// Copyright 2017 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "src/torque/declarations.h" #include "src/torque/declarable.h" #include "src/torque/global-context.h" #include "src/torque/server-data.h" #include "src/torque/type-oracle.h" namespace v8 { namespace internal { namespace torque { namespace { template std::vector EnsureNonempty(std::vector list, const std::string& name, const char* kind) { if (list.empty()) { ReportError("there is no ", kind, " named ", name); } return std::move(list); } template T EnsureUnique(const std::vector& list, const Name& name, const char* kind) { if (list.empty()) { ReportError("there is no ", kind, " named ", name); } if (list.size() >= 2) { ReportError("ambiguous reference to ", kind, " ", name); } return list.front(); } template void CheckAlreadyDeclared(const std::string& name, const char* new_type) { std::vector declarations = FilterDeclarables(Declarations::TryLookupShallow(QualifiedName(name))); if (!declarations.empty()) { Scope* scope = CurrentScope::Get(); ReportError("cannot redeclare ", name, " (type ", *new_type, scope, ")"); } } } // namespace std::vector Declarations::LookupGlobalScope( const QualifiedName& name) { std::vector d = GlobalContext::GetDefaultNamespace()->Lookup(name); if (d.empty()) { std::stringstream s; s << "cannot find \"" << name << "\" in global scope"; ReportError(s.str()); } return d; } const TypeAlias* Declarations::LookupTypeAlias(const QualifiedName& name) { TypeAlias* declaration = EnsureUnique(FilterDeclarables(Lookup(name)), name, "type"); return declaration; } const Type* Declarations::LookupType(const QualifiedName& name) { return LookupTypeAlias(name)->type(); } const Type* Declarations::LookupType(const Identifier* name) { const TypeAlias* alias = LookupTypeAlias(QualifiedName(name->value)); if (GlobalContext::collect_language_server_data()) { LanguageServerData::AddDefinition(name->pos, alias->GetDeclarationPosition()); } return alias->type(); } base::Optional Declarations::TryLookupType( const QualifiedName& name) { auto decls = FilterDeclarables(TryLookup(name)); if (decls.empty()) return base::nullopt; return EnsureUnique(std::move(decls), name, "type")->type(); } const Type* Declarations::LookupGlobalType(const QualifiedName& name) { TypeAlias* declaration = EnsureUnique( FilterDeclarables(LookupGlobalScope(name)), name, "type"); return declaration->type(); } Builtin* Declarations::FindSomeInternalBuiltinWithType( const BuiltinPointerType* type) { for (auto& declarable : GlobalContext::AllDeclarables()) { if (Builtin* builtin = Builtin::DynamicCast(declarable.get())) { if (!builtin->IsExternal() && builtin->kind() == Builtin::kStub && builtin->signature().return_type == type->return_type() && builtin->signature().parameter_types.types == type->parameter_types()) { return builtin; } } } return nullptr; } Value* Declarations::LookupValue(const QualifiedName& name) { return EnsureUnique(FilterDeclarables(Lookup(name)), name, "value"); } Macro* Declarations::TryLookupMacro(const std::string& name, const TypeVector& types) { std::vector macros = TryLookup(QualifiedName(name)); for (auto& m : macros) { auto signature_types = m->signature().GetExplicitTypes(); if (signature_types == types && !m->signature().parameter_types.var_args) { return m; } } return nullptr; } base::Optional Declarations::TryLookupBuiltin( const QualifiedName& name) { std::vector builtins = TryLookup(name); if (builtins.empty()) return base::nullopt; return EnsureUnique(builtins, name.name, "builtin"); } std::vector Declarations::LookupGeneric( const std::string& name) { return EnsureNonempty( FilterDeclarables(Lookup(QualifiedName(name))), name, "generic callable"); } GenericCallable* Declarations::LookupUniqueGeneric(const QualifiedName& name) { return EnsureUnique(FilterDeclarables(Lookup(name)), name, "generic callable"); } GenericType* Declarations::LookupUniqueGenericType(const QualifiedName& name) { return EnsureUnique(FilterDeclarables(Lookup(name)), name, "generic type"); } GenericType* Declarations::LookupGlobalUniqueGenericType( const std::string& name) { return EnsureUnique( FilterDeclarables(LookupGlobalScope(QualifiedName(name))), name, "generic type"); } base::Optional Declarations::TryLookupGenericType( const QualifiedName& name) { std::vector results = TryLookup(name); if (results.empty()) return base::nullopt; return EnsureUnique(results, name.name, "generic type"); } Namespace* Declarations::DeclareNamespace(const std::string& name) { return Declare(name, std::make_unique(name)); } TypeAlias* Declarations::DeclareType(const Identifier* name, const Type* type) { CheckAlreadyDeclared(name->value, "type"); return Declare(name->value, std::unique_ptr( new TypeAlias(type, true, name->pos))); } TypeAlias* Declarations::PredeclareTypeAlias(const Identifier* name, TypeDeclaration* type, bool redeclaration) { CheckAlreadyDeclared(name->value, "type"); std::unique_ptr alias_ptr( new TypeAlias(type, redeclaration, name->pos)); return Declare(name->value, std::move(alias_ptr)); } TorqueMacro* Declarations::CreateTorqueMacro(std::string external_name, std::string readable_name, bool exported_to_csa, Signature signature, base::Optional body, bool is_user_defined) { external_name = GlobalContext::MakeUniqueName(external_name); return RegisterDeclarable(std::unique_ptr(new TorqueMacro( std::move(external_name), std::move(readable_name), std::move(signature), body, is_user_defined, exported_to_csa))); } ExternMacro* Declarations::CreateExternMacro( std::string name, std::string external_assembler_name, Signature signature) { return RegisterDeclarable(std::unique_ptr( new ExternMacro(std::move(name), std::move(external_assembler_name), std::move(signature)))); } Macro* Declarations::DeclareMacro( const std::string& name, bool accessible_from_csa, base::Optional external_assembler_name, const Signature& signature, base::Optional body, base::Optional op, bool is_user_defined) { if (Macro* existing_macro = TryLookupMacro(name, signature.GetExplicitTypes())) { if (existing_macro->ParentScope() == CurrentScope::Get()) { ReportError("cannot redeclare macro ", name, " with identical explicit parameters"); } } Macro* macro; if (external_assembler_name) { macro = CreateExternMacro(name, std::move(*external_assembler_name), signature); } else { macro = CreateTorqueMacro(name, name, accessible_from_csa, signature, body, is_user_defined); } Declare(name, macro); if (op) { if (TryLookupMacro(*op, signature.GetExplicitTypes())) { ReportError("cannot redeclare operator ", name, " with identical explicit parameters"); } DeclareOperator(*op, macro); } return macro; } Method* Declarations::CreateMethod(AggregateType* container_type, const std::string& name, Signature signature, Statement* body) { std::string generated_name = GlobalContext::MakeUniqueName( "Method_" + container_type->SimpleName() + "_" + name); Method* result = RegisterDeclarable(std::unique_ptr(new Method( container_type, generated_name, name, std::move(signature), body))); container_type->RegisterMethod(result); return result; } Intrinsic* Declarations::CreateIntrinsic(const std::string& name, const Signature& signature) { Intrinsic* result = RegisterDeclarable(std::unique_ptr( new Intrinsic(std::move(name), std::move(signature)))); return result; } Intrinsic* Declarations::DeclareIntrinsic(const std::string& name, const Signature& signature) { Intrinsic* result = CreateIntrinsic(std::move(name), std::move(signature)); Declare(name, result); return result; } Builtin* Declarations::CreateBuiltin(std::string external_name, std::string readable_name, Builtin::Kind kind, Signature signature, base::Optional body) { return RegisterDeclarable(std::unique_ptr( new Builtin(std::move(external_name), std::move(readable_name), kind, std::move(signature), body))); } Builtin* Declarations::DeclareBuiltin(const std::string& name, Builtin::Kind kind, const Signature& signature, base::Optional body) { CheckAlreadyDeclared(name, "builtin"); return Declare(name, CreateBuiltin(name, name, kind, signature, body)); } RuntimeFunction* Declarations::DeclareRuntimeFunction( const std::string& name, const Signature& signature) { CheckAlreadyDeclared(name, "runtime function"); return Declare(name, RegisterDeclarable(std::unique_ptr( new RuntimeFunction(name, signature)))); } ExternConstant* Declarations::DeclareExternConstant(Identifier* name, const Type* type, std::string value) { CheckAlreadyDeclared(name->value, "constant"); return Declare(name->value, std::unique_ptr( new ExternConstant(name, type, value))); } NamespaceConstant* Declarations::DeclareNamespaceConstant(Identifier* name, const Type* type, Expression* body) { CheckAlreadyDeclared(name->value, "constant"); std::string external_name = GlobalContext::MakeUniqueName(name->value); std::unique_ptr namespaceConstant( new NamespaceConstant(name, std::move(external_name), type, body)); NamespaceConstant* result = namespaceConstant.get(); Declare(name->value, std::move(namespaceConstant)); return result; } GenericCallable* Declarations::DeclareGenericCallable( const std::string& name, GenericCallableDeclaration* ast_node) { return Declare(name, std::unique_ptr( new GenericCallable(name, ast_node))); } GenericType* Declarations::DeclareGenericType( const std::string& name, GenericTypeDeclaration* ast_node) { return Declare(name, std::unique_ptr(new GenericType(name, ast_node))); } std::string Declarations::GetGeneratedCallableName( const std::string& name, const TypeVector& specialized_types) { std::string result = name; for (auto type : specialized_types) { result += "_" + type->SimpleName(); } return result; } Macro* Declarations::DeclareOperator(const std::string& name, Macro* m) { GlobalContext::GetDefaultNamespace()->AddDeclarable(name, m); return m; } } // namespace torque } // namespace internal } // namespace v8