SPIRV-Tools/test/opt/strip_atomic_counter_memory_test.cpp
Ryan Harrison 048dcd38ce
Implement WebGPU->Vulkan initializer conversion for 'Function' variables (#2513)
WebGPU requires certain variables to be initialized, whereas there are
known issues with using initializers in Vulkan. This PR is the first
of three implementing a pass to decompose initialized variables into
a variable declaration followed by a store. This has been broken up
into multiple PRs, because there 3 distinct cases that need to be
handled, which require separate implementations.

This first PR implements the basic infrastructure that is needed, and
handling of Function storage class variables. Private and Output will
be handled in future PRs.

This is part of resolving #2388
2019-04-16 14:31:36 -04:00

407 lines
15 KiB
C++

// 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 <vector>
#include "test/opt/pass_fixture.h"
#include "test/opt/pass_utils.h"
namespace spvtools {
namespace opt {
namespace {
typedef std::tuple<std::string, std::string> StripAtomicCounterMemoryParam;
using MemorySemanticsModified =
PassTest<::testing::TestWithParam<StripAtomicCounterMemoryParam>>;
using NonMemorySemanticsUnmodifiedTest = PassTest<::testing::Test>;
void operator+=(std::vector<const char*>& lhs, const char* rhs) {
lhs.push_back(rhs);
}
std::string GetConstDecl(std::string val) {
std::string decl;
decl += "%uint_" + val + " = OpConstant %uint " + val;
return decl;
}
std::string GetUnchangedString(std::string(generate_inst)(std::string),
std::string val) {
std::string decl = GetConstDecl(val);
std::string inst = generate_inst(val);
std::vector<const char*> result = {
// clang-format off
"OpCapability Shader",
"OpCapability VulkanMemoryModelKHR",
"OpExtension \"SPV_KHR_vulkan_memory_model\"",
"OpMemoryModel Logical VulkanKHR",
"OpEntryPoint Vertex %1 \"shader\"",
"%uint = OpTypeInt 32 0",
"%_ptr_Workgroup_uint = OpTypePointer Workgroup %uint",
"%4 = OpVariable %_ptr_Workgroup_uint Workgroup",
"%uint_0 = OpConstant %uint 0",
"%uint_1 = OpConstant %uint 1",
"%void = OpTypeVoid",
"%8 = OpTypeFunction %void",
decl.c_str(),
"%1 = OpFunction %void None %8",
"%10 = OpLabel",
inst.c_str(),
"OpReturn",
"OpFunctionEnd"
// clang-format on
};
return JoinAllInsts(result);
}
std::string GetChangedString(std::string(generate_inst)(std::string),
std::string orig, std::string changed) {
std::string orig_decl = GetConstDecl(orig);
std::string changed_decl = GetConstDecl(changed);
std::string inst = generate_inst(changed);
std::vector<const char*> result = {
// clang-format off
"OpCapability Shader",
"OpCapability VulkanMemoryModelKHR",
"OpExtension \"SPV_KHR_vulkan_memory_model\"",
"OpMemoryModel Logical VulkanKHR",
"OpEntryPoint Vertex %1 \"shader\"",
"%uint = OpTypeInt 32 0",
"%_ptr_Workgroup_uint = OpTypePointer Workgroup %uint",
"%4 = OpVariable %_ptr_Workgroup_uint Workgroup",
"%uint_0 = OpConstant %uint 0",
"%uint_1 = OpConstant %uint 1",
"%void = OpTypeVoid",
"%8 = OpTypeFunction %void",
orig_decl.c_str() };
// clang-format on
if (changed != "0") result += changed_decl.c_str();
result += "%1 = OpFunction %void None %8";
result += "%10 = OpLabel";
result += inst.c_str();
result += "OpReturn";
result += "OpFunctionEnd";
return JoinAllInsts(result);
}
std::tuple<std::string, std::string> GetInputAndExpected(
std::string(generate_inst)(std::string),
StripAtomicCounterMemoryParam param) {
std::string orig = std::get<0>(param);
std::string changed = std::get<1>(param);
std::string input = GetUnchangedString(generate_inst, orig);
std::string expected = orig == changed
? GetUnchangedString(generate_inst, changed)
: GetChangedString(generate_inst, orig, changed);
return std::make_tuple(input, expected);
}
std::string GetOpControlBarrierInst(std::string val) {
return "OpControlBarrier %uint_1 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpControlBarrier) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpControlBarrierInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpMemoryBarrierInst(std::string val) {
return "OpMemoryBarrier %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpMemoryBarrier) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpMemoryBarrierInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicLoadInst(std::string val) {
return "%11 = OpAtomicLoad %uint %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpAtomicLoad) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicLoadInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicStoreInst(std::string val) {
return "OpAtomicStore %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicStore) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicStoreInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicExchangeInst(std::string val) {
return "%11 = OpAtomicExchange %uint %4 %uint_1 %uint_" + val + " %uint_0";
}
TEST_P(MemorySemanticsModified, OpAtomicExchange) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicExchangeInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicCompareExchangeInst(std::string val) {
return "%11 = OpAtomicCompareExchange %uint %4 %uint_1 %uint_" + val +
" %uint_" + val + " %uint_0 %uint_0";
}
TEST_P(MemorySemanticsModified, OpAtomicCompareExchange) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicCompareExchangeInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicCompareExchangeWeakInst(std::string val) {
return "%11 = OpAtomicCompareExchangeWeak %uint %4 %uint_1 %uint_" + val +
" %uint_" + val + " %uint_0 %uint_0";
}
TEST_P(MemorySemanticsModified, OpAtomicCompareExchangeWeak) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicCompareExchangeWeakInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicIIncrementInst(std::string val) {
return "%11 = OpAtomicIIncrement %uint %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpAtomicIIncrement) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicIIncrementInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicIDecrementInst(std::string val) {
return "%11 = OpAtomicIDecrement %uint %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpAtomicIDecrement) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicIDecrementInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicIAddInst(std::string val) {
return "%11 = OpAtomicIAdd %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicIAdd) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicIAddInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicISubInst(std::string val) {
return "%11 = OpAtomicISub %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicISub) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicISubInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicSMinInst(std::string val) {
return "%11 = OpAtomicSMin %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicSMin) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicSMinInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicUMinInst(std::string val) {
return "%11 = OpAtomicUMin %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicUMin) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicUMinInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicSMaxInst(std::string val) {
return "%11 = OpAtomicSMax %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicSMax) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicSMaxInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicUMaxInst(std::string val) {
return "%11 = OpAtomicUMax %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicUMax) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicUMaxInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicAndInst(std::string val) {
return "%11 = OpAtomicAnd %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicAnd) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicAndInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicOrInst(std::string val) {
return "%11 = OpAtomicOr %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicOr) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicOrInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicXorInst(std::string val) {
return "%11 = OpAtomicXor %uint %4 %uint_1 %uint_" + val + " %uint_1";
}
TEST_P(MemorySemanticsModified, OpAtomicXor) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicXorInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicFlagTestAndSetInst(std::string val) {
return "%11 = OpAtomicFlagTestAndSet %uint %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpAtomicFlagTestAndSet) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicFlagTestAndSetInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpAtomicFlagClearInst(std::string val) {
return "OpAtomicFlagClear %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpAtomicFlagClear) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpAtomicFlagClearInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetOpMemoryNamedBarrierInst(std::string val) {
return "OpMemoryNamedBarrier %4 %uint_1 %uint_" + val;
}
TEST_P(MemorySemanticsModified, OpMemoryNamedBarrier) {
std::string input, expected;
std::tie(input, expected) =
GetInputAndExpected(GetOpMemoryNamedBarrierInst, GetParam());
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(
StripAtomicCounterMemoryTest, MemorySemanticsModified,
::testing::ValuesIn(std::vector<StripAtomicCounterMemoryParam>({
std::make_tuple("1024", "0"),
std::make_tuple("5", "5"),
std::make_tuple("1288", "264"),
std::make_tuple("264", "264")
})));
// clang-format on
std::string GetNoMemorySemanticsPresentInst(std::string val) {
return "%11 = OpVariable %_ptr_Workgroup_uint Workgroup %uint_" + val;
}
TEST_F(NonMemorySemanticsUnmodifiedTest, NoMemorySemanticsPresent) {
std::string input, expected;
StripAtomicCounterMemoryParam param = std::make_tuple("1288", "1288");
std::tie(input, expected) =
GetInputAndExpected(GetNoMemorySemanticsPresentInst, param);
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
std::string GetMemorySemanticsPresentInst(std::string val) {
return "%11 = OpAtomicIAdd %uint %4 %uint_1 %uint_" + val + " %uint_1288";
}
TEST_F(NonMemorySemanticsUnmodifiedTest, MemorySemanticsPresent) {
std::string input, expected;
StripAtomicCounterMemoryParam param = std::make_tuple("1288", "264");
std::tie(input, expected) =
GetInputAndExpected(GetMemorySemanticsPresentInst, param);
SinglePassRunAndCheck<StripAtomicCounterMemoryPass>(input, expected,
/* skip_nop = */ false);
}
} // namespace
} // namespace opt
} // namespace spvtools