// 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 #ifndef EXECUTABLE_SEMANTICS_AST_EXPRESSION_H_ #define EXECUTABLE_SEMANTICS_AST_EXPRESSION_H_ #include #include #include #include #include "common/ostream.h" #include "executable_semantics/ast/ast_node.h" #include "executable_semantics/ast/paren_contents.h" #include "executable_semantics/ast/source_location.h" #include "executable_semantics/common/arena.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/Support/Compiler.h" namespace Carbon { class Value; class Expression : public virtual AstNode { public: ~Expression() override = 0; void Print(llvm::raw_ostream& out) const; LLVM_DUMP_METHOD void Dump() const { Print(llvm::errs()); } static auto classof(const AstNode* node) { return InheritsFromExpression(node->kind()); } // Returns the enumerator corresponding to the most-derived type of this // object. auto kind() const -> ExpressionKind { return static_cast(root_kind()); } // The static type of this expression. Cannot be called before typechecking. auto static_type() const -> const Value& { return **static_type_; } // Sets the static type of this expression. Can only be called once, during // typechecking. void set_static_type(Nonnull type) { static_type_ = type; } // Returns whether the static type has been set. Should only be called // during typechecking: before typechecking it's guaranteed to be false, // and after typechecking it's guaranteed to be true. auto has_static_type() const -> bool { return static_type_.has_value(); } protected: // Constructs an Expression representing syntax at the given line number. // `kind` must be the enumerator corresponding to the most-derived type being // constructed. Expression() = default; private: std::optional> static_type_; }; // A FieldInitializer represents the initialization of a single struct field. class FieldInitializer { public: FieldInitializer(std::string name, Nonnull expression) : name_(std::move(name)), expression_(expression) {} auto name() const -> const std::string& { return name_; } auto expression() const -> const Expression& { return *expression_; } auto expression() -> Expression& { return *expression_; } private: // The field name. Cannot be empty. std::string name_; // The expression that initializes the field. Nonnull expression_; }; enum class Operator { Add, And, Deref, Eq, Mul, Neg, Not, Or, Sub, Ptr, }; // Returns the lexical representation of `op`, such as "+" for `Add`. auto ToString(Operator op) -> std::string_view; class IdentifierExpression : public Expression { public: explicit IdentifierExpression(SourceLocation source_loc, std::string name) : AstNode(AstNodeKind::IdentifierExpression, source_loc), name_(std::move(name)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromIdentifierExpression(node->kind()); } auto name() const -> const std::string& { return name_; } private: std::string name_; }; class FieldAccessExpression : public Expression { public: explicit FieldAccessExpression(SourceLocation source_loc, Nonnull aggregate, std::string field) : AstNode(AstNodeKind::FieldAccessExpression, source_loc), aggregate_(aggregate), field_(std::move(field)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromFieldAccessExpression(node->kind()); } auto aggregate() const -> const Expression& { return *aggregate_; } auto aggregate() -> Expression& { return *aggregate_; } auto field() const -> const std::string& { return field_; } private: Nonnull aggregate_; std::string field_; }; class IndexExpression : public Expression { public: explicit IndexExpression(SourceLocation source_loc, Nonnull aggregate, Nonnull offset) : AstNode(AstNodeKind::IndexExpression, source_loc), aggregate_(aggregate), offset_(offset) {} static auto classof(const AstNode* node) -> bool { return InheritsFromIndexExpression(node->kind()); } auto aggregate() const -> const Expression& { return *aggregate_; } auto aggregate() -> Expression& { return *aggregate_; } auto offset() const -> const Expression& { return *offset_; } auto offset() -> Expression& { return *offset_; } private: Nonnull aggregate_; Nonnull offset_; }; class IntLiteral : public Expression { public: explicit IntLiteral(SourceLocation source_loc, int value) : AstNode(AstNodeKind::IntLiteral, source_loc), value_(value) {} static auto classof(const AstNode* node) -> bool { return InheritsFromIntLiteral(node->kind()); } auto value() const -> int { return value_; } private: int value_; }; class BoolLiteral : public Expression { public: explicit BoolLiteral(SourceLocation source_loc, bool value) : AstNode(AstNodeKind::BoolLiteral, source_loc), value_(value) {} static auto classof(const AstNode* node) -> bool { return InheritsFromBoolLiteral(node->kind()); } auto value() const -> bool { return value_; } private: bool value_; }; class StringLiteral : public Expression { public: explicit StringLiteral(SourceLocation source_loc, std::string value) : AstNode(AstNodeKind::StringLiteral, source_loc), value_(std::move(value)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromStringLiteral(node->kind()); } auto value() const -> const std::string& { return value_; } private: std::string value_; }; class StringTypeLiteral : public Expression { public: explicit StringTypeLiteral(SourceLocation source_loc) : AstNode(AstNodeKind::StringTypeLiteral, source_loc) {} static auto classof(const AstNode* node) -> bool { return InheritsFromStringTypeLiteral(node->kind()); } }; class TupleLiteral : public Expression { public: explicit TupleLiteral(SourceLocation source_loc) : TupleLiteral(source_loc, {}) {} explicit TupleLiteral(SourceLocation source_loc, std::vector> fields) : AstNode(AstNodeKind::TupleLiteral, source_loc), fields_(std::move(fields)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromTupleLiteral(node->kind()); } auto fields() const -> llvm::ArrayRef> { return fields_; } auto fields() -> llvm::ArrayRef> { return fields_; } private: std::vector> fields_; }; // A non-empty literal value of a struct type. // // It can't be empty because the syntax `{}` is a struct type literal as well // as a literal value of that type, so for consistency we always represent it // as a StructTypeLiteral rather than let it oscillate unpredictably between // the two. class StructLiteral : public Expression { public: explicit StructLiteral(SourceLocation loc, std::vector fields) : AstNode(AstNodeKind::StructLiteral, loc), fields_(std::move(fields)) { CHECK(!fields_.empty()) << "`{}` is represented as a StructTypeLiteral, not a StructLiteral."; } static auto classof(const AstNode* node) -> bool { return InheritsFromStructLiteral(node->kind()); } auto fields() const -> llvm::ArrayRef { return fields_; } auto fields() -> llvm::MutableArrayRef { return fields_; } private: std::vector fields_; }; // A literal representing a struct type. // // Code that handles this type may sometimes need to have special-case handling // for `{}`, which is a struct value in addition to being a struct type. class StructTypeLiteral : public Expression { public: explicit StructTypeLiteral(SourceLocation loc) : StructTypeLiteral(loc, {}) {} explicit StructTypeLiteral(SourceLocation loc, std::vector fields) : AstNode(AstNodeKind::StructTypeLiteral, loc), fields_(std::move(fields)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromStructTypeLiteral(node->kind()); } auto fields() const -> llvm::ArrayRef { return fields_; } auto fields() -> llvm::MutableArrayRef { return fields_; } private: std::vector fields_; }; class PrimitiveOperatorExpression : public Expression { public: explicit PrimitiveOperatorExpression( SourceLocation source_loc, Operator op, std::vector> arguments) : AstNode(AstNodeKind::PrimitiveOperatorExpression, source_loc), op_(op), arguments_(std::move(arguments)) {} static auto classof(const AstNode* node) -> bool { return InheritsFromPrimitiveOperatorExpression(node->kind()); } auto op() const -> Operator { return op_; } auto arguments() const -> llvm::ArrayRef> { return arguments_; } auto arguments() -> llvm::MutableArrayRef> { return arguments_; } private: Operator op_; std::vector> arguments_; }; class CallExpression : public Expression { public: explicit CallExpression(SourceLocation source_loc, Nonnull function, Nonnull argument) : AstNode(AstNodeKind::CallExpression, source_loc), function_(function), argument_(argument) {} static auto classof(const AstNode* node) -> bool { return InheritsFromCallExpression(node->kind()); } auto function() const -> const Expression& { return *function_; } auto function() -> Expression& { return *function_; } auto argument() const -> const Expression& { return *argument_; } auto argument() -> Expression& { return *argument_; } private: Nonnull function_; Nonnull argument_; }; class FunctionTypeLiteral : public Expression { public: explicit FunctionTypeLiteral(SourceLocation source_loc, Nonnull parameter, Nonnull return_type) : AstNode(AstNodeKind::FunctionTypeLiteral, source_loc), parameter_(parameter), return_type_(return_type) {} static auto classof(const AstNode* node) -> bool { return InheritsFromFunctionTypeLiteral(node->kind()); } auto parameter() const -> const Expression& { return *parameter_; } auto parameter() -> Expression& { return *parameter_; } auto return_type() const -> const Expression& { return *return_type_; } auto return_type() -> Expression& { return *return_type_; } private: Nonnull parameter_; Nonnull return_type_; }; class BoolTypeLiteral : public Expression { public: explicit BoolTypeLiteral(SourceLocation source_loc) : AstNode(AstNodeKind::BoolTypeLiteral, source_loc) {} static auto classof(const AstNode* node) -> bool { return InheritsFromBoolTypeLiteral(node->kind()); } }; class IntTypeLiteral : public Expression { public: explicit IntTypeLiteral(SourceLocation source_loc) : AstNode(AstNodeKind::IntTypeLiteral, source_loc) {} static auto classof(const AstNode* node) -> bool { return InheritsFromIntTypeLiteral(node->kind()); } }; class ContinuationTypeLiteral : public Expression { public: explicit ContinuationTypeLiteral(SourceLocation source_loc) : AstNode(AstNodeKind::ContinuationTypeLiteral, source_loc) {} static auto classof(const AstNode* node) -> bool { return InheritsFromContinuationTypeLiteral(node->kind()); } }; class TypeTypeLiteral : public Expression { public: explicit TypeTypeLiteral(SourceLocation source_loc) : AstNode(AstNodeKind::TypeTypeLiteral, source_loc) {} static auto classof(const AstNode* node) -> bool { return InheritsFromTypeTypeLiteral(node->kind()); } }; class IntrinsicExpression : public Expression { public: enum class Intrinsic { Print, }; explicit IntrinsicExpression(Intrinsic intrinsic) : AstNode(AstNodeKind::IntrinsicExpression, SourceLocation("", 0)), intrinsic_(intrinsic) {} static auto classof(const AstNode* node) -> bool { return InheritsFromIntrinsicExpression(node->kind()); } auto intrinsic() const -> Intrinsic { return intrinsic_; } private: Intrinsic intrinsic_; }; // Converts paren_contents to an Expression, interpreting the parentheses as // grouping if their contents permit that interpretation, or as forming a // tuple otherwise. auto ExpressionFromParenContents( Nonnull arena, SourceLocation source_loc, const ParenContents& paren_contents) -> Nonnull; // Converts paren_contents to an Expression, interpreting the parentheses as // forming a tuple. auto TupleExpressionFromParenContents( Nonnull arena, SourceLocation source_loc, const ParenContents& paren_contents) -> Nonnull; } // namespace Carbon #endif // EXECUTABLE_SEMANTICS_AST_EXPRESSION_H_