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Type alias

This commit is contained in:
greg 2020-02-14 10:20:27 -08:00
parent 43cad55735
commit 16559d2e55
1 changed files with 28 additions and 26 deletions
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54
schala-lang/language/src/parser.rs
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@ -15,18 +15,20 @@ use nom::sequence::{pair, delimited};
use crate::ast::*; use crate::ast::*;
use crate::builtin::Builtin; use crate::builtin::Builtin;
type ParseResult<'a, T> = IResult<&'a str, T>;
fn single_alphabetic_character(text: &str) -> IResult<&str, char> {
fn single_alphabetic_character(text: &str) -> ParseResult<char> {
let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphabetic()).unwrap_or(false)); let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphabetic()).unwrap_or(false));
map(p, |s: &str| s.chars().nth(0).unwrap())(text) map(p, |s: &str| s.chars().nth(0).unwrap())(text)
} }
fn single_alphanumeric_character(text: &str) -> IResult<&str, char> { fn single_alphanumeric_character(text: &str) -> ParseResult<char> {
let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphanumeric() || c == '_').unwrap_or(false)); let p = verify(take(1usize), |s: &str| s.chars().nth(0).map(|c| c.is_alphanumeric() || c == '_').unwrap_or(false));
map(p, |s: &str| s.chars().nth(0).unwrap())(text) map(p, |s: &str| s.chars().nth(0).unwrap())(text)
} }
fn identifier(text: &str) -> IResult<&str, Rc<String>> { fn identifier(text: &str) -> ParseResult<Rc<String>> {
use nom::character::complete::char; use nom::character::complete::char;
map(alt(( map(alt((
pair(char('_'), many1(single_alphanumeric_character)), pair(char('_'), many1(single_alphanumeric_character)),
@ -37,37 +39,37 @@ fn identifier(text: &str) -> IResult<&str, Rc<String>> {
} }
const OPERATOR_CHARS: &'static str = "~`!@#$%^&*-+=<>?/|"; const OPERATOR_CHARS: &'static str = "~`!@#$%^&*-+=<>?/|";
fn parse_binop(input: &str) -> IResult<&str, BinOp> { fn parse_binop(text: &str) -> ParseResult<BinOp> {
let (rest, op): (_, Vec<char>) = many1(one_of(OPERATOR_CHARS))(input)?; let (text, op): (_, Vec<char>) = many1(one_of(OPERATOR_CHARS))(text)?;
let sigil: String = op.into_iter().collect(); let sigil: String = op.into_iter().collect();
Ok((rest, BinOp::from_sigil(&sigil))) Ok((text, BinOp::from_sigil(&sigil)))
} }
fn parse_bool_literal(input: &str) -> IResult<&str, ExpressionKind> { fn parse_bool_literal(text: &str) -> ParseResult<ExpressionKind> {
let p = alt(( let p = alt((
value(true, tag("true")), value(true, tag("true")),
value(false, tag("false")) value(false, tag("false"))
)); ));
map(p, ExpressionKind::BoolLiteral)(input) map(p, ExpressionKind::BoolLiteral)(text)
} }
fn parse_number_literal(input: &str) -> IResult<&str, ExpressionKind> { fn parse_number_literal(text: &str) -> ParseResult<ExpressionKind> {
let num_lit = many1(alt(( let num_lit = many1(alt((
map(one_of("1234567890"), |s: char| Some(s)), map(one_of("1234567890"), |s: char| Some(s)),
map(nom::character::complete::char('_'), |_| None) map(nom::character::complete::char('_'), |_| None)
))); )));
let (rest, n) = map_res(num_lit, let (text, n) = map_res(num_lit,
|digits: Vec<Option<char>>| { |digits: Vec<Option<char>>| {
let num_str: String = digits.into_iter().filter_map(|x| x).collect(); let num_str: String = digits.into_iter().filter_map(|x| x).collect();
u64::from_str_radix(&num_str, 10) u64::from_str_radix(&num_str, 10)
})(input)?; })(text)?;
Ok((rest, ExpressionKind::NatLiteral(n))) Ok((text, ExpressionKind::NatLiteral(n)))
} }
fn parse_binary_literal(input: &str) -> IResult<&str, ExpressionKind> { fn parse_binary_literal(input: &str) -> ParseResult<ExpressionKind> {
let (rest, _) = tag("0b")(input)?; let (rest, _) = tag("0b")(input)?;
let (rest, n): (&str, u64) = map_res( let (rest, n): (&str, u64) = map_res(
take_while(|c: char| c == '0' || c == '1'), take_while(|c: char| c == '0' || c == '1'),
@ -77,7 +79,7 @@ fn parse_binary_literal(input: &str) -> IResult<&str, ExpressionKind> {
Ok((rest, expr)) Ok((rest, expr))
} }
fn parse_hex_literal(input: &str) -> IResult<&str, ExpressionKind> { fn parse_hex_literal(input: &str) -> ParseResult<ExpressionKind> {
let (rest, _) = tag("0x")(input)?; let (rest, _) = tag("0x")(input)?;
let (rest, n): (&str, u64) = map_res( let (rest, n): (&str, u64) = map_res(
take_while(|c: char| c.is_digit(16)), take_while(|c: char| c.is_digit(16)),
@ -87,7 +89,7 @@ fn parse_hex_literal(input: &str) -> IResult<&str, ExpressionKind> {
Ok((rest, expr)) Ok((rest, expr))
} }
fn parse_string_literal(text: &str) -> IResult<&str, ExpressionKind> { fn parse_string_literal(text: &str) -> ParseResult<ExpressionKind> {
use nom::character::complete::char; use nom::character::complete::char;
let (text, string_output) = delimited( let (text, string_output) = delimited(
char('"'), take_until("\""), char('"') char('"'), take_until("\""), char('"')
@ -96,7 +98,7 @@ fn parse_string_literal(text: &str) -> IResult<&str, ExpressionKind> {
Ok((text, expr)) Ok((text, expr))
} }
fn literal(input: &str) -> IResult<&str, ExpressionKind> { fn literal(input: &str) -> ParseResult<ExpressionKind> {
alt(( alt((
parse_string_literal, parse_string_literal,
parse_hex_literal, parse_hex_literal,
@ -106,18 +108,18 @@ fn literal(input: &str) -> IResult<&str, ExpressionKind> {
))(input) ))(input)
} }
fn paren_expr(text: &str) -> IResult<&str, ExpressionKind> { fn paren_expr(text: &str) -> ParseResult<ExpressionKind> {
use nom::character::complete::char; use nom::character::complete::char;
delimited(char('('), expression_kind, char(')'))(text) delimited(char('('), expression_kind, char(')'))(text)
} }
fn prefix_op(input: &str) -> IResult<&str, PrefixOp> { fn prefix_op(input: &str) -> ParseResult<PrefixOp> {
use nom::character::complete::char; use nom::character::complete::char;
let p = alt((char('+'), char('-'), char('!'))); let p = alt((char('+'), char('-'), char('!')));
map(p, |sigil| PrefixOp::from_str(&sigil.to_string()).unwrap())(input) map(p, |sigil| PrefixOp::from_str(&sigil.to_string()).unwrap())(input)
} }
fn identifier_expr(text: &str) -> IResult<&str, ExpressionKind> { fn identifier_expr(text: &str) -> ParseResult<ExpressionKind> {
let (text, qualified_identifier) = map( let (text, qualified_identifier) = map(
qualified_identifier_list, qualified_identifier_list,
|components| QualifiedName { id: ItemId::new(0), components } |components| QualifiedName { id: ItemId::new(0), components }
@ -127,11 +129,11 @@ fn identifier_expr(text: &str) -> IResult<&str, ExpressionKind> {
Ok((text, exp.kind)) Ok((text, exp.kind))
} }
fn qualified_identifier_list(text: &str) -> IResult<&str, Vec<Rc<String>>> { fn qualified_identifier_list(text: &str) -> ParseResult<Vec<Rc<String>>> {
separated_nonempty_list(tag("::"), identifier)(text) separated_nonempty_list(tag("::"), identifier)(text)
} }
fn primary_expr(text: &str) -> IResult<&str, ExpressionKind> { fn primary_expr(text: &str) -> ParseResult<ExpressionKind> {
// primary := literal | paren_expr | if_expr | for_expr | while_expr | identifier_expr | lambda_expr | anonymous_struct | list_expr // primary := literal | paren_expr | if_expr | for_expr | while_expr | identifier_expr | lambda_expr | anonymous_struct | list_expr
alt(( alt((
@ -141,7 +143,7 @@ fn primary_expr(text: &str) -> IResult<&str, ExpressionKind> {
))(text) ))(text)
} }
fn invocation_argument(text: &str) -> IResult<&str, InvocationArgument> { fn invocation_argument(text: &str) -> ParseResult<InvocationArgument> {
use nom::character::complete::char; use nom::character::complete::char;
alt(( alt((
value(InvocationArgument::Ignored, pair(char('_'), alphanumeric0)), value(InvocationArgument::Ignored, pair(char('_'), alphanumeric0)),
@ -151,7 +153,7 @@ fn invocation_argument(text: &str) -> IResult<&str, InvocationArgument> {
))(text) ))(text)
} }
fn call_expr(text: &str) -> IResult<&str, ExpressionKind> { fn call_expr(text: &str) -> ParseResult<ExpressionKind> {
use nom::character::complete::char; use nom::character::complete::char;
let (text, expr) = primary_expr(text)?; let (text, expr) = primary_expr(text)?;
let (text, call_part) = opt( let (text, call_part) = opt(
@ -166,7 +168,7 @@ fn call_expr(text: &str) -> IResult<&str, ExpressionKind> {
Ok((text, output)) Ok((text, output))
} }
fn prefix_expr(text: &str) -> IResult<&str, ExpressionKind> { fn prefix_expr(text: &str) -> ParseResult<ExpressionKind> {
let (text, pfx) = delimited(space0, opt(prefix_op), space0)(text)?; let (text, pfx) = delimited(space0, opt(prefix_op), space0)(text)?;
let (text, result) = call_expr(text)?; let (text, result) = call_expr(text)?;
match pfx { match pfx {
@ -179,7 +181,7 @@ fn prefix_expr(text: &str) -> IResult<&str, ExpressionKind> {
} }
// this implements Pratt parsing, see http://journal.stuffwithstuff.com/2011/03/19/pratt-parsers-expression-parsing-made-easy/ // this implements Pratt parsing, see http://journal.stuffwithstuff.com/2011/03/19/pratt-parsers-expression-parsing-made-easy/
fn precedence_expr(input: &str, precedence: i32) -> IResult<&str, ExpressionKind> { fn precedence_expr(input: &str, precedence: i32) -> ParseResult<ExpressionKind> {
let (mut outer_rest, mut lhs) = prefix_expr(input)?; let (mut outer_rest, mut lhs) = prefix_expr(input)?;
loop { loop {
let (rest, _) = space0(outer_rest)?; let (rest, _) = space0(outer_rest)?;
@ -203,7 +205,7 @@ fn precedence_expr(input: &str, precedence: i32) -> IResult<&str, ExpressionKind
Ok((outer_rest, lhs)) Ok((outer_rest, lhs))
} }
fn expression_kind(input: &str) -> IResult<&str, ExpressionKind> { fn expression_kind(input: &str) -> ParseResult<ExpressionKind> {
precedence_expr(input, BinOp::min_precedence()) precedence_expr(input, BinOp::min_precedence())
} }