pub grammar peg() for FlatTokenStream {
use crate::ast::*;
use crate::ast::Expr::*;
use crate::tokens::FlatTokenStream;
use proc_macro2::{ TokenStream, Ident, Group, Literal, Delimiter, Span };
pub rule peg_grammar() -> Grammar
= doc:rust_doc_comment() visibility:rust_visibility() "grammar" name:IDENT() lifetime_params:rust_lifetime_params()? args:grammar_args() "for" input_type:$(rust_type()) "{" items:item()* "}"
{ Grammar { doc, visibility, name, lifetime_params, args, input_type, items } }
rule rust_lifetime_params() -> Vec<TokenStream>
= "<" p:(($(LIFETIME())) ++ ",") ">" { p }
rule grammar_args() -> Vec<(Ident, TokenStream)>
= "(" args:((i:IDENT() ":" t:$(rust_type()) { (i, t) })**",") ","? ")" { args }
rule peg_rule() -> Rule
= doc:rust_doc_comment() cache:cacheflag() no_eof:no_eof_flag() visibility:rust_visibility()
span:sp() "rule"
header:(
&("_" / "__" / "___") name:IDENT() ("(" ")")? { (name, None, Vec::new()) }
/ name:IDENT() ty_params:rust_ty_params()? params:rule_params() { (name, ty_params, params) }
)
ret_type:("->" t:$(rust_type()) {t})?
"=" expr:expression() ";"?
{ Rule { span, doc, name:header.0, ty_params:header.1, params:header.2, expr, ret_type, visibility, no_eof, cache } }
rule cacheflag() -> Option<Cache> = "#" "[" "cache" "]" {Some(Cache::Simple)} / "#" "[" "cache_left_rec" "]" {Some(Cache::Recursive)} / {None}
rule no_eof_flag() -> bool = "#" "[" "no_eof" "]" {true} / {false}
rule rule_param_ty() -> RuleParamTy
= "rule" "<" r:$(rust_type()) ">" { RuleParamTy::Rule(r) }
/ t:$(rust_type()) { RuleParamTy::Rust(t) }
rule rule_params() -> Vec<RuleParam>
= "(" params:(name:IDENT() ":" ty:rule_param_ty() { RuleParam { name, ty} }) ** "," ")" { params }
rule item() -> Item
= u:rust_use() { Item::Use(u) }
/ r:peg_rule() { Item::Rule(r) }
rule rust_doc_comment() -> Option<TokenStream> = $(("#" "[" "doc" "=" LITERAL() "]")*)?
rule rust_visibility() -> Option<TokenStream> = $("pub" PAREN_GROUP()? / "crate")?
rule rust_use() -> TokenStream
= v:$("use" rust_path() (
"::" "*"
/ "::" "{" ((IDENT() ("as" IDENT())?) ++ ",") "}"
/ ("as" IDENT())?
) ";") { v.to_owned() }
rule rust_path()
= ("crate" "::")? IDENT() ++ "::"
rule rust_type()
= BRACKET_GROUP()
/ "&" "mut"? LIFETIME()? rust_type()
/ "dyn" rust_type()
/ "impl" rust_type()
/ "(" rust_type() ** "," ")"
/ rust_ty_path()
rule rust_ty_path()
= "::"? (IDENT() ("::"? "<" (LIFETIME() / rust_type() / BRACE_GROUP() / LITERAL()) ++ "," ">")?) ++ "::"
rule rust_ty_params() -> Vec<TokenStream>
= "<" p:($(rust_generic_param()) ++ ",") ">" { p }
rule rust_generic_param()
= LIFETIME() (":" LIFETIME() ++ "+")?
/ IDENT() (":"(LIFETIME() / "?"? rust_ty_path()) ++ "+")?
rule expression() -> SpannedExpr = choice()
rule choice() -> SpannedExpr = sp:sp() s:sequence() ++ "/" {
if s.len() == 1 {
s.into_iter().next().unwrap()
} else {
ChoiceExpr(s).at(sp)
}
}
rule sequence() -> SpannedExpr
= sp:sp() elements:labeled()* code:BRACE_GROUP()? {
if let Some(code) = code {
ActionExpr(elements, Some(code)).at(sp)
} else if elements.len() != 1 {
ActionExpr(elements, None).at(sp)
} else {
elements.into_iter().next().unwrap().expr
}
}
rule labeled() -> TaggedExpr
= label:(l:IDENT() ":" {l})? expression:suffixed()
{ TaggedExpr{ name: label, expr: expression } }
rule suffixed() -> SpannedExpr
= e:prefixed() sp:sp() "?" { OptionalExpr(Box::new(e)).at(sp) }
/ e:prefixed() sp:sp() "**" count:repeatcount() sep:primary() { Repeat { inner: Box::new(e), bound: count, sep: Some(Box::new(sep)) }.at(sp) }
/ e:prefixed() sp:sp() "++" sep:primary() { Repeat { inner: Box::new(e), bound: BoundedRepeat::Plus, sep: Some(Box::new(sep)) }.at(sp )}
/ e:prefixed() sp:sp() "*" count:repeatcount() { Repeat { inner: Box::new(e), bound: count, sep: None }.at(sp) }
/ e:prefixed() sp:sp() "+" { Repeat { inner: Box::new(e), bound: BoundedRepeat::Plus, sep: None }.at(sp) }
/ prefixed()
rule repeatcount() -> BoundedRepeat
= "<" n:repeatnum() ">" { BoundedRepeat::Exact(n) }
/ "<" min:repeatnum()? "," max:repeatnum()? ">" { BoundedRepeat::Both(min, max) }
/ { BoundedRepeat::None }
rule repeatnum() -> TokenStream = $(INTEGER() / BRACE_GROUP())
rule prefixed() -> SpannedExpr
= sp:sp() "$" expression:primary() { MatchStrExpr(Box::new(expression)).at(sp) }
/ sp:sp() "&" expression:primary() { PosAssertExpr(Box::new(expression)).at(sp) }
/ sp:sp() "!" expression:primary() { NegAssertExpr(Box::new(expression)).at(sp) }
/ primary()
#[cache]
rule primary() -> SpannedExpr
= sp:sp() "precedence" "!" "{" levels:precedence_level()**"--" "}" { PrecedenceExpr{ levels:levels }.at(sp) }
/ sp:sp() "position" "!" "(" ")" { PositionExpr.at(sp) }
/ sp:sp() "quiet" "!" "{" e:expression() "}" { QuietExpr(Box::new(e)).at(sp) }
/ sp:sp() "expected" "!" "(" s:LITERAL() ")" { FailExpr(s).at(sp) }
/ &("_" / "__" / "___") sp:sp() name:IDENT() { RuleExpr(name, Vec::new()).at(sp) }
/ sp:sp() name:IDENT() "(" args:(rule_arg() ** ",") ")" { RuleExpr(name, args).at(sp) }
/ sp:sp() l:LITERAL() { LiteralExpr(l).at(sp) }
/ sp:sp() p:BRACKET_GROUP() { PatternExpr(p).at(sp) }
/ "(" sp:sp() "@" ")" { MarkerExpr(true).at(sp) }
/ sp:sp() "@" { MarkerExpr(false).at(sp) }
/ sp:sp() "##" method:IDENT() args:PAREN_GROUP() { MethodExpr(method, args.stream()).at(sp) }
/ "(" expression:expression() ")" { expression }
rule rule_arg() -> RuleArg
= "<" e:expression() ">" { RuleArg::Peg(e) }
/ tt:$( ##eat_until(',')+ ) { RuleArg::Rust(tt) }
rule precedence_level() -> PrecedenceLevel
= operators:precedence_op()+
{ PrecedenceLevel{ operators: operators } }
rule precedence_op() -> PrecedenceOperator
= span:sp() elements:labeled()* action:BRACE_GROUP()
{ PrecedenceOperator{ span, elements, action } }
rule sp() -> Span = ##next_span()
rule KEYWORD() = "pub" / "crate" / "rule" / "use" / "type"
rule IDENT() -> Ident = !KEYWORD() i:##ident() {i}
rule LITERAL() -> Literal = ##literal()
rule PAREN_GROUP() -> Group = ##group(Delimiter::Parenthesis)
rule BRACE_GROUP() -> Group = ##group(Delimiter::Brace)
rule BRACKET_GROUP() -> Group = ##group(Delimiter::Bracket)
rule LIFETIME() = "'" IDENT()
rule INTEGER() = LITERAL()
}