mlir/lib/Dialect/SPIRV/Utils/LayoutUtils.cpp - llvm-project - Git at Google

 //===-- LayoutUtils.cpp - Decorate composite type with layout information -===//
 //
 // 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 file implements Utilities used to get alignment and layout information
 // for types in SPIR-V dialect.
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/Dialect/SPIRV/Utils/LayoutUtils.h"
 #include "mlir/Dialect/SPIRV/IR/SPIRVOps.h"
 #include "mlir/Dialect/SPIRV/IR/SPIRVTypes.h"

 using namespace mlir;

 spirv::StructType
 VulkanLayoutUtils::decorateType(spirv::StructType structType) {
   Size size = 0;
   Size alignment = 1;
   return decorateType(structType, size, alignment);
 }

 spirv::StructType
 VulkanLayoutUtils::decorateType(spirv::StructType structType,
                                 VulkanLayoutUtils::Size &size,
                                 VulkanLayoutUtils::Size &alignment) {
   if (structType.getNumElements() == 0) {
     return structType;
   }

   SmallVector<Type, 4> memberTypes;
   SmallVector<spirv::StructType::OffsetInfo, 4> offsetInfo;
   SmallVector<spirv::StructType::MemberDecorationInfo, 4> memberDecorations;

   Size structMemberOffset = 0;
   Size maxMemberAlignment = 1;

   for (uint32_t i = 0, e = structType.getNumElements(); i < e; ++i) {
     Size memberSize = 0;
     Size memberAlignment = 1;

     auto memberType =
         decorateType(structType.getElementType(i), memberSize, memberAlignment);
     structMemberOffset = llvm::alignTo(structMemberOffset, memberAlignment);
     memberTypes.push_back(memberType);
     offsetInfo.push_back(
         static_cast<spirv::StructType::OffsetInfo>(structMemberOffset));
     // If the member's size is the max value, it must be the last member and it
     // must be a runtime array.
     assert(memberSize != std::numeric_limits<Size>().max() ||
            (i + 1 == e &&
             structType.getElementType(i).isa<spirv::RuntimeArrayType>()));
     // According to the Vulkan spec:
     // "A structure has a base alignment equal to the largest base alignment of
     // any of its members."
     structMemberOffset += memberSize;
     maxMemberAlignment = std::max(maxMemberAlignment, memberAlignment);
   }

   // According to the Vulkan spec:
   // "The Offset decoration of a member must not place it between the end of a
   // structure or an array and the next multiple of the alignment of that
   // structure or array."
   size = llvm::alignTo(structMemberOffset, maxMemberAlignment);
   alignment = maxMemberAlignment;
   structType.getMemberDecorations(memberDecorations);

   if (!structType.isIdentified())
     return spirv::StructType::get(memberTypes, offsetInfo, memberDecorations);

   // Identified structs are uniqued by identifier so it is not possible
   // to create 2 structs with the same name but different decorations.
   return nullptr;
 }

 Type VulkanLayoutUtils::decorateType(Type type, VulkanLayoutUtils::Size &size,
                                      VulkanLayoutUtils::Size &alignment) {
   if (type.isa<spirv::ScalarType>()) {
     alignment = getScalarTypeAlignment(type);
     // Vulkan spec does not specify any padding for a scalar type.
     size = alignment;
     return type;
   }
   if (auto structType = type.dyn_cast<spirv::StructType>())
     return decorateType(structType, size, alignment);
   if (auto arrayType = type.dyn_cast<spirv::ArrayType>())
     return decorateType(arrayType, size, alignment);
   if (auto vectorType = type.dyn_cast<VectorType>())
     return decorateType(vectorType, size, alignment);
   if (auto arrayType = type.dyn_cast<spirv::RuntimeArrayType>()) {
     size = std::numeric_limits<Size>().max();
     return decorateType(arrayType, alignment);
   }
   llvm_unreachable("unhandled SPIR-V type");
 }

 Type VulkanLayoutUtils::decorateType(VectorType vectorType,
                                      VulkanLayoutUtils::Size &size,
                                      VulkanLayoutUtils::Size &alignment) {
   const auto numElements = vectorType.getNumElements();
   auto elementType = vectorType.getElementType();
   Size elementSize = 0;
   Size elementAlignment = 1;

   auto memberType = decorateType(elementType, elementSize, elementAlignment);
   // According to the Vulkan spec:
   // 1. "A two-component vector has a base alignment equal to twice its scalar
   // alignment."
   // 2. "A three- or four-component vector has a base alignment equal to four
   // times its scalar alignment."
   size = elementSize * numElements;
   alignment = numElements == 2 ? elementAlignment * 2 : elementAlignment * 4;
   return VectorType::get(numElements, memberType);
 }

 Type VulkanLayoutUtils::decorateType(spirv::ArrayType arrayType,
                                      VulkanLayoutUtils::Size &size,
                                      VulkanLayoutUtils::Size &alignment) {
   const auto numElements = arrayType.getNumElements();
   auto elementType = arrayType.getElementType();
   Size elementSize = 0;
   Size elementAlignment = 1;

   auto memberType = decorateType(elementType, elementSize, elementAlignment);
   // According to the Vulkan spec:
   // "An array has a base alignment equal to the base alignment of its element
   // type."
   size = elementSize * numElements;
   alignment = elementAlignment;
   return spirv::ArrayType::get(memberType, numElements, elementSize);
 }

 Type VulkanLayoutUtils::decorateType(spirv::RuntimeArrayType arrayType,
                                      VulkanLayoutUtils::Size &alignment) {
   auto elementType = arrayType.getElementType();
   Size elementSize = 0;

   auto memberType = decorateType(elementType, elementSize, alignment);
   return spirv::RuntimeArrayType::get(memberType, elementSize);
 }

 VulkanLayoutUtils::Size
 VulkanLayoutUtils::getScalarTypeAlignment(Type scalarType) {
   // According to the Vulkan spec:
   // 1. "A scalar of size N has a scalar alignment of N."
   // 2. "A scalar has a base alignment equal to its scalar alignment."
   // 3. "A scalar, vector or matrix type has an extended alignment equal to its
   // base alignment."
   auto bitWidth = scalarType.getIntOrFloatBitWidth();
   if (bitWidth == 1)
     return 1;
   return bitWidth / 8;
 }

 bool VulkanLayoutUtils::isLegalType(Type type) {
   auto ptrType = type.dyn_cast<spirv::PointerType>();
   if (!ptrType) {
     return true;
   }

   auto storageClass = ptrType.getStorageClass();
   auto structType = ptrType.getPointeeType().dyn_cast<spirv::StructType>();
   if (!structType) {
     return true;
   }

   switch (storageClass) {
   case spirv::StorageClass::Uniform:
   case spirv::StorageClass::StorageBuffer:
   case spirv::StorageClass::PushConstant:
   case spirv::StorageClass::PhysicalStorageBuffer:
     return structType.hasOffset() || !structType.getNumElements();
   default:
     return true;
   }
 }
	//===-- LayoutUtils.cpp - Decorate composite type with layout information -===//
	//
	// 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 file implements Utilities used to get alignment and layout information
	// for types in SPIR-V dialect.
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/Dialect/SPIRV/Utils/LayoutUtils.h"
	#include "mlir/Dialect/SPIRV/IR/SPIRVOps.h"
	#include "mlir/Dialect/SPIRV/IR/SPIRVTypes.h"

	using namespace mlir;

	spirv::StructType
	VulkanLayoutUtils::decorateType(spirv::StructType structType) {
	Size size = 0;
	Size alignment = 1;
	return decorateType(structType, size, alignment);
	}

	spirv::StructType
	VulkanLayoutUtils::decorateType(spirv::StructType structType,
	VulkanLayoutUtils::Size &size,
	VulkanLayoutUtils::Size &alignment) {
	if (structType.getNumElements() == 0) {
	return structType;
	}

	SmallVector<Type, 4> memberTypes;
	SmallVector<spirv::StructType::OffsetInfo, 4> offsetInfo;
	SmallVector<spirv::StructType::MemberDecorationInfo, 4> memberDecorations;

	Size structMemberOffset = 0;
	Size maxMemberAlignment = 1;

	for (uint32_t i = 0, e = structType.getNumElements(); i < e; ++i) {
	Size memberSize = 0;
	Size memberAlignment = 1;

	auto memberType =
	decorateType(structType.getElementType(i), memberSize, memberAlignment);
	structMemberOffset = llvm::alignTo(structMemberOffset, memberAlignment);
	memberTypes.push_back(memberType);
	offsetInfo.push_back(
	static_cast<spirv::StructType::OffsetInfo>(structMemberOffset));
	// If the member's size is the max value, it must be the last member and it
	// must be a runtime array.
	assert(memberSize != std::numeric_limits<Size>().max() \|\|
	(i + 1 == e &&
	structType.getElementType(i).isa<spirv::RuntimeArrayType>()));
	// According to the Vulkan spec:
	// "A structure has a base alignment equal to the largest base alignment of
	// any of its members."
	structMemberOffset += memberSize;
	maxMemberAlignment = std::max(maxMemberAlignment, memberAlignment);
	}

	// According to the Vulkan spec:
	// "The Offset decoration of a member must not place it between the end of a
	// structure or an array and the next multiple of the alignment of that
	// structure or array."
	size = llvm::alignTo(structMemberOffset, maxMemberAlignment);
	alignment = maxMemberAlignment;
	structType.getMemberDecorations(memberDecorations);

	if (!structType.isIdentified())
	return spirv::StructType::get(memberTypes, offsetInfo, memberDecorations);

	// Identified structs are uniqued by identifier so it is not possible
	// to create 2 structs with the same name but different decorations.
	return nullptr;
	}

	Type VulkanLayoutUtils::decorateType(Type type, VulkanLayoutUtils::Size &size,
	VulkanLayoutUtils::Size &alignment) {
	if (type.isa<spirv::ScalarType>()) {
	alignment = getScalarTypeAlignment(type);
	// Vulkan spec does not specify any padding for a scalar type.
	size = alignment;
	return type;
	}
	if (auto structType = type.dyn_cast<spirv::StructType>())
	return decorateType(structType, size, alignment);
	if (auto arrayType = type.dyn_cast<spirv::ArrayType>())
	return decorateType(arrayType, size, alignment);
	if (auto vectorType = type.dyn_cast<VectorType>())
	return decorateType(vectorType, size, alignment);
	if (auto arrayType = type.dyn_cast<spirv::RuntimeArrayType>()) {
	size = std::numeric_limits<Size>().max();
	return decorateType(arrayType, alignment);
	}
	llvm_unreachable("unhandled SPIR-V type");
	}

	Type VulkanLayoutUtils::decorateType(VectorType vectorType,
	VulkanLayoutUtils::Size &size,
	VulkanLayoutUtils::Size &alignment) {
	const auto numElements = vectorType.getNumElements();
	auto elementType = vectorType.getElementType();
	Size elementSize = 0;
	Size elementAlignment = 1;

	auto memberType = decorateType(elementType, elementSize, elementAlignment);
	// According to the Vulkan spec:
	// 1. "A two-component vector has a base alignment equal to twice its scalar
	// alignment."
	// 2. "A three- or four-component vector has a base alignment equal to four
	// times its scalar alignment."
	size = elementSize * numElements;
	alignment = numElements == 2 ? elementAlignment * 2 : elementAlignment * 4;
	return VectorType::get(numElements, memberType);
	}

	Type VulkanLayoutUtils::decorateType(spirv::ArrayType arrayType,
	VulkanLayoutUtils::Size &size,
	VulkanLayoutUtils::Size &alignment) {
	const auto numElements = arrayType.getNumElements();
	auto elementType = arrayType.getElementType();
	Size elementSize = 0;
	Size elementAlignment = 1;

	auto memberType = decorateType(elementType, elementSize, elementAlignment);
	// According to the Vulkan spec:
	// "An array has a base alignment equal to the base alignment of its element
	// type."
	size = elementSize * numElements;
	alignment = elementAlignment;
	return spirv::ArrayType::get(memberType, numElements, elementSize);
	}

	Type VulkanLayoutUtils::decorateType(spirv::RuntimeArrayType arrayType,
	VulkanLayoutUtils::Size &alignment) {
	auto elementType = arrayType.getElementType();
	Size elementSize = 0;

	auto memberType = decorateType(elementType, elementSize, alignment);
	return spirv::RuntimeArrayType::get(memberType, elementSize);
	}

	VulkanLayoutUtils::Size
	VulkanLayoutUtils::getScalarTypeAlignment(Type scalarType) {
	// According to the Vulkan spec:
	// 1. "A scalar of size N has a scalar alignment of N."
	// 2. "A scalar has a base alignment equal to its scalar alignment."
	// 3. "A scalar, vector or matrix type has an extended alignment equal to its
	// base alignment."
	auto bitWidth = scalarType.getIntOrFloatBitWidth();
	if (bitWidth == 1)
	return 1;
	return bitWidth / 8;
	}

	bool VulkanLayoutUtils::isLegalType(Type type) {
	auto ptrType = type.dyn_cast<spirv::PointerType>();
	if (!ptrType) {
	return true;
	}

	auto storageClass = ptrType.getStorageClass();
	auto structType = ptrType.getPointeeType().dyn_cast<spirv::StructType>();
	if (!structType) {
	return true;
	}

	switch (storageClass) {
	case spirv::StorageClass::Uniform:
	case spirv::StorageClass::StorageBuffer:
	case spirv::StorageClass::PushConstant:
	case spirv::StorageClass::PhysicalStorageBuffer:
	return structType.hasOffset() \|\| !structType.getNumElements();
	default:
	return true;
	}
	}