organizize

author: Aleksey Kladov <[email protected]> 2018-08-10 20:33:29 +0100
committer: Aleksey Kladov <[email protected]> 2018-08-10 20:33:29 +0100
commit: 7c67612b8a894187fa3b64725531a5459f9211bf (patch)
tree: 9e2a536efa0c880d921fd8d4d74423afc9451fd4 /crates/libsyntax2/src/grammar/expressions
parent: 26262aaf05983c5b7f41cc438e287523268fe1eb (diff)
2 files changed, 727 insertions, 0 deletions
diff --git a/crates/libsyntax2/src/grammar/expressions/atom.rs b/crates/libsyntax2/src/grammar/expressions/atom.rs
new file mode 100644
index 000000000..af9f47c5e
--- /dev/null
+++ b/crates/libsyntax2/src/grammar/expressions/atom.rs
@@ -0,0 +1,348 @@
+use super::*;
+// test expr_literals
+// fn foo() {
+//     let _ = true;
+//     let _ = false;
+//     let _ = 1;
+//     let _ = 2.0;
+//     let _ = b'a';
+//     let _ = 'b';
+//     let _ = "c";
+//     let _ = r"d";
+//     let _ = b"e";
+//     let _ = br"f";
+// }
+const LITERAL_FIRST: TokenSet =
+    token_set![TRUE_KW, FALSE_KW, INT_NUMBER, FLOAT_NUMBER, BYTE, CHAR,
+               STRING, RAW_STRING, BYTE_STRING, RAW_BYTE_STRING];
+pub(crate) fn literal(p: &mut Parser) -> Option<CompletedMarker> {
+    if !LITERAL_FIRST.contains(p.current()) {
+        return None;
+    }
+    let m = p.start();
+    p.bump();
+    Some(m.complete(p, LITERAL))
+}
+pub(super) const ATOM_EXPR_FIRST: TokenSet =
+    token_set_union![
+        LITERAL_FIRST,
+        token_set![L_PAREN, PIPE, MOVE_KW, IF_KW, WHILE_KW, MATCH_KW, UNSAFE_KW, L_CURLY, RETURN_KW,
+                   IDENT, SELF_KW, SUPER_KW, COLONCOLON ],
+    ];
+pub(super) fn atom_expr(p: &mut Parser, r: Restrictions) -> Option<CompletedMarker> {
+    match literal(p) {
+        Some(m) => return Some(m),
+        None => (),
+    }
+    if paths::is_path_start(p) {
+        return Some(path_expr(p, r));
+    }
+    let la = p.nth(1);
+    let done = match p.current() {
+        L_PAREN => tuple_expr(p),
+        L_BRACK => array_expr(p),
+        PIPE => lambda_expr(p),
+        MOVE_KW if la == PIPE => lambda_expr(p),
+        IF_KW => if_expr(p),
+        WHILE_KW => while_expr(p),
+        LOOP_KW => loop_expr(p),
+        FOR_KW => for_expr(p),
+        MATCH_KW => match_expr(p),
+        UNSAFE_KW if la == L_CURLY => block_expr(p),
+        L_CURLY => block_expr(p),
+        RETURN_KW => return_expr(p),
+        _ => {
+            p.err_and_bump("expected expression");
+            return None;
+        }
+    };
+    Some(done)
+}
+// test tuple_expr
+// fn foo() {
+//     ();
+//     (1);
+//     (1,);
+// }
+fn tuple_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(L_PAREN));
+    let m = p.start();
+    p.expect(L_PAREN);
+    let mut saw_comma = false;
+    let mut saw_expr = false;
+    while !p.at(EOF) && !p.at(R_PAREN) {
+        saw_expr = true;
+        expr(p);
+        if !p.at(R_PAREN) {
+            saw_comma = true;
+            p.expect(COMMA);
+        }
+    }
+    p.expect(R_PAREN);
+    m.complete(p, if saw_expr && !saw_comma { PAREN_EXPR } else { TUPLE_EXPR })
+}
+// test array_expr
+// fn foo() {
+//     [];
+//     [1];
+//     [1, 2,];
+//     [1; 2];
+// }
+fn array_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(L_BRACK));
+    let m = p.start();
+    p.bump();
+    if p.eat(R_BRACK) {
+        return m.complete(p, ARRAY_EXPR);
+    }
+    expr(p);
+    if p.eat(SEMI) {
+        expr(p);
+        p.expect(R_BRACK);
+        return m.complete(p, ARRAY_EXPR);
+    }
+    while !p.at(EOF) && !p.at(R_BRACK) {
+        p.expect(COMMA);
+        if !p.at(R_BRACK) {
+            expr(p);
+        }
+    }
+    p.expect(R_BRACK);
+    m.complete(p, ARRAY_EXPR)
+}
+// test lambda_expr
+// fn foo() {
+//     || ();
+//     || -> i32 { 92 };
+//     |x| x;
+//     move |x: i32,| x;
+// }
+fn lambda_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(PIPE) || (p.at(MOVE_KW) && p.nth(1) == PIPE));
+    let m = p.start();
+    p.eat(MOVE_KW);
+    params::param_list_opt_types(p);
+    if fn_ret_type(p) {
+        block(p);
+    } else {
+        expr(p);
+    }
+    m.complete(p, LAMBDA_EXPR)
+}
+// test if_expr
+// fn foo() {
+//     if true {};
+//     if true {} else {};
+//     if true {} else if false {} else {};
+//     if S {};
+// }
+fn if_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(IF_KW));
+    let m = p.start();
+    p.bump();
+    cond(p);
+    block(p);
+    if p.at(ELSE_KW) {
+        p.bump();
+        if p.at(IF_KW) {
+            if_expr(p);
+        } else {
+            block(p);
+        }
+    }
+    m.complete(p, IF_EXPR)
+}
+// test while_expr
+// fn foo() {
+//     while true {};
+//     while let Some(x) = it.next() {};
+// }
+fn while_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(WHILE_KW));
+    let m = p.start();
+    p.bump();
+    cond(p);
+    block(p);
+    m.complete(p, WHILE_EXPR)
+}
+// test loop_expr
+// fn foo() {
+//     loop {};
+// }
+fn loop_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(LOOP_KW));
+    let m = p.start();
+    p.bump();
+    block(p);
+    m.complete(p, LOOP_EXPR)
+}
+// test for_expr
+// fn foo() {
+//     for x in [] {};
+// }
+fn for_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(FOR_KW));
+    let m = p.start();
+    p.bump();
+    patterns::pattern(p);
+    p.expect(IN_KW);
+    expr_no_struct(p);
+    block(p);
+    m.complete(p, FOR_EXPR)
+}
+// test cond
+// fn foo() { if let Some(_) = None {} }
+fn cond(p: &mut Parser) {
+    if p.eat(LET_KW) {
+        patterns::pattern(p);
+        p.expect(EQ);
+    }
+    expr_no_struct(p)
+}
+// test match_expr
+// fn foo() {
+//     match () { };
+//     match S {};
+// }
+fn match_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(MATCH_KW));
+    let m = p.start();
+    p.bump();
+    expr_no_struct(p);
+    p.eat(L_CURLY);
+    while !p.at(EOF) && !p.at(R_CURLY) {
+        // test match_arms_commas
+        // fn foo() {
+        //     match () {
+        //         _ => (),
+        //         _ => {}
+        //         _ => ()
+        //     }
+        // }
+        if match_arm(p).is_block() {
+            p.eat(COMMA);
+        } else if !p.at(R_CURLY) {
+            p.expect(COMMA);
+        }
+    }
+    p.expect(R_CURLY);
+    m.complete(p, MATCH_EXPR)
+}
+// test match_arm
+// fn foo() {
+//     match () {
+//         _ => (),
+//         X | Y if Z => (),
+//     };
+// }
+fn match_arm(p: &mut Parser) -> BlockLike {
+    let m = p.start();
+    loop {
+        patterns::pattern(p);
+        if !p.eat(PIPE) {
+            break;
+        }
+    }
+    if p.eat(IF_KW) {
+        expr_no_struct(p);
+    }
+    p.expect(FAT_ARROW);
+    let ret = expr_stmt(p);
+    m.complete(p, MATCH_ARM);
+    ret
+}
+// test block_expr
+// fn foo() {
+//     {};
+//     unsafe {};
+// }
+pub(super) fn block_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(L_CURLY) || p.at(UNSAFE_KW) && p.nth(1) == L_CURLY);
+    let m = p.start();
+    p.eat(UNSAFE_KW);
+    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::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;
+                        if p.eat(SEMI) || (is_blocklike && !p.at(R_CURLY)) {
+                            m.complete(p, EXPR_STMT);
+                        } else {
+                            m.abandon(p);
+                        }
+                    }
+                }
+            }
+        }
+    }
+    p.expect(R_CURLY);
+    m.complete(p, BLOCK_EXPR)
+}
+// 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);
+}
+// test return_expr
+// fn foo() {
+//     return;
+//     return 92;
+// }
+fn return_expr(p: &mut Parser) -> CompletedMarker {
+    assert!(p.at(RETURN_KW));
+    let m = p.start();
+    p.bump();
+    if EXPR_FIRST.contains(p.current()) {
+        expr(p);
+    }
+    m.complete(p, RETURN_EXPR)
+}
diff --git a/crates/libsyntax2/src/grammar/expressions/mod.rs b/crates/libsyntax2/src/grammar/expressions/mod.rs
new file mode 100644
index 000000000..dcbb1e2a8
--- /dev/null
+++ b/crates/libsyntax2/src/grammar/expressions/mod.rs
@@ -0,0 +1,379 @@
+mod atom;
+use super::*;
+pub(super) use self::atom::literal;
+const EXPR_FIRST: TokenSet = LHS_FIRST;
+pub(super) fn expr(p: &mut Parser) -> BlockLike {
+    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 };
+    expr_bp(p, r, 1)
+}
+fn expr_no_struct(p: &mut Parser) {
+    let r = Restrictions { forbid_structs: true, prefer_stmt: false };
+    expr_bp(p, r, 1);
+}
+// test block
+// fn a() {}
+// fn b() { let _ = 1; }
+// fn c() { 1; 2; }
+// fn d() { 1; 2 }
+pub(super) fn block(p: &mut Parser) {
+    if !p.at(L_CURLY) {
+        p.error("expected block");
+        return;
+    }
+    atom::block_expr(p);
+}
+#[derive(Clone, Copy)]
+struct Restrictions {
+    forbid_structs: bool,
+    prefer_stmt: bool,
+}
+enum Op {
+    Simple,
+    Composite(SyntaxKind, u8),
+}
+fn current_op(p: &Parser) -> (u8, Op) {
+    if p.at_compound2(PLUS, EQ) {
+        return (1, Op::Composite(PLUSEQ, 2));
+    }
+    if p.at_compound2(MINUS, EQ) {
+        return (1, Op::Composite(MINUSEQ, 2));
+    }
+    if p.at_compound3(L_ANGLE, L_ANGLE, EQ) {
+        return (1, Op::Composite(SHLEQ, 3));
+    }
+    if p.at_compound3(R_ANGLE, R_ANGLE, EQ) {
+        return (1, Op::Composite(SHREQ, 3));
+    }
+    if p.at_compound2(PIPE, PIPE) {
+        return (3, Op::Composite(PIPEPIPE, 2));
+    }
+    if p.at_compound2(AMP, AMP) {
+        return (4, Op::Composite(AMPAMP, 2));
+    }
+    if p.at_compound2(L_ANGLE, EQ) {
+        return (5, Op::Composite(LTEQ, 2));
+    }
+    if p.at_compound2(R_ANGLE, EQ) {
+        return (5, Op::Composite(GTEQ, 2));
+    }
+    if p.at_compound2(L_ANGLE, L_ANGLE) {
+        return (9, Op::Composite(SHL, 2));
+    }
+    if p.at_compound2(R_ANGLE, R_ANGLE) {
+        return (9, Op::Composite(SHR, 2));
+    }
+    let bp = match p.current() {
+        EQ => 1,
+        DOTDOT => 2,
+        EQEQ | NEQ | L_ANGLE | R_ANGLE => 5,
+        PIPE => 6,
+        CARET => 7,
+        AMP => 8,
+        MINUS | PLUS => 10,
+        STAR | SLASH | PERCENT => 11,
+        _ => 0,
+    };
+    (bp, Op::Simple)
+}
+// Parses expression with binding power of at least bp.
+fn expr_bp(p: &mut Parser, r: Restrictions, bp: u8) -> BlockLike {
+    let mut lhs = match lhs(p, r) {
+        Some(lhs) => {
+            // test stmt_bin_expr_ambiguity
+            // fn foo() {
+            //     let _ = {1} & 2;
+            //     {1} &2;
+            // }
+            if r.prefer_stmt && is_block(lhs.kind()) {
+                return BlockLike::Block;
+            }
+            lhs
+        }
+        None => return BlockLike::NotBlock,
+    };
+    loop {
+        let is_range = p.current() == DOTDOT;
+        let (op_bp, op) = current_op(p);
+        if op_bp < bp {
+            break;
+        }
+        let m = lhs.precede(p);
+        match op {
+            Op::Simple => p.bump(),
+            Op::Composite(kind, n) => {
+                p.bump_compound(kind, n);
+            }
+        }
+        expr_bp(p, r, op_bp + 1);
+        lhs = m.complete(p, if is_range { RANGE_EXPR } else { BIN_EXPR });
+    }
+    BlockLike::NotBlock
+}
+// 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,
+    }
+}
+const LHS_FIRST: TokenSet =
+    token_set_union![
+        token_set![AMP, STAR, EXCL, DOTDOT, MINUS],
+        atom::ATOM_EXPR_FIRST,
+    ];
+fn lhs(p: &mut Parser, r: Restrictions) -> Option<CompletedMarker> {
+    let m;
+    let kind = match p.current() {
+        // test ref_expr
+        // fn foo() {
+        //     let _ = &1;
+        //     let _ = &mut &f();
+        // }
+        AMP => {
+            m = p.start();
+            p.bump();
+            p.eat(MUT_KW);
+            REF_EXPR
+        }
+        // test unary_expr
+        // fn foo() {
+        //     **&1;
+        //     !!true;
+        //     --1;
+        // }
+        STAR | EXCL | MINUS => {
+            m = p.start();
+            p.bump();
+            PREFIX_EXPR
+        }
+        DOTDOT => {
+            m = p.start();
+            p.bump();
+            expr_bp(p, r, 2);
+            return Some(m.complete(p, RANGE_EXPR));
+        }
+        _ => {
+            let lhs = atom::atom_expr(p, r)?;
+            return Some(postfix_expr(p, r, lhs));
+        }
+    };
+    expr_bp(p, r, 255);
+    Some(m.complete(p, kind))
+}
+fn postfix_expr(p: &mut Parser, r: Restrictions, mut lhs: CompletedMarker) -> CompletedMarker {
+    let mut allow_calls = !r.prefer_stmt || !is_block(lhs.kind());
+    loop {
+        lhs = match p.current() {
+            // 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),
+            DOT if p.nth(1) == IDENT => if p.nth(2) == L_PAREN || p.nth(2) == COLONCOLON {
+                method_call_expr(p, lhs)
+            } else {
+                field_expr(p, lhs)
+            },
+            DOT if p.nth(1) == INT_NUMBER => field_expr(p, lhs),
+            // 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)
+            }
+            QUESTION => try_expr(p, lhs),
+            AS_KW => cast_expr(p, lhs),
+            _ => break,
+        };
+        allow_calls = true
+    }
+    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)
+}
+// 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)
+}
+// test method_call_expr
+// fn foo() {
+//     x.foo();
+//     y.bar::<T>(1, 2,);
+// }
+fn method_call_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
+    assert!(
+        p.at(DOT) && p.nth(1) == IDENT
+            && (p.nth(2) == L_PAREN || p.nth(2) == COLONCOLON)
+    );
+    let m = lhs.precede(p);
+    p.bump();
+    name_ref(p);
+    type_args::type_arg_list(p, true);
+    arg_list(p);
+    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)
+}
+// 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)
+}
+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) {
+        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>;
+//     let _ = format!();
+// }
+fn path_expr(p: &mut Parser, r: Restrictions) -> CompletedMarker {
+    assert!(paths::is_path_start(p));
+    let m = p.start();
+    paths::expr_path(p);
+    match p.current() {
+        L_CURLY if !r.forbid_structs => {
+            struct_lit(p);
+            m.complete(p, STRUCT_LIT)
+        }
+        EXCL => {
+            items::macro_call_after_excl(p);
+            m.complete(p, MACRO_CALL)
+        }
+        _ => m.complete(p, PATH_EXPR)
+    }
+}
+// test struct_lit
+// fn foo() {
+//     S {};
+//     S { x, y: 32, };
+//     S { x, y: 32, ..Default::default() };
+// }
+fn struct_lit(p: &mut Parser) {
+    assert!(p.at(L_CURLY));
+    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);
+                }
+                m.complete(p, STRUCT_LIT_FIELD);
+            }
+            DOTDOT => {
+                p.bump();
+                expr(p);
+            }
+            _ => p.err_and_bump("expected identifier"),
+        }
+        if !p.at(R_CURLY) {
+            p.expect(COMMA);
+        }
+    }
+    p.expect(R_CURLY);
+}
author	Aleksey Kladov <[email protected]>	2018-08-10 20:33:29 +0100
committer	Aleksey Kladov <[email protected]>	2018-08-10 20:33:29 +0100
commit	7c67612b8a894187fa3b64725531a5459f9211bf (patch)
tree	9e2a536efa0c880d921fd8d4d74423afc9451fd4 /crates/libsyntax2/src/grammar/expressions
parent	26262aaf05983c5b7f41cc438e287523268fe1eb (diff)

diff --git a/crates/libsyntax2/src/grammar/expressions/atom.rs b/crates/libsyntax2/src/grammar/expressions/atom.rs new file mode 100644 index 000000000..af9f47c5e --- /dev/null +++ b/crates/libsyntax2/src/grammar/expressions/atom.rs
@@ -0,0 +1,348 @@
	1	use super::*;
	2
	3	// test expr_literals
	4	// fn foo() {
	5	// let _ = true;
	6	// let _ = false;
	7	// let _ = 1;
	8	// let _ = 2.0;
	9	// let _ = b'a';
	10	// let _ = 'b';
	11	// let _ = "c";
	12	// let _ = r"d";
	13	// let _ = b"e";
	14	// let _ = br"f";
	15	// }
	16	const LITERAL_FIRST: TokenSet =
	17	token_set![TRUE_KW, FALSE_KW, INT_NUMBER, FLOAT_NUMBER, BYTE, CHAR,
	18	STRING, RAW_STRING, BYTE_STRING, RAW_BYTE_STRING];
	19
	20	pub(crate) fn literal(p: &mut Parser) -> Option<CompletedMarker> {
	21	if !LITERAL_FIRST.contains(p.current()) {
	22	return None;
	23	}
	24	let m = p.start();
	25	p.bump();
	26	Some(m.complete(p, LITERAL))
	27	}
	28
	29	pub(super) const ATOM_EXPR_FIRST: TokenSet =
	30	token_set_union![
	31	LITERAL_FIRST,
	32	token_set![L_PAREN, PIPE, MOVE_KW, IF_KW, WHILE_KW, MATCH_KW, UNSAFE_KW, L_CURLY, RETURN_KW,
	33	IDENT, SELF_KW, SUPER_KW, COLONCOLON ],
	34	];
	35
	36	pub(super) fn atom_expr(p: &mut Parser, r: Restrictions) -> Option<CompletedMarker> {
	37	match literal(p) {
	38	Some(m) => return Some(m),
	39	None => (),
	40	}
	41	if paths::is_path_start(p) {
	42	return Some(path_expr(p, r));
	43	}
	44	let la = p.nth(1);
	45	let done = match p.current() {
	46	L_PAREN => tuple_expr(p),
	47	L_BRACK => array_expr(p),
	48	PIPE => lambda_expr(p),
	49	MOVE_KW if la == PIPE => lambda_expr(p),
	50	IF_KW => if_expr(p),
	51	WHILE_KW => while_expr(p),
	52	LOOP_KW => loop_expr(p),
	53	FOR_KW => for_expr(p),
	54	MATCH_KW => match_expr(p),
	55	UNSAFE_KW if la == L_CURLY => block_expr(p),
	56	L_CURLY => block_expr(p),
	57	RETURN_KW => return_expr(p),
	58	_ => {
	59	p.err_and_bump("expected expression");
	60	return None;
	61	}
	62	};
	63	Some(done)
	64	}
	65
	66	// test tuple_expr
	67	// fn foo() {
	68	// ();
	69	// (1);
	70	// (1,);
	71	// }
	72	fn tuple_expr(p: &mut Parser) -> CompletedMarker {
	73	assert!(p.at(L_PAREN));
	74	let m = p.start();
	75	p.expect(L_PAREN);
	76
	77	let mut saw_comma = false;
	78	let mut saw_expr = false;
	79	while !p.at(EOF) && !p.at(R_PAREN) {
	80	saw_expr = true;
	81	expr(p);
	82	if !p.at(R_PAREN) {
	83	saw_comma = true;
	84	p.expect(COMMA);
	85	}
	86	}
	87	p.expect(R_PAREN);
	88	m.complete(p, if saw_expr && !saw_comma { PAREN_EXPR } else { TUPLE_EXPR })
	89	}
	90
	91	// test array_expr
	92	// fn foo() {
	93	// [];
	94	// [1];
	95	// [1, 2,];
	96	// [1; 2];
	97	// }
	98	fn array_expr(p: &mut Parser) -> CompletedMarker {
	99	assert!(p.at(L_BRACK));
	100	let m = p.start();
	101	p.bump();
	102	if p.eat(R_BRACK) {
	103	return m.complete(p, ARRAY_EXPR);
	104	}
	105	expr(p);
	106	if p.eat(SEMI) {
	107	expr(p);
	108	p.expect(R_BRACK);
	109	return m.complete(p, ARRAY_EXPR);
	110	}
	111	while !p.at(EOF) && !p.at(R_BRACK) {
	112	p.expect(COMMA);
	113	if !p.at(R_BRACK) {
	114	expr(p);
	115	}
	116	}
	117	p.expect(R_BRACK);
	118	m.complete(p, ARRAY_EXPR)
	119	}
	120
	121	// test lambda_expr
	122	// fn foo() {
	123	// \|\| ();
	124	// \|\| -> i32 { 92 };
	125	// \|x\| x;
	126	// move \|x: i32,\| x;
	127	// }
	128	fn lambda_expr(p: &mut Parser) -> CompletedMarker {
	129	assert!(p.at(PIPE) \|\| (p.at(MOVE_KW) && p.nth(1) == PIPE));
	130	let m = p.start();
	131	p.eat(MOVE_KW);
	132	params::param_list_opt_types(p);
	133	if fn_ret_type(p) {
	134	block(p);
	135	} else {
	136	expr(p);
	137	}
	138	m.complete(p, LAMBDA_EXPR)
	139	}
	140
	141	// test if_expr
	142	// fn foo() {
	143	// if true {};
	144	// if true {} else {};
	145	// if true {} else if false {} else {};
	146	// if S {};
	147	// }
	148	fn if_expr(p: &mut Parser) -> CompletedMarker {
	149	assert!(p.at(IF_KW));
	150	let m = p.start();
	151	p.bump();
	152	cond(p);
	153	block(p);
	154	if p.at(ELSE_KW) {
	155	p.bump();
	156	if p.at(IF_KW) {
	157	if_expr(p);
	158	} else {
	159	block(p);
	160	}
	161	}
	162	m.complete(p, IF_EXPR)
	163	}
	164
	165	// test while_expr
	166	// fn foo() {
	167	// while true {};
	168	// while let Some(x) = it.next() {};
	169	// }
	170	fn while_expr(p: &mut Parser) -> CompletedMarker {
	171	assert!(p.at(WHILE_KW));
	172	let m = p.start();
	173	p.bump();
	174	cond(p);
	175	block(p);
	176	m.complete(p, WHILE_EXPR)
	177	}
	178
	179	// test loop_expr
	180	// fn foo() {
	181	// loop {};
	182	// }
	183	fn loop_expr(p: &mut Parser) -> CompletedMarker {
	184	assert!(p.at(LOOP_KW));
	185	let m = p.start();
	186	p.bump();
	187	block(p);
	188	m.complete(p, LOOP_EXPR)
	189	}
	190
	191	// test for_expr
	192	// fn foo() {
	193	// for x in [] {};
	194	// }
	195	fn for_expr(p: &mut Parser) -> CompletedMarker {
	196	assert!(p.at(FOR_KW));
	197	let m = p.start();
	198	p.bump();
	199	patterns::pattern(p);
	200	p.expect(IN_KW);
	201	expr_no_struct(p);
	202	block(p);
	203	m.complete(p, FOR_EXPR)
	204	}
	205
	206	// test cond
	207	// fn foo() { if let Some(_) = None {} }
	208	fn cond(p: &mut Parser) {
	209	if p.eat(LET_KW) {
	210	patterns::pattern(p);
	211	p.expect(EQ);
	212	}
	213	expr_no_struct(p)
	214	}
	215
	216	// test match_expr
	217	// fn foo() {
	218	// match () { };
	219	// match S {};
	220	// }
	221	fn match_expr(p: &mut Parser) -> CompletedMarker {
	222	assert!(p.at(MATCH_KW));
	223	let m = p.start();
	224	p.bump();
	225	expr_no_struct(p);
	226	p.eat(L_CURLY);
	227	while !p.at(EOF) && !p.at(R_CURLY) {
	228	// test match_arms_commas
	229	// fn foo() {
	230	// match () {
	231	// _ => (),
	232	// _ => {}
	233	// _ => ()
	234	// }
	235	// }
	236	if match_arm(p).is_block() {
	237	p.eat(COMMA);
	238	} else if !p.at(R_CURLY) {
	239	p.expect(COMMA);
	240	}
	241	}
	242	p.expect(R_CURLY);
	243	m.complete(p, MATCH_EXPR)
	244	}
	245
	246	// test match_arm
	247	// fn foo() {
	248	// match () {
	249	// _ => (),
	250	// X \| Y if Z => (),
	251	// };
	252	// }
	253	fn match_arm(p: &mut Parser) -> BlockLike {
	254	let m = p.start();
	255	loop {
	256	patterns::pattern(p);
	257	if !p.eat(PIPE) {
	258	break;
	259	}
	260	}
	261	if p.eat(IF_KW) {
	262	expr_no_struct(p);
	263	}
	264	p.expect(FAT_ARROW);
	265	let ret = expr_stmt(p);
	266	m.complete(p, MATCH_ARM);
	267	ret
	268	}
	269
	270	// test block_expr
	271	// fn foo() {
	272	// {};
	273	// unsafe {};
	274	// }
	275	pub(super) fn block_expr(p: &mut Parser) -> CompletedMarker {
	276	assert!(p.at(L_CURLY) \|\| p.at(UNSAFE_KW) && p.nth(1) == L_CURLY);
	277	let m = p.start();
	278	p.eat(UNSAFE_KW);
	279	p.bump();
	280	while !p.at(EOF) && !p.at(R_CURLY) {
	281	match p.current() {
	282	LET_KW => let_stmt(p),
	283	_ => {
	284	// test block_items
	285	// fn a() { fn b() {} }
	286	let m = p.start();
	287	match items::maybe_item(p) {
	288	items::MaybeItem::Item(kind) => {
	289	m.complete(p, kind);
	290	}
	291	items::MaybeItem::Modifiers => {
	292	m.abandon(p);
	293	p.error("expected an item");
	294	}
	295	// test pub_expr
	296	// fn foo() { pub 92; } //FIXME
	297	items::MaybeItem::None => {
	298	let is_blocklike = expressions::expr_stmt(p) == BlockLike::Block;
	299	if p.eat(SEMI) \|\| (is_blocklike && !p.at(R_CURLY)) {
	300	m.complete(p, EXPR_STMT);
	301	} else {
	302	m.abandon(p);
	303	}
	304	}
	305	}
	306	}
	307	}
	308	}
	309	p.expect(R_CURLY);
	310	m.complete(p, BLOCK_EXPR)
	311	}
	312
	313	// test let_stmt;
	314	// fn foo() {
	315	// let a;
	316	// let b: i32;
	317	// let c = 92;
	318	// let d: i32 = 92;
	319	// }
	320	fn let_stmt(p: &mut Parser) {
	321	assert!(p.at(LET_KW));
	322	let m = p.start();
	323	p.bump();
	324	patterns::pattern(p);
	325	if p.at(COLON) {
	326	types::ascription(p);
	327	}
	328	if p.eat(EQ) {
	329	expressions::expr(p);
	330	}
	331	p.expect(SEMI);
	332	m.complete(p, LET_STMT);
	333	}
	334
	335	// test return_expr
	336	// fn foo() {
	337	// return;
	338	// return 92;
	339	// }
	340	fn return_expr(p: &mut Parser) -> CompletedMarker {
	341	assert!(p.at(RETURN_KW));
	342	let m = p.start();
	343	p.bump();
	344	if EXPR_FIRST.contains(p.current()) {
	345	expr(p);
	346	}
	347	m.complete(p, RETURN_EXPR)
	348	}


diff --git a/crates/libsyntax2/src/grammar/expressions/mod.rs b/crates/libsyntax2/src/grammar/expressions/mod.rs new file mode 100644 index 000000000..dcbb1e2a8 --- /dev/null +++ b/crates/libsyntax2/src/grammar/expressions/mod.rs
@@ -0,0 +1,379 @@
	1	mod atom;
	2
	3	use super::*;
	4	pub(super) use self::atom::literal;
	5
	6	const EXPR_FIRST: TokenSet = LHS_FIRST;
	7
	8	pub(super) fn expr(p: &mut Parser) -> BlockLike {
	9	let r = Restrictions { forbid_structs: false, prefer_stmt: false };
	10	expr_bp(p, r, 1)
	11	}
	12
	13	pub(super) fn expr_stmt(p: &mut Parser) -> BlockLike {
	14	let r = Restrictions { forbid_structs: false, prefer_stmt: true };
	15	expr_bp(p, r, 1)
	16	}
	17
	18	fn expr_no_struct(p: &mut Parser) {
	19	let r = Restrictions { forbid_structs: true, prefer_stmt: false };
	20	expr_bp(p, r, 1);
	21	}
	22
	23	// test block
	24	// fn a() {}
	25	// fn b() { let _ = 1; }
	26	// fn c() { 1; 2; }
	27	// fn d() { 1; 2 }
	28	pub(super) fn block(p: &mut Parser) {
	29	if !p.at(L_CURLY) {
	30	p.error("expected block");
	31	return;
	32	}
	33	atom::block_expr(p);
	34	}
	35
	36	#[derive(Clone, Copy)]
	37	struct Restrictions {
	38	forbid_structs: bool,
	39	prefer_stmt: bool,
	40	}
	41
	42	enum Op {
	43	Simple,
	44	Composite(SyntaxKind, u8),
	45	}
	46
	47	fn current_op(p: &Parser) -> (u8, Op) {
	48	if p.at_compound2(PLUS, EQ) {
	49	return (1, Op::Composite(PLUSEQ, 2));
	50	}
	51	if p.at_compound2(MINUS, EQ) {
	52	return (1, Op::Composite(MINUSEQ, 2));
	53	}
	54	if p.at_compound3(L_ANGLE, L_ANGLE, EQ) {
	55	return (1, Op::Composite(SHLEQ, 3));
	56	}
	57	if p.at_compound3(R_ANGLE, R_ANGLE, EQ) {
	58	return (1, Op::Composite(SHREQ, 3));
	59	}
	60	if p.at_compound2(PIPE, PIPE) {
	61	return (3, Op::Composite(PIPEPIPE, 2));
	62	}
	63	if p.at_compound2(AMP, AMP) {
	64	return (4, Op::Composite(AMPAMP, 2));
	65	}
	66	if p.at_compound2(L_ANGLE, EQ) {
	67	return (5, Op::Composite(LTEQ, 2));
	68	}
	69	if p.at_compound2(R_ANGLE, EQ) {
	70	return (5, Op::Composite(GTEQ, 2));
	71	}
	72	if p.at_compound2(L_ANGLE, L_ANGLE) {
	73	return (9, Op::Composite(SHL, 2));
	74	}
	75	if p.at_compound2(R_ANGLE, R_ANGLE) {
	76	return (9, Op::Composite(SHR, 2));
	77	}
	78
	79	let bp = match p.current() {
	80	EQ => 1,
	81	DOTDOT => 2,
	82	EQEQ \| NEQ \| L_ANGLE \| R_ANGLE => 5,
	83	PIPE => 6,
	84	CARET => 7,
	85	AMP => 8,
	86	MINUS \| PLUS => 10,
	87	STAR \| SLASH \| PERCENT => 11,
	88	_ => 0,
	89	};
	90	(bp, Op::Simple)
	91	}
	92
	93	// Parses expression with binding power of at least bp.
	94	fn expr_bp(p: &mut Parser, r: Restrictions, bp: u8) -> BlockLike {
	95	let mut lhs = match lhs(p, r) {
	96	Some(lhs) => {
	97	// test stmt_bin_expr_ambiguity
	98	// fn foo() {
	99	// let _ = {1} & 2;
	100	// {1} &2;
	101	// }
	102	if r.prefer_stmt && is_block(lhs.kind()) {
	103	return BlockLike::Block;
	104	}
	105	lhs
	106	}
	107	None => return BlockLike::NotBlock,
	108	};
	109
	110	loop {
	111	let is_range = p.current() == DOTDOT;
	112	let (op_bp, op) = current_op(p);
	113	if op_bp < bp {
	114	break;
	115	}
	116	let m = lhs.precede(p);
	117	match op {
	118	Op::Simple => p.bump(),
	119	Op::Composite(kind, n) => {
	120	p.bump_compound(kind, n);
	121	}
	122	}
	123	expr_bp(p, r, op_bp + 1);
	124	lhs = m.complete(p, if is_range { RANGE_EXPR } else { BIN_EXPR });
	125	}
	126	BlockLike::NotBlock
	127	}
	128
	129	// test no_semi_after_block
	130	// fn foo() {
	131	// if true {}
	132	// loop {}
	133	// match () {}
	134	// while true {}
	135	// for _ in () {}
	136	// {}
	137	// {}
	138	// }
	139	fn is_block(kind: SyntaxKind) -> bool {
	140	match kind {
	141	IF_EXPR \| WHILE_EXPR \| FOR_EXPR \| LOOP_EXPR \| MATCH_EXPR \| BLOCK_EXPR => true,
	142	_ => false,
	143	}
	144	}
	145
	146	const LHS_FIRST: TokenSet =
	147	token_set_union![
	148	token_set![AMP, STAR, EXCL, DOTDOT, MINUS],
	149	atom::ATOM_EXPR_FIRST,
	150	];
	151
	152	fn lhs(p: &mut Parser, r: Restrictions) -> Option<CompletedMarker> {
	153	let m;
	154	let kind = match p.current() {
	155	// test ref_expr
	156	// fn foo() {
	157	// let _ = &1;
	158	// let _ = &mut &f();
	159	// }
	160	AMP => {
	161	m = p.start();
	162	p.bump();
	163	p.eat(MUT_KW);
	164	REF_EXPR
	165	}
	166	// test unary_expr
	167	// fn foo() {
	168	// **&1;
	169	// !!true;
	170	// --1;
	171	// }
	172	STAR \| EXCL \| MINUS => {
	173	m = p.start();
	174	p.bump();
	175	PREFIX_EXPR
	176	}
	177	DOTDOT => {
	178	m = p.start();
	179	p.bump();
	180	expr_bp(p, r, 2);
	181	return Some(m.complete(p, RANGE_EXPR));
	182	}
	183	_ => {
	184	let lhs = atom::atom_expr(p, r)?;
	185	return Some(postfix_expr(p, r, lhs));
	186	}
	187	};
	188	expr_bp(p, r, 255);
	189	Some(m.complete(p, kind))
	190	}
	191
	192	fn postfix_expr(p: &mut Parser, r: Restrictions, mut lhs: CompletedMarker) -> CompletedMarker {
	193	let mut allow_calls = !r.prefer_stmt \|\| !is_block(lhs.kind());
	194	loop {
	195	lhs = match p.current() {
	196	// test stmt_postfix_expr_ambiguity
	197	// fn foo() {
	198	// match () {
	199	// _ => {}
	200	// () => {}
	201	// [] => {}
	202	// }
	203	// }
	204	L_PAREN if allow_calls => call_expr(p, lhs),
	205	L_BRACK if allow_calls => index_expr(p, lhs),
	206	DOT if p.nth(1) == IDENT => if p.nth(2) == L_PAREN \|\| p.nth(2) == COLONCOLON {
	207	method_call_expr(p, lhs)
	208	} else {
	209	field_expr(p, lhs)
	210	},
	211	DOT if p.nth(1) == INT_NUMBER => field_expr(p, lhs),
	212	// test postfix_range
	213	// fn foo() { let x = 1..; }
	214	DOTDOT if !EXPR_FIRST.contains(p.nth(1)) => {
	215	let m = lhs.precede(p);
	216	p.bump();
	217	m.complete(p, RANGE_EXPR)
	218	}
	219	QUESTION => try_expr(p, lhs),
	220	AS_KW => cast_expr(p, lhs),
	221	_ => break,
	222	};
	223	allow_calls = true
	224	}
	225	lhs
	226	}
	227
	228	// test call_expr
	229	// fn foo() {
	230	// let _ = f();
	231	// let _ = f()(1)(1, 2,);
	232	// }
	233	fn call_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	234	assert!(p.at(L_PAREN));
	235	let m = lhs.precede(p);
	236	arg_list(p);
	237	m.complete(p, CALL_EXPR)
	238	}
	239
	240	// test index_expr
	241	// fn foo() {
	242	// x[1][2];
	243	// }
	244	fn index_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	245	assert!(p.at(L_BRACK));
	246	let m = lhs.precede(p);
	247	p.bump();
	248	expr(p);
	249	p.expect(R_BRACK);
	250	m.complete(p, INDEX_EXPR)
	251	}
	252
	253	// test method_call_expr
	254	// fn foo() {
	255	// x.foo();
	256	// y.bar::<T>(1, 2,);
	257	// }
	258	fn method_call_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	259	assert!(
	260	p.at(DOT) && p.nth(1) == IDENT
	261	&& (p.nth(2) == L_PAREN \|\| p.nth(2) == COLONCOLON)
	262	);
	263	let m = lhs.precede(p);
	264	p.bump();
	265	name_ref(p);
	266	type_args::type_arg_list(p, true);
	267	arg_list(p);
	268	m.complete(p, METHOD_CALL_EXPR)
	269	}
	270
	271	// test field_expr
	272	// fn foo() {
	273	// x.foo;
	274	// x.0.bar;
	275	// }
	276	fn field_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	277	assert!(p.at(DOT) && (p.nth(1) == IDENT \|\| p.nth(1) == INT_NUMBER));
	278	let m = lhs.precede(p);
	279	p.bump();
	280	if p.at(IDENT) {
	281	name_ref(p)
	282	} else {
	283	p.bump()
	284	}
	285	m.complete(p, FIELD_EXPR)
	286	}
	287
	288	// test try_expr
	289	// fn foo() {
	290	// x?;
	291	// }
	292	fn try_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	293	assert!(p.at(QUESTION));
	294	let m = lhs.precede(p);
	295	p.bump();
	296	m.complete(p, TRY_EXPR)
	297	}
	298
	299	// test cast_expr
	300	// fn foo() {
	301	// 82 as i32;
	302	// }
	303	fn cast_expr(p: &mut Parser, lhs: CompletedMarker) -> CompletedMarker {
	304	assert!(p.at(AS_KW));
	305	let m = lhs.precede(p);
	306	p.bump();
	307	types::type_(p);
	308	m.complete(p, CAST_EXPR)
	309	}
	310
	311	fn arg_list(p: &mut Parser) {
	312	assert!(p.at(L_PAREN));
	313	let m = p.start();
	314	p.bump();
	315	while !p.at(R_PAREN) && !p.at(EOF) {
	316	expr(p);
	317	if !p.at(R_PAREN) && !p.expect(COMMA) {
	318	break;
	319	}
	320	}
	321	p.eat(R_PAREN);
	322	m.complete(p, ARG_LIST);
	323	}
	324
	325	// test path_expr
	326	// fn foo() {
	327	// let _ = a;
	328	// let _ = a::b;
	329	// let _ = ::a::<b>;
	330	// let _ = format!();
	331	// }
	332	fn path_expr(p: &mut Parser, r: Restrictions) -> CompletedMarker {
	333	assert!(paths::is_path_start(p));
	334	let m = p.start();
	335	paths::expr_path(p);
	336	match p.current() {
	337	L_CURLY if !r.forbid_structs => {
	338	struct_lit(p);
	339	m.complete(p, STRUCT_LIT)
	340	}
	341	EXCL => {
	342	items::macro_call_after_excl(p);
	343	m.complete(p, MACRO_CALL)
	344	}
	345	_ => m.complete(p, PATH_EXPR)
	346	}
	347	}
	348
	349	// test struct_lit
	350	// fn foo() {
	351	// S {};
	352	// S { x, y: 32, };
	353	// S { x, y: 32, ..Default::default() };
	354	// }
	355	fn struct_lit(p: &mut Parser) {
	356	assert!(p.at(L_CURLY));
	357	p.bump();
	358	while !p.at(EOF) && !p.at(R_CURLY) {
	359	match p.current() {
	360	IDENT => {
	361	let m = p.start();
	362	name_ref(p);
	363	if p.eat(COLON) {
	364	expr(p);
	365	}
	366	m.complete(p, STRUCT_LIT_FIELD);
	367	}
	368	DOTDOT => {
	369	p.bump();
	370	expr(p);
	371	}
	372	_ => p.err_and_bump("expected identifier"),
	373	}
	374	if !p.at(R_CURLY) {
	375	p.expect(COMMA);
	376	}
	377	}
	378	p.expect(R_CURLY);
	379	}