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abe16daea1
Turn tracing into callbacks for each syntax element, with default callbacks to match current trace_headers behaviour for debug. Move the construction of bit strings into the trace callback, which simplifies all of the read and write functions. Signed-off-by: Fei Wang <fei.w.wang@intel.com> Reviewed-by: Neal Gompa <ngompa13@gmail.com>
347 lines
13 KiB
C
347 lines
13 KiB
C
/*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg 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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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef AVCODEC_CBS_INTERNAL_H
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#define AVCODEC_CBS_INTERNAL_H
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#include <stdint.h>
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#include "libavutil/buffer.h"
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#include "libavutil/log.h"
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#include "cbs.h"
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#include "codec_id.h"
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#include "get_bits.h"
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#include "put_bits.h"
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enum CBSContentType {
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// Unit content may contain some references to other structures, but all
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// managed via buffer reference counting. The descriptor defines the
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// structure offsets of every buffer reference.
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CBS_CONTENT_TYPE_INTERNAL_REFS,
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// Unit content is something more complex. The descriptor defines
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// special functions to manage the content.
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CBS_CONTENT_TYPE_COMPLEX,
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};
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enum {
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// Maximum number of unit types described by the same non-range
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// unit type descriptor.
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CBS_MAX_LIST_UNIT_TYPES = 3,
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// Maximum number of reference buffer offsets in any one unit.
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CBS_MAX_REF_OFFSETS = 2,
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// Special value used in a unit type descriptor to indicate that it
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// applies to a large range of types rather than a set of discrete
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// values.
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CBS_UNIT_TYPE_RANGE = -1,
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};
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typedef const struct CodedBitstreamUnitTypeDescriptor {
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// Number of entries in the unit_types array, or the special value
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// CBS_UNIT_TYPE_RANGE to indicate that the range fields should be
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// used instead.
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int nb_unit_types;
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union {
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// Array of unit types that this entry describes.
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CodedBitstreamUnitType list[CBS_MAX_LIST_UNIT_TYPES];
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// Start and end of unit type range, used if nb_unit_types is
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// CBS_UNIT_TYPE_RANGE.
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struct {
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CodedBitstreamUnitType start;
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CodedBitstreamUnitType end;
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} range;
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} unit_type;
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// The type of content described.
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enum CBSContentType content_type;
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// The size of the structure which should be allocated to contain
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// the decomposed content of this type of unit.
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size_t content_size;
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union {
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// This union's state is determined by content_type:
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// ref for CBS_CONTENT_TYPE_INTERNAL_REFS,
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// complex for CBS_CONTENT_TYPE_COMPLEX.
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struct {
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// Number of entries in the ref_offsets array.
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// May be zero, then the structure is POD-like.
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int nb_offsets;
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// The structure must contain two adjacent elements:
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// type *field;
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// AVBufferRef *field_ref;
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// where field points to something in the buffer referred to by
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// field_ref. This offset is then set to offsetof(struct, field).
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size_t offsets[CBS_MAX_REF_OFFSETS];
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} ref;
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struct {
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void (*content_free)(void *opaque, uint8_t *data);
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int (*content_clone)(AVBufferRef **ref, CodedBitstreamUnit *unit);
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} complex;
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} type;
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} CodedBitstreamUnitTypeDescriptor;
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typedef struct CodedBitstreamType {
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enum AVCodecID codec_id;
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// A class for the private data, used to declare private AVOptions.
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// This field is NULL for types that do not declare any options.
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// If this field is non-NULL, the first member of the filter private data
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// must be a pointer to AVClass.
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const AVClass *priv_class;
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size_t priv_data_size;
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// List of unit type descriptors for this codec.
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// Terminated by a descriptor with nb_unit_types equal to zero.
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const CodedBitstreamUnitTypeDescriptor *unit_types;
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// Split frag->data into coded bitstream units, creating the
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// frag->units array. Fill data but not content on each unit.
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// The header argument should be set if the fragment came from
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// a header block, which may require different parsing for some
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// codecs (e.g. the AVCC header in H.264).
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int (*split_fragment)(CodedBitstreamContext *ctx,
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CodedBitstreamFragment *frag,
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int header);
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// Read the unit->data bitstream and decompose it, creating
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// unit->content.
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int (*read_unit)(CodedBitstreamContext *ctx,
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CodedBitstreamUnit *unit);
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// Write the data bitstream from unit->content into pbc.
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// Return value AVERROR(ENOSPC) indicates that pbc was too small.
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int (*write_unit)(CodedBitstreamContext *ctx,
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CodedBitstreamUnit *unit,
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PutBitContext *pbc);
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// Return 1 when the unit should be dropped according to 'skip',
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// 0 otherwise.
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int (*discarded_unit)(CodedBitstreamContext *ctx,
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const CodedBitstreamUnit *unit,
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enum AVDiscard skip);
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// Read the data from all of frag->units and assemble it into
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// a bitstream for the whole fragment.
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int (*assemble_fragment)(CodedBitstreamContext *ctx,
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CodedBitstreamFragment *frag);
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// Reset the codec internal state.
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void (*flush)(CodedBitstreamContext *ctx);
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// Free the codec internal state.
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void (*close)(CodedBitstreamContext *ctx);
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} CodedBitstreamType;
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// Helper functions for trace output.
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void ff_cbs_trace_header(CodedBitstreamContext *ctx,
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const char *name);
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// Helper functions for read/write of common bitstream elements, including
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// generation of trace output. The simple functions are equivalent to
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// their non-simple counterparts except that their range is unrestricted
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// (i.e. only limited by the amount of bits used) and they lack
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// the ability to use subscripts.
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int ff_cbs_read_unsigned(CodedBitstreamContext *ctx, GetBitContext *gbc,
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int width, const char *name,
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const int *subscripts, uint32_t *write_to,
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uint32_t range_min, uint32_t range_max);
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int ff_cbs_read_simple_unsigned(CodedBitstreamContext *ctx, GetBitContext *gbc,
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int width, const char *name, uint32_t *write_to);
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int ff_cbs_write_unsigned(CodedBitstreamContext *ctx, PutBitContext *pbc,
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int width, const char *name,
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const int *subscripts, uint32_t value,
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uint32_t range_min, uint32_t range_max);
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int ff_cbs_write_simple_unsigned(CodedBitstreamContext *ctx, PutBitContext *pbc,
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int width, const char *name, uint32_t value);
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int ff_cbs_read_signed(CodedBitstreamContext *ctx, GetBitContext *gbc,
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int width, const char *name,
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const int *subscripts, int32_t *write_to,
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int32_t range_min, int32_t range_max);
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int ff_cbs_write_signed(CodedBitstreamContext *ctx, PutBitContext *pbc,
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int width, const char *name,
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const int *subscripts, int32_t value,
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int32_t range_min, int32_t range_max);
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// The largest unsigned value representable in N bits, suitable for use as
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// range_max in the above functions.
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#define MAX_UINT_BITS(length) ((UINT64_C(1) << (length)) - 1)
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// The largest signed value representable in N bits, suitable for use as
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// range_max in the above functions.
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#define MAX_INT_BITS(length) ((INT64_C(1) << ((length) - 1)) - 1)
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// The smallest signed value representable in N bits, suitable for use as
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// range_min in the above functions.
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#define MIN_INT_BITS(length) (-(INT64_C(1) << ((length) - 1)))
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// Start of a syntax element during read tracing.
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#define CBS_TRACE_READ_START() \
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GetBitContext trace_start; \
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do { \
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if (ctx->trace_enable) \
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trace_start = *gbc; \
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} while (0)
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// End of a syntax element for tracing, make callback.
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#define CBS_TRACE_READ_END() \
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do { \
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if (ctx->trace_enable) { \
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int start_position = get_bits_count(&trace_start); \
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int end_position = get_bits_count(gbc); \
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av_assert0(start_position <= end_position); \
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ctx->trace_read_callback(ctx->trace_context, &trace_start, \
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end_position - start_position, \
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name, subscripts, value); \
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} \
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} while (0)
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// End of a syntax element with no subscript entries.
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#define CBS_TRACE_READ_END_NO_SUBSCRIPTS() \
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do { \
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const int *subscripts = NULL; \
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CBS_TRACE_READ_END(); \
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} while (0)
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// End of a syntax element which is made up of subelements which
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// are aleady traced, so we are only showing the value.
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#define CBS_TRACE_READ_END_VALUE_ONLY() \
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do { \
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if (ctx->trace_enable) { \
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ctx->trace_read_callback(ctx->trace_context, &trace_start, 0, \
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name, subscripts, value); \
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} \
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} while (0)
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// Start of a syntax element during write tracing.
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#define CBS_TRACE_WRITE_START() \
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int start_position; \
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do { \
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if (ctx->trace_enable) \
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start_position = put_bits_count(pbc);; \
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} while (0)
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// End of a syntax element for tracing, make callback.
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#define CBS_TRACE_WRITE_END() \
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do { \
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if (ctx->trace_enable) { \
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int end_position = put_bits_count(pbc); \
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av_assert0(start_position <= end_position); \
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ctx->trace_write_callback(ctx->trace_context, pbc, \
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end_position - start_position, \
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name, subscripts, value); \
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} \
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} while (0)
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// End of a syntax element with no subscript entries.
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#define CBS_TRACE_WRITE_END_NO_SUBSCRIPTS() \
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do { \
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const int *subscripts = NULL; \
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CBS_TRACE_WRITE_END(); \
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} while (0)
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// End of a syntax element which is made up of subelements which are
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// aleady traced, so we are only showing the value. This forges a
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// PutBitContext to point to the position of the start of the syntax
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// element, but the other state doesn't matter because length is zero.
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#define CBS_TRACE_WRITE_END_VALUE_ONLY() \
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do { \
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if (ctx->trace_enable) { \
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PutBitContext tmp; \
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init_put_bits(&tmp, pbc->buf, start_position); \
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skip_put_bits(&tmp, start_position); \
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ctx->trace_write_callback(ctx->trace_context, &tmp, 0, \
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name, subscripts, value); \
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} \
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} while (0)
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#define TYPE_LIST(...) { __VA_ARGS__ }
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#define CBS_UNIT_TYPE_POD(type_, structure) { \
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.nb_unit_types = 1, \
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.unit_type.list = { type_ }, \
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.content_type = CBS_CONTENT_TYPE_INTERNAL_REFS, \
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.content_size = sizeof(structure), \
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.type.ref = { .nb_offsets = 0 }, \
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}
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#define CBS_UNIT_RANGE_POD(range_start, range_end, structure) { \
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.nb_unit_types = CBS_UNIT_TYPE_RANGE, \
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.unit_type.range.start = range_start, \
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.unit_type.range.end = range_end, \
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.content_type = CBS_CONTENT_TYPE_INTERNAL_REFS, \
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.content_size = sizeof(structure), \
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.type.ref = { .nb_offsets = 0 }, \
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}
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#define CBS_UNIT_TYPES_INTERNAL_REF(types, structure, ref_field) { \
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.nb_unit_types = FF_ARRAY_ELEMS((CodedBitstreamUnitType[])TYPE_LIST types), \
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.unit_type.list = TYPE_LIST types, \
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.content_type = CBS_CONTENT_TYPE_INTERNAL_REFS, \
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.content_size = sizeof(structure), \
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.type.ref = { .nb_offsets = 1, \
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.offsets = { offsetof(structure, ref_field) } }, \
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}
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#define CBS_UNIT_TYPE_INTERNAL_REF(type, structure, ref_field) \
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CBS_UNIT_TYPES_INTERNAL_REF((type), structure, ref_field)
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#define CBS_UNIT_RANGE_INTERNAL_REF(range_start, range_end, structure, ref_field) { \
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.nb_unit_types = CBS_UNIT_TYPE_RANGE, \
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.unit_type.range.start = range_start, \
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.unit_type.range.end = range_end, \
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.content_type = CBS_CONTENT_TYPE_INTERNAL_REFS, \
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.content_size = sizeof(structure), \
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.type.ref = { .nb_offsets = 1, \
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.offsets = { offsetof(structure, ref_field) } }, \
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}
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#define CBS_UNIT_TYPES_COMPLEX(types, structure, free_func) { \
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.nb_unit_types = FF_ARRAY_ELEMS((CodedBitstreamUnitType[])TYPE_LIST types), \
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.unit_type.list = TYPE_LIST types, \
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.content_type = CBS_CONTENT_TYPE_COMPLEX, \
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.content_size = sizeof(structure), \
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.type.complex = { .content_free = free_func }, \
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}
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#define CBS_UNIT_TYPE_COMPLEX(type, structure, free_func) \
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CBS_UNIT_TYPES_COMPLEX((type), structure, free_func)
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#define CBS_UNIT_TYPE_END_OF_LIST { .nb_unit_types = 0 }
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extern const CodedBitstreamType ff_cbs_type_av1;
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extern const CodedBitstreamType ff_cbs_type_h264;
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extern const CodedBitstreamType ff_cbs_type_h265;
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extern const CodedBitstreamType ff_cbs_type_h266;
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extern const CodedBitstreamType ff_cbs_type_jpeg;
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extern const CodedBitstreamType ff_cbs_type_mpeg2;
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extern const CodedBitstreamType ff_cbs_type_vp9;
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#endif /* AVCODEC_CBS_INTERNAL_H */
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