support non-defining uses in HIR typeck

Author: lcnr

compiler/rustc_hir_analysis/src/collect/type_of/opaque.rs

@@ -127,6 +127,10 @@ impl<'tcx> TaitConstraintLocator<'tcx> {
     }
 
     fn non_defining_use_in_defining_scope(&mut self, item_def_id: LocalDefId) {
+        // We make sure that all opaque types get defined while
+        // type checking the defining scope, so this error is unreachable
+        // with the new solver.
+        assert!(!self.tcx.next_trait_solver_globally());
         let guar = self.tcx.dcx().emit_err(TaitForwardCompat2 {
             span: self
                 .tcx
@@ -252,9 +256,7 @@ pub(super) fn find_opaque_ty_constraints_for_rpit<'tcx>(
             } else if let Some(hidden_ty) = tables.concrete_opaque_types.get(&def_id) {
                 hidden_ty.ty
             } else {
-                // FIXME(-Znext-solver): This should not be necessary and we should
-                // instead rely on inference variable fallback inside of typeck itself.
-
+                assert!(!tcx.next_trait_solver_globally());
                 // We failed to resolve the opaque type or it
                 // resolves to itself. We interpret this as the
                 // no values of the hidden type ever being constructed,
@@ -273,6 +275,7 @@ pub(super) fn find_opaque_ty_constraints_for_rpit<'tcx>(
                     if let Err(guar) = hir_ty.error_reported() {
                         Ty::new_error(tcx, guar)
                     } else {
+                        assert!(!tcx.next_trait_solver_globally());
                         hir_ty
                     }
                 }

compiler/rustc_hir_analysis/src/errors.rs

@@ -413,7 +413,7 @@ pub(crate) struct UnconstrainedOpaqueType {
 #[derive(Diagnostic)]
 #[diag(hir_analysis_tait_forward_compat2)]
 #[note]
-pub(crate) struct TaitForwardCompat2 {
+pub struct TaitForwardCompat2 {
     #[primary_span]
     pub span: Span,
     #[note(hir_analysis_opaque)]

compiler/rustc_hir_analysis/src/lib.rs

@@ -82,7 +82,7 @@ mod coherence;
 mod collect;
 mod constrained_generic_params;
 mod delegation;
-mod errors;
+pub mod errors;
 pub mod hir_ty_lowering;
 pub mod hir_wf_check;
 mod impl_wf_check;

compiler/rustc_hir_typeck/src/lib.rs

@@ -247,6 +247,13 @@ fn typeck_with_inspect<'tcx>(
 
     debug!(pending_obligations = ?fcx.fulfillment_cx.borrow().pending_obligations());
 
+    // We need to handle opaque types before emitting ambiguity errors as applying
+    // defining uses may guide type inference.
+    if fcx.next_trait_solver() {
+        fcx.handle_opaque_type_uses_next();
+    }
+
+    fcx.select_obligations_where_possible(|_| {});
     if let None = fcx.infcx.tainted_by_errors() {
         fcx.report_ambiguity_errors();
     }

compiler/rustc_hir_typeck/src/opaque_types.rs

@@ -1,5 +1,193 @@
-use super::FnCtxt;
+use rustc_hir::def::DefKind;
+use rustc_hir_analysis::errors::TaitForwardCompat2;
+use rustc_infer::traits::ObligationCause;
+use rustc_middle::ty::{
+    self, DefiningScopeKind, EarlyBinder, OpaqueHiddenType, OpaqueTypeKey, Ty, TypeVisitableExt,
+    TypingMode,
+};
+use rustc_trait_selection::error_reporting::infer::need_type_info::TypeAnnotationNeeded;
+use rustc_trait_selection::opaque_types::{
+    InvalidOpaqueTypeArgs, check_opaque_type_parameter_valid,
+};
+use rustc_trait_selection::solve;
+use tracing::{debug, instrument};
+
+use crate::FnCtxt;
+
 impl<'tcx> FnCtxt<'_, 'tcx> {
+    /// This takes all the opaque type uses during HIR typeck. It first computes
+    /// the concrete hidden type by iterating over all defining uses.
+    ///
+    /// A use during HIR typeck is defining if all non-lifetime arguments are
+    /// unique generic parameters and the hidden type does not reference any
+    /// unconstrained inference variables.
+    ///
+    /// It then uses these defining uses to guide inference for all other uses.
+    #[instrument(level = "debug", skip(self))]
+    pub(super) fn handle_opaque_type_uses_next(&mut self) {
+        // We clone the opaques instead of stealing them here as they are still used for
+        // normalization in the next generation trait solver.
+        let mut opaque_types: Vec<_> = self.infcx.clone_opaque_types();
+        let num_entries = self.inner.borrow_mut().opaque_types().num_entries();
+        let prev = self.checked_opaque_types_storage_entries.replace(Some(num_entries));
+        debug_assert_eq!(prev, None);
+        for entry in &mut opaque_types {
+            *entry = self.resolve_vars_if_possible(*entry);
+        }
+        debug!(?opaque_types);
+
+        self.compute_concrete_opaque_types(&opaque_types);
+        self.apply_computed_concrete_opaque_types(&opaque_types);
+    }
+
+    fn compute_concrete_opaque_types(
+        &mut self,
+        opaque_types: &[(OpaqueTypeKey<'tcx>, OpaqueHiddenType<'tcx>)],
+    ) {
+        let tcx = self.tcx;
+        let TypingMode::Analysis { defining_opaque_types_and_generators } = self.typing_mode()
+        else {
+            unreachable!();
+        };
+
+        for def_id in defining_opaque_types_and_generators {
+            match tcx.def_kind(def_id) {
+                DefKind::OpaqueTy => {}
+                DefKind::Closure => continue,
+                _ => unreachable!("not opaque or generator: {def_id:?}"),
+            }
+
+            let mut non_defining_use = None;
+            let mut unconstrained_hidden_type = None;
+            let mut found_defining_use = false;
+            for &(opaque_type_key, hidden_type) in opaque_types {
+                if opaque_type_key.def_id != def_id {
+                    continue;
+                }
+                if let Err(err) = check_opaque_type_parameter_valid(
+                    &self,
+                    opaque_type_key,
+                    hidden_type.span,
+                    DefiningScopeKind::HirTypeck,
+                ) {
+                    match err {
+                        InvalidOpaqueTypeArgs::AlreadyReported(guar) => {
+                            found_defining_use = true;
+                            self.typeck_results.borrow_mut().concrete_opaque_types.insert(
+                                opaque_type_key.def_id,
+                                OpaqueHiddenType::new_error(tcx, guar),
+                            );
+                        }
+                        _ => {
+                            non_defining_use = Some((opaque_type_key, hidden_type));
+                        }
+                    }
+                    continue;
+                }
+
+                // We ignore uses of the opaque if they have any inference variables
+                // as this can frequently happen with recursive calls.
+                //
+                // See `tests/ui/traits/next-solver/opaques/universal-args-non-defining.rs`.
+                if hidden_type.ty.has_non_region_infer() {
+                    unconstrained_hidden_type = Some((opaque_type_key, hidden_type));
+                    continue;
+                }
+
+                let cause = ObligationCause::misc(hidden_type.span, self.body_id);
+                let at = self.at(&cause, self.param_env);
+                let hidden_type = match solve::deeply_normalize(at, hidden_type) {
+                    Ok(hidden_type) => hidden_type,
+                    Err(errors) => {
+                        let guar = self.err_ctxt().report_fulfillment_errors(errors);
+                        OpaqueHiddenType::new_error(tcx, guar)
+                    }
+                };
+                let hidden_type = hidden_type.remap_generic_params_to_declaration_params(
+                    opaque_type_key,
+                    tcx,
+                    DefiningScopeKind::HirTypeck,
+                );
+
+                found_defining_use = true;
+                let typeck_results = &mut *self.typeck_results.borrow_mut();
+                if let Some(prev) =
+                    typeck_results.concrete_opaque_types.insert(opaque_type_key.def_id, hidden_type)
+                {
+                    let entry = typeck_results
+                        .concrete_opaque_types
+                        .get_mut(&opaque_type_key.def_id)
+                        .unwrap();
+                    if prev.ty != hidden_type.ty {
+                        if let Some(guar) = self.tainted_by_errors() {
+                            entry.ty = Ty::new_error(tcx, guar);
+                        } else {
+                            let (Ok(guar) | Err(guar)) =
+                                prev.build_mismatch_error(&hidden_type, tcx).map(|d| d.emit());
+                            entry.ty = Ty::new_error(tcx, guar);
+                        }
+                    }
+
+                    // Pick a better span if there is one.
+                    // FIXME(oli-obk): collect multiple spans for better diagnostics down the road.
+                    entry.span = prev.span.substitute_dummy(hidden_type.span);
+                }
+            }
+
+            if !found_defining_use {
+                let guar = if let Some((_, hidden_type)) = unconstrained_hidden_type {
+                    let infer_var = hidden_type
+                        .ty
+                        .walk()
+                        .filter_map(ty::GenericArg::as_term)
+                        .find(|term| term.is_infer())
+                        .unwrap_or_else(|| hidden_type.ty.into());
+                    self.err_ctxt()
+                        .emit_inference_failure_err(
+                            self.body_id,
+                            hidden_type.span,
+                            infer_var,
+                            TypeAnnotationNeeded::E0282,
+                            false,
+                        )
+                        .emit()
+                } else if let Some((_, hidden_type)) = non_defining_use {
+                    tcx.dcx().span_err(hidden_type.span, "non-defining use in the defining scope")
+                } else if let Some(guar) = self.tainted_by_errors() {
+                    guar
+                } else {
+                    self.tcx.dcx().emit_err(TaitForwardCompat2 {
+                        span: self
+                            .tcx
+                            .def_ident_span(self.body_id)
+                            .unwrap_or_else(|| self.tcx.def_span(self.body_id)),
+                        opaque_type_span: self.tcx.def_span(def_id),
+                        opaque_type: self.tcx.def_path_str(def_id),
+                    })
+                };
+                self.typeck_results
+                    .borrow_mut()
+                    .concrete_opaque_types
+                    .insert(def_id, OpaqueHiddenType::new_error(tcx, guar));
+                self.set_tainted_by_errors(guar);
+            }
+        }
+    }
+
+    fn apply_computed_concrete_opaque_types(
+        &mut self,
+        opaque_types: &[(OpaqueTypeKey<'tcx>, OpaqueHiddenType<'tcx>)],
+    ) {
+        let tcx = self.tcx;
+        for &(key, hidden_type) in opaque_types {
+            let expected =
+                *self.typeck_results.borrow_mut().concrete_opaque_types.get(&key.def_id).unwrap();
+
+            let expected = EarlyBinder::bind(expected.ty).instantiate(tcx, key.args);
+            self.demand_eqtype(hidden_type.span, expected, hidden_type.ty);
+        }
+    }
+
     /// We may in theory add further uses of an opaque after cloning the opaque
     /// types storage during writeback when computing the defining uses.
     ///

compiler/rustc_hir_typeck/src/writeback.rs

@@ -546,8 +546,21 @@ impl<'cx, 'tcx> WritebackCx<'cx, 'tcx> {
         }
     }
 
+    fn visit_opaque_types_next(&mut self) {
+        let fcx_typeck_results = self.fcx.typeck_results.borrow();
+        assert_eq!(fcx_typeck_results.hir_owner, self.typeck_results.hir_owner);
+        for (&def_id, &hidden_type) in &fcx_typeck_results.concrete_opaque_types {
+            assert!(!hidden_type.has_infer());
+            self.typeck_results.concrete_opaque_types.insert(def_id, hidden_type);
+        }
+    }
+
     #[instrument(skip(self), level = "debug")]
     fn visit_opaque_types(&mut self) {
+        if self.fcx.next_trait_solver() {
+            return self.visit_opaque_types_next();
+        }
+
         let tcx = self.tcx();
         // We clone the opaques instead of stealing them here as they are still used for
         // normalization in the next generation trait solver.
@@ -558,14 +571,11 @@ impl<'cx, 'tcx> WritebackCx<'cx, 'tcx> {
         for (opaque_type_key, hidden_type) in opaque_types {
             let hidden_type = self.resolve(hidden_type, &hidden_type.span);
             let opaque_type_key = self.resolve(opaque_type_key, &hidden_type.span);
-
-            if !self.fcx.next_trait_solver() {
-                if let ty::Alias(ty::Opaque, alias_ty) = hidden_type.ty.kind()
-                    && alias_ty.def_id == opaque_type_key.def_id.to_def_id()
-                    && alias_ty.args == opaque_type_key.args
-                {
-                    continue;
-                }
+            if let ty::Alias(ty::Opaque, alias_ty) = hidden_type.ty.kind()
+                && alias_ty.def_id == opaque_type_key.def_id.to_def_id()
+                && alias_ty.args == opaque_type_key.args
+            {
+                continue;
             }
 
             if let Err(err) = check_opaque_type_parameter_valid(
@@ -923,6 +933,7 @@ impl<'cx, 'tcx> Resolver<'cx, 'tcx> {
         }
     }
 
+    #[instrument(level = "debug", skip(self, outer_exclusive_binder, new_err))]
     fn handle_term<T>(
         &mut self,
         value: T,

compiler/rustc_next_trait_solver/src/solve/eval_ctxt/mod.rs

@@ -4,7 +4,6 @@ use std::ops::ControlFlow;
 #[cfg(feature = "nightly")]
 use rustc_macros::HashStable_NoContext;
 use rustc_type_ir::data_structures::{HashMap, HashSet};
-use rustc_type_ir::fast_reject::DeepRejectCtxt;
 use rustc_type_ir::inherent::*;
 use rustc_type_ir::relate::Relate;
 use rustc_type_ir::relate::solver_relating::RelateExt;
@@ -1128,6 +1127,7 @@ where
         self.delegate.fetch_eligible_assoc_item(goal_trait_ref, trait_assoc_def_id, impl_def_id)
     }
 
+    #[instrument(level = "debug", skip(self), ret)]
     pub(super) fn register_hidden_type_in_storage(
         &mut self,
         opaque_type_key: ty::OpaqueTypeKey<I>,
@@ -1154,29 +1154,6 @@ where
         self.add_goals(GoalSource::AliasWellFormed, goals);
     }
 
-    // Do something for each opaque/hidden pair defined with `def_id` in the
-    // current inference context.
-    pub(super) fn probe_existing_opaque_ty(
-        &mut self,
-        key: ty::OpaqueTypeKey<I>,
-    ) -> Option<(ty::OpaqueTypeKey<I>, I::Ty)> {
-        // We shouldn't have any duplicate entries when using
-        // this function during `TypingMode::Analysis`.
-        let duplicate_entries = self.delegate.clone_duplicate_opaque_types();
-        assert!(duplicate_entries.is_empty(), "unexpected duplicates: {duplicate_entries:?}");
-        let mut matching = self.delegate.clone_opaque_types_lookup_table().into_iter().filter(
-            |(candidate_key, _)| {
-                candidate_key.def_id == key.def_id
-                    && DeepRejectCtxt::relate_rigid_rigid(self.cx())
-                        .args_may_unify(candidate_key.args, key.args)
-            },
-        );
-        let first = matching.next();
-        let second = matching.next();
-        assert_eq!(second, None);
-        first
-    }
-
     // Try to evaluate a const, or return `None` if the const is too generic.
     // This doesn't mean the const isn't evaluatable, though, and should be treated
     // as an ambiguity rather than no-solution.