rust/crates/ra_hir_def/src/expr.rs

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//! This module describes hir-level representation of expressions.
//!
//! This representaion is:
//!
//! 1. Identity-based. Each expression has an `id`, so we can distinguish
//! between different `1` in `1 + 1`.
//! 2. Independent of syntax. Though syntactic provenance information can be
//! attached separately via id-based side map.
//! 3. Unresolved. Paths are stored as sequences of names, and not as defs the
//! names refer to.
//! 4. Desugared. There's no `if let`.
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//!
//! See also a neighboring `body` module.
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use hir_expand::name::Name;
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use ra_arena::{Idx, RawId};
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use ra_syntax::ast::RangeOp;
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use crate::{
builtin_type::{BuiltinFloat, BuiltinInt},
path::{GenericArgs, Path},
type_ref::{Mutability, TypeRef},
};
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pub type ExprId = Idx<Expr>;
pub(crate) fn dummy_expr_id() -> ExprId {
ExprId::from_raw(RawId::from(!0))
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}
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pub type PatId = Idx<Pat>;
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#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Literal {
String(String),
ByteString(Vec<u8>),
Char(char),
Bool(bool),
Int(u64, Option<BuiltinInt>),
Float(u64, Option<BuiltinFloat>), // FIXME: f64 is not Eq
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Expr {
/// This is produced if the syntax tree does not have a required expression piece.
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Missing,
Path(Path),
If {
condition: ExprId,
then_branch: ExprId,
else_branch: Option<ExprId>,
},
Block {
statements: Vec<Statement>,
tail: Option<ExprId>,
},
Loop {
body: ExprId,
},
While {
condition: ExprId,
body: ExprId,
},
For {
iterable: ExprId,
pat: PatId,
body: ExprId,
},
Call {
callee: ExprId,
args: Vec<ExprId>,
},
MethodCall {
receiver: ExprId,
method_name: Name,
args: Vec<ExprId>,
generic_args: Option<GenericArgs>,
},
Match {
expr: ExprId,
arms: Vec<MatchArm>,
},
Continue,
Break {
expr: Option<ExprId>,
},
Return {
expr: Option<ExprId>,
},
RecordLit {
path: Option<Path>,
fields: Vec<RecordLitField>,
spread: Option<ExprId>,
},
Field {
expr: ExprId,
name: Name,
},
Await {
expr: ExprId,
},
Try {
expr: ExprId,
},
Cast {
expr: ExprId,
type_ref: TypeRef,
},
Ref {
expr: ExprId,
mutability: Mutability,
},
Box {
expr: ExprId,
},
UnaryOp {
expr: ExprId,
op: UnaryOp,
},
BinaryOp {
lhs: ExprId,
rhs: ExprId,
op: Option<BinaryOp>,
},
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Range {
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lhs: Option<ExprId>,
rhs: Option<ExprId>,
range_type: RangeOp,
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},
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Index {
base: ExprId,
index: ExprId,
},
Lambda {
args: Vec<PatId>,
arg_types: Vec<Option<TypeRef>>,
ret_type: Option<TypeRef>,
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body: ExprId,
},
Tuple {
exprs: Vec<ExprId>,
},
Array(Array),
Literal(Literal),
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum BinaryOp {
LogicOp(LogicOp),
ArithOp(ArithOp),
CmpOp(CmpOp),
Assignment { op: Option<ArithOp> },
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum LogicOp {
And,
Or,
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum CmpOp {
Eq { negated: bool },
Ord { ordering: Ordering, strict: bool },
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum Ordering {
Less,
Greater,
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum ArithOp {
Add,
Mul,
Sub,
Div,
Rem,
Shl,
Shr,
BitXor,
BitOr,
BitAnd,
}
pub use ra_syntax::ast::PrefixOp as UnaryOp;
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Array {
ElementList(Vec<ExprId>),
Repeat { initializer: ExprId, repeat: ExprId },
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct MatchArm {
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pub pat: PatId,
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pub guard: Option<ExprId>,
pub expr: ExprId,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct RecordLitField {
pub name: Name,
pub expr: ExprId,
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Statement {
Let { pat: PatId, type_ref: Option<TypeRef>, initializer: Option<ExprId> },
Expr(ExprId),
}
impl Expr {
pub fn walk_child_exprs(&self, mut f: impl FnMut(ExprId)) {
match self {
Expr::Missing => {}
Expr::Path(_) => {}
Expr::If { condition, then_branch, else_branch } => {
f(*condition);
f(*then_branch);
if let Some(else_branch) = else_branch {
f(*else_branch);
}
}
Expr::Block { statements, tail } => {
for stmt in statements {
match stmt {
Statement::Let { initializer, .. } => {
if let Some(expr) = initializer {
f(*expr);
}
}
Statement::Expr(e) => f(*e),
}
}
if let Some(expr) = tail {
f(*expr);
}
}
Expr::Loop { body } => f(*body),
Expr::While { condition, body } => {
f(*condition);
f(*body);
}
Expr::For { iterable, body, .. } => {
f(*iterable);
f(*body);
}
Expr::Call { callee, args } => {
f(*callee);
for arg in args {
f(*arg);
}
}
Expr::MethodCall { receiver, args, .. } => {
f(*receiver);
for arg in args {
f(*arg);
}
}
Expr::Match { expr, arms } => {
f(*expr);
for arm in arms {
f(arm.expr);
}
}
Expr::Continue => {}
Expr::Break { expr } | Expr::Return { expr } => {
if let Some(expr) = expr {
f(*expr);
}
}
Expr::RecordLit { fields, spread, .. } => {
for field in fields {
f(field.expr);
}
if let Some(expr) = spread {
f(*expr);
}
}
Expr::Lambda { body, .. } => {
f(*body);
}
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Expr::BinaryOp { lhs, rhs, .. } => {
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f(*lhs);
f(*rhs);
}
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Expr::Range { lhs, rhs, .. } => {
if let Some(lhs) = rhs {
f(*lhs);
}
if let Some(rhs) = lhs {
f(*rhs);
}
}
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Expr::Index { base, index } => {
f(*base);
f(*index);
}
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Expr::Field { expr, .. }
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| Expr::Await { expr }
| Expr::Try { expr }
| Expr::Cast { expr, .. }
| Expr::Ref { expr, .. }
| Expr::UnaryOp { expr, .. }
| Expr::Box { expr } => {
f(*expr);
}
Expr::Tuple { exprs } => {
for expr in exprs {
f(*expr);
}
}
Expr::Array(a) => match a {
Array::ElementList(exprs) => {
for expr in exprs {
f(*expr);
}
}
Array::Repeat { initializer, repeat } => {
f(*initializer);
f(*repeat)
}
},
Expr::Literal(_) => {}
}
}
}
/// Explicit binding annotations given in the HIR for a binding. Note
/// that this is not the final binding *mode* that we infer after type
/// inference.
#[derive(Clone, PartialEq, Eq, Debug, Copy)]
pub enum BindingAnnotation {
/// No binding annotation given: this means that the final binding mode
/// will depend on whether we have skipped through a `&` reference
/// when matching. For example, the `x` in `Some(x)` will have binding
/// mode `None`; if you do `let Some(x) = &Some(22)`, it will
/// ultimately be inferred to be by-reference.
Unannotated,
/// Annotated with `mut x` -- could be either ref or not, similar to `None`.
Mutable,
/// Annotated as `ref`, like `ref x`
Ref,
/// Annotated as `ref mut x`.
RefMut,
}
impl BindingAnnotation {
pub fn new(is_mutable: bool, is_ref: bool) -> Self {
match (is_mutable, is_ref) {
(true, true) => BindingAnnotation::RefMut,
(false, true) => BindingAnnotation::Ref,
(true, false) => BindingAnnotation::Mutable,
(false, false) => BindingAnnotation::Unannotated,
}
}
}
#[derive(Debug, Clone, Eq, PartialEq)]
pub struct RecordFieldPat {
pub name: Name,
pub pat: PatId,
}
/// Close relative to rustc's hir::PatKind
#[derive(Debug, Clone, Eq, PartialEq)]
pub enum Pat {
Missing,
Wild,
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Tuple { args: Vec<PatId>, ellipsis: Option<usize> },
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Or(Vec<PatId>),
Record { path: Option<Path>, args: Vec<RecordFieldPat>, ellipsis: bool },
Range { start: ExprId, end: ExprId },
Slice { prefix: Vec<PatId>, slice: Option<PatId>, suffix: Vec<PatId> },
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Path(Path),
Lit(ExprId),
Bind { mode: BindingAnnotation, name: Name, subpat: Option<PatId> },
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TupleStruct { path: Option<Path>, args: Vec<PatId>, ellipsis: Option<usize> },
Ref { pat: PatId, mutability: Mutability },
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}
impl Pat {
pub fn walk_child_pats(&self, mut f: impl FnMut(PatId)) {
match self {
Pat::Range { .. } | Pat::Lit(..) | Pat::Path(..) | Pat::Wild | Pat::Missing => {}
Pat::Bind { subpat, .. } => {
subpat.iter().copied().for_each(f);
}
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Pat::Or(args) | Pat::Tuple { args, .. } | Pat::TupleStruct { args, .. } => {
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args.iter().copied().for_each(f);
}
Pat::Ref { pat, .. } => f(*pat),
Pat::Slice { prefix, slice, suffix } => {
let total_iter = prefix.iter().chain(slice.iter()).chain(suffix.iter());
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total_iter.copied().for_each(f);
}
Pat::Record { args, .. } => {
args.iter().map(|f| f.pat).for_each(f);
}
}
}
}