aom/vpxenc.c

2789 строки
88 KiB
C
Исходник Обычный вид История

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/*
* Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
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*/
#include "vpx_config.h"
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#if defined(_WIN32) || defined(__OS2__) || !CONFIG_OS_SUPPORT
#define USE_POSIX_MMAP 0
#else
#define USE_POSIX_MMAP 1
#endif
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#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <limits.h>
#include <assert.h>
#include "vpx/vpx_encoder.h"
#if CONFIG_DECODERS
#include "vpx/vpx_decoder.h"
#endif
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#if USE_POSIX_MMAP
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <fcntl.h>
#include <unistd.h>
#endif
#if CONFIG_VP8_ENCODER || CONFIG_VP9_ENCODER
#include "vpx/vp8cx.h"
#endif
#if CONFIG_VP8_DECODER || CONFIG_VP9_DECODER
#include "vpx/vp8dx.h"
#endif
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#include "vpx_ports/mem_ops.h"
#include "vpx_ports/vpx_timer.h"
#include "tools_common.h"
#include "y4minput.h"
#include "libmkv/EbmlWriter.h"
#include "libmkv/EbmlIDs.h"
#include "third_party/libyuv/include/libyuv/scale.h"
/* Need special handling of these functions on Windows */
#if defined(_MSC_VER)
/* MSVS doesn't define off_t, and uses _f{seek,tell}i64 */
typedef __int64 off_t;
#define fseeko _fseeki64
#define ftello _ftelli64
#elif defined(_WIN32)
/* MinGW defines off_t as long
and uses f{seek,tell}o64/off64_t for large files */
#define fseeko fseeko64
#define ftello ftello64
#define off_t off64_t
#endif
#define LITERALU64(hi,lo) ((((uint64_t)hi)<<32)|lo)
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/* We should use 32-bit file operations in WebM file format
* when building ARM executable file (.axf) with RVCT */
#if !CONFIG_OS_SUPPORT
typedef long off_t;
#define fseeko fseek
#define ftello ftell
#endif
/* Swallow warnings about unused results of fread/fwrite */
static size_t wrap_fread(void *ptr, size_t size, size_t nmemb,
FILE *stream) {
return fread(ptr, size, nmemb, stream);
}
#define fread wrap_fread
static size_t wrap_fwrite(const void *ptr, size_t size, size_t nmemb,
FILE *stream) {
return fwrite(ptr, size, nmemb, stream);
}
#define fwrite wrap_fwrite
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static const char *exec_name;
#define VP8_FOURCC (0x30385056)
#define VP9_FOURCC (0x30395056)
static const struct codec_item {
char const *name;
const vpx_codec_iface_t *(*iface)(void);
const vpx_codec_iface_t *(*dx_iface)(void);
unsigned int fourcc;
} codecs[] = {
#if CONFIG_VP8_ENCODER && CONFIG_VP8_DECODER
{"vp8", &vpx_codec_vp8_cx, &vpx_codec_vp8_dx, VP8_FOURCC},
#elif CONFIG_VP8_ENCODER && !CONFIG_VP8_DECODER
{"vp8", &vpx_codec_vp8_cx, NULL, VP8_FOURCC},
#endif
#if CONFIG_VP9_ENCODER && CONFIG_VP9_DECODER
{"vp9", &vpx_codec_vp9_cx, &vpx_codec_vp9_dx, VP9_FOURCC},
#elif CONFIG_VP9_ENCODER && !CONFIG_VP9_DECODER
{"vp9", &vpx_codec_vp9_cx, NULL, VP9_FOURCC},
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#endif
};
static void usage_exit();
#define LOG_ERROR(label) do \
{\
const char *l=label;\
va_list ap;\
va_start(ap, fmt);\
if(l)\
fprintf(stderr, "%s: ", l);\
vfprintf(stderr, fmt, ap);\
fprintf(stderr, "\n");\
va_end(ap);\
} while(0)
void die(const char *fmt, ...) {
LOG_ERROR(NULL);
usage_exit();
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}
void fatal(const char *fmt, ...) {
LOG_ERROR("Fatal");
exit(EXIT_FAILURE);
}
void warn(const char *fmt, ...) {
LOG_ERROR("Warning");
}
static void warn_or_exit_on_errorv(vpx_codec_ctx_t *ctx, int fatal,
const char *s, va_list ap) {
if (ctx->err) {
const char *detail = vpx_codec_error_detail(ctx);
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vfprintf(stderr, s, ap);
fprintf(stderr, ": %s\n", vpx_codec_error(ctx));
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if (detail)
fprintf(stderr, " %s\n", detail);
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if (fatal)
exit(EXIT_FAILURE);
}
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}
static void ctx_exit_on_error(vpx_codec_ctx_t *ctx, const char *s, ...) {
va_list ap;
va_start(ap, s);
warn_or_exit_on_errorv(ctx, 1, s, ap);
va_end(ap);
}
static void warn_or_exit_on_error(vpx_codec_ctx_t *ctx, int fatal,
const char *s, ...) {
va_list ap;
va_start(ap, s);
warn_or_exit_on_errorv(ctx, fatal, s, ap);
va_end(ap);
}
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/* This structure is used to abstract the different ways of handling
* first pass statistics.
*/
typedef struct {
vpx_fixed_buf_t buf;
int pass;
FILE *file;
char *buf_ptr;
size_t buf_alloc_sz;
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} stats_io_t;
int stats_open_file(stats_io_t *stats, const char *fpf, int pass) {
int res;
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stats->pass = pass;
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if (pass == 0) {
stats->file = fopen(fpf, "wb");
stats->buf.sz = 0;
stats->buf.buf = NULL,
res = (stats->file != NULL);
} else {
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#if 0
#elif USE_POSIX_MMAP
struct stat stat_buf;
int fd;
fd = open(fpf, O_RDONLY);
stats->file = fdopen(fd, "rb");
fstat(fd, &stat_buf);
stats->buf.sz = stat_buf.st_size;
stats->buf.buf = mmap(NULL, stats->buf.sz, PROT_READ, MAP_PRIVATE,
fd, 0);
res = (stats->buf.buf != NULL);
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#else
size_t nbytes;
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stats->file = fopen(fpf, "rb");
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if (fseek(stats->file, 0, SEEK_END))
fatal("First-pass stats file must be seekable!");
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stats->buf.sz = stats->buf_alloc_sz = ftell(stats->file);
rewind(stats->file);
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stats->buf.buf = malloc(stats->buf_alloc_sz);
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if (!stats->buf.buf)
fatal("Failed to allocate first-pass stats buffer (%lu bytes)",
(unsigned long)stats->buf_alloc_sz);
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nbytes = fread(stats->buf.buf, 1, stats->buf.sz, stats->file);
res = (nbytes == stats->buf.sz);
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#endif
}
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return res;
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}
int stats_open_mem(stats_io_t *stats, int pass) {
int res;
stats->pass = pass;
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if (!pass) {
stats->buf.sz = 0;
stats->buf_alloc_sz = 64 * 1024;
stats->buf.buf = malloc(stats->buf_alloc_sz);
}
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stats->buf_ptr = stats->buf.buf;
res = (stats->buf.buf != NULL);
return res;
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}
void stats_close(stats_io_t *stats, int last_pass) {
if (stats->file) {
if (stats->pass == last_pass) {
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#if 0
#elif USE_POSIX_MMAP
munmap(stats->buf.buf, stats->buf.sz);
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#else
free(stats->buf.buf);
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#endif
}
fclose(stats->file);
stats->file = NULL;
} else {
if (stats->pass == last_pass)
free(stats->buf.buf);
}
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}
void stats_write(stats_io_t *stats, const void *pkt, size_t len) {
if (stats->file) {
(void) fwrite(pkt, 1, len, stats->file);
} else {
if (stats->buf.sz + len > stats->buf_alloc_sz) {
size_t new_sz = stats->buf_alloc_sz + 64 * 1024;
char *new_ptr = realloc(stats->buf.buf, new_sz);
if (new_ptr) {
stats->buf_ptr = new_ptr + (stats->buf_ptr - (char *)stats->buf.buf);
stats->buf.buf = new_ptr;
stats->buf_alloc_sz = new_sz;
} else
fatal("Failed to realloc firstpass stats buffer.");
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}
memcpy(stats->buf_ptr, pkt, len);
stats->buf.sz += len;
stats->buf_ptr += len;
}
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}
vpx_fixed_buf_t stats_get(stats_io_t *stats) {
return stats->buf;
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}
/* Stereo 3D packed frame format */
typedef enum stereo_format {
STEREO_FORMAT_MONO = 0,
STEREO_FORMAT_LEFT_RIGHT = 1,
STEREO_FORMAT_BOTTOM_TOP = 2,
STEREO_FORMAT_TOP_BOTTOM = 3,
STEREO_FORMAT_RIGHT_LEFT = 11
} stereo_format_t;
enum video_file_type {
FILE_TYPE_RAW,
FILE_TYPE_IVF,
FILE_TYPE_Y4M
};
struct detect_buffer {
char buf[4];
size_t buf_read;
size_t position;
};
struct input_state {
char *fn;
FILE *file;
off_t length;
y4m_input y4m;
struct detect_buffer detect;
enum video_file_type file_type;
unsigned int w;
unsigned int h;
struct vpx_rational framerate;
int use_i420;
int only_i420;
};
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#define IVF_FRAME_HDR_SZ (4+8) /* 4 byte size + 8 byte timestamp */
static int read_frame(struct input_state *input, vpx_image_t *img) {
FILE *f = input->file;
enum video_file_type file_type = input->file_type;
y4m_input *y4m = &input->y4m;
struct detect_buffer *detect = &input->detect;
int plane = 0;
int shortread = 0;
if (file_type == FILE_TYPE_Y4M) {
if (y4m_input_fetch_frame(y4m, f, img) < 1)
return 0;
} else {
if (file_type == FILE_TYPE_IVF) {
char junk[IVF_FRAME_HDR_SZ];
/* Skip the frame header. We know how big the frame should be. See
* write_ivf_frame_header() for documentation on the frame header
* layout.
*/
(void) fread(junk, 1, IVF_FRAME_HDR_SZ, f);
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}
for (plane = 0; plane < 3; plane++) {
unsigned char *ptr;
int w = (plane ? (1 + img->d_w) / 2 : img->d_w);
int h = (plane ? (1 + img->d_h) / 2 : img->d_h);
int r;
/* Determine the correct plane based on the image format. The for-loop
* always counts in Y,U,V order, but this may not match the order of
* the data on disk.
*/
switch (plane) {
case 1:
ptr = img->planes[img->fmt == VPX_IMG_FMT_YV12 ? VPX_PLANE_V : VPX_PLANE_U];
break;
case 2:
ptr = img->planes[img->fmt == VPX_IMG_FMT_YV12 ? VPX_PLANE_U : VPX_PLANE_V];
break;
default:
ptr = img->planes[plane];
}
for (r = 0; r < h; r++) {
size_t needed = w;
size_t buf_position = 0;
const size_t left = detect->buf_read - detect->position;
if (left > 0) {
const size_t more = (left < needed) ? left : needed;
memcpy(ptr, detect->buf + detect->position, more);
buf_position = more;
needed -= more;
detect->position += more;
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}
if (needed > 0) {
shortread |= (fread(ptr + buf_position, 1, needed, f) < needed);
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}
ptr += img->stride[plane];
}
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}
}
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return !shortread;
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}
unsigned int file_is_y4m(FILE *infile,
y4m_input *y4m,
char detect[4]) {
if (memcmp(detect, "YUV4", 4) == 0) {
return 1;
}
return 0;
}
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#define IVF_FILE_HDR_SZ (32)
unsigned int file_is_ivf(struct input_state *input,
unsigned int *fourcc) {
char raw_hdr[IVF_FILE_HDR_SZ];
int is_ivf = 0;
FILE *infile = input->file;
unsigned int *width = &input->w;
unsigned int *height = &input->h;
struct detect_buffer *detect = &input->detect;
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if (memcmp(detect->buf, "DKIF", 4) != 0)
return 0;
/* See write_ivf_file_header() for more documentation on the file header
* layout.
*/
if (fread(raw_hdr + 4, 1, IVF_FILE_HDR_SZ - 4, infile)
== IVF_FILE_HDR_SZ - 4) {
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{
is_ivf = 1;
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if (mem_get_le16(raw_hdr + 4) != 0)
warn("Unrecognized IVF version! This file may not decode "
"properly.");
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*fourcc = mem_get_le32(raw_hdr + 8);
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}
}
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if (is_ivf) {
*width = mem_get_le16(raw_hdr + 12);
*height = mem_get_le16(raw_hdr + 14);
detect->position = 4;
}
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return is_ivf;
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}
static void write_ivf_file_header(FILE *outfile,
const vpx_codec_enc_cfg_t *cfg,
unsigned int fourcc,
int frame_cnt) {
char header[32];
if (cfg->g_pass != VPX_RC_ONE_PASS && cfg->g_pass != VPX_RC_LAST_PASS)
return;
header[0] = 'D';
header[1] = 'K';
header[2] = 'I';
header[3] = 'F';
mem_put_le16(header + 4, 0); /* version */
mem_put_le16(header + 6, 32); /* headersize */
mem_put_le32(header + 8, fourcc); /* headersize */
mem_put_le16(header + 12, cfg->g_w); /* width */
mem_put_le16(header + 14, cfg->g_h); /* height */
mem_put_le32(header + 16, cfg->g_timebase.den); /* rate */
mem_put_le32(header + 20, cfg->g_timebase.num); /* scale */
mem_put_le32(header + 24, frame_cnt); /* length */
mem_put_le32(header + 28, 0); /* unused */
(void) fwrite(header, 1, 32, outfile);
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}
static void write_ivf_frame_header(FILE *outfile,
const vpx_codec_cx_pkt_t *pkt) {
char header[12];
vpx_codec_pts_t pts;
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if (pkt->kind != VPX_CODEC_CX_FRAME_PKT)
return;
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pts = pkt->data.frame.pts;
mem_put_le32(header, (int)pkt->data.frame.sz);
mem_put_le32(header + 4, pts & 0xFFFFFFFF);
mem_put_le32(header + 8, pts >> 32);
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(void) fwrite(header, 1, 12, outfile);
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}
static void write_ivf_frame_size(FILE *outfile, size_t size) {
char header[4];
mem_put_le32(header, (int)size);
(void) fwrite(header, 1, 4, outfile);
}
typedef off_t EbmlLoc;
struct cue_entry {
unsigned int time;
uint64_t loc;
};
struct EbmlGlobal {
int debug;
FILE *stream;
int64_t last_pts_ms;
vpx_rational_t framerate;
/* These pointers are to the start of an element */
off_t position_reference;
off_t seek_info_pos;
off_t segment_info_pos;
off_t track_pos;
off_t cue_pos;
off_t cluster_pos;
/* This pointer is to a specific element to be serialized */
off_t track_id_pos;
/* These pointers are to the size field of the element */
EbmlLoc startSegment;
EbmlLoc startCluster;
uint32_t cluster_timecode;
int cluster_open;
struct cue_entry *cue_list;
unsigned int cues;
};
void Ebml_Write(EbmlGlobal *glob, const void *buffer_in, unsigned long len) {
(void) fwrite(buffer_in, 1, len, glob->stream);
}
#define WRITE_BUFFER(s) \
for(i = len-1; i>=0; i--)\
{ \
x = (char)(*(const s *)buffer_in >> (i * CHAR_BIT)); \
Ebml_Write(glob, &x, 1); \
}
void Ebml_Serialize(EbmlGlobal *glob, const void *buffer_in, int buffer_size, unsigned long len) {
char x;
int i;
/* buffer_size:
* 1 - int8_t;
* 2 - int16_t;
* 3 - int32_t;
* 4 - int64_t;
*/
switch (buffer_size) {
case 1:
WRITE_BUFFER(int8_t)
break;
case 2:
WRITE_BUFFER(int16_t)
break;
case 4:
WRITE_BUFFER(int32_t)
break;
case 8:
WRITE_BUFFER(int64_t)
break;
default:
break;
}
}
#undef WRITE_BUFFER
/* Need a fixed size serializer for the track ID. libmkv provides a 64 bit
* one, but not a 32 bit one.
*/
static void Ebml_SerializeUnsigned32(EbmlGlobal *glob, unsigned long class_id, uint64_t ui) {
unsigned char sizeSerialized = 4 | 0x80;
Ebml_WriteID(glob, class_id);
Ebml_Serialize(glob, &sizeSerialized, sizeof(sizeSerialized), 1);
Ebml_Serialize(glob, &ui, sizeof(ui), 4);
}
static void
Ebml_StartSubElement(EbmlGlobal *glob, EbmlLoc *ebmlLoc,
unsigned long class_id) {
/* todo this is always taking 8 bytes, this may need later optimization */
/* this is a key that says length unknown */
uint64_t unknownLen = LITERALU64(0x01FFFFFF, 0xFFFFFFFF);
Ebml_WriteID(glob, class_id);
*ebmlLoc = ftello(glob->stream);
Ebml_Serialize(glob, &unknownLen, sizeof(unknownLen), 8);
}
static void
Ebml_EndSubElement(EbmlGlobal *glob, EbmlLoc *ebmlLoc) {
off_t pos;
uint64_t size;
/* Save the current stream pointer */
pos = ftello(glob->stream);
/* Calculate the size of this element */
size = pos - *ebmlLoc - 8;
size |= LITERALU64(0x01000000, 0x00000000);
/* Seek back to the beginning of the element and write the new size */
fseeko(glob->stream, *ebmlLoc, SEEK_SET);
Ebml_Serialize(glob, &size, sizeof(size), 8);
/* Reset the stream pointer */
fseeko(glob->stream, pos, SEEK_SET);
}
static void
write_webm_seek_element(EbmlGlobal *ebml, unsigned long id, off_t pos) {
uint64_t offset = pos - ebml->position_reference;
EbmlLoc start;
Ebml_StartSubElement(ebml, &start, Seek);
Ebml_SerializeBinary(ebml, SeekID, id);
Ebml_SerializeUnsigned64(ebml, SeekPosition, offset);
Ebml_EndSubElement(ebml, &start);
}
static void
write_webm_seek_info(EbmlGlobal *ebml) {
off_t pos;
/* Save the current stream pointer */
pos = ftello(ebml->stream);
if (ebml->seek_info_pos)
fseeko(ebml->stream, ebml->seek_info_pos, SEEK_SET);
else
ebml->seek_info_pos = pos;
{
EbmlLoc start;
Ebml_StartSubElement(ebml, &start, SeekHead);
write_webm_seek_element(ebml, Tracks, ebml->track_pos);
write_webm_seek_element(ebml, Cues, ebml->cue_pos);
write_webm_seek_element(ebml, Info, ebml->segment_info_pos);
Ebml_EndSubElement(ebml, &start);
}
{
/* segment info */
EbmlLoc startInfo;
uint64_t frame_time;
char version_string[64];
/* Assemble version string */
if (ebml->debug)
strcpy(version_string, "vpxenc");
else {
strcpy(version_string, "vpxenc ");
strncat(version_string,
vpx_codec_version_str(),
sizeof(version_string) - 1 - strlen(version_string));
}
frame_time = (uint64_t)1000 * ebml->framerate.den
/ ebml->framerate.num;
ebml->segment_info_pos = ftello(ebml->stream);
Ebml_StartSubElement(ebml, &startInfo, Info);
Ebml_SerializeUnsigned(ebml, TimecodeScale, 1000000);
Ebml_SerializeFloat(ebml, Segment_Duration,
(double)(ebml->last_pts_ms + frame_time));
Ebml_SerializeString(ebml, 0x4D80, version_string);
Ebml_SerializeString(ebml, 0x5741, version_string);
Ebml_EndSubElement(ebml, &startInfo);
}
}
static void
write_webm_file_header(EbmlGlobal *glob,
const vpx_codec_enc_cfg_t *cfg,
const struct vpx_rational *fps,
stereo_format_t stereo_fmt,
unsigned int fourcc) {
{
EbmlLoc start;
Ebml_StartSubElement(glob, &start, EBML);
Ebml_SerializeUnsigned(glob, EBMLVersion, 1);
Ebml_SerializeUnsigned(glob, EBMLReadVersion, 1);
Ebml_SerializeUnsigned(glob, EBMLMaxIDLength, 4);
Ebml_SerializeUnsigned(glob, EBMLMaxSizeLength, 8);
Ebml_SerializeString(glob, DocType, "webm");
Ebml_SerializeUnsigned(glob, DocTypeVersion, 2);
Ebml_SerializeUnsigned(glob, DocTypeReadVersion, 2);
Ebml_EndSubElement(glob, &start);
}
{
Ebml_StartSubElement(glob, &glob->startSegment, Segment);
glob->position_reference = ftello(glob->stream);
glob->framerate = *fps;
write_webm_seek_info(glob);
{
EbmlLoc trackStart;
glob->track_pos = ftello(glob->stream);
Ebml_StartSubElement(glob, &trackStart, Tracks);
{
unsigned int trackNumber = 1;
uint64_t trackID = 0;
EbmlLoc start;
Ebml_StartSubElement(glob, &start, TrackEntry);
Ebml_SerializeUnsigned(glob, TrackNumber, trackNumber);
glob->track_id_pos = ftello(glob->stream);
Ebml_SerializeUnsigned32(glob, TrackUID, trackID);
Ebml_SerializeUnsigned(glob, TrackType, 1);
Ebml_SerializeString(glob, CodecID,
fourcc == VP8_FOURCC ? "V_VP8" : "V_VP9");
{
unsigned int pixelWidth = cfg->g_w;
unsigned int pixelHeight = cfg->g_h;
float frameRate = (float)fps->num / (float)fps->den;
EbmlLoc videoStart;
Ebml_StartSubElement(glob, &videoStart, Video);
Ebml_SerializeUnsigned(glob, PixelWidth, pixelWidth);
Ebml_SerializeUnsigned(glob, PixelHeight, pixelHeight);
Ebml_SerializeUnsigned(glob, StereoMode, stereo_fmt);
Ebml_SerializeFloat(glob, FrameRate, frameRate);
Ebml_EndSubElement(glob, &videoStart);
}
Ebml_EndSubElement(glob, &start); /* Track Entry */
}
Ebml_EndSubElement(glob, &trackStart);
}
/* segment element is open */
}
}
static void
write_webm_block(EbmlGlobal *glob,
const vpx_codec_enc_cfg_t *cfg,
const vpx_codec_cx_pkt_t *pkt) {
unsigned long block_length;
unsigned char track_number;
unsigned short block_timecode = 0;
unsigned char flags;
int64_t pts_ms;
int start_cluster = 0, is_keyframe;
/* Calculate the PTS of this frame in milliseconds */
pts_ms = pkt->data.frame.pts * 1000
* (uint64_t)cfg->g_timebase.num / (uint64_t)cfg->g_timebase.den;
if (pts_ms <= glob->last_pts_ms)
pts_ms = glob->last_pts_ms + 1;
glob->last_pts_ms = pts_ms;
/* Calculate the relative time of this block */
if (pts_ms - glob->cluster_timecode > SHRT_MAX)
start_cluster = 1;
else
block_timecode = (unsigned short)pts_ms - glob->cluster_timecode;
is_keyframe = (pkt->data.frame.flags & VPX_FRAME_IS_KEY);
if (start_cluster || is_keyframe) {
if (glob->cluster_open)
Ebml_EndSubElement(glob, &glob->startCluster);
/* Open the new cluster */
block_timecode = 0;
glob->cluster_open = 1;
glob->cluster_timecode = (uint32_t)pts_ms;
glob->cluster_pos = ftello(glob->stream);
Ebml_StartSubElement(glob, &glob->startCluster, Cluster); /* cluster */
Ebml_SerializeUnsigned(glob, Timecode, glob->cluster_timecode);
/* Save a cue point if this is a keyframe. */
if (is_keyframe) {
struct cue_entry *cue, *new_cue_list;
new_cue_list = realloc(glob->cue_list,
(glob->cues + 1) * sizeof(struct cue_entry));
if (new_cue_list)
glob->cue_list = new_cue_list;
else
fatal("Failed to realloc cue list.");
cue = &glob->cue_list[glob->cues];
cue->time = glob->cluster_timecode;
cue->loc = glob->cluster_pos;
glob->cues++;
}
}
/* Write the Simple Block */
Ebml_WriteID(glob, SimpleBlock);
block_length = (unsigned long)pkt->data.frame.sz + 4;
block_length |= 0x10000000;
Ebml_Serialize(glob, &block_length, sizeof(block_length), 4);
track_number = 1;
track_number |= 0x80;
Ebml_Write(glob, &track_number, 1);
Ebml_Serialize(glob, &block_timecode, sizeof(block_timecode), 2);
flags = 0;
if (is_keyframe)
flags |= 0x80;
if (pkt->data.frame.flags & VPX_FRAME_IS_INVISIBLE)
flags |= 0x08;
Ebml_Write(glob, &flags, 1);
Ebml_Write(glob, pkt->data.frame.buf, (unsigned long)pkt->data.frame.sz);
}
static void
write_webm_file_footer(EbmlGlobal *glob, long hash) {
if (glob->cluster_open)
Ebml_EndSubElement(glob, &glob->startCluster);
{
EbmlLoc start;
unsigned int i;
glob->cue_pos = ftello(glob->stream);
Ebml_StartSubElement(glob, &start, Cues);
for (i = 0; i < glob->cues; i++) {
struct cue_entry *cue = &glob->cue_list[i];
EbmlLoc start;
Ebml_StartSubElement(glob, &start, CuePoint);
{
EbmlLoc start;
Ebml_SerializeUnsigned(glob, CueTime, cue->time);
Ebml_StartSubElement(glob, &start, CueTrackPositions);
Ebml_SerializeUnsigned(glob, CueTrack, 1);
Ebml_SerializeUnsigned64(glob, CueClusterPosition,
cue->loc - glob->position_reference);
Ebml_EndSubElement(glob, &start);
}
Ebml_EndSubElement(glob, &start);
}
Ebml_EndSubElement(glob, &start);
}
Ebml_EndSubElement(glob, &glob->startSegment);
/* Patch up the seek info block */
write_webm_seek_info(glob);
/* Patch up the track id */
fseeko(glob->stream, glob->track_id_pos, SEEK_SET);
Ebml_SerializeUnsigned32(glob, TrackUID, glob->debug ? 0xDEADBEEF : hash);
fseeko(glob->stream, 0, SEEK_END);
}
/* Murmur hash derived from public domain reference implementation at
* http:// sites.google.com/site/murmurhash/
*/
static unsigned int murmur(const void *key, int len, unsigned int seed) {
const unsigned int m = 0x5bd1e995;
const int r = 24;
unsigned int h = seed ^ len;
const unsigned char *data = (const unsigned char *)key;
while (len >= 4) {
unsigned int k;
k = data[0];
k |= data[1] << 8;
k |= data[2] << 16;
k |= data[3] << 24;
k *= m;
k ^= k >> r;
k *= m;
h *= m;
h ^= k;
data += 4;
len -= 4;
}
switch (len) {
case 3:
h ^= data[2] << 16;
case 2:
h ^= data[1] << 8;
case 1:
h ^= data[0];
h *= m;
};
h ^= h >> 13;
h *= m;
h ^= h >> 15;
return h;
}
#include "math.h"
#define MAX_PSNR 100
static double vp8_mse2psnr(double Samples, double Peak, double Mse) {
double psnr;
if ((double)Mse > 0.0)
psnr = 10.0 * log10(Peak * Peak * Samples / Mse);
else
psnr = MAX_PSNR; /* Limit to prevent / 0 */
if (psnr > MAX_PSNR)
psnr = MAX_PSNR;
return psnr;
}
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#include "args.h"
static const arg_def_t debugmode = ARG_DEF("D", "debug", 0,
"Debug mode (makes output deterministic)");
static const arg_def_t outputfile = ARG_DEF("o", "output", 1,
"Output filename");
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static const arg_def_t use_yv12 = ARG_DEF(NULL, "yv12", 0,
"Input file is YV12 ");
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static const arg_def_t use_i420 = ARG_DEF(NULL, "i420", 0,
"Input file is I420 (default)");
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static const arg_def_t codecarg = ARG_DEF(NULL, "codec", 1,
"Codec to use");
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static const arg_def_t passes = ARG_DEF("p", "passes", 1,
"Number of passes (1/2)");
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static const arg_def_t pass_arg = ARG_DEF(NULL, "pass", 1,
"Pass to execute (1/2)");
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static const arg_def_t fpf_name = ARG_DEF(NULL, "fpf", 1,
"First pass statistics file name");
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static const arg_def_t limit = ARG_DEF(NULL, "limit", 1,
"Stop encoding after n input frames");
static const arg_def_t skip = ARG_DEF(NULL, "skip", 1,
"Skip the first n input frames");
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static const arg_def_t deadline = ARG_DEF("d", "deadline", 1,
"Deadline per frame (usec)");
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static const arg_def_t best_dl = ARG_DEF(NULL, "best", 0,
"Use Best Quality Deadline");
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static const arg_def_t good_dl = ARG_DEF(NULL, "good", 0,
"Use Good Quality Deadline");
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static const arg_def_t rt_dl = ARG_DEF(NULL, "rt", 0,
"Use Realtime Quality Deadline");
static const arg_def_t quietarg = ARG_DEF("q", "quiet", 0,
"Do not print encode progress");
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static const arg_def_t verbosearg = ARG_DEF("v", "verbose", 0,
"Show encoder parameters");
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static const arg_def_t psnrarg = ARG_DEF(NULL, "psnr", 0,
"Show PSNR in status line");
enum TestDecodeFatality {
TEST_DECODE_OFF,
TEST_DECODE_FATAL,
TEST_DECODE_WARN,
};
static const struct arg_enum_list test_decode_enum[] = {
{"off", TEST_DECODE_OFF},
{"fatal", TEST_DECODE_FATAL},
{"warn", TEST_DECODE_WARN},
{NULL, 0}
};
static const arg_def_t recontest = ARG_DEF_ENUM(NULL, "test-decode", 1,
"Test encode/decode mismatch",
test_decode_enum);
static const arg_def_t framerate = ARG_DEF(NULL, "fps", 1,
"Stream frame rate (rate/scale)");
static const arg_def_t use_ivf = ARG_DEF(NULL, "ivf", 0,
"Output IVF (default is WebM)");
static const arg_def_t out_part = ARG_DEF("P", "output-partitions", 0,
"Makes encoder output partitions. Requires IVF output!");
static const arg_def_t q_hist_n = ARG_DEF(NULL, "q-hist", 1,
"Show quantizer histogram (n-buckets)");
static const arg_def_t rate_hist_n = ARG_DEF(NULL, "rate-hist", 1,
"Show rate histogram (n-buckets)");
static const arg_def_t *main_args[] = {
&debugmode,
&outputfile, &codecarg, &passes, &pass_arg, &fpf_name, &limit, &skip,
&deadline, &best_dl, &good_dl, &rt_dl,
&quietarg, &verbosearg, &psnrarg, &use_ivf, &out_part, &q_hist_n, &rate_hist_n,
NULL
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};
static const arg_def_t usage = ARG_DEF("u", "usage", 1,
"Usage profile number to use");
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static const arg_def_t threads = ARG_DEF("t", "threads", 1,
"Max number of threads to use");
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static const arg_def_t profile = ARG_DEF(NULL, "profile", 1,
"Bitstream profile number to use");
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static const arg_def_t width = ARG_DEF("w", "width", 1,
"Frame width");
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static const arg_def_t height = ARG_DEF("h", "height", 1,
"Frame height");
static const struct arg_enum_list stereo_mode_enum[] = {
{"mono", STEREO_FORMAT_MONO},
{"left-right", STEREO_FORMAT_LEFT_RIGHT},
{"bottom-top", STEREO_FORMAT_BOTTOM_TOP},
{"top-bottom", STEREO_FORMAT_TOP_BOTTOM},
{"right-left", STEREO_FORMAT_RIGHT_LEFT},
{NULL, 0}
};
static const arg_def_t stereo_mode = ARG_DEF_ENUM(NULL, "stereo-mode", 1,
"Stereo 3D video format", stereo_mode_enum);
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static const arg_def_t timebase = ARG_DEF(NULL, "timebase", 1,
"Output timestamp precision (fractional seconds)");
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static const arg_def_t error_resilient = ARG_DEF(NULL, "error-resilient", 1,
"Enable error resiliency features");
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static const arg_def_t lag_in_frames = ARG_DEF(NULL, "lag-in-frames", 1,
"Max number of frames to lag");
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static const arg_def_t *global_args[] = {
&use_yv12, &use_i420, &usage, &threads, &profile,
&width, &height, &stereo_mode, &timebase, &framerate,
&error_resilient,
&lag_in_frames, NULL
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};
static const arg_def_t dropframe_thresh = ARG_DEF(NULL, "drop-frame", 1,
"Temporal resampling threshold (buf %)");
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static const arg_def_t resize_allowed = ARG_DEF(NULL, "resize-allowed", 1,
"Spatial resampling enabled (bool)");
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static const arg_def_t resize_up_thresh = ARG_DEF(NULL, "resize-up", 1,
"Upscale threshold (buf %)");
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static const arg_def_t resize_down_thresh = ARG_DEF(NULL, "resize-down", 1,
"Downscale threshold (buf %)");
static const struct arg_enum_list end_usage_enum[] = {
{"vbr", VPX_VBR},
{"cbr", VPX_CBR},
{"cq", VPX_CQ},
{NULL, 0}
};
static const arg_def_t end_usage = ARG_DEF_ENUM(NULL, "end-usage", 1,
"Rate control mode", end_usage_enum);
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static const arg_def_t target_bitrate = ARG_DEF(NULL, "target-bitrate", 1,
"Bitrate (kbps)");
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static const arg_def_t min_quantizer = ARG_DEF(NULL, "min-q", 1,
"Minimum (best) quantizer");
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static const arg_def_t max_quantizer = ARG_DEF(NULL, "max-q", 1,
"Maximum (worst) quantizer");
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static const arg_def_t undershoot_pct = ARG_DEF(NULL, "undershoot-pct", 1,
"Datarate undershoot (min) target (%)");
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static const arg_def_t overshoot_pct = ARG_DEF(NULL, "overshoot-pct", 1,
"Datarate overshoot (max) target (%)");
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static const arg_def_t buf_sz = ARG_DEF(NULL, "buf-sz", 1,
"Client buffer size (ms)");
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static const arg_def_t buf_initial_sz = ARG_DEF(NULL, "buf-initial-sz", 1,
"Client initial buffer size (ms)");
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static const arg_def_t buf_optimal_sz = ARG_DEF(NULL, "buf-optimal-sz", 1,
"Client optimal buffer size (ms)");
static const arg_def_t *rc_args[] = {
&dropframe_thresh, &resize_allowed, &resize_up_thresh, &resize_down_thresh,
&end_usage, &target_bitrate, &min_quantizer, &max_quantizer,
&undershoot_pct, &overshoot_pct, &buf_sz, &buf_initial_sz, &buf_optimal_sz,
NULL
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};
static const arg_def_t bias_pct = ARG_DEF(NULL, "bias-pct", 1,
"CBR/VBR bias (0=CBR, 100=VBR)");
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static const arg_def_t minsection_pct = ARG_DEF(NULL, "minsection-pct", 1,
"GOP min bitrate (% of target)");
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static const arg_def_t maxsection_pct = ARG_DEF(NULL, "maxsection-pct", 1,
"GOP max bitrate (% of target)");
static const arg_def_t *rc_twopass_args[] = {
&bias_pct, &minsection_pct, &maxsection_pct, NULL
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};
static const arg_def_t kf_min_dist = ARG_DEF(NULL, "kf-min-dist", 1,
"Minimum keyframe interval (frames)");
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static const arg_def_t kf_max_dist = ARG_DEF(NULL, "kf-max-dist", 1,
"Maximum keyframe interval (frames)");
static const arg_def_t kf_disabled = ARG_DEF(NULL, "disable-kf", 0,
"Disable keyframe placement");
static const arg_def_t *kf_args[] = {
&kf_min_dist, &kf_max_dist, &kf_disabled, NULL
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};
static const arg_def_t noise_sens = ARG_DEF(NULL, "noise-sensitivity", 1,
"Noise sensitivity (frames to blur)");
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static const arg_def_t sharpness = ARG_DEF(NULL, "sharpness", 1,
"Filter sharpness (0-7)");
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static const arg_def_t static_thresh = ARG_DEF(NULL, "static-thresh", 1,
"Motion detection threshold");
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static const arg_def_t cpu_used = ARG_DEF(NULL, "cpu-used", 1,
"CPU Used (-16..16)");
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static const arg_def_t token_parts = ARG_DEF(NULL, "token-parts", 1,
[WIP] Add column-based tiling. This patch adds column-based tiling. The idea is to make each tile independently decodable (after reading the common frame header) and also independendly encodable (minus within-frame cost adjustments in the RD loop) to speed-up hardware & software en/decoders if they used multi-threading. Column-based tiling has the added advantage (over other tiling methods) that it minimizes realtime use-case latency, since all threads can start encoding data as soon as the first SB-row worth of data is available to the encoder. There is some test code that does random tile ordering in the decoder, to confirm that each tile is indeed independently decodable from other tiles in the same frame. At tile edges, all contexts assume default values (i.e. 0, 0 motion vector, no coefficients, DC intra4x4 mode), and motion vector search and ordering do not cross tiles in the same frame. t log Tile independence is not maintained between frames ATM, i.e. tile 0 of frame 1 is free to use motion vectors that point into any tile of frame 0. We support 1 (i.e. no tiling), 2 or 4 column-tiles. The loopfilter crosses tile boundaries. I discussed this briefly with Aki and he says that's OK. An in-loop loopfilter would need to do some sync between tile threads, but that shouldn't be a big issue. Resuls: with tiling disabled, we go up slightly because of improved edge use in the intra4x4 prediction. With 2 tiles, we lose about ~1% on derf, ~0.35% on HD and ~0.55% on STD/HD. With 4 tiles, we lose another ~1.5% on derf ~0.77% on HD and ~0.85% on STD/HD. Most of this loss is concentrated in the low-bitrate end of clips, and most of it is because of the loss of edges at tile boundaries and the resulting loss of intra predictors. TODO: - more tiles (perhaps allow row-based tiling also, and max. 8 tiles)? - maybe optionally (for EC purposes), motion vectors themselves should not cross tile edges, or we should emulate such borders as if they were off-frame, to limit error propagation to within one tile only. This doesn't have to be the default behaviour but could be an optional bitstream flag. Change-Id: I5951c3a0742a767b20bc9fb5af685d9892c2c96f
2013-02-01 21:35:28 +04:00
"Number of token partitions to use, log2");
static const arg_def_t tile_cols = ARG_DEF(NULL, "tile-columns", 1,
"Number of tile columns to use, log2");
static const arg_def_t tile_rows = ARG_DEF(NULL, "tile-rows", 1,
"Number of tile rows to use, log2");
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static const arg_def_t auto_altref = ARG_DEF(NULL, "auto-alt-ref", 1,
"Enable automatic alt reference frames");
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static const arg_def_t arnr_maxframes = ARG_DEF(NULL, "arnr-maxframes", 1,
"AltRef Max Frames");
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static const arg_def_t arnr_strength = ARG_DEF(NULL, "arnr-strength", 1,
"AltRef Strength");
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static const arg_def_t arnr_type = ARG_DEF(NULL, "arnr-type", 1,
"AltRef Type");
static const struct arg_enum_list tuning_enum[] = {
{"psnr", VP8_TUNE_PSNR},
{"ssim", VP8_TUNE_SSIM},
{NULL, 0}
};
static const arg_def_t tune_ssim = ARG_DEF_ENUM(NULL, "tune", 1,
"Material to favor", tuning_enum);
static const arg_def_t cq_level = ARG_DEF(NULL, "cq-level", 1,
"Constrained Quality Level");
static const arg_def_t max_intra_rate_pct = ARG_DEF(NULL, "max-intra-rate", 1,
"Max I-frame bitrate (pct)");
static const arg_def_t lossless = ARG_DEF(NULL, "lossless", 1, "Lossless mode");
#if CONFIG_VP9_ENCODER
static const arg_def_t frame_parallel_decoding = ARG_DEF(
NULL, "frame-parallel", 1, "Enable frame parallel decodability features");
#endif
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#if CONFIG_VP8_ENCODER
static const arg_def_t *vp8_args[] = {
&cpu_used, &auto_altref, &noise_sens, &sharpness, &static_thresh,
&token_parts, &arnr_maxframes, &arnr_strength, &arnr_type,
&tune_ssim, &cq_level, &max_intra_rate_pct,
NULL
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};
static const int vp8_arg_ctrl_map[] = {
VP8E_SET_CPUUSED, VP8E_SET_ENABLEAUTOALTREF,
VP8E_SET_NOISE_SENSITIVITY, VP8E_SET_SHARPNESS, VP8E_SET_STATIC_THRESHOLD,
VP8E_SET_TOKEN_PARTITIONS,
VP8E_SET_ARNR_MAXFRAMES, VP8E_SET_ARNR_STRENGTH, VP8E_SET_ARNR_TYPE,
VP8E_SET_TUNING, VP8E_SET_CQ_LEVEL, VP8E_SET_MAX_INTRA_BITRATE_PCT,
0
};
#endif
#if CONFIG_VP9_ENCODER
static const arg_def_t *vp9_args[] = {
&cpu_used, &auto_altref, &noise_sens, &sharpness, &static_thresh,
&tile_cols, &tile_rows, &arnr_maxframes, &arnr_strength, &arnr_type,
&tune_ssim, &cq_level, &max_intra_rate_pct, &lossless,
&frame_parallel_decoding,
NULL
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};
static const int vp9_arg_ctrl_map[] = {
VP8E_SET_CPUUSED, VP8E_SET_ENABLEAUTOALTREF,
VP8E_SET_NOISE_SENSITIVITY, VP8E_SET_SHARPNESS, VP8E_SET_STATIC_THRESHOLD,
VP9E_SET_TILE_COLUMNS, VP9E_SET_TILE_ROWS,
VP8E_SET_ARNR_MAXFRAMES, VP8E_SET_ARNR_STRENGTH, VP8E_SET_ARNR_TYPE,
VP8E_SET_TUNING, VP8E_SET_CQ_LEVEL, VP8E_SET_MAX_INTRA_BITRATE_PCT,
VP9E_SET_LOSSLESS, VP9E_SET_FRAME_PARALLEL_DECODING,
0
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};
#endif
static const arg_def_t *no_args[] = { NULL };
static void usage_exit() {
int i;
fprintf(stderr, "Usage: %s <options> -o dst_filename src_filename \n",
exec_name);
fprintf(stderr, "\nOptions:\n");
arg_show_usage(stdout, main_args);
fprintf(stderr, "\nEncoder Global Options:\n");
arg_show_usage(stdout, global_args);
fprintf(stderr, "\nRate Control Options:\n");
arg_show_usage(stdout, rc_args);
fprintf(stderr, "\nTwopass Rate Control Options:\n");
arg_show_usage(stdout, rc_twopass_args);
fprintf(stderr, "\nKeyframe Placement Options:\n");
arg_show_usage(stdout, kf_args);
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#if CONFIG_VP8_ENCODER
fprintf(stderr, "\nVP8 Specific Options:\n");
arg_show_usage(stdout, vp8_args);
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#endif
#if CONFIG_VP9_ENCODER
fprintf(stderr, "\nVP9 Specific Options:\n");
arg_show_usage(stdout, vp9_args);
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#endif
fprintf(stderr, "\nStream timebase (--timebase):\n"
" The desired precision of timestamps in the output, expressed\n"
" in fractional seconds. Default is 1/1000.\n");
fprintf(stderr, "\n"
"Included encoders:\n"
"\n");
for (i = 0; i < sizeof(codecs) / sizeof(codecs[0]); i++)
fprintf(stderr, " %-6s - %s\n",
codecs[i].name,
vpx_codec_iface_name(codecs[i].iface()));
exit(EXIT_FAILURE);
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}
#define HIST_BAR_MAX 40
struct hist_bucket {
int low, high, count;
};
static int merge_hist_buckets(struct hist_bucket *bucket,
int *buckets_,
int max_buckets) {
int small_bucket = 0, merge_bucket = INT_MAX, big_bucket = 0;
int buckets = *buckets_;
int i;
/* Find the extrema for this list of buckets */
big_bucket = small_bucket = 0;
for (i = 0; i < buckets; i++) {
if (bucket[i].count < bucket[small_bucket].count)
small_bucket = i;
if (bucket[i].count > bucket[big_bucket].count)
big_bucket = i;
}
/* If we have too many buckets, merge the smallest with an adjacent
* bucket.
*/
while (buckets > max_buckets) {
int last_bucket = buckets - 1;
/* merge the small bucket with an adjacent one. */
if (small_bucket == 0)
merge_bucket = 1;
else if (small_bucket == last_bucket)
merge_bucket = last_bucket - 1;
else if (bucket[small_bucket - 1].count < bucket[small_bucket + 1].count)
merge_bucket = small_bucket - 1;
else
merge_bucket = small_bucket + 1;
assert(abs(merge_bucket - small_bucket) <= 1);
assert(small_bucket < buckets);
assert(big_bucket < buckets);
assert(merge_bucket < buckets);
if (merge_bucket < small_bucket) {
bucket[merge_bucket].high = bucket[small_bucket].high;
bucket[merge_bucket].count += bucket[small_bucket].count;
} else {
bucket[small_bucket].high = bucket[merge_bucket].high;
bucket[small_bucket].count += bucket[merge_bucket].count;
merge_bucket = small_bucket;
}
assert(bucket[merge_bucket].low != bucket[merge_bucket].high);
buckets--;
/* Remove the merge_bucket from the list, and find the new small
* and big buckets while we're at it
*/
big_bucket = small_bucket = 0;
for (i = 0; i < buckets; i++) {
if (i > merge_bucket)
bucket[i] = bucket[i + 1];
if (bucket[i].count < bucket[small_bucket].count)
small_bucket = i;
if (bucket[i].count > bucket[big_bucket].count)
big_bucket = i;
}
}
*buckets_ = buckets;
return bucket[big_bucket].count;
}
static void show_histogram(const struct hist_bucket *bucket,
int buckets,
int total,
int scale) {
const char *pat1, *pat2;
int i;
switch ((int)(log(bucket[buckets - 1].high) / log(10)) + 1) {
case 1:
case 2:
pat1 = "%4d %2s: ";
pat2 = "%4d-%2d: ";
break;
case 3:
pat1 = "%5d %3s: ";
pat2 = "%5d-%3d: ";
break;
case 4:
pat1 = "%6d %4s: ";
pat2 = "%6d-%4d: ";
break;
case 5:
pat1 = "%7d %5s: ";
pat2 = "%7d-%5d: ";
break;
case 6:
pat1 = "%8d %6s: ";
pat2 = "%8d-%6d: ";
break;
case 7:
pat1 = "%9d %7s: ";
pat2 = "%9d-%7d: ";
break;
default:
pat1 = "%12d %10s: ";
pat2 = "%12d-%10d: ";
break;
}
for (i = 0; i < buckets; i++) {
int len;
int j;
float pct;
pct = (float)(100.0 * bucket[i].count / total);
len = HIST_BAR_MAX * bucket[i].count / scale;
if (len < 1)
len = 1;
assert(len <= HIST_BAR_MAX);
if (bucket[i].low == bucket[i].high)
fprintf(stderr, pat1, bucket[i].low, "");
else
fprintf(stderr, pat2, bucket[i].low, bucket[i].high);
for (j = 0; j < HIST_BAR_MAX; j++)
fprintf(stderr, j < len ? "=" : " ");
fprintf(stderr, "\t%5d (%6.2f%%)\n", bucket[i].count, pct);
}
}
static void show_q_histogram(const int counts[64], int max_buckets) {
struct hist_bucket bucket[64];
int buckets = 0;
int total = 0;
int scale;
int i;
for (i = 0; i < 64; i++) {
if (counts[i]) {
bucket[buckets].low = bucket[buckets].high = i;
bucket[buckets].count = counts[i];
buckets++;
total += counts[i];
}
}
fprintf(stderr, "\nQuantizer Selection:\n");
scale = merge_hist_buckets(bucket, &buckets, max_buckets);
show_histogram(bucket, buckets, total, scale);
}
#define RATE_BINS (100)
struct rate_hist {
int64_t *pts;
int *sz;
int samples;
int frames;
struct hist_bucket bucket[RATE_BINS];
int total;
};
static void init_rate_histogram(struct rate_hist *hist,
const vpx_codec_enc_cfg_t *cfg,
const vpx_rational_t *fps) {
int i;
/* Determine the number of samples in the buffer. Use the file's framerate
* to determine the number of frames in rc_buf_sz milliseconds, with an
* adjustment (5/4) to account for alt-refs
*/
hist->samples = cfg->rc_buf_sz * 5 / 4 * fps->num / fps->den / 1000;
/* prevent division by zero */
if (hist->samples == 0)
hist->samples = 1;
hist->pts = calloc(hist->samples, sizeof(*hist->pts));
hist->sz = calloc(hist->samples, sizeof(*hist->sz));
for (i = 0; i < RATE_BINS; i++) {
hist->bucket[i].low = INT_MAX;
hist->bucket[i].high = 0;
hist->bucket[i].count = 0;
}
}
static void destroy_rate_histogram(struct rate_hist *hist) {
free(hist->pts);
free(hist->sz);
}
static void update_rate_histogram(struct rate_hist *hist,
const vpx_codec_enc_cfg_t *cfg,
const vpx_codec_cx_pkt_t *pkt) {
int i, idx;
int64_t now, then, sum_sz = 0, avg_bitrate;
now = pkt->data.frame.pts * 1000
* (uint64_t)cfg->g_timebase.num / (uint64_t)cfg->g_timebase.den;
idx = hist->frames++ % hist->samples;
hist->pts[idx] = now;
hist->sz[idx] = (int)pkt->data.frame.sz;
if (now < cfg->rc_buf_initial_sz)
return;
then = now;
/* Sum the size over the past rc_buf_sz ms */
for (i = hist->frames; i > 0 && hist->frames - i < hist->samples; i--) {
int i_idx = (i - 1) % hist->samples;
then = hist->pts[i_idx];
if (now - then > cfg->rc_buf_sz)
break;
sum_sz += hist->sz[i_idx];
}
if (now == then)
return;
avg_bitrate = sum_sz * 8 * 1000 / (now - then);
idx = (int)(avg_bitrate * (RATE_BINS / 2) / (cfg->rc_target_bitrate * 1000));
if (idx < 0)
idx = 0;
if (idx > RATE_BINS - 1)
idx = RATE_BINS - 1;
if (hist->bucket[idx].low > avg_bitrate)
hist->bucket[idx].low = (int)avg_bitrate;
if (hist->bucket[idx].high < avg_bitrate)
hist->bucket[idx].high = (int)avg_bitrate;
hist->bucket[idx].count++;
hist->total++;
}
static void show_rate_histogram(struct rate_hist *hist,
const vpx_codec_enc_cfg_t *cfg,
int max_buckets) {
int i, scale;
int buckets = 0;
for (i = 0; i < RATE_BINS; i++) {
if (hist->bucket[i].low == INT_MAX)
continue;
hist->bucket[buckets++] = hist->bucket[i];
}
fprintf(stderr, "\nRate (over %dms window):\n", cfg->rc_buf_sz);
scale = merge_hist_buckets(hist->bucket, &buckets, max_buckets);
show_histogram(hist->bucket, buckets, hist->total, scale);
}
#define mmin(a, b) ((a) < (b) ? (a) : (b))
static void find_mismatch(vpx_image_t *img1, vpx_image_t *img2,
int yloc[4], int uloc[4], int vloc[4]) {
const unsigned int bsize = 64;
const unsigned int bsize2 = bsize >> 1;
unsigned int match = 1;
unsigned int i, j;
yloc[0] = yloc[1] = yloc[2] = yloc[3] = -1;
for (i = 0, match = 1; match && i < img1->d_h; i += bsize) {
for (j = 0; match && j < img1->d_w; j += bsize) {
int k, l;
int si = mmin(i + bsize, img1->d_h) - i;
int sj = mmin(j + bsize, img1->d_w) - j;
for (k = 0; match && k < si; k++)
for (l = 0; match && l < sj; l++) {
if (*(img1->planes[VPX_PLANE_Y] +
(i + k) * img1->stride[VPX_PLANE_Y] + j + l) !=
*(img2->planes[VPX_PLANE_Y] +
(i + k) * img2->stride[VPX_PLANE_Y] + j + l)) {
yloc[0] = i + k;
yloc[1] = j + l;
yloc[2] = *(img1->planes[VPX_PLANE_Y] +
(i + k) * img1->stride[VPX_PLANE_Y] + j + l);
yloc[3] = *(img2->planes[VPX_PLANE_Y] +
(i + k) * img2->stride[VPX_PLANE_Y] + j + l);
match = 0;
break;
}
}
}
}
uloc[0] = uloc[1] = uloc[2] = uloc[3] = -1;
for (i = 0, match = 1; match && i < (img1->d_h + 1) / 2; i += bsize2) {
for (j = 0; j < match && (img1->d_w + 1) / 2; j += bsize2) {
int k, l;
int si = mmin(i + bsize2, (img1->d_h + 1) / 2) - i;
int sj = mmin(j + bsize2, (img1->d_w + 1) / 2) - j;
for (k = 0; match && k < si; k++)
for (l = 0; match && l < sj; l++) {
if (*(img1->planes[VPX_PLANE_U] +
(i + k) * img1->stride[VPX_PLANE_U] + j + l) !=
*(img2->planes[VPX_PLANE_U] +
(i + k) * img2->stride[VPX_PLANE_U] + j + l)) {
uloc[0] = i + k;
uloc[1] = j + l;
uloc[2] = *(img1->planes[VPX_PLANE_U] +
(i + k) * img1->stride[VPX_PLANE_U] + j + l);
uloc[3] = *(img2->planes[VPX_PLANE_U] +
(i + k) * img2->stride[VPX_PLANE_V] + j + l);
match = 0;
break;
}
}
}
}
vloc[0] = vloc[1] = vloc[2] = vloc[3] = -1;
for (i = 0, match = 1; match && i < (img1->d_h + 1) / 2; i += bsize2) {
for (j = 0; j < match && (img1->d_w + 1) / 2; j += bsize2) {
int k, l;
int si = mmin(i + bsize2, (img1->d_h + 1) / 2) - i;
int sj = mmin(j + bsize2, (img1->d_w + 1) / 2) - j;
for (k = 0; match && k < si; k++)
for (l = 0; match && l < sj; l++) {
if (*(img1->planes[VPX_PLANE_V] +
(i + k) * img1->stride[VPX_PLANE_V] + j + l) !=
*(img2->planes[VPX_PLANE_V] +
(i + k) * img2->stride[VPX_PLANE_V] + j + l)) {
vloc[0] = i + k;
vloc[1] = j + l;
vloc[2] = *(img1->planes[VPX_PLANE_V] +
(i + k) * img1->stride[VPX_PLANE_V] + j + l);
vloc[3] = *(img2->planes[VPX_PLANE_V] +
(i + k) * img2->stride[VPX_PLANE_V] + j + l);
match = 0;
break;
}
}
}
}
}
static int compare_img(vpx_image_t *img1, vpx_image_t *img2)
{
int match = 1;
unsigned int i;
match &= (img1->fmt == img2->fmt);
match &= (img1->w == img2->w);
match &= (img1->h == img2->h);
for (i = 0; i < img1->d_h; i++)
match &= (memcmp(img1->planes[VPX_PLANE_Y]+i*img1->stride[VPX_PLANE_Y],
img2->planes[VPX_PLANE_Y]+i*img2->stride[VPX_PLANE_Y],
img1->d_w) == 0);
for (i = 0; i < img1->d_h/2; i++)
match &= (memcmp(img1->planes[VPX_PLANE_U]+i*img1->stride[VPX_PLANE_U],
img2->planes[VPX_PLANE_U]+i*img2->stride[VPX_PLANE_U],
(img1->d_w + 1) / 2) == 0);
for (i = 0; i < img1->d_h/2; i++)
match &= (memcmp(img1->planes[VPX_PLANE_V]+i*img1->stride[VPX_PLANE_U],
img2->planes[VPX_PLANE_V]+i*img2->stride[VPX_PLANE_U],
(img1->d_w + 1) / 2) == 0);
return match;
}
#define NELEMENTS(x) (sizeof(x)/sizeof(x[0]))
#define MAX(x,y) ((x)>(y)?(x):(y))
#if CONFIG_VP8_ENCODER && !CONFIG_VP9_ENCODER
#define ARG_CTRL_CNT_MAX NELEMENTS(vp8_arg_ctrl_map)
#elif !CONFIG_VP8_ENCODER && CONFIG_VP9_ENCODER
#define ARG_CTRL_CNT_MAX NELEMENTS(vp9_arg_ctrl_map)
#else
#define ARG_CTRL_CNT_MAX MAX(NELEMENTS(vp8_arg_ctrl_map), \
NELEMENTS(vp9_arg_ctrl_map))
#endif
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/* Configuration elements common to all streams */
struct global_config {
const struct codec_item *codec;
int passes;
int pass;
int usage;
int deadline;
int use_i420;
int quiet;
int verbose;
int limit;
int skip_frames;
int show_psnr;
enum TestDecodeFatality test_decode;
int have_framerate;
struct vpx_rational framerate;
int out_part;
int debug;
int show_q_hist_buckets;
int show_rate_hist_buckets;
};
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/* Per-stream configuration */
struct stream_config {
struct vpx_codec_enc_cfg cfg;
const char *out_fn;
const char *stats_fn;
stereo_format_t stereo_fmt;
int arg_ctrls[ARG_CTRL_CNT_MAX][2];
int arg_ctrl_cnt;
int write_webm;
int have_kf_max_dist;
};
struct stream_state {
int index;
struct stream_state *next;
struct stream_config config;
FILE *file;
struct rate_hist rate_hist;
EbmlGlobal ebml;
uint32_t hash;
uint64_t psnr_sse_total;
uint64_t psnr_samples_total;
double psnr_totals[4];
int psnr_count;
int counts[64];
vpx_codec_ctx_t encoder;
unsigned int frames_out;
uint64_t cx_time;
size_t nbytes;
stats_io_t stats;
struct vpx_image *img;
vpx_codec_ctx_t decoder;
int mismatch_seen;
};
void validate_positive_rational(const char *msg,
struct vpx_rational *rat) {
if (rat->den < 0) {
rat->num *= -1;
rat->den *= -1;
}
if (rat->num < 0)
die("Error: %s must be positive\n", msg);
if (!rat->den)
die("Error: %s has zero denominator\n", msg);
}
static void parse_global_config(struct global_config *global, char **argv) {
char **argi, **argj;
struct arg arg;
/* Initialize default parameters */
memset(global, 0, sizeof(*global));
global->codec = codecs;
global->passes = 1;
global->use_i420 = 1;
for (argi = argj = argv; (*argj = *argi); argi += arg.argv_step) {
arg.argv_step = 1;
if (arg_match(&arg, &codecarg, argi)) {
int j, k = -1;
for (j = 0; j < sizeof(codecs) / sizeof(codecs[0]); j++)
if (!strcmp(codecs[j].name, arg.val))
k = j;
if (k >= 0)
global->codec = codecs + k;
else
die("Error: Unrecognized argument (%s) to --codec\n",
arg.val);
} else if (arg_match(&arg, &passes, argi)) {
global->passes = arg_parse_uint(&arg);
if (global->passes < 1 || global->passes > 2)
die("Error: Invalid number of passes (%d)\n", global->passes);
} else if (arg_match(&arg, &pass_arg, argi)) {
global->pass = arg_parse_uint(&arg);
if (global->pass < 1 || global->pass > 2)
die("Error: Invalid pass selected (%d)\n",
global->pass);
} else if (arg_match(&arg, &usage, argi))
global->usage = arg_parse_uint(&arg);
else if (arg_match(&arg, &deadline, argi))
global->deadline = arg_parse_uint(&arg);
else if (arg_match(&arg, &best_dl, argi))
global->deadline = VPX_DL_BEST_QUALITY;
else if (arg_match(&arg, &good_dl, argi))
global->deadline = VPX_DL_GOOD_QUALITY;
else if (arg_match(&arg, &rt_dl, argi))
global->deadline = VPX_DL_REALTIME;
else if (arg_match(&arg, &use_yv12, argi))
global->use_i420 = 0;
else if (arg_match(&arg, &use_i420, argi))
global->use_i420 = 1;
else if (arg_match(&arg, &quietarg, argi))
global->quiet = 1;
else if (arg_match(&arg, &verbosearg, argi))
global->verbose = 1;
else if (arg_match(&arg, &limit, argi))
global->limit = arg_parse_uint(&arg);
else if (arg_match(&arg, &skip, argi))
global->skip_frames = arg_parse_uint(&arg);
else if (arg_match(&arg, &psnrarg, argi))
global->show_psnr = 1;
else if (arg_match(&arg, &recontest, argi))
global->test_decode = arg_parse_enum_or_int(&arg);
else if (arg_match(&arg, &framerate, argi)) {
global->framerate = arg_parse_rational(&arg);
validate_positive_rational(arg.name, &global->framerate);
global->have_framerate = 1;
} else if (arg_match(&arg, &out_part, argi))
global->out_part = 1;
else if (arg_match(&arg, &debugmode, argi))
global->debug = 1;
else if (arg_match(&arg, &q_hist_n, argi))
global->show_q_hist_buckets = arg_parse_uint(&arg);
else if (arg_match(&arg, &rate_hist_n, argi))
global->show_rate_hist_buckets = arg_parse_uint(&arg);
else
argj++;
}
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/* Validate global config */
if (global->pass) {
/* DWIM: Assume the user meant passes=2 if pass=2 is specified */
if (global->pass > global->passes) {
warn("Assuming --pass=%d implies --passes=%d\n",
global->pass, global->pass);
global->passes = global->pass;
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}
}
}
void open_input_file(struct input_state *input) {
unsigned int fourcc;
/* Parse certain options from the input file, if possible */
input->file = strcmp(input->fn, "-") ? fopen(input->fn, "rb")
: set_binary_mode(stdin);
if (!input->file)
fatal("Failed to open input file");
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if (!fseeko(input->file, 0, SEEK_END)) {
/* Input file is seekable. Figure out how long it is, so we can get
* progress info.
*/
input->length = ftello(input->file);
rewind(input->file);
}
/* For RAW input sources, these bytes will applied on the first frame
* in read_frame().
*/
input->detect.buf_read = fread(input->detect.buf, 1, 4, input->file);
input->detect.position = 0;
if (input->detect.buf_read == 4
&& file_is_y4m(input->file, &input->y4m, input->detect.buf)) {
if (y4m_input_open(&input->y4m, input->file, input->detect.buf, 4,
input->only_i420) >= 0) {
input->file_type = FILE_TYPE_Y4M;
input->w = input->y4m.pic_w;
input->h = input->y4m.pic_h;
input->framerate.num = input->y4m.fps_n;
input->framerate.den = input->y4m.fps_d;
input->use_i420 = 0;
} else
fatal("Unsupported Y4M stream.");
} else if (input->detect.buf_read == 4 && file_is_ivf(input, &fourcc)) {
input->file_type = FILE_TYPE_IVF;
switch (fourcc) {
case 0x32315659:
input->use_i420 = 0;
break;
case 0x30323449:
input->use_i420 = 1;
break;
default:
fatal("Unsupported fourcc (%08x) in IVF", fourcc);
}
} else {
input->file_type = FILE_TYPE_RAW;
}
}
static void close_input_file(struct input_state *input) {
fclose(input->file);
if (input->file_type == FILE_TYPE_Y4M)
y4m_input_close(&input->y4m);
}
static struct stream_state *new_stream(struct global_config *global,
struct stream_state *prev) {
struct stream_state *stream;
stream = calloc(1, sizeof(*stream));
if (!stream)
fatal("Failed to allocate new stream.");
if (prev) {
memcpy(stream, prev, sizeof(*stream));
stream->index++;
prev->next = stream;
} else {
vpx_codec_err_t res;
/* Populate encoder configuration */
res = vpx_codec_enc_config_default(global->codec->iface(),
&stream->config.cfg,
global->usage);
if (res)
fatal("Failed to get config: %s\n", vpx_codec_err_to_string(res));
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/* Change the default timebase to a high enough value so that the
* encoder will always create strictly increasing timestamps.
*/
stream->config.cfg.g_timebase.den = 1000;
/* Never use the library's default resolution, require it be parsed
* from the file or set on the command line.
*/
stream->config.cfg.g_w = 0;
stream->config.cfg.g_h = 0;
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/* Initialize remaining stream parameters */
stream->config.stereo_fmt = STEREO_FORMAT_MONO;
stream->config.write_webm = 1;
stream->ebml.last_pts_ms = -1;
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/* Allows removal of the application version from the EBML tags */
stream->ebml.debug = global->debug;
}
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/* Output files must be specified for each stream */
stream->config.out_fn = NULL;
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stream->next = NULL;
return stream;
}
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static int parse_stream_params(struct global_config *global,
struct stream_state *stream,
char **argv) {
char **argi, **argj;
struct arg arg;
static const arg_def_t **ctrl_args = no_args;
static const int *ctrl_args_map = NULL;
struct stream_config *config = &stream->config;
int eos_mark_found = 0;
/* Handle codec specific options */
if (0) {
#if CONFIG_VP8_ENCODER
} else if (global->codec->iface == vpx_codec_vp8_cx) {
ctrl_args = vp8_args;
ctrl_args_map = vp8_arg_ctrl_map;
#endif
#if CONFIG_VP9_ENCODER
} else if (global->codec->iface == vpx_codec_vp9_cx) {
ctrl_args = vp9_args;
ctrl_args_map = vp9_arg_ctrl_map;
#endif
}
for (argi = argj = argv; (*argj = *argi); argi += arg.argv_step) {
arg.argv_step = 1;
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/* Once we've found an end-of-stream marker (--) we want to continue
* shifting arguments but not consuming them.
*/
if (eos_mark_found) {
argj++;
continue;
} else if (!strcmp(*argj, "--")) {
eos_mark_found = 1;
continue;
}
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if (0);
else if (arg_match(&arg, &outputfile, argi))
config->out_fn = arg.val;
else if (arg_match(&arg, &fpf_name, argi))
config->stats_fn = arg.val;
else if (arg_match(&arg, &use_ivf, argi))
config->write_webm = 0;
else if (arg_match(&arg, &threads, argi))
config->cfg.g_threads = arg_parse_uint(&arg);
else if (arg_match(&arg, &profile, argi))
config->cfg.g_profile = arg_parse_uint(&arg);
else if (arg_match(&arg, &width, argi))
config->cfg.g_w = arg_parse_uint(&arg);
else if (arg_match(&arg, &height, argi))
config->cfg.g_h = arg_parse_uint(&arg);
else if (arg_match(&arg, &stereo_mode, argi))
config->stereo_fmt = arg_parse_enum_or_int(&arg);
else if (arg_match(&arg, &timebase, argi)) {
config->cfg.g_timebase = arg_parse_rational(&arg);
validate_positive_rational(arg.name, &config->cfg.g_timebase);
} else if (arg_match(&arg, &error_resilient, argi))
config->cfg.g_error_resilient = arg_parse_uint(&arg);
else if (arg_match(&arg, &lag_in_frames, argi))
config->cfg.g_lag_in_frames = arg_parse_uint(&arg);
else if (arg_match(&arg, &dropframe_thresh, argi))
config->cfg.rc_dropframe_thresh = arg_parse_uint(&arg);
else if (arg_match(&arg, &resize_allowed, argi))
config->cfg.rc_resize_allowed = arg_parse_uint(&arg);
else if (arg_match(&arg, &resize_up_thresh, argi))
config->cfg.rc_resize_up_thresh = arg_parse_uint(&arg);
else if (arg_match(&arg, &resize_down_thresh, argi))
config->cfg.rc_resize_down_thresh = arg_parse_uint(&arg);
else if (arg_match(&arg, &end_usage, argi))
config->cfg.rc_end_usage = arg_parse_enum_or_int(&arg);
else if (arg_match(&arg, &target_bitrate, argi))
config->cfg.rc_target_bitrate = arg_parse_uint(&arg);
else if (arg_match(&arg, &min_quantizer, argi))
config->cfg.rc_min_quantizer = arg_parse_uint(&arg);
else if (arg_match(&arg, &max_quantizer, argi))
config->cfg.rc_max_quantizer = arg_parse_uint(&arg);
else if (arg_match(&arg, &undershoot_pct, argi))
config->cfg.rc_undershoot_pct = arg_parse_uint(&arg);
else if (arg_match(&arg, &overshoot_pct, argi))
config->cfg.rc_overshoot_pct = arg_parse_uint(&arg);
else if (arg_match(&arg, &buf_sz, argi))
config->cfg.rc_buf_sz = arg_parse_uint(&arg);
else if (arg_match(&arg, &buf_initial_sz, argi))
config->cfg.rc_buf_initial_sz = arg_parse_uint(&arg);
else if (arg_match(&arg, &buf_optimal_sz, argi))
config->cfg.rc_buf_optimal_sz = arg_parse_uint(&arg);
else if (arg_match(&arg, &bias_pct, argi)) {
config->cfg.rc_2pass_vbr_bias_pct = arg_parse_uint(&arg);
if (global->passes < 2)
warn("option %s ignored in one-pass mode.\n", arg.name);
} else if (arg_match(&arg, &minsection_pct, argi)) {
config->cfg.rc_2pass_vbr_minsection_pct = arg_parse_uint(&arg);
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if (global->passes < 2)
warn("option %s ignored in one-pass mode.\n", arg.name);
} else if (arg_match(&arg, &maxsection_pct, argi)) {
config->cfg.rc_2pass_vbr_maxsection_pct = arg_parse_uint(&arg);
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if (global->passes < 2)
warn("option %s ignored in one-pass mode.\n", arg.name);
} else if (arg_match(&arg, &kf_min_dist, argi))
config->cfg.kf_min_dist = arg_parse_uint(&arg);
else if (arg_match(&arg, &kf_max_dist, argi)) {
config->cfg.kf_max_dist = arg_parse_uint(&arg);
config->have_kf_max_dist = 1;
} else if (arg_match(&arg, &kf_disabled, argi))
config->cfg.kf_mode = VPX_KF_DISABLED;
else {
int i, match = 0;
for (i = 0; ctrl_args[i]; i++) {
if (arg_match(&arg, ctrl_args[i], argi)) {
int j;
match = 1;
/* Point either to the next free element or the first
* instance of this control.
*/
for (j = 0; j < config->arg_ctrl_cnt; j++)
if (config->arg_ctrls[j][0] == ctrl_args_map[i])
break;
/* Update/insert */
assert(j < ARG_CTRL_CNT_MAX);
if (j < ARG_CTRL_CNT_MAX) {
config->arg_ctrls[j][0] = ctrl_args_map[i];
config->arg_ctrls[j][1] = arg_parse_enum_or_int(&arg);
if (j == config->arg_ctrl_cnt)
config->arg_ctrl_cnt++;
}
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}
}
if (!match)
argj++;
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}
}
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return eos_mark_found;
}
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#define FOREACH_STREAM(func)\
do\
{\
struct stream_state *stream;\
\
for(stream = streams; stream; stream = stream->next)\
func;\
}while(0)
static void validate_stream_config(struct stream_state *stream) {
struct stream_state *streami;
if (!stream->config.cfg.g_w || !stream->config.cfg.g_h)
fatal("Stream %d: Specify stream dimensions with --width (-w) "
" and --height (-h)", stream->index);
for (streami = stream; streami; streami = streami->next) {
/* All streams require output files */
if (!streami->config.out_fn)
fatal("Stream %d: Output file is required (specify with -o)",
streami->index);
/* Check for two streams outputting to the same file */
if (streami != stream) {
const char *a = stream->config.out_fn;
const char *b = streami->config.out_fn;
if (!strcmp(a, b) && strcmp(a, "/dev/null") && strcmp(a, ":nul"))
fatal("Stream %d: duplicate output file (from stream %d)",
streami->index, stream->index);
}
/* Check for two streams sharing a stats file. */
if (streami != stream) {
const char *a = stream->config.stats_fn;
const char *b = streami->config.stats_fn;
if (a && b && !strcmp(a, b))
fatal("Stream %d: duplicate stats file (from stream %d)",
streami->index, stream->index);
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}
}
}
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static void set_stream_dimensions(struct stream_state *stream,
unsigned int w,
unsigned int h) {
if (!stream->config.cfg.g_w) {
if (!stream->config.cfg.g_h)
stream->config.cfg.g_w = w;
else
stream->config.cfg.g_w = w * stream->config.cfg.g_h / h;
}
if (!stream->config.cfg.g_h) {
stream->config.cfg.g_h = h * stream->config.cfg.g_w / w;
}
}
static void set_default_kf_interval(struct stream_state *stream,
struct global_config *global) {
/* Use a max keyframe interval of 5 seconds, if none was
* specified on the command line.
*/
if (!stream->config.have_kf_max_dist) {
double framerate = (double)global->framerate.num / global->framerate.den;
if (framerate > 0.0)
stream->config.cfg.kf_max_dist = (unsigned int)(5.0 * framerate);
}
}
static void show_stream_config(struct stream_state *stream,
struct global_config *global,
struct input_state *input) {
#define SHOW(field) \
fprintf(stderr, " %-28s = %d\n", #field, stream->config.cfg.field)
if (stream->index == 0) {
fprintf(stderr, "Codec: %s\n",
vpx_codec_iface_name(global->codec->iface()));
fprintf(stderr, "Source file: %s Format: %s\n", input->fn,
input->use_i420 ? "I420" : "YV12");
}
if (stream->next || stream->index)
fprintf(stderr, "\nStream Index: %d\n", stream->index);
fprintf(stderr, "Destination file: %s\n", stream->config.out_fn);
fprintf(stderr, "Encoder parameters:\n");
SHOW(g_usage);
SHOW(g_threads);
SHOW(g_profile);
SHOW(g_w);
SHOW(g_h);
SHOW(g_timebase.num);
SHOW(g_timebase.den);
SHOW(g_error_resilient);
SHOW(g_pass);
SHOW(g_lag_in_frames);
SHOW(rc_dropframe_thresh);
SHOW(rc_resize_allowed);
SHOW(rc_resize_up_thresh);
SHOW(rc_resize_down_thresh);
SHOW(rc_end_usage);
SHOW(rc_target_bitrate);
SHOW(rc_min_quantizer);
SHOW(rc_max_quantizer);
SHOW(rc_undershoot_pct);
SHOW(rc_overshoot_pct);
SHOW(rc_buf_sz);
SHOW(rc_buf_initial_sz);
SHOW(rc_buf_optimal_sz);
SHOW(rc_2pass_vbr_bias_pct);
SHOW(rc_2pass_vbr_minsection_pct);
SHOW(rc_2pass_vbr_maxsection_pct);
SHOW(kf_mode);
SHOW(kf_min_dist);
SHOW(kf_max_dist);
}
static void open_output_file(struct stream_state *stream,
struct global_config *global) {
const char *fn = stream->config.out_fn;
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stream->file = strcmp(fn, "-") ? fopen(fn, "wb") : set_binary_mode(stdout);
if (!stream->file)
fatal("Failed to open output file");
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if (stream->config.write_webm && fseek(stream->file, 0, SEEK_CUR))
fatal("WebM output to pipes not supported.");
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if (stream->config.write_webm) {
stream->ebml.stream = stream->file;
write_webm_file_header(&stream->ebml, &stream->config.cfg,
&global->framerate,
stream->config.stereo_fmt,
global->codec->fourcc);
} else
write_ivf_file_header(stream->file, &stream->config.cfg,
global->codec->fourcc, 0);
}
static void close_output_file(struct stream_state *stream,
unsigned int fourcc) {
if (stream->config.write_webm) {
write_webm_file_footer(&stream->ebml, stream->hash);
free(stream->ebml.cue_list);
stream->ebml.cue_list = NULL;
} else {
if (!fseek(stream->file, 0, SEEK_SET))
write_ivf_file_header(stream->file, &stream->config.cfg,
fourcc,
stream->frames_out);
}
fclose(stream->file);
}
static void setup_pass(struct stream_state *stream,
struct global_config *global,
int pass) {
if (stream->config.stats_fn) {
if (!stats_open_file(&stream->stats, stream->config.stats_fn,
pass))
fatal("Failed to open statistics store");
} else {
if (!stats_open_mem(&stream->stats, pass))
fatal("Failed to open statistics store");
}
stream->config.cfg.g_pass = global->passes == 2
? pass ? VPX_RC_LAST_PASS : VPX_RC_FIRST_PASS
: VPX_RC_ONE_PASS;
if (pass)
stream->config.cfg.rc_twopass_stats_in = stats_get(&stream->stats);
stream->cx_time = 0;
stream->nbytes = 0;
stream->frames_out = 0;
}
static void initialize_encoder(struct stream_state *stream,
struct global_config *global) {
int i;
int flags = 0;
flags |= global->show_psnr ? VPX_CODEC_USE_PSNR : 0;
flags |= global->out_part ? VPX_CODEC_USE_OUTPUT_PARTITION : 0;
/* Construct Encoder Context */
vpx_codec_enc_init(&stream->encoder, global->codec->iface(),
&stream->config.cfg, flags);
ctx_exit_on_error(&stream->encoder, "Failed to initialize encoder");
/* Note that we bypass the vpx_codec_control wrapper macro because
* we're being clever to store the control IDs in an array. Real
* applications will want to make use of the enumerations directly
*/
for (i = 0; i < stream->config.arg_ctrl_cnt; i++) {
int ctrl = stream->config.arg_ctrls[i][0];
int value = stream->config.arg_ctrls[i][1];
if (vpx_codec_control_(&stream->encoder, ctrl, value))
fprintf(stderr, "Error: Tried to set control %d = %d\n",
ctrl, value);
ctx_exit_on_error(&stream->encoder, "Failed to control codec");
}
#if CONFIG_DECODERS
if (global->test_decode != TEST_DECODE_OFF) {
vpx_codec_dec_init(&stream->decoder, global->codec->dx_iface(), NULL, 0);
}
#endif
}
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static void encode_frame(struct stream_state *stream,
struct global_config *global,
struct vpx_image *img,
unsigned int frames_in) {
vpx_codec_pts_t frame_start, next_frame_start;
struct vpx_codec_enc_cfg *cfg = &stream->config.cfg;
struct vpx_usec_timer timer;
frame_start = (cfg->g_timebase.den * (int64_t)(frames_in - 1)
* global->framerate.den)
/ cfg->g_timebase.num / global->framerate.num;
next_frame_start = (cfg->g_timebase.den * (int64_t)(frames_in)
* global->framerate.den)
/ cfg->g_timebase.num / global->framerate.num;
/* Scale if necessary */
if (img && (img->d_w != cfg->g_w || img->d_h != cfg->g_h)) {
if (!stream->img)
stream->img = vpx_img_alloc(NULL, VPX_IMG_FMT_I420,
cfg->g_w, cfg->g_h, 16);
I420Scale(img->planes[VPX_PLANE_Y], img->stride[VPX_PLANE_Y],
img->planes[VPX_PLANE_U], img->stride[VPX_PLANE_U],
img->planes[VPX_PLANE_V], img->stride[VPX_PLANE_V],
img->d_w, img->d_h,
stream->img->planes[VPX_PLANE_Y],
stream->img->stride[VPX_PLANE_Y],
stream->img->planes[VPX_PLANE_U],
stream->img->stride[VPX_PLANE_U],
stream->img->planes[VPX_PLANE_V],
stream->img->stride[VPX_PLANE_V],
stream->img->d_w, stream->img->d_h,
kFilterBox);
img = stream->img;
}
vpx_usec_timer_start(&timer);
vpx_codec_encode(&stream->encoder, img, frame_start,
(unsigned long)(next_frame_start - frame_start),
0, global->deadline);
vpx_usec_timer_mark(&timer);
stream->cx_time += vpx_usec_timer_elapsed(&timer);
ctx_exit_on_error(&stream->encoder, "Stream %d: Failed to encode frame",
stream->index);
}
static void update_quantizer_histogram(struct stream_state *stream) {
if (stream->config.cfg.g_pass != VPX_RC_FIRST_PASS) {
int q;
vpx_codec_control(&stream->encoder, VP8E_GET_LAST_QUANTIZER_64, &q);
ctx_exit_on_error(&stream->encoder, "Failed to read quantizer");
stream->counts[q]++;
}
}
static void get_cx_data(struct stream_state *stream,
struct global_config *global,
int *got_data) {
const vpx_codec_cx_pkt_t *pkt;
const struct vpx_codec_enc_cfg *cfg = &stream->config.cfg;
vpx_codec_iter_t iter = NULL;
*got_data = 0;
while ((pkt = vpx_codec_get_cx_data(&stream->encoder, &iter))) {
static size_t fsize = 0;
static off_t ivf_header_pos = 0;
switch (pkt->kind) {
case VPX_CODEC_CX_FRAME_PKT:
if (!(pkt->data.frame.flags & VPX_FRAME_IS_FRAGMENT)) {
stream->frames_out++;
}
if (!global->quiet)
fprintf(stderr, " %6luF", (unsigned long)pkt->data.frame.sz);
update_rate_histogram(&stream->rate_hist, cfg, pkt);
if (stream->config.write_webm) {
/* Update the hash */
if (!stream->ebml.debug)
stream->hash = murmur(pkt->data.frame.buf,
(int)pkt->data.frame.sz,
stream->hash);
write_webm_block(&stream->ebml, cfg, pkt);
} else {
if (pkt->data.frame.partition_id <= 0) {
ivf_header_pos = ftello(stream->file);
fsize = pkt->data.frame.sz;
write_ivf_frame_header(stream->file, pkt);
} else {
fsize += pkt->data.frame.sz;
if (!(pkt->data.frame.flags & VPX_FRAME_IS_FRAGMENT)) {
off_t currpos = ftello(stream->file);
fseeko(stream->file, ivf_header_pos, SEEK_SET);
write_ivf_frame_size(stream->file, fsize);
fseeko(stream->file, currpos, SEEK_SET);
}
}
(void) fwrite(pkt->data.frame.buf, 1, pkt->data.frame.sz,
stream->file);
}
stream->nbytes += pkt->data.raw.sz;
*got_data = 1;
#if CONFIG_DECODERS
if (global->test_decode != TEST_DECODE_OFF && !stream->mismatch_seen) {
vpx_codec_decode(&stream->decoder, pkt->data.frame.buf,
pkt->data.frame.sz, NULL, 0);
if (stream->decoder.err) {
warn_or_exit_on_error(&stream->decoder,
global->test_decode == TEST_DECODE_FATAL,
"Failed to decode frame %d in stream %d",
stream->frames_out + 1, stream->index);
stream->mismatch_seen = stream->frames_out + 1;
}
}
#endif
break;
case VPX_CODEC_STATS_PKT:
stream->frames_out++;
stats_write(&stream->stats,
pkt->data.twopass_stats.buf,
pkt->data.twopass_stats.sz);
stream->nbytes += pkt->data.raw.sz;
break;
case VPX_CODEC_PSNR_PKT:
if (global->show_psnr) {
int i;
stream->psnr_sse_total += pkt->data.psnr.sse[0];
stream->psnr_samples_total += pkt->data.psnr.samples[0];
for (i = 0; i < 4; i++) {
if (!global->quiet)
fprintf(stderr, "%.3f ", pkt->data.psnr.psnr[i]);
stream->psnr_totals[i] += pkt->data.psnr.psnr[i];
}
stream->psnr_count++;
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}
break;
default:
break;
}
}
}
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static void show_psnr(struct stream_state *stream) {
int i;
double ovpsnr;
if (!stream->psnr_count)
return;
fprintf(stderr, "Stream %d PSNR (Overall/Avg/Y/U/V)", stream->index);
ovpsnr = vp8_mse2psnr((double)stream->psnr_samples_total, 255.0,
(double)stream->psnr_sse_total);
fprintf(stderr, " %.3f", ovpsnr);
for (i = 0; i < 4; i++) {
fprintf(stderr, " %.3f", stream->psnr_totals[i] / stream->psnr_count);
}
fprintf(stderr, "\n");
}
static float usec_to_fps(uint64_t usec, unsigned int frames) {
return (float)(usec > 0 ? frames * 1000000.0 / (float)usec : 0);
}
static void test_decode(struct stream_state *stream,
enum TestDecodeFatality fatal,
const struct codec_item *codec) {
vpx_image_t enc_img, dec_img;
if (stream->mismatch_seen)
return;
/* Get the internal reference frame */
if (codec->fourcc == VP8_FOURCC) {
struct vpx_ref_frame ref_enc, ref_dec;
int width, height;
width = (stream->config.cfg.g_w + 15) & ~15;
height = (stream->config.cfg.g_h + 15) & ~15;
vpx_img_alloc(&ref_enc.img, VPX_IMG_FMT_I420, width, height, 1);
enc_img = ref_enc.img;
vpx_img_alloc(&ref_dec.img, VPX_IMG_FMT_I420, width, height, 1);
dec_img = ref_dec.img;
ref_enc.frame_type = VP8_LAST_FRAME;
ref_dec.frame_type = VP8_LAST_FRAME;
vpx_codec_control(&stream->encoder, VP8_COPY_REFERENCE, &ref_enc);
vpx_codec_control(&stream->decoder, VP8_COPY_REFERENCE, &ref_dec);
} else {
struct vp9_ref_frame ref;
ref.idx = 0;
vpx_codec_control(&stream->encoder, VP9_GET_REFERENCE, &ref);
enc_img = ref.img;
vpx_codec_control(&stream->decoder, VP9_GET_REFERENCE, &ref);
dec_img = ref.img;
}
ctx_exit_on_error(&stream->encoder, "Failed to get encoder reference frame");
ctx_exit_on_error(&stream->decoder, "Failed to get decoder reference frame");
if (!compare_img(&enc_img, &dec_img)) {
int y[4], u[4], v[4];
find_mismatch(&enc_img, &dec_img, y, u, v);
stream->decoder.err = 1;
warn_or_exit_on_error(&stream->decoder, fatal == TEST_DECODE_FATAL,
"Stream %d: Encode/decode mismatch on frame %d at"
" Y[%d, %d] {%d/%d},"
" U[%d, %d] {%d/%d},"
" V[%d, %d] {%d/%d}",
stream->index, stream->frames_out,
y[0], y[1], y[2], y[3],
u[0], u[1], u[2], u[3],
v[0], v[1], v[2], v[3]);
stream->mismatch_seen = stream->frames_out;
}
vpx_img_free(&enc_img);
vpx_img_free(&dec_img);
}
static void print_time(const char *label, int64_t etl) {
int hours, mins, secs;
if (etl >= 0) {
hours = etl / 3600;
etl -= hours * 3600;
mins = etl / 60;
etl -= mins * 60;
secs = etl;
fprintf(stderr, "[%3s %2d:%02d:%02d] ",
label, hours, mins, secs);
} else {
fprintf(stderr, "[%3s unknown] ", label);
}
}
int main(int argc, const char **argv_) {
int pass;
vpx_image_t raw;
int frame_avail, got_data;
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struct input_state input = {0};
struct global_config global;
struct stream_state *streams = NULL;
char **argv, **argi;
uint64_t cx_time = 0;
int stream_cnt = 0;
int res = 0;
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exec_name = argv_[0];
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if (argc < 3)
usage_exit();
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/* Setup default input stream settings */
input.framerate.num = 30;
input.framerate.den = 1;
input.use_i420 = 1;
input.only_i420 = 1;
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/* First parse the global configuration values, because we want to apply
* other parameters on top of the default configuration provided by the
* codec.
*/
argv = argv_dup(argc - 1, argv_ + 1);
parse_global_config(&global, argv);
{
/* Now parse each stream's parameters. Using a local scope here
* due to the use of 'stream' as loop variable in FOREACH_STREAM
* loops
*/
struct stream_state *stream = NULL;
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do {
stream = new_stream(&global, stream);
stream_cnt++;
if (!streams)
streams = stream;
} while (parse_stream_params(&global, stream, argv));
}
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/* Check for unrecognized options */
for (argi = argv; *argi; argi++)
if (argi[0][0] == '-' && argi[0][1])
die("Error: Unrecognized option %s\n", *argi);
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/* Handle non-option arguments */
input.fn = argv[0];
if (!input.fn)
usage_exit();
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#if CONFIG_NON420
/* Decide if other chroma subsamplings than 4:2:0 are supported */
if (global.codec->fourcc == VP9_FOURCC)
input.only_i420 = 0;
#endif
for (pass = global.pass ? global.pass - 1 : 0; pass < global.passes; pass++) {
int frames_in = 0, seen_frames = 0;
int64_t estimated_time_left = -1;
int64_t average_rate = -1;
off_t lagged_count = 0;
open_input_file(&input);
/* If the input file doesn't specify its w/h (raw files), try to get
* the data from the first stream's configuration.
*/
if (!input.w || !input.h)
FOREACH_STREAM( {
if (stream->config.cfg.g_w && stream->config.cfg.g_h) {
input.w = stream->config.cfg.g_w;
input.h = stream->config.cfg.g_h;
break;
}
});
/* Update stream configurations from the input file's parameters */
if (!input.w || !input.h)
fatal("Specify stream dimensions with --width (-w) "
" and --height (-h)");
FOREACH_STREAM(set_stream_dimensions(stream, input.w, input.h));
FOREACH_STREAM(validate_stream_config(stream));
/* Ensure that --passes and --pass are consistent. If --pass is set and
* --passes=2, ensure --fpf was set.
*/
if (global.pass && global.passes == 2)
FOREACH_STREAM( {
if (!stream->config.stats_fn)
die("Stream %d: Must specify --fpf when --pass=%d"
" and --passes=2\n", stream->index, global.pass);
});
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/* Use the frame rate from the file only if none was specified
* on the command-line.
*/
if (!global.have_framerate)
global.framerate = input.framerate;
FOREACH_STREAM(set_default_kf_interval(stream, &global));
/* Show configuration */
if (global.verbose && pass == 0)
FOREACH_STREAM(show_stream_config(stream, &global, &input));
if (pass == (global.pass ? global.pass - 1 : 0)) {
if (input.file_type == FILE_TYPE_Y4M)
/*The Y4M reader does its own allocation.
Just initialize this here to avoid problems if we never read any
frames.*/
memset(&raw, 0, sizeof(raw));
else
vpx_img_alloc(&raw,
input.use_i420 ? VPX_IMG_FMT_I420
: VPX_IMG_FMT_YV12,
input.w, input.h, 32);
FOREACH_STREAM(init_rate_histogram(&stream->rate_hist,
&stream->config.cfg,
&global.framerate));
}
FOREACH_STREAM(open_output_file(stream, &global));
FOREACH_STREAM(setup_pass(stream, &global, pass));
FOREACH_STREAM(initialize_encoder(stream, &global));
frame_avail = 1;
got_data = 0;
while (frame_avail || got_data) {
struct vpx_usec_timer timer;
if (!global.limit || frames_in < global.limit) {
frame_avail = read_frame(&input, &raw);
if (frame_avail)
frames_in++;
seen_frames = frames_in > global.skip_frames ?
frames_in - global.skip_frames : 0;
if (!global.quiet) {
float fps = usec_to_fps(cx_time, seen_frames);
fprintf(stderr, "\rPass %d/%d ", pass + 1, global.passes);
if (stream_cnt == 1)
fprintf(stderr,
"frame %4d/%-4d %7"PRId64"B ",
frames_in, streams->frames_out, (int64_t)streams->nbytes);
else
fprintf(stderr, "frame %4d ", frames_in);
fprintf(stderr, "%7"PRId64" %s %.2f %s ",
cx_time > 9999999 ? cx_time / 1000 : cx_time,
cx_time > 9999999 ? "ms" : "us",
fps >= 1.0 ? fps : 1000.0 / fps,
fps >= 1.0 ? "fps" : "ms/f");
print_time("ETA", estimated_time_left);
fprintf(stderr, "\033[K");
}
} else
frame_avail = 0;
if (frames_in > global.skip_frames) {
vpx_usec_timer_start(&timer);
FOREACH_STREAM(encode_frame(stream, &global,
frame_avail ? &raw : NULL,
frames_in));
vpx_usec_timer_mark(&timer);
cx_time += vpx_usec_timer_elapsed(&timer);
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FOREACH_STREAM(update_quantizer_histogram(stream));
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got_data = 0;
FOREACH_STREAM(get_cx_data(stream, &global, &got_data));
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if (!got_data && input.length && !streams->frames_out) {
lagged_count = global.limit ? seen_frames : ftello(input.file);
} else if (input.length) {
int64_t remaining;
int64_t rate;
if (global.limit) {
int frame_in_lagged = (seen_frames - lagged_count) * 1000;
rate = cx_time ? frame_in_lagged * (int64_t)1000000 / cx_time : 0;
remaining = 1000 * (global.limit - global.skip_frames
- seen_frames + lagged_count);
} else {
off_t input_pos = ftello(input.file);
off_t input_pos_lagged = input_pos - lagged_count;
int64_t limit = input.length;
rate = cx_time ? input_pos_lagged * (int64_t)1000000 / cx_time : 0;
remaining = limit - input_pos + lagged_count;
}
average_rate = (average_rate <= 0)
? rate
: (average_rate * 7 + rate) / 8;
estimated_time_left = average_rate ? remaining / average_rate : -1;
}
if (got_data && global.test_decode != TEST_DECODE_OFF)
FOREACH_STREAM(test_decode(stream, global.test_decode, global.codec));
}
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fflush(stdout);
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}
if (stream_cnt > 1)
fprintf(stderr, "\n");
if (!global.quiet)
FOREACH_STREAM(fprintf(
stderr,
"\rPass %d/%d frame %4d/%-4d %7"PRId64"B %7lub/f %7"PRId64"b/s"
" %7"PRId64" %s (%.2f fps)\033[K\n", pass + 1,
global.passes, frames_in, stream->frames_out, (int64_t)stream->nbytes,
seen_frames ? (unsigned long)(stream->nbytes * 8 / seen_frames) : 0,
seen_frames ? (int64_t)stream->nbytes * 8
* (int64_t)global.framerate.num / global.framerate.den
/ seen_frames
: 0,
stream->cx_time > 9999999 ? stream->cx_time / 1000 : stream->cx_time,
stream->cx_time > 9999999 ? "ms" : "us",
usec_to_fps(stream->cx_time, seen_frames));
);
if (global.show_psnr)
FOREACH_STREAM(show_psnr(stream));
FOREACH_STREAM(vpx_codec_destroy(&stream->encoder));
if (global.test_decode != TEST_DECODE_OFF) {
FOREACH_STREAM(vpx_codec_destroy(&stream->decoder));
}
close_input_file(&input);
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if (global.test_decode == TEST_DECODE_FATAL) {
FOREACH_STREAM(res |= stream->mismatch_seen);
}
FOREACH_STREAM(close_output_file(stream, global.codec->fourcc));
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FOREACH_STREAM(stats_close(&stream->stats, global.passes - 1));
if (global.pass)
break;
}
if (global.show_q_hist_buckets)
FOREACH_STREAM(show_q_histogram(stream->counts,
global.show_q_hist_buckets));
if (global.show_rate_hist_buckets)
FOREACH_STREAM(show_rate_histogram(&stream->rate_hist,
&stream->config.cfg,
global.show_rate_hist_buckets));
FOREACH_STREAM(destroy_rate_histogram(&stream->rate_hist));
#if CONFIG_INTERNAL_STATS
/* TODO(jkoleszar): This doesn't belong in this executable. Do it for now,
* to match some existing utilities.
*/
FOREACH_STREAM({
FILE *f = fopen("opsnr.stt", "a");
if (stream->mismatch_seen) {
fprintf(f, "First mismatch occurred in frame %d\n",
stream->mismatch_seen);
} else {
fprintf(f, "No mismatch detected in recon buffers\n");
}
fclose(f);
});
#endif
vpx_img_free(&raw);
free(argv);
free(streams);
return res ? EXIT_FAILURE : EXIT_SUCCESS;
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}