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dawn-cmake/src/tint/transform/first_index_offset_test.cc
dan sinclair b29892be09 Update src/tint unittests to new @stage format. 
This CL updates all of the Tint unittests to the new @stage shorter
syntax. This also updates the WGSL writer to emit the new short forms
instead of using the deprecated form.

Bug: tint:1503
Change-Id: I8c49e5319a19cccb5b4b5078f3ab39c50f31a9a8
Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/92483
Reviewed-by: Ben Clayton <bclayton@google.com>
Commit-Queue: Dan Sinclair <dsinclair@chromium.org>
Kokoro: Kokoro <noreply+kokoro@google.com>
2022-06-07 13:55:34 +00:00

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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 "src/tint/transform/first_index_offset.h"
#include <memory>
#include <utility>
#include <vector>
#include "src/tint/transform/test_helper.h"
namespace tint::transform {
namespace {
using FirstIndexOffsetTest = TransformTest;
TEST_F(FirstIndexOffsetTest, ShouldRunEmptyModule) {
auto* src = R"()";
EXPECT_FALSE(ShouldRun<FirstIndexOffset>(src));
}
TEST_F(FirstIndexOffsetTest, ShouldRunFragmentStage) {
auto* src = R"(
@fragment
fn entry() {
return;
}
)";
EXPECT_FALSE(ShouldRun<FirstIndexOffset>(src));
}
TEST_F(FirstIndexOffsetTest, ShouldRunVertexStage) {
auto* src = R"(
@vertex
fn entry() -> @builtin(position) vec4<f32> {
return vec4<f32>();
}
)";
EXPECT_TRUE(ShouldRun<FirstIndexOffset>(src));
}
TEST_F(FirstIndexOffsetTest, EmptyModule) {
auto* src = "";
auto* expect = "";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(0, 0);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
EXPECT_EQ(data, nullptr);
}
TEST_F(FirstIndexOffsetTest, BasicVertexShader) {
auto* src = R"(
@vertex
fn entry() -> @builtin(position) vec4<f32> {
return vec4<f32>();
}
)";
auto* expect = src;
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(0, 0);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, false);
}
TEST_F(FirstIndexOffsetTest, BasicModuleVertexIndex) {
auto* src = R"(
fn test(vert_idx : u32) -> u32 {
return vert_idx;
}
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
test(vert_idx);
return vec4<f32>();
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
fn test(vert_idx : u32) -> u32 {
return vert_idx;
}
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
test((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, BasicModuleVertexIndex_OutOfOrder) {
auto* src = R"(
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
test(vert_idx);
return vec4<f32>();
}
fn test(vert_idx : u32) -> u32 {
return vert_idx;
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
test((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
fn test(vert_idx : u32) -> u32 {
return vert_idx;
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, BasicModuleInstanceIndex) {
auto* src = R"(
fn test(inst_idx : u32) -> u32 {
return inst_idx;
}
@vertex
fn entry(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
test(inst_idx);
return vec4<f32>();
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(7) var<uniform> tint_symbol_1 : tint_symbol;
fn test(inst_idx : u32) -> u32 {
return inst_idx;
}
@vertex
fn entry(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
test((inst_idx + tint_symbol_1.first_instance_index));
return vec4<f32>();
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 7);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, BasicModuleInstanceIndex_OutOfOrder) {
auto* src = R"(
@vertex
fn entry(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
test(inst_idx);
return vec4<f32>();
}
fn test(inst_idx : u32) -> u32 {
return inst_idx;
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(7) var<uniform> tint_symbol_1 : tint_symbol;
@vertex
fn entry(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
test((inst_idx + tint_symbol_1.first_instance_index));
return vec4<f32>();
}
fn test(inst_idx : u32) -> u32 {
return inst_idx;
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 7);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, BasicModuleBothIndex) {
auto* src = R"(
fn test(instance_idx : u32, vert_idx : u32) -> u32 {
return instance_idx + vert_idx;
}
struct Inputs {
@builtin(instance_index) instance_idx : u32,
@builtin(vertex_index) vert_idx : u32,
};
@vertex
fn entry(inputs : Inputs) -> @builtin(position) vec4<f32> {
test(inputs.instance_idx, inputs.vert_idx);
return vec4<f32>();
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
fn test(instance_idx : u32, vert_idx : u32) -> u32 {
return (instance_idx + vert_idx);
}
struct Inputs {
@builtin(instance_index)
instance_idx : u32,
@builtin(vertex_index)
vert_idx : u32,
}
@vertex
fn entry(inputs : Inputs) -> @builtin(position) vec4<f32> {
test((inputs.instance_idx + tint_symbol_1.first_instance_index), (inputs.vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, BasicModuleBothIndex_OutOfOrder) {
auto* src = R"(
@vertex
fn entry(inputs : Inputs) -> @builtin(position) vec4<f32> {
test(inputs.instance_idx, inputs.vert_idx);
return vec4<f32>();
}
struct Inputs {
@builtin(instance_index) instance_idx : u32,
@builtin(vertex_index) vert_idx : u32,
};
fn test(instance_idx : u32, vert_idx : u32) -> u32 {
return instance_idx + vert_idx;
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
@vertex
fn entry(inputs : Inputs) -> @builtin(position) vec4<f32> {
test((inputs.instance_idx + tint_symbol_1.first_instance_index), (inputs.vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
struct Inputs {
@builtin(instance_index)
instance_idx : u32,
@builtin(vertex_index)
vert_idx : u32,
}
fn test(instance_idx : u32, vert_idx : u32) -> u32 {
return (instance_idx + vert_idx);
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, NestedCalls) {
auto* src = R"(
fn func1(vert_idx : u32) -> u32 {
return vert_idx;
}
fn func2(vert_idx : u32) -> u32 {
return func1(vert_idx);
}
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func2(vert_idx);
return vec4<f32>();
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
fn func1(vert_idx : u32) -> u32 {
return vert_idx;
}
fn func2(vert_idx : u32) -> u32 {
return func1(vert_idx);
}
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func2((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, NestedCalls_OutOfOrder) {
auto* src = R"(
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func2(vert_idx);
return vec4<f32>();
}
fn func2(vert_idx : u32) -> u32 {
return func1(vert_idx);
}
fn func1(vert_idx : u32) -> u32 {
return vert_idx;
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
@vertex
fn entry(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func2((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
fn func2(vert_idx : u32) -> u32 {
return func1(vert_idx);
}
fn func1(vert_idx : u32) -> u32 {
return vert_idx;
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, MultipleEntryPoints) {
auto* src = R"(
fn func(i : u32) -> u32 {
return i;
}
@vertex
fn entry_a(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func(vert_idx);
return vec4<f32>();
}
@vertex
fn entry_b(@builtin(vertex_index) vert_idx : u32, @builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(vert_idx + inst_idx);
return vec4<f32>();
}
@vertex
fn entry_c(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(inst_idx);
return vec4<f32>();
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
fn func(i : u32) -> u32 {
return i;
}
@vertex
fn entry_a(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
@vertex
fn entry_b(@builtin(vertex_index) vert_idx : u32, @builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(((vert_idx + tint_symbol_1.first_vertex_index) + (inst_idx + tint_symbol_1.first_instance_index)));
return vec4<f32>();
}
@vertex
fn entry_c(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func((inst_idx + tint_symbol_1.first_instance_index));
return vec4<f32>();
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
TEST_F(FirstIndexOffsetTest, MultipleEntryPoints_OutOfOrder) {
auto* src = R"(
@vertex
fn entry_a(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func(vert_idx);
return vec4<f32>();
}
@vertex
fn entry_b(@builtin(vertex_index) vert_idx : u32, @builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(vert_idx + inst_idx);
return vec4<f32>();
}
@vertex
fn entry_c(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(inst_idx);
return vec4<f32>();
}
fn func(i : u32) -> u32 {
return i;
}
)";
auto* expect = R"(
struct tint_symbol {
first_vertex_index : u32,
first_instance_index : u32,
}
@binding(1) @group(2) var<uniform> tint_symbol_1 : tint_symbol;
@vertex
fn entry_a(@builtin(vertex_index) vert_idx : u32) -> @builtin(position) vec4<f32> {
func((vert_idx + tint_symbol_1.first_vertex_index));
return vec4<f32>();
}
@vertex
fn entry_b(@builtin(vertex_index) vert_idx : u32, @builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func(((vert_idx + tint_symbol_1.first_vertex_index) + (inst_idx + tint_symbol_1.first_instance_index)));
return vec4<f32>();
}
@vertex
fn entry_c(@builtin(instance_index) inst_idx : u32) -> @builtin(position) vec4<f32> {
func((inst_idx + tint_symbol_1.first_instance_index));
return vec4<f32>();
}
fn func(i : u32) -> u32 {
return i;
}
)";
DataMap config;
config.Add<FirstIndexOffset::BindingPoint>(1, 2);
auto got = Run<FirstIndexOffset>(src, std::move(config));
EXPECT_EQ(expect, str(got));
auto* data = got.data.Get<FirstIndexOffset::Data>();
ASSERT_NE(data, nullptr);
EXPECT_EQ(data->has_vertex_or_instance_index, true);
}
} // namespace
} // namespace tint::transform
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