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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/transform/robustness.h"
#include "src/transform/test_helper.h"
namespace tint {
namespace transform {
namespace {
using RobustnessTest = TransformTest;
TEST_F(RobustnessTest, Array_Idx_Clamp) {
auto* src = R"(
var<private> a : array<f32, 3>;
let c : u32 = 1u;
fn f() {
let b : f32 = a[c];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
let c : u32 = 1u;
fn f() {
let b : f32 = a[1u];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Array_Idx_Nested_Scalar) {
auto* src = R"(
var<private> a : array<f32, 3>;
var<private> b : array<i32, 5>;
var<private> i : u32;
fn f() {
var c : f32 = a[ b[i] ];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
var<private> b : array<i32, 5>;
var<private> i : u32;
fn f() {
var c : f32 = a[min(u32(b[min(i, 4u)]), 2u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Array_Idx_Scalar) {
auto* src = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[1];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Array_Idx_Expr) {
auto* src = R"(
var<private> a : array<f32, 3>;
var<private> c : i32;
fn f() {
var b : f32 = a[c + 2 - 3];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
var<private> c : i32;
fn f() {
var b : f32 = a[min(u32(((c + 2) - 3)), 2u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Array_Idx_Negative) {
auto* src = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[-1];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[0];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Array_Idx_OutOfBounds) {
auto* src = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[3];
}
)";
auto* expect = R"(
var<private> a : array<f32, 3>;
fn f() {
var b : f32 = a[2];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
// TODO(crbug.com/tint/1177) - Validation currently forbids arrays larger than
// 0xffffffff. If WGSL supports 64-bit indexing, re-enable this test.
TEST_F(RobustnessTest, DISABLED_LargeArrays_Idx) {
auto* src = R"(
struct S {
a : array<f32, 0x7fffffff>;
b : array<f32>;
};
@group(0) @binding(0) var<storage, read> s : S;
fn f() {
// Signed
var i32_a1 : f32 = s.a[ 0x7ffffffe];
var i32_a2 : f32 = s.a[ 1];
var i32_a3 : f32 = s.a[ 0];
var i32_a4 : f32 = s.a[-1];
var i32_a5 : f32 = s.a[-0x7fffffff];
var i32_b1 : f32 = s.b[ 0x7ffffffe];
var i32_b2 : f32 = s.b[ 1];
var i32_b3 : f32 = s.b[ 0];
var i32_b4 : f32 = s.b[-1];
var i32_b5 : f32 = s.b[-0x7fffffff];
// Unsigned
var u32_a1 : f32 = s.a[0u];
var u32_a2 : f32 = s.a[1u];
var u32_a3 : f32 = s.a[0x7ffffffeu];
var u32_a4 : f32 = s.a[0x7fffffffu];
var u32_a5 : f32 = s.a[0x80000000u];
var u32_a6 : f32 = s.a[0xffffffffu];
var u32_b1 : f32 = s.b[0u];
var u32_b2 : f32 = s.b[1u];
var u32_b3 : f32 = s.b[0x7ffffffeu];
var u32_b4 : f32 = s.b[0x7fffffffu];
var u32_b5 : f32 = s.b[0x80000000u];
var u32_b6 : f32 = s.b[0xffffffffu];
}
)";
auto* expect = R"(
struct S {
a : array<f32, 2147483647>;
b : array<f32>;
};
@group(0) @binding(0) var<storage, read> s : S;
fn f() {
var i32_a1 : f32 = s.a[2147483646];
var i32_a2 : f32 = s.a[1];
var i32_a3 : f32 = s.a[0];
var i32_a4 : f32 = s.a[0];
var i32_a5 : f32 = s.a[0];
var i32_b1 : f32 = s.b[min(2147483646u, (arrayLength(&(s.b)) - 1u))];
var i32_b2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var i32_b3 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_b4 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_b5 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var u32_a1 : f32 = s.a[0u];
var u32_a2 : f32 = s.a[1u];
var u32_a3 : f32 = s.a[2147483646u];
var u32_a4 : f32 = s.a[2147483646u];
var u32_a5 : f32 = s.a[2147483646u];
var u32_a6 : f32 = s.a[2147483646u];
var u32_b1 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var u32_b2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var u32_b3 : f32 = s.b[min(2147483646u, (arrayLength(&(s.b)) - 1u))];
var u32_b4 : f32 = s.b[min(2147483647u, (arrayLength(&(s.b)) - 1u))];
var u32_b5 : f32 = s.b[min(2147483648u, (arrayLength(&(s.b)) - 1u))];
var u32_b6 : f32 = s.b[min(4294967295u, (arrayLength(&(s.b)) - 1u))];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Idx_Scalar) {
auto* src = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[1];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Idx_Expr) {
auto* src = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[c + 2 - 3];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[min(u32(((c + 2) - 3)), 2u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Swizzle_Idx_Scalar) {
auto* src = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a.xy[2];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a.xy[1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Swizzle_Idx_Var) {
auto* src = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a.xy[c];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a.xy[min(u32(c), 1u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Swizzle_Idx_Expr) {
auto* src = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a.xy[c + 2 - 3];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a.xy[min(u32(((c + 2) - 3)), 1u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Idx_Negative) {
auto* src = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[-1];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[0];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Vector_Idx_OutOfBounds) {
auto* src = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[3];
}
)";
auto* expect = R"(
var<private> a : vec3<f32>;
fn f() {
var b : f32 = a[2];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_Scalar) {
auto* src = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][1];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_Expr_Column) {
auto* src = R"(
var<private> a : mat3x2<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[c + 2 - 3][1];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[min(u32(((c + 2) - 3)), 2u)][1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_Expr_Row) {
auto* src = R"(
var<private> a : mat3x2<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[1][c + 2 - 3];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
var<private> c : i32;
fn f() {
var b : f32 = a[1][min(u32(((c + 2) - 3)), 1u)];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_Negative_Column) {
auto* src = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[-1][1];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[0][1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_Negative_Row) {
auto* src = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][-1];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][0];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_OutOfBounds_Column) {
auto* src = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[5][1];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, Matrix_Idx_OutOfBounds_Row) {
auto* src = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][5];
}
)";
auto* expect = R"(
var<private> a : mat3x2<f32>;
fn f() {
var b : f32 = a[2][1];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
// TODO(dsinclair): Implement when constant_id exists
TEST_F(RobustnessTest, DISABLED_Vector_Constant_Id_Clamps) {
// @override(1300) let idx : i32;
// var a : vec3<f32>
// var b : f32 = a[idx]
//
// ->var b : f32 = a[min(u32(idx), 2)]
}
// TODO(dsinclair): Implement when constant_id exists
TEST_F(RobustnessTest, DISABLED_Array_Constant_Id_Clamps) {
// @override(1300) let idx : i32;
// var a : array<f32, 4>
// var b : f32 = a[idx]
//
// -> var b : f32 = a[min(u32(idx), 3)]
}
// TODO(dsinclair): Implement when constant_id exists
TEST_F(RobustnessTest, DISABLED_Matrix_Column_Constant_Id_Clamps) {
// @override(1300) let idx : i32;
// var a : mat3x2<f32>
// var b : f32 = a[idx][1]
//
// -> var b : f32 = a[min(u32(idx), 2)][1]
}
// TODO(dsinclair): Implement when constant_id exists
TEST_F(RobustnessTest, DISABLED_Matrix_Row_Constant_Id_Clamps) {
// @override(1300) let idx : i32;
// var a : mat3x2<f32>
// var b : f32 = a[1][idx]
//
// -> var b : f32 = a[1][min(u32(idx), 0, 1)]
}
TEST_F(RobustnessTest, RuntimeArray_Clamps) {
auto* src = R"(
struct S {
a : f32;
b : array<f32>;
};
@group(0) @binding(0) var<storage, read> s : S;
fn f() {
var d : f32 = s.b[25];
}
)";
auto* expect = R"(
struct S {
a : f32;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
fn f() {
var d : f32 = s.b[min(25u, (arrayLength(&(s.b)) - 1u))];
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
// TODO(dsinclair): Clamp atomics when available.
TEST_F(RobustnessTest, DISABLED_Atomics_Clamp) {
FAIL();
}
// Clamp textureLoad() coord, array_index and level values
TEST_F(RobustnessTest, TextureLoad_Clamp) {
auto* src = R"(
@group(0) @binding(0) var tex_1d : texture_1d<f32>;
@group(0) @binding(0) var tex_2d : texture_2d<f32>;
@group(0) @binding(0) var tex_2d_arr : texture_2d_array<f32>;
@group(0) @binding(0) var tex_3d : texture_3d<f32>;
@group(0) @binding(0) var tex_ms_2d : texture_multisampled_2d<f32>;
@group(0) @binding(0) var tex_depth_2d : texture_depth_2d;
@group(0) @binding(0) var tex_depth_2d_arr : texture_depth_2d_array;
@group(0) @binding(0) var tex_external : texture_external;
fn f() {
var array_idx : i32;
var level_idx : i32;
var sample_idx : i32;
textureLoad(tex_1d, 1, level_idx);
textureLoad(tex_2d, vec2<i32>(1, 2), level_idx);
textureLoad(tex_2d_arr, vec2<i32>(1, 2), array_idx, level_idx);
textureLoad(tex_3d, vec3<i32>(1, 2, 3), level_idx);
textureLoad(tex_ms_2d, vec2<i32>(1, 2), sample_idx);
textureLoad(tex_depth_2d, vec2<i32>(1, 2), level_idx);
textureLoad(tex_depth_2d_arr, vec2<i32>(1, 2), array_idx, level_idx);
textureLoad(tex_external, vec2<i32>(1, 2));
}
)";
auto* expect =
R"(
@group(0) @binding(0) var tex_1d : texture_1d<f32>;
@group(0) @binding(0) var tex_2d : texture_2d<f32>;
@group(0) @binding(0) var tex_2d_arr : texture_2d_array<f32>;
@group(0) @binding(0) var tex_3d : texture_3d<f32>;
@group(0) @binding(0) var tex_ms_2d : texture_multisampled_2d<f32>;
@group(0) @binding(0) var tex_depth_2d : texture_depth_2d;
@group(0) @binding(0) var tex_depth_2d_arr : texture_depth_2d_array;
@group(0) @binding(0) var tex_external : texture_external;
fn f() {
var array_idx : i32;
var level_idx : i32;
var sample_idx : i32;
textureLoad(tex_1d, clamp(1, i32(), (textureDimensions(tex_1d, clamp(level_idx, 0, (textureNumLevels(tex_1d) - 1))) - i32(1))), clamp(level_idx, 0, (textureNumLevels(tex_1d) - 1)));
textureLoad(tex_2d, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_2d, clamp(level_idx, 0, (textureNumLevels(tex_2d) - 1))) - vec2<i32>(1))), clamp(level_idx, 0, (textureNumLevels(tex_2d) - 1)));
textureLoad(tex_2d_arr, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_2d_arr, clamp(level_idx, 0, (textureNumLevels(tex_2d_arr) - 1))) - vec2<i32>(1))), clamp(array_idx, 0, (textureNumLayers(tex_2d_arr) - 1)), clamp(level_idx, 0, (textureNumLevels(tex_2d_arr) - 1)));
textureLoad(tex_3d, clamp(vec3<i32>(1, 2, 3), vec3<i32>(), (textureDimensions(tex_3d, clamp(level_idx, 0, (textureNumLevels(tex_3d) - 1))) - vec3<i32>(1))), clamp(level_idx, 0, (textureNumLevels(tex_3d) - 1)));
textureLoad(tex_ms_2d, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_ms_2d) - vec2<i32>(1))), sample_idx);
textureLoad(tex_depth_2d, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_depth_2d, clamp(level_idx, 0, (textureNumLevels(tex_depth_2d) - 1))) - vec2<i32>(1))), clamp(level_idx, 0, (textureNumLevels(tex_depth_2d) - 1)));
textureLoad(tex_depth_2d_arr, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_depth_2d_arr, clamp(level_idx, 0, (textureNumLevels(tex_depth_2d_arr) - 1))) - vec2<i32>(1))), clamp(array_idx, 0, (textureNumLayers(tex_depth_2d_arr) - 1)), clamp(level_idx, 0, (textureNumLevels(tex_depth_2d_arr) - 1)));
textureLoad(tex_external, clamp(vec2<i32>(1, 2), vec2<i32>(), (textureDimensions(tex_external) - vec2<i32>(1))));
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
// Clamp textureStore() coord, array_index and level values
TEST_F(RobustnessTest, TextureStore_Clamp) {
auto* src = R"(
@group(0) @binding(0) var tex1d : texture_storage_1d<rgba8sint, write>;
@group(0) @binding(1) var tex2d : texture_storage_2d<rgba8sint, write>;
@group(0) @binding(2) var tex2d_arr : texture_storage_2d_array<rgba8sint, write>;
@group(0) @binding(3) var tex3d : texture_storage_3d<rgba8sint, write>;
fn f() {
textureStore(tex1d, 10, vec4<i32>());
textureStore(tex2d, vec2<i32>(10, 20), vec4<i32>());
textureStore(tex2d_arr, vec2<i32>(10, 20), 50, vec4<i32>());
textureStore(tex3d, vec3<i32>(10, 20, 30), vec4<i32>());
}
)";
auto* expect = R"(
@group(0) @binding(0) var tex1d : texture_storage_1d<rgba8sint, write>;
@group(0) @binding(1) var tex2d : texture_storage_2d<rgba8sint, write>;
@group(0) @binding(2) var tex2d_arr : texture_storage_2d_array<rgba8sint, write>;
@group(0) @binding(3) var tex3d : texture_storage_3d<rgba8sint, write>;
fn f() {
textureStore(tex1d, clamp(10, i32(), (textureDimensions(tex1d) - i32(1))), vec4<i32>());
textureStore(tex2d, clamp(vec2<i32>(10, 20), vec2<i32>(), (textureDimensions(tex2d) - vec2<i32>(1))), vec4<i32>());
textureStore(tex2d_arr, clamp(vec2<i32>(10, 20), vec2<i32>(), (textureDimensions(tex2d_arr) - vec2<i32>(1))), clamp(50, 0, (textureNumLayers(tex2d_arr) - 1)), vec4<i32>());
textureStore(tex3d, clamp(vec3<i32>(10, 20, 30), vec3<i32>(), (textureDimensions(tex3d) - vec3<i32>(1))), vec4<i32>());
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
// TODO(dsinclair): Test for scoped variables when shadowing is implemented
TEST_F(RobustnessTest, DISABLED_Shadowed_Variable) {
// var a : array<f32, 3>;
// var i : u32;
// {
// var a : array<f32, 5>;
// var b : f32 = a[i];
// }
// var c : f32 = a[i];
//
// -> var b : f32 = a[min(u32(i), 4)];
// var c : f32 = a[min(u32(i), 2)];
FAIL();
}
// Check that existing use of min() and arrayLength() do not get renamed.
TEST_F(RobustnessTest, DontRenameSymbols) {
auto* src = R"(
struct S {
a : f32;
b : array<f32>;
};
@group(0) @binding(0) var<storage, read> s : S;
let c : u32 = 1u;
fn f() {
let b : f32 = s.b[c];
let x : i32 = min(1, 2);
let y : u32 = arrayLength(&s.b);
}
)";
auto* expect = R"(
struct S {
a : f32;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
let c : u32 = 1u;
fn f() {
let b : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
let x : i32 = min(1, 2);
let y : u32 = arrayLength(&(s.b));
}
)";
auto got = Run<Robustness>(src);
EXPECT_EQ(expect, str(got));
}
const char* kOmitSourceShader = R"(
struct S {
a : array<f32, 4>;
b : array<f32>;
};
@group(0) @binding(0) var<storage, read> s : S;
type UArr = @stride(16) array<f32, 4>;
struct U {
a : UArr;
};
@group(1) @binding(0) var<uniform> u : U;
fn f() {
// Signed
var i32_sa1 : f32 = s.a[4];
var i32_sa2 : f32 = s.a[1];
var i32_sa3 : f32 = s.a[0];
var i32_sa4 : f32 = s.a[-1];
var i32_sa5 : f32 = s.a[-4];
var i32_sb1 : f32 = s.b[4];
var i32_sb2 : f32 = s.b[1];
var i32_sb3 : f32 = s.b[0];
var i32_sb4 : f32 = s.b[-1];
var i32_sb5 : f32 = s.b[-4];
var i32_ua1 : f32 = u.a[4];
var i32_ua2 : f32 = u.a[1];
var i32_ua3 : f32 = u.a[0];
var i32_ua4 : f32 = u.a[-1];
var i32_ua5 : f32 = u.a[-4];
// Unsigned
var u32_sa1 : f32 = s.a[0u];
var u32_sa2 : f32 = s.a[1u];
var u32_sa3 : f32 = s.a[3u];
var u32_sa4 : f32 = s.a[4u];
var u32_sa5 : f32 = s.a[10u];
var u32_sa6 : f32 = s.a[100u];
var u32_sb1 : f32 = s.b[0u];
var u32_sb2 : f32 = s.b[1u];
var u32_sb3 : f32 = s.b[3u];
var u32_sb4 : f32 = s.b[4u];
var u32_sb5 : f32 = s.b[10u];
var u32_sb6 : f32 = s.b[100u];
var u32_ua1 : f32 = u.a[0u];
var u32_ua2 : f32 = u.a[1u];
var u32_ua3 : f32 = u.a[3u];
var u32_ua4 : f32 = u.a[4u];
var u32_ua5 : f32 = u.a[10u];
var u32_ua6 : f32 = u.a[100u];
}
)";
TEST_F(RobustnessTest, OmitNone) {
auto* expect = R"(
struct S {
a : array<f32, 4>;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
type UArr = @stride(16) array<f32, 4>;
struct U {
a : UArr;
}
@group(1) @binding(0) var<uniform> u : U;
fn f() {
var i32_sa1 : f32 = s.a[3];
var i32_sa2 : f32 = s.a[1];
var i32_sa3 : f32 = s.a[0];
var i32_sa4 : f32 = s.a[0];
var i32_sa5 : f32 = s.a[0];
var i32_sb1 : f32 = s.b[min(4u, (arrayLength(&(s.b)) - 1u))];
var i32_sb2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var i32_sb3 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_sb4 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_sb5 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_ua1 : f32 = u.a[3];
var i32_ua2 : f32 = u.a[1];
var i32_ua3 : f32 = u.a[0];
var i32_ua4 : f32 = u.a[0];
var i32_ua5 : f32 = u.a[0];
var u32_sa1 : f32 = s.a[0u];
var u32_sa2 : f32 = s.a[1u];
var u32_sa3 : f32 = s.a[3u];
var u32_sa4 : f32 = s.a[3u];
var u32_sa5 : f32 = s.a[3u];
var u32_sa6 : f32 = s.a[3u];
var u32_sb1 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var u32_sb2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var u32_sb3 : f32 = s.b[min(3u, (arrayLength(&(s.b)) - 1u))];
var u32_sb4 : f32 = s.b[min(4u, (arrayLength(&(s.b)) - 1u))];
var u32_sb5 : f32 = s.b[min(10u, (arrayLength(&(s.b)) - 1u))];
var u32_sb6 : f32 = s.b[min(100u, (arrayLength(&(s.b)) - 1u))];
var u32_ua1 : f32 = u.a[0u];
var u32_ua2 : f32 = u.a[1u];
var u32_ua3 : f32 = u.a[3u];
var u32_ua4 : f32 = u.a[3u];
var u32_ua5 : f32 = u.a[3u];
var u32_ua6 : f32 = u.a[3u];
}
)";
Robustness::Config cfg;
DataMap data;
data.Add<Robustness::Config>(cfg);
auto got = Run<Robustness>(kOmitSourceShader, data);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, OmitStorage) {
auto* expect = R"(
struct S {
a : array<f32, 4>;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
type UArr = @stride(16) array<f32, 4>;
struct U {
a : UArr;
}
@group(1) @binding(0) var<uniform> u : U;
fn f() {
var i32_sa1 : f32 = s.a[4];
var i32_sa2 : f32 = s.a[1];
var i32_sa3 : f32 = s.a[0];
var i32_sa4 : f32 = s.a[-1];
var i32_sa5 : f32 = s.a[-4];
var i32_sb1 : f32 = s.b[4];
var i32_sb2 : f32 = s.b[1];
var i32_sb3 : f32 = s.b[0];
var i32_sb4 : f32 = s.b[-1];
var i32_sb5 : f32 = s.b[-4];
var i32_ua1 : f32 = u.a[3];
var i32_ua2 : f32 = u.a[1];
var i32_ua3 : f32 = u.a[0];
var i32_ua4 : f32 = u.a[0];
var i32_ua5 : f32 = u.a[0];
var u32_sa1 : f32 = s.a[0u];
var u32_sa2 : f32 = s.a[1u];
var u32_sa3 : f32 = s.a[3u];
var u32_sa4 : f32 = s.a[4u];
var u32_sa5 : f32 = s.a[10u];
var u32_sa6 : f32 = s.a[100u];
var u32_sb1 : f32 = s.b[0u];
var u32_sb2 : f32 = s.b[1u];
var u32_sb3 : f32 = s.b[3u];
var u32_sb4 : f32 = s.b[4u];
var u32_sb5 : f32 = s.b[10u];
var u32_sb6 : f32 = s.b[100u];
var u32_ua1 : f32 = u.a[0u];
var u32_ua2 : f32 = u.a[1u];
var u32_ua3 : f32 = u.a[3u];
var u32_ua4 : f32 = u.a[3u];
var u32_ua5 : f32 = u.a[3u];
var u32_ua6 : f32 = u.a[3u];
}
)";
Robustness::Config cfg;
cfg.omitted_classes.insert(Robustness::StorageClass::kStorage);
DataMap data;
data.Add<Robustness::Config>(cfg);
auto got = Run<Robustness>(kOmitSourceShader, data);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, OmitUniform) {
auto* expect = R"(
struct S {
a : array<f32, 4>;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
type UArr = @stride(16) array<f32, 4>;
struct U {
a : UArr;
}
@group(1) @binding(0) var<uniform> u : U;
fn f() {
var i32_sa1 : f32 = s.a[3];
var i32_sa2 : f32 = s.a[1];
var i32_sa3 : f32 = s.a[0];
var i32_sa4 : f32 = s.a[0];
var i32_sa5 : f32 = s.a[0];
var i32_sb1 : f32 = s.b[min(4u, (arrayLength(&(s.b)) - 1u))];
var i32_sb2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var i32_sb3 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_sb4 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_sb5 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var i32_ua1 : f32 = u.a[4];
var i32_ua2 : f32 = u.a[1];
var i32_ua3 : f32 = u.a[0];
var i32_ua4 : f32 = u.a[-1];
var i32_ua5 : f32 = u.a[-4];
var u32_sa1 : f32 = s.a[0u];
var u32_sa2 : f32 = s.a[1u];
var u32_sa3 : f32 = s.a[3u];
var u32_sa4 : f32 = s.a[3u];
var u32_sa5 : f32 = s.a[3u];
var u32_sa6 : f32 = s.a[3u];
var u32_sb1 : f32 = s.b[min(0u, (arrayLength(&(s.b)) - 1u))];
var u32_sb2 : f32 = s.b[min(1u, (arrayLength(&(s.b)) - 1u))];
var u32_sb3 : f32 = s.b[min(3u, (arrayLength(&(s.b)) - 1u))];
var u32_sb4 : f32 = s.b[min(4u, (arrayLength(&(s.b)) - 1u))];
var u32_sb5 : f32 = s.b[min(10u, (arrayLength(&(s.b)) - 1u))];
var u32_sb6 : f32 = s.b[min(100u, (arrayLength(&(s.b)) - 1u))];
var u32_ua1 : f32 = u.a[0u];
var u32_ua2 : f32 = u.a[1u];
var u32_ua3 : f32 = u.a[3u];
var u32_ua4 : f32 = u.a[4u];
var u32_ua5 : f32 = u.a[10u];
var u32_ua6 : f32 = u.a[100u];
}
)";
Robustness::Config cfg;
cfg.omitted_classes.insert(Robustness::StorageClass::kUniform);
DataMap data;
data.Add<Robustness::Config>(cfg);
auto got = Run<Robustness>(kOmitSourceShader, data);
EXPECT_EQ(expect, str(got));
}
TEST_F(RobustnessTest, OmitBoth) {
auto* expect = R"(
struct S {
a : array<f32, 4>;
b : array<f32>;
}
@group(0) @binding(0) var<storage, read> s : S;
type UArr = @stride(16) array<f32, 4>;
struct U {
a : UArr;
}
@group(1) @binding(0) var<uniform> u : U;
fn f() {
var i32_sa1 : f32 = s.a[4];
var i32_sa2 : f32 = s.a[1];
var i32_sa3 : f32 = s.a[0];
var i32_sa4 : f32 = s.a[-1];
var i32_sa5 : f32 = s.a[-4];
var i32_sb1 : f32 = s.b[4];
var i32_sb2 : f32 = s.b[1];
var i32_sb3 : f32 = s.b[0];
var i32_sb4 : f32 = s.b[-1];
var i32_sb5 : f32 = s.b[-4];
var i32_ua1 : f32 = u.a[4];
var i32_ua2 : f32 = u.a[1];
var i32_ua3 : f32 = u.a[0];
var i32_ua4 : f32 = u.a[-1];
var i32_ua5 : f32 = u.a[-4];
var u32_sa1 : f32 = s.a[0u];
var u32_sa2 : f32 = s.a[1u];
var u32_sa3 : f32 = s.a[3u];
var u32_sa4 : f32 = s.a[4u];
var u32_sa5 : f32 = s.a[10u];
var u32_sa6 : f32 = s.a[100u];
var u32_sb1 : f32 = s.b[0u];
var u32_sb2 : f32 = s.b[1u];
var u32_sb3 : f32 = s.b[3u];
var u32_sb4 : f32 = s.b[4u];
var u32_sb5 : f32 = s.b[10u];
var u32_sb6 : f32 = s.b[100u];
var u32_ua1 : f32 = u.a[0u];
var u32_ua2 : f32 = u.a[1u];
var u32_ua3 : f32 = u.a[3u];
var u32_ua4 : f32 = u.a[4u];
var u32_ua5 : f32 = u.a[10u];
var u32_ua6 : f32 = u.a[100u];
}
)";
Robustness::Config cfg;
cfg.omitted_classes.insert(Robustness::StorageClass::kStorage);
cfg.omitted_classes.insert(Robustness::StorageClass::kUniform);
DataMap data;
data.Add<Robustness::Config>(cfg);
auto got = Run<Robustness>(kOmitSourceShader, data);
EXPECT_EQ(expect, str(got));
}
} // namespace
} // namespace transform
} // namespace tint