1use qcraft_core::ast::common::{FieldRef, NullsOrder, OrderByDef, OrderDir, SchemaRef};
2use qcraft_core::ast::conditions::{CompareOp, ConditionNode, Conditions, Connector};
3use qcraft_core::ast::custom::CustomBinaryOp;
4use qcraft_core::ast::ddl::{
5 ColumnDef, ConstraintDef, DeferrableConstraint, FieldType, IdentityColumn, IndexColumnDef,
6 IndexDef, IndexExpr, LikeTableDef, MatchType, OnCommitAction, PartitionByDef,
7 PartitionStrategy, ReferentialAction, SchemaDef, SchemaMutationStmt,
8};
9use qcraft_core::ast::dml::{
10 ConflictAction, ConflictTarget, DeleteStmt, InsertSource, InsertStmt, MutationStmt,
11 OnConflictDef, OverridingKind, UpdateStmt,
12};
13use qcraft_core::ast::expr::{
14 AggregationDef, BinaryOp, CaseDef, Expr, UnaryOp, WindowDef, WindowFrameBound, WindowFrameDef,
15 WindowFrameType,
16};
17use qcraft_core::ast::query::{
18 CteDef, CteMaterialized, DistinctDef, FromItem, GroupByItem, JoinCondition, JoinDef, JoinType,
19 LimitDef, LimitKind, LockStrength, QueryStmt, SampleMethod, SelectColumn, SelectLockDef,
20 SetOpDef, SetOperationType, TableSource, WindowNameDef,
21};
22use qcraft_core::ast::tcl::{
23 BeginStmt, CommitStmt, IsolationLevel, LockMode, LockTableStmt, RollbackStmt,
24 SetTransactionStmt, TransactionMode, TransactionScope, TransactionStmt,
25};
26use qcraft_core::ast::value::Value;
27use qcraft_core::error::{RenderError, RenderResult};
28use qcraft_core::render::ctx::{ParamStyle, RenderCtx};
29use qcraft_core::render::escape_like_value;
30use qcraft_core::render::renderer::Renderer;
31
32use std::any::Any;
33
34#[derive(Debug, Clone, Copy)]
36pub enum PgVectorOp {
37 L2Distance,
39 InnerProduct,
41 CosineDistance,
43 L1Distance,
45}
46
47impl CustomBinaryOp for PgVectorOp {
48 fn as_any(&self) -> &dyn Any {
49 self
50 }
51 fn clone_box(&self) -> Box<dyn CustomBinaryOp> {
52 Box::new(*self)
53 }
54}
55
56impl From<PgVectorOp> for BinaryOp {
57 fn from(op: PgVectorOp) -> Self {
58 BinaryOp::Custom(Box::new(op))
59 }
60}
61
62fn render_custom_binary_op(custom: &dyn CustomBinaryOp, ctx: &mut RenderCtx) -> RenderResult<()> {
63 if let Some(op) = custom.as_any().downcast_ref::<PgVectorOp>() {
64 ctx.write(match op {
65 PgVectorOp::L2Distance => " <-> ",
66 PgVectorOp::InnerProduct => " <#> ",
67 PgVectorOp::CosineDistance => " <=> ",
68 PgVectorOp::L1Distance => " <+> ",
69 });
70 Ok(())
71 } else {
72 Err(RenderError::unsupported(
73 "CustomBinaryOp",
74 "unknown custom binary operator; use a wrapping renderer to handle it",
75 ))
76 }
77}
78
79fn render_like_pattern(op: &CompareOp, right: &Expr, ctx: &mut RenderCtx) -> RenderResult<()> {
80 let raw = match right {
81 Expr::Value(Value::Str(s)) => s.as_str(),
82 _ => {
83 return Err(RenderError::unsupported(
84 "CompareOp",
85 "Contains/StartsWith/EndsWith require a string value on the right side",
86 ));
87 }
88 };
89 let escaped = escape_like_value(raw);
90 let pattern = match op {
91 CompareOp::Contains | CompareOp::IContains => format!("%{escaped}%"),
92 CompareOp::StartsWith | CompareOp::IStartsWith => format!("{escaped}%"),
93 CompareOp::EndsWith | CompareOp::IEndsWith => format!("%{escaped}"),
94 _ => unreachable!(),
95 };
96 if ctx.parameterize() {
97 ctx.param(Value::Str(pattern));
98 } else {
99 ctx.string_literal(&pattern);
100 }
101 Ok(())
102}
103
104struct PgCreateTableOpts<'a> {
105 tablespace: Option<&'a str>,
106 partition_by: Option<&'a PartitionByDef>,
107 inherits: Option<&'a [SchemaRef]>,
108 using_method: Option<&'a str>,
109 with_options: Option<&'a [(String, String)]>,
110 on_commit: Option<&'a OnCommitAction>,
111}
112
113pub struct PostgresRenderer {
114 param_style: ParamStyle,
115}
116
117impl PostgresRenderer {
118 pub fn new() -> Self {
119 Self {
120 param_style: ParamStyle::Dollar,
121 }
122 }
123
124 pub fn with_param_style(mut self, style: ParamStyle) -> Self {
126 self.param_style = style;
127 self
128 }
129
130 pub fn render_schema_stmt(
136 &self,
137 stmt: &SchemaMutationStmt,
138 ) -> RenderResult<Vec<(String, Vec<Value>)>> {
139 let mut ctx = RenderCtx::new(self.param_style);
140 self.render_schema_mutation(stmt, &mut ctx)?;
141 let mut results = vec![ctx.finish()];
142
143 match stmt {
144 SchemaMutationStmt::CreateTable { schema, .. } => {
145 if let Some(constraints) = &schema.constraints {
146 for constraint in constraints {
147 self.pg_partial_unique_index(
148 &schema.name,
149 schema.namespace.as_deref(),
150 constraint,
151 &mut results,
152 )?;
153 }
154 }
155 }
156 SchemaMutationStmt::AddConstraint {
157 schema_ref,
158 constraint,
159 ..
160 } => {
161 if self.is_partial_unique(constraint) {
162 results.clear();
165 }
166 self.pg_partial_unique_index(
167 &schema_ref.name,
168 schema_ref.namespace.as_deref(),
169 constraint,
170 &mut results,
171 )?;
172 }
173 _ => {}
174 }
175
176 Ok(results)
177 }
178
179 fn is_partial_unique(&self, constraint: &ConstraintDef) -> bool {
180 matches!(
181 constraint,
182 ConstraintDef::Unique {
183 condition: Some(_),
184 ..
185 }
186 )
187 }
188
189 fn pg_partial_unique_index(
192 &self,
193 table_name: &str,
194 namespace: Option<&str>,
195 constraint: &ConstraintDef,
196 results: &mut Vec<(String, Vec<Value>)>,
197 ) -> RenderResult<()> {
198 if let ConstraintDef::Unique {
199 name,
200 columns,
201 condition: Some(cond),
202 ..
203 } = constraint
204 {
205 let mut idx_ctx = RenderCtx::new(self.param_style);
206 idx_ctx.keyword("CREATE UNIQUE INDEX");
207 if let Some(n) = name {
208 idx_ctx.ident(n);
209 }
210 idx_ctx.keyword("ON");
211 if let Some(ns) = namespace {
212 idx_ctx.ident(ns).operator(".");
213 }
214 idx_ctx.ident(table_name);
215 idx_ctx.paren_open();
216 self.pg_comma_idents(columns, &mut idx_ctx);
217 idx_ctx.paren_close();
218 idx_ctx.keyword("WHERE");
219 self.render_condition(cond, &mut idx_ctx)?;
220 results.push(idx_ctx.finish());
221 }
222 Ok(())
223 }
224
225 pub fn render_transaction_stmt(
227 &self,
228 stmt: &TransactionStmt,
229 ) -> RenderResult<(String, Vec<Value>)> {
230 let mut ctx = RenderCtx::new(self.param_style);
231 self.render_transaction(stmt, &mut ctx)?;
232 Ok(ctx.finish())
233 }
234
235 pub fn render_mutation_stmt(&self, stmt: &MutationStmt) -> RenderResult<(String, Vec<Value>)> {
237 let mut ctx = RenderCtx::new(self.param_style).with_parameterize(true);
238 self.render_mutation(stmt, &mut ctx)?;
239 Ok(ctx.finish())
240 }
241
242 pub fn render_query_stmt(&self, stmt: &QueryStmt) -> RenderResult<(String, Vec<Value>)> {
244 let mut ctx = RenderCtx::new(self.param_style).with_parameterize(true);
245 self.render_query(stmt, &mut ctx)?;
246 Ok(ctx.finish())
247 }
248}
249
250impl Default for PostgresRenderer {
251 fn default() -> Self {
252 Self::new()
253 }
254}
255
256impl Renderer for PostgresRenderer {
261 fn render_schema_mutation(
264 &self,
265 stmt: &SchemaMutationStmt,
266 ctx: &mut RenderCtx,
267 ) -> RenderResult<()> {
268 match stmt {
269 SchemaMutationStmt::CreateTable {
270 schema,
271 if_not_exists,
272 temporary,
273 unlogged,
274 tablespace,
275 partition_by,
276 inherits,
277 using_method,
278 with_options,
279 on_commit,
280 table_options: _, without_rowid: _, strict: _, } => self.pg_create_table(
284 schema,
285 *if_not_exists,
286 *temporary,
287 *unlogged,
288 &PgCreateTableOpts {
289 tablespace: tablespace.as_deref(),
290 partition_by: partition_by.as_ref(),
291 inherits: inherits.as_deref(),
292 using_method: using_method.as_deref(),
293 with_options: with_options.as_deref(),
294 on_commit: on_commit.as_ref(),
295 },
296 ctx,
297 ),
298
299 SchemaMutationStmt::DropTable {
300 schema_ref,
301 if_exists,
302 cascade,
303 } => {
304 ctx.keyword("DROP TABLE");
305 if *if_exists {
306 ctx.keyword("IF EXISTS");
307 }
308 self.pg_schema_ref(schema_ref, ctx);
309 if *cascade {
310 ctx.keyword("CASCADE");
311 }
312 Ok(())
313 }
314
315 SchemaMutationStmt::RenameTable {
316 schema_ref,
317 new_name,
318 } => {
319 ctx.keyword("ALTER TABLE");
320 self.pg_schema_ref(schema_ref, ctx);
321 ctx.keyword("RENAME TO").ident(new_name);
322 Ok(())
323 }
324
325 SchemaMutationStmt::TruncateTable {
326 schema_ref,
327 restart_identity,
328 cascade,
329 } => {
330 ctx.keyword("TRUNCATE TABLE");
331 self.pg_schema_ref(schema_ref, ctx);
332 if *restart_identity {
333 ctx.keyword("RESTART IDENTITY");
334 }
335 if *cascade {
336 ctx.keyword("CASCADE");
337 }
338 Ok(())
339 }
340
341 SchemaMutationStmt::AddColumn {
342 schema_ref,
343 column,
344 if_not_exists,
345 position: _, } => {
347 ctx.keyword("ALTER TABLE");
348 self.pg_schema_ref(schema_ref, ctx);
349 ctx.keyword("ADD COLUMN");
350 if *if_not_exists {
351 ctx.keyword("IF NOT EXISTS");
352 }
353 self.render_column_def(column, ctx)
354 }
355
356 SchemaMutationStmt::DropColumn {
357 schema_ref,
358 name,
359 if_exists,
360 cascade,
361 } => {
362 ctx.keyword("ALTER TABLE");
363 self.pg_schema_ref(schema_ref, ctx);
364 ctx.keyword("DROP COLUMN");
365 if *if_exists {
366 ctx.keyword("IF EXISTS");
367 }
368 ctx.ident(name);
369 if *cascade {
370 ctx.keyword("CASCADE");
371 }
372 Ok(())
373 }
374
375 SchemaMutationStmt::RenameColumn {
376 schema_ref,
377 old_name,
378 new_name,
379 } => {
380 ctx.keyword("ALTER TABLE");
381 self.pg_schema_ref(schema_ref, ctx);
382 ctx.keyword("RENAME COLUMN")
383 .ident(old_name)
384 .keyword("TO")
385 .ident(new_name);
386 Ok(())
387 }
388
389 SchemaMutationStmt::AlterColumnType {
390 schema_ref,
391 column_name,
392 new_type,
393 using_expr,
394 } => {
395 ctx.keyword("ALTER TABLE");
396 self.pg_schema_ref(schema_ref, ctx);
397 ctx.keyword("ALTER COLUMN")
398 .ident(column_name)
399 .keyword("SET DATA TYPE");
400 self.render_column_type(new_type, ctx)?;
401 if let Some(expr) = using_expr {
402 ctx.keyword("USING");
403 self.render_expr(expr, ctx)?;
404 }
405 Ok(())
406 }
407
408 SchemaMutationStmt::AlterColumnDefault {
409 schema_ref,
410 column_name,
411 default,
412 } => {
413 ctx.keyword("ALTER TABLE");
414 self.pg_schema_ref(schema_ref, ctx);
415 ctx.keyword("ALTER COLUMN").ident(column_name);
416 match default {
417 Some(expr) => {
418 ctx.keyword("SET DEFAULT");
419 self.render_expr(expr, ctx)?;
420 }
421 None => {
422 ctx.keyword("DROP DEFAULT");
423 }
424 }
425 Ok(())
426 }
427
428 SchemaMutationStmt::AlterColumnNullability {
429 schema_ref,
430 column_name,
431 not_null,
432 } => {
433 ctx.keyword("ALTER TABLE");
434 self.pg_schema_ref(schema_ref, ctx);
435 ctx.keyword("ALTER COLUMN").ident(column_name);
436 if *not_null {
437 ctx.keyword("SET NOT NULL");
438 } else {
439 ctx.keyword("DROP NOT NULL");
440 }
441 Ok(())
442 }
443
444 SchemaMutationStmt::AddConstraint {
445 schema_ref,
446 constraint,
447 not_valid,
448 } => {
449 ctx.keyword("ALTER TABLE");
450 self.pg_schema_ref(schema_ref, ctx);
451 ctx.keyword("ADD");
452 self.render_constraint(constraint, ctx)?;
453 if *not_valid {
454 ctx.keyword("NOT VALID");
455 }
456 Ok(())
457 }
458
459 SchemaMutationStmt::DropConstraint {
460 schema_ref,
461 constraint_name,
462 if_exists,
463 cascade,
464 } => {
465 ctx.keyword("ALTER TABLE");
466 self.pg_schema_ref(schema_ref, ctx);
467 ctx.keyword("DROP CONSTRAINT");
468 if *if_exists {
469 ctx.keyword("IF EXISTS");
470 }
471 ctx.ident(constraint_name);
472 if *cascade {
473 ctx.keyword("CASCADE");
474 }
475 Ok(())
476 }
477
478 SchemaMutationStmt::RenameConstraint {
479 schema_ref,
480 old_name,
481 new_name,
482 } => {
483 ctx.keyword("ALTER TABLE");
484 self.pg_schema_ref(schema_ref, ctx);
485 ctx.keyword("RENAME CONSTRAINT")
486 .ident(old_name)
487 .keyword("TO")
488 .ident(new_name);
489 Ok(())
490 }
491
492 SchemaMutationStmt::ValidateConstraint {
493 schema_ref,
494 constraint_name,
495 } => {
496 ctx.keyword("ALTER TABLE");
497 self.pg_schema_ref(schema_ref, ctx);
498 ctx.keyword("VALIDATE CONSTRAINT").ident(constraint_name);
499 Ok(())
500 }
501
502 SchemaMutationStmt::CreateIndex {
503 schema_ref,
504 index,
505 if_not_exists,
506 concurrently,
507 } => self.pg_create_index(schema_ref, index, *if_not_exists, *concurrently, ctx),
508
509 SchemaMutationStmt::DropIndex {
510 schema_ref: _,
511 index_name,
512 if_exists,
513 concurrently,
514 cascade,
515 } => {
516 ctx.keyword("DROP INDEX");
517 if *concurrently {
518 ctx.keyword("CONCURRENTLY");
519 }
520 if *if_exists {
521 ctx.keyword("IF EXISTS");
522 }
523 ctx.ident(index_name);
524 if *cascade {
525 ctx.keyword("CASCADE");
526 }
527 Ok(())
528 }
529
530 SchemaMutationStmt::CreateExtension {
531 name,
532 if_not_exists,
533 schema,
534 version,
535 cascade,
536 } => {
537 ctx.keyword("CREATE EXTENSION");
538 if *if_not_exists {
539 ctx.keyword("IF NOT EXISTS");
540 }
541 ctx.ident(name);
542 if let Some(s) = schema {
543 ctx.keyword("SCHEMA").ident(s);
544 }
545 if let Some(v) = version {
546 ctx.keyword("VERSION").string_literal(v);
547 }
548 if *cascade {
549 ctx.keyword("CASCADE");
550 }
551 Ok(())
552 }
553
554 SchemaMutationStmt::DropExtension {
555 name,
556 if_exists,
557 cascade,
558 } => {
559 ctx.keyword("DROP EXTENSION");
560 if *if_exists {
561 ctx.keyword("IF EXISTS");
562 }
563 ctx.ident(name);
564 if *cascade {
565 ctx.keyword("CASCADE");
566 }
567 Ok(())
568 }
569
570 SchemaMutationStmt::CreateCollation {
571 name,
572 if_not_exists,
573 locale,
574 lc_collate,
575 lc_ctype,
576 provider,
577 deterministic,
578 from_collation,
579 } => {
580 ctx.keyword("CREATE COLLATION");
581 if *if_not_exists {
582 ctx.keyword("IF NOT EXISTS");
583 }
584 ctx.ident(name);
585 if let Some(from) = from_collation {
586 ctx.keyword("FROM").ident(from);
587 } else {
588 ctx.write(" (");
589 let mut first = true;
590 if let Some(loc) = locale {
591 ctx.keyword("LOCALE").write(" = ").string_literal(loc);
592 first = false;
593 }
594 if let Some(lc) = lc_collate {
595 if !first {
596 ctx.write(", ");
597 }
598 ctx.keyword("LC_COLLATE").write(" = ").string_literal(lc);
599 first = false;
600 }
601 if let Some(lc) = lc_ctype {
602 if !first {
603 ctx.write(", ");
604 }
605 ctx.keyword("LC_CTYPE").write(" = ").string_literal(lc);
606 first = false;
607 }
608 if let Some(prov) = provider {
609 if !first {
610 ctx.write(", ");
611 }
612 ctx.keyword("PROVIDER").write(" = ").keyword(prov);
613 first = false;
614 }
615 if let Some(det) = deterministic {
616 if !first {
617 ctx.write(", ");
618 }
619 ctx.keyword("DETERMINISTIC").write(" = ").keyword(if *det {
620 "TRUE"
621 } else {
622 "FALSE"
623 });
624 }
625 ctx.write(")");
626 }
627 Ok(())
628 }
629
630 SchemaMutationStmt::DropCollation {
631 name,
632 if_exists,
633 cascade,
634 } => {
635 ctx.keyword("DROP COLLATION");
636 if *if_exists {
637 ctx.keyword("IF EXISTS");
638 }
639 ctx.ident(name);
640 if *cascade {
641 ctx.keyword("CASCADE");
642 }
643 Ok(())
644 }
645
646 SchemaMutationStmt::Custom(_) => Err(RenderError::unsupported(
647 "CustomSchemaMutation",
648 "custom DDL must be handled by a wrapping renderer",
649 )),
650 }
651 }
652
653 fn render_column_def(&self, col: &ColumnDef, ctx: &mut RenderCtx) -> RenderResult<()> {
654 ctx.ident(&col.name);
655 self.render_column_type(&col.field_type, ctx)?;
656
657 if let Some(storage) = &col.storage {
658 ctx.keyword("STORAGE").keyword(storage);
659 }
660
661 if let Some(compression) = &col.compression {
662 ctx.keyword("COMPRESSION").keyword(compression);
663 }
664
665 if let Some(collation) = &col.collation {
666 ctx.keyword("COLLATE").ident(collation);
667 }
668
669 if col.not_null {
670 ctx.keyword("NOT NULL");
671 }
672
673 if let Some(default) = &col.default {
674 ctx.keyword("DEFAULT");
675 self.render_expr(default, ctx)?;
676 }
677
678 if let Some(identity) = &col.identity {
679 self.pg_identity(identity, ctx);
680 }
681
682 if let Some(generated) = &col.generated {
683 ctx.keyword("GENERATED ALWAYS AS").space().paren_open();
684 self.render_expr(&generated.expr, ctx)?;
685 ctx.paren_close().keyword("STORED");
686 }
687
688 Ok(())
689 }
690
691 fn render_column_type(&self, ty: &FieldType, ctx: &mut RenderCtx) -> RenderResult<()> {
692 match ty {
693 FieldType::Scalar(name) => {
694 ctx.keyword(name);
695 }
696 FieldType::Parameterized { name, params } => {
697 ctx.keyword(name).write("(");
698 for (i, p) in params.iter().enumerate() {
699 if i > 0 {
700 ctx.comma();
701 }
702 ctx.write(p);
703 }
704 ctx.paren_close();
705 }
706 FieldType::Array(inner) => {
707 self.render_column_type(inner, ctx)?;
708 ctx.write("[]");
709 }
710 FieldType::Vector(dim) => {
711 ctx.keyword("VECTOR")
712 .write("(")
713 .write(&dim.to_string())
714 .paren_close();
715 }
716 FieldType::Custom(_) => {
717 return Err(RenderError::unsupported(
718 "CustomFieldType",
719 "custom field type must be handled by a wrapping renderer",
720 ));
721 }
722 }
723 Ok(())
724 }
725
726 fn render_constraint(&self, c: &ConstraintDef, ctx: &mut RenderCtx) -> RenderResult<()> {
727 match c {
728 ConstraintDef::PrimaryKey {
729 name,
730 columns,
731 include,
732 } => {
733 if let Some(n) = name {
734 ctx.keyword("CONSTRAINT").ident(n);
735 }
736 ctx.keyword("PRIMARY KEY").paren_open();
737 self.pg_comma_idents(columns, ctx);
738 ctx.paren_close();
739 if let Some(inc) = include {
740 ctx.keyword("INCLUDE").paren_open();
741 self.pg_comma_idents(inc, ctx);
742 ctx.paren_close();
743 }
744 }
745
746 ConstraintDef::ForeignKey {
747 name,
748 columns,
749 ref_table,
750 ref_columns,
751 on_delete,
752 on_update,
753 deferrable,
754 match_type,
755 } => {
756 if let Some(n) = name {
757 ctx.keyword("CONSTRAINT").ident(n);
758 }
759 ctx.keyword("FOREIGN KEY").paren_open();
760 self.pg_comma_idents(columns, ctx);
761 ctx.paren_close().keyword("REFERENCES");
762 self.pg_schema_ref(ref_table, ctx);
763 ctx.paren_open();
764 self.pg_comma_idents(ref_columns, ctx);
765 ctx.paren_close();
766 if let Some(mt) = match_type {
767 ctx.keyword(match mt {
768 MatchType::Full => "MATCH FULL",
769 MatchType::Partial => "MATCH PARTIAL",
770 MatchType::Simple => "MATCH SIMPLE",
771 });
772 }
773 if let Some(action) = on_delete {
774 ctx.keyword("ON DELETE");
775 self.pg_referential_action(action, ctx);
776 }
777 if let Some(action) = on_update {
778 ctx.keyword("ON UPDATE");
779 self.pg_referential_action(action, ctx);
780 }
781 if let Some(def) = deferrable {
782 self.pg_deferrable(def, ctx);
783 }
784 }
785
786 ConstraintDef::Unique {
787 name,
788 columns,
789 include,
790 nulls_distinct,
791 condition,
792 } => {
793 if condition.is_some() {
796 return Ok(());
797 }
798 if let Some(n) = name {
799 ctx.keyword("CONSTRAINT").ident(n);
800 }
801 ctx.keyword("UNIQUE");
802 if let Some(false) = nulls_distinct {
803 ctx.keyword("NULLS NOT DISTINCT");
804 }
805 ctx.paren_open();
806 self.pg_comma_idents(columns, ctx);
807 ctx.paren_close();
808 if let Some(inc) = include {
809 ctx.keyword("INCLUDE").paren_open();
810 self.pg_comma_idents(inc, ctx);
811 ctx.paren_close();
812 }
813 }
814
815 ConstraintDef::Check {
816 name,
817 condition,
818 no_inherit,
819 enforced: _, } => {
821 if let Some(n) = name {
822 ctx.keyword("CONSTRAINT").ident(n);
823 }
824 ctx.keyword("CHECK").paren_open();
825 self.render_condition(condition, ctx)?;
826 ctx.paren_close();
827 if *no_inherit {
828 ctx.keyword("NO INHERIT");
829 }
830 }
831
832 ConstraintDef::Exclusion {
833 name,
834 elements,
835 index_method,
836 condition,
837 } => {
838 if let Some(n) = name {
839 ctx.keyword("CONSTRAINT").ident(n);
840 }
841 ctx.keyword("EXCLUDE USING")
842 .keyword(index_method)
843 .paren_open();
844 for (i, elem) in elements.iter().enumerate() {
845 if i > 0 {
846 ctx.comma();
847 }
848 ctx.ident(&elem.column)
849 .keyword("WITH")
850 .keyword(&elem.operator);
851 }
852 ctx.paren_close();
853 if let Some(cond) = condition {
854 ctx.keyword("WHERE").paren_open();
855 self.render_condition(cond, ctx)?;
856 ctx.paren_close();
857 }
858 }
859
860 ConstraintDef::Custom(_) => {
861 return Err(RenderError::unsupported(
862 "CustomConstraint",
863 "custom constraint must be handled by a wrapping renderer",
864 ));
865 }
866 }
867 Ok(())
868 }
869
870 fn render_index_def(&self, idx: &IndexDef, ctx: &mut RenderCtx) -> RenderResult<()> {
871 ctx.ident(&idx.name);
874 if let Some(index_type) = &idx.index_type {
875 ctx.keyword("USING").keyword(index_type);
876 }
877 ctx.paren_open();
878 self.pg_index_columns(&idx.columns, idx.index_type.as_deref(), ctx)?;
879 ctx.paren_close();
880 Ok(())
881 }
882
883 fn render_expr(&self, expr: &Expr, ctx: &mut RenderCtx) -> RenderResult<()> {
886 match expr {
887 Expr::Value(val) => self.pg_value(val, ctx),
888
889 Expr::Field(field_ref) => {
890 self.pg_field_ref(field_ref, ctx);
891 Ok(())
892 }
893
894 Expr::Binary { left, op, right } => {
895 self.render_expr(left, ctx)?;
896 let mod_op = if self.param_style == ParamStyle::Percent {
899 "%%"
900 } else {
901 "%"
902 };
903 match op {
904 BinaryOp::Custom(custom) => {
905 render_custom_binary_op(custom.as_ref(), ctx)?;
906 }
907 _ => {
908 ctx.keyword(match op {
909 BinaryOp::Add => "+",
910 BinaryOp::Sub => "-",
911 BinaryOp::Mul => "*",
912 BinaryOp::Div => "/",
913 BinaryOp::Mod => mod_op,
914 BinaryOp::BitwiseAnd => "&",
915 BinaryOp::BitwiseOr => "|",
916 BinaryOp::ShiftLeft => "<<",
917 BinaryOp::ShiftRight => ">>",
918 BinaryOp::Concat => "||",
919 BinaryOp::Custom(_) => unreachable!(),
920 });
921 }
922 };
923 self.render_expr(right, ctx)
924 }
925
926 Expr::Unary { op, expr: inner } => {
927 match op {
928 UnaryOp::Neg => ctx.write("-"),
929 UnaryOp::Not => ctx.keyword("NOT"),
930 UnaryOp::BitwiseNot => ctx.write("~"),
931 };
932 self.render_expr(inner, ctx)
933 }
934
935 Expr::Func { name, args } => {
936 ctx.keyword(name).write("(");
937 for (i, arg) in args.iter().enumerate() {
938 if i > 0 {
939 ctx.comma();
940 }
941 self.render_expr(arg, ctx)?;
942 }
943 ctx.paren_close();
944 Ok(())
945 }
946
947 Expr::Aggregate(agg) => self.render_aggregate(agg, ctx),
948
949 Expr::Cast {
950 expr: inner,
951 to_type,
952 } => {
953 self.render_expr(inner, ctx)?;
954 ctx.operator("::");
955 ctx.write(to_type);
956 Ok(())
957 }
958
959 Expr::Case(case) => self.render_case(case, ctx),
960
961 Expr::Window(win) => self.render_window(win, ctx),
962
963 Expr::Exists(query) => {
964 ctx.keyword("EXISTS").write("(");
965 self.render_query(query, ctx)?;
966 ctx.paren_close();
967 Ok(())
968 }
969
970 Expr::SubQuery(query) => {
971 ctx.paren_open();
972 self.render_query(query, ctx)?;
973 ctx.paren_close();
974 Ok(())
975 }
976
977 Expr::ArraySubQuery(query) => {
978 ctx.keyword("ARRAY").paren_open();
979 self.render_query(query, ctx)?;
980 ctx.paren_close();
981 Ok(())
982 }
983
984 Expr::Collate { expr, collation } => {
985 self.render_expr(expr, ctx)?;
986 ctx.keyword("COLLATE").ident(collation);
987 Ok(())
988 }
989
990 Expr::JsonArray(items) => {
991 ctx.keyword("jsonb_build_array").write("(");
992 for (i, item) in items.iter().enumerate() {
993 if i > 0 {
994 ctx.comma();
995 }
996 self.render_expr(item, ctx)?;
997 }
998 ctx.paren_close();
999 Ok(())
1000 }
1001
1002 Expr::JsonObject(pairs) => {
1003 ctx.keyword("jsonb_build_object").write("(");
1004 for (i, (key, val)) in pairs.iter().enumerate() {
1005 if i > 0 {
1006 ctx.comma();
1007 }
1008 ctx.string_literal(key).comma();
1009 self.render_expr(val, ctx)?;
1010 }
1011 ctx.paren_close();
1012 Ok(())
1013 }
1014
1015 Expr::JsonAgg {
1016 expr,
1017 distinct,
1018 filter,
1019 order_by,
1020 } => {
1021 ctx.keyword("jsonb_agg").write("(");
1022 if *distinct {
1023 ctx.keyword("DISTINCT");
1024 }
1025 self.render_expr(expr, ctx)?;
1026 if let Some(ob) = order_by {
1027 ctx.keyword("ORDER BY");
1028 self.pg_order_by_list(ob, ctx)?;
1029 }
1030 ctx.paren_close();
1031 if let Some(f) = filter {
1032 ctx.keyword("FILTER").paren_open().keyword("WHERE");
1033 self.render_condition(f, ctx)?;
1034 ctx.paren_close();
1035 }
1036 Ok(())
1037 }
1038
1039 Expr::StringAgg {
1040 expr,
1041 delimiter,
1042 distinct,
1043 filter,
1044 order_by,
1045 } => {
1046 ctx.keyword("string_agg").write("(");
1047 if *distinct {
1048 ctx.keyword("DISTINCT");
1049 }
1050 self.render_expr(expr, ctx)?;
1051 ctx.comma().string_literal(delimiter);
1052 if let Some(ob) = order_by {
1053 ctx.keyword("ORDER BY");
1054 self.pg_order_by_list(ob, ctx)?;
1055 }
1056 ctx.paren_close();
1057 if let Some(f) = filter {
1058 ctx.keyword("FILTER").paren_open().keyword("WHERE");
1059 self.render_condition(f, ctx)?;
1060 ctx.paren_close();
1061 }
1062 Ok(())
1063 }
1064
1065 Expr::Now => {
1066 ctx.keyword("now()");
1067 Ok(())
1068 }
1069
1070 Expr::JsonPathText { expr, path } => {
1071 self.render_expr(expr, ctx)?;
1072 ctx.operator("->>'")
1073 .write(&path.replace('\'', "''"))
1074 .write("'");
1075 Ok(())
1076 }
1077
1078 Expr::Raw { sql, params } => {
1079 if params.is_empty() {
1080 ctx.keyword(sql);
1081 } else {
1082 ctx.raw_with_params(sql, params);
1083 }
1084 Ok(())
1085 }
1086
1087 Expr::Custom(_) => Err(RenderError::unsupported(
1088 "CustomExpr",
1089 "custom expression must be handled by a wrapping renderer",
1090 )),
1091 }
1092 }
1093
1094 fn render_aggregate(&self, agg: &AggregationDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1095 ctx.keyword(&agg.name).write("(");
1096 if agg.distinct {
1097 ctx.keyword("DISTINCT");
1098 }
1099 if let Some(expr) = &agg.expression {
1100 self.render_expr(expr, ctx)?;
1101 } else {
1102 ctx.write("*");
1103 }
1104 if let Some(args) = &agg.args {
1105 for arg in args {
1106 ctx.comma();
1107 self.render_expr(arg, ctx)?;
1108 }
1109 }
1110 if let Some(order_by) = &agg.order_by {
1111 ctx.keyword("ORDER BY");
1112 self.pg_order_by_list(order_by, ctx)?;
1113 }
1114 ctx.paren_close();
1115 if let Some(filter) = &agg.filter {
1116 ctx.keyword("FILTER").paren_open().keyword("WHERE");
1117 self.render_condition(filter, ctx)?;
1118 ctx.paren_close();
1119 }
1120 Ok(())
1121 }
1122
1123 fn render_window(&self, win: &WindowDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1124 self.render_expr(&win.expression, ctx)?;
1125 ctx.keyword("OVER").paren_open();
1126 if let Some(partition_by) = &win.partition_by {
1127 ctx.keyword("PARTITION BY");
1128 for (i, expr) in partition_by.iter().enumerate() {
1129 if i > 0 {
1130 ctx.comma();
1131 }
1132 self.render_expr(expr, ctx)?;
1133 }
1134 }
1135 if let Some(order_by) = &win.order_by {
1136 ctx.keyword("ORDER BY");
1137 self.pg_order_by_list(order_by, ctx)?;
1138 }
1139 if let Some(frame) = &win.frame {
1140 self.pg_window_frame(frame, ctx);
1141 }
1142 ctx.paren_close();
1143 Ok(())
1144 }
1145
1146 fn render_case(&self, case: &CaseDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1147 ctx.keyword("CASE");
1148 for clause in &case.cases {
1149 ctx.keyword("WHEN");
1150 self.render_condition(&clause.condition, ctx)?;
1151 ctx.keyword("THEN");
1152 self.render_expr(&clause.result, ctx)?;
1153 }
1154 if let Some(default) = &case.default {
1155 ctx.keyword("ELSE");
1156 self.render_expr(default, ctx)?;
1157 }
1158 ctx.keyword("END");
1159 Ok(())
1160 }
1161
1162 fn render_condition(&self, cond: &Conditions, ctx: &mut RenderCtx) -> RenderResult<()> {
1165 if cond.negated
1167 && cond.children.len() == 1
1168 && matches!(cond.children[0], ConditionNode::Exists(_))
1169 {
1170 if let ConditionNode::Exists(query) = &cond.children[0] {
1171 ctx.keyword("NOT EXISTS").write("(");
1172 self.render_query(query, ctx)?;
1173 ctx.paren_close();
1174 return Ok(());
1175 }
1176 }
1177
1178 if cond.negated {
1179 ctx.keyword("NOT").paren_open();
1180 }
1181 let connector = match cond.connector {
1182 Connector::And => " AND ",
1183 Connector::Or => " OR ",
1184 };
1185 for (i, child) in cond.children.iter().enumerate() {
1186 if i > 0 {
1187 ctx.write(connector);
1188 }
1189 match child {
1190 ConditionNode::Comparison(comp) => {
1191 if comp.negate {
1192 ctx.keyword("NOT").paren_open();
1193 }
1194 self.render_compare_op(&comp.op, &comp.left, &comp.right, ctx)?;
1195 if comp.negate {
1196 ctx.paren_close();
1197 }
1198 }
1199 ConditionNode::Group(group) => {
1200 ctx.paren_open();
1201 self.render_condition(group, ctx)?;
1202 ctx.paren_close();
1203 }
1204 ConditionNode::Exists(query) => {
1205 ctx.keyword("EXISTS").write("(");
1206 self.render_query(query, ctx)?;
1207 ctx.paren_close();
1208 }
1209 ConditionNode::Custom(_) => {
1210 return Err(RenderError::unsupported(
1211 "CustomCondition",
1212 "custom condition must be handled by a wrapping renderer",
1213 ));
1214 }
1215 }
1216 }
1217 if cond.negated {
1218 ctx.paren_close();
1219 }
1220 Ok(())
1221 }
1222
1223 fn render_compare_op(
1224 &self,
1225 op: &CompareOp,
1226 left: &Expr,
1227 right: &Expr,
1228 ctx: &mut RenderCtx,
1229 ) -> RenderResult<()> {
1230 self.render_expr(left, ctx)?;
1231 match op {
1232 CompareOp::Eq => ctx.write(" = "),
1233 CompareOp::Neq => ctx.write(" <> "),
1234 CompareOp::Gt => ctx.write(" > "),
1235 CompareOp::Gte => ctx.write(" >= "),
1236 CompareOp::Lt => ctx.write(" < "),
1237 CompareOp::Lte => ctx.write(" <= "),
1238 CompareOp::Like => ctx.keyword("LIKE"),
1239 CompareOp::ILike => ctx.keyword("ILIKE"),
1240 CompareOp::Contains | CompareOp::StartsWith | CompareOp::EndsWith => {
1241 ctx.keyword("LIKE");
1242 render_like_pattern(op, right, ctx)?;
1243 return Ok(());
1244 }
1245 CompareOp::IContains | CompareOp::IStartsWith | CompareOp::IEndsWith => {
1246 ctx.keyword("ILIKE");
1247 render_like_pattern(op, right, ctx)?;
1248 return Ok(());
1249 }
1250 CompareOp::In => {
1251 if let Expr::Value(Value::Array(items)) = right {
1252 ctx.keyword("IN").paren_open();
1253 for (i, item) in items.iter().enumerate() {
1254 if i > 0 {
1255 ctx.comma();
1256 }
1257 self.pg_value(item, ctx)?;
1258 }
1259 ctx.paren_close();
1260 } else {
1261 ctx.keyword("IN");
1262 self.render_expr(right, ctx)?;
1263 }
1264 return Ok(());
1265 }
1266 CompareOp::Between => {
1267 ctx.keyword("BETWEEN");
1268 if let Expr::Value(Value::Array(items)) = right {
1269 if items.len() == 2 {
1270 self.pg_value(&items[0], ctx)?;
1271 ctx.keyword("AND");
1272 self.pg_value(&items[1], ctx)?;
1273 } else {
1274 return Err(RenderError::unsupported(
1275 "Between",
1276 "BETWEEN requires exactly 2 values",
1277 ));
1278 }
1279 } else {
1280 self.render_expr(right, ctx)?;
1281 }
1282 return Ok(());
1283 }
1284 CompareOp::IsNull => {
1285 ctx.keyword("IS NULL");
1286 return Ok(());
1287 }
1288 CompareOp::Similar => ctx.keyword("SIMILAR TO"),
1289 CompareOp::Regex => ctx.write(" ~ "),
1290 CompareOp::IRegex => ctx.write(" ~* "),
1291 CompareOp::JsonbContains => ctx.write(" @> "),
1292 CompareOp::JsonbContainedBy => ctx.write(" <@ "),
1293 CompareOp::JsonbHasKey => ctx.write(" ? "),
1294 CompareOp::JsonbHasAnyKey => {
1295 ctx.write(" ?| ");
1296 self.render_expr(right, ctx)?;
1297 ctx.write("::text[]");
1298 return Ok(());
1299 }
1300 CompareOp::JsonbHasAllKeys => {
1301 ctx.write(" ?& ");
1302 self.render_expr(right, ctx)?;
1303 ctx.write("::text[]");
1304 return Ok(());
1305 }
1306 CompareOp::FtsMatch => ctx.write(" @@ "),
1307 CompareOp::TrigramSimilar => {
1308 if self.param_style == ParamStyle::Percent {
1309 ctx.write(" %% ")
1310 } else {
1311 ctx.write(" % ")
1312 }
1313 }
1314 CompareOp::TrigramWordSimilar => {
1315 if self.param_style == ParamStyle::Percent {
1316 ctx.write(" <%% ")
1317 } else {
1318 ctx.write(" <% ")
1319 }
1320 }
1321 CompareOp::TrigramStrictWordSimilar => {
1322 if self.param_style == ParamStyle::Percent {
1323 ctx.write(" <<%% ")
1324 } else {
1325 ctx.write(" <<% ")
1326 }
1327 }
1328 CompareOp::RangeContains => ctx.write(" @> "),
1329 CompareOp::RangeContainedBy => ctx.write(" <@ "),
1330 CompareOp::RangeOverlap => ctx.write(" && "),
1331 CompareOp::RangeStrictlyLeft => ctx.write(" << "),
1332 CompareOp::RangeStrictlyRight => ctx.write(" >> "),
1333 CompareOp::RangeNotLeft => ctx.write(" &> "),
1334 CompareOp::RangeNotRight => ctx.write(" &< "),
1335 CompareOp::RangeAdjacent => ctx.write(" -|- "),
1336 CompareOp::Custom(_) => {
1337 return Err(RenderError::unsupported(
1338 "CustomCompareOp",
1339 "custom compare op must be handled by a wrapping renderer",
1340 ));
1341 }
1342 };
1343 self.render_expr(right, ctx)
1344 }
1345
1346 fn render_query(&self, stmt: &QueryStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1349 if let Some(ctes) = &stmt.ctes {
1351 self.render_ctes(ctes, ctx)?;
1352 }
1353
1354 if let Some(set_op) = &stmt.set_op {
1356 return self.pg_render_set_op(set_op, ctx);
1357 }
1358
1359 ctx.keyword("SELECT");
1361
1362 if let Some(distinct) = &stmt.distinct {
1364 match distinct {
1365 DistinctDef::Distinct => {
1366 ctx.keyword("DISTINCT");
1367 }
1368 DistinctDef::DistinctOn(exprs) => {
1369 ctx.keyword("DISTINCT ON").paren_open();
1370 for (i, expr) in exprs.iter().enumerate() {
1371 if i > 0 {
1372 ctx.comma();
1373 }
1374 self.render_expr(expr, ctx)?;
1375 }
1376 ctx.paren_close();
1377 }
1378 }
1379 }
1380
1381 self.render_select_columns(&stmt.columns, ctx)?;
1383
1384 if let Some(from) = &stmt.from {
1386 ctx.keyword("FROM");
1387 for (i, item) in from.iter().enumerate() {
1388 if i > 0 {
1389 ctx.comma();
1390 }
1391 self.pg_render_from_item(item, ctx)?;
1392 }
1393 }
1394
1395 if let Some(joins) = &stmt.joins {
1397 self.render_joins(joins, ctx)?;
1398 }
1399
1400 if let Some(cond) = &stmt.where_clause {
1402 self.render_where(cond, ctx)?;
1403 }
1404
1405 if let Some(group_by) = &stmt.group_by {
1407 self.pg_render_group_by(group_by, ctx)?;
1408 }
1409
1410 if let Some(having) = &stmt.having {
1412 ctx.keyword("HAVING");
1413 self.render_condition(having, ctx)?;
1414 }
1415
1416 if let Some(windows) = &stmt.window {
1418 self.pg_render_window_clause(windows, ctx)?;
1419 }
1420
1421 if let Some(order_by) = &stmt.order_by {
1423 self.render_order_by(order_by, ctx)?;
1424 }
1425
1426 if let Some(limit) = &stmt.limit {
1428 self.render_limit(limit, ctx)?;
1429 }
1430
1431 if let Some(locks) = &stmt.lock {
1433 for lock in locks {
1434 self.render_lock(lock, ctx)?;
1435 }
1436 }
1437
1438 Ok(())
1439 }
1440
1441 fn render_select_columns(
1442 &self,
1443 cols: &[SelectColumn],
1444 ctx: &mut RenderCtx,
1445 ) -> RenderResult<()> {
1446 for (i, col) in cols.iter().enumerate() {
1447 if i > 0 {
1448 ctx.comma();
1449 }
1450 match col {
1451 SelectColumn::Star(None) => {
1452 ctx.keyword("*");
1453 }
1454 SelectColumn::Star(Some(table)) => {
1455 ctx.ident(table).operator(".").keyword("*");
1456 }
1457 SelectColumn::Expr { expr, alias } => {
1458 self.render_expr(expr, ctx)?;
1459 if let Some(a) = alias {
1460 ctx.keyword("AS").ident(a);
1461 }
1462 }
1463 SelectColumn::Field { field, alias } => {
1464 self.pg_field_ref(field, ctx);
1465 if let Some(a) = alias {
1466 ctx.keyword("AS").ident(a);
1467 }
1468 }
1469 }
1470 }
1471 Ok(())
1472 }
1473 fn render_from(&self, source: &TableSource, ctx: &mut RenderCtx) -> RenderResult<()> {
1474 match source {
1475 TableSource::Table(schema_ref) => {
1476 self.pg_schema_ref(schema_ref, ctx);
1477 if let Some(alias) = &schema_ref.alias {
1478 ctx.keyword("AS").ident(alias);
1479 }
1480 }
1481 TableSource::SubQuery(sq) => {
1482 ctx.paren_open();
1483 self.render_query(&sq.query, ctx)?;
1484 ctx.paren_close().keyword("AS").ident(&sq.alias);
1485 }
1486 TableSource::SetOp(set_op) => {
1487 ctx.paren_open();
1488 self.pg_render_set_op(set_op, ctx)?;
1489 ctx.paren_close();
1490 }
1491 TableSource::Lateral(inner) => {
1492 ctx.keyword("LATERAL");
1493 self.render_from(&inner.source, ctx)?;
1494 }
1495 TableSource::Function { name, args, alias } => {
1496 ctx.keyword(name).write("(");
1497 for (i, arg) in args.iter().enumerate() {
1498 if i > 0 {
1499 ctx.comma();
1500 }
1501 self.render_expr(arg, ctx)?;
1502 }
1503 ctx.paren_close();
1504 if let Some(a) = alias {
1505 ctx.keyword("AS").ident(a);
1506 }
1507 }
1508 TableSource::Values {
1509 rows,
1510 alias,
1511 column_aliases,
1512 } => {
1513 ctx.paren_open().keyword("VALUES");
1514 for (i, row) in rows.iter().enumerate() {
1515 if i > 0 {
1516 ctx.comma();
1517 }
1518 ctx.paren_open();
1519 for (j, val) in row.iter().enumerate() {
1520 if j > 0 {
1521 ctx.comma();
1522 }
1523 self.render_expr(val, ctx)?;
1524 }
1525 ctx.paren_close();
1526 }
1527 ctx.paren_close().keyword("AS").ident(alias);
1528 if let Some(cols) = column_aliases {
1529 ctx.paren_open();
1530 for (i, c) in cols.iter().enumerate() {
1531 if i > 0 {
1532 ctx.comma();
1533 }
1534 ctx.ident(c);
1535 }
1536 ctx.paren_close();
1537 }
1538 }
1539 TableSource::Custom(_) => {
1540 return Err(RenderError::unsupported(
1541 "CustomTableSource",
1542 "custom table source must be handled by a wrapping renderer",
1543 ));
1544 }
1545 }
1546 Ok(())
1547 }
1548 fn render_joins(&self, joins: &[JoinDef], ctx: &mut RenderCtx) -> RenderResult<()> {
1549 for join in joins {
1550 if join.natural {
1551 ctx.keyword("NATURAL");
1552 }
1553 ctx.keyword(match join.join_type {
1554 JoinType::Inner => "INNER JOIN",
1555 JoinType::Left => "LEFT JOIN",
1556 JoinType::Right => "RIGHT JOIN",
1557 JoinType::Full => "FULL JOIN",
1558 JoinType::Cross => "CROSS JOIN",
1559 JoinType::CrossApply => "CROSS JOIN LATERAL",
1560 JoinType::OuterApply => "LEFT JOIN LATERAL",
1561 });
1562 self.pg_render_from_item(&join.source, ctx)?;
1563 if !matches!(join.join_type, JoinType::Cross) {
1564 if let Some(condition) = &join.condition {
1565 match condition {
1566 JoinCondition::On(cond) => {
1567 ctx.keyword("ON");
1568 self.render_condition(cond, ctx)?;
1569 }
1570 JoinCondition::Using(cols) => {
1571 ctx.keyword("USING").paren_open();
1572 self.pg_comma_idents(cols, ctx);
1573 ctx.paren_close();
1574 }
1575 }
1576 }
1577 }
1578 if matches!(join.join_type, JoinType::OuterApply) && join.condition.is_none() {
1580 ctx.keyword("ON TRUE");
1581 }
1582 }
1583 Ok(())
1584 }
1585 fn render_where(&self, cond: &Conditions, ctx: &mut RenderCtx) -> RenderResult<()> {
1586 ctx.keyword("WHERE");
1587 self.render_condition(cond, ctx)
1588 }
1589 fn render_order_by(&self, order: &[OrderByDef], ctx: &mut RenderCtx) -> RenderResult<()> {
1590 ctx.keyword("ORDER BY");
1591 self.pg_order_by_list(order, ctx)
1592 }
1593 fn render_limit(&self, limit: &LimitDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1594 match &limit.kind {
1595 LimitKind::Limit(n) => {
1596 ctx.keyword("LIMIT");
1597 if ctx.parameterize() {
1598 ctx.param(Value::BigInt(*n as i64));
1599 } else {
1600 ctx.space().write(&n.to_string());
1601 }
1602 }
1603 LimitKind::FetchFirst {
1604 count,
1605 with_ties,
1606 percent,
1607 } => {
1608 if let Some(offset) = limit.offset {
1609 ctx.keyword("OFFSET")
1610 .space()
1611 .write(&offset.to_string())
1612 .keyword("ROWS");
1613 }
1614 ctx.keyword("FETCH FIRST");
1615 if *percent {
1616 ctx.space().write(&count.to_string()).keyword("PERCENT");
1617 } else {
1618 ctx.space().write(&count.to_string());
1619 }
1620 if *with_ties {
1621 ctx.keyword("ROWS WITH TIES");
1622 } else {
1623 ctx.keyword("ROWS ONLY");
1624 }
1625 return Ok(());
1626 }
1627 LimitKind::Top { count, .. } => {
1628 ctx.keyword("LIMIT");
1630 if ctx.parameterize() {
1631 ctx.param(Value::BigInt(*count as i64));
1632 } else {
1633 ctx.space().write(&count.to_string());
1634 }
1635 }
1636 }
1637 if let Some(offset) = limit.offset {
1638 ctx.keyword("OFFSET");
1639 if ctx.parameterize() {
1640 ctx.param(Value::BigInt(offset as i64));
1641 } else {
1642 ctx.space().write(&offset.to_string());
1643 }
1644 }
1645 Ok(())
1646 }
1647 fn render_ctes(&self, ctes: &[CteDef], ctx: &mut RenderCtx) -> RenderResult<()> {
1648 let any_recursive = ctes.iter().any(|c| c.recursive);
1650 ctx.keyword("WITH");
1651 if any_recursive {
1652 ctx.keyword("RECURSIVE");
1653 }
1654 for (i, cte) in ctes.iter().enumerate() {
1655 if i > 0 {
1656 ctx.comma();
1657 }
1658 ctx.ident(&cte.name);
1659 if let Some(col_names) = &cte.column_names {
1660 ctx.paren_open();
1661 self.pg_comma_idents(col_names, ctx);
1662 ctx.paren_close();
1663 }
1664 ctx.keyword("AS");
1665 if let Some(mat) = &cte.materialized {
1666 match mat {
1667 CteMaterialized::Materialized => {
1668 ctx.keyword("MATERIALIZED");
1669 }
1670 CteMaterialized::NotMaterialized => {
1671 ctx.keyword("NOT MATERIALIZED");
1672 }
1673 }
1674 }
1675 ctx.paren_open();
1676 self.render_query(&cte.query, ctx)?;
1677 ctx.paren_close();
1678 }
1679 Ok(())
1680 }
1681 fn render_lock(&self, lock: &SelectLockDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1682 ctx.keyword("FOR");
1683 ctx.keyword(match lock.strength {
1684 LockStrength::Update => "UPDATE",
1685 LockStrength::NoKeyUpdate => "NO KEY UPDATE",
1686 LockStrength::Share => "SHARE",
1687 LockStrength::KeyShare => "KEY SHARE",
1688 });
1689 if let Some(of) = &lock.of {
1690 ctx.keyword("OF");
1691 for (i, table) in of.iter().enumerate() {
1692 if i > 0 {
1693 ctx.comma();
1694 }
1695 self.pg_schema_ref(table, ctx);
1696 }
1697 }
1698 if lock.nowait {
1699 ctx.keyword("NOWAIT");
1700 }
1701 if lock.skip_locked {
1702 ctx.keyword("SKIP LOCKED");
1703 }
1704 Ok(())
1705 }
1706
1707 fn render_mutation(&self, stmt: &MutationStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1710 match stmt {
1711 MutationStmt::Insert(s) => self.render_insert(s, ctx),
1712 MutationStmt::Update(s) => self.render_update(s, ctx),
1713 MutationStmt::Delete(s) => self.render_delete(s, ctx),
1714 MutationStmt::Custom(_) => Err(RenderError::unsupported(
1715 "CustomMutation",
1716 "custom DML must be handled by a wrapping renderer",
1717 )),
1718 }
1719 }
1720
1721 fn render_insert(&self, stmt: &InsertStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1722 if let Some(ctes) = &stmt.ctes {
1724 self.pg_render_ctes(ctes, ctx)?;
1725 }
1726
1727 ctx.keyword("INSERT INTO");
1728 self.pg_schema_ref(&stmt.table, ctx);
1729
1730 if let Some(cols) = &stmt.columns {
1732 ctx.paren_open();
1733 self.pg_comma_idents(cols, ctx);
1734 ctx.paren_close();
1735 }
1736
1737 if let Some(overriding) = &stmt.overriding {
1739 ctx.keyword(match overriding {
1740 OverridingKind::System => "OVERRIDING SYSTEM VALUE",
1741 OverridingKind::User => "OVERRIDING USER VALUE",
1742 });
1743 }
1744
1745 match &stmt.source {
1747 InsertSource::Values(rows) => {
1748 ctx.keyword("VALUES");
1749 for (i, row) in rows.iter().enumerate() {
1750 if i > 0 {
1751 ctx.comma();
1752 }
1753 ctx.paren_open();
1754 for (j, expr) in row.iter().enumerate() {
1755 if j > 0 {
1756 ctx.comma();
1757 }
1758 self.render_expr(expr, ctx)?;
1759 }
1760 ctx.paren_close();
1761 }
1762 }
1763 InsertSource::Select(query) => {
1764 self.render_query(query, ctx)?;
1765 }
1766 InsertSource::DefaultValues => {
1767 ctx.keyword("DEFAULT VALUES");
1768 }
1769 }
1770
1771 if let Some(conflicts) = &stmt.on_conflict {
1773 for oc in conflicts {
1774 self.render_on_conflict(oc, ctx)?;
1775 }
1776 }
1777
1778 if let Some(returning) = &stmt.returning {
1780 self.render_returning(returning, ctx)?;
1781 }
1782
1783 Ok(())
1784 }
1785
1786 fn render_update(&self, stmt: &UpdateStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1787 if let Some(ctes) = &stmt.ctes {
1789 self.pg_render_ctes(ctes, ctx)?;
1790 }
1791
1792 ctx.keyword("UPDATE");
1793
1794 if stmt.only {
1796 ctx.keyword("ONLY");
1797 }
1798
1799 self.pg_schema_ref(&stmt.table, ctx);
1800
1801 if let Some(alias) = &stmt.table.alias {
1803 ctx.keyword("AS").ident(alias);
1804 }
1805
1806 ctx.keyword("SET");
1808 for (i, (col, expr)) in stmt.assignments.iter().enumerate() {
1809 if i > 0 {
1810 ctx.comma();
1811 }
1812 ctx.ident(col).write(" = ");
1813 self.render_expr(expr, ctx)?;
1814 }
1815
1816 if let Some(from) = &stmt.from {
1818 ctx.keyword("FROM");
1819 for (i, source) in from.iter().enumerate() {
1820 if i > 0 {
1821 ctx.comma();
1822 }
1823 self.render_from(source, ctx)?;
1824 }
1825 }
1826
1827 if let Some(cond) = &stmt.where_clause {
1829 ctx.keyword("WHERE");
1830 self.render_condition(cond, ctx)?;
1831 }
1832
1833 if let Some(returning) = &stmt.returning {
1835 self.render_returning(returning, ctx)?;
1836 }
1837
1838 Ok(())
1839 }
1840
1841 fn render_delete(&self, stmt: &DeleteStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1842 if let Some(ctes) = &stmt.ctes {
1844 self.pg_render_ctes(ctes, ctx)?;
1845 }
1846
1847 ctx.keyword("DELETE FROM");
1848
1849 if stmt.only {
1851 ctx.keyword("ONLY");
1852 }
1853
1854 self.pg_schema_ref(&stmt.table, ctx);
1855
1856 if let Some(alias) = &stmt.table.alias {
1858 ctx.keyword("AS").ident(alias);
1859 }
1860
1861 if let Some(using) = &stmt.using {
1863 ctx.keyword("USING");
1864 for (i, source) in using.iter().enumerate() {
1865 if i > 0 {
1866 ctx.comma();
1867 }
1868 self.render_from(source, ctx)?;
1869 }
1870 }
1871
1872 if let Some(cond) = &stmt.where_clause {
1874 ctx.keyword("WHERE");
1875 self.render_condition(cond, ctx)?;
1876 }
1877
1878 if let Some(returning) = &stmt.returning {
1880 self.render_returning(returning, ctx)?;
1881 }
1882
1883 Ok(())
1884 }
1885
1886 fn render_on_conflict(&self, oc: &OnConflictDef, ctx: &mut RenderCtx) -> RenderResult<()> {
1887 ctx.keyword("ON CONFLICT");
1888
1889 if let Some(target) = &oc.target {
1891 match target {
1892 ConflictTarget::Columns {
1893 columns,
1894 where_clause,
1895 } => {
1896 ctx.paren_open();
1897 self.pg_comma_idents(columns, ctx);
1898 ctx.paren_close();
1899 if let Some(cond) = where_clause {
1900 ctx.keyword("WHERE");
1901 self.render_condition(cond, ctx)?;
1902 }
1903 }
1904 ConflictTarget::Constraint(name) => {
1905 ctx.keyword("ON CONSTRAINT").ident(name);
1906 }
1907 }
1908 }
1909
1910 match &oc.action {
1912 ConflictAction::DoNothing => {
1913 ctx.keyword("DO NOTHING");
1914 }
1915 ConflictAction::DoUpdate {
1916 assignments,
1917 where_clause,
1918 } => {
1919 ctx.keyword("DO UPDATE SET");
1920 for (i, (col, expr)) in assignments.iter().enumerate() {
1921 if i > 0 {
1922 ctx.comma();
1923 }
1924 ctx.ident(col).write(" = ");
1925 self.render_expr(expr, ctx)?;
1926 }
1927 if let Some(cond) = where_clause {
1928 ctx.keyword("WHERE");
1929 self.render_condition(cond, ctx)?;
1930 }
1931 }
1932 }
1933
1934 Ok(())
1935 }
1936
1937 fn render_returning(&self, cols: &[SelectColumn], ctx: &mut RenderCtx) -> RenderResult<()> {
1938 ctx.keyword("RETURNING");
1939 for (i, col) in cols.iter().enumerate() {
1940 if i > 0 {
1941 ctx.comma();
1942 }
1943 match col {
1944 SelectColumn::Star(None) => {
1945 ctx.keyword("*");
1946 }
1947 SelectColumn::Star(Some(table)) => {
1948 ctx.ident(table).operator(".").keyword("*");
1949 }
1950 SelectColumn::Expr { expr, alias } => {
1951 self.render_expr(expr, ctx)?;
1952 if let Some(a) = alias {
1953 ctx.keyword("AS").ident(a);
1954 }
1955 }
1956 SelectColumn::Field { field, alias } => {
1957 self.pg_field_ref(field, ctx);
1958 if let Some(a) = alias {
1959 ctx.keyword("AS").ident(a);
1960 }
1961 }
1962 }
1963 }
1964 Ok(())
1965 }
1966
1967 fn render_transaction(&self, stmt: &TransactionStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
1970 match stmt {
1971 TransactionStmt::Begin(s) => self.pg_begin(s, ctx),
1972 TransactionStmt::Commit(s) => self.pg_commit(s, ctx),
1973 TransactionStmt::Rollback(s) => self.pg_rollback(s, ctx),
1974 TransactionStmt::Savepoint(s) => {
1975 ctx.keyword("SAVEPOINT").ident(&s.name);
1976 Ok(())
1977 }
1978 TransactionStmt::ReleaseSavepoint(s) => {
1979 ctx.keyword("RELEASE").keyword("SAVEPOINT").ident(&s.name);
1980 Ok(())
1981 }
1982 TransactionStmt::SetTransaction(s) => self.pg_set_transaction(s, ctx),
1983 TransactionStmt::LockTable(s) => self.pg_lock_table(s, ctx),
1984 TransactionStmt::PrepareTransaction(s) => {
1985 ctx.keyword("PREPARE")
1986 .keyword("TRANSACTION")
1987 .string_literal(&s.transaction_id);
1988 Ok(())
1989 }
1990 TransactionStmt::CommitPrepared(s) => {
1991 ctx.keyword("COMMIT")
1992 .keyword("PREPARED")
1993 .string_literal(&s.transaction_id);
1994 Ok(())
1995 }
1996 TransactionStmt::RollbackPrepared(s) => {
1997 ctx.keyword("ROLLBACK")
1998 .keyword("PREPARED")
1999 .string_literal(&s.transaction_id);
2000 Ok(())
2001 }
2002 TransactionStmt::Custom(_) => Err(RenderError::unsupported(
2003 "Custom TCL",
2004 "not supported by PostgresRenderer",
2005 )),
2006 }
2007 }
2008}
2009
2010impl PostgresRenderer {
2015 fn pg_begin(&self, stmt: &BeginStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
2018 ctx.keyword("BEGIN");
2019 if let Some(modes) = &stmt.modes {
2020 self.pg_transaction_modes(modes, ctx);
2021 }
2022 Ok(())
2023 }
2024
2025 fn pg_commit(&self, stmt: &CommitStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
2026 ctx.keyword("COMMIT");
2027 if stmt.and_chain {
2028 ctx.keyword("AND").keyword("CHAIN");
2029 }
2030 Ok(())
2031 }
2032
2033 fn pg_rollback(&self, stmt: &RollbackStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
2034 ctx.keyword("ROLLBACK");
2035 if let Some(sp) = &stmt.to_savepoint {
2036 ctx.keyword("TO").keyword("SAVEPOINT").ident(sp);
2037 }
2038 if stmt.and_chain {
2039 ctx.keyword("AND").keyword("CHAIN");
2040 }
2041 Ok(())
2042 }
2043
2044 fn pg_set_transaction(
2045 &self,
2046 stmt: &SetTransactionStmt,
2047 ctx: &mut RenderCtx,
2048 ) -> RenderResult<()> {
2049 ctx.keyword("SET");
2050 match &stmt.scope {
2051 Some(TransactionScope::Session) => {
2052 ctx.keyword("SESSION")
2053 .keyword("CHARACTERISTICS")
2054 .keyword("AS")
2055 .keyword("TRANSACTION");
2056 }
2057 _ => {
2058 ctx.keyword("TRANSACTION");
2059 }
2060 }
2061 if let Some(snap_id) = &stmt.snapshot_id {
2062 ctx.keyword("SNAPSHOT").string_literal(snap_id);
2063 } else {
2064 self.pg_transaction_modes(&stmt.modes, ctx);
2065 }
2066 Ok(())
2067 }
2068
2069 fn pg_transaction_modes(&self, modes: &[TransactionMode], ctx: &mut RenderCtx) {
2070 for (i, mode) in modes.iter().enumerate() {
2071 if i > 0 {
2072 ctx.comma();
2073 }
2074 match mode {
2075 TransactionMode::IsolationLevel(lvl) => {
2076 ctx.keyword("ISOLATION").keyword("LEVEL");
2077 ctx.keyword(match lvl {
2078 IsolationLevel::ReadUncommitted => "READ UNCOMMITTED",
2079 IsolationLevel::ReadCommitted => "READ COMMITTED",
2080 IsolationLevel::RepeatableRead => "REPEATABLE READ",
2081 IsolationLevel::Serializable => "SERIALIZABLE",
2082 IsolationLevel::Snapshot => "SERIALIZABLE", });
2084 }
2085 TransactionMode::ReadOnly => {
2086 ctx.keyword("READ ONLY");
2087 }
2088 TransactionMode::ReadWrite => {
2089 ctx.keyword("READ WRITE");
2090 }
2091 TransactionMode::Deferrable => {
2092 ctx.keyword("DEFERRABLE");
2093 }
2094 TransactionMode::NotDeferrable => {
2095 ctx.keyword("NOT DEFERRABLE");
2096 }
2097 TransactionMode::WithConsistentSnapshot => {} }
2099 }
2100 }
2101
2102 fn pg_lock_table(&self, stmt: &LockTableStmt, ctx: &mut RenderCtx) -> RenderResult<()> {
2103 ctx.keyword("LOCK").keyword("TABLE");
2104 for (i, def) in stmt.tables.iter().enumerate() {
2105 if i > 0 {
2106 ctx.comma();
2107 }
2108 if def.only {
2109 ctx.keyword("ONLY");
2110 }
2111 if let Some(schema) = &def.schema {
2112 ctx.ident(schema).operator(".");
2113 }
2114 ctx.ident(&def.table);
2115 }
2116 if let Some(first) = stmt.tables.first() {
2118 ctx.keyword("IN");
2119 ctx.keyword(match first.mode {
2120 LockMode::AccessShare => "ACCESS SHARE",
2121 LockMode::RowShare => "ROW SHARE",
2122 LockMode::RowExclusive => "ROW EXCLUSIVE",
2123 LockMode::ShareUpdateExclusive => "SHARE UPDATE EXCLUSIVE",
2124 LockMode::Share => "SHARE",
2125 LockMode::ShareRowExclusive => "SHARE ROW EXCLUSIVE",
2126 LockMode::Exclusive => "EXCLUSIVE",
2127 LockMode::AccessExclusive => "ACCESS EXCLUSIVE",
2128 _ => "ACCESS EXCLUSIVE", });
2130 ctx.keyword("MODE");
2131 }
2132 if stmt.nowait {
2133 ctx.keyword("NOWAIT");
2134 }
2135 Ok(())
2136 }
2137
2138 fn pg_schema_ref(&self, schema_ref: &qcraft_core::ast::common::SchemaRef, ctx: &mut RenderCtx) {
2141 if let Some(ns) = &schema_ref.namespace {
2142 ctx.ident(ns).operator(".");
2143 }
2144 ctx.ident(&schema_ref.name);
2145 }
2146
2147 fn pg_field_ref(&self, field_ref: &FieldRef, ctx: &mut RenderCtx) {
2148 if let Some(ns) = &field_ref.namespace {
2149 ctx.ident(ns).operator(".");
2150 }
2151 if !field_ref.table_name.is_empty() {
2152 ctx.ident(&field_ref.table_name).operator(".");
2153 }
2154 ctx.ident(&field_ref.field.name);
2155 let mut child = &field_ref.field.child;
2156 while let Some(c) = child {
2157 ctx.operator("->'")
2158 .write(&c.name.replace('\'', "''"))
2159 .write("'");
2160 child = &c.child;
2161 }
2162 }
2163
2164 fn pg_comma_idents(&self, names: &[String], ctx: &mut RenderCtx) {
2165 for (i, name) in names.iter().enumerate() {
2166 if i > 0 {
2167 ctx.comma();
2168 }
2169 ctx.ident(name);
2170 }
2171 }
2172
2173 fn pg_value(&self, val: &Value, ctx: &mut RenderCtx) -> RenderResult<()> {
2174 if matches!(val, Value::Null) && !ctx.parameterize() {
2179 ctx.keyword("NULL");
2180 return Ok(());
2181 }
2182
2183 if ctx.parameterize() {
2187 ctx.param(val.clone());
2188 return Ok(());
2189 }
2190
2191 self.pg_value_literal(val, ctx)
2193 }
2194
2195 fn pg_value_literal(&self, val: &Value, ctx: &mut RenderCtx) -> RenderResult<()> {
2196 match val {
2197 Value::Null => {
2198 ctx.keyword("NULL");
2199 }
2200 Value::Bool(b) => {
2201 ctx.keyword(if *b { "TRUE" } else { "FALSE" });
2202 }
2203 Value::Int(n) | Value::BigInt(n) => {
2204 ctx.keyword(&n.to_string());
2205 }
2206 Value::Float(f) => {
2207 ctx.keyword(&f.to_string());
2208 }
2209 Value::Str(s) => {
2210 ctx.string_literal(s);
2211 }
2212 Value::Bytes(b) => {
2213 ctx.write("'\\x");
2214 for byte in b {
2215 ctx.write(&format!("{byte:02x}"));
2216 }
2217 ctx.write("'");
2218 }
2219 Value::Date(s) | Value::DateTime(s) | Value::Time(s) => {
2220 ctx.string_literal(s);
2221 }
2222 Value::Decimal(s) => {
2223 ctx.keyword(s);
2224 }
2225 Value::Uuid(s) => {
2226 ctx.string_literal(s);
2227 }
2228 Value::Json(s) => {
2229 ctx.string_literal(s);
2230 ctx.write("::json");
2231 }
2232 Value::Jsonb(s) => {
2233 ctx.string_literal(s);
2234 ctx.write("::jsonb");
2235 }
2236 Value::IpNetwork(s) => {
2237 ctx.string_literal(s);
2238 ctx.write("::inet");
2239 }
2240 Value::Array(items) => {
2241 ctx.keyword("ARRAY").write("[");
2242 for (i, item) in items.iter().enumerate() {
2243 if i > 0 {
2244 ctx.comma();
2245 }
2246 self.pg_value_literal(item, ctx)?;
2247 }
2248 ctx.write("]");
2249 }
2250 Value::Vector(values) => {
2251 let parts: Vec<String> = values.iter().map(|v| v.to_string()).collect();
2252 let literal = format!("[{}]", parts.join(","));
2253 ctx.string_literal(&literal);
2254 ctx.write("::vector");
2255 }
2256 Value::TimeDelta {
2257 years,
2258 months,
2259 days,
2260 seconds,
2261 microseconds,
2262 } => {
2263 ctx.keyword("INTERVAL");
2264 let mut parts = Vec::new();
2265 if *years != 0 {
2266 parts.push(format!("{years} years"));
2267 }
2268 if *months != 0 {
2269 parts.push(format!("{months} months"));
2270 }
2271 if *days != 0 {
2272 parts.push(format!("{days} days"));
2273 }
2274 if *seconds != 0 {
2275 parts.push(format!("{seconds} seconds"));
2276 }
2277 if *microseconds != 0 {
2278 parts.push(format!("{microseconds} microseconds"));
2279 }
2280 if parts.is_empty() {
2281 parts.push("0 seconds".into());
2282 }
2283 ctx.string_literal(&parts.join(" "));
2284 }
2285 }
2286 Ok(())
2287 }
2288
2289 fn pg_referential_action(&self, action: &ReferentialAction, ctx: &mut RenderCtx) {
2290 match action {
2291 ReferentialAction::NoAction => {
2292 ctx.keyword("NO ACTION");
2293 }
2294 ReferentialAction::Restrict => {
2295 ctx.keyword("RESTRICT");
2296 }
2297 ReferentialAction::Cascade => {
2298 ctx.keyword("CASCADE");
2299 }
2300 ReferentialAction::SetNull(cols) => {
2301 ctx.keyword("SET NULL");
2302 if let Some(cols) = cols {
2303 ctx.paren_open();
2304 self.pg_comma_idents(cols, ctx);
2305 ctx.paren_close();
2306 }
2307 }
2308 ReferentialAction::SetDefault(cols) => {
2309 ctx.keyword("SET DEFAULT");
2310 if let Some(cols) = cols {
2311 ctx.paren_open();
2312 self.pg_comma_idents(cols, ctx);
2313 ctx.paren_close();
2314 }
2315 }
2316 }
2317 }
2318
2319 fn pg_deferrable(&self, def: &DeferrableConstraint, ctx: &mut RenderCtx) {
2320 if def.deferrable {
2321 ctx.keyword("DEFERRABLE");
2322 } else {
2323 ctx.keyword("NOT DEFERRABLE");
2324 }
2325 if def.initially_deferred {
2326 ctx.keyword("INITIALLY DEFERRED");
2327 } else {
2328 ctx.keyword("INITIALLY IMMEDIATE");
2329 }
2330 }
2331
2332 fn pg_identity(&self, identity: &IdentityColumn, ctx: &mut RenderCtx) {
2333 if identity.always {
2334 ctx.keyword("GENERATED ALWAYS AS IDENTITY");
2335 } else {
2336 ctx.keyword("GENERATED BY DEFAULT AS IDENTITY");
2337 }
2338 let has_options = identity.start.is_some()
2339 || identity.increment.is_some()
2340 || identity.min_value.is_some()
2341 || identity.max_value.is_some()
2342 || identity.cycle
2343 || identity.cache.is_some();
2344 if has_options {
2345 ctx.paren_open();
2346 if let Some(start) = identity.start {
2347 ctx.keyword("START WITH").keyword(&start.to_string());
2348 }
2349 if let Some(inc) = identity.increment {
2350 ctx.keyword("INCREMENT BY").keyword(&inc.to_string());
2351 }
2352 if let Some(min) = identity.min_value {
2353 ctx.keyword("MINVALUE").keyword(&min.to_string());
2354 }
2355 if let Some(max) = identity.max_value {
2356 ctx.keyword("MAXVALUE").keyword(&max.to_string());
2357 }
2358 if identity.cycle {
2359 ctx.keyword("CYCLE");
2360 }
2361 if let Some(cache) = identity.cache {
2362 ctx.keyword("CACHE").write(&cache.to_string());
2363 }
2364 ctx.paren_close();
2365 }
2366 }
2367
2368 fn pg_render_ctes(&self, ctes: &[CteDef], ctx: &mut RenderCtx) -> RenderResult<()> {
2369 self.render_ctes(ctes, ctx)
2371 }
2372
2373 fn pg_render_from_item(&self, item: &FromItem, ctx: &mut RenderCtx) -> RenderResult<()> {
2374 if item.only {
2375 ctx.keyword("ONLY");
2376 }
2377 self.render_from(&item.source, ctx)?;
2378 if let Some(sample) = &item.sample {
2379 ctx.keyword("TABLESAMPLE");
2380 ctx.keyword(match sample.method {
2381 SampleMethod::Bernoulli => "BERNOULLI",
2382 SampleMethod::System => "SYSTEM",
2383 SampleMethod::Block => "SYSTEM", });
2385 ctx.paren_open()
2386 .write(&sample.percentage.to_string())
2387 .paren_close();
2388 if let Some(seed) = sample.seed {
2389 ctx.keyword("REPEATABLE")
2390 .paren_open()
2391 .write(&seed.to_string())
2392 .paren_close();
2393 }
2394 }
2395 Ok(())
2396 }
2397
2398 fn pg_render_group_by(&self, items: &[GroupByItem], ctx: &mut RenderCtx) -> RenderResult<()> {
2399 ctx.keyword("GROUP BY");
2400 for (i, item) in items.iter().enumerate() {
2401 if i > 0 {
2402 ctx.comma();
2403 }
2404 match item {
2405 GroupByItem::Expr(expr) => {
2406 self.render_expr(expr, ctx)?;
2407 }
2408 GroupByItem::Rollup(exprs) => {
2409 ctx.keyword("ROLLUP").paren_open();
2410 for (j, expr) in exprs.iter().enumerate() {
2411 if j > 0 {
2412 ctx.comma();
2413 }
2414 self.render_expr(expr, ctx)?;
2415 }
2416 ctx.paren_close();
2417 }
2418 GroupByItem::Cube(exprs) => {
2419 ctx.keyword("CUBE").paren_open();
2420 for (j, expr) in exprs.iter().enumerate() {
2421 if j > 0 {
2422 ctx.comma();
2423 }
2424 self.render_expr(expr, ctx)?;
2425 }
2426 ctx.paren_close();
2427 }
2428 GroupByItem::GroupingSets(sets) => {
2429 ctx.keyword("GROUPING SETS").paren_open();
2430 for (j, set) in sets.iter().enumerate() {
2431 if j > 0 {
2432 ctx.comma();
2433 }
2434 ctx.paren_open();
2435 for (k, expr) in set.iter().enumerate() {
2436 if k > 0 {
2437 ctx.comma();
2438 }
2439 self.render_expr(expr, ctx)?;
2440 }
2441 ctx.paren_close();
2442 }
2443 ctx.paren_close();
2444 }
2445 }
2446 }
2447 Ok(())
2448 }
2449
2450 fn pg_render_window_clause(
2451 &self,
2452 windows: &[WindowNameDef],
2453 ctx: &mut RenderCtx,
2454 ) -> RenderResult<()> {
2455 ctx.keyword("WINDOW");
2456 for (i, win) in windows.iter().enumerate() {
2457 if i > 0 {
2458 ctx.comma();
2459 }
2460 ctx.ident(&win.name).keyword("AS").paren_open();
2461 if let Some(base) = &win.base_window {
2462 ctx.ident(base);
2463 }
2464 if let Some(partition_by) = &win.partition_by {
2465 ctx.keyword("PARTITION BY");
2466 for (j, expr) in partition_by.iter().enumerate() {
2467 if j > 0 {
2468 ctx.comma();
2469 }
2470 self.render_expr(expr, ctx)?;
2471 }
2472 }
2473 if let Some(order_by) = &win.order_by {
2474 ctx.keyword("ORDER BY");
2475 self.pg_order_by_list(order_by, ctx)?;
2476 }
2477 if let Some(frame) = &win.frame {
2478 self.pg_window_frame(frame, ctx);
2479 }
2480 ctx.paren_close();
2481 }
2482 Ok(())
2483 }
2484
2485 fn pg_render_set_op(&self, set_op: &SetOpDef, ctx: &mut RenderCtx) -> RenderResult<()> {
2486 self.render_query(&set_op.left, ctx)?;
2487 ctx.keyword(match set_op.operation {
2488 SetOperationType::Union => "UNION",
2489 SetOperationType::UnionAll => "UNION ALL",
2490 SetOperationType::Intersect => "INTERSECT",
2491 SetOperationType::IntersectAll => "INTERSECT ALL",
2492 SetOperationType::Except => "EXCEPT",
2493 SetOperationType::ExceptAll => "EXCEPT ALL",
2494 });
2495 self.render_query(&set_op.right, ctx)
2496 }
2497
2498 fn pg_create_table(
2499 &self,
2500 schema: &SchemaDef,
2501 if_not_exists: bool,
2502 temporary: bool,
2503 unlogged: bool,
2504 opts: &PgCreateTableOpts<'_>,
2505 ctx: &mut RenderCtx,
2506 ) -> RenderResult<()> {
2507 let PgCreateTableOpts {
2508 tablespace,
2509 partition_by,
2510 inherits,
2511 using_method,
2512 with_options,
2513 on_commit,
2514 } = opts;
2515 ctx.keyword("CREATE");
2516 if temporary {
2517 ctx.keyword("TEMPORARY");
2518 }
2519 if unlogged {
2520 ctx.keyword("UNLOGGED");
2521 }
2522 ctx.keyword("TABLE");
2523 if if_not_exists {
2524 ctx.keyword("IF NOT EXISTS");
2525 }
2526 if let Some(ns) = &schema.namespace {
2527 ctx.ident(ns).operator(".");
2528 }
2529 ctx.ident(&schema.name);
2530
2531 ctx.paren_open();
2533 let mut first = true;
2534 for col in &schema.columns {
2535 if !first {
2536 ctx.comma();
2537 }
2538 first = false;
2539 self.render_column_def(col, ctx)?;
2540 }
2541 if let Some(like_tables) = &schema.like_tables {
2542 for like in like_tables {
2543 if !first {
2544 ctx.comma();
2545 }
2546 first = false;
2547 self.pg_like_table(like, ctx);
2548 }
2549 }
2550 if let Some(constraints) = &schema.constraints {
2551 for constraint in constraints {
2552 if self.is_partial_unique(constraint) {
2555 continue;
2556 }
2557 if !first {
2558 ctx.comma();
2559 }
2560 first = false;
2561 self.render_constraint(constraint, ctx)?;
2562 }
2563 }
2564 ctx.paren_close();
2565
2566 if let Some(parents) = inherits {
2568 ctx.keyword("INHERITS").paren_open();
2569 for (i, parent) in parents.iter().enumerate() {
2570 if i > 0 {
2571 ctx.comma();
2572 }
2573 self.pg_schema_ref(parent, ctx);
2574 }
2575 ctx.paren_close();
2576 }
2577
2578 if let Some(part) = partition_by {
2580 ctx.keyword("PARTITION BY");
2581 ctx.keyword(match part.strategy {
2582 PartitionStrategy::Range => "RANGE",
2583 PartitionStrategy::List => "LIST",
2584 PartitionStrategy::Hash => "HASH",
2585 });
2586 ctx.paren_open();
2587 for (i, col) in part.columns.iter().enumerate() {
2588 if i > 0 {
2589 ctx.comma();
2590 }
2591 match &col.expr {
2592 IndexExpr::Column(name) => {
2593 ctx.ident(name);
2594 }
2595 IndexExpr::Expression(expr) => {
2596 ctx.paren_open();
2597 self.render_expr(expr, ctx)?;
2598 ctx.paren_close();
2599 }
2600 }
2601 if let Some(collation) = &col.collation {
2602 ctx.keyword("COLLATE").ident(collation);
2603 }
2604 if let Some(opclass) = &col.opclass {
2605 ctx.keyword(opclass);
2606 }
2607 }
2608 ctx.paren_close();
2609 }
2610
2611 if let Some(method) = using_method {
2613 ctx.keyword("USING").keyword(method);
2614 }
2615
2616 if let Some(opts) = with_options {
2618 ctx.keyword("WITH").paren_open();
2619 for (i, (key, value)) in opts.iter().enumerate() {
2620 if i > 0 {
2621 ctx.comma();
2622 }
2623 ctx.write(key).write(" = ").write(value);
2624 }
2625 ctx.paren_close();
2626 }
2627
2628 if let Some(action) = on_commit {
2630 ctx.keyword("ON COMMIT");
2631 ctx.keyword(match action {
2632 OnCommitAction::PreserveRows => "PRESERVE ROWS",
2633 OnCommitAction::DeleteRows => "DELETE ROWS",
2634 OnCommitAction::Drop => "DROP",
2635 });
2636 }
2637
2638 if let Some(ts) = tablespace {
2640 ctx.keyword("TABLESPACE").ident(ts);
2641 }
2642
2643 Ok(())
2644 }
2645
2646 fn pg_like_table(&self, like: &LikeTableDef, ctx: &mut RenderCtx) {
2647 ctx.keyword("LIKE");
2648 self.pg_schema_ref(&like.source_table, ctx);
2649 for opt in &like.options {
2650 if opt.include {
2651 ctx.keyword("INCLUDING");
2652 } else {
2653 ctx.keyword("EXCLUDING");
2654 }
2655 ctx.keyword(match opt.kind {
2656 qcraft_core::ast::ddl::LikeOptionKind::Comments => "COMMENTS",
2657 qcraft_core::ast::ddl::LikeOptionKind::Compression => "COMPRESSION",
2658 qcraft_core::ast::ddl::LikeOptionKind::Constraints => "CONSTRAINTS",
2659 qcraft_core::ast::ddl::LikeOptionKind::Defaults => "DEFAULTS",
2660 qcraft_core::ast::ddl::LikeOptionKind::Generated => "GENERATED",
2661 qcraft_core::ast::ddl::LikeOptionKind::Identity => "IDENTITY",
2662 qcraft_core::ast::ddl::LikeOptionKind::Indexes => "INDEXES",
2663 qcraft_core::ast::ddl::LikeOptionKind::Statistics => "STATISTICS",
2664 qcraft_core::ast::ddl::LikeOptionKind::Storage => "STORAGE",
2665 qcraft_core::ast::ddl::LikeOptionKind::All => "ALL",
2666 });
2667 }
2668 }
2669
2670 fn pg_create_index(
2671 &self,
2672 schema_ref: &qcraft_core::ast::common::SchemaRef,
2673 index: &IndexDef,
2674 if_not_exists: bool,
2675 concurrently: bool,
2676 ctx: &mut RenderCtx,
2677 ) -> RenderResult<()> {
2678 ctx.keyword("CREATE");
2679 if index.unique {
2680 ctx.keyword("UNIQUE");
2681 }
2682 ctx.keyword("INDEX");
2683 if concurrently {
2684 ctx.keyword("CONCURRENTLY");
2685 }
2686 if if_not_exists {
2687 ctx.keyword("IF NOT EXISTS");
2688 }
2689 ctx.ident(&index.name).keyword("ON");
2690 self.pg_schema_ref(schema_ref, ctx);
2691
2692 if let Some(index_type) = &index.index_type {
2693 ctx.keyword("USING").keyword(index_type);
2694 }
2695
2696 ctx.paren_open();
2697 self.pg_index_columns(&index.columns, index.index_type.as_deref(), ctx)?;
2698 ctx.paren_close();
2699
2700 if let Some(include) = &index.include {
2701 ctx.keyword("INCLUDE").paren_open();
2702 self.pg_comma_idents(include, ctx);
2703 ctx.paren_close();
2704 }
2705
2706 if let Some(nd) = index.nulls_distinct {
2707 if !nd {
2708 ctx.keyword("NULLS NOT DISTINCT");
2709 }
2710 }
2711
2712 if let Some(params) = &index.parameters {
2713 ctx.keyword("WITH").paren_open();
2714 for (i, (key, value)) in params.iter().enumerate() {
2715 if i > 0 {
2716 ctx.comma();
2717 }
2718 ctx.write(key).write(" = ").write(value);
2719 }
2720 ctx.paren_close();
2721 }
2722
2723 if let Some(ts) = &index.tablespace {
2724 ctx.keyword("TABLESPACE").ident(ts);
2725 }
2726
2727 if let Some(condition) = &index.condition {
2728 ctx.keyword("WHERE");
2729 self.render_condition(condition, ctx)?;
2730 }
2731
2732 Ok(())
2733 }
2734
2735 fn supports_ordering(index_type: Option<&str>) -> bool {
2736 match index_type {
2737 None => true, Some(t) => t.eq_ignore_ascii_case("btree"),
2739 }
2740 }
2741
2742 fn pg_index_columns(
2743 &self,
2744 columns: &[IndexColumnDef],
2745 index_type: Option<&str>,
2746 ctx: &mut RenderCtx,
2747 ) -> RenderResult<()> {
2748 let ordered = Self::supports_ordering(index_type);
2749 for (i, col) in columns.iter().enumerate() {
2750 if i > 0 {
2751 ctx.comma();
2752 }
2753 match &col.expr {
2754 IndexExpr::Column(name) => {
2755 ctx.ident(name);
2756 }
2757 IndexExpr::Expression(expr) => {
2758 ctx.paren_open();
2759 self.render_expr(expr, ctx)?;
2760 ctx.paren_close();
2761 }
2762 }
2763 if let Some(collation) = &col.collation {
2764 ctx.keyword("COLLATE").ident(collation);
2765 }
2766 if let Some(opclass) = &col.opclass {
2767 ctx.keyword(opclass);
2768 }
2769 if ordered {
2770 if let Some(dir) = col.direction {
2771 ctx.keyword(match dir {
2772 OrderDir::Asc => "ASC",
2773 OrderDir::Desc => "DESC",
2774 });
2775 }
2776 if let Some(nulls) = col.nulls {
2777 ctx.keyword(match nulls {
2778 NullsOrder::First => "NULLS FIRST",
2779 NullsOrder::Last => "NULLS LAST",
2780 });
2781 }
2782 }
2783 }
2784 Ok(())
2785 }
2786
2787 fn pg_order_by_list(&self, order_by: &[OrderByDef], ctx: &mut RenderCtx) -> RenderResult<()> {
2788 for (i, ob) in order_by.iter().enumerate() {
2789 if i > 0 {
2790 ctx.comma();
2791 }
2792 self.render_expr(&ob.expr, ctx)?;
2793 ctx.keyword(match ob.direction {
2794 OrderDir::Asc => "ASC",
2795 OrderDir::Desc => "DESC",
2796 });
2797 if let Some(nulls) = &ob.nulls {
2798 ctx.keyword(match nulls {
2799 NullsOrder::First => "NULLS FIRST",
2800 NullsOrder::Last => "NULLS LAST",
2801 });
2802 }
2803 }
2804 Ok(())
2805 }
2806
2807 fn pg_window_frame(&self, frame: &WindowFrameDef, ctx: &mut RenderCtx) {
2808 ctx.keyword(match frame.frame_type {
2809 WindowFrameType::Rows => "ROWS",
2810 WindowFrameType::Range => "RANGE",
2811 WindowFrameType::Groups => "GROUPS",
2812 });
2813 if let Some(end) = &frame.end {
2814 ctx.keyword("BETWEEN");
2815 self.pg_frame_bound(&frame.start, ctx);
2816 ctx.keyword("AND");
2817 self.pg_frame_bound(end, ctx);
2818 } else {
2819 self.pg_frame_bound(&frame.start, ctx);
2820 }
2821 }
2822
2823 fn pg_frame_bound(&self, bound: &WindowFrameBound, ctx: &mut RenderCtx) {
2824 match bound {
2825 WindowFrameBound::CurrentRow => {
2826 ctx.keyword("CURRENT ROW");
2827 }
2828 WindowFrameBound::Preceding(None) => {
2829 ctx.keyword("UNBOUNDED PRECEDING");
2830 }
2831 WindowFrameBound::Preceding(Some(n)) => {
2832 ctx.keyword(&n.to_string()).keyword("PRECEDING");
2833 }
2834 WindowFrameBound::Following(None) => {
2835 ctx.keyword("UNBOUNDED FOLLOWING");
2836 }
2837 WindowFrameBound::Following(Some(n)) => {
2838 ctx.keyword(&n.to_string()).keyword("FOLLOWING");
2839 }
2840 }
2841 }
2842}