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SPIRV-Tools/test/fuzz/transformation_split_block_test.cpp
Alastair Donaldson f82d47003e
spirv-fuzz: Respect rules for OpSampledImage (#3287) 
The SPIR-V data rules say that all uses of an OpSampledImage
instruction must be in the same block as the instruction, and highly
restrict those instructions that can consume the result id of an
OpSampledImage.

This adapts the transformations that split blocks and create synonyms
to avoid separating an OpSampledImage use from its definition, and to
avoid synonym-creation instructions such as OpCopyObject consuming an
OpSampledImage result id.
2020-04-14 20:17:42 +01:00

928 lines
32 KiB
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// Copyright (c) 2019 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/fuzz/transformation_split_block.h"
#include "source/fuzz/instruction_descriptor.h"
#include "test/fuzz/fuzz_test_util.h"
namespace spvtools {
namespace fuzz {
namespace {
TEST(TransformationSplitBlockTest, NotApplicable) {
// The SPIR-V in this test came from the following fragment shader, with
// local store elimination applied to get some OpPhi instructions.
//
// void main() {
// int x;
// int i;
// for (i = 0; i < 100; i++) {
// x += i;
// }
// }
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "i"
OpName %19 "x"
OpDecorate %8 RelaxedPrecision
OpDecorate %19 RelaxedPrecision
OpDecorate %22 RelaxedPrecision
OpDecorate %25 RelaxedPrecision
OpDecorate %26 RelaxedPrecision
OpDecorate %27 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 0
%16 = OpConstant %6 100
%17 = OpTypeBool
%24 = OpConstant %6 1
%28 = OpUndef %6
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%19 = OpVariable %7 Function
OpStore %8 %9
OpBranch %10
%10 = OpLabel
%27 = OpPhi %6 %28 %5 %22 %13
%26 = OpPhi %6 %9 %5 %25 %13
OpLoopMerge %12 %13 None
OpBranch %14
%14 = OpLabel
%18 = OpSLessThan %17 %26 %16
OpBranchConditional %18 %11 %12
%11 = OpLabel
%22 = OpIAdd %6 %27 %26
OpStore %19 %22
OpBranch %13
%13 = OpLabel
%25 = OpIAdd %6 %26 %24
OpStore %8 %25
OpBranch %10
%12 = OpLabel
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
// No split before OpVariable
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(8, SpvOpVariable, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(8, SpvOpVariable, 1), 100)
.IsApplicable(context.get(), transformation_context));
// No split before OpLabel
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(14, SpvOpLabel, 0), 100)
.IsApplicable(context.get(), transformation_context));
// No split if base instruction is outside a function
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(1, SpvOpLabel, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(1, SpvOpExecutionMode, 0), 100)
.IsApplicable(context.get(), transformation_context));
// No split if block is loop header
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(27, SpvOpPhi, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(27, SpvOpPhi, 1), 100)
.IsApplicable(context.get(), transformation_context));
// No split if base instruction does not exist
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(88, SpvOpIAdd, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(88, SpvOpIMul, 22), 100)
.IsApplicable(context.get(), transformation_context));
// No split if too many instructions with the desired opcode are skipped
ASSERT_FALSE(
TransformationSplitBlock(
MakeInstructionDescriptor(18, SpvOpBranchConditional, 1), 100)
.IsApplicable(context.get(), transformation_context));
// No split if id in use
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(18, SpvOpSLessThan, 0), 27)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(18, SpvOpSLessThan, 0), 14)
.IsApplicable(context.get(), transformation_context));
}
TEST(TransformationSplitBlockTest, SplitBlockSeveralTimes) {
// The SPIR-V in this test came from the following fragment shader:
//
// void main() {
// int a;
// int b;
// a = 1;
// b = a;
// a = b;
// b = 2;
// b++;
// }
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "a"
OpName %10 "b"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
OpDecorate %14 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%13 = OpConstant %6 2
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpStore %8 %9
%11 = OpLoad %6 %8
OpStore %10 %11
%12 = OpLoad %6 %10
OpStore %8 %12
OpStore %10 %13
%14 = OpLoad %6 %10
%15 = OpIAdd %6 %14 %9
OpStore %10 %15
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
auto split_1 = TransformationSplitBlock(
MakeInstructionDescriptor(5, SpvOpStore, 0), 100);
ASSERT_TRUE(split_1.IsApplicable(context.get(), transformation_context));
split_1.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split_1 = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "a"
OpName %10 "b"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
OpDecorate %14 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%13 = OpConstant %6 2
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpBranch %100
%100 = OpLabel
OpStore %8 %9
%11 = OpLoad %6 %8
OpStore %10 %11
%12 = OpLoad %6 %10
OpStore %8 %12
OpStore %10 %13
%14 = OpLoad %6 %10
%15 = OpIAdd %6 %14 %9
OpStore %10 %15
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split_1, context.get()));
auto split_2 = TransformationSplitBlock(
MakeInstructionDescriptor(11, SpvOpStore, 0), 101);
ASSERT_TRUE(split_2.IsApplicable(context.get(), transformation_context));
split_2.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split_2 = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "a"
OpName %10 "b"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
OpDecorate %14 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%13 = OpConstant %6 2
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpBranch %100
%100 = OpLabel
OpStore %8 %9
%11 = OpLoad %6 %8
OpBranch %101
%101 = OpLabel
OpStore %10 %11
%12 = OpLoad %6 %10
OpStore %8 %12
OpStore %10 %13
%14 = OpLoad %6 %10
%15 = OpIAdd %6 %14 %9
OpStore %10 %15
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split_2, context.get()));
auto split_3 = TransformationSplitBlock(
MakeInstructionDescriptor(14, SpvOpLoad, 0), 102);
ASSERT_TRUE(split_3.IsApplicable(context.get(), transformation_context));
split_3.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split_3 = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "a"
OpName %10 "b"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
OpDecorate %14 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%13 = OpConstant %6 2
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpBranch %100
%100 = OpLabel
OpStore %8 %9
%11 = OpLoad %6 %8
OpBranch %101
%101 = OpLabel
OpStore %10 %11
%12 = OpLoad %6 %10
OpStore %8 %12
OpStore %10 %13
OpBranch %102
%102 = OpLabel
%14 = OpLoad %6 %10
%15 = OpIAdd %6 %14 %9
OpStore %10 %15
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split_3, context.get()));
}
TEST(TransformationSplitBlockTest, SplitBlockBeforeSelectBranch) {
// The SPIR-V in this test came from the following fragment shader:
//
// void main() {
// int x, y;
// x = 2;
// if (x < y) {
// y = 3;
// } else {
// y = 4;
// }
// }
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "x"
OpName %11 "y"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 2
%13 = OpTypeBool
%17 = OpConstant %6 3
%19 = OpConstant %6 4
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%11 = OpVariable %7 Function
OpStore %8 %9
%10 = OpLoad %6 %8
%12 = OpLoad %6 %11
%14 = OpSLessThan %13 %10 %12
OpSelectionMerge %16 None
OpBranchConditional %14 %15 %18
%15 = OpLabel
OpStore %11 %17
OpBranch %16
%18 = OpLabel
OpStore %11 %19
OpBranch %16
%16 = OpLabel
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
// Illegal to split between the merge and the conditional branch.
ASSERT_FALSE(
TransformationSplitBlock(
MakeInstructionDescriptor(14, SpvOpBranchConditional, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(
TransformationSplitBlock(
MakeInstructionDescriptor(12, SpvOpBranchConditional, 0), 100)
.IsApplicable(context.get(), transformation_context));
auto split = TransformationSplitBlock(
MakeInstructionDescriptor(14, SpvOpSelectionMerge, 0), 100);
ASSERT_TRUE(split.IsApplicable(context.get(), transformation_context));
split.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "x"
OpName %11 "y"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
OpDecorate %12 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 2
%13 = OpTypeBool
%17 = OpConstant %6 3
%19 = OpConstant %6 4
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%11 = OpVariable %7 Function
OpStore %8 %9
%10 = OpLoad %6 %8
%12 = OpLoad %6 %11
%14 = OpSLessThan %13 %10 %12
OpBranch %100
%100 = OpLabel
OpSelectionMerge %16 None
OpBranchConditional %14 %15 %18
%15 = OpLabel
OpStore %11 %17
OpBranch %16
%18 = OpLabel
OpStore %11 %19
OpBranch %16
%16 = OpLabel
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split, context.get()));
}
TEST(TransformationSplitBlockTest, SplitBlockBeforeSwitchBranch) {
// The SPIR-V in this test came from the following fragment shader:
//
// void main() {
// int x, y;
// switch (y) {
// case 1:
// x = 2;
// case 2:
// break;
// case 3:
// x = 4;
// default:
// x = 6;
// }
// }
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "y"
OpName %15 "x"
OpDecorate %8 RelaxedPrecision
OpDecorate %9 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%16 = OpConstant %6 2
%18 = OpConstant %6 4
%19 = OpConstant %6 6
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%15 = OpVariable %7 Function
%9 = OpLoad %6 %8
OpSelectionMerge %14 None
OpSwitch %9 %13 1 %10 2 %11 3 %12
%13 = OpLabel
OpStore %15 %19
OpBranch %14
%10 = OpLabel
OpStore %15 %16
OpBranch %11
%11 = OpLabel
OpBranch %14
%12 = OpLabel
OpStore %15 %18
OpBranch %13
%14 = OpLabel
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
// Illegal to split between the merge and the conditional branch.
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(9, SpvOpSwitch, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(TransformationSplitBlock(
MakeInstructionDescriptor(15, SpvOpSwitch, 0), 100)
.IsApplicable(context.get(), transformation_context));
auto split = TransformationSplitBlock(
MakeInstructionDescriptor(9, SpvOpSelectionMerge, 0), 100);
ASSERT_TRUE(split.IsApplicable(context.get(), transformation_context));
split.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "y"
OpName %15 "x"
OpDecorate %8 RelaxedPrecision
OpDecorate %9 RelaxedPrecision
OpDecorate %15 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%16 = OpConstant %6 2
%18 = OpConstant %6 4
%19 = OpConstant %6 6
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%15 = OpVariable %7 Function
%9 = OpLoad %6 %8
OpBranch %100
%100 = OpLabel
OpSelectionMerge %14 None
OpSwitch %9 %13 1 %10 2 %11 3 %12
%13 = OpLabel
OpStore %15 %19
OpBranch %14
%10 = OpLabel
OpStore %15 %16
OpBranch %11
%11 = OpLabel
OpBranch %14
%12 = OpLabel
OpStore %15 %18
OpBranch %13
%14 = OpLabel
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split, context.get()));
}
TEST(TransformationSplitBlockTest, NoSplitDuringOpPhis) {
// The SPIR-V in this test came from the following fragment shader, with
// local store elimination applied to get some OpPhi instructions.
//
// void main() {
// int x;
// int i;
// for (i = 0; i < 100; i++) {
// x += i;
// }
// }
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "i"
OpName %19 "x"
OpDecorate %8 RelaxedPrecision
OpDecorate %19 RelaxedPrecision
OpDecorate %22 RelaxedPrecision
OpDecorate %25 RelaxedPrecision
OpDecorate %26 RelaxedPrecision
OpDecorate %27 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 0
%16 = OpConstant %6 100
%17 = OpTypeBool
%24 = OpConstant %6 1
%28 = OpUndef %6
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%19 = OpVariable %7 Function
OpStore %8 %9
OpBranch %10
%10 = OpLabel
%27 = OpPhi %6 %28 %5 %22 %13
%26 = OpPhi %6 %9 %5 %25 %13
OpBranch %50
%50 = OpLabel
OpLoopMerge %12 %13 None
OpBranch %14
%14 = OpLabel
%18 = OpSLessThan %17 %26 %16
OpBranchConditional %18 %11 %12
%11 = OpLabel
%22 = OpIAdd %6 %27 %26
OpStore %19 %22
OpBranch %13
%13 = OpLabel
%25 = OpIAdd %6 %26 %24
OpStore %8 %25
OpBranch %50
%12 = OpLabel
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
// We cannot split before OpPhi instructions, since the number of incoming
// blocks may not appropriately match after splitting.
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(26, SpvOpPhi, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(27, SpvOpPhi, 0), 100)
.IsApplicable(context.get(), transformation_context));
ASSERT_FALSE(
TransformationSplitBlock(MakeInstructionDescriptor(27, SpvOpPhi, 1), 100)
.IsApplicable(context.get(), transformation_context));
}
TEST(TransformationSplitBlockTest, SplitOpPhiWithSinglePredecessor) {
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "x"
OpName %10 "y"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpStore %8 %9
%11 = OpLoad %6 %8
OpBranch %20
%20 = OpLabel
%21 = OpPhi %6 %11 %5
OpStore %10 %21
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
ASSERT_TRUE(
TransformationSplitBlock(MakeInstructionDescriptor(21, SpvOpPhi, 0), 100)
.IsApplicable(context.get(), transformation_context));
// An equivalent transformation to the above, just described with respect to a
// different base instruction.
auto split =
TransformationSplitBlock(MakeInstructionDescriptor(20, SpvOpPhi, 0), 100);
ASSERT_TRUE(split.IsApplicable(context.get(), transformation_context));
split.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
std::string after_split = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
OpName %8 "x"
OpName %10 "y"
OpDecorate %8 RelaxedPrecision
OpDecorate %10 RelaxedPrecision
OpDecorate %11 RelaxedPrecision
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%7 = OpTypePointer Function %6
%9 = OpConstant %6 1
%4 = OpFunction %2 None %3
%5 = OpLabel
%8 = OpVariable %7 Function
%10 = OpVariable %7 Function
OpStore %8 %9
%11 = OpLoad %6 %8
OpBranch %20
%20 = OpLabel
OpBranch %100
%100 = OpLabel
%21 = OpPhi %6 %11 %20
OpStore %10 %21
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split, context.get()));
}
TEST(TransformationSplitBlockTest, DeadBlockShouldSplitToTwoDeadBlocks) {
// This checks that if a block B is marked as dead, it should split into a
// pair of dead blocks.
std::string shader = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeBool
%7 = OpConstantFalse %6
%4 = OpFunction %2 None %3
%5 = OpLabel
OpSelectionMerge %9 None
OpBranchConditional %7 %8 %9
%8 = OpLabel
OpBranch %9
%9 = OpLabel
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
// Record the fact that block 8 is dead.
transformation_context.GetFactManager()->AddFactBlockIsDead(8);
auto split = TransformationSplitBlock(
MakeInstructionDescriptor(8, SpvOpBranch, 0), 100);
ASSERT_TRUE(split.IsApplicable(context.get(), transformation_context));
split.Apply(context.get(), &transformation_context);
ASSERT_TRUE(IsValid(env, context.get()));
ASSERT_TRUE(transformation_context.GetFactManager()->BlockIsDead(8));
ASSERT_TRUE(transformation_context.GetFactManager()->BlockIsDead(100));
std::string after_split = R"(
OpCapability Shader
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %4 "main"
OpExecutionMode %4 OriginUpperLeft
OpSource ESSL 310
OpName %4 "main"
%2 = OpTypeVoid
%3 = OpTypeFunction %2
%6 = OpTypeBool
%7 = OpConstantFalse %6
%4 = OpFunction %2 None %3
%5 = OpLabel
OpSelectionMerge %9 None
OpBranchConditional %7 %8 %9
%8 = OpLabel
OpBranch %100
%100 = OpLabel
OpBranch %9
%9 = OpLabel
OpReturn
OpFunctionEnd
)";
ASSERT_TRUE(IsEqual(env, after_split, context.get()));
}
TEST(TransformationSplitBlockTest, DoNotSplitUseOfOpSampledImage) {
// This checks that we cannot split the definition of an OpSampledImage
// from its use.
std::string shader = R"(
OpCapability Shader
OpCapability SampledBuffer
OpCapability ImageBuffer
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %2 "main" %40 %41
OpExecutionMode %2 OriginUpperLeft
OpSource GLSL 450
OpDecorate %40 DescriptorSet 0
OpDecorate %40 Binding 69
OpDecorate %41 DescriptorSet 0
OpDecorate %41 Binding 1
%54 = OpTypeFloat 32
%76 = OpTypeVector %54 4
%55 = OpConstant %54 0
%56 = OpTypeVector %54 3
%94 = OpTypeVector %54 2
%112 = OpConstantComposite %94 %55 %55
%57 = OpConstantComposite %56 %55 %55 %55
%15 = OpTypeImage %54 2D 2 0 0 1 Unknown
%114 = OpTypePointer UniformConstant %15
%38 = OpTypeSampler
%125 = OpTypePointer UniformConstant %38
%132 = OpTypeVoid
%133 = OpTypeFunction %132
%45 = OpTypeSampledImage %15
%40 = OpVariable %114 UniformConstant
%41 = OpVariable %125 UniformConstant
%2 = OpFunction %132 None %133
%164 = OpLabel
%184 = OpLoad %15 %40
%213 = OpLoad %38 %41
%216 = OpSampledImage %45 %184 %213
%217 = OpImageSampleImplicitLod %76 %216 %112 Bias %55
OpReturn
OpFunctionEnd
)";
const auto env = SPV_ENV_UNIVERSAL_1_3;
const auto consumer = nullptr;
const auto context = BuildModule(env, consumer, shader, kFuzzAssembleOption);
FactManager fact_manager;
spvtools::ValidatorOptions validator_options;
TransformationContext transformation_context(&fact_manager,
validator_options);
auto split = TransformationSplitBlock(
MakeInstructionDescriptor(217, SpvOpImageSampleImplicitLod, 0), 500);
ASSERT_FALSE(split.IsApplicable(context.get(), transformation_context));
}
} // namespace
} // namespace fuzz
} // namespace spvtools
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