/***************************************************************************** * opencl.c: OpenCL initialization and kernel compilation ***************************************************************************** * Copyright (C) 2012-2016 x264 project * * Authors: Steve Borho * Anton Mitrofanov * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. * * This program is also available under a commercial proprietary license. * For more information, contact us at licensing@x264.com. *****************************************************************************/ #include "common.h" #ifdef _WIN32 #include #define ocl_open LoadLibraryW( L"OpenCL" ) #define ocl_close FreeLibrary #define ocl_address GetProcAddress #else #include //dlopen, dlsym, dlclose #if SYS_MACOSX #define ocl_open dlopen( "/System/Library/Frameworks/OpenCL.framework/OpenCL", RTLD_NOW ) #else #define ocl_open dlopen( "libOpenCL.so", RTLD_NOW ) #endif #define ocl_close dlclose #define ocl_address dlsym #endif #define LOAD_OCL_FUNC(name, continue_on_fail)\ {\ ocl->name = (void*)ocl_address( ocl->library, #name );\ if( !continue_on_fail && !ocl->name )\ goto fail;\ } /* load the library and functions we require from it */ x264_opencl_function_t *x264_opencl_load_library( void ) { x264_opencl_function_t *ocl; #undef fail #define fail fail0 CHECKED_MALLOCZERO( ocl, sizeof(x264_opencl_function_t) ); #undef fail #define fail fail1 ocl->library = ocl_open; if( !ocl->library ) goto fail; #undef fail #define fail fail2 LOAD_OCL_FUNC( clBuildProgram, 0 ); LOAD_OCL_FUNC( clCreateBuffer, 0 ); LOAD_OCL_FUNC( clCreateCommandQueue, 0 ); LOAD_OCL_FUNC( clCreateContext, 0 ); LOAD_OCL_FUNC( clCreateImage2D, 0 ); LOAD_OCL_FUNC( clCreateKernel, 0 ); LOAD_OCL_FUNC( clCreateProgramWithBinary, 0 ); LOAD_OCL_FUNC( clCreateProgramWithSource, 0 ); LOAD_OCL_FUNC( clEnqueueCopyBuffer, 0 ); LOAD_OCL_FUNC( clEnqueueMapBuffer, 0 ); LOAD_OCL_FUNC( clEnqueueNDRangeKernel, 0 ); LOAD_OCL_FUNC( clEnqueueReadBuffer, 0 ); LOAD_OCL_FUNC( clEnqueueWriteBuffer, 0 ); LOAD_OCL_FUNC( clFinish, 0 ); LOAD_OCL_FUNC( clGetCommandQueueInfo, 0 ); LOAD_OCL_FUNC( clGetDeviceIDs, 0 ); LOAD_OCL_FUNC( clGetDeviceInfo, 0 ); LOAD_OCL_FUNC( clGetKernelWorkGroupInfo, 0 ); LOAD_OCL_FUNC( clGetPlatformIDs, 0 ); LOAD_OCL_FUNC( clGetProgramBuildInfo, 0 ); LOAD_OCL_FUNC( clGetProgramInfo, 0 ); LOAD_OCL_FUNC( clGetSupportedImageFormats, 0 ); LOAD_OCL_FUNC( clReleaseCommandQueue, 0 ); LOAD_OCL_FUNC( clReleaseContext, 0 ); LOAD_OCL_FUNC( clReleaseKernel, 0 ); LOAD_OCL_FUNC( clReleaseMemObject, 0 ); LOAD_OCL_FUNC( clReleaseProgram, 0 ); LOAD_OCL_FUNC( clSetKernelArg, 0 ); return ocl; #undef fail fail2: ocl_close( ocl->library ); fail1: x264_free( ocl ); fail0: return NULL; } void x264_opencl_close_library( x264_opencl_function_t *ocl ) { if( !ocl ) return; ocl_close( ocl->library ); x264_free( ocl ); } /* define from recent cl_ext.h, copied here in case headers are old */ #define CL_DEVICE_SIMD_INSTRUCTION_WIDTH_AMD 0x4042 /* Requires full include path in case of out-of-tree builds */ #include "common/oclobj.h" static int x264_detect_switchable_graphics( void ); /* Try to load the cached compiled program binary, verify the device context is * still valid before reuse */ static cl_program x264_opencl_cache_load( x264_t *h, const char *dev_name, const char *dev_vendor, const char *driver_version ) { /* try to load cached program binary */ FILE *fp = x264_fopen( h->param.psz_clbin_file, "rb" ); if( !fp ) return NULL; x264_opencl_function_t *ocl = h->opencl.ocl; cl_program program = NULL; uint8_t *binary = NULL; fseek( fp, 0, SEEK_END ); size_t size = ftell( fp ); rewind( fp ); CHECKED_MALLOC( binary, size ); if ( fread( binary, 1, size, fp ) != size ) goto fail; const uint8_t *ptr = (const uint8_t*)binary; #define CHECK_STRING( STR )\ do {\ size_t len = strlen( STR );\ if( size <= len || strncmp( (char*)ptr, STR, len ) )\ goto fail;\ else {\ size -= (len+1); ptr += (len+1);\ }\ } while( 0 ) CHECK_STRING( dev_name ); CHECK_STRING( dev_vendor ); CHECK_STRING( driver_version ); CHECK_STRING( x264_opencl_source_hash ); #undef CHECK_STRING cl_int status; program = ocl->clCreateProgramWithBinary( h->opencl.context, 1, &h->opencl.device, &size, &ptr, NULL, &status ); if( status != CL_SUCCESS ) program = NULL; fail: fclose( fp ); x264_free( binary ); return program; } /* Save the compiled program binary to a file for later reuse. Device context * is also saved in the cache file so we do not reuse stale binaries */ static void x264_opencl_cache_save( x264_t *h, cl_program program, const char *dev_name, const char *dev_vendor, const char *driver_version ) { FILE *fp = x264_fopen( h->param.psz_clbin_file, "wb" ); if( !fp ) { x264_log( h, X264_LOG_INFO, "OpenCL: unable to open clbin file for write\n" ); return; } x264_opencl_function_t *ocl = h->opencl.ocl; uint8_t *binary = NULL; size_t size = 0; cl_int status = ocl->clGetProgramInfo( program, CL_PROGRAM_BINARY_SIZES, sizeof(size_t), &size, NULL ); if( status != CL_SUCCESS || !size ) { x264_log( h, X264_LOG_INFO, "OpenCL: Unable to query program binary size, no cache file generated\n" ); goto fail; } CHECKED_MALLOC( binary, size ); status = ocl->clGetProgramInfo( program, CL_PROGRAM_BINARIES, sizeof(uint8_t *), &binary, NULL ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_INFO, "OpenCL: Unable to query program binary, no cache file generated\n" ); goto fail; } fputs( dev_name, fp ); fputc( '\n', fp ); fputs( dev_vendor, fp ); fputc( '\n', fp ); fputs( driver_version, fp ); fputc( '\n', fp ); fputs( x264_opencl_source_hash, fp ); fputc( '\n', fp ); fwrite( binary, 1, size, fp ); fail: fclose( fp ); x264_free( binary ); return; } /* The OpenCL source under common/opencl will be merged into common/oclobj.h by * the Makefile. It defines a x264_opencl_source byte array which we will pass * to clCreateProgramWithSource(). We also attempt to use a cache file for the * compiled binary, stored in the current working folder. */ static cl_program x264_opencl_compile( x264_t *h ) { x264_opencl_function_t *ocl = h->opencl.ocl; cl_program program = NULL; char *build_log = NULL; char dev_name[64]; char dev_vendor[64]; char driver_version[64]; cl_int status; status = ocl->clGetDeviceInfo( h->opencl.device, CL_DEVICE_NAME, sizeof(dev_name), dev_name, NULL ); status |= ocl->clGetDeviceInfo( h->opencl.device, CL_DEVICE_VENDOR, sizeof(dev_vendor), dev_vendor, NULL ); status |= ocl->clGetDeviceInfo( h->opencl.device, CL_DRIVER_VERSION, sizeof(driver_version), driver_version, NULL ); if( status != CL_SUCCESS ) return NULL; // Most AMD GPUs have vector registers int vectorize = !strcmp( dev_vendor, "Advanced Micro Devices, Inc." ); h->opencl.b_device_AMD_SI = 0; if( vectorize ) { /* Disable OpenCL on Intel/AMD switchable graphics devices */ if( x264_detect_switchable_graphics() ) { x264_log( h, X264_LOG_INFO, "OpenCL acceleration disabled, switchable graphics detected\n" ); return NULL; } /* Detect AMD SouthernIsland or newer device (single-width registers) */ cl_uint simdwidth = 4; status = ocl->clGetDeviceInfo( h->opencl.device, CL_DEVICE_SIMD_INSTRUCTION_WIDTH_AMD, sizeof(cl_uint), &simdwidth, NULL ); if( status == CL_SUCCESS && simdwidth == 1 ) { vectorize = 0; h->opencl.b_device_AMD_SI = 1; } } x264_log( h, X264_LOG_INFO, "OpenCL acceleration enabled with %s %s %s\n", dev_vendor, dev_name, h->opencl.b_device_AMD_SI ? "(SI)" : "" ); program = x264_opencl_cache_load( h, dev_name, dev_vendor, driver_version ); if( !program ) { /* clCreateProgramWithSource() requires a pointer variable, you cannot just use &x264_opencl_source */ x264_log( h, X264_LOG_INFO, "Compiling OpenCL kernels...\n" ); const char *strptr = (const char*)x264_opencl_source; size_t size = sizeof(x264_opencl_source); program = ocl->clCreateProgramWithSource( h->opencl.context, 1, &strptr, &size, &status ); if( status != CL_SUCCESS || !program ) { x264_log( h, X264_LOG_WARNING, "OpenCL: unable to create program\n" ); return NULL; } } /* Build the program binary for the OpenCL device */ const char *buildopts = vectorize ? "-DVECTORIZE=1" : ""; status = ocl->clBuildProgram( program, 1, &h->opencl.device, buildopts, NULL, NULL ); if( status == CL_SUCCESS ) { x264_opencl_cache_save( h, program, dev_name, dev_vendor, driver_version ); return program; } /* Compile failure, should not happen with production code. */ size_t build_log_len = 0; status = ocl->clGetProgramBuildInfo( program, h->opencl.device, CL_PROGRAM_BUILD_LOG, 0, NULL, &build_log_len ); if( status != CL_SUCCESS || !build_log_len ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Compilation failed, unable to query build log\n" ); goto fail; } build_log = x264_malloc( build_log_len ); if( !build_log ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Compilation failed, unable to alloc build log\n" ); goto fail; } status = ocl->clGetProgramBuildInfo( program, h->opencl.device, CL_PROGRAM_BUILD_LOG, build_log_len, build_log, NULL ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Compilation failed, unable to get build log\n" ); goto fail; } FILE *log_file = x264_fopen( "x264_kernel_build_log.txt", "w" ); if( !log_file ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Compilation failed, unable to create file x264_kernel_build_log.txt\n" ); goto fail; } fwrite( build_log, 1, build_log_len, log_file ); fclose( log_file ); x264_log( h, X264_LOG_WARNING, "OpenCL: kernel build errors written to x264_kernel_build_log.txt\n" ); fail: x264_free( build_log ); if( program ) ocl->clReleaseProgram( program ); return NULL; } static int x264_opencl_lookahead_alloc( x264_t *h ) { if( !h->param.rc.i_lookahead ) return -1; static const char *kernelnames[] = { "mb_intra_cost_satd_8x8", "sum_intra_cost", "downscale_hpel", "downscale1", "downscale2", "memset_int16", "weightp_scaled_images", "weightp_hpel", "hierarchical_motion", "subpel_refine", "mode_selection", "sum_inter_cost" }; cl_kernel *kernels[] = { &h->opencl.intra_kernel, &h->opencl.rowsum_intra_kernel, &h->opencl.downscale_hpel_kernel, &h->opencl.downscale_kernel1, &h->opencl.downscale_kernel2, &h->opencl.memset_kernel, &h->opencl.weightp_scaled_images_kernel, &h->opencl.weightp_hpel_kernel, &h->opencl.hme_kernel, &h->opencl.subpel_refine_kernel, &h->opencl.mode_select_kernel, &h->opencl.rowsum_inter_kernel }; x264_opencl_function_t *ocl = h->opencl.ocl; cl_int status; h->opencl.lookahead_program = x264_opencl_compile( h ); if( !h->opencl.lookahead_program ) goto fail; for( int i = 0; i < ARRAY_SIZE(kernelnames); i++ ) { *kernels[i] = ocl->clCreateKernel( h->opencl.lookahead_program, kernelnames[i], &status ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to compile kernel '%s' (%d)\n", kernelnames[i], status ); goto fail; } } h->opencl.page_locked_buffer = ocl->clCreateBuffer( h->opencl.context, CL_MEM_WRITE_ONLY|CL_MEM_ALLOC_HOST_PTR, PAGE_LOCKED_BUF_SIZE, NULL, &status ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to allocate page-locked buffer, error '%d'\n", status ); goto fail; } h->opencl.page_locked_ptr = ocl->clEnqueueMapBuffer( h->opencl.queue, h->opencl.page_locked_buffer, CL_TRUE, CL_MAP_READ | CL_MAP_WRITE, 0, PAGE_LOCKED_BUF_SIZE, 0, NULL, NULL, &status ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to map page-locked buffer, error '%d'\n", status ); goto fail; } return 0; fail: x264_opencl_lookahead_delete( h ); return -1; } static void CL_CALLBACK x264_opencl_error_notify( const char *errinfo, const void *private_info, size_t cb, void *user_data ) { /* Any error notification can be assumed to be fatal to the OpenCL context. * We need to stop using it immediately to prevent further damage. */ x264_t *h = (x264_t*)user_data; h->param.b_opencl = 0; h->opencl.b_fatal_error = 1; x264_log( h, X264_LOG_ERROR, "OpenCL: %s\n", errinfo ); x264_log( h, X264_LOG_ERROR, "OpenCL: fatal error, aborting encode\n" ); } int x264_opencl_lookahead_init( x264_t *h ) { x264_opencl_function_t *ocl = h->opencl.ocl; cl_platform_id *platforms = NULL; cl_device_id *devices = NULL; cl_image_format *imageType = NULL; cl_context context = NULL; int ret = -1; cl_uint numPlatforms = 0; cl_int status = ocl->clGetPlatformIDs( 0, NULL, &numPlatforms ); if( status != CL_SUCCESS || !numPlatforms ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to query installed platforms\n" ); goto fail; } platforms = (cl_platform_id*)x264_malloc( sizeof(cl_platform_id) * numPlatforms ); if( !platforms ) { x264_log( h, X264_LOG_WARNING, "OpenCL: malloc of installed platforms buffer failed\n" ); goto fail; } status = ocl->clGetPlatformIDs( numPlatforms, platforms, NULL ); if( status != CL_SUCCESS ) { x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to query installed platforms\n" ); goto fail; } /* Select the first OpenCL platform with a GPU device that supports our * required image (texture) formats */ for( cl_uint i = 0; i < numPlatforms; i++ ) { cl_uint gpu_count = 0; status = ocl->clGetDeviceIDs( platforms[i], CL_DEVICE_TYPE_GPU, 0, NULL, &gpu_count ); if( status != CL_SUCCESS || !gpu_count ) continue; x264_free( devices ); devices = x264_malloc( sizeof(cl_device_id) * gpu_count ); if( !devices ) continue; status = ocl->clGetDeviceIDs( platforms[i], CL_DEVICE_TYPE_GPU, gpu_count, devices, NULL ); if( status != CL_SUCCESS ) continue; /* Find a GPU device that supports our image formats */ for( cl_uint gpu = 0; gpu < gpu_count; gpu++ ) { h->opencl.device = devices[gpu]; /* if the user has specified an exact device ID, skip all other * GPUs. If this device matches, allow it to continue through the * checks for supported images, etc. */ if( h->param.opencl_device_id && devices[gpu] != (cl_device_id)h->param.opencl_device_id ) continue; cl_bool image_support = 0; status = ocl->clGetDeviceInfo( h->opencl.device, CL_DEVICE_IMAGE_SUPPORT, sizeof(cl_bool), &image_support, NULL ); if( status != CL_SUCCESS || !image_support ) continue; if( context ) ocl->clReleaseContext( context ); context = ocl->clCreateContext( NULL, 1, &h->opencl.device, (void*)x264_opencl_error_notify, (void*)h, &status ); if( status != CL_SUCCESS || !context ) continue; cl_uint imagecount = 0; status = ocl->clGetSupportedImageFormats( context, CL_MEM_READ_WRITE, CL_MEM_OBJECT_IMAGE2D, 0, NULL, &imagecount ); if( status != CL_SUCCESS || !imagecount ) continue; x264_free( imageType ); imageType = x264_malloc( sizeof(cl_image_format) * imagecount ); if( !imageType ) continue; status = ocl->clGetSupportedImageFormats( context, CL_MEM_READ_WRITE, CL_MEM_OBJECT_IMAGE2D, imagecount, imageType, NULL ); if( status != CL_SUCCESS ) continue; int b_has_r = 0; int b_has_rgba = 0; for( cl_uint j = 0; j < imagecount; j++ ) { if( imageType[j].image_channel_order == CL_R && imageType[j].image_channel_data_type == CL_UNSIGNED_INT32 ) b_has_r = 1; else if( imageType[j].image_channel_order == CL_RGBA && imageType[j].image_channel_data_type == CL_UNSIGNED_INT8 ) b_has_rgba = 1; } if( !b_has_r || !b_has_rgba ) { char dev_name[64]; status = ocl->clGetDeviceInfo( h->opencl.device, CL_DEVICE_NAME, sizeof(dev_name), dev_name, NULL ); if( status == CL_SUCCESS ) { /* emit warning if we are discarding the user's explicit choice */ int level = h->param.opencl_device_id ? X264_LOG_WARNING : X264_LOG_DEBUG; x264_log( h, level, "OpenCL: %s does not support required image formats\n", dev_name ); } continue; } /* user selection of GPU device, skip N first matches */ if( h->param.i_opencl_device ) { h->param.i_opencl_device--; continue; } h->opencl.queue = ocl->clCreateCommandQueue( context, h->opencl.device, 0, &status ); if( status != CL_SUCCESS || !h->opencl.queue ) continue; h->opencl.context = context; context = NULL; ret = 0; break; } if( !ret ) break; } if( !h->param.psz_clbin_file ) h->param.psz_clbin_file = "x264_lookahead.clbin"; if( ret ) x264_log( h, X264_LOG_WARNING, "OpenCL: Unable to find a compatible device\n" ); else ret = x264_opencl_lookahead_alloc( h ); fail: if( context ) ocl->clReleaseContext( context ); x264_free( imageType ); x264_free( devices ); x264_free( platforms ); return ret; } static void x264_opencl_lookahead_free( x264_t *h ) { x264_opencl_function_t *ocl = h->opencl.ocl; #define RELEASE( a, f ) do { if( a ) { ocl->f( a ); a = NULL; } } while( 0 ) RELEASE( h->opencl.downscale_hpel_kernel, clReleaseKernel ); RELEASE( h->opencl.downscale_kernel1, clReleaseKernel ); RELEASE( h->opencl.downscale_kernel2, clReleaseKernel ); RELEASE( h->opencl.weightp_hpel_kernel, clReleaseKernel ); RELEASE( h->opencl.weightp_scaled_images_kernel, clReleaseKernel ); RELEASE( h->opencl.memset_kernel, clReleaseKernel ); RELEASE( h->opencl.intra_kernel, clReleaseKernel ); RELEASE( h->opencl.rowsum_intra_kernel, clReleaseKernel ); RELEASE( h->opencl.hme_kernel, clReleaseKernel ); RELEASE( h->opencl.subpel_refine_kernel, clReleaseKernel ); RELEASE( h->opencl.mode_select_kernel, clReleaseKernel ); RELEASE( h->opencl.rowsum_inter_kernel, clReleaseKernel ); RELEASE( h->opencl.lookahead_program, clReleaseProgram ); RELEASE( h->opencl.page_locked_buffer, clReleaseMemObject ); RELEASE( h->opencl.luma_16x16_image[0], clReleaseMemObject ); RELEASE( h->opencl.luma_16x16_image[1], clReleaseMemObject ); for( int i = 0; i < NUM_IMAGE_SCALES; i++ ) RELEASE( h->opencl.weighted_scaled_images[i], clReleaseMemObject ); RELEASE( h->opencl.weighted_luma_hpel, clReleaseMemObject ); RELEASE( h->opencl.row_satds[0], clReleaseMemObject ); RELEASE( h->opencl.row_satds[1], clReleaseMemObject ); RELEASE( h->opencl.mv_buffers[0], clReleaseMemObject ); RELEASE( h->opencl.mv_buffers[1], clReleaseMemObject ); RELEASE( h->opencl.lowres_mv_costs, clReleaseMemObject ); RELEASE( h->opencl.mvp_buffer, clReleaseMemObject ); RELEASE( h->opencl.lowres_costs[0], clReleaseMemObject ); RELEASE( h->opencl.lowres_costs[1], clReleaseMemObject ); RELEASE( h->opencl.frame_stats[0], clReleaseMemObject ); RELEASE( h->opencl.frame_stats[1], clReleaseMemObject ); #undef RELEASE } void x264_opencl_lookahead_delete( x264_t *h ) { x264_opencl_function_t *ocl = h->opencl.ocl; if( !ocl ) return; if( h->opencl.queue ) ocl->clFinish( h->opencl.queue ); x264_opencl_lookahead_free( h ); if( h->opencl.queue ) { ocl->clReleaseCommandQueue( h->opencl.queue ); h->opencl.queue = NULL; } if( h->opencl.context ) { ocl->clReleaseContext( h->opencl.context ); h->opencl.context = NULL; } } void x264_opencl_frame_delete( x264_frame_t *frame ) { x264_opencl_function_t *ocl = frame->opencl.ocl; if( !ocl ) return; #define RELEASEBUF(mem) do { if( mem ) { ocl->clReleaseMemObject( mem ); mem = NULL; } } while( 0 ) for( int j = 0; j < NUM_IMAGE_SCALES; j++ ) RELEASEBUF( frame->opencl.scaled_image2Ds[j] ); RELEASEBUF( frame->opencl.luma_hpel ); RELEASEBUF( frame->opencl.inv_qscale_factor ); RELEASEBUF( frame->opencl.intra_cost ); RELEASEBUF( frame->opencl.lowres_mvs0 ); RELEASEBUF( frame->opencl.lowres_mvs1 ); RELEASEBUF( frame->opencl.lowres_mv_costs0 ); RELEASEBUF( frame->opencl.lowres_mv_costs1 ); #undef RELEASEBUF } /* OpenCL misbehaves on hybrid laptops with Intel iGPU and AMD dGPU, so * we consult AMD's ADL interface to detect this situation and disable * OpenCL on these machines (Linux and Windows) */ #ifdef _WIN32 #define ADL_API_CALL #define ADL_CALLBACK __stdcall #define adl_close FreeLibrary #define adl_address GetProcAddress #else #define ADL_API_CALL #define ADL_CALLBACK #define adl_close dlclose #define adl_address dlsym #endif typedef void* ( ADL_CALLBACK *ADL_MAIN_MALLOC_CALLBACK )( int ); typedef int ( ADL_API_CALL *ADL_MAIN_CONTROL_CREATE )( ADL_MAIN_MALLOC_CALLBACK, int ); typedef int ( ADL_API_CALL *ADL_ADAPTER_NUMBEROFADAPTERS_GET )( int * ); typedef int ( ADL_API_CALL *ADL_POWERXPRESS_SCHEME_GET )( int, int *, int *, int * ); typedef int ( ADL_API_CALL *ADL_MAIN_CONTROL_DESTROY )( void ); #define ADL_OK 0 #define ADL_PX_SCHEME_DYNAMIC 2 static void* ADL_CALLBACK adl_malloc_wrapper( int iSize ) { return x264_malloc( iSize ); } static int x264_detect_switchable_graphics( void ) { void *hDLL; ADL_MAIN_CONTROL_CREATE ADL_Main_Control_Create; ADL_ADAPTER_NUMBEROFADAPTERS_GET ADL_Adapter_NumberOfAdapters_Get; ADL_POWERXPRESS_SCHEME_GET ADL_PowerXpress_Scheme_Get; ADL_MAIN_CONTROL_DESTROY ADL_Main_Control_Destroy; int ret = 0; #ifdef _WIN32 hDLL = LoadLibraryW( L"atiadlxx.dll" ); if( !hDLL ) hDLL = LoadLibraryW( L"atiadlxy.dll" ); #else hDLL = dlopen( "libatiadlxx.so", RTLD_LAZY|RTLD_GLOBAL ); #endif if( !hDLL ) goto fail0; ADL_Main_Control_Create = (ADL_MAIN_CONTROL_CREATE)adl_address(hDLL, "ADL_Main_Control_Create"); ADL_Main_Control_Destroy = (ADL_MAIN_CONTROL_DESTROY)adl_address(hDLL, "ADL_Main_Control_Destroy"); ADL_Adapter_NumberOfAdapters_Get = (ADL_ADAPTER_NUMBEROFADAPTERS_GET)adl_address(hDLL, "ADL_Adapter_NumberOfAdapters_Get"); ADL_PowerXpress_Scheme_Get = (ADL_POWERXPRESS_SCHEME_GET)adl_address(hDLL, "ADL_PowerXpress_Scheme_Get"); if( !ADL_Main_Control_Create || !ADL_Main_Control_Destroy || !ADL_Adapter_NumberOfAdapters_Get || !ADL_PowerXpress_Scheme_Get ) goto fail1; if( ADL_OK != ADL_Main_Control_Create( adl_malloc_wrapper, 1 ) ) goto fail1; int numAdapters = 0; if( ADL_OK != ADL_Adapter_NumberOfAdapters_Get( &numAdapters ) ) goto fail2; for( int i = 0; i < numAdapters; i++ ) { int PXSchemeRange, PXSchemeCurrentState, PXSchemeDefaultState; if( ADL_OK != ADL_PowerXpress_Scheme_Get( i, &PXSchemeRange, &PXSchemeCurrentState, &PXSchemeDefaultState) ) break; if( PXSchemeRange >= ADL_PX_SCHEME_DYNAMIC ) { ret = 1; break; } } fail2: ADL_Main_Control_Destroy(); fail1: adl_close( hDLL ); fail0: return ret; }