1e5c31af7Sopenharmony_ci#!amber 2e5c31af7Sopenharmony_ci 3e5c31af7Sopenharmony_ci# Copyright 2018 Google LLC 4e5c31af7Sopenharmony_ci# 5e5c31af7Sopenharmony_ci# Licensed under the Apache License, Version 2.0 (the "License"); 6e5c31af7Sopenharmony_ci# you may not use this file except in compliance with the License. 7e5c31af7Sopenharmony_ci# You may obtain a copy of the License at 8e5c31af7Sopenharmony_ci# 9e5c31af7Sopenharmony_ci# http://www.apache.org/licenses/LICENSE-2.0 10e5c31af7Sopenharmony_ci# 11e5c31af7Sopenharmony_ci# Unless required by applicable law or agreed to in writing, software 12e5c31af7Sopenharmony_ci# distributed under the License is distributed on an "AS IS" BASIS, 13e5c31af7Sopenharmony_ci# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14e5c31af7Sopenharmony_ci# See the License for the specific language governing permissions and 15e5c31af7Sopenharmony_ci# limitations under the License. 16e5c31af7Sopenharmony_ci 17e5c31af7Sopenharmony_ci# A test for a bug found by GraphicsFuzz. 18e5c31af7Sopenharmony_ci 19e5c31af7Sopenharmony_ci# A fragment shader that uses vector swizzles, struct initializers, and min. 20e5c31af7Sopenharmony_ci# Derived from the following GLSL fragment shader. 21e5c31af7Sopenharmony_ci# We check that the top-left pixel is red. The test passes because the 22e5c31af7Sopenharmony_ci# first if statement checks if the x coordinate is less than 10 and if so writes 23e5c31af7Sopenharmony_ci# red to _GLF_color and then returns. 24e5c31af7Sopenharmony_ci 25e5c31af7Sopenharmony_ci# #version 310 es 26e5c31af7Sopenharmony_ci# 27e5c31af7Sopenharmony_ci# precision highp float; 28e5c31af7Sopenharmony_ci# precision highp int; 29e5c31af7Sopenharmony_ci# 30e5c31af7Sopenharmony_ci# struct S { 31e5c31af7Sopenharmony_ci# vec2 s2; 32e5c31af7Sopenharmony_ci# }; 33e5c31af7Sopenharmony_ci# 34e5c31af7Sopenharmony_ci# layout(location=0) out vec4 _GLF_color; 35e5c31af7Sopenharmony_ci# 36e5c31af7Sopenharmony_ci# layout(set = 0, binding = 0) uniform buf0 { 37e5c31af7Sopenharmony_ci# vec2 injectionSwitch; 38e5c31af7Sopenharmony_ci# }; 39e5c31af7Sopenharmony_ci# 40e5c31af7Sopenharmony_ci# void main() 41e5c31af7Sopenharmony_ci# { 42e5c31af7Sopenharmony_ci# if (gl_FragCoord.x < 10.0) { 43e5c31af7Sopenharmony_ci# _GLF_color = vec4(1.0, 0.0, 0.0, 1.0); 44e5c31af7Sopenharmony_ci# return; 45e5c31af7Sopenharmony_ci# } 46e5c31af7Sopenharmony_ci# vec4 v4 = vec4(injectionSwitch.y); 47e5c31af7Sopenharmony_ci# vec2 p = S(v4.xy).s2; 48e5c31af7Sopenharmony_ci# v4.xy = p; 49e5c31af7Sopenharmony_ci# v4.xy = (min(vec4(1.0), v4)).xy; 50e5c31af7Sopenharmony_ci# _GLF_color = vec4(v4.x, 0.0, 0.0, 1.0); 51e5c31af7Sopenharmony_ci# } 52e5c31af7Sopenharmony_ci 53e5c31af7Sopenharmony_ciSHADER vertex variant_vertex_shader PASSTHROUGH 54e5c31af7Sopenharmony_ci 55e5c31af7Sopenharmony_ciSHADER fragment variant_fragment_shader SPIRV-ASM TARGET_ENV spv1.0 56e5c31af7Sopenharmony_ci; SPIR-V 57e5c31af7Sopenharmony_ci; Version: 1.0 58e5c31af7Sopenharmony_ci; Generator: Khronos SPIR-V Tools Assembler; 0 59e5c31af7Sopenharmony_ci; Bound: 45 60e5c31af7Sopenharmony_ci; Schema: 0 61e5c31af7Sopenharmony_ci OpCapability Shader 62e5c31af7Sopenharmony_ci %1 = OpExtInstImport "GLSL.std.450" 63e5c31af7Sopenharmony_ci OpMemoryModel Logical GLSL450 64e5c31af7Sopenharmony_ci OpEntryPoint Fragment %2 "main" %3 %4 65e5c31af7Sopenharmony_ci OpExecutionMode %2 OriginUpperLeft 66e5c31af7Sopenharmony_ci OpSource ESSL 310 67e5c31af7Sopenharmony_ci OpName %2 "main" 68e5c31af7Sopenharmony_ci OpName %3 "gl_FragCoord" 69e5c31af7Sopenharmony_ci OpName %4 "_GLF_color" 70e5c31af7Sopenharmony_ci OpName %5 "buf0" 71e5c31af7Sopenharmony_ci OpMemberName %5 0 "injectionSwitch" 72e5c31af7Sopenharmony_ci OpName %6 "" 73e5c31af7Sopenharmony_ci OpDecorate %3 BuiltIn FragCoord 74e5c31af7Sopenharmony_ci OpDecorate %4 Location 0 75e5c31af7Sopenharmony_ci OpMemberDecorate %5 0 Offset 0 76e5c31af7Sopenharmony_ci OpDecorate %5 Block 77e5c31af7Sopenharmony_ci OpDecorate %6 DescriptorSet 0 78e5c31af7Sopenharmony_ci OpDecorate %6 Binding 0 79e5c31af7Sopenharmony_ci %7 = OpTypeVoid 80e5c31af7Sopenharmony_ci %8 = OpTypeFunction %7 81e5c31af7Sopenharmony_ci %9 = OpTypeFloat 32 82e5c31af7Sopenharmony_ci %10 = OpTypeVector %9 4 83e5c31af7Sopenharmony_ci %11 = OpTypePointer Input %10 84e5c31af7Sopenharmony_ci %3 = OpVariable %11 Input 85e5c31af7Sopenharmony_ci %12 = OpTypeInt 32 0 86e5c31af7Sopenharmony_ci %13 = OpConstant %12 0 87e5c31af7Sopenharmony_ci %14 = OpTypePointer Input %9 88e5c31af7Sopenharmony_ci %15 = OpConstant %9 10 89e5c31af7Sopenharmony_ci %16 = OpTypeBool 90e5c31af7Sopenharmony_ci %17 = OpTypePointer Output %10 91e5c31af7Sopenharmony_ci %4 = OpVariable %17 Output 92e5c31af7Sopenharmony_ci %18 = OpConstant %9 1 93e5c31af7Sopenharmony_ci %19 = OpConstant %9 0 94e5c31af7Sopenharmony_ci %20 = OpConstantComposite %10 %18 %19 %19 %18 95e5c31af7Sopenharmony_ci %21 = OpTypeVector %9 2 96e5c31af7Sopenharmony_ci %5 = OpTypeStruct %21 97e5c31af7Sopenharmony_ci %22 = OpTypePointer Uniform %5 98e5c31af7Sopenharmony_ci %6 = OpVariable %22 Uniform 99e5c31af7Sopenharmony_ci %23 = OpTypeInt 32 1 100e5c31af7Sopenharmony_ci %24 = OpConstant %23 0 101e5c31af7Sopenharmony_ci %25 = OpConstant %12 1 102e5c31af7Sopenharmony_ci %26 = OpTypePointer Uniform %9 103e5c31af7Sopenharmony_ci %27 = OpConstantComposite %10 %18 %18 %18 %18 104e5c31af7Sopenharmony_ci %2 = OpFunction %7 None %8 105e5c31af7Sopenharmony_ci %28 = OpLabel 106e5c31af7Sopenharmony_ci OpBranch %29 107e5c31af7Sopenharmony_ci %29 = OpLabel 108e5c31af7Sopenharmony_ci OpLoopMerge %30 %31 None 109e5c31af7Sopenharmony_ci OpBranch %32 110e5c31af7Sopenharmony_ci %32 = OpLabel 111e5c31af7Sopenharmony_ci %33 = OpAccessChain %14 %3 %13 112e5c31af7Sopenharmony_ci %34 = OpLoad %9 %33 113e5c31af7Sopenharmony_ci %35 = OpFOrdLessThan %16 %34 %15 114e5c31af7Sopenharmony_ci OpSelectionMerge %36 None 115e5c31af7Sopenharmony_ci OpBranchConditional %35 %37 %36 116e5c31af7Sopenharmony_ci %37 = OpLabel 117e5c31af7Sopenharmony_ci OpStore %4 %20 118e5c31af7Sopenharmony_ci OpBranch %30 119e5c31af7Sopenharmony_ci %36 = OpLabel 120e5c31af7Sopenharmony_ci %38 = OpAccessChain %26 %6 %24 %25 121e5c31af7Sopenharmony_ci %39 = OpLoad %9 %38 122e5c31af7Sopenharmony_ci %40 = OpCompositeConstruct %10 %39 %39 %39 %39 123e5c31af7Sopenharmony_ci %41 = OpVectorShuffle %10 %40 %40 4 5 2 3 124e5c31af7Sopenharmony_ci %42 = OpExtInst %10 %1 FMin %27 %41 125e5c31af7Sopenharmony_ci %43 = OpCompositeExtract %9 %42 0 126e5c31af7Sopenharmony_ci %44 = OpCompositeConstruct %10 %43 %19 %19 %18 127e5c31af7Sopenharmony_ci OpStore %4 %44 128e5c31af7Sopenharmony_ci OpBranch %30 129e5c31af7Sopenharmony_ci %31 = OpLabel 130e5c31af7Sopenharmony_ci OpBranch %29 131e5c31af7Sopenharmony_ci %30 = OpLabel 132e5c31af7Sopenharmony_ci OpReturn 133e5c31af7Sopenharmony_ci OpFunctionEnd 134e5c31af7Sopenharmony_ciEND 135e5c31af7Sopenharmony_ci 136e5c31af7Sopenharmony_ci# uniforms for variant 137e5c31af7Sopenharmony_ci 138e5c31af7Sopenharmony_ci# injectionSwitch 139e5c31af7Sopenharmony_ciBUFFER variant_injectionSwitch DATA_TYPE vec2<float> DATA 140e5c31af7Sopenharmony_ci 0.0 1.0 141e5c31af7Sopenharmony_ciEND 142e5c31af7Sopenharmony_ci 143e5c31af7Sopenharmony_ciBUFFER variant_framebuffer FORMAT B8G8R8A8_UNORM 144e5c31af7Sopenharmony_ci 145e5c31af7Sopenharmony_ciPIPELINE graphics variant_pipeline 146e5c31af7Sopenharmony_ci ATTACH variant_vertex_shader 147e5c31af7Sopenharmony_ci ATTACH variant_fragment_shader 148e5c31af7Sopenharmony_ci FRAMEBUFFER_SIZE 256 256 149e5c31af7Sopenharmony_ci BIND BUFFER variant_framebuffer AS color LOCATION 0 150e5c31af7Sopenharmony_ci BIND BUFFER variant_injectionSwitch AS uniform DESCRIPTOR_SET 0 BINDING 0 151e5c31af7Sopenharmony_ciEND 152e5c31af7Sopenharmony_ciCLEAR_COLOR variant_pipeline 0 0 0 255 153e5c31af7Sopenharmony_ci 154e5c31af7Sopenharmony_ciCLEAR variant_pipeline 155e5c31af7Sopenharmony_ciRUN variant_pipeline DRAW_RECT POS 0 0 SIZE 256 256 156e5c31af7Sopenharmony_ci 157e5c31af7Sopenharmony_ciEXPECT variant_framebuffer IDX 0 0 SIZE 1 1 EQ_RGBA 255 0 0 255 158