blob: 3786265337851423002a824503130366d9da6b71 [file] [log] [blame]
// Copyright 2020 The Tint Authors.
//
// 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 "src/ast/call_statement.h"
#include "src/ast/stage_attribute.h"
#include "src/ast/struct_block_attribute.h"
#include "src/sem/depth_texture_type.h"
#include "src/utils/string.h"
#include "src/writer/spirv/spv_dump.h"
#include "src/writer/spirv/test_helper.h"
namespace tint {
namespace writer {
namespace spirv {
namespace {
using BuiltinBuilderTest = TestHelper;
template <typename T>
using BuiltinBuilderTestWithParam = TestParamHelper<T>;
struct BuiltinData {
std::string name;
std::string op;
};
inline std::ostream& operator<<(std::ostream& out, BuiltinData data) {
out << data.name;
return out;
}
using BuiltinBoolTest = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(BuiltinBoolTest, Call_Bool_Scalar) {
auto param = GetParam();
auto* var = Global("v", ty.bool_(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeBool
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
)");
// both any and all are 'passthrough' for scalar booleans
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
"%10 = OpLoad %3 %1\nOpReturn\n");
}
TEST_P(BuiltinBoolTest, Call_Bool_Vector) {
auto param = GetParam();
auto* var = Global("v", ty.vec3<bool>(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeBool
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
auto expected = utils::ReplaceAll(R"(%11 = OpLoad %3 %1
%10 = ${op} %4 %11
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
BuiltinBoolTest,
testing::Values(BuiltinData{"any", "OpAny"},
BuiltinData{"all", "OpAll"}));
using BuiltinFloatTest = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(BuiltinFloatTest, Call_Float_Scalar) {
auto param = GetParam();
auto* var = Global("v", ty.f32(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%10 = OpTypeBool
)");
auto expected = utils::ReplaceAll(R"(%11 = OpLoad %3 %1
%9 = ${op} %10 %11
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
TEST_P(BuiltinFloatTest, Call_Float_Vector) {
auto param = GetParam();
auto* var = Global("v", ty.vec3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%12 = OpTypeBool
%11 = OpTypeVector %12 3
)");
auto expected = utils::ReplaceAll(R"(%13 = OpLoad %3 %1
%10 = ${op} %11 %13
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
BuiltinFloatTest,
testing::Values(BuiltinData{"isNan", "OpIsNan"},
BuiltinData{"isInf", "OpIsInf"}));
TEST_F(BuiltinBuilderTest, IsFinite_Scalar) {
auto* var = Global("v", ty.f32(), ast::StorageClass::kPrivate);
auto* expr = Call("isFinite", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%10 = OpTypeBool
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%11 = OpLoad %3 %1
%12 = OpIsInf %10 %11
%13 = OpIsNan %10 %11
%14 = OpLogicalOr %10 %12 %13
%9 = OpLogicalNot %10 %14
OpReturn
)");
}
TEST_F(BuiltinBuilderTest, IsFinite_Vector) {
auto* var = Global("v", ty.vec3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call("isFinite", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%12 = OpTypeBool
%11 = OpTypeVector %12 3
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%13 = OpLoad %3 %1
%14 = OpIsInf %11 %13
%15 = OpIsNan %11 %13
%16 = OpLogicalOr %11 %14 %15
%10 = OpLogicalNot %11 %16
OpReturn
)");
}
TEST_F(BuiltinBuilderTest, IsNormal_Scalar) {
auto* var = Global("v", ty.f32(), ast::StorageClass::kPrivate);
auto* expr = Call("isNormal", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
auto got = DumpBuilder(b);
EXPECT_EQ(got, R"(%12 = OpExtInstImport "GLSL.std.450"
OpName %1 "v"
OpName %7 "a_func"
%3 = OpTypeFloat 32
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%10 = OpTypeBool
%13 = OpTypeInt 32 0
%14 = OpConstant %13 133693440
%15 = OpConstant %13 524288
%16 = OpConstant %13 133169152
%7 = OpFunction %6 None %5
%8 = OpLabel
%11 = OpLoad %3 %1
%17 = OpBitcast %13 %11
%18 = OpBitwiseAnd %13 %17 %14
%19 = OpExtInst %13 %12 UClamp %18 %15 %16
%9 = OpIEqual %10 %18 %19
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, IsNormal_Vector) {
auto* var = Global("v", ty.vec2<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call("isNormal", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
auto got = DumpBuilder(b);
EXPECT_EQ(got, R"(%14 = OpExtInstImport "GLSL.std.450"
OpName %1 "v"
OpName %8 "a_func"
%4 = OpTypeFloat 32
%3 = OpTypeVector %4 2
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%12 = OpTypeBool
%11 = OpTypeVector %12 2
%15 = OpTypeInt 32 0
%16 = OpConstant %15 133693440
%17 = OpConstant %15 524288
%18 = OpConstant %15 133169152
%19 = OpTypeVector %15 2
%8 = OpFunction %7 None %6
%9 = OpLabel
%13 = OpLoad %3 %1
%20 = OpCompositeConstruct %19 %16 %16
%21 = OpCompositeConstruct %19 %17 %17
%22 = OpCompositeConstruct %19 %18 %18
%23 = OpBitcast %19 %13
%24 = OpBitwiseAnd %19 %23 %20
%25 = OpExtInst %19 %14 UClamp %24 %21 %22
%10 = OpIEqual %11 %24 %25
OpReturn
OpFunctionEnd
)");
}
using BuiltinIntTest = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(BuiltinIntTest, Call_SInt_Scalar) {
auto param = GetParam();
auto* var = Global("v", ty.i32(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeInt 32 1
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
)");
auto expected = utils::ReplaceAll(R"(%10 = OpLoad %3 %1
%9 = ${op} %3 %10
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
TEST_P(BuiltinIntTest, Call_SInt_Vector) {
auto param = GetParam();
auto* var = Global("v", ty.vec3<i32>(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeInt 32 1
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
auto expected = utils::ReplaceAll(R"(%11 = OpLoad %3 %1
%10 = ${op} %3 %11
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
TEST_P(BuiltinIntTest, Call_UInt_Scalar) {
auto param = GetParam();
auto* var = Global("v", ty.u32(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeInt 32 0
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
)");
auto expected = utils::ReplaceAll(R"(%10 = OpLoad %3 %1
%9 = ${op} %3 %10
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
TEST_P(BuiltinIntTest, Call_UInt_Vector) {
auto param = GetParam();
auto* var = Global("v", ty.vec3<u32>(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeInt 32 0
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
auto expected = utils::ReplaceAll(R"(%11 = OpLoad %3 %1
%10 = ${op} %3 %11
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
BuiltinIntTest,
testing::Values(BuiltinData{"countOneBits", "OpBitCount"},
BuiltinData{"reverseBits", "OpBitReverse"}));
TEST_F(BuiltinBuilderTest, Call_Dot_F32) {
auto* var = Global("v", ty.vec3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call("dot", "v", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%11 = OpLoad %3 %1
%12 = OpLoad %3 %1
%10 = OpDot %4 %11 %12
OpReturn
)");
}
TEST_F(BuiltinBuilderTest, Call_Dot_U32) {
auto* var = Global("v", ty.vec3<u32>(), ast::StorageClass::kPrivate);
auto* expr = Call("dot", "v", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeInt 32 0
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%11 = OpLoad %3 %1
%12 = OpLoad %3 %1
%13 = OpCompositeExtract %4 %11 0
%14 = OpCompositeExtract %4 %12 0
%15 = OpIMul %4 %13 %14
%16 = OpCompositeExtract %4 %11 1
%17 = OpCompositeExtract %4 %12 1
%18 = OpIMul %4 %16 %17
%19 = OpIAdd %4 %15 %18
%20 = OpCompositeExtract %4 %11 2
%21 = OpCompositeExtract %4 %12 2
%22 = OpIMul %4 %20 %21
%10 = OpIAdd %4 %19 %22
OpReturn
)");
}
TEST_F(BuiltinBuilderTest, Call_Dot_I32) {
auto* var = Global("v", ty.vec3<i32>(), ast::StorageClass::kPrivate);
auto* expr = Call("dot", "v", "v");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeInt 32 1
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%11 = OpLoad %3 %1
%12 = OpLoad %3 %1
%13 = OpCompositeExtract %4 %11 0
%14 = OpCompositeExtract %4 %12 0
%15 = OpIMul %4 %13 %14
%16 = OpCompositeExtract %4 %11 1
%17 = OpCompositeExtract %4 %12 1
%18 = OpIMul %4 %16 %17
%19 = OpIAdd %4 %15 %18
%20 = OpCompositeExtract %4 %11 2
%21 = OpCompositeExtract %4 %12 2
%22 = OpIMul %4 %20 %21
%10 = OpIAdd %4 %19 %22
OpReturn
)");
}
using BuiltinDeriveTest = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(BuiltinDeriveTest, Call_Derivative_Scalar) {
auto param = GetParam();
auto* var = Global("v", ty.f32(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("func", {}, ty.void_(), {CallStmt(expr)},
{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
)");
auto expected = utils::ReplaceAll(R"(%10 = OpLoad %3 %1
%9 = ${op} %3 %10
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
TEST_P(BuiltinDeriveTest, Call_Derivative_Vector) {
auto param = GetParam();
auto* var = Global("v", ty.vec3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call(param.name, "v");
auto* func = Func("func", {}, ty.void_(), {CallStmt(expr)},
{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
if (param.name != "dpdx" && param.name != "dpdy" && param.name != "fwidth") {
EXPECT_EQ(DumpInstructions(b.capabilities()),
R"(OpCapability DerivativeControl
)");
}
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%7 = OpTypeVoid
%6 = OpTypeFunction %7
)");
auto expected = utils::ReplaceAll(R"(%11 = OpLoad %3 %1
%10 = ${op} %3 %11
OpReturn
)",
"${op}", param.op);
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), expected);
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
BuiltinDeriveTest,
testing::Values(BuiltinData{"dpdx", "OpDPdx"},
BuiltinData{"dpdxFine", "OpDPdxFine"},
BuiltinData{"dpdxCoarse", "OpDPdxCoarse"},
BuiltinData{"dpdy", "OpDPdy"},
BuiltinData{"dpdyFine", "OpDPdyFine"},
BuiltinData{"dpdyCoarse", "OpDPdyCoarse"},
BuiltinData{"fwidth", "OpFwidth"},
BuiltinData{"fwidthFine", "OpFwidthFine"},
BuiltinData{"fwidthCoarse", "OpFwidthCoarse"}));
TEST_F(BuiltinBuilderTest, Call_Select) {
auto* v3 = Global("v3", ty.vec3<f32>(), ast::StorageClass::kPrivate);
auto* bool_v3 =
Global("bool_v3", ty.vec3<bool>(), ast::StorageClass::kPrivate);
auto* expr = Call("select", "v3", "v3", "bool_v3");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(v3)) << b.error();
ASSERT_TRUE(b.GenerateGlobalVariable(bool_v3)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeVector %4 3
%2 = OpTypePointer Private %3
%5 = OpConstantNull %3
%1 = OpVariable %2 Private %5
%9 = OpTypeBool
%8 = OpTypeVector %9 3
%7 = OpTypePointer Private %8
%10 = OpConstantNull %8
%6 = OpVariable %7 Private %10
%12 = OpTypeVoid
%11 = OpTypeFunction %12
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%16 = OpLoad %8 %6
%17 = OpLoad %3 %1
%18 = OpLoad %3 %1
%15 = OpSelect %3 %16 %17 %18
OpReturn
)");
}
// This tests that we do not push OpTypeSampledImage and float_0 type twice.
TEST_F(BuiltinBuilderTest, Call_TextureSampleCompare_Twice) {
auto* s = ty.sampler(ast::SamplerKind::kComparisonSampler);
auto* t = ty.depth_texture(ast::TextureDimension::k2d);
auto* tex = Global("texture", t,
ast::AttributeList{
create<ast::BindingAttribute>(0),
create<ast::GroupAttribute>(0),
});
auto* sampler = Global("sampler", s,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(0),
});
auto* expr1 = Call("textureSampleCompare", "texture", "sampler",
vec2<f32>(1.0f, 2.0f), 2.0f);
auto* expr2 = Call("textureSampleCompare", "texture", "sampler",
vec2<f32>(1.0f, 2.0f), 2.0f);
Func("f1", {}, ty.void_(), {CallStmt(expr1)}, {});
Func("f2", {}, ty.void_(), {CallStmt(expr2)}, {});
spirv::Builder& b = Build();
b.push_function(Function{});
ASSERT_TRUE(b.GenerateGlobalVariable(tex)) << b.error();
ASSERT_TRUE(b.GenerateGlobalVariable(sampler)) << b.error();
EXPECT_EQ(b.GenerateExpression(expr1), 8u) << b.error();
EXPECT_EQ(b.GenerateExpression(expr2), 17u) << b.error();
EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
%3 = OpTypeImage %4 2D 1 0 0 1 Unknown
%2 = OpTypePointer UniformConstant %3
%1 = OpVariable %2 UniformConstant
%7 = OpTypeSampler
%6 = OpTypePointer UniformConstant %7
%5 = OpVariable %6 UniformConstant
%11 = OpTypeSampledImage %3
%13 = OpTypeVector %4 2
%14 = OpConstant %4 1
%15 = OpConstant %4 2
%16 = OpConstantComposite %13 %14 %15
)");
EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
R"(%9 = OpLoad %7 %5
%10 = OpLoad %3 %1
%12 = OpSampledImage %11 %10 %9
%8 = OpImageSampleDrefImplicitLod %4 %12 %16 %15
%18 = OpLoad %7 %5
%19 = OpLoad %3 %1
%20 = OpSampledImage %11 %19 %18
%17 = OpImageSampleDrefImplicitLod %4 %20 %16 %15
)");
}
TEST_F(BuiltinBuilderTest, Call_GLSLMethod_WithLoad) {
auto* var = Global("ident", ty.f32(), ast::StorageClass::kPrivate);
auto* expr = Call("round", "ident");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%10 = OpExtInstImport "GLSL.std.450"
OpName %1 "ident"
OpName %7 "a_func"
%3 = OpTypeFloat 32
%2 = OpTypePointer Private %3
%4 = OpConstantNull %3
%1 = OpVariable %2 Private %4
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%7 = OpFunction %6 None %5
%8 = OpLabel
%11 = OpLoad %3 %1
%9 = OpExtInst %3 %10 RoundEven %11
OpReturn
OpFunctionEnd
)");
}
using Builtin_Builtin_SingleParam_Float_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_SingleParam_Float_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1.0f);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_SingleParam_Float_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_SingleParam_Float_Test,
testing::Values(BuiltinData{"abs", "FAbs"},
BuiltinData{"acos", "Acos"},
BuiltinData{"asin", "Asin"},
BuiltinData{"atan", "Atan"},
BuiltinData{"ceil", "Ceil"},
BuiltinData{"cos", "Cos"},
BuiltinData{"cosh", "Cosh"},
BuiltinData{"degrees", "Degrees"},
BuiltinData{"exp", "Exp"},
BuiltinData{"exp2", "Exp2"},
BuiltinData{"floor", "Floor"},
BuiltinData{"fract", "Fract"},
BuiltinData{"inverseSqrt",
"InverseSqrt"},
BuiltinData{"log", "Log"},
BuiltinData{"log2", "Log2"},
BuiltinData{"radians", "Radians"},
BuiltinData{"round", "RoundEven"},
BuiltinData{"sign", "FSign"},
BuiltinData{"sin", "Sin"},
BuiltinData{"sinh", "Sinh"},
BuiltinData{"sqrt", "Sqrt"},
BuiltinData{"tan", "Tan"},
BuiltinData{"tanh", "Tanh"},
BuiltinData{"trunc", "Trunc"}));
TEST_F(BuiltinBuilderTest, Call_Length_Scalar) {
auto* expr = Call("length", 1.0f);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 Length %8
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Length_Vector) {
auto* expr = Call("length", vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpTypeVector %6 2
%9 = OpConstant %6 1
%10 = OpConstantComposite %8 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 Length %10
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Normalize) {
auto* expr = Call("normalize", vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 Normalize %10
OpReturn
OpFunctionEnd
)");
}
using Builtin_Builtin_DualParam_Float_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_DualParam_Float_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1.0f, 1.0f);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_DualParam_Float_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<f32>(1.0f, 1.0f), vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_DualParam_Float_Test,
testing::Values(BuiltinData{"atan2", "Atan2"},
BuiltinData{"max", "NMax"},
BuiltinData{"min", "NMin"},
BuiltinData{"pow", "Pow"},
BuiltinData{"step", "Step"}));
TEST_F(BuiltinBuilderTest, Call_Reflect_Vector) {
auto* expr = Call("reflect", vec2<f32>(1.0f, 1.0f), vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 Reflect %10 %10
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Distance_Scalar) {
auto* expr = Call("distance", 1.0f, 1.0f);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 Distance %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Distance_Vector) {
auto* expr = Call("distance", vec2<f32>(1.0f, 1.0f), vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpTypeVector %6 2
%9 = OpConstant %6 1
%10 = OpConstantComposite %8 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 Distance %10 %10
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Cross) {
auto* expr =
Call("cross", vec3<f32>(1.0f, 1.0f, 1.0f), vec3<f32>(1.0f, 1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 3
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 Cross %10 %10
OpReturn
OpFunctionEnd
)");
}
using Builtin_Builtin_ThreeParam_Float_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_ThreeParam_Float_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1.0f, 1.0f, 1.0f);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeFloat 32
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_ThreeParam_Float_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<f32>(1.0f, 1.0f), vec2<f32>(1.0f, 1.0f),
vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_ThreeParam_Float_Test,
testing::Values(BuiltinData{"clamp", "NClamp"},
BuiltinData{"fma", "Fma"},
BuiltinData{"mix", "FMix"},
BuiltinData{"smoothStep",
"SmoothStep"}));
TEST_F(BuiltinBuilderTest, Call_FaceForward_Vector) {
auto* expr = Call("faceForward", vec2<f32>(1.0f, 1.0f), vec2<f32>(1.0f, 1.0f),
vec2<f32>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 FaceForward %10 %10 %10
OpReturn
OpFunctionEnd
)");
}
using Builtin_Builtin_SingleParam_Sint_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_SingleParam_Sint_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_SingleParam_Sint_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<i32>(1, 1));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 1
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_SingleParam_Sint_Test,
testing::Values(BuiltinData{"abs", "SAbs"}));
// Calling abs() on an unsigned integer scalar / vector is a no-op.
using Builtin_Builtin_Abs_Uint_Test = BuiltinBuilderTest;
TEST_F(Builtin_Builtin_Abs_Uint_Test, Call_Scalar) {
auto* expr = Call("abs", 1u);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%7 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
OpReturn
OpFunctionEnd
)");
}
TEST_F(Builtin_Builtin_Abs_Uint_Test, Call_Vector) {
auto* expr = Call("abs", vec2<u32>(1u, 1u));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 0
%6 = OpTypeVector %7 2
%8 = OpConstant %7 1
%9 = OpConstantComposite %6 %8 %8
%3 = OpFunction %2 None %1
%4 = OpLabel
OpReturn
OpFunctionEnd
)");
}
using Builtin_Builtin_DualParam_SInt_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_DualParam_SInt_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1, 1);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_DualParam_SInt_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<i32>(1, 1), vec2<i32>(1, 1));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 1
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_DualParam_SInt_Test,
testing::Values(BuiltinData{"max", "SMax"},
BuiltinData{"min", "SMin"}));
using Builtin_Builtin_DualParam_UInt_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_DualParam_UInt_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1u, 1u);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_DualParam_UInt_Test, Call_Vector) {
auto param = GetParam();
auto* expr = Call(param.name, vec2<u32>(1u, 1u), vec2<u32>(1u, 1u));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 0
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_DualParam_UInt_Test,
testing::Values(BuiltinData{"max", "UMax"},
BuiltinData{"min", "UMin"}));
using Builtin_Builtin_ThreeParam_Sint_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_ThreeParam_Sint_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1, 1, 1);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 1
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_ThreeParam_Sint_Test, Call_Vector) {
auto param = GetParam();
auto* expr =
Call(param.name, vec2<i32>(1, 1), vec2<i32>(1, 1), vec2<i32>(1, 1));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 1
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_ThreeParam_Sint_Test,
testing::Values(BuiltinData{"clamp", "SClamp"}));
using Builtin_Builtin_ThreeParam_Uint_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_ThreeParam_Uint_Test, Call_Scalar) {
auto param = GetParam();
auto* expr = Call(param.name, 1u, 1u, 1u);
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%8 = OpConstant %6 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %8 %8 %8
OpReturn
OpFunctionEnd
)");
}
TEST_P(Builtin_Builtin_ThreeParam_Uint_Test, Call_Vector) {
auto param = GetParam();
auto* expr =
Call(param.name, vec2<u32>(1u, 1u), vec2<u32>(1u, 1u), vec2<u32>(1u, 1u));
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeInt 32 0
%6 = OpTypeVector %7 2
%9 = OpConstant %7 1
%10 = OpConstantComposite %6 %9 %9
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10 %10 %10
OpReturn
OpFunctionEnd
)");
}
INSTANTIATE_TEST_SUITE_P(BuiltinBuilderTest,
Builtin_Builtin_ThreeParam_Uint_Test,
testing::Values(BuiltinData{"clamp", "UClamp"}));
TEST_F(BuiltinBuilderTest, Call_Modf) {
auto* expr = Call("modf", vec2<f32>(1.0f, 2.0f));
Func("a_func", {}, ty.void_(), {CallStmt(expr)},
{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = Build();
ASSERT_TRUE(b.Build()) << b.error();
auto got = DumpBuilder(b);
auto* expect = R"(OpCapability Shader
%9 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %3 "a_func"
OpExecutionMode %3 OriginUpperLeft
OpName %3 "a_func"
OpName %6 "__modf_result_vec2"
OpMemberName %6 0 "fract"
OpMemberName %6 1 "whole"
OpMemberDecorate %6 0 Offset 0
OpMemberDecorate %6 1 Offset 8
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%8 = OpTypeFloat 32
%7 = OpTypeVector %8 2
%6 = OpTypeStruct %7 %7
%10 = OpConstant %8 1
%11 = OpConstant %8 2
%12 = OpConstantComposite %7 %10 %11
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %9 ModfStruct %12
OpReturn
OpFunctionEnd
)";
EXPECT_EQ(expect, got);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_Frexp) {
auto* expr = Call("frexp", vec2<f32>(1.0f, 2.0f));
Func("a_func", {}, ty.void_(), {CallStmt(expr)},
{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = Build();
ASSERT_TRUE(b.Build()) << b.error();
auto got = DumpBuilder(b);
auto* expect = R"(OpCapability Shader
%11 = OpExtInstImport "GLSL.std.450"
OpMemoryModel Logical GLSL450
OpEntryPoint Fragment %3 "a_func"
OpExecutionMode %3 OriginUpperLeft
OpName %3 "a_func"
OpName %6 "__frexp_result_vec2"
OpMemberName %6 0 "sig"
OpMemberName %6 1 "exp"
OpMemberDecorate %6 0 Offset 0
OpMemberDecorate %6 1 Offset 8
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%8 = OpTypeFloat 32
%7 = OpTypeVector %8 2
%10 = OpTypeInt 32 1
%9 = OpTypeVector %10 2
%6 = OpTypeStruct %7 %9
%12 = OpConstant %8 1
%13 = OpConstant %8 2
%14 = OpConstantComposite %7 %12 %13
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %11 FrexpStruct %14
OpReturn
OpFunctionEnd
)";
EXPECT_EQ(expect, got);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_Determinant) {
auto* var = Global("var", ty.mat3x3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call("determinant", "var");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(%12 = OpExtInstImport "GLSL.std.450"
OpName %1 "var"
OpName %9 "a_func"
%5 = OpTypeFloat 32
%4 = OpTypeVector %5 3
%3 = OpTypeMatrix %4 3
%2 = OpTypePointer Private %3
%6 = OpConstantNull %3
%1 = OpVariable %2 Private %6
%8 = OpTypeVoid
%7 = OpTypeFunction %8
%9 = OpFunction %8 None %7
%10 = OpLabel
%13 = OpLoad %3 %1
%11 = OpExtInst %5 %12 Determinant %13
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_Transpose) {
auto* var = Global("var", ty.mat2x3<f32>(), ast::StorageClass::kPrivate);
auto* expr = Call("transpose", "var");
auto* func = Func("a_func", {}, ty.void_(),
{
Assign(Phony(), expr),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateGlobalVariable(var)) << b.error();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
EXPECT_EQ(DumpBuilder(b), R"(OpName %1 "var"
OpName %9 "a_func"
%5 = OpTypeFloat 32
%4 = OpTypeVector %5 3
%3 = OpTypeMatrix %4 2
%2 = OpTypePointer Private %3
%6 = OpConstantNull %3
%1 = OpVariable %2 Private %6
%8 = OpTypeVoid
%7 = OpTypeFunction %8
%13 = OpTypeVector %5 2
%12 = OpTypeMatrix %13 3
%9 = OpFunction %8 None %7
%10 = OpLabel
%14 = OpLoad %3 %1
%11 = OpTranspose %12 %14
OpReturn
OpFunctionEnd
)");
}
TEST_F(BuiltinBuilderTest, Call_ArrayLength) {
auto* s = Structure("my_struct", {Member("a", ty.array<f32>(4))},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kRead,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
auto* expr = Call("arrayLength", AddressOf(MemberAccessor("b", "a")));
Func("a_func", {}, ty.void_(),
ast::StatementList{
CallStmt(expr),
},
ast::AttributeList{
Stage(ast::PipelineStage::kFragment),
});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%5 = OpTypeFloat 32
%4 = OpTypeRuntimeArray %5
%3 = OpTypeStruct %4
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpTypeInt 32 0
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%10 = OpArrayLength %11 %1 0
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_ArrayLength_OtherMembersInStruct) {
auto* s = Structure("my_struct",
{
Member("z", ty.f32()),
Member(4, "a", ty.array<f32>(4)),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kRead,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
auto* expr = Call("arrayLength", AddressOf(MemberAccessor("b", "a")));
Func("a_func", {}, ty.void_(),
ast::StatementList{
CallStmt(expr),
},
ast::AttributeList{
Stage(ast::PipelineStage::kFragment),
});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%4 = OpTypeFloat 32
%5 = OpTypeRuntimeArray %4
%3 = OpTypeStruct %4 %5
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpTypeInt 32 0
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%10 = OpArrayLength %11 %1 1
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_ArrayLength_ViaLets) {
auto* s = Structure("my_struct", {Member("a", ty.array<f32>(4))},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kRead,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
auto* p = Const("p", nullptr, AddressOf("b"));
auto* p2 = Const("p2", nullptr, AddressOf(MemberAccessor(Deref(p), "a")));
auto* expr = Call("arrayLength", p2);
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(p),
Decl(p2),
CallStmt(expr),
},
ast::AttributeList{
Stage(ast::PipelineStage::kFragment),
});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%5 = OpTypeFloat 32
%4 = OpTypeRuntimeArray %5
%3 = OpTypeStruct %4
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpTypeInt 32 0
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%10 = OpArrayLength %11 %1 0
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_ArrayLength_ViaLets_WithPtrNoise) {
// [[block]] struct my_struct {
// a : @stride(4) array<f32>;
// };
// @binding(1) @group(2) var<storage, read> b : my_struct;
//
// fn a_func() {
// let p = &*&b;
// let p2 = &*p;
// let p3 = &((*p).a);
// arrayLength(&*p3);
// }
auto* s = Structure("my_struct", {Member("a", ty.array<f32>(4))},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kRead,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
auto* p = Const("p", nullptr, AddressOf(Deref(AddressOf("b"))));
auto* p2 = Const("p2", nullptr, AddressOf(Deref(p)));
auto* p3 = Const("p3", nullptr, AddressOf(MemberAccessor(Deref(p2), "a")));
auto* expr = Call("arrayLength", AddressOf(Deref(p3)));
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(p),
Decl(p2),
Decl(p3),
CallStmt(expr),
},
ast::AttributeList{
Stage(ast::PipelineStage::kFragment),
});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%5 = OpTypeFloat 32
%4 = OpTypeRuntimeArray %5
%3 = OpTypeStruct %4
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpTypeInt 32 0
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%10 = OpArrayLength %11 %1 0
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_AtomicLoad) {
// [[block]] struct S {
// u : atomic<u32>;
// i : atomic<i32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// let u : u32 = atomicLoad(&b.u);
// let i : i32 = atomicLoad(&b.i);
// }
auto* s = Structure("S",
{
Member("u", ty.atomic<u32>()),
Member("i", ty.atomic<i32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Const("u", ty.u32(),
Call("atomicLoad", AddressOf(MemberAccessor("b", "u"))))),
Decl(Const("i", ty.i32(),
Call("atomicLoad", AddressOf(MemberAccessor("b", "i"))))),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%4 = OpTypeInt 32 0
%5 = OpTypeInt 32 1
%3 = OpTypeStruct %4 %5
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpConstant %4 1
%12 = OpConstant %4 0
%14 = OpTypePointer StorageBuffer %4
%18 = OpTypePointer StorageBuffer %5
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%15 = OpAccessChain %14 %1 %12
%10 = OpAtomicLoad %4 %15 %11 %12
%19 = OpAccessChain %18 %1 %11
%16 = OpAtomicLoad %5 %19 %11 %12
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_AtomicStore) {
// [[block]] struct S {
// u : atomic<u32>;
// i : atomic<i32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// var u = 1u;
// var i = 2;
// atomicStore(&b.u, u);
// atomicStore(&b.i, i);
// }
auto* s = Structure("S",
{
Member("u", ty.atomic<u32>()),
Member("i", ty.atomic<i32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Var("u", nullptr, Expr(1u))),
Decl(Var("i", nullptr, Expr(2))),
CallStmt(
Call("atomicStore", AddressOf(MemberAccessor("b", "u")), "u")),
CallStmt(
Call("atomicStore", AddressOf(MemberAccessor("b", "i")), "i")),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%4 = OpTypeInt 32 0
%5 = OpTypeInt 32 1
%3 = OpTypeStruct %4 %5
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%10 = OpConstant %4 1
%12 = OpTypePointer Function %4
%13 = OpConstantNull %4
%14 = OpConstant %5 2
%16 = OpTypePointer Function %5
%17 = OpConstantNull %5
%19 = OpConstant %4 0
%21 = OpTypePointer StorageBuffer %4
%26 = OpTypePointer StorageBuffer %5
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(OpStore %11 %10
OpStore %15 %14
%22 = OpAccessChain %21 %1 %19
%23 = OpLoad %4 %11
OpAtomicStore %22 %10 %19 %23
%27 = OpAccessChain %26 %1 %10
%28 = OpLoad %5 %15
OpAtomicStore %27 %10 %19 %28
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
using Builtin_Builtin_AtomicRMW_i32 = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_AtomicRMW_i32, Test) {
// [[block]] struct S {
// v : atomic<i32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// var v = 10;
// let x : i32 = atomicOP(&b.v, v);
// }
auto* s = Structure("S",
{
Member("v", ty.atomic<i32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Var("v", nullptr, Expr(10))),
Decl(Const("x", ty.i32(),
Call(GetParam().name, AddressOf(MemberAccessor("b", "v")),
"v"))),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
std::string expected_types = R"(%4 = OpTypeInt 32 1
%3 = OpTypeStruct %4
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%9 = OpConstant %4 10
%11 = OpTypePointer Function %4
%12 = OpConstantNull %4
%14 = OpTypeInt 32 0
%15 = OpConstant %14 1
%16 = OpConstant %14 0
%18 = OpTypePointer StorageBuffer %4
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
std::string expected_instructions = R"(OpStore %10 %9
%19 = OpAccessChain %18 %1 %16
%20 = OpLoad %4 %10
)";
expected_instructions += "%13 = " + GetParam().op + " %4 %19 %15 %16 %20\n";
expected_instructions += "OpReturn\n";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
Builtin_Builtin_AtomicRMW_i32,
testing::Values(BuiltinData{"atomicAdd", "OpAtomicIAdd"},
BuiltinData{"atomicMax", "OpAtomicSMax"},
BuiltinData{"atomicMin", "OpAtomicSMin"},
BuiltinData{"atomicAnd", "OpAtomicAnd"},
BuiltinData{"atomicOr", "OpAtomicOr"},
BuiltinData{"atomicXor", "OpAtomicXor"}));
using Builtin_Builtin_AtomicRMW_u32 = BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_AtomicRMW_u32, Test) {
// [[block]] struct S {
// v : atomic<u32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// var v = 10u;
// let x : u32 = atomicOP(&b.v, v);
// }
auto* s = Structure("S",
{
Member("v", ty.atomic<u32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Var("v", nullptr, Expr(10u))),
Decl(Const("x", ty.u32(),
Call(GetParam().name, AddressOf(MemberAccessor("b", "v")),
"v"))),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
std::string expected_types = R"(%4 = OpTypeInt 32 0
%3 = OpTypeStruct %4
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%6 = OpTypeVoid
%5 = OpTypeFunction %6
%9 = OpConstant %4 10
%11 = OpTypePointer Function %4
%12 = OpConstantNull %4
%14 = OpConstant %4 1
%15 = OpConstant %4 0
%17 = OpTypePointer StorageBuffer %4
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
std::string expected_instructions = R"(OpStore %10 %9
%18 = OpAccessChain %17 %1 %15
%19 = OpLoad %4 %10
)";
expected_instructions += "%13 = " + GetParam().op + " %4 %18 %14 %15 %19\n";
expected_instructions += "OpReturn\n";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
Builtin_Builtin_AtomicRMW_u32,
testing::Values(BuiltinData{"atomicAdd", "OpAtomicIAdd"},
BuiltinData{"atomicMax", "OpAtomicUMax"},
BuiltinData{"atomicMin", "OpAtomicUMin"},
BuiltinData{"atomicAnd", "OpAtomicAnd"},
BuiltinData{"atomicOr", "OpAtomicOr"},
BuiltinData{"atomicXor", "OpAtomicXor"}));
TEST_F(BuiltinBuilderTest, Call_AtomicExchange) {
// [[block]] struct S {
// u : atomic<u32>;
// i : atomic<i32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// var u = 10u;
// var i = 10;
// let r : u32 = atomicExchange(&b.u, u);
// let s : i32 = atomicExchange(&b.i, i);
// }
auto* s = Structure("S",
{
Member("u", ty.atomic<u32>()),
Member("i", ty.atomic<i32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Var("u", nullptr, Expr(10u))),
Decl(Var("i", nullptr, Expr(10))),
Decl(Const("r", ty.u32(),
Call("atomicExchange",
AddressOf(MemberAccessor("b", "u")), "u"))),
Decl(Const("s", ty.i32(),
Call("atomicExchange",
AddressOf(MemberAccessor("b", "i")), "i"))),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%4 = OpTypeInt 32 0
%5 = OpTypeInt 32 1
%3 = OpTypeStruct %4 %5
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%10 = OpConstant %4 10
%12 = OpTypePointer Function %4
%13 = OpConstantNull %4
%14 = OpConstant %5 10
%16 = OpTypePointer Function %5
%17 = OpConstantNull %5
%19 = OpConstant %4 1
%20 = OpConstant %4 0
%22 = OpTypePointer StorageBuffer %4
%27 = OpTypePointer StorageBuffer %5
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(OpStore %11 %10
OpStore %15 %14
%23 = OpAccessChain %22 %1 %20
%24 = OpLoad %4 %11
%18 = OpAtomicExchange %4 %23 %19 %20 %24
%28 = OpAccessChain %27 %1 %19
%29 = OpLoad %5 %15
%25 = OpAtomicExchange %5 %28 %19 %20 %29
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_AtomicCompareExchangeWeak) {
// [[block]] struct S {
// u : atomic<u32>;
// i : atomic<i32>;
// }
//
// @binding(1) @group(2) var<storage, read_write> b : S;
//
// fn a_func() {
// let u : vec2<u32> = atomicCompareExchangeWeak(&b.u, 10u);
// let i : vec2<i32> = atomicCompareExchangeWeak(&b.i, 10);
// }
auto* s = Structure("S",
{
Member("u", ty.atomic<u32>()),
Member("i", ty.atomic<i32>()),
},
{create<ast::StructBlockAttribute>()});
Global("b", ty.Of(s), ast::StorageClass::kStorage, ast::Access::kReadWrite,
ast::AttributeList{
create<ast::BindingAttribute>(1),
create<ast::GroupAttribute>(2),
});
Func("a_func", {}, ty.void_(),
ast::StatementList{
Decl(Const("u", ty.vec2<u32>(),
Call("atomicCompareExchangeWeak",
AddressOf(MemberAccessor("b", "u")), 10u, 20u))),
Decl(Const("i", ty.vec2<i32>(),
Call("atomicCompareExchangeWeak",
AddressOf(MemberAccessor("b", "i")), 10, 20))),
},
ast::AttributeList{Stage(ast::PipelineStage::kFragment)});
spirv::Builder& b = SanitizeAndBuild();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%4 = OpTypeInt 32 0
%5 = OpTypeInt 32 1
%3 = OpTypeStruct %4 %5
%2 = OpTypePointer StorageBuffer %3
%1 = OpVariable %2 StorageBuffer
%7 = OpTypeVoid
%6 = OpTypeFunction %7
%11 = OpTypeVector %4 2
%12 = OpConstant %4 1
%13 = OpConstant %4 0
%15 = OpTypePointer StorageBuffer %4
%17 = OpConstant %4 20
%18 = OpConstant %4 10
%19 = OpTypeBool
%24 = OpTypeVector %5 2
%26 = OpTypePointer StorageBuffer %5
%28 = OpConstant %5 20
%29 = OpConstant %5 10
%32 = OpConstant %5 0
%33 = OpConstant %5 1
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(%16 = OpAccessChain %15 %1 %13
%20 = OpAtomicCompareExchange %4 %16 %12 %13 %13 %17 %18
%21 = OpIEqual %19 %20 %17
%22 = OpSelect %4 %21 %12 %13
%10 = OpCompositeConstruct %11 %20 %22
%27 = OpAccessChain %26 %1 %12
%30 = OpAtomicCompareExchange %5 %27 %12 %13 %13 %28 %29
%31 = OpIEqual %19 %30 %28
%34 = OpSelect %5 %31 %33 %32
%23 = OpCompositeConstruct %24 %30 %34
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
using Builtin_Builtin_DataPacking_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_DataPacking_Test, Binary) {
auto param = GetParam();
bool pack4 = param.name == "pack4x8snorm" || param.name == "pack4x8unorm";
auto* call = pack4 ? Call(param.name, vec4<float>(1.0f, 1.0f, 1.0f, 1.0f))
: Call(param.name, vec2<float>(1.0f, 1.0f));
auto* func = Func("a_func", {}, ty.void_(), {CallStmt(call)});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
if (pack4) {
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%9 = OpTypeFloat 32
%8 = OpTypeVector %9 4
%10 = OpConstant %9 1
%11 = OpConstantComposite %8 %10 %10 %10 %10
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %11
OpReturn
OpFunctionEnd
)");
} else {
EXPECT_EQ(DumpBuilder(b), R"(%7 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%9 = OpTypeFloat 32
%8 = OpTypeVector %9 2
%10 = OpConstant %9 1
%11 = OpConstantComposite %8 %10 %10
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %7 )" + param.op +
R"( %11
OpReturn
OpFunctionEnd
)");
}
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
Builtin_Builtin_DataPacking_Test,
testing::Values(BuiltinData{"pack4x8snorm", "PackSnorm4x8"},
BuiltinData{"pack4x8unorm", "PackUnorm4x8"},
BuiltinData{"pack2x16snorm", "PackSnorm2x16"},
BuiltinData{"pack2x16unorm", "PackUnorm2x16"},
BuiltinData{"pack2x16float", "PackHalf2x16"}));
using Builtin_Builtin_DataUnpacking_Test =
BuiltinBuilderTestWithParam<BuiltinData>;
TEST_P(Builtin_Builtin_DataUnpacking_Test, Binary) {
auto param = GetParam();
bool pack4 = param.name == "unpack4x8snorm" || param.name == "unpack4x8unorm";
auto* func = Func("a_func", {}, ty.void_(), {CallStmt(Call(param.name, 1u))});
spirv::Builder& b = Build();
ASSERT_TRUE(b.GenerateFunction(func)) << b.error();
if (pack4) {
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 4
%9 = OpTypeInt 32 0
%10 = OpConstant %9 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10
OpReturn
OpFunctionEnd
)");
} else {
EXPECT_EQ(DumpBuilder(b), R"(%8 = OpExtInstImport "GLSL.std.450"
OpName %3 "a_func"
%2 = OpTypeVoid
%1 = OpTypeFunction %2
%7 = OpTypeFloat 32
%6 = OpTypeVector %7 2
%9 = OpTypeInt 32 0
%10 = OpConstant %9 1
%3 = OpFunction %2 None %1
%4 = OpLabel
%5 = OpExtInst %6 %8 )" + param.op +
R"( %10
OpReturn
OpFunctionEnd
)");
}
}
INSTANTIATE_TEST_SUITE_P(
BuiltinBuilderTest,
Builtin_Builtin_DataUnpacking_Test,
testing::Values(BuiltinData{"unpack4x8snorm", "UnpackSnorm4x8"},
BuiltinData{"unpack4x8unorm", "UnpackUnorm4x8"},
BuiltinData{"unpack2x16snorm", "UnpackSnorm2x16"},
BuiltinData{"unpack2x16unorm", "UnpackUnorm2x16"},
BuiltinData{"unpack2x16float", "UnpackHalf2x16"}));
TEST_F(BuiltinBuilderTest, Call_WorkgroupBarrier) {
Func("f", {}, ty.void_(),
ast::StatementList{
CallStmt(Call("workgroupBarrier")),
},
ast::AttributeList{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%7 = OpConstant %6 2
%8 = OpConstant %6 264
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(OpControlBarrier %7 %7 %8
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
TEST_F(BuiltinBuilderTest, Call_StorageBarrier) {
Func("f", {}, ty.void_(),
ast::StatementList{
CallStmt(Call("storageBarrier")),
},
ast::AttributeList{
Stage(ast::PipelineStage::kCompute),
WorkgroupSize(1),
});
spirv::Builder& b = Build();
ASSERT_TRUE(b.Build()) << b.error();
ASSERT_EQ(b.functions().size(), 1u);
auto* expected_types = R"(%2 = OpTypeVoid
%1 = OpTypeFunction %2
%6 = OpTypeInt 32 0
%7 = OpConstant %6 2
%8 = OpConstant %6 72
)";
auto got_types = DumpInstructions(b.types());
EXPECT_EQ(expected_types, got_types);
auto* expected_instructions = R"(OpControlBarrier %7 %7 %8
OpReturn
)";
auto got_instructions = DumpInstructions(b.functions()[0].instructions());
EXPECT_EQ(expected_instructions, got_instructions);
Validate(b);
}
} // namespace
} // namespace spirv
} // namespace writer
} // namespace tint