llvm-project/clang/utils/TableGen/ASTTableGen.h

503 lines
15 KiB
C++

//=== ASTTableGen.h - Common definitions for AST node tablegen --*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef CLANG_AST_TABLEGEN_H
#define CLANG_AST_TABLEGEN_H
#include "llvm/TableGen/Record.h"
#include "llvm/ADT/STLExtras.h"
// These are spellings in the tblgen files.
#define HasPropertiesClassName "HasProperties"
// ASTNodes and their common fields. `Base` is actually defined
// in subclasses, but it's still common across the hierarchies.
#define ASTNodeClassName "ASTNode"
#define BaseFieldName "Base"
#define AbstractFieldName "Abstract"
// Comment node hierarchy.
#define CommentNodeClassName "CommentNode"
// Decl node hierarchy.
#define DeclNodeClassName "DeclNode"
#define DeclContextNodeClassName "DeclContext"
// Stmt node hierarchy.
#define StmtNodeClassName "StmtNode"
// Type node hierarchy.
#define TypeNodeClassName "TypeNode"
#define AlwaysDependentClassName "AlwaysDependent"
#define NeverCanonicalClassName "NeverCanonical"
#define NeverCanonicalUnlessDependentClassName "NeverCanonicalUnlessDependent"
#define LeafTypeClassName "LeafType"
// Cases of various non-ASTNode structured types like DeclarationName.
#define TypeKindClassName "PropertyTypeKind"
#define KindTypeFieldName "KindType"
#define KindPropertyNameFieldName "KindPropertyName"
#define TypeCaseClassName "PropertyTypeCase"
// Properties of AST nodes.
#define PropertyClassName "Property"
#define ClassFieldName "Class"
#define NameFieldName "Name"
#define TypeFieldName "Type"
#define ReadFieldName "Read"
// Types of properties.
#define PropertyTypeClassName "PropertyType"
#define CXXTypeNameFieldName "CXXName"
#define PassByReferenceFieldName "PassByReference"
#define ConstWhenWritingFieldName "ConstWhenWriting"
#define ConditionalCodeFieldName "Conditional"
#define PackOptionalCodeFieldName "PackOptional"
#define UnpackOptionalCodeFieldName "UnpackOptional"
#define BufferElementTypesFieldName "BufferElementTypes"
#define ArrayTypeClassName "Array"
#define ArrayElementTypeFieldName "Element"
#define OptionalTypeClassName "Optional"
#define OptionalElementTypeFieldName "Element"
#define SubclassPropertyTypeClassName "SubclassPropertyType"
#define SubclassBaseTypeFieldName "Base"
#define SubclassClassNameFieldName "SubclassName"
#define EnumPropertyTypeClassName "EnumPropertyType"
// Write helper rules.
#define ReadHelperRuleClassName "ReadHelper"
#define HelperCodeFieldName "Code"
// Creation rules.
#define CreationRuleClassName "Creator"
#define CreateFieldName "Create"
// Override rules.
#define OverrideRuleClassName "Override"
#define IgnoredPropertiesFieldName "IgnoredProperties"
namespace clang {
namespace tblgen {
class WrappedRecord {
llvm::Record *Record;
protected:
WrappedRecord(llvm::Record *record = nullptr) : Record(record) {}
llvm::Record *get() const {
assert(Record && "accessing null record");
return Record;
}
public:
llvm::Record *getRecord() const { return Record; }
explicit operator bool() const { return Record != nullptr; }
llvm::ArrayRef<llvm::SMLoc> getLoc() const {
return get()->getLoc();
}
/// Does the node inherit from the given TableGen class?
bool isSubClassOf(llvm::StringRef className) const {
return get()->isSubClassOf(className);
}
template <class NodeClass>
NodeClass getAs() const {
return (isSubClassOf(NodeClass::getTableGenNodeClassName())
? NodeClass(get()) : NodeClass());
}
friend bool operator<(WrappedRecord lhs, WrappedRecord rhs) {
assert(lhs && rhs && "sorting null nodes");
return lhs.get()->getName() < rhs.get()->getName();
}
friend bool operator>(WrappedRecord lhs, WrappedRecord rhs) {
return rhs < lhs;
}
friend bool operator<=(WrappedRecord lhs, WrappedRecord rhs) {
return !(rhs < lhs);
}
friend bool operator>=(WrappedRecord lhs, WrappedRecord rhs) {
return !(lhs < rhs);
}
friend bool operator==(WrappedRecord lhs, WrappedRecord rhs) {
// This should handle null nodes.
return lhs.getRecord() == rhs.getRecord();
}
friend bool operator!=(WrappedRecord lhs, WrappedRecord rhs) {
return !(lhs == rhs);
}
};
/// Anything in the AST that has properties.
class HasProperties : public WrappedRecord {
public:
static constexpr llvm::StringRef ClassName = HasPropertiesClassName;
HasProperties(llvm::Record *record = nullptr) : WrappedRecord(record) {}
llvm::StringRef getName() const;
static llvm::StringRef getTableGenNodeClassName() {
return HasPropertiesClassName;
}
};
/// An (optional) reference to a TableGen node representing a class
/// in one of Clang's AST hierarchies.
class ASTNode : public HasProperties {
public:
ASTNode(llvm::Record *record = nullptr) : HasProperties(record) {}
llvm::StringRef getName() const {
return get()->getName();
}
/// Return the node for the base, if there is one.
ASTNode getBase() const {
return get()->getValueAsOptionalDef(BaseFieldName);
}
/// Is the corresponding class abstract?
bool isAbstract() const {
return get()->getValueAsBit(AbstractFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return ASTNodeClassName;
}
};
class DeclNode : public ASTNode {
public:
DeclNode(llvm::Record *record = nullptr) : ASTNode(record) {}
llvm::StringRef getId() const;
std::string getClassName() const;
DeclNode getBase() const { return DeclNode(ASTNode::getBase().getRecord()); }
static llvm::StringRef getASTHierarchyName() {
return "Decl";
}
static llvm::StringRef getASTIdTypeName() {
return "Decl::Kind";
}
static llvm::StringRef getASTIdAccessorName() {
return "getKind";
}
static llvm::StringRef getTableGenNodeClassName() {
return DeclNodeClassName;
}
};
class TypeNode : public ASTNode {
public:
TypeNode(llvm::Record *record = nullptr) : ASTNode(record) {}
llvm::StringRef getId() const;
llvm::StringRef getClassName() const;
TypeNode getBase() const { return TypeNode(ASTNode::getBase().getRecord()); }
static llvm::StringRef getASTHierarchyName() {
return "Type";
}
static llvm::StringRef getASTIdTypeName() {
return "Type::TypeClass";
}
static llvm::StringRef getASTIdAccessorName() {
return "getTypeClass";
}
static llvm::StringRef getTableGenNodeClassName() {
return TypeNodeClassName;
}
};
class StmtNode : public ASTNode {
public:
StmtNode(llvm::Record *record = nullptr) : ASTNode(record) {}
std::string getId() const;
llvm::StringRef getClassName() const;
StmtNode getBase() const { return StmtNode(ASTNode::getBase().getRecord()); }
static llvm::StringRef getASTHierarchyName() {
return "Stmt";
}
static llvm::StringRef getASTIdTypeName() {
return "Stmt::StmtClass";
}
static llvm::StringRef getASTIdAccessorName() {
return "getStmtClass";
}
static llvm::StringRef getTableGenNodeClassName() {
return StmtNodeClassName;
}
};
/// The type of a property.
class PropertyType : public WrappedRecord {
public:
PropertyType(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Is this a generic specialization (i.e. `Array<T>` or `Optional<T>`)?
bool isGenericSpecialization() const {
return get()->isAnonymous();
}
/// The abstract type name of the property. Doesn't work for generic
/// specializations.
llvm::StringRef getAbstractTypeName() const {
return get()->getName();
}
/// The C++ type name of the property. Doesn't work for generic
/// specializations.
llvm::StringRef getCXXTypeName() const {
return get()->getValueAsString(CXXTypeNameFieldName);
}
void emitCXXValueTypeName(bool forRead, llvm::raw_ostream &out) const;
/// Whether the C++ type should be passed around by reference.
bool shouldPassByReference() const {
return get()->getValueAsBit(PassByReferenceFieldName);
}
/// Whether the C++ type should have 'const' prepended when working with
/// a value of the type being written.
bool isConstWhenWriting() const {
return get()->getValueAsBit(ConstWhenWritingFieldName);
}
/// If this is `Array<T>`, return `T`; otherwise return null.
PropertyType getArrayElementType() const {
if (isSubClassOf(ArrayTypeClassName))
return get()->getValueAsDef(ArrayElementTypeFieldName);
return nullptr;
}
/// If this is `Optional<T>`, return `T`; otherwise return null.
PropertyType getOptionalElementType() const {
if (isSubClassOf(OptionalTypeClassName))
return get()->getValueAsDef(OptionalElementTypeFieldName);
return nullptr;
}
/// If this is a subclass type, return its superclass type.
PropertyType getSuperclassType() const {
if (isSubClassOf(SubclassPropertyTypeClassName))
return get()->getValueAsDef(SubclassBaseTypeFieldName);
return nullptr;
}
// Given that this is a subclass type, return the C++ name of its
// subclass type. This is just the bare class name, suitable for
// use in `cast<>`.
llvm::StringRef getSubclassClassName() const {
return get()->getValueAsString(SubclassClassNameFieldName);
}
/// Does this represent an enum type?
bool isEnum() const {
return isSubClassOf(EnumPropertyTypeClassName);
}
llvm::StringRef getPackOptionalCode() const {
return get()->getValueAsString(PackOptionalCodeFieldName);
}
llvm::StringRef getUnpackOptionalCode() const {
return get()->getValueAsString(UnpackOptionalCodeFieldName);
}
std::vector<llvm::Record*> getBufferElementTypes() const {
return get()->getValueAsListOfDefs(BufferElementTypesFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return PropertyTypeClassName;
}
};
/// A rule for returning the kind of a type.
class TypeKindRule : public WrappedRecord {
public:
TypeKindRule(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Return the type to which this applies.
PropertyType getParentType() const {
return get()->getValueAsDef(TypeFieldName);
}
/// Return the type of the kind.
PropertyType getKindType() const {
return get()->getValueAsDef(KindTypeFieldName);
}
/// Return the name to use for the kind property.
llvm::StringRef getKindPropertyName() const {
return get()->getValueAsString(KindPropertyNameFieldName);
}
/// Return the code for reading the kind value.
llvm::StringRef getReadCode() const {
return get()->getValueAsString(ReadFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return TypeKindClassName;
}
};
/// An implementation case of a property type.
class TypeCase : public HasProperties {
public:
TypeCase(llvm::Record *record = nullptr) : HasProperties(record) {}
/// Return the name of this case.
llvm::StringRef getCaseName() const {
return get()->getValueAsString(NameFieldName);
}
/// Return the type of which this is a case.
PropertyType getParentType() const {
return get()->getValueAsDef(TypeFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return TypeCaseClassName;
}
};
/// A property of an AST node.
class Property : public WrappedRecord {
public:
Property(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Return the name of this property.
llvm::StringRef getName() const {
return get()->getValueAsString(NameFieldName);
}
/// Return the type of this property.
PropertyType getType() const {
return get()->getValueAsDef(TypeFieldName);
}
/// Return the class of which this is a property.
HasProperties getClass() const {
return get()->getValueAsDef(ClassFieldName);
}
/// Return the code for reading this property.
llvm::StringRef getReadCode() const {
return get()->getValueAsString(ReadFieldName);
}
/// Return the code for determining whether to add this property.
llvm::StringRef getCondition() const {
return get()->getValueAsString(ConditionalCodeFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return PropertyClassName;
}
};
/// A rule for running some helper code for reading properties from
/// a value (which is actually done when writing the value out).
class ReadHelperRule : public WrappedRecord {
public:
ReadHelperRule(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Return the class for which this is a creation rule.
/// Should never be abstract.
HasProperties getClass() const {
return get()->getValueAsDef(ClassFieldName);
}
llvm::StringRef getHelperCode() const {
return get()->getValueAsString(HelperCodeFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return ReadHelperRuleClassName;
}
};
/// A rule for how to create an AST node from its properties.
class CreationRule : public WrappedRecord {
public:
CreationRule(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Return the class for which this is a creation rule.
/// Should never be abstract.
HasProperties getClass() const {
return get()->getValueAsDef(ClassFieldName);
}
llvm::StringRef getCreationCode() const {
return get()->getValueAsString(CreateFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return CreationRuleClassName;
}
};
/// A rule which overrides the standard rules for serializing an AST node.
class OverrideRule : public WrappedRecord {
public:
OverrideRule(llvm::Record *record = nullptr) : WrappedRecord(record) {}
/// Return the class for which this is an override rule.
/// Should never be abstract.
HasProperties getClass() const {
return get()->getValueAsDef(ClassFieldName);
}
/// Return a set of properties that are unnecessary when serializing
/// this AST node. Generally this is used for inherited properties
/// that are derived for this subclass.
std::vector<llvm::StringRef> getIgnoredProperties() const {
return get()->getValueAsListOfStrings(IgnoredPropertiesFieldName);
}
static llvm::StringRef getTableGenNodeClassName() {
return OverrideRuleClassName;
}
};
/// A visitor for an AST node hierarchy. Note that `base` can be null for
/// the root class.
template <class NodeClass>
using ASTNodeHierarchyVisitor =
llvm::function_ref<void(NodeClass node, NodeClass base)>;
void visitASTNodeHierarchyImpl(llvm::RecordKeeper &records,
llvm::StringRef nodeClassName,
ASTNodeHierarchyVisitor<ASTNode> visit);
template <class NodeClass>
void visitASTNodeHierarchy(llvm::RecordKeeper &records,
ASTNodeHierarchyVisitor<NodeClass> visit) {
visitASTNodeHierarchyImpl(records, NodeClass::getTableGenNodeClassName(),
[visit](ASTNode node, ASTNode base) {
visit(NodeClass(node.getRecord()),
NodeClass(base.getRecord()));
});
}
} // end namespace clang::tblgen
} // end namespace clang
#endif