mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-23 20:20:06 +00:00
ccb921dd2b
In value numbering, we treat loads and stores of images, ie OpImageLoad, as a memory operation where it is interested in the "base address" of the instruction. In those cases, it is an image instruction. The problem is that `Instruction::GetBaseAddress()` does not account for the image instructions, so the assert at the end to make sure it found a valid base address for its addressing mode fails. The solution is to look at the load/store instruction to determine how the assertion should be done. Fixes #1160.
659 lines
23 KiB
C++
659 lines
23 KiB
C++
// Copyright (c) 2016 Google Inc.
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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 "opt/instruction.h"
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#include "opt/ir_context.h"
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#include "gmock/gmock.h"
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#include "pass_fixture.h"
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#include "pass_utils.h"
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#include "spirv-tools/libspirv.h"
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#include "unit_spirv.h"
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namespace {
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using namespace spvtools;
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using ir::Instruction;
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using ir::IRContext;
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using ir::Operand;
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using spvtest::MakeInstruction;
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using ::testing::Eq;
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using DescriptorTypeTest = PassTest<::testing::Test>;
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using OpaqueTypeTest = PassTest<::testing::Test>;
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using GetBaseTest = PassTest<::testing::Test>;
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TEST(InstructionTest, CreateTrivial) {
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Instruction empty;
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EXPECT_EQ(SpvOpNop, empty.opcode());
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EXPECT_EQ(0u, empty.type_id());
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EXPECT_EQ(0u, empty.result_id());
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EXPECT_EQ(0u, empty.NumOperands());
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EXPECT_EQ(0u, empty.NumOperandWords());
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EXPECT_EQ(0u, empty.NumInOperandWords());
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EXPECT_EQ(empty.cend(), empty.cbegin());
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EXPECT_EQ(empty.end(), empty.begin());
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}
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TEST(InstructionTest, CreateWithOpcodeAndNoOperands) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, SpvOpReturn);
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EXPECT_EQ(SpvOpReturn, inst.opcode());
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EXPECT_EQ(0u, inst.type_id());
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EXPECT_EQ(0u, inst.result_id());
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EXPECT_EQ(0u, inst.NumOperands());
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EXPECT_EQ(0u, inst.NumOperandWords());
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EXPECT_EQ(0u, inst.NumInOperandWords());
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EXPECT_EQ(inst.cend(), inst.cbegin());
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EXPECT_EQ(inst.end(), inst.begin());
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}
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// The words for an OpTypeInt for 32-bit signed integer resulting in Id 44.
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uint32_t kSampleInstructionWords[] = {(4 << 16) | uint32_t(SpvOpTypeInt), 44,
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32, 1};
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// The operands that would be parsed from kSampleInstructionWords
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spv_parsed_operand_t kSampleParsedOperands[] = {
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{1, 1, SPV_OPERAND_TYPE_RESULT_ID, SPV_NUMBER_NONE, 0},
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{2, 1, SPV_OPERAND_TYPE_LITERAL_INTEGER, SPV_NUMBER_UNSIGNED_INT, 32},
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{3, 1, SPV_OPERAND_TYPE_LITERAL_INTEGER, SPV_NUMBER_UNSIGNED_INT, 1},
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};
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// A valid parse of kSampleParsedOperands.
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spv_parsed_instruction_t kSampleParsedInstruction = {kSampleInstructionWords,
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uint16_t(4),
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uint16_t(SpvOpTypeInt),
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SPV_EXT_INST_TYPE_NONE,
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0, // type id
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44, // result id
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kSampleParsedOperands,
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3};
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// The words for an OpAccessChain instruction.
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uint32_t kSampleAccessChainInstructionWords[] = {
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(7 << 16) | uint32_t(SpvOpAccessChain), 100, 101, 102, 103, 104, 105};
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// The operands that would be parsed from kSampleAccessChainInstructionWords.
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spv_parsed_operand_t kSampleAccessChainOperands[] = {
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{1, 1, SPV_OPERAND_TYPE_RESULT_ID, SPV_NUMBER_NONE, 0},
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{2, 1, SPV_OPERAND_TYPE_TYPE_ID, SPV_NUMBER_NONE, 0},
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{3, 1, SPV_OPERAND_TYPE_ID, SPV_NUMBER_NONE, 0},
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{4, 1, SPV_OPERAND_TYPE_ID, SPV_NUMBER_NONE, 0},
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{5, 1, SPV_OPERAND_TYPE_ID, SPV_NUMBER_NONE, 0},
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{6, 1, SPV_OPERAND_TYPE_ID, SPV_NUMBER_NONE, 0},
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};
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// A valid parse of kSampleAccessChainInstructionWords
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spv_parsed_instruction_t kSampleAccessChainInstruction = {
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kSampleAccessChainInstructionWords,
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uint16_t(7),
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uint16_t(SpvOpAccessChain),
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SPV_EXT_INST_TYPE_NONE,
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100, // type id
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101, // result id
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kSampleAccessChainOperands,
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6};
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// The words for an OpControlBarrier instruction.
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uint32_t kSampleControlBarrierInstructionWords[] = {
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(4 << 16) | uint32_t(SpvOpControlBarrier), 100, 101, 102};
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// The operands that would be parsed from kSampleControlBarrierInstructionWords.
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spv_parsed_operand_t kSampleControlBarrierOperands[] = {
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{1, 1, SPV_OPERAND_TYPE_SCOPE_ID, SPV_NUMBER_NONE, 0}, // Execution
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{2, 1, SPV_OPERAND_TYPE_SCOPE_ID, SPV_NUMBER_NONE, 0}, // Memory
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{3, 1, SPV_OPERAND_TYPE_MEMORY_SEMANTICS_ID, SPV_NUMBER_NONE,
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0}, // Semantics
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};
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// A valid parse of kSampleControlBarrierInstructionWords
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spv_parsed_instruction_t kSampleControlBarrierInstruction = {
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kSampleControlBarrierInstructionWords,
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uint16_t(4),
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uint16_t(SpvOpControlBarrier),
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SPV_EXT_INST_TYPE_NONE,
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0, // type id
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0, // result id
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kSampleControlBarrierOperands,
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3};
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TEST(InstructionTest, CreateWithOpcodeAndOperands) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleParsedInstruction);
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EXPECT_EQ(SpvOpTypeInt, inst.opcode());
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EXPECT_EQ(0u, inst.type_id());
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EXPECT_EQ(44u, inst.result_id());
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EXPECT_EQ(3u, inst.NumOperands());
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EXPECT_EQ(3u, inst.NumOperandWords());
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EXPECT_EQ(2u, inst.NumInOperandWords());
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}
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TEST(InstructionTest, GetOperand) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleParsedInstruction);
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EXPECT_THAT(inst.GetOperand(0).words, Eq(std::vector<uint32_t>{44}));
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EXPECT_THAT(inst.GetOperand(1).words, Eq(std::vector<uint32_t>{32}));
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EXPECT_THAT(inst.GetOperand(2).words, Eq(std::vector<uint32_t>{1}));
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}
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TEST(InstructionTest, GetInOperand) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleParsedInstruction);
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EXPECT_THAT(inst.GetInOperand(0).words, Eq(std::vector<uint32_t>{32}));
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EXPECT_THAT(inst.GetInOperand(1).words, Eq(std::vector<uint32_t>{1}));
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}
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TEST(InstructionTest, OperandConstIterators) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleParsedInstruction);
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// Spot check iteration across operands.
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auto cbegin = inst.cbegin();
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auto cend = inst.cend();
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EXPECT_NE(cend, inst.cbegin());
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auto citer = inst.cbegin();
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for (int i = 0; i < 3; ++i, ++citer) {
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const auto& operand = *citer;
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EXPECT_THAT(operand.type, Eq(kSampleParsedOperands[i].type));
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EXPECT_THAT(operand.words,
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Eq(std::vector<uint32_t>{kSampleInstructionWords[i + 1]}));
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EXPECT_NE(cend, citer);
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}
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EXPECT_EQ(cend, citer);
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// Check that cbegin and cend have not changed.
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EXPECT_EQ(cbegin, inst.cbegin());
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EXPECT_EQ(cend, inst.cend());
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// Check arithmetic.
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const Operand& operand2 = *(inst.cbegin() + 2);
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EXPECT_EQ(SPV_OPERAND_TYPE_LITERAL_INTEGER, operand2.type);
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}
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TEST(InstructionTest, OperandIterators) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleParsedInstruction);
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// Spot check iteration across operands, with mutable iterators.
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auto begin = inst.begin();
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auto end = inst.end();
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EXPECT_NE(end, inst.begin());
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auto iter = inst.begin();
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for (int i = 0; i < 3; ++i, ++iter) {
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const auto& operand = *iter;
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EXPECT_THAT(operand.type, Eq(kSampleParsedOperands[i].type));
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EXPECT_THAT(operand.words,
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Eq(std::vector<uint32_t>{kSampleInstructionWords[i + 1]}));
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EXPECT_NE(end, iter);
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}
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EXPECT_EQ(end, iter);
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// Check that begin and end have not changed.
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EXPECT_EQ(begin, inst.begin());
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EXPECT_EQ(end, inst.end());
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// Check arithmetic.
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Operand& operand2 = *(inst.begin() + 2);
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EXPECT_EQ(SPV_OPERAND_TYPE_LITERAL_INTEGER, operand2.type);
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// Check mutation through an iterator.
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operand2.type = SPV_OPERAND_TYPE_TYPE_ID;
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EXPECT_EQ(SPV_OPERAND_TYPE_TYPE_ID, (*(inst.cbegin() + 2)).type);
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}
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TEST(InstructionTest, ForInIdStandardIdTypes) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleAccessChainInstruction);
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std::vector<uint32_t> ids;
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inst.ForEachInId([&ids](const uint32_t* idptr) { ids.push_back(*idptr); });
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EXPECT_THAT(ids, Eq(std::vector<uint32_t>{102, 103, 104, 105}));
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ids.clear();
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inst.ForEachInId([&ids](uint32_t* idptr) { ids.push_back(*idptr); });
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EXPECT_THAT(ids, Eq(std::vector<uint32_t>{102, 103, 104, 105}));
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}
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TEST(InstructionTest, ForInIdNonstandardIdTypes) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context, kSampleControlBarrierInstruction);
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std::vector<uint32_t> ids;
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inst.ForEachInId([&ids](const uint32_t* idptr) { ids.push_back(*idptr); });
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EXPECT_THAT(ids, Eq(std::vector<uint32_t>{100, 101, 102}));
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ids.clear();
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inst.ForEachInId([&ids](uint32_t* idptr) { ids.push_back(*idptr); });
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EXPECT_THAT(ids, Eq(std::vector<uint32_t>{100, 101, 102}));
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}
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TEST(InstructionTest, UniqueIds) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst1(&context);
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Instruction inst2(&context);
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EXPECT_NE(inst1.unique_id(), inst2.unique_id());
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}
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TEST(InstructionTest, CloneUniqueIdDifferent) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&context);
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std::unique_ptr<Instruction> clone(inst.Clone(&context));
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EXPECT_EQ(inst.context(), clone->context());
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EXPECT_NE(inst.unique_id(), clone->unique_id());
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}
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TEST(InstructionTest, CloneDifferentContext) {
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IRContext c1(SPV_ENV_UNIVERSAL_1_2, nullptr);
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IRContext c2(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&c1);
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std::unique_ptr<Instruction> clone(inst.Clone(&c2));
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EXPECT_EQ(&c1, inst.context());
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EXPECT_EQ(&c2, clone->context());
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EXPECT_NE(&c1, &c2);
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}
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TEST(InstructionTest, CloneDifferentContextDifferentUniqueId) {
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IRContext c1(SPV_ENV_UNIVERSAL_1_2, nullptr);
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IRContext c2(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction inst(&c1);
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Instruction other(&c2);
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std::unique_ptr<Instruction> clone(inst.Clone(&c2));
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EXPECT_EQ(&c2, clone->context());
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EXPECT_NE(other.unique_id(), clone->unique_id());
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}
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TEST(InstructionTest, EqualsEqualsOperator) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction i1(&context);
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Instruction i2(&context);
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std::unique_ptr<Instruction> clone(i1.Clone(&context));
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EXPECT_TRUE(i1 == i1);
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EXPECT_FALSE(i1 == i2);
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EXPECT_FALSE(i1 == *clone);
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EXPECT_FALSE(i2 == *clone);
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}
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TEST(InstructionTest, LessThanOperator) {
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IRContext context(SPV_ENV_UNIVERSAL_1_2, nullptr);
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Instruction i1(&context);
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Instruction i2(&context);
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std::unique_ptr<Instruction> clone(i1.Clone(&context));
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EXPECT_TRUE(i1 < i2);
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EXPECT_TRUE(i1 < *clone);
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EXPECT_TRUE(i2 < *clone);
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}
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TEST_F(DescriptorTypeTest, StorageImage) {
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const std::string text = R"(
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OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %2 "main"
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OpExecutionMode %2 OriginUpperLeft
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OpSource GLSL 430
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OpName %3 "myStorageImage"
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OpDecorate %3 DescriptorSet 0
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OpDecorate %3 Binding 0
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%4 = OpTypeVoid
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%5 = OpTypeFunction %4
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%6 = OpTypeFloat 32
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%7 = OpTypeImage %6 2D 0 0 0 2 R32f
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%8 = OpTypePointer UniformConstant %7
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%3 = OpVariable %8 UniformConstant
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%2 = OpFunction %4 None %5
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%9 = OpLabel
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OpReturn
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OpFunctionEnd
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)";
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std::unique_ptr<ir::IRContext> context =
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BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
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Instruction* type = context->get_def_use_mgr()->GetDef(8);
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EXPECT_TRUE(type->IsVulkanStorageImage());
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EXPECT_FALSE(type->IsVulkanSampledImage());
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EXPECT_FALSE(type->IsVulkanStorageTexelBuffer());
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EXPECT_FALSE(type->IsVulkanStorageBuffer());
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EXPECT_FALSE(type->IsVulkanUniformBuffer());
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Instruction* variable = context->get_def_use_mgr()->GetDef(3);
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EXPECT_FALSE(variable->IsReadOnlyVariable());
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}
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TEST_F(DescriptorTypeTest, SampledImage) {
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const std::string text = R"(
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OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %2 "main"
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OpExecutionMode %2 OriginUpperLeft
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OpSource GLSL 430
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OpName %3 "myStorageImage"
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OpDecorate %3 DescriptorSet 0
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OpDecorate %3 Binding 0
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%4 = OpTypeVoid
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%5 = OpTypeFunction %4
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%6 = OpTypeFloat 32
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%7 = OpTypeImage %6 2D 0 0 0 1 Unknown
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%8 = OpTypePointer UniformConstant %7
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%3 = OpVariable %8 UniformConstant
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%2 = OpFunction %4 None %5
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%9 = OpLabel
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OpReturn
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OpFunctionEnd
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)";
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std::unique_ptr<ir::IRContext> context =
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BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
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Instruction* type = context->get_def_use_mgr()->GetDef(8);
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EXPECT_FALSE(type->IsVulkanStorageImage());
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EXPECT_TRUE(type->IsVulkanSampledImage());
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EXPECT_FALSE(type->IsVulkanStorageTexelBuffer());
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EXPECT_FALSE(type->IsVulkanStorageBuffer());
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EXPECT_FALSE(type->IsVulkanUniformBuffer());
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Instruction* variable = context->get_def_use_mgr()->GetDef(3);
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EXPECT_TRUE(variable->IsReadOnlyVariable());
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}
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TEST_F(DescriptorTypeTest, StorageTexelBuffer) {
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const std::string text = R"(
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OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %2 "main"
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OpExecutionMode %2 OriginUpperLeft
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OpSource GLSL 430
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OpName %3 "myStorageImage"
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OpDecorate %3 DescriptorSet 0
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OpDecorate %3 Binding 0
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%4 = OpTypeVoid
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%5 = OpTypeFunction %4
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%6 = OpTypeFloat 32
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%7 = OpTypeImage %6 Buffer 0 0 0 2 R32f
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%8 = OpTypePointer UniformConstant %7
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%3 = OpVariable %8 UniformConstant
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%2 = OpFunction %4 None %5
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%9 = OpLabel
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OpReturn
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OpFunctionEnd
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)";
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std::unique_ptr<ir::IRContext> context =
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BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
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Instruction* type = context->get_def_use_mgr()->GetDef(8);
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EXPECT_FALSE(type->IsVulkanStorageImage());
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EXPECT_FALSE(type->IsVulkanSampledImage());
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EXPECT_TRUE(type->IsVulkanStorageTexelBuffer());
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EXPECT_FALSE(type->IsVulkanStorageBuffer());
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EXPECT_FALSE(type->IsVulkanUniformBuffer());
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Instruction* variable = context->get_def_use_mgr()->GetDef(3);
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EXPECT_FALSE(variable->IsReadOnlyVariable());
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}
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TEST_F(DescriptorTypeTest, StorageBuffer) {
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const std::string text = R"(
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OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %2 "main"
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OpExecutionMode %2 OriginUpperLeft
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OpSource GLSL 430
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OpName %3 "myStorageImage"
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OpDecorate %3 DescriptorSet 0
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OpDecorate %3 Binding 0
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OpDecorate %9 BufferBlock
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%4 = OpTypeVoid
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%5 = OpTypeFunction %4
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%6 = OpTypeFloat 32
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%7 = OpTypeVector %6 4
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%8 = OpTypeRuntimeArray %7
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%9 = OpTypeStruct %8
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%10 = OpTypePointer Uniform %9
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%3 = OpVariable %10 Uniform
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%2 = OpFunction %4 None %5
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%11 = OpLabel
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OpReturn
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OpFunctionEnd
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)";
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std::unique_ptr<ir::IRContext> context =
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BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
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Instruction* type = context->get_def_use_mgr()->GetDef(10);
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EXPECT_FALSE(type->IsVulkanStorageImage());
|
|
EXPECT_FALSE(type->IsVulkanSampledImage());
|
|
EXPECT_FALSE(type->IsVulkanStorageTexelBuffer());
|
|
EXPECT_TRUE(type->IsVulkanStorageBuffer());
|
|
EXPECT_FALSE(type->IsVulkanUniformBuffer());
|
|
|
|
Instruction* variable = context->get_def_use_mgr()->GetDef(3);
|
|
EXPECT_FALSE(variable->IsReadOnlyVariable());
|
|
}
|
|
|
|
TEST_F(DescriptorTypeTest, UniformBuffer) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
OpName %3 "myStorageImage"
|
|
OpDecorate %3 DescriptorSet 0
|
|
OpDecorate %3 Binding 0
|
|
OpDecorate %9 Block
|
|
%4 = OpTypeVoid
|
|
%5 = OpTypeFunction %4
|
|
%6 = OpTypeFloat 32
|
|
%7 = OpTypeVector %6 4
|
|
%8 = OpTypeRuntimeArray %7
|
|
%9 = OpTypeStruct %8
|
|
%10 = OpTypePointer Uniform %9
|
|
%3 = OpVariable %10 Uniform
|
|
%2 = OpFunction %4 None %5
|
|
%11 = OpLabel
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
Instruction* type = context->get_def_use_mgr()->GetDef(10);
|
|
EXPECT_FALSE(type->IsVulkanStorageImage());
|
|
EXPECT_FALSE(type->IsVulkanSampledImage());
|
|
EXPECT_FALSE(type->IsVulkanStorageTexelBuffer());
|
|
EXPECT_FALSE(type->IsVulkanStorageBuffer());
|
|
EXPECT_TRUE(type->IsVulkanUniformBuffer());
|
|
|
|
Instruction* variable = context->get_def_use_mgr()->GetDef(3);
|
|
EXPECT_TRUE(variable->IsReadOnlyVariable());
|
|
}
|
|
|
|
TEST_F(DescriptorTypeTest, NonWritableIsReadOnly) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
OpName %3 "myStorageImage"
|
|
OpDecorate %3 DescriptorSet 0
|
|
OpDecorate %3 Binding 0
|
|
OpDecorate %9 BufferBlock
|
|
OpDecorate %3 NonWritable
|
|
%4 = OpTypeVoid
|
|
%5 = OpTypeFunction %4
|
|
%6 = OpTypeFloat 32
|
|
%7 = OpTypeVector %6 4
|
|
%8 = OpTypeRuntimeArray %7
|
|
%9 = OpTypeStruct %8
|
|
%10 = OpTypePointer Uniform %9
|
|
%3 = OpVariable %10 Uniform
|
|
%2 = OpFunction %4 None %5
|
|
%11 = OpLabel
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
Instruction* variable = context->get_def_use_mgr()->GetDef(3);
|
|
EXPECT_TRUE(variable->IsReadOnlyVariable());
|
|
}
|
|
|
|
TEST_F(OpaqueTypeTest, BaseOpaqueTypesShader) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
%3 = OpTypeVoid
|
|
%4 = OpTypeFunction %3
|
|
%5 = OpTypeFloat 32
|
|
%6 = OpTypeImage %5 2D 1 0 0 1 Unknown
|
|
%7 = OpTypeSampler
|
|
%8 = OpTypeSampledImage %6
|
|
%9 = OpTypeRuntimeArray %5
|
|
%2 = OpFunction %3 None %4
|
|
%10 = OpLabel
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
Instruction* image_type = context->get_def_use_mgr()->GetDef(6);
|
|
EXPECT_TRUE(image_type->IsOpaqueType());
|
|
Instruction* sampler_type = context->get_def_use_mgr()->GetDef(7);
|
|
EXPECT_TRUE(sampler_type->IsOpaqueType());
|
|
Instruction* sampled_image_type = context->get_def_use_mgr()->GetDef(8);
|
|
EXPECT_TRUE(sampled_image_type->IsOpaqueType());
|
|
Instruction* runtime_array_type = context->get_def_use_mgr()->GetDef(9);
|
|
EXPECT_TRUE(runtime_array_type->IsOpaqueType());
|
|
Instruction* float_type = context->get_def_use_mgr()->GetDef(5);
|
|
EXPECT_FALSE(float_type->IsOpaqueType());
|
|
Instruction* void_type = context->get_def_use_mgr()->GetDef(3);
|
|
EXPECT_FALSE(void_type->IsOpaqueType());
|
|
}
|
|
|
|
TEST_F(OpaqueTypeTest, OpaqueStructTypes) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
%3 = OpTypeVoid
|
|
%4 = OpTypeFunction %3
|
|
%5 = OpTypeFloat 32
|
|
%6 = OpTypeRuntimeArray %5
|
|
%7 = OpTypeStruct %6 %6
|
|
%8 = OpTypeStruct %5 %6
|
|
%9 = OpTypeStruct %6 %5
|
|
%10 = OpTypeStruct %7
|
|
%2 = OpFunction %3 None %4
|
|
%11 = OpLabel
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
for (int i = 7; i <= 10; i++) {
|
|
Instruction* type = context->get_def_use_mgr()->GetDef(i);
|
|
EXPECT_TRUE(type->IsOpaqueType());
|
|
}
|
|
}
|
|
|
|
TEST_F(GetBaseTest, SampleImage) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
OpName %3 "myStorageImage"
|
|
OpDecorate %3 DescriptorSet 0
|
|
OpDecorate %3 Binding 0
|
|
%4 = OpTypeVoid
|
|
%5 = OpTypeFunction %4
|
|
%6 = OpTypeFloat 32
|
|
%7 = OpTypeVector %6 2
|
|
%8 = OpTypeVector %6 4
|
|
%9 = OpConstant %6 0
|
|
%10 = OpConstantComposite %7 %9 %9
|
|
%11 = OpTypeImage %6 2D 0 0 0 1 R32f
|
|
%12 = OpTypePointer UniformConstant %11
|
|
%3 = OpVariable %12 UniformConstant
|
|
%13 = OpTypeSampledImage %11
|
|
%14 = OpTypeSampler
|
|
%15 = OpTypePointer UniformConstant %14
|
|
%16 = OpVariable %15 UniformConstant
|
|
%2 = OpFunction %4 None %5
|
|
%17 = OpLabel
|
|
%18 = OpLoad %11 %3
|
|
%19 = OpLoad %14 %16
|
|
%20 = OpSampledImage %13 %18 %19
|
|
%21 = OpImageSampleImplicitLod %8 %20 %10
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
Instruction* load = context->get_def_use_mgr()->GetDef(21);
|
|
Instruction* base = context->get_def_use_mgr()->GetDef(20);
|
|
EXPECT_TRUE(load->GetBaseAddress() == base);
|
|
}
|
|
|
|
TEST_F(GetBaseTest, ImageRead) {
|
|
const std::string text = R"(
|
|
OpCapability Shader
|
|
%1 = OpExtInstImport "GLSL.std.450"
|
|
OpMemoryModel Logical GLSL450
|
|
OpEntryPoint Fragment %2 "main"
|
|
OpExecutionMode %2 OriginUpperLeft
|
|
OpSource GLSL 430
|
|
OpName %3 "myStorageImage"
|
|
OpDecorate %3 DescriptorSet 0
|
|
OpDecorate %3 Binding 0
|
|
%4 = OpTypeVoid
|
|
%5 = OpTypeFunction %4
|
|
%6 = OpTypeInt 32 0
|
|
%7 = OpTypeVector %6 2
|
|
%8 = OpConstant %6 0
|
|
%9 = OpConstantComposite %7 %8 %8
|
|
%10 = OpTypeImage %6 2D 0 0 0 2 R32f
|
|
%11 = OpTypePointer UniformConstant %10
|
|
%3 = OpVariable %11 UniformConstant
|
|
%2 = OpFunction %4 None %5
|
|
%12 = OpLabel
|
|
%13 = OpLoad %10 %3
|
|
%14 = OpImageRead %6 %13 %9
|
|
OpReturn
|
|
OpFunctionEnd
|
|
)";
|
|
|
|
std::unique_ptr<ir::IRContext> context =
|
|
BuildModule(SPV_ENV_UNIVERSAL_1_2, nullptr, text);
|
|
Instruction* load = context->get_def_use_mgr()->GetDef(14);
|
|
Instruction* base = context->get_def_use_mgr()->GetDef(13);
|
|
EXPECT_TRUE(load->GetBaseAddress() == base);
|
|
}
|
|
} // anonymous namespace
|