2021-11-03 20:19:55 -07:00
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use std::rc::Rc;
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2021-11-04 21:11:19 -07:00
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use crate::ast::*;
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2021-11-03 23:57:22 -07:00
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2021-11-03 16:27:42 -07:00
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peg::parser! {
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pub grammar schala_parser() for str {
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2021-11-04 21:11:19 -07:00
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rule whitespace() = [' ' | '\t' | '\n']*
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rule _ = quiet!{ whitespace() }
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2021-11-03 18:01:23 -07:00
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pub rule program() -> AST =
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n:(statement() ** delimiter() ) { AST { id: Default::default(), statements: n.into() } }
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rule delimiter() = (";" / "\n")+
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rule statement() -> Statement =
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_ expr:expression() { Statement {
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id: Default::default(), location: Default::default(), kind: StatementKind::Expression(expr) }
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}
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rule block() -> Block = "{" _ items:(statement() ** delimiter()) _ "}" { items.into() }
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pub rule expression() -> Expression =
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_ kind:expression_kind() { Expression { id: Default::default(), type_anno: None, kind: kind } }
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pub rule expression_no_struct() -> Expression =
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_ kind:expression_kind_no_struct() { Expression { id: Default::default(), type_anno: None, kind: kind } }
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rule expression_kind() -> ExpressionKind =
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precedence_expr(true)
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rule expression_kind_no_struct() -> ExpressionKind =
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precedence_expr(false)
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rule precedence_expr(struct_ok: bool) -> ExpressionKind =
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first:prefix_expr(struct_ok) _ next:(precedence_continuation(struct_ok))* {
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let next = next.into_iter().map(|(sigil, expr)| (BinOp::from_sigil(sigil), expr)).collect();
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BinopSequence { first, next }.do_precedence()
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}
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rule precedence_continuation(struct_ok: bool) -> (&'input str, ExpressionKind) =
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op:operator() _ expr:prefix_expr(struct_ok) _ { (op, expr) }
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rule prefix_expr(struct_ok: bool) -> ExpressionKind =
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prefix:prefix()? expr:extended_expr(struct_ok) {
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if let Some(p) = prefix {
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let expr = Expression::new(Default::default(), expr);
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let prefix = PrefixOp::from_sigil(p);
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ExpressionKind::PrefixExp(prefix, Box::new(expr))
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} else {
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expr
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}
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}
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rule prefix() -> &'input str =
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$(['+' | '-' | '!' ])
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//TODO make the definition of operators more complex
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rule operator() -> &'input str =
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quiet!{$( ['+' | '-' | '*' | '/' | '%' | '<' | '>' | '=' | '!' | '$' | '&' | '|' | '?' | '^' | '`']+ )} /
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expected!("operator")
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rule extended_expr(struct_ok: bool) -> ExpressionKind =
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item:extended_expr_ok_struct() {? if struct_ok { Ok(item) } else { Err("no-struct-allowed") } } /
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item:extended_expr_no_struct() {? if !struct_ok { Ok(item) } else { Err("!no-struct-allowed") } }
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#[cache_left_rec]
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rule extended_expr_ok_struct() -> ExpressionKind =
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indexee:extended_expr_ok_struct() indexers:index_part() {
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ExpressionKind::Index {
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indexee: Box::new(Expression::new(Default::default(), indexee)),
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indexers,
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}
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} /
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f:extended_expr_ok_struct() arguments:call_part() {
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ExpressionKind::Call {
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f: Box::new(Expression::new(Default::default(), f)),
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arguments,
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}
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} /
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expr:extended_expr_ok_struct() "." name:identifier() { ExpressionKind::Access {
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name: Rc::new(name.to_string()),
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expr: Box::new(Expression::new(Default::default(),expr)),
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} } /
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primary(true)
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#[cache_left_rec]
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rule extended_expr_no_struct() -> ExpressionKind =
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indexee:extended_expr_no_struct() indexers:index_part() {
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ExpressionKind::Index {
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indexee: Box::new(Expression::new(Default::default(), indexee)),
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indexers,
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}
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} /
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f:extended_expr_no_struct() arguments:call_part() {
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ExpressionKind::Call {
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f: Box::new(Expression::new(Default::default(), f)),
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arguments,
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}
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} /
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expr:extended_expr_no_struct() "." name:identifier() { ExpressionKind::Access {
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name: Rc::new(name.to_string()),
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expr: Box::new(Expression::new(Default::default(),expr)),
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} } /
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primary(false)
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rule index_part() -> Vec<Expression> =
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"[" indexers:(expression() ++ ",") "]" { indexers }
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rule call_part() -> Vec<InvocationArgument> =
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"(" arguments:(invocation_argument() ** ",") ")" { arguments }
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//TODO this shouldn't be an expression b/c type annotations disallowed here
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rule invocation_argument() -> InvocationArgument =
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_ "_" _ { InvocationArgument::Ignored } /
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_ ident:identifier() _ "=" _ expr:expression() { InvocationArgument::Keyword {
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name: Rc::new(ident.to_string()),
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expr
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} } /
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_ expr:expression() _ { InvocationArgument::Positional(expr) }
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rule primary(struct_ok: bool) -> ExpressionKind =
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while_expr() / for_expr() / float_literal() / nat_literal() / bool_literal() / string_literal() / paren_expr() /
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list_expr() / if_expr() /
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item:named_struct() {? if struct_ok { Ok(item) } else { Err("no-struct-allowed") } } /
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identifier_expr()
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rule for_expr() -> ExpressionKind =
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"for" _ enumerators:for_enumerators() _ body:for_body() {
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ExpressionKind::ForExpression { enumerators, body }
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}
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rule for_enumerators() -> Vec<Enumerator> =
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"{" _ enumerators:(enumerator() ++ ",") _ "}" { enumerators } /
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enumerator:enumerator() { vec![enumerator] }
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//TODO add guards, etc.
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rule enumerator() -> Enumerator =
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ident:identifier() _ "<-" _ generator:expression_no_struct() {
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Enumerator { id: Rc::new(ident.to_string()), generator }
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} /
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//TODO need to distinguish these two cases in AST
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ident:identifier() _ "=" _ generator:expression_no_struct() {
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Enumerator { id: Rc::new(ident.to_string()), generator }
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}
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rule for_body() -> Box<ForBody> =
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"return" _ expr:expression() { Box::new(ForBody::MonadicReturn(expr)) } /
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body:block() { Box::new(ForBody::StatementBlock(body)) }
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rule while_expr() -> ExpressionKind =
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"while" _ cond:expression_kind_no_struct()? _ body:block() {
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ExpressionKind::WhileExpression {
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condition: cond.map(|kind| Box::new(Expression::new(Default::default(), kind))),
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body,
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}
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}
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rule identifier_expr() -> ExpressionKind =
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qn:qualified_identifier() { ExpressionKind::Value(qn) }
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rule named_struct() -> ExpressionKind =
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name:qualified_identifier() _ fields:record_block() {
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ExpressionKind::NamedStruct {
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name,
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fields: fields.into_iter().map(|(n, exp)| (Rc::new(n.to_string()), exp)).collect(),
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}
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}
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//TODO anonymous structs, update syntax for structs
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rule record_block() -> Vec<(&'input str, Expression)> =
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"{" _ entries:(record_entry() ** ",") _ "}" { entries }
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rule record_entry() -> (&'input str, Expression) =
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_ name:identifier() _ ":" _ expr:expression() _ { (name, expr) }
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rule qualified_identifier() -> QualifiedName =
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names:(identifier() ++ "::") { QualifiedName { id: Default::default(), components: names.into_iter().map(|name| Rc::new(name.to_string())).collect() } }
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//TODO improve the definition of identifiers
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rule identifier() -> &'input str =
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$(['a'..='z' | 'A'..='Z' | '_'] ['a'..='z' | 'A'..='Z' | '0'..='9' | '_']*)
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rule if_expr() -> ExpressionKind =
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"if" _ discriminator:(expression()?) _ body:if_expr_body() {
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ExpressionKind::IfExpression {
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discriminator: discriminator.map(Box::new),
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body: Box::new(body),
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}
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}
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rule if_expr_body() -> IfExpressionBody =
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cond_block() / simple_pattern_match() / simple_conditional()
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rule simple_conditional() -> IfExpressionBody =
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"then" _ then_case:expr_or_block() _ else_case:else_case() {
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IfExpressionBody::SimpleConditional { then_case, else_case }
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}
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rule simple_pattern_match() -> IfExpressionBody =
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"is" _ pattern:pattern() _ "then" _ then_case:expr_or_block() _ else_case:else_case() {
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IfExpressionBody::SimplePatternMatch { pattern, then_case, else_case }
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}
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rule cond_block() -> IfExpressionBody =
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"{" _ cond_arms:(cond_arm() ++ ",") _ "}" { IfExpressionBody::CondList(cond_arms) }
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rule cond_arm() -> ConditionArm =
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_ "else" _ body:expr_or_block() { ConditionArm { condition: Condition::Else, guard: None, body } } /
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_ condition:condition() _ guard:condition_guard() _ "then" _ body:expr_or_block()
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{ ConditionArm { condition, guard, body } }
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rule condition() -> Condition =
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"is" _ pat:pattern() { Condition::Pattern(pat) } /
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op:operator() _ expr:expression() { Condition::TruncatedOp(BinOp::from_sigil(op), expr) }
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rule condition_guard() -> Option<Expression> =
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("if" _ expr:expression() { expr } )?
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rule expr_or_block() -> Block = block() / ex:expression() {
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Statement {
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id: Default::default(), location: Default::default(),
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kind: StatementKind::Expression(ex)
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}.into()
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}
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rule else_case() -> Option<Block> =
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("else" _ eorb:expr_or_block() { eorb })?
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rule pattern() -> Pattern =
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"(" _ variants:(pattern() ++ ",") _ ")" { Pattern::TuplePattern(variants) } /
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_ pat:simple_pattern() { pat }
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rule simple_pattern() -> Pattern =
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pattern_literal() /
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qn:qualified_identifier() "(" members:(pattern() ** ",") ")" {
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Pattern::TupleStruct(qn, members)
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} /
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qn:qualified_identifier() _ "{" _ items:(record_pattern_entry() ** ",") "}" _ {
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let items = items.into_iter().map(|(name, pat)| (Rc::new(name.to_string()), pat)).collect();
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Pattern::Record(qn, items)
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} /
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qn:qualified_identifier() { Pattern::VarOrName(qn) }
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rule record_pattern_entry() -> (&'input str, Pattern) =
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_ name:identifier() _ ":" _ pat:pattern() _ { (name, pat) } /
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_ name:identifier() _ {
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let qn = QualifiedName {
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id: Default::default(),
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components: vec![Rc::new(name.to_string())],
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};
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(name, Pattern::VarOrName(qn))
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}
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rule pattern_literal() -> Pattern =
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"true" { Pattern::Literal(PatternLiteral::BoolPattern(true)) } /
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"false" { Pattern::Literal(PatternLiteral::BoolPattern(false)) } /
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s:bare_string_literal() { Pattern::Literal(PatternLiteral::StringPattern(Rc::new(s.to_string()))) } /
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sign:("-"?) num:nat_literal() {
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let neg = sign.is_some();
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Pattern::Literal(PatternLiteral::NumPattern { neg, num })
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} /
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"_" { Pattern::Ignored }
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rule list_expr() -> ExpressionKind =
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"[" exprs:(expression() ** ",") "]" {
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let mut exprs = exprs;
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ExpressionKind::ListLiteral(exprs)
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}
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rule paren_expr() -> ExpressionKind =
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"(" exprs:(expression() ** ",") ")" {
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let mut exprs = exprs;
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match exprs.len() {
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1 => exprs.pop().unwrap().kind,
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_ => ExpressionKind::TupleLiteral(exprs),
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}
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}
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rule string_literal() -> ExpressionKind =
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s:bare_string_literal(){ ExpressionKind::StringLiteral(Rc::new(s.to_string())) }
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//TODO string escapes, prefixes
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rule bare_string_literal() -> &'input str =
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"\"" items:$([^ '"' ]*) "\"" { items }
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rule bool_literal() -> ExpressionKind =
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"true" { ExpressionKind::BoolLiteral(true) } / "false" { ExpressionKind::BoolLiteral(false) }
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rule nat_literal() -> ExpressionKind =
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bin_literal() / hex_literal() / unmarked_literal()
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rule unmarked_literal() -> ExpressionKind =
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digits:digits() { ExpressionKind::NatLiteral(digits.parse().unwrap()) }
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rule bin_literal() -> ExpressionKind =
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"0b" digits:bin_digits() { ExpressionKind::NatLiteral(parse_binary(digits)) }
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rule hex_literal() -> ExpressionKind =
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"0x" digits:hex_digits() { ExpressionKind::NatLiteral(parse_hex(digits)) }
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2021-11-03 18:01:23 -07:00
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rule float_literal() -> ExpressionKind =
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ds:$( digits() "." digits()? / "." digits() ) { ExpressionKind::FloatLiteral(ds.parse().unwrap()) }
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2021-11-03 20:19:55 -07:00
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rule digits() -> &'input str = $((digit_group() "_"*)+)
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2021-11-04 21:11:19 -07:00
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rule bin_digits() -> &'input str = $((bin_digit_group() "_"*)+)
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rule hex_digits() -> &'input str = $((hex_digit_group() "_"*)+)
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2021-11-03 18:01:23 -07:00
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2021-11-04 21:11:19 -07:00
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rule digit_group() -> &'input str = $(['0'..='9']+)
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rule bin_digit_group() -> &'input str = $(['0' | '1']+)
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rule hex_digit_group() -> &'input str = $(['0'..='9' | 'a'..='f' | 'A'..='F']+)
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2021-11-03 16:27:42 -07:00
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}
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}
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2021-11-03 18:01:23 -07:00
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2021-11-04 21:11:19 -07:00
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fn parse_binary(digits: &str /*, tok: Token*/) -> u64 {
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let mut result: u64 = 0;
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let mut multiplier = 1;
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for d in digits.chars().rev() {
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match d {
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'1' => result += multiplier,
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'0' => (),
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'_' => continue,
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2021-11-04 21:11:19 -07:00
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_ => unreachable!(),
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2021-11-03 20:19:55 -07:00
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}
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multiplier = match multiplier.checked_mul(2) {
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Some(m) => m,
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None =>
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/*return ParseError::new_with_token("This binary expression will overflow", tok),*/
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panic!(),
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2021-11-03 20:19:55 -07:00
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}
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}
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//Ok(result)
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result
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}
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//TODO fix these two functions
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fn parse_hex(digits: &str) -> u64 {
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let mut result: u64 = 0;
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let mut multiplier: u64 = 1;
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for d in digits.chars().rev() {
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if d == '_' {
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continue;
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}
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match d.to_digit(16) {
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Some(n) => result += n as u64 * multiplier,
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None => panic!(),
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}
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multiplier = match multiplier.checked_mul(16) {
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Some(m) => m,
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2021-11-04 21:11:19 -07:00
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None => panic!(),
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2021-11-03 20:19:55 -07:00
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}
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}
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result
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}
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2021-11-04 21:11:19 -07:00
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#[derive(Debug)]
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struct BinopSequence {
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first: ExpressionKind,
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next: Vec<(BinOp, ExpressionKind)>,
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}
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2021-11-03 20:19:55 -07:00
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2021-11-04 21:11:19 -07:00
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impl BinopSequence {
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fn do_precedence(self) -> ExpressionKind {
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fn helper(
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precedence: i32,
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lhs: ExpressionKind,
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rest: &mut Vec<(BinOp, ExpressionKind)>,
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) -> Expression {
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let mut lhs = Expression::new(Default::default(), lhs);
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loop {
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let (next_op, next_rhs) = match rest.pop() {
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Some((a, b)) => (a, b),
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None => break,
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};
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let new_precedence = next_op.get_precedence();
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if precedence >= new_precedence {
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rest.push((next_op, next_rhs));
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break;
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2021-11-03 18:01:23 -07:00
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}
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2021-11-04 21:11:19 -07:00
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let rhs = helper(new_precedence, next_rhs, rest);
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lhs = Expression::new(
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Default::default(),
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ExpressionKind::BinExp(next_op, Box::new(lhs), Box::new(rhs)),
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);
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}
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lhs
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2021-11-03 20:19:55 -07:00
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}
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2021-11-04 21:11:19 -07:00
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let mut as_stack = self.next.into_iter().rev().collect();
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helper(BinOp::min_precedence(), self.first, &mut as_stack).kind
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2021-11-03 18:01:23 -07:00
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}
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}
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