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Auto merge of #98785 - compiler-errors:no-check-expr-in-check-compatible, r=estebank
Do not call `check_expr` in `check_compatible`, since it has side-effects Fixes a weird suggestion in #98784 found later: Fixes #98894 Fixes #98897
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c6ff90b00e
@ -271,7 +271,7 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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}
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#[instrument(skip(self, expr), level = "debug")]
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pub(super) fn check_expr_kind(
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fn check_expr_kind(
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&self,
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expr: &'tcx hir::Expr<'tcx>,
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expected: Expectation<'tcx>,
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@ -483,6 +483,19 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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self.set_tainted_by_errors();
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let tcx = self.tcx;
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// Precompute the provided types and spans, since that's all we typically need for below
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let provided_arg_tys: IndexVec<ProvidedIdx, (Ty<'tcx>, Span)> = provided_args
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.iter()
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.map(|expr| {
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let ty = self
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.typeck_results
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.borrow()
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.expr_ty_adjusted_opt(*expr)
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.unwrap_or_else(|| tcx.ty_error());
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(self.resolve_vars_if_possible(ty), expr.span)
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})
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.collect();
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// A "softer" version of the `demand_compatible`, which checks types without persisting them,
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// and treats error types differently
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// This will allow us to "probe" for other argument orders that would likely have been correct
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@ -499,31 +512,23 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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return Compatibility::Incompatible(None);
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}
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let provided_arg: &hir::Expr<'tcx> = &provided_args[provided_idx];
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let expectation = Expectation::rvalue_hint(self, expected_input_ty);
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// FIXME: check that this is safe; I don't believe this commits any of the obligations, but I can't be sure.
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//
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// I had another method of "soft" type checking before,
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// but it was failing to find the type of some expressions (like "")
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// so I prodded this method and made it pub(super) so I could call it, and it seems to work well.
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let checked_ty = self.check_expr_kind(provided_arg, expectation);
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let (arg_ty, arg_span) = provided_arg_tys[provided_idx];
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let expectation = Expectation::rvalue_hint(self, expected_input_ty);
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let coerced_ty = expectation.only_has_type(self).unwrap_or(formal_input_ty);
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let can_coerce = self.can_coerce(checked_ty, coerced_ty);
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let can_coerce = self.can_coerce(arg_ty, coerced_ty);
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if !can_coerce {
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return Compatibility::Incompatible(None);
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}
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// Using probe here, since we don't want this subtyping to affect inference.
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let subtyping_error = self.probe(|_| {
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self.at(&self.misc(provided_arg.span), self.param_env)
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.sup(formal_input_ty, coerced_ty)
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.err()
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self.at(&self.misc(arg_span), self.param_env).sup(formal_input_ty, coerced_ty).err()
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});
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// Same as above: if either the coerce type or the checked type is an error type,
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// consider them *not* compatible.
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let references_error = (coerced_ty, checked_ty).references_error();
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let references_error = (coerced_ty, arg_ty).references_error();
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match (references_error, subtyping_error) {
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(false, None) => Compatibility::Compatible,
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(_, subtyping_error) => Compatibility::Incompatible(subtyping_error),
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@ -542,19 +547,6 @@ impl<'a, 'tcx> FnCtxt<'a, 'tcx> {
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ArgMatrix::new(provided_args.len(), formal_and_expected_inputs.len(), check_compatible)
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.find_errors();
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// Precompute the provided types and spans, since that's all we typically need for below
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let provided_arg_tys: IndexVec<ProvidedIdx, (Ty<'tcx>, Span)> = provided_args
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.iter()
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.map(|expr| {
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let ty = self
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.typeck_results
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.borrow()
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.expr_ty_adjusted_opt(*expr)
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.unwrap_or_else(|| tcx.ty_error());
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(self.resolve_vars_if_possible(ty), expr.span)
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})
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.collect();
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// First, check if we just need to wrap some arguments in a tuple.
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if let Some((mismatch_idx, terr)) =
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compatibility_diagonal.iter().enumerate().find_map(|(i, c)| {
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@ -1,7 +1,6 @@
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fn main() {
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let needlesArr: Vec<char> = vec!['a', 'f'];
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needlesArr.iter().fold(|x, y| {
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//~^ ERROR this function takes 2 arguments but 1 argument was supplied
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});
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//~^^ ERROR mismatched types
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//~| ERROR this function takes 2 arguments but 1 argument was supplied
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}
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@ -1,21 +1,9 @@
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error[E0308]: mismatched types
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--> $DIR/issue-3044.rs:3:35
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LL | needlesArr.iter().fold(|x, y| {
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| ____________________________------_^
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| | |
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| | the expected closure
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LL | | });
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| |_____^ expected closure, found `()`
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= note: expected closure `[closure@$DIR/issue-3044.rs:3:28: 3:34]`
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found unit type `()`
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error[E0061]: this function takes 2 arguments but 1 argument was supplied
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--> $DIR/issue-3044.rs:3:23
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LL | needlesArr.iter().fold(|x, y| {
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| _______________________^^^^-
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LL | |
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LL | | });
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| |______- an argument is missing
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@ -27,10 +15,10 @@ LL | fn fold<B, F>(mut self, init: B, mut f: F) -> B
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help: provide the argument
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LL ~ needlesArr.iter().fold(|x, y| {
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LL +
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LL ~ }, /* value */);
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error: aborting due to 2 previous errors
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error: aborting due to previous error
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Some errors have detailed explanations: E0061, E0308.
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For more information about an error, try `rustc --explain E0061`.
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For more information about this error, try `rustc --explain E0061`.
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