rust/crates/ra_syntax/src/grammar/expressions/mod.rs

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mod atom;
use super::*;
pub(super) use self::atom::{literal, LITERAL_FIRST};
pub(crate) use self::atom::match_arm_list;
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const EXPR_FIRST: TokenSet = LHS_FIRST;
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pub(super) fn expr(p: &mut Parser) -> BlockLike {
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let r = Restrictions { forbid_structs: false, prefer_stmt: false };
expr_bp(p, r, 1)
}
pub(super) fn expr_stmt(p: &mut Parser) -> BlockLike {
let r = Restrictions { forbid_structs: false, prefer_stmt: true };
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expr_bp(p, r, 1)
}
fn expr_no_struct(p: &mut Parser) {
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let r = Restrictions { forbid_structs: true, prefer_stmt: false };
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expr_bp(p, r, 1);
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}
// test block
// fn a() {}
// fn b() { let _ = 1; }
// fn c() { 1; 2; }
// fn d() { 1; 2 }
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pub(crate) fn block(p: &mut Parser) {
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if !p.at(L_CURLY) {
p.error("expected a block");
return;
}
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let m = p.start();
p.bump();
while !p.at(EOF) && !p.at(R_CURLY) {
match p.current() {
LET_KW => let_stmt(p),
_ => {
// test block_items
// fn a() { fn b() {} }
let m = p.start();
match items::maybe_item(p, items::ItemFlavor::Mod) {
items::MaybeItem::Item(kind) => {
m.complete(p, kind);
}
items::MaybeItem::Modifiers => {
m.abandon(p);
p.error("expected an item");
}
// test pub_expr
// fn foo() { pub 92; } //FIXME
items::MaybeItem::None => {
let is_blocklike = expressions::expr_stmt(p) == BlockLike::Block;
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if p.at(R_CURLY) {
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m.abandon(p);
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} else {
if is_blocklike {
p.eat(SEMI);
} else {
p.expect(SEMI);
}
m.complete(p, EXPR_STMT);
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}
}
}
}
}
}
p.expect(R_CURLY);
m.complete(p, BLOCK);
// test let_stmt;
// fn foo() {
// let a;
// let b: i32;
// let c = 92;
// let d: i32 = 92;
// }
fn let_stmt(p: &mut Parser) {
assert!(p.at(LET_KW));
let m = p.start();
p.bump();
patterns::pattern(p);
if p.at(COLON) {
types::ascription(p);
}
if p.eat(EQ) {
expressions::expr(p);
}
p.expect(SEMI);
m.complete(p, LET_STMT);
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}
}
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#[derive(Clone, Copy)]
struct Restrictions {
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forbid_structs: bool,
prefer_stmt: bool,
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}
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enum Op {
Simple,
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Composite(SyntaxKind, u8),
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}
fn current_op(p: &Parser) -> (u8, Op) {
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if let Some(t) = p.next3() {
match t {
(L_ANGLE, L_ANGLE, EQ) =>
return (1, Op::Composite(SHLEQ, 3)),
(R_ANGLE, R_ANGLE, EQ) =>
return (1, Op::Composite(SHREQ, 3)),
_ => (),
}
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}
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if let Some(t) = p.next2() {
match t {
(PLUS, EQ) => return (1, Op::Composite(PLUSEQ, 2)),
(MINUS, EQ) => return (1, Op::Composite(MINUSEQ, 2)),
(STAR, EQ) => return (1, Op::Composite(STAREQ, 2)),
(SLASH, EQ) => return (1, Op::Composite(SLASHEQ, 2)),
(PIPE, EQ) => return (1, Op::Composite(PIPEEQ, 2)),
(AMP, EQ) => return (1, Op::Composite(AMPEQ, 2)),
(CARET, EQ) => return (1, Op::Composite(CARETEQ, 2)),
(PIPE, PIPE) => return (3, Op::Composite(PIPEPIPE, 2)),
(AMP, AMP) => return (4, Op::Composite(AMPAMP, 2)),
(L_ANGLE, EQ) => return (5, Op::Composite(LTEQ, 2)),
(R_ANGLE, EQ) => return (5, Op::Composite(GTEQ, 2)),
(L_ANGLE, L_ANGLE) => return (9, Op::Composite(SHL, 2)),
(R_ANGLE, R_ANGLE) => return (9, Op::Composite(SHR, 2)),
_ => (),
}
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}
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let bp = match p.current() {
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EQ => 1,
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DOTDOT => 2,
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EQEQ | NEQ | L_ANGLE | R_ANGLE => 5,
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PIPE => 6,
CARET => 7,
AMP => 8,
MINUS | PLUS => 10,
STAR | SLASH | PERCENT => 11,
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_ => 0,
};
(bp, Op::Simple)
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}
// Parses expression with binding power of at least bp.
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fn expr_bp(p: &mut Parser, r: Restrictions, bp: u8) -> BlockLike {
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let mut lhs = match lhs(p, r) {
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Some(lhs) => {
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// test stmt_bin_expr_ambiguity
// fn foo() {
// let _ = {1} & 2;
// {1} &2;
// }
if r.prefer_stmt && is_block(lhs.kind()) {
return BlockLike::Block;
}
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lhs
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}
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None => return BlockLike::NotBlock,
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};
loop {
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let is_range = p.current() == DOTDOT;
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let (op_bp, op) = current_op(p);
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if op_bp < bp {
break;
}
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let m = lhs.precede(p);
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match op {
Op::Simple => p.bump(),
Op::Composite(kind, n) => {
p.bump_compound(kind, n);
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}
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}
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expr_bp(p, r, op_bp + 1);
lhs = m.complete(p, if is_range { RANGE_EXPR } else { BIN_EXPR });
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}
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BlockLike::NotBlock
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}
// test no_semi_after_block
// fn foo() {
// if true {}
// loop {}
// match () {}
// while true {}
// for _ in () {}
// {}
// {}
// }
fn is_block(kind: SyntaxKind) -> bool {
match kind {
IF_EXPR | WHILE_EXPR | FOR_EXPR | LOOP_EXPR | MATCH_EXPR | BLOCK_EXPR => true,
_ => false,
}
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}
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const LHS_FIRST: TokenSet =
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token_set_union![
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token_set![AMP, STAR, EXCL, DOTDOT, MINUS],
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atom::ATOM_EXPR_FIRST,
];
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fn lhs(p: &mut Parser, r: Restrictions) -> Option<CompletedMarker> {
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let m;
let kind = match p.current() {
// test ref_expr
// fn foo() {
// let _ = &1;
// let _ = &mut &f();
// }
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AMP => {
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m = p.start();
p.bump();
p.eat(MUT_KW);
REF_EXPR
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}
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// test unary_expr
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// fn foo() {
// **&1;
// !!true;
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// --1;
// }
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STAR | EXCL | MINUS => {
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m = p.start();
p.bump();
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PREFIX_EXPR
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}
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// test full_range_expr
// fn foo() { xs[..]; }
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DOTDOT => {
m = p.start();
p.bump();
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if p.at_ts(EXPR_FIRST) {
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expr_bp(p, r, 2);
}
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return Some(m.complete(p, RANGE_EXPR));
}
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_ => {
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let lhs = atom::atom_expr(p, r)?;
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return Some(postfix_expr(p, r, lhs));
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}
};
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expr_bp(p, r, 255);
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Some(m.complete(p, kind))
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}
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fn postfix_expr(p: &mut Parser, r: Restrictions, mut lhs: CompletedMarker) -> CompletedMarker {
let mut allow_calls = !r.prefer_stmt || !is_block(lhs.kind());
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loop {
lhs = match p.current() {
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// test stmt_postfix_expr_ambiguity
// fn foo() {
// match () {
// _ => {}
// () => {}
// [] => {}
// }
// }
L_PAREN if allow_calls => call_expr(p, lhs),
L_BRACK if allow_calls => index_expr(p, lhs),
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DOT if p.nth(1) == IDENT => if p.nth(2) == L_PAREN || p.nth(2) == COLONCOLON {
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method_call_expr(p, lhs)
} else {
field_expr(p, lhs)
},
DOT if p.nth(1) == INT_NUMBER => field_expr(p, lhs),
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// test postfix_range
// fn foo() { let x = 1..; }
DOTDOT if !EXPR_FIRST.contains(p.nth(1)) => {
let m = lhs.precede(p);
p.bump();
m.complete(p, RANGE_EXPR)
}
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QUESTION => try_expr(p, lhs),
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AS_KW => cast_expr(p, lhs),
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_ => break,
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};
allow_calls = true
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}
lhs
}
// test call_expr
// fn foo() {
// let _ = f();
// let _ = f()(1)(1, 2,);
// }
fn call_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
assert!(p.at(L_PAREN));
let m = lhs.precede(p);
arg_list(p);
m.complete(p, CALL_EXPR)
}
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// test index_expr
// fn foo() {
// x[1][2];
// }
fn index_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
assert!(p.at(L_BRACK));
let m = lhs.precede(p);
p.bump();
expr(p);
p.expect(R_BRACK);
m.complete(p, INDEX_EXPR)
}
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// test method_call_expr
// fn foo() {
// x.foo();
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// y.bar::<T>(1, 2,);
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// }
fn method_call_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
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assert!(
p.at(DOT) && p.nth(1) == IDENT
&& (p.nth(2) == L_PAREN || p.nth(2) == COLONCOLON)
);
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let m = lhs.precede(p);
p.bump();
name_ref(p);
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type_args::opt_type_arg_list(p, true);
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if p.at(L_PAREN) {
arg_list(p);
}
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m.complete(p, METHOD_CALL_EXPR)
}
// test field_expr
// fn foo() {
// x.foo;
// x.0.bar;
// }
fn field_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
assert!(p.at(DOT) && (p.nth(1) == IDENT || p.nth(1) == INT_NUMBER));
let m = lhs.precede(p);
p.bump();
if p.at(IDENT) {
name_ref(p)
} else {
p.bump()
}
m.complete(p, FIELD_EXPR)
}
// test try_expr
// fn foo() {
// x?;
// }
fn try_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
assert!(p.at(QUESTION));
let m = lhs.precede(p);
p.bump();
m.complete(p, TRY_EXPR)
}
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// test cast_expr
// fn foo() {
// 82 as i32;
// }
fn cast_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
assert!(p.at(AS_KW));
let m = lhs.precede(p);
p.bump();
types::type_(p);
m.complete(p, CAST_EXPR)
}
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fn arg_list(p: &mut Parser) {
assert!(p.at(L_PAREN));
let m = p.start();
p.bump();
while !p.at(R_PAREN) && !p.at(EOF) {
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if !p.at_ts(EXPR_FIRST) {
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p.error("expected expression");
break;
}
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expr(p);
if !p.at(R_PAREN) && !p.expect(COMMA) {
break;
}
}
p.eat(R_PAREN);
m.complete(p, ARG_LIST);
}
// test path_expr
// fn foo() {
// let _ = a;
// let _ = a::b;
// let _ = ::a::<b>;
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// let _ = format!();
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// }
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fn path_expr(p: &mut Parser, r: Restrictions) -> CompletedMarker {
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assert!(paths::is_path_start(p) || p.at(L_ANGLE));
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let m = p.start();
paths::expr_path(p);
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match p.current() {
L_CURLY if !r.forbid_structs => {
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named_field_list(p);
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m.complete(p, STRUCT_LIT)
}
EXCL => {
items::macro_call_after_excl(p);
m.complete(p, MACRO_CALL)
}
_ => m.complete(p, PATH_EXPR)
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}
}
// test struct_lit
// fn foo() {
// S {};
// S { x, y: 32, };
// S { x, y: 32, ..Default::default() };
// }
pub(crate) fn named_field_list(p: &mut Parser) {
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assert!(p.at(L_CURLY));
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let m = p.start();
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p.bump();
while !p.at(EOF) && !p.at(R_CURLY) {
match p.current() {
IDENT => {
let m = p.start();
name_ref(p);
if p.eat(COLON) {
expr(p);
}
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m.complete(p, NAMED_FIELD);
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}
DOTDOT => {
p.bump();
expr(p);
}
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L_CURLY => error_block(p, "expected a field"),
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_ => p.err_and_bump("expected identifier"),
}
if !p.at(R_CURLY) {
p.expect(COMMA);
}
}
p.expect(R_CURLY);
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m.complete(p, NAMED_FIELD_LIST);
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}