1 use crate::consts::{constant_context, constant_simple};
2 use crate::differing_macro_contexts;
3 use crate::source::snippet_opt;
4 use rustc_ast::ast::InlineAsmTemplatePiece;
5 use rustc_data_structures::fx::FxHasher;
6 use rustc_hir::def::Res;
7 use rustc_hir::HirIdMap;
9 BinOpKind, Block, BodyId, Expr, ExprField, ExprKind, FnRetTy, GenericArg, GenericArgs, Guard, HirId,
10 InlineAsmOperand, Lifetime, LifetimeName, ParamName, Pat, PatField, PatKind, Path, PathSegment, QPath, Stmt,
11 StmtKind, Ty, TyKind, TypeBinding,
13 use rustc_lexer::{tokenize, TokenKind};
14 use rustc_lint::LateContext;
15 use rustc_middle::ty::TypeckResults;
16 use rustc_span::Symbol;
17 use std::hash::{Hash, Hasher};
19 /// Type used to check whether two ast are the same. This is different from the
21 /// `==` on ast types as this operator would compare true equality with ID and
24 /// Note that some expressions kinds are not considered but could be added.
25 pub struct SpanlessEq<'a, 'tcx> {
26 /// Context used to evaluate constant expressions.
27 cx: &'a LateContext<'tcx>,
28 maybe_typeck_results: Option<&'tcx TypeckResults<'tcx>>,
29 allow_side_effects: bool,
30 expr_fallback: Option<Box<dyn FnMut(&Expr<'_>, &Expr<'_>) -> bool + 'a>>,
33 impl<'a, 'tcx> SpanlessEq<'a, 'tcx> {
34 pub fn new(cx: &'a LateContext<'tcx>) -> Self {
37 maybe_typeck_results: cx.maybe_typeck_results(),
38 allow_side_effects: true,
43 /// Consider expressions containing potential side effects as not equal.
44 pub fn deny_side_effects(self) -> Self {
46 allow_side_effects: false,
51 pub fn expr_fallback(self, expr_fallback: impl FnMut(&Expr<'_>, &Expr<'_>) -> bool + 'a) -> Self {
53 expr_fallback: Some(Box::new(expr_fallback)),
58 /// Use this method to wrap comparisons that may involve inter-expression context.
59 /// See `self.locals`.
60 pub fn inter_expr(&mut self) -> HirEqInterExpr<'_, 'a, 'tcx> {
63 locals: HirIdMap::default(),
68 pub fn eq_block(&mut self, left: &Block<'_>, right: &Block<'_>) -> bool {
69 self.inter_expr().eq_block(left, right)
72 pub fn eq_expr(&mut self, left: &Expr<'_>, right: &Expr<'_>) -> bool {
73 self.inter_expr().eq_expr(left, right)
76 pub fn eq_path_segment(&mut self, left: &PathSegment<'_>, right: &PathSegment<'_>) -> bool {
77 self.inter_expr().eq_path_segment(left, right)
80 pub fn eq_path_segments(&mut self, left: &[PathSegment<'_>], right: &[PathSegment<'_>]) -> bool {
81 self.inter_expr().eq_path_segments(left, right)
85 pub struct HirEqInterExpr<'a, 'b, 'tcx> {
86 inner: &'a mut SpanlessEq<'b, 'tcx>,
88 // When binding are declared, the binding ID in the left expression is mapped to the one on the
89 // right. For example, when comparing `{ let x = 1; x + 2 }` and `{ let y = 1; y + 2 }`,
90 // these blocks are considered equal since `x` is mapped to `y`.
91 locals: HirIdMap<HirId>,
94 impl HirEqInterExpr<'_, '_, '_> {
95 pub fn eq_stmt(&mut self, left: &Stmt<'_>, right: &Stmt<'_>) -> bool {
96 match (&left.kind, &right.kind) {
97 (&StmtKind::Local(l), &StmtKind::Local(r)) => {
98 // This additional check ensures that the type of the locals are equivalent even if the init
99 // expression or type have some inferred parts.
100 if let Some(typeck) = self.inner.maybe_typeck_results {
101 let l_ty = typeck.pat_ty(l.pat);
102 let r_ty = typeck.pat_ty(r.pat);
103 if !rustc_middle::ty::TyS::same_type(l_ty, r_ty) {
108 // eq_pat adds the HirIds to the locals map. We therefor call it last to make sure that
109 // these only get added if the init and type is equal.
110 both(&l.init, &r.init, |l, r| self.eq_expr(l, r))
111 && both(&l.ty, &r.ty, |l, r| self.eq_ty(l, r))
112 && self.eq_pat(l.pat, r.pat)
114 (&StmtKind::Expr(l), &StmtKind::Expr(r)) | (&StmtKind::Semi(l), &StmtKind::Semi(r)) => self.eq_expr(l, r),
119 /// Checks whether two blocks are the same.
120 fn eq_block(&mut self, left: &Block<'_>, right: &Block<'_>) -> bool {
121 match (left.stmts, left.expr, right.stmts, right.expr) {
122 ([], None, [], None) => {
123 // For empty blocks, check to see if the tokens are equal. This will catch the case where a macro
124 // expanded to nothing, or the cfg attribute was used.
125 let (left, right) = match (
126 snippet_opt(self.inner.cx, left.span),
127 snippet_opt(self.inner.cx, right.span),
129 (Some(left), Some(right)) => (left, right),
132 let mut left_pos = 0;
133 let left = tokenize(&left)
135 let end = left_pos + t.len;
136 let s = &left[left_pos..end];
143 TokenKind::LineComment { .. } | TokenKind::BlockComment { .. } | TokenKind::Whitespace
147 let mut right_pos = 0;
148 let right = tokenize(&right)
150 let end = right_pos + t.len;
151 let s = &right[right_pos..end];
158 TokenKind::LineComment { .. } | TokenKind::BlockComment { .. } | TokenKind::Whitespace
165 over(left.stmts, right.stmts, |l, r| self.eq_stmt(l, r))
166 && both(&left.expr, &right.expr, |l, r| self.eq_expr(l, r))
171 pub fn eq_body(&mut self, left: BodyId, right: BodyId) -> bool {
172 let cx = self.inner.cx;
173 let eval_const = |body| constant_context(cx, cx.tcx.typeck_body(body)).expr(&cx.tcx.hir().body(body).value);
174 eval_const(left) == eval_const(right)
177 #[allow(clippy::similar_names)]
178 pub fn eq_expr(&mut self, left: &Expr<'_>, right: &Expr<'_>) -> bool {
179 if !self.inner.allow_side_effects && differing_macro_contexts(left.span, right.span) {
183 if let Some(typeck_results) = self.inner.maybe_typeck_results {
184 if let (Some(l), Some(r)) = (
185 constant_simple(self.inner.cx, typeck_results, left),
186 constant_simple(self.inner.cx, typeck_results, right),
195 &reduce_exprkind(self.inner.cx, &left.kind),
196 &reduce_exprkind(self.inner.cx, &right.kind),
198 (&ExprKind::AddrOf(lb, l_mut, le), &ExprKind::AddrOf(rb, r_mut, re)) => {
199 lb == rb && l_mut == r_mut && self.eq_expr(le, re)
201 (&ExprKind::Continue(li), &ExprKind::Continue(ri)) => {
202 both(&li.label, &ri.label, |l, r| l.ident.name == r.ident.name)
204 (&ExprKind::Assign(ll, lr, _), &ExprKind::Assign(rl, rr, _)) => {
205 self.inner.allow_side_effects && self.eq_expr(ll, rl) && self.eq_expr(lr, rr)
207 (&ExprKind::AssignOp(ref lo, ll, lr), &ExprKind::AssignOp(ref ro, rl, rr)) => {
208 self.inner.allow_side_effects && lo.node == ro.node && self.eq_expr(ll, rl) && self.eq_expr(lr, rr)
210 (&ExprKind::Block(l, _), &ExprKind::Block(r, _)) => self.eq_block(l, r),
211 (&ExprKind::Binary(l_op, ll, lr), &ExprKind::Binary(r_op, rl, rr)) => {
212 l_op.node == r_op.node && self.eq_expr(ll, rl) && self.eq_expr(lr, rr)
213 || swap_binop(l_op.node, ll, lr).map_or(false, |(l_op, ll, lr)| {
214 l_op == r_op.node && self.eq_expr(ll, rl) && self.eq_expr(lr, rr)
217 (&ExprKind::Break(li, ref le), &ExprKind::Break(ri, ref re)) => {
218 both(&li.label, &ri.label, |l, r| l.ident.name == r.ident.name)
219 && both(le, re, |l, r| self.eq_expr(l, r))
221 (&ExprKind::Box(l), &ExprKind::Box(r)) => self.eq_expr(l, r),
222 (&ExprKind::Call(l_fun, l_args), &ExprKind::Call(r_fun, r_args)) => {
223 self.inner.allow_side_effects && self.eq_expr(l_fun, r_fun) && self.eq_exprs(l_args, r_args)
225 (&ExprKind::Cast(lx, lt), &ExprKind::Cast(rx, rt)) | (&ExprKind::Type(lx, lt), &ExprKind::Type(rx, rt)) => {
226 self.eq_expr(lx, rx) && self.eq_ty(lt, rt)
228 (&ExprKind::Field(l_f_exp, ref l_f_ident), &ExprKind::Field(r_f_exp, ref r_f_ident)) => {
229 l_f_ident.name == r_f_ident.name && self.eq_expr(l_f_exp, r_f_exp)
231 (&ExprKind::Index(la, li), &ExprKind::Index(ra, ri)) => self.eq_expr(la, ra) && self.eq_expr(li, ri),
232 (&ExprKind::If(lc, lt, ref le), &ExprKind::If(rc, rt, ref re)) => {
233 self.eq_expr(lc, rc) && self.eq_expr(&**lt, &**rt) && both(le, re, |l, r| self.eq_expr(l, r))
235 (&ExprKind::Let(ref lp, ref le, _), &ExprKind::Let(ref rp, ref re, _)) => {
236 self.eq_pat(lp, rp) && self.eq_expr(le, re)
238 (&ExprKind::Lit(ref l), &ExprKind::Lit(ref r)) => l.node == r.node,
239 (&ExprKind::Loop(lb, ref ll, ref lls, _), &ExprKind::Loop(rb, ref rl, ref rls, _)) => {
240 lls == rls && self.eq_block(lb, rb) && both(ll, rl, |l, r| l.ident.name == r.ident.name)
242 (&ExprKind::Match(le, la, ref ls), &ExprKind::Match(re, ra, ref rs)) => {
244 && self.eq_expr(le, re)
245 && over(la, ra, |l, r| {
246 self.eq_pat(l.pat, r.pat)
247 && both(&l.guard, &r.guard, |l, r| self.eq_guard(l, r))
248 && self.eq_expr(l.body, r.body)
251 (&ExprKind::MethodCall(l_path, _, l_args, _), &ExprKind::MethodCall(r_path, _, r_args, _)) => {
252 self.inner.allow_side_effects && self.eq_path_segment(l_path, r_path) && self.eq_exprs(l_args, r_args)
254 (&ExprKind::Repeat(le, ref ll_id), &ExprKind::Repeat(re, ref rl_id)) => {
255 self.eq_expr(le, re) && self.eq_body(ll_id.body, rl_id.body)
257 (&ExprKind::Ret(ref l), &ExprKind::Ret(ref r)) => both(l, r, |l, r| self.eq_expr(l, r)),
258 (&ExprKind::Path(ref l), &ExprKind::Path(ref r)) => self.eq_qpath(l, r),
259 (&ExprKind::Struct(l_path, lf, ref lo), &ExprKind::Struct(r_path, rf, ref ro)) => {
260 self.eq_qpath(l_path, r_path)
261 && both(lo, ro, |l, r| self.eq_expr(l, r))
262 && over(lf, rf, |l, r| self.eq_expr_field(l, r))
264 (&ExprKind::Tup(l_tup), &ExprKind::Tup(r_tup)) => self.eq_exprs(l_tup, r_tup),
265 (&ExprKind::Unary(l_op, le), &ExprKind::Unary(r_op, re)) => l_op == r_op && self.eq_expr(le, re),
266 (&ExprKind::Array(l), &ExprKind::Array(r)) => self.eq_exprs(l, r),
267 (&ExprKind::DropTemps(le), &ExprKind::DropTemps(re)) => self.eq_expr(le, re),
270 is_eq || self.inner.expr_fallback.as_mut().map_or(false, |f| f(left, right))
273 fn eq_exprs(&mut self, left: &[Expr<'_>], right: &[Expr<'_>]) -> bool {
274 over(left, right, |l, r| self.eq_expr(l, r))
277 fn eq_expr_field(&mut self, left: &ExprField<'_>, right: &ExprField<'_>) -> bool {
278 left.ident.name == right.ident.name && self.eq_expr(left.expr, right.expr)
281 fn eq_guard(&mut self, left: &Guard<'_>, right: &Guard<'_>) -> bool {
282 match (left, right) {
283 (Guard::If(l), Guard::If(r)) => self.eq_expr(l, r),
284 (Guard::IfLet(lp, le), Guard::IfLet(rp, re)) => self.eq_pat(lp, rp) && self.eq_expr(le, re),
289 fn eq_generic_arg(&mut self, left: &GenericArg<'_>, right: &GenericArg<'_>) -> bool {
290 match (left, right) {
291 (GenericArg::Const(l), GenericArg::Const(r)) => self.eq_body(l.value.body, r.value.body),
292 (GenericArg::Lifetime(l_lt), GenericArg::Lifetime(r_lt)) => Self::eq_lifetime(l_lt, r_lt),
293 (GenericArg::Type(l_ty), GenericArg::Type(r_ty)) => self.eq_ty(l_ty, r_ty),
294 (GenericArg::Infer(l_inf), GenericArg::Infer(r_inf)) => self.eq_ty(&l_inf.to_ty(), &r_inf.to_ty()),
299 fn eq_lifetime(left: &Lifetime, right: &Lifetime) -> bool {
300 left.name == right.name
303 fn eq_pat_field(&mut self, left: &PatField<'_>, right: &PatField<'_>) -> bool {
304 let (PatField { ident: li, pat: lp, .. }, PatField { ident: ri, pat: rp, .. }) = (&left, &right);
305 li.name == ri.name && self.eq_pat(lp, rp)
308 /// Checks whether two patterns are the same.
309 fn eq_pat(&mut self, left: &Pat<'_>, right: &Pat<'_>) -> bool {
310 match (&left.kind, &right.kind) {
311 (&PatKind::Box(l), &PatKind::Box(r)) => self.eq_pat(l, r),
312 (&PatKind::Struct(ref lp, la, ..), &PatKind::Struct(ref rp, ra, ..)) => {
313 self.eq_qpath(lp, rp) && over(la, ra, |l, r| self.eq_pat_field(l, r))
315 (&PatKind::TupleStruct(ref lp, la, ls), &PatKind::TupleStruct(ref rp, ra, rs)) => {
316 self.eq_qpath(lp, rp) && over(la, ra, |l, r| self.eq_pat(l, r)) && ls == rs
318 (&PatKind::Binding(lb, li, _, ref lp), &PatKind::Binding(rb, ri, _, ref rp)) => {
319 let eq = lb == rb && both(lp, rp, |l, r| self.eq_pat(l, r));
321 self.locals.insert(li, ri);
325 (&PatKind::Path(ref l), &PatKind::Path(ref r)) => self.eq_qpath(l, r),
326 (&PatKind::Lit(l), &PatKind::Lit(r)) => self.eq_expr(l, r),
327 (&PatKind::Tuple(l, ls), &PatKind::Tuple(r, rs)) => ls == rs && over(l, r, |l, r| self.eq_pat(l, r)),
328 (&PatKind::Range(ref ls, ref le, li), &PatKind::Range(ref rs, ref re, ri)) => {
329 both(ls, rs, |a, b| self.eq_expr(a, b)) && both(le, re, |a, b| self.eq_expr(a, b)) && (li == ri)
331 (&PatKind::Ref(le, ref lm), &PatKind::Ref(re, ref rm)) => lm == rm && self.eq_pat(le, re),
332 (&PatKind::Slice(ls, ref li, le), &PatKind::Slice(rs, ref ri, re)) => {
333 over(ls, rs, |l, r| self.eq_pat(l, r))
334 && over(le, re, |l, r| self.eq_pat(l, r))
335 && both(li, ri, |l, r| self.eq_pat(l, r))
337 (&PatKind::Wild, &PatKind::Wild) => true,
342 #[allow(clippy::similar_names)]
343 fn eq_qpath(&mut self, left: &QPath<'_>, right: &QPath<'_>) -> bool {
344 match (left, right) {
345 (&QPath::Resolved(ref lty, lpath), &QPath::Resolved(ref rty, rpath)) => {
346 both(lty, rty, |l, r| self.eq_ty(l, r)) && self.eq_path(lpath, rpath)
348 (&QPath::TypeRelative(lty, lseg), &QPath::TypeRelative(rty, rseg)) => {
349 self.eq_ty(lty, rty) && self.eq_path_segment(lseg, rseg)
351 (&QPath::LangItem(llang_item, _), &QPath::LangItem(rlang_item, _)) => llang_item == rlang_item,
356 fn eq_path(&mut self, left: &Path<'_>, right: &Path<'_>) -> bool {
357 match (left.res, right.res) {
358 (Res::Local(l), Res::Local(r)) => l == r || self.locals.get(&l) == Some(&r),
359 (Res::Local(_), _) | (_, Res::Local(_)) => false,
360 _ => over(left.segments, right.segments, |l, r| self.eq_path_segment(l, r)),
364 fn eq_path_parameters(&mut self, left: &GenericArgs<'_>, right: &GenericArgs<'_>) -> bool {
365 if !(left.parenthesized || right.parenthesized) {
366 over(left.args, right.args, |l, r| self.eq_generic_arg(l, r)) // FIXME(flip1995): may not work
367 && over(left.bindings, right.bindings, |l, r| self.eq_type_binding(l, r))
368 } else if left.parenthesized && right.parenthesized {
369 over(left.inputs(), right.inputs(), |l, r| self.eq_ty(l, r))
370 && both(&Some(&left.bindings[0].ty()), &Some(&right.bindings[0].ty()), |l, r| {
378 pub fn eq_path_segments(&mut self, left: &[PathSegment<'_>], right: &[PathSegment<'_>]) -> bool {
379 left.len() == right.len() && left.iter().zip(right).all(|(l, r)| self.eq_path_segment(l, r))
382 pub fn eq_path_segment(&mut self, left: &PathSegment<'_>, right: &PathSegment<'_>) -> bool {
383 // The == of idents doesn't work with different contexts,
384 // we have to be explicit about hygiene
385 left.ident.name == right.ident.name && both(&left.args, &right.args, |l, r| self.eq_path_parameters(l, r))
388 #[allow(clippy::similar_names)]
389 fn eq_ty(&mut self, left: &Ty<'_>, right: &Ty<'_>) -> bool {
390 match (&left.kind, &right.kind) {
391 (&TyKind::Slice(l_vec), &TyKind::Slice(r_vec)) => self.eq_ty(l_vec, r_vec),
392 (&TyKind::Array(lt, ref ll_id), &TyKind::Array(rt, ref rl_id)) => {
393 self.eq_ty(lt, rt) && self.eq_body(ll_id.body, rl_id.body)
395 (&TyKind::Ptr(ref l_mut), &TyKind::Ptr(ref r_mut)) => {
396 l_mut.mutbl == r_mut.mutbl && self.eq_ty(&*l_mut.ty, &*r_mut.ty)
398 (&TyKind::Rptr(_, ref l_rmut), &TyKind::Rptr(_, ref r_rmut)) => {
399 l_rmut.mutbl == r_rmut.mutbl && self.eq_ty(&*l_rmut.ty, &*r_rmut.ty)
401 (&TyKind::Path(ref l), &TyKind::Path(ref r)) => self.eq_qpath(l, r),
402 (&TyKind::Tup(l), &TyKind::Tup(r)) => over(l, r, |l, r| self.eq_ty(l, r)),
403 (&TyKind::Infer, &TyKind::Infer) => true,
408 fn eq_type_binding(&mut self, left: &TypeBinding<'_>, right: &TypeBinding<'_>) -> bool {
409 left.ident.name == right.ident.name && self.eq_ty(left.ty(), right.ty())
413 /// Some simple reductions like `{ return }` => `return`
414 fn reduce_exprkind<'hir>(cx: &LateContext<'_>, kind: &'hir ExprKind<'hir>) -> &'hir ExprKind<'hir> {
415 if let ExprKind::Block(block, _) = kind {
416 match (block.stmts, block.expr) {
417 // From an `if let` expression without an `else` block. The arm for the implicit wild pattern is an empty
418 // block with an empty span.
419 ([], None) if block.span.is_empty() => &ExprKind::Tup(&[]),
421 ([], None) => match snippet_opt(cx, block.span) {
422 // Don't reduce if there are any tokens contained in the braces
429 TokenKind::LineComment { .. } | TokenKind::BlockComment { .. } | TokenKind::Whitespace
432 .ne([TokenKind::OpenBrace, TokenKind::CloseBrace].iter().copied()) =>
436 _ => &ExprKind::Tup(&[]),
438 ([], Some(expr)) => match expr.kind {
439 // `{ return .. }` => `return ..`
440 ExprKind::Ret(..) => &expr.kind,
443 ([stmt], None) => match stmt.kind {
444 StmtKind::Expr(expr) | StmtKind::Semi(expr) => match expr.kind {
445 // `{ return ..; }` => `return ..`
446 ExprKind::Ret(..) => &expr.kind,
462 ) -> Option<(BinOpKind, &'a Expr<'a>, &'a Expr<'a>)> {
464 BinOpKind::Add | BinOpKind::Eq | BinOpKind::Ne | BinOpKind::BitAnd | BinOpKind::BitXor | BinOpKind::BitOr => {
465 Some((binop, rhs, lhs))
467 BinOpKind::Lt => Some((BinOpKind::Gt, rhs, lhs)),
468 BinOpKind::Le => Some((BinOpKind::Ge, rhs, lhs)),
469 BinOpKind::Ge => Some((BinOpKind::Le, rhs, lhs)),
470 BinOpKind::Gt => Some((BinOpKind::Lt, rhs, lhs)),
471 BinOpKind::Mul // Not always commutative, e.g. with matrices. See issue #5698
478 | BinOpKind::Or => None,
482 /// Checks if the two `Option`s are both `None` or some equal values as per
484 pub fn both<X>(l: &Option<X>, r: &Option<X>, mut eq_fn: impl FnMut(&X, &X) -> bool) -> bool {
486 .map_or_else(|| r.is_none(), |x| r.as_ref().map_or(false, |y| eq_fn(x, y)))
489 /// Checks if two slices are equal as per `eq_fn`.
490 pub fn over<X>(left: &[X], right: &[X], mut eq_fn: impl FnMut(&X, &X) -> bool) -> bool {
491 left.len() == right.len() && left.iter().zip(right).all(|(x, y)| eq_fn(x, y))
494 /// Counts how many elements of the slices are equal as per `eq_fn`.
495 pub fn count_eq<X: Sized>(
496 left: &mut dyn Iterator<Item = X>,
497 right: &mut dyn Iterator<Item = X>,
498 mut eq_fn: impl FnMut(&X, &X) -> bool,
500 left.zip(right).take_while(|(l, r)| eq_fn(l, r)).count()
503 /// Checks if two expressions evaluate to the same value, and don't contain any side effects.
504 pub fn eq_expr_value(cx: &LateContext<'_>, left: &Expr<'_>, right: &Expr<'_>) -> bool {
505 SpanlessEq::new(cx).deny_side_effects().eq_expr(left, right)
508 /// Type used to hash an ast element. This is different from the `Hash` trait
509 /// on ast types as this
510 /// trait would consider IDs and spans.
512 /// All expressions kind are hashed, but some might have a weaker hash.
513 pub struct SpanlessHash<'a, 'tcx> {
514 /// Context used to evaluate constant expressions.
515 cx: &'a LateContext<'tcx>,
516 maybe_typeck_results: Option<&'tcx TypeckResults<'tcx>>,
520 impl<'a, 'tcx> SpanlessHash<'a, 'tcx> {
521 pub fn new(cx: &'a LateContext<'tcx>) -> Self {
524 maybe_typeck_results: cx.maybe_typeck_results(),
525 s: FxHasher::default(),
529 pub fn finish(self) -> u64 {
533 pub fn hash_block(&mut self, b: &Block<'_>) {
538 if let Some(e) = b.expr {
542 std::mem::discriminant(&b.rules).hash(&mut self.s);
545 #[allow(clippy::many_single_char_names, clippy::too_many_lines)]
546 pub fn hash_expr(&mut self, e: &Expr<'_>) {
547 let simple_const = self
548 .maybe_typeck_results
549 .and_then(|typeck_results| constant_simple(self.cx, typeck_results, e));
551 // const hashing may result in the same hash as some unrelated node, so add a sort of
552 // discriminant depending on which path we're choosing next
553 simple_const.hash(&mut self.s);
554 if simple_const.is_some() {
558 std::mem::discriminant(&e.kind).hash(&mut self.s);
561 ExprKind::AddrOf(kind, m, e) => {
562 std::mem::discriminant(&kind).hash(&mut self.s);
566 ExprKind::Continue(i) => {
567 if let Some(i) = i.label {
568 self.hash_name(i.ident.name);
571 ExprKind::Assign(l, r, _) => {
575 ExprKind::AssignOp(ref o, l, r) => {
576 std::mem::discriminant(&o.node).hash(&mut self.s);
580 ExprKind::Block(b, _) => {
583 ExprKind::Binary(op, l, r) => {
584 std::mem::discriminant(&op.node).hash(&mut self.s);
588 ExprKind::Break(i, ref j) => {
589 if let Some(i) = i.label {
590 self.hash_name(i.ident.name);
592 if let Some(j) = *j {
596 ExprKind::Box(e) | ExprKind::DropTemps(e) | ExprKind::Yield(e, _) => {
599 ExprKind::Call(fun, args) => {
601 self.hash_exprs(args);
603 ExprKind::Cast(e, ty) | ExprKind::Type(e, ty) => {
607 ExprKind::Closure(cap, _, eid, _, _) => {
608 std::mem::discriminant(&cap).hash(&mut self.s);
609 // closures inherit TypeckResults
610 self.hash_expr(&self.cx.tcx.hir().body(eid).value);
612 ExprKind::Field(e, ref f) => {
614 self.hash_name(f.name);
616 ExprKind::Index(a, i) => {
620 ExprKind::InlineAsm(asm) => {
621 for piece in asm.template {
623 InlineAsmTemplatePiece::String(s) => s.hash(&mut self.s),
624 InlineAsmTemplatePiece::Placeholder {
629 operand_idx.hash(&mut self.s);
630 modifier.hash(&mut self.s);
634 asm.options.hash(&mut self.s);
635 for (op, _op_sp) in asm.operands {
637 InlineAsmOperand::In { reg, expr } => {
638 reg.hash(&mut self.s);
639 self.hash_expr(expr);
641 InlineAsmOperand::Out { reg, late, expr } => {
642 reg.hash(&mut self.s);
643 late.hash(&mut self.s);
644 if let Some(expr) = expr {
645 self.hash_expr(expr);
648 InlineAsmOperand::InOut { reg, late, expr } => {
649 reg.hash(&mut self.s);
650 late.hash(&mut self.s);
651 self.hash_expr(expr);
653 InlineAsmOperand::SplitInOut {
659 reg.hash(&mut self.s);
660 late.hash(&mut self.s);
661 self.hash_expr(in_expr);
662 if let Some(out_expr) = out_expr {
663 self.hash_expr(out_expr);
666 InlineAsmOperand::Const { anon_const } => self.hash_body(anon_const.body),
667 InlineAsmOperand::Sym { expr } => self.hash_expr(expr),
671 ExprKind::Let(ref pat, ref expr, _) => {
672 self.hash_expr(expr);
675 ExprKind::LlvmInlineAsm(..) | ExprKind::Err => {},
676 ExprKind::Lit(ref l) => {
677 l.node.hash(&mut self.s);
679 ExprKind::Loop(b, ref i, ..) => {
681 if let Some(i) = *i {
682 self.hash_name(i.ident.name);
685 ExprKind::If(cond, then, ref else_opt) => {
686 self.hash_expr(cond);
687 self.hash_expr(then);
688 if let Some(e) = *else_opt {
692 ExprKind::Match(e, arms, ref s) => {
696 self.hash_pat(arm.pat);
697 if let Some(ref e) = arm.guard {
700 self.hash_expr(arm.body);
705 ExprKind::MethodCall(path, ref _tys, args, ref _fn_span) => {
706 self.hash_name(path.ident.name);
707 self.hash_exprs(args);
709 ExprKind::ConstBlock(ref l_id) => {
710 self.hash_body(l_id.body);
712 ExprKind::Repeat(e, ref l_id) => {
714 self.hash_body(l_id.body);
716 ExprKind::Ret(ref e) => {
717 if let Some(e) = *e {
721 ExprKind::Path(ref qpath) => {
722 self.hash_qpath(qpath);
724 ExprKind::Struct(path, fields, ref expr) => {
725 self.hash_qpath(path);
728 self.hash_name(f.ident.name);
729 self.hash_expr(f.expr);
732 if let Some(e) = *expr {
736 ExprKind::Tup(tup) => {
737 self.hash_exprs(tup);
739 ExprKind::Array(v) => {
742 ExprKind::Unary(lop, le) => {
743 std::mem::discriminant(&lop).hash(&mut self.s);
749 pub fn hash_exprs(&mut self, e: &[Expr<'_>]) {
755 pub fn hash_name(&mut self, n: Symbol) {
759 pub fn hash_qpath(&mut self, p: &QPath<'_>) {
761 QPath::Resolved(_, path) => {
762 self.hash_path(path);
764 QPath::TypeRelative(_, path) => {
765 self.hash_name(path.ident.name);
767 QPath::LangItem(lang_item, ..) => {
768 std::mem::discriminant(&lang_item).hash(&mut self.s);
771 // self.maybe_typeck_results.unwrap().qpath_res(p, id).hash(&mut self.s);
774 pub fn hash_pat(&mut self, pat: &Pat<'_>) {
775 std::mem::discriminant(&pat.kind).hash(&mut self.s);
777 PatKind::Binding(ann, _, _, pat) => {
778 std::mem::discriminant(&ann).hash(&mut self.s);
779 if let Some(pat) = pat {
783 PatKind::Box(pat) => self.hash_pat(pat),
784 PatKind::Lit(expr) => self.hash_expr(expr),
785 PatKind::Or(pats) => {
790 PatKind::Path(ref qpath) => self.hash_qpath(qpath),
791 PatKind::Range(s, e, i) => {
798 std::mem::discriminant(&i).hash(&mut self.s);
800 PatKind::Ref(pat, mu) => {
802 std::mem::discriminant(&mu).hash(&mut self.s);
804 PatKind::Slice(l, m, r) => {
808 if let Some(pat) = m {
815 PatKind::Struct(ref qpath, fields, e) => {
816 self.hash_qpath(qpath);
818 self.hash_name(f.ident.name);
819 self.hash_pat(f.pat);
823 PatKind::Tuple(pats, e) => {
829 PatKind::TupleStruct(ref qpath, pats, e) => {
830 self.hash_qpath(qpath);
840 pub fn hash_path(&mut self, path: &Path<'_>) {
842 // constant hash since equality is dependant on inter-expression context
843 Res::Local(_) => 1_usize.hash(&mut self.s),
845 for seg in path.segments {
846 self.hash_name(seg.ident.name);
847 self.hash_generic_args(seg.args().args);
853 pub fn hash_stmt(&mut self, b: &Stmt<'_>) {
854 std::mem::discriminant(&b.kind).hash(&mut self.s);
857 StmtKind::Local(local) => {
858 self.hash_pat(local.pat);
859 if let Some(init) = local.init {
860 self.hash_expr(init);
863 StmtKind::Item(..) => {},
864 StmtKind::Expr(expr) | StmtKind::Semi(expr) => {
865 self.hash_expr(expr);
870 pub fn hash_guard(&mut self, g: &Guard<'_>) {
872 Guard::If(expr) | Guard::IfLet(_, expr) => {
873 self.hash_expr(expr);
878 pub fn hash_lifetime(&mut self, lifetime: Lifetime) {
879 std::mem::discriminant(&lifetime.name).hash(&mut self.s);
880 if let LifetimeName::Param(ref name) = lifetime.name {
881 std::mem::discriminant(name).hash(&mut self.s);
883 ParamName::Plain(ref ident) => {
884 ident.name.hash(&mut self.s);
886 ParamName::Fresh(ref size) => {
887 size.hash(&mut self.s);
889 ParamName::Error => {},
894 pub fn hash_ty(&mut self, ty: &Ty<'_>) {
895 std::mem::discriminant(&ty.kind).hash(&mut self.s);
896 self.hash_tykind(&ty.kind);
899 pub fn hash_tykind(&mut self, ty: &TyKind<'_>) {
901 TyKind::Slice(ty) => {
904 TyKind::Array(ty, anon_const) => {
906 self.hash_body(anon_const.body);
908 TyKind::Ptr(ref mut_ty) => {
909 self.hash_ty(mut_ty.ty);
910 mut_ty.mutbl.hash(&mut self.s);
912 TyKind::Rptr(lifetime, ref mut_ty) => {
913 self.hash_lifetime(*lifetime);
914 self.hash_ty(mut_ty.ty);
915 mut_ty.mutbl.hash(&mut self.s);
917 TyKind::BareFn(bfn) => {
918 bfn.unsafety.hash(&mut self.s);
919 bfn.abi.hash(&mut self.s);
920 for arg in bfn.decl.inputs {
923 std::mem::discriminant(&bfn.decl.output).hash(&mut self.s);
924 match bfn.decl.output {
925 FnRetTy::DefaultReturn(_) => {},
926 FnRetTy::Return(ty) => {
930 bfn.decl.c_variadic.hash(&mut self.s);
932 TyKind::Tup(ty_list) => {
937 TyKind::Path(ref qpath) => self.hash_qpath(qpath),
938 TyKind::OpaqueDef(_, arg_list) => {
939 self.hash_generic_args(arg_list);
941 TyKind::TraitObject(_, lifetime, _) => {
942 self.hash_lifetime(*lifetime);
944 TyKind::Typeof(anon_const) => {
945 self.hash_body(anon_const.body);
947 TyKind::Err | TyKind::Infer | TyKind::Never => {},
951 pub fn hash_body(&mut self, body_id: BodyId) {
952 // swap out TypeckResults when hashing a body
953 let old_maybe_typeck_results = self.maybe_typeck_results.replace(self.cx.tcx.typeck_body(body_id));
954 self.hash_expr(&self.cx.tcx.hir().body(body_id).value);
955 self.maybe_typeck_results = old_maybe_typeck_results;
958 fn hash_generic_args(&mut self, arg_list: &[GenericArg<'_>]) {
959 for arg in arg_list {
961 GenericArg::Lifetime(l) => self.hash_lifetime(l),
962 GenericArg::Type(ref ty) => self.hash_ty(ty),
963 GenericArg::Const(ref ca) => self.hash_body(ca.value.body),
964 GenericArg::Infer(ref inf) => self.hash_ty(&inf.to_ty()),