// // Copyright (c) 2017 The Khronos Group Inc. // // 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. // #ifndef CL_UTILS_H #define CL_UTILS_H #include "harness/testHarness.h" #include "harness/compat.h" #include "harness/conversions.h" #include #if !defined(_WIN32) #include #endif #ifdef __MINGW32__ #define __mingw_printf printf #endif #include "harness/errorHelpers.h" #include "harness/ThreadPool.h" #include "test_config.h" #ifdef __APPLE__ #include #else #include #endif extern void *gIn_half; extern void *gOut_half; extern void *gOut_half_reference; extern void *gOut_half_reference_double; extern void *gIn_single; extern void *gOut_single; extern void *gOut_single_reference; extern void *gIn_double; // extern void *gOut_double; // extern void *gOut_double_reference; extern cl_mem gInBuffer_half; extern cl_mem gOutBuffer_half; extern cl_mem gInBuffer_single; extern cl_mem gOutBuffer_single; extern cl_mem gInBuffer_double; // extern cl_mem gOutBuffer_double; extern cl_context gContext; extern cl_command_queue gQueue; extern uint32_t gDeviceFrequency; extern uint32_t gComputeDevices; extern size_t gMaxThreadGroupSize; extern size_t gWorkGroupSize; extern int gTestDouble; extern int gReportTimes; // gWimpyMode indicates if we run the test in wimpy mode where we limit the // size of 32 bit ranges to a much smaller set. This is meant to be used // as a smoke test extern bool gWimpyMode; extern int gWimpyReductionFactor; uint64_t ReadTime( void ); double SubtractTime( uint64_t endTime, uint64_t startTime ); cl_uint numVecs(cl_uint count, int vectorSizeIdx, bool aligned); cl_uint runsOverBy(cl_uint count, int vectorSizeIdx, bool aligned); void printSource(const char * src[], int len); extern const char *vector_size_name_extensions[kVectorSizeCount+kStrangeVectorSizeCount]; extern const char *vector_size_strings[kVectorSizeCount+kStrangeVectorSizeCount]; extern const char *align_divisors[kVectorSizeCount+kStrangeVectorSizeCount]; extern const char *align_types[kVectorSizeCount+kStrangeVectorSizeCount]; test_status InitCL( cl_device_id device ); void ReleaseCL( void ); int RunKernel( cl_device_id device, cl_kernel kernel, void *inBuf, void *outBuf, uint32_t blockCount , int extraArg); cl_program MakeProgram( cl_device_id device, const char *source[], int count ); static inline float as_float(cl_uint u) { union { cl_uint u; float f; }v; v.u = u; return v.f; } static inline double as_double(cl_ulong u) { union { cl_ulong u; double d; }v; v.u = u; return v.d; } // used to convert a bucket of bits into a search pattern through double static inline cl_ulong DoubleFromUInt( cl_uint bits ); static inline cl_ulong DoubleFromUInt( cl_uint bits ) { // split 0x89abcdef to 0x89abcd00000000ef cl_ulong u = ((cl_ulong)(bits & ~0xffU) << 32) | ((cl_ulong)(bits & 0xffU)); // sign extend the leading bit of def segment as sign bit so that the middle region consists of either all 1s or 0s u -= (cl_ulong)((bits & 0x80U) << 1); return u; } #endif /* CL_UTILS_H */