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// 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 "gmock/gmock.h"
#include "src/ast/stage_decoration.h"
#include "src/ast/struct_block_decoration.h"
#include "src/writer/hlsl/test_helper.h"
namespace tint {
namespace writer {
namespace hlsl {
namespace {
using ::testing::HasSubstr;
using create_type_func_ptr =
const ast::Type* (*)(const ProgramBuilder::TypesBuilder& ty);
inline const ast::Type* ty_i32(const ProgramBuilder::TypesBuilder& ty) {
return ty.i32();
}
inline const ast::Type* ty_u32(const ProgramBuilder::TypesBuilder& ty) {
return ty.u32();
}
inline const ast::Type* ty_f32(const ProgramBuilder::TypesBuilder& ty) {
return ty.f32();
}
template <typename T>
inline const ast::Type* ty_vec2(const ProgramBuilder::TypesBuilder& ty) {
return ty.vec2<T>();
}
template <typename T>
inline const ast::Type* ty_vec3(const ProgramBuilder::TypesBuilder& ty) {
return ty.vec3<T>();
}
template <typename T>
inline const ast::Type* ty_vec4(const ProgramBuilder::TypesBuilder& ty) {
return ty.vec4<T>();
}
template <typename T>
inline const ast::Type* ty_mat2x2(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat2x2<T>();
}
template <typename T>
inline const ast::Type* ty_mat2x3(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat2x3<T>();
}
template <typename T>
inline const ast::Type* ty_mat2x4(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat2x4<T>();
}
template <typename T>
inline const ast::Type* ty_mat3x2(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat3x2<T>();
}
template <typename T>
inline const ast::Type* ty_mat3x3(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat3x3<T>();
}
template <typename T>
inline const ast::Type* ty_mat3x4(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat3x4<T>();
}
template <typename T>
inline const ast::Type* ty_mat4x2(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat4x2<T>();
}
template <typename T>
inline const ast::Type* ty_mat4x3(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat4x3<T>();
}
template <typename T>
inline const ast::Type* ty_mat4x4(const ProgramBuilder::TypesBuilder& ty) {
return ty.mat4x4<T>();
}
using i32 = ProgramBuilder::i32;
using u32 = ProgramBuilder::u32;
using f32 = ProgramBuilder::f32;
template <typename BASE>
class HlslGeneratorImplTest_MemberAccessorBase : public BASE {
public:
void SetupStorageBuffer(ast::StructMemberList members) {
ProgramBuilder& b = *this;
auto* s =
b.Structure("Data", members, {b.create<ast::StructBlockDecoration>()});
b.Global("data", b.ty.Of(s), ast::StorageClass::kStorage,
ast::Access::kReadWrite,
ast::DecorationList{
b.create<ast::BindingDecoration>(0),
b.create<ast::GroupDecoration>(1),
});
}
void SetupFunction(ast::StatementList statements) {
ProgramBuilder& b = *this;
b.Func("main", ast::VariableList{}, b.ty.void_(), statements,
ast::DecorationList{
b.Stage(ast::PipelineStage::kFragment),
});
}
};
using HlslGeneratorImplTest_MemberAccessor =
HlslGeneratorImplTest_MemberAccessorBase<TestHelper>;
template <typename T>
using HlslGeneratorImplTest_MemberAccessorWithParam =
HlslGeneratorImplTest_MemberAccessorBase<TestParamHelper<T>>;
TEST_F(HlslGeneratorImplTest_MemberAccessor, EmitExpression_MemberAccessor) {
auto* s = Structure("Data", {Member("mem", ty.f32())});
Global("str", ty.Of(s), ast::StorageClass::kPrivate);
auto* expr = MemberAccessor("str", "mem");
WrapInFunction(Var("expr", ty.f32(), ast::StorageClass::kNone, expr));
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
EXPECT_EQ(gen.result(), R"(struct Data {
float mem;
};
static Data str = (Data)0;
[numthreads(1, 1, 1)]
void test_function() {
float expr = str.mem;
return;
}
)");
}
struct TypeCase {
create_type_func_ptr member_type;
std::string expected;
};
inline std::ostream& operator<<(std::ostream& out, TypeCase c) {
ProgramBuilder b;
auto* ty = c.member_type(b.ty);
out << ty->FriendlyName(b.Symbols());
return out;
}
using HlslGeneratorImplTest_MemberAccessor_StorageBufferLoad =
HlslGeneratorImplTest_MemberAccessorWithParam<TypeCase>;
TEST_P(HlslGeneratorImplTest_MemberAccessor_StorageBufferLoad, Test) {
// struct Data {
// a : i32;
// b : <type>;
// };
// var<storage> data : Data;
// data.b;
auto p = GetParam();
SetupStorageBuffer({
Member("a", ty.i32()),
Member("b", p.member_type(ty)),
});
SetupFunction({
Decl(Var("x", nullptr, ast::StorageClass::kNone,
MemberAccessor("data", "b"))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
EXPECT_THAT(gen.result(), HasSubstr(p.expected));
}
INSTANTIATE_TEST_SUITE_P(
HlslGeneratorImplTest_MemberAccessor,
HlslGeneratorImplTest_MemberAccessor_StorageBufferLoad,
testing::Values(
TypeCase{ty_u32, "data.Load(4u)"},
TypeCase{ty_f32, "asfloat(data.Load(4u))"},
TypeCase{ty_i32, "asint(data.Load(4u))"},
TypeCase{ty_vec2<u32>, "data.Load2(8u)"},
TypeCase{ty_vec2<f32>, "asfloat(data.Load2(8u))"},
TypeCase{ty_vec2<i32>, "asint(data.Load2(8u))"},
TypeCase{ty_vec3<u32>, "data.Load3(16u)"},
TypeCase{ty_vec3<f32>, "asfloat(data.Load3(16u))"},
TypeCase{ty_vec3<i32>, "asint(data.Load3(16u))"},
TypeCase{ty_vec4<u32>, "data.Load4(16u)"},
TypeCase{ty_vec4<f32>, "asfloat(data.Load4(16u))"},
TypeCase{ty_vec4<i32>, "asint(data.Load4(16u))"},
TypeCase{
ty_mat2x2<f32>,
R"(return float2x2(asfloat(buffer.Load2((offset + 0u))), asfloat(buffer.Load2((offset + 8u))));)"},
TypeCase{
ty_mat2x3<f32>,
R"(return float2x3(asfloat(buffer.Load3((offset + 0u))), asfloat(buffer.Load3((offset + 16u))));)"},
TypeCase{
ty_mat2x4<f32>,
R"(return float2x4(asfloat(buffer.Load4((offset + 0u))), asfloat(buffer.Load4((offset + 16u))));)"},
TypeCase{
ty_mat3x2<f32>,
R"(return float3x2(asfloat(buffer.Load2((offset + 0u))), asfloat(buffer.Load2((offset + 8u))), asfloat(buffer.Load2((offset + 16u))));)"},
TypeCase{
ty_mat3x3<f32>,
R"(return float3x3(asfloat(buffer.Load3((offset + 0u))), asfloat(buffer.Load3((offset + 16u))), asfloat(buffer.Load3((offset + 32u))));)"},
TypeCase{
ty_mat3x4<f32>,
R"(return float3x4(asfloat(buffer.Load4((offset + 0u))), asfloat(buffer.Load4((offset + 16u))), asfloat(buffer.Load4((offset + 32u))));)"},
TypeCase{
ty_mat4x2<f32>,
R"(return float4x2(asfloat(buffer.Load2((offset + 0u))), asfloat(buffer.Load2((offset + 8u))), asfloat(buffer.Load2((offset + 16u))), asfloat(buffer.Load2((offset + 24u))));)"},
TypeCase{
ty_mat4x3<f32>,
R"(return float4x3(asfloat(buffer.Load3((offset + 0u))), asfloat(buffer.Load3((offset + 16u))), asfloat(buffer.Load3((offset + 32u))), asfloat(buffer.Load3((offset + 48u))));)"},
TypeCase{
ty_mat4x4<f32>,
R"(return float4x4(asfloat(buffer.Load4((offset + 0u))), asfloat(buffer.Load4((offset + 16u))), asfloat(buffer.Load4((offset + 32u))), asfloat(buffer.Load4((offset + 48u))));)"}));
using HlslGeneratorImplTest_MemberAccessor_StorageBufferStore =
HlslGeneratorImplTest_MemberAccessorWithParam<TypeCase>;
TEST_P(HlslGeneratorImplTest_MemberAccessor_StorageBufferStore, Test) {
// struct Data {
// a : i32;
// b : <type>;
// };
// var<storage> data : Data;
// data.b = <type>();
auto p = GetParam();
SetupStorageBuffer({
Member("a", ty.i32()),
Member("b", p.member_type(ty)),
});
SetupFunction({
Decl(Var("value", p.member_type(ty), ast::StorageClass::kNone,
Construct(p.member_type(ty)))),
Assign(MemberAccessor("data", "b"), Expr("value")),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
EXPECT_THAT(gen.result(), HasSubstr(p.expected));
}
INSTANTIATE_TEST_SUITE_P(
HlslGeneratorImplTest_MemberAccessor,
HlslGeneratorImplTest_MemberAccessor_StorageBufferStore,
testing::Values(TypeCase{ty_u32, "data.Store(4u, asuint(value))"},
TypeCase{ty_f32, "data.Store(4u, asuint(value))"},
TypeCase{ty_i32, "data.Store(4u, asuint(value))"},
TypeCase{ty_vec2<u32>, "data.Store2(8u, asuint(value))"},
TypeCase{ty_vec2<f32>, "data.Store2(8u, asuint(value))"},
TypeCase{ty_vec2<i32>, "data.Store2(8u, asuint(value))"},
TypeCase{ty_vec3<u32>, "data.Store3(16u, asuint(value))"},
TypeCase{ty_vec3<f32>, "data.Store3(16u, asuint(value))"},
TypeCase{ty_vec3<i32>, "data.Store3(16u, asuint(value))"},
TypeCase{ty_vec4<u32>, "data.Store4(16u, asuint(value))"},
TypeCase{ty_vec4<f32>, "data.Store4(16u, asuint(value))"},
TypeCase{ty_vec4<i32>, "data.Store4(16u, asuint(value))"},
TypeCase{ty_mat2x2<f32>, R"({
buffer.Store2((offset + 0u), asuint(value[0u]));
buffer.Store2((offset + 8u), asuint(value[1u]));
})"},
TypeCase{ty_mat2x3<f32>, R"({
buffer.Store3((offset + 0u), asuint(value[0u]));
buffer.Store3((offset + 16u), asuint(value[1u]));
})"},
TypeCase{ty_mat2x4<f32>, R"({
buffer.Store4((offset + 0u), asuint(value[0u]));
buffer.Store4((offset + 16u), asuint(value[1u]));
})"},
TypeCase{ty_mat3x2<f32>, R"({
buffer.Store2((offset + 0u), asuint(value[0u]));
buffer.Store2((offset + 8u), asuint(value[1u]));
buffer.Store2((offset + 16u), asuint(value[2u]));
})"},
TypeCase{ty_mat3x3<f32>, R"({
buffer.Store3((offset + 0u), asuint(value[0u]));
buffer.Store3((offset + 16u), asuint(value[1u]));
buffer.Store3((offset + 32u), asuint(value[2u]));
})"},
TypeCase{ty_mat3x4<f32>, R"({
buffer.Store4((offset + 0u), asuint(value[0u]));
buffer.Store4((offset + 16u), asuint(value[1u]));
buffer.Store4((offset + 32u), asuint(value[2u]));
})"},
TypeCase{ty_mat4x2<f32>, R"({
buffer.Store2((offset + 0u), asuint(value[0u]));
buffer.Store2((offset + 8u), asuint(value[1u]));
buffer.Store2((offset + 16u), asuint(value[2u]));
buffer.Store2((offset + 24u), asuint(value[3u]));
})"},
TypeCase{ty_mat4x3<f32>, R"({
buffer.Store3((offset + 0u), asuint(value[0u]));
buffer.Store3((offset + 16u), asuint(value[1u]));
buffer.Store3((offset + 32u), asuint(value[2u]));
buffer.Store3((offset + 48u), asuint(value[3u]));
})"},
TypeCase{ty_mat4x4<f32>, R"({
buffer.Store4((offset + 0u), asuint(value[0u]));
buffer.Store4((offset + 16u), asuint(value[1u]));
buffer.Store4((offset + 32u), asuint(value[2u]));
buffer.Store4((offset + 48u), asuint(value[3u]));
})"}));
TEST_F(HlslGeneratorImplTest_MemberAccessor, StorageBuffer_Store_Matrix_Empty) {
// struct Data {
// z : f32;
// a : mat2x3<f32>;
// };
// var<storage> data : Data;
// data.a = mat2x3<f32>();
SetupStorageBuffer({
Member("a", ty.i32()),
Member("b", ty.mat2x3<f32>()),
});
SetupFunction({
Assign(MemberAccessor("data", "b"),
Construct(ty.mat2x3<f32>(), ast::ExpressionList{})),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void tint_symbol(RWByteAddressBuffer buffer, uint offset, float2x3 value) {
buffer.Store3((offset + 0u), asuint(value[0u]));
buffer.Store3((offset + 16u), asuint(value[1u]));
}
void main() {
tint_symbol(data, 16u, float2x3(0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
StorageBuffer_Load_Matrix_Single_Element) {
// struct Data {
// z : f32;
// a : mat4x3<f32>;
// };
// var<storage> data : Data;
// data.a[2][1];
SetupStorageBuffer({
Member("z", ty.f32()),
Member("a", ty.mat4x3<f32>()),
});
SetupFunction({
Decl(
Var("x", nullptr, ast::StorageClass::kNone,
IndexAccessor(IndexAccessor(MemberAccessor("data", "a"), 2), 1))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
float x = asfloat(data.Load(52u));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
EmitExpression_IndexAccessor_StorageBuffer_Load_Int_FromArray) {
// struct Data {
// a : [[stride(4)]] array<i32, 5>;
// };
// var<storage> data : Data;
// data.a[2];
SetupStorageBuffer({
Member("z", ty.f32()),
Member("a", ty.array<i32, 5>(4)),
});
SetupFunction({
Decl(Var("x", nullptr, ast::StorageClass::kNone,
IndexAccessor(MemberAccessor("data", "a"), 2))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
int x = asint(data.Load(12u));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
EmitExpression_IndexAccessor_StorageBuffer_Load_Int_FromArray_ExprIdx) {
// struct Data {
// a : [[stride(4)]] array<i32, 5>;
// };
// var<storage> data : Data;
// data.a[(2 + 4) - 3];
SetupStorageBuffer({
Member("z", ty.f32()),
Member("a", ty.array<i32, 5>(4)),
});
SetupFunction({
Decl(Var("x", nullptr, ast::StorageClass::kNone,
IndexAccessor(MemberAccessor("data", "a"),
Sub(Add(2, Expr(4)), Expr(3))))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
int x = asint(data.Load((4u + (4u * uint(((2 + 4) - 3))))));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor, StorageBuffer_Store_ToArray) {
// struct Data {
// a : [[stride(4)]] array<i32, 5>;
// };
// var<storage> data : Data;
// data.a[2] = 2;
SetupStorageBuffer({
Member("z", ty.f32()),
Member("a", ty.array<i32, 5>(4)),
});
SetupFunction({
Assign(IndexAccessor(MemberAccessor("data", "a"), 2), 2),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
data.Store(12u, asuint(2));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor, StorageBuffer_Load_MultiLevel) {
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b
auto* inner = Structure("Inner", {
Member("a", ty.vec3<f32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Decl(Var(
"x", nullptr, ast::StorageClass::kNone,
MemberAccessor(IndexAccessor(MemberAccessor("data", "c"), 2), "b"))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
float3 x = asfloat(data.Load3(80u));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
StorageBuffer_Load_MultiLevel_Swizzle) {
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b.xy
auto* inner = Structure("Inner", {
Member("a", ty.vec3<f32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Decl(Var("x", nullptr, ast::StorageClass::kNone,
MemberAccessor(
MemberAccessor(IndexAccessor(MemberAccessor("data", "c"), 2),
"b"),
"xy"))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
float2 x = asfloat(data.Load3(80u)).xy;
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
StorageBuffer_Load_MultiLevel_Swizzle_SingleLetter) { // NOLINT
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b.g
auto* inner = Structure("Inner", {
Member("a", ty.vec3<f32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Decl(Var("x", nullptr, ast::StorageClass::kNone,
MemberAccessor(
MemberAccessor(IndexAccessor(MemberAccessor("data", "c"), 2),
"b"),
"g"))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
float x = asfloat(data.Load(84u));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
StorageBuffer_Load_MultiLevel_Index) {
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b[1]
auto* inner = Structure("Inner", {
Member("a", ty.vec3<f32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Decl(Var(
"x", nullptr, ast::StorageClass::kNone,
IndexAccessor(MemberAccessor(
IndexAccessor(MemberAccessor("data", "c"), 2), "b"),
1))),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
float x = asfloat(data.Load(84u));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor, StorageBuffer_Store_MultiLevel) {
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b = vec3<f32>(1.f, 2.f, 3.f);
auto* inner = Structure("Inner", {
Member("a", ty.vec3<f32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Assign(MemberAccessor(IndexAccessor(MemberAccessor("data", "c"), 2), "b"),
vec3<f32>(1.f, 2.f, 3.f)),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
data.Store3(80u, asuint(float3(1.0f, 2.0f, 3.0f)));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor,
StorageBuffer_Store_Swizzle_SingleLetter) {
// struct Inner {
// a : vec3<i32>;
// b : vec3<f32>;
// };
// struct Data {
// var c : [[stride(32)]] array<Inner, 4>;
// };
//
// var<storage> data : Pre;
// data.c[2].b.y = 1.f;
auto* inner = Structure("Inner", {
Member("a", ty.vec3<i32>()),
Member("b", ty.vec3<f32>()),
});
SetupStorageBuffer({
Member("c", ty.array(ty.Of(inner), 4, 32)),
});
SetupFunction({
Assign(MemberAccessor(
MemberAccessor(IndexAccessor(MemberAccessor("data", "c"), 2),
"b"),
"y"),
Expr(1.f)),
});
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
auto* expected =
R"(RWByteAddressBuffer data : register(u0, space1);
void main() {
data.Store(84u, asuint(1.0f));
return;
}
)";
EXPECT_EQ(gen.result(), expected);
}
TEST_F(HlslGeneratorImplTest_MemberAccessor, Swizzle_xyz) {
auto* var = Var("my_vec", ty.vec4<f32>(), ast::StorageClass::kNone,
vec4<f32>(1.f, 2.f, 3.f, 4.f));
auto* expr = MemberAccessor("my_vec", "xyz");
WrapInFunction(var, expr);
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
EXPECT_THAT(gen.result(), HasSubstr("my_vec.xyz"));
}
TEST_F(HlslGeneratorImplTest_MemberAccessor, Swizzle_gbr) {
auto* var = Var("my_vec", ty.vec4<f32>(), ast::StorageClass::kNone,
vec4<f32>(1.f, 2.f, 3.f, 4.f));
auto* expr = MemberAccessor("my_vec", "gbr");
WrapInFunction(var, expr);
GeneratorImpl& gen = SanitizeAndBuild();
ASSERT_TRUE(gen.Generate()) << gen.error();
EXPECT_THAT(gen.result(), HasSubstr("my_vec.gbr"));
}
} // namespace
} // namespace hlsl
} // namespace writer
} // namespace tint