mlir/lib/IR/Function.cpp - llvm-project - Git at Google

 //===- Function.cpp - MLIR Function Classes -------------------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/IR/Function.h"
 #include "mlir/IR/BlockAndValueMapping.h"
 #include "mlir/IR/Builders.h"
 #include "mlir/IR/FunctionImplementation.h"
 #include "llvm/ADT/BitVector.h"
 #include "llvm/ADT/MapVector.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/ADT/Twine.h"

 using namespace mlir;

 //===----------------------------------------------------------------------===//
 // Function Operation.
 //===----------------------------------------------------------------------===//

 FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
                       ArrayRef<NamedAttribute> attrs) {
   OperationState state(location, "func");
   OpBuilder builder(location->getContext());
   FuncOp::build(builder, state, name, type, attrs);
   return cast<FuncOp>(Operation::create(state));
 }
 FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
                       iterator_range<dialect_attr_iterator> attrs) {
   SmallVector<NamedAttribute, 8> attrRef(attrs);
   return create(location, name, type, llvm::makeArrayRef(attrRef));
 }
 FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
                       ArrayRef<NamedAttribute> attrs,
                       ArrayRef<MutableDictionaryAttr> argAttrs) {
   FuncOp func = create(location, name, type, attrs);
   func.setAllArgAttrs(argAttrs);
   return func;
 }

 void FuncOp::build(OpBuilder &builder, OperationState &result, StringRef name,
                    FunctionType type, ArrayRef<NamedAttribute> attrs,
                    ArrayRef<MutableDictionaryAttr> argAttrs) {
   result.addAttribute(SymbolTable::getSymbolAttrName(),
                       builder.getStringAttr(name));
   result.addAttribute(getTypeAttrName(), TypeAttr::get(type));
   result.attributes.append(attrs.begin(), attrs.end());
   result.addRegion();

   if (argAttrs.empty())
     return;
   assert(type.getNumInputs() == argAttrs.size());
   SmallString<8> argAttrName;
   for (unsigned i = 0, e = type.getNumInputs(); i != e; ++i)
     if (auto argDict = argAttrs[i].getDictionary(builder.getContext()))
       result.addAttribute(getArgAttrName(i, argAttrName), argDict);
 }

 /// Parsing/Printing methods.

 ParseResult FuncOp::parse(OpAsmParser &parser, OperationState &result) {
   auto buildFuncType = [](Builder &builder, ArrayRef<Type> argTypes,
                           ArrayRef<Type> results, impl::VariadicFlag,
                           std::string &) {
     return builder.getFunctionType(argTypes, results);
   };

   return impl::parseFunctionLikeOp(parser, result, /*allowVariadic=*/false,
                                    buildFuncType);
 }

 void FuncOp::print(OpAsmPrinter &p) {
   FunctionType fnType = getType();
   impl::printFunctionLikeOp(p, *this, fnType.getInputs(), /*isVariadic=*/false,
                             fnType.getResults());
 }

 LogicalResult FuncOp::verify() {
   // If this function is external there is nothing to do.
   if (isExternal())
     return success();

   // Verify that the argument list of the function and the arg list of the entry
   // block line up.  The trait already verified that the number of arguments is
   // the same between the signature and the block.
   auto fnInputTypes = getType().getInputs();
   Block &entryBlock = front();
   for (unsigned i = 0, e = entryBlock.getNumArguments(); i != e; ++i)
     if (fnInputTypes[i] != entryBlock.getArgument(i).getType())
       return emitOpError("type of entry block argument #")
              << i << '(' << entryBlock.getArgument(i).getType()
              << ") must match the type of the corresponding argument in "
              << "function signature(" << fnInputTypes[i] << ')';

   return success();
 }

 void FuncOp::eraseArguments(ArrayRef<unsigned> argIndices) {
   auto oldType = getType();
   int originalNumArgs = oldType.getNumInputs();
   llvm::BitVector eraseIndices(originalNumArgs);
   for (auto index : argIndices)
     eraseIndices.set(index);
   auto shouldEraseArg = [&](int i) { return eraseIndices.test(i); };

   // There are 3 things that need to be updated:
   // - Function type.
   // - Arg attrs.
   // - Block arguments of entry block.

   // Update the function type and arg attrs.
   SmallVector<Type, 4> newInputTypes;
   SmallVector<MutableDictionaryAttr, 4> newArgAttrs;
   for (int i = 0; i < originalNumArgs; i++) {
     if (shouldEraseArg(i))
       continue;
     newInputTypes.emplace_back(oldType.getInput(i));
     newArgAttrs.emplace_back(getArgAttrDict(i));
   }
   setType(FunctionType::get(newInputTypes, oldType.getResults(), getContext()));
   setAllArgAttrs(newArgAttrs);

   // Update the entry block's arguments.
   // We do this in reverse so that we erase later indices before earlier
   // indices, to avoid shifting the later indices.
   Block &entry = front();
   for (int i = 0; i < originalNumArgs; i++)
     if (shouldEraseArg(originalNumArgs - i - 1))
       entry.eraseArgument(originalNumArgs - i - 1);
 }

 /// Clone the internal blocks from this function into dest and all attributes
 /// from this function to dest.
 void FuncOp::cloneInto(FuncOp dest, BlockAndValueMapping &mapper) {
   // Add the attributes of this function to dest.
   llvm::MapVector<Identifier, Attribute> newAttrs;
   for (auto &attr : dest.getAttrs())
     newAttrs.insert(attr);
   for (auto &attr : getAttrs())
     newAttrs.insert(attr);
   dest.getOperation()->setAttrs(
       DictionaryAttr::get(newAttrs.takeVector(), getContext()));

   // Clone the body.
   getBody().cloneInto(&dest.getBody(), mapper);
 }

 /// Create a deep copy of this function and all of its blocks, remapping
 /// any operands that use values outside of the function using the map that is
 /// provided (leaving them alone if no entry is present). Replaces references
 /// to cloned sub-values with the corresponding value that is copied, and adds
 /// those mappings to the mapper.
 FuncOp FuncOp::clone(BlockAndValueMapping &mapper) {
   FunctionType newType = getType();

   // If the function has a body, then the user might be deleting arguments to
   // the function by specifying them in the mapper. If so, we don't add the
   // argument to the input type vector.
   bool isExternalFn = isExternal();
   if (!isExternalFn) {
     SmallVector<Type, 4> inputTypes;
     inputTypes.reserve(newType.getNumInputs());
     for (unsigned i = 0, e = getNumArguments(); i != e; ++i)
       if (!mapper.contains(getArgument(i)))
         inputTypes.push_back(newType.getInput(i));
     newType = FunctionType::get(inputTypes, newType.getResults(), getContext());
   }

   // Create the new function.
   FuncOp newFunc = cast<FuncOp>(getOperation()->cloneWithoutRegions());
   newFunc.setType(newType);

   /// Set the argument attributes for arguments that aren't being replaced.
   for (unsigned i = 0, e = getNumArguments(), destI = 0; i != e; ++i)
     if (isExternalFn || !mapper.contains(getArgument(i)))
       newFunc.setArgAttrs(destI++, getArgAttrs(i));

   /// Clone the current function into the new one and return it.
   cloneInto(newFunc, mapper);
   return newFunc;
 }
 FuncOp FuncOp::clone() {
   BlockAndValueMapping mapper;
   return clone(mapper);
 }
	//===- Function.cpp - MLIR Function Classes -------------------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/IR/Function.h"
	#include "mlir/IR/BlockAndValueMapping.h"
	#include "mlir/IR/Builders.h"
	#include "mlir/IR/FunctionImplementation.h"
	#include "llvm/ADT/BitVector.h"
	#include "llvm/ADT/MapVector.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/ADT/Twine.h"

	using namespace mlir;

	//===----------------------------------------------------------------------===//
	// Function Operation.
	//===----------------------------------------------------------------------===//

	FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
	ArrayRef<NamedAttribute> attrs) {
	OperationState state(location, "func");
	OpBuilder builder(location->getContext());
	FuncOp::build(builder, state, name, type, attrs);
	return cast<FuncOp>(Operation::create(state));
	}
	FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
	iterator_range<dialect_attr_iterator> attrs) {
	SmallVector<NamedAttribute, 8> attrRef(attrs);
	return create(location, name, type, llvm::makeArrayRef(attrRef));
	}
	FuncOp FuncOp::create(Location location, StringRef name, FunctionType type,
	ArrayRef<NamedAttribute> attrs,
	ArrayRef<MutableDictionaryAttr> argAttrs) {
	FuncOp func = create(location, name, type, attrs);
	func.setAllArgAttrs(argAttrs);
	return func;
	}

	void FuncOp::build(OpBuilder &builder, OperationState &result, StringRef name,
	FunctionType type, ArrayRef<NamedAttribute> attrs,
	ArrayRef<MutableDictionaryAttr> argAttrs) {
	result.addAttribute(SymbolTable::getSymbolAttrName(),
	builder.getStringAttr(name));
	result.addAttribute(getTypeAttrName(), TypeAttr::get(type));
	result.attributes.append(attrs.begin(), attrs.end());
	result.addRegion();

	if (argAttrs.empty())
	return;
	assert(type.getNumInputs() == argAttrs.size());
	SmallString<8> argAttrName;
	for (unsigned i = 0, e = type.getNumInputs(); i != e; ++i)
	if (auto argDict = argAttrs[i].getDictionary(builder.getContext()))
	result.addAttribute(getArgAttrName(i, argAttrName), argDict);
	}

	/// Parsing/Printing methods.

	ParseResult FuncOp::parse(OpAsmParser &parser, OperationState &result) {
	auto buildFuncType = [](Builder &builder, ArrayRef<Type> argTypes,
	ArrayRef<Type> results, impl::VariadicFlag,
	std::string &) {
	return builder.getFunctionType(argTypes, results);
	};

	return impl::parseFunctionLikeOp(parser, result, /allowVariadic=/false,
	buildFuncType);
	}

	void FuncOp::print(OpAsmPrinter &p) {
	FunctionType fnType = getType();
	impl::printFunctionLikeOp(p, this, fnType.getInputs(), /isVariadic=*/false,
	fnType.getResults());
	}

	LogicalResult FuncOp::verify() {
	// If this function is external there is nothing to do.
	if (isExternal())
	return success();

	// Verify that the argument list of the function and the arg list of the entry
	// block line up. The trait already verified that the number of arguments is
	// the same between the signature and the block.
	auto fnInputTypes = getType().getInputs();
	Block &entryBlock = front();
	for (unsigned i = 0, e = entryBlock.getNumArguments(); i != e; ++i)
	if (fnInputTypes[i] != entryBlock.getArgument(i).getType())
	return emitOpError("type of entry block argument #")
	<< i << '(' << entryBlock.getArgument(i).getType()
	<< ") must match the type of the corresponding argument in "
	<< "function signature(" << fnInputTypes[i] << ')';

	return success();
	}

	void FuncOp::eraseArguments(ArrayRef<unsigned> argIndices) {
	auto oldType = getType();
	int originalNumArgs = oldType.getNumInputs();
	llvm::BitVector eraseIndices(originalNumArgs);
	for (auto index : argIndices)
	eraseIndices.set(index);
	auto shouldEraseArg = [&](int i) { return eraseIndices.test(i); };

	// There are 3 things that need to be updated:
	// - Function type.
	// - Arg attrs.
	// - Block arguments of entry block.

	// Update the function type and arg attrs.
	SmallVector<Type, 4> newInputTypes;
	SmallVector<MutableDictionaryAttr, 4> newArgAttrs;
	for (int i = 0; i < originalNumArgs; i++) {
	if (shouldEraseArg(i))
	continue;
	newInputTypes.emplace_back(oldType.getInput(i));
	newArgAttrs.emplace_back(getArgAttrDict(i));
	}
	setType(FunctionType::get(newInputTypes, oldType.getResults(), getContext()));
	setAllArgAttrs(newArgAttrs);

	// Update the entry block's arguments.
	// We do this in reverse so that we erase later indices before earlier
	// indices, to avoid shifting the later indices.
	Block &entry = front();
	for (int i = 0; i < originalNumArgs; i++)
	if (shouldEraseArg(originalNumArgs - i - 1))
	entry.eraseArgument(originalNumArgs - i - 1);
	}

	/// Clone the internal blocks from this function into dest and all attributes
	/// from this function to dest.
	void FuncOp::cloneInto(FuncOp dest, BlockAndValueMapping &mapper) {
	// Add the attributes of this function to dest.
	llvm::MapVector<Identifier, Attribute> newAttrs;
	for (auto &attr : dest.getAttrs())
	newAttrs.insert(attr);
	for (auto &attr : getAttrs())
	newAttrs.insert(attr);
	dest.getOperation()->setAttrs(
	DictionaryAttr::get(newAttrs.takeVector(), getContext()));

	// Clone the body.
	getBody().cloneInto(&dest.getBody(), mapper);
	}

	/// Create a deep copy of this function and all of its blocks, remapping
	/// any operands that use values outside of the function using the map that is
	/// provided (leaving them alone if no entry is present). Replaces references
	/// to cloned sub-values with the corresponding value that is copied, and adds
	/// those mappings to the mapper.
	FuncOp FuncOp::clone(BlockAndValueMapping &mapper) {
	FunctionType newType = getType();

	// If the function has a body, then the user might be deleting arguments to
	// the function by specifying them in the mapper. If so, we don't add the
	// argument to the input type vector.
	bool isExternalFn = isExternal();
	if (!isExternalFn) {
	SmallVector<Type, 4> inputTypes;
	inputTypes.reserve(newType.getNumInputs());
	for (unsigned i = 0, e = getNumArguments(); i != e; ++i)
	if (!mapper.contains(getArgument(i)))
	inputTypes.push_back(newType.getInput(i));
	newType = FunctionType::get(inputTypes, newType.getResults(), getContext());
	}

	// Create the new function.
	FuncOp newFunc = cast<FuncOp>(getOperation()->cloneWithoutRegions());
	newFunc.setType(newType);

	/// Set the argument attributes for arguments that aren't being replaced.
	for (unsigned i = 0, e = getNumArguments(), destI = 0; i != e; ++i)
	if (isExternalFn \|\| !mapper.contains(getArgument(i)))
	newFunc.setArgAttrs(destI++, getArgAttrs(i));

	/// Clone the current function into the new one and return it.
	cloneInto(newFunc, mapper);
	return newFunc;
	}
	FuncOp FuncOp::clone() {
	BlockAndValueMapping mapper;
	return clone(mapper);
	}