SPIRV-Tools/source/opt/convert_to_sampled_image_pass.cpp

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// Copyright (c) 2021 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "source/opt/convert_to_sampled_image_pass.h"
#include <cctype>
#include <cstring>
#include "source/opt/ir_builder.h"
#include "source/util/make_unique.h"
#include "source/util/parse_number.h"
namespace spvtools {
namespace opt {
using VectorOfDescriptorSetAndBindingPairs =
std::vector<DescriptorSetAndBinding>;
using DescriptorSetBindingToInstruction =
ConvertToSampledImagePass::DescriptorSetBindingToInstruction;
namespace {
using utils::ParseNumber;
// Returns true if the given char is ':', '\0' or considered as blank space
// (i.e.: '\n', '\r', '\v', '\t', '\f' and ' ').
bool IsSeparator(char ch) {
return std::strchr(":\0", ch) || std::isspace(ch) != 0;
}
// Reads characters starting from |str| until it meets a separator. Parses a
// number from the characters and stores it into |number|. Returns the pointer
// to the separator if it succeeds. Otherwise, returns nullptr.
const char* ParseNumberUntilSeparator(const char* str, uint32_t* number) {
const char* number_begin = str;
while (!IsSeparator(*str)) str++;
const char* number_end = str;
std::string number_in_str(number_begin, number_end - number_begin);
if (!utils::ParseNumber(number_in_str.c_str(), number)) {
// The descriptor set is not a valid uint32 number.
return nullptr;
}
return str;
}
// Returns id of the image type used for the sampled image type of
// |sampled_image|.
uint32_t GetImageTypeOfSampledImage(analysis::TypeManager* type_mgr,
Instruction* sampled_image) {
auto* sampled_image_type =
type_mgr->GetType(sampled_image->type_id())->AsSampledImage();
return type_mgr->GetTypeInstruction(sampled_image_type->image_type());
}
// Finds the instruction whose id is |inst_id|. Follows the operand of
// OpCopyObject recursively if the opcode of the instruction is OpCopyObject
// and returns the first instruction that does not have OpCopyObject as opcode.
Instruction* GetNonCopyObjectDef(analysis::DefUseManager* def_use_mgr,
uint32_t inst_id) {
Instruction* inst = def_use_mgr->GetDef(inst_id);
while (inst->opcode() == spv::Op::OpCopyObject) {
inst_id = inst->GetSingleWordInOperand(0u);
inst = def_use_mgr->GetDef(inst_id);
}
return inst;
}
} // namespace
bool ConvertToSampledImagePass::GetDescriptorSetBinding(
const Instruction& inst,
DescriptorSetAndBinding* descriptor_set_binding) const {
auto* decoration_manager = context()->get_decoration_mgr();
bool found_descriptor_set_to_convert = false;
bool found_binding_to_convert = false;
for (auto decorate :
decoration_manager->GetDecorationsFor(inst.result_id(), false)) {
spv::Decoration decoration =
spv::Decoration(decorate->GetSingleWordInOperand(1u));
if (decoration == spv::Decoration::DescriptorSet) {
if (found_descriptor_set_to_convert) {
assert(false && "A resource has two OpDecorate for the descriptor set");
return false;
}
descriptor_set_binding->descriptor_set =
decorate->GetSingleWordInOperand(2u);
found_descriptor_set_to_convert = true;
} else if (decoration == spv::Decoration::Binding) {
if (found_binding_to_convert) {
assert(false && "A resource has two OpDecorate for the binding");
return false;
}
descriptor_set_binding->binding = decorate->GetSingleWordInOperand(2u);
found_binding_to_convert = true;
}
}
return found_descriptor_set_to_convert && found_binding_to_convert;
}
bool ConvertToSampledImagePass::ShouldResourceBeConverted(
const DescriptorSetAndBinding& descriptor_set_binding) const {
return descriptor_set_binding_pairs_.find(descriptor_set_binding) !=
descriptor_set_binding_pairs_.end();
}
const analysis::Type* ConvertToSampledImagePass::GetVariableType(
const Instruction& variable) const {
if (variable.opcode() != spv::Op::OpVariable) return nullptr;
auto* type = context()->get_type_mgr()->GetType(variable.type_id());
auto* pointer_type = type->AsPointer();
if (!pointer_type) return nullptr;
return pointer_type->pointee_type();
}
spv::StorageClass ConvertToSampledImagePass::GetStorageClass(
const Instruction& variable) const {
assert(variable.opcode() == spv::Op::OpVariable);
auto* type = context()->get_type_mgr()->GetType(variable.type_id());
auto* pointer_type = type->AsPointer();
if (!pointer_type) return spv::StorageClass::Max;
return pointer_type->storage_class();
}
bool ConvertToSampledImagePass::CollectResourcesToConvert(
DescriptorSetBindingToInstruction* descriptor_set_binding_pair_to_sampler,
DescriptorSetBindingToInstruction* descriptor_set_binding_pair_to_image)
const {
for (auto& inst : context()->types_values()) {
const auto* variable_type = GetVariableType(inst);
if (variable_type == nullptr) continue;
DescriptorSetAndBinding descriptor_set_binding;
if (!GetDescriptorSetBinding(inst, &descriptor_set_binding)) continue;
if (!ShouldResourceBeConverted(descriptor_set_binding)) {
continue;
}
if (variable_type->AsImage()) {
if (!descriptor_set_binding_pair_to_image
->insert({descriptor_set_binding, &inst})
.second) {
return false;
}
} else if (variable_type->AsSampler()) {
if (!descriptor_set_binding_pair_to_sampler
->insert({descriptor_set_binding, &inst})
.second) {
return false;
}
}
}
return true;
}
Pass::Status ConvertToSampledImagePass::Process() {
Status status = Status::SuccessWithoutChange;
DescriptorSetBindingToInstruction descriptor_set_binding_pair_to_sampler,
descriptor_set_binding_pair_to_image;
if (!CollectResourcesToConvert(&descriptor_set_binding_pair_to_sampler,
&descriptor_set_binding_pair_to_image)) {
return Status::Failure;
}
for (auto& image : descriptor_set_binding_pair_to_image) {
status = CombineStatus(
status, UpdateImageVariableToSampledImage(image.second, image.first));
if (status == Status::Failure) {
return status;
}
}
for (const auto& sampler : descriptor_set_binding_pair_to_sampler) {
// Converting only a Sampler to Sampled Image is not allowed. It must have a
// corresponding image to combine the sampler with.
auto image_itr = descriptor_set_binding_pair_to_image.find(sampler.first);
if (image_itr == descriptor_set_binding_pair_to_image.end() ||
image_itr->second == nullptr) {
return Status::Failure;
}
status = CombineStatus(
status, CheckUsesOfSamplerVariable(sampler.second, image_itr->second));
if (status == Status::Failure) {
return status;
}
}
return status;
}
void ConvertToSampledImagePass::FindUses(const Instruction* inst,
std::vector<Instruction*>* uses,
spv::Op user_opcode) const {
auto* def_use_mgr = context()->get_def_use_mgr();
def_use_mgr->ForEachUser(inst, [uses, user_opcode, this](Instruction* user) {
if (user->opcode() == user_opcode) {
uses->push_back(user);
} else if (user->opcode() == spv::Op::OpCopyObject) {
FindUses(user, uses, user_opcode);
}
});
}
void ConvertToSampledImagePass::FindUsesOfImage(
const Instruction* image, std::vector<Instruction*>* uses) const {
auto* def_use_mgr = context()->get_def_use_mgr();
def_use_mgr->ForEachUser(image, [uses, this](Instruction* user) {
switch (user->opcode()) {
case spv::Op::OpImageFetch:
case spv::Op::OpImageRead:
case spv::Op::OpImageWrite:
case spv::Op::OpImageQueryFormat:
case spv::Op::OpImageQueryOrder:
case spv::Op::OpImageQuerySizeLod:
case spv::Op::OpImageQuerySize:
case spv::Op::OpImageQueryLevels:
case spv::Op::OpImageQuerySamples:
case spv::Op::OpImageSparseFetch:
uses->push_back(user);
default:
break;
}
if (user->opcode() == spv::Op::OpCopyObject) {
FindUsesOfImage(user, uses);
}
});
}
Instruction* ConvertToSampledImagePass::CreateImageExtraction(
Instruction* sampled_image) {
InstructionBuilder builder(
context(), sampled_image->NextNode(),
IRContext::kAnalysisDefUse | IRContext::kAnalysisInstrToBlockMapping);
return builder.AddUnaryOp(
GetImageTypeOfSampledImage(context()->get_type_mgr(), sampled_image),
spv::Op::OpImage, sampled_image->result_id());
}
uint32_t ConvertToSampledImagePass::GetSampledImageTypeForImage(
Instruction* image_variable) {
const auto* variable_type = GetVariableType(*image_variable);
if (variable_type == nullptr) return 0;
const auto* image_type = variable_type->AsImage();
if (image_type == nullptr) return 0;
analysis::Image image_type_for_sampled_image(*image_type);
analysis::SampledImage sampled_image_type(&image_type_for_sampled_image);
return context()->get_type_mgr()->GetTypeInstruction(&sampled_image_type);
}
Instruction* ConvertToSampledImagePass::UpdateImageUses(
Instruction* sampled_image_load) {
std::vector<Instruction*> uses_of_load;
FindUsesOfImage(sampled_image_load, &uses_of_load);
if (uses_of_load.empty()) return nullptr;
auto* extracted_image = CreateImageExtraction(sampled_image_load);
for (auto* user : uses_of_load) {
user->SetInOperand(0, {extracted_image->result_id()});
context()->get_def_use_mgr()->AnalyzeInstUse(user);
}
return extracted_image;
}
bool ConvertToSampledImagePass::
IsSamplerOfSampledImageDecoratedByDescriptorSetBinding(
Instruction* sampled_image_inst,
const DescriptorSetAndBinding& descriptor_set_binding) {
auto* def_use_mgr = context()->get_def_use_mgr();
uint32_t sampler_id = sampled_image_inst->GetSingleWordInOperand(1u);
auto* sampler_load = def_use_mgr->GetDef(sampler_id);
if (sampler_load->opcode() != spv::Op::OpLoad) return false;
auto* sampler = def_use_mgr->GetDef(sampler_load->GetSingleWordInOperand(0u));
DescriptorSetAndBinding sampler_descriptor_set_binding;
return GetDescriptorSetBinding(*sampler, &sampler_descriptor_set_binding) &&
sampler_descriptor_set_binding == descriptor_set_binding;
}
void ConvertToSampledImagePass::UpdateSampledImageUses(
Instruction* image_load, Instruction* image_extraction,
const DescriptorSetAndBinding& image_descriptor_set_binding) {
std::vector<Instruction*> sampled_image_users;
FindUses(image_load, &sampled_image_users, spv::Op::OpSampledImage);
auto* def_use_mgr = context()->get_def_use_mgr();
for (auto* sampled_image_inst : sampled_image_users) {
if (IsSamplerOfSampledImageDecoratedByDescriptorSetBinding(
sampled_image_inst, image_descriptor_set_binding)) {
context()->ReplaceAllUsesWith(sampled_image_inst->result_id(),
image_load->result_id());
def_use_mgr->AnalyzeInstUse(image_load);
context()->KillInst(sampled_image_inst);
} else {
if (!image_extraction)
image_extraction = CreateImageExtraction(image_load);
sampled_image_inst->SetInOperand(0, {image_extraction->result_id()});
def_use_mgr->AnalyzeInstUse(sampled_image_inst);
}
}
}
void ConvertToSampledImagePass::MoveInstructionNextToType(Instruction* inst,
uint32_t type_id) {
auto* type_inst = context()->get_def_use_mgr()->GetDef(type_id);
inst->SetResultType(type_id);
inst->RemoveFromList();
inst->InsertAfter(type_inst);
}
bool ConvertToSampledImagePass::ConvertImageVariableToSampledImage(
Instruction* image_variable, uint32_t sampled_image_type_id) {
auto* sampled_image_type =
context()->get_type_mgr()->GetType(sampled_image_type_id);
if (sampled_image_type == nullptr) return false;
auto storage_class = GetStorageClass(*image_variable);
if (storage_class == spv::StorageClass::Max) return false;
// Make sure |image_variable| is behind its type i.e., avoid the forward
// reference.
uint32_t type_id = context()->get_type_mgr()->FindPointerToType(
sampled_image_type_id, storage_class);
MoveInstructionNextToType(image_variable, type_id);
return true;
}
Pass::Status ConvertToSampledImagePass::UpdateImageVariableToSampledImage(
Instruction* image_variable,
const DescriptorSetAndBinding& descriptor_set_binding) {
std::vector<Instruction*> image_variable_loads;
FindUses(image_variable, &image_variable_loads, spv::Op::OpLoad);
if (image_variable_loads.empty()) return Status::SuccessWithoutChange;
const uint32_t sampled_image_type_id =
GetSampledImageTypeForImage(image_variable);
if (!sampled_image_type_id) return Status::Failure;
for (auto* load : image_variable_loads) {
load->SetResultType(sampled_image_type_id);
auto* image_extraction = UpdateImageUses(load);
UpdateSampledImageUses(load, image_extraction, descriptor_set_binding);
}
return ConvertImageVariableToSampledImage(image_variable,
sampled_image_type_id)
? Status::SuccessWithChange
: Status::Failure;
}
bool ConvertToSampledImagePass::DoesSampledImageReferenceImage(
Instruction* sampled_image_inst, Instruction* image_variable) {
if (sampled_image_inst->opcode() != spv::Op::OpSampledImage) return false;
auto* def_use_mgr = context()->get_def_use_mgr();
auto* image_load = GetNonCopyObjectDef(
def_use_mgr, sampled_image_inst->GetSingleWordInOperand(0u));
if (image_load->opcode() != spv::Op::OpLoad) return false;
auto* image =
GetNonCopyObjectDef(def_use_mgr, image_load->GetSingleWordInOperand(0u));
return image->opcode() == spv::Op::OpVariable &&
image->result_id() == image_variable->result_id();
}
Pass::Status ConvertToSampledImagePass::CheckUsesOfSamplerVariable(
const Instruction* sampler_variable,
Instruction* image_to_be_combined_with) {
if (image_to_be_combined_with == nullptr) return Status::Failure;
std::vector<Instruction*> sampler_variable_loads;
FindUses(sampler_variable, &sampler_variable_loads, spv::Op::OpLoad);
for (auto* load : sampler_variable_loads) {
std::vector<Instruction*> sampled_image_users;
FindUses(load, &sampled_image_users, spv::Op::OpSampledImage);
for (auto* sampled_image_inst : sampled_image_users) {
if (!DoesSampledImageReferenceImage(sampled_image_inst,
image_to_be_combined_with)) {
return Status::Failure;
}
}
}
return Status::SuccessWithoutChange;
}
std::unique_ptr<VectorOfDescriptorSetAndBindingPairs>
ConvertToSampledImagePass::ParseDescriptorSetBindingPairsString(
const char* str) {
if (!str) return nullptr;
auto descriptor_set_binding_pairs =
MakeUnique<VectorOfDescriptorSetAndBindingPairs>();
while (std::isspace(*str)) str++; // skip leading spaces.
// The parsing loop, break when points to the end.
while (*str) {
// Parse the descriptor set.
uint32_t descriptor_set = 0;
str = ParseNumberUntilSeparator(str, &descriptor_set);
if (str == nullptr) return nullptr;
// Find the ':', spaces between the descriptor set and the ':' are not
// allowed.
if (*str++ != ':') {
// ':' not found
return nullptr;
}
// Parse the binding.
uint32_t binding = 0;
str = ParseNumberUntilSeparator(str, &binding);
if (str == nullptr) return nullptr;
descriptor_set_binding_pairs->push_back({descriptor_set, binding});
// Skip trailing spaces.
while (std::isspace(*str)) str++;
}
return descriptor_set_binding_pairs;
}
} // namespace opt
} // namespace spvtools