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Diffstat (limited to 'users/grfn/achilles/src/parser/expr.rs')
-rw-r--r-- | users/grfn/achilles/src/parser/expr.rs | 717 |
1 files changed, 717 insertions, 0 deletions
diff --git a/users/grfn/achilles/src/parser/expr.rs b/users/grfn/achilles/src/parser/expr.rs new file mode 100644 index 000000000000..b18ce4a0dc88 --- /dev/null +++ b/users/grfn/achilles/src/parser/expr.rs @@ -0,0 +1,717 @@ +use std::borrow::Cow; + +use nom::character::complete::{digit1, multispace0, multispace1}; +use nom::{ + alt, call, char, complete, delimited, do_parse, flat_map, many0, map, named, opt, parse_to, + preceded, separated_list0, separated_list1, tag, tuple, +}; +use pratt::{Affix, Associativity, PrattParser, Precedence}; + +use super::util::comma; +use crate::ast::{BinaryOperator, Binding, Expr, Fun, Literal, Pattern, UnaryOperator}; +use crate::parser::{arg, ident, type_}; + +#[derive(Debug)] +enum TokenTree<'a> { + Prefix(UnaryOperator), + // Postfix(char), + Infix(BinaryOperator), + Primary(Expr<'a>), + Group(Vec<TokenTree<'a>>), +} + +named!(prefix(&str) -> TokenTree, map!(alt!( + complete!(char!('-')) => { |_| UnaryOperator::Neg } | + complete!(char!('!')) => { |_| UnaryOperator::Not } +), TokenTree::Prefix)); + +named!(infix(&str) -> TokenTree, map!(alt!( + complete!(tag!("==")) => { |_| BinaryOperator::Equ } | + complete!(tag!("!=")) => { |_| BinaryOperator::Neq } | + complete!(char!('+')) => { |_| BinaryOperator::Add } | + complete!(char!('-')) => { |_| BinaryOperator::Sub } | + complete!(char!('*')) => { |_| BinaryOperator::Mul } | + complete!(char!('/')) => { |_| BinaryOperator::Div } | + complete!(char!('^')) => { |_| BinaryOperator::Pow } +), TokenTree::Infix)); + +named!(primary(&str) -> TokenTree, alt!( + do_parse!( + multispace0 >> + char!('(') >> + multispace0 >> + group: group >> + multispace0 >> + char!(')') >> + multispace0 >> + (TokenTree::Group(group)) + ) | + delimited!(multispace0, simple_expr, multispace0) => { |s| TokenTree::Primary(s) } +)); + +named!( + rest(&str) -> Vec<(TokenTree, Vec<TokenTree>, TokenTree)>, + many0!(tuple!( + infix, + delimited!(multispace0, many0!(prefix), multispace0), + primary + // many0!(postfix) + )) +); + +named!(group(&str) -> Vec<TokenTree>, do_parse!( + prefix: many0!(prefix) + >> primary: primary + // >> postfix: many0!(postfix) + >> rest: rest + >> ({ + let mut res = prefix; + res.push(primary); + // res.append(&mut postfix); + for (infix, mut prefix, primary/*, mut postfix*/) in rest { + res.push(infix); + res.append(&mut prefix); + res.push(primary); + // res.append(&mut postfix); + } + res + }) +)); + +fn token_tree(i: &str) -> nom::IResult<&str, Vec<TokenTree>> { + group(i) +} + +struct ExprParser; + +impl<'a, I> PrattParser<I> for ExprParser +where + I: Iterator<Item = TokenTree<'a>>, +{ + type Error = pratt::NoError; + type Input = TokenTree<'a>; + type Output = Expr<'a>; + + fn query(&mut self, input: &Self::Input) -> Result<Affix, Self::Error> { + use BinaryOperator::*; + use UnaryOperator::*; + + Ok(match input { + TokenTree::Infix(Add) => Affix::Infix(Precedence(6), Associativity::Left), + TokenTree::Infix(Sub) => Affix::Infix(Precedence(6), Associativity::Left), + TokenTree::Infix(Mul) => Affix::Infix(Precedence(7), Associativity::Left), + TokenTree::Infix(Div) => Affix::Infix(Precedence(7), Associativity::Left), + TokenTree::Infix(Pow) => Affix::Infix(Precedence(8), Associativity::Right), + TokenTree::Infix(Equ) => Affix::Infix(Precedence(4), Associativity::Right), + TokenTree::Infix(Neq) => Affix::Infix(Precedence(4), Associativity::Right), + TokenTree::Prefix(Neg) => Affix::Prefix(Precedence(6)), + TokenTree::Prefix(Not) => Affix::Prefix(Precedence(6)), + TokenTree::Primary(_) => Affix::Nilfix, + TokenTree::Group(_) => Affix::Nilfix, + }) + } + + fn primary(&mut self, input: Self::Input) -> Result<Self::Output, Self::Error> { + Ok(match input { + TokenTree::Primary(expr) => expr, + TokenTree::Group(group) => self.parse(&mut group.into_iter()).unwrap(), + _ => unreachable!(), + }) + } + + fn infix( + &mut self, + lhs: Self::Output, + op: Self::Input, + rhs: Self::Output, + ) -> Result<Self::Output, Self::Error> { + let op = match op { + TokenTree::Infix(op) => op, + _ => unreachable!(), + }; + Ok(Expr::BinaryOp { + lhs: Box::new(lhs), + op, + rhs: Box::new(rhs), + }) + } + + fn prefix(&mut self, op: Self::Input, rhs: Self::Output) -> Result<Self::Output, Self::Error> { + let op = match op { + TokenTree::Prefix(op) => op, + _ => unreachable!(), + }; + + Ok(Expr::UnaryOp { + op, + rhs: Box::new(rhs), + }) + } + + fn postfix( + &mut self, + _lhs: Self::Output, + _op: Self::Input, + ) -> Result<Self::Output, Self::Error> { + unreachable!() + } +} + +named!(int(&str) -> Literal, map!(flat_map!(digit1, parse_to!(u64)), Literal::Int)); + +named!(bool_(&str) -> Literal, alt!( + complete!(tag!("true")) => { |_| Literal::Bool(true) } | + complete!(tag!("false")) => { |_| Literal::Bool(false) } +)); + +fn string_internal(i: &str) -> nom::IResult<&str, Cow<'_, str>, nom::error::Error<&str>> { + // TODO(grfn): use String::split_once when that's stable + let (s, rem) = if let Some(pos) = i.find('"') { + (&i[..pos], &i[(pos + 1)..]) + } else { + return Err(nom::Err::Error(nom::error::Error::new( + i, + nom::error::ErrorKind::Tag, + ))); + }; + + Ok((rem, Cow::Borrowed(s))) +} + +named!(string(&str) -> Literal, preceded!( + complete!(char!('"')), + map!( + string_internal, + |s| Literal::String(s) + ) +)); + +named!(unit(&str) -> Literal, map!(complete!(tag!("()")), |_| Literal::Unit)); + +named!(literal(&str) -> Literal, alt!(int | bool_ | string | unit)); + +named!(literal_expr(&str) -> Expr, map!(literal, Expr::Literal)); + +named!(tuple(&str) -> Expr, do_parse!( + complete!(tag!("(")) + >> multispace0 + >> fst: expr + >> comma + >> rest: separated_list0!( + comma, + expr + ) + >> multispace0 + >> tag!(")") + >> ({ + let mut members = Vec::with_capacity(rest.len() + 1); + members.push(fst); + members.append(&mut rest.clone()); + Expr::Tuple(members) + }) +)); + +named!(tuple_pattern(&str) -> Pattern, do_parse!( + complete!(tag!("(")) + >> multispace0 + >> pats: separated_list0!( + comma, + pattern + ) + >> multispace0 + >> tag!(")") + >> (Pattern::Tuple(pats)) +)); + +named!(pattern(&str) -> Pattern, alt!( + ident => { |id| Pattern::Id(id) } | + tuple_pattern +)); + +named!(binding(&str) -> Binding, do_parse!( + multispace0 + >> pat: pattern + >> multispace0 + >> type_: opt!(preceded!(tuple!(tag!(":"), multispace0), type_)) + >> multispace0 + >> char!('=') + >> multispace0 + >> body: expr + >> (Binding { + pat, + type_, + body + }) +)); + +named!(let_(&str) -> Expr, do_parse!( + tag!("let") + >> multispace0 + >> bindings: separated_list1!(alt!(char!(';') | char!('\n')), binding) + >> multispace0 + >> tag!("in") + >> multispace0 + >> body: expr + >> (Expr::Let { + bindings, + body: Box::new(body) + }) +)); + +named!(if_(&str) -> Expr, do_parse! ( + tag!("if") + >> multispace0 + >> condition: expr + >> multispace0 + >> tag!("then") + >> multispace0 + >> then: expr + >> multispace0 + >> tag!("else") + >> multispace0 + >> else_: expr + >> (Expr::If { + condition: Box::new(condition), + then: Box::new(then), + else_: Box::new(else_) + }) +)); + +named!(ident_expr(&str) -> Expr, map!(ident, Expr::Ident)); + +fn ascripted<'a>( + p: impl Fn(&'a str) -> nom::IResult<&'a str, Expr, nom::error::Error<&'a str>> + 'a, +) -> impl Fn(&'a str) -> nom::IResult<&str, Expr, nom::error::Error<&'a str>> { + move |i| { + do_parse!( + i, + expr: p + >> multispace0 + >> complete!(tag!(":")) + >> multispace0 + >> type_: type_ + >> (Expr::Ascription { + expr: Box::new(expr), + type_ + }) + ) + } +} + +named!(paren_expr(&str) -> Expr, + delimited!(complete!(tag!("(")), expr, complete!(tag!(")")))); + +named!(funcref(&str) -> Expr, alt!( + ident_expr | + tuple | + paren_expr +)); + +named!(no_arg_call(&str) -> Expr, do_parse!( + fun: funcref + >> complete!(tag!("()")) + >> (Expr::Call { + fun: Box::new(fun), + args: vec![], + }) +)); + +named!(fun_expr(&str) -> Expr, do_parse!( + tag!("fn") + >> multispace1 + >> args: separated_list0!(multispace1, arg) + >> multispace0 + >> char!('=') + >> multispace0 + >> body: expr + >> (Expr::Fun(Box::new(Fun { + args, + body + }))) +)); + +named!(fn_arg(&str) -> Expr, alt!( + ident_expr | + literal_expr | + tuple | + paren_expr +)); + +named!(call_with_args(&str) -> Expr, do_parse!( + fun: funcref + >> multispace1 + >> args: separated_list1!(multispace1, fn_arg) + >> (Expr::Call { + fun: Box::new(fun), + args + }) +)); + +named!(simple_expr_unascripted(&str) -> Expr, alt!( + let_ | + if_ | + fun_expr | + literal_expr | + ident_expr | + tuple +)); + +named!(simple_expr(&str) -> Expr, alt!( + call!(ascripted(simple_expr_unascripted)) | + simple_expr_unascripted +)); + +named!(pub expr(&str) -> Expr, alt!( + no_arg_call | + call_with_args | + map!(token_tree, |tt| { + ExprParser.parse(&mut tt.into_iter()).unwrap() + }) | + simple_expr +)); + +#[cfg(test)] +pub(crate) mod tests { + use super::*; + use crate::ast::{Arg, Ident, Pattern, Type}; + use std::convert::TryFrom; + use BinaryOperator::*; + use Expr::{BinaryOp, If, Let, UnaryOp}; + use UnaryOperator::*; + + pub(crate) fn ident_expr(s: &str) -> Box<Expr> { + Box::new(Expr::Ident(Ident::try_from(s).unwrap())) + } + + mod operators { + use super::*; + + #[test] + fn mul_plus() { + let (rem, res) = expr("x*y+z").unwrap(); + assert!(rem.is_empty()); + assert_eq!( + res, + BinaryOp { + lhs: Box::new(BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: ident_expr("y") + }), + op: Add, + rhs: ident_expr("z") + } + ) + } + + #[test] + fn mul_plus_ws() { + let (rem, res) = expr("x * y + z").unwrap(); + assert!(rem.is_empty(), "non-empty remainder: \"{}\"", rem); + assert_eq!( + res, + BinaryOp { + lhs: Box::new(BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: ident_expr("y") + }), + op: Add, + rhs: ident_expr("z") + } + ) + } + + #[test] + fn unary() { + let (rem, res) = expr("x * -z").unwrap(); + assert!(rem.is_empty(), "non-empty remainder: \"{}\"", rem); + assert_eq!( + res, + BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: Box::new(UnaryOp { + op: Neg, + rhs: ident_expr("z"), + }) + } + ) + } + + #[test] + fn mul_literal() { + let (rem, res) = expr("x * 3").unwrap(); + assert!(rem.is_empty()); + assert_eq!( + res, + BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: Box::new(Expr::Literal(Literal::Int(3))), + } + ) + } + + #[test] + fn equ() { + let res = test_parse!(expr, "x * 7 == 7"); + assert_eq!( + res, + BinaryOp { + lhs: Box::new(BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: Box::new(Expr::Literal(Literal::Int(7))) + }), + op: Equ, + rhs: Box::new(Expr::Literal(Literal::Int(7))) + } + ) + } + } + + #[test] + fn unit() { + assert_eq!(test_parse!(expr, "()"), Expr::Literal(Literal::Unit)); + } + + #[test] + fn bools() { + assert_eq!( + test_parse!(expr, "true"), + Expr::Literal(Literal::Bool(true)) + ); + assert_eq!( + test_parse!(expr, "false"), + Expr::Literal(Literal::Bool(false)) + ); + } + + #[test] + fn tuple() { + assert_eq!( + test_parse!(expr, "(1, \"seven\")"), + Expr::Tuple(vec![ + Expr::Literal(Literal::Int(1)), + Expr::Literal(Literal::String(Cow::Borrowed("seven"))) + ]) + ) + } + + #[test] + fn simple_string_lit() { + assert_eq!( + test_parse!(expr, "\"foobar\""), + Expr::Literal(Literal::String(Cow::Borrowed("foobar"))) + ) + } + + #[test] + fn let_complex() { + let res = test_parse!(expr, "let x = 1; y = x * 7 in (x + y) * 4"); + assert_eq!( + res, + Let { + bindings: vec![ + Binding { + pat: Pattern::Id(Ident::try_from("x").unwrap()), + type_: None, + body: Expr::Literal(Literal::Int(1)) + }, + Binding { + pat: Pattern::Id(Ident::try_from("y").unwrap()), + type_: None, + body: Expr::BinaryOp { + lhs: ident_expr("x"), + op: Mul, + rhs: Box::new(Expr::Literal(Literal::Int(7))) + } + } + ], + body: Box::new(Expr::BinaryOp { + lhs: Box::new(Expr::BinaryOp { + lhs: ident_expr("x"), + op: Add, + rhs: ident_expr("y"), + }), + op: Mul, + rhs: Box::new(Expr::Literal(Literal::Int(4))), + }) + } + ) + } + + #[test] + fn if_simple() { + let res = test_parse!(expr, "if x == 8 then 9 else 20"); + assert_eq!( + res, + If { + condition: Box::new(BinaryOp { + lhs: ident_expr("x"), + op: Equ, + rhs: Box::new(Expr::Literal(Literal::Int(8))), + }), + then: Box::new(Expr::Literal(Literal::Int(9))), + else_: Box::new(Expr::Literal(Literal::Int(20))) + } + ) + } + + #[test] + fn no_arg_call() { + let res = test_parse!(expr, "f()"); + assert_eq!( + res, + Expr::Call { + fun: ident_expr("f"), + args: vec![] + } + ); + } + + #[test] + fn unit_call() { + let res = test_parse!(expr, "f ()"); + assert_eq!( + res, + Expr::Call { + fun: ident_expr("f"), + args: vec![Expr::Literal(Literal::Unit)] + } + ) + } + + #[test] + fn call_with_args() { + let res = test_parse!(expr, "f x 1"); + assert_eq!( + res, + Expr::Call { + fun: ident_expr("f"), + args: vec![*ident_expr("x"), Expr::Literal(Literal::Int(1))] + } + ) + } + + #[test] + fn call_funcref() { + let res = test_parse!(expr, "(let x = 1 in x) 2"); + assert_eq!( + res, + Expr::Call { + fun: Box::new(Expr::Let { + bindings: vec![Binding { + pat: Pattern::Id(Ident::try_from("x").unwrap()), + type_: None, + body: Expr::Literal(Literal::Int(1)) + }], + body: ident_expr("x") + }), + args: vec![Expr::Literal(Literal::Int(2))] + } + ) + } + + #[test] + fn anon_function() { + let res = test_parse!(expr, "let id = fn x = x in id 1"); + assert_eq!( + res, + Expr::Let { + bindings: vec![Binding { + pat: Pattern::Id(Ident::try_from("id").unwrap()), + type_: None, + body: Expr::Fun(Box::new(Fun { + args: vec![Arg::try_from("x").unwrap()], + body: *ident_expr("x") + })) + }], + body: Box::new(Expr::Call { + fun: ident_expr("id"), + args: vec![Expr::Literal(Literal::Int(1))], + }) + } + ); + } + + #[test] + fn tuple_binding() { + let res = test_parse!(expr, "let (x, y) = (1, 2) in x"); + assert_eq!( + res, + Expr::Let { + bindings: vec![Binding { + pat: Pattern::Tuple(vec![ + Pattern::Id(Ident::from_str_unchecked("x")), + Pattern::Id(Ident::from_str_unchecked("y")) + ]), + body: Expr::Tuple(vec![ + Expr::Literal(Literal::Int(1)), + Expr::Literal(Literal::Int(2)) + ]), + type_: None + }], + body: Box::new(Expr::Ident(Ident::from_str_unchecked("x"))) + } + ) + } + + mod ascriptions { + use super::*; + + #[test] + fn bare_ascription() { + let res = test_parse!(expr, "1: float"); + assert_eq!( + res, + Expr::Ascription { + expr: Box::new(Expr::Literal(Literal::Int(1))), + type_: Type::Float + } + ) + } + + #[test] + fn fn_body_ascription() { + let res = test_parse!(expr, "let const_1 = fn x = 1: int in const_1 2"); + assert_eq!( + res, + Expr::Let { + bindings: vec![Binding { + pat: Pattern::Id(Ident::try_from("const_1").unwrap()), + type_: None, + body: Expr::Fun(Box::new(Fun { + args: vec![Arg::try_from("x").unwrap()], + body: Expr::Ascription { + expr: Box::new(Expr::Literal(Literal::Int(1))), + type_: Type::Int, + } + })) + }], + body: Box::new(Expr::Call { + fun: ident_expr("const_1"), + args: vec![Expr::Literal(Literal::Int(2))] + }) + } + ) + } + + #[test] + fn let_binding_ascripted() { + let res = test_parse!(expr, "let x: int = 1 in x"); + assert_eq!( + res, + Expr::Let { + bindings: vec![Binding { + pat: Pattern::Id(Ident::try_from("x").unwrap()), + type_: Some(Type::Int), + body: Expr::Literal(Literal::Int(1)) + }], + body: ident_expr("x") + } + ) + } + } +} |