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- // 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 "executable_semantics/interpreter/resolve_names.h"
- #include "executable_semantics/ast/declaration.h"
- #include "llvm/Support/Casting.h"
- using llvm::cast;
- namespace Carbon {
- namespace {
- // Populates names for a pattern. See PopulateNamesInDeclaration for overall
- // flow.
- void PopulateNamesInPattern(const Pattern& pattern, StaticScope& static_scope) {
- switch (pattern.kind()) {
- case PatternKind::AlternativePattern: {
- const auto& alt = cast<AlternativePattern>(pattern);
- PopulateNamesInPattern(alt.arguments(), static_scope);
- break;
- }
- case PatternKind::BindingPattern: {
- const auto& binding = cast<BindingPattern>(pattern);
- if (binding.name().has_value()) {
- static_scope.Add(*binding.name(), &binding);
- }
- break;
- }
- case PatternKind::TuplePattern: {
- const auto& tuple = cast<TuplePattern>(pattern);
- for (auto* field : tuple.fields()) {
- PopulateNamesInPattern(*field, static_scope);
- }
- break;
- }
- case PatternKind::AutoPattern:
- case PatternKind::ExpressionPattern:
- // These don't add names.
- break;
- }
- }
- // Populates names for a statement. See PopulateNamesInDeclaration for overall
- // flow.
- void PopulateNamesInStatement(Arena* arena,
- std::optional<Nonnull<Statement*>> opt_statement,
- StaticScope& static_scope) {
- if (!opt_statement.has_value()) {
- return;
- }
- Statement& statement = **opt_statement;
- switch (statement.kind()) {
- case StatementKind::Block: {
- // Defines a new scope for names.
- auto& block = cast<Block>(statement);
- block.static_scope().AddParent(&static_scope);
- for (const auto& statement : block.statements()) {
- PopulateNamesInStatement(arena, statement, block.static_scope());
- }
- break;
- }
- case StatementKind::Continuation: {
- // Defines a new name and contains a block.
- auto& cont = cast<Continuation>(statement);
- static_scope.Add(cont.continuation_variable(), &cont);
- PopulateNamesInStatement(arena, &cont.body(), static_scope);
- break;
- }
- case StatementKind::VariableDefinition: {
- // Defines a new name.
- const auto& var = cast<VariableDefinition>(statement);
- PopulateNamesInPattern(var.pattern(), static_scope);
- break;
- }
- case StatementKind::If: {
- // Contains blocks.
- auto& if_stmt = cast<If>(statement);
- PopulateNamesInStatement(arena, &if_stmt.then_block(), static_scope);
- PopulateNamesInStatement(arena, if_stmt.else_block(), static_scope);
- break;
- }
- case StatementKind::While: {
- // Contains a block.
- auto& while_stmt = cast<While>(statement);
- PopulateNamesInStatement(arena, &while_stmt.body(), static_scope);
- break;
- }
- case StatementKind::Match: {
- // Contains blocks.
- auto& match = cast<Match>(statement);
- for (auto& clause : match.clauses()) {
- clause.static_scope().AddParent(&static_scope);
- PopulateNamesInPattern(clause.pattern(), clause.static_scope());
- PopulateNamesInStatement(arena, &clause.statement(),
- clause.static_scope());
- }
- break;
- }
- case StatementKind::Assign:
- case StatementKind::Await:
- case StatementKind::Break:
- case StatementKind::Continue:
- case StatementKind::ExpressionStatement:
- case StatementKind::Return:
- case StatementKind::Run:
- // Neither contains names nor a scope.
- break;
- }
- }
- // Populates names for a member. See PopulateNamesInDeclaration for overall
- // flow.
- void PopulateNamesInMember(const Member& member, StaticScope& static_scope) {
- switch (member.kind()) {
- case MemberKind::FieldMember: {
- const auto& field = cast<FieldMember>(member);
- if (field.binding().name().has_value()) {
- static_scope.Add(*field.binding().name(), &member);
- }
- break;
- }
- }
- }
- // Populates declared names at scoped boundaries, such as file-level or
- // function bodies. This doesn't currently recurse into expressions, but
- // likely will in the future in order to resolve names in lambdas.
- void PopulateNamesInDeclaration(Arena* arena, Declaration& declaration,
- StaticScope& static_scope) {
- switch (declaration.kind()) {
- case DeclarationKind::FunctionDeclaration: {
- auto& func = cast<FunctionDeclaration>(declaration);
- func.static_scope().AddParent(&static_scope);
- static_scope.Add(func.name(), &declaration);
- for (Nonnull<const GenericBinding*> param : func.deduced_parameters()) {
- func.static_scope().Add(param->name(), param);
- }
- PopulateNamesInPattern(func.param_pattern(), func.static_scope());
- PopulateNamesInStatement(arena, func.body(), func.static_scope());
- break;
- }
- case DeclarationKind::ClassDeclaration: {
- auto& class_decl = cast<ClassDeclaration>(declaration);
- class_decl.static_scope().AddParent(&static_scope);
- static_scope.Add(class_decl.name(), &declaration);
- for (auto* member : class_decl.members()) {
- PopulateNamesInMember(*member, class_decl.static_scope());
- }
- break;
- }
- case DeclarationKind::ChoiceDeclaration: {
- auto& choice = cast<ChoiceDeclaration>(declaration);
- choice.static_scope().AddParent(&static_scope);
- static_scope.Add(choice.name(), &declaration);
- for (Nonnull<const AlternativeSignature*> alt : choice.alternatives()) {
- choice.static_scope().Add(alt->name(), alt);
- }
- // Populate name into declared_names.
- // Init the choice's declared_names, and populate it with the
- // alternatives.
- break;
- }
- case DeclarationKind::VariableDeclaration:
- auto& var = cast<VariableDeclaration>(declaration);
- if (var.binding().name().has_value()) {
- static_scope.Add(*(var.binding().name()), &var.binding());
- }
- return;
- }
- }
- // Populates the named_entity member of all IdentifierExpressions in the
- // subtree rooted at `expression`, whose nearest enclosing scope is
- // `enclosing_scope`.
- static void ResolveNamesInExpression(Expression& expression,
- const StaticScope& enclosing_scope) {
- switch (expression.kind()) {
- case ExpressionKind::CallExpression: {
- auto& call = cast<CallExpression>(expression);
- ResolveNamesInExpression(call.function(), enclosing_scope);
- ResolveNamesInExpression(call.argument(), enclosing_scope);
- break;
- }
- case ExpressionKind::FunctionTypeLiteral: {
- auto& fun_type = cast<FunctionTypeLiteral>(expression);
- ResolveNamesInExpression(fun_type.parameter(), enclosing_scope);
- ResolveNamesInExpression(fun_type.return_type(), enclosing_scope);
- break;
- }
- case ExpressionKind::FieldAccessExpression:
- ResolveNamesInExpression(
- cast<FieldAccessExpression>(expression).aggregate(), enclosing_scope);
- break;
- case ExpressionKind::IndexExpression: {
- auto& index = cast<IndexExpression>(expression);
- ResolveNamesInExpression(index.aggregate(), enclosing_scope);
- ResolveNamesInExpression(index.offset(), enclosing_scope);
- break;
- }
- case ExpressionKind::PrimitiveOperatorExpression:
- for (Nonnull<Expression*> operand :
- cast<PrimitiveOperatorExpression>(expression).arguments()) {
- ResolveNamesInExpression(*operand, enclosing_scope);
- }
- break;
- case ExpressionKind::TupleLiteral:
- for (Nonnull<Expression*> field :
- cast<TupleLiteral>(expression).fields()) {
- ResolveNamesInExpression(*field, enclosing_scope);
- }
- break;
- case ExpressionKind::StructLiteral:
- for (FieldInitializer& init : cast<StructLiteral>(expression).fields()) {
- ResolveNamesInExpression(init.expression(), enclosing_scope);
- }
- break;
- case ExpressionKind::StructTypeLiteral:
- for (FieldInitializer& init :
- cast<StructTypeLiteral>(expression).fields()) {
- ResolveNamesInExpression(init.expression(), enclosing_scope);
- }
- break;
- case ExpressionKind::IdentifierExpression: {
- auto& identifier = cast<IdentifierExpression>(expression);
- identifier.set_named_entity(
- enclosing_scope.Resolve(identifier.name(), identifier.source_loc()));
- break;
- }
- case ExpressionKind::IntrinsicExpression:
- ResolveNamesInExpression(cast<IntrinsicExpression>(expression).args(),
- enclosing_scope);
- break;
- case ExpressionKind::BoolTypeLiteral:
- case ExpressionKind::BoolLiteral:
- case ExpressionKind::IntTypeLiteral:
- case ExpressionKind::ContinuationTypeLiteral:
- case ExpressionKind::IntLiteral:
- case ExpressionKind::StringLiteral:
- case ExpressionKind::StringTypeLiteral:
- case ExpressionKind::TypeTypeLiteral:
- break;
- case ExpressionKind::UnimplementedExpression:
- FATAL() << "Unimplemented";
- }
- }
- // Equivalent to ResolveNamesInExpression, but operates on patterns.
- static void ResolveNamesInPattern(Pattern& pattern,
- const StaticScope& enclosing_scope) {
- switch (pattern.kind()) {
- case PatternKind::BindingPattern:
- ResolveNamesInPattern(cast<BindingPattern>(pattern).type(),
- enclosing_scope);
- break;
- case PatternKind::TuplePattern:
- for (Nonnull<Pattern*> field : cast<TuplePattern>(pattern).fields()) {
- ResolveNamesInPattern(*field, enclosing_scope);
- }
- break;
- case PatternKind::AlternativePattern: {
- auto& alternative = cast<AlternativePattern>(pattern);
- ResolveNamesInExpression(alternative.choice_type(), enclosing_scope);
- ResolveNamesInPattern(alternative.arguments(), enclosing_scope);
- break;
- }
- case PatternKind::ExpressionPattern:
- ResolveNamesInExpression(cast<ExpressionPattern>(pattern).expression(),
- enclosing_scope);
- break;
- case PatternKind::AutoPattern:
- break;
- }
- }
- // Equivalent to ResolveNamesInExpression, but operates on statements.
- static void ResolveNamesInStatement(Statement& statement,
- const StaticScope& enclosing_scope) {
- switch (statement.kind()) {
- case StatementKind::ExpressionStatement:
- ResolveNamesInExpression(
- cast<ExpressionStatement>(statement).expression(), enclosing_scope);
- break;
- case StatementKind::Assign: {
- auto& assign = cast<Assign>(statement);
- ResolveNamesInExpression(assign.lhs(), enclosing_scope);
- ResolveNamesInExpression(assign.rhs(), enclosing_scope);
- break;
- }
- case StatementKind::VariableDefinition: {
- auto& def = cast<VariableDefinition>(statement);
- ResolveNamesInPattern(def.pattern(), enclosing_scope);
- ResolveNamesInExpression(def.init(), enclosing_scope);
- break;
- }
- case StatementKind::If: {
- auto& if_stmt = cast<If>(statement);
- ResolveNamesInExpression(if_stmt.condition(), enclosing_scope);
- ResolveNamesInStatement(if_stmt.then_block(), enclosing_scope);
- if (if_stmt.else_block().has_value()) {
- ResolveNamesInStatement(**if_stmt.else_block(), enclosing_scope);
- }
- break;
- }
- case StatementKind::Return:
- ResolveNamesInExpression(cast<Return>(statement).expression(),
- enclosing_scope);
- break;
- case StatementKind::Block: {
- // TODO: this will resolve usages to declarations that occur later in
- // the block. Figure out how to avoid that.
- auto& block = cast<Block>(statement);
- for (Nonnull<Statement*> sub_statement : block.statements()) {
- ResolveNamesInStatement(*sub_statement, block.static_scope());
- }
- break;
- }
- case StatementKind::While: {
- auto& while_stmt = cast<While>(statement);
- ResolveNamesInExpression(while_stmt.condition(), enclosing_scope);
- ResolveNamesInStatement(while_stmt.body(), enclosing_scope);
- break;
- }
- case StatementKind::Match: {
- auto& match = cast<Match>(statement);
- ResolveNamesInExpression(match.expression(), enclosing_scope);
- for (Match::Clause& clause : match.clauses()) {
- ResolveNamesInPattern(clause.pattern(), clause.static_scope());
- ResolveNamesInStatement(clause.statement(), clause.static_scope());
- }
- break;
- }
- case StatementKind::Continuation:
- ResolveNamesInStatement(cast<Continuation>(statement).body(),
- enclosing_scope);
- break;
- case StatementKind::Run:
- ResolveNamesInExpression(cast<Run>(statement).argument(),
- enclosing_scope);
- break;
- case StatementKind::Await:
- case StatementKind::Break:
- case StatementKind::Continue:
- break;
- }
- }
- // Recurses through a declaration to find and resolve IdentifierExpressions
- // using declared_names.
- void ResolveNamesInDeclaration(Declaration& declaration,
- const StaticScope& enclosing_scope) {
- switch (declaration.kind()) {
- case DeclarationKind::FunctionDeclaration: {
- auto& function = cast<FunctionDeclaration>(declaration);
- for (Nonnull<GenericBinding*> binding : function.deduced_parameters()) {
- ResolveNamesInExpression(binding->type(), function.static_scope());
- }
- ResolveNamesInPattern(function.param_pattern(), function.static_scope());
- if (function.return_term().type_expression().has_value()) {
- ResolveNamesInExpression(**function.return_term().type_expression(),
- function.static_scope());
- }
- if (function.body().has_value()) {
- ResolveNamesInStatement(**function.body(), function.static_scope());
- }
- break;
- }
- case DeclarationKind::ClassDeclaration: {
- auto& class_decl = cast<ClassDeclaration>(declaration);
- for (Nonnull<Member*> member : class_decl.members()) {
- switch (member->kind()) {
- case MemberKind::FieldMember:
- ResolveNamesInPattern(cast<FieldMember>(member)->binding(),
- class_decl.static_scope());
- }
- }
- break;
- }
- case DeclarationKind::ChoiceDeclaration: {
- auto& choice = cast<ChoiceDeclaration>(declaration);
- for (Nonnull<AlternativeSignature*> alternative : choice.alternatives()) {
- ResolveNamesInExpression(alternative->signature(),
- choice.static_scope());
- }
- break;
- }
- case DeclarationKind::VariableDeclaration: {
- auto& var = cast<VariableDeclaration>(declaration);
- ResolveNamesInPattern(var.binding(), enclosing_scope);
- ResolveNamesInExpression(var.initializer(), enclosing_scope);
- break;
- }
- }
- }
- } // namespace
- void ResolveNames(Arena* arena, AST& ast) {
- for (auto declaration : ast.declarations) {
- PopulateNamesInDeclaration(arena, *declaration, ast.static_scope);
- }
- for (auto declaration : ast.declarations) {
- ResolveNamesInDeclaration(*declaration, ast.static_scope);
- }
- if (ast.main_call.has_value()) {
- ResolveNamesInExpression(**ast.main_call, ast.static_scope);
- }
- }
- } // namespace Carbon
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