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gerrit-public.fairphone.software / platform / external / rust / crates / syn / 3bcfb72685494c0cee2530fce71f01ab0f55c99e / . / src / expr.rs
blob: d370f34de468efa7698f386c29f013b3b26713b6 [file] [log] [blame]
use super::*;
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Expr {
/// A `box x` expression.
Box(Box<Expr>),
/// An array (`[a, b, c, d]`)
Vec(Vec<Expr>),
/// A function call
///
/// The first field resolves to the function itself,
/// and the second field is the list of arguments
Call(Box<Expr>, Vec<Expr>),
/// A method call (`x.foo::<Bar, Baz>(a, b, c, d)`)
///
/// The `Ident` is the identifier for the method name.
/// The vector of `Ty`s are the ascripted type parameters for the method
/// (within the angle brackets).
///
/// The first element of the vector of `Expr`s is the expression that evaluates
/// to the object on which the method is being called on (the receiver),
/// and the remaining elements are the rest of the arguments.
///
/// Thus, `x.foo::<Bar, Baz>(a, b, c, d)` is represented as
/// `ExprKind::MethodCall(foo, [Bar, Baz], [x, a, b, c, d])`.
MethodCall(Ident, Vec<Ty>, Vec<Expr>),
/// A tuple (`(a, b, c, d)`)
Tup(Vec<Expr>),
/// A binary operation (For example: `a + b`, `a * b`)
Binary(BinOp, Box<Expr>, Box<Expr>),
/// A unary operation (For example: `!x`, `*x`)
Unary(UnOp, Box<Expr>),
/// A literal (For example: `1`, `"foo"`)
Lit(Lit),
/// A cast (`foo as f64`)
Cast(Box<Expr>, Box<Ty>),
/// Type ascription (`foo: f64`)
Type(Box<Expr>, Box<Ty>),
/// An `if` block, with an optional else block
///
/// `if expr { block } else { expr }`
If(Box<Expr>, Block, Option<Box<Expr>>),
/// An `if let` expression with an optional else block
///
/// `if let pat = expr { block } else { expr }`
///
/// This is desugared to a `match` expression.
IfLet(Box<Pat>, Box<Expr>, Block, Option<Box<Expr>>),
/// A while loop, with an optional label
///
/// `'label: while expr { block }`
While(Box<Expr>, Block, Option<Ident>),
/// A while-let loop, with an optional label
///
/// `'label: while let pat = expr { block }`
///
/// This is desugared to a combination of `loop` and `match` expressions.
WhileLet(Box<Pat>, Box<Expr>, Block, Option<Ident>),
/// A for loop, with an optional label
///
/// `'label: for pat in expr { block }`
///
/// This is desugared to a combination of `loop` and `match` expressions.
ForLoop(Box<Pat>, Box<Expr>, Block, Option<Ident>),
/// Conditionless loop (can be exited with break, continue, or return)
///
/// `'label: loop { block }`
Loop(Block, Option<Ident>),
/// A `match` block.
Match(Box<Expr>, Vec<Arm>),
/// A closure (for example, `move |a, b, c| {a + b + c}`)
Closure(CaptureBy, Box<FnDecl>, Block),
/// A block (`{ ... }` or `unsafe { ... }`)
Block(BlockCheckMode, Block),
/// An assignment (`a = foo()`)
Assign(Box<Expr>, Box<Expr>),
/// An assignment with an operator
///
/// For example, `a += 1`.
AssignOp(BinOp, Box<Expr>, Box<Expr>),
/// Access of a named struct field (`obj.foo`)
Field(Box<Expr>, Ident),
/// Access of an unnamed field of a struct or tuple-struct
///
/// For example, `foo.0`.
TupField(Box<Expr>, usize),
/// An indexing operation (`foo[2]`)
Index(Box<Expr>, Box<Expr>),
/// A range (`1..2`, `1..`, `..2`, `1...2`, `1...`, `...2`)
Range(Option<Box<Expr>>, Option<Box<Expr>>, RangeLimits),
/// Variable reference, possibly containing `::` and/or type
/// parameters, e.g. foo::bar::<baz>.
///
/// Optionally "qualified",
/// E.g. `<Vec<T> as SomeTrait>::SomeType`.
Path(Option<QSelf>, Path),
/// A referencing operation (`&a` or `&mut a`)
AddrOf(Mutability, Box<Expr>),
/// A `break`, with an optional label to break
Break(Option<Ident>),
/// A `continue`, with an optional label
Continue(Option<Ident>),
/// A `return`, with an optional value to be returned
Ret(Option<Box<Expr>>),
/// A macro invocation; pre-expansion
Mac(Mac),
/// A struct literal expression.
///
/// For example, `Foo {x: 1, y: 2}`, or
/// `Foo {x: 1, .. base}`, where `base` is the `Option<Expr>`.
Struct(Path, Vec<FieldValue>, Option<Box<Expr>>),
/// An array literal constructed from one repeated element.
///
/// For example, `[1; 5]`. The first expression is the element
/// to be repeated; the second is the number of times to repeat it.
Repeat(Box<Expr>, Box<Expr>),
/// No-op: used solely so we can pretty-print faithfully
Paren(Box<Expr>),
/// `expr?`
Try(Box<Expr>),
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct FieldValue {
pub ident: Ident,
pub expr: Expr,
}
/// A Block (`{ .. }`).
///
/// E.g. `{ .. }` as in `fn foo() { .. }`
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct Block {
/// Statements in a block
pub stmts: Vec<Stmt>,
}
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub enum BlockCheckMode {
Default,
Unsafe,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Stmt {
/// A local (let) binding.
Local(Box<Local>),
/// An item definition.
Item(Box<Item>),
/// Expr without trailing semi-colon.
Expr(Box<Expr>),
Semi(Box<Expr>),
Mac(Box<(Mac, MacStmtStyle, Vec<Attribute>)>),
}
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub enum MacStmtStyle {
/// The macro statement had a trailing semicolon, e.g. `foo! { ... };`
/// `foo!(...);`, `foo![...];`
Semicolon,
/// The macro statement had braces; e.g. foo! { ... }
Braces,
/// The macro statement had parentheses or brackets and no semicolon; e.g.
/// `foo!(...)`. All of these will end up being converted into macro
/// expressions.
NoBraces,
}
/// Local represents a `let` statement, e.g., `let <pat>:<ty> = <expr>;`
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct Local {
pub pat: Box<Pat>,
pub ty: Option<Box<Ty>>,
/// Initializer expression to set the value, if any
pub init: Option<Box<Expr>>,
pub attrs: Vec<Attribute>,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Pat {
/// Represents a wildcard pattern (`_`)
Wild,
/// A `Pat::Ident` may either be a new bound variable (`ref mut binding @ OPT_SUBPATTERN`),
/// or a unit struct/variant pattern, or a const pattern (in the last two cases the third
/// field must be `None`). Disambiguation cannot be done with parser alone, so it happens
/// during name resolution.
Ident(BindingMode, Ident, Option<Box<Pat>>),
/// A struct or struct variant pattern, e.g. `Variant {x, y, ..}`.
/// The `bool` is `true` in the presence of a `..`.
Struct(Path, Vec<FieldPat>, bool),
/// A tuple struct/variant pattern `Variant(x, y, .., z)`.
/// If the `..` pattern fragment is present, then `Option<usize>` denotes its position.
/// 0 <= position <= subpats.len()
TupleStruct(Path, Vec<Pat>, Option<usize>),
/// A possibly qualified path pattern.
/// Unquailfied path patterns `A::B::C` can legally refer to variants, structs, constants
/// or associated constants. Quailfied path patterns `<A>::B::C`/`<A as Trait>::B::C` can
/// only legally refer to associated constants.
Path(Option<QSelf>, Path),
/// A tuple pattern `(a, b)`.
/// If the `..` pattern fragment is present, then `Option<usize>` denotes its position.
/// 0 <= position <= subpats.len()
Tuple(Vec<Pat>, Option<usize>),
/// A `box` pattern
Box(Box<Pat>),
/// A reference pattern, e.g. `&mut (a, b)`
Ref(Box<Pat>, Mutability),
/// A literal
Lit(Box<Lit>),
/// A range pattern, e.g. `1...2`
Range(Box<Lit>, Box<Lit>),
/// `[a, b, ..i, y, z]` is represented as:
/// `Pat::Slice(box [a, b], Some(i), box [y, z])`
Slice(Vec<Pat>, Option<Box<Pat>>, Vec<Pat>),
/// A macro pattern; pre-expansion
Mac(Mac),
}
/// An arm of a 'match'.
///
/// E.g. `0...10 => { println!("match!") }` as in
///
/// ```rust,ignore
/// match n {
/// 0...10 => { println!("match!") },
/// // ..
/// }
/// ```
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct Arm {
pub attrs: Vec<Attribute>,
pub pats: Vec<Pat>,
pub guard: Option<Box<Expr>>,
pub body: Box<Expr>,
}
/// A capture clause
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub enum CaptureBy {
Value,
Ref,
}
/// Limit types of a range (inclusive or exclusive)
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub enum RangeLimits {
/// Inclusive at the beginning, exclusive at the end
HalfOpen,
/// Inclusive at the beginning and end
Closed,
}
/// A single field in a struct pattern
///
/// Patterns like the fields of Foo `{ x, ref y, ref mut z }`
/// are treated the same as `x: x, y: ref y, z: ref mut z`,
/// except `is_shorthand` is true
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct FieldPat {
/// The identifier for the field
pub ident: Ident,
/// The pattern the field is destructured to
pub pat: Box<Pat>,
pub is_shorthand: bool,
}
#[derive(Debug, Copy, Clone, Eq, PartialEq)]
pub enum BindingMode {
ByRef(Mutability),
ByValue(Mutability),
}
#[cfg(feature = "parsing")]
pub mod parsing {
use super::*;
use {BinOp, Delimited, DelimToken, FnArg, FnDecl, FunctionRetTy, Ident, Lifetime, TokenTree,
Ty};
use attr::parsing::outer_attr;
use generics::parsing::lifetime;
use ident::parsing::ident;
use item::parsing::item;
use lit::parsing::{digits, lit};
use mac::parsing::mac;
use nom::IResult::Error;
use op::parsing::{assign_op, binop, unop};
use ty::parsing::{mutability, path, qpath, ty};
named!(pub expr -> Expr, do_parse!(
mut e: alt!(
expr_lit // must be before expr_struct
|
expr_struct // must be before expr_path
|
expr_paren // must be before expr_tup
|
expr_mac // must be before expr_path
|
expr_break // must be before expr_path
|
expr_continue // must be before expr_path
|
expr_ret // must be before expr_path
|
expr_box
|
expr_vec
|
expr_tup
|
expr_unary
|
expr_if
|
expr_while
|
expr_for_loop
|
expr_loop
|
expr_match
|
expr_closure
|
expr_block
|
expr_range
|
expr_path
|
expr_addr_of
|
expr_repeat
) >>
many0!(alt!(
tap!(args: and_call => {
e = Expr::Call(Box::new(e), args);
})
|
tap!(more: and_method_call => {
let (method, ascript, mut args) = more;
args.insert(0, e);
e = Expr::MethodCall(method, ascript, args);
})
|
tap!(more: and_binary => {
let (op, other) = more;
e = Expr::Binary(op, Box::new(e), Box::new(other));
})
|
tap!(ty: and_cast => {
e = Expr::Cast(Box::new(e), Box::new(ty));
})
|
tap!(ty: and_ascription => {
e = Expr::Type(Box::new(e), Box::new(ty));
})
|
tap!(v: and_assign => {
e = Expr::Assign(Box::new(e), Box::new(v));
})
|
tap!(more: and_assign_op => {
let (op, v) = more;
e = Expr::AssignOp(op, Box::new(e), Box::new(v));
})
|
tap!(field: and_field => {
e = Expr::Field(Box::new(e), field);
})
|
tap!(field: and_tup_field => {
e = Expr::TupField(Box::new(e), field as usize);
})
|
tap!(i: and_index => {
e = Expr::Index(Box::new(e), Box::new(i));
})
|
tap!(more: and_range => {
let (limits, hi) = more;
e = Expr::Range(Some(Box::new(e)), hi.map(Box::new), limits);
})
|
tap!(_try: punct!("?") => {
e = Expr::Try(Box::new(e));
})
)) >>
(e)
));
named!(expr_mac -> Expr, map!(mac, Expr::Mac));
named!(expr_paren -> Expr, do_parse!(
punct!("(") >>
e: expr >>
punct!(")") >>
(Expr::Paren(Box::new(e)))
));
named!(expr_box -> Expr, do_parse!(
keyword!("box") >>
inner: expr >>
(Expr::Box(Box::new(inner)))
));
named!(expr_vec -> Expr, do_parse!(
punct!("[") >>
elems: separated_list!(punct!(","), expr) >>
cond!(!elems.is_empty(), option!(punct!(","))) >>
punct!("]") >>
(Expr::Vec(elems))
));
named!(and_call -> Vec<Expr>, do_parse!(
punct!("(") >>
args: separated_list!(punct!(","), expr) >>
cond!(!args.is_empty(), option!(punct!(","))) >>
punct!(")") >>
(args)
));
named!(and_method_call -> (Ident, Vec<Ty>, Vec<Expr>), do_parse!(
punct!(".") >>
method: ident >>
ascript: opt_vec!(preceded!(
punct!("::"),
delimited!(
punct!("<"),
separated_list!(punct!(","), ty),
punct!(">")
)
)) >>
punct!("(") >>
args: separated_list!(punct!(","), expr) >>
cond!(!args.is_empty(), option!(punct!(","))) >>
punct!(")") >>
(method, ascript, args)
));
named!(expr_tup -> Expr, do_parse!(
punct!("(") >>
elems: separated_list!(punct!(","), expr) >>
cond!(!elems.is_empty(), option!(punct!(","))) >>
punct!(")") >>
(Expr::Tup(elems))
));
named!(and_binary -> (BinOp, Expr), tuple!(binop, expr));
named!(expr_unary -> Expr, do_parse!(
operator: unop >>
operand: expr >>
(Expr::Unary(operator, Box::new(operand)))
));
named!(expr_lit -> Expr, map!(lit, Expr::Lit));
named!(and_cast -> Ty, do_parse!(
keyword!("as") >>
ty: ty >>
(ty)
));
named!(and_ascription -> Ty, preceded!(punct!(":"), ty));
enum Cond {
Let(Pat, Expr),
Expr(Expr),
}
named!(cond -> Cond, alt!(
do_parse!(
keyword!("let") >>
pat: pat >>
punct!("=") >>
value: expr >>
(Cond::Let(pat, value))
)
|
map!(expr, Cond::Expr)
));
named!(expr_if -> Expr, do_parse!(
keyword!("if") >>
cond: cond >>
punct!("{") >>
then_block: within_block >>
punct!("}") >>
else_block: option!(preceded!(
keyword!("else"),
alt!(
expr_if
|
do_parse!(
punct!("{") >>
else_block: within_block >>
punct!("}") >>
(Expr::Block(BlockCheckMode::Default, Block {
stmts: else_block,
}))
)
)
)) >>
(match cond {
Cond::Let(pat, expr) => Expr::IfLet(
Box::new(pat),
Box::new(expr),
Block {
stmts: then_block,
},
else_block.map(Box::new),
),
Cond::Expr(cond) => Expr::If(
Box::new(cond),
Block {
stmts: then_block,
},
else_block.map(Box::new),
),
})
));
named!(expr_for_loop -> Expr, do_parse!(
lbl: option!(terminated!(label, punct!(":"))) >>
keyword!("for") >>
pat: pat >>
keyword!("in") >>
expr: expr >>
loop_block: block >>
(Expr::ForLoop(Box::new(pat), Box::new(expr), loop_block, lbl))
));
named!(expr_loop -> Expr, do_parse!(
lbl: option!(terminated!(label, punct!(":"))) >>
keyword!("loop") >>
loop_block: block >>
(Expr::Loop(loop_block, lbl))
));
named!(expr_match -> Expr, do_parse!(
keyword!("match") >>
obj: expr >>
punct!("{") >>
arms: many0!(do_parse!(
attrs: many0!(outer_attr) >>
pats: separated_nonempty_list!(punct!("|"), pat) >>
guard: option!(preceded!(keyword!("if"), expr)) >>
punct!("=>") >>
body: alt!(
map!(block, |blk| Expr::Block(BlockCheckMode::Default, blk))
|
expr
) >>
option!(punct!(",")) >>
(Arm {
attrs: attrs,
pats: pats,
guard: guard.map(Box::new),
body: Box::new(body),
})
)) >>
punct!("}") >>
(Expr::Match(Box::new(obj), arms))
));
named!(expr_closure -> Expr, do_parse!(
capture: capture_by >>
punct!("|") >>
inputs: separated_list!(punct!(","), closure_arg) >>
cond!(!inputs.is_empty(), option!(punct!(","))) >>
punct!("|") >>
ret_and_body: alt!(
do_parse!(
punct!("->") >>
ty: ty >>
body: block >>
((FunctionRetTy::Ty(ty), body))
)
|
map!(expr, |e| (
FunctionRetTy::Default,
Block {
stmts: vec![Stmt::Expr(Box::new(e))],
},
))
) >>
(Expr::Closure(
capture,
Box::new(FnDecl {
inputs: inputs,
output: ret_and_body.0,
}),
ret_and_body.1,
))
));
named!(closure_arg -> FnArg, do_parse!(
pat: pat >>
ty: option!(preceded!(punct!(":"), ty)) >>
(FnArg::Captured(pat, ty.unwrap_or(Ty::Infer)))
));
named!(expr_while -> Expr, do_parse!(
lbl: option!(terminated!(label, punct!(":"))) >>
keyword!("while") >>
cond: cond >>
while_block: block >>
(match cond {
Cond::Let(pat, expr) => Expr::WhileLet(
Box::new(pat),
Box::new(expr),
while_block,
lbl,
),
Cond::Expr(cond) => Expr::While(
Box::new(cond),
while_block,
lbl,
),
})
));
named!(expr_continue -> Expr, do_parse!(
keyword!("continue") >>
lbl: option!(label) >>
(Expr::Continue(lbl))
));
named!(expr_break -> Expr, do_parse!(
keyword!("break") >>
lbl: option!(label) >>
(Expr::Break(lbl))
));
named!(expr_ret -> Expr, do_parse!(
keyword!("return") >>
ret_value: option!(expr) >>
(Expr::Ret(ret_value.map(Box::new)))
));
named!(expr_struct -> Expr, do_parse!(
path: path >>
punct!("{") >>
fields: separated_list!(punct!(","), field_value) >>
base: option!(do_parse!(
cond!(!fields.is_empty(), punct!(",")) >>
punct!("..") >>
base: expr >>
(base)
)) >>
cond!(!fields.is_empty() && base.is_none(), option!(punct!(","))) >>
punct!("}") >>
(Expr::Struct(path, fields, base.map(Box::new)))
));
named!(field_value -> FieldValue, do_parse!(
name: ident >>
punct!(":") >>
value: expr >>
(FieldValue {
ident: name,
expr: value,
})
));
named!(expr_repeat -> Expr, do_parse!(
punct!("[") >>
value: expr >>
punct!(";") >>
times: expr >>
punct!("]") >>
(Expr::Repeat(Box::new(value), Box::new(times)))
));
named!(expr_block -> Expr, do_parse!(
rules: block_check_mode >>
b: block >>
(Expr::Block(rules, Block {
stmts: b.stmts,
}))
));
named!(expr_range -> Expr, do_parse!(
limits: range_limits >>
hi: option!(expr) >>
(Expr::Range(None, hi.map(Box::new), limits))
));
named!(range_limits -> RangeLimits, alt!(
punct!("...") => { |_| RangeLimits::Closed }
|
punct!("..") => { |_| RangeLimits::HalfOpen }
));
named!(expr_path -> Expr, map!(qpath, |(qself, path)| Expr::Path(qself, path)));
named!(expr_addr_of -> Expr, do_parse!(
punct!("&") >>
mutability: mutability >>
expr: expr >>
(Expr::AddrOf(mutability, Box::new(expr)))
));
named!(and_assign -> Expr, preceded!(punct!("="), expr));
named!(and_assign_op -> (BinOp, Expr), tuple!(assign_op, expr));
named!(and_field -> Ident, preceded!(punct!("."), ident));
named!(and_tup_field -> u64, preceded!(punct!("."), digits));
named!(and_index -> Expr, delimited!(punct!("["), expr, punct!("]")));
named!(and_range -> (RangeLimits, Option<Expr>), tuple!(range_limits, option!(expr)));
named!(pub block -> Block, do_parse!(
punct!("{") >>
stmts: within_block >>
punct!("}") >>
(Block {
stmts: stmts,
})
));
named!(block_check_mode -> BlockCheckMode, alt!(
keyword!("unsafe") => { |_| BlockCheckMode::Unsafe }
|
epsilon!() => { |_| BlockCheckMode::Default }
));
named!(within_block -> Vec<Stmt>, do_parse!(
many0!(punct!(";")) >>
mut standalone: many0!(terminated!(standalone_stmt, many0!(punct!(";")))) >>
last: option!(expr) >>
(match last {
None => standalone,
Some(last) => {
standalone.push(Stmt::Expr(Box::new(last)));
standalone
}
})
));
named!(standalone_stmt -> Stmt, alt!(
stmt_mac
|
stmt_local
|
stmt_item
|
stmt_expr
));
named!(stmt_mac -> Stmt, do_parse!(
attrs: many0!(outer_attr) >>
mac: mac >>
semi: option!(punct!(";")) >>
({
let style = if semi.is_some() {
MacStmtStyle::Semicolon
} else if let Some(&TokenTree::Delimited(Delimited { delim, .. })) = mac.tts.last() {
match delim {
DelimToken::Paren | DelimToken::Bracket => MacStmtStyle::NoBraces,
DelimToken::Brace => MacStmtStyle::Braces,
}
} else {
MacStmtStyle::NoBraces
};
Stmt::Mac(Box::new((mac, style, attrs)))
})
));
named!(stmt_local -> Stmt, do_parse!(
attrs: many0!(outer_attr) >>
keyword!("let") >>
pat: pat >>
ty: option!(preceded!(punct!(":"), ty)) >>
init: option!(preceded!(punct!("="), expr)) >>
punct!(";") >>
(Stmt::Local(Box::new(Local {
pat: Box::new(pat),
ty: ty.map(Box::new),
init: init.map(Box::new),
attrs: attrs,
})))
));
named!(stmt_item -> Stmt, map!(item, |i| Stmt::Item(Box::new(i))));
fn requires_semi(e: &Expr) -> bool {
match *e {
Expr::If(_, _, _) |
Expr::IfLet(_, _, _, _) |
Expr::While(_, _, _) |
Expr::WhileLet(_, _, _, _) |
Expr::ForLoop(_, _, _, _) |
Expr::Loop(_, _) |
Expr::Match(_, _) |
Expr::Block(_, _) => false,
_ => true,
}
}
named!(stmt_expr -> Stmt, do_parse!(
e: expr >>
semi: option!(punct!(";")) >>
(if semi.is_some() {
Stmt::Semi(Box::new(e))
} else if requires_semi(&e) {
return Error;
} else {
Stmt::Expr(Box::new(e))
})
));
named!(pub pat -> Pat, alt!(
pat_wild // must be before pat_ident
|
pat_box // must be before pat_ident
|
pat_range // must be before pat_lit
|
pat_tuple_struct // must be before pat_ident
|
pat_struct // must be before pat_ident
|
pat_mac // must be before pat_ident
|
pat_ident // must be before pat_path
|
pat_path
|
pat_tuple
|
pat_ref
|
pat_lit
// TODO: Vec
));
named!(pat_mac -> Pat, map!(mac, Pat::Mac));
named!(pat_wild -> Pat, map!(keyword!("_"), |_| Pat::Wild));
named!(pat_box -> Pat, do_parse!(
keyword!("box") >>
pat: pat >>
(Pat::Box(Box::new(pat)))
));
named!(pat_ident -> Pat, do_parse!(
mode: option!(keyword!("ref")) >>
mutability: mutability >>
name: ident >>
not!(peek!(punct!("<"))) >>
not!(peek!(punct!("::"))) >>
subpat: option!(preceded!(punct!("@"), pat)) >>
(Pat::Ident(
if mode.is_some() {
BindingMode::ByRef(mutability)
} else {
BindingMode::ByValue(mutability)
},
name,
subpat.map(Box::new),
))
));
named!(pat_tuple_struct -> Pat, do_parse!(
path: path >>
tuple: pat_tuple_helper >>
(Pat::TupleStruct(path, tuple.0, tuple.1))
));
named!(pat_struct -> Pat, do_parse!(
path: path >>
punct!("{") >>
fields: separated_list!(punct!(","), field_pat) >>
more: option!(preceded!(
cond!(!fields.is_empty(), punct!(",")),
punct!("..")
)) >>
punct!("}") >>
(Pat::Struct(path, fields, more.is_some()))
));
named!(field_pat -> FieldPat, alt!(
do_parse!(
ident: ident >>
punct!(":") >>
pat: pat >>
(FieldPat {
ident: ident,
pat: Box::new(pat),
is_shorthand: false,
})
)
|
do_parse!(
mode: option!(keyword!("ref")) >>
mutability: mutability >>
ident: ident >>
(FieldPat {
ident: ident.clone(),
pat: Box::new(Pat::Ident(
if mode.is_some() {
BindingMode::ByRef(mutability)
} else {
BindingMode::ByValue(mutability)
},
ident,
None,
)),
is_shorthand: true,
})
)
));
named!(pat_path -> Pat, map!(qpath, |(qself, path)| Pat::Path(qself, path)));
named!(pat_tuple -> Pat, map!(
pat_tuple_helper,
|(pats, dotdot)| Pat::Tuple(pats, dotdot)
));
named!(pat_tuple_helper -> (Vec<Pat>, Option<usize>), do_parse!(
punct!("(") >>
mut elems: separated_list!(punct!(","), pat) >>
dotdot: option!(do_parse!(
cond!(!elems.is_empty(), punct!(",")) >>
punct!("..") >>
rest: many0!(preceded!(punct!(","), pat)) >>
cond!(!rest.is_empty(), option!(punct!(","))) >>
(rest)
)) >>
cond!(!elems.is_empty() && dotdot.is_none(), option!(punct!(","))) >>
punct!(")") >>
(match dotdot {
Some(rest) => {
let pos = elems.len();
elems.extend(rest);
(elems, Some(pos))
}
None => (elems, None),
})
));
named!(pat_ref -> Pat, do_parse!(
punct!("&") >>
mutability: mutability >>
pat: pat >>
(Pat::Ref(Box::new(pat), mutability))
));
named!(pat_lit -> Pat, map!(lit, |lit| Pat::Lit(Box::new(lit))));
named!(pat_range -> Pat, do_parse!(
lo: lit >>
punct!("...") >>
hi: lit >>
(Pat::Range(Box::new(lo), Box::new(hi)))
));
named!(capture_by -> CaptureBy, alt!(
keyword!("move") => { |_| CaptureBy::Value }
|
epsilon!() => { |_| CaptureBy::Ref }
));
named!(label -> Ident, map!(lifetime, |lt: Lifetime| lt.ident));
}
#[cfg(feature = "printing")]
mod printing {
use super::*;
use {FnArg, FunctionRetTy, Mutability, Ty};
use attr::FilterAttrs;
use quote::{Tokens, ToTokens};
impl ToTokens for Expr {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
Expr::Box(ref inner) => {
tokens.append("box");
inner.to_tokens(tokens);
}
Expr::Vec(ref tys) => {
tokens.append("[");
tokens.append_separated(tys, ",");
tokens.append("]");
}
Expr::Call(ref func, ref args) => {
func.to_tokens(tokens);
tokens.append("(");
tokens.append_separated(args, ",");
tokens.append(")");
}
Expr::MethodCall(ref ident, ref ascript, ref args) => {
args[0].to_tokens(tokens);
tokens.append(".");
ident.to_tokens(tokens);
if ascript.len() > 0 {
tokens.append("::");
tokens.append("<");
tokens.append_separated(ascript, ",");
tokens.append(">");
}
tokens.append("(");
tokens.append_separated(&args[1..], ",");
tokens.append(")");
}
Expr::Tup(ref fields) => {
tokens.append("(");
tokens.append_separated(fields, ",");
if fields.len() == 1 {
tokens.append(",");
}
tokens.append(")");
}
Expr::Binary(op, ref left, ref right) => {
left.to_tokens(tokens);
op.to_tokens(tokens);
right.to_tokens(tokens);
}
Expr::Unary(op, ref expr) => {
op.to_tokens(tokens);
expr.to_tokens(tokens);
}
Expr::Lit(ref lit) => lit.to_tokens(tokens),
Expr::Cast(ref expr, ref ty) => {
expr.to_tokens(tokens);
tokens.append("as");
ty.to_tokens(tokens);
}
Expr::Type(ref expr, ref ty) => {
expr.to_tokens(tokens);
tokens.append(":");
ty.to_tokens(tokens);
}
Expr::If(ref cond, ref then_block, ref else_block) => {
tokens.append("if");
cond.to_tokens(tokens);
then_block.to_tokens(tokens);
if let Some(ref else_block) = *else_block {
tokens.append("else");
else_block.to_tokens(tokens);
}
}
Expr::IfLet(ref pat, ref expr, ref then_block, ref else_block) => {
tokens.append("if");
tokens.append("let");
pat.to_tokens(tokens);
tokens.append("=");
expr.to_tokens(tokens);
then_block.to_tokens(tokens);
if let Some(ref else_block) = *else_block {
tokens.append("else");
else_block.to_tokens(tokens);
}
}
Expr::While(ref cond, ref body, ref label) => {
if let Some(ref label) = *label {
label.to_tokens(tokens);
tokens.append(":");
}
tokens.append("while");
cond.to_tokens(tokens);
body.to_tokens(tokens);
}
Expr::WhileLet(ref pat, ref expr, ref body, ref label) => {
if let Some(ref label) = *label {
label.to_tokens(tokens);
tokens.append(":");
}
tokens.append("while");
tokens.append("let");
pat.to_tokens(tokens);
tokens.append("=");
expr.to_tokens(tokens);
body.to_tokens(tokens);
}
Expr::ForLoop(ref pat, ref expr, ref body, ref label) => {
if let Some(ref label) = *label {
label.to_tokens(tokens);
tokens.append(":");
}
tokens.append("for");
pat.to_tokens(tokens);
tokens.append("in");
expr.to_tokens(tokens);
body.to_tokens(tokens);
}
Expr::Loop(ref body, ref label) => {
if let Some(ref label) = *label {
label.to_tokens(tokens);
tokens.append(":");
}
tokens.append("loop");
body.to_tokens(tokens);
}
Expr::Match(ref expr, ref arms) => {
tokens.append("match");
expr.to_tokens(tokens);
tokens.append("{");
tokens.append_all(arms);
tokens.append("}");
}
Expr::Closure(capture, ref decl, ref body) => {
capture.to_tokens(tokens);
tokens.append("|");
for (i, input) in decl.inputs.iter().enumerate() {
if i > 0 {
tokens.append(",");
}
match *input {
FnArg::Captured(ref pat, Ty::Infer) => {
pat.to_tokens(tokens);
}
_ => input.to_tokens(tokens),
}
}
tokens.append("|");
match decl.output {
FunctionRetTy::Default => {
if body.stmts.len() == 1 {
if let Stmt::Expr(ref expr) = body.stmts[0] {
expr.to_tokens(tokens);
} else {
body.to_tokens(tokens);
}
} else {
body.to_tokens(tokens);
}
}
FunctionRetTy::Ty(ref ty) => {
tokens.append("->");
ty.to_tokens(tokens);
body.to_tokens(tokens);
}
}
}
Expr::Block(rules, ref block) => {
rules.to_tokens(tokens);
block.to_tokens(tokens);
}
Expr::Assign(ref var, ref expr) => {
var.to_tokens(tokens);
tokens.append("=");
expr.to_tokens(tokens);
}
Expr::AssignOp(op, ref var, ref expr) => {
var.to_tokens(tokens);
tokens.append(op.assign_op().unwrap());
expr.to_tokens(tokens);
}
Expr::Field(ref expr, ref field) => {
expr.to_tokens(tokens);
tokens.append(".");
field.to_tokens(tokens);
}
Expr::TupField(ref expr, field) => {
expr.to_tokens(tokens);
tokens.append(".");
tokens.append(&field.to_string());
}
Expr::Index(ref expr, ref index) => {
expr.to_tokens(tokens);
tokens.append("[");
index.to_tokens(tokens);
tokens.append("]");
}
Expr::Range(ref from, ref to, limits) => {
from.to_tokens(tokens);
match limits {
RangeLimits::HalfOpen => tokens.append(".."),
RangeLimits::Closed => tokens.append("..."),
}
to.to_tokens(tokens);
}
Expr::Path(None, ref path) => path.to_tokens(tokens),
Expr::Path(Some(ref qself), ref path) => {
tokens.append("<");
qself.ty.to_tokens(tokens);
if qself.position > 0 {
tokens.append("as");
for (i, segment) in path.segments
.iter()
.take(qself.position)
.enumerate() {
if i > 0 || path.global {
tokens.append("::");
}
segment.to_tokens(tokens);
}
}
tokens.append(">");
for segment in path.segments.iter().skip(qself.position) {
tokens.append("::");
segment.to_tokens(tokens);
}
}
Expr::AddrOf(mutability, ref expr) => {
tokens.append("&");
mutability.to_tokens(tokens);
expr.to_tokens(tokens);
}
Expr::Break(ref opt_label) => {
tokens.append("break");
opt_label.to_tokens(tokens);
}
Expr::Continue(ref opt_label) => {
tokens.append("continue");
opt_label.to_tokens(tokens);
}
Expr::Ret(ref opt_expr) => {
tokens.append("return");
opt_expr.to_tokens(tokens);
}
Expr::Mac(ref mac) => mac.to_tokens(tokens),
Expr::Struct(ref path, ref fields, ref base) => {
path.to_tokens(tokens);
tokens.append("{");
tokens.append_separated(fields, ",");
if let Some(ref base) = *base {
if !fields.is_empty() {
tokens.append(",");
}
tokens.append("..");
base.to_tokens(tokens);
}
tokens.append("}");
}
Expr::Repeat(ref expr, ref times) => {
tokens.append("[");
expr.to_tokens(tokens);
tokens.append(";");
times.to_tokens(tokens);
tokens.append("]");
}
Expr::Paren(ref expr) => {
tokens.append("(");
expr.to_tokens(tokens);
tokens.append(")");
}
Expr::Try(ref expr) => {
expr.to_tokens(tokens);
tokens.append("?");
}
}
}
}
impl ToTokens for FieldValue {
fn to_tokens(&self, tokens: &mut Tokens) {
self.ident.to_tokens(tokens);
tokens.append(":");
self.expr.to_tokens(tokens);
}
}
impl ToTokens for Arm {
fn to_tokens(&self, tokens: &mut Tokens) {
for attr in &self.attrs {
attr.to_tokens(tokens);
}
tokens.append_separated(&self.pats, "|");
if let Some(ref guard) = self.guard {
tokens.append("if");
guard.to_tokens(tokens);
}
tokens.append("=>");
self.body.to_tokens(tokens);
match *self.body {
Expr::Block(_, _) => {
// no comma
}
_ => tokens.append(","),
}
}
}
impl ToTokens for Pat {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
Pat::Wild => tokens.append("_"),
Pat::Ident(mode, ref ident, ref subpat) => {
mode.to_tokens(tokens);
ident.to_tokens(tokens);
if let Some(ref subpat) = *subpat {
tokens.append("@");
subpat.to_tokens(tokens);
}
}
Pat::Struct(ref path, ref fields, dots) => {
path.to_tokens(tokens);
tokens.append("{");
tokens.append_separated(fields, ",");
if dots {
if !fields.is_empty() {
tokens.append(",");
}
tokens.append("..");
}
tokens.append("}");
}
Pat::TupleStruct(ref path, ref pats, dotpos) => {
path.to_tokens(tokens);
tokens.append("(");
match dotpos {
Some(pos) => {
if pos > 0 {
tokens.append_separated(&pats[..pos], ",");
tokens.append(",");
}
tokens.append("..");
if pos < pats.len() {
tokens.append(",");
tokens.append_separated(&pats[pos..], ",");
}
}
None => tokens.append_separated(pats, ","),
}
tokens.append(")");
}
Pat::Path(None, ref path) => path.to_tokens(tokens),
Pat::Path(Some(ref qself), ref path) => {
tokens.append("<");
qself.ty.to_tokens(tokens);
if qself.position > 0 {
tokens.append("as");
for (i, segment) in path.segments
.iter()
.take(qself.position)
.enumerate() {
if i > 0 || path.global {
tokens.append("::");
}
segment.to_tokens(tokens);
}
}
tokens.append(">");
for segment in path.segments.iter().skip(qself.position) {
tokens.append("::");
segment.to_tokens(tokens);
}
}
Pat::Tuple(ref pats, dotpos) => {
tokens.append("(");
match dotpos {
Some(pos) => {
if pos > 0 {
tokens.append_separated(&pats[..pos], ",");
tokens.append(",");
}
tokens.append("..");
if pos < pats.len() {
tokens.append(",");
tokens.append_separated(&pats[pos..], ",");
}
}
None => tokens.append_separated(pats, ","),
}
tokens.append(")");
}
Pat::Box(ref inner) => {
tokens.append("box");
inner.to_tokens(tokens);
}
Pat::Ref(ref target, mutability) => {
tokens.append("&");
mutability.to_tokens(tokens);
target.to_tokens(tokens);
}
Pat::Lit(ref lit) => lit.to_tokens(tokens),
Pat::Range(ref lo, ref hi) => {
lo.to_tokens(tokens);
tokens.append("...");
hi.to_tokens(tokens);
}
Pat::Slice(ref _before, ref _dots, ref _after) => unimplemented!(),
Pat::Mac(ref mac) => mac.to_tokens(tokens),
}
}
}
impl ToTokens for FieldPat {
fn to_tokens(&self, tokens: &mut Tokens) {
if !self.is_shorthand {
self.ident.to_tokens(tokens);
tokens.append(":");
}
self.pat.to_tokens(tokens);
}
}
impl ToTokens for BindingMode {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
BindingMode::ByRef(Mutability::Immutable) => {
tokens.append("ref");
}
BindingMode::ByRef(Mutability::Mutable) => {
tokens.append("ref");
tokens.append("mut");
}
BindingMode::ByValue(Mutability::Immutable) => {}
BindingMode::ByValue(Mutability::Mutable) => {
tokens.append("mut");
}
}
}
}
impl ToTokens for CaptureBy {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
CaptureBy::Value => tokens.append("move"),
CaptureBy::Ref => {
// nothing
}
}
}
}
impl ToTokens for Block {
fn to_tokens(&self, tokens: &mut Tokens) {
tokens.append("{");
for stmt in &self.stmts {
stmt.to_tokens(tokens);
}
tokens.append("}");
}
}
impl ToTokens for BlockCheckMode {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
BlockCheckMode::Default => {
// nothing
}
BlockCheckMode::Unsafe => tokens.append("unsafe"),
}
}
}
impl ToTokens for Stmt {
fn to_tokens(&self, tokens: &mut Tokens) {
match *self {
Stmt::Local(ref local) => local.to_tokens(tokens),
Stmt::Item(ref item) => item.to_tokens(tokens),
Stmt::Expr(ref expr) => expr.to_tokens(tokens),
Stmt::Semi(ref expr) => {
expr.to_tokens(tokens);
tokens.append(";");
}
Stmt::Mac(ref mac) => {
let (ref mac, style, ref attrs) = **mac;
for attr in attrs.outer() {
attr.to_tokens(tokens);
}
mac.to_tokens(tokens);
match style {
MacStmtStyle::Semicolon => tokens.append(";"),
MacStmtStyle::Braces | MacStmtStyle::NoBraces => {
// no semicolon
}
}
}
}
}
}
impl ToTokens for Local {
fn to_tokens(&self, tokens: &mut Tokens) {
tokens.append("let");
self.pat.to_tokens(tokens);
if let Some(ref ty) = self.ty {
tokens.append(":");
ty.to_tokens(tokens);
}
if let Some(ref init) = self.init {
tokens.append("=");
init.to_tokens(tokens);
}
tokens.append(";");
}
}
}