SPIRV-Tools/test/opt/fold_test.cpp

8337 lines
336 KiB
C++

// Copyright (c) 2016 Google Inc.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "source/opt/fold.h"
#include <limits>
#include <memory>
#include <string>
#include <unordered_set>
#include <vector>
#include "effcee/effcee.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "source/opt/build_module.h"
#include "source/opt/def_use_manager.h"
#include "source/opt/ir_context.h"
#include "source/opt/module.h"
#include "spirv-tools/libspirv.hpp"
#include "test/opt/pass_utils.h"
namespace spvtools {
namespace opt {
namespace {
using ::testing::Contains;
std::string Disassemble(const std::string& original, IRContext* context,
uint32_t disassemble_options = 0) {
std::vector<uint32_t> optimized_bin;
context->module()->ToBinary(&optimized_bin, true);
spv_target_env target_env = SPV_ENV_UNIVERSAL_1_2;
SpirvTools tools(target_env);
std::string optimized_asm;
EXPECT_TRUE(
tools.Disassemble(optimized_bin, &optimized_asm, disassemble_options))
<< "Disassembling failed for shader:\n"
<< original << std::endl;
return optimized_asm;
}
void Match(const std::string& original, IRContext* context,
uint32_t disassemble_options = 0) {
std::string disassembly = Disassemble(original, context, disassemble_options);
auto match_result = effcee::Match(disassembly, original);
EXPECT_EQ(effcee::Result::Status::Ok, match_result.status())
<< match_result.message() << "\nChecking result:\n"
<< disassembly;
}
template <class ResultType>
struct InstructionFoldingCase {
InstructionFoldingCase(const std::string& tb, uint32_t id, ResultType result)
: test_body(tb), id_to_fold(id), expected_result(result) {}
std::string test_body;
uint32_t id_to_fold;
ResultType expected_result;
};
using IntegerInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<uint32_t>>;
TEST_P(IntegerInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_TRUE(succeeded);
if (inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
EXPECT_EQ(inst->opcode(), SpvOpConstant);
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::IntConstant* result =
const_mrg->GetConstantFromInst(inst)->AsIntConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
EXPECT_EQ(result->GetU32BitValue(), tc.expected_result);
}
}
}
// Returns a common SPIR-V header for all of the test that follow.
#define INT_0_ID 100
#define TRUE_ID 101
#define VEC2_0_ID 102
#define INT_7_ID 103
#define FLOAT_0_ID 104
#define DOUBLE_0_ID 105
#define VEC4_0_ID 106
#define DVEC4_0_ID 106
#define HALF_0_ID 108
const std::string& Header() {
static const std::string header = R"(OpCapability Shader
OpCapability Float16
OpCapability Float64
OpCapability Int16
OpCapability Int64
%1 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %main "main"
OpExecutionMode %main OriginUpperLeft
OpSource GLSL 140
OpName %main "main"
%void = OpTypeVoid
%void_func = OpTypeFunction %void
%bool = OpTypeBool
%float = OpTypeFloat 32
%double = OpTypeFloat 64
%half = OpTypeFloat 16
%101 = OpConstantTrue %bool ; Need a def with an numerical id to define id maps.
%true = OpConstantTrue %bool
%false = OpConstantFalse %bool
%bool_null = OpConstantNull %bool
%short = OpTypeInt 16 1
%int = OpTypeInt 32 1
%long = OpTypeInt 64 1
%uint = OpTypeInt 32 0
%ulong = OpTypeInt 64 0
%v2int = OpTypeVector %int 2
%v4int = OpTypeVector %int 4
%v4float = OpTypeVector %float 4
%v4double = OpTypeVector %double 4
%v2uint = OpTypeVector %uint 2
%v2float = OpTypeVector %float 2
%v2double = OpTypeVector %double 2
%v2half = OpTypeVector %half 2
%v2bool = OpTypeVector %bool 2
%m2x2int = OpTypeMatrix %v2int 2
%mat4v4float = OpTypeMatrix %v4float 4
%mat4v4double = OpTypeMatrix %v4double 4
%struct_v2int_int_int = OpTypeStruct %v2int %int %int
%_ptr_int = OpTypePointer Function %int
%_ptr_uint = OpTypePointer Function %uint
%_ptr_bool = OpTypePointer Function %bool
%_ptr_float = OpTypePointer Function %float
%_ptr_double = OpTypePointer Function %double
%_ptr_half = OpTypePointer Function %half
%_ptr_long = OpTypePointer Function %long
%_ptr_ulong = OpTypePointer Function %ulong
%_ptr_v2int = OpTypePointer Function %v2int
%_ptr_v4int = OpTypePointer Function %v4int
%_ptr_v4float = OpTypePointer Function %v4float
%_ptr_v4double = OpTypePointer Function %v4double
%_ptr_struct_v2int_int_int = OpTypePointer Function %struct_v2int_int_int
%_ptr_v2float = OpTypePointer Function %v2float
%_ptr_v2double = OpTypePointer Function %v2double
%short_0 = OpConstant %short 0
%short_2 = OpConstant %short 2
%short_3 = OpConstant %short 3
%100 = OpConstant %int 0 ; Need a def with an numerical id to define id maps.
%103 = OpConstant %int 7 ; Need a def with an numerical id to define id maps.
%int_0 = OpConstant %int 0
%int_1 = OpConstant %int 1
%int_2 = OpConstant %int 2
%int_3 = OpConstant %int 3
%int_4 = OpConstant %int 4
%int_10 = OpConstant %int 10
%int_1073741824 = OpConstant %int 1073741824
%int_n1 = OpConstant %int -1
%int_n24 = OpConstant %int -24
%int_n858993459 = OpConstant %int -858993459
%int_min = OpConstant %int -2147483648
%int_max = OpConstant %int 2147483647
%long_0 = OpConstant %long 0
%long_1 = OpConstant %long 1
%long_2 = OpConstant %long 2
%long_3 = OpConstant %long 3
%long_10 = OpConstant %long 10
%long_4611686018427387904 = OpConstant %long 4611686018427387904
%long_n1 = OpConstant %long -1
%long_n3689348814741910323 = OpConstant %long -3689348814741910323
%long_min = OpConstant %long -9223372036854775808
%long_max = OpConstant %long 9223372036854775807
%uint_0 = OpConstant %uint 0
%uint_1 = OpConstant %uint 1
%uint_2 = OpConstant %uint 2
%uint_3 = OpConstant %uint 3
%uint_4 = OpConstant %uint 4
%uint_32 = OpConstant %uint 32
%uint_42 = OpConstant %uint 42
%uint_2147483649 = OpConstant %uint 2147483649
%uint_max = OpConstant %uint 4294967295
%ulong_0 = OpConstant %ulong 0
%ulong_1 = OpConstant %ulong 1
%ulong_2 = OpConstant %ulong 2
%ulong_9223372036854775809 = OpConstant %ulong 9223372036854775809
%ulong_max = OpConstant %ulong 18446744073709551615
%v2int_undef = OpUndef %v2int
%v2int_0_0 = OpConstantComposite %v2int %int_0 %int_0
%v2int_1_0 = OpConstantComposite %v2int %int_1 %int_0
%v2int_2_2 = OpConstantComposite %v2int %int_2 %int_2
%v2int_2_3 = OpConstantComposite %v2int %int_2 %int_3
%v2int_3_2 = OpConstantComposite %v2int %int_3 %int_2
%v2int_4_4 = OpConstantComposite %v2int %int_4 %int_4
%v2int_min_max = OpConstantComposite %v2int %int_min %int_max
%v2bool_null = OpConstantNull %v2bool
%v2bool_true_false = OpConstantComposite %v2bool %true %false
%v2bool_false_true = OpConstantComposite %v2bool %false %true
%struct_v2int_int_int_null = OpConstantNull %struct_v2int_int_int
%v2int_null = OpConstantNull %v2int
%102 = OpConstantComposite %v2int %103 %103
%v4int_undef = OpUndef %v4int
%v4int_0_0_0_0 = OpConstantComposite %v4int %int_0 %int_0 %int_0 %int_0
%m2x2int_undef = OpUndef %m2x2int
%struct_undef_0_0 = OpConstantComposite %struct_v2int_int_int %v2int_undef %int_0 %int_0
%float_n1 = OpConstant %float -1
%104 = OpConstant %float 0 ; Need a def with an numerical id to define id maps.
%float_null = OpConstantNull %float
%float_0 = OpConstant %float 0
%float_n0 = OpConstant %float -0.0
%float_1 = OpConstant %float 1
%float_2 = OpConstant %float 2
%float_3 = OpConstant %float 3
%float_4 = OpConstant %float 4
%float_2049 = OpConstant %float 2049
%float_n2049 = OpConstant %float -2049
%float_0p5 = OpConstant %float 0.5
%float_0p2 = OpConstant %float 0.2
%float_pi = OpConstant %float 1.5555
%float_1e16 = OpConstant %float 1e16
%float_n1e16 = OpConstant %float -1e16
%float_1en16 = OpConstant %float 1e-16
%float_n1en16 = OpConstant %float -1e-16
%v2float_0_0 = OpConstantComposite %v2float %float_0 %float_0
%v2float_2_2 = OpConstantComposite %v2float %float_2 %float_2
%v2float_2_3 = OpConstantComposite %v2float %float_2 %float_3
%v2float_3_2 = OpConstantComposite %v2float %float_3 %float_2
%v2float_4_4 = OpConstantComposite %v2float %float_4 %float_4
%v2float_2_0p5 = OpConstantComposite %v2float %float_2 %float_0p5
%v2float_0p2_0p5 = OpConstantComposite %v2float %float_0p2 %float_0p5
%v2float_null = OpConstantNull %v2float
%double_n1 = OpConstant %double -1
%105 = OpConstant %double 0 ; Need a def with an numerical id to define id maps.
%double_null = OpConstantNull %double
%double_0 = OpConstant %double 0
%double_n0 = OpConstant %double -0.0
%double_1 = OpConstant %double 1
%double_2 = OpConstant %double 2
%double_3 = OpConstant %double 3
%double_4 = OpConstant %double 4
%double_5 = OpConstant %double 5
%double_0p5 = OpConstant %double 0.5
%double_0p2 = OpConstant %double 0.2
%v2double_0_0 = OpConstantComposite %v2double %double_0 %double_0
%v2double_2_2 = OpConstantComposite %v2double %double_2 %double_2
%v2double_2_3 = OpConstantComposite %v2double %double_2 %double_3
%v2double_3_2 = OpConstantComposite %v2double %double_3 %double_2
%v2double_4_4 = OpConstantComposite %v2double %double_4 %double_4
%v2double_2_0p5 = OpConstantComposite %v2double %double_2 %double_0p5
%v2double_null = OpConstantNull %v2double
%108 = OpConstant %half 0
%half_1 = OpConstant %half 1
%half_0_1 = OpConstantComposite %v2half %108 %half_1
%106 = OpConstantComposite %v4float %float_0 %float_0 %float_0 %float_0
%v4float_0_0_0_0 = OpConstantComposite %v4float %float_0 %float_0 %float_0 %float_0
%v4float_0_0_0_1 = OpConstantComposite %v4float %float_0 %float_0 %float_0 %float_1
%v4float_0_1_0_0 = OpConstantComposite %v4float %float_0 %float_1 %float_null %float_0
%v4float_1_1_1_1 = OpConstantComposite %v4float %float_1 %float_1 %float_1 %float_1
%v4float_1_2_3_4 = OpConstantComposite %v4float %float_1 %float_2 %float_3 %float_4
%v4float_null = OpConstantNull %v4float
%mat4v4float_null = OpConstantComposite %mat4v4float %v4float_null %v4float_null %v4float_null %v4float_null
%mat4v4float_1_2_3_4 = OpConstantComposite %mat4v4float %v4float_1_2_3_4 %v4float_1_2_3_4 %v4float_1_2_3_4 %v4float_1_2_3_4
%107 = OpConstantComposite %v4double %double_0 %double_0 %double_0 %double_0
%v4double_0_0_0_0 = OpConstantComposite %v4double %double_0 %double_0 %double_0 %double_0
%v4double_0_0_0_1 = OpConstantComposite %v4double %double_0 %double_0 %double_0 %double_1
%v4double_0_1_0_0 = OpConstantComposite %v4double %double_0 %double_1 %double_null %double_0
%v4double_1_1_1_1 = OpConstantComposite %v4double %double_1 %double_1 %double_1 %double_1
%v4double_1_2_3_4 = OpConstantComposite %v4double %double_1 %double_2 %double_3 %double_4
%v4double_1_1_1_0p5 = OpConstantComposite %v4double %double_1 %double_1 %double_1 %double_0p5
%v4double_null = OpConstantNull %v4double
%mat4v4double_null = OpConstantComposite %mat4v4double %v4double_null %v4double_null %v4double_null %v4double_null
%mat4v4double_1_2_3_4 = OpConstantComposite %mat4v4double %v4double_1_2_3_4 %v4double_1_2_3_4 %v4double_1_2_3_4 %v4double_1_2_3_4
%v4float_n1_2_1_3 = OpConstantComposite %v4float %float_n1 %float_2 %float_1 %float_3
%uint_0x3f800000 = OpConstant %uint 0x3f800000
%uint_0xbf800000 = OpConstant %uint 0xbf800000
%v2uint_0x3f800000_0xbf800000 = OpConstantComposite %v2uint %uint_0x3f800000 %uint_0xbf800000
%long_0xbf8000003f800000 = OpConstant %long 0xbf8000003f800000
%int_0x3FF00000 = OpConstant %int 0x3FF00000
%int_0x00000000 = OpConstant %int 0x00000000
%int_0xC05FD666 = OpConstant %int 0xC05FD666
%int_0x66666666 = OpConstant %int 0x66666666
%v4int_0x3FF00000_0x00000000_0xC05FD666_0x66666666 = OpConstantComposite %v4int %int_0x00000000 %int_0x3FF00000 %int_0x66666666 %int_0xC05FD666
)";
return header;
}
// Returns the header with definitions of float NaN and double NaN. Since FC
// "; CHECK: [[double_n0:%\\w+]] = OpConstant [[double]] -0\n" finds
// %double_nan = OpConstant %double -0x1.8p+1024 instead of
// %double_n0 = OpConstant %double -0,
// we separates those definitions from Header().
const std::string& HeaderWithNaN() {
static const std::string headerWithNaN =
Header() +
R"(%float_nan = OpConstant %float -0x1.8p+128
%double_nan = OpConstant %double -0x1.8p+1024
)";
return headerWithNaN;
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, IntegerInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 0*n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpIMul %int %int_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: fold n*0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpIMul %int %load %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: fold 0/n (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSDiv %int %int_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: fold n/0 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSDiv %int %load %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 4: fold 0/n (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUDiv %uint %uint_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 5: fold n/0 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSDiv %int %load %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 6: fold 0 remainder n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSRem %int %int_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 7: fold n remainder 0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSRem %int %load %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 8: fold 0%n (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSMod %int %int_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 9: fold n%0 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSMod %int %load %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 10: fold 0%n (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUMod %uint %uint_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 11: fold n%0 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUMod %uint %load %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 12: fold n << 32
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpShiftLeftLogical %uint %load %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 13: fold n >> 32
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpShiftRightLogical %uint %load %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 14: fold n | 0xFFFFFFFF
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpBitwiseOr %uint %load %uint_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0xFFFFFFFF),
// Test case 15: fold 0xFFFFFFFF | n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpBitwiseOr %uint %uint_max %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0xFFFFFFFF),
// Test case 16: fold n & 0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpBitwiseAnd %uint %load %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 17: fold 1/0 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpSDiv %int %int_1 %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 18: fold 1/0 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpUDiv %uint %uint_1 %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 19: fold OpSRem 1 0 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpSRem %int %int_1 %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 20: fold 1%0 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpSMod %int %int_1 %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 21: fold 1%0 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpUMod %uint %uint_1 %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 22: fold unsigned n >> 42 (undefined, so set to zero).
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpShiftRightLogical %uint %load %uint_42\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 23: fold signed n >> 42 (undefined, so set to zero).
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpShiftRightLogical %int %load %uint_42\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 24: fold n << 42 (undefined, so set to zero).
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpShiftLeftLogical %int %load %uint_42\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 25: fold -24 >> 32 (defined as -1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpShiftRightArithmetic %int %int_n24 %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -1),
// Test case 26: fold 2 >> 32 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpShiftRightArithmetic %int %int_2 %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 27: fold 2 >> 32 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpShiftRightLogical %int %int_2 %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 28: fold 2 << 32
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpShiftLeftLogical %int %int_2 %uint_32\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 29: fold -INT_MIN
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpSNegate %int %int_min\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<int32_t>::min()),
// Test case 30: fold UMin 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UMin %uint_3 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 31: fold UMin 4 2
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UMin %uint_4 %uint_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 32: fold SMin 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 UMin %int_3 %int_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 33: fold SMin 4 2
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 SMin %int_4 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 34: fold UMax 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UMax %uint_3 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4),
// Test case 35: fold UMax 3 2
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UMax %uint_3 %uint_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 36: fold SMax 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 UMax %int_3 %int_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4),
// Test case 37: fold SMax 3 2
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 SMax %int_3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 38: fold UClamp 2 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UClamp %uint_2 %uint_3 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 39: fold UClamp 2 0 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UClamp %uint_2 %uint_0 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 40: fold UClamp 2 0 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %uint %1 UClamp %uint_2 %uint_0 %uint_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1),
// Test case 41: fold SClamp 2 3 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 SClamp %int_2 %int_3 %int_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 42: fold SClamp 2 0 4
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 SClamp %int_2 %int_0 %int_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 43: fold SClamp 2 0 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %int %1 SClamp %int_2 %int_0 %int_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1),
// Test case 44: SClamp 1 2 x
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %int\n" +
"%2 = OpExtInst %int %1 SClamp %int_1 %int_2 %undef\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 45: SClamp 2 x 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %int\n" +
"%2 = OpExtInst %int %1 SClamp %int_2 %undef %int_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1),
// Test case 44: UClamp 1 2 x
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %uint\n" +
"%2 = OpExtInst %uint %1 UClamp %uint_1 %uint_2 %undef\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2),
// Test case 45: UClamp 2 x 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %uint\n" +
"%2 = OpExtInst %uint %1 UClamp %uint_2 %undef %uint_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1),
// Test case 46: Bit-cast int 0 to unsigned int
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %uint %int_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 47: Bit-cast int -24 to unsigned int
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %uint %int_n24\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, static_cast<uint32_t>(-24)),
// Test case 48: Bit-cast float 1.0f to unsigned int
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %uint %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, static_cast<uint32_t>(0x3f800000))
));
// clang-format on
using IntVectorInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<std::vector<uint32_t>>>;
TEST_P(IntVectorInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
SpvOp original_opcode = inst->opcode();
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_EQ(succeeded, inst == nullptr || inst->opcode() != original_opcode);
if (succeeded && inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
std::vector<SpvOp> opcodes = {SpvOpConstantComposite};
EXPECT_THAT(opcodes, Contains(inst->opcode()));
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::Constant* result = const_mrg->GetConstantFromInst(inst);
EXPECT_NE(result, nullptr);
if (result != nullptr) {
const std::vector<const analysis::Constant*>& componenets =
result->AsVectorConstant()->GetComponents();
EXPECT_EQ(componenets.size(), tc.expected_result.size());
for (size_t i = 0; i < componenets.size(); i++) {
EXPECT_EQ(tc.expected_result[i], componenets[i]->GetU32());
}
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, IntVectorInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 0*n
InstructionFoldingCase<std::vector<uint32_t>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpVectorShuffle %v2int %v2int_2_2 %v2int_2_3 0 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {2,3}),
InstructionFoldingCase<std::vector<uint32_t>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpVectorShuffle %v2int %v2int_null %v2int_2_3 0 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0,3}),
InstructionFoldingCase<std::vector<uint32_t>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpVectorShuffle %v2int %v2int_null %v2int_2_3 4294967295 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0,0}),
InstructionFoldingCase<std::vector<uint32_t>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpVectorShuffle %v2int %v2int_null %v2int_2_3 0 4294967295 \n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0,0}),
// Test case 4: fold bit-cast int -24 to unsigned int
InstructionFoldingCase<std::vector<uint32_t>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpBitcast %v2uint %v2int_min_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {2147483648, 2147483647})
));
// clang-format on
using DoubleVectorInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<std::vector<double>>>;
TEST_P(DoubleVectorInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_TRUE(succeeded);
if (succeeded && inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
std::vector<SpvOp> opcodes = {SpvOpConstantComposite};
EXPECT_THAT(opcodes, Contains(inst->opcode()));
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::Constant* result = const_mrg->GetConstantFromInst(inst);
EXPECT_NE(result, nullptr);
if (result != nullptr) {
const std::vector<const analysis::Constant*>& componenets =
result->AsVectorConstant()->GetComponents();
EXPECT_EQ(componenets.size(), tc.expected_result.size());
for (size_t i = 0; i < componenets.size(); i++) {
EXPECT_EQ(tc.expected_result[i], componenets[i]->GetDouble());
}
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, DoubleVectorInstructionFoldingTest,
::testing::Values(
// Test case 0: bit-cast int {0x3FF00000,0x00000000,0xC05FD666,0x66666666}
// to double vector
InstructionFoldingCase<std::vector<double>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %v2double %v4int_0x3FF00000_0x00000000_0xC05FD666_0x66666666\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {1.0,-127.35}),
// Test case 1: OpVectorTimesMatrix Non-Zero Zero {{0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}} {1.0, 2.0, 3.0, 4.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4double %v4double_1_2_3_4 %mat4v4double_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0,0.0,0.0,0.0}),
// Test case 2: OpVectorTimesMatrix Zero Non-Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {0.0, 0.0, 0.0, 0.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4double %v4double_null %mat4v4double_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0,0.0,0.0,0.0}),
// Test case 3: OpVectorTimesMatrix Non-Zero Non-Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {1.0, 2.0, 3.0, 4.0} {30.0, 30.0, 30.0, 30.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4double %v4double_1_2_3_4 %mat4v4double_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {30.0,30.0,30.0,30.0}),
// Test case 4: OpMatrixTimesVector Zero Non-Zero {1.0, 2.0, 3.0, 4.0} {{0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4double %mat4v4double_null %v4double_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0,0.0,0.0,0.0}),
// Test case 5: OpMatrixTimesVector Non-Zero Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {0.0, 0.0, 0.0, 0.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4double %mat4v4double_1_2_3_4 %v4double_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0,0.0,0.0,0.0}),
// Test case 6: OpMatrixTimesVector Non-Zero Non-Zero {1.0, 2.0, 3.0, 4.0} {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {10.0, 20.0, 30.0, 40.0}
InstructionFoldingCase<std::vector<double>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4double %mat4v4double_1_2_3_4 %v4double_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {10.0,20.0,30.0,40.0})
));
using FloatVectorInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<std::vector<float>>>;
TEST_P(FloatVectorInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
SpvOp original_opcode = inst->opcode();
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_EQ(succeeded, inst == nullptr || inst->opcode() != original_opcode);
if (succeeded && inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
std::vector<SpvOp> opcodes = {SpvOpConstantComposite};
EXPECT_THAT(opcodes, Contains(inst->opcode()));
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::Constant* result = const_mrg->GetConstantFromInst(inst);
EXPECT_NE(result, nullptr);
if (result != nullptr) {
const std::vector<const analysis::Constant*>& componenets =
result->AsVectorConstant()->GetComponents();
EXPECT_EQ(componenets.size(), tc.expected_result.size());
for (size_t i = 0; i < componenets.size(); i++) {
EXPECT_EQ(tc.expected_result[i], componenets[i]->GetFloat());
}
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, FloatVectorInstructionFoldingTest,
::testing::Values(
// Test case 0: FMix {2.0, 2.0}, {2.0, 3.0} {0.2,0.5}
InstructionFoldingCase<std::vector<float>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %v2float %1 FMix %v2float_2_3 %v2float_0_0 %v2float_0p2_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {1.6f,1.5f}),
// Test case 1: bit-cast unsigned int vector {0x3f800000, 0xbf800000} to
// float vector
InstructionFoldingCase<std::vector<float>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %v2float %v2uint_0x3f800000_0xbf800000\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {1.0f,-1.0f}),
// Test case 2: bit-cast long int 0xbf8000003f800000 to float vector
InstructionFoldingCase<std::vector<float>>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpBitcast %v2float %long_0xbf8000003f800000\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {1.0f,-1.0f}),
// Test case 3: OpVectorTimesMatrix Non-Zero Zero {{0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}} {1.0, 2.0, 3.0, 4.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4float %v4float_1_2_3_4 %mat4v4float_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0f,0.0f,0.0f,0.0f}),
// Test case 4: OpVectorTimesMatrix Zero Non-Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {0.0, 0.0, 0.0, 0.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4float %v4float_null %mat4v4float_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0f,0.0f,0.0f,0.0f}),
// Test case 5: OpVectorTimesMatrix Non-Zero Non-Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {1.0, 2.0, 3.0, 4.0} {30.0, 30.0, 30.0, 30.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesMatrix %v4float %v4float_1_2_3_4 %mat4v4float_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {30.0f,30.0f,30.0f,30.0f}),
// Test case 6: OpMatrixTimesVector Zero Non-Zero {1.0, 2.0, 3.0, 4.0} {{0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}, {0.0, 0.0, 0.0, 0.0}} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4float %mat4v4float_null %v4float_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0f,0.0f,0.0f,0.0f}),
// Test case 7: OpMatrixTimesVector Non-Zero Zero {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {0.0, 0.0, 0.0, 0.0} {0.0, 0.0, 0.0, 0.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4float %mat4v4float_1_2_3_4 %v4float_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {0.0f,0.0f,0.0f,0.0f}),
// Test case 8: OpMatrixTimesVector Non-Zero Non-Zero {1.0, 2.0, 3.0, 4.0} {{1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}, {1.0, 2.0, 3.0, 4.0}} {10.0, 20.0, 30.0, 40.0}
InstructionFoldingCase<std::vector<float>>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpMatrixTimesVector %v4float %mat4v4float_1_2_3_4 %v4float_1_2_3_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, {10.0f,20.0f,30.0f,40.0f})
));
// clang-format on
using BooleanInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
TEST_P(BooleanInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_TRUE(succeeded);
if (inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
std::vector<SpvOp> bool_opcodes = {SpvOpConstantTrue, SpvOpConstantFalse};
EXPECT_THAT(bool_opcodes, Contains(inst->opcode()));
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::BoolConstant* result =
const_mrg->GetConstantFromInst(inst)->AsBoolConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
EXPECT_EQ(result->value(), tc.expected_result);
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold true || n
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpLogicalOr %bool %true %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 1: fold n || true
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpLogicalOr %bool %load %true\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold false && n
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpLogicalAnd %bool %false %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 3: fold n && false
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpLogicalAnd %bool %load %false\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold n < 0 (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpULessThan %bool %load %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 5: fold UINT_MAX < n (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpULessThan %bool %uint_max %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold INT_MAX < n (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSLessThan %bool %int_max %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 7: fold n < INT_MIN (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSLessThan %bool %load %int_min\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 0 > n (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUGreaterThan %bool %uint_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold n > UINT_MAX (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUGreaterThan %bool %load %uint_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 10: fold n > INT_MAX (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSGreaterThan %bool %load %int_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 11: fold INT_MIN > n (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpSGreaterThan %bool %int_min %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 12: fold 0 <= n (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpULessThanEqual %bool %uint_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 13: fold n <= UINT_MAX (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpULessThanEqual %bool %load %uint_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 14: fold INT_MIN <= n (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSLessThanEqual %bool %int_min %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 15: fold n <= INT_MAX (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSLessThanEqual %bool %load %int_max\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 16: fold n >= 0 (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUGreaterThanEqual %bool %load %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 17: fold UINT_MAX >= n (unsigned)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load = OpLoad %uint %n\n" +
"%2 = OpUGreaterThanEqual %bool %uint_max %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 18: fold n >= INT_MIN (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSGreaterThanEqual %bool %load %int_min\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 19: fold INT_MAX >= n (signed)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSGreaterThanEqual %bool %int_max %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(FClampAndCmpLHS, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 0.0 > clamp(n, 0.0, 1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold 0.0 > clamp(n, -1.0, -1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_n1\n" +
"%2 = OpFOrdGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold 0.0 >= clamp(n, 1, 2)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 3: fold 0.0 >= clamp(n, -1.0, 0.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 4: fold 0.0 <= clamp(n, 0.0, 1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold 0.0 <= clamp(n, -1.0, -1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_n1\n" +
"%2 = OpFOrdLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold 0.0 < clamp(n, 1, 2)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold 0.0 < clamp(n, -1.0, 0.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFOrdLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 0.0 > clamp(n, 0.0, 1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFUnordGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold 0.0 > clamp(n, -1.0, -1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_n1\n" +
"%2 = OpFUnordGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 10: fold 0.0 >= clamp(n, 1, 2)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 11: fold 0.0 >= clamp(n, -1.0, 0.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold 0.0 <= clamp(n, 0.0, 1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFUnordLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 13: fold 0.0 <= clamp(n, -1.0, -1.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_n1\n" +
"%2 = OpFUnordLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 14: fold 0.0 < clamp(n, 1, 2)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFUnordLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 15: fold 0.0 < clamp(n, -1.0, 0.0)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false)
));
INSTANTIATE_TEST_SUITE_P(FClampAndCmpRHS, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold clamp(n, 0.0, 1.0) > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdGreaterThan %bool %clamp %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold clamp(n, 1.0, 1.0) > 0.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_1\n" +
"%2 = OpFOrdGreaterThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold clamp(n, 1, 2) >= 0.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdGreaterThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: fold clamp(n, 1.0, 2.0) >= 3.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdGreaterThanEqual %bool %clamp %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold clamp(n, 0.0, 1.0) <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdLessThanEqual %bool %clamp %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold clamp(n, 1.0, 2.0) <= 0.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdLessThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold clamp(n, 1, 2) < 3
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFOrdLessThan %bool %clamp %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold clamp(n, -1.0, 0.0) < -1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFOrdLessThan %bool %clamp %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold clamp(n, 0.0, 1.0) > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFUnordGreaterThan %bool %clamp %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold clamp(n, 1.0, 2.0) > 0.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFUnordGreaterThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 10: fold clamp(n, 1, 2) >= 3.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFUnordGreaterThanEqual %bool %clamp %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 11: fold clamp(n, -1.0, 0.0) >= -1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordGreaterThanEqual %bool %clamp %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold clamp(n, 0.0, 1.0) <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFUnordLessThanEqual %bool %clamp %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 13: fold clamp(n, 1.0, 1.0) <= 0.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_1\n" +
"%2 = OpFUnordLessThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 14: fold clamp(n, 1, 2) < 3
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_1 %float_2\n" +
"%2 = OpFUnordLessThan %bool %clamp %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 15: fold clamp(n, -1.0, 0.0) < -1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordLessThan %bool %clamp %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 16: fold clamp(n, -1.0, 0.0) < -1.0 (one test for double)
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%ld = OpLoad %double %n\n" +
"%clamp = OpExtInst %double %1 FClamp %ld %double_n1 %double_0\n" +
"%2 = OpFUnordLessThan %bool %clamp %double_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false)
));
// clang-format on
using FloatInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<float>>;
TEST_P(FloatInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_TRUE(succeeded);
if (inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
EXPECT_EQ(inst->opcode(), SpvOpConstant);
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::FloatConstant* result =
const_mrg->GetConstantFromInst(inst)->AsFloatConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
if (!std::isnan(tc.expected_result)) {
EXPECT_EQ(result->GetFloatValue(), tc.expected_result);
} else {
EXPECT_TRUE(std::isnan(result->GetFloatValue()));
}
}
}
}
// Not testing NaNs because there are no expectations concerning NaNs according
// to the "Precision and Operation of SPIR-V Instructions" section of the Vulkan
// specification.
// clang-format off
INSTANTIATE_TEST_SUITE_P(FloatConstantFoldingTest, FloatInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold 2.0 - 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFSub %float %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 1: Fold 2.0 + 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFAdd %float %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3.0),
// Test case 2: Fold 3.0 * 2.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFMul %float %float_3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 6.0),
// Test case 3: Fold 1.0 / 2.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.5),
// Test case 4: Fold 1.0 / 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_1 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::infinity()),
// Test case 5: Fold -1.0 / 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_n1 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -std::numeric_limits<float>::infinity()),
// Test case 6: Fold (2.0, 3.0) dot (2.0, 0.5)
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpDot %float %v2float_2_3 %v2float_2_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 5.5f),
// Test case 7: Fold (0.0, 0.0) dot v
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %v\n" +
"%3 = OpDot %float %v2float_0_0 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 8: Fold v dot (0.0, 0.0)
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %v\n" +
"%3 = OpDot %float %2 %v2float_0_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 9: Fold Null dot v
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %v\n" +
"%3 = OpDot %float %v2float_null %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 10: Fold v dot Null
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %v\n" +
"%3 = OpDot %float %2 %v2float_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 11: Fold -2.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFNegate %float %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -2),
// Test case 12: QuantizeToF16 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 13: QuantizeToF16 positive non exact
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_2049\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2048),
// Test case 14: QuantizeToF16 negative non exact
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_n2049\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -2048),
// Test case 15: QuantizeToF16 large positive
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_1e16\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::infinity()),
// Test case 16: QuantizeToF16 large negative
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_n1e16\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -std::numeric_limits<float>::infinity()),
// Test case 17: QuantizeToF16 small positive
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_1en16\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 18: QuantizeToF16 small negative
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_n1en16\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 19: QuantizeToF16 nan
InstructionFoldingCase<float>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpQuantizeToF16 %float %float_nan\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::quiet_NaN()),
// Test case 20: FMix 1.0 4.0 0.2
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FMix %float_1 %float_4 %float_0p2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.6f),
// Test case 21: FMin 1.0 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FMin %float_1 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0f),
// Test case 22: FMin 4.0 0.2
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FMin %float_4 %float_0p2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.2f),
// Test case 23: FMax 1.0 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FMax %float_1 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4.0f),
// Test case 24: FMax 1.0 0.2
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FMax %float_1 %float_0p2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0f),
// Test case 25: FClamp 1.0 0.2 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FClamp %float_1 %float_0p2 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0f),
// Test case 26: FClamp 0.2 2.0 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FClamp %float_0p2 %float_2 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0f),
// Test case 27: FClamp 2049.0 2.0 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 FClamp %float_2049 %float_2 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4.0f),
// Test case 28: FClamp 1.0 2.0 x
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %float\n" +
"%2 = OpExtInst %float %1 FClamp %float_1 %float_2 %undef\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 29: FClamp 1.0 x 0.5
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %float\n" +
"%2 = OpExtInst %float %1 FClamp %float_1 %undef %float_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.5),
// Test case 30: Sin 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Sin %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 31: Cos 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Cos %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 32: Tan 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Tan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 33: Asin 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Asin %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 34: Acos 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Acos %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 35: Atan 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Atan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 36: Exp 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Exp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 37: Log 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Log %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 38: Exp2 2.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Exp2 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4.0),
// Test case 39: Log2 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Log2 %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 40: Sqrt 4.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Sqrt %float_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 41: Atan2 0.0 1.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Atan2 %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.0),
// Test case 42: Pow 2.0 3.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %float %1 Pow %float_2 %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 8.0),
// Test case 43: Fold 1.0 / -0.0.
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_1 %float_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -std::numeric_limits<float>::infinity()),
// Test case 44: Fold -1.0 / -0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_n1 %float_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::infinity()),
// Test case 45: Fold 0.0 / 0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_0 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::quiet_NaN()),
// Test case 46: Fold 0.0 / -0.0
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %float %float_0 %float_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<float>::quiet_NaN())
));
// clang-format on
using DoubleInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<double>>;
TEST_P(DoubleInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_TRUE(succeeded);
if (inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
inst = def_use_mgr->GetDef(inst->GetSingleWordInOperand(0));
EXPECT_EQ(inst->opcode(), SpvOpConstant);
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::FloatConstant* result =
const_mrg->GetConstantFromInst(inst)->AsFloatConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
if (!std::isnan(tc.expected_result)) {
EXPECT_EQ(result->GetDoubleValue(), tc.expected_result);
} else {
EXPECT_TRUE(std::isnan(result->GetDoubleValue()));
}
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(DoubleConstantFoldingTest, DoubleInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold 2.0 - 1.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFSub %double %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 1: Fold 2.0 + 1.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFAdd %double %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3.0),
// Test case 2: Fold 3.0 * 2.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFMul %double %double_3 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 6.0),
// Test case 3: Fold 1.0 / 2.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.5),
// Test case 4: Fold 1.0 / 0.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_1 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<double>::infinity()),
// Test case 5: Fold -1.0 / 0.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_n1 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -std::numeric_limits<double>::infinity()),
// Test case 6: Fold (2.0, 3.0) dot (2.0, 0.5)
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpDot %double %v2double_2_3 %v2double_2_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 5.5f),
// Test case 7: Fold (0.0, 0.0) dot v
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2double Function\n" +
"%2 = OpLoad %v2double %v\n" +
"%3 = OpDot %double %v2double_0_0 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 8: Fold v dot (0.0, 0.0)
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2double Function\n" +
"%2 = OpLoad %v2double %v\n" +
"%3 = OpDot %double %2 %v2double_0_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 9: Fold Null dot v
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2double Function\n" +
"%2 = OpLoad %v2double %v\n" +
"%3 = OpDot %double %v2double_null %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 10: Fold v dot Null
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%v = OpVariable %_ptr_v2double Function\n" +
"%2 = OpLoad %v2double %v\n" +
"%3 = OpDot %double %2 %v2double_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0.0f),
// Test case 11: Fold -2.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFNegate %double %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -2),
// Test case 12: FMin 1.0 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FMin %double_1 %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 13: FMin 4.0 0.2
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FMin %double_4 %double_0p2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.2),
// Test case 14: FMax 1.0 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FMax %double_1 %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4.0),
// Test case 15: FMax 1.0 0.2
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FMax %double_1 %double_0p2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 16: FClamp 1.0 0.2 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FClamp %double_1 %double_0p2 %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 1.0),
// Test case 17: FClamp 0.2 2.0 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FClamp %double_0p2 %double_2 %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 18: FClamp 5.0 2.0 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpExtInst %double %1 FClamp %double_5 %double_2 %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4.0),
// Test case 19: FClamp 1.0 2.0 x
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %double\n" +
"%2 = OpExtInst %double %1 FClamp %double_1 %double_2 %undef\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 20: FClamp 1.0 x 0.5
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %double\n" +
"%2 = OpExtInst %double %1 FClamp %double_1 %undef %double_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0.5),
// Test case 21: Sqrt 4.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %double\n" +
"%2 = OpExtInst %double %1 Sqrt %double_4\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 2.0),
// Test case 22: Pow 2.0 3.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%undef = OpUndef %double\n" +
"%2 = OpExtInst %double %1 Pow %double_2 %double_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 8.0),
// Test case 23: Fold 1.0 / -0.0.
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_1 %double_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, -std::numeric_limits<double>::infinity()),
// Test case 24: Fold -1.0 / -0.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_n1 %double_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<double>::infinity()),
// Test case 25: Fold 0.0 / 0.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_0 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<double>::quiet_NaN()),
// Test case 26: Fold 0.0 / -0.0
InstructionFoldingCase<double>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFDiv %double %double_0 %double_n0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, std::numeric_limits<double>::quiet_NaN())
));
// clang-format on
// clang-format off
INSTANTIATE_TEST_SUITE_P(DoubleOrderedCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 1.0 == 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold 1.0 != 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold 1.0 < 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: fold 1.0 > 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold 1.0 <= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold 1.0 >= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold 1.0 == 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold 1.0 != 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 1.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold 1.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 10: fold 1.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 11: fold 1.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold 2.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 13: fold 2.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 14: fold 2.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 15: fold 2.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(DoubleUnorderedCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 1.0 == 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold 1.0 != 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold 1.0 < 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: fold 1.0 > 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold 1.0 <= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold 1.0 >= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %double_1 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold 1.0 == 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold 1.0 != 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 1.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold 1.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 10: fold 1.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 11: fold 1.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %double_1 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold 2.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 13: fold 2.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 14: fold 2.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 15: fold 2.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %double_2 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(FloatOrderedCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 1.0 == 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold 1.0 != 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold 1.0 < 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: fold 1.0 > 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold 1.0 <= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold 1.0 >= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold 1.0 == 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold 1.0 != 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 1.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold 1.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 10: fold 1.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 11: fold 1.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold 2.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThan %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 13: fold 2.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThan %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 14: fold 2.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdLessThanEqual %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 15: fold 2.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(FloatUnorderedCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold 1.0 == 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold 1.0 != 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold 1.0 < 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: fold 1.0 > 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 4: fold 1.0 <= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: fold 1.0 >= 2.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_1 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 6: fold 1.0 == 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 7: fold 1.0 != 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 8: fold 1.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 9: fold 1.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 10: fold 1.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 11: fold 1.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_1 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 12: fold 2.0 < 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThan %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 13: fold 2.0 > 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThan %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 14: fold 2.0 <= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordLessThanEqual %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 15: fold 2.0 >= 1.0
InstructionFoldingCase<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_2 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(DoubleNaNCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold NaN == 0 (ord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %double_nan %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold NaN == NaN (unord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %double_nan %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold NaN != NaN (ord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %double_nan %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 3: fold NaN != NaN (unord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %double_nan %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(FloatNaNCompareConstantFoldingTest, BooleanInstructionFoldingTest,
::testing::Values(
// Test case 0: fold NaN == 0 (ord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdEqual %bool %float_nan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 1: fold NaN == NaN (unord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordEqual %bool %float_nan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: fold NaN != NaN (ord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFOrdNotEqual %bool %float_nan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, false),
// Test case 3: fold NaN != NaN (unord)
InstructionFoldingCase<bool>(
HeaderWithNaN() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFUnordNotEqual %bool %float_nan %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
// clang-format on
template <class ResultType>
struct InstructionFoldingCaseWithMap {
InstructionFoldingCaseWithMap(const std::string& tb, uint32_t id,
ResultType result,
std::function<uint32_t(uint32_t)> map)
: test_body(tb), id_to_fold(id), expected_result(result), id_map(map) {}
std::string test_body;
uint32_t id_to_fold;
ResultType expected_result;
std::function<uint32_t(uint32_t)> id_map;
};
using IntegerInstructionFoldingTestWithMap =
::testing::TestWithParam<InstructionFoldingCaseWithMap<uint32_t>>;
TEST_P(IntegerInstructionFoldingTestWithMap, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
inst = context->get_instruction_folder().FoldInstructionToConstant(inst,
tc.id_map);
// Make sure the instruction folded as expected.
EXPECT_NE(inst, nullptr);
if (inst != nullptr) {
EXPECT_EQ(inst->opcode(), SpvOpConstant);
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::IntConstant* result =
const_mrg->GetConstantFromInst(inst)->AsIntConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
EXPECT_EQ(result->GetU32BitValue(), tc.expected_result);
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, IntegerInstructionFoldingTestWithMap,
::testing::Values(
// Test case 0: fold %3 = 0; %3 * n
InstructionFoldingCaseWithMap<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%3 = OpCopyObject %int %int_0\n"
"%2 = OpIMul %int %3 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0, [](uint32_t id) {return (id == 3 ? INT_0_ID : id);})
));
// clang-format on
using BooleanInstructionFoldingTestWithMap =
::testing::TestWithParam<InstructionFoldingCaseWithMap<bool>>;
TEST_P(BooleanInstructionFoldingTestWithMap, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
inst = context->get_instruction_folder().FoldInstructionToConstant(inst,
tc.id_map);
// Make sure the instruction folded as expected.
EXPECT_NE(inst, nullptr);
if (inst != nullptr) {
std::vector<SpvOp> bool_opcodes = {SpvOpConstantTrue, SpvOpConstantFalse};
EXPECT_THAT(bool_opcodes, Contains(inst->opcode()));
analysis::ConstantManager* const_mrg = context->get_constant_mgr();
const analysis::BoolConstant* result =
const_mrg->GetConstantFromInst(inst)->AsBoolConstant();
EXPECT_NE(result, nullptr);
if (result != nullptr) {
EXPECT_EQ(result->value(), tc.expected_result);
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(TestCase, BooleanInstructionFoldingTestWithMap,
::testing::Values(
// Test case 0: fold %3 = true; %3 || n
InstructionFoldingCaseWithMap<bool>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%3 = OpCopyObject %bool %true\n" +
"%2 = OpLogicalOr %bool %3 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true, [](uint32_t id) {return (id == 3 ? TRUE_ID : id);})
));
// clang-format on
using GeneralInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<uint32_t>>;
TEST_P(GeneralInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_EQ(inst->result_id(), original_inst->result_id());
EXPECT_EQ(inst->type_id(), original_inst->type_id());
EXPECT_TRUE((!succeeded) == (tc.expected_result == 0));
if (succeeded) {
EXPECT_EQ(inst->opcode(), SpvOpCopyObject);
EXPECT_EQ(inst->GetSingleWordInOperand(0), tc.expected_result);
} else {
EXPECT_EQ(inst->NumInOperands(), original_inst->NumInOperands());
for (uint32_t i = 0; i < inst->NumInOperands(); ++i) {
EXPECT_EQ(inst->GetOperand(i), original_inst->GetOperand(i));
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(IntegerArithmeticTestCases, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold n * m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpIMul %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't fold n / m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpUDiv %uint %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Don't fold n / m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpSDiv %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Don't fold n remainder m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpSRem %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 4: Don't fold n % m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpSMod %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 5: Don't fold n % m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpUMod %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 6: Don't fold n << m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpShiftRightLogical %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 7: Don't fold n >> m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpShiftLeftLogical %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 8: Don't fold n | m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpBitwiseOr %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 9: Don't fold n & m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpBitwiseAnd %int %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 10: Don't fold n < m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpULessThan %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 11: Don't fold n > m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpUGreaterThan %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 12: Don't fold n <= m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpULessThanEqual %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 13: Don't fold n >= m (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%m = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%load_m = OpLoad %uint %m\n" +
"%2 = OpUGreaterThanEqual %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 14: Don't fold n < m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpULessThan %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 15: Don't fold n > m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpUGreaterThan %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 16: Don't fold n <= m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpULessThanEqual %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 17: Don't fold n >= m (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%m = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%load_m = OpLoad %int %m\n" +
"%2 = OpUGreaterThanEqual %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 18: Don't fold n || m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%m = OpVariable %_ptr_bool Function\n" +
"%load_n = OpLoad %bool %n\n" +
"%load_m = OpLoad %bool %m\n" +
"%2 = OpLogicalOr %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 19: Don't fold n && m
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%m = OpVariable %_ptr_bool Function\n" +
"%load_n = OpLoad %bool %n\n" +
"%load_m = OpLoad %bool %m\n" +
"%2 = OpLogicalAnd %bool %load_n %load_m\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 20: Don't fold n * 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpIMul %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 21: Don't fold n / 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpUDiv %uint %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 22: Don't fold n / 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpSDiv %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 23: Don't fold n remainder 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpSRem %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 24: Don't fold n % 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpSMod %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 25: Don't fold n % 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpUMod %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 26: Don't fold n << 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpShiftRightLogical %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 27: Don't fold n >> 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpShiftLeftLogical %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 28: Don't fold n | 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpBitwiseOr %int %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 29: Don't fold n & 3
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpBitwiseAnd %uint %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 30: Don't fold n < 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpULessThan %bool %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 31: Don't fold n > 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpUGreaterThan %bool %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 32: Don't fold n <= 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpULessThanEqual %bool %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 33: Don't fold n >= 3 (unsigned)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%load_n = OpLoad %uint %n\n" +
"%2 = OpUGreaterThanEqual %bool %load_n %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 34: Don't fold n < 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpULessThan %bool %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 35: Don't fold n > 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpUGreaterThan %bool %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 36: Don't fold n <= 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpULessThanEqual %bool %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 37: Don't fold n >= 3 (signed)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load_n = OpLoad %int %n\n" +
"%2 = OpUGreaterThanEqual %bool %load_n %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 38: Don't fold 2 + 3 (long), bad length
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpIAdd %long %long_2 %long_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 39: Don't fold 2 + 3 (short), bad length
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpIAdd %short %short_2 %short_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 40: fold 1*n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%3 = OpLoad %int %n\n" +
"%2 = OpIMul %int %int_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 41: fold n*1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%3 = OpLoad %int %n\n" +
"%2 = OpIMul %int %3 %int_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 42: Don't fold comparisons of 64-bit types
// (https://github.com/KhronosGroup/SPIRV-Tools/issues/3343).
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpSLessThan %bool %long_0 %long_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0)
));
INSTANTIATE_TEST_SUITE_P(CompositeExtractFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: fold Insert feeding extract
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeInsert %v4int %2 %v4int_0_0_0_0 0\n" +
"%4 = OpCompositeInsert %v4int %int_1 %3 1\n" +
"%5 = OpCompositeInsert %v4int %int_1 %4 2\n" +
"%6 = OpCompositeInsert %v4int %int_1 %5 3\n" +
"%7 = OpCompositeExtract %int %6 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
7, 2),
// Test case 1: fold Composite construct feeding extract (position 0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v4int %2 %int_0 %int_0 %int_0\n" +
"%4 = OpCompositeExtract %int %3 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, 2),
// Test case 2: fold Composite construct feeding extract (position 3)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v4int %2 %int_0 %int_0 %100\n" +
"%4 = OpCompositeExtract %int %3 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, INT_0_ID),
// Test case 3: fold Composite construct with vectors feeding extract (scalar element)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v2int %2 %int_0\n" +
"%4 = OpCompositeConstruct %v4int %3 %int_0 %100\n" +
"%5 = OpCompositeExtract %int %4 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, INT_0_ID),
// Test case 4: fold Composite construct with vectors feeding extract (start of vector element)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v2int %2 %int_0\n" +
"%4 = OpCompositeConstruct %v4int %3 %int_0 %100\n" +
"%5 = OpCompositeExtract %int %4 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, 2),
// Test case 5: fold Composite construct with vectors feeding extract (middle of vector element)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v2int %int_0 %2\n" +
"%4 = OpCompositeConstruct %v4int %3 %int_0 %100\n" +
"%5 = OpCompositeExtract %int %4 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, 2),
// Test case 6: fold Composite construct with multiple indices.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %n\n" +
"%3 = OpCompositeConstruct %v2int %int_0 %2\n" +
"%4 = OpCompositeConstruct %struct_v2int_int_int %3 %int_0 %100\n" +
"%5 = OpCompositeExtract %int %4 0 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, 2),
// Test case 7: fold constant extract.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeExtract %int %102 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, INT_7_ID),
// Test case 8: constant struct has OpUndef
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeExtract %int %struct_undef_0_0 0 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 9: Extracting a member of element inserted via Insert
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_struct_v2int_int_int Function\n" +
"%2 = OpLoad %struct_v2int_int_int %n\n" +
"%3 = OpCompositeInsert %struct_v2int_int_int %102 %2 0\n" +
"%4 = OpCompositeExtract %int %3 0 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, 103),
// Test case 10: Extracting a element that is partially changed by Insert. (Don't fold)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_struct_v2int_int_int Function\n" +
"%2 = OpLoad %struct_v2int_int_int %n\n" +
"%3 = OpCompositeInsert %struct_v2int_int_int %int_0 %2 0 1\n" +
"%4 = OpCompositeExtract %v2int %3 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, 0),
// Test case 11: Extracting from result of vector shuffle (first input)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %n\n" +
"%3 = OpVectorShuffle %v2int %102 %2 3 0\n" +
"%4 = OpCompositeExtract %int %3 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, INT_7_ID),
// Test case 12: Extracting from result of vector shuffle (second input)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %n\n" +
"%3 = OpVectorShuffle %v2int %2 %102 2 0\n" +
"%4 = OpCompositeExtract %int %3 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, INT_7_ID),
// Test case 13: https://github.com/KhronosGroup/SPIRV-Tools/issues/2608
// Out of bounds access. Do not fold.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpConstantComposite %v4float %float_1 %float_1 %float_1 %float_1\n" +
"%3 = OpCompositeExtract %float %2 4\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 0),
// Test case 14: https://github.com/KhronosGroup/SPIRV-Tools/issues/3631
// Extract the component right after the vector constituent.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeConstruct %v2int %int_0 %int_0\n" +
"%3 = OpCompositeConstruct %v4int %2 %100 %int_0\n" +
"%4 = OpCompositeExtract %int %3 2\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, INT_0_ID),
// Test case 15:
// Don't fold extract fed by construct with vector result if the index is
// past the last element.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeConstruct %v2int %int_0 %int_0\n" +
"%3 = OpCompositeConstruct %v4int %2 %100 %int_0\n" +
"%4 = OpCompositeExtract %int %3 4\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, 0)
));
INSTANTIATE_TEST_SUITE_P(CompositeConstructFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: fold Extracts feeding construct
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCopyObject %v4int %v4int_0_0_0_0\n" +
"%3 = OpCompositeExtract %int %2 0\n" +
"%4 = OpCompositeExtract %int %2 1\n" +
"%5 = OpCompositeExtract %int %2 2\n" +
"%6 = OpCompositeExtract %int %2 3\n" +
"%7 = OpCompositeConstruct %v4int %3 %4 %5 %6\n" +
"OpReturn\n" +
"OpFunctionEnd",
7, 2),
// Test case 1: Don't fold Extracts feeding construct (Different source)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCopyObject %v4int %v4int_0_0_0_0\n" +
"%3 = OpCompositeExtract %int %2 0\n" +
"%4 = OpCompositeExtract %int %2 1\n" +
"%5 = OpCompositeExtract %int %2 2\n" +
"%6 = OpCompositeExtract %int %v4int_0_0_0_0 3\n" +
"%7 = OpCompositeConstruct %v4int %3 %4 %5 %6\n" +
"OpReturn\n" +
"OpFunctionEnd",
7, 0),
// Test case 2: Don't fold Extracts feeding construct (bad indices)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCopyObject %v4int %v4int_0_0_0_0\n" +
"%3 = OpCompositeExtract %int %2 0\n" +
"%4 = OpCompositeExtract %int %2 0\n" +
"%5 = OpCompositeExtract %int %2 2\n" +
"%6 = OpCompositeExtract %int %2 3\n" +
"%7 = OpCompositeConstruct %v4int %3 %4 %5 %6\n" +
"OpReturn\n" +
"OpFunctionEnd",
7, 0),
// Test case 3: Don't fold Extracts feeding construct (different type)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCopyObject %struct_v2int_int_int %struct_v2int_int_int_null\n" +
"%3 = OpCompositeExtract %v2int %2 0\n" +
"%4 = OpCompositeExtract %int %2 1\n" +
"%5 = OpCompositeExtract %int %2 2\n" +
"%7 = OpCompositeConstruct %v4int %3 %4 %5\n" +
"OpReturn\n" +
"OpFunctionEnd",
7, 0),
// Test case 4: Fold construct with constants to constant.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeConstruct %v2int %103 %103\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, VEC2_0_ID),
// Test case 5: Don't segfault when trying to fold an OpCompositeConstruct
// for an empty struct, and we reached the id limit.
InstructionFoldingCase<uint32_t>(
Header() + "%empty_struct = OpTypeStruct\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%4194303 = OpCompositeConstruct %empty_struct\n" +
"OpReturn\n" +
"OpFunctionEnd",
4194303, 0)
));
INSTANTIATE_TEST_SUITE_P(PhiFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold phi with the same values for all edges.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
" OpBranchConditional %true %l1 %l2\n" +
"%l1 = OpLabel\n" +
" OpBranch %merge_lab\n" +
"%l2 = OpLabel\n" +
" OpBranch %merge_lab\n" +
"%merge_lab = OpLabel\n" +
"%2 = OpPhi %int %100 %l1 %100 %l2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, INT_0_ID),
// Test case 1: Fold phi in pass through loop.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
" OpBranch %l1\n" +
"%l1 = OpLabel\n" +
"%2 = OpPhi %int %100 %main_lab %2 %l1\n" +
" OpBranchConditional %true %l1 %merge_lab\n" +
"%merge_lab = OpLabel\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, INT_0_ID),
// Test case 2: Don't Fold phi because of different values.
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
" OpBranch %l1\n" +
"%l1 = OpLabel\n" +
"%2 = OpPhi %int %int_0 %main_lab %int_3 %l1\n" +
" OpBranchConditional %true %l1 %merge_lab\n" +
"%merge_lab = OpLabel\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0)
));
INSTANTIATE_TEST_SUITE_P(FloatRedundantFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold n + 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't fold n - 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFSub %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Don't fold n * 2.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFMul %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Fold n + 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFAdd %float %3 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 4: Fold 0.0 + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFAdd %float %float_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 5: Fold n - 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFSub %float %3 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 6: Fold n * 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFMul %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 7: Fold 1.0 * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFMul %float %float_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 8: Fold n / 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFDiv %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 9: Fold n * 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFMul %float %3 %104\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, FLOAT_0_ID),
// Test case 10: Fold 0.0 * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFMul %float %104 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, FLOAT_0_ID),
// Test case 11: Fold 0.0 / n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFDiv %float %104 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, FLOAT_0_ID),
// Test case 12: Don't fold mix(a, b, 2.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%b = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %a\n" +
"%4 = OpLoad %float %b\n" +
"%2 = OpExtInst %float %1 FMix %3 %4 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 13: Fold mix(a, b, 0.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%b = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %a\n" +
"%4 = OpLoad %float %b\n" +
"%2 = OpExtInst %float %1 FMix %3 %4 %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 14: Fold mix(a, b, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%b = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %a\n" +
"%4 = OpLoad %float %b\n" +
"%2 = OpExtInst %float %1 FMix %3 %4 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4),
// Test case 15: Fold vector fadd with null
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %a\n" +
"%3 = OpFAdd %v2float %2 %v2float_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 2),
// Test case 16: Fold vector fadd with null
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %a\n" +
"%3 = OpFAdd %v2float %v2float_null %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 2),
// Test case 17: Fold vector fsub with null
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %a\n" +
"%3 = OpFSub %v2float %2 %v2float_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, 2),
// Test case 18: Fold 0.0(half) * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_half Function\n" +
"%3 = OpLoad %half %n\n" +
"%2 = OpFMul %half %108 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, HALF_0_ID),
// Test case 19: Don't fold 1.0(half) * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_half Function\n" +
"%3 = OpLoad %half %n\n" +
"%2 = OpFMul %half %half_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 20: Don't fold 1.0 * 1.0 (half)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFMul %half %half_1 %half_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 21: Don't fold (0.0, 1.0) * (0.0, 1.0) (half)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFMul %v2half %half_0_1 %half_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 22: Don't fold (0.0, 1.0) dotp (0.0, 1.0) (half)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpDot %half %half_0_1 %half_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0)
));
INSTANTIATE_TEST_SUITE_P(DoubleRedundantFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold n + 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFAdd %double %3 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't fold n - 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFSub %double %3 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Don't fold n * 2.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFMul %double %3 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Fold n + 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFAdd %double %3 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 4: Fold 0.0 + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFAdd %double %double_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 5: Fold n - 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFSub %double %3 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 6: Fold n * 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFMul %double %3 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 7: Fold 1.0 * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFMul %double %double_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 8: Fold n / 1.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFDiv %double %3 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 9: Fold n * 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFMul %double %3 %105\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, DOUBLE_0_ID),
// Test case 10: Fold 0.0 * n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFMul %double %105 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, DOUBLE_0_ID),
// Test case 11: Fold 0.0 / n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFDiv %double %105 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, DOUBLE_0_ID),
// Test case 12: Don't fold mix(a, b, 2.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_double Function\n" +
"%b = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %a\n" +
"%4 = OpLoad %double %b\n" +
"%2 = OpExtInst %double %1 FMix %3 %4 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 13: Fold mix(a, b, 0.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_double Function\n" +
"%b = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %a\n" +
"%4 = OpLoad %double %b\n" +
"%2 = OpExtInst %double %1 FMix %3 %4 %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 14: Fold mix(a, b, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%a = OpVariable %_ptr_double Function\n" +
"%b = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %a\n" +
"%4 = OpLoad %double %b\n" +
"%2 = OpExtInst %double %1 FMix %3 %4 %double_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 4)
));
INSTANTIATE_TEST_SUITE_P(FloatVectorRedundantFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold a * vec4(0.0, 0.0, 0.0, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%3 = OpLoad %v4float %n\n" +
"%2 = OpFMul %v4float %3 %v4float_0_0_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Fold a * vec4(0.0, 0.0, 0.0, 0.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%3 = OpLoad %v4float %n\n" +
"%2 = OpFMul %v4float %3 %106\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, VEC4_0_ID),
// Test case 2: Fold a * vec4(1.0, 1.0, 1.0, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%3 = OpLoad %v4float %n\n" +
"%2 = OpFMul %v4float %3 %v4float_1_1_1_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
INSTANTIATE_TEST_SUITE_P(DoubleVectorRedundantFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold a * vec4(0.0, 0.0, 0.0, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%3 = OpLoad %v4double %n\n" +
"%2 = OpFMul %v4double %3 %v4double_0_0_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Fold a * vec4(0.0, 0.0, 0.0, 0.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%3 = OpLoad %v4double %n\n" +
"%2 = OpFMul %v4double %3 %106\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, DVEC4_0_ID),
// Test case 2: Fold a * vec4(1.0, 1.0, 1.0, 1.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%3 = OpLoad %v4double %n\n" +
"%2 = OpFMul %v4double %3 %v4double_1_1_1_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
INSTANTIATE_TEST_SUITE_P(IntegerRedundantFoldingTest, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't fold n + 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%3 = OpLoad %uint %n\n" +
"%2 = OpIAdd %uint %3 %uint_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't fold 1 + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%3 = OpLoad %uint %n\n" +
"%2 = OpIAdd %uint %uint_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Fold n + 0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%3 = OpLoad %uint %n\n" +
"%2 = OpIAdd %uint %3 %uint_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 3: Fold 0 + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_uint Function\n" +
"%3 = OpLoad %uint %n\n" +
"%2 = OpIAdd %uint %uint_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 4: Don't fold n + (1,0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%3 = OpLoad %v2int %n\n" +
"%2 = OpIAdd %v2int %3 %v2int_1_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 5: Don't fold (1,0) + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%3 = OpLoad %v2int %n\n" +
"%2 = OpIAdd %v2int %v2int_1_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 6: Fold n + (0,0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%3 = OpLoad %v2int %n\n" +
"%2 = OpIAdd %v2int %3 %v2int_0_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 7: Fold (0,0) + n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%3 = OpLoad %v2int %n\n" +
"%2 = OpIAdd %v2int %v2int_0_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
INSTANTIATE_TEST_SUITE_P(ClampAndCmpLHS, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't Fold 0.0 < clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't Fold 0.0 < clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Don't Fold 0.0 <= clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Don't Fold 0.0 <= clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdLessThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 4: Don't Fold 0.0 > clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 5: Don't Fold 0.0 > clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 6: Don't Fold 0.0 >= clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 7: Don't Fold 0.0 >= clamp(-1, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdGreaterThanEqual %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 8: Don't Fold 0.0 < clamp(0, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFUnordLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 9: Don't Fold 0.0 < clamp(0, 1)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdLessThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 10: Don't Fold 0.0 > clamp(-1, 0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 11: Don't Fold 0.0 > clamp(-1, 0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFOrdGreaterThan %bool %float_0 %clamp\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0)
));
INSTANTIATE_TEST_SUITE_P(ClampAndCmpRHS, GeneralInstructionFoldingTest,
::testing::Values(
// Test case 0: Don't Fold clamp(-1, 1) < 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordLessThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Don't Fold clamp(-1, 1) < 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdLessThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 2: Don't Fold clamp(-1, 1) <= 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordLessThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Don't Fold clamp(-1, 1) <= 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdLessThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 4: Don't Fold clamp(-1, 1) > 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordGreaterThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 5: Don't Fold clamp(-1, 1) > 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdGreaterThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 6: Don't Fold clamp(-1, 1) >= 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFUnordGreaterThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 7: Don't Fold clamp(-1, 1) >= 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_1\n" +
"%2 = OpFOrdGreaterThanEqual %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 8: Don't Fold clamp(-1, 0) < 0.0
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordLessThan %bool %clamp %float_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 9: Don't Fold clamp(0, 1) < 1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_0 %float_1\n" +
"%2 = OpFOrdLessThan %bool %clamp %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 10: Don't Fold clamp(-1, 0) > -1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFUnordGreaterThan %bool %clamp %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 11: Don't Fold clamp(-1, 0) > -1
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%ld = OpLoad %float %n\n" +
"%clamp = OpExtInst %float %1 FClamp %ld %float_n1 %float_0\n" +
"%2 = OpFOrdGreaterThan %bool %clamp %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0)
));
INSTANTIATE_TEST_SUITE_P(FToIConstantFoldingTest, IntegerInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold int(3.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpConvertFToS %int %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 1: Fold uint(3.0)
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpConvertFToU %int %float_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
INSTANTIATE_TEST_SUITE_P(IToFConstantFoldingTest, FloatInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold float(3)
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpConvertSToF %float %int_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3.0),
// Test case 1: Fold float(3u)
InstructionFoldingCase<float>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpConvertUToF %float %uint_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3.0)
));
// clang-format on
using ToNegateFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<uint32_t>>;
TEST_P(ToNegateFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
// Make sure the instruction folded as expected.
EXPECT_EQ(inst->result_id(), original_inst->result_id());
EXPECT_EQ(inst->type_id(), original_inst->type_id());
EXPECT_TRUE((!succeeded) == (tc.expected_result == 0));
if (succeeded) {
EXPECT_EQ(inst->opcode(), SpvOpFNegate);
EXPECT_EQ(inst->GetSingleWordInOperand(0), tc.expected_result);
} else {
EXPECT_EQ(inst->NumInOperands(), original_inst->NumInOperands());
for (uint32_t i = 0; i < inst->NumInOperands(); ++i) {
EXPECT_EQ(inst->GetOperand(i), original_inst->GetOperand(i));
}
}
}
// clang-format off
INSTANTIATE_TEST_SUITE_P(FloatRedundantSubFoldingTest, ToNegateFoldingTest,
::testing::Values(
// Test case 0: Don't fold 1.0 - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFSub %float %float_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Fold 0.0 - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %n\n" +
"%2 = OpFSub %float %float_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 2: Don't fold (0,0,0,1) - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%3 = OpLoad %v4float %n\n" +
"%2 = OpFSub %v4float %v4float_0_0_0_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Fold (0,0,0,0) - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%3 = OpLoad %v4float %n\n" +
"%2 = OpFSub %v4float %v4float_0_0_0_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
INSTANTIATE_TEST_SUITE_P(DoubleRedundantSubFoldingTest, ToNegateFoldingTest,
::testing::Values(
// Test case 0: Don't fold 1.0 - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFSub %double %double_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 1: Fold 0.0 - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%3 = OpLoad %double %n\n" +
"%2 = OpFSub %double %double_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3),
// Test case 2: Don't fold (0,0,0,1) - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%3 = OpLoad %v4double %n\n" +
"%2 = OpFSub %v4double %v4double_0_0_0_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 0),
// Test case 3: Fold (0,0,0,0) - n
InstructionFoldingCase<uint32_t>(
Header() + "%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%3 = OpLoad %v4double %n\n" +
"%2 = OpFSub %v4double %v4double_0_0_0_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, 3)
));
using MatchingInstructionFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
TEST_P(MatchingInstructionFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
EXPECT_EQ(succeeded, tc.expected_result);
if (succeeded) {
Match(tc.test_body, context.get());
}
}
INSTANTIATE_TEST_SUITE_P(RedundantIntegerMatching, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold 0 + n (change sign)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[uint:%\\w+]] = OpTypeInt 32 0\n" +
"; CHECK: %2 = OpBitcast [[uint]] %3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%3 = OpLoad %uint %n\n" +
"%2 = OpIAdd %uint %int_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
2, true),
// Test case 0: Fold 0 + n (change sign)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: %2 = OpBitcast [[int]] %3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%3 = OpLoad %int %n\n" +
"%2 = OpIAdd %int %uint_0 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
2, true)
));
INSTANTIATE_TEST_SUITE_P(MergeNegateTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: fold consecutive fnegate
// -(-x) = x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float:%\\w+]]\n" +
"; CHECK: %4 = OpCopyObject [[float]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFNegate %float %2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 1: fold fnegate(fmul with const).
// -(x * 2.0) = x * -2.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_n2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFMul %float %2 %float_2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 2: fold fnegate(fmul with const).
// -(2.0 * x) = x * 2.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_n2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFMul %float %float_2 %2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 3: fold fnegate(fdiv with const).
// -(x / 2.0) = x * -0.5
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n0p5:%\\w+]] = OpConstant [[float]] -0.5\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_n0p5]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %2 %float_2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 4: fold fnegate(fdiv with const).
// -(2.0 / x) = -2.0 / x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFDiv [[float]] [[float_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %float_2 %2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 5: fold fnegate(fadd with const).
// -(2.0 + x) = -2.0 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %float_2 %2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 6: fold fnegate(fadd with const).
// -(x + 2.0) = -2.0 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %2 %float_2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 7: fold fnegate(fsub with const).
// -(2.0 - x) = x - 2.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[ld]] [[float_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_2 %2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 8: fold fnegate(fsub with const).
// -(x - 2.0) = 2.0 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %2 %float_2\n" +
"%4 = OpFNegate %float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 9: fold consecutive snegate
// -(-x) = x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int:%\\w+]]\n" +
"; CHECK: %4 = OpCopyObject [[int]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSNegate %int %2\n" +
"%4 = OpSNegate %int %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 10: fold consecutive vector negate
// -(-x) = x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2float:%\\w+]]\n" +
"; CHECK: %4 = OpCopyObject [[v2float]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %var\n" +
"%3 = OpFNegate %v2float %2\n" +
"%4 = OpFNegate %v2float %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 11: fold snegate(iadd with const).
// -(2 + x) = -2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: OpConstant [[int]] -2147483648\n" +
"; CHECK: [[int_n2:%\\w+]] = OpConstant [[int]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpISub [[int]] [[int_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIAdd %int %int_2 %2\n" +
"%4 = OpSNegate %int %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 12: fold snegate(iadd with const).
// -(x + 2) = -2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: OpConstant [[int]] -2147483648\n" +
"; CHECK: [[int_n2:%\\w+]] = OpConstant [[int]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpISub [[int]] [[int_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIAdd %int %2 %int_2\n" +
"%4 = OpSNegate %int %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 13: fold snegate(isub with const).
// -(2 - x) = x - 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int_2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpISub [[int]] [[ld]] [[int_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpISub %int %int_2 %2\n" +
"%4 = OpSNegate %int %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 14: fold snegate(isub with const).
// -(x - 2) = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int_2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpISub [[int]] [[int_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpISub %int %2 %int_2\n" +
"%4 = OpSNegate %int %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 15: fold snegate(iadd with const).
// -(x + 2) = -2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_n2:%\\w+]] = OpConstant [[long]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[long_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIAdd %long %2 %long_2\n" +
"%4 = OpSNegate %long %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 16: fold snegate(isub with const).
// -(2 - x) = x - 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[ld]] [[long_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpISub %long %long_2 %2\n" +
"%4 = OpSNegate %long %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 17: fold snegate(isub with const).
// -(x - 2) = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[long_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpISub %long %2 %long_2\n" +
"%4 = OpSNegate %long %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 18: fold -vec4(-1.0, 2.0, 1.0, 3.0)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v4float:%\\w+]] = OpTypeVector [[float]] 4{{[[:space:]]}}\n" +
"; CHECK: [[float_n1:%\\w+]] = OpConstant [[float]] -1{{[[:space:]]}}\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1{{[[:space:]]}}\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[float_n3:%\\w+]] = OpConstant [[float]] -3{{[[:space:]]}}\n" +
"; CHECK: [[v4float_1_n2_n1_n3:%\\w+]] = OpConstantComposite [[v4float]] [[float_1]] [[float_n2]] [[float_n1]] [[float_n3]]\n" +
"; CHECK: %2 = OpCopyObject [[v4float]] [[v4float_1_n2_n1_n3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFNegate %v4float %v4float_n1_2_1_3\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 19: fold vector fnegate with null
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v2double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[double_n0:%\\w+]] = OpConstant [[double]] -0\n" +
"; CHECK: [[v2double_0_0:%\\w+]] = OpConstantComposite [[v2double]] [[double_n0]] [[double_n0]]\n" +
"; CHECK: %2 = OpCopyObject [[v2double]] [[v2double_0_0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpFNegate %v2double %v2double_null\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true)
));
INSTANTIATE_TEST_SUITE_P(ReciprocalFDivTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: scalar reicprocal
// x / 0.5 = x * 2.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %3 = OpFMul [[float]] [[ld]] [[float_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %2 %float_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
3, true),
// Test case 1: Unfoldable
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_0:%\\w+]] = OpConstant [[float]] 0\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %3 = OpFDiv [[float]] [[ld]] [[float_0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %2 %104\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
3, false),
// Test case 2: Vector reciprocal
// x / {2.0, 0.5} = x * {0.5, 2.0}
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v2float:%\\w+]] = OpTypeVector [[float]] 2\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[float_0p5:%\\w+]] = OpConstant [[float]] 0.5\n" +
"; CHECK: [[v2float_0p5_2:%\\w+]] = OpConstantComposite [[v2float]] [[float_0p5]] [[float_2]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2float]]\n" +
"; CHECK: %3 = OpFMul [[v2float]] [[ld]] [[v2float_0p5_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %var\n" +
"%3 = OpFDiv %v2float %2 %v2float_2_0p5\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
3, true),
// Test case 3: double reciprocal
// x / 2.0 = x * 0.5
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[double_0p5:%\\w+]] = OpConstant [[double]] 0.5\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[double]]\n" +
"; CHECK: %3 = OpFMul [[double]] [[ld]] [[double_0p5]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_double Function\n" +
"%2 = OpLoad %double %var\n" +
"%3 = OpFDiv %double %2 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
3, true),
// Test case 4: don't fold x / 0.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %var\n" +
"%3 = OpFDiv %v2float %2 %v2float_null\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
3, false)
));
INSTANTIATE_TEST_SUITE_P(MergeMulTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: fold consecutive fmuls
// (x * 3.0) * 2.0 = x * 6.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_6:%\\w+]] = OpConstant [[float]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFMul %float %2 %float_3\n" +
"%4 = OpFMul %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 1: fold consecutive fmuls
// 2.0 * (x * 3.0) = x * 6.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_6:%\\w+]] = OpConstant [[float]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFMul %float %2 %float_3\n" +
"%4 = OpFMul %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 2: fold consecutive fmuls
// (3.0 * x) * 2.0 = x * 6.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_6:%\\w+]] = OpConstant [[float]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[ld]] [[float_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFMul %float %float_3 %2\n" +
"%4 = OpFMul %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 3: fold vector fmul
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v2float:%\\w+]] = OpTypeVector [[float]] 2\n" +
"; CHECK: [[float_6:%\\w+]] = OpConstant [[float]] 6\n" +
"; CHECK: [[v2float_6_6:%\\w+]] = OpConstantComposite [[v2float]] [[float_6]] [[float_6]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2float]]\n" +
"; CHECK: %4 = OpFMul [[v2float]] [[ld]] [[v2float_6_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %var\n" +
"%3 = OpFMul %v2float %2 %v2float_2_3\n" +
"%4 = OpFMul %v2float %3 %v2float_3_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 4: fold double fmuls
// (x * 3.0) * 2.0 = x * 6.0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[double_6:%\\w+]] = OpConstant [[double]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[double]]\n" +
"; CHECK: %4 = OpFMul [[double]] [[ld]] [[double_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_double Function\n" +
"%2 = OpLoad %double %var\n" +
"%3 = OpFMul %double %2 %double_3\n" +
"%4 = OpFMul %double %3 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 5: fold 32 bit imuls
// (x * 3) * 2 = x * 6
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int_6:%\\w+]] = OpConstant [[int]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIMul [[int]] [[ld]] [[int_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %2 %int_3\n" +
"%4 = OpIMul %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 6: fold 64 bit imuls
// (x * 3) * 2 = x * 6
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_6:%\\w+]] = OpConstant [[long]] 6\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIMul [[long]] [[ld]] [[long_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIMul %long %2 %long_3\n" +
"%4 = OpIMul %long %3 %long_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 7: merge vector integer mults
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: [[int_6:%\\w+]] = OpConstant [[int]] 6\n" +
"; CHECK: [[v2int_6_6:%\\w+]] = OpConstantComposite [[v2int]] [[int_6]] [[int_6]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2int]]\n" +
"; CHECK: %4 = OpIMul [[v2int]] [[ld]] [[v2int_6_6]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %var\n" +
"%3 = OpIMul %v2int %2 %v2int_2_3\n" +
"%4 = OpIMul %v2int %3 %v2int_3_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 8: merge fmul of fdiv
// 2.0 * (2.0 / x) = 4.0 / x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_4:%\\w+]] = OpConstant [[float]] 4\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFDiv [[float]] [[float_4]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %float_2 %2\n" +
"%4 = OpFMul %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 9: merge fmul of fdiv
// (2.0 / x) * 2.0 = 4.0 / x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_4:%\\w+]] = OpConstant [[float]] 4\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFDiv [[float]] [[float_4]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %float_2 %2\n" +
"%4 = OpFMul %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 10: Do not merge imul of sdiv
// 4 * (x / 2)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %2 %int_2\n" +
"%4 = OpIMul %int %int_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 11: Do not merge imul of sdiv
// (x / 2) * 4
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %2 %int_2\n" +
"%4 = OpIMul %int %3 %int_4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 12: Do not merge imul of udiv
// 4 * (x / 2)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpUDiv %uint %2 %uint_2\n" +
"%4 = OpIMul %uint %uint_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 13: Do not merge imul of udiv
// (x / 2) * 4
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpUDiv %uint %2 %uint_2\n" +
"%4 = OpIMul %uint %3 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 14: Don't fold
// (x / 3) * 4
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpUDiv %uint %2 %uint_3\n" +
"%4 = OpIMul %uint %3 %uint_4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 15: merge vector fmul of fdiv
// (x / {2,2}) * {4,4} = x * {2,2}
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v2float:%\\w+]] = OpTypeVector [[float]] 2\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[v2float_2_2:%\\w+]] = OpConstantComposite [[v2float]] [[float_2]] [[float_2]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2float]]\n" +
"; CHECK: %4 = OpFMul [[v2float]] [[ld]] [[v2float_2_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %v2float %var\n" +
"%3 = OpFDiv %v2float %2 %v2float_2_2\n" +
"%4 = OpFMul %v2float %3 %v2float_4_4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 16: merge vector imul of snegate
// (-x) * {2,2} = x * {-2,-2}
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2{{[[:space:]]}}\n" +
"; CHECK: OpConstant [[int]] -2147483648{{[[:space:]]}}\n" +
"; CHECK: [[int_n2:%\\w+]] = OpConstant [[int]] -2{{[[:space:]]}}\n" +
"; CHECK: [[v2int_n2_n2:%\\w+]] = OpConstantComposite [[v2int]] [[int_n2]] [[int_n2]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2int]]\n" +
"; CHECK: %4 = OpIMul [[v2int]] [[ld]] [[v2int_n2_n2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %var\n" +
"%3 = OpSNegate %v2int %2\n" +
"%4 = OpIMul %v2int %3 %v2int_2_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 17: merge vector imul of snegate
// {2,2} * (-x) = x * {-2,-2}
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2{{[[:space:]]}}\n" +
"; CHECK: OpConstant [[int]] -2147483648{{[[:space:]]}}\n" +
"; CHECK: [[int_n2:%\\w+]] = OpConstant [[int]] -2{{[[:space:]]}}\n" +
"; CHECK: [[v2int_n2_n2:%\\w+]] = OpConstantComposite [[v2int]] [[int_n2]] [[int_n2]]\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v2int]]\n" +
"; CHECK: %4 = OpIMul [[v2int]] [[ld]] [[v2int_n2_n2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %var\n" +
"%3 = OpSNegate %v2int %2\n" +
"%4 = OpIMul %v2int %v2int_2_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 18: Fold OpVectorTimesScalar
// {4,4} = OpVectorTimesScalar v2float {2,2} 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v2float:%\\w+]] = OpTypeVector [[float]] 2\n" +
"; CHECK: [[float_4:%\\w+]] = OpConstant [[float]] 4\n" +
"; CHECK: [[v2float_4_4:%\\w+]] = OpConstantComposite [[v2float]] [[float_4]] [[float_4]]\n" +
"; CHECK: %2 = OpCopyObject [[v2float]] [[v2float_4_4]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesScalar %v2float %v2float_2_2 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 19: Fold OpVectorTimesScalar
// {0,0} = OpVectorTimesScalar v2float v2float_null -1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[v2float:%\\w+]] = OpTypeVector [[float]] 2\n" +
"; CHECK: [[v2float_null:%\\w+]] = OpConstantNull [[v2float]]\n" +
"; CHECK: %2 = OpCopyObject [[v2float]] [[v2float_null]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesScalar %v2float %v2float_null %float_n1\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 20: Fold OpVectorTimesScalar
// {4,4} = OpVectorTimesScalar v2double {2,2} 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v2double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[double_4:%\\w+]] = OpConstant [[double]] 4\n" +
"; CHECK: [[v2double_4_4:%\\w+]] = OpConstantComposite [[v2double]] [[double_4]] [[double_4]]\n" +
"; CHECK: %2 = OpCopyObject [[v2double]] [[v2double_4_4]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVectorTimesScalar %v2double %v2double_2_2 %double_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 21: Fold OpVectorTimesScalar
// {0,0} = OpVectorTimesScalar v2double {0,0} n
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v2double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: {{%\\w+}} = OpConstant [[double]] 0\n" +
"; CHECK: [[double_0:%\\w+]] = OpConstant [[double]] 0\n" +
"; CHECK: [[v2double_0_0:%\\w+]] = OpConstantComposite [[v2double]] [[double_0]] [[double_0]]\n" +
"; CHECK: %2 = OpCopyObject [[v2double]] [[v2double_0_0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_double Function\n" +
"%load = OpLoad %double %n\n" +
"%2 = OpVectorTimesScalar %v2double %v2double_0_0 %load\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 22: Fold OpVectorTimesScalar
// {0,0} = OpVectorTimesScalar v2double n 0
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v2double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[v2double_null:%\\w+]] = OpConstantNull [[v2double]]\n" +
"; CHECK: %2 = OpCopyObject [[v2double]] [[v2double_null]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2double Function\n" +
"%load = OpLoad %v2double %n\n" +
"%2 = OpVectorTimesScalar %v2double %load %double_0\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 23: merge fmul of fdiv
// x * (y / x) = y
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[ldx:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: [[ldy:%\\w+]] = OpLoad [[float]] [[y:%\\w+]]\n" +
"; CHECK: %5 = OpCopyObject [[float]] [[ldy]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %x\n" +
"%3 = OpLoad %float %y\n" +
"%4 = OpFDiv %float %3 %2\n" +
"%5 = OpFMul %float %2 %4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
5, true),
// Test case 24: merge fmul of fdiv
// (y / x) * x = y
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[ldx:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: [[ldy:%\\w+]] = OpLoad [[float]] [[y:%\\w+]]\n" +
"; CHECK: %5 = OpCopyObject [[float]] [[ldy]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %x\n" +
"%3 = OpLoad %float %y\n" +
"%4 = OpFDiv %float %3 %2\n" +
"%5 = OpFMul %float %4 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
5, true),
// Test case 25: fold overflowing signed 32 bit imuls
// (x * 1073741824) * 2 = x * int_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32\n" +
"; CHECK: [[int_min:%\\w+]] = OpConstant [[int]] -2147483648\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIMul [[int]] [[ld]] [[int_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %2 %int_1073741824\n" +
"%4 = OpIMul %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 26: fold overflowing signed 64 bit imuls
// (x * 4611686018427387904) * 2 = x * long_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_min:%\\w+]] = OpConstant [[long]] -9223372036854775808\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIMul [[long]] [[ld]] [[long_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIMul %long %2 %long_4611686018427387904\n" +
"%4 = OpIMul %long %3 %long_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 27: fold overflowing 32 bit unsigned imuls
// (x * 2147483649) * 2 = x * 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[uint:%\\w+]] = OpTypeInt 32 0\n" +
"; CHECK: [[uint_2:%\\w+]] = OpConstant [[uint]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[uint]]\n" +
"; CHECK: %4 = OpIMul [[uint]] [[ld]] [[uint_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpIMul %uint %2 %uint_2147483649\n" +
"%4 = OpIMul %uint %3 %uint_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 28: fold overflowing 64 bit unsigned imuls
// (x * 9223372036854775809) * 2 = x * 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ulong:%\\w+]] = OpTypeInt 64 0\n" +
"; CHECK: [[ulong_2:%\\w+]] = OpConstant [[ulong]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[ulong]]\n" +
"; CHECK: %4 = OpIMul [[ulong]] [[ld]] [[ulong_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_ulong Function\n" +
"%2 = OpLoad %ulong %var\n" +
"%3 = OpIMul %ulong %2 %ulong_9223372036854775809\n" +
"%4 = OpIMul %ulong %3 %ulong_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 29: fold underflowing signed 32 bit imuls
// (x * (-858993459)) * 10 = x * 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32\n" +
"; CHECK: [[int_2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIMul [[int]] [[ld]] [[int_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %2 %int_n858993459\n" +
"%4 = OpIMul %int %3 %int_10\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 30: fold underflowing signed 64 bit imuls
// (x * (-3689348814741910323)) * 10 = x * 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIMul [[long]] [[ld]] [[long_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIMul %long %2 %long_n3689348814741910323\n" +
"%4 = OpIMul %long %3 %long_10\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true)
));
INSTANTIATE_TEST_SUITE_P(MergeDivTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: merge consecutive fdiv
// 4.0 / (2.0 / x) = 2.0 * x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFMul [[float]] [[float_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %float_2 %2\n" +
"%4 = OpFDiv %float %float_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 1: merge consecutive fdiv
// 4.0 / (x / 2.0) = 8.0 / x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_8:%\\w+]] = OpConstant [[float]] 8\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFDiv [[float]] [[float_8]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %2 %float_2\n" +
"%4 = OpFDiv %float %float_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 2: merge consecutive fdiv
// (4.0 / x) / 2.0 = 2.0 / x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFDiv [[float]] [[float_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %float_4 %2\n" +
"%4 = OpFDiv %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 3: Do not merge consecutive sdiv
// 4 / (2 / x)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %int_2 %2\n" +
"%4 = OpSDiv %int %int_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 4: Do not merge consecutive sdiv
// 4 / (x / 2)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %2 %int_2\n" +
"%4 = OpSDiv %int %int_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 5: Do not merge consecutive sdiv
// (4 / x) / 2
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %int_4 %2\n" +
"%4 = OpSDiv %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 6: Do not merge consecutive sdiv
// (x / 4) / 2
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSDiv %int %2 %int_4\n" +
"%4 = OpSDiv %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 7: Do not merge sdiv of imul
// 4 / (2 * x)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %int_2 %2\n" +
"%4 = OpSDiv %int %int_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 8: Do not merge sdiv of imul
// 4 / (x * 2)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %2 %int_2\n" +
"%4 = OpSDiv %int %int_4 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 9: Do not merge sdiv of imul
// (4 * x) / 2
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %int_4 %2\n" +
"%4 = OpSDiv %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 10: Do not merge sdiv of imul
// (x * 4) / 2
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIMul %int %2 %int_4\n" +
"%4 = OpSDiv %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 11: Do not merge sdiv of snegate. If %2 is INT_MIN, then the
// sign of %3 will be the same as %2. This cannot be accounted for in OpSDiv.
// Specifically, (-INT_MIN) / 2 != INT_MIN / -2.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSNegate %int %2\n" +
"%4 = OpSDiv %int %3 %int_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 12: Do not merge sdiv of snegate. If %2 is INT_MIN, then the
// sign of %3 will be the same as %2. This cannot be accounted for in OpSDiv.
// Specifically, 2 / (-INT_MIN) != -2 / INT_MIN.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpSNegate %int %2\n" +
"%4 = OpSDiv %int %int_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 13: Don't merge
// (x / {null}) / {null}
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_v2float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFDiv %float %2 %v2float_null\n" +
"%4 = OpFDiv %float %3 %v2float_null\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 14: merge fmul of fdiv
// (y * x) / x = y
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[ldx:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: [[ldy:%\\w+]] = OpLoad [[float]] [[y:%\\w+]]\n" +
"; CHECK: %5 = OpCopyObject [[float]] [[ldy]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %x\n" +
"%3 = OpLoad %float %y\n" +
"%4 = OpFMul %float %3 %2\n" +
"%5 = OpFDiv %float %4 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
5, true),
// Test case 15: merge fmul of fdiv
// (x * y) / x = y
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[ldx:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: [[ldy:%\\w+]] = OpLoad [[float]] [[y:%\\w+]]\n" +
"; CHECK: %5 = OpCopyObject [[float]] [[ldy]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %x\n" +
"%3 = OpLoad %float %y\n" +
"%4 = OpFMul %float %2 %3\n" +
"%5 = OpFDiv %float %4 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
5, true),
// Test case 16: Do not merge udiv of snegate
// (-x) / 2u
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpSNegate %uint %2\n" +
"%4 = OpUDiv %uint %3 %uint_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false),
// Test case 17: Do not merge udiv of snegate
// 2u / (-x)
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpSNegate %uint %2\n" +
"%4 = OpUDiv %uint %uint_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, false)
));
INSTANTIATE_TEST_SUITE_P(MergeAddTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: merge add of negate
// (-x) + 2 = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFNegate %float %2\n" +
"%4 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 1: merge add of negate
// 2 + (-x) = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpSNegate %float %2\n" +
"%4 = OpIAdd %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 2: merge add of negate
// (-x) + 2 = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[long_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpSNegate %long %2\n" +
"%4 = OpIAdd %long %3 %long_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 3: merge add of negate
// 2 + (-x) = 2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[long_2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpSNegate %long %2\n" +
"%4 = OpIAdd %long %long_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 4: merge add of subtract
// (x - 1) + 2 = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %2 %float_1\n" +
"%4 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 5: merge add of subtract
// (1 - x) + 2 = 3 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_3]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_1 %2\n" +
"%4 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 6: merge add of subtract
// 2 + (x - 1) = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %2 %float_1\n" +
"%4 = OpFAdd %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 7: merge add of subtract
// 2 + (1 - x) = 3 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_3]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_1 %2\n" +
"%4 = OpFAdd %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 8: merge add of add
// (x + 1) + 2 = x + 3
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %2 %float_1\n" +
"%4 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 9: merge add of add
// (1 + x) + 2 = 3 + x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %float_1 %2\n" +
"%4 = OpFAdd %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 10: merge add of add
// 2 + (x + 1) = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %2 %float_1\n" +
"%4 = OpFAdd %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 11: merge add of add
// 2 + (1 + x) = 3 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %float_1 %2\n" +
"%4 = OpFAdd %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 12: fold overflowing signed 32 bit iadds
// (x + int_max) + 1 = x + int_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32\n" +
"; CHECK: [[int_min:%\\w+]] = OpConstant [[int]] -2147483648\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIAdd [[int]] [[ld]] [[int_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIAdd %int %2 %int_max\n" +
"%4 = OpIAdd %int %3 %int_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 13: fold overflowing signed 64 bit iadds
// (x + long_max) + 1 = x + long_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_min:%\\w+]] = OpConstant [[long]] -9223372036854775808\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIAdd [[long]] [[ld]] [[long_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIAdd %long %2 %long_max\n" +
"%4 = OpIAdd %long %3 %long_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 14: fold overflowing 32 bit unsigned iadds
// (x + uint_max) + 2 = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[uint:%\\w+]] = OpTypeInt 32 0\n" +
"; CHECK: [[uint_1:%\\w+]] = OpConstant [[uint]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[uint]]\n" +
"; CHECK: %4 = OpIAdd [[uint]] [[ld]] [[uint_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_uint Function\n" +
"%2 = OpLoad %uint %var\n" +
"%3 = OpIAdd %uint %2 %uint_max\n" +
"%4 = OpIAdd %uint %3 %uint_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 15: fold overflowing 64 bit unsigned iadds
// (x + ulong_max) + 2 = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ulong:%\\w+]] = OpTypeInt 64 0\n" +
"; CHECK: [[ulong_1:%\\w+]] = OpConstant [[ulong]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[ulong]]\n" +
"; CHECK: %4 = OpIAdd [[ulong]] [[ld]] [[ulong_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_ulong Function\n" +
"%2 = OpLoad %ulong %var\n" +
"%3 = OpIAdd %ulong %2 %ulong_max\n" +
"%4 = OpIAdd %ulong %3 %ulong_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 16: fold underflowing signed 32 bit iadds
// (x + int_min) + (-1) = x + int_max
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32\n" +
"; CHECK: [[int_max:%\\w+]] = OpConstant [[int]] 2147483647\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIAdd [[int]] [[ld]] [[int_max]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpIAdd %int %2 %int_min\n" +
"%4 = OpIAdd %int %3 %int_n1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 17: fold underflowing signed 64 bit iadds
// (x + long_min) + (-1) = x + long_max
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_max:%\\w+]] = OpConstant [[long]] 9223372036854775807\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIAdd [[long]] [[ld]] [[long_max]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpIAdd %long %2 %long_min\n" +
"%4 = OpIAdd %long %3 %long_n1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true)
));
INSTANTIATE_TEST_SUITE_P(MergeGenericAddSub, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: merge of add of sub
// (a - b) + b => a
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: %6 = OpCopyObject [[float]] %3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %var0\n" +
"%4 = OpLoad %float %var1\n" +
"%5 = OpFSub %float %3 %4\n" +
"%6 = OpFAdd %float %5 %4\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
6, true),
// Test case 1: merge of add of sub
// b + (a - b) => a
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: %6 = OpCopyObject [[float]] %3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%3 = OpLoad %float %var0\n" +
"%4 = OpLoad %float %var1\n" +
"%5 = OpFSub %float %3 %4\n" +
"%6 = OpFAdd %float %4 %5\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
6, true)
));
INSTANTIATE_TEST_SUITE_P(FactorAddMul, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: factor of add of muls
// (a * b) + (a * c) => a * (b + c)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[newadd:%\\w+]] = OpFAdd [[float]] %4 %5\n" +
"; CHECK: %9 = OpFMul [[float]] %6 [[newadd]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%var2 = OpVariable %_ptr_float Function\n" +
"%4 = OpLoad %float %var0\n" +
"%5 = OpLoad %float %var1\n" +
"%6 = OpLoad %float %var2\n" +
"%7 = OpFMul %float %6 %4\n" +
"%8 = OpFMul %float %6 %5\n" +
"%9 = OpFAdd %float %7 %8\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true),
// Test case 1: factor of add of muls
// (b * a) + (a * c) => a * (b + c)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[newadd:%\\w+]] = OpFAdd [[float]] %4 %5\n" +
"; CHECK: %9 = OpFMul [[float]] %6 [[newadd]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%var2 = OpVariable %_ptr_float Function\n" +
"%4 = OpLoad %float %var0\n" +
"%5 = OpLoad %float %var1\n" +
"%6 = OpLoad %float %var2\n" +
"%7 = OpFMul %float %4 %6\n" +
"%8 = OpFMul %float %6 %5\n" +
"%9 = OpFAdd %float %7 %8\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true),
// Test case 2: factor of add of muls
// (a * b) + (c * a) => a * (b + c)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[newadd:%\\w+]] = OpFAdd [[float]] %4 %5\n" +
"; CHECK: %9 = OpFMul [[float]] %6 [[newadd]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%var2 = OpVariable %_ptr_float Function\n" +
"%4 = OpLoad %float %var0\n" +
"%5 = OpLoad %float %var1\n" +
"%6 = OpLoad %float %var2\n" +
"%7 = OpFMul %float %6 %4\n" +
"%8 = OpFMul %float %5 %6\n" +
"%9 = OpFAdd %float %7 %8\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true),
// Test case 3: factor of add of muls
// (b * a) + (c * a) => a * (b + c)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[newadd:%\\w+]] = OpFAdd [[float]] %4 %5\n" +
"; CHECK: %9 = OpFMul [[float]] %6 [[newadd]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var0 = OpVariable %_ptr_float Function\n" +
"%var1 = OpVariable %_ptr_float Function\n" +
"%var2 = OpVariable %_ptr_float Function\n" +
"%4 = OpLoad %float %var0\n" +
"%5 = OpLoad %float %var1\n" +
"%6 = OpLoad %float %var2\n" +
"%7 = OpFMul %float %4 %6\n" +
"%8 = OpFMul %float %5 %6\n" +
"%9 = OpFAdd %float %7 %8\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true)
));
INSTANTIATE_TEST_SUITE_P(MergeSubTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: merge sub of negate
// (-x) - 2 = -2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n2:%\\w+]] = OpConstant [[float]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFNegate %float %2\n" +
"%4 = OpFSub %float %3 %float_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 1: merge sub of negate
// 2 - (-x) = x + 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_2:%\\w+]] = OpConstant [[float]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFNegate %float %2\n" +
"%4 = OpFSub %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 2: merge sub of negate
// (-x) - 2 = -2 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_n2:%\\w+]] = OpConstant [[long]] -2{{[[:space:]]}}\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[long_n2]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpSNegate %long %2\n" +
"%4 = OpISub %long %3 %long_2\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 3: merge sub of negate
// 2 - (-x) = x + 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64 1\n" +
"; CHECK: [[long_2:%\\w+]] = OpConstant [[long]] 2\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpIAdd [[long]] [[ld]] [[long_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpSNegate %long %2\n" +
"%4 = OpISub %long %long_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 4: merge add of subtract
// (x + 2) - 1 = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %2 %float_2\n" +
"%4 = OpFSub %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 5: merge add of subtract
// (2 + x) - 1 = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %float_2 %2\n" +
"%4 = OpFSub %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 6: merge add of subtract
// 2 - (x + 1) = 1 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_1]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %2 %float_1\n" +
"%4 = OpFSub %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 7: merge add of subtract
// 2 - (1 + x) = 1 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_1]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFAdd %float %float_1 %2\n" +
"%4 = OpFSub %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 8: merge subtract of subtract
// (x - 2) - 1 = x - 3
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[ld]] [[float_3]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %2 %float_2\n" +
"%4 = OpFSub %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 9: merge subtract of subtract
// (2 - x) - 1 = 1 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_1]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_2 %2\n" +
"%4 = OpFSub %float %3 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 10: merge subtract of subtract
// 2 - (x - 1) = 3 - x
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_3:%\\w+]] = OpConstant [[float]] 3\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFSub [[float]] [[float_3]] [[ld]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %2 %float_1\n" +
"%4 = OpFSub %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 11: merge subtract of subtract
// 1 - (2 - x) = x + (-1)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_n1:%\\w+]] = OpConstant [[float]] -1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_n1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_2 %2\n" +
"%4 = OpFSub %float %float_1 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 12: merge subtract of subtract
// 2 - (1 - x) = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: [[float_1:%\\w+]] = OpConstant [[float]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[float]]\n" +
"; CHECK: %4 = OpFAdd [[float]] [[ld]] [[float_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_float Function\n" +
"%2 = OpLoad %float %var\n" +
"%3 = OpFSub %float %float_1 %2\n" +
"%4 = OpFSub %float %float_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 13: merge subtract of subtract with mixed types.
// 2 - (1 - x) = x + 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int_1:%\\w+]] = OpConstant [[int]] 1\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpIAdd [[int]] [[ld]] [[int_1]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpISub %int %uint_1 %2\n" +
"%4 = OpISub %int %int_2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 14: fold overflowing signed 32 bit isubs
// (x - int_max) - 1 = x - int_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32\n" +
"; CHECK: [[int_min:%\\w+]] = OpConstant [[int]] -2147483648\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[int]]\n" +
"; CHECK: %4 = OpISub [[int]] [[ld]] [[int_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_int Function\n" +
"%2 = OpLoad %int %var\n" +
"%3 = OpISub %int %2 %int_max\n" +
"%4 = OpISub %int %3 %int_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true),
// Test case 15: fold overflowing signed 64 bit isubs
// (x - long_max) - 1 = x - long_min
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[long:%\\w+]] = OpTypeInt 64\n" +
"; CHECK: [[long_min:%\\w+]] = OpConstant [[long]] -9223372036854775808\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[long]]\n" +
"; CHECK: %4 = OpISub [[long]] [[ld]] [[long_min]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%var = OpVariable %_ptr_long Function\n" +
"%2 = OpLoad %long %var\n" +
"%3 = OpISub %long %2 %long_max\n" +
"%4 = OpISub %long %3 %long_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
4, true)
));
INSTANTIATE_TEST_SUITE_P(SelectFoldingTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: Fold select with the same values for both sides
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int0:%\\w+]] = OpConstant [[int]] 0\n" +
"; CHECK: %2 = OpCopyObject [[int]] [[int0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_bool Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpSelect %int %load %100 %100\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 1: Fold select true to left side
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int0:%\\w+]] = OpConstant [[int]] 0\n" +
"; CHECK: %2 = OpCopyObject [[int]] [[int0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpSelect %int %true %100 %n\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 2: Fold select false to right side
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int0:%\\w+]] = OpConstant [[int]] 0\n" +
"; CHECK: %2 = OpCopyObject [[int]] [[int0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %bool %n\n" +
"%2 = OpSelect %int %false %n %100\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 3: Fold select null to right side
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[int0:%\\w+]] = OpConstant [[int]] 0\n" +
"; CHECK: %2 = OpCopyObject [[int]] [[int0]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpSelect %int %bool_null %load %100\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 4: vector null
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: [[int2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK: [[v2int2_2:%\\w+]] = OpConstantComposite [[v2int]] [[int2]] [[int2]]\n" +
"; CHECK: %2 = OpCopyObject [[v2int]] [[v2int2_2]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%load = OpLoad %v2int %n\n" +
"%2 = OpSelect %v2int %v2bool_null %load %v2int_2_2\n" +
"OpReturn\n" +
"OpFunctionEnd",
2, true),
// Test case 5: vector select
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: %4 = OpVectorShuffle [[v2int]] %2 %3 0 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v2int Function\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %n\n" +
"%3 = OpLoad %v2int %n\n" +
"%4 = OpSelect %v2int %v2bool_true_false %2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 6: vector select
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: %4 = OpVectorShuffle [[v2int]] %2 %3 2 1\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v2int Function\n" +
"%n = OpVariable %_ptr_v2int Function\n" +
"%2 = OpLoad %v2int %n\n" +
"%3 = OpLoad %v2int %n\n" +
"%4 = OpSelect %v2int %v2bool_false_true %2 %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true)
));
INSTANTIATE_TEST_SUITE_P(CompositeExtractOrInsertMatchingTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: Extracting from result of consecutive shuffles of differing
// size.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: %5 = OpCompositeExtract [[int]] %2 2\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4int Function\n" +
"%2 = OpLoad %v4int %n\n" +
"%3 = OpVectorShuffle %v2int %2 %2 2 3\n" +
"%4 = OpVectorShuffle %v4int %2 %3 0 4 2 5\n" +
"%5 = OpCompositeExtract %int %4 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 1: Extracting from result of vector shuffle of differing
// input and result sizes.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: %4 = OpCompositeExtract [[int]] %2 2\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4int Function\n" +
"%2 = OpLoad %v4int %n\n" +
"%3 = OpVectorShuffle %v2int %2 %2 2 3\n" +
"%4 = OpCompositeExtract %int %3 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 2: Extracting from result of vector shuffle of differing
// input and result sizes.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: %4 = OpCompositeExtract [[int]] %2 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4int Function\n" +
"%2 = OpLoad %v4int %n\n" +
"%3 = OpVectorShuffle %v2int %2 %2 2 3\n" +
"%4 = OpCompositeExtract %int %3 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 3: Using fmix feeding extract with a 1 in the a position.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 4\n" +
"; CHECK: [[ptr_v4double:%\\w+]] = OpTypePointer Function [[v4double]]\n" +
"; CHECK: [[m:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[n:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v4double]] [[n]]\n" +
"; CHECK: %5 = OpCompositeExtract [[double]] [[ld]] 1\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v4double Function\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %m\n" +
"%3 = OpLoad %v4double %n\n" +
"%4 = OpExtInst %v4double %1 FMix %2 %3 %v4double_0_1_0_0\n" +
"%5 = OpCompositeExtract %double %4 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 4: Using fmix feeding extract with a 0 in the a position.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 4\n" +
"; CHECK: [[ptr_v4double:%\\w+]] = OpTypePointer Function [[v4double]]\n" +
"; CHECK: [[m:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[n:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v4double]] [[m]]\n" +
"; CHECK: %5 = OpCompositeExtract [[double]] [[ld]] 2\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v4double Function\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %m\n" +
"%3 = OpLoad %v4double %n\n" +
"%4 = OpExtInst %v4double %1 FMix %2 %3 %v4double_0_1_0_0\n" +
"%5 = OpCompositeExtract %double %4 2\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 5: Using fmix feeding extract with a null for the alpha
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 4\n" +
"; CHECK: [[ptr_v4double:%\\w+]] = OpTypePointer Function [[v4double]]\n" +
"; CHECK: [[m:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[n:%\\w+]] = OpVariable [[ptr_v4double]] Function\n" +
"; CHECK: [[ld:%\\w+]] = OpLoad [[v4double]] [[m]]\n" +
"; CHECK: %5 = OpCompositeExtract [[double]] [[ld]] 0\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v4double Function\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %m\n" +
"%3 = OpLoad %v4double %n\n" +
"%4 = OpExtInst %v4double %1 FMix %2 %3 %v4double_null\n" +
"%5 = OpCompositeExtract %double %4 0\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 6: Don't fold: Using fmix feeding extract with 0.5 in the a
// position.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%m = OpVariable %_ptr_v4double Function\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %m\n" +
"%3 = OpLoad %v4double %n\n" +
"%4 = OpExtInst %v4double %1 FMix %2 %3 %v4double_1_1_1_0p5\n" +
"%5 = OpCompositeExtract %double %4 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, false),
// Test case 7: Extracting the undefined literal value from a vector
// shuffle.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: %4 = OpUndef [[int]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4int Function\n" +
"%2 = OpLoad %v4int %n\n" +
"%3 = OpVectorShuffle %v2int %2 %2 2 4294967295\n" +
"%4 = OpCompositeExtract %int %3 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, true),
// Test case 8: Inserting every element of a vector turns into a composite construct.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK-DAG: [[v4:%\\w+]] = OpTypeVector [[int]] 4\n" +
"; CHECK-DAG: [[int1:%\\w+]] = OpConstant [[int]] 1\n" +
"; CHECK-DAG: [[int2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK-DAG: [[int3:%\\w+]] = OpConstant [[int]] 3\n" +
"; CHECK: [[construct:%\\w+]] = OpCompositeConstruct [[v4]] %100 [[int1]] [[int2]] [[int3]]\n" +
"; CHECK: %5 = OpCopyObject [[v4]] [[construct]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %v4int %100 %v4int_undef 0\n" +
"%3 = OpCompositeInsert %v4int %int_1 %2 1\n" +
"%4 = OpCompositeInsert %v4int %int_2 %3 2\n" +
"%5 = OpCompositeInsert %v4int %int_3 %4 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 9: Inserting every element of a vector turns into a composite construct in a different order.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK-DAG: [[v4:%\\w+]] = OpTypeVector [[int]] 4\n" +
"; CHECK-DAG: [[int1:%\\w+]] = OpConstant [[int]] 1\n" +
"; CHECK-DAG: [[int2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK-DAG: [[int3:%\\w+]] = OpConstant [[int]] 3\n" +
"; CHECK: [[construct:%\\w+]] = OpCompositeConstruct [[v4]] %100 [[int1]] [[int2]] [[int3]]\n" +
"; CHECK: %5 = OpCopyObject [[v4]] [[construct]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %v4int %100 %v4int_undef 0\n" +
"%4 = OpCompositeInsert %v4int %int_2 %2 2\n" +
"%3 = OpCompositeInsert %v4int %int_1 %4 1\n" +
"%5 = OpCompositeInsert %v4int %int_3 %3 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 10: Check multiple inserts to the same position are handled correctly.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK-DAG: [[v4:%\\w+]] = OpTypeVector [[int]] 4\n" +
"; CHECK-DAG: [[int1:%\\w+]] = OpConstant [[int]] 1\n" +
"; CHECK-DAG: [[int2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK-DAG: [[int3:%\\w+]] = OpConstant [[int]] 3\n" +
"; CHECK: [[construct:%\\w+]] = OpCompositeConstruct [[v4]] %100 [[int1]] [[int2]] [[int3]]\n" +
"; CHECK: %6 = OpCopyObject [[v4]] [[construct]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %v4int %100 %v4int_undef 0\n" +
"%3 = OpCompositeInsert %v4int %int_2 %2 2\n" +
"%4 = OpCompositeInsert %v4int %int_4 %3 1\n" +
"%5 = OpCompositeInsert %v4int %int_1 %4 1\n" +
"%6 = OpCompositeInsert %v4int %int_3 %5 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
6, true),
// Test case 11: The last indexes are 0 and 1, but they have different first indexes. This should not be folded.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %m2x2int %100 %m2x2int_undef 0 0\n" +
"%3 = OpCompositeInsert %m2x2int %int_1 %2 1 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, false),
// Test case 12: Don't fold when there is a partial insertion.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %m2x2int %v2int_1_0 %m2x2int_undef 0\n" +
"%3 = OpCompositeInsert %m2x2int %int_4 %2 0 0\n" +
"%4 = OpCompositeInsert %m2x2int %v2int_2_3 %3 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
4, false),
// Test case 13: Insert into a column of a matrix
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK-DAG: [[v2:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: [[m2x2:%\\w+]] = OpTypeMatrix [[v2]] 2\n" +
"; CHECK-DAG: [[m2x2_undef:%\\w+]] = OpUndef [[m2x2]]\n" +
"; CHECK-DAG: [[int1:%\\w+]] = OpConstant [[int]] 1\n" +
// We keep this insert in the chain. DeadInsertElimPass should remove it.
"; CHECK: [[insert:%\\w+]] = OpCompositeInsert [[m2x2]] %100 [[m2x2_undef]] 0 0\n" +
"; CHECK: [[construct:%\\w+]] = OpCompositeConstruct [[v2]] %100 [[int1]]\n" +
"; CHECK: %3 = OpCompositeInsert [[m2x2]] [[construct]] [[insert]] 0\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeInsert %m2x2int %100 %m2x2int_undef 0 0\n" +
"%3 = OpCompositeInsert %m2x2int %int_1 %2 0 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 14: Insert all elements of the matrix.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK-DAG: [[v2:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: [[m2x2:%\\w+]] = OpTypeMatrix [[v2]] 2\n" +
"; CHECK-DAG: [[m2x2_undef:%\\w+]] = OpUndef [[m2x2]]\n" +
"; CHECK-DAG: [[int1:%\\w+]] = OpConstant [[int]] 1\n" +
"; CHECK-DAG: [[int2:%\\w+]] = OpConstant [[int]] 2\n" +
"; CHECK-DAG: [[int3:%\\w+]] = OpConstant [[int]] 3\n" +
"; CHECK: [[c0:%\\w+]] = OpCompositeConstruct [[v2]] %100 [[int1]]\n" +
"; CHECK: [[c1:%\\w+]] = OpCompositeConstruct [[v2]] [[int2]] [[int3]]\n" +
"; CHECK: [[matrix:%\\w+]] = OpCompositeConstruct [[m2x2]] [[c0]] [[c1]]\n" +
"; CHECK: %5 = OpCopyObject [[m2x2]] [[matrix]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpCompositeConstruct %v2int %100 %int_1\n" +
"%3 = OpCompositeInsert %m2x2int %2 %m2x2int_undef 0\n" +
"%4 = OpCompositeInsert %m2x2int %int_2 %3 1 0\n" +
"%5 = OpCompositeInsert %m2x2int %int_3 %4 1 1\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true),
// Test case 15: Replace construct with extract when reconstructing a member
// of another object.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2:%\\w+]] = OpTypeVector [[int]] 2\n" +
"; CHECK: [[m2x2:%\\w+]] = OpTypeMatrix [[v2]] 2\n" +
"; CHECK: [[m2x2_undef:%\\w+]] = OpUndef [[m2x2]]\n" +
"; CHECK: %5 = OpCompositeExtract [[v2]] [[m2x2_undef]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%3 = OpCompositeExtract %int %m2x2int_undef 1 0\n" +
"%4 = OpCompositeExtract %int %m2x2int_undef 1 1\n" +
"%5 = OpCompositeConstruct %v2int %3 %4\n" +
"OpReturn\n" +
"OpFunctionEnd",
5, true)
));
INSTANTIATE_TEST_SUITE_P(DotProductMatchingTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: Using OpDot to extract last element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: %3 = OpCompositeExtract [[float]] %2 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%2 = OpLoad %v4float %n\n" +
"%3 = OpDot %float %2 %v4float_0_0_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 1: Using OpDot to extract last element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: %3 = OpCompositeExtract [[float]] %2 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%2 = OpLoad %v4float %n\n" +
"%3 = OpDot %float %v4float_0_0_0_1 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 2: Using OpDot to extract second element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[float:%\\w+]] = OpTypeFloat 32\n" +
"; CHECK: %3 = OpCompositeExtract [[float]] %2 1\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4float Function\n" +
"%2 = OpLoad %v4float %n\n" +
"%3 = OpDot %float %v4float_0_1_0_0 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 3: Using OpDot to extract last element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: %3 = OpCompositeExtract [[double]] %2 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %n\n" +
"%3 = OpDot %double %2 %v4double_0_0_0_1\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 4: Using OpDot to extract last element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: %3 = OpCompositeExtract [[double]] %2 3\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %n\n" +
"%3 = OpDot %double %v4double_0_0_0_1 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 5: Using OpDot to extract second element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: %3 = OpCompositeExtract [[double]] %2 1\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%2 = OpLoad %v4double %n\n" +
"%3 = OpDot %double %v4double_0_1_0_0 %2\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true)
));
INSTANTIATE_TEST_SUITE_P(VectorShuffleMatchingTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: Using OpDot to extract last element.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[int:%\\w+]] = OpTypeInt 32 1\n" +
"; CHECK: [[v2int:%\\w+]] = OpTypeVector [[int]] 2{{[[:space:]]}}\n" +
"; CHECK: [[null:%\\w+]] = OpConstantNull [[v2int]]\n" +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: %3 = OpVectorShuffle [[v2int]] [[null]] {{%\\w+}} 4294967295 2\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_int Function\n" +
"%load = OpLoad %int %n\n" +
"%2 = OpVectorShuffle %v2int %v2int_null %v2int_2_3 3 0xFFFFFFFF \n" +
"%3 = OpVectorShuffle %v2int %2 %v2int_2_3 1 2 \n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true)
));
INSTANTIATE_TEST_SUITE_P(FmaGenerationMatchingTest, MatchingInstructionFoldingTest,
::testing::Values(
// Test case 0: (x * y) + a = Fma(x, y, a)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 1: a + (x * y) = Fma(x, y, a)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %la %mul\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 2: (x * y) + a = Fma(x, y, a) with vectors
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_v4float Function\n" +
"%y = OpVariable %_ptr_v4float Function\n" +
"%a = OpVariable %_ptr_v4float Function\n" +
"%lx = OpLoad %v4float %x\n" +
"%ly = OpLoad %v4float %y\n" +
"%mul = OpFMul %v4float %lx %ly\n" +
"%la = OpLoad %v4float %a\n" +
"%3 = OpFAdd %v4float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 3: a + (x * y) = Fma(x, y, a) with vectors
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %la %mul\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test 4: that the OpExtInstImport instruction is generated if it is missing.
InstructionFoldingCase<bool>(
std::string() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"OpCapability Shader\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %main \"main\"\n" +
"OpExecutionMode %main OriginUpperLeft\n" +
"OpSource GLSL 140\n" +
"OpName %main \"main\"\n" +
"%void = OpTypeVoid\n" +
"%void_func = OpTypeFunction %void\n" +
"%bool = OpTypeBool\n" +
"%float = OpTypeFloat 32\n" +
"%_ptr_float = OpTypePointer Function %float\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test 5: Don't fold if the multiple is marked no contract.
InstructionFoldingCase<bool>(
std::string() +
"OpCapability Shader\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %main \"main\"\n" +
"OpExecutionMode %main OriginUpperLeft\n" +
"OpSource GLSL 140\n" +
"OpName %main \"main\"\n" +
"OpDecorate %mul NoContraction\n" +
"%void = OpTypeVoid\n" +
"%void_func = OpTypeFunction %void\n" +
"%bool = OpTypeBool\n" +
"%float = OpTypeFloat 32\n" +
"%_ptr_float = OpTypePointer Function %float\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, false),
// Test 6: Don't fold if the add is marked no contract.
InstructionFoldingCase<bool>(
std::string() +
"OpCapability Shader\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %main \"main\"\n" +
"OpExecutionMode %main OriginUpperLeft\n" +
"OpSource GLSL 140\n" +
"OpName %main \"main\"\n" +
"OpDecorate %3 NoContraction\n" +
"%void = OpTypeVoid\n" +
"%void_func = OpTypeFunction %void\n" +
"%bool = OpTypeBool\n" +
"%float = OpTypeFloat 32\n" +
"%_ptr_float = OpTypePointer Function %float\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFAdd %float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, false),
// Test case 7: (x * y) - a = Fma(x, y, -a)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[na:%\\w+]] = OpFNegate {{%\\w+}} [[la]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[lx]] [[ly]] [[na]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFSub %float %mul %la\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true),
// Test case 8: a - (x * y) = Fma(-x, y, a)
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[ext:%\\w+]] = OpExtInstImport \"GLSL.std.450\"\n" +
"; CHECK: OpFunction\n" +
"; CHECK: [[x:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[y:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[a:%\\w+]] = OpVariable {{%\\w+}} Function\n" +
"; CHECK: [[lx:%\\w+]] = OpLoad {{%\\w+}} [[x]]\n" +
"; CHECK: [[ly:%\\w+]] = OpLoad {{%\\w+}} [[y]]\n" +
"; CHECK: [[la:%\\w+]] = OpLoad {{%\\w+}} [[a]]\n" +
"; CHECK: [[nx:%\\w+]] = OpFNegate {{%\\w+}} [[lx]]\n" +
"; CHECK: [[fma:%\\w+]] = OpExtInst {{%\\w+}} [[ext]] Fma [[nx]] [[ly]] [[la]]\n" +
"; CHECK: OpStore {{%\\w+}} [[fma]]\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%x = OpVariable %_ptr_float Function\n" +
"%y = OpVariable %_ptr_float Function\n" +
"%a = OpVariable %_ptr_float Function\n" +
"%lx = OpLoad %float %x\n" +
"%ly = OpLoad %float %y\n" +
"%mul = OpFMul %float %lx %ly\n" +
"%la = OpLoad %float %a\n" +
"%3 = OpFSub %float %la %mul\n" +
"OpStore %a %3\n" +
"OpReturn\n" +
"OpFunctionEnd",
3, true)
));
using MatchingInstructionWithNoResultFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
// Test folding instructions that do not have a result. The instruction
// that will be folded is the last instruction before the return. If there
// are multiple returns, there is not guarantee which one is used.
TEST_P(MatchingInstructionWithNoResultFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
Instruction* inst = nullptr;
Function* func = &*context->module()->begin();
for (auto& bb : *func) {
Instruction* terminator = bb.terminator();
if (terminator->IsReturnOrAbort()) {
inst = terminator->PreviousNode();
break;
}
}
assert(inst && "Invalid test. Could not find instruction to fold.");
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
EXPECT_EQ(succeeded, tc.expected_result);
if (succeeded) {
Match(tc.test_body, context.get());
}
}
INSTANTIATE_TEST_SUITE_P(StoreMatchingTest, MatchingInstructionWithNoResultFoldingTest,
::testing::Values(
// Test case 0: Remove store of undef.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpLabel\n" +
"; CHECK-NOT: OpStore\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%undef = OpUndef %v4double\n" +
"OpStore %n %undef\n" +
"OpReturn\n" +
"OpFunctionEnd",
0 /* OpStore */, true),
// Test case 1: Keep volatile store.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%n = OpVariable %_ptr_v4double Function\n" +
"%undef = OpUndef %v4double\n" +
"OpStore %n %undef Volatile\n" +
"OpReturn\n" +
"OpFunctionEnd",
0 /* OpStore */, false)
));
INSTANTIATE_TEST_SUITE_P(VectorShuffleMatchingTest, MatchingInstructionWithNoResultFoldingTest,
::testing::Values(
// Test case 0: Basic test 1
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %7 %5 2 3 6 7\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 3 4 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 1: Basic test 2
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %6 %7 0 1 4 5\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %8 %7 2 3 4 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 2: Basic test 3
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %5 %7 3 2 4 5\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %8 %7 1 0 4 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 3: Basic test 4
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %7 %6 2 3 5 4\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 3 7 6\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 4: Don't fold, need both operands of the feeder.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 3 7 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, false),
// Test case 5: Don't fold, need both operands of the feeder.
InstructionFoldingCase<bool>(
Header() +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %6 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %8 %7 2 0 7 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, false),
// Test case 6: Fold, need both operands of the feeder, but they are the same.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %5 %7 0 2 7 5\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %5 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %8 %7 2 0 7 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 7: Fold, need both operands of the feeder, but they are the same.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %7 %5 2 0 5 7\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %5 2 3 4 5\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 0 7 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 8: Replace first operand with a smaller vector.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %5 %7 0 0 5 3\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v2double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v2double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v4double %5 %5 0 1 2 3\n" +
"%9 = OpVectorShuffle %v4double %8 %7 2 0 7 5\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 9: Replace first operand with a larger vector.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %5 %7 3 0 7 5\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v2double %5 %5 0 3\n" +
"%9 = OpVectorShuffle %v4double %8 %7 1 0 5 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 10: Replace unused operand with null.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[null:%\\w+]] = OpConstantNull [[v4double]]\n" +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} [[null]] %7 4 2 5 3\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v2double %5 %5 0 3\n" +
"%9 = OpVectorShuffle %v4double %8 %7 4 2 5 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 11: Replace unused operand with null.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[null:%\\w+]] = OpConstantNull [[v4double]]\n" +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} [[null]] %5 2 2 5 5\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%8 = OpVectorShuffle %v2double %5 %5 0 3\n" +
"%9 = OpVectorShuffle %v4double %8 %8 2 2 3 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 12: Replace unused operand with null.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: [[null:%\\w+]] = OpConstantNull [[v4double]]\n" +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %7 [[null]] 2 0 1 3\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v2double %5 %5 0 3\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 0 1 3\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true),
// Test case 13: Shuffle with undef literal.
InstructionFoldingCase<bool>(
Header() +
"; CHECK: [[double:%\\w+]] = OpTypeFloat 64\n" +
"; CHECK: [[v4double:%\\w+]] = OpTypeVector [[double]] 2\n" +
"; CHECK: OpVectorShuffle\n" +
"; CHECK: OpVectorShuffle {{%\\w+}} %7 {{%\\w+}} 2 0 1 4294967295\n" +
"; CHECK: OpReturn\n" +
"%main = OpFunction %void None %void_func\n" +
"%main_lab = OpLabel\n" +
"%2 = OpVariable %_ptr_v4double Function\n" +
"%3 = OpVariable %_ptr_v4double Function\n" +
"%4 = OpVariable %_ptr_v4double Function\n" +
"%5 = OpLoad %v4double %2\n" +
"%6 = OpLoad %v4double %3\n" +
"%7 = OpLoad %v4double %4\n" +
"%8 = OpVectorShuffle %v2double %5 %5 0 1\n" +
"%9 = OpVectorShuffle %v4double %7 %8 2 0 1 4294967295\n" +
"OpReturn\n" +
"OpFunctionEnd",
9, true)
));
using EntryPointFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
TEST_P(EntryPointFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_1, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
Instruction* inst = nullptr;
inst = &*context->module()->entry_points().begin();
assert(inst && "Invalid test. Could not find entry point instruction to fold.");
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
EXPECT_EQ(succeeded, tc.expected_result);
if (succeeded) {
Match(tc.test_body, context.get());
}
}
INSTANTIATE_TEST_SUITE_P(OpEntryPointFoldingTest, EntryPointFoldingTest,
::testing::Values(
// Test case 0: Basic test 1
InstructionFoldingCase<bool>(std::string() +
"; CHECK: OpEntryPoint Fragment %2 \"main\" %3\n" +
"OpCapability Shader\n" +
"%1 = OpExtInstImport \"GLSL.std.450\"\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %2 \"main\" %3 %3 %3\n" +
"OpExecutionMode %2 OriginUpperLeft\n" +
"OpSource GLSL 430\n" +
"OpDecorate %3 Location 0\n" +
"%void = OpTypeVoid\n" +
"%5 = OpTypeFunction %void\n" +
"%float = OpTypeFloat 32\n" +
"%v4float = OpTypeVector %float 4\n" +
"%_ptr_Output_v4float = OpTypePointer Output %v4float\n" +
"%3 = OpVariable %_ptr_Output_v4float Output\n" +
"%int = OpTypeInt 32 1\n" +
"%int_0 = OpConstant %int 0\n" +
"%_ptr_PushConstant_v4float = OpTypePointer PushConstant %v4float\n" +
"%2 = OpFunction %void None %5\n" +
"%12 = OpLabel\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true),
InstructionFoldingCase<bool>(std::string() +
"; CHECK: OpEntryPoint Fragment %2 \"main\" %3 %4\n" +
"OpCapability Shader\n" +
"%1 = OpExtInstImport \"GLSL.std.450\"\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %2 \"main\" %3 %4 %3\n" +
"OpExecutionMode %2 OriginUpperLeft\n" +
"OpSource GLSL 430\n" +
"OpDecorate %3 Location 0\n" +
"%void = OpTypeVoid\n" +
"%5 = OpTypeFunction %void\n" +
"%float = OpTypeFloat 32\n" +
"%v4float = OpTypeVector %float 4\n" +
"%_ptr_Output_v4float = OpTypePointer Output %v4float\n" +
"%3 = OpVariable %_ptr_Output_v4float Output\n" +
"%4 = OpVariable %_ptr_Output_v4float Output\n" +
"%int = OpTypeInt 32 1\n" +
"%int_0 = OpConstant %int 0\n" +
"%_ptr_PushConstant_v4float = OpTypePointer PushConstant %v4float\n" +
"%2 = OpFunction %void None %5\n" +
"%12 = OpLabel\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true),
InstructionFoldingCase<bool>(std::string() +
"; CHECK: OpEntryPoint Fragment %2 \"main\" %4 %3\n" +
"OpCapability Shader\n" +
"%1 = OpExtInstImport \"GLSL.std.450\"\n" +
"OpMemoryModel Logical GLSL450\n" +
"OpEntryPoint Fragment %2 \"main\" %4 %4 %3\n" +
"OpExecutionMode %2 OriginUpperLeft\n" +
"OpSource GLSL 430\n" +
"OpDecorate %3 Location 0\n" +
"%void = OpTypeVoid\n" +
"%5 = OpTypeFunction %void\n" +
"%float = OpTypeFloat 32\n" +
"%v4float = OpTypeVector %float 4\n" +
"%_ptr_Output_v4float = OpTypePointer Output %v4float\n" +
"%3 = OpVariable %_ptr_Output_v4float Output\n" +
"%4 = OpVariable %_ptr_Output_v4float Output\n" +
"%int = OpTypeInt 32 1\n" +
"%int_0 = OpConstant %int 0\n" +
"%_ptr_PushConstant_v4float = OpTypePointer PushConstant %v4float\n" +
"%2 = OpFunction %void None %5\n" +
"%12 = OpLabel\n" +
"OpReturn\n" +
"OpFunctionEnd\n",
9, true)
));
using SPV14FoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
TEST_P(SPV14FoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_4, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
EXPECT_EQ(succeeded, tc.expected_result);
if (succeeded) {
Match(tc.test_body, context.get());
}
}
INSTANTIATE_TEST_SUITE_P(SPV14FoldingTest, SPV14FoldingTest,
::testing::Values(
// Test case 0: select vectors with scalar condition.
InstructionFoldingCase<bool>(std::string() +
"; CHECK-NOT: OpSelect\n" +
"; CHECK: %3 = OpCopyObject {{%\\w+}} %1\n" +
"OpCapability Shader\n" +
"OpCapability Linkage\n" +
"%void = OpTypeVoid\n" +
"%bool = OpTypeBool\n" +
"%true = OpConstantTrue %bool\n" +
"%int = OpTypeInt 32 0\n" +
"%int4 = OpTypeVector %int 4\n" +
"%int_0 = OpConstant %int 0\n" +
"%int_1 = OpConstant %int 1\n" +
"%1 = OpUndef %int4\n" +
"%2 = OpUndef %int4\n" +
"%void_fn = OpTypeFunction %void\n" +
"%func = OpFunction %void None %void_fn\n" +
"%entry = OpLabel\n" +
"%3 = OpSelect %int4 %true %1 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
3, true),
// Test case 1: select struct with scalar condition.
InstructionFoldingCase<bool>(std::string() +
"; CHECK-NOT: OpSelect\n" +
"; CHECK: %3 = OpCopyObject {{%\\w+}} %2\n" +
"OpCapability Shader\n" +
"OpCapability Linkage\n" +
"%void = OpTypeVoid\n" +
"%bool = OpTypeBool\n" +
"%true = OpConstantFalse %bool\n" +
"%int = OpTypeInt 32 0\n" +
"%struct = OpTypeStruct %int %int %int %int\n" +
"%int_0 = OpConstant %int 0\n" +
"%int_1 = OpConstant %int 1\n" +
"%1 = OpUndef %struct\n" +
"%2 = OpUndef %struct\n" +
"%void_fn = OpTypeFunction %void\n" +
"%func = OpFunction %void None %void_fn\n" +
"%entry = OpLabel\n" +
"%3 = OpSelect %struct %true %1 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
3, true),
// Test case 1: select array with scalar condition.
InstructionFoldingCase<bool>(std::string() +
"; CHECK-NOT: OpSelect\n" +
"; CHECK: %3 = OpCopyObject {{%\\w+}} %2\n" +
"OpCapability Shader\n" +
"OpCapability Linkage\n" +
"%void = OpTypeVoid\n" +
"%bool = OpTypeBool\n" +
"%true = OpConstantFalse %bool\n" +
"%int = OpTypeInt 32 0\n" +
"%int_0 = OpConstant %int 0\n" +
"%int_1 = OpConstant %int 1\n" +
"%int_4 = OpConstant %int 4\n" +
"%array = OpTypeStruct %int %int %int %int\n" +
"%1 = OpUndef %array\n" +
"%2 = OpUndef %array\n" +
"%void_fn = OpTypeFunction %void\n" +
"%func = OpFunction %void None %void_fn\n" +
"%entry = OpLabel\n" +
"%3 = OpSelect %array %true %1 %2\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
3, true)
));
std::string FloatControlsHeader(const std::string& capabilities) {
std::string header = R"(
OpCapability Shader
)" + capabilities + R"(
%void = OpTypeVoid
%float = OpTypeFloat 32
%float_0 = OpConstant %float 0
%float_1 = OpConstant %float 1
%void_fn = OpTypeFunction %void
%func = OpFunction %void None %void_fn
%entry = OpLabel
)";
return header;
}
using FloatControlsFoldingTest =
::testing::TestWithParam<InstructionFoldingCase<bool>>;
TEST_P(FloatControlsFoldingTest, Case) {
const auto& tc = GetParam();
// Build module.
std::unique_ptr<IRContext> context =
BuildModule(SPV_ENV_UNIVERSAL_1_4, nullptr, tc.test_body,
SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS);
ASSERT_NE(nullptr, context);
// Fold the instruction to test.
analysis::DefUseManager* def_use_mgr = context->get_def_use_mgr();
Instruction* inst = def_use_mgr->GetDef(tc.id_to_fold);
std::unique_ptr<Instruction> original_inst(inst->Clone(context.get()));
bool succeeded = context->get_instruction_folder().FoldInstruction(inst);
EXPECT_EQ(succeeded, tc.expected_result);
if (succeeded) {
Match(tc.test_body, context.get());
}
}
INSTANTIATE_TEST_SUITE_P(FloatControlsFoldingTest, FloatControlsFoldingTest,
::testing::Values(
// Test case 0: no folding with DenormPreserve
InstructionFoldingCase<bool>(FloatControlsHeader("OpCapability DenormPreserve") +
"%1 = OpFAdd %float %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
1, false),
// Test case 1: no folding with DenormFlushToZero
InstructionFoldingCase<bool>(FloatControlsHeader("OpCapability DenormFlushToZero") +
"%1 = OpFAdd %float %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
1, false),
// Test case 2: no folding with SignedZeroInfNanPreserve
InstructionFoldingCase<bool>(FloatControlsHeader("OpCapability SignedZeroInfNanPreserve") +
"%1 = OpFAdd %float %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
1, false),
// Test case 3: no folding with RoundingModeRTE
InstructionFoldingCase<bool>(FloatControlsHeader("OpCapability RoundingModeRTE") +
"%1 = OpFAdd %float %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
1, false),
// Test case 4: no folding with RoundingModeRTZ
InstructionFoldingCase<bool>(FloatControlsHeader("OpCapability RoundingModeRTZ") +
"%1 = OpFAdd %float %float_0 %float_1\n" +
"OpReturn\n" +
"OpFunctionEnd\n"
,
1, false)
));
std::string ImageOperandsTestBody(const std::string& image_instruction) {
std::string body = R"(
OpCapability Shader
OpCapability ImageGatherExtended
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %main "main"
OpExecutionMode %main OriginUpperLeft
OpDecorate %Texture DescriptorSet 0
OpDecorate %Texture Binding 0
%int = OpTypeInt 32 1
%int_n1 = OpConstant %int -1
%5 = OpConstant %int 0
%float = OpTypeFloat 32
%float_0 = OpConstant %float 0
%type_2d_image = OpTypeImage %float 2D 2 0 0 1 Unknown
%type_sampled_image = OpTypeSampledImage %type_2d_image
%type_sampler = OpTypeSampler
%_ptr_UniformConstant_type_sampler = OpTypePointer UniformConstant %type_sampler
%_ptr_UniformConstant_type_2d_image = OpTypePointer UniformConstant %type_2d_image
%_ptr_int = OpTypePointer Function %int
%v2int = OpTypeVector %int 2
%10 = OpTypeVector %float 4
%void = OpTypeVoid
%22 = OpTypeFunction %void
%v2float = OpTypeVector %float 2
%v3int = OpTypeVector %int 3
%Texture = OpVariable %_ptr_UniformConstant_type_2d_image UniformConstant
%gSampler = OpVariable %_ptr_UniformConstant_type_sampler UniformConstant
%101 = OpConstantComposite %v2int %int_n1 %int_n1
%20 = OpConstantComposite %v2float %float_0 %float_0
%main = OpFunction %void None %22
%23 = OpLabel
%var = OpVariable %_ptr_int Function
%88 = OpLoad %type_2d_image %Texture
%val = OpLoad %int %var
%sampler = OpLoad %type_sampler %gSampler
%26 = OpSampledImage %type_sampled_image %88 %sampler
)" + image_instruction + R"(
OpReturn
OpFunctionEnd
)";
return body;
}
INSTANTIATE_TEST_SUITE_P(ImageOperandsBitmaskFoldingTest, MatchingInstructionWithNoResultFoldingTest,
::testing::Values(
// Test case 0: OpImageFetch without Offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
"%89 = OpImageFetch %10 %88 %101 Lod %5 \n")
, 89, false),
// Test case 1: OpImageFetch with non-const offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
"%89 = OpImageFetch %10 %88 %101 Lod|Offset %5 %val \n")
, 89, false),
// Test case 2: OpImageFetch with Lod and Offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" %89 = OpImageFetch %10 %88 %101 Lod|Offset %5 %101 \n"
"; CHECK: %89 = OpImageFetch %10 %88 %101 Lod|ConstOffset %5 %101 \n")
, 89, true),
// Test case 3: OpImageFetch with Bias and Offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" %89 = OpImageFetch %10 %88 %101 Bias|Offset %5 %101 \n"
"; CHECK: %89 = OpImageFetch %10 %88 %101 Bias|ConstOffset %5 %101 \n")
, 89, true),
// Test case 4: OpImageFetch with Grad and Offset.
// Grad adds 2 operands to the instruction.
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" %89 = OpImageFetch %10 %88 %101 Grad|Offset %5 %5 %101 \n"
"; CHECK: %89 = OpImageFetch %10 %88 %101 Grad|ConstOffset %5 %5 %101 \n")
, 89, true),
// Test case 5: OpImageFetch with Offset and MinLod.
// This is an example of a case where the bitmask bit-offset is larger than
// that of the Offset.
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" %89 = OpImageFetch %10 %88 %101 Offset|MinLod %101 %5 \n"
"; CHECK: %89 = OpImageFetch %10 %88 %101 ConstOffset|MinLod %101 %5 \n")
, 89, true),
// Test case 6: OpImageGather with constant Offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" %89 = OpImageGather %10 %26 %20 %5 Offset %101 \n"
"; CHECK: %89 = OpImageGather %10 %26 %20 %5 ConstOffset %101 \n")
, 89, true),
// Test case 7: OpImageWrite with constant Offset
InstructionFoldingCase<bool>(ImageOperandsTestBody(
" OpImageWrite %88 %5 %101 Offset %101 \n"
"; CHECK: OpImageWrite %88 %5 %101 ConstOffset %101 \n")
, 0 /* No result-id */, true)
));
} // namespace
} // namespace opt
} // namespace spvtools