// Part of the Carbon Language project, under the Apache License v2.0 with LLVM // Exceptions. See /LICENSE for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception #include "toolchain/check/impl.h" #include "toolchain/base/kind_switch.h" #include "toolchain/check/context.h" #include "toolchain/check/eval.h" #include "toolchain/check/function.h" #include "toolchain/check/generic.h" #include "toolchain/check/import_ref.h" #include "toolchain/diagnostics/diagnostic_emitter.h" #include "toolchain/sem_ir/generic.h" #include "toolchain/sem_ir/ids.h" #include "toolchain/sem_ir/impl.h" #include "toolchain/sem_ir/inst.h" #include "toolchain/sem_ir/typed_insts.h" namespace Carbon::Check { // Adds the location of the associated function to a diagnostic. static auto NoteAssociatedFunction(Context& context, Context::DiagnosticBuilder& builder, SemIR::FunctionId function_id) -> void { CARBON_DIAGNOSTIC(ImplAssociatedFunctionHere, Note, "associated function {0} declared here", SemIR::NameId); const auto& function = context.functions().Get(function_id); builder.Note(function.latest_decl_id(), ImplAssociatedFunctionHere, function.name_id); } // Gets the self specific of a generic declaration that is an interface member, // given a specific for an enclosing generic, plus a type to use as `Self`. static auto GetSelfSpecificForInterfaceMemberWithSelfType( Context& context, SemIRLoc loc, SemIR::SpecificId enclosing_specific_id, SemIR::GenericId generic_id, SemIR::TypeId self_type_id) -> SemIR::SpecificId { const auto& generic = context.generics().Get(generic_id); auto bindings = context.inst_blocks().Get(generic.bindings_id); llvm::SmallVector arg_ids; arg_ids.reserve(bindings.size()); // Start with the enclosing arguments. if (enclosing_specific_id.is_valid()) { auto enclosing_specific_args_id = context.specifics().Get(enclosing_specific_id).args_id; auto enclosing_specific_args = context.inst_blocks().Get(enclosing_specific_args_id); arg_ids.assign(enclosing_specific_args.begin(), enclosing_specific_args.end()); } // Add the `Self` argument. First find the `Self` binding. auto self_binding = context.insts().GetAs(bindings[arg_ids.size()]); CARBON_CHECK( context.entity_names().Get(self_binding.entity_name_id).name_id == SemIR::NameId::SelfType, "Expected a Self binding, found {0}", self_binding); // Create a facet value to be the value of `Self` in the interface. // This facet value consists of the type `self_type_id` and a witness that the // type implements `self_binding.type_id`. The witness needs to be symbolic // since we haven't finished defining the implementation here. auto type_inst_id = context.types().GetInstId(self_type_id); // TODO: Make a symbolic interface witness here. For the moment, the witness // is never used. auto witness_inst_id = type_inst_id; auto facet_value_const_id = TryEvalInst(context, SemIR::InstId::Invalid, SemIR::FacetValue{.type_id = self_binding.type_id, .type_inst_id = type_inst_id, .witness_inst_id = witness_inst_id}); arg_ids.push_back(context.constant_values().GetInstId(facet_value_const_id)); // Take any trailing argument values from the self specific. // TODO: If these refer to outer arguments, for example in their types, we may // need to perform extra substitutions here. auto self_specific_args = context.inst_blocks().Get( context.specifics().Get(generic.self_specific_id).args_id); for (auto arg_id : self_specific_args.drop_front(arg_ids.size())) { arg_ids.push_back(context.constant_values().GetConstantInstId(arg_id)); } auto args_id = context.inst_blocks().AddCanonical(arg_ids); return MakeSpecific(context, loc, generic_id, args_id); } // Checks that `impl_function_id` is a valid implementation of the function // described in the interface as `interface_function_id`. Returns the value to // put into the corresponding slot in the witness table, which can be // `BuiltinErrorInst` if the function is not usable. static auto CheckAssociatedFunctionImplementation( Context& context, SemIR::FunctionType interface_function_type, SemIR::InstId impl_decl_id, SemIR::TypeId self_type_id) -> SemIR::InstId { auto impl_function_decl = context.insts().TryGetAs(impl_decl_id); if (!impl_function_decl) { CARBON_DIAGNOSTIC(ImplFunctionWithNonFunction, Error, "associated function {0} implemented by non-function", SemIR::NameId); auto builder = context.emitter().Build( impl_decl_id, ImplFunctionWithNonFunction, context.functions().Get(interface_function_type.function_id).name_id); NoteAssociatedFunction(context, builder, interface_function_type.function_id); builder.Emit(); return SemIR::ErrorInst::SingletonInstId; } // Map from the specific for the function type to the specific for the // function signature. The function signature may have additional generic // parameters. auto interface_function_specific_id = GetSelfSpecificForInterfaceMemberWithSelfType( context, impl_decl_id, interface_function_type.specific_id, context.functions() .Get(interface_function_type.function_id) .generic_id, self_type_id); // TODO: This should be a semantic check rather than a syntactic one. The // functions should be allowed to have different signatures as long as we can // synthesize a suitable thunk. if (!CheckFunctionTypeMatches( context, context.functions().Get(impl_function_decl->function_id), context.functions().Get(interface_function_type.function_id), interface_function_specific_id, /*check_syntax=*/false)) { return SemIR::ErrorInst::SingletonInstId; } return impl_decl_id; } // Builds a witness that the specified impl implements the given interface. static auto BuildInterfaceWitness( Context& context, const SemIR::Impl& impl, SemIR::TypeId facet_type_id, SemIR::FacetTypeInfo::ImplsConstraint interface_type, llvm::SmallVectorImpl& used_decl_ids) -> SemIR::InstId { const auto& interface = context.interfaces().Get(interface_type.interface_id); // TODO: This is going to try and define all the interfaces for this facet // type, and so once we support impl of a facet type with more than one // interface, it might give the wrong name in the diagnostic. if (!context.RequireDefinedType( facet_type_id, context.insts().GetLocId(impl.definition_id), [&] { CARBON_DIAGNOSTIC(ImplOfUndefinedInterface, Error, "implementation of undefined interface {0}", SemIR::NameId); return context.emitter().Build(impl.definition_id, ImplOfUndefinedInterface, interface.name_id); })) { return SemIR::ErrorInst::SingletonInstId; } auto& impl_scope = context.name_scopes().Get(impl.scope_id); auto self_type_id = context.GetTypeIdForTypeInst(impl.self_id); llvm::SmallVector table; auto assoc_entities = context.inst_blocks().Get(interface.associated_entities_id); table.reserve(assoc_entities.size()); for (auto decl_id : assoc_entities) { LoadImportRef(context, decl_id); decl_id = context.constant_values().GetInstId(SemIR::GetConstantValueInSpecific( context.sem_ir(), interface_type.specific_id, decl_id)); CARBON_CHECK(decl_id.is_valid(), "Non-constant associated entity"); auto decl = context.insts().Get(decl_id); CARBON_KIND_SWITCH(decl) { case CARBON_KIND(SemIR::StructValue struct_value): { if (struct_value.type_id == SemIR::ErrorInst::SingletonTypeId) { return SemIR::ErrorInst::SingletonInstId; } auto type_inst = context.types().GetAsInst(struct_value.type_id); auto fn_type = type_inst.TryAs(); if (!fn_type) { CARBON_FATAL("Unexpected type: {0}", type_inst); } auto& fn = context.functions().Get(fn_type->function_id); auto [impl_decl_id, _] = context.LookupNameInExactScope( decl_id, fn.name_id, impl.scope_id, impl_scope); if (impl_decl_id.is_valid()) { used_decl_ids.push_back(impl_decl_id); table.push_back(CheckAssociatedFunctionImplementation( context, *fn_type, impl_decl_id, self_type_id)); } else { CARBON_DIAGNOSTIC( ImplMissingFunction, Error, "missing implementation of {0} in impl of interface {1}", SemIR::NameId, SemIR::NameId); auto builder = context.emitter().Build(impl.definition_id, ImplMissingFunction, fn.name_id, interface.name_id); NoteAssociatedFunction(context, builder, fn_type->function_id); builder.Emit(); table.push_back(SemIR::ErrorInst::SingletonInstId); } break; } case CARBON_KIND(SemIR::AssociatedConstantDecl associated): { // TODO: Check we have a value for this constant in the constraint. context.TODO( impl.definition_id, "impl of interface with associated constant " + context.names().GetFormatted(associated.name_id).str()); return SemIR::ErrorInst::SingletonInstId; } default: CARBON_CHECK(decl_id == SemIR::ErrorInst::SingletonInstId, "Unexpected kind of associated entity {0}", decl); table.push_back(SemIR::ErrorInst::SingletonInstId); break; } } auto table_id = context.inst_blocks().Add(table); return context.AddInst( context.insts().GetLocId(impl.definition_id), {.type_id = context.GetSingletonType(SemIR::WitnessType::SingletonInstId), .elements_id = table_id}); } auto BuildImplWitness(Context& context, SemIR::ImplId impl_id) -> SemIR::InstId { auto& impl = context.impls().Get(impl_id); CARBON_CHECK(impl.is_being_defined()); auto facet_type_id = context.GetTypeIdForTypeInst(impl.constraint_id); if (facet_type_id == SemIR::ErrorInst::SingletonTypeId) { return SemIR::ErrorInst::SingletonInstId; } auto facet_type = context.types().TryGetAs(facet_type_id); if (!facet_type) { CARBON_DIAGNOSTIC(ImplAsNonFacetType, Error, "impl as non-facet-type"); context.emitter().Emit(impl.definition_id, ImplAsNonFacetType); return SemIR::ErrorInst::SingletonInstId; } const SemIR::FacetTypeInfo& facet_type_info = context.facet_types().Get(facet_type->facet_type_id); auto interface = facet_type_info.TryAsSingleInterface(); if (!interface) { context.TODO(impl.definition_id, "impl as not 1 interface"); return SemIR::ErrorInst::SingletonInstId; } llvm::SmallVector used_decl_ids; auto witness_id = BuildInterfaceWitness(context, impl, facet_type_id, *interface, used_decl_ids); // TODO: Diagnose if any declarations in the impl are not in used_decl_ids. return witness_id; } } // namespace Carbon::Check