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bf6959000f
Add standalone test application that demonstrates how to use the new VP8 bitstream parsing library, while also allowing simple debugging/ tracing of IVF files. [clean-ups, updated to new parser API] Signed-off-by: Gwenole Beauchesne <gwenole.beauchesne@intel.com>
395 lines
12 KiB
C
395 lines
12 KiB
C
/*
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* vp8parser-test.c - Print IVF/VP8 headers
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*
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* Copyright (C) 2013-2014 Intel Corporation
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* Author: Halley Zhao <halley.zhao@intel.com>
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* Author: Gwenole Beauchesne <gwenole.beauchesne@intel.com>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the
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* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#include <stdio.h>
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#include <string.h>
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#include <errno.h>
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#include <gst/gst.h>
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#include <gst/base/gstbytereader.h>
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#include <gst/codecparsers/gstvp8parser.h>
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#define FOURCC_VP80 GST_MAKE_FOURCC('V','P','8','0')
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#define IVF_FILE_HDR_SIZE 32
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#define IVF_FRAME_HDR_SIZE 12
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/* Maximum VP8 Frame Header size in bits */
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#define VP8_FRAME_HDR_SIZE 10127
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typedef struct _IVFFileHdr IVFFileHdr;
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struct _IVFFileHdr
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{
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guint16 version;
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guint16 length;
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guint32 fourcc;
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guint16 width;
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guint16 height;
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guint32 framerate;
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guint32 time_scale;
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guint32 num_frames;
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};
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typedef struct _IVFFrameHdr IVFFrameHdr;
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struct _IVFFrameHdr
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{
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guint32 frame_size;
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guint64 timestamp;
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};
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static gboolean
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parse_ivf_file_header (IVFFileHdr * ivf_hdr, guint8 * data, guint size)
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{
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GstByteReader br;
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if (size < IVF_FILE_HDR_SIZE) {
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g_warning ("size is smaller than IVF file header");
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goto error;
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}
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g_assert (data[0] == 'D' && data[1] == 'K' && data[2] == 'I'
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&& data[3] == 'F');
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gst_byte_reader_init (&br, data, size);
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gst_byte_reader_skip (&br, 4);
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if (!gst_byte_reader_get_uint16_le (&br, &ivf_hdr->version))
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goto error;
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g_assert (ivf_hdr->version == 0);
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if (!gst_byte_reader_get_uint16_le (&br, &ivf_hdr->length))
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goto error;
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g_assert (ivf_hdr->length == 0x20);
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if (!gst_byte_reader_get_uint32_le (&br, &ivf_hdr->fourcc))
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goto error;
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g_assert (ivf_hdr->fourcc == FOURCC_VP80);
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if (!gst_byte_reader_get_uint16_le (&br, &ivf_hdr->width))
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goto error;
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if (!gst_byte_reader_get_uint16_le (&br, &ivf_hdr->height))
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goto error;
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if (!gst_byte_reader_get_uint32_le (&br, &ivf_hdr->framerate))
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goto error;
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if (!gst_byte_reader_get_uint32_le (&br, &ivf_hdr->time_scale))
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goto error;
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if (!gst_byte_reader_get_uint32_le (&br, &ivf_hdr->num_frames))
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goto error;
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g_print ("IVF File Information:\n");
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g_print (" %-32s : %u\n", "version", ivf_hdr->version);
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g_print (" %-32s : %u\n", "length", ivf_hdr->length);
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g_print (" %-32s : '%" GST_FOURCC_FORMAT "'\n", "fourcc",
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GST_FOURCC_ARGS (ivf_hdr->fourcc));
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g_print (" %-32s : %u\n", "width", ivf_hdr->width);
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g_print (" %-32s : %u\n", "height", ivf_hdr->height);
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g_print (" %-32s : %u\n", "framerate", ivf_hdr->framerate);
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g_print (" %-32s : %u\n", "time_scale", ivf_hdr->time_scale);
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g_print (" %-32s : %u\n", "num_frames", ivf_hdr->num_frames);
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g_print ("\n");
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return TRUE;
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error:
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return FALSE;
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}
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static gboolean
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parse_ivf_frame_header (IVFFrameHdr * frm_hdr, guint8 * data, guint size)
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{
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GstByteReader br;
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if (size < IVF_FRAME_HDR_SIZE) {
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g_warning ("size is smaller than IVF frame header");
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goto error;
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}
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gst_byte_reader_init (&br, data, size);
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if (!gst_byte_reader_get_uint32_le (&br, &frm_hdr->frame_size))
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goto error;
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if (!gst_byte_reader_get_uint64_le (&br, &frm_hdr->timestamp))
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goto error;
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g_print ("IVF Frame Information:\n");
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g_print (" %-32s : %u\n", "size", frm_hdr->frame_size);
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g_print (" %-32s : %" G_GINT64_FORMAT " \n", "timestamp",
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frm_hdr->timestamp);
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g_print ("\n");
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return TRUE;
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error:
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return FALSE;
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}
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static void
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print_segmentation (GstVp8Segmentation * seg)
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{
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gint i;
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g_print ("+ Segmentation:\n");
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g_print (" %-32s : %d\n", "segmentation_enabled", seg->segmentation_enabled);
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g_print (" %-32s : %d\n", "update_mb_segmentation_map",
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seg->update_mb_segmentation_map);
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g_print (" %-32s : %d\n", "update_segment_feature_data",
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seg->update_segment_feature_data);
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if (seg->update_segment_feature_data) {
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g_print (" %-32s : %d\n", "segment_feature_mode",
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seg->segment_feature_mode);
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g_print (" %-32s : %d", "quantizer_update_value",
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seg->quantizer_update_value[0]);
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for (i = 1; i < 4; i++) {
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g_print (", %d", seg->quantizer_update_value[i]);
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}
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g_print ("\n");
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g_print (" %-32s : %d", "lf_update_value", seg->lf_update_value[0]);
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for (i = 1; i < 4; i++) {
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g_print (", %d", seg->lf_update_value[i]);
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}
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g_print ("\n");
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}
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if (seg->update_mb_segmentation_map) {
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g_print (" %-32s : %d", "segment_prob", seg->segment_prob[0]);
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for (i = 1; i < 3; i++) {
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g_print (", %d", seg->segment_prob[i]);
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}
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g_print ("\n");
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}
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}
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static void
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print_mb_lf_adjustments (GstVp8MbLfAdjustments * adj)
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{
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gint i;
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g_print ("+ MB Loop-Filter Adjustments:\n");
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g_print (" %-32s : %d\n", "loop_filter_adj_enable",
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adj->loop_filter_adj_enable);
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if (adj->loop_filter_adj_enable) {
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g_print (" %-32s : %d\n", "mode_ref_lf_delta_update",
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adj->mode_ref_lf_delta_update);
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if (adj->mode_ref_lf_delta_update) {
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g_print (" %-32s : %d", "ref_frame_delta", adj->ref_frame_delta[0]);
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for (i = 1; i < 4; i++) {
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g_print (", %d", adj->ref_frame_delta[i]);
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}
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g_print ("\n");
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g_print (" %-32s : %d", "mb_mode_delta", adj->mb_mode_delta[0]);
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for (i = 1; i < 4; i++) {
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g_print (", %d", adj->mb_mode_delta[i]);
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}
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g_print ("\n");
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}
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}
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}
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static void
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print_quant_indices (GstVp8QuantIndices * qip)
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{
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g_print ("+ Dequantization Indices:\n");
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g_print (" %-32s : %d\n", "y_ac_qi", qip->y_ac_qi);
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g_print (" %-32s : %d\n", "y_dc_delta", qip->y_dc_delta);
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g_print (" %-32s : %d\n", "y2_dc_delta", qip->y2_dc_delta);
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g_print (" %-32s : %d\n", "y2_ac_delta", qip->y2_ac_delta);
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g_print (" %-32s : %d\n", "uv_dc_delta", qip->uv_dc_delta);
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g_print (" %-32s : %d\n", "uv_ac_delta", qip->uv_ac_delta);
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}
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static void
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print_mv_probs (GstVp8MvProbs * probs)
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{
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gint i, j;
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g_print ("+ MV Probabilities:\n");
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for (j = 0; j < 2; j++) {
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g_print (" %-32s : %d", j == 0 ? "row" : "column", probs->prob[j][0]);
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for (i = 1; i < 19; i++) {
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g_print (", %d", probs->prob[j][i]);
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}
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g_print ("\n");
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}
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}
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static void
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print_mode_probs (GstVp8ModeProbs * probs)
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{
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gint i;
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g_print ("+ Intra-mode Probabilities:\n");
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g_print (" %-32s : %d", "luma", probs->y_prob[0]);
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for (i = 1; i < 4; i++) {
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g_print (", %d", probs->y_prob[i]);
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}
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g_print ("\n");
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g_print (" %-32s : %d", "chroma", probs->uv_prob[0]);
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for (i = 1; i < 3; i++) {
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g_print (", %d", probs->uv_prob[i]);
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}
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g_print ("\n");
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}
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static void
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print_frame_header (GstVp8FrameHdr * frame_hdr)
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{
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g_print (" %-32s : %d\n", "key_frame", frame_hdr->key_frame);
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g_print (" %-32s : %d\n", "version", frame_hdr->version);
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g_print (" %-32s : %d\n", "show_frame", frame_hdr->show_frame);
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g_print (" %-32s : %d\n", "first_part_size", frame_hdr->first_part_size);
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if (frame_hdr->key_frame) {
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g_print (" %-32s : %d\n", "width", frame_hdr->width);
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g_print (" %-32s : %d\n", "height", frame_hdr->height);
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g_print (" %-32s : %d\n", "horizontal_scale", frame_hdr->horiz_scale_code);
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g_print (" %-32s : %d\n", "vertical_scale", frame_hdr->vert_scale_code);
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}
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if (frame_hdr->key_frame) {
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g_print (" %-32s : %d\n", "color_space", frame_hdr->color_space);
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g_print (" %-32s : %d\n", "clamping_type", frame_hdr->clamping_type);
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}
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g_print (" %-32s : %d\n", "filter_type", frame_hdr->filter_type);
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g_print (" %-32s : %d\n", "loop_filter_level", frame_hdr->loop_filter_level);
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g_print (" %-32s : %d\n", "sharpness_level", frame_hdr->sharpness_level);
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g_print (" %-32s : %d\n", "log2_nbr_of_dct_partitions",
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frame_hdr->log2_nbr_of_dct_partitions);
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if (frame_hdr->key_frame) {
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g_print (" %-32s : %d\n", "refresh_entropy_probs",
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frame_hdr->refresh_entropy_probs);
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} else {
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g_print (" %-32s : %d\n", "refresh_golden_frame",
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frame_hdr->refresh_golden_frame);
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g_print (" %-32s : %d\n", "refresh_alternate_frame",
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frame_hdr->refresh_alternate_frame);
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if (!frame_hdr->refresh_golden_frame) {
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g_print (" %-32s : %d\n", "copy_buffer_to_golden",
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frame_hdr->copy_buffer_to_golden);
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}
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if (!frame_hdr->refresh_alternate_frame) {
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g_print (" %-32s : %d\n", "copy_buffer_to_alternate",
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frame_hdr->copy_buffer_to_alternate);
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}
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g_print (" %-32s : %d\n", "sign_bias_golden", frame_hdr->sign_bias_golden);
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g_print (" %-32s : %d\n", "sign_bias_alternate",
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frame_hdr->sign_bias_alternate);
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g_print (" %-32s : %d\n", "refresh_entropy_probs",
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frame_hdr->refresh_entropy_probs);
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g_print (" %-32s : %d\n", "refresh_last", frame_hdr->refresh_last);
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}
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g_print (" %-32s : %d\n", "mb_no_skip_coeff", frame_hdr->mb_no_skip_coeff);
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if (frame_hdr->mb_no_skip_coeff) {
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g_print (" %-32s : %d\n", "prob_skip_false", frame_hdr->prob_skip_false);
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}
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if (!frame_hdr->key_frame) {
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g_print (" %-32s : %d\n", "prob_intra", frame_hdr->prob_intra);
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g_print (" %-32s : %d\n", "prob_last", frame_hdr->prob_last);
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g_print (" %-32s : %d\n", "prob_gf", frame_hdr->prob_gf);
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}
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print_quant_indices (&frame_hdr->quant_indices);
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print_mv_probs (&frame_hdr->mv_probs);
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print_mode_probs (&frame_hdr->mode_probs);
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}
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gint
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main (int argc, char **argv)
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{
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FILE *fp = NULL;
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guint8 buf[(VP8_FRAME_HDR_SIZE + 7) / 8];
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IVFFileHdr ivf_file_hdr;
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IVFFrameHdr ivf_frame_hdr;
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GstVp8Parser parser;
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GstVp8FrameHdr frame_hdr;
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guint hdr_size, frame_num = 0;
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g_assert (sizeof (buf) >= IVF_FILE_HDR_SIZE);
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g_assert (sizeof (buf) >= IVF_FRAME_HDR_SIZE);
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if (argc < 2) {
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g_printerr ("Usage: %s <IVF file>\n", argv[0]);
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return 1;
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}
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fp = fopen (argv[1], "r");
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if (!fp) {
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g_printerr ("failed to open IVF file (%s)\n", argv[1]);
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goto error;
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}
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if (fread (buf, IVF_FILE_HDR_SIZE, 1, fp) != 1) {
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g_printerr ("failed to read IVF header\n");
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goto error;
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}
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if (!parse_ivf_file_header (&ivf_file_hdr, buf, IVF_FILE_HDR_SIZE)) {
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g_printerr ("failed to parse IVF header\n");
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goto error;
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}
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gst_vp8_parser_init (&parser);
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while (fread (buf, IVF_FRAME_HDR_SIZE, 1, fp) == 1) {
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if (!parse_ivf_frame_header (&ivf_frame_hdr, buf, IVF_FRAME_HDR_SIZE)) {
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g_printerr ("fail to parse IVF frame header\n");
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goto error;
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}
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g_print ("Frame #%d @ offset %lu\n", frame_num, (gulong) ftell (fp));
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hdr_size = MIN (sizeof (buf), ivf_frame_hdr.frame_size);
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if (fread (buf, hdr_size, 1, fp) != 1) {
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g_printerr ("failed to read VP8 frame header\n");
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goto error;
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}
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hdr_size = ivf_frame_hdr.frame_size - hdr_size;
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if (hdr_size > 0 && fseek (fp, hdr_size, SEEK_CUR) != 0) {
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g_printerr ("failed to skip frame data (%u bytes): %s\n",
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ivf_frame_hdr.frame_size, strerror (errno));
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goto error;
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}
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memset (&frame_hdr, 0, sizeof (frame_hdr));
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if (gst_vp8_parser_parse_frame_header (&parser, &frame_hdr, buf,
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ivf_frame_hdr.frame_size) != GST_VP8_PARSER_OK) {
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g_printerr ("failed to parse frame header\n");
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goto error;
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}
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print_frame_header (&frame_hdr);
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print_segmentation (&parser.segmentation);
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print_mb_lf_adjustments (&parser.mb_lf_adjust);
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g_print ("\n");
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frame_num++;
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}
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fclose (fp);
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return 0;
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error:
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if (fp)
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fclose (fp);
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return 1;
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}
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