mlir/tools/mlir-tblgen/LLVMIRIntrinsicGen.cpp - llvm-project - Git at Google

 //===- LLVMIntrinsicGen.cpp - TableGen utility for converting intrinsics --===//
 //
 // 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 is a TableGen generator that converts TableGen definitions for LLVM
 // intrinsics to TableGen definitions for MLIR operations.
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/TableGen/GenInfo.h"

 #include "llvm/ADT/SmallBitVector.h"
 #include "llvm/Support/CommandLine.h"
 #include "llvm/Support/MachineValueType.h"
 #include "llvm/Support/PrettyStackTrace.h"
 #include "llvm/Support/Regex.h"
 #include "llvm/Support/Signals.h"
 #include "llvm/TableGen/Error.h"
 #include "llvm/TableGen/Main.h"
 #include "llvm/TableGen/Record.h"
 #include "llvm/TableGen/TableGenBackend.h"

 static llvm::cl::OptionCategory IntrinsicGenCat("Intrinsics Generator Options");

 static llvm::cl::opt<std::string>
     nameFilter("llvmir-intrinsics-filter",
                llvm::cl::desc("Only keep the intrinsics with the specified "
                               "substring in their record name"),
                llvm::cl::cat(IntrinsicGenCat));

 static llvm::cl::opt<std::string>
     opBaseClass("dialect-opclass-base",
                 llvm::cl::desc("The base class for the ops in the dialect we "
                                "are planning to emit"),
                 llvm::cl::init("LLVM_IntrOp"), llvm::cl::cat(IntrinsicGenCat));

 static llvm::cl::opt<std::string> accessGroupRegexp(
     "llvmir-intrinsics-access-group-regexp",
     llvm::cl::desc("Mark intrinsics that match the specified "
                    "regexp as taking an access group metadata"),
     llvm::cl::cat(IntrinsicGenCat));

 static llvm::cl::opt<std::string> aliasScopesRegexp(
     "llvmir-intrinsics-alias-scopes-regexp",
     llvm::cl::desc("Mark intrinsics that match the specified "
                    "regexp as taking alias.scopes and noalias metadata"),
     llvm::cl::cat(IntrinsicGenCat));

 // Used to represent the indices of overloadable operands/results.
 using IndicesTy = llvm::SmallBitVector;

 /// Return a CodeGen value type entry from a type record.
 static llvm::MVT::SimpleValueType getValueType(const llvm::Record *rec) {
   return (llvm::MVT::SimpleValueType)rec->getValueAsDef("VT")->getValueAsInt(
       "Value");
 }

 /// Return the indices of the definitions in a list of definitions that
 /// represent overloadable types
 static IndicesTy getOverloadableTypeIdxs(const llvm::Record &record,
                                          const char *listName) {
   auto results = record.getValueAsListOfDefs(listName);
   IndicesTy overloadedOps(results.size());
   for (auto r : llvm::enumerate(results)) {
     llvm::MVT::SimpleValueType vt = getValueType(r.value());
     switch (vt) {
     case llvm::MVT::iAny:
     case llvm::MVT::fAny:
     case llvm::MVT::Any:
     case llvm::MVT::iPTRAny:
     case llvm::MVT::vAny:
       overloadedOps.set(r.index());
       break;
     default:
       continue;
     }
   }
   return overloadedOps;
 }

 namespace {
 /// A wrapper for LLVM's Tablegen class `Intrinsic` that provides accessors to
 /// the fields of the record.
 class LLVMIntrinsic {
 public:
   LLVMIntrinsic(const llvm::Record &record) : record(record) {}

   /// Get the name of the operation to be used in MLIR.  Uses the appropriate
   /// field if not empty, constructs a name by replacing underscores with dots
   /// in the record name otherwise.
   std::string getOperationName() const {
     llvm::StringRef name = record.getValueAsString(fieldName);
     if (!name.empty())
       return name.str();

     name = record.getName();
     assert(name.startswith("int_") &&
            "LLVM intrinsic names are expected to start with 'int_'");
     name = name.drop_front(4);
     llvm::SmallVector<llvm::StringRef, 8> chunks;
     llvm::StringRef targetPrefix = record.getValueAsString("TargetPrefix");
     name.split(chunks, '_');
     auto chunksBegin = chunks.begin();
     // Remove the target prefix from target specific intrinsics.
     if (!targetPrefix.empty()) {
       assert(targetPrefix == *chunksBegin &&
              "Intrinsic has TargetPrefix, but "
              "record name doesn't begin with it");
       assert(chunks.size() >= 2 &&
              "Intrinsic has TargetPrefix, but "
              "chunks has only one element meaning the intrinsic name is empty");
       ++chunksBegin;
     }
     return llvm::join(chunksBegin, chunks.end(), ".");
   }

   /// Get the name of the record without the "intrinsic" prefix.
   llvm::StringRef getProperRecordName() const {
     llvm::StringRef name = record.getName();
     assert(name.startswith("int_") &&
            "LLVM intrinsic names are expected to start with 'int_'");
     return name.drop_front(4);
   }

   /// Get the number of operands.
   unsigned getNumOperands() const {
     auto operands = record.getValueAsListOfDefs(fieldOperands);
     assert(llvm::all_of(operands,
                         [](const llvm::Record *r) {
                           return r->isSubClassOf("LLVMType");
                         }) &&
            "expected operands to be of LLVM type");
     return operands.size();
   }

   /// Get the number of results.  Note that LLVM does not support multi-value
   /// operations so, in fact, multiple results will be returned as a value of
   /// structure type.
   unsigned getNumResults() const {
     auto results = record.getValueAsListOfDefs(fieldResults);
     for (const llvm::Record *r : results) {
       (void)r;
       assert(r->isSubClassOf("LLVMType") &&
              "expected operands to be of LLVM type");
     }
     return results.size();
   }

   /// Return true if the intrinsic may have side effects, i.e. does not have the
   /// `IntrNoMem` property.
   bool hasSideEffects() const {
     return llvm::none_of(
         record.getValueAsListOfDefs(fieldTraits),
         [](const llvm::Record *r) { return r->getName() == "IntrNoMem"; });
   }

   /// Return true if the intrinsic is commutative, i.e. has the respective
   /// property.
   bool isCommutative() const {
     return llvm::any_of(
         record.getValueAsListOfDefs(fieldTraits),
         [](const llvm::Record *r) { return r->getName() == "Commutative"; });
   }

   IndicesTy getOverloadableOperandsIdxs() const {
     return getOverloadableTypeIdxs(record, fieldOperands);
   }

   IndicesTy getOverloadableResultsIdxs() const {
     return getOverloadableTypeIdxs(record, fieldResults);
   }

 private:
   /// Names of the fields in the Intrinsic LLVM Tablegen class.
   const char *fieldName = "LLVMName";
   const char *fieldOperands = "ParamTypes";
   const char *fieldResults = "RetTypes";
   const char *fieldTraits = "IntrProperties";

   const llvm::Record &record;
 };
 } // namespace

 /// Prints the elements in "range" separated by commas and surrounded by "[]".
 template <typename Range>
 void printBracketedRange(const Range &range, llvm::raw_ostream &os) {
   os << '[';
   llvm::interleaveComma(range, os);
   os << ']';
 }

 /// Emits ODS (TableGen-based) code for `record` representing an LLVM intrinsic.
 /// Returns true on error, false on success.
 static bool emitIntrinsic(const llvm::Record &record, llvm::raw_ostream &os) {
   LLVMIntrinsic intr(record);

   llvm::Regex accessGroupMatcher(accessGroupRegexp);
   bool requiresAccessGroup =
       !accessGroupRegexp.empty() && accessGroupMatcher.match(record.getName());

   llvm::Regex aliasScopesMatcher(aliasScopesRegexp);
   bool requiresAliasScopes =
       !aliasScopesRegexp.empty() && aliasScopesMatcher.match(record.getName());

   // Prepare strings for traits, if any.
   llvm::SmallVector<llvm::StringRef, 2> traits;
   if (intr.isCommutative())
     traits.push_back("Commutative");
   if (!intr.hasSideEffects())
     traits.push_back("NoSideEffect");

   // Prepare strings for operands.
   llvm::SmallVector<llvm::StringRef, 8> operands(intr.getNumOperands(),
                                                  "LLVM_Type");
   if (requiresAccessGroup)
     operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$access_groups");
   if (requiresAliasScopes) {
     operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$alias_scopes");
     operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$noalias_scopes");
   }

   // Emit the definition.
   os << "def LLVM_" << intr.getProperRecordName() << " : " << opBaseClass
      << "<\"" << intr.getOperationName() << "\", ";
   printBracketedRange(intr.getOverloadableResultsIdxs().set_bits(), os);
   os << ", ";
   printBracketedRange(intr.getOverloadableOperandsIdxs().set_bits(), os);
   os << ", ";
   printBracketedRange(traits, os);
   os << ", " << intr.getNumResults() << ", "
      << (requiresAccessGroup ? "1" : "0") << ", "
      << (requiresAliasScopes ? "1" : "0") << ">, Arguments<(ins"
      << (operands.empty() ? "" : " ");
   llvm::interleaveComma(operands, os);
   os << ")>;\n\n";

   return false;
 }

 /// Traverses the list of TableGen definitions derived from the "Intrinsic"
 /// class and generates MLIR ODS definitions for those intrinsics that have
 /// the name matching the filter.
 static bool emitIntrinsics(const llvm::RecordKeeper &records,
                            llvm::raw_ostream &os) {
   llvm::emitSourceFileHeader("Operations for LLVM intrinsics", os);
   os << "include \"mlir/Dialect/LLVMIR/LLVMOpBase.td\"\n";
   os << "include \"mlir/Interfaces/SideEffectInterfaces.td\"\n\n";

   auto defs = records.getAllDerivedDefinitions("Intrinsic");
   for (const llvm::Record *r : defs) {
     if (!nameFilter.empty() && !r->getName().contains(nameFilter))
       continue;
     if (emitIntrinsic(*r, os))
       return true;
   }

   return false;
 }

 static mlir::GenRegistration genLLVMIRIntrinsics("gen-llvmir-intrinsics",
                                                  "Generate LLVM IR intrinsics",
                                                  emitIntrinsics);
	//===- LLVMIntrinsicGen.cpp - TableGen utility for converting intrinsics --===//
	//
	// 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 is a TableGen generator that converts TableGen definitions for LLVM
	// intrinsics to TableGen definitions for MLIR operations.
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/TableGen/GenInfo.h"

	#include "llvm/ADT/SmallBitVector.h"
	#include "llvm/Support/CommandLine.h"
	#include "llvm/Support/MachineValueType.h"
	#include "llvm/Support/PrettyStackTrace.h"
	#include "llvm/Support/Regex.h"
	#include "llvm/Support/Signals.h"
	#include "llvm/TableGen/Error.h"
	#include "llvm/TableGen/Main.h"
	#include "llvm/TableGen/Record.h"
	#include "llvm/TableGen/TableGenBackend.h"

	static llvm::cl::OptionCategory IntrinsicGenCat("Intrinsics Generator Options");

	static llvm::cl::opt<std::string>
	nameFilter("llvmir-intrinsics-filter",
	llvm::cl::desc("Only keep the intrinsics with the specified "
	"substring in their record name"),
	llvm::cl::cat(IntrinsicGenCat));

	static llvm::cl::opt<std::string>
	opBaseClass("dialect-opclass-base",
	llvm::cl::desc("The base class for the ops in the dialect we "
	"are planning to emit"),
	llvm::cl::init("LLVM_IntrOp"), llvm::cl::cat(IntrinsicGenCat));

	static llvm::cl::opt<std::string> accessGroupRegexp(
	"llvmir-intrinsics-access-group-regexp",
	llvm::cl::desc("Mark intrinsics that match the specified "
	"regexp as taking an access group metadata"),
	llvm::cl::cat(IntrinsicGenCat));

	static llvm::cl::opt<std::string> aliasScopesRegexp(
	"llvmir-intrinsics-alias-scopes-regexp",
	llvm::cl::desc("Mark intrinsics that match the specified "
	"regexp as taking alias.scopes and noalias metadata"),
	llvm::cl::cat(IntrinsicGenCat));

	// Used to represent the indices of overloadable operands/results.
	using IndicesTy = llvm::SmallBitVector;

	/// Return a CodeGen value type entry from a type record.
	static llvm::MVT::SimpleValueType getValueType(const llvm::Record *rec) {
	return (llvm::MVT::SimpleValueType)rec->getValueAsDef("VT")->getValueAsInt(
	"Value");
	}

	/// Return the indices of the definitions in a list of definitions that
	/// represent overloadable types
	static IndicesTy getOverloadableTypeIdxs(const llvm::Record &record,
	const char *listName) {
	auto results = record.getValueAsListOfDefs(listName);
	IndicesTy overloadedOps(results.size());
	for (auto r : llvm::enumerate(results)) {
	llvm::MVT::SimpleValueType vt = getValueType(r.value());
	switch (vt) {
	case llvm::MVT::iAny:
	case llvm::MVT::fAny:
	case llvm::MVT::Any:
	case llvm::MVT::iPTRAny:
	case llvm::MVT::vAny:
	overloadedOps.set(r.index());
	break;
	default:
	continue;
	}
	}
	return overloadedOps;
	}

	namespace {
	/// A wrapper for LLVM's Tablegen class `Intrinsic` that provides accessors to
	/// the fields of the record.
	class LLVMIntrinsic {
	public:
	LLVMIntrinsic(const llvm::Record &record) : record(record) {}

	/// Get the name of the operation to be used in MLIR. Uses the appropriate
	/// field if not empty, constructs a name by replacing underscores with dots
	/// in the record name otherwise.
	std::string getOperationName() const {
	llvm::StringRef name = record.getValueAsString(fieldName);
	if (!name.empty())
	return name.str();

	name = record.getName();
	assert(name.startswith("int_") &&
	"LLVM intrinsic names are expected to start with 'int_'");
	name = name.drop_front(4);
	llvm::SmallVector<llvm::StringRef, 8> chunks;
	llvm::StringRef targetPrefix = record.getValueAsString("TargetPrefix");
	name.split(chunks, '_');
	auto chunksBegin = chunks.begin();
	// Remove the target prefix from target specific intrinsics.
	if (!targetPrefix.empty()) {
	assert(targetPrefix == *chunksBegin &&
	"Intrinsic has TargetPrefix, but "
	"record name doesn't begin with it");
	assert(chunks.size() >= 2 &&
	"Intrinsic has TargetPrefix, but "
	"chunks has only one element meaning the intrinsic name is empty");
	++chunksBegin;
	}
	return llvm::join(chunksBegin, chunks.end(), ".");
	}

	/// Get the name of the record without the "intrinsic" prefix.
	llvm::StringRef getProperRecordName() const {
	llvm::StringRef name = record.getName();
	assert(name.startswith("int_") &&
	"LLVM intrinsic names are expected to start with 'int_'");
	return name.drop_front(4);
	}

	/// Get the number of operands.
	unsigned getNumOperands() const {
	auto operands = record.getValueAsListOfDefs(fieldOperands);
	assert(llvm::all_of(operands,
	[](const llvm::Record *r) {
	return r->isSubClassOf("LLVMType");
	}) &&
	"expected operands to be of LLVM type");
	return operands.size();
	}

	/// Get the number of results. Note that LLVM does not support multi-value
	/// operations so, in fact, multiple results will be returned as a value of
	/// structure type.
	unsigned getNumResults() const {
	auto results = record.getValueAsListOfDefs(fieldResults);
	for (const llvm::Record *r : results) {
	(void)r;
	assert(r->isSubClassOf("LLVMType") &&
	"expected operands to be of LLVM type");
	}
	return results.size();
	}

	/// Return true if the intrinsic may have side effects, i.e. does not have the
	/// `IntrNoMem` property.
	bool hasSideEffects() const {
	return llvm::none_of(
	record.getValueAsListOfDefs(fieldTraits),
	[](const llvm::Record *r) { return r->getName() == "IntrNoMem"; });
	}

	/// Return true if the intrinsic is commutative, i.e. has the respective
	/// property.
	bool isCommutative() const {
	return llvm::any_of(
	record.getValueAsListOfDefs(fieldTraits),
	[](const llvm::Record *r) { return r->getName() == "Commutative"; });
	}

	IndicesTy getOverloadableOperandsIdxs() const {
	return getOverloadableTypeIdxs(record, fieldOperands);
	}

	IndicesTy getOverloadableResultsIdxs() const {
	return getOverloadableTypeIdxs(record, fieldResults);
	}

	private:
	/// Names of the fields in the Intrinsic LLVM Tablegen class.
	const char *fieldName = "LLVMName";
	const char *fieldOperands = "ParamTypes";
	const char *fieldResults = "RetTypes";
	const char *fieldTraits = "IntrProperties";

	const llvm::Record &record;
	};
	} // namespace

	/// Prints the elements in "range" separated by commas and surrounded by "[]".
	template <typename Range>
	void printBracketedRange(const Range &range, llvm::raw_ostream &os) {
	os << '[';
	llvm::interleaveComma(range, os);
	os << ']';
	}

	/// Emits ODS (TableGen-based) code for `record` representing an LLVM intrinsic.
	/// Returns true on error, false on success.
	static bool emitIntrinsic(const llvm::Record &record, llvm::raw_ostream &os) {
	LLVMIntrinsic intr(record);

	llvm::Regex accessGroupMatcher(accessGroupRegexp);
	bool requiresAccessGroup =
	!accessGroupRegexp.empty() && accessGroupMatcher.match(record.getName());

	llvm::Regex aliasScopesMatcher(aliasScopesRegexp);
	bool requiresAliasScopes =
	!aliasScopesRegexp.empty() && aliasScopesMatcher.match(record.getName());

	// Prepare strings for traits, if any.
	llvm::SmallVector<llvm::StringRef, 2> traits;
	if (intr.isCommutative())
	traits.push_back("Commutative");
	if (!intr.hasSideEffects())
	traits.push_back("NoSideEffect");

	// Prepare strings for operands.
	llvm::SmallVector<llvm::StringRef, 8> operands(intr.getNumOperands(),
	"LLVM_Type");
	if (requiresAccessGroup)
	operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$access_groups");
	if (requiresAliasScopes) {
	operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$alias_scopes");
	operands.push_back("OptionalAttr<SymbolRefArrayAttr>:$noalias_scopes");
	}

	// Emit the definition.
	os << "def LLVM_" << intr.getProperRecordName() << " : " << opBaseClass
	<< "<\"" << intr.getOperationName() << "\", ";
	printBracketedRange(intr.getOverloadableResultsIdxs().set_bits(), os);
	os << ", ";
	printBracketedRange(intr.getOverloadableOperandsIdxs().set_bits(), os);
	os << ", ";
	printBracketedRange(traits, os);
	os << ", " << intr.getNumResults() << ", "
	<< (requiresAccessGroup ? "1" : "0") << ", "
	<< (requiresAliasScopes ? "1" : "0") << ">, Arguments<(ins"
	<< (operands.empty() ? "" : " ");
	llvm::interleaveComma(operands, os);
	os << ")>;\n\n";

	return false;
	}

	/// Traverses the list of TableGen definitions derived from the "Intrinsic"
	/// class and generates MLIR ODS definitions for those intrinsics that have
	/// the name matching the filter.
	static bool emitIntrinsics(const llvm::RecordKeeper &records,
	llvm::raw_ostream &os) {
	llvm::emitSourceFileHeader("Operations for LLVM intrinsics", os);
	os << "include \"mlir/Dialect/LLVMIR/LLVMOpBase.td\"\n";
	os << "include \"mlir/Interfaces/SideEffectInterfaces.td\"\n\n";

	auto defs = records.getAllDerivedDefinitions("Intrinsic");
	for (const llvm::Record *r : defs) {
	if (!nameFilter.empty() && !r->getName().contains(nameFilter))
	continue;
	if (emitIntrinsic(*r, os))
	return true;
	}

	return false;
	}

	static mlir::GenRegistration genLLVMIRIntrinsics("gen-llvmir-intrinsics",
	"Generate LLVM IR intrinsics",
	emitIntrinsics);