utils/TableGen/ClangASTNodesEmitter.cpp - llvm-project/clang - Git at Google

 //=== ClangASTNodesEmitter.cpp - Generate Clang AST 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
 //
 //===----------------------------------------------------------------------===//
 //
 // These tablegen backends emit Clang AST node tables
 //
 //===----------------------------------------------------------------------===//

 #include "ASTTableGen.h"
 #include "TableGenBackends.h"

 #include "llvm/TableGen/Error.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"
 #include <cctype>
 #include <map>
 #include <set>
 #include <string>
 using namespace llvm;
 using namespace clang;
 using namespace clang::tblgen;

 /// ClangASTNodesEmitter - The top-level class emits .inc files containing
 ///  declarations of Clang statements.
 ///
 namespace {
 class ClangASTNodesEmitter {
   // A map from a node to each of its derived nodes.
   typedef std::multimap<ASTNode, ASTNode> ChildMap;
   typedef ChildMap::const_iterator ChildIterator;

   std::set<ASTNode> PrioritizedClasses;
   RecordKeeper &Records;
   ASTNode Root;
   const std::string &NodeClassName;
   const std::string &BaseSuffix;
   std::string MacroHierarchyName;
   ChildMap Tree;

   // Create a macro-ized version of a name
   static std::string macroName(std::string S) {
     for (unsigned i = 0; i < S.size(); ++i)
       S[i] = std::toupper(S[i]);

     return S;
   }

   const std::string &macroHierarchyName() {
     assert(Root && "root node not yet derived!");
     if (MacroHierarchyName.empty())
       MacroHierarchyName = macroName(std::string(Root.getName()));
     return MacroHierarchyName;
   }

   // Return the name to be printed in the base field. Normally this is
   // the record's name plus the base suffix, but if it is the root node and
   // the suffix is non-empty, it's just the suffix.
   std::string baseName(ASTNode node) {
     if (node == Root && !BaseSuffix.empty())
       return BaseSuffix;

     return node.getName().str() + BaseSuffix;
   }

   void deriveChildTree();

   std::pair<ASTNode, ASTNode> EmitNode(raw_ostream& OS, ASTNode Base);
 public:
   explicit ClangASTNodesEmitter(RecordKeeper &R, const std::string &N,
                                 const std::string &S,
                                 std::string_view PriorizeIfSubclassOf)
       : Records(R), NodeClassName(N), BaseSuffix(S) {
     auto vecPrioritized =
         PriorizeIfSubclassOf.empty()
             ? std::vector<Record *>{}
             : R.getAllDerivedDefinitions(PriorizeIfSubclassOf);
     PrioritizedClasses =
         std::set<ASTNode>(vecPrioritized.begin(), vecPrioritized.end());
   }

   // run - Output the .inc file contents
   void run(raw_ostream &OS);
 };
 } // end anonymous namespace

 //===----------------------------------------------------------------------===//
 // Statement Node Tables (.inc file) generation.
 //===----------------------------------------------------------------------===//

 // Returns the first and last non-abstract subrecords
 // Called recursively to ensure that nodes remain contiguous
 std::pair<ASTNode, ASTNode> ClangASTNodesEmitter::EmitNode(raw_ostream &OS,
                                                            ASTNode Base) {
   std::string BaseName = macroName(std::string(Base.getName()));

   ChildIterator i = Tree.lower_bound(Base), e = Tree.upper_bound(Base);
   bool HasChildren = (i != e);

   ASTNode First, Last;
   if (!Base.isAbstract())
     First = Last = Base;

   auto comp = [this](ASTNode LHS, ASTNode RHS) {
     auto LHSPrioritized = PrioritizedClasses.count(LHS) > 0;
     auto RHSPrioritized = PrioritizedClasses.count(RHS) > 0;
     if (LHSPrioritized && !RHSPrioritized)
       return true;
     if (!LHSPrioritized && RHSPrioritized)
       return false;

     return LHS.getName() > RHS.getName();
   };
   auto SortedChildren = std::set<ASTNode, decltype(comp)>(comp);

   for (; i != e; ++i) {
     SortedChildren.insert(i->second);
   }

   for (const auto &Child : SortedChildren) {
     bool Abstract = Child.isAbstract();
     std::string NodeName = macroName(std::string(Child.getName()));

     OS << "#ifndef " << NodeName << "\n";
     OS << "#  define " << NodeName << "(Type, Base) "
         << BaseName << "(Type, Base)\n";
     OS << "#endif\n";

     if (Abstract) OS << "ABSTRACT_" << macroHierarchyName() << "(";
     OS << NodeName << "(" << Child.getName() << ", " << baseName(Base) << ")";
     if (Abstract) OS << ")";
     OS << "\n";

     auto Result = EmitNode(OS, Child);
     assert(Result.first && Result.second && "node didn't have children?");

     // Update the range of Base.
     if (!First) First = Result.first;
     Last = Result.second;

     OS << "#undef " << NodeName << "\n\n";
   }

   // If there aren't first/last nodes, it must be because there were no
   // children and this node was abstract, which is not a sensible combination.
   if (!First) {
     PrintFatalError(Base.getLoc(), "abstract node has no children");
   }
   assert(Last && "set First without Last");

   if (HasChildren) {
     // Use FOO_RANGE unless this is the last of the ranges, in which case
     // use LAST_FOO_RANGE.
     if (Base == Root)
       OS << "LAST_" << macroHierarchyName() << "_RANGE(";
     else
       OS << macroHierarchyName() << "_RANGE(";
     OS << Base.getName() << ", " << First.getName() << ", "
        << Last.getName() << ")\n\n";
   }

   return std::make_pair(First, Last);
 }

 void ClangASTNodesEmitter::deriveChildTree() {
   assert(!Root && "already computed tree");

   // Emit statements
   const std::vector<Record*> Stmts
     = Records.getAllDerivedDefinitions(NodeClassName);

   for (auto *R : Stmts) {
     if (auto B = R->getValueAsOptionalDef(BaseFieldName))
       Tree.insert(std::make_pair(B, R));
     else if (Root)
       PrintFatalError(R->getLoc(),
                       Twine("multiple root nodes in \"") + NodeClassName
                         + "\" hierarchy");
     else
       Root = R;
   }

   if (!Root)
     PrintFatalError(Twine("didn't find root node in \"") + NodeClassName
                       + "\" hierarchy");
 }

 void ClangASTNodesEmitter::run(raw_ostream &OS) {
   deriveChildTree();

   emitSourceFileHeader("List of AST nodes of a particular kind", OS, Records);

   // Write the preamble
   OS << "#ifndef ABSTRACT_" << macroHierarchyName() << "\n";
   OS << "#  define ABSTRACT_" << macroHierarchyName() << "(Type) Type\n";
   OS << "#endif\n";

   OS << "#ifndef " << macroHierarchyName() << "_RANGE\n";
   OS << "#  define "
      << macroHierarchyName() << "_RANGE(Base, First, Last)\n";
   OS << "#endif\n\n";

   OS << "#ifndef LAST_" << macroHierarchyName() << "_RANGE\n";
   OS << "#  define LAST_" << macroHierarchyName()
      << "_RANGE(Base, First, Last) " << macroHierarchyName()
      << "_RANGE(Base, First, Last)\n";
   OS << "#endif\n\n";

   EmitNode(OS, Root);

   OS << "#undef " << macroHierarchyName() << "\n";
   OS << "#undef " << macroHierarchyName() << "_RANGE\n";
   OS << "#undef LAST_" << macroHierarchyName() << "_RANGE\n";
   OS << "#undef ABSTRACT_" << macroHierarchyName() << "\n";
 }

 void clang::EmitClangASTNodes(RecordKeeper &RK, raw_ostream &OS,
                               const std::string &N, const std::string &S,
                               std::string_view PriorizeIfSubclassOf) {
   ClangASTNodesEmitter(RK, N, S, PriorizeIfSubclassOf).run(OS);
 }

 void printDeclContext(const std::multimap<Record *, Record *> &Tree,
                       Record *DeclContext, raw_ostream &OS) {
   if (!DeclContext->getValueAsBit(AbstractFieldName))
     OS << "DECL_CONTEXT(" << DeclContext->getName() << ")\n";
   auto i = Tree.lower_bound(DeclContext);
   auto end = Tree.upper_bound(DeclContext);
   for (; i != end; ++i) {
     printDeclContext(Tree, i->second, OS);
   }
 }

 // Emits and addendum to a .inc file to enumerate the clang declaration
 // contexts.
 void clang::EmitClangDeclContext(RecordKeeper &Records, raw_ostream &OS) {
   // FIXME: Find a .td file format to allow for this to be represented better.

   emitSourceFileHeader("List of AST Decl nodes", OS, Records);

   OS << "#ifndef DECL_CONTEXT\n";
   OS << "#  define DECL_CONTEXT(DECL)\n";
   OS << "#endif\n";

   std::vector<Record *> DeclContextsVector =
       Records.getAllDerivedDefinitions(DeclContextNodeClassName);
   std::vector<Record *> Decls =
       Records.getAllDerivedDefinitions(DeclNodeClassName);

   std::multimap<Record *, Record *> Tree;

   const std::vector<Record *> Stmts =
       Records.getAllDerivedDefinitions(DeclNodeClassName);

   for (auto *R : Stmts) {
     if (auto *B = R->getValueAsOptionalDef(BaseFieldName))
       Tree.insert(std::make_pair(B, R));
   }

   for (auto *DeclContext : DeclContextsVector) {
     printDeclContext(Tree, DeclContext, OS);
   }

   OS << "#undef DECL_CONTEXT\n";
 }
	//=== ClangASTNodesEmitter.cpp - Generate Clang AST 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
	//
	//===----------------------------------------------------------------------===//
	//
	// These tablegen backends emit Clang AST node tables
	//
	//===----------------------------------------------------------------------===//

	#include "ASTTableGen.h"
	#include "TableGenBackends.h"

	#include "llvm/TableGen/Error.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"
	#include <cctype>
	#include <map>
	#include <set>
	#include <string>
	using namespace llvm;
	using namespace clang;
	using namespace clang::tblgen;

	/// ClangASTNodesEmitter - The top-level class emits .inc files containing
	/// declarations of Clang statements.
	///
	namespace {
	class ClangASTNodesEmitter {
	// A map from a node to each of its derived nodes.
	typedef std::multimap<ASTNode, ASTNode> ChildMap;
	typedef ChildMap::const_iterator ChildIterator;

	std::set<ASTNode> PrioritizedClasses;
	RecordKeeper &Records;
	ASTNode Root;
	const std::string &NodeClassName;
	const std::string &BaseSuffix;
	std::string MacroHierarchyName;
	ChildMap Tree;

	// Create a macro-ized version of a name
	static std::string macroName(std::string S) {
	for (unsigned i = 0; i < S.size(); ++i)
	S[i] = std::toupper(S[i]);

	return S;
	}

	const std::string &macroHierarchyName() {
	assert(Root && "root node not yet derived!");
	if (MacroHierarchyName.empty())
	MacroHierarchyName = macroName(std::string(Root.getName()));
	return MacroHierarchyName;
	}

	// Return the name to be printed in the base field. Normally this is
	// the record's name plus the base suffix, but if it is the root node and
	// the suffix is non-empty, it's just the suffix.
	std::string baseName(ASTNode node) {
	if (node == Root && !BaseSuffix.empty())
	return BaseSuffix;

	return node.getName().str() + BaseSuffix;
	}

	void deriveChildTree();

	std::pair<ASTNode, ASTNode> EmitNode(raw_ostream& OS, ASTNode Base);
	public:
	explicit ClangASTNodesEmitter(RecordKeeper &R, const std::string &N,
	const std::string &S,
	std::string_view PriorizeIfSubclassOf)
	: Records(R), NodeClassName(N), BaseSuffix(S) {
	auto vecPrioritized =
	PriorizeIfSubclassOf.empty()
	? std::vector<Record *>{}
	: R.getAllDerivedDefinitions(PriorizeIfSubclassOf);
	PrioritizedClasses =
	std::set<ASTNode>(vecPrioritized.begin(), vecPrioritized.end());
	}

	// run - Output the .inc file contents
	void run(raw_ostream &OS);
	};
	} // end anonymous namespace

	//===----------------------------------------------------------------------===//
	// Statement Node Tables (.inc file) generation.
	//===----------------------------------------------------------------------===//

	// Returns the first and last non-abstract subrecords
	// Called recursively to ensure that nodes remain contiguous
	std::pair<ASTNode, ASTNode> ClangASTNodesEmitter::EmitNode(raw_ostream &OS,
	ASTNode Base) {
	std::string BaseName = macroName(std::string(Base.getName()));

	ChildIterator i = Tree.lower_bound(Base), e = Tree.upper_bound(Base);
	bool HasChildren = (i != e);

	ASTNode First, Last;
	if (!Base.isAbstract())
	First = Last = Base;

	auto comp = [this](ASTNode LHS, ASTNode RHS) {
	auto LHSPrioritized = PrioritizedClasses.count(LHS) > 0;
	auto RHSPrioritized = PrioritizedClasses.count(RHS) > 0;
	if (LHSPrioritized && !RHSPrioritized)
	return true;
	if (!LHSPrioritized && RHSPrioritized)
	return false;

	return LHS.getName() > RHS.getName();
	};
	auto SortedChildren = std::set<ASTNode, decltype(comp)>(comp);

	for (; i != e; ++i) {
	SortedChildren.insert(i->second);
	}

	for (const auto &Child : SortedChildren) {
	bool Abstract = Child.isAbstract();
	std::string NodeName = macroName(std::string(Child.getName()));

	OS << "#ifndef " << NodeName << "\n";
	OS << "# define " << NodeName << "(Type, Base) "
	<< BaseName << "(Type, Base)\n";
	OS << "#endif\n";

	if (Abstract) OS << "ABSTRACT_" << macroHierarchyName() << "(";
	OS << NodeName << "(" << Child.getName() << ", " << baseName(Base) << ")";
	if (Abstract) OS << ")";
	OS << "\n";

	auto Result = EmitNode(OS, Child);
	assert(Result.first && Result.second && "node didn't have children?");

	// Update the range of Base.
	if (!First) First = Result.first;
	Last = Result.second;

	OS << "#undef " << NodeName << "\n\n";
	}

	// If there aren't first/last nodes, it must be because there were no
	// children and this node was abstract, which is not a sensible combination.
	if (!First) {
	PrintFatalError(Base.getLoc(), "abstract node has no children");
	}
	assert(Last && "set First without Last");

	if (HasChildren) {
	// Use FOO_RANGE unless this is the last of the ranges, in which case
	// use LAST_FOO_RANGE.
	if (Base == Root)
	OS << "LAST_" << macroHierarchyName() << "_RANGE(";
	else
	OS << macroHierarchyName() << "_RANGE(";
	OS << Base.getName() << ", " << First.getName() << ", "
	<< Last.getName() << ")\n\n";
	}

	return std::make_pair(First, Last);
	}

	void ClangASTNodesEmitter::deriveChildTree() {
	assert(!Root && "already computed tree");

	// Emit statements
	const std::vector<Record*> Stmts
	= Records.getAllDerivedDefinitions(NodeClassName);

	for (auto *R : Stmts) {
	if (auto B = R->getValueAsOptionalDef(BaseFieldName))
	Tree.insert(std::make_pair(B, R));
	else if (Root)
	PrintFatalError(R->getLoc(),
	Twine("multiple root nodes in \"") + NodeClassName
	+ "\" hierarchy");
	else
	Root = R;
	}

	if (!Root)
	PrintFatalError(Twine("didn't find root node in \"") + NodeClassName
	+ "\" hierarchy");
	}

	void ClangASTNodesEmitter::run(raw_ostream &OS) {
	deriveChildTree();

	emitSourceFileHeader("List of AST nodes of a particular kind", OS, Records);

	// Write the preamble
	OS << "#ifndef ABSTRACT_" << macroHierarchyName() << "\n";
	OS << "# define ABSTRACT_" << macroHierarchyName() << "(Type) Type\n";
	OS << "#endif\n";

	OS << "#ifndef " << macroHierarchyName() << "_RANGE\n";
	OS << "# define "
	<< macroHierarchyName() << "_RANGE(Base, First, Last)\n";
	OS << "#endif\n\n";

	OS << "#ifndef LAST_" << macroHierarchyName() << "_RANGE\n";
	OS << "# define LAST_" << macroHierarchyName()
	<< "_RANGE(Base, First, Last) " << macroHierarchyName()
	<< "_RANGE(Base, First, Last)\n";
	OS << "#endif\n\n";

	EmitNode(OS, Root);

	OS << "#undef " << macroHierarchyName() << "\n";
	OS << "#undef " << macroHierarchyName() << "_RANGE\n";
	OS << "#undef LAST_" << macroHierarchyName() << "_RANGE\n";
	OS << "#undef ABSTRACT_" << macroHierarchyName() << "\n";
	}

	void clang::EmitClangASTNodes(RecordKeeper &RK, raw_ostream &OS,
	const std::string &N, const std::string &S,
	std::string_view PriorizeIfSubclassOf) {
	ClangASTNodesEmitter(RK, N, S, PriorizeIfSubclassOf).run(OS);
	}

	void printDeclContext(const std::multimap<Record , Record > &Tree,
	Record *DeclContext, raw_ostream &OS) {
	if (!DeclContext->getValueAsBit(AbstractFieldName))
	OS << "DECL_CONTEXT(" << DeclContext->getName() << ")\n";
	auto i = Tree.lower_bound(DeclContext);
	auto end = Tree.upper_bound(DeclContext);
	for (; i != end; ++i) {
	printDeclContext(Tree, i->second, OS);
	}
	}

	// Emits and addendum to a .inc file to enumerate the clang declaration
	// contexts.
	void clang::EmitClangDeclContext(RecordKeeper &Records, raw_ostream &OS) {
	// FIXME: Find a .td file format to allow for this to be represented better.

	emitSourceFileHeader("List of AST Decl nodes", OS, Records);

	OS << "#ifndef DECL_CONTEXT\n";
	OS << "# define DECL_CONTEXT(DECL)\n";
	OS << "#endif\n";

	std::vector<Record *> DeclContextsVector =
	Records.getAllDerivedDefinitions(DeclContextNodeClassName);
	std::vector<Record *> Decls =
	Records.getAllDerivedDefinitions(DeclNodeClassName);

	std::multimap<Record , Record > Tree;

	const std::vector<Record *> Stmts =
	Records.getAllDerivedDefinitions(DeclNodeClassName);

	for (auto *R : Stmts) {
	if (auto *B = R->getValueAsOptionalDef(BaseFieldName))
	Tree.insert(std::make_pair(B, R));
	}

	for (auto *DeclContext : DeclContextsVector) {
	printDeclContext(Tree, DeclContext, OS);
	}

	OS << "#undef DECL_CONTEXT\n";
	}