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https://github.com/KhronosGroup/SPIRV-Tools
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8d4261bc44
Some transformations (e.g. TransformationAddFunction) rely on running the validator to decide whether the transformation is applicable. A recent change allowed spirv-fuzz to take validator options, to cater for the case where a module should be considered valid under particular conditions. However, validation during the checking of transformations had no access to these validator options. This change introduced TransformationContext, which currently consists of a fact manager and a set of validator options, but could in the future have other fields corresponding to other objects that it is useful to have access to when applying transformations. Now, instead of checking and applying transformations in the context of a FactManager, a TransformationContext is used. This gives access to the fact manager as before, and also access to the validator options when they are needed.
218 lines
9.0 KiB
C++
218 lines
9.0 KiB
C++
// Copyright (c) 2020 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "source/fuzz/transformation_access_chain.h"
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#include <vector>
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#include "source/fuzz/fuzzer_util.h"
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#include "source/fuzz/instruction_descriptor.h"
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namespace spvtools {
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namespace fuzz {
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TransformationAccessChain::TransformationAccessChain(
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const spvtools::fuzz::protobufs::TransformationAccessChain& message)
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: message_(message) {}
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TransformationAccessChain::TransformationAccessChain(
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uint32_t fresh_id, uint32_t pointer_id,
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const std::vector<uint32_t>& index_id,
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const protobufs::InstructionDescriptor& instruction_to_insert_before) {
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message_.set_fresh_id(fresh_id);
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message_.set_pointer_id(pointer_id);
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for (auto id : index_id) {
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message_.add_index_id(id);
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}
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*message_.mutable_instruction_to_insert_before() =
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instruction_to_insert_before;
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}
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bool TransformationAccessChain::IsApplicable(
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opt::IRContext* ir_context, const TransformationContext& /*unused*/) const {
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// The result id must be fresh
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if (!fuzzerutil::IsFreshId(ir_context, message_.fresh_id())) {
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return false;
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}
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// The pointer id must exist and have a type.
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auto pointer = ir_context->get_def_use_mgr()->GetDef(message_.pointer_id());
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if (!pointer || !pointer->type_id()) {
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return false;
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}
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// The type must indeed be a pointer
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auto pointer_type = ir_context->get_def_use_mgr()->GetDef(pointer->type_id());
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if (pointer_type->opcode() != SpvOpTypePointer) {
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return false;
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}
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// The described instruction to insert before must exist and be a suitable
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// point where an OpAccessChain instruction could be inserted.
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auto instruction_to_insert_before =
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FindInstruction(message_.instruction_to_insert_before(), ir_context);
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if (!instruction_to_insert_before) {
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return false;
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}
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if (!fuzzerutil::CanInsertOpcodeBeforeInstruction(
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SpvOpAccessChain, instruction_to_insert_before)) {
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return false;
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}
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// Do not allow making an access chain from a null or undefined pointer, as
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// we do not want to allow accessing such pointers. This might be acceptable
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// in dead blocks, but we conservatively avoid it.
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switch (pointer->opcode()) {
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case SpvOpConstantNull:
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case SpvOpUndef:
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// TODO(https://github.com/KhronosGroup/SPIRV-Tools/issues/3185): When
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// fuzzing for real we would like an 'assert(false)' here. But we also
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// want to be able to write negative unit tests.
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return false;
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default:
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break;
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}
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// The pointer on which the access chain is to be based needs to be available
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// (according to dominance rules) at the insertion point.
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if (!fuzzerutil::IdIsAvailableBeforeInstruction(
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ir_context, instruction_to_insert_before, message_.pointer_id())) {
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return false;
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}
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// We now need to use the given indices to walk the type structure of the
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// base type of the pointer, making sure that (a) the indices correspond to
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// integers, and (b) these integer values are in-bounds.
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// Start from the base type of the pointer.
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uint32_t subobject_type_id = pointer_type->GetSingleWordInOperand(1);
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// Consider the given index ids in turn.
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for (auto index_id : message_.index_id()) {
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// Try to get the integer value associated with this index is. The first
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// component of the result will be false if the id did not correspond to an
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// integer. Otherwise, the integer with which the id is associated is the
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// second component.
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std::pair<bool, uint32_t> maybe_index_value =
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GetIndexValue(ir_context, index_id);
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if (!maybe_index_value.first) {
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// There was no integer: this index is no good.
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return false;
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}
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// Try to walk down the type using this index. This will yield 0 if the
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// type is not a composite or the index is out of bounds, and the id of
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// the next type otherwise.
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subobject_type_id = fuzzerutil::WalkOneCompositeTypeIndex(
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ir_context, subobject_type_id, maybe_index_value.second);
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if (!subobject_type_id) {
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// Either the type was not a composite (so that too many indices were
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// provided), or the index was out of bounds.
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return false;
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}
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}
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// At this point, |subobject_type_id| is the type of the value targeted by
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// the new access chain. The result type of the access chain should be a
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// pointer to this type, with the same storage class as for the original
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// pointer. Such a pointer type needs to exist in the module.
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//
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// We do not use the type manager to look up this type, due to problems
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// associated with pointers to isomorphic structs being regarded as the same.
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return fuzzerutil::MaybeGetPointerType(
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ir_context, subobject_type_id,
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static_cast<SpvStorageClass>(
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pointer_type->GetSingleWordInOperand(0))) != 0;
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}
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void TransformationAccessChain::Apply(
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opt::IRContext* ir_context,
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TransformationContext* transformation_context) const {
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// The operands to the access chain are the pointer followed by the indices.
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// The result type of the access chain is determined by where the indices
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// lead. We thus push the pointer to a sequence of operands, and then follow
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// the indices, pushing each to the operand list and tracking the type
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// obtained by following it. Ultimately this yields the type of the
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// component reached by following all the indices, and the result type is
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// a pointer to this component type.
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opt::Instruction::OperandList operands;
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// Add the pointer id itself.
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operands.push_back({SPV_OPERAND_TYPE_ID, {message_.pointer_id()}});
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// Start walking the indices, starting with the pointer's base type.
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auto pointer_type = ir_context->get_def_use_mgr()->GetDef(
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ir_context->get_def_use_mgr()->GetDef(message_.pointer_id())->type_id());
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uint32_t subobject_type_id = pointer_type->GetSingleWordInOperand(1);
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// Go through the index ids in turn.
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for (auto index_id : message_.index_id()) {
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// Add the index id to the operands.
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operands.push_back({SPV_OPERAND_TYPE_ID, {index_id}});
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// Get the integer value associated with the index id.
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uint32_t index_value = GetIndexValue(ir_context, index_id).second;
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// Walk to the next type in the composite object using this index.
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subobject_type_id = fuzzerutil::WalkOneCompositeTypeIndex(
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ir_context, subobject_type_id, index_value);
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}
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// The access chain's result type is a pointer to the composite component that
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// was reached after following all indices. The storage class is that of the
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// original pointer.
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uint32_t result_type = fuzzerutil::MaybeGetPointerType(
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ir_context, subobject_type_id,
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static_cast<SpvStorageClass>(pointer_type->GetSingleWordInOperand(0)));
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// Add the access chain instruction to the module, and update the module's id
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// bound.
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fuzzerutil::UpdateModuleIdBound(ir_context, message_.fresh_id());
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FindInstruction(message_.instruction_to_insert_before(), ir_context)
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->InsertBefore(MakeUnique<opt::Instruction>(
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ir_context, SpvOpAccessChain, result_type, message_.fresh_id(),
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operands));
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// Conservatively invalidate all analyses.
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ir_context->InvalidateAnalysesExceptFor(opt::IRContext::kAnalysisNone);
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// If the base pointer's pointee value was irrelevant, the same is true of the
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// pointee value of the result of this access chain.
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if (transformation_context->GetFactManager()->PointeeValueIsIrrelevant(
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message_.pointer_id())) {
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transformation_context->GetFactManager()->AddFactValueOfPointeeIsIrrelevant(
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message_.fresh_id());
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}
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}
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protobufs::Transformation TransformationAccessChain::ToMessage() const {
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protobufs::Transformation result;
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*result.mutable_access_chain() = message_;
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return result;
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}
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std::pair<bool, uint32_t> TransformationAccessChain::GetIndexValue(
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opt::IRContext* ir_context, uint32_t index_id) const {
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auto index_instruction = ir_context->get_def_use_mgr()->GetDef(index_id);
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if (!index_instruction || !spvOpcodeIsConstant(index_instruction->opcode())) {
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// TODO(https://github.com/KhronosGroup/SPIRV-Tools/issues/3179) We could
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// allow non-constant indices when looking up non-structs, using clamping
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// to ensure they are in-bounds.
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return {false, 0};
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}
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auto index_type =
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ir_context->get_def_use_mgr()->GetDef(index_instruction->type_id());
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if (index_type->opcode() != SpvOpTypeInt ||
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index_type->GetSingleWordInOperand(0) != 32) {
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return {false, 0};
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}
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return {true, index_instruction->GetSingleWordInOperand(0)};
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}
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} // namespace fuzz
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} // namespace spvtools
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