utils/TableGen/ClangTypeNodesEmitter.cpp - clang - Git at Google

 //=== ClangTypeNodesEmitter.cpp - Generate type node tables -----*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This tblgen backend emits the node table (the .def file) for Clang
 // type nodes.
 //
 // This file defines the AST type info database. Each type node is
 // enumerated by providing its name (e.g., "Builtin" or "Enum") and
 // base class (e.g., "Type" or "TagType"). Depending on where in the
 // abstract syntax tree the type will show up, the enumeration uses
 // one of five different macros:
 //
 //    TYPE(Class, Base) - A type that can show up anywhere in the AST,
 //    and might be dependent, canonical, or non-canonical. All clients
 //    will need to understand these types.
 //
 //    ABSTRACT_TYPE(Class, Base) - An abstract class that shows up in
 //    the type hierarchy but has no concrete instances.
 //
 //    NON_CANONICAL_TYPE(Class, Base) - A type that can show up
 //    anywhere in the AST but will never be a part of a canonical
 //    type. Clients that only need to deal with canonical types
 //    (ignoring, e.g., typedefs and other type aliases used for
 //    pretty-printing) can ignore these types.
 //
 //    DEPENDENT_TYPE(Class, Base) - A type that will only show up
 //    within a C++ template that has not been instantiated, e.g., a
 //    type that is always dependent. Clients that do not need to deal
 //    with uninstantiated C++ templates can ignore these types.
 //
 //    NON_CANONICAL_UNLESS_DEPENDENT_TYPE(Class, Base) - A type that
 //    is non-canonical unless it is dependent.  Defaults to TYPE because
 //    it is neither reliably dependent nor reliably non-canonical.
 //
 // There is a sixth macro, independent of the others.  Most clients
 // will not need to use it.
 //
 //    LEAF_TYPE(Class) - A type that never has inner types.  Clients
 //    which can operate on such types more efficiently may wish to do so.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/StringRef.h"
 #include "llvm/TableGen/Error.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"
 #include <set>
 #include <string>
 #include <vector>
 #include "TableGenBackends.h"

 using namespace llvm;

 // These are spellings in the generated output.
 #define TypeMacroName "TYPE"
 #define AbstractTypeMacroName "ABSTRACT_TYPE"
 #define DependentTypeMacroName "DEPENDENT_TYPE"
 #define NonCanonicalTypeMacroName "NON_CANONICAL_TYPE"
 #define NonCanonicalUnlessDependentTypeMacroName "NON_CANONICAL_UNLESS_DEPENDENT_TYPE"
 #define TypeMacroArgs "(Class, Base)"
 #define LastTypeMacroName "LAST_TYPE"
 #define LeafTypeMacroName "LEAF_TYPE"

 // These are spellings in the tblgen file.
 // (Type is also used for the spelling of the AST class.)
 #define TypeClassName "Type"
 #define DerivedTypeClassName "DerivedType"
 #define AlwaysDependentClassName "AlwaysDependent"
 #define NeverCanonicalClassName "NeverCanonical"
 #define NeverCanonicalUnlessDependentClassName "NeverCanonicalUnlessDependent"
 #define LeafTypeClassName "LeafType"
 #define AbstractFieldName "Abstract"
 #define BaseFieldName "Base"

 static StringRef getIdForType(Record *type) {
 	// The record name is expected to be the full C++ class name,
 	// including "Type".  Check for that and strip it off.
 	auto fullName = type->getName();
 	if (!fullName.endswith("Type"))
 		PrintFatalError(type->getLoc(), "name of Type node doesn't end in Type");
 	return fullName.drop_back(4);
 }

 namespace {
 class TypeNodeEmitter {
 	RecordKeeper &Records;
 	raw_ostream &Out;
 	const std::vector<Record*> Types;
 	std::vector<StringRef> MacrosToUndef;

 public:
 	TypeNodeEmitter(RecordKeeper &records, raw_ostream &out)
 		: Records(records), Out(out),
 			Types(Records.getAllDerivedDefinitions("Type")) {
 	}

 	void emit();

 private:
 	void emitFallbackDefine(StringRef macroName, StringRef fallbackMacroName,
 													StringRef args);

 	void emitNodeInvocations();
 	void emitLastNodeInvocation();
 	void emitLeafNodeInvocations();

 	void addMacroToUndef(StringRef macroName);
 	void emitUndefs();
 };
 }

 void TypeNodeEmitter::emit() {
 	if (Types.empty())
 		PrintFatalError("no Type records in input!");

 	emitSourceFileHeader("An x-macro database of Clang type nodes", Out);

 	// Preamble
 	addMacroToUndef(TypeMacroName);
 	addMacroToUndef(AbstractTypeMacroName);
 	emitFallbackDefine(AbstractTypeMacroName, TypeMacroName, TypeMacroArgs);
 	emitFallbackDefine(NonCanonicalTypeMacroName, TypeMacroName, TypeMacroArgs);
 	emitFallbackDefine(DependentTypeMacroName, TypeMacroName, TypeMacroArgs);
 	emitFallbackDefine(NonCanonicalUnlessDependentTypeMacroName, TypeMacroName,
 										 TypeMacroArgs);

 	// Invocations.
 	emitNodeInvocations();
 	emitLastNodeInvocation();
 	emitLeafNodeInvocations();

 	// Postmatter
 	emitUndefs();
 }

 void TypeNodeEmitter::emitFallbackDefine(StringRef macroName,
 																				 StringRef fallbackMacroName,
 																				 StringRef args) {
   Out << "#ifndef " << macroName << "\n";
   Out << "#  define " << macroName << args
   	  << " " << fallbackMacroName << args << "\n";
   Out << "#endif\n";

   addMacroToUndef(macroName);
 }

 void TypeNodeEmitter::emitNodeInvocations() {
 	for (auto type : Types) {
 		// The name with the Type suffix.
 		StringRef id = getIdForType(type);

 		// Figure out which macro to use.
 		StringRef macroName;
 		auto setMacroName = [&](StringRef newName) {
 			if (!macroName.empty())
 				PrintFatalError(type->getLoc(),
 												Twine("conflict when computing macro name for "
 															"Type node: trying to use both \"")
 													+ macroName + "\" and \"" + newName + "\"");
 			macroName = newName;
 		};
 		if (type->isSubClassOf(AlwaysDependentClassName))
 			setMacroName(DependentTypeMacroName);
 		if (type->isSubClassOf(NeverCanonicalClassName))
 			setMacroName(NonCanonicalTypeMacroName);
 		if (type->isSubClassOf(NeverCanonicalUnlessDependentClassName))
 			setMacroName(NonCanonicalUnlessDependentTypeMacroName);
 		if (type->getValueAsBit(AbstractFieldName))
 			setMacroName(AbstractTypeMacroName);
 		if (macroName.empty())
 			macroName = TypeMacroName;

 		// Compute the base class.
 		StringRef baseName = TypeClassName;
 		if (type->isSubClassOf(DerivedTypeClassName))
 			baseName = type->getValueAsDef(BaseFieldName)->getName();

 		// Generate the invocation line.
 		Out << macroName << "(" << id << ", " << baseName << ")\n";
 	}
 }

 void TypeNodeEmitter::emitLastNodeInvocation() {
 	// We check that this is non-empty earlier.
 	Out << "#ifdef " LastTypeMacroName "\n"
 	       LastTypeMacroName "(" << getIdForType(Types.back()) << ")\n"
 				 "#undef " LastTypeMacroName "\n"
 				 "#endif\n";
 }

 void TypeNodeEmitter::emitLeafNodeInvocations() {
 	Out << "#ifdef " LeafTypeMacroName "\n";

 	for (auto type : Types) {
 		if (!type->isSubClassOf(LeafTypeClassName)) continue;
 		Out << LeafTypeMacroName "(" << getIdForType(type) << ")\n";
 	}

 	Out << "#undef " LeafTypeMacroName "\n"
 				 "#endif\n";
 }

 void TypeNodeEmitter::addMacroToUndef(StringRef macroName) {
 	MacrosToUndef.push_back(macroName);
 }

 void TypeNodeEmitter::emitUndefs() {
 	for (auto &macroName : MacrosToUndef) {
 		Out << "#undef " << macroName << "\n";
 	}
 }

 void clang::EmitClangTypeNodes(RecordKeeper &records, raw_ostream &out) {
 	TypeNodeEmitter(records, out).emit();
 }
	//=== ClangTypeNodesEmitter.cpp - Generate type node tables ------ 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This tblgen backend emits the node table (the .def file) for Clang
	// type nodes.
	//
	// This file defines the AST type info database. Each type node is
	// enumerated by providing its name (e.g., "Builtin" or "Enum") and
	// base class (e.g., "Type" or "TagType"). Depending on where in the
	// abstract syntax tree the type will show up, the enumeration uses
	// one of five different macros:
	//
	// TYPE(Class, Base) - A type that can show up anywhere in the AST,
	// and might be dependent, canonical, or non-canonical. All clients
	// will need to understand these types.
	//
	// ABSTRACT_TYPE(Class, Base) - An abstract class that shows up in
	// the type hierarchy but has no concrete instances.
	//
	// NON_CANONICAL_TYPE(Class, Base) - A type that can show up
	// anywhere in the AST but will never be a part of a canonical
	// type. Clients that only need to deal with canonical types
	// (ignoring, e.g., typedefs and other type aliases used for
	// pretty-printing) can ignore these types.
	//
	// DEPENDENT_TYPE(Class, Base) - A type that will only show up
	// within a C++ template that has not been instantiated, e.g., a
	// type that is always dependent. Clients that do not need to deal
	// with uninstantiated C++ templates can ignore these types.
	//
	// NON_CANONICAL_UNLESS_DEPENDENT_TYPE(Class, Base) - A type that
	// is non-canonical unless it is dependent. Defaults to TYPE because
	// it is neither reliably dependent nor reliably non-canonical.
	//
	// There is a sixth macro, independent of the others. Most clients
	// will not need to use it.
	//
	// LEAF_TYPE(Class) - A type that never has inner types. Clients
	// which can operate on such types more efficiently may wish to do so.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/StringRef.h"
	#include "llvm/TableGen/Error.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"
	#include <set>
	#include <string>
	#include <vector>
	#include "TableGenBackends.h"

	using namespace llvm;

	// These are spellings in the generated output.
	#define TypeMacroName "TYPE"
	#define AbstractTypeMacroName "ABSTRACT_TYPE"
	#define DependentTypeMacroName "DEPENDENT_TYPE"
	#define NonCanonicalTypeMacroName "NON_CANONICAL_TYPE"
	#define NonCanonicalUnlessDependentTypeMacroName "NON_CANONICAL_UNLESS_DEPENDENT_TYPE"
	#define TypeMacroArgs "(Class, Base)"
	#define LastTypeMacroName "LAST_TYPE"
	#define LeafTypeMacroName "LEAF_TYPE"

	// These are spellings in the tblgen file.
	// (Type is also used for the spelling of the AST class.)
	#define TypeClassName "Type"
	#define DerivedTypeClassName "DerivedType"
	#define AlwaysDependentClassName "AlwaysDependent"
	#define NeverCanonicalClassName "NeverCanonical"
	#define NeverCanonicalUnlessDependentClassName "NeverCanonicalUnlessDependent"
	#define LeafTypeClassName "LeafType"
	#define AbstractFieldName "Abstract"
	#define BaseFieldName "Base"

	static StringRef getIdForType(Record *type) {
	// The record name is expected to be the full C++ class name,
	// including "Type". Check for that and strip it off.
	auto fullName = type->getName();
	if (!fullName.endswith("Type"))
	PrintFatalError(type->getLoc(), "name of Type node doesn't end in Type");
	return fullName.drop_back(4);
	}

	namespace {
	class TypeNodeEmitter {
	RecordKeeper &Records;
	raw_ostream &Out;
	const std::vector<Record*> Types;
	std::vector<StringRef> MacrosToUndef;

	public:
	TypeNodeEmitter(RecordKeeper &records, raw_ostream &out)
	: Records(records), Out(out),
	Types(Records.getAllDerivedDefinitions("Type")) {
	}

	void emit();

	private:
	void emitFallbackDefine(StringRef macroName, StringRef fallbackMacroName,
	StringRef args);

	void emitNodeInvocations();
	void emitLastNodeInvocation();
	void emitLeafNodeInvocations();

	void addMacroToUndef(StringRef macroName);
	void emitUndefs();
	};
	}

	void TypeNodeEmitter::emit() {
	if (Types.empty())
	PrintFatalError("no Type records in input!");

	emitSourceFileHeader("An x-macro database of Clang type nodes", Out);

	// Preamble
	addMacroToUndef(TypeMacroName);
	addMacroToUndef(AbstractTypeMacroName);
	emitFallbackDefine(AbstractTypeMacroName, TypeMacroName, TypeMacroArgs);
	emitFallbackDefine(NonCanonicalTypeMacroName, TypeMacroName, TypeMacroArgs);
	emitFallbackDefine(DependentTypeMacroName, TypeMacroName, TypeMacroArgs);
	emitFallbackDefine(NonCanonicalUnlessDependentTypeMacroName, TypeMacroName,
	TypeMacroArgs);

	// Invocations.
	emitNodeInvocations();
	emitLastNodeInvocation();
	emitLeafNodeInvocations();

	// Postmatter
	emitUndefs();
	}

	void TypeNodeEmitter::emitFallbackDefine(StringRef macroName,
	StringRef fallbackMacroName,
	StringRef args) {
	Out << "#ifndef " << macroName << "\n";
	Out << "# define " << macroName << args
	<< " " << fallbackMacroName << args << "\n";
	Out << "#endif\n";

	addMacroToUndef(macroName);
	}

	void TypeNodeEmitter::emitNodeInvocations() {
	for (auto type : Types) {
	// The name with the Type suffix.
	StringRef id = getIdForType(type);

	// Figure out which macro to use.
	StringRef macroName;
	auto setMacroName = [&](StringRef newName) {
	if (!macroName.empty())
	PrintFatalError(type->getLoc(),
	Twine("conflict when computing macro name for "
	"Type node: trying to use both \"")
	+ macroName + "\" and \"" + newName + "\"");
	macroName = newName;
	};
	if (type->isSubClassOf(AlwaysDependentClassName))
	setMacroName(DependentTypeMacroName);
	if (type->isSubClassOf(NeverCanonicalClassName))
	setMacroName(NonCanonicalTypeMacroName);
	if (type->isSubClassOf(NeverCanonicalUnlessDependentClassName))
	setMacroName(NonCanonicalUnlessDependentTypeMacroName);
	if (type->getValueAsBit(AbstractFieldName))
	setMacroName(AbstractTypeMacroName);
	if (macroName.empty())
	macroName = TypeMacroName;

	// Compute the base class.
	StringRef baseName = TypeClassName;
	if (type->isSubClassOf(DerivedTypeClassName))
	baseName = type->getValueAsDef(BaseFieldName)->getName();

	// Generate the invocation line.
	Out << macroName << "(" << id << ", " << baseName << ")\n";
	}
	}

	void TypeNodeEmitter::emitLastNodeInvocation() {
	// We check that this is non-empty earlier.
	Out << "#ifdef " LastTypeMacroName "\n"
	LastTypeMacroName "(" << getIdForType(Types.back()) << ")\n"
	"#undef " LastTypeMacroName "\n"
	"#endif\n";
	}

	void TypeNodeEmitter::emitLeafNodeInvocations() {
	Out << "#ifdef " LeafTypeMacroName "\n";

	for (auto type : Types) {
	if (!type->isSubClassOf(LeafTypeClassName)) continue;
	Out << LeafTypeMacroName "(" << getIdForType(type) << ")\n";
	}

	Out << "#undef " LeafTypeMacroName "\n"
	"#endif\n";
	}

	void TypeNodeEmitter::addMacroToUndef(StringRef macroName) {
	MacrosToUndef.push_back(macroName);
	}

	void TypeNodeEmitter::emitUndefs() {
	for (auto &macroName : MacrosToUndef) {
	Out << "#undef " << macroName << "\n";
	}
	}

	void clang::EmitClangTypeNodes(RecordKeeper &records, raw_ostream &out) {
	TypeNodeEmitter(records, out).emit();
	}