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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 "toolchain/semantics/semantics_context.h"
- #include "toolchain/semantics/semantics_node.h"
- namespace Carbon {
- auto SemanticsHandleAddress(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleAddress");
- }
- auto SemanticsHandleBreakStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleBreakStatement");
- }
- auto SemanticsHandleBreakStatementStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleBreakStatementStart");
- }
- auto SemanticsHandleCodeBlock(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleCodeBlock");
- }
- auto SemanticsHandleCodeBlockStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleCodeBlockStart");
- }
- auto SemanticsHandleContinueStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleContinueStatement");
- }
- auto SemanticsHandleContinueStatementStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleContinueStatementStart");
- }
- auto SemanticsHandleDeclaredName(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // The parent is responsible for binding the name.
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleDeducedParameterList(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleDeducedParameterList");
- }
- auto SemanticsHandleDeducedParameterListStart(SemanticsContext& context,
- ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleDeducedParameterListStart");
- }
- auto SemanticsHandleDesignatedName(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto name_str = context.parse_tree().GetNodeText(parse_node);
- auto name_id = context.semantics_ir().AddString(name_str);
- // The parent is responsible for binding the name.
- context.node_stack().Push(parse_node, name_id);
- return true;
- }
- auto SemanticsHandleDesignatorExpression(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto name_id = context.node_stack().Pop<SemanticsStringId>(
- ParseNodeKind::DesignatedName);
- auto base_id = context.node_stack().Pop<SemanticsNodeId>();
- auto base = context.semantics_ir().GetNode(base_id);
- auto base_type = context.semantics_ir().GetNode(
- context.semantics_ir().GetType(base.type_id()));
- switch (base_type.kind()) {
- case SemanticsNodeKind::StructType: {
- auto refs =
- context.semantics_ir().GetNodeBlock(base_type.GetAsStructType());
- // TODO: Do we need to optimize this with a lookup table for O(1)?
- for (int i = 0; i < static_cast<int>(refs.size()); ++i) {
- auto ref = context.semantics_ir().GetNode(refs[i]);
- if (name_id == ref.GetAsStructTypeField()) {
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::StructMemberAccess::Make(
- parse_node, ref.type_id(), base_id, SemanticsMemberIndex(i)));
- return true;
- }
- }
- CARBON_DIAGNOSTIC(DesignatorExpressionNameNotFound, Error,
- "Type `{0}` does not have a member `{1}`.", std::string,
- llvm::StringRef);
- context.emitter().Emit(
- parse_node, DesignatorExpressionNameNotFound,
- context.semantics_ir().StringifyType(base.type_id()),
- context.semantics_ir().GetString(name_id));
- break;
- }
- default: {
- CARBON_DIAGNOSTIC(DesignatorExpressionUnsupported, Error,
- "Type `{0}` does not support designator expressions.",
- std::string);
- context.emitter().Emit(
- parse_node, DesignatorExpressionUnsupported,
- context.semantics_ir().StringifyType(base.type_id()));
- break;
- }
- }
- // Should only be reached on error.
- context.node_stack().Push(parse_node, SemanticsNodeId::BuiltinInvalidType);
- return true;
- }
- auto SemanticsHandleEmptyDeclaration(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // Empty declarations have no actions associated, but we still balance the
- // tree.
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleExpressionStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // Pop the expression without investigating its contents.
- // TODO: This will probably eventually need to do some "do not discard"
- // analysis.
- context.node_stack().PopAndDiscardId();
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleFileEnd(SemanticsContext& /*context*/,
- ParseTree::Node /*parse_node*/) -> bool {
- // Do nothing, no need to balance this node.
- return true;
- }
- auto SemanticsHandleForHeader(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleForHeader");
- }
- auto SemanticsHandleForHeaderStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleForHeaderStart");
- }
- auto SemanticsHandleForIn(SemanticsContext& context, ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleForIn");
- }
- auto SemanticsHandleForStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleForStatement");
- }
- auto SemanticsHandleGenericPatternBinding(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "GenericPatternBinding");
- }
- auto SemanticsHandleIfCondition(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleIfCondition");
- }
- auto SemanticsHandleIfConditionStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleIfConditionStart");
- }
- auto SemanticsHandleIfStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleIfStatement");
- }
- auto SemanticsHandleIfStatementElse(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleIfStatementElse");
- }
- auto SemanticsHandleInfixOperator(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto rhs_id = context.node_stack().Pop<SemanticsNodeId>();
- auto lhs_id = context.node_stack().Pop<SemanticsNodeId>();
- // TODO: This should search for a compatible interface. For now, it's a very
- // trivial check of validity on the operation.
- lhs_id = context.ImplicitAsRequired(
- parse_node, lhs_id, context.semantics_ir().GetNode(rhs_id).type_id());
- // Figure out the operator for the token.
- auto token = context.parse_tree().node_token(parse_node);
- switch (auto token_kind = context.tokens().GetKind(token)) {
- case TokenKind::Plus:
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::BinaryOperatorAdd::Make(
- parse_node, context.semantics_ir().GetNode(lhs_id).type_id(),
- lhs_id, rhs_id));
- break;
- default:
- return context.TODO(parse_node, llvm::formatv("Handle {0}", token_kind));
- }
- return true;
- }
- auto SemanticsHandleInvalidParse(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleInvalidParse");
- }
- auto SemanticsHandleLiteral(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto token = context.parse_tree().node_token(parse_node);
- switch (auto token_kind = context.tokens().GetKind(token)) {
- case TokenKind::False:
- case TokenKind::True: {
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::BoolLiteral::Make(
- parse_node,
- context.CanonicalizeType(SemanticsNodeId::BuiltinBoolType),
- token_kind == TokenKind::True ? SemanticsBoolValue(1)
- : SemanticsBoolValue(0)));
- break;
- }
- case TokenKind::IntegerLiteral: {
- auto id = context.semantics_ir().AddIntegerLiteral(
- context.tokens().GetIntegerLiteral(token));
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::IntegerLiteral::Make(
- parse_node,
- context.CanonicalizeType(SemanticsNodeId::BuiltinIntegerType),
- id));
- break;
- }
- case TokenKind::RealLiteral: {
- auto token_value = context.tokens().GetRealLiteral(token);
- auto id = context.semantics_ir().AddRealLiteral(
- {.mantissa = token_value.Mantissa(),
- .exponent = token_value.Exponent(),
- .is_decimal = token_value.IsDecimal()});
- context.AddNodeAndPush(parse_node,
- SemanticsNode::RealLiteral::Make(
- parse_node,
- context.CanonicalizeType(
- SemanticsNodeId::BuiltinFloatingPointType),
- id));
- break;
- }
- case TokenKind::StringLiteral: {
- auto id = context.semantics_ir().AddString(
- context.tokens().GetStringLiteral(token));
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::StringLiteral::Make(
- parse_node,
- context.CanonicalizeType(SemanticsNodeId::BuiltinStringType),
- id));
- break;
- }
- case TokenKind::Bool: {
- context.node_stack().Push(parse_node, SemanticsNodeId::BuiltinBoolType);
- break;
- }
- case TokenKind::IntegerTypeLiteral: {
- auto text = context.tokens().GetTokenText(token);
- if (text != "i32") {
- return context.TODO(parse_node, "Currently only i32 is allowed");
- }
- context.node_stack().Push(parse_node,
- SemanticsNodeId::BuiltinIntegerType);
- break;
- }
- case TokenKind::FloatingPointTypeLiteral: {
- auto text = context.tokens().GetTokenText(token);
- if (text != "f64") {
- return context.TODO(parse_node, "Currently only f64 is allowed");
- }
- context.node_stack().Push(parse_node,
- SemanticsNodeId::BuiltinFloatingPointType);
- break;
- }
- case TokenKind::StringTypeLiteral: {
- context.node_stack().Push(parse_node, SemanticsNodeId::BuiltinStringType);
- break;
- }
- default: {
- return context.TODO(parse_node, llvm::formatv("Handle {0}", token_kind));
- }
- }
- return true;
- }
- auto SemanticsHandleNameReference(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto name = context.parse_tree().GetNodeText(parse_node);
- context.node_stack().Push(parse_node, context.LookupName(parse_node, name));
- return true;
- }
- auto SemanticsHandleNamedConstraintDeclaration(SemanticsContext& context,
- ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleNamedConstraintDeclaration");
- }
- auto SemanticsHandleNamedConstraintDefinition(SemanticsContext& context,
- ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleNamedConstraintDefinition");
- }
- auto SemanticsHandleNamedConstraintDefinitionStart(SemanticsContext& context,
- ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleNamedConstraintDefinitionStart");
- }
- auto SemanticsHandleNamedConstraintIntroducer(SemanticsContext& context,
- ParseTree::Node parse_node)
- -> bool {
- return context.TODO(parse_node, "HandleNamedConstraintIntroducer");
- }
- auto SemanticsHandleParameterList(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto refs_id = context.ParamOrArgEnd(
- /*for_args=*/false, ParseNodeKind::ParameterListStart);
- // TODO: This contains the IR block for parameters. At present, it's just
- // loose, but it's not strictly required for parameter refs; we should either
- // stop constructing it completely or, if it turns out to be needed, store it.
- // Note, the underlying issue is that the LLVM IR has nowhere clear to emit,
- // so changing storage would require addressing that problem. For comparison
- // with function calls, the IR needs to be emitted prior to the call.
- context.node_block_stack().Pop();
- context.PopScope();
- context.node_stack().PopAndDiscardSoloParseNode(
- ParseNodeKind::ParameterListStart);
- context.node_stack().Push(parse_node, refs_id);
- return true;
- }
- auto SemanticsHandleParameterListComma(SemanticsContext& context,
- ParseTree::Node /*parse_node*/) -> bool {
- context.ParamOrArgComma(/*for_args=*/false);
- return true;
- }
- auto SemanticsHandleParameterListStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- context.PushScope();
- context.node_stack().Push(parse_node);
- context.node_block_stack().Push();
- context.ParamOrArgStart();
- return true;
- }
- auto SemanticsHandleParenExpression(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleParenExpression");
- }
- auto SemanticsHandleParenExpressionOrTupleLiteralStart(
- SemanticsContext& context, ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleParenExpressionOrTupleLiteralStart");
- }
- auto SemanticsHandlePatternBinding(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- auto [type_node, parsed_type_id] =
- context.node_stack().PopWithParseNode<SemanticsNodeId>();
- auto cast_type_id = context.ExpressionAsType(type_node, parsed_type_id);
- // Get the name.
- auto name_node =
- context.node_stack().PopForSoloParseNode(ParseNodeKind::DeclaredName);
- auto name_str = context.parse_tree().GetNodeText(name_node);
- auto name_id = context.semantics_ir().AddString(name_str);
- // Allocate storage, linked to the name for error locations.
- auto storage_id =
- context.AddNode(SemanticsNode::VarStorage::Make(name_node, cast_type_id));
- // Bind the name to storage.
- context.AddNodeAndPush(parse_node,
- SemanticsNode::BindName::Make(name_node, cast_type_id,
- name_id, storage_id));
- return true;
- }
- auto SemanticsHandlePostfixOperator(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandlePostfixOperator");
- }
- auto SemanticsHandlePrefixOperator(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandlePrefixOperator");
- }
- auto SemanticsHandleReturnStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- CARBON_CHECK(!context.return_scope_stack().empty());
- const auto& fn_node =
- context.semantics_ir().GetNode(context.return_scope_stack().back());
- const auto callable =
- context.semantics_ir().GetFunction(fn_node.GetAsFunctionDeclaration());
- if (context.parse_tree().node_kind(context.node_stack().PeekParseNode()) ==
- ParseNodeKind::ReturnStatementStart) {
- context.node_stack().PopAndDiscardSoloParseNode(
- ParseNodeKind::ReturnStatementStart);
- if (callable.return_type_id.is_valid()) {
- // TODO: Add a note pointing at the return type's parse node.
- CARBON_DIAGNOSTIC(ReturnStatementMissingExpression, Error,
- "Must return a {0}.", std::string);
- context.emitter()
- .Build(parse_node, ReturnStatementMissingExpression,
- context.semantics_ir().StringifyType(callable.return_type_id))
- .Emit();
- }
- context.AddNodeAndPush(parse_node, SemanticsNode::Return::Make(parse_node));
- } else {
- auto arg = context.node_stack().Pop<SemanticsNodeId>();
- context.node_stack().PopAndDiscardSoloParseNode(
- ParseNodeKind::ReturnStatementStart);
- if (!callable.return_type_id.is_valid()) {
- CARBON_DIAGNOSTIC(
- ReturnStatementDisallowExpression, Error,
- "No return expression should be provided in this context.");
- CARBON_DIAGNOSTIC(ReturnStatementImplicitNote, Note,
- "There was no return type provided.");
- context.emitter()
- .Build(parse_node, ReturnStatementDisallowExpression)
- .Note(fn_node.parse_node(), ReturnStatementImplicitNote)
- .Emit();
- } else {
- arg =
- context.ImplicitAsRequired(parse_node, arg, callable.return_type_id);
- }
- context.AddNodeAndPush(
- parse_node,
- SemanticsNode::ReturnExpression::Make(
- parse_node, context.semantics_ir().GetNode(arg).type_id(), arg));
- }
- return true;
- }
- auto SemanticsHandleReturnStatementStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // No action, just a bracketing node.
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleReturnType(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // Propagate the type expression.
- auto [type_parse_node, type_node_id] =
- context.node_stack().PopWithParseNode<SemanticsNodeId>();
- auto cast_node_id = context.ExpressionAsType(type_parse_node, type_node_id);
- context.node_stack().Push(parse_node, cast_node_id);
- return true;
- }
- auto SemanticsHandleSelfTypeIdentifier(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleSelfTypeIdentifier");
- }
- auto SemanticsHandleSelfValueIdentifier(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleSelfValueIdentifier");
- }
- auto SemanticsHandleTemplate(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleTemplate");
- }
- auto SemanticsHandleTupleLiteral(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleTupleLiteral");
- }
- auto SemanticsHandleTupleLiteralComma(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleTupleLiteralComma");
- }
- auto SemanticsHandleVariableDeclaration(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // Handle the optional initializer.
- auto expr_node_id = SemanticsNodeId::Invalid;
- bool has_init =
- context.parse_tree().node_kind(context.node_stack().PeekParseNode()) !=
- ParseNodeKind::PatternBinding;
- if (has_init) {
- expr_node_id = context.node_stack().Pop<SemanticsNodeId>();
- context.node_stack().PopAndDiscardSoloParseNode(
- ParseNodeKind::VariableInitializer);
- }
- // Get the storage and add it to name lookup.
- auto binding_id =
- context.node_stack().Pop<SemanticsNodeId>(ParseNodeKind::PatternBinding);
- auto binding = context.semantics_ir().GetNode(binding_id);
- auto [name_id, storage_id] = binding.GetAsBindName();
- context.AddNameToLookup(binding.parse_node(), name_id, storage_id);
- // If there was an initializer, assign it to storage.
- if (has_init) {
- auto cast_value_id = context.ImplicitAsRequired(
- parse_node, expr_node_id,
- context.semantics_ir().GetNode(storage_id).type_id());
- context.AddNode(SemanticsNode::Assign::Make(
- parse_node, context.semantics_ir().GetNode(cast_value_id).type_id(),
- storage_id, cast_value_id));
- }
- context.node_stack().PopAndDiscardSoloParseNode(
- ParseNodeKind::VariableIntroducer);
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleVariableIntroducer(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // No action, just a bracketing node.
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleVariableInitializer(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- // No action, just a bracketing node.
- context.node_stack().Push(parse_node);
- return true;
- }
- auto SemanticsHandleWhileCondition(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleWhileCondition");
- }
- auto SemanticsHandleWhileConditionStart(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleWhileConditionStart");
- }
- auto SemanticsHandleWhileStatement(SemanticsContext& context,
- ParseTree::Node parse_node) -> bool {
- return context.TODO(parse_node, "HandleWhileStatement");
- }
- } // namespace Carbon
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