1e5c31af7Sopenharmony_ci#!amber 2e5c31af7Sopenharmony_ci 3e5c31af7Sopenharmony_ci# Copyright 2021 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 18e5c31af7Sopenharmony_ci# A test for a coverage-gap found by the GraphicsFuzz project. 19e5c31af7Sopenharmony_ci 20e5c31af7Sopenharmony_ci# Short description: A fragment shader that covers specific NIR code paths 21e5c31af7Sopenharmony_ci 22e5c31af7Sopenharmony_ci# The test passes because the shader always writes red. 23e5c31af7Sopenharmony_ci 24e5c31af7Sopenharmony_ci# Optimized using spirv-opt with the following arguments: 25e5c31af7Sopenharmony_ci# '-O' 26e5c31af7Sopenharmony_ci# spirv-opt commit hash: a0370efd589be33d5d9a85cfde2f85841b3755af 27e5c31af7Sopenharmony_ci 28e5c31af7Sopenharmony_ci 29e5c31af7Sopenharmony_ci 30e5c31af7Sopenharmony_ciSHADER vertex variant_vertex_shader PASSTHROUGH 31e5c31af7Sopenharmony_ci 32e5c31af7Sopenharmony_ci# variant_fragment_shader is derived from the following GLSL: 33e5c31af7Sopenharmony_ci# #version 320 es 34e5c31af7Sopenharmony_ci# #define _int_1 _GLF_uniform_int_values[0] 35e5c31af7Sopenharmony_ci# #define _int_0 _GLF_uniform_int_values[1] 36e5c31af7Sopenharmony_ci# #define _int_6 _GLF_uniform_int_values[2] 37e5c31af7Sopenharmony_ci# #define _int_5 _GLF_uniform_int_values[3] 38e5c31af7Sopenharmony_ci# 39e5c31af7Sopenharmony_ci# precision highp float; 40e5c31af7Sopenharmony_ci# precision highp int; 41e5c31af7Sopenharmony_ci# 42e5c31af7Sopenharmony_ci# // Contents of _GLF_uniform_int_values: [1, 0, 6, 5] 43e5c31af7Sopenharmony_ci# layout(set = 0, binding = 0) uniform buf0 44e5c31af7Sopenharmony_ci# { 45e5c31af7Sopenharmony_ci# int _GLF_uniform_int_values[4]; 46e5c31af7Sopenharmony_ci# }; 47e5c31af7Sopenharmony_ci# 48e5c31af7Sopenharmony_ci# layout(location = 0) out vec4 _GLF_color; 49e5c31af7Sopenharmony_ci# 50e5c31af7Sopenharmony_ci# void main() 51e5c31af7Sopenharmony_ci# { 52e5c31af7Sopenharmony_ci# // a becomes 0x8000000 which is the smallest possible negative integer. 53e5c31af7Sopenharmony_ci# int a = min(1, bitfieldReverse(1)); 54e5c31af7Sopenharmony_ci# int b = _int_5; 55e5c31af7Sopenharmony_ci# 56e5c31af7Sopenharmony_ci# // a - 1 underflowa to the largest positive integer. The loop is executed 57e5c31af7Sopenharmony_ci# // once because of the break inside. 58e5c31af7Sopenharmony_ci# for (int i = 1; i <= a - 1; i++) 59e5c31af7Sopenharmony_ci# { 60e5c31af7Sopenharmony_ci# b += i; 61e5c31af7Sopenharmony_ci# 62e5c31af7Sopenharmony_ci# // Always true. 63e5c31af7Sopenharmony_ci# if (_int_1 == 1) 64e5c31af7Sopenharmony_ci# { 65e5c31af7Sopenharmony_ci# break; 66e5c31af7Sopenharmony_ci# } 67e5c31af7Sopenharmony_ci# } 68e5c31af7Sopenharmony_ci# 69e5c31af7Sopenharmony_ci# // Always true. 70e5c31af7Sopenharmony_ci# if (b == _int_6) 71e5c31af7Sopenharmony_ci# { 72e5c31af7Sopenharmony_ci# _GLF_color = vec4(_int_1, _int_0, _int_0, _int_1); 73e5c31af7Sopenharmony_ci# } 74e5c31af7Sopenharmony_ci# else 75e5c31af7Sopenharmony_ci# { 76e5c31af7Sopenharmony_ci# _GLF_color = vec4(_int_0); 77e5c31af7Sopenharmony_ci# } 78e5c31af7Sopenharmony_ci# } 79e5c31af7Sopenharmony_ciSHADER fragment variant_fragment_shader SPIRV-ASM TARGET_ENV spv1.0 80e5c31af7Sopenharmony_ci; SPIR-V 81e5c31af7Sopenharmony_ci; Version: 1.0 82e5c31af7Sopenharmony_ci; Generator: Khronos Glslang Reference Front End; 10 83e5c31af7Sopenharmony_ci; Bound: 78 84e5c31af7Sopenharmony_ci; Schema: 0 85e5c31af7Sopenharmony_ci OpCapability Shader 86e5c31af7Sopenharmony_ci %1 = OpExtInstImport "GLSL.std.450" 87e5c31af7Sopenharmony_ci OpMemoryModel Logical GLSL450 88e5c31af7Sopenharmony_ci OpEntryPoint Fragment %4 "main" %56 89e5c31af7Sopenharmony_ci OpExecutionMode %4 OriginUpperLeft 90e5c31af7Sopenharmony_ci OpSource ESSL 320 91e5c31af7Sopenharmony_ci OpName %4 "main" 92e5c31af7Sopenharmony_ci OpName %16 "buf0" 93e5c31af7Sopenharmony_ci OpMemberName %16 0 "_GLF_uniform_int_values" 94e5c31af7Sopenharmony_ci OpName %18 "" 95e5c31af7Sopenharmony_ci OpName %56 "_GLF_color" 96e5c31af7Sopenharmony_ci OpDecorate %15 ArrayStride 16 97e5c31af7Sopenharmony_ci OpMemberDecorate %16 0 Offset 0 98e5c31af7Sopenharmony_ci OpDecorate %16 Block 99e5c31af7Sopenharmony_ci OpDecorate %18 DescriptorSet 0 100e5c31af7Sopenharmony_ci OpDecorate %18 Binding 0 101e5c31af7Sopenharmony_ci OpDecorate %56 Location 0 102e5c31af7Sopenharmony_ci %2 = OpTypeVoid 103e5c31af7Sopenharmony_ci %3 = OpTypeFunction %2 104e5c31af7Sopenharmony_ci %6 = OpTypeInt 32 1 105e5c31af7Sopenharmony_ci %9 = OpConstant %6 1 106e5c31af7Sopenharmony_ci %13 = OpTypeInt 32 0 107e5c31af7Sopenharmony_ci %14 = OpConstant %13 4 108e5c31af7Sopenharmony_ci %15 = OpTypeArray %6 %14 109e5c31af7Sopenharmony_ci %16 = OpTypeStruct %15 110e5c31af7Sopenharmony_ci %17 = OpTypePointer Uniform %16 111e5c31af7Sopenharmony_ci %18 = OpVariable %17 Uniform 112e5c31af7Sopenharmony_ci %19 = OpConstant %6 0 113e5c31af7Sopenharmony_ci %20 = OpConstant %6 3 114e5c31af7Sopenharmony_ci %21 = OpTypePointer Uniform %6 115e5c31af7Sopenharmony_ci %33 = OpTypeBool 116e5c31af7Sopenharmony_ci %47 = OpConstant %6 2 117e5c31af7Sopenharmony_ci %53 = OpTypeFloat 32 118e5c31af7Sopenharmony_ci %54 = OpTypeVector %53 4 119e5c31af7Sopenharmony_ci %55 = OpTypePointer Output %54 120e5c31af7Sopenharmony_ci %56 = OpVariable %55 Output 121e5c31af7Sopenharmony_ci %4 = OpFunction %2 None %3 122e5c31af7Sopenharmony_ci %5 = OpLabel 123e5c31af7Sopenharmony_ci %10 = OpBitReverse %6 %9 124e5c31af7Sopenharmony_ci %11 = OpExtInst %6 %1 SMin %9 %10 125e5c31af7Sopenharmony_ci %22 = OpAccessChain %21 %18 %19 %20 126e5c31af7Sopenharmony_ci %23 = OpLoad %6 %22 127e5c31af7Sopenharmony_ci OpBranch %25 128e5c31af7Sopenharmony_ci %25 = OpLabel 129e5c31af7Sopenharmony_ci %76 = OpPhi %6 %23 %5 %37 %28 130e5c31af7Sopenharmony_ci %75 = OpPhi %6 %9 %5 %45 %28 131e5c31af7Sopenharmony_ci %32 = OpISub %6 %11 %9 132e5c31af7Sopenharmony_ci %34 = OpSLessThanEqual %33 %75 %32 133e5c31af7Sopenharmony_ci OpLoopMerge %27 %28 None 134e5c31af7Sopenharmony_ci OpBranchConditional %34 %26 %27 135e5c31af7Sopenharmony_ci %26 = OpLabel 136e5c31af7Sopenharmony_ci %37 = OpIAdd %6 %76 %75 137e5c31af7Sopenharmony_ci %38 = OpAccessChain %21 %18 %19 %19 138e5c31af7Sopenharmony_ci %39 = OpLoad %6 %38 139e5c31af7Sopenharmony_ci %40 = OpIEqual %33 %39 %9 140e5c31af7Sopenharmony_ci OpSelectionMerge %42 None 141e5c31af7Sopenharmony_ci OpBranchConditional %40 %41 %42 142e5c31af7Sopenharmony_ci %41 = OpLabel 143e5c31af7Sopenharmony_ci OpBranch %27 144e5c31af7Sopenharmony_ci %42 = OpLabel 145e5c31af7Sopenharmony_ci OpBranch %28 146e5c31af7Sopenharmony_ci %28 = OpLabel 147e5c31af7Sopenharmony_ci %45 = OpIAdd %6 %75 %9 148e5c31af7Sopenharmony_ci OpBranch %25 149e5c31af7Sopenharmony_ci %27 = OpLabel 150e5c31af7Sopenharmony_ci %77 = OpPhi %6 %76 %25 %37 %41 151e5c31af7Sopenharmony_ci %48 = OpAccessChain %21 %18 %19 %47 152e5c31af7Sopenharmony_ci %49 = OpLoad %6 %48 153e5c31af7Sopenharmony_ci %50 = OpIEqual %33 %77 %49 154e5c31af7Sopenharmony_ci OpSelectionMerge %52 None 155e5c31af7Sopenharmony_ci OpBranchConditional %50 %51 %70 156e5c31af7Sopenharmony_ci %51 = OpLabel 157e5c31af7Sopenharmony_ci %57 = OpAccessChain %21 %18 %19 %19 158e5c31af7Sopenharmony_ci %58 = OpLoad %6 %57 159e5c31af7Sopenharmony_ci %59 = OpConvertSToF %53 %58 160e5c31af7Sopenharmony_ci %60 = OpAccessChain %21 %18 %19 %9 161e5c31af7Sopenharmony_ci %61 = OpLoad %6 %60 162e5c31af7Sopenharmony_ci %62 = OpConvertSToF %53 %61 163e5c31af7Sopenharmony_ci %69 = OpCompositeConstruct %54 %59 %62 %62 %59 164e5c31af7Sopenharmony_ci OpStore %56 %69 165e5c31af7Sopenharmony_ci OpBranch %52 166e5c31af7Sopenharmony_ci %70 = OpLabel 167e5c31af7Sopenharmony_ci %71 = OpAccessChain %21 %18 %19 %9 168e5c31af7Sopenharmony_ci %72 = OpLoad %6 %71 169e5c31af7Sopenharmony_ci %73 = OpConvertSToF %53 %72 170e5c31af7Sopenharmony_ci %74 = OpCompositeConstruct %54 %73 %73 %73 %73 171e5c31af7Sopenharmony_ci OpStore %56 %74 172e5c31af7Sopenharmony_ci OpBranch %52 173e5c31af7Sopenharmony_ci %52 = OpLabel 174e5c31af7Sopenharmony_ci OpReturn 175e5c31af7Sopenharmony_ci OpFunctionEnd 176e5c31af7Sopenharmony_ciEND 177e5c31af7Sopenharmony_ci 178e5c31af7Sopenharmony_ci# uniforms for variant 179e5c31af7Sopenharmony_ci 180e5c31af7Sopenharmony_ci# _GLF_uniform_int_values 181e5c31af7Sopenharmony_ciBUFFER variant__GLF_uniform_int_values DATA_TYPE int32[] STD140 DATA 182e5c31af7Sopenharmony_ci 1 0 6 5 183e5c31af7Sopenharmony_ciEND 184e5c31af7Sopenharmony_ci 185e5c31af7Sopenharmony_ciBUFFER variant_framebuffer FORMAT B8G8R8A8_UNORM 186e5c31af7Sopenharmony_ci 187e5c31af7Sopenharmony_ciPIPELINE graphics variant_pipeline 188e5c31af7Sopenharmony_ci ATTACH variant_vertex_shader 189e5c31af7Sopenharmony_ci ATTACH variant_fragment_shader 190e5c31af7Sopenharmony_ci FRAMEBUFFER_SIZE 256 256 191e5c31af7Sopenharmony_ci BIND BUFFER variant_framebuffer AS color LOCATION 0 192e5c31af7Sopenharmony_ci BIND BUFFER variant__GLF_uniform_int_values AS uniform DESCRIPTOR_SET 0 BINDING 0 193e5c31af7Sopenharmony_ciEND 194e5c31af7Sopenharmony_ciCLEAR_COLOR variant_pipeline 0 0 0 255 195e5c31af7Sopenharmony_ci 196e5c31af7Sopenharmony_ciCLEAR variant_pipeline 197e5c31af7Sopenharmony_ciRUN variant_pipeline DRAW_RECT POS 0 0 SIZE 256 256 198e5c31af7Sopenharmony_ci 199e5c31af7Sopenharmony_ciEXPECT variant_framebuffer IDX 0 0 SIZE 256 256 EQ_RGBA 255 0 0 255 200