 Keyword::FULL => {
15969 let _ = self.next_token(); let _ = self.parse_keyword(Keyword::OUTER); self.expect_keyword_is(Keyword::JOIN)?;
15972 JoinOperator::FullOuter
15973 }
15974 Keyword::OUTER => {
15975 return self.expected_ref("LEFT, RIGHT, or FULL", self.peek_token_ref());
15976 }
15977 Keyword::STRAIGHT_JOIN => {
15978 let _ = self.next_token(); JoinOperator::StraightJoin
15980 }
15981 _ if natural => {
15982 return self
15983 .expected_ref("a join type after NATURAL", self.peek_token_ref());
15984 }
15985 _ => break,
15986 };
15987 let mut relation = self.parse_table_factor()?;
15988
15989 if !self
15990 .dialect
15991 .supports_left_associative_joins_without_parens()
15992 && self.peek_parens_less_nested_join()
15993 {
15994 let joins = self.parse_joins()?;
15995 relation = TableFactor::NestedJoin {
15996 table_with_joins: Box::new(TableWithJoins { relation, joins }),
15997 alias: None,
15998 };
15999 }
16000
16001 let join_constraint = self.parse_join_constraint(natural)?;
16002 Join {
16003 relation,
16004 global,
16005 join_operator: join_operator_type(join_constraint),
16006 }
16007 };
16008 joins.push(join);
16009 }
16010 Ok(joins)
16011 }
16012
16013 fn peek_parens_less_nested_join(&self) -> bool {
16014 matches!(
16015 self.peek_token_ref().token,
16016 Token::Word(Word {
16017 keyword: Keyword::JOIN
16018 | Keyword::INNER
16019 | Keyword::LEFT
16020 | Keyword::RIGHT
16021 | Keyword::FULL,
16022 ..
16023 })
16024 )
16025 }
16026
16027 #[cfg_attr(feature = "recursive-protection", recursive::recursive)]
16029 pub fn parse_table_factor(&mut self) -> Result<TableFactor, ParserError> {
16030 let _guard = self.recursion_counter.try_decrease()?;
16031 if self.parse_keyword(Keyword::LATERAL) {
16032 if self.consume_token(&Token::LParen) {
16034 self.parse_derived_table_factor(Lateral)
16035 } else {
16036 let name = self.parse_object_name(false)?;
16037 self.expect_token(&Token::LParen)?;
16038 let args = self.parse_optional_args()?;
16039 let with_ordinality = self.parse_keywords(&[Keyword::WITH, Keyword::ORDINALITY]);
16040 let alias = self.maybe_parse_table_alias()?;
16041 Ok(TableFactor::Function {
16042 lateral: true,
16043 name,
16044 args,
16045 with_ordinality,
16046 alias,
16047 })
16048 }
16049 } else if self.parse_keyword(Keyword::TABLE) {
16050 self.expect_token(&Token::LParen)?;
16052 let expr = self.parse_expr()?;
16053 self.expect_token(&Token::RParen)?;
16054 let alias = self.maybe_parse_table_alias()?;
16055 Ok(TableFactor::TableFunction { expr, alias })
16056 } else if self.consume_token(&Token::LParen) {
16057 if let Some(mut table) =
16079 self.maybe_parse(|parser| parser.parse_derived_table_factor(NotLateral))?
16080 {
16081 while let Some(kw) = self.parse_one_of_keywords(&[Keyword::PIVOT, Keyword::UNPIVOT])
16082 {
16083 table = match kw {
16084 Keyword::PIVOT => self.parse_pivot_table_factor(table)?,
16085 Keyword::UNPIVOT => self.parse_unpivot_table_factor(table)?,
16086 unexpected_keyword => return Err(ParserError::ParserError(
16087 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in pivot/unpivot"),
16088 )),
16089 }
16090 }
16091 return Ok(table);
16092 }
16093
16094 let mut table_and_joins = self.parse_table_and_joins()?;
16101
16102 #[allow(clippy::if_same_then_else)]
16103 if !table_and_joins.joins.is_empty() {
16104 self.expect_token(&Token::RParen)?;
16105 let alias = self.maybe_parse_table_alias()?;
16106 Ok(TableFactor::NestedJoin {
16107 table_with_joins: Box::new(table_and_joins),
16108 alias,
16109 }) } else if let TableFactor::NestedJoin {
16111 table_with_joins: _,
16112 alias: _,
16113 } = &table_and_joins.relation
16114 {
16115 self.expect_token(&Token::RParen)?;
16118 let alias = self.maybe_parse_table_alias()?;
16119 Ok(TableFactor::NestedJoin {
16120 table_with_joins: Box::new(table_and_joins),
16121 alias,
16122 })
16123 } else if self.dialect.supports_parens_around_table_factor() {
16124 self.expect_token(&Token::RParen)?;
16131
16132 if let Some(outer_alias) = self.maybe_parse_table_alias()? {
16133 match &mut table_and_joins.relation {
16136 TableFactor::Derived { alias, .. }
16137 | TableFactor::Table { alias, .. }
16138 | TableFactor::Function { alias, .. }
16139 | TableFactor::UNNEST { alias, .. }
16140 | TableFactor::JsonTable { alias, .. }
16141 | TableFactor::XmlTable { alias, .. }
16142 | TableFactor::OpenJsonTable { alias, .. }
16143 | TableFactor::TableFunction { alias, .. }
16144 | TableFactor::Pivot { alias, .. }
16145 | TableFactor::Unpivot { alias, .. }
16146 | TableFactor::MatchRecognize { alias, .. }
16147 | TableFactor::SemanticView { alias, .. }
16148 | TableFactor::NestedJoin { alias, .. } => {
16149 if let Some(inner_alias) = alias {
16151 return Err(ParserError::ParserError(format!(
16152 "duplicate alias {inner_alias}"
16153 )));
16154 }
16155 alias.replace(outer_alias);
16159 }
16160 };
16161 }
16162 Ok(table_and_joins.relation)
16164 } else {
16165 self.expected_ref("joined table", self.peek_token_ref())
16168 }
16169 } else if self.dialect.supports_values_as_table_factor()
16170 && matches!(
16171 self.peek_tokens(),
16172 [
16173 Token::Word(Word {
16174 keyword: Keyword::VALUES,
16175 ..
16176 }),
16177 Token::LParen
16178 ]
16179 )
16180 {
16181 self.expect_keyword_is(Keyword::VALUES)?;
16182
16183 let values = SetExpr::Values(self.parse_values(false, false)?);
16187 let alias = self.maybe_parse_table_alias()?;
16188 Ok(TableFactor::Derived {
16189 lateral: false,
16190 subquery: Box::new(Query {
16191 with: None,
16192 body: Box::new(values),
16193 order_by: None,
16194 limit_clause: None,
16195 fetch: None,
16196 locks: vec![],
16197 for_clause: None,
16198 settings: None,
16199 format_clause: None,
16200 pipe_operators: vec![],
16201 }),
16202 alias,
16203 sample: None,
16204 })
16205 } else if dialect_of!(self is BigQueryDialect | PostgreSqlDialect | GenericDialect)
16206 && self.parse_keyword(Keyword::UNNEST)
16207 {
16208 self.expect_token(&Token::LParen)?;
16209 let array_exprs = self.parse_comma_separated(Parser::parse_expr)?;
16210 self.expect_token(&Token::RParen)?;
16211
16212 let with_ordinality = self.parse_keywords(&[Keyword::WITH, Keyword::ORDINALITY]);
16213 let alias = match self.maybe_parse_table_alias() {
16214 Ok(Some(alias)) => Some(alias),
16215 Ok(None) => None,
16216 Err(e) => return Err(e),
16217 };
16218
16219 let with_offset = match self.expect_keywords(&[Keyword::WITH, Keyword::OFFSET]) {
16220 Ok(()) => true,
16221 Err(_) => false,
16222 };
16223
16224 let with_offset_alias = if with_offset {
16225 match self.parse_optional_alias(keywords::RESERVED_FOR_COLUMN_ALIAS) {
16226 Ok(Some(alias)) => Some(alias),
16227 Ok(None) => None,
16228 Err(e) => return Err(e),
16229 }
16230 } else {
16231 None
16232 };
16233
16234 Ok(TableFactor::UNNEST {
16235 alias,
16236 array_exprs,
16237 with_offset,
16238 with_offset_alias,
16239 with_ordinality,
16240 })
16241 } else if self.parse_keyword_with_tokens(Keyword::JSON_TABLE, &[Token::LParen]) {
16242 let json_expr = self.parse_expr()?;
16243 self.expect_token(&Token::Comma)?;
16244 let json_path = self.parse_value()?;
16245 self.expect_keyword_is(Keyword::COLUMNS)?;
16246 self.expect_token(&Token::LParen)?;
16247 let columns = self.parse_comma_separated(Parser::parse_json_table_column_def)?;
16248 self.expect_token(&Token::RParen)?;
16249 self.expect_token(&Token::RParen)?;
16250 let alias = self.maybe_parse_table_alias()?;
16251 Ok(TableFactor::JsonTable {
16252 json_expr,
16253 json_path,
16254 columns,
16255 alias,
16256 })
16257 } else if self.parse_keyword_with_tokens(Keyword::OPENJSON, &[Token::LParen]) {
16258 self.prev_token();
16259 self.parse_open_json_table_factor()
16260 } else if self.parse_keyword_with_tokens(Keyword::XMLTABLE, &[Token::LParen]) {
16261 self.prev_token();
16262 self.parse_xml_table_factor()
16263 } else if self.dialect.supports_semantic_view_table_factor()
16264 && self.peek_keyword_with_tokens(Keyword::SEMANTIC_VIEW, &[Token::LParen])
16265 {
16266 self.parse_semantic_view_table_factor()
16267 } else if self.peek_token_ref().token == Token::AtSign {
16268 self.parse_snowflake_stage_table_factor()
16270 } else {
16271 let name = self.parse_object_name(true)?;
16272
16273 let json_path = match &self.peek_token_ref().token {
16274 Token::LBracket if self.dialect.supports_partiql() => Some(self.parse_json_path()?),
16275 _ => None,
16276 };
16277
16278 let partitions: Vec<Ident> = if dialect_of!(self is MySqlDialect | GenericDialect)
16279 && self.parse_keyword(Keyword::PARTITION)
16280 {
16281 self.parse_parenthesized_identifiers()?
16282 } else {
16283 vec![]
16284 };
16285
16286 let version = self.maybe_parse_table_version()?;
16288
16289 let args = if self.consume_token(&Token::LParen) {
16291 Some(self.parse_table_function_args()?)
16292 } else {
16293 None
16294 };
16295
16296 let with_ordinality = self.parse_keywords(&[Keyword::WITH, Keyword::ORDINALITY]);
16297
16298 let mut sample = None;
16299 if self.dialect.supports_table_sample_before_alias() {
16300 if let Some(parsed_sample) = self.maybe_parse_table_sample()? {
16301 sample = Some(TableSampleKind::BeforeTableAlias(parsed_sample));
16302 }
16303 }
16304
16305 let alias = self.maybe_parse_table_alias()?;
16306
16307 let index_hints = if self.dialect.supports_table_hints() {
16309 self.maybe_parse(|p| p.parse_table_index_hints())?
16310 .unwrap_or(vec![])
16311 } else {
16312 vec![]
16313 };
16314
16315 let mut with_hints = vec![];
16317 if self.parse_keyword(Keyword::WITH) {
16318 if self.consume_token(&Token::LParen) {
16319 with_hints = self.parse_comma_separated(Parser::parse_expr)?;
16320 self.expect_token(&Token::RParen)?;
16321 } else {
16322 self.prev_token();
16324 }
16325 };
16326
16327 if !self.dialect.supports_table_sample_before_alias() {
16328 if let Some(parsed_sample) = self.maybe_parse_table_sample()? {
16329 sample = Some(TableSampleKind::AfterTableAlias(parsed_sample));
16330 }
16331 }
16332
16333 let mut table = TableFactor::Table {
16334 name,
16335 alias,
16336 args,
16337 with_hints,
16338 version,
16339 partitions,
16340 with_ordinality,
16341 json_path,
16342 sample,
16343 index_hints,
16344 };
16345
16346 while let Some(kw) = self.parse_one_of_keywords(&[Keyword::PIVOT, Keyword::UNPIVOT]) {
16347 table = match kw {
16348 Keyword::PIVOT => self.parse_pivot_table_factor(table)?,
16349 Keyword::UNPIVOT => self.parse_unpivot_table_factor(table)?,
16350 unexpected_keyword => return Err(ParserError::ParserError(
16351 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in pivot/unpivot"),
16352 )),
16353 }
16354 }
16355
16356 if self.dialect.supports_match_recognize()
16357 && self.parse_keyword(Keyword::MATCH_RECOGNIZE)
16358 {
16359 table = self.parse_match_recognize(table)?;
16360 }
16361
16362 Ok(table)
16363 }
16364 }
16365
16366 fn parse_snowflake_stage_table_factor(&mut self) -> Result<TableFactor, ParserError> {
16371 let name = crate::dialect::parse_snowflake_stage_name(self)?;
16373
16374 let args = if self.consume_token(&Token::LParen) {
16376 Some(self.parse_table_function_args()?)
16377 } else {
16378 None
16379 };
16380
16381 let alias = self.maybe_parse_table_alias()?;
16382
16383 Ok(TableFactor::Table {
16384 name,
16385 alias,
16386 args,
16387 with_hints: vec![],
16388 version: None,
16389 partitions: vec![],
16390 with_ordinality: false,
16391 json_path: None,
16392 sample: None,
16393 index_hints: vec![],
16394 })
16395 }
16396
16397 fn maybe_parse_table_sample(&mut self) -> Result<Option<Box<TableSample>>, ParserError> {
16398 let modifier = if self.parse_keyword(Keyword::TABLESAMPLE) {
16399 TableSampleModifier::TableSample
16400 } else if self.parse_keyword(Keyword::SAMPLE) {
16401 TableSampleModifier::Sample
16402 } else {
16403 return Ok(None);
16404 };
16405 self.parse_table_sample(modifier).map(Some)
16406 }
16407
16408 fn parse_table_sample(
16409 &mut self,
16410 modifier: TableSampleModifier,
16411 ) -> Result<Box<TableSample>, ParserError> {
16412 let name = match self.parse_one_of_keywords(&[
16413 Keyword::BERNOULLI,
16414 Keyword::ROW,
16415 Keyword::SYSTEM,
16416 Keyword::BLOCK,
16417 ]) {
16418 Some(Keyword::BERNOULLI) => Some(TableSampleMethod::Bernoulli),
16419 Some(Keyword::ROW) => Some(TableSampleMethod::Row),
16420 Some(Keyword::SYSTEM) => Some(TableSampleMethod::System),
16421 Some(Keyword::BLOCK) => Some(TableSampleMethod::Block),
16422 _ => None,
16423 };
16424
16425 let parenthesized = self.consume_token(&Token::LParen);
16426
16427 let (quantity, bucket) = if parenthesized && self.parse_keyword(Keyword::BUCKET) {
16428 let selected_bucket = self.parse_number_value()?;
16429 self.expect_keywords(&[Keyword::OUT, Keyword::OF])?;
16430 let total = self.parse_number_value()?;
16431 let on = if self.parse_keyword(Keyword::ON) {
16432 Some(self.parse_expr()?)
16433 } else {
16434 None
16435 };
16436 (
16437 None,
16438 Some(TableSampleBucket {
16439 bucket: selected_bucket,
16440 total,
16441 on,
16442 }),
16443 )
16444 } else {
16445 let value = match self.maybe_parse(|p| p.parse_expr())? {
16446 Some(num) => num,
16447 None => {
16448 let next_token = self.next_token();
16449 if let Token::Word(w) = next_token.token {
16450 Expr::Value(Value::Placeholder(w.value).with_span(next_token.span))
16451 } else {
16452 return parser_err!(
16453 "Expecting number or byte length e.g. 100M",
16454 self.peek_token_ref().span.start
16455 );
16456 }
16457 }
16458 };
16459 let unit = if self.parse_keyword(Keyword::ROWS) {
16460 Some(TableSampleUnit::Rows)
16461 } else if self.parse_keyword(Keyword::PERCENT) {
16462 Some(TableSampleUnit::Percent)
16463 } else {
16464 None
16465 };
16466 (
16467 Some(TableSampleQuantity {
16468 parenthesized,
16469 value,
16470 unit,
16471 }),
16472 None,
16473 )
16474 };
16475 if parenthesized {
16476 self.expect_token(&Token::RParen)?;
16477 }
16478
16479 let seed = if self.parse_keyword(Keyword::REPEATABLE) {
16480 Some(self.parse_table_sample_seed(TableSampleSeedModifier::Repeatable)?)
16481 } else if self.parse_keyword(Keyword::SEED) {
16482 Some(self.parse_table_sample_seed(TableSampleSeedModifier::Seed)?)
16483 } else {
16484 None
16485 };
16486
16487 let offset = if self.parse_keyword(Keyword::OFFSET) {
16488 Some(self.parse_expr()?)
16489 } else {
16490 None
16491 };
16492
16493 Ok(Box::new(TableSample {
16494 modifier,
16495 name,
16496 quantity,
16497 seed,
16498 bucket,
16499 offset,
16500 }))
16501 }
16502
16503 fn parse_table_sample_seed(
16504 &mut self,
16505 modifier: TableSampleSeedModifier,
16506 ) -> Result<TableSampleSeed, ParserError> {
16507 self.expect_token(&Token::LParen)?;
16508 let value = self.parse_number_value()?;
16509 self.expect_token(&Token::RParen)?;
16510 Ok(TableSampleSeed { modifier, value })
16511 }
16512
16513 fn parse_open_json_table_factor(&mut self) -> Result<TableFactor, ParserError> {
16516 self.expect_token(&Token::LParen)?;
16517 let json_expr = self.parse_expr()?;
16518 let json_path = if self.consume_token(&Token::Comma) {
16519 Some(self.parse_value()?)
16520 } else {
16521 None
16522 };
16523 self.expect_token(&Token::RParen)?;
16524 let columns = if self.parse_keyword(Keyword::WITH) {
16525 self.expect_token(&Token::LParen)?;
16526 let columns = self.parse_comma_separated(Parser::parse_openjson_table_column_def)?;
16527 self.expect_token(&Token::RParen)?;
16528 columns
16529 } else {
16530 Vec::new()
16531 };
16532 let alias = self.maybe_parse_table_alias()?;
16533 Ok(TableFactor::OpenJsonTable {
16534 json_expr,
16535 json_path,
16536 columns,
16537 alias,
16538 })
16539 }
16540
16541 fn parse_xml_table_factor(&mut self) -> Result<TableFactor, ParserError> {
16542 self.expect_token(&Token::LParen)?;
16543 let namespaces = if self.parse_keyword(Keyword::XMLNAMESPACES) {
16544 self.expect_token(&Token::LParen)?;
16545 let namespaces = self.parse_comma_separated(Parser::parse_xml_namespace_definition)?;
16546 self.expect_token(&Token::RParen)?;
16547 self.expect_token(&Token::Comma)?;
16548 namespaces
16549 } else {
16550 vec![]
16551 };
16552 let row_expression = self.parse_expr()?;
16553 let passing = self.parse_xml_passing_clause()?;
16554 self.expect_keyword_is(Keyword::COLUMNS)?;
16555 let columns = self.parse_comma_separated(Parser::parse_xml_table_column)?;
16556 self.expect_token(&Token::RParen)?;
16557 let alias = self.maybe_parse_table_alias()?;
16558 Ok(TableFactor::XmlTable {
16559 namespaces,
16560 row_expression,
16561 passing,
16562 columns,
16563 alias,
16564 })
16565 }
16566
16567 fn parse_xml_namespace_definition(&mut self) -> Result<XmlNamespaceDefinition, ParserError> {
16568 let uri = self.parse_expr()?;
16569 self.expect_keyword_is(Keyword::AS)?;
16570 let name = self.parse_identifier()?;
16571 Ok(XmlNamespaceDefinition { uri, name })
16572 }
16573
16574 fn parse_xml_table_column(&mut self) -> Result<XmlTableColumn, ParserError> {
16575 let name = self.parse_identifier()?;
16576
16577 let option = if self.parse_keyword(Keyword::FOR) {
16578 self.expect_keyword(Keyword::ORDINALITY)?;
16579 XmlTableColumnOption::ForOrdinality
16580 } else {
16581 let r#type = self.parse_data_type()?;
16582 let mut path = None;
16583 let mut default = None;
16584
16585 if self.parse_keyword(Keyword::PATH) {
16586 path = Some(self.parse_expr()?);
16587 }
16588
16589 if self.parse_keyword(Keyword::DEFAULT) {
16590 default = Some(self.parse_expr()?);
16591 }
16592
16593 let not_null = self.parse_keywords(&[Keyword::NOT, Keyword::NULL]);
16594 if !not_null {
16595 let _ = self.parse_keyword(Keyword::NULL);
16597 }
16598
16599 XmlTableColumnOption::NamedInfo {
16600 r#type,
16601 path,
16602 default,
16603 nullable: !not_null,
16604 }
16605 };
16606 Ok(XmlTableColumn { name, option })
16607 }
16608
16609 fn parse_xml_passing_clause(&mut self) -> Result<XmlPassingClause, ParserError> {
16610 let mut arguments = vec![];
16611 if self.parse_keyword(Keyword::PASSING) {
16612 loop {
16613 let by_value =
16614 self.parse_keyword(Keyword::BY) && self.expect_keyword(Keyword::VALUE).is_ok();
16615 let expr = self.parse_expr()?;
16616 let alias = if self.parse_keyword(Keyword::AS) {
16617 Some(self.parse_identifier()?)
16618 } else {
16619 None
16620 };
16621 arguments.push(XmlPassingArgument {
16622 expr,
16623 alias,
16624 by_value,
16625 });
16626 if !self.consume_token(&Token::Comma) {
16627 break;
16628 }
16629 }
16630 }
16631 Ok(XmlPassingClause { arguments })
16632 }
16633
16634 fn parse_semantic_view_table_factor(&mut self) -> Result<TableFactor, ParserError> {
16636 self.expect_keyword(Keyword::SEMANTIC_VIEW)?;
16637 self.expect_token(&Token::LParen)?;
16638
16639 let name = self.parse_object_name(true)?;
16640
16641 let mut dimensions = Vec::new();
16643 let mut metrics = Vec::new();
16644 let mut facts = Vec::new();
16645 let mut where_clause = None;
16646
16647 while self.peek_token_ref().token != Token::RParen {
16648 if self.parse_keyword(Keyword::DIMENSIONS) {
16649 if !dimensions.is_empty() {
16650 return Err(ParserError::ParserError(
16651 "DIMENSIONS clause can only be specified once".to_string(),
16652 ));
16653 }
16654 dimensions = self.parse_comma_separated(Parser::parse_wildcard_expr)?;
16655 } else if self.parse_keyword(Keyword::METRICS) {
16656 if !metrics.is_empty() {
16657 return Err(ParserError::ParserError(
16658 "METRICS clause can only be specified once".to_string(),
16659 ));
16660 }
16661 metrics = self.parse_comma_separated(Parser::parse_wildcard_expr)?;
16662 } else if self.parse_keyword(Keyword::FACTS) {
16663 if !facts.is_empty() {
16664 return Err(ParserError::ParserError(
16665 "FACTS clause can only be specified once".to_string(),
16666 ));
16667 }
16668 facts = self.parse_comma_separated(Parser::parse_wildcard_expr)?;
16669 } else if self.parse_keyword(Keyword::WHERE) {
16670 if where_clause.is_some() {
16671 return Err(ParserError::ParserError(
16672 "WHERE clause can only be specified once".to_string(),
16673 ));
16674 }
16675 where_clause = Some(self.parse_expr()?);
16676 } else {
16677 let tok = self.peek_token_ref();
16678 return parser_err!(
16679 format!(
16680 "Expected one of DIMENSIONS, METRICS, FACTS or WHERE, got {}",
16681 tok.token
16682 ),
16683 tok.span.start
16684 )?;
16685 }
16686 }
16687
16688 self.expect_token(&Token::RParen)?;
16689
16690 let alias = self.maybe_parse_table_alias()?;
16691
16692 Ok(TableFactor::SemanticView {
16693 name,
16694 dimensions,
16695 metrics,
16696 facts,
16697 where_clause,
16698 alias,
16699 })
16700 }
16701
16702 fn parse_match_recognize(&mut self, table: TableFactor) -> Result<TableFactor, ParserError> {
16703 self.expect_token(&Token::LParen)?;
16704
16705 let partition_by = if self.parse_keywords(&[Keyword::PARTITION, Keyword::BY]) {
16706 self.parse_comma_separated(Parser::parse_expr)?
16707 } else {
16708 vec![]
16709 };
16710
16711 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
16712 self.parse_comma_separated(Parser::parse_order_by_expr)?
16713 } else {
16714 vec![]
16715 };
16716
16717 let measures = if self.parse_keyword(Keyword::MEASURES) {
16718 self.parse_comma_separated(|p| {
16719 let expr = p.parse_expr()?;
16720 let _ = p.parse_keyword(Keyword::AS);
16721 let alias = p.parse_identifier()?;
16722 Ok(Measure { expr, alias })
16723 })?
16724 } else {
16725 vec![]
16726 };
16727
16728 let rows_per_match =
16729 if self.parse_keywords(&[Keyword::ONE, Keyword::ROW, Keyword::PER, Keyword::MATCH]) {
16730 Some(RowsPerMatch::OneRow)
16731 } else if self.parse_keywords(&[
16732 Keyword::ALL,
16733 Keyword::ROWS,
16734 Keyword::PER,
16735 Keyword::MATCH,
16736 ]) {
16737 Some(RowsPerMatch::AllRows(
16738 if self.parse_keywords(&[Keyword::SHOW, Keyword::EMPTY, Keyword::MATCHES]) {
16739 Some(EmptyMatchesMode::Show)
16740 } else if self.parse_keywords(&[
16741 Keyword::OMIT,
16742 Keyword::EMPTY,
16743 Keyword::MATCHES,
16744 ]) {
16745 Some(EmptyMatchesMode::Omit)
16746 } else if self.parse_keywords(&[
16747 Keyword::WITH,
16748 Keyword::UNMATCHED,
16749 Keyword::ROWS,
16750 ]) {
16751 Some(EmptyMatchesMode::WithUnmatched)
16752 } else {
16753 None
16754 },
16755 ))
16756 } else {
16757 None
16758 };
16759
16760 let after_match_skip =
16761 if self.parse_keywords(&[Keyword::AFTER, Keyword::MATCH, Keyword::SKIP]) {
16762 if self.parse_keywords(&[Keyword::PAST, Keyword::LAST, Keyword::ROW]) {
16763 Some(AfterMatchSkip::PastLastRow)
16764 } else if self.parse_keywords(&[Keyword::TO, Keyword::NEXT, Keyword::ROW]) {
16765 Some(AfterMatchSkip::ToNextRow)
16766 } else if self.parse_keywords(&[Keyword::TO, Keyword::FIRST]) {
16767 Some(AfterMatchSkip::ToFirst(self.parse_identifier()?))
16768 } else if self.parse_keywords(&[Keyword::TO, Keyword::LAST]) {
16769 Some(AfterMatchSkip::ToLast(self.parse_identifier()?))
16770 } else {
16771 let found = self.next_token();
16772 return self.expected("after match skip option", found);
16773 }
16774 } else {
16775 None
16776 };
16777
16778 self.expect_keyword_is(Keyword::PATTERN)?;
16779 let pattern = self.parse_parenthesized(Self::parse_pattern)?;
16780
16781 self.expect_keyword_is(Keyword::DEFINE)?;
16782
16783 let symbols = self.parse_comma_separated(|p| {
16784 let symbol = p.parse_identifier()?;
16785 p.expect_keyword_is(Keyword::AS)?;
16786 let definition = p.parse_expr()?;
16787 Ok(SymbolDefinition { symbol, definition })
16788 })?;
16789
16790 self.expect_token(&Token::RParen)?;
16791
16792 let alias = self.maybe_parse_table_alias()?;
16793
16794 Ok(TableFactor::MatchRecognize {
16795 table: Box::new(table),
16796 partition_by,
16797 order_by,
16798 measures,
16799 rows_per_match,
16800 after_match_skip,
16801 pattern,
16802 symbols,
16803 alias,
16804 })
16805 }
16806
16807 fn parse_base_pattern(&mut self) -> Result<MatchRecognizePattern, ParserError> {
16808 match self.next_token().token {
16809 Token::Caret => Ok(MatchRecognizePattern::Symbol(MatchRecognizeSymbol::Start)),
16810 Token::Placeholder(s) if s == "$" => {
16811 Ok(MatchRecognizePattern::Symbol(MatchRecognizeSymbol::End))
16812 }
16813 Token::LBrace => {
16814 self.expect_token(&Token::Minus)?;
16815 let symbol = self.parse_identifier().map(MatchRecognizeSymbol::Named)?;
16816 self.expect_token(&Token::Minus)?;
16817 self.expect_token(&Token::RBrace)?;
16818 Ok(MatchRecognizePattern::Exclude(symbol))
16819 }
16820 Token::Word(Word {
16821 value,
16822 quote_style: None,
16823 ..
16824 }) if value == "PERMUTE" => {
16825 self.expect_token(&Token::LParen)?;
16826 let symbols = self.parse_comma_separated(|p| {
16827 p.parse_identifier().map(MatchRecognizeSymbol::Named)
16828 })?;
16829 self.expect_token(&Token::RParen)?;
16830 Ok(MatchRecognizePattern::Permute(symbols))
16831 }
16832 Token::LParen => {
16833 let pattern = self.parse_pattern()?;
16834 self.expect_token(&Token::RParen)?;
16835 Ok(MatchRecognizePattern::Group(Box::new(pattern)))
16836 }
16837 _ => {
16838 self.prev_token();
16839 self.parse_identifier()
16840 .map(MatchRecognizeSymbol::Named)
16841 .map(MatchRecognizePattern::Symbol)
16842 }
16843 }
16844 }
16845
16846 fn parse_repetition_pattern(&mut self) -> Result<MatchRecognizePattern, ParserError> {
16847 let mut pattern = self.parse_base_pattern()?;
16848 loop {
16849 let token = self.next_token();
16850 let quantifier = match token.token {
16851 Token::Mul => RepetitionQuantifier::ZeroOrMore,
16852 Token::Plus => RepetitionQuantifier::OneOrMore,
16853 Token::Placeholder(s) if s == "?" => RepetitionQuantifier::AtMostOne,
16854 Token::LBrace => {
16855 let token = self.next_token();
16857 match token.token {
16858 Token::Comma => {
16859 let next_token = self.next_token();
16860 let Token::Number(n, _) = next_token.token else {
16861 return self.expected("literal number", next_token);
16862 };
16863 self.expect_token(&Token::RBrace)?;
16864 RepetitionQuantifier::AtMost(Self::parse(n, token.span.start)?)
16865 }
16866 Token::Number(n, _) if self.consume_token(&Token::Comma) => {
16867 let next_token = self.next_token();
16868 match next_token.token {
16869 Token::Number(m, _) => {
16870 self.expect_token(&Token::RBrace)?;
16871 RepetitionQuantifier::Range(
16872 Self::parse(n, token.span.start)?,
16873 Self::parse(m, token.span.start)?,
16874 )
16875 }
16876 Token::RBrace => {
16877 RepetitionQuantifier::AtLeast(Self::parse(n, token.span.start)?)
16878 }
16879 _ => {
16880 return self.expected("} or upper bound", next_token);
16881 }
16882 }
16883 }
16884 Token::Number(n, _) => {
16885 self.expect_token(&Token::RBrace)?;
16886 RepetitionQuantifier::Exactly(Self::parse(n, token.span.start)?)
16887 }
16888 _ => return self.expected("quantifier range", token),
16889 }
16890 }
16891 _ => {
16892 self.prev_token();
16893 break;
16894 }
16895 };
16896 pattern = MatchRecognizePattern::Repetition(Box::new(pattern), quantifier);
16897 }
16898 Ok(pattern)
16899 }
16900
16901 fn parse_concat_pattern(&mut self) -> Result<MatchRecognizePattern, ParserError> {
16902 let mut patterns = vec![self.parse_repetition_pattern()?];
16903 while !matches!(self.peek_token_ref().token, Token::RParen | Token::Pipe) {
16904 patterns.push(self.parse_repetition_pattern()?);
16905 }
16906 match <[MatchRecognizePattern; 1]>::try_from(patterns) {
16907 Ok([pattern]) => Ok(pattern),
16908 Err(patterns) => Ok(MatchRecognizePattern::Concat(patterns)),
16909 }
16910 }
16911
16912 fn parse_pattern(&mut self) -> Result<MatchRecognizePattern, ParserError> {
16913 let pattern = self.parse_concat_pattern()?;
16914 if self.consume_token(&Token::Pipe) {
16915 match self.parse_pattern()? {
16916 MatchRecognizePattern::Alternation(mut patterns) => {
16918 patterns.insert(0, pattern);
16919 Ok(MatchRecognizePattern::Alternation(patterns))
16920 }
16921 next => Ok(MatchRecognizePattern::Alternation(vec![pattern, next])),
16922 }
16923 } else {
16924 Ok(pattern)
16925 }
16926 }
16927
16928 pub fn maybe_parse_table_version(&mut self) -> Result<Option<TableVersion>, ParserError> {
16930 if self.dialect.supports_table_versioning() {
16931 if self.parse_keywords(&[Keyword::FOR, Keyword::SYSTEM_TIME, Keyword::AS, Keyword::OF])
16932 {
16933 let expr = self.parse_expr()?;
16934 return Ok(Some(TableVersion::ForSystemTimeAsOf(expr)));
16935 } else if self.peek_keyword(Keyword::CHANGES) {
16936 return self.parse_table_version_changes().map(Some);
16937 } else if self.peek_keyword(Keyword::AT) || self.peek_keyword(Keyword::BEFORE) {
16938 let func_name = self.parse_object_name(true)?;
16939 let func = self.parse_function(func_name)?;
16940 return Ok(Some(TableVersion::Function(func)));
16941 } else if self.parse_keywords(&[Keyword::TIMESTAMP, Keyword::AS, Keyword::OF]) {
16942 let expr = self.parse_expr()?;
16943 return Ok(Some(TableVersion::TimestampAsOf(expr)));
16944 } else if self.parse_keywords(&[Keyword::VERSION, Keyword::AS, Keyword::OF]) {
16945 let expr = Expr::Value(self.parse_number_value()?);
16946 return Ok(Some(TableVersion::VersionAsOf(expr)));
16947 }
16948 }
16949 Ok(None)
16950 }
16951
16952 fn parse_table_version_changes(&mut self) -> Result<TableVersion, ParserError> {
16963 let changes_name = self.parse_object_name(true)?;
16964 let changes = self.parse_function(changes_name)?;
16965 let at_name = self.parse_object_name(true)?;
16966 let at = self.parse_function(at_name)?;
16967 let end = if self.peek_keyword(Keyword::END) {
16968 let end_name = self.parse_object_name(true)?;
16969 Some(self.parse_function(end_name)?)
16970 } else {
16971 None
16972 };
16973 Ok(TableVersion::Changes { changes, at, end })
16974 }
16975
16976 pub fn parse_json_table_column_def(&mut self) -> Result<JsonTableColumn, ParserError> {
16979 if self.parse_keyword(Keyword::NESTED) {
16980 let _has_path_keyword = self.parse_keyword(Keyword::PATH);
16981 let path = self.parse_value()?;
16982 self.expect_keyword_is(Keyword::COLUMNS)?;
16983 let columns = self.parse_parenthesized(|p| {
16984 p.parse_comma_separated(Self::parse_json_table_column_def)
16985 })?;
16986 return Ok(JsonTableColumn::Nested(JsonTableNestedColumn {
16987 path,
16988 columns,
16989 }));
16990 }
16991 let name = self.parse_identifier()?;
16992 if self.parse_keyword(Keyword::FOR) {
16993 self.expect_keyword_is(Keyword::ORDINALITY)?;
16994 return Ok(JsonTableColumn::ForOrdinality(name));
16995 }
16996 let r#type = self.parse_data_type()?;
16997 let exists = self.parse_keyword(Keyword::EXISTS);
16998 self.expect_keyword_is(Keyword::PATH)?;
16999 let path = self.parse_value()?;
17000 let mut on_empty = None;
17001 let mut on_error = None;
17002 while let Some(error_handling) = self.parse_json_table_column_error_handling()? {
17003 if self.parse_keyword(Keyword::EMPTY) {
17004 on_empty = Some(error_handling);
17005 } else {
17006 self.expect_keyword_is(Keyword::ERROR)?;
17007 on_error = Some(error_handling);
17008 }
17009 }
17010 Ok(JsonTableColumn::Named(JsonTableNamedColumn {
17011 name,
17012 r#type,
17013 path,
17014 exists,
17015 on_empty,
17016 on_error,
17017 }))
17018 }
17019
17020 pub fn parse_openjson_table_column_def(&mut self) -> Result<OpenJsonTableColumn, ParserError> {
17028 let name = self.parse_identifier()?;
17029 let r#type = self.parse_data_type()?;
17030 let path = if let Token::SingleQuotedString(path) = self.peek_token().token {
17031 self.next_token();
17032 Some(path)
17033 } else {
17034 None
17035 };
17036 let as_json = self.parse_keyword(Keyword::AS);
17037 if as_json {
17038 self.expect_keyword_is(Keyword::JSON)?;
17039 }
17040 Ok(OpenJsonTableColumn {
17041 name,
17042 r#type,
17043 path,
17044 as_json,
17045 })
17046 }
17047
17048 fn parse_json_table_column_error_handling(
17049 &mut self,
17050 ) -> Result<Option<JsonTableColumnErrorHandling>, ParserError> {
17051 let res = if self.parse_keyword(Keyword::NULL) {
17052 JsonTableColumnErrorHandling::Null
17053 } else if self.parse_keyword(Keyword::ERROR) {
17054 JsonTableColumnErrorHandling::Error
17055 } else if self.parse_keyword(Keyword::DEFAULT) {
17056 JsonTableColumnErrorHandling::Default(self.parse_value()?)
17057 } else {
17058 return Ok(None);
17059 };
17060 self.expect_keyword_is(Keyword::ON)?;
17061 Ok(Some(res))
17062 }
17063
17064 pub fn parse_derived_table_factor(
17066 &mut self,
17067 lateral: IsLateral,
17068 ) -> Result<TableFactor, ParserError> {
17069 let subquery = self.parse_query()?;
17070 self.expect_token(&Token::RParen)?;
17071 let alias = self.maybe_parse_table_alias()?;
17072
17073 let sample = self
17075 .maybe_parse_table_sample()?
17076 .map(TableSampleKind::AfterTableAlias);
17077
17078 Ok(TableFactor::Derived {
17079 lateral: match lateral {
17080 Lateral => true,
17081 NotLateral => false,
17082 },
17083 subquery,
17084 alias,
17085 sample,
17086 })
17087 }
17088
17089 pub fn parse_expr_with_alias(&mut self) -> Result<ExprWithAlias, ParserError> {
17112 let expr = self.parse_expr()?;
17113 let alias = if self.parse_keyword(Keyword::AS) {
17114 Some(self.parse_identifier()?)
17115 } else {
17116 None
17117 };
17118
17119 Ok(ExprWithAlias { expr, alias })
17120 }
17121
17122 fn parse_expr_with_alias_optional_as_keyword(&mut self) -> Result<ExprWithAlias, ParserError> {
17126 let expr = self.parse_expr()?;
17127 let alias = self.parse_identifier_optional_alias()?;
17128 Ok(ExprWithAlias { expr, alias })
17129 }
17130
17131 fn parse_pivot_aggregate_function(&mut self) -> Result<ExprWithAlias, ParserError> {
17133 let function_name = match self.next_token().token {
17134 Token::Word(w) => Ok(w.value),
17135 _ => self.expected_ref("a function identifier", self.peek_token_ref()),
17136 }?;
17137 let expr = self.parse_function(ObjectName::from(vec![Ident::new(function_name)]))?;
17138 let alias = {
17139 fn validator(explicit: bool, kw: &Keyword, parser: &mut Parser) -> bool {
17140 kw != &Keyword::FOR && parser.dialect.is_select_item_alias(explicit, kw, parser)
17142 }
17143 self.parse_optional_alias_inner(None, validator)?
17144 };
17145 Ok(ExprWithAlias { expr, alias })
17146 }
17147
17148 pub fn parse_pivot_table_factor(
17150 &mut self,
17151 table: TableFactor,
17152 ) -> Result<TableFactor, ParserError> {
17153 self.expect_token(&Token::LParen)?;
17154 let aggregate_functions =
17155 self.parse_comma_separated(Self::parse_pivot_aggregate_function)?;
17156 self.expect_keyword_is(Keyword::FOR)?;
17157 let value_column = if self.peek_token_ref().token == Token::LParen {
17158 self.parse_parenthesized_column_list_inner(Mandatory, false, |p| {
17159 p.parse_subexpr(self.dialect.prec_value(Precedence::Between))
17160 })?
17161 } else {
17162 vec![self.parse_subexpr(self.dialect.prec_value(Precedence::Between))?]
17163 };
17164 self.expect_keyword_is(Keyword::IN)?;
17165
17166 self.expect_token(&Token::LParen)?;
17167 let value_source = if self.parse_keyword(Keyword::ANY) {
17168 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
17169 self.parse_comma_separated(Parser::parse_order_by_expr)?
17170 } else {
17171 vec![]
17172 };
17173 PivotValueSource::Any(order_by)
17174 } else if self.peek_sub_query() {
17175 PivotValueSource::Subquery(self.parse_query()?)
17176 } else {
17177 PivotValueSource::List(
17178 self.parse_comma_separated(Self::parse_expr_with_alias_optional_as_keyword)?,
17179 )
17180 };
17181 self.expect_token(&Token::RParen)?;
17182
17183 let default_on_null =
17184 if self.parse_keywords(&[Keyword::DEFAULT, Keyword::ON, Keyword::NULL]) {
17185 self.expect_token(&Token::LParen)?;
17186 let expr = self.parse_expr()?;
17187 self.expect_token(&Token::RParen)?;
17188 Some(expr)
17189 } else {
17190 None
17191 };
17192
17193 self.expect_token(&Token::RParen)?;
17194 let alias = self.maybe_parse_table_alias()?;
17195 Ok(TableFactor::Pivot {
17196 table: Box::new(table),
17197 aggregate_functions,
17198 value_column,
17199 value_source,
17200 default_on_null,
17201 alias,
17202 })
17203 }
17204
17205 pub fn parse_unpivot_table_factor(
17207 &mut self,
17208 table: TableFactor,
17209 ) -> Result<TableFactor, ParserError> {
17210 let null_inclusion = if self.parse_keyword(Keyword::INCLUDE) {
17211 self.expect_keyword_is(Keyword::NULLS)?;
17212 Some(NullInclusion::IncludeNulls)
17213 } else if self.parse_keyword(Keyword::EXCLUDE) {
17214 self.expect_keyword_is(Keyword::NULLS)?;
17215 Some(NullInclusion::ExcludeNulls)
17216 } else {
17217 None
17218 };
17219 self.expect_token(&Token::LParen)?;
17220 let value = self.parse_expr()?;
17221 self.expect_keyword_is(Keyword::FOR)?;
17222 let name = self.parse_identifier()?;
17223 self.expect_keyword_is(Keyword::IN)?;
17224 let columns = self.parse_parenthesized_column_list_inner(Mandatory, false, |p| {
17225 p.parse_expr_with_alias()
17226 })?;
17227 self.expect_token(&Token::RParen)?;
17228 let alias = self.maybe_parse_table_alias()?;
17229 Ok(TableFactor::Unpivot {
17230 table: Box::new(table),
17231 value,
17232 null_inclusion,
17233 name,
17234 columns,
17235 alias,
17236 })
17237 }
17238
17239 pub fn parse_join_constraint(&mut self, natural: bool) -> Result<JoinConstraint, ParserError> {
17241 if natural {
17242 Ok(JoinConstraint::Natural)
17243 } else if self.parse_keyword(Keyword::ON) {
17244 let constraint = self.parse_expr()?;
17245 Ok(JoinConstraint::On(constraint))
17246 } else if self.parse_keyword(Keyword::USING) {
17247 let columns = self.parse_parenthesized_qualified_column_list(Mandatory, false)?;
17248 Ok(JoinConstraint::Using(columns))
17249 } else {
17250 Ok(JoinConstraint::None)
17251 }
17253 }
17254
17255 pub fn parse_grant(&mut self) -> Result<Grant, ParserError> {
17257 let (privileges, objects) = self.parse_grant_deny_revoke_privileges_objects()?;
17258
17259 self.expect_keyword_is(Keyword::TO)?;
17260 let grantees = self.parse_grantees()?;
17261
17262 let with_grant_option =
17263 self.parse_keywords(&[Keyword::WITH, Keyword::GRANT, Keyword::OPTION]);
17264
17265 let current_grants =
17266 if self.parse_keywords(&[Keyword::COPY, Keyword::CURRENT, Keyword::GRANTS]) {
17267 Some(CurrentGrantsKind::CopyCurrentGrants)
17268 } else if self.parse_keywords(&[Keyword::REVOKE, Keyword::CURRENT, Keyword::GRANTS]) {
17269 Some(CurrentGrantsKind::RevokeCurrentGrants)
17270 } else {
17271 None
17272 };
17273
17274 let as_grantor = if self.parse_keywords(&[Keyword::AS]) {
17275 Some(self.parse_identifier()?)
17276 } else {
17277 None
17278 };
17279
17280 let granted_by = if self.parse_keywords(&[Keyword::GRANTED, Keyword::BY]) {
17281 Some(self.parse_identifier()?)
17282 } else {
17283 None
17284 };
17285
17286 Ok(Grant {
17287 privileges,
17288 objects,
17289 grantees,
17290 with_grant_option,
17291 as_grantor,
17292 granted_by,
17293 current_grants,
17294 })
17295 }
17296
17297 fn parse_grantees(&mut self) -> Result<Vec<Grantee>, ParserError> {
17298 let mut values = vec![];
17299 let mut grantee_type = GranteesType::None;
17300 loop {
17301 let new_grantee_type = if self.parse_keyword(Keyword::ROLE) {
17302 GranteesType::Role
17303 } else if self.parse_keyword(Keyword::USER) {
17304 GranteesType::User
17305 } else if self.parse_keyword(Keyword::SHARE) {
17306 GranteesType::Share
17307 } else if self.parse_keyword(Keyword::GROUP) {
17308 GranteesType::Group
17309 } else if self.parse_keyword(Keyword::PUBLIC) {
17310 GranteesType::Public
17311 } else if self.parse_keywords(&[Keyword::DATABASE, Keyword::ROLE]) {
17312 GranteesType::DatabaseRole
17313 } else if self.parse_keywords(&[Keyword::APPLICATION, Keyword::ROLE]) {
17314 GranteesType::ApplicationRole
17315 } else if self.parse_keyword(Keyword::APPLICATION) {
17316 GranteesType::Application
17317 } else {
17318 grantee_type.clone() };
17320
17321 if self
17322 .dialect
17323 .get_reserved_grantees_types()
17324 .contains(&new_grantee_type)
17325 {
17326 self.prev_token();
17327 } else {
17328 grantee_type = new_grantee_type;
17329 }
17330
17331 let grantee = if grantee_type == GranteesType::Public {
17332 Grantee {
17333 grantee_type: grantee_type.clone(),
17334 name: None,
17335 }
17336 } else {
17337 let mut name = self.parse_grantee_name()?;
17338 if self.consume_token(&Token::Colon) {
17339 let ident = self.parse_identifier()?;
17343 if let GranteeName::ObjectName(namespace) = name {
17344 name = GranteeName::ObjectName(ObjectName::from(vec![Ident::new(
17345 format!("{namespace}:{ident}"),
17346 )]));
17347 };
17348 }
17349 Grantee {
17350 grantee_type: grantee_type.clone(),
17351 name: Some(name),
17352 }
17353 };
17354
17355 values.push(grantee);
17356
17357 if !self.consume_token(&Token::Comma) {
17358 break;
17359 }
17360 }
17361
17362 Ok(values)
17363 }
17364
17365 pub fn parse_grant_deny_revoke_privileges_objects(
17367 &mut self,
17368 ) -> Result<(Privileges, Option<GrantObjects>), ParserError> {
17369 let privileges = if self.parse_keyword(Keyword::ALL) {
17370 Privileges::All {
17371 with_privileges_keyword: self.parse_keyword(Keyword::PRIVILEGES),
17372 }
17373 } else {
17374 let actions = self.parse_actions_list()?;
17375 Privileges::Actions(actions)
17376 };
17377
17378 let objects = if self.parse_keyword(Keyword::ON) {
17379 if self.parse_keywords(&[Keyword::ALL, Keyword::TABLES, Keyword::IN, Keyword::SCHEMA]) {
17380 Some(GrantObjects::AllTablesInSchema {
17381 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17382 })
17383 } else if self.parse_keywords(&[
17384 Keyword::ALL,
17385 Keyword::EXTERNAL,
17386 Keyword::TABLES,
17387 Keyword::IN,
17388 Keyword::SCHEMA,
17389 ]) {
17390 Some(GrantObjects::AllExternalTablesInSchema {
17391 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17392 })
17393 } else if self.parse_keywords(&[
17394 Keyword::ALL,
17395 Keyword::VIEWS,
17396 Keyword::IN,
17397 Keyword::SCHEMA,
17398 ]) {
17399 Some(GrantObjects::AllViewsInSchema {
17400 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17401 })
17402 } else if self.parse_keywords(&[
17403 Keyword::ALL,
17404 Keyword::MATERIALIZED,
17405 Keyword::VIEWS,
17406 Keyword::IN,
17407 Keyword::SCHEMA,
17408 ]) {
17409 Some(GrantObjects::AllMaterializedViewsInSchema {
17410 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17411 })
17412 } else if self.parse_keywords(&[
17413 Keyword::ALL,
17414 Keyword::FUNCTIONS,
17415 Keyword::IN,
17416 Keyword::SCHEMA,
17417 ]) {
17418 Some(GrantObjects::AllFunctionsInSchema {
17419 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17420 })
17421 } else if self.parse_keywords(&[
17422 Keyword::FUTURE,
17423 Keyword::SCHEMAS,
17424 Keyword::IN,
17425 Keyword::DATABASE,
17426 ]) {
17427 Some(GrantObjects::FutureSchemasInDatabase {
17428 databases: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17429 })
17430 } else if self.parse_keywords(&[
17431 Keyword::FUTURE,
17432 Keyword::TABLES,
17433 Keyword::IN,
17434 Keyword::SCHEMA,
17435 ]) {
17436 Some(GrantObjects::FutureTablesInSchema {
17437 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17438 })
17439 } else if self.parse_keywords(&[
17440 Keyword::FUTURE,
17441 Keyword::EXTERNAL,
17442 Keyword::TABLES,
17443 Keyword::IN,
17444 Keyword::SCHEMA,
17445 ]) {
17446 Some(GrantObjects::FutureExternalTablesInSchema {
17447 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17448 })
17449 } else if self.parse_keywords(&[
17450 Keyword::FUTURE,
17451 Keyword::VIEWS,
17452 Keyword::IN,
17453 Keyword::SCHEMA,
17454 ]) {
17455 Some(GrantObjects::FutureViewsInSchema {
17456 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17457 })
17458 } else if self.parse_keywords(&[
17459 Keyword::FUTURE,
17460 Keyword::MATERIALIZED,
17461 Keyword::VIEWS,
17462 Keyword::IN,
17463 Keyword::SCHEMA,
17464 ]) {
17465 Some(GrantObjects::FutureMaterializedViewsInSchema {
17466 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17467 })
17468 } else if self.parse_keywords(&[
17469 Keyword::ALL,
17470 Keyword::SEQUENCES,
17471 Keyword::IN,
17472 Keyword::SCHEMA,
17473 ]) {
17474 Some(GrantObjects::AllSequencesInSchema {
17475 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17476 })
17477 } else if self.parse_keywords(&[
17478 Keyword::FUTURE,
17479 Keyword::SEQUENCES,
17480 Keyword::IN,
17481 Keyword::SCHEMA,
17482 ]) {
17483 Some(GrantObjects::FutureSequencesInSchema {
17484 schemas: self.parse_comma_separated(|p| p.parse_object_name(false))?,
17485 })
17486 } else if self.parse_keywords(&[Keyword::RESOURCE, Keyword::MONITOR]) {
17487 Some(GrantObjects::ResourceMonitors(
17488 self.parse_comma_separated(|p| p.parse_object_name(false))?,
17489 ))
17490 } else if self.parse_keywords(&[Keyword::COMPUTE, Keyword::POOL]) {
17491 Some(GrantObjects::ComputePools(
17492 self.parse_comma_separated(|p| p.parse_object_name(false))?,
17493 ))
17494 } else if self.parse_keywords(&[Keyword::FAILOVER, Keyword::GROUP]) {
17495 Some(GrantObjects::FailoverGroup(
17496 self.parse_comma_separated(|p| p.parse_object_name(false))?,
17497 ))
17498 } else if self.parse_keywords(&[Keyword::REPLICATION, Keyword::GROUP]) {
17499 Some(GrantObjects::ReplicationGroup(
17500 self.parse_comma_separated(|p| p.parse_object_name(false))?,
17501 ))
17502 } else if self.parse_keywords(&[Keyword::EXTERNAL, Keyword::VOLUME]) {
17503 Some(GrantObjects::ExternalVolumes(
17504 self.parse_comma_separated(|p| p.parse_object_name(false))?,
17505 ))
17506 } else {
17507 let object_type = self.parse_one_of_keywords(&[
17508 Keyword::SEQUENCE,
17509 Keyword::DATABASE,
17510 Keyword::SCHEMA,
17511 Keyword::TABLE,
17512 Keyword::VIEW,
17513 Keyword::WAREHOUSE,
17514 Keyword::INTEGRATION,
17515 Keyword::VIEW,
17516 Keyword::WAREHOUSE,
17517 Keyword::INTEGRATION,
17518 Keyword::USER,
17519 Keyword::CONNECTION,
17520 Keyword::PROCEDURE,
17521 Keyword::FUNCTION,
17522 ]);
17523 let objects =
17524 self.parse_comma_separated(|p| p.parse_object_name_inner(false, true));
17525 match object_type {
17526 Some(Keyword::DATABASE) => Some(GrantObjects::Databases(objects?)),
17527 Some(Keyword::SCHEMA) => Some(GrantObjects::Schemas(objects?)),
17528 Some(Keyword::SEQUENCE) => Some(GrantObjects::Sequences(objects?)),
17529 Some(Keyword::WAREHOUSE) => Some(GrantObjects::Warehouses(objects?)),
17530 Some(Keyword::INTEGRATION) => Some(GrantObjects::Integrations(objects?)),
17531 Some(Keyword::VIEW) => Some(GrantObjects::Views(objects?)),
17532 Some(Keyword::USER) => Some(GrantObjects::Users(objects?)),
17533 Some(Keyword::CONNECTION) => Some(GrantObjects::Connections(objects?)),
17534 kw @ (Some(Keyword::PROCEDURE) | Some(Keyword::FUNCTION)) => {
17535 if let Some(name) = objects?.first() {
17536 self.parse_grant_procedure_or_function(name, &kw)?
17537 } else {
17538 self.expected_ref("procedure or function name", self.peek_token_ref())?
17539 }
17540 }
17541 Some(Keyword::TABLE) | None => Some(GrantObjects::Tables(objects?)),
17542 Some(unexpected_keyword) => return Err(ParserError::ParserError(
17543 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in grant objects"),
17544 )),
17545 }
17546 }
17547 } else {
17548 None
17549 };
17550
17551 Ok((privileges, objects))
17552 }
17553
17554 fn parse_grant_procedure_or_function(
17555 &mut self,
17556 name: &ObjectName,
17557 kw: &Option<Keyword>,
17558 ) -> Result<Option<GrantObjects>, ParserError> {
17559 let arg_types = if self.consume_token(&Token::LParen) {
17560 let list = self.parse_comma_separated0(Self::parse_data_type, Token::RParen)?;
17561 self.expect_token(&Token::RParen)?;
17562 list
17563 } else {
17564 vec![]
17565 };
17566 match kw {
17567 Some(Keyword::PROCEDURE) => Ok(Some(GrantObjects::Procedure {
17568 name: name.clone(),
17569 arg_types,
17570 })),
17571 Some(Keyword::FUNCTION) => Ok(Some(GrantObjects::Function {
17572 name: name.clone(),
17573 arg_types,
17574 })),
17575 _ => self.expected_ref("procedure or function keywords", self.peek_token_ref())?,
17576 }
17577 }
17578
17579 pub fn parse_grant_permission(&mut self) -> Result<Action, ParserError> {
17581 fn parse_columns(parser: &mut Parser) -> Result<Option<Vec<Ident>>, ParserError> {
17582 let columns = parser.parse_parenthesized_column_list(Optional, false)?;
17583 if columns.is_empty() {
17584 Ok(None)
17585 } else {
17586 Ok(Some(columns))
17587 }
17588 }
17589
17590 if self.parse_keywords(&[Keyword::IMPORTED, Keyword::PRIVILEGES]) {
17592 Ok(Action::ImportedPrivileges)
17593 } else if self.parse_keywords(&[Keyword::ADD, Keyword::SEARCH, Keyword::OPTIMIZATION]) {
17594 Ok(Action::AddSearchOptimization)
17595 } else if self.parse_keywords(&[Keyword::ATTACH, Keyword::LISTING]) {
17596 Ok(Action::AttachListing)
17597 } else if self.parse_keywords(&[Keyword::ATTACH, Keyword::POLICY]) {
17598 Ok(Action::AttachPolicy)
17599 } else if self.parse_keywords(&[Keyword::BIND, Keyword::SERVICE, Keyword::ENDPOINT]) {
17600 Ok(Action::BindServiceEndpoint)
17601 } else if self.parse_keywords(&[Keyword::DATABASE, Keyword::ROLE]) {
17602 let role = self.parse_object_name(false)?;
17603 Ok(Action::DatabaseRole { role })
17604 } else if self.parse_keywords(&[Keyword::EVOLVE, Keyword::SCHEMA]) {
17605 Ok(Action::EvolveSchema)
17606 } else if self.parse_keywords(&[Keyword::IMPORT, Keyword::SHARE]) {
17607 Ok(Action::ImportShare)
17608 } else if self.parse_keywords(&[Keyword::MANAGE, Keyword::VERSIONS]) {
17609 Ok(Action::ManageVersions)
17610 } else if self.parse_keywords(&[Keyword::MANAGE, Keyword::RELEASES]) {
17611 Ok(Action::ManageReleases)
17612 } else if self.parse_keywords(&[Keyword::OVERRIDE, Keyword::SHARE, Keyword::RESTRICTIONS]) {
17613 Ok(Action::OverrideShareRestrictions)
17614 } else if self.parse_keywords(&[
17615 Keyword::PURCHASE,
17616 Keyword::DATA,
17617 Keyword::EXCHANGE,
17618 Keyword::LISTING,
17619 ]) {
17620 Ok(Action::PurchaseDataExchangeListing)
17621 } else if self.parse_keywords(&[Keyword::RESOLVE, Keyword::ALL]) {
17622 Ok(Action::ResolveAll)
17623 } else if self.parse_keywords(&[Keyword::READ, Keyword::SESSION]) {
17624 Ok(Action::ReadSession)
17625
17626 } else if self.parse_keyword(Keyword::APPLY) {
17628 let apply_type = self.parse_action_apply_type()?;
17629 Ok(Action::Apply { apply_type })
17630 } else if self.parse_keyword(Keyword::APPLYBUDGET) {
17631 Ok(Action::ApplyBudget)
17632 } else if self.parse_keyword(Keyword::AUDIT) {
17633 Ok(Action::Audit)
17634 } else if self.parse_keyword(Keyword::CONNECT) {
17635 Ok(Action::Connect)
17636 } else if self.parse_keyword(Keyword::CREATE) {
17637 let obj_type = self.maybe_parse_action_create_object_type();
17638 Ok(Action::Create { obj_type })
17639 } else if self.parse_keyword(Keyword::DELETE) {
17640 Ok(Action::Delete)
17641 } else if self.parse_keyword(Keyword::EXEC) {
17642 let obj_type = self.maybe_parse_action_execute_obj_type();
17643 Ok(Action::Exec { obj_type })
17644 } else if self.parse_keyword(Keyword::EXECUTE) {
17645 let obj_type = self.maybe_parse_action_execute_obj_type();
17646 Ok(Action::Execute { obj_type })
17647 } else if self.parse_keyword(Keyword::FAILOVER) {
17648 Ok(Action::Failover)
17649 } else if self.parse_keyword(Keyword::INSERT) {
17650 Ok(Action::Insert {
17651 columns: parse_columns(self)?,
17652 })
17653 } else if self.parse_keyword(Keyword::MANAGE) {
17654 let manage_type = self.parse_action_manage_type()?;
17655 Ok(Action::Manage { manage_type })
17656 } else if self.parse_keyword(Keyword::MODIFY) {
17657 let modify_type = self.parse_action_modify_type();
17658 Ok(Action::Modify { modify_type })
17659 } else if self.parse_keyword(Keyword::MONITOR) {
17660 let monitor_type = self.parse_action_monitor_type();
17661 Ok(Action::Monitor { monitor_type })
17662 } else if self.parse_keyword(Keyword::OPERATE) {
17663 Ok(Action::Operate)
17664 } else if self.parse_keyword(Keyword::REFERENCES) {
17665 Ok(Action::References {
17666 columns: parse_columns(self)?,
17667 })
17668 } else if self.parse_keyword(Keyword::READ) {
17669 Ok(Action::Read)
17670 } else if self.parse_keyword(Keyword::REPLICATE) {
17671 Ok(Action::Replicate)
17672 } else if self.parse_keyword(Keyword::ROLE) {
17673 let role = self.parse_object_name(false)?;
17674 Ok(Action::Role { role })
17675 } else if self.parse_keyword(Keyword::SELECT) {
17676 Ok(Action::Select {
17677 columns: parse_columns(self)?,
17678 })
17679 } else if self.parse_keyword(Keyword::TEMPORARY) {
17680 Ok(Action::Temporary)
17681 } else if self.parse_keyword(Keyword::TRIGGER) {
17682 Ok(Action::Trigger)
17683 } else if self.parse_keyword(Keyword::TRUNCATE) {
17684 Ok(Action::Truncate)
17685 } else if self.parse_keyword(Keyword::UPDATE) {
17686 Ok(Action::Update {
17687 columns: parse_columns(self)?,
17688 })
17689 } else if self.parse_keyword(Keyword::USAGE) {
17690 Ok(Action::Usage)
17691 } else if self.parse_keyword(Keyword::OWNERSHIP) {
17692 Ok(Action::Ownership)
17693 } else if self.parse_keyword(Keyword::DROP) {
17694 Ok(Action::Drop)
17695 } else {
17696 self.expected_ref("a privilege keyword", self.peek_token_ref())?
17697 }
17698 }
17699
17700 fn maybe_parse_action_create_object_type(&mut self) -> Option<ActionCreateObjectType> {
17701 if self.parse_keywords(&[Keyword::APPLICATION, Keyword::PACKAGE]) {
17703 Some(ActionCreateObjectType::ApplicationPackage)
17704 } else if self.parse_keywords(&[Keyword::COMPUTE, Keyword::POOL]) {
17705 Some(ActionCreateObjectType::ComputePool)
17706 } else if self.parse_keywords(&[Keyword::DATA, Keyword::EXCHANGE, Keyword::LISTING]) {
17707 Some(ActionCreateObjectType::DataExchangeListing)
17708 } else if self.parse_keywords(&[Keyword::EXTERNAL, Keyword::VOLUME]) {
17709 Some(ActionCreateObjectType::ExternalVolume)
17710 } else if self.parse_keywords(&[Keyword::FAILOVER, Keyword::GROUP]) {
17711 Some(ActionCreateObjectType::FailoverGroup)
17712 } else if self.parse_keywords(&[Keyword::NETWORK, Keyword::POLICY]) {
17713 Some(ActionCreateObjectType::NetworkPolicy)
17714 } else if self.parse_keywords(&[Keyword::ORGANIZATION, Keyword::LISTING]) {
17715 Some(ActionCreateObjectType::OrganiationListing)
17716 } else if self.parse_keywords(&[Keyword::REPLICATION, Keyword::GROUP]) {
17717 Some(ActionCreateObjectType::ReplicationGroup)
17718 }
17719 else if self.parse_keyword(Keyword::ACCOUNT) {
17721 Some(ActionCreateObjectType::Account)
17722 } else if self.parse_keyword(Keyword::APPLICATION) {
17723 Some(ActionCreateObjectType::Application)
17724 } else if self.parse_keyword(Keyword::DATABASE) {
17725 Some(ActionCreateObjectType::Database)
17726 } else if self.parse_keyword(Keyword::INTEGRATION) {
17727 Some(ActionCreateObjectType::Integration)
17728 } else if self.parse_keyword(Keyword::ROLE) {
17729 Some(ActionCreateObjectType::Role)
17730 } else if self.parse_keyword(Keyword::SCHEMA) {
17731 Some(ActionCreateObjectType::Schema)
17732 } else if self.parse_keyword(Keyword::SHARE) {
17733 Some(ActionCreateObjectType::Share)
17734 } else if self.parse_keyword(Keyword::USER) {
17735 Some(ActionCreateObjectType::User)
17736 } else if self.parse_keyword(Keyword::WAREHOUSE) {
17737 Some(ActionCreateObjectType::Warehouse)
17738 } else {
17739 None
17740 }
17741 }
17742
17743 fn parse_action_apply_type(&mut self) -> Result<ActionApplyType, ParserError> {
17744 if self.parse_keywords(&[Keyword::AGGREGATION, Keyword::POLICY]) {
17745 Ok(ActionApplyType::AggregationPolicy)
17746 } else if self.parse_keywords(&[Keyword::AUTHENTICATION, Keyword::POLICY]) {
17747 Ok(ActionApplyType::AuthenticationPolicy)
17748 } else if self.parse_keywords(&[Keyword::JOIN, Keyword::POLICY]) {
17749 Ok(ActionApplyType::JoinPolicy)
17750 } else if self.parse_keywords(&[Keyword::MASKING, Keyword::POLICY]) {
17751 Ok(ActionApplyType::MaskingPolicy)
17752 } else if self.parse_keywords(&[Keyword::PACKAGES, Keyword::POLICY]) {
17753 Ok(ActionApplyType::PackagesPolicy)
17754 } else if self.parse_keywords(&[Keyword::PASSWORD, Keyword::POLICY]) {
17755 Ok(ActionApplyType::PasswordPolicy)
17756 } else if self.parse_keywords(&[Keyword::PROJECTION, Keyword::POLICY]) {
17757 Ok(ActionApplyType::ProjectionPolicy)
17758 } else if self.parse_keywords(&[Keyword::ROW, Keyword::ACCESS, Keyword::POLICY]) {
17759 Ok(ActionApplyType::RowAccessPolicy)
17760 } else if self.parse_keywords(&[Keyword::SESSION, Keyword::POLICY]) {
17761 Ok(ActionApplyType::SessionPolicy)
17762 } else if self.parse_keyword(Keyword::TAG) {
17763 Ok(ActionApplyType::Tag)
17764 } else {
17765 self.expected_ref("GRANT APPLY type", self.peek_token_ref())
17766 }
17767 }
17768
17769 fn maybe_parse_action_execute_obj_type(&mut self) -> Option<ActionExecuteObjectType> {
17770 if self.parse_keywords(&[Keyword::DATA, Keyword::METRIC, Keyword::FUNCTION]) {
17771 Some(ActionExecuteObjectType::DataMetricFunction)
17772 } else if self.parse_keywords(&[Keyword::MANAGED, Keyword::ALERT]) {
17773 Some(ActionExecuteObjectType::ManagedAlert)
17774 } else if self.parse_keywords(&[Keyword::MANAGED, Keyword::TASK]) {
17775 Some(ActionExecuteObjectType::ManagedTask)
17776 } else if self.parse_keyword(Keyword::ALERT) {
17777 Some(ActionExecuteObjectType::Alert)
17778 } else if self.parse_keyword(Keyword::TASK) {
17779 Some(ActionExecuteObjectType::Task)
17780 } else {
17781 None
17782 }
17783 }
17784
17785 fn parse_action_manage_type(&mut self) -> Result<ActionManageType, ParserError> {
17786 if self.parse_keywords(&[Keyword::ACCOUNT, Keyword::SUPPORT, Keyword::CASES]) {
17787 Ok(ActionManageType::AccountSupportCases)
17788 } else if self.parse_keywords(&[Keyword::EVENT, Keyword::SHARING]) {
17789 Ok(ActionManageType::EventSharing)
17790 } else if self.parse_keywords(&[Keyword::LISTING, Keyword::AUTO, Keyword::FULFILLMENT]) {
17791 Ok(ActionManageType::ListingAutoFulfillment)
17792 } else if self.parse_keywords(&[Keyword::ORGANIZATION, Keyword::SUPPORT, Keyword::CASES]) {
17793 Ok(ActionManageType::OrganizationSupportCases)
17794 } else if self.parse_keywords(&[Keyword::USER, Keyword::SUPPORT, Keyword::CASES]) {
17795 Ok(ActionManageType::UserSupportCases)
17796 } else if self.parse_keyword(Keyword::GRANTS) {
17797 Ok(ActionManageType::Grants)
17798 } else if self.parse_keyword(Keyword::WAREHOUSES) {
17799 Ok(ActionManageType::Warehouses)
17800 } else {
17801 self.expected_ref("GRANT MANAGE type", self.peek_token_ref())
17802 }
17803 }
17804
17805 fn parse_action_modify_type(&mut self) -> Option<ActionModifyType> {
17806 if self.parse_keywords(&[Keyword::LOG, Keyword::LEVEL]) {
17807 Some(ActionModifyType::LogLevel)
17808 } else if self.parse_keywords(&[Keyword::TRACE, Keyword::LEVEL]) {
17809 Some(ActionModifyType::TraceLevel)
17810 } else if self.parse_keywords(&[Keyword::SESSION, Keyword::LOG, Keyword::LEVEL]) {
17811 Some(ActionModifyType::SessionLogLevel)
17812 } else if self.parse_keywords(&[Keyword::SESSION, Keyword::TRACE, Keyword::LEVEL]) {
17813 Some(ActionModifyType::SessionTraceLevel)
17814 } else {
17815 None
17816 }
17817 }
17818
17819 fn parse_action_monitor_type(&mut self) -> Option<ActionMonitorType> {
17820 if self.parse_keyword(Keyword::EXECUTION) {
17821 Some(ActionMonitorType::Execution)
17822 } else if self.parse_keyword(Keyword::SECURITY) {
17823 Some(ActionMonitorType::Security)
17824 } else if self.parse_keyword(Keyword::USAGE) {
17825 Some(ActionMonitorType::Usage)
17826 } else {
17827 None
17828 }
17829 }
17830
17831 pub fn parse_grantee_name(&mut self) -> Result<GranteeName, ParserError> {
17833 let mut name = self.parse_object_name(false)?;
17834 if self.dialect.supports_user_host_grantee()
17835 && name.0.len() == 1
17836 && name.0[0].as_ident().is_some()
17837 && self.consume_token(&Token::AtSign)
17838 {
17839 let user = name.0.pop().unwrap().as_ident().unwrap().clone();
17840 let host = self.parse_identifier()?;
17841 Ok(GranteeName::UserHost { user, host })
17842 } else {
17843 Ok(GranteeName::ObjectName(name))
17844 }
17845 }
17846
17847 pub fn parse_deny(&mut self) -> Result<Statement, ParserError> {
17849 self.expect_keyword(Keyword::DENY)?;
17850
17851 let (privileges, objects) = self.parse_grant_deny_revoke_privileges_objects()?;
17852 let objects = match objects {
17853 Some(o) => o,
17854 None => {
17855 return parser_err!(
17856 "DENY statements must specify an object",
17857 self.peek_token_ref().span.start
17858 )
17859 }
17860 };
17861
17862 self.expect_keyword_is(Keyword::TO)?;
17863 let grantees = self.parse_grantees()?;
17864 let cascade = self.parse_cascade_option();
17865 let granted_by = if self.parse_keywords(&[Keyword::AS]) {
17866 Some(self.parse_identifier()?)
17867 } else {
17868 None
17869 };
17870
17871 Ok(Statement::Deny(DenyStatement {
17872 privileges,
17873 objects,
17874 grantees,
17875 cascade,
17876 granted_by,
17877 }))
17878 }
17879
17880 pub fn parse_revoke(&mut self) -> Result<Revoke, ParserError> {
17882 let (privileges, objects) = self.parse_grant_deny_revoke_privileges_objects()?;
17883
17884 self.expect_keyword_is(Keyword::FROM)?;
17885 let grantees = self.parse_grantees()?;
17886
17887 let granted_by = if self.parse_keywords(&[Keyword::GRANTED, Keyword::BY]) {
17888 Some(self.parse_identifier()?)
17889 } else {
17890 None
17891 };
17892
17893 let cascade = self.parse_cascade_option();
17894
17895 Ok(Revoke {
17896 privileges,
17897 objects,
17898 grantees,
17899 granted_by,
17900 cascade,
17901 })
17902 }
17903
17904 pub fn parse_replace(
17906 &mut self,
17907 replace_token: TokenWithSpan,
17908 ) -> Result<Statement, ParserError> {
17909 if !dialect_of!(self is MySqlDialect | GenericDialect) {
17910 return parser_err!(
17911 "Unsupported statement REPLACE",
17912 self.peek_token_ref().span.start
17913 );
17914 }
17915
17916 let mut insert = self.parse_insert(replace_token)?;
17917 if let Statement::Insert(Insert { replace_into, .. }) = &mut insert {
17918 *replace_into = true;
17919 }
17920
17921 Ok(insert)
17922 }
17923
17924 fn parse_insert_setexpr_boxed(
17928 &mut self,
17929 insert_token: TokenWithSpan,
17930 ) -> Result<Box<SetExpr>, ParserError> {
17931 Ok(Box::new(SetExpr::Insert(self.parse_insert(insert_token)?)))
17932 }
17933
17934 pub fn parse_insert(&mut self, insert_token: TokenWithSpan) -> Result<Statement, ParserError> {
17936 let optimizer_hints = self.maybe_parse_optimizer_hints()?;
17937 let or = self.parse_conflict_clause();
17938 let priority = if !dialect_of!(self is MySqlDialect | GenericDialect) {
17939 None
17940 } else if self.parse_keyword(Keyword::LOW_PRIORITY) {
17941 Some(MysqlInsertPriority::LowPriority)
17942 } else if self.parse_keyword(Keyword::DELAYED) {
17943 Some(MysqlInsertPriority::Delayed)
17944 } else if self.parse_keyword(Keyword::HIGH_PRIORITY) {
17945 Some(MysqlInsertPriority::HighPriority)
17946 } else {
17947 None
17948 };
17949
17950 let ignore = dialect_of!(self is MySqlDialect | GenericDialect)
17951 && self.parse_keyword(Keyword::IGNORE);
17952
17953 let replace_into = false;
17954
17955 let overwrite = self.parse_keyword(Keyword::OVERWRITE);
17956 let into = self.parse_keyword(Keyword::INTO);
17957
17958 let local = self.parse_keyword(Keyword::LOCAL);
17959
17960 if self.parse_keyword(Keyword::DIRECTORY) {
17961 let path = self.parse_literal_string()?;
17962 let file_format = if self.parse_keywords(&[Keyword::STORED, Keyword::AS]) {
17963 Some(self.parse_file_format()?)
17964 } else {
17965 None
17966 };
17967 let source = self.parse_query()?;
17968 Ok(Statement::Directory {
17969 local,
17970 path,
17971 overwrite,
17972 file_format,
17973 source,
17974 })
17975 } else {
17976 let table = self.parse_keyword(Keyword::TABLE);
17978 let table_object = self.parse_table_object()?;
17979
17980 let table_alias = if self.dialect.supports_insert_table_alias()
17981 && !self.peek_sub_query()
17982 && self
17983 .peek_one_of_keywords(&[Keyword::DEFAULT, Keyword::VALUES])
17984 .is_none()
17985 {
17986 if self.parse_keyword(Keyword::AS) {
17987 Some(TableAliasWithoutColumns {
17988 explicit: true,
17989 alias: self.parse_identifier()?,
17990 })
17991 } else {
17992 self.maybe_parse(|parser| parser.parse_identifier())?
17993 .map(|alias| TableAliasWithoutColumns {
17994 explicit: false,
17995 alias,
17996 })
17997 }
17998 } else {
17999 None
18000 };
18001
18002 let is_mysql = dialect_of!(self is MySqlDialect);
18003
18004 let (columns, partitioned, after_columns, output, source, assignments) = if self
18005 .parse_keywords(&[Keyword::DEFAULT, Keyword::VALUES])
18006 {
18007 (vec![], None, vec![], None, None, vec![])
18008 } else {
18009 let (columns, partitioned, after_columns) = if !self.peek_subquery_start() {
18010 let columns =
18011 self.parse_parenthesized_qualified_column_list(Optional, is_mysql)?;
18012
18013 let partitioned = self.parse_insert_partition()?;
18014 let after_columns = if dialect_of!(self is HiveDialect) {
18016 self.parse_parenthesized_column_list(Optional, false)?
18017 } else {
18018 vec![]
18019 };
18020 (columns, partitioned, after_columns)
18021 } else {
18022 Default::default()
18023 };
18024
18025 let output = self.maybe_parse_output_clause()?;
18026
18027 let (source, assignments) = if self.peek_keyword(Keyword::FORMAT)
18028 || self.peek_keyword(Keyword::SETTINGS)
18029 {
18030 (None, vec![])
18031 } else if self.dialect.supports_insert_set() && self.parse_keyword(Keyword::SET) {
18032 (None, self.parse_comma_separated(Parser::parse_assignment)?)
18033 } else {
18034 (Some(self.parse_query()?), vec![])
18035 };
18036
18037 (
18038 columns,
18039 partitioned,
18040 after_columns,
18041 output,
18042 source,
18043 assignments,
18044 )
18045 };
18046
18047 let (format_clause, settings) = if self.dialect.supports_insert_format() {
18048 let settings = self.parse_settings()?;
18051
18052 let format = if self.parse_keyword(Keyword::FORMAT) {
18053 Some(self.parse_input_format_clause()?)
18054 } else {
18055 None
18056 };
18057
18058 (format, settings)
18059 } else {
18060 Default::default()
18061 };
18062
18063 let insert_alias = if dialect_of!(self is MySqlDialect | GenericDialect)
18064 && self.parse_keyword(Keyword::AS)
18065 {
18066 let row_alias = self.parse_object_name(false)?;
18067 let col_aliases = Some(self.parse_parenthesized_column_list(Optional, false)?);
18068 Some(InsertAliases {
18069 row_alias,
18070 col_aliases,
18071 })
18072 } else {
18073 None
18074 };
18075
18076 let on = if self.parse_keyword(Keyword::ON) {
18077 if self.parse_keyword(Keyword::CONFLICT) {
18078 let conflict_target =
18079 if self.parse_keywords(&[Keyword::ON, Keyword::CONSTRAINT]) {
18080 Some(ConflictTarget::OnConstraint(self.parse_object_name(false)?))
18081 } else if self.peek_token_ref().token == Token::LParen {
18082 Some(ConflictTarget::Columns(
18083 self.parse_parenthesized_column_list(IsOptional::Mandatory, false)?,
18084 ))
18085 } else {
18086 None
18087 };
18088
18089 self.expect_keyword_is(Keyword::DO)?;
18090 let action = if self.parse_keyword(Keyword::NOTHING) {
18091 OnConflictAction::DoNothing
18092 } else {
18093 self.expect_keyword_is(Keyword::UPDATE)?;
18094 self.expect_keyword_is(Keyword::SET)?;
18095 let assignments = self.parse_comma_separated(Parser::parse_assignment)?;
18096 let selection = if self.parse_keyword(Keyword::WHERE) {
18097 Some(self.parse_expr()?)
18098 } else {
18099 None
18100 };
18101 OnConflictAction::DoUpdate(DoUpdate {
18102 assignments,
18103 selection,
18104 })
18105 };
18106
18107 Some(OnInsert::OnConflict(OnConflict {
18108 conflict_target,
18109 action,
18110 }))
18111 } else {
18112 self.expect_keyword_is(Keyword::DUPLICATE)?;
18113 self.expect_keyword_is(Keyword::KEY)?;
18114 self.expect_keyword_is(Keyword::UPDATE)?;
18115 let l = self.parse_comma_separated(Parser::parse_assignment)?;
18116
18117 Some(OnInsert::DuplicateKeyUpdate(l))
18118 }
18119 } else {
18120 None
18121 };
18122
18123 let returning = if self.parse_keyword(Keyword::RETURNING) {
18124 Some(self.parse_comma_separated(Parser::parse_select_item)?)
18125 } else {
18126 None
18127 };
18128
18129 Ok(Insert {
18130 insert_token: insert_token.into(),
18131 optimizer_hints,
18132 or,
18133 table: table_object,
18134 table_alias,
18135 ignore,
18136 into,
18137 overwrite,
18138 partitioned,
18139 columns,
18140 after_columns,
18141 source,
18142 assignments,
18143 has_table_keyword: table,
18144 on,
18145 returning,
18146 output,
18147 replace_into,
18148 priority,
18149 insert_alias,
18150 settings,
18151 format_clause,
18152 multi_table_insert_type: None,
18153 multi_table_into_clauses: vec![],
18154 multi_table_when_clauses: vec![],
18155 multi_table_else_clause: None,
18156 }
18157 .into())
18158 }
18159 }
18160
18161 pub fn parse_input_format_clause(&mut self) -> Result<InputFormatClause, ParserError> {
18165 let ident = self.parse_identifier()?;
18166 let values = self
18167 .maybe_parse(|p| p.parse_comma_separated(|p| p.parse_expr()))?
18168 .unwrap_or_default();
18169
18170 Ok(InputFormatClause { ident, values })
18171 }
18172
18173 fn peek_subquery_start(&mut self) -> bool {
18176 matches!(
18177 self.peek_tokens_ref(),
18178 [
18179 TokenWithSpan {
18180 token: Token::LParen,
18181 ..
18182 },
18183 TokenWithSpan {
18184 token: Token::Word(Word {
18185 keyword: Keyword::SELECT,
18186 ..
18187 }),
18188 ..
18189 },
18190 ]
18191 )
18192 }
18193
18194 fn peek_subquery_or_cte_start(&mut self) -> bool {
18198 matches!(
18199 self.peek_tokens_ref(),
18200 [
18201 TokenWithSpan {
18202 token: Token::LParen,
18203 ..
18204 },
18205 TokenWithSpan {
18206 token: Token::Word(Word {
18207 keyword: Keyword::SELECT | Keyword::WITH,
18208 ..
18209 }),
18210 ..
18211 },
18212 ]
18213 )
18214 }
18215
18216 fn parse_conflict_clause(&mut self) -> Option<SqliteOnConflict> {
18217 if self.parse_keywords(&[Keyword::OR, Keyword::REPLACE]) {
18218 Some(SqliteOnConflict::Replace)
18219 } else if self.parse_keywords(&[Keyword::OR, Keyword::ROLLBACK]) {
18220 Some(SqliteOnConflict::Rollback)
18221 } else if self.parse_keywords(&[Keyword::OR, Keyword::ABORT]) {
18222 Some(SqliteOnConflict::Abort)
18223 } else if self.parse_keywords(&[Keyword::OR, Keyword::FAIL]) {
18224 Some(SqliteOnConflict::Fail)
18225 } else if self.parse_keywords(&[Keyword::OR, Keyword::IGNORE]) {
18226 Some(SqliteOnConflict::Ignore)
18227 } else if self.parse_keyword(Keyword::REPLACE) {
18228 Some(SqliteOnConflict::Replace)
18229 } else {
18230 None
18231 }
18232 }
18233
18234 pub fn parse_insert_partition(&mut self) -> Result<Option<Vec<Expr>>, ParserError> {
18236 if self.parse_keyword(Keyword::PARTITION) {
18237 self.expect_token(&Token::LParen)?;
18238 let partition_cols = Some(self.parse_comma_separated(Parser::parse_expr)?);
18239 self.expect_token(&Token::RParen)?;
18240 Ok(partition_cols)
18241 } else {
18242 Ok(None)
18243 }
18244 }
18245
18246 pub fn parse_load_data_table_format(
18248 &mut self,
18249 ) -> Result<Option<HiveLoadDataFormat>, ParserError> {
18250 if self.parse_keyword(Keyword::INPUTFORMAT) {
18251 let input_format = self.parse_expr()?;
18252 self.expect_keyword_is(Keyword::SERDE)?;
18253 let serde = self.parse_expr()?;
18254 Ok(Some(HiveLoadDataFormat {
18255 input_format,
18256 serde,
18257 }))
18258 } else {
18259 Ok(None)
18260 }
18261 }
18262
18263 fn parse_update_setexpr_boxed(
18267 &mut self,
18268 update_token: TokenWithSpan,
18269 ) -> Result<Box<SetExpr>, ParserError> {
18270 Ok(Box::new(SetExpr::Update(self.parse_update(update_token)?)))
18271 }
18272
18273 pub fn parse_update(&mut self, update_token: TokenWithSpan) -> Result<Statement, ParserError> {
18275 let optimizer_hints = self.maybe_parse_optimizer_hints()?;
18276 let or = self.parse_conflict_clause();
18277 let table = self.parse_table_and_joins()?;
18278 let from_before_set = if self.parse_keyword(Keyword::FROM) {
18279 Some(UpdateTableFromKind::BeforeSet(
18280 self.parse_table_with_joins()?,
18281 ))
18282 } else {
18283 None
18284 };
18285 self.expect_keyword(Keyword::SET)?;
18286 let assignments = self.parse_comma_separated(Parser::parse_assignment)?;
18287
18288 let output = self.maybe_parse_output_clause()?;
18289
18290 let from = if from_before_set.is_none() && self.parse_keyword(Keyword::FROM) {
18291 Some(UpdateTableFromKind::AfterSet(
18292 self.parse_table_with_joins()?,
18293 ))
18294 } else {
18295 from_before_set
18296 };
18297 let selection = if self.parse_keyword(Keyword::WHERE) {
18298 Some(self.parse_expr()?)
18299 } else {
18300 None
18301 };
18302 let returning = if self.parse_keyword(Keyword::RETURNING) {
18303 Some(self.parse_comma_separated(Parser::parse_select_item)?)
18304 } else {
18305 None
18306 };
18307 let order_by = if self.dialect.supports_update_order_by()
18308 && self.parse_keywords(&[Keyword::ORDER, Keyword::BY])
18309 {
18310 self.parse_comma_separated(Parser::parse_order_by_expr)?
18311 } else {
18312 vec![]
18313 };
18314 let limit = if self.parse_keyword(Keyword::LIMIT) {
18315 Some(self.parse_expr()?)
18316 } else {
18317 None
18318 };
18319 Ok(Update {
18320 update_token: update_token.into(),
18321 optimizer_hints,
18322 table,
18323 assignments,
18324 from,
18325 selection,
18326 returning,
18327 output,
18328 or,
18329 order_by,
18330 limit,
18331 }
18332 .into())
18333 }
18334
18335 pub fn parse_assignment(&mut self) -> Result<Assignment, ParserError> {
18337 let target = self.parse_assignment_target()?;
18338 self.expect_token(&Token::Eq)?;
18339 let value = self.parse_expr()?;
18340 Ok(Assignment { target, value })
18341 }
18342
18343 pub fn parse_assignment_target(&mut self) -> Result<AssignmentTarget, ParserError> {
18345 if self.consume_token(&Token::LParen) {
18346 let columns = self.parse_comma_separated(|p| p.parse_object_name(false))?;
18347 self.expect_token(&Token::RParen)?;
18348 Ok(AssignmentTarget::Tuple(columns))
18349 } else {
18350 let column = self.parse_object_name(false)?;
18351 Ok(AssignmentTarget::ColumnName(column))
18352 }
18353 }
18354
18355 pub fn parse_function_args(&mut self) -> Result<FunctionArg, ParserError> {
18357 let arg = if self.dialect.supports_named_fn_args_with_expr_name() {
18358 self.maybe_parse(|p| {
18359 let name = p.parse_expr()?;
18360 let operator = p.parse_function_named_arg_operator()?;
18361 let arg = p.parse_wildcard_expr()?.into();
18362 Ok(FunctionArg::ExprNamed {
18363 name,
18364 arg,
18365 operator,
18366 })
18367 })?
18368 } else {
18369 self.maybe_parse(|p| {
18370 let name = p.parse_identifier()?;
18371 let operator = p.parse_function_named_arg_operator()?;
18372 let arg = p.parse_wildcard_expr()?.into();
18373 Ok(FunctionArg::Named {
18374 name,
18375 arg,
18376 operator,
18377 })
18378 })?
18379 };
18380 if let Some(arg) = arg {
18381 return Ok(arg);
18382 }
18383 let wildcard_expr = self.parse_wildcard_expr()?;
18384 let arg_expr: FunctionArgExpr = match wildcard_expr {
18385 Expr::Wildcard(ref token) if self.dialect.supports_select_wildcard_exclude() => {
18386 let opts = self.parse_wildcard_additional_options(token.0.clone())?;
18389 if opts.opt_exclude.is_some()
18390 || opts.opt_except.is_some()
18391 || opts.opt_replace.is_some()
18392 || opts.opt_rename.is_some()
18393 || opts.opt_ilike.is_some()
18394 {
18395 FunctionArgExpr::WildcardWithOptions(opts)
18396 } else {
18397 wildcard_expr.into()
18398 }
18399 }
18400 other => other.into(),
18401 };
18402 Ok(FunctionArg::Unnamed(arg_expr))
18403 }
18404
18405 fn parse_function_named_arg_operator(&mut self) -> Result<FunctionArgOperator, ParserError> {
18406 if self.parse_keyword(Keyword::VALUE) {
18407 return Ok(FunctionArgOperator::Value);
18408 }
18409 let tok = self.next_token();
18410 match tok.token {
18411 Token::RArrow if self.dialect.supports_named_fn_args_with_rarrow_operator() => {
18412 Ok(FunctionArgOperator::RightArrow)
18413 }
18414 Token::Eq if self.dialect.supports_named_fn_args_with_eq_operator() => {
18415 Ok(FunctionArgOperator::Equals)
18416 }
18417 Token::Assignment
18418 if self
18419 .dialect
18420 .supports_named_fn_args_with_assignment_operator() =>
18421 {
18422 Ok(FunctionArgOperator::Assignment)
18423 }
18424 Token::Colon if self.dialect.supports_named_fn_args_with_colon_operator() => {
18425 Ok(FunctionArgOperator::Colon)
18426 }
18427 _ => {
18428 self.prev_token();
18429 self.expected("argument operator", tok)
18430 }
18431 }
18432 }
18433
18434 pub fn parse_optional_args(&mut self) -> Result<Vec<FunctionArg>, ParserError> {
18436 if self.consume_token(&Token::RParen) {
18437 Ok(vec![])
18438 } else {
18439 let args = self.parse_comma_separated(Parser::parse_function_args)?;
18440 self.expect_token(&Token::RParen)?;
18441 Ok(args)
18442 }
18443 }
18444
18445 fn parse_table_function_args(&mut self) -> Result<TableFunctionArgs, ParserError> {
18446 if self.consume_token(&Token::RParen) {
18447 return Ok(TableFunctionArgs {
18448 args: vec![],
18449 settings: None,
18450 });
18451 }
18452 let mut args = vec![];
18453 let settings = loop {
18454 if let Some(settings) = self.parse_settings()? {
18455 break Some(settings);
18456 }
18457 args.push(self.parse_function_args()?);
18458 if self.is_parse_comma_separated_end() {
18459 break None;
18460 }
18461 };
18462 self.expect_token(&Token::RParen)?;
18463 Ok(TableFunctionArgs { args, settings })
18464 }
18465
18466 fn parse_function_argument_list(&mut self) -> Result<FunctionArgumentList, ParserError> {
18475 let mut clauses = vec![];
18476
18477 if let Some(null_clause) = self.parse_json_null_clause() {
18480 clauses.push(FunctionArgumentClause::JsonNullClause(null_clause));
18481 }
18482
18483 if let Some(json_returning_clause) = self.maybe_parse_json_returning_clause()? {
18484 clauses.push(FunctionArgumentClause::JsonReturningClause(
18485 json_returning_clause,
18486 ));
18487 }
18488
18489 if self.consume_token(&Token::RParen) {
18490 return Ok(FunctionArgumentList {
18491 duplicate_treatment: None,
18492 args: vec![],
18493 clauses,
18494 });
18495 }
18496
18497 let duplicate_treatment = self.parse_duplicate_treatment()?;
18498 let args = self.parse_comma_separated(Parser::parse_function_args)?;
18499
18500 if self.dialect.supports_window_function_null_treatment_arg() {
18501 if let Some(null_treatment) = self.parse_null_treatment()? {
18502 clauses.push(FunctionArgumentClause::IgnoreOrRespectNulls(null_treatment));
18503 }
18504 }
18505
18506 if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
18507 clauses.push(FunctionArgumentClause::OrderBy(
18508 self.parse_comma_separated(Parser::parse_order_by_expr)?,
18509 ));
18510 }
18511
18512 if self.parse_keyword(Keyword::LIMIT) {
18513 clauses.push(FunctionArgumentClause::Limit(self.parse_expr()?));
18514 }
18515
18516 if dialect_of!(self is GenericDialect | BigQueryDialect)
18517 && self.parse_keyword(Keyword::HAVING)
18518 {
18519 let kind = match self.expect_one_of_keywords(&[Keyword::MIN, Keyword::MAX])? {
18520 Keyword::MIN => HavingBoundKind::Min,
18521 Keyword::MAX => HavingBoundKind::Max,
18522 unexpected_keyword => return Err(ParserError::ParserError(
18523 format!("Internal parser error: unexpected keyword `{unexpected_keyword}` in having bound"),
18524 )),
18525 };
18526 clauses.push(FunctionArgumentClause::Having(HavingBound(
18527 kind,
18528 self.parse_expr()?,
18529 )))
18530 }
18531
18532 if dialect_of!(self is GenericDialect | MySqlDialect)
18533 && self.parse_keyword(Keyword::SEPARATOR)
18534 {
18535 clauses.push(FunctionArgumentClause::Separator(self.parse_value()?));
18536 }
18537
18538 if let Some(on_overflow) = self.parse_listagg_on_overflow()? {
18539 clauses.push(FunctionArgumentClause::OnOverflow(on_overflow));
18540 }
18541
18542 if let Some(null_clause) = self.parse_json_null_clause() {
18543 clauses.push(FunctionArgumentClause::JsonNullClause(null_clause));
18544 }
18545
18546 if let Some(json_returning_clause) = self.maybe_parse_json_returning_clause()? {
18547 clauses.push(FunctionArgumentClause::JsonReturningClause(
18548 json_returning_clause,
18549 ));
18550 }
18551
18552 self.expect_token(&Token::RParen)?;
18553 Ok(FunctionArgumentList {
18554 duplicate_treatment,
18555 args,
18556 clauses,
18557 })
18558 }
18559
18560 fn parse_json_null_clause(&mut self) -> Option<JsonNullClause> {
18561 if self.parse_keywords(&[Keyword::ABSENT, Keyword::ON, Keyword::NULL]) {
18562 Some(JsonNullClause::AbsentOnNull)
18563 } else if self.parse_keywords(&[Keyword::NULL, Keyword::ON, Keyword::NULL]) {
18564 Some(JsonNullClause::NullOnNull)
18565 } else {
18566 None
18567 }
18568 }
18569
18570 fn maybe_parse_json_returning_clause(
18571 &mut self,
18572 ) -> Result<Option<JsonReturningClause>, ParserError> {
18573 if self.parse_keyword(Keyword::RETURNING) {
18574 let data_type = self.parse_data_type()?;
18575 Ok(Some(JsonReturningClause { data_type }))
18576 } else {
18577 Ok(None)
18578 }
18579 }
18580
18581 fn parse_duplicate_treatment(&mut self) -> Result<Option<DuplicateTreatment>, ParserError> {
18582 let loc = self.peek_token_ref().span.start;
18583 match (
18584 self.parse_keyword(Keyword::ALL),
18585 self.parse_keyword(Keyword::DISTINCT),
18586 ) {
18587 (true, false) => Ok(Some(DuplicateTreatment::All)),
18588 (false, true) => Ok(Some(DuplicateTreatment::Distinct)),
18589 (false, false) => Ok(None),
18590 (true, true) => parser_err!("Cannot specify both ALL and DISTINCT".to_string(), loc),
18591 }
18592 }
18593
18594 pub fn parse_select_item(&mut self) -> Result<SelectItem, ParserError> {
18596 let prefix = self
18597 .parse_one_of_keywords(
18598 self.dialect
18599 .get_reserved_keywords_for_select_item_operator(),
18600 )
18601 .map(|keyword| Ident::new(format!("{keyword:?}")));
18602
18603 match self.parse_wildcard_expr()? {
18604 Expr::QualifiedWildcard(prefix, token) => Ok(SelectItem::QualifiedWildcard(
18605 SelectItemQualifiedWildcardKind::ObjectName(prefix),
18606 self.parse_wildcard_additional_options(token.0)?,
18607 )),
18608 Expr::Wildcard(token) => Ok(SelectItem::Wildcard(
18609 self.parse_wildcard_additional_options(token.0)?,
18610 )),
18611 Expr::Identifier(v) if v.value.to_lowercase() == "from" && v.quote_style.is_none() => {
18612 parser_err!(
18613 format!("Expected an expression, found: {}", v),
18614 self.peek_token_ref().span.start
18615 )
18616 }
18617 Expr::BinaryOp {
18618 left,
18619 op: BinaryOperator::Eq,
18620 right,
18621 } if self.dialect.supports_eq_alias_assignment()
18622 && matches!(left.as_ref(), Expr::Identifier(_)) =>
18623 {
18624 let Expr::Identifier(alias) = *left else {
18625 return parser_err!(
18626 "BUG: expected identifier expression as alias",
18627 self.peek_token_ref().span.start
18628 );
18629 };
18630 Ok(SelectItem::ExprWithAlias {
18631 expr: *right,
18632 alias,
18633 })
18634 }
18635 expr if self.dialect.supports_select_expr_star()
18636 && self.consume_tokens(&[Token::Period, Token::Mul]) =>
18637 {
18638 let wildcard_token = self.get_previous_token().clone();
18639 Ok(SelectItem::QualifiedWildcard(
18640 SelectItemQualifiedWildcardKind::Expr(expr),
18641 self.parse_wildcard_additional_options(wildcard_token)?,
18642 ))
18643 }
18644 expr if self.dialect.supports_select_item_multi_column_alias()
18645 && self.peek_keyword(Keyword::AS)
18646 && self.peek_nth_token(1).token == Token::LParen =>
18647 {
18648 self.expect_keyword(Keyword::AS)?;
18649 self.expect_token(&Token::LParen)?;
18650 let aliases = self.parse_comma_separated(|p| p.parse_identifier())?;
18651 self.expect_token(&Token::RParen)?;
18652 Ok(SelectItem::ExprWithAliases {
18653 expr: maybe_prefixed_expr(expr, prefix),
18654 aliases,
18655 })
18656 }
18657 expr => self
18658 .maybe_parse_select_item_alias()
18659 .map(|alias| match alias {
18660 Some(alias) => SelectItem::ExprWithAlias {
18661 expr: maybe_prefixed_expr(expr, prefix),
18662 alias,
18663 },
18664 None => SelectItem::UnnamedExpr(maybe_prefixed_expr(expr, prefix)),
18665 }),
18666 }
18667 }
18668
18669 pub fn parse_wildcard_additional_options(
18673 &mut self,
18674 wildcard_token: TokenWithSpan,
18675 ) -> Result<WildcardAdditionalOptions, ParserError> {
18676 let opt_ilike = if self.dialect.supports_select_wildcard_ilike() {
18677 self.parse_optional_select_item_ilike()?
18678 } else {
18679 None
18680 };
18681 let opt_exclude = if opt_ilike.is_none() && self.dialect.supports_select_wildcard_exclude()
18682 {
18683 self.parse_optional_select_item_exclude()?
18684 } else {
18685 None
18686 };
18687 let opt_except = if self.dialect.supports_select_wildcard_except() {
18688 self.parse_optional_select_item_except()?
18689 } else {
18690 None
18691 };
18692 let opt_replace = if self.dialect.supports_select_wildcard_replace() {
18693 self.parse_optional_select_item_replace()?
18694 } else {
18695 None
18696 };
18697 let opt_rename = if self.dialect.supports_select_wildcard_rename() {
18698 self.parse_optional_select_item_rename()?
18699 } else {
18700 None
18701 };
18702
18703 let opt_alias = if self.dialect.supports_select_wildcard_with_alias() {
18704 self.maybe_parse_select_item_alias()?
18705 } else {
18706 None
18707 };
18708
18709 Ok(WildcardAdditionalOptions {
18710 wildcard_token: wildcard_token.into(),
18711 opt_ilike,
18712 opt_exclude,
18713 opt_except,
18714 opt_rename,
18715 opt_replace,
18716 opt_alias,
18717 })
18718 }
18719
18720 pub fn parse_optional_select_item_ilike(
18724 &mut self,
18725 ) -> Result<Option<IlikeSelectItem>, ParserError> {
18726 let opt_ilike = if self.parse_keyword(Keyword::ILIKE) {
18727 let next_token = self.next_token();
18728 let pattern = match next_token.token {
18729 Token::SingleQuotedString(s) => s,
18730 _ => return self.expected("ilike pattern", next_token),
18731 };
18732 Some(IlikeSelectItem { pattern })
18733 } else {
18734 None
18735 };
18736 Ok(opt_ilike)
18737 }
18738
18739 pub fn parse_optional_select_item_exclude(
18743 &mut self,
18744 ) -> Result<Option<ExcludeSelectItem>, ParserError> {
18745 let opt_exclude = if self.parse_keyword(Keyword::EXCLUDE) {
18746 if self.consume_token(&Token::LParen) {
18747 let columns =
18748 self.parse_comma_separated(|parser| parser.parse_object_name(false))?;
18749 self.expect_token(&Token::RParen)?;
18750 Some(ExcludeSelectItem::Multiple(columns))
18751 } else {
18752 let column = self.parse_object_name(false)?;
18753 Some(ExcludeSelectItem::Single(column))
18754 }
18755 } else {
18756 None
18757 };
18758
18759 Ok(opt_exclude)
18760 }
18761
18762 pub fn parse_optional_select_item_except(
18766 &mut self,
18767 ) -> Result<Option<ExceptSelectItem>, ParserError> {
18768 let opt_except = if self.parse_keyword(Keyword::EXCEPT) {
18769 if self.peek_token_ref().token == Token::LParen {
18770 let idents = self.parse_parenthesized_column_list(Mandatory, false)?;
18771 match &idents[..] {
18772 [] => {
18773 return self.expected_ref(
18774 "at least one column should be parsed by the expect clause",
18775 self.peek_token_ref(),
18776 )?;
18777 }
18778 [first, idents @ ..] => Some(ExceptSelectItem {
18779 first_element: first.clone(),
18780 additional_elements: idents.to_vec(),
18781 }),
18782 }
18783 } else {
18784 let ident = self.parse_identifier()?;
18786 Some(ExceptSelectItem {
18787 first_element: ident,
18788 additional_elements: vec![],
18789 })
18790 }
18791 } else {
18792 None
18793 };
18794
18795 Ok(opt_except)
18796 }
18797
18798 pub fn parse_optional_select_item_rename(
18800 &mut self,
18801 ) -> Result<Option<RenameSelectItem>, ParserError> {
18802 let opt_rename = if self.parse_keyword(Keyword::RENAME) {
18803 if self.consume_token(&Token::LParen) {
18804 let idents =
18805 self.parse_comma_separated(|parser| parser.parse_identifier_with_alias())?;
18806 self.expect_token(&Token::RParen)?;
18807 Some(RenameSelectItem::Multiple(idents))
18808 } else {
18809 let ident = self.parse_identifier_with_alias()?;
18810 Some(RenameSelectItem::Single(ident))
18811 }
18812 } else {
18813 None
18814 };
18815
18816 Ok(opt_rename)
18817 }
18818
18819 pub fn parse_optional_select_item_replace(
18821 &mut self,
18822 ) -> Result<Option<ReplaceSelectItem>, ParserError> {
18823 let opt_replace = if self.parse_keyword(Keyword::REPLACE) {
18824 if self.consume_token(&Token::LParen) {
18825 let items = self.parse_comma_separated(|parser| {
18826 Ok(Box::new(parser.parse_replace_elements()?))
18827 })?;
18828 self.expect_token(&Token::RParen)?;
18829 Some(ReplaceSelectItem { items })
18830 } else {
18831 let tok = self.next_token();
18832 return self.expected("( after REPLACE but", tok);
18833 }
18834 } else {
18835 None
18836 };
18837
18838 Ok(opt_replace)
18839 }
18840 pub fn parse_replace_elements(&mut self) -> Result<ReplaceSelectElement, ParserError> {
18842 let expr = self.parse_expr()?;
18843 let as_keyword = self.parse_keyword(Keyword::AS);
18844 let ident = self.parse_identifier()?;
18845 Ok(ReplaceSelectElement {
18846 expr,
18847 column_name: ident,
18848 as_keyword,
18849 })
18850 }
18851
18852 pub fn parse_asc_desc(&mut self) -> Option<bool> {
18855 if self.parse_keyword(Keyword::ASC) {
18856 Some(true)
18857 } else if self.parse_keyword(Keyword::DESC) {
18858 Some(false)
18859 } else {
18860 None
18861 }
18862 }
18863
18864 fn parse_optional_order_by_sort(&mut self) -> Option<OrderBySort> {
18866 match self.parse_asc_desc() {
18867 Some(true) => Some(OrderBySort::Asc),
18868 Some(false) => Some(OrderBySort::Desc),
18869 None => None,
18870 }
18871 }
18872
18873 pub fn parse_order_by_expr(&mut self) -> Result<OrderByExpr, ParserError> {
18875 self.parse_order_by_expr_inner(false)
18876 .map(|(order_by, _)| order_by)
18877 }
18878
18879 pub fn parse_create_index_expr(&mut self) -> Result<IndexColumn, ParserError> {
18881 self.parse_order_by_expr_inner(true)
18882 .map(|(column, operator_class)| IndexColumn {
18883 column,
18884 operator_class,
18885 })
18886 }
18887
18888 fn parse_order_by_expr_inner(
18889 &mut self,
18890 with_operator_class: bool,
18891 ) -> Result<(OrderByExpr, Option<ObjectName>), ParserError> {
18892 let expr = self.parse_expr()?;
18893
18894 let operator_class: Option<ObjectName> = if with_operator_class {
18895 if self
18898 .peek_one_of_keywords(&[Keyword::ASC, Keyword::DESC, Keyword::NULLS, Keyword::WITH])
18899 .is_some()
18900 {
18901 None
18902 } else {
18903 self.maybe_parse(|parser| parser.parse_object_name(false))?
18904 }
18905 } else {
18906 None
18907 };
18908
18909 let options = if !with_operator_class
18910 && self.dialect.supports_order_by_using_operator()
18911 && self.parse_keyword(Keyword::USING)
18912 {
18913 let op = self.parse_order_by_using_operator()?;
18914 OrderByOptions {
18915 sort: Some(OrderBySort::Using(op)),
18916 nulls_first: self.parse_null_ordering_modifier(),
18917 }
18918 } else {
18919 self.parse_order_by_options()?
18920 };
18921
18922 let with_fill = if self.dialect.supports_with_fill()
18923 && self.parse_keywords(&[Keyword::WITH, Keyword::FILL])
18924 {
18925 Some(self.parse_with_fill()?)
18926 } else {
18927 None
18928 };
18929
18930 Ok((
18931 OrderByExpr {
18932 expr,
18933 options,
18934 with_fill,
18935 },
18936 operator_class,
18937 ))
18938 }
18939
18940 fn parse_order_by_using_operator(&mut self) -> Result<ObjectName, ParserError> {
18941 if self.parse_keyword(Keyword::OPERATOR) {
18942 self.expect_token(&Token::LParen)?;
18943 let operator_name = self.parse_operator_name()?;
18944 self.expect_token(&Token::RParen)?;
18945 return Ok(operator_name);
18946 }
18947
18948 let token = self.next_token();
18949 Ok(ObjectName::from(vec![Ident::new(token.token.to_string())]))
18950 }
18951
18952 fn parse_null_ordering_modifier(&mut self) -> Option<bool> {
18953 if self.parse_keywords(&[Keyword::NULLS, Keyword::FIRST]) {
18954 Some(true)
18955 } else if self.parse_keywords(&[Keyword::NULLS, Keyword::LAST]) {
18956 Some(false)
18957 } else {
18958 None
18959 }
18960 }
18961
18962 fn parse_order_by_options(&mut self) -> Result<OrderByOptions, ParserError> {
18963 let sort = self.parse_optional_order_by_sort();
18964 let nulls_first = self.parse_null_ordering_modifier();
18965
18966 Ok(OrderByOptions { sort, nulls_first })
18967 }
18968
18969 pub fn parse_with_fill(&mut self) -> Result<WithFill, ParserError> {
18973 let from = if self.parse_keyword(Keyword::FROM) {
18974 Some(self.parse_expr()?)
18975 } else {
18976 None
18977 };
18978
18979 let to = if self.parse_keyword(Keyword::TO) {
18980 Some(self.parse_expr()?)
18981 } else {
18982 None
18983 };
18984
18985 let step = if self.parse_keyword(Keyword::STEP) {
18986 Some(self.parse_expr()?)
18987 } else {
18988 None
18989 };
18990
18991 Ok(WithFill { from, to, step })
18992 }
18993
18994 pub fn parse_interpolations(&mut self) -> Result<Option<Interpolate>, ParserError> {
18997 if !self.parse_keyword(Keyword::INTERPOLATE) {
18998 return Ok(None);
18999 }
19000
19001 if self.consume_token(&Token::LParen) {
19002 let interpolations =
19003 self.parse_comma_separated0(|p| p.parse_interpolation(), Token::RParen)?;
19004 self.expect_token(&Token::RParen)?;
19005 return Ok(Some(Interpolate {
19007 exprs: Some(interpolations),
19008 }));
19009 }
19010
19011 Ok(Some(Interpolate { exprs: None }))
19013 }
19014
19015 pub fn parse_interpolation(&mut self) -> Result<InterpolateExpr, ParserError> {
19017 let column = self.parse_identifier()?;
19018 let expr = if self.parse_keyword(Keyword::AS) {
19019 Some(self.parse_expr()?)
19020 } else {
19021 None
19022 };
19023 Ok(InterpolateExpr { column, expr })
19024 }
19025
19026 pub fn parse_top(&mut self) -> Result<Top, ParserError> {
19029 let quantity = if self.consume_token(&Token::LParen) {
19030 let quantity = self.parse_expr()?;
19031 self.expect_token(&Token::RParen)?;
19032 Some(TopQuantity::Expr(quantity))
19033 } else {
19034 let next_token = self.next_token();
19035 let quantity = match next_token.token {
19036 Token::Number(s, _) => Self::parse::<u64>(s, next_token.span.start)?,
19037 _ => self.expected("literal int", next_token)?,
19038 };
19039 Some(TopQuantity::Constant(quantity))
19040 };
19041
19042 let percent = self.parse_keyword(Keyword::PERCENT);
19043
19044 let with_ties = self.parse_keywords(&[Keyword::WITH, Keyword::TIES]);
19045
19046 Ok(Top {
19047 with_ties,
19048 percent,
19049 quantity,
19050 })
19051 }
19052
19053 pub fn parse_limit(&mut self) -> Result<Option<Expr>, ParserError> {
19055 if self.parse_keyword(Keyword::ALL) {
19056 Ok(None)
19057 } else {
19058 Ok(Some(self.parse_expr()?))
19059 }
19060 }
19061
19062 pub fn parse_offset(&mut self) -> Result<Offset, ParserError> {
19064 let value = self.parse_expr()?;
19065 let rows = if self.parse_keyword(Keyword::ROW) {
19066 OffsetRows::Row
19067 } else if self.parse_keyword(Keyword::ROWS) {
19068 OffsetRows::Rows
19069 } else {
19070 OffsetRows::None
19071 };
19072 Ok(Offset { value, rows })
19073 }
19074
19075 pub fn parse_fetch(&mut self) -> Result<Fetch, ParserError> {
19077 let _ = self.parse_one_of_keywords(&[Keyword::FIRST, Keyword::NEXT]);
19078
19079 let (quantity, percent) = if self
19080 .parse_one_of_keywords(&[Keyword::ROW, Keyword::ROWS])
19081 .is_some()
19082 {
19083 (None, false)
19084 } else {
19085 let quantity = Expr::Value(self.parse_value()?);
19086 let percent = self.parse_keyword(Keyword::PERCENT);
19087 let _ = self.parse_one_of_keywords(&[Keyword::ROW, Keyword::ROWS]);
19088 (Some(quantity), percent)
19089 };
19090
19091 let with_ties = if self.parse_keyword(Keyword::ONLY) {
19092 false
19093 } else {
19094 self.parse_keywords(&[Keyword::WITH, Keyword::TIES])
19095 };
19096
19097 Ok(Fetch {
19098 with_ties,
19099 percent,
19100 quantity,
19101 })
19102 }
19103
19104 pub fn parse_lock(&mut self) -> Result<LockClause, ParserError> {
19106 let lock_type = match self.expect_one_of_keywords(&[Keyword::UPDATE, Keyword::SHARE])? {
19107 Keyword::UPDATE => LockType::Update,
19108 Keyword::SHARE => LockType::Share,
19109 unexpected_keyword => return Err(ParserError::ParserError(
19110 format!("Internal parser error: expected any of {{UPDATE, SHARE}}, got {unexpected_keyword:?}"),
19111 )),
19112 };
19113 let of = if self.parse_keyword(Keyword::OF) {
19114 Some(self.parse_object_name(false)?)
19115 } else {
19116 None
19117 };
19118 let nonblock = if self.parse_keyword(Keyword::NOWAIT) {
19119 Some(NonBlock::Nowait)
19120 } else if self.parse_keywords(&[Keyword::SKIP, Keyword::LOCKED]) {
19121 Some(NonBlock::SkipLocked)
19122 } else {
19123 None
19124 };
19125 Ok(LockClause {
19126 lock_type,
19127 of,
19128 nonblock,
19129 })
19130 }
19131
19132 pub fn parse_lock_statement(&mut self) -> Result<Lock, ParserError> {
19134 self.expect_keyword(Keyword::LOCK)?;
19135
19136 if self.peek_keyword(Keyword::TABLES) {
19137 return self.expected_ref("TABLE or a table name", self.peek_token_ref());
19138 }
19139
19140 let _ = self.parse_keyword(Keyword::TABLE);
19141 let tables = self.parse_comma_separated(Parser::parse_lock_table_target)?;
19142 let lock_mode = if self.parse_keyword(Keyword::IN) {
19143 let lock_mode = self.parse_lock_table_mode()?;
19144 self.expect_keyword(Keyword::MODE)?;
19145 Some(lock_mode)
19146 } else {
19147 None
19148 };
19149 let nowait = self.parse_keyword(Keyword::NOWAIT);
19150
19151 Ok(Lock {
19152 tables,
19153 lock_mode,
19154 nowait,
19155 })
19156 }
19157
19158 fn parse_lock_table_target(&mut self) -> Result<LockTableTarget, ParserError> {
19159 let only = self.parse_keyword(Keyword::ONLY);
19160 let name = self.parse_object_name(false)?;
19161 let has_asterisk = self.consume_token(&Token::Mul);
19162
19163 Ok(LockTableTarget {
19164 name,
19165 only,
19166 has_asterisk,
19167 })
19168 }
19169
19170 fn parse_lock_table_mode(&mut self) -> Result<LockTableMode, ParserError> {
19171 if self.parse_keywords(&[Keyword::ACCESS, Keyword::SHARE]) {
19172 Ok(LockTableMode::AccessShare)
19173 } else if self.parse_keywords(&[Keyword::ACCESS, Keyword::EXCLUSIVE]) {
19174 Ok(LockTableMode::AccessExclusive)
19175 } else if self.parse_keywords(&[Keyword::ROW, Keyword::SHARE]) {
19176 Ok(LockTableMode::RowShare)
19177 } else if self.parse_keywords(&[Keyword::ROW, Keyword::EXCLUSIVE]) {
19178 Ok(LockTableMode::RowExclusive)
19179 } else if self.parse_keywords(&[Keyword::SHARE, Keyword::UPDATE, Keyword::EXCLUSIVE]) {
19180 Ok(LockTableMode::ShareUpdateExclusive)
19181 } else if self.parse_keywords(&[Keyword::SHARE, Keyword::ROW, Keyword::EXCLUSIVE]) {
19182 Ok(LockTableMode::ShareRowExclusive)
19183 } else if self.parse_keyword(Keyword::SHARE) {
19184 Ok(LockTableMode::Share)
19185 } else if self.parse_keyword(Keyword::EXCLUSIVE) {
19186 Ok(LockTableMode::Exclusive)
19187 } else {
19188 self.expected_ref("a PostgreSQL LOCK TABLE mode", self.peek_token_ref())
19189 }
19190 }
19191
19192 pub fn parse_values(
19194 &mut self,
19195 allow_empty: bool,
19196 value_keyword: bool,
19197 ) -> Result<Values, ParserError> {
19198 let mut explicit_row = false;
19199
19200 let rows = self.parse_comma_separated(|parser| {
19201 if parser.parse_keyword(Keyword::ROW) {
19202 explicit_row = true;
19203 }
19204 Ok(Parens {
19205 opening_token: parser.expect_token(&Token::LParen)?.into(),
19206 content: if allow_empty && parser.peek_token_ref().token == Token::RParen {
19207 vec![]
19208 } else {
19209 parser.parse_comma_separated(Parser::parse_expr)?
19210 },
19211 closing_token: parser.expect_token(&Token::RParen)?.into(),
19212 })
19213 })?;
19214 Ok(Values {
19215 explicit_row,
19216 rows,
19217 value_keyword,
19218 })
19219 }
19220
19221 pub fn parse_start_transaction(&mut self) -> Result<Statement, ParserError> {
19223 self.expect_keyword_is(Keyword::TRANSACTION)?;
19224 Ok(Statement::StartTransaction {
19225 modes: self.parse_transaction_modes()?,
19226 begin: false,
19227 transaction: Some(BeginTransactionKind::Transaction),
19228 modifier: None,
19229 statements: vec![],
19230 exception: None,
19231 has_end_keyword: false,
19232 })
19233 }
19234
19235 pub(crate) fn parse_transaction_modifier(&mut self) -> Option<TransactionModifier> {
19237 if !self.dialect.supports_start_transaction_modifier() {
19238 None
19239 } else if self.parse_keyword(Keyword::DEFERRED) {
19240 Some(TransactionModifier::Deferred)
19241 } else if self.parse_keyword(Keyword::IMMEDIATE) {
19242 Some(TransactionModifier::Immediate)
19243 } else if self.parse_keyword(Keyword::EXCLUSIVE) {
19244 Some(TransactionModifier::Exclusive)
19245 } else if self.parse_keyword(Keyword::TRY) {
19246 Some(TransactionModifier::Try)
19247 } else if self.parse_keyword(Keyword::CATCH) {
19248 Some(TransactionModifier::Catch)
19249 } else {
19250 None
19251 }
19252 }
19253
19254 pub fn parse_begin(&mut self) -> Result<Statement, ParserError> {
19256 let modifier = self.parse_transaction_modifier();
19257 let transaction =
19258 match self.parse_one_of_keywords(&[Keyword::TRANSACTION, Keyword::WORK, Keyword::TRAN])
19259 {
19260 Some(Keyword::TRANSACTION) => Some(BeginTransactionKind::Transaction),
19261 Some(Keyword::WORK) => Some(BeginTransactionKind::Work),
19262 Some(Keyword::TRAN) => Some(BeginTransactionKind::Tran),
19263 _ => None,
19264 };
19265 Ok(Statement::StartTransaction {
19266 modes: self.parse_transaction_modes()?,
19267 begin: true,
19268 transaction,
19269 modifier,
19270 statements: vec![],
19271 exception: None,
19272 has_end_keyword: false,
19273 })
19274 }
19275
19276 pub fn parse_begin_exception_end(&mut self) -> Result<Statement, ParserError> {
19278 let statements = self.parse_statement_list(&[Keyword::EXCEPTION, Keyword::END])?;
19279
19280 let exception = if self.parse_keyword(Keyword::EXCEPTION) {
19281 let mut when = Vec::new();
19282
19283 while !self.peek_keyword(Keyword::END) {
19285 self.expect_keyword(Keyword::WHEN)?;
19286
19287 let mut idents = Vec::new();
19291
19292 while !self.parse_keyword(Keyword::THEN) {
19293 let ident = self.parse_identifier()?;
19294 idents.push(ident);
19295
19296 self.maybe_parse(|p| p.expect_keyword(Keyword::OR))?;
19297 }
19298
19299 let statements = self.parse_statement_list(&[Keyword::WHEN, Keyword::END])?;
19300
19301 when.push(ExceptionWhen { idents, statements });
19302 }
19303
19304 Some(when)
19305 } else {
19306 None
19307 };
19308
19309 self.expect_keyword(Keyword::END)?;
19310
19311 Ok(Statement::StartTransaction {
19312 begin: true,
19313 statements,
19314 exception,
19315 has_end_keyword: true,
19316 transaction: None,
19317 modifier: None,
19318 modes: Default::default(),
19319 })
19320 }
19321
19322 pub fn parse_end(&mut self) -> Result<Statement, ParserError> {
19324 let modifier = if !self.dialect.supports_end_transaction_modifier() {
19325 None
19326 } else if self.parse_keyword(Keyword::TRY) {
19327 Some(TransactionModifier::Try)
19328 } else if self.parse_keyword(Keyword::CATCH) {
19329 Some(TransactionModifier::Catch)
19330 } else {
19331 None
19332 };
19333 Ok(Statement::Commit {
19334 chain: self.parse_commit_rollback_chain()?,
19335 end: true,
19336 modifier,
19337 })
19338 }
19339
19340 pub fn parse_transaction_modes(&mut self) -> Result<Vec<TransactionMode>, ParserError> {
19342 let mut modes = vec![];
19343 let mut required = false;
19344 loop {
19345 let mode = if self.parse_keywords(&[Keyword::ISOLATION, Keyword::LEVEL]) {
19346 let iso_level = if self.parse_keywords(&[Keyword::READ, Keyword::UNCOMMITTED]) {
19347 TransactionIsolationLevel::ReadUncommitted
19348 } else if self.parse_keywords(&[Keyword::READ, Keyword::COMMITTED]) {
19349 TransactionIsolationLevel::ReadCommitted
19350 } else if self.parse_keywords(&[Keyword::REPEATABLE, Keyword::READ]) {
19351 TransactionIsolationLevel::RepeatableRead
19352 } else if self.parse_keyword(Keyword::SERIALIZABLE) {
19353 TransactionIsolationLevel::Serializable
19354 } else if self.parse_keyword(Keyword::SNAPSHOT) {
19355 TransactionIsolationLevel::Snapshot
19356 } else {
19357 self.expected_ref("isolation level", self.peek_token_ref())?
19358 };
19359 TransactionMode::IsolationLevel(iso_level)
19360 } else if self.parse_keywords(&[Keyword::READ, Keyword::ONLY]) {
19361 TransactionMode::AccessMode(TransactionAccessMode::ReadOnly)
19362 } else if self.parse_keywords(&[Keyword::READ, Keyword::WRITE]) {
19363 TransactionMode::AccessMode(TransactionAccessMode::ReadWrite)
19364 } else if required {
19365 self.expected_ref("transaction mode", self.peek_token_ref())?
19366 } else {
19367 break;
19368 };
19369 modes.push(mode);
19370 required = self.consume_token(&Token::Comma);
19375 }
19376 Ok(modes)
19377 }
19378
19379 pub fn parse_commit(&mut self) -> Result<Statement, ParserError> {
19381 Ok(Statement::Commit {
19382 chain: self.parse_commit_rollback_chain()?,
19383 end: false,
19384 modifier: None,
19385 })
19386 }
19387
19388 pub fn parse_rollback(&mut self) -> Result<Statement, ParserError> {
19390 let chain = self.parse_commit_rollback_chain()?;
19391 let savepoint = self.parse_rollback_savepoint()?;
19392
19393 Ok(Statement::Rollback { chain, savepoint })
19394 }
19395
19396 pub fn parse_commit_rollback_chain(&mut self) -> Result<bool, ParserError> {
19398 let _ = self.parse_one_of_keywords(&[Keyword::TRANSACTION, Keyword::WORK, Keyword::TRAN]);
19399 if self.parse_keyword(Keyword::AND) {
19400 let chain = !self.parse_keyword(Keyword::NO);
19401 self.expect_keyword_is(Keyword::CHAIN)?;
19402 Ok(chain)
19403 } else {
19404 Ok(false)
19405 }
19406 }
19407
19408 pub fn parse_rollback_savepoint(&mut self) -> Result<Option<Ident>, ParserError> {
19410 if self.parse_keyword(Keyword::TO) {
19411 let _ = self.parse_keyword(Keyword::SAVEPOINT);
19412 let savepoint = self.parse_identifier()?;
19413
19414 Ok(Some(savepoint))
19415 } else {
19416 Ok(None)
19417 }
19418 }
19419
19420 pub fn parse_raiserror(&mut self) -> Result<Statement, ParserError> {
19422 self.expect_token(&Token::LParen)?;
19423 let message = Box::new(self.parse_expr()?);
19424 self.expect_token(&Token::Comma)?;
19425 let severity = Box::new(self.parse_expr()?);
19426 self.expect_token(&Token::Comma)?;
19427 let state = Box::new(self.parse_expr()?);
19428 let arguments = if self.consume_token(&Token::Comma) {
19429 self.parse_comma_separated(Parser::parse_expr)?
19430 } else {
19431 vec![]
19432 };
19433 self.expect_token(&Token::RParen)?;
19434 let options = if self.parse_keyword(Keyword::WITH) {
19435 self.parse_comma_separated(Parser::parse_raiserror_option)?
19436 } else {
19437 vec![]
19438 };
19439 Ok(Statement::RaisError {
19440 message,
19441 severity,
19442 state,
19443 arguments,
19444 options,
19445 })
19446 }
19447
19448 pub fn parse_raiserror_option(&mut self) -> Result<RaisErrorOption, ParserError> {
19450 match self.expect_one_of_keywords(&[Keyword::LOG, Keyword::NOWAIT, Keyword::SETERROR])? {
19451 Keyword::LOG => Ok(RaisErrorOption::Log),
19452 Keyword::NOWAIT => Ok(RaisErrorOption::NoWait),
19453 Keyword::SETERROR => Ok(RaisErrorOption::SetError),
19454 _ => self.expected_ref(
19455 "LOG, NOWAIT OR SETERROR raiserror option",
19456 self.peek_token_ref(),
19457 ),
19458 }
19459 }
19460
19461 pub fn parse_throw(&mut self) -> Result<ThrowStatement, ParserError> {
19465 self.expect_keyword_is(Keyword::THROW)?;
19466
19467 let error_number = self.maybe_parse(|p| p.parse_expr().map(Box::new))?;
19468 let (message, state) = if error_number.is_some() {
19469 self.expect_token(&Token::Comma)?;
19470 let message = Box::new(self.parse_expr()?);
19471 self.expect_token(&Token::Comma)?;
19472 let state = Box::new(self.parse_expr()?);
19473 (Some(message), Some(state))
19474 } else {
19475 (None, None)
19476 };
19477
19478 Ok(ThrowStatement {
19479 error_number,
19480 message,
19481 state,
19482 })
19483 }
19484
19485 pub fn parse_deallocate(&mut self) -> Result<Statement, ParserError> {
19487 let prepare = self.parse_keyword(Keyword::PREPARE);
19488 let name = self.parse_identifier()?;
19489 Ok(Statement::Deallocate { name, prepare })
19490 }
19491
19492 pub fn parse_execute(&mut self) -> Result<Statement, ParserError> {
19494 let immediate =
19495 self.dialect.supports_execute_immediate() && self.parse_keyword(Keyword::IMMEDIATE);
19496
19497 let name = if immediate || matches!(self.peek_token_ref().token, Token::LParen) {
19503 None
19504 } else {
19505 Some(self.parse_object_name(false)?)
19506 };
19507
19508 let has_parentheses = self.consume_token(&Token::LParen);
19509
19510 let end_kws = &[Keyword::USING, Keyword::OUTPUT, Keyword::DEFAULT];
19511 let end_token = match (has_parentheses, self.peek_token().token) {
19512 (true, _) => Token::RParen,
19513 (false, Token::EOF) => Token::EOF,
19514 (false, Token::Word(w)) if end_kws.contains(&w.keyword) => Token::Word(w),
19515 (false, _) => Token::SemiColon,
19516 };
19517
19518 let parameters = self.parse_comma_separated0(Parser::parse_expr, end_token)?;
19519
19520 if has_parentheses {
19521 self.expect_token(&Token::RParen)?;
19522 }
19523
19524 let into = if self.parse_keyword(Keyword::INTO) {
19525 self.parse_comma_separated(Self::parse_identifier)?
19526 } else {
19527 vec![]
19528 };
19529
19530 let using = if self.parse_keyword(Keyword::USING) {
19531 self.parse_comma_separated(Self::parse_expr_with_alias)?
19532 } else {
19533 vec![]
19534 };
19535
19536 let output = self.parse_keyword(Keyword::OUTPUT);
19537
19538 let default = self.parse_keyword(Keyword::DEFAULT);
19539
19540 Ok(Statement::Execute {
19541 immediate,
19542 name,
19543 parameters,
19544 has_parentheses,
19545 into,
19546 using,
19547 output,
19548 default,
19549 })
19550 }
19551
19552 pub fn parse_prepare(&mut self) -> Result<Statement, ParserError> {
19554 let name = self.parse_identifier()?;
19555
19556 let mut data_types = vec![];
19557 if self.consume_token(&Token::LParen) {
19558 data_types = self.parse_comma_separated(Parser::parse_data_type)?;
19559 self.expect_token(&Token::RParen)?;
19560 }
19561
19562 self.expect_keyword_is(Keyword::AS)?;
19563 let statement = Box::new(self.parse_statement()?);
19564 Ok(Statement::Prepare {
19565 name,
19566 data_types,
19567 statement,
19568 })
19569 }
19570
19571 pub fn parse_unload(&mut self) -> Result<Statement, ParserError> {
19573 self.expect_keyword(Keyword::UNLOAD)?;
19574 self.expect_token(&Token::LParen)?;
19575 let (query, query_text) =
19576 if matches!(self.peek_token_ref().token, Token::SingleQuotedString(_)) {
19577 (None, Some(self.parse_literal_string()?))
19578 } else {
19579 (Some(self.parse_query()?), None)
19580 };
19581 self.expect_token(&Token::RParen)?;
19582
19583 self.expect_keyword_is(Keyword::TO)?;
19584 let to = self.parse_identifier()?;
19585 let auth = if self.parse_keyword(Keyword::IAM_ROLE) {
19586 Some(self.parse_iam_role_kind()?)
19587 } else {
19588 None
19589 };
19590 let with = self.parse_options(Keyword::WITH)?;
19591 let mut options = vec![];
19592 while let Some(opt) = self.maybe_parse(|parser| parser.parse_copy_legacy_option())? {
19593 options.push(opt);
19594 }
19595 Ok(Statement::Unload {
19596 query,
19597 query_text,
19598 to,
19599 auth,
19600 with,
19601 options,
19602 })
19603 }
19604
19605 fn parse_select_into(&mut self) -> Result<SelectInto, ParserError> {
19606 let temporary = self
19607 .parse_one_of_keywords(&[Keyword::TEMP, Keyword::TEMPORARY])
19608 .is_some();
19609 let unlogged = self.parse_keyword(Keyword::UNLOGGED);
19610 let table = self.parse_keyword(Keyword::TABLE);
19611 let name = self.parse_object_name(false)?;
19612
19613 Ok(SelectInto {
19614 temporary,
19615 unlogged,
19616 table,
19617 name,
19618 })
19619 }
19620
19621 fn parse_pragma_value(&mut self) -> Result<ValueWithSpan, ParserError> {
19622 let v = self.parse_value()?;
19623 match &v.value {
19624 Value::SingleQuotedString(_) => Ok(v),
19625 Value::DoubleQuotedString(_) => Ok(v),
19626 Value::Number(_, _) => Ok(v),
19627 Value::Placeholder(_) => Ok(v),
19628 _ => {
19629 self.prev_token();
19630 self.expected_ref("number or string or ? placeholder", self.peek_token_ref())
19631 }
19632 }
19633 }
19634
19635 pub fn parse_pragma(&mut self) -> Result<Statement, ParserError> {
19637 let name = self.parse_object_name(false)?;
19638 if self.consume_token(&Token::LParen) {
19639 let value = self.parse_pragma_value()?;
19640 self.expect_token(&Token::RParen)?;
19641 Ok(Statement::Pragma {
19642 name,
19643 value: Some(value),
19644 is_eq: false,
19645 })
19646 } else if self.consume_token(&Token::Eq) {
19647 Ok(Statement::Pragma {
19648 name,
19649 value: Some(self.parse_pragma_value()?),
19650 is_eq: true,
19651 })
19652 } else {
19653 Ok(Statement::Pragma {
19654 name,
19655 value: None,
19656 is_eq: false,
19657 })
19658 }
19659 }
19660
19661 pub fn parse_install(&mut self) -> Result<Statement, ParserError> {
19663 let extension_name = self.parse_identifier()?;
19664
19665 Ok(Statement::Install { extension_name })
19666 }
19667
19668 pub fn parse_load(&mut self) -> Result<Statement, ParserError> {
19670 if self.dialect.supports_load_extension() {
19671 let extension_name = self.parse_identifier()?;
19672 Ok(Statement::Load { extension_name })
19673 } else if self.parse_keyword(Keyword::DATA) && self.dialect.supports_load_data() {
19674 let local = self.parse_one_of_keywords(&[Keyword::LOCAL]).is_some();
19675 self.expect_keyword_is(Keyword::INPATH)?;
19676 let inpath = self.parse_literal_string()?;
19677 let overwrite = self.parse_one_of_keywords(&[Keyword::OVERWRITE]).is_some();
19678 self.expect_keyword_is(Keyword::INTO)?;
19679 self.expect_keyword_is(Keyword::TABLE)?;
19680 let table_name = self.parse_object_name(false)?;
19681 let partitioned = self.parse_insert_partition()?;
19682 let table_format = self.parse_load_data_table_format()?;
19683 Ok(Statement::LoadData {
19684 local,
19685 inpath,
19686 overwrite,
19687 table_name,
19688 partitioned,
19689 table_format,
19690 })
19691 } else {
19692 self.expected_ref(
19693 "`DATA` or an extension name after `LOAD`",
19694 self.peek_token_ref(),
19695 )
19696 }
19697 }
19698
19699 pub fn parse_optimize_table(&mut self) -> Result<Statement, ParserError> {
19711 let has_table_keyword = self.parse_keyword(Keyword::TABLE);
19712
19713 let name = self.parse_object_name(false)?;
19714
19715 let on_cluster = self.parse_optional_on_cluster()?;
19717
19718 let partition = if self.parse_keyword(Keyword::PARTITION) {
19719 if self.parse_keyword(Keyword::ID) {
19720 Some(Partition::Identifier(self.parse_identifier()?))
19721 } else {
19722 Some(Partition::Expr(self.parse_expr()?))
19723 }
19724 } else {
19725 None
19726 };
19727
19728 let include_final = self.parse_keyword(Keyword::FINAL);
19729
19730 let deduplicate = if self.parse_keyword(Keyword::DEDUPLICATE) {
19731 if self.parse_keyword(Keyword::BY) {
19732 Some(Deduplicate::ByExpression(self.parse_expr()?))
19733 } else {
19734 Some(Deduplicate::All)
19735 }
19736 } else {
19737 None
19738 };
19739
19740 let predicate = if self.parse_keyword(Keyword::WHERE) {
19742 Some(self.parse_expr()?)
19743 } else {
19744 None
19745 };
19746
19747 let zorder = if self.parse_keywords(&[Keyword::ZORDER, Keyword::BY]) {
19748 self.expect_token(&Token::LParen)?;
19749 let columns = self.parse_comma_separated(|p| p.parse_expr())?;
19750 self.expect_token(&Token::RParen)?;
19751 Some(columns)
19752 } else {
19753 None
19754 };
19755
19756 Ok(Statement::OptimizeTable {
19757 name,
19758 has_table_keyword,
19759 on_cluster,
19760 partition,
19761 include_final,
19762 deduplicate,
19763 predicate,
19764 zorder,
19765 })
19766 }
19767
19768 pub fn parse_create_sequence(&mut self, temporary: bool) -> Result<Statement, ParserError> {
19774 let if_not_exists = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
19776 let name = self.parse_object_name(false)?;
19778 let mut data_type: Option<DataType> = None;
19780 if self.parse_keywords(&[Keyword::AS]) {
19781 data_type = Some(self.parse_data_type()?)
19782 }
19783 let sequence_options = self.parse_create_sequence_options()?;
19784 let owned_by = if self.parse_keywords(&[Keyword::OWNED, Keyword::BY]) {
19786 if self.parse_keywords(&[Keyword::NONE]) {
19787 Some(ObjectName::from(vec![Ident::new("NONE")]))
19788 } else {
19789 Some(self.parse_object_name(false)?)
19790 }
19791 } else {
19792 None
19793 };
19794 Ok(Statement::CreateSequence {
19795 temporary,
19796 if_not_exists,
19797 name,
19798 data_type,
19799 sequence_options,
19800 owned_by,
19801 })
19802 }
19803
19804 fn parse_create_sequence_options(&mut self) -> Result<Vec<SequenceOptions>, ParserError> {
19805 let mut sequence_options = vec![];
19806 loop {
19810 if self.parse_keywords(&[Keyword::INCREMENT]) {
19812 if self.parse_keywords(&[Keyword::BY]) {
19813 sequence_options.push(SequenceOptions::IncrementBy(self.parse_number()?, true));
19814 } else {
19815 sequence_options
19816 .push(SequenceOptions::IncrementBy(self.parse_number()?, false));
19817 }
19818 }
19819 else if self.parse_keyword(Keyword::MINVALUE) {
19821 sequence_options.push(SequenceOptions::MinValue(Some(self.parse_number()?)));
19822 } else if self.parse_keywords(&[Keyword::NO, Keyword::MINVALUE]) {
19823 sequence_options.push(SequenceOptions::MinValue(None));
19824 }
19825 else if self.parse_keywords(&[Keyword::MAXVALUE]) {
19827 sequence_options.push(SequenceOptions::MaxValue(Some(self.parse_number()?)));
19828 } else if self.parse_keywords(&[Keyword::NO, Keyword::MAXVALUE]) {
19829 sequence_options.push(SequenceOptions::MaxValue(None));
19830 }
19831 else if self.parse_keywords(&[Keyword::START]) {
19833 if self.parse_keywords(&[Keyword::WITH]) {
19834 sequence_options.push(SequenceOptions::StartWith(self.parse_number()?, true));
19835 } else {
19836 sequence_options.push(SequenceOptions::StartWith(self.parse_number()?, false));
19837 }
19838 }
19839 else if self.parse_keywords(&[Keyword::CACHE]) {
19841 sequence_options.push(SequenceOptions::Cache(self.parse_number()?));
19842 }
19843 else if self.parse_keywords(&[Keyword::NO, Keyword::CYCLE]) {
19845 sequence_options.push(SequenceOptions::Cycle(true));
19846 } else if self.parse_keywords(&[Keyword::CYCLE]) {
19847 sequence_options.push(SequenceOptions::Cycle(false));
19848 } else {
19849 break;
19850 }
19851 }
19852
19853 Ok(sequence_options)
19854 }
19855
19856 pub fn parse_pg_create_server(&mut self) -> Result<Statement, ParserError> {
19860 let ine = self.parse_keywords(&[Keyword::IF, Keyword::NOT, Keyword::EXISTS]);
19861 let name = self.parse_object_name(false)?;
19862
19863 let server_type = if self.parse_keyword(Keyword::TYPE) {
19864 Some(self.parse_identifier()?)
19865 } else {
19866 None
19867 };
19868
19869 let version = if self.parse_keyword(Keyword::VERSION) {
19870 Some(self.parse_identifier()?)
19871 } else {
19872 None
19873 };
19874
19875 self.expect_keywords(&[Keyword::FOREIGN, Keyword::DATA, Keyword::WRAPPER])?;
19876 let foreign_data_wrapper = self.parse_object_name(false)?;
19877
19878 let mut options = None;
19879 if self.parse_keyword(Keyword::OPTIONS) {
19880 self.expect_token(&Token::LParen)?;
19881 options = Some(self.parse_comma_separated(|p| {
19882 let key = p.parse_identifier()?;
19883 let value = p.parse_identifier()?;
19884 Ok(CreateServerOption { key, value })
19885 })?);
19886 self.expect_token(&Token::RParen)?;
19887 }
19888
19889 Ok(Statement::CreateServer(CreateServerStatement {
19890 name,
19891 if_not_exists: ine,
19892 server_type,
19893 version,
19894 foreign_data_wrapper,
19895 options,
19896 }))
19897 }
19898
19899 pub fn index(&self) -> usize {
19901 self.index
19902 }
19903
19904 pub fn parse_named_window(&mut self) -> Result<NamedWindowDefinition, ParserError> {
19906 let ident = self.parse_identifier()?;
19907 self.expect_keyword_is(Keyword::AS)?;
19908
19909 let window_expr = if self.consume_token(&Token::LParen) {
19910 NamedWindowExpr::WindowSpec(self.parse_window_spec()?)
19911 } else if self.dialect.supports_window_clause_named_window_reference() {
19912 NamedWindowExpr::NamedWindow(self.parse_identifier()?)
19913 } else {
19914 return self.expected_ref("(", self.peek_token_ref());
19915 };
19916
19917 Ok(NamedWindowDefinition(ident, window_expr))
19918 }
19919
19920 pub fn parse_create_procedure(&mut self, or_alter: bool) -> Result<Statement, ParserError> {
19922 let name = self.parse_object_name(false)?;
19923 let params = self.parse_optional_procedure_parameters()?;
19924
19925 let language = if self.parse_keyword(Keyword::LANGUAGE) {
19926 Some(self.parse_identifier()?)
19927 } else {
19928 None
19929 };
19930
19931 self.expect_keyword_is(Keyword::AS)?;
19932
19933 let body = self.parse_conditional_statements(&[Keyword::END])?;
19934
19935 Ok(Statement::CreateProcedure {
19936 name,
19937 or_alter,
19938 params,
19939 language,
19940 body,
19941 })
19942 }
19943
19944 pub fn parse_window_spec(&mut self) -> Result<WindowSpec, ParserError> {
19946 let window_name = match &self.peek_token_ref().token {
19947 Token::Word(word) if word.keyword == Keyword::NoKeyword => {
19948 self.parse_optional_ident()?
19949 }
19950 _ => None,
19951 };
19952
19953 let partition_by = if self.parse_keywords(&[Keyword::PARTITION, Keyword::BY]) {
19954 self.parse_comma_separated(Parser::parse_expr)?
19955 } else {
19956 vec![]
19957 };
19958 let order_by = if self.parse_keywords(&[Keyword::ORDER, Keyword::BY]) {
19959 self.parse_comma_separated(Parser::parse_order_by_expr)?
19960 } else {
19961 vec![]
19962 };
19963
19964 let window_frame = if !self.consume_token(&Token::RParen) {
19965 let window_frame = self.parse_window_frame()?;
19966 self.expect_token(&Token::RParen)?;
19967 Some(window_frame)
19968 } else {
19969 None
19970 };
19971 Ok(WindowSpec {
19972 window_name,
19973 partition_by,
19974 order_by,
19975 window_frame,
19976 })
19977 }
19978
19979 pub fn parse_create_type(&mut self) -> Result<Statement, ParserError> {
19981 let name = self.parse_object_name(false)?;
19982
19983 let has_as = self.parse_keyword(Keyword::AS);
19985
19986 if !has_as {
19987 if self.consume_token(&Token::LParen) {
19989 let options = self.parse_create_type_sql_definition_options()?;
19991 self.expect_token(&Token::RParen)?;
19992 return Ok(Statement::CreateType {
19993 name,
19994 representation: Some(UserDefinedTypeRepresentation::SqlDefinition { options }),
19995 });
19996 }
19997
19998 return Ok(Statement::CreateType {
20000 name,
20001 representation: None,
20002 });
20003 }
20004
20005 if self.parse_keyword(Keyword::ENUM) {
20007 self.parse_create_type_enum(name)
20009 } else if self.parse_keyword(Keyword::RANGE) {
20010 self.parse_create_type_range(name)
20012 } else if self.consume_token(&Token::LParen) {
20013 self.parse_create_type_composite(name)
20015 } else {
20016 self.expected_ref("ENUM, RANGE, or '(' after AS", self.peek_token_ref())
20017 }
20018 }
20019
20020 fn parse_create_type_composite(&mut self, name: ObjectName) -> Result<Statement, ParserError> {
20024 if self.consume_token(&Token::RParen) {
20025 return Ok(Statement::CreateType {
20027 name,
20028 representation: Some(UserDefinedTypeRepresentation::Composite {
20029 attributes: vec![],
20030 }),
20031 });
20032 }
20033
20034 let mut attributes = vec![];
20035 loop {
20036 let attr_name = self.parse_identifier()?;
20037 let attr_data_type = self.parse_data_type()?;
20038 let attr_collation = if self.parse_keyword(Keyword::COLLATE) {
20039 Some(self.parse_object_name(false)?)
20040 } else {
20041 None
20042 };
20043 attributes.push(UserDefinedTypeCompositeAttributeDef {
20044 name: attr_name,
20045 data_type: attr_data_type,
20046 collation: attr_collation,
20047 });
20048
20049 if !self.consume_token(&Token::Comma) {
20050 break;
20051 }
20052 }
20053 self.expect_token(&Token::RParen)?;
20054
20055 Ok(Statement::CreateType {
20056 name,
20057 representation: Some(UserDefinedTypeRepresentation::Composite { attributes }),
20058 })
20059 }
20060
20061 pub fn parse_create_type_enum(&mut self, name: ObjectName) -> Result<Statement, ParserError> {
20065 self.expect_token(&Token::LParen)?;
20066 let labels = self.parse_comma_separated0(|p| p.parse_identifier(), Token::RParen)?;
20067 self.expect_token(&Token::RParen)?;
20068
20069 Ok(Statement::CreateType {
20070 name,
20071 representation: Some(UserDefinedTypeRepresentation::Enum { labels }),
20072 })
20073 }
20074
20075 fn parse_create_type_range(&mut self, name: ObjectName) -> Result<Statement, ParserError> {
20079 self.expect_token(&Token::LParen)?;
20080 let options = self.parse_comma_separated0(|p| p.parse_range_option(), Token::RParen)?;
20081 self.expect_token(&Token::RParen)?;
20082
20083 Ok(Statement::CreateType {
20084 name,
20085 representation: Some(UserDefinedTypeRepresentation::Range { options }),
20086 })
20087 }
20088
20089 fn parse_range_option(&mut self) -> Result<UserDefinedTypeRangeOption, ParserError> {
20091 let keyword = self.parse_one_of_keywords(&[
20092 Keyword::SUBTYPE,
20093 Keyword::SUBTYPE_OPCLASS,
20094 Keyword::COLLATION,
20095 Keyword::CANONICAL,
20096 Keyword::SUBTYPE_DIFF,
20097 Keyword::MULTIRANGE_TYPE_NAME,
20098 ]);
20099
20100 match keyword {
20101 Some(Keyword::SUBTYPE) => {
20102 self.expect_token(&Token::Eq)?;
20103 let data_type = self.parse_data_type()?;
20104 Ok(UserDefinedTypeRangeOption::Subtype(data_type))
20105 }
20106 Some(Keyword::SUBTYPE_OPCLASS) => {
20107 self.expect_token(&Token::Eq)?;
20108 let name = self.parse_object_name(false)?;
20109 Ok(UserDefinedTypeRangeOption::SubtypeOpClass(name))
20110 }
20111 Some(Keyword::COLLATION) => {
20112 self.expect_token(&Token::Eq)?;
20113 let name = self.parse_object_name(false)?;
20114 Ok(UserDefinedTypeRangeOption::Collation(name))
20115 }
20116 Some(Keyword::CANONICAL) => {
20117 self.expect_token(&Token::Eq)?;
20118 let name = self.parse_object_name(false)?;
20119 Ok(UserDefinedTypeRangeOption::Canonical(name))
20120 }
20121 Some(Keyword::SUBTYPE_DIFF) => {
20122 self.expect_token(&Token::Eq)?;
20123 let name = self.parse_object_name(false)?;
20124 Ok(UserDefinedTypeRangeOption::SubtypeDiff(name))
20125 }
20126 Some(Keyword::MULTIRANGE_TYPE_NAME) => {
20127 self.expect_token(&Token::Eq)?;
20128 let name = self.parse_object_name(false)?;
20129 Ok(UserDefinedTypeRangeOption::MultirangeTypeName(name))
20130 }
20131 _ => self.expected_ref("range option keyword", self.peek_token_ref()),
20132 }
20133 }
20134
20135 fn parse_create_type_sql_definition_options(
20137 &mut self,
20138 ) -> Result<Vec<UserDefinedTypeSqlDefinitionOption>, ParserError> {
20139 self.parse_comma_separated0(|p| p.parse_sql_definition_option(), Token::RParen)
20140 }
20141
20142 fn parse_sql_definition_option(
20144 &mut self,
20145 ) -> Result<UserDefinedTypeSqlDefinitionOption, ParserError> {
20146 let keyword = self.parse_one_of_keywords(&[
20147 Keyword::INPUT,
20148 Keyword::OUTPUT,
20149 Keyword::RECEIVE,
20150 Keyword::SEND,
20151 Keyword::TYPMOD_IN,
20152 Keyword::TYPMOD_OUT,
20153 Keyword::ANALYZE,
20154 Keyword::SUBSCRIPT,
20155 Keyword::INTERNALLENGTH,
20156 Keyword::PASSEDBYVALUE,
20157 Keyword::ALIGNMENT,
20158 Keyword::STORAGE,
20159 Keyword::LIKE,
20160 Keyword::CATEGORY,
20161 Keyword::PREFERRED,
20162 Keyword::DEFAULT,
20163 Keyword::ELEMENT,
20164 Keyword::DELIMITER,
20165 Keyword::COLLATABLE,
20166 ]);
20167
20168 match keyword {
20169 Some(Keyword::INPUT) => {
20170 self.expect_token(&Token::Eq)?;
20171 let name = self.parse_object_name(false)?;
20172 Ok(UserDefinedTypeSqlDefinitionOption::Input(name))
20173 }
20174 Some(Keyword::OUTPUT) => {
20175 self.expect_token(&Token::Eq)?;
20176 let name = self.parse_object_name(false)?;
20177 Ok(UserDefinedTypeSqlDefinitionOption::Output(name))
20178 }
20179 Some(Keyword::RECEIVE) => {
20180 self.expect_token(&Token::Eq)?;
20181 let name = self.parse_object_name(false)?;
20182 Ok(UserDefinedTypeSqlDefinitionOption::Receive(name))
20183 }
20184 Some(Keyword::SEND) => {
20185 self.expect_token(&Token::Eq)?;
20186 let name = self.parse_object_name(false)?;
20187 Ok(UserDefinedTypeSqlDefinitionOption::Send(name))
20188 }
20189 Some(Keyword::TYPMOD_IN) => {
20190 self.expect_token(&Token::Eq)?;
20191 let name = self.parse_object_name(false)?;
20192 Ok(UserDefinedTypeSqlDefinitionOption::TypmodIn(name))
20193 }
20194 Some(Keyword::TYPMOD_OUT) => {
20195 self.expect_token(&Token::Eq)?;
20196 let name = self.parse_object_name(false)?;
20197 Ok(UserDefinedTypeSqlDefinitionOption::TypmodOut(name))
20198 }
20199 Some(Keyword::ANALYZE) => {
20200 self.expect_token(&Token::Eq)?;
20201 let name = self.parse_object_name(false)?;
20202 Ok(UserDefinedTypeSqlDefinitionOption::Analyze(name))
20203 }
20204 Some(Keyword::SUBSCRIPT) => {
20205 self.expect_token(&Token::Eq)?;
20206 let name = self.parse_object_name(false)?;
20207 Ok(UserDefinedTypeSqlDefinitionOption::Subscript(name))
20208 }
20209 Some(Keyword::INTERNALLENGTH) => {
20210 self.expect_token(&Token::Eq)?;
20211 if self.parse_keyword(Keyword::VARIABLE) {
20212 Ok(UserDefinedTypeSqlDefinitionOption::InternalLength(
20213 UserDefinedTypeInternalLength::Variable,
20214 ))
20215 } else {
20216 let value = self.parse_literal_uint()?;
20217 Ok(UserDefinedTypeSqlDefinitionOption::InternalLength(
20218 UserDefinedTypeInternalLength::Fixed(value),
20219 ))
20220 }
20221 }
20222 Some(Keyword::PASSEDBYVALUE) => Ok(UserDefinedTypeSqlDefinitionOption::PassedByValue),
20223 Some(Keyword::ALIGNMENT) => {
20224 self.expect_token(&Token::Eq)?;
20225 let align_keyword = self.parse_one_of_keywords(&[
20226 Keyword::CHAR,
20227 Keyword::INT2,
20228 Keyword::INT4,
20229 Keyword::DOUBLE,
20230 ]);
20231 match align_keyword {
20232 Some(Keyword::CHAR) => Ok(UserDefinedTypeSqlDefinitionOption::Alignment(
20233 Alignment::Char,
20234 )),
20235 Some(Keyword::INT2) => Ok(UserDefinedTypeSqlDefinitionOption::Alignment(
20236 Alignment::Int2,
20237 )),
20238 Some(Keyword::INT4) => Ok(UserDefinedTypeSqlDefinitionOption::Alignment(
20239 Alignment::Int4,
20240 )),
20241 Some(Keyword::DOUBLE) => Ok(UserDefinedTypeSqlDefinitionOption::Alignment(
20242 Alignment::Double,
20243 )),
20244 _ => self.expected_ref(
20245 "alignment value (char, int2, int4, or double)",
20246 self.peek_token_ref(),
20247 ),
20248 }
20249 }
20250 Some(Keyword::STORAGE) => {
20251 self.expect_token(&Token::Eq)?;
20252 let storage_keyword = self.parse_one_of_keywords(&[
20253 Keyword::PLAIN,
20254 Keyword::EXTERNAL,
20255 Keyword::EXTENDED,
20256 Keyword::MAIN,
20257 ]);
20258 match storage_keyword {
20259 Some(Keyword::PLAIN) => Ok(UserDefinedTypeSqlDefinitionOption::Storage(
20260 UserDefinedTypeStorage::Plain,
20261 )),
20262 Some(Keyword::EXTERNAL) => Ok(UserDefinedTypeSqlDefinitionOption::Storage(
20263 UserDefinedTypeStorage::External,
20264 )),
20265 Some(Keyword::EXTENDED) => Ok(UserDefinedTypeSqlDefinitionOption::Storage(
20266 UserDefinedTypeStorage::Extended,
20267 )),
20268 Some(Keyword::MAIN) => Ok(UserDefinedTypeSqlDefinitionOption::Storage(
20269 UserDefinedTypeStorage::Main,
20270 )),
20271 _ => self.expected_ref(
20272 "storage value (plain, external, extended, or main)",
20273 self.peek_token_ref(),
20274 ),
20275 }
20276 }
20277 Some(Keyword::LIKE) => {
20278 self.expect_token(&Token::Eq)?;
20279 let name = self.parse_object_name(false)?;
20280 Ok(UserDefinedTypeSqlDefinitionOption::Like(name))
20281 }
20282 Some(Keyword::CATEGORY) => {
20283 self.expect_token(&Token::Eq)?;
20284 let category_str = self.parse_literal_string()?;
20285 let category_char = category_str.chars().next().ok_or_else(|| {
20286 ParserError::ParserError(
20287 "CATEGORY value must be a single character".to_string(),
20288 )
20289 })?;
20290 Ok(UserDefinedTypeSqlDefinitionOption::Category(category_char))
20291 }
20292 Some(Keyword::PREFERRED) => {
20293 self.expect_token(&Token::Eq)?;
20294 let value =
20295 self.parse_keyword(Keyword::TRUE) || !self.parse_keyword(Keyword::FALSE);
20296 Ok(UserDefinedTypeSqlDefinitionOption::Preferred(value))
20297 }
20298 Some(Keyword::DEFAULT) => {
20299 self.expect_token(&Token::Eq)?;
20300 let expr = self.parse_expr()?;
20301 Ok(UserDefinedTypeSqlDefinitionOption::Default(expr))
20302 }
20303 Some(Keyword::ELEMENT) => {
20304 self.expect_token(&Token::Eq)?;
20305 let data_type = self.parse_data_type()?;
20306 Ok(UserDefinedTypeSqlDefinitionOption::Element(data_type))
20307 }
20308 Some(Keyword::DELIMITER) => {
20309 self.expect_token(&Token::Eq)?;
20310 let delimiter = self.parse_literal_string()?;
20311 Ok(UserDefinedTypeSqlDefinitionOption::Delimiter(delimiter))
20312 }
20313 Some(Keyword::COLLATABLE) => {
20314 self.expect_token(&Token::Eq)?;
20315 let value =
20316 self.parse_keyword(Keyword::TRUE) || !self.parse_keyword(Keyword::FALSE);
20317 Ok(UserDefinedTypeSqlDefinitionOption::Collatable(value))
20318 }
20319 _ => self.expected_ref("SQL definition option keyword", self.peek_token_ref()),
20320 }
20321 }
20322
20323 fn parse_parenthesized_identifiers(&mut self) -> Result<Vec<Ident>, ParserError> {
20324 self.expect_token(&Token::LParen)?;
20325 let idents = self.parse_comma_separated0(|p| p.parse_identifier(), Token::RParen)?;
20326 self.expect_token(&Token::RParen)?;
20327 Ok(idents)
20328 }
20329
20330 fn parse_column_position(&mut self) -> Result<Option<MySQLColumnPosition>, ParserError> {
20331 if dialect_of!(self is MySqlDialect | GenericDialect) {
20332 if self.parse_keyword(Keyword::FIRST) {
20333 Ok(Some(MySQLColumnPosition::First))
20334 } else if self.parse_keyword(Keyword::AFTER) {
20335 let ident = self.parse_identifier()?;
20336 Ok(Some(MySQLColumnPosition::After(ident)))
20337 } else {
20338 Ok(None)
20339 }
20340 } else {
20341 Ok(None)
20342 }
20343 }
20344
20345 fn parse_print(&mut self) -> Result<Statement, ParserError> {
20347 Ok(Statement::Print(PrintStatement {
20348 message: Box::new(self.parse_expr()?),
20349 }))
20350 }
20351
20352 fn parse_waitfor(&mut self) -> Result<Statement, ParserError> {
20356 let wait_type = if self.parse_keyword(Keyword::DELAY) {
20357 WaitForType::Delay
20358 } else if self.parse_keyword(Keyword::TIME) {
20359 WaitForType::Time
20360 } else {
20361 return self.expected_ref("DELAY or TIME", self.peek_token_ref());
20362 };
20363 let expr = self.parse_expr()?;
20364 Ok(Statement::WaitFor(WaitForStatement { wait_type, expr }))
20365 }
20366
20367 fn parse_return(&mut self) -> Result<Statement, ParserError> {
20369 match self.maybe_parse(|p| p.parse_expr())? {
20370 Some(expr) => Ok(Statement::Return(ReturnStatement {
20371 value: Some(ReturnStatementValue::Expr(expr)),
20372 })),
20373 None => Ok(Statement::Return(ReturnStatement { value: None })),
20374 }
20375 }
20376
20377 fn parse_export_data(&mut self) -> Result<Statement, ParserError> {
20381 self.expect_keywords(&[Keyword::EXPORT, Keyword::DATA])?;
20382
20383 let connection = if self.parse_keywords(&[Keyword::WITH, Keyword::CONNECTION]) {
20384 Some(self.parse_object_name(false)?)
20385 } else {
20386 None
20387 };
20388 self.expect_keyword(Keyword::OPTIONS)?;
20389 self.expect_token(&Token::LParen)?;
20390 let options = self.parse_comma_separated(|p| p.parse_sql_option())?;
20391 self.expect_token(&Token::RParen)?;
20392 self.expect_keyword(Keyword::AS)?;
20393 let query = self.parse_query()?;
20394 Ok(Statement::ExportData(ExportData {
20395 options,
20396 query,
20397 connection,
20398 }))
20399 }
20400
20401 fn parse_vacuum(&mut self) -> Result<Statement, ParserError> {
20402 self.expect_keyword(Keyword::VACUUM)?;
20403 let full = self.parse_keyword(Keyword::FULL);
20404 let sort_only = self.parse_keywords(&[Keyword::SORT, Keyword::ONLY]);
20405 let delete_only = self.parse_keywords(&[Keyword::DELETE, Keyword::ONLY]);
20406 let reindex = self.parse_keyword(Keyword::REINDEX);
20407 let recluster = self.parse_keyword(Keyword::RECLUSTER);
20408 let (table_name, threshold, boost) =
20409 match self.maybe_parse(|p| p.parse_object_name(false))? {
20410 Some(table_name) => {
20411 let threshold = if self.parse_keyword(Keyword::TO) {
20412 let value = self.parse_value()?;
20413 self.expect_keyword(Keyword::PERCENT)?;
20414 Some(value)
20415 } else {
20416 None
20417 };
20418 let boost = self.parse_keyword(Keyword::BOOST);
20419 (Some(table_name), threshold, boost)
20420 }
20421 _ => (None, None, false),
20422 };
20423 Ok(Statement::Vacuum(VacuumStatement {
20424 full,
20425 sort_only,
20426 delete_only,
20427 reindex,
20428 recluster,
20429 table_name,
20430 threshold,
20431 boost,
20432 }))
20433 }
20434
20435 pub fn into_tokens(self) -> Vec<TokenWithSpan> {
20437 self.tokens
20438 }
20439
20440 fn peek_sub_query(&mut self) -> bool {
20442 self.peek_one_of_keywords(&[Keyword::SELECT, Keyword::WITH])
20443 .is_some()
20444 }
20445
20446 pub(crate) fn parse_show_stmt_options(&mut self) -> Result<ShowStatementOptions, ParserError> {
20447 let show_in;
20448 let mut filter_position = None;
20449 if self.dialect.supports_show_like_before_in() {
20450 if let Some(filter) = self.parse_show_statement_filter()? {
20451 filter_position = Some(ShowStatementFilterPosition::Infix(filter));
20452 }
20453 show_in = self.maybe_parse_show_stmt_in()?;
20454 } else {
20455 show_in = self.maybe_parse_show_stmt_in()?;
20456 if let Some(filter) = self.parse_show_statement_filter()? {
20457 filter_position = Some(ShowStatementFilterPosition::Suffix(filter));
20458 }
20459 }
20460 let starts_with = self.maybe_parse_show_stmt_starts_with()?;
20461 let limit = self.maybe_parse_show_stmt_limit()?;
20462 let from = self.maybe_parse_show_stmt_from()?;
20463 Ok(ShowStatementOptions {
20464 filter_position,
20465 show_in,
20466 starts_with,
20467 limit,
20468 limit_from: from,
20469 })
20470 }
20471
20472 fn maybe_parse_show_stmt_in(&mut self) -> Result<Option<ShowStatementIn>, ParserError> {
20473 let clause = match self.parse_one_of_keywords(&[Keyword::FROM, Keyword::IN]) {
20474 Some(Keyword::FROM) => ShowStatementInClause::FROM,
20475 Some(Keyword::IN) => ShowStatementInClause::IN,
20476 None => return Ok(None),
20477 _ => return self.expected_ref("FROM or IN", self.peek_token_ref()),
20478 };
20479
20480 let (parent_type, parent_name) = match self.parse_one_of_keywords(&[
20481 Keyword::ACCOUNT,
20482 Keyword::DATABASE,
20483 Keyword::SCHEMA,
20484 Keyword::TABLE,
20485 Keyword::VIEW,
20486 ]) {
20487 Some(Keyword::DATABASE)
20489 if self.peek_keywords(&[Keyword::STARTS, Keyword::WITH])
20490 | self.peek_keyword(Keyword::LIMIT) =>
20491 {
20492 (Some(ShowStatementInParentType::Database), None)
20493 }
20494 Some(Keyword::SCHEMA)
20495 if self.peek_keywords(&[Keyword::STARTS, Keyword::WITH])
20496 | self.peek_keyword(Keyword::LIMIT) =>
20497 {
20498 (Some(ShowStatementInParentType::Schema), None)
20499 }
20500 Some(parent_kw) => {
20501 let parent_name = self.maybe_parse(|p| p.parse_object_name(false))?;
20505 match parent_kw {
20506 Keyword::ACCOUNT => (Some(ShowStatementInParentType::Account), parent_name),
20507 Keyword::DATABASE => (Some(ShowStatementInParentType::Database), parent_name),
20508 Keyword::SCHEMA => (Some(ShowStatementInParentType::Schema), parent_name),
20509 Keyword::TABLE => (Some(ShowStatementInParentType::Table), parent_name),
20510 Keyword::VIEW => (Some(ShowStatementInParentType::View), parent_name),
20511 _ => {
20512 return self.expected_ref(
20513 "one of ACCOUNT, DATABASE, SCHEMA, TABLE or VIEW",
20514 self.peek_token_ref(),
20515 )
20516 }
20517 }
20518 }
20519 None => {
20520 let mut parent_name = self.parse_object_name(false)?;
20523 if self
20524 .parse_one_of_keywords(&[Keyword::FROM, Keyword::IN])
20525 .is_some()
20526 {
20527 parent_name
20528 .0
20529 .insert(0, ObjectNamePart::Identifier(self.parse_identifier()?));
20530 }
20531 (None, Some(parent_name))
20532 }
20533 };
20534
20535 Ok(Some(ShowStatementIn {
20536 clause,
20537 parent_type,
20538 parent_name,
20539 }))
20540 }
20541
20542 fn maybe_parse_show_stmt_starts_with(&mut self) -> Result<Option<ValueWithSpan>, ParserError> {
20543 if self.parse_keywords(&[Keyword::STARTS, Keyword::WITH]) {
20544 Ok(Some(self.parse_value()?))
20545 } else {
20546 Ok(None)
20547 }
20548 }
20549
20550 fn maybe_parse_show_stmt_limit(&mut self) -> Result<Option<Expr>, ParserError> {
20551 if self.parse_keyword(Keyword::LIMIT) {
20552 Ok(self.parse_limit()?)
20553 } else {
20554 Ok(None)
20555 }
20556 }
20557
20558 fn maybe_parse_show_stmt_from(&mut self) -> Result<Option<ValueWithSpan>, ParserError> {
20559 if self.parse_keyword(Keyword::FROM) {
20560 Ok(Some(self.parse_value()?))
20561 } else {
20562 Ok(None)
20563 }
20564 }
20565
20566 pub(crate) fn in_column_definition_state(&self) -> bool {
20567 matches!(self.state, ColumnDefinition)
20568 }
20569
20570 pub(crate) fn parse_key_value_options(
20575 &mut self,
20576 parenthesized: bool,
20577 end_words: &[Keyword],
20578 ) -> Result<KeyValueOptions, ParserError> {
20579 let mut options: Vec<KeyValueOption> = Vec::new();
20580 let mut delimiter = KeyValueOptionsDelimiter::Space;
20581 if parenthesized {
20582 self.expect_token(&Token::LParen)?;
20583 }
20584 loop {
20585 match self.next_token().token {
20586 Token::RParen => {
20587 if parenthesized {
20588 break;
20589 } else {
20590 return self.expected_ref(" another option or EOF", self.peek_token_ref());
20591 }
20592 }
20593 Token::EOF | Token::SemiColon => break,
20594 Token::Comma => {
20595 delimiter = KeyValueOptionsDelimiter::Comma;
20596 continue;
20597 }
20598 Token::Word(w) if !end_words.contains(&w.keyword) => {
20599 options.push(self.parse_key_value_option(&w)?)
20600 }
20601 Token::Word(w) if end_words.contains(&w.keyword) => {
20602 self.prev_token();
20603 break;
20604 }
20605 _ => {
20606 return self.expected_ref(
20607 "another option, EOF, SemiColon, Comma or ')'",
20608 self.peek_token_ref(),
20609 )
20610 }
20611 };
20612 }
20613
20614 Ok(KeyValueOptions { delimiter, options })
20615 }
20616
20617 pub(crate) fn parse_key_value_option(
20619 &mut self,
20620 key: &Word,
20621 ) -> Result<KeyValueOption, ParserError> {
20622 self.expect_token(&Token::Eq)?;
20623 let peeked_token = self.peek_token();
20624 match peeked_token.token {
20625 Token::SingleQuotedString(_) => Ok(KeyValueOption {
20626 option_name: key.value.clone(),
20627 option_value: KeyValueOptionKind::Single(self.parse_value()?),
20628 }),
20629 Token::Word(word)
20630 if word.keyword == Keyword::TRUE || word.keyword == Keyword::FALSE =>
20631 {
20632 Ok(KeyValueOption {
20633 option_name: key.value.clone(),
20634 option_value: KeyValueOptionKind::Single(self.parse_value()?),
20635 })
20636 }
20637 Token::Number(..) => Ok(KeyValueOption {
20638 option_name: key.value.clone(),
20639 option_value: KeyValueOptionKind::Single(self.parse_value()?),
20640 }),
20641 Token::Word(word) => {
20642 self.next_token();
20643 Ok(KeyValueOption {
20644 option_name: key.value.clone(),
20645 option_value: KeyValueOptionKind::Single(
20646 Value::Placeholder(word.value.clone()).with_span(peeked_token.span),
20647 ),
20648 })
20649 }
20650 Token::LParen => {
20651 match self.maybe_parse(|parser| {
20655 parser.expect_token(&Token::LParen)?;
20656 let values = parser.parse_comma_separated0(|p| p.parse_value(), Token::RParen);
20657 parser.expect_token(&Token::RParen)?;
20658 values
20659 })? {
20660 Some(values) => Ok(KeyValueOption {
20661 option_name: key.value.clone(),
20662 option_value: KeyValueOptionKind::Multi(values),
20663 }),
20664 None => Ok(KeyValueOption {
20665 option_name: key.value.clone(),
20666 option_value: KeyValueOptionKind::KeyValueOptions(Box::new(
20667 self.parse_key_value_options(true, &[])?,
20668 )),
20669 }),
20670 }
20671 }
20672 _ => self.expected_ref("expected option value", self.peek_token_ref()),
20673 }
20674 }
20675
20676 fn parse_reset(&mut self) -> Result<ResetStatement, ParserError> {
20678 if self.parse_keyword(Keyword::ALL) {
20679 return Ok(ResetStatement { reset: Reset::ALL });
20680 }
20681
20682 let obj = self.parse_object_name(false)?;
20683 Ok(ResetStatement {
20684 reset: Reset::ConfigurationParameter(obj),
20685 })
20686 }
20687}
20688
20689fn maybe_prefixed_expr(expr: Expr, prefix: Option<Ident>) -> Expr {
20690 if let Some(prefix) = prefix {
20691 Expr::Prefixed {
20692 prefix,
20693 value: Box::new(expr),
20694 }
20695 } else {
20696 expr
20697 }
20698}
20699
20700impl Word {
20701 pub fn to_ident(&self, span: Span) -> Ident {
20707 Ident {
20708 value: self.value.clone(),
20709 quote_style: self.quote_style,
20710 span,
20711 }
20712 }
20713
20714 pub fn into_ident(self, span: Span) -> Ident {
20719 Ident {
20720 value: self.value,
20721 quote_style: self.quote_style,
20722 span,
20723 }
20724 }
20725}
20726
20727#[cfg(test)]
20728mod tests {
20729 use crate::test_utils::{all_dialects, TestedDialects};
20730
20731 use super::*;
20732
20733 #[test]
20734 fn test_prev_index() {
20735 let sql = "SELECT version";
20736 all_dialects().run_parser_method(sql, |parser| {
20737 assert_eq!(parser.peek_token(), Token::make_keyword("SELECT"));
20738 assert_eq!(parser.next_token(), Token::make_keyword("SELECT"));
20739 parser.prev_token();
20740 assert_eq!(parser.next_token(), Token::make_keyword("SELECT"));
20741 assert_eq!(parser.next_token(), Token::make_word("version", None));
20742 parser.prev_token();
20743 assert_eq!(parser.peek_token(), Token::make_word("version", None));
20744 assert_eq!(parser.next_token(), Token::make_word("version", None));
20745 assert_eq!(parser.peek_token(), Token::EOF);
20746 parser.prev_token();
20747 assert_eq!(parser.next_token(), Token::make_word("version", None));
20748 assert_eq!(parser.next_token(), Token::EOF);
20749 assert_eq!(parser.next_token(), Token::EOF);
20750 parser.prev_token();
20751 });
20752 }
20753
20754 #[test]
20755 fn test_peek_tokens() {
20756 all_dialects().run_parser_method("SELECT foo AS bar FROM baz", |parser| {
20757 assert!(matches!(
20758 parser.peek_tokens(),
20759 [Token::Word(Word {
20760 keyword: Keyword::SELECT,
20761 ..
20762 })]
20763 ));
20764
20765 assert!(matches!(
20766 parser.peek_tokens(),
20767 [
20768 Token::Word(Word {
20769 keyword: Keyword::SELECT,
20770 ..
20771 }),
20772 Token::Word(_),
20773 Token::Word(Word {
20774 keyword: Keyword::AS,
20775 ..
20776 }),
20777 ]
20778 ));
20779
20780 for _ in 0..4 {
20781 parser.next_token();
20782 }
20783
20784 assert!(matches!(
20785 parser.peek_tokens(),
20786 [
20787 Token::Word(Word {
20788 keyword: Keyword::FROM,
20789 ..
20790 }),
20791 Token::Word(_),
20792 Token::EOF,
20793 Token::EOF,
20794 ]
20795 ))
20796 })
20797 }
20798
20799 #[cfg(test)]
20800 mod test_parse_data_type {
20801 use crate::ast::{
20802 CharLengthUnits, CharacterLength, DataType, ExactNumberInfo, ObjectName, TimezoneInfo,
20803 };
20804 use crate::dialect::{AnsiDialect, GenericDialect, PostgreSqlDialect};
20805 use crate::test_utils::TestedDialects;
20806
20807 macro_rules! test_parse_data_type {
20808 ($dialect:expr, $input:expr, $expected_type:expr $(,)?) => {{
20809 $dialect.run_parser_method(&*$input, |parser| {
20810 let data_type = parser.parse_data_type().unwrap();
20811 assert_eq!($expected_type, data_type);
20812 assert_eq!($input.to_string(), data_type.to_string());
20813 });
20814 }};
20815 }
20816
20817 #[test]
20818 fn test_ansii_character_string_types() {
20819 let dialect =
20821 TestedDialects::new(vec![Box::new(GenericDialect {}), Box::new(AnsiDialect {})]);
20822
20823 test_parse_data_type!(dialect, "CHARACTER", DataType::Character(None));
20824
20825 test_parse_data_type!(
20826 dialect,
20827 "CHARACTER(20)",
20828 DataType::Character(Some(CharacterLength::IntegerLength {
20829 length: 20,
20830 unit: None
20831 }))
20832 );
20833
20834 test_parse_data_type!(
20835 dialect,
20836 "CHARACTER(20 CHARACTERS)",
20837 DataType::Character(Some(CharacterLength::IntegerLength {
20838 length: 20,
20839 unit: Some(CharLengthUnits::Characters)
20840 }))
20841 );
20842
20843 test_parse_data_type!(
20844 dialect,
20845 "CHARACTER(20 OCTETS)",
20846 DataType::Character(Some(CharacterLength::IntegerLength {
20847 length: 20,
20848 unit: Some(CharLengthUnits::Octets)
20849 }))
20850 );
20851
20852 test_parse_data_type!(dialect, "CHAR", DataType::Char(None));
20853
20854 test_parse_data_type!(
20855 dialect,
20856 "CHAR(20)",
20857 DataType::Char(Some(CharacterLength::IntegerLength {
20858 length: 20,
20859 unit: None
20860 }))
20861 );
20862
20863 test_parse_data_type!(
20864 dialect,
20865 "CHAR(20 CHARACTERS)",
20866 DataType::Char(Some(CharacterLength::IntegerLength {
20867 length: 20,
20868 unit: Some(CharLengthUnits::Characters)
20869 }))
20870 );
20871
20872 test_parse_data_type!(
20873 dialect,
20874 "CHAR(20 OCTETS)",
20875 DataType::Char(Some(CharacterLength::IntegerLength {
20876 length: 20,
20877 unit: Some(CharLengthUnits::Octets)
20878 }))
20879 );
20880
20881 test_parse_data_type!(
20882 dialect,
20883 "CHARACTER VARYING(20)",
20884 DataType::CharacterVarying(Some(CharacterLength::IntegerLength {
20885 length: 20,
20886 unit: None
20887 }))
20888 );
20889
20890 test_parse_data_type!(
20891 dialect,
20892 "CHARACTER VARYING(20 CHARACTERS)",
20893 DataType::CharacterVarying(Some(CharacterLength::IntegerLength {
20894 length: 20,
20895 unit: Some(CharLengthUnits::Characters)
20896 }))
20897 );
20898
20899 test_parse_data_type!(
20900 dialect,
20901 "CHARACTER VARYING(20 OCTETS)",
20902 DataType::CharacterVarying(Some(CharacterLength::IntegerLength {
20903 length: 20,
20904 unit: Some(CharLengthUnits::Octets)
20905 }))
20906 );
20907
20908 test_parse_data_type!(
20909 dialect,
20910 "CHAR VARYING(20)",
20911 DataType::CharVarying(Some(CharacterLength::IntegerLength {
20912 length: 20,
20913 unit: None
20914 }))
20915 );
20916
20917 test_parse_data_type!(
20918 dialect,
20919 "CHAR VARYING(20 CHARACTERS)",
20920 DataType::CharVarying(Some(CharacterLength::IntegerLength {
20921 length: 20,
20922 unit: Some(CharLengthUnits::Characters)
20923 }))
20924 );
20925
20926 test_parse_data_type!(
20927 dialect,
20928 "CHAR VARYING(20 OCTETS)",
20929 DataType::CharVarying(Some(CharacterLength::IntegerLength {
20930 length: 20,
20931 unit: Some(CharLengthUnits::Octets)
20932 }))
20933 );
20934
20935 test_parse_data_type!(
20936 dialect,
20937 "VARCHAR(20)",
20938 DataType::Varchar(Some(CharacterLength::IntegerLength {
20939 length: 20,
20940 unit: None
20941 }))
20942 );
20943 }
20944
20945 #[test]
20946 fn test_ansii_character_large_object_types() {
20947 let dialect =
20949 TestedDialects::new(vec![Box::new(GenericDialect {}), Box::new(AnsiDialect {})]);
20950
20951 test_parse_data_type!(
20952 dialect,
20953 "CHARACTER LARGE OBJECT",
20954 DataType::CharacterLargeObject(None)
20955 );
20956 test_parse_data_type!(
20957 dialect,
20958 "CHARACTER LARGE OBJECT(20)",
20959 DataType::CharacterLargeObject(Some(20))
20960 );
20961
20962 test_parse_data_type!(
20963 dialect,
20964 "CHAR LARGE OBJECT",
20965 DataType::CharLargeObject(None)
20966 );
20967 test_parse_data_type!(
20968 dialect,
20969 "CHAR LARGE OBJECT(20)",
20970 DataType::CharLargeObject(Some(20))
20971 );
20972
20973 test_parse_data_type!(dialect, "CLOB", DataType::Clob(None));
20974 test_parse_data_type!(dialect, "CLOB(20)", DataType::Clob(Some(20)));
20975 }
20976
20977 #[test]
20978 fn test_parse_custom_types() {
20979 let dialect =
20980 TestedDialects::new(vec![Box::new(GenericDialect {}), Box::new(AnsiDialect {})]);
20981
20982 test_parse_data_type!(
20983 dialect,
20984 "GEOMETRY",
20985 DataType::Custom(ObjectName::from(vec!["GEOMETRY".into()]), vec![])
20986 );
20987
20988 test_parse_data_type!(
20989 dialect,
20990 "GEOMETRY(POINT)",
20991 DataType::Custom(
20992 ObjectName::from(vec!["GEOMETRY".into()]),
20993 vec!["POINT".to_string()]
20994 )
20995 );
20996
20997 test_parse_data_type!(
20998 dialect,
20999 "GEOMETRY(POINT, 4326)",
21000 DataType::Custom(
21001 ObjectName::from(vec!["GEOMETRY".into()]),
21002 vec!["POINT".to_string(), "4326".to_string()]
21003 )
21004 );
21005 }
21006
21007 #[test]
21008 fn test_ansii_exact_numeric_types() {
21009 let dialect = TestedDialects::new(vec![
21011 Box::new(GenericDialect {}),
21012 Box::new(AnsiDialect {}),
21013 Box::new(PostgreSqlDialect {}),
21014 ]);
21015
21016 test_parse_data_type!(dialect, "NUMERIC", DataType::Numeric(ExactNumberInfo::None));
21017
21018 test_parse_data_type!(
21019 dialect,
21020 "NUMERIC(2)",
21021 DataType::Numeric(ExactNumberInfo::Precision(2))
21022 );
21023
21024 test_parse_data_type!(
21025 dialect,
21026 "NUMERIC(2,10)",
21027 DataType::Numeric(ExactNumberInfo::PrecisionAndScale(2, 10))
21028 );
21029
21030 test_parse_data_type!(dialect, "DECIMAL", DataType::Decimal(ExactNumberInfo::None));
21031
21032 test_parse_data_type!(
21033 dialect,
21034 "DECIMAL(2)",
21035 DataType::Decimal(ExactNumberInfo::Precision(2))
21036 );
21037
21038 test_parse_data_type!(
21039 dialect,
21040 "DECIMAL(2,10)",
21041 DataType::Decimal(ExactNumberInfo::PrecisionAndScale(2, 10))
21042 );
21043
21044 test_parse_data_type!(dialect, "DEC", DataType::Dec(ExactNumberInfo::None));
21045
21046 test_parse_data_type!(
21047 dialect,
21048 "DEC(2)",
21049 DataType::Dec(ExactNumberInfo::Precision(2))
21050 );
21051
21052 test_parse_data_type!(
21053 dialect,
21054 "DEC(2,10)",
21055 DataType::Dec(ExactNumberInfo::PrecisionAndScale(2, 10))
21056 );
21057
21058 test_parse_data_type!(
21060 dialect,
21061 "NUMERIC(10,-2)",
21062 DataType::Numeric(ExactNumberInfo::PrecisionAndScale(10, -2))
21063 );
21064
21065 test_parse_data_type!(
21066 dialect,
21067 "DECIMAL(1000,-10)",
21068 DataType::Decimal(ExactNumberInfo::PrecisionAndScale(1000, -10))
21069 );
21070
21071 test_parse_data_type!(
21072 dialect,
21073 "DEC(5,-1000)",
21074 DataType::Dec(ExactNumberInfo::PrecisionAndScale(5, -1000))
21075 );
21076
21077 test_parse_data_type!(
21078 dialect,
21079 "NUMERIC(10,-5)",
21080 DataType::Numeric(ExactNumberInfo::PrecisionAndScale(10, -5))
21081 );
21082
21083 test_parse_data_type!(
21084 dialect,
21085 "DECIMAL(20,-10)",
21086 DataType::Decimal(ExactNumberInfo::PrecisionAndScale(20, -10))
21087 );
21088
21089 test_parse_data_type!(
21090 dialect,
21091 "DEC(5,-2)",
21092 DataType::Dec(ExactNumberInfo::PrecisionAndScale(5, -2))
21093 );
21094
21095 dialect.run_parser_method("NUMERIC(10,+5)", |parser| {
21096 let data_type = parser.parse_data_type().unwrap();
21097 assert_eq!(
21098 DataType::Numeric(ExactNumberInfo::PrecisionAndScale(10, 5)),
21099 data_type
21100 );
21101 assert_eq!("NUMERIC(10,5)", data_type.to_string());
21103 });
21104 }
21105
21106 #[test]
21107 fn test_ansii_date_type() {
21108 let dialect =
21110 TestedDialects::new(vec![Box::new(GenericDialect {}), Box::new(AnsiDialect {})]);
21111
21112 test_parse_data_type!(dialect, "DATE", DataType::Date);
21113
21114 test_parse_data_type!(dialect, "TIME", DataType::Time(None, TimezoneInfo::None));
21115
21116 test_parse_data_type!(
21117 dialect,
21118 "TIME(6)",
21119 DataType::Time(Some(6), TimezoneInfo::None)
21120 );
21121
21122 test_parse_data_type!(
21123 dialect,
21124 "TIME WITH TIME ZONE",
21125 DataType::Time(None, TimezoneInfo::WithTimeZone)
21126 );
21127
21128 test_parse_data_type!(
21129 dialect,
21130 "TIME(6) WITH TIME ZONE",
21131 DataType::Time(Some(6), TimezoneInfo::WithTimeZone)
21132 );
21133
21134 test_parse_data_type!(
21135 dialect,
21136 "TIME WITHOUT TIME ZONE",
21137 DataType::Time(None, TimezoneInfo::WithoutTimeZone)
21138 );
21139
21140 test_parse_data_type!(
21141 dialect,
21142 "TIME(6) WITHOUT TIME ZONE",
21143 DataType::Time(Some(6), TimezoneInfo::WithoutTimeZone)
21144 );
21145
21146 test_parse_data_type!(
21147 dialect,
21148 "TIMESTAMP",
21149 DataType::Timestamp(None, TimezoneInfo::None)
21150 );
21151
21152 test_parse_data_type!(
21153 dialect,
21154 "TIMESTAMP(22)",
21155 DataType::Timestamp(Some(22), TimezoneInfo::None)
21156 );
21157
21158 test_parse_data_type!(
21159 dialect,
21160 "TIMESTAMP(22) WITH TIME ZONE",
21161 DataType::Timestamp(Some(22), TimezoneInfo::WithTimeZone)
21162 );
21163
21164 test_parse_data_type!(
21165 dialect,
21166 "TIMESTAMP(33) WITHOUT TIME ZONE",
21167 DataType::Timestamp(Some(33), TimezoneInfo::WithoutTimeZone)
21168 );
21169 }
21170 }
21171
21172 #[test]
21173 fn test_parse_schema_name() {
21174 macro_rules! test_parse_schema_name {
21176 ($input:expr, $expected_name:expr $(,)?) => {{
21177 all_dialects().run_parser_method(&*$input, |parser| {
21178 let schema_name = parser.parse_schema_name().unwrap();
21179 assert_eq!(schema_name, $expected_name);
21181 assert_eq!(schema_name.to_string(), $input.to_string());
21183 });
21184 }};
21185 }
21186
21187 let dummy_name = ObjectName::from(vec![Ident::new("dummy_name")]);
21188 let dummy_authorization = Ident::new("dummy_authorization");
21189
21190 test_parse_schema_name!(
21191 format!("{dummy_name}"),
21192 SchemaName::Simple(dummy_name.clone())
21193 );
21194
21195 test_parse_schema_name!(
21196 format!("AUTHORIZATION {dummy_authorization}"),
21197 SchemaName::UnnamedAuthorization(dummy_authorization.clone()),
21198 );
21199 test_parse_schema_name!(
21200 format!("{dummy_name} AUTHORIZATION {dummy_authorization}"),
21201 SchemaName::NamedAuthorization(dummy_name.clone(), dummy_authorization.clone()),
21202 );
21203 }
21204
21205 #[test]
21206 fn mysql_parse_index_table_constraint() {
21207 macro_rules! test_parse_table_constraint {
21208 ($dialect:expr, $input:expr, $expected:expr $(,)?) => {{
21209 $dialect.run_parser_method(&*$input, |parser| {
21210 let constraint = parser.parse_optional_table_constraint().unwrap().unwrap();
21211 assert_eq!(constraint, $expected);
21213 assert_eq!(constraint.to_string(), $input.to_string());
21215 });
21216 }};
21217 }
21218
21219 fn mk_expected_col(name: &str) -> IndexColumn {
21220 IndexColumn {
21221 column: OrderByExpr {
21222 expr: Expr::Identifier(name.into()),
21223 options: OrderByOptions {
21224 sort: None,
21225 nulls_first: None,
21226 },
21227 with_fill: None,
21228 },
21229 operator_class: None,
21230 }
21231 }
21232
21233 let dialect =
21234 TestedDialects::new(vec![Box::new(GenericDialect {}), Box::new(MySqlDialect {})]);
21235
21236 test_parse_table_constraint!(
21237 dialect,
21238 "INDEX (c1)",
21239 IndexConstraint {
21240 display_as_key: false,
21241 name: None,
21242 index_type: None,
21243 columns: vec![mk_expected_col("c1")],
21244 index_options: vec![],
21245 }
21246 .into()
21247 );
21248
21249 test_parse_table_constraint!(
21250 dialect,
21251 "KEY (c1)",
21252 IndexConstraint {
21253 display_as_key: true,
21254 name: None,
21255 index_type: None,
21256 columns: vec![mk_expected_col("c1")],
21257 index_options: vec![],
21258 }
21259 .into()
21260 );
21261
21262 test_parse_table_constraint!(
21263 dialect,
21264 "INDEX 'index' (c1, c2)",
21265 TableConstraint::Index(IndexConstraint {
21266 display_as_key: false,
21267 name: Some(Ident::with_quote('\'', "index")),
21268 index_type: None,
21269 columns: vec![mk_expected_col("c1"), mk_expected_col("c2")],
21270 index_options: vec![],
21271 })
21272 );
21273
21274 test_parse_table_constraint!(
21275 dialect,
21276 "INDEX USING BTREE (c1)",
21277 IndexConstraint {
21278 display_as_key: false,
21279 name: None,
21280 index_type: Some(IndexType::BTree),
21281 columns: vec![mk_expected_col("c1")],
21282 index_options: vec![],
21283 }
21284 .into()
21285 );
21286
21287 test_parse_table_constraint!(
21288 dialect,
21289 "INDEX USING HASH (c1)",
21290 IndexConstraint {
21291 display_as_key: false,
21292 name: None,
21293 index_type: Some(IndexType::Hash),
21294 columns: vec![mk_expected_col("c1")],
21295 index_options: vec![],
21296 }
21297 .into()
21298 );
21299
21300 test_parse_table_constraint!(
21301 dialect,
21302 "INDEX idx_name USING BTREE (c1)",
21303 IndexConstraint {
21304 display_as_key: false,
21305 name: Some(Ident::new("idx_name")),
21306 index_type: Some(IndexType::BTree),
21307 columns: vec![mk_expected_col("c1")],
21308 index_options: vec![],
21309 }
21310 .into()
21311 );
21312
21313 test_parse_table_constraint!(
21314 dialect,
21315 "INDEX idx_name USING HASH (c1)",
21316 IndexConstraint {
21317 display_as_key: false,
21318 name: Some(Ident::new("idx_name")),
21319 index_type: Some(IndexType::Hash),
21320 columns: vec![mk_expected_col("c1")],
21321 index_options: vec![],
21322 }
21323 .into()
21324 );
21325 }
21326
21327 #[test]
21328 fn test_tokenizer_error_loc() {
21329 let sql = "foo '";
21330 let ast = Parser::parse_sql(&GenericDialect, sql);
21331 assert_eq!(
21332 ast,
21333 Err(ParserError::TokenizerError(
21334 "Unterminated string literal at Line: 1, Column: 5".to_string()
21335 ))
21336 );
21337 }
21338
21339 #[test]
21340 fn test_parser_error_loc() {
21341 let sql = "SELECT this is a syntax error";
21342 let ast = Parser::parse_sql(&GenericDialect, sql);
21343 assert_eq!(
21344 ast,
21345 Err(ParserError::ParserError(
21346 "Expected: [NOT] NULL | TRUE | FALSE | DISTINCT | [form] NORMALIZED FROM after IS, found: a at Line: 1, Column: 16"
21347 .to_string()
21348 ))
21349 );
21350 }
21351
21352 #[test]
21353 fn test_nested_explain_error() {
21354 let sql = "EXPLAIN EXPLAIN SELECT 1";
21355 let ast = Parser::parse_sql(&GenericDialect, sql);
21356 assert_eq!(
21357 ast,
21358 Err(ParserError::ParserError(
21359 "Explain must be root of the plan".to_string()
21360 ))
21361 );
21362 }
21363
21364 #[test]
21365 fn test_parse_multipart_identifier_positive() {
21366 let dialect = TestedDialects::new(vec![Box::new(GenericDialect {})]);
21367
21368 let expected = vec![
21370 Ident {
21371 value: "CATALOG".to_string(),
21372 quote_style: None,
21373 span: Span::empty(),
21374 },
21375 Ident {
21376 value: "F(o)o. \"bar".to_string(),
21377 quote_style: Some('"'),
21378 span: Span::empty(),
21379 },
21380 Ident {
21381 value: "table".to_string(),
21382 quote_style: None,
21383 span: Span::empty(),
21384 },
21385 ];
21386 dialect.run_parser_method(r#"CATALOG."F(o)o. ""bar".table"#, |parser| {
21387 let actual = parser.parse_multipart_identifier().unwrap();
21388 assert_eq!(expected, actual);
21389 });
21390
21391 let expected = vec![
21393 Ident {
21394 value: "CATALOG".to_string(),
21395 quote_style: None,
21396 span: Span::empty(),
21397 },
21398 Ident {
21399 value: "table".to_string(),
21400 quote_style: None,
21401 span: Span::empty(),
21402 },
21403 ];
21404 dialect.run_parser_method("CATALOG . table", |parser| {
21405 let actual = parser.parse_multipart_identifier().unwrap();
21406 assert_eq!(expected, actual);
21407 });
21408 }
21409
21410 #[test]
21411 fn test_parse_multipart_identifier_negative() {
21412 macro_rules! test_parse_multipart_identifier_error {
21413 ($input:expr, $expected_err:expr $(,)?) => {{
21414 all_dialects().run_parser_method(&*$input, |parser| {
21415 let actual_err = parser.parse_multipart_identifier().unwrap_err();
21416 assert_eq!(actual_err.to_string(), $expected_err);
21417 });
21418 }};
21419 }
21420
21421 test_parse_multipart_identifier_error!(
21422 "",
21423 "sql parser error: Empty input when parsing identifier",
21424 );
21425
21426 test_parse_multipart_identifier_error!(
21427 "*schema.table",
21428 "sql parser error: Unexpected token in identifier: *",
21429 );
21430
21431 test_parse_multipart_identifier_error!(
21432 "schema.table*",
21433 "sql parser error: Unexpected token in identifier: *",
21434 );
21435
21436 test_parse_multipart_identifier_error!(
21437 "schema.table.",
21438 "sql parser error: Trailing period in identifier",
21439 );
21440
21441 test_parse_multipart_identifier_error!(
21442 "schema.*",
21443 "sql parser error: Unexpected token following period in identifier: *",
21444 );
21445 }
21446
21447 #[test]
21448 fn test_mysql_partition_selection() {
21449 let sql = "SELECT * FROM employees PARTITION (p0, p2)";
21450 let expected = vec!["p0", "p2"];
21451
21452 let ast: Vec<Statement> = Parser::parse_sql(&MySqlDialect {}, sql).unwrap();
21453 assert_eq!(ast.len(), 1);
21454 if let Statement::Query(v) = &ast[0] {
21455 if let SetExpr::Select(select) = &*v.body {
21456 assert_eq!(select.from.len(), 1);
21457 let from: &TableWithJoins = &select.from[0];
21458 let table_factor = &from.relation;
21459 if let TableFactor::Table { partitions, .. } = table_factor {
21460 let actual: Vec<&str> = partitions
21461 .iter()
21462 .map(|ident| ident.value.as_str())
21463 .collect();
21464 assert_eq!(expected, actual);
21465 }
21466 }
21467 } else {
21468 panic!("fail to parse mysql partition selection");
21469 }
21470 }
21471
21472 #[test]
21473 fn test_replace_into_placeholders() {
21474 let sql = "REPLACE INTO t (a) VALUES (&a)";
21475
21476 assert!(Parser::parse_sql(&GenericDialect {}, sql).is_err());
21477 }
21478
21479 #[test]
21480 fn test_replace_into_set_placeholder() {
21481 let sql = "REPLACE INTO t SET ?";
21482
21483 assert!(Parser::parse_sql(&GenericDialect {}, sql).is_err());
21484 }
21485
21486 #[test]
21487 fn test_replace_incomplete() {
21488 let sql = r#"REPLACE"#;
21489
21490 assert!(Parser::parse_sql(&MySqlDialect {}, sql).is_err());
21491 }
21492
21493 #[test]
21494 fn test_placeholder_invalid_whitespace() {
21495 for w in [" ", "/*invalid*/"] {
21496 let sql = format!("\nSELECT\n :{w}fooBar");
21497 assert!(Parser::parse_sql(&GenericDialect, &sql).is_err());
21498 }
21499 }
21500}