/* * Copyright (c) 2008-2015 NVIDIA Corporation * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #define __STDC_FORMAT_MACROS #define __STDC_LIMIT_MACROS #include #include #include #include #include #include #include "../src/util.h" #define _VDP_TRACE_ARSIZE(_x_) ((sizeof (_x_)) / (sizeof ((_x_)[0]))) #if DEBUG static void _vdp_trace_error_breakpoint(char const * file, int line, char const * function) { fprintf(stderr, "VDPAU trace: Error detected at %s:%d %s()\n", file, line, function); } #define _VDP_TRACE_ERROR_BREAKPOINT() _vdp_trace_error_breakpoint(__FILE__, __LINE__, __FUNCTION__) #else #define _VDP_TRACE_ERROR_BREAKPOINT() #endif #define LEVEL_PARAMS 1 #define LEVEL_DATA 2 struct _VdpCapData { void * dll; int level; FILE * fp; VdpDevice vdp_device; VdpGetProcAddress * vdp_get_proc_address; VdpGetErrorString * vdp_get_error_string; VdpGetApiVersion * vdp_get_api_version; VdpGetInformationString * vdp_get_information_string; VdpDeviceDestroy * vdp_device_destroy; VdpGenerateCSCMatrix * vdp_generate_csc_matrix; VdpVideoSurfaceQueryCapabilities * vdp_video_surface_query_capabilities; VdpVideoSurfaceQueryGetPutBitsYCbCrCapabilities * vdp_video_surface_query_get_put_bits_y_cb_cr_capabilities; VdpVideoSurfaceCreate * vdp_video_surface_create; VdpVideoSurfaceDestroy * vdp_video_surface_destroy; VdpVideoSurfaceGetParameters * vdp_video_surface_get_parameters; VdpVideoSurfaceGetBitsYCbCr * vdp_video_surface_get_bits_y_cb_cr; VdpVideoSurfacePutBitsYCbCr * vdp_video_surface_put_bits_y_cb_cr; VdpOutputSurfaceQueryCapabilities * vdp_output_surface_query_capabilities; VdpOutputSurfaceQueryGetPutBitsNativeCapabilities * vdp_output_surface_query_get_put_bits_native_capabilities; VdpOutputSurfaceQueryPutBitsIndexedCapabilities * vdp_output_surface_query_put_bits_indexed_capabilities; VdpOutputSurfaceQueryPutBitsYCbCrCapabilities * vdp_output_surface_query_put_bits_y_cb_cr_capabilities; VdpOutputSurfaceCreate * vdp_output_surface_create; VdpOutputSurfaceDestroy * vdp_output_surface_destroy; VdpOutputSurfaceGetParameters * vdp_output_surface_get_parameters; VdpOutputSurfaceGetBitsNative * vdp_output_surface_get_bits_native; VdpOutputSurfacePutBitsNative * vdp_output_surface_put_bits_native; VdpOutputSurfacePutBitsIndexed * vdp_output_surface_put_bits_indexed; VdpOutputSurfacePutBitsYCbCr * vdp_output_surface_put_bits_y_cb_cr; VdpBitmapSurfaceQueryCapabilities * vdp_bitmap_surface_query_capabilities; VdpBitmapSurfaceCreate * vdp_bitmap_surface_create; VdpBitmapSurfaceDestroy * vdp_bitmap_surface_destroy; VdpBitmapSurfaceGetParameters * vdp_bitmap_surface_get_parameters; VdpBitmapSurfacePutBitsNative * vdp_bitmap_surface_put_bits_native; VdpOutputSurfaceRenderOutputSurface * vdp_output_surface_render_output_surface; VdpOutputSurfaceRenderBitmapSurface * vdp_output_surface_render_bitmap_surface; VdpDecoderQueryCapabilities * vdp_decoder_query_capabilities; VdpDecoderCreate * vdp_decoder_create; VdpDecoderDestroy * vdp_decoder_destroy; VdpDecoderGetParameters * vdp_decoder_get_parameters; VdpDecoderRender * vdp_decoder_render; VdpVideoMixerQueryFeatureSupport * vdp_video_mixer_query_feature_support; VdpVideoMixerQueryParameterSupport * vdp_video_mixer_query_parameter_support; VdpVideoMixerQueryAttributeSupport * vdp_video_mixer_query_attribute_support; VdpVideoMixerQueryParameterValueRange * vdp_video_mixer_query_parameter_value_range; VdpVideoMixerQueryAttributeValueRange * vdp_video_mixer_query_attribute_value_range; VdpVideoMixerCreate * vdp_video_mixer_create; VdpVideoMixerSetFeatureEnables * vdp_video_mixer_set_feature_enables; VdpVideoMixerSetAttributeValues * vdp_video_mixer_set_attribute_values; VdpVideoMixerGetFeatureSupport * vdp_video_mixer_get_feature_support; VdpVideoMixerGetFeatureEnables * vdp_video_mixer_get_feature_enables; VdpVideoMixerGetParameterValues * vdp_video_mixer_get_parameter_values; VdpVideoMixerGetAttributeValues * vdp_video_mixer_get_attribute_values; VdpVideoMixerDestroy * vdp_video_mixer_destroy; VdpVideoMixerRender * vdp_video_mixer_render; VdpPresentationQueueTargetDestroy * vdp_presentation_queue_target_destroy; VdpPresentationQueueCreate * vdp_presentation_queue_create; VdpPresentationQueueDestroy * vdp_presentation_queue_destroy; VdpPresentationQueueSetBackgroundColor * vdp_presentation_queue_set_background_color; VdpPresentationQueueGetBackgroundColor * vdp_presentation_queue_get_background_color; VdpPresentationQueueGetTime * vdp_presentation_queue_get_time; VdpPresentationQueueDisplay * vdp_presentation_queue_display; VdpPresentationQueueBlockUntilSurfaceIdle * vdp_presentation_queue_block_until_surface_idle; VdpPresentationQueueQuerySurfaceStatus * vdp_presentation_queue_query_surface_status; VdpPreemptionCallbackRegister * vdp_preemption_callback_register; VdpPresentationQueueTargetCreateX11 * vdp_presentation_queue_target_create_x11; }; static _VdpCapData _vdp_cap_data; template static inline T const delta(T const & a, T const & b) { if (a < b) { return b - a; } else { return a - b; } } static void _vdp_cap_dump_procamp(VdpProcamp * procamp) { if (!procamp) { fprintf(_vdp_cap_data.fp, "NULL"); return; } fprintf( _vdp_cap_data.fp, "{(ver=%d)%s %f, %f, %f, %f}", procamp->struct_version, (procamp->struct_version > 0) ? "(unsupported; cannot dump all fields)" : "", procamp->brightness, procamp->contrast, procamp->saturation, procamp->hue ); } static void _vdp_cap_dump_color( VdpColor const * color ) { if (!color) { fputs("NULL", _vdp_cap_data.fp); return; } fprintf( _vdp_cap_data.fp, "{%f, %f, %f, %f}", color->red, color->green, color->blue, color->alpha ); } static void _vdp_cap_dump_rect( VdpRect const * rect ) { if (!rect) { fprintf(_vdp_cap_data.fp, "NULL"); return; } fprintf( _vdp_cap_data.fp, "{%u, %u, %u, %u}", rect->x0, rect->y0, rect->x1, rect->y1 ); } static void _vdp_cap_dump_csc_matrix( VdpCSCMatrix const * matrix ) { if (!matrix) { fprintf(_vdp_cap_data.fp, "NULL"); return; } fprintf( _vdp_cap_data.fp, "{{%f, %f, %f, %f}, {%f, %f, %f, %f}, {%f, %f, %f, %f}}", (*matrix)[0][0], (*matrix)[0][1], (*matrix)[0][2], (*matrix)[0][3], (*matrix)[1][0], (*matrix)[1][1], (*matrix)[1][2], (*matrix)[1][3], (*matrix)[2][0], (*matrix)[2][1], (*matrix)[2][2], (*matrix)[2][3] ); } static void _vdp_cap_dump_blend_state( VdpOutputSurfaceRenderBlendState const * blend_state ) { if (!blend_state) { fprintf(_vdp_cap_data.fp, "NULL"); return; } fprintf( _vdp_cap_data.fp, "{(ver=%d)%s %u, %u, %u, %u, %u, %u, ", blend_state->struct_version, (blend_state->struct_version > 0) ? "(unsupported; cannot dump all fields)" : "", blend_state->blend_factor_source_color, blend_state->blend_factor_destination_color, blend_state->blend_factor_source_alpha, blend_state->blend_factor_destination_alpha, blend_state->blend_equation_color, blend_state->blend_equation_alpha ); _vdp_cap_dump_color(&(blend_state->blend_constant)); fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_picture_info( VdpDecoderProfile profile, VdpPictureInfo const * picture_info ) { switch (profile) { case VDP_DECODER_PROFILE_MPEG1: case VDP_DECODER_PROFILE_MPEG2_SIMPLE: case VDP_DECODER_PROFILE_MPEG2_MAIN: { VdpPictureInfoMPEG1Or2 const * picture_info_mpeg1or2 = (VdpPictureInfoMPEG1Or2 const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {{%u, %u}, {%u, %u}}, {", picture_info_mpeg1or2->forward_reference, picture_info_mpeg1or2->backward_reference, picture_info_mpeg1or2->slice_count, (uint32_t)picture_info_mpeg1or2->picture_structure, (uint32_t)picture_info_mpeg1or2->picture_coding_type, (uint32_t)picture_info_mpeg1or2->intra_dc_precision, (uint32_t)picture_info_mpeg1or2->frame_pred_frame_dct, (uint32_t)picture_info_mpeg1or2->concealment_motion_vectors, (uint32_t)picture_info_mpeg1or2->intra_vlc_format, (uint32_t)picture_info_mpeg1or2->alternate_scan, (uint32_t)picture_info_mpeg1or2->q_scale_type, (uint32_t)picture_info_mpeg1or2->top_field_first, (uint32_t)picture_info_mpeg1or2->full_pel_forward_vector, (uint32_t)picture_info_mpeg1or2->full_pel_backward_vector, (uint32_t)picture_info_mpeg1or2->f_code[0][0], (uint32_t)picture_info_mpeg1or2->f_code[0][1], (uint32_t)picture_info_mpeg1or2->f_code[1][0], (uint32_t)picture_info_mpeg1or2->f_code[1][1] ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_mpeg1or2->intra_quantizer_matrix); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_mpeg1or2->intra_quantizer_matrix[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_mpeg1or2->non_intra_quantizer_matrix); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_mpeg1or2->non_intra_quantizer_matrix[i] ); } fputs("}}", _vdp_cap_data.fp); } break; case VDP_DECODER_PROFILE_H264_BASELINE: case VDP_DECODER_PROFILE_H264_MAIN: case VDP_DECODER_PROFILE_H264_HIGH: { VdpPictureInfoH264 const * picture_info_h264 = (VdpPictureInfoH264 const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, {%d, %d}, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %d, %d, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", picture_info_h264->slice_count, picture_info_h264->field_order_cnt[0], picture_info_h264->field_order_cnt[1], (int32_t)picture_info_h264->is_reference, (uint32_t)picture_info_h264->frame_num, (uint32_t)picture_info_h264->field_pic_flag, (uint32_t)picture_info_h264->bottom_field_flag, (uint32_t)picture_info_h264->num_ref_frames, (uint32_t)picture_info_h264->mb_adaptive_frame_field_flag, (uint32_t)picture_info_h264->constrained_intra_pred_flag, (uint32_t)picture_info_h264->weighted_pred_flag, (uint32_t)picture_info_h264->weighted_bipred_idc, (uint32_t)picture_info_h264->frame_mbs_only_flag, (uint32_t)picture_info_h264->transform_8x8_mode_flag, (int32_t)picture_info_h264->chroma_qp_index_offset, (int32_t)picture_info_h264->second_chroma_qp_index_offset, (int32_t)picture_info_h264->pic_init_qp_minus26, (uint32_t)picture_info_h264->num_ref_idx_l0_active_minus1, (uint32_t)picture_info_h264->num_ref_idx_l1_active_minus1, (uint32_t)picture_info_h264->log2_max_frame_num_minus4, (uint32_t)picture_info_h264->pic_order_cnt_type, (uint32_t)picture_info_h264->log2_max_pic_order_cnt_lsb_minus4, (uint32_t)picture_info_h264->delta_pic_order_always_zero_flag, (uint32_t)picture_info_h264->direct_8x8_inference_flag, (uint32_t)picture_info_h264->entropy_coding_mode_flag, (uint32_t)picture_info_h264->pic_order_present_flag, (uint32_t)picture_info_h264->deblocking_filter_control_present_flag, (uint32_t)picture_info_h264->redundant_pic_cnt_present_flag ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_h264->scaling_lists_4x4); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_h264->scaling_lists_4x4[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_h264->scaling_lists_4x4[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_h264->scaling_lists_8x8); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_h264->scaling_lists_8x8[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_h264->scaling_lists_8x8[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_h264->referenceFrames); ++i) { VdpReferenceFrameH264 const * rf = &(picture_info_h264->referenceFrames[i]); fprintf( _vdp_cap_data.fp, "%s{%u, %d, %d, %d, {%d, %d}, %u}", (i == 0) ? "" : ", ", rf->surface, (int32_t)rf->is_long_term, (int32_t)rf->top_is_reference, (int32_t)rf->bottom_is_reference, (int32_t)rf->field_order_cnt[0], (int32_t)rf->field_order_cnt[1], (uint32_t)rf->frame_idx ); } fputs("}}", _vdp_cap_data.fp); } break; case VDP_DECODER_PROFILE_VC1_SIMPLE: case VDP_DECODER_PROFILE_VC1_MAIN: case VDP_DECODER_PROFILE_VC1_ADVANCED: { VdpPictureInfoVC1 const * picture_info_vc1 = (VdpPictureInfoVC1 const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u}", picture_info_vc1->forward_reference, picture_info_vc1->backward_reference, picture_info_vc1->slice_count, (uint32_t)picture_info_vc1->picture_type, (uint32_t)picture_info_vc1->frame_coding_mode, (uint32_t)picture_info_vc1->postprocflag, (uint32_t)picture_info_vc1->pulldown, (uint32_t)picture_info_vc1->interlace, (uint32_t)picture_info_vc1->tfcntrflag, (uint32_t)picture_info_vc1->finterpflag, (uint32_t)picture_info_vc1->psf, (uint32_t)picture_info_vc1->dquant, (uint32_t)picture_info_vc1->panscan_flag, (uint32_t)picture_info_vc1->refdist_flag, (uint32_t)picture_info_vc1->quantizer, (uint32_t)picture_info_vc1->extended_mv, (uint32_t)picture_info_vc1->extended_dmv, (uint32_t)picture_info_vc1->overlap, (uint32_t)picture_info_vc1->vstransform, (uint32_t)picture_info_vc1->loopfilter, (uint32_t)picture_info_vc1->fastuvmc, (uint32_t)picture_info_vc1->range_mapy_flag, (uint32_t)picture_info_vc1->range_mapy, (uint32_t)picture_info_vc1->range_mapuv_flag, (uint32_t)picture_info_vc1->range_mapuv, (uint32_t)picture_info_vc1->multires, (uint32_t)picture_info_vc1->syncmarker, (uint32_t)picture_info_vc1->rangered, (uint32_t)picture_info_vc1->maxbframes, (uint32_t)picture_info_vc1->deblockEnable, (uint32_t)picture_info_vc1->pquant ); } break; case VDP_DECODER_PROFILE_MPEG4_PART2_SP: case VDP_DECODER_PROFILE_MPEG4_PART2_ASP: case VDP_DECODER_PROFILE_DIVX4_QMOBILE: case VDP_DECODER_PROFILE_DIVX4_MOBILE: case VDP_DECODER_PROFILE_DIVX4_HOME_THEATER: case VDP_DECODER_PROFILE_DIVX4_HD_1080P: case VDP_DECODER_PROFILE_DIVX5_QMOBILE: case VDP_DECODER_PROFILE_DIVX5_MOBILE: case VDP_DECODER_PROFILE_DIVX5_HOME_THEATER: case VDP_DECODER_PROFILE_DIVX5_HD_1080P: { VdpPictureInfoMPEG4Part2 const * picture_info_mpeg4 = (VdpPictureInfoMPEG4Part2 const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, %u, {%d, %d}, {%d, %d}, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", picture_info_mpeg4->forward_reference, picture_info_mpeg4->backward_reference, (int32_t)picture_info_mpeg4->trd[0], (int32_t)picture_info_mpeg4->trd[1], (int32_t)picture_info_mpeg4->trb[0], (int32_t)picture_info_mpeg4->trb[1], (uint32_t)picture_info_mpeg4->vop_time_increment_resolution, (uint32_t)picture_info_mpeg4->vop_coding_type, (uint32_t)picture_info_mpeg4->vop_fcode_forward, (uint32_t)picture_info_mpeg4->vop_fcode_backward, (uint32_t)picture_info_mpeg4->resync_marker_disable, (uint32_t)picture_info_mpeg4->interlaced, (uint32_t)picture_info_mpeg4->quant_type, (uint32_t)picture_info_mpeg4->quarter_sample, (uint32_t)picture_info_mpeg4->short_video_header, (uint32_t)picture_info_mpeg4->rounding_control, (uint32_t)picture_info_mpeg4->alternate_vertical_scan_flag, (uint32_t)picture_info_mpeg4->top_field_first ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_mpeg4->intra_quantizer_matrix); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_mpeg4->intra_quantizer_matrix[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_mpeg4->non_intra_quantizer_matrix); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_mpeg4->non_intra_quantizer_matrix[i] ); } fputs("}}", _vdp_cap_data.fp); } break; case VDP_DECODER_PROFILE_HEVC_MAIN: case VDP_DECODER_PROFILE_HEVC_MAIN_10: case VDP_DECODER_PROFILE_HEVC_MAIN_STILL: { VdpPictureInfoHEVC const * picture_info_hevc = (VdpPictureInfoHEVC const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_hevc->chroma_format_idc, (uint32_t)picture_info_hevc->separate_colour_plane_flag, (uint32_t)picture_info_hevc->pic_width_in_luma_samples, (uint32_t)picture_info_hevc->pic_height_in_luma_samples, (uint32_t)picture_info_hevc->bit_depth_luma_minus8, (uint32_t)picture_info_hevc->bit_depth_chroma_minus8, (uint32_t)picture_info_hevc->log2_max_pic_order_cnt_lsb_minus4, (uint32_t)picture_info_hevc->sps_max_dec_pic_buffering_minus1, (uint32_t)picture_info_hevc->log2_min_luma_coding_block_size_minus3, (uint32_t)picture_info_hevc->log2_diff_max_min_luma_coding_block_size, (uint32_t)picture_info_hevc->log2_min_transform_block_size_minus2, (uint32_t)picture_info_hevc->log2_diff_max_min_transform_block_size, (uint32_t)picture_info_hevc->max_transform_hierarchy_depth_inter, (uint32_t)picture_info_hevc->max_transform_hierarchy_depth_intra, (uint32_t)picture_info_hevc->scaling_list_enabled_flag ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList4x4); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList4x4[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList4x4[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList8x8); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList8x8[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList8x8[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList16x16); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList16x16[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList16x16[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList32x32); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList32x32[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList32x32[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingListDCCoeff16x16); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingListDCCoeff16x16[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingListDCCoeff32x32); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingListDCCoeff32x32[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %d, %u, %u, %u, %u, %d, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_hevc->amp_enabled_flag, (uint32_t)picture_info_hevc->sample_adaptive_offset_enabled_flag, (uint32_t)picture_info_hevc->pcm_enabled_flag, (uint32_t)picture_info_hevc->pcm_sample_bit_depth_luma_minus1, (uint32_t)picture_info_hevc->pcm_sample_bit_depth_chroma_minus1, (uint32_t)picture_info_hevc->log2_min_pcm_luma_coding_block_size_minus3, (uint32_t)picture_info_hevc->log2_diff_max_min_pcm_luma_coding_block_size, (uint32_t)picture_info_hevc->pcm_loop_filter_disabled_flag, (uint32_t)picture_info_hevc->num_short_term_ref_pic_sets, (uint32_t)picture_info_hevc->long_term_ref_pics_present_flag, (uint32_t)picture_info_hevc->num_long_term_ref_pics_sps, (uint32_t)picture_info_hevc->sps_temporal_mvp_enabled_flag, (uint32_t)picture_info_hevc->strong_intra_smoothing_enabled_flag, (uint32_t)picture_info_hevc->dependent_slice_segments_enabled_flag, (uint32_t)picture_info_hevc->output_flag_present_flag, (uint32_t)picture_info_hevc->num_extra_slice_header_bits, (uint32_t)picture_info_hevc->sign_data_hiding_enabled_flag, (uint32_t)picture_info_hevc->cabac_init_present_flag, (uint32_t)picture_info_hevc->num_ref_idx_l0_default_active_minus1, (uint32_t)picture_info_hevc->num_ref_idx_l1_default_active_minus1, (int32_t)picture_info_hevc->init_qp_minus26, (uint32_t)picture_info_hevc->constrained_intra_pred_flag, (uint32_t)picture_info_hevc->transform_skip_enabled_flag, (uint32_t)picture_info_hevc->cu_qp_delta_enabled_flag, (uint32_t)picture_info_hevc->diff_cu_qp_delta_depth, (int32_t)picture_info_hevc->pps_cb_qp_offset, (int32_t)picture_info_hevc->pps_cr_qp_offset, (uint32_t)picture_info_hevc->pps_slice_chroma_qp_offsets_present_flag, (uint32_t)picture_info_hevc->weighted_pred_flag, (uint32_t)picture_info_hevc->weighted_bipred_flag, (uint32_t)picture_info_hevc->transquant_bypass_enabled_flag, (uint32_t)picture_info_hevc->tiles_enabled_flag, (uint32_t)picture_info_hevc->entropy_coding_sync_enabled_flag, (uint32_t)picture_info_hevc->num_tile_columns_minus1, (uint32_t)picture_info_hevc->num_tile_rows_minus1, (uint32_t)picture_info_hevc->uniform_spacing_flag ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->column_width_minus1); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->column_width_minus1[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->row_height_minus1); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->row_height_minus1[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %d, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %d, {", (uint32_t)picture_info_hevc->loop_filter_across_tiles_enabled_flag, (uint32_t)picture_info_hevc->pps_loop_filter_across_slices_enabled_flag, (uint32_t)picture_info_hevc->deblocking_filter_control_present_flag, (uint32_t)picture_info_hevc->deblocking_filter_override_enabled_flag, (uint32_t)picture_info_hevc->pps_deblocking_filter_disabled_flag, (int32_t)picture_info_hevc->pps_beta_offset_div2, (int32_t)picture_info_hevc->pps_tc_offset_div2, (uint32_t)picture_info_hevc->lists_modification_present_flag, (uint32_t)picture_info_hevc->log2_parallel_merge_level_minus2, (uint32_t)picture_info_hevc->slice_segment_header_extension_present_flag, (uint32_t)picture_info_hevc->IDRPicFlag, (uint32_t)picture_info_hevc->RAPPicFlag, (uint32_t)picture_info_hevc->CurrRpsIdx, (uint32_t)picture_info_hevc->NumPocTotalCurr, (uint32_t)picture_info_hevc->NumDeltaPocsOfRefRpsIdx, (uint32_t)picture_info_hevc->NumShortTermPictureSliceHeaderBits, (uint32_t)picture_info_hevc->NumLongTermPictureSliceHeaderBits, (int32_t)picture_info_hevc->CurrPicOrderCntVal ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPics); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPics[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->PicOrderCntVal); ++i) { fprintf( _vdp_cap_data.fp, "%s%d", (i == 0) ? "" : ", ", (int32_t)picture_info_hevc->PicOrderCntVal[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->IsLongTerm); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->IsLongTerm[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, {", (uint32_t)picture_info_hevc->NumPocStCurrBefore, (uint32_t)picture_info_hevc->NumPocStCurrAfter, (uint32_t)picture_info_hevc->NumPocLtCurr ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetStCurrBefore); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetStCurrBefore[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetStCurrAfter); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetStCurrAfter[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetLtCurr); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetLtCurr[i] ); } fputs("}}", _vdp_cap_data.fp); } break; case VDP_DECODER_PROFILE_HEVC_MAIN_12: case VDP_DECODER_PROFILE_HEVC_MAIN_444: case VDP_DECODER_PROFILE_HEVC_MAIN_444_10: case VDP_DECODER_PROFILE_HEVC_MAIN_444_12: { VdpPictureInfoHEVC const * picture_info_hevc = (VdpPictureInfoHEVC const *)picture_info; VdpPictureInfoHEVCRangeExt const * picture_info_hevc_rxt = (VdpPictureInfoHEVCRangeExt const *)picture_info; fprintf( _vdp_cap_data.fp, "{{%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_hevc->chroma_format_idc, (uint32_t)picture_info_hevc->separate_colour_plane_flag, (uint32_t)picture_info_hevc->pic_width_in_luma_samples, (uint32_t)picture_info_hevc->pic_height_in_luma_samples, (uint32_t)picture_info_hevc->bit_depth_luma_minus8, (uint32_t)picture_info_hevc->bit_depth_chroma_minus8, (uint32_t)picture_info_hevc->log2_max_pic_order_cnt_lsb_minus4, (uint32_t)picture_info_hevc->sps_max_dec_pic_buffering_minus1, (uint32_t)picture_info_hevc->log2_min_luma_coding_block_size_minus3, (uint32_t)picture_info_hevc->log2_diff_max_min_luma_coding_block_size, (uint32_t)picture_info_hevc->log2_min_transform_block_size_minus2, (uint32_t)picture_info_hevc->log2_diff_max_min_transform_block_size, (uint32_t)picture_info_hevc->max_transform_hierarchy_depth_inter, (uint32_t)picture_info_hevc->max_transform_hierarchy_depth_intra, (uint32_t)picture_info_hevc->scaling_list_enabled_flag ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList4x4); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList4x4[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList4x4[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList8x8); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList8x8[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList8x8[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList16x16); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList16x16[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList16x16[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList32x32); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingList32x32[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingList32x32[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingListDCCoeff16x16); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingListDCCoeff16x16[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->ScalingListDCCoeff32x32); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->ScalingListDCCoeff32x32[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %d, %u, %u, %u, %u, %d, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_hevc->amp_enabled_flag, (uint32_t)picture_info_hevc->sample_adaptive_offset_enabled_flag, (uint32_t)picture_info_hevc->pcm_enabled_flag, (uint32_t)picture_info_hevc->pcm_sample_bit_depth_luma_minus1, (uint32_t)picture_info_hevc->pcm_sample_bit_depth_chroma_minus1, (uint32_t)picture_info_hevc->log2_min_pcm_luma_coding_block_size_minus3, (uint32_t)picture_info_hevc->log2_diff_max_min_pcm_luma_coding_block_size, (uint32_t)picture_info_hevc->pcm_loop_filter_disabled_flag, (uint32_t)picture_info_hevc->num_short_term_ref_pic_sets, (uint32_t)picture_info_hevc->long_term_ref_pics_present_flag, (uint32_t)picture_info_hevc->num_long_term_ref_pics_sps, (uint32_t)picture_info_hevc->sps_temporal_mvp_enabled_flag, (uint32_t)picture_info_hevc->strong_intra_smoothing_enabled_flag, (uint32_t)picture_info_hevc->dependent_slice_segments_enabled_flag, (uint32_t)picture_info_hevc->output_flag_present_flag, (uint32_t)picture_info_hevc->num_extra_slice_header_bits, (uint32_t)picture_info_hevc->sign_data_hiding_enabled_flag, (uint32_t)picture_info_hevc->cabac_init_present_flag, (uint32_t)picture_info_hevc->num_ref_idx_l0_default_active_minus1, (uint32_t)picture_info_hevc->num_ref_idx_l1_default_active_minus1, (int32_t)picture_info_hevc->init_qp_minus26, (uint32_t)picture_info_hevc->constrained_intra_pred_flag, (uint32_t)picture_info_hevc->transform_skip_enabled_flag, (uint32_t)picture_info_hevc->cu_qp_delta_enabled_flag, (uint32_t)picture_info_hevc->diff_cu_qp_delta_depth, (int32_t)picture_info_hevc->pps_cb_qp_offset, (int32_t)picture_info_hevc->pps_cr_qp_offset, (uint32_t)picture_info_hevc->pps_slice_chroma_qp_offsets_present_flag, (uint32_t)picture_info_hevc->weighted_pred_flag, (uint32_t)picture_info_hevc->weighted_bipred_flag, (uint32_t)picture_info_hevc->transquant_bypass_enabled_flag, (uint32_t)picture_info_hevc->tiles_enabled_flag, (uint32_t)picture_info_hevc->entropy_coding_sync_enabled_flag, (uint32_t)picture_info_hevc->num_tile_columns_minus1, (uint32_t)picture_info_hevc->num_tile_rows_minus1, (uint32_t)picture_info_hevc->uniform_spacing_flag ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->column_width_minus1); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->column_width_minus1[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->row_height_minus1); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->row_height_minus1[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %d, %d, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %d, {", (uint32_t)picture_info_hevc->loop_filter_across_tiles_enabled_flag, (uint32_t)picture_info_hevc->pps_loop_filter_across_slices_enabled_flag, (uint32_t)picture_info_hevc->deblocking_filter_control_present_flag, (uint32_t)picture_info_hevc->deblocking_filter_override_enabled_flag, (uint32_t)picture_info_hevc->pps_deblocking_filter_disabled_flag, (int32_t)picture_info_hevc->pps_beta_offset_div2, (int32_t)picture_info_hevc->pps_tc_offset_div2, (uint32_t)picture_info_hevc->lists_modification_present_flag, (uint32_t)picture_info_hevc->log2_parallel_merge_level_minus2, (uint32_t)picture_info_hevc->slice_segment_header_extension_present_flag, (uint32_t)picture_info_hevc->IDRPicFlag, (uint32_t)picture_info_hevc->RAPPicFlag, (uint32_t)picture_info_hevc->CurrRpsIdx, (uint32_t)picture_info_hevc->NumPocTotalCurr, (uint32_t)picture_info_hevc->NumDeltaPocsOfRefRpsIdx, (uint32_t)picture_info_hevc->NumShortTermPictureSliceHeaderBits, (uint32_t)picture_info_hevc->NumLongTermPictureSliceHeaderBits, (int32_t)picture_info_hevc->CurrPicOrderCntVal ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPics); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPics[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->PicOrderCntVal); ++i) { fprintf( _vdp_cap_data.fp, "%s%d", (i == 0) ? "" : ", ", (int32_t)picture_info_hevc->PicOrderCntVal[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->IsLongTerm); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->IsLongTerm[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, {", (uint32_t)picture_info_hevc->NumPocStCurrBefore, (uint32_t)picture_info_hevc->NumPocStCurrAfter, (uint32_t)picture_info_hevc->NumPocLtCurr ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetStCurrBefore); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetStCurrBefore[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetStCurrAfter); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetStCurrAfter[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc->RefPicSetLtCurr); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc->RefPicSetLtCurr[i] ); } fputs("}}", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_hevc_rxt->sps_range_extension_flag, (uint32_t)picture_info_hevc_rxt->transformSkipRotationEnableFlag, (uint32_t)picture_info_hevc_rxt->transformSkipContextEnableFlag, (uint32_t)picture_info_hevc_rxt->implicitRdpcmEnableFlag, (uint32_t)picture_info_hevc_rxt->explicitRdpcmEnableFlag, (uint32_t)picture_info_hevc_rxt->extendedPrecisionProcessingFlag, (uint32_t)picture_info_hevc_rxt->intraSmoothingDisabledFlag, (uint32_t)picture_info_hevc_rxt->highPrecisionOffsetsEnableFlag, (uint32_t)picture_info_hevc_rxt->persistentRiceAdaptationEnableFlag, (uint32_t)picture_info_hevc_rxt->cabacBypassAlignmentEnableFlag, (uint32_t)picture_info_hevc_rxt->intraBlockCopyEnableFlag, (uint32_t)picture_info_hevc_rxt->pps_range_extension_flag, (uint32_t)picture_info_hevc_rxt->log2MaxTransformSkipSize, (uint32_t)picture_info_hevc_rxt->crossComponentPredictionEnableFlag, (uint32_t)picture_info_hevc_rxt->chromaQpAdjustmentEnableFlag, (uint32_t)picture_info_hevc_rxt->diffCuChromaQpAdjustmentDepth, (uint32_t)picture_info_hevc_rxt->chromaQpAdjustmentTableSize, (uint32_t)picture_info_hevc_rxt->log2SaoOffsetScaleLuma, (uint32_t)picture_info_hevc_rxt->log2SaoOffsetScaleChroma ); fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc_rxt->cb_qp_adjustment); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc_rxt->cb_qp_adjustment[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_hevc_rxt->cr_qp_adjustment); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_hevc_rxt->cr_qp_adjustment[i] ); } fputs("}}", _vdp_cap_data.fp); } break; case VDP_DECODER_PROFILE_VP9_PROFILE_0: case VDP_DECODER_PROFILE_VP9_PROFILE_1: case VDP_DECODER_PROFILE_VP9_PROFILE_2: case VDP_DECODER_PROFILE_VP9_PROFILE_3: { VdpPictureInfoVP9 const * picture_info_vp9 = (VdpPictureInfoVP9 const *)picture_info; fprintf( _vdp_cap_data.fp, "{%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u {", (uint32_t)picture_info_vp9->width, (uint32_t)picture_info_vp9->height, picture_info_vp9->lastReference, picture_info_vp9->goldenReference, picture_info_vp9->altReference, (uint32_t)picture_info_vp9->colorSpace, (uint32_t)picture_info_vp9->profile, (uint32_t)picture_info_vp9->frameContextIdx, (uint32_t)picture_info_vp9->keyFrame, (uint32_t)picture_info_vp9->showFrame, (uint32_t)picture_info_vp9->errorResilient, (uint32_t)picture_info_vp9->frameParallelDecoding, (uint32_t)picture_info_vp9->subSamplingX, (uint32_t)picture_info_vp9->subSamplingY, (uint32_t)picture_info_vp9->intraOnly, (uint32_t)picture_info_vp9->allowHighPrecisionMv, (uint32_t)picture_info_vp9->refreshEntropyProbs ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->refFrameSignBias); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->refFrameSignBias[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %u, %u, %u, %u, %u, %u, {", (uint32_t)picture_info_vp9->bitDepthMinus8Luma, (uint32_t)picture_info_vp9->bitDepthMinus8Chroma, (uint32_t)picture_info_vp9->loopFilterLevel, (uint32_t)picture_info_vp9->loopFilterSharpness, (uint32_t)picture_info_vp9->modeRefLfEnabled, (uint32_t)picture_info_vp9->log2TileColumns, (uint32_t)picture_info_vp9->log2TileRows, (uint32_t)picture_info_vp9->segmentEnabled, (uint32_t)picture_info_vp9->segmentMapUpdate, (uint32_t)picture_info_vp9->segmentMapTemporalUpdate, (uint32_t)picture_info_vp9->segmentFeatureMode ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->segmentFeatureEnable); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_vp9->segmentFeatureEnable[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%u", (j == 0) ? "" : ", ", (uint32_t)picture_info_vp9->segmentFeatureEnable[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->segmentFeatureData); ++i) { fputs((i == 0) ? "{" : "}, {", _vdp_cap_data.fp); for (uint32_t j = 0; j < _VDP_TRACE_ARSIZE(picture_info_vp9->segmentFeatureData[0]); ++j) { fprintf( _vdp_cap_data.fp, "%s%d", (j == 0) ? "" : ", ", (int32_t)picture_info_vp9->segmentFeatureData[i][j] ); } } fputs("}}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->mbSegmentTreeProbs); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->mbSegmentTreeProbs[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->segmentPredProbs); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->segmentPredProbs[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->reservedSegment16Bits); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->reservedSegment16Bits[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%d, %d, %d, %d, {", (int32_t)picture_info_vp9->qpYAc, (int32_t)picture_info_vp9->qpYDc, (int32_t)picture_info_vp9->qpChDc, (int32_t)picture_info_vp9->qpChAc ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->activeRefIdx); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->activeRefIdx[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, {", (uint32_t)picture_info_vp9->resetFrameContext, (uint32_t)picture_info_vp9->mcompFilterType ); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->mbRefLfDelta); ++i) { fprintf( _vdp_cap_data.fp, "%s%u", (i == 0) ? "" : ", ", (uint32_t)picture_info_vp9->mbRefLfDelta[i] ); } fputs("}, {", _vdp_cap_data.fp); for (uint32_t i = 0; i < _VDP_TRACE_ARSIZE(picture_info_vp9->mbModeLfDelta); ++i) { fprintf( _vdp_cap_data.fp, "%s%d", (i == 0) ? "" : ", ", (int32_t)picture_info_vp9->mbModeLfDelta[i] ); } fputs("}, ", _vdp_cap_data.fp); fprintf( _vdp_cap_data.fp, "%u, %u, {", (uint32_t)picture_info_vp9->uncompressedHeaderSize, (uint32_t)picture_info_vp9->compressedHeaderSize ); fputs("}", _vdp_cap_data.fp); } break; default: fputs("{...}", _vdp_cap_data.fp); break; } } static void _vdp_cap_dump_video_mixer_parameter_value( VdpVideoMixerParameter parameter, void const * value ) { switch (parameter) { case VDP_VIDEO_MIXER_PARAMETER_VIDEO_SURFACE_WIDTH: case VDP_VIDEO_MIXER_PARAMETER_VIDEO_SURFACE_HEIGHT: case VDP_VIDEO_MIXER_PARAMETER_CHROMA_TYPE: case VDP_VIDEO_MIXER_PARAMETER_LAYERS: if (!value) { fputs("???", _vdp_cap_data.fp); } else { fprintf(_vdp_cap_data.fp, "%u", *(uint32_t const *)value); } break; default: fputs("???", _vdp_cap_data.fp); break; } } static void _vdp_cap_dump_video_mixer_attribute_value( VdpVideoMixerAttribute attribute, void const * value, bool get_operation ) { if (!value) { fputs("NULL", _vdp_cap_data.fp); return; } switch (attribute) { case VDP_VIDEO_MIXER_ATTRIBUTE_BACKGROUND_COLOR: _vdp_cap_dump_color((VdpColor const *)value); break; case VDP_VIDEO_MIXER_ATTRIBUTE_CSC_MATRIX: { VdpCSCMatrix const * ptr; // For some objects, the "default" value is a NULL pointer. // So, VdpVideoMixerGetAttributeValues expects a double pointer to // the value, so it can either fill in the value, or NULL out the // pointer. if (get_operation) { ptr = *(VdpCSCMatrix const * const *)value; } else { ptr = (VdpCSCMatrix const *)value; } _vdp_cap_dump_csc_matrix(ptr); } break; case VDP_VIDEO_MIXER_ATTRIBUTE_NOISE_REDUCTION_LEVEL: case VDP_VIDEO_MIXER_ATTRIBUTE_SHARPNESS_LEVEL: case VDP_VIDEO_MIXER_ATTRIBUTE_LUMA_KEY_MIN_LUMA: case VDP_VIDEO_MIXER_ATTRIBUTE_LUMA_KEY_MAX_LUMA: fprintf(_vdp_cap_data.fp, "%f", *(float const *)value); break; case VDP_VIDEO_MIXER_ATTRIBUTE_SKIP_CHROMA_DEINTERLACE: fprintf(_vdp_cap_data.fp, "%u", *(uint8_t const *)value); break; default: fputs("???", _vdp_cap_data.fp); break; } } static void _vdp_cap_dump_uint8_t_stream( uint32_t count, uint8_t const * values ) { if (!values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (count) { fprintf( _vdp_cap_data.fp, "%02x", values[0] ); --count; ++values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_uint32_t_stream( uint32_t count, uint32_t const * values ) { if (!values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (count) { fprintf( _vdp_cap_data.fp, "%08x%s", values[0], (count > 1) ? " " : "" ); --count; ++values; } fputs("}", _vdp_cap_data.fp); } struct _VdpcapPlane { void const * data; uint32_t pitch; uint32_t item_count; uint32_t item_size; uint32_t lines; }; typedef void _VdpcapPlaneDumper(uint32_t count, void const * values); static void _vdp_cap_dump_plane_list( uint32_t plane_count, _VdpcapPlane const * planes ) { if (!planes) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (plane_count) { uint32_t lines = planes[0].lines; _VdpcapPlaneDumper * dumper; if (planes[0].item_size == 4) { dumper = (_VdpcapPlaneDumper*)_vdp_cap_dump_uint32_t_stream; } else { dumper = (_VdpcapPlaneDumper*)_vdp_cap_dump_uint8_t_stream; } fputs("{", _vdp_cap_data.fp); uint8_t const * ptr = (uint8_t const *)planes[0].data; while (lines) { dumper(planes[0].item_count, ptr); if (lines > 1) { fputs(", ", _vdp_cap_data.fp); } ptr += planes[0].pitch; --lines; } fputs("}", _vdp_cap_data.fp); if (plane_count > 1) { fputs(", ", _vdp_cap_data.fp); } --plane_count; ++planes; } fputs("}", _vdp_cap_data.fp); } static bool _vdp_cap_init_planes_for_ycbcr_format( uint32_t * plane_count, _VdpcapPlane * planes, VdpYCbCrFormat format, uint32_t region_width, uint32_t region_height ) { switch (format) { case VDP_YCBCR_FORMAT_NV12: if (*plane_count < 2) { return false; } *plane_count = 2; planes[0].item_size = 1; planes[0].item_count = region_width; planes[0].lines = region_height; planes[1].item_size = 1; planes[1].item_count = region_width; planes[1].lines = region_height / 2; break; case VDP_YCBCR_FORMAT_YV12: if (*plane_count < 3) { return false; } *plane_count = 3; planes[0].item_size = 1; planes[0].item_count = region_width; planes[0].lines = region_height; planes[1].item_size = 1; planes[1].item_count = region_width / 2; planes[1].lines = region_height / 2; planes[2].item_size = 1; planes[2].item_count = region_width / 2; planes[2].lines = region_height / 2; break; case VDP_YCBCR_FORMAT_UYVY: case VDP_YCBCR_FORMAT_YUYV: if (*plane_count < 1) { return false; } *plane_count = 1; planes[0].item_size = 1; planes[0].item_count = region_width * 2; planes[0].lines = region_height; break; case VDP_YCBCR_FORMAT_Y8U8V8A8: case VDP_YCBCR_FORMAT_V8U8Y8A8: if (*plane_count < 1) { return false; } *plane_count = 1; planes[0].item_size = 4; planes[0].item_count = region_width; planes[0].lines = region_height; break; default: return false; } return true; } static bool _vdp_cap_init_planes_for_rgba_format( uint32_t * plane_count, _VdpcapPlane * planes, VdpRGBAFormat format, uint32_t region_width, uint32_t region_height ) { switch (format) { case VDP_RGBA_FORMAT_B8G8R8A8: case VDP_RGBA_FORMAT_R8G8B8A8: case VDP_RGBA_FORMAT_R10G10B10A2: case VDP_RGBA_FORMAT_B10G10R10A2: if (*plane_count < 1) { return false; } *plane_count = 1; planes[0].item_size = 4; break; case VDP_RGBA_FORMAT_A8: if (*plane_count < 1) { return false; } *plane_count = 1; planes[0].item_size = 1; break; default: return false; } planes[0].item_count = region_width; planes[0].lines = region_height; return true; } static bool _vdp_cap_init_planes_for_indexed_format( uint32_t * plane_count, _VdpcapPlane * planes, VdpIndexedFormat format, uint32_t region_width, uint32_t region_height ) { uint32_t width_multiplier; switch (format) { case VDP_INDEXED_FORMAT_A4I4: case VDP_INDEXED_FORMAT_I4A4: width_multiplier = 1; break; case VDP_INDEXED_FORMAT_A8I8: case VDP_INDEXED_FORMAT_I8A8: width_multiplier = 2; break; default: return false; } if (*plane_count < 1) { return false; } *plane_count = 1; planes[0].item_size = 1; planes[0].item_count = region_width * width_multiplier; planes[0].lines = region_height; return true; } static bool _vdp_cap_init_planes_adapt_format_bits_ycbcr( uint32_t * plane_count, _VdpcapPlane * planes, uint32_t surface_format, uint32_t bits_format, uint32_t region_width, uint32_t region_height ) { return _vdp_cap_init_planes_for_ycbcr_format( plane_count, planes, bits_format, region_width, region_height ); } static bool _vdp_cap_init_planes_adapt_format_surface_rgba( uint32_t * plane_count, _VdpcapPlane * planes, uint32_t surface_format, uint32_t bits_format, uint32_t region_width, uint32_t region_height ) { return _vdp_cap_init_planes_for_rgba_format( plane_count, planes, surface_format, region_width, region_height ); } static bool _vdp_cap_init_planes_adapt_format_bits_indexed( uint32_t * plane_count, _VdpcapPlane * planes, uint32_t surface_format, uint32_t bits_format, uint32_t region_width, uint32_t region_height ) { return _vdp_cap_init_planes_for_indexed_format( plane_count, planes, bits_format, region_width, region_height ); } static bool _vdp_cap_init_planes_adapt_surface_video( uint32_t surface, uint32_t * surface_format, uint32_t * width, uint32_t * height ) { VdpStatus ret; VdpChromaType chroma_type; ret = _vdp_cap_data.vdp_video_surface_get_parameters( surface, &chroma_type, width, height ); if (ret != VDP_STATUS_OK) { return false; } *surface_format = chroma_type; return true; } static bool _vdp_cap_init_planes_adapt_surface_output( uint32_t surface, uint32_t * surface_format, uint32_t * width, uint32_t * height ) { VdpStatus ret; VdpRGBAFormat rgba_format; ret = _vdp_cap_data.vdp_output_surface_get_parameters( surface, &rgba_format, width, height ); if (ret != VDP_STATUS_OK) { return false; } *surface_format = rgba_format; return true; } static bool _vdp_cap_init_planes_adapt_surface_bitmap( uint32_t surface, uint32_t * surface_format, uint32_t * width, uint32_t * height ) { VdpStatus ret; VdpRGBAFormat rgba_format; VdpBool frequently_accessed; ret = _vdp_cap_data.vdp_bitmap_surface_get_parameters( surface, &rgba_format, width, height, &frequently_accessed ); if (ret != VDP_STATUS_OK) { return false; } *surface_format = rgba_format; return true; } typedef bool _Vdpcap_Init_Planes_Adapt_Format( uint32_t * plane_count, _VdpcapPlane * planes, uint32_t surface_format, uint32_t bits_format, uint32_t region_width, uint32_t region_height ); typedef bool _Vdpcap_Init_Planes_Adapt_Surface( uint32_t surface, uint32_t * surface_format, uint32_t * width, uint32_t * height ); static bool _vdp_cap_init_planes( uint32_t surface, void const * const * source_data, uint32_t const * source_pitches, VdpRect const * destination_rect, uint32_t * plane_count, _VdpcapPlane * planes, _Vdpcap_Init_Planes_Adapt_Surface * adapt_surface, _Vdpcap_Init_Planes_Adapt_Format * adapt_format, uint32_t adapt_format_bits_format ) { bool ok; if (!source_data || !source_pitches) { return false; } if (_vdp_cap_data.level < LEVEL_PARAMS) { return false; } uint32_t surface_format; uint32_t width; uint32_t height; ok = adapt_surface( surface, &surface_format, &width, &height ); if (!ok) { return false; } if (destination_rect) { width = delta(destination_rect->x0, destination_rect->x1); height = delta(destination_rect->y0, destination_rect->y1); } ok = adapt_format( plane_count, planes, surface_format, adapt_format_bits_format, width, height ); if (!ok) { return false; } for (uint32_t i = 0; i < *plane_count; ++i) { planes[i].data = source_data[i]; planes[i].pitch = source_pitches[i]; } return true; } static void _vdp_cap_dump_bool_list( uint32_t count, VdpBool const * values ) { if (!values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (count) { fprintf( _vdp_cap_data.fp, "%d%s", (int)values[0], (count > 1) ? ", " : "" ); --count; ++values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_void_pointer_list( uint32_t count, void const * const * values, bool zero_count_question_marks ) { if (!values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); if (!count && zero_count_question_marks) { fputs("???", _vdp_cap_data.fp); } while (count) { fprintf( _vdp_cap_data.fp, "%p%s", values[0], (count > 1) ? ", " : "" ); --count; ++values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_uint32_t_list( uint32_t count, uint32_t const * values, bool zero_count_question_marks ) { if (!values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); if (!count && zero_count_question_marks) { fputs("???", _vdp_cap_data.fp); } while (count) { fprintf( _vdp_cap_data.fp, "%u%s", values[0], (count > 1) ? ", " : "" ); --count; ++values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_color_list( uint32_t count, VdpColor const * colors ) { if (!colors) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (count) { _vdp_cap_dump_color(&colors[0]); fputs( (count > 1) ? ", " : "", _vdp_cap_data.fp ); --count; ++colors; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_color_table( VdpIndexedFormat indexed_format, VdpColorTableFormat format, void const * table ) { if (!table) { fprintf(_vdp_cap_data.fp, "NULL"); return; } uint32_t count; switch (indexed_format) { case VDP_INDEXED_FORMAT_A4I4: case VDP_INDEXED_FORMAT_I4A4: count = 1 << 4; break; case VDP_INDEXED_FORMAT_A8I8: case VDP_INDEXED_FORMAT_I8A8: count = 1 << 8; break; default: fprintf(_vdp_cap_data.fp, "???"); return; } switch (format) { case VDP_COLOR_TABLE_FORMAT_B8G8R8X8: break; default: fprintf(_vdp_cap_data.fp, "???"); return; } _vdp_cap_dump_uint32_t_list( count, (uint32_t const *)table, true ); } static void _vdp_cap_dump_bitstream_buffer_list( uint32_t count, VdpBitstreamBuffer const * buffers ) { if (!buffers) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (count) { fprintf( _vdp_cap_data.fp, "{(ver %d)%s %u, ", buffers[0].struct_version, (buffers[0].struct_version > 0) ? "(unsupported; cannot dump all fields)" : "", buffers[0].bitstream_bytes ); if (_vdp_cap_data.level >= LEVEL_DATA) { const uint8_t * ptr = (const uint8_t * )buffers[0].bitstream; for (uint32_t i = 0; i < buffers[0].bitstream_bytes; ++i) { fprintf(_vdp_cap_data.fp, "%02x ", ptr[i]); } } else { fputs("...", _vdp_cap_data.fp); } fputs( (count > 1) ? "}, " : "}", _vdp_cap_data.fp ); --count; ++buffers; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_video_mixer_feature_list( uint32_t feature_count, VdpVideoMixerFeature const * features ) { _vdp_cap_dump_uint32_t_list( feature_count, features, false ); } static void _vdp_cap_dump_video_mixer_parameter_list( uint32_t parameter_count, VdpVideoMixerParameter const * parameters ) { _vdp_cap_dump_uint32_t_list( parameter_count, parameters, false ); } static void _vdp_cap_dump_video_mixer_attribute_list( uint32_t attribute_count, VdpVideoMixerAttribute const * attributes ) { _vdp_cap_dump_uint32_t_list( attribute_count, attributes, false ); } static void _vdp_cap_dump_video_mixer_parameter_value_list( uint32_t parameter_count, VdpVideoMixerParameter const * parameters, void const * const * parameter_values ) { if (!parameters || !parameter_values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (parameter_count) { _vdp_cap_dump_video_mixer_parameter_value(parameters[0], parameter_values[0]); fputs((parameter_count > 1) ? ", " : "", _vdp_cap_data.fp); --parameter_count; ++parameters; ++parameter_values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_video_mixer_attribute_value_list( uint32_t attribute_count, VdpVideoMixerAttribute const * attributes, void const * const * attribute_values, bool get_operation ) { if (!attributes || !attribute_values) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (attribute_count) { _vdp_cap_dump_video_mixer_attribute_value( attributes[0], attribute_values[0], get_operation ); fputs((attribute_count > 1) ? ", " : "", _vdp_cap_data.fp); --attribute_count; ++attributes; ++attribute_values; } fputs("}", _vdp_cap_data.fp); } static void _vdp_cap_dump_layers_list( uint32_t layer_count, VdpLayer const * layers ) { if (!layers) { fputs("NULL", _vdp_cap_data.fp); return; } fputs("{", _vdp_cap_data.fp); while (layer_count) { fprintf( _vdp_cap_data.fp, "{(ver %d)%s %u,", layers[0].struct_version, (layers[0].struct_version > 0) ? "(unsupported; cannot dump all fields)" : "", layers[0].source_surface ); _vdp_cap_dump_rect(layers[0].source_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(layers[0].destination_rect); fputs((layer_count > 1) ? "}, " : "}", _vdp_cap_data.fp); --layer_count; ++layers; } fputs("}", _vdp_cap_data.fp); } static char const * _vdp_cap_get_error_string( VdpStatus status ) { char const * ret; fputs("vdp_get_error_string(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%d", status ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_get_error_string( status ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { if (ret) { fprintf(_vdp_cap_data.fp, " -> '%s'\n", ret); } else { fprintf(_vdp_cap_data.fp, " -> NULL\n"); } } return ret; } static VdpStatus _vdp_cap_get_api_version( /* output parameters follow */ uint32_t * api_version ) { VdpStatus ret; fputs("vdp_get_api_version(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%s", api_version ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_get_api_version( api_version ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (api_version) { fprintf(_vdp_cap_data.fp, ", %u", *api_version); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_get_information_string( /* output parameters follow */ char const * * information_string ) { VdpStatus ret; fputs("vdp_get_information_string(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%s", information_string ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_get_information_string( information_string ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (information_string && *information_string) { fprintf(_vdp_cap_data.fp, ", \"%s\"", *information_string); } else if (information_string) { fputs(", (null)", _vdp_cap_data.fp); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_device_destroy( VdpDevice device ) { VdpStatus ret; fputs("vdp_device_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", device ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_device_destroy( device ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_generate_csc_matrix( VdpProcamp * procamp, VdpColorStandard standard, /* output parameters follow */ VdpCSCMatrix * csc_matrix ) { VdpStatus ret; fputs("vdp_generate_csc_matrix(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { _vdp_cap_dump_procamp(procamp); fprintf( _vdp_cap_data.fp, ", %u, %s", standard, csc_matrix ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_generate_csc_matrix( procamp, standard, csc_matrix ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (csc_matrix) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_csc_matrix(csc_matrix); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_query_capabilities( VdpDevice device, VdpChromaType surface_chroma_type, /* output parameters follow */ VdpBool * is_supported, uint32_t * max_width, uint32_t * max_height ) { VdpStatus ret; fputs("vdp_video_surface_query_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s, %s", device, surface_chroma_type, is_supported ? "-" : "NULL", max_width ? "-" : "NULL", max_height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_query_capabilities( device, surface_chroma_type, is_supported, max_width, max_height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_width) { fprintf(_vdp_cap_data.fp, ", %u", *max_width); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_height) { fprintf(_vdp_cap_data.fp, ", %u", *max_height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_query_get_put_bits_y_cb_cr_capabilities( VdpDevice device, VdpChromaType surface_chroma_type, VdpYCbCrFormat bits_ycbcr_format, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_video_surface_query_get_put_bits_y_cb_cr_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %s", device, surface_chroma_type, bits_ycbcr_format, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_query_get_put_bits_y_cb_cr_capabilities( device, surface_chroma_type, bits_ycbcr_format, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_create( VdpDevice device, VdpChromaType chroma_type, uint32_t width, uint32_t height, /* output parameters follow */ VdpVideoSurface * surface ) { VdpStatus ret; fputs("vdp_video_surface_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %s", device, chroma_type, width, height, surface ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_create( device, chroma_type, width, height, surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (surface) { fprintf(_vdp_cap_data.fp, ", %u", *surface); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_destroy( VdpVideoSurface surface ) { VdpStatus ret; fputs("vdp_video_surface_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", surface ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_destroy( surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_video_surface_get_parameters( VdpVideoSurface surface, /* output parameters follow */ VdpChromaType * chroma_type, uint32_t * width, uint32_t * height ) { VdpStatus ret; fputs("vdp_video_surface_get_parameters(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s, %s, %s", surface, chroma_type ? "-" : "NULL", width ? "-" : "NULL", height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_get_parameters( surface, chroma_type, width, height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (chroma_type) { fprintf(_vdp_cap_data.fp, ", %u", *chroma_type); } else { fputs(", ???", _vdp_cap_data.fp); } if (width) { fprintf(_vdp_cap_data.fp, ", %u", *width); } else { fputs(", ???", _vdp_cap_data.fp); } if (height) { fprintf(_vdp_cap_data.fp, ", %u", *height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_get_bits_y_cb_cr( VdpVideoSurface surface, VdpYCbCrFormat destination_ycbcr_format, void * const * destination_data, uint32_t const * destination_pitches ) { VdpStatus ret; _VdpcapPlane planes[3]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, destination_data, destination_pitches, 0, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_video, _vdp_cap_init_planes_adapt_format_bits_ycbcr, destination_ycbcr_format ); if (!dump_data) { plane_count = 0; } fputs("vdp_video_surface_get_bits_y_cb_cr(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, ", surface, destination_ycbcr_format ); _vdp_cap_dump_void_pointer_list(plane_count, destination_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, destination_pitches, true); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_surface_get_bits_y_cb_cr( surface, destination_ycbcr_format, destination_data, destination_pitches ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_surface_put_bits_y_cb_cr( VdpVideoSurface surface, VdpYCbCrFormat source_ycbcr_format, void const * const * source_data, uint32_t const * source_pitches ) { VdpStatus ret; _VdpcapPlane planes[3]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, source_data, source_pitches, 0, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_video, _vdp_cap_init_planes_adapt_format_bits_ycbcr, source_ycbcr_format ); if (!dump_data) { plane_count = 0; } fputs("vdp_video_surface_put_bits_y_cb_cr(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, ", surface, source_ycbcr_format ); _vdp_cap_dump_void_pointer_list(plane_count, source_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, source_pitches, true); fputs(", ", _vdp_cap_data.fp); } fputs(")\n", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } ret = _vdp_cap_data.vdp_video_surface_put_bits_y_cb_cr( surface, source_ycbcr_format, source_data, source_pitches ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_query_capabilities( VdpDevice device, VdpRGBAFormat surface_rgba_format, /* output parameters follow */ VdpBool * is_supported, uint32_t * max_width, uint32_t * max_height ) { VdpStatus ret; fputs("vdp_output_surface_query_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s, %s", device, surface_rgba_format, is_supported ? "-" : "NULL", max_width ? "-" : "NULL", max_height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_query_capabilities( device, surface_rgba_format, is_supported, max_width, max_height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_width) { fprintf(_vdp_cap_data.fp, ", %u", *max_width); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_height) { fprintf(_vdp_cap_data.fp, ", %u", *max_height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_query_get_put_bits_native_capabilities( VdpDevice device, VdpRGBAFormat surface_rgba_format, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_output_surface_query_get_put_bits_native_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, surface_rgba_format, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_query_get_put_bits_native_capabilities( device, surface_rgba_format, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_query_put_bits_indexed_capabilities( VdpDevice device, VdpRGBAFormat surface_rgba_format, VdpIndexedFormat bits_indexed_format, VdpColorTableFormat color_table_format, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_output_surface_query_put_bits_indexed_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %s", device, surface_rgba_format, bits_indexed_format, color_table_format, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_query_put_bits_indexed_capabilities( device, surface_rgba_format, bits_indexed_format, color_table_format, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_query_put_bits_y_cb_cr_capabilities( VdpDevice device, VdpRGBAFormat surface_rgba_format, VdpYCbCrFormat bits_ycbcr_format, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_output_surface_query_put_bits_y_cb_cr_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %s", device, surface_rgba_format, bits_ycbcr_format, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_query_put_bits_y_cb_cr_capabilities( device, surface_rgba_format, bits_ycbcr_format, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_create( VdpDevice device, VdpRGBAFormat rgba_format, uint32_t width, uint32_t height, /* output parameters follow */ VdpOutputSurface * surface ) { VdpStatus ret; fputs("vdp_output_surface_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %s", device, rgba_format, width, height, surface ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_create( device, rgba_format, width, height, surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (surface) { fprintf(_vdp_cap_data.fp, ", %u", *surface); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_destroy( VdpOutputSurface surface ) { VdpStatus ret; fputs("vdp_output_surface_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", surface ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_destroy( surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_get_parameters( VdpOutputSurface surface, /* output parameters follow */ VdpRGBAFormat * rgba_format, uint32_t * width, uint32_t * height ) { VdpStatus ret; fputs("vdp_output_surface_get_parameters(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s, %s, %s", surface, rgba_format ? "-" : "NULL", width ? "-" : "NULL", height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_get_parameters( surface, rgba_format, width, height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (rgba_format) { fprintf(_vdp_cap_data.fp, ", %u", *rgba_format); } else { fputs(", ???", _vdp_cap_data.fp); } if (width) { fprintf(_vdp_cap_data.fp, ", %u", *width); } else { fputs(", ???", _vdp_cap_data.fp); } if (height) { fprintf(_vdp_cap_data.fp, ", %u", *height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_get_bits_native( VdpOutputSurface surface, VdpRect const * source_rect, void * const * destination_data, uint32_t const * destination_pitches ) { VdpStatus ret; _VdpcapPlane planes[1]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, destination_data, destination_pitches, source_rect, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_output, _vdp_cap_init_planes_adapt_format_surface_rgba, 0 ); if (!dump_data) { plane_count = 0; } fputs("vdp_output_surface_get_bits_native(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", surface ); _vdp_cap_dump_rect(source_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_void_pointer_list(plane_count, destination_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, destination_pitches, true); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_get_bits_native( surface, source_rect, destination_data, destination_pitches ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_output_surface_put_bits_native( VdpOutputSurface surface, void const * const * source_data, uint32_t const * source_pitches, VdpRect const * destination_rect ) { VdpStatus ret; _VdpcapPlane planes[1]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, source_data, source_pitches, destination_rect, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_output, _vdp_cap_init_planes_adapt_format_surface_rgba, 0 ); if (!dump_data) { plane_count = 0; } fputs("vdp_output_surface_put_bits_native(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", surface ); _vdp_cap_dump_void_pointer_list(plane_count, source_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, source_pitches, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(destination_rect); } fputs(")\n", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } ret = _vdp_cap_data.vdp_output_surface_put_bits_native( surface, source_data, source_pitches, destination_rect ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_put_bits_indexed( VdpOutputSurface surface, VdpIndexedFormat source_indexed_format, void const * const * source_data, uint32_t const * source_pitches, VdpRect const * destination_rect, VdpColorTableFormat color_table_format, void const * color_table ) { VdpStatus ret; _VdpcapPlane planes[1]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, source_data, source_pitches, destination_rect, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_output, _vdp_cap_init_planes_adapt_format_bits_indexed, source_indexed_format ); if (!dump_data) { plane_count = 0; } fputs("vdp_output_surface_put_bits_indexed(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, ", surface, source_indexed_format ); _vdp_cap_dump_void_pointer_list(plane_count, source_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, source_pitches, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(destination_rect); fprintf( _vdp_cap_data.fp, ", %u, ", color_table_format ); _vdp_cap_dump_color_table( source_indexed_format, color_table_format, color_table ); } fputs(")\n", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } ret = _vdp_cap_data.vdp_output_surface_put_bits_indexed( surface, source_indexed_format, source_data, source_pitches, destination_rect, color_table_format, color_table ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_put_bits_y_cb_cr( VdpOutputSurface surface, VdpYCbCrFormat source_ycbcr_format, void const * const * source_data, uint32_t const * source_pitches, VdpRect const * destination_rect, VdpCSCMatrix const * csc_matrix ) { VdpStatus ret; _VdpcapPlane planes[1]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, source_data, source_pitches, destination_rect, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_output, _vdp_cap_init_planes_adapt_format_bits_ycbcr, source_ycbcr_format ); if (!dump_data) { plane_count = 0; } fputs("vdp_output_surface_put_bits_y_cb_cr(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, ", surface, source_ycbcr_format ); _vdp_cap_dump_void_pointer_list(plane_count, source_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, source_pitches, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(destination_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_csc_matrix(csc_matrix); } fputs(")\n", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } ret = _vdp_cap_data.vdp_output_surface_put_bits_y_cb_cr( surface, source_ycbcr_format, source_data, source_pitches, destination_rect, csc_matrix ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_bitmap_surface_query_capabilities( VdpDevice device, VdpRGBAFormat surface_rgba_format, /* output parameters follow */ VdpBool * is_supported, uint32_t * max_width, uint32_t * max_height ) { VdpStatus ret; fputs("vdp_bitmap_surface_query_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s, %s", device, surface_rgba_format, is_supported ? "-" : "NULL", max_width ? "-" : "NULL", max_height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_bitmap_surface_query_capabilities( device, surface_rgba_format, is_supported, max_width, max_height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_width) { fprintf(_vdp_cap_data.fp, ", %u", *max_width); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_height) { fprintf(_vdp_cap_data.fp, ", %u", *max_height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_bitmap_surface_create( VdpDevice device, VdpRGBAFormat rgba_format, uint32_t width, uint32_t height, VdpBool frequently_accessed, /* output parameters follow */ VdpBitmapSurface * surface ) { VdpStatus ret; fputs("vdp_bitmap_surface_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %d, %s", device, rgba_format, width, height, frequently_accessed, surface ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_bitmap_surface_create( device, rgba_format, width, height, frequently_accessed, surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (surface) { fprintf(_vdp_cap_data.fp, ", %u", *surface); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_bitmap_surface_destroy( VdpBitmapSurface surface ) { VdpStatus ret; fputs("vdp_bitmap_surface_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", surface ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_bitmap_surface_destroy( surface ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_bitmap_surface_get_parameters( VdpBitmapSurface surface, /* output parameters follow */ VdpRGBAFormat * rgba_format, uint32_t * width, uint32_t * height, VdpBool * frequently_accessed ) { VdpStatus ret; fputs("vdp_bitmap_surface_get_parameters(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s, %s, %s, %s", surface, rgba_format ? "-" : "NULL", width ? "-" : "NULL", height ? "-" : "NULL", frequently_accessed ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_bitmap_surface_get_parameters( surface, rgba_format, width, height, frequently_accessed ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (rgba_format) { fprintf(_vdp_cap_data.fp, ", %u", *rgba_format); } else { fputs(", ???", _vdp_cap_data.fp); } if (width) { fprintf(_vdp_cap_data.fp, ", %u", *width); } else { fputs(", ???", _vdp_cap_data.fp); } if (height) { fprintf(_vdp_cap_data.fp, ", %u", *height); } else { fputs(", ???", _vdp_cap_data.fp); } if (frequently_accessed) { fprintf(_vdp_cap_data.fp, ", %d", *frequently_accessed); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_bitmap_surface_put_bits_native( VdpBitmapSurface surface, void const * const * source_data, uint32_t const * source_pitches, VdpRect const * destination_rect ) { VdpStatus ret; _VdpcapPlane planes[1]; uint32_t plane_count = _VDP_TRACE_ARSIZE(planes); bool dump_data = _vdp_cap_init_planes( surface, source_data, source_pitches, destination_rect, &plane_count, planes, _vdp_cap_init_planes_adapt_surface_bitmap, _vdp_cap_init_planes_adapt_format_surface_rgba, 0 ); if (!dump_data) { plane_count = 0; } fputs("vdp_bitmap_surface_put_bits_native(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", surface ); _vdp_cap_dump_void_pointer_list(plane_count, source_data, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_uint32_t_list(plane_count, source_pitches, true); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(destination_rect); } fputs(")\n", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_DATA) { fputs(" ... Data: ", _vdp_cap_data.fp); if (dump_data) { _vdp_cap_dump_plane_list(plane_count, planes); } else { fputs("???", _vdp_cap_data.fp); } fputs("\n", _vdp_cap_data.fp); } ret = _vdp_cap_data.vdp_bitmap_surface_put_bits_native( surface, source_data, source_pitches, destination_rect ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_render_output_surface( VdpOutputSurface destination_surface, VdpRect const * destination_rect, VdpOutputSurface source_surface, VdpRect const * source_rect, VdpColor const * colors, VdpOutputSurfaceRenderBlendState const * blend_state, uint32_t flags ) { VdpStatus ret; fputs("vdp_output_surface_render_output_surface(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", destination_surface ); _vdp_cap_dump_rect(destination_rect); fprintf( _vdp_cap_data.fp, ", %u, ", source_surface ); _vdp_cap_dump_rect(source_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_color_list((flags & VDP_OUTPUT_SURFACE_RENDER_COLOR_PER_VERTEX) ? 4 : 1, colors); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_blend_state(blend_state); fprintf( _vdp_cap_data.fp, ", %u", flags ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_render_output_surface( destination_surface, destination_rect, source_surface, source_rect, colors, blend_state, flags ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_output_surface_render_bitmap_surface( VdpOutputSurface destination_surface, VdpRect const * destination_rect, VdpBitmapSurface source_surface, VdpRect const * source_rect, VdpColor const * colors, VdpOutputSurfaceRenderBlendState const * blend_state, uint32_t flags ) { VdpStatus ret; fputs("vdp_output_surface_render_bitmap_surface(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", destination_surface ); _vdp_cap_dump_rect(destination_rect); fprintf( _vdp_cap_data.fp, ", %u, ", source_surface ); _vdp_cap_dump_rect(source_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_color_list((flags & VDP_OUTPUT_SURFACE_RENDER_COLOR_PER_VERTEX) ? 4 : 1, colors); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_blend_state(blend_state); fprintf( _vdp_cap_data.fp, ", %u", flags ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_output_surface_render_bitmap_surface( destination_surface, destination_rect, source_surface, source_rect, colors, blend_state, flags ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_decoder_query_capabilities( VdpDevice device, VdpDecoderProfile profile, /* output parameters follow */ VdpBool * is_supported, uint32_t * max_level, uint32_t * max_macroblocks, uint32_t * max_width, uint32_t * max_height ) { VdpStatus ret; fputs("vdp_decoder_query_capabilities(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s, %s, %s, %s", device, profile, is_supported ? "-" : "NULL", max_level ? "-" : "NULL", max_macroblocks ? "-" : "NULL", max_width ? "-" : "NULL", max_height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_decoder_query_capabilities( device, profile, is_supported, max_level, max_macroblocks, max_width, max_height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_level) { fprintf(_vdp_cap_data.fp, ", %u", *max_level); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_macroblocks) { fprintf(_vdp_cap_data.fp, ", %u", *max_macroblocks); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_width) { fprintf(_vdp_cap_data.fp, ", %u", *max_width); } else { fputs(", ???", _vdp_cap_data.fp); } if (max_height) { fprintf(_vdp_cap_data.fp, ", %u", *max_height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_decoder_create( VdpDevice device, VdpDecoderProfile profile, uint32_t width, uint32_t height, uint32_t max_references, /* output parameters follow */ VdpDecoder * decoder ) { VdpStatus ret; fputs("vdp_decoder_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %u, %s", device, profile, width, height, max_references, decoder ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_decoder_create( device, profile, width, height, max_references, decoder ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (decoder) { fprintf(_vdp_cap_data.fp, ", %u", *decoder); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_decoder_destroy( VdpDecoder decoder ) { VdpStatus ret; fputs("vdp_decoder_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", decoder ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_decoder_destroy( decoder ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_decoder_get_parameters( VdpDecoder decoder, /* output parameters follow */ VdpDecoderProfile * profile, uint32_t * width, uint32_t * height ) { VdpStatus ret; fputs("vdp_decoder_get_parameters(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s, %s, %s", decoder, profile ? "-" : "NULL", width ? "-" : "NULL", height ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_decoder_get_parameters( decoder, profile, width, height ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (profile) { fprintf(_vdp_cap_data.fp, ", %u", *profile); } else { fputs(", ???", _vdp_cap_data.fp); } if (width) { fprintf(_vdp_cap_data.fp, ", %u", *width); } else { fputs(", ???", _vdp_cap_data.fp); } if (height) { fprintf(_vdp_cap_data.fp, ", %u", *height); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_decoder_render( VdpDecoder decoder, VdpVideoSurface target, VdpPictureInfo const * picture_info, uint32_t bitstream_buffer_count, VdpBitstreamBuffer const * bitstream_buffers ) { VdpStatus ret; fputs("vdp_decoder_render(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { VdpDecoderProfile profile; uint32_t width; uint32_t height; ret = _vdp_cap_data.vdp_decoder_get_parameters( decoder, &profile, &width, &height ); fprintf( _vdp_cap_data.fp, "%u, %u, ", decoder, target ); _vdp_cap_dump_picture_info(profile, picture_info); fprintf( _vdp_cap_data.fp, ", %u, ", bitstream_buffer_count ); _vdp_cap_dump_bitstream_buffer_list(bitstream_buffer_count, bitstream_buffers); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_decoder_render( decoder, target, picture_info, bitstream_buffer_count, bitstream_buffers ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_video_mixer_query_feature_support( VdpDevice device, VdpVideoMixerFeature feature, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_video_mixer_query_feature_support(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, feature, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_query_feature_support( device, feature, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_query_parameter_support( VdpDevice device, VdpVideoMixerParameter parameter, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_video_mixer_query_parameter_support(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, parameter, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_query_parameter_support( device, parameter, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_query_attribute_support( VdpDevice device, VdpVideoMixerAttribute attribute, /* output parameters follow */ VdpBool * is_supported ) { VdpStatus ret; fputs("vdp_video_mixer_query_attribute_support(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, attribute, is_supported ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_query_attribute_support( device, attribute, is_supported ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (is_supported) { fprintf(_vdp_cap_data.fp, ", %d", *is_supported); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_query_parameter_value_range( VdpDevice device, VdpVideoMixerParameter parameter, /* output parameters follow */ void * min_value, void * max_value ) { VdpStatus ret; fputs("vdp_video_mixer_query_parameter_value_range(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s", device, parameter, min_value ? "-" : "NULL", max_value ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_query_parameter_value_range( device, parameter, min_value, max_value ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_parameter_value(parameter, min_value); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_parameter_value(parameter, max_value); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_query_attribute_value_range( VdpDevice device, VdpVideoMixerAttribute attribute, /* output parameters follow */ void * min_value, void * max_value ) { VdpStatus ret; fputs("vdp_video_mixer_query_attribute_value_range(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s", device, attribute, min_value ? "-" : "NULL", max_value ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_query_attribute_value_range( device, attribute, min_value, max_value ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_attribute_value(attribute, min_value, false); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_attribute_value(attribute, max_value, false); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_create( VdpDevice device, uint32_t feature_count, VdpVideoMixerFeature const * features, uint32_t parameter_count, VdpVideoMixerParameter const * parameters, void const * const * parameter_values, /* output parameters follow */ VdpVideoMixer * mixer ) { VdpStatus ret; fputs("vdp_video_mixer_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", device, feature_count); _vdp_cap_dump_video_mixer_feature_list(feature_count, features); fprintf(_vdp_cap_data.fp, ", %u, ", parameter_count); _vdp_cap_dump_video_mixer_parameter_list(parameter_count, parameters); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_parameter_value_list( parameter_count, parameters, parameter_values ); fprintf(_vdp_cap_data.fp, ", %s", mixer ? "-" : "NULL"); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_create( device, feature_count, features, parameter_count, parameters, parameter_values, mixer ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (mixer) { fprintf(_vdp_cap_data.fp, ", %u", *mixer); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_set_feature_enables( VdpVideoMixer mixer, uint32_t feature_count, VdpVideoMixerFeature const * features, VdpBool const * feature_enables ) { VdpStatus ret; fputs("vdp_video_mixer_set_feature_enables(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, feature_count); _vdp_cap_dump_video_mixer_feature_list(feature_count, features); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_bool_list(feature_count, feature_enables); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_set_feature_enables( mixer, feature_count, features, feature_enables ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_video_mixer_set_attribute_values( VdpVideoMixer mixer, uint32_t attribute_count, VdpVideoMixerAttribute const * attributes, void const * const * attribute_values ) { VdpStatus ret; fputs("vdp_video_mixer_set_attribute_values(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, attribute_count); _vdp_cap_dump_video_mixer_attribute_list(attribute_count, attributes); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_attribute_value_list( attribute_count, attributes, attribute_values, false ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_set_attribute_values( mixer, attribute_count, attributes, attribute_values ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_video_mixer_get_feature_support( VdpVideoMixer mixer, uint32_t feature_count, VdpVideoMixerFeature const * features, /* output parameters follow */ VdpBool * feature_supports ) { VdpStatus ret; fputs("vdp_video_mixer_get_feature_support(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, feature_count); _vdp_cap_dump_video_mixer_feature_list(feature_count, features); fputs(feature_supports ? "-" : "NULL", _vdp_cap_data.fp); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_get_feature_support( mixer, feature_count, features, feature_supports ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_bool_list(feature_count, feature_supports); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_get_feature_enables( VdpVideoMixer mixer, uint32_t feature_count, VdpVideoMixerFeature const * features, /* output parameters follow */ VdpBool * feature_enables ) { VdpStatus ret; fputs("vdp_video_mixer_get_feature_enables(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, feature_count); _vdp_cap_dump_video_mixer_feature_list(feature_count, features); fprintf(_vdp_cap_data.fp, ", %s", feature_enables ? "-" : "NULL"); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_get_feature_enables( mixer, feature_count, features, feature_enables ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_bool_list(feature_count, feature_enables); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_get_parameter_values( VdpVideoMixer mixer, uint32_t parameter_count, VdpVideoMixerParameter const * parameters, /* output parameters follow */ void * const * parameter_values ) { VdpStatus ret; fputs("vdp_video_mixer_get_parameter_values(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, parameter_count); _vdp_cap_dump_video_mixer_parameter_list(parameter_count, parameters); fprintf(_vdp_cap_data.fp, ", %s", parameter_values ? "-" : "NULL"); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_get_parameter_values( mixer, parameter_count, parameters, parameter_values ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_parameter_value_list( parameter_count, parameters, parameter_values ); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_get_attribute_values( VdpVideoMixer mixer, uint32_t attribute_count, VdpVideoMixerAttribute const * attributes, /* output parameters follow */ void * const * attribute_values ) { VdpStatus ret; fputs("vdp_video_mixer_get_attribute_values(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, "%u, %u, ", mixer, attribute_count); _vdp_cap_dump_video_mixer_attribute_list(attribute_count, attributes); fprintf(_vdp_cap_data.fp, ", %s", attribute_values ? "-" : "NULL"); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_get_attribute_values( mixer, attribute_count, attributes, attribute_values ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_video_mixer_attribute_value_list( attribute_count, attributes, attribute_values, true ); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_video_mixer_destroy( VdpVideoMixer mixer ) { VdpStatus ret; fputs("vdp_video_mixer_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", mixer ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_destroy( mixer ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_video_mixer_render( VdpVideoMixer mixer, VdpOutputSurface background_surface, VdpRect const * background_source_rect, VdpVideoMixerPictureStructure current_picture_structure, uint32_t video_surface_past_count, VdpVideoSurface const * video_surface_past, VdpVideoSurface video_surface_current, uint32_t video_surface_future_count, VdpVideoSurface const * video_surface_future, VdpRect const * video_source_rect, VdpOutputSurface destination_surface, VdpRect const * destination_rect, VdpRect const * destination_video_rect, uint32_t layer_count, VdpLayer const * layers ) { VdpStatus ret; fputs("vdp_video_mixer_render(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, ", mixer, background_surface ); _vdp_cap_dump_rect(background_source_rect); fprintf( _vdp_cap_data.fp, ", %d, %u, ", current_picture_structure, video_surface_past_count ); _vdp_cap_dump_uint32_t_list(video_surface_past_count, video_surface_past, false); fprintf( _vdp_cap_data.fp, ", %u, %u, ", video_surface_current, video_surface_future_count ); _vdp_cap_dump_uint32_t_list(video_surface_future_count, video_surface_future, false); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(video_source_rect); fprintf( _vdp_cap_data.fp, ", %u, ", destination_surface ); _vdp_cap_dump_rect(destination_rect); fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_rect(destination_video_rect); fprintf( _vdp_cap_data.fp, ", %u, ", layer_count ); _vdp_cap_dump_layers_list(layer_count, layers); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_video_mixer_render( mixer, background_surface, background_source_rect, current_picture_structure, video_surface_past_count, video_surface_past, video_surface_current, video_surface_future_count, video_surface_future, video_source_rect, destination_surface, destination_rect, destination_video_rect, layer_count, layers ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_target_destroy( VdpPresentationQueueTarget presentation_queue_target ) { VdpStatus ret; fputs("vdp_presentation_queue_target_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", presentation_queue_target ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_target_destroy( presentation_queue_target ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_create( VdpDevice device, VdpPresentationQueueTarget presentation_queue_target, /* output parameters follow */ VdpPresentationQueue * presentation_queue ) { VdpStatus ret; fputs("vdp_presentation_queue_create(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, presentation_queue_target, presentation_queue ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_create( device, presentation_queue_target, presentation_queue ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (presentation_queue) { fprintf(_vdp_cap_data.fp, ", %u", *presentation_queue); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_presentation_queue_destroy( VdpPresentationQueue presentation_queue ) { VdpStatus ret; fputs("vdp_presentation_queue_destroy(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u", presentation_queue ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_destroy( presentation_queue ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_set_background_color( VdpPresentationQueue presentation_queue, VdpColor * const background_color ) { VdpStatus ret; fputs("vdp_presentation_queue_set_background_color(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, ", presentation_queue ); _vdp_cap_dump_color(background_color); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_set_background_color( presentation_queue, background_color ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_get_background_color( VdpPresentationQueue presentation_queue, VdpColor * background_color ) { VdpStatus ret; fputs("vdp_presentation_queue_get_background_color(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s", presentation_queue, background_color ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_get_background_color( presentation_queue, background_color ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fputs(", ", _vdp_cap_data.fp); _vdp_cap_dump_color(background_color); } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_presentation_queue_get_time( VdpPresentationQueue presentation_queue, /* output parameters follow */ VdpTime * current_time ) { VdpStatus ret; fputs("vdp_presentation_queue_get_time(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %s", presentation_queue, current_time ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_get_time( presentation_queue, current_time ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (current_time) { fprintf(_vdp_cap_data.fp, ", %" PRIu64, *current_time); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_presentation_queue_display( VdpPresentationQueue presentation_queue, VdpOutputSurface surface, uint32_t clip_width, uint32_t clip_height, VdpTime earliest_presentation_time ) { VdpStatus ret; fputs("vdp_presentation_queue_display(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %u, %u, %" PRIu64, presentation_queue, surface, clip_width, clip_height, earliest_presentation_time ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_display( presentation_queue, surface, clip_width, clip_height, earliest_presentation_time ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_block_until_surface_idle( VdpPresentationQueue presentation_queue, VdpOutputSurface surface, /* output parameters follow */ VdpTime * first_presentation_time ) { VdpStatus ret; fputs("vdp_presentation_queue_block_until_surface_idle(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", presentation_queue, surface, first_presentation_time ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_block_until_surface_idle( presentation_queue, surface, first_presentation_time ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (first_presentation_time) { fprintf(_vdp_cap_data.fp, ", %" PRIu64, *first_presentation_time); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_presentation_queue_query_surface_status( VdpPresentationQueue presentation_queue, VdpOutputSurface surface, /* output parameters follow */ VdpPresentationQueueStatus * status, VdpTime * first_presentation_time ) { VdpStatus ret; fputs("vdp_presentation_queue_query_surface_status(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s, %s", presentation_queue, surface, status ? "-" : "NULL", first_presentation_time ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_query_surface_status( presentation_queue, surface, status, first_presentation_time ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (status) { fprintf(_vdp_cap_data.fp, ", %d", *status); } else { fputs(", ???", _vdp_cap_data.fp); } if (first_presentation_time) { fprintf(_vdp_cap_data.fp, ", %" PRIu64, *first_presentation_time); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_preemption_callback_register( VdpDevice device, VdpPreemptionCallback callback, void * context ) { VdpStatus ret; fputs("vdp_preemption_callback_register(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %p, %p", device, callback, context ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_preemption_callback_register( device, callback, context ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d\n", ret); } return ret; } static VdpStatus _vdp_cap_presentation_queue_target_create_x11( VdpDevice device, Drawable drawable, /* output parameters follow */ VdpPresentationQueueTarget * target ) { VdpStatus ret; fprintf(_vdp_cap_data.fp, "vdp_presentation_queue_target_create_x11("); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %lu, %s", device, drawable, target ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); ret = _vdp_cap_data.vdp_presentation_queue_target_create_x11( device, drawable, target ); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { if (target) { fprintf(_vdp_cap_data.fp, ", %u", *target); } else { fputs(", ???", _vdp_cap_data.fp); } } fputs("\n", _vdp_cap_data.fp); } return ret; } static VdpStatus _vdp_cap_get_proc_address( VdpDevice device, VdpFuncId function_id, /* output parameters follow */ void * * function_pointer ) { VdpStatus ret; fputs("vdp_get_proc_address(", _vdp_cap_data.fp); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%u, %u, %s", device, function_id, function_pointer ? "-" : "NULL" ); } fputs(")\n", _vdp_cap_data.fp); if (device != _vdp_cap_data.vdp_device) { _VDP_TRACE_ERROR_BREAKPOINT(); ret = VDP_STATUS_ERROR; } else if (!function_pointer) { _VDP_TRACE_ERROR_BREAKPOINT(); ret = VDP_STATUS_ERROR; } else { ret = VDP_STATUS_OK; *function_pointer = 0; switch (function_id) { case VDP_FUNC_ID_GET_ERROR_STRING: if (_vdp_cap_data.vdp_get_error_string) { *function_pointer = (void *)&_vdp_cap_get_error_string; } break; case VDP_FUNC_ID_GET_PROC_ADDRESS: if (_vdp_cap_data.vdp_get_proc_address) { *function_pointer = (void *)&_vdp_cap_get_proc_address; } break; case VDP_FUNC_ID_GET_API_VERSION: if (_vdp_cap_data.vdp_get_api_version) { *function_pointer = (void *)&_vdp_cap_get_api_version; } break; case VDP_FUNC_ID_GET_INFORMATION_STRING: if (_vdp_cap_data.vdp_get_information_string) { *function_pointer = (void *)&_vdp_cap_get_information_string; } break; case VDP_FUNC_ID_DEVICE_DESTROY: if (_vdp_cap_data.vdp_device_destroy) { *function_pointer = (void *)&_vdp_cap_device_destroy; } break; case VDP_FUNC_ID_GENERATE_CSC_MATRIX: if (_vdp_cap_data.vdp_generate_csc_matrix) { *function_pointer = (void *)&_vdp_cap_generate_csc_matrix; } break; case VDP_FUNC_ID_VIDEO_SURFACE_QUERY_CAPABILITIES: if (_vdp_cap_data.vdp_video_surface_query_capabilities) { *function_pointer = (void *)&_vdp_cap_video_surface_query_capabilities; } break; case VDP_FUNC_ID_VIDEO_SURFACE_QUERY_GET_PUT_BITS_Y_CB_CR_CAPABILITIES: if (_vdp_cap_data.vdp_video_surface_query_get_put_bits_y_cb_cr_capabilities) { *function_pointer = (void *)&_vdp_cap_video_surface_query_get_put_bits_y_cb_cr_capabilities; } break; case VDP_FUNC_ID_VIDEO_SURFACE_CREATE: if (_vdp_cap_data.vdp_video_surface_create) { *function_pointer = (void *)&_vdp_cap_video_surface_create; } break; case VDP_FUNC_ID_VIDEO_SURFACE_DESTROY: if (_vdp_cap_data.vdp_video_surface_destroy) { *function_pointer = (void *)&_vdp_cap_video_surface_destroy; } break; case VDP_FUNC_ID_VIDEO_SURFACE_GET_PARAMETERS: if (_vdp_cap_data.vdp_video_surface_get_parameters) { *function_pointer = (void *)&_vdp_cap_video_surface_get_parameters; } break; case VDP_FUNC_ID_VIDEO_SURFACE_GET_BITS_Y_CB_CR: if (_vdp_cap_data.vdp_video_surface_get_bits_y_cb_cr) { *function_pointer = (void *)&_vdp_cap_video_surface_get_bits_y_cb_cr; } break; case VDP_FUNC_ID_VIDEO_SURFACE_PUT_BITS_Y_CB_CR: if (_vdp_cap_data.vdp_video_surface_put_bits_y_cb_cr) { *function_pointer = (void *)&_vdp_cap_video_surface_put_bits_y_cb_cr; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_CAPABILITIES: if (_vdp_cap_data.vdp_output_surface_query_capabilities) { *function_pointer = (void *)&_vdp_cap_output_surface_query_capabilities; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_GET_PUT_BITS_NATIVE_CAPABILITIES: if (_vdp_cap_data.vdp_output_surface_query_get_put_bits_native_capabilities) { *function_pointer = (void *)&_vdp_cap_output_surface_query_get_put_bits_native_capabilities; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_PUT_BITS_INDEXED_CAPABILITIES: if (_vdp_cap_data.vdp_output_surface_query_put_bits_indexed_capabilities) { *function_pointer = (void *)&_vdp_cap_output_surface_query_put_bits_indexed_capabilities; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_PUT_BITS_Y_CB_CR_CAPABILITIES: if (_vdp_cap_data.vdp_output_surface_query_put_bits_y_cb_cr_capabilities) { *function_pointer = (void *)&_vdp_cap_output_surface_query_put_bits_y_cb_cr_capabilities; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_CREATE: if (_vdp_cap_data.vdp_output_surface_create) { *function_pointer = (void *)&_vdp_cap_output_surface_create; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_DESTROY: if (_vdp_cap_data.vdp_output_surface_destroy) { *function_pointer = (void *)&_vdp_cap_output_surface_destroy; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_GET_PARAMETERS: if (_vdp_cap_data.vdp_output_surface_get_parameters) { *function_pointer = (void *)&_vdp_cap_output_surface_get_parameters; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_GET_BITS_NATIVE: if (_vdp_cap_data.vdp_output_surface_get_bits_native) { *function_pointer = (void *)&_vdp_cap_output_surface_get_bits_native; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_NATIVE: if (_vdp_cap_data.vdp_output_surface_put_bits_native) { *function_pointer = (void *)&_vdp_cap_output_surface_put_bits_native; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_INDEXED: if (_vdp_cap_data.vdp_output_surface_put_bits_indexed) { *function_pointer = (void *)&_vdp_cap_output_surface_put_bits_indexed; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_Y_CB_CR: if (_vdp_cap_data.vdp_output_surface_put_bits_y_cb_cr) { *function_pointer = (void *)&_vdp_cap_output_surface_put_bits_y_cb_cr; } break; case VDP_FUNC_ID_BITMAP_SURFACE_QUERY_CAPABILITIES: if (_vdp_cap_data.vdp_bitmap_surface_query_capabilities) { *function_pointer = (void *)&_vdp_cap_bitmap_surface_query_capabilities; } break; case VDP_FUNC_ID_BITMAP_SURFACE_CREATE: if (_vdp_cap_data.vdp_bitmap_surface_create) { *function_pointer = (void *)&_vdp_cap_bitmap_surface_create; } break; case VDP_FUNC_ID_BITMAP_SURFACE_DESTROY: if (_vdp_cap_data.vdp_bitmap_surface_destroy) { *function_pointer = (void *)&_vdp_cap_bitmap_surface_destroy; } break; case VDP_FUNC_ID_BITMAP_SURFACE_GET_PARAMETERS: if (_vdp_cap_data.vdp_bitmap_surface_get_parameters) { *function_pointer = (void *)&_vdp_cap_bitmap_surface_get_parameters; } break; case VDP_FUNC_ID_BITMAP_SURFACE_PUT_BITS_NATIVE: if (_vdp_cap_data.vdp_bitmap_surface_put_bits_native) { *function_pointer = (void *)&_vdp_cap_bitmap_surface_put_bits_native; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_RENDER_OUTPUT_SURFACE: if (_vdp_cap_data.vdp_output_surface_render_output_surface) { *function_pointer = (void *)&_vdp_cap_output_surface_render_output_surface; } break; case VDP_FUNC_ID_OUTPUT_SURFACE_RENDER_BITMAP_SURFACE: if (_vdp_cap_data.vdp_output_surface_render_bitmap_surface) { *function_pointer = (void *)&_vdp_cap_output_surface_render_bitmap_surface; } break; case VDP_FUNC_ID_DECODER_QUERY_CAPABILITIES: if (_vdp_cap_data.vdp_decoder_query_capabilities) { *function_pointer = (void *)&_vdp_cap_decoder_query_capabilities; } break; case VDP_FUNC_ID_DECODER_CREATE: if (_vdp_cap_data.vdp_decoder_create) { *function_pointer = (void *)&_vdp_cap_decoder_create; } break; case VDP_FUNC_ID_DECODER_DESTROY: if (_vdp_cap_data.vdp_decoder_destroy) { *function_pointer = (void *)&_vdp_cap_decoder_destroy; } break; case VDP_FUNC_ID_DECODER_GET_PARAMETERS: if (_vdp_cap_data.vdp_decoder_get_parameters) { *function_pointer = (void *)&_vdp_cap_decoder_get_parameters; } break; case VDP_FUNC_ID_DECODER_RENDER: if (_vdp_cap_data.vdp_decoder_render) { *function_pointer = (void *)&_vdp_cap_decoder_render; } break; case VDP_FUNC_ID_VIDEO_MIXER_QUERY_FEATURE_SUPPORT: if (_vdp_cap_data.vdp_video_mixer_query_feature_support) { *function_pointer = (void *)&_vdp_cap_video_mixer_query_feature_support; } break; case VDP_FUNC_ID_VIDEO_MIXER_QUERY_PARAMETER_SUPPORT: if (_vdp_cap_data.vdp_video_mixer_query_parameter_support) { *function_pointer = (void *)&_vdp_cap_video_mixer_query_parameter_support; } break; case VDP_FUNC_ID_VIDEO_MIXER_QUERY_ATTRIBUTE_SUPPORT: if (_vdp_cap_data.vdp_video_mixer_query_attribute_support) { *function_pointer = (void *)&_vdp_cap_video_mixer_query_attribute_support; } break; case VDP_FUNC_ID_VIDEO_MIXER_QUERY_PARAMETER_VALUE_RANGE: if (_vdp_cap_data.vdp_video_mixer_query_parameter_value_range) { *function_pointer = (void *)&_vdp_cap_video_mixer_query_parameter_value_range; } break; case VDP_FUNC_ID_VIDEO_MIXER_QUERY_ATTRIBUTE_VALUE_RANGE: if (_vdp_cap_data.vdp_video_mixer_query_attribute_value_range) { *function_pointer = (void *)&_vdp_cap_video_mixer_query_attribute_value_range; } break; case VDP_FUNC_ID_VIDEO_MIXER_CREATE: if (_vdp_cap_data.vdp_video_mixer_create) { *function_pointer = (void *)&_vdp_cap_video_mixer_create; } break; case VDP_FUNC_ID_VIDEO_MIXER_SET_FEATURE_ENABLES: if (_vdp_cap_data.vdp_video_mixer_set_feature_enables) { *function_pointer = (void *)&_vdp_cap_video_mixer_set_feature_enables; } break; case VDP_FUNC_ID_VIDEO_MIXER_SET_ATTRIBUTE_VALUES: if (_vdp_cap_data.vdp_video_mixer_set_attribute_values) { *function_pointer = (void *)&_vdp_cap_video_mixer_set_attribute_values; } break; case VDP_FUNC_ID_VIDEO_MIXER_GET_FEATURE_SUPPORT: if (_vdp_cap_data.vdp_video_mixer_get_feature_support) { *function_pointer = (void *)&_vdp_cap_video_mixer_get_feature_support; } break; case VDP_FUNC_ID_VIDEO_MIXER_GET_FEATURE_ENABLES: if (_vdp_cap_data.vdp_video_mixer_get_feature_enables) { *function_pointer = (void *)&_vdp_cap_video_mixer_get_feature_enables; } break; case VDP_FUNC_ID_VIDEO_MIXER_GET_PARAMETER_VALUES: if (_vdp_cap_data.vdp_video_mixer_get_parameter_values) { *function_pointer = (void *)&_vdp_cap_video_mixer_get_parameter_values; } break; case VDP_FUNC_ID_VIDEO_MIXER_GET_ATTRIBUTE_VALUES: if (_vdp_cap_data.vdp_video_mixer_get_attribute_values) { *function_pointer = (void *)&_vdp_cap_video_mixer_get_attribute_values; } break; case VDP_FUNC_ID_VIDEO_MIXER_DESTROY: if (_vdp_cap_data.vdp_video_mixer_destroy) { *function_pointer = (void *)&_vdp_cap_video_mixer_destroy; } break; case VDP_FUNC_ID_VIDEO_MIXER_RENDER: if (_vdp_cap_data.vdp_video_mixer_render) { *function_pointer = (void *)&_vdp_cap_video_mixer_render; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_TARGET_DESTROY: if (_vdp_cap_data.vdp_presentation_queue_target_destroy) { *function_pointer = (void *)&_vdp_cap_presentation_queue_target_destroy; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_CREATE: if (_vdp_cap_data.vdp_presentation_queue_create) { *function_pointer = (void *)&_vdp_cap_presentation_queue_create; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_DESTROY: if (_vdp_cap_data.vdp_presentation_queue_destroy) { *function_pointer = (void *)&_vdp_cap_presentation_queue_destroy; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_SET_BACKGROUND_COLOR: if (_vdp_cap_data.vdp_presentation_queue_set_background_color) { *function_pointer = (void *)&_vdp_cap_presentation_queue_set_background_color; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_GET_BACKGROUND_COLOR: if (_vdp_cap_data.vdp_presentation_queue_get_background_color) { *function_pointer = (void *)&_vdp_cap_presentation_queue_get_background_color; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_GET_TIME: if (_vdp_cap_data.vdp_presentation_queue_get_time) { *function_pointer = (void *)&_vdp_cap_presentation_queue_get_time; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_DISPLAY: if (_vdp_cap_data.vdp_presentation_queue_display) { *function_pointer = (void *)&_vdp_cap_presentation_queue_display; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_BLOCK_UNTIL_SURFACE_IDLE: if (_vdp_cap_data.vdp_presentation_queue_block_until_surface_idle) { *function_pointer = (void *)&_vdp_cap_presentation_queue_block_until_surface_idle; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_QUERY_SURFACE_STATUS: if (_vdp_cap_data.vdp_presentation_queue_query_surface_status) { *function_pointer = (void *)&_vdp_cap_presentation_queue_query_surface_status; } break; case VDP_FUNC_ID_PREEMPTION_CALLBACK_REGISTER: if (_vdp_cap_data.vdp_preemption_callback_register) { *function_pointer = (void *)&_vdp_cap_preemption_callback_register; } break; case VDP_FUNC_ID_PRESENTATION_QUEUE_TARGET_CREATE_X11: if (_vdp_cap_data.vdp_presentation_queue_target_create_x11) { *function_pointer = (void *)&_vdp_cap_presentation_queue_target_create_x11; } break; default: fprintf( _vdp_cap_data.fp, "VDPAU capture: Not able to proxy function %d", function_id ); ret = _vdp_cap_data.vdp_get_proc_address(device, function_id, function_pointer); break; } if ((ret == VDP_STATUS_OK) && !*function_pointer) { ret = VDP_STATUS_INVALID_FUNC_ID; } } if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", ret); if (ret == VDP_STATUS_OK) { fprintf( _vdp_cap_data.fp, ", %p", *function_pointer ); } fputs("\n", _vdp_cap_data.fp); } return ret; } extern "C" void vdp_trace_set_backend_handle( void * driver_dll_handle ) { _vdp_cap_data.dll = driver_dll_handle; } extern "C" VdpDeviceCreateX11 vdp_trace_device_create_x11; VdpStatus vdp_trace_device_create_x11( Display * display, int screen, /* output parameters follow */ VdpDevice * device, VdpGetProcAddress * * get_proc_address ) { if (!device || !get_proc_address) { _VDP_TRACE_ERROR_BREAKPOINT(); return VDP_STATUS_INVALID_POINTER; } // For now, the capture library only allows a single VdpDevice // This could probably be fixed by dynamically associating most of // _vdp_cap_data with a VdpDevice handle. if (_vdp_cap_data.fp) { fprintf(_vdp_cap_data.fp, "VDPAU trace: Multiple devices created; " "will return get_proc_address results from the latest only\n" ); } else { _vdp_cap_data.level = 0; char const * vdpau_trace = secure_getenv("VDPAU_TRACE"); if (vdpau_trace) { _vdp_cap_data.level = atoi(vdpau_trace); } _vdp_cap_data.fp = 0; char const * vdpau_trace_file = secure_getenv("VDPAU_TRACE_FILE"); if (vdpau_trace_file && strlen(vdpau_trace_file)) { if (vdpau_trace_file[0] == '&') { int fd = atoi(&vdpau_trace_file[1]); _vdp_cap_data.fp = fdopen(fd, "wt"); } else { _vdp_cap_data.fp = fopen(vdpau_trace_file, "wt"); } if (!_vdp_cap_data.fp) { fprintf( stderr, "VDPAU capture: ERROR: Can't open '%s' for writing, defaulting to stderr\n", vdpau_trace_file ); } } if (!_vdp_cap_data.fp) { _vdp_cap_data.fp = stderr; } fprintf(_vdp_cap_data.fp, "VDPAU capture: Enabled\n"); } fprintf(_vdp_cap_data.fp, "vdp_imp_device_create_x11("); if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf( _vdp_cap_data.fp, "%p, %d, -, -", display, screen ); } fputs(")\n", _vdp_cap_data.fp); VdpStatus vdp_st = VDP_STATUS_ERROR; VdpDeviceCreateX11 * vdp_imp_device_create_x11; vdp_imp_device_create_x11 = (VdpDeviceCreateX11*)dlsym( _vdp_cap_data.dll, "vdp_imp_device_create_x11" ); if (!vdp_imp_device_create_x11) { _VDP_TRACE_ERROR_BREAKPOINT(); vdp_st = VDP_STATUS_NO_IMPLEMENTATION; goto done; } vdp_st = vdp_imp_device_create_x11( display, screen, &_vdp_cap_data.vdp_device, &_vdp_cap_data.vdp_get_proc_address ); if (vdp_st != VDP_STATUS_OK) { _VDP_TRACE_ERROR_BREAKPOINT(); goto done; } *device = _vdp_cap_data.vdp_device; *get_proc_address = _vdp_cap_get_proc_address; #define GET_POINTER(_id_, _var_) \ vdp_st = _vdp_cap_data.vdp_get_proc_address( \ _vdp_cap_data.vdp_device, \ (_id_), \ (void * *)&_vdp_cap_data._var_ \ ); \ if (vdp_st != VDP_STATUS_OK) { \ _vdp_cap_data._var_ = 0; \ } GET_POINTER(VDP_FUNC_ID_PREEMPTION_CALLBACK_REGISTER, vdp_preemption_callback_register); GET_POINTER(VDP_FUNC_ID_GET_ERROR_STRING, vdp_get_error_string); GET_POINTER(VDP_FUNC_ID_GET_API_VERSION, vdp_get_api_version); GET_POINTER(VDP_FUNC_ID_GET_INFORMATION_STRING, vdp_get_information_string); GET_POINTER(VDP_FUNC_ID_DEVICE_DESTROY, vdp_device_destroy); GET_POINTER(VDP_FUNC_ID_GENERATE_CSC_MATRIX, vdp_generate_csc_matrix); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_QUERY_CAPABILITIES, vdp_video_surface_query_capabilities); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_QUERY_GET_PUT_BITS_Y_CB_CR_CAPABILITIES, vdp_video_surface_query_get_put_bits_y_cb_cr_capabilities); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_CREATE, vdp_video_surface_create); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_DESTROY, vdp_video_surface_destroy); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_GET_PARAMETERS, vdp_video_surface_get_parameters); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_GET_BITS_Y_CB_CR, vdp_video_surface_get_bits_y_cb_cr); GET_POINTER(VDP_FUNC_ID_VIDEO_SURFACE_PUT_BITS_Y_CB_CR, vdp_video_surface_put_bits_y_cb_cr); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_CAPABILITIES, vdp_output_surface_query_capabilities); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_GET_PUT_BITS_NATIVE_CAPABILITIES, vdp_output_surface_query_get_put_bits_native_capabilities); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_PUT_BITS_INDEXED_CAPABILITIES, vdp_output_surface_query_put_bits_indexed_capabilities); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_QUERY_PUT_BITS_Y_CB_CR_CAPABILITIES, vdp_output_surface_query_put_bits_y_cb_cr_capabilities); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_CREATE, vdp_output_surface_create); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_DESTROY, vdp_output_surface_destroy); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_GET_PARAMETERS, vdp_output_surface_get_parameters); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_GET_BITS_NATIVE, vdp_output_surface_get_bits_native); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_NATIVE, vdp_output_surface_put_bits_native); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_INDEXED, vdp_output_surface_put_bits_indexed); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_PUT_BITS_Y_CB_CR, vdp_output_surface_put_bits_y_cb_cr); GET_POINTER(VDP_FUNC_ID_BITMAP_SURFACE_QUERY_CAPABILITIES, vdp_bitmap_surface_query_capabilities); GET_POINTER(VDP_FUNC_ID_BITMAP_SURFACE_CREATE, vdp_bitmap_surface_create); GET_POINTER(VDP_FUNC_ID_BITMAP_SURFACE_DESTROY, vdp_bitmap_surface_destroy); GET_POINTER(VDP_FUNC_ID_BITMAP_SURFACE_GET_PARAMETERS, vdp_bitmap_surface_get_parameters); GET_POINTER(VDP_FUNC_ID_BITMAP_SURFACE_PUT_BITS_NATIVE, vdp_bitmap_surface_put_bits_native); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_RENDER_OUTPUT_SURFACE, vdp_output_surface_render_output_surface); GET_POINTER(VDP_FUNC_ID_OUTPUT_SURFACE_RENDER_BITMAP_SURFACE, vdp_output_surface_render_bitmap_surface); GET_POINTER(VDP_FUNC_ID_DECODER_QUERY_CAPABILITIES, vdp_decoder_query_capabilities); GET_POINTER(VDP_FUNC_ID_DECODER_CREATE, vdp_decoder_create); GET_POINTER(VDP_FUNC_ID_DECODER_DESTROY, vdp_decoder_destroy); GET_POINTER(VDP_FUNC_ID_DECODER_GET_PARAMETERS, vdp_decoder_get_parameters); GET_POINTER(VDP_FUNC_ID_DECODER_RENDER, vdp_decoder_render); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_QUERY_FEATURE_SUPPORT, vdp_video_mixer_query_feature_support); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_QUERY_PARAMETER_SUPPORT, vdp_video_mixer_query_parameter_support); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_QUERY_ATTRIBUTE_SUPPORT, vdp_video_mixer_query_attribute_support); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_QUERY_PARAMETER_VALUE_RANGE, vdp_video_mixer_query_parameter_value_range); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_QUERY_ATTRIBUTE_VALUE_RANGE, vdp_video_mixer_query_attribute_value_range); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_CREATE, vdp_video_mixer_create); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_SET_FEATURE_ENABLES, vdp_video_mixer_set_feature_enables); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_SET_ATTRIBUTE_VALUES, vdp_video_mixer_set_attribute_values); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_GET_FEATURE_SUPPORT, vdp_video_mixer_get_feature_support); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_GET_FEATURE_ENABLES, vdp_video_mixer_get_feature_enables); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_GET_PARAMETER_VALUES, vdp_video_mixer_get_parameter_values); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_GET_ATTRIBUTE_VALUES, vdp_video_mixer_get_attribute_values); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_DESTROY, vdp_video_mixer_destroy); GET_POINTER(VDP_FUNC_ID_VIDEO_MIXER_RENDER, vdp_video_mixer_render); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_TARGET_DESTROY, vdp_presentation_queue_target_destroy); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_CREATE, vdp_presentation_queue_create); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_DESTROY, vdp_presentation_queue_destroy); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_SET_BACKGROUND_COLOR, vdp_presentation_queue_set_background_color); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_GET_BACKGROUND_COLOR, vdp_presentation_queue_get_background_color); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_GET_TIME, vdp_presentation_queue_get_time); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_DISPLAY, vdp_presentation_queue_display); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_BLOCK_UNTIL_SURFACE_IDLE, vdp_presentation_queue_block_until_surface_idle); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_QUERY_SURFACE_STATUS, vdp_presentation_queue_query_surface_status); GET_POINTER(VDP_FUNC_ID_PREEMPTION_CALLBACK_REGISTER, vdp_preemption_callback_register); GET_POINTER(VDP_FUNC_ID_PRESENTATION_QUEUE_TARGET_CREATE_X11, vdp_presentation_queue_target_create_x11); vdp_st = VDP_STATUS_OK; done: if (_vdp_cap_data.level >= LEVEL_PARAMS) { fprintf(_vdp_cap_data.fp, " -> %d", vdp_st); if (vdp_st == VDP_STATUS_OK) { fprintf( _vdp_cap_data.fp, ", %x, %p", _vdp_cap_data.vdp_device, _vdp_cap_data.vdp_get_proc_address ); } fputs("\n", _vdp_cap_data.fp); } return vdp_st; }