X-Git-Url: https://git.sesse.net/?a=blobdiff_plain;f=x264.h;h=2550864068bef60134bf15ce79b2e222f9625802;hb=afc36d0b0ff867541827e3ff0f517df4cdf31fd6;hp=e9b8a0d03c5bf6285435cfd2e7b0ed5455255c32;hpb=036494a60f7850c1613c5084fe9a11c7821cb5a7;p=x264 diff --git a/x264.h b/x264.h index e9b8a0d0..25508640 100644 --- a/x264.h +++ b/x264.h @@ -1,10 +1,10 @@ /***************************************************************************** * x264.h: h264 encoder library ***************************************************************************** - * Copyright (C) 2003 Laurent Aimar - * $Id: x264.h,v 1.1 2004/06/03 19:24:12 fenrir Exp $ + * Copyright (C) 2003-2008 x264 Project * * Authors: Laurent Aimar + * Loren Merritt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by @@ -18,18 +18,27 @@ * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software - * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA. + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. *****************************************************************************/ -#ifndef _X264_H -#define _X264_H 1 +#ifndef X264_X264_H +#define X264_X264_H + +#if !defined(_STDINT_H) && !defined(_STDINT_H_) && \ + !defined(_INTTYPES_H) && !defined(_INTTYPES_H_) +# ifdef _MSC_VER +# pragma message("You must include stdint.h or inttypes.h before x264.h") +# else +# warning You must include stdint.h or inttypes.h before x264.h +# endif +#endif #include -#define X264_BUILD 24 +#define X264_BUILD 84 /* x264_t: - * opaque handler for decoder and encoder */ + * opaque handler for encoder */ typedef struct x264_t x264_t; /**************************************************************************** @@ -37,29 +46,74 @@ typedef struct x264_t x264_t; ****************************************************************************/ /* CPU flags */ -#define X264_CPU_MMX 0x000001 /* mmx */ -#define X264_CPU_MMXEXT 0x000002 /* mmx-ext*/ -#define X264_CPU_SSE 0x000004 /* sse */ -#define X264_CPU_SSE2 0x000008 /* sse 2 */ -#define X264_CPU_3DNOW 0x000010 /* 3dnow! */ -#define X264_CPU_3DNOWEXT 0x000020 /* 3dnow! ext */ -#define X264_CPU_ALTIVEC 0x000040 /* altivec */ +#define X264_CPU_CACHELINE_32 0x000001 /* avoid memory loads that span the border between two cachelines */ +#define X264_CPU_CACHELINE_64 0x000002 /* 32/64 is the size of a cacheline in bytes */ +#define X264_CPU_ALTIVEC 0x000004 +#define X264_CPU_MMX 0x000008 +#define X264_CPU_MMXEXT 0x000010 /* MMX2 aka MMXEXT aka ISSE */ +#define X264_CPU_SSE 0x000020 +#define X264_CPU_SSE2 0x000040 +#define X264_CPU_SSE2_IS_SLOW 0x000080 /* avoid most SSE2 functions on Athlon64 */ +#define X264_CPU_SSE2_IS_FAST 0x000100 /* a few functions are only faster on Core2 and Phenom */ +#define X264_CPU_SSE3 0x000200 +#define X264_CPU_SSSE3 0x000400 +#define X264_CPU_SHUFFLE_IS_FAST 0x000800 /* Penryn, Nehalem, and Phenom have fast shuffle units */ +#define X264_CPU_STACK_MOD4 0x001000 /* if stack is only mod4 and not mod16 */ +#define X264_CPU_SSE4 0x002000 /* SSE4.1 */ +#define X264_CPU_SSE42 0x004000 /* SSE4.2 */ +#define X264_CPU_SSE_MISALIGN 0x008000 /* Phenom support for misaligned SSE instruction arguments */ +#define X264_CPU_LZCNT 0x010000 /* Phenom support for "leading zero count" instruction. */ +#define X264_CPU_ARMV6 0x020000 +#define X264_CPU_NEON 0x040000 /* ARM NEON */ +#define X264_CPU_FAST_NEON_MRC 0x080000 /* Transfer from NEON to ARM register is fast (Cortex-A9) */ /* Analyse flags */ #define X264_ANALYSE_I4x4 0x0001 /* Analyse i4x4 */ +#define X264_ANALYSE_I8x8 0x0002 /* Analyse i8x8 (requires 8x8 transform) */ #define X264_ANALYSE_PSUB16x16 0x0010 /* Analyse p16x8, p8x16 and p8x8 */ #define X264_ANALYSE_PSUB8x8 0x0020 /* Analyse p8x4, p4x8, p4x4 */ #define X264_ANALYSE_BSUB16x16 0x0100 /* Analyse b16x8, b8x16 and b8x8 */ #define X264_DIRECT_PRED_NONE 0 #define X264_DIRECT_PRED_SPATIAL 1 #define X264_DIRECT_PRED_TEMPORAL 2 +#define X264_DIRECT_PRED_AUTO 3 #define X264_ME_DIA 0 #define X264_ME_HEX 1 -#define X264_ME_ESA 2 +#define X264_ME_UMH 2 +#define X264_ME_ESA 3 +#define X264_ME_TESA 4 +#define X264_CQM_FLAT 0 +#define X264_CQM_JVT 1 +#define X264_CQM_CUSTOM 2 +#define X264_RC_CQP 0 +#define X264_RC_CRF 1 +#define X264_RC_ABR 2 +#define X264_AQ_NONE 0 +#define X264_AQ_VARIANCE 1 +#define X264_AQ_AUTOVARIANCE 2 +#define X264_B_ADAPT_NONE 0 +#define X264_B_ADAPT_FAST 1 +#define X264_B_ADAPT_TRELLIS 2 +#define X264_WEIGHTP_NONE 0 +#define X264_WEIGHTP_BLIND 1 +#define X264_WEIGHTP_SMART 2 +#define X264_B_PYRAMID_NONE 0 +#define X264_B_PYRAMID_STRICT 1 +#define X264_B_PYRAMID_NORMAL 2 + +static const char * const x264_direct_pred_names[] = { "none", "spatial", "temporal", "auto", 0 }; +static const char * const x264_motion_est_names[] = { "dia", "hex", "umh", "esa", "tesa", 0 }; +static const char * const x264_b_pyramid_names[] = { "none", "strict", "normal", 0 }; +static const char * const x264_overscan_names[] = { "undef", "show", "crop", 0 }; +static const char * const x264_vidformat_names[] = { "component", "pal", "ntsc", "secam", "mac", "undef", 0 }; +static const char * const x264_fullrange_names[] = { "off", "on", 0 }; +static const char * const x264_colorprim_names[] = { "", "bt709", "undef", "", "bt470m", "bt470bg", "smpte170m", "smpte240m", "film", 0 }; +static const char * const x264_transfer_names[] = { "", "bt709", "undef", "", "bt470m", "bt470bg", "smpte170m", "smpte240m", "linear", "log100", "log316", 0 }; +static const char * const x264_colmatrix_names[] = { "GBR", "bt709", "undef", "", "fcc", "bt470bg", "smpte170m", "smpte240m", "YCgCo", 0 }; /* Colorspace type - */ + * legacy only; nothing other than I420 is really supported. */ #define X264_CSP_MASK 0x00ff /* */ #define X264_CSP_NONE 0x0000 /* Invalid mode */ #define X264_CSP_I420 0x0001 /* yuv 4:2:0 planar */ @@ -70,10 +124,10 @@ typedef struct x264_t x264_t; #define X264_CSP_RGB 0x0006 /* rgb 24bits */ #define X264_CSP_BGR 0x0007 /* bgr 24bits */ #define X264_CSP_BGRA 0x0008 /* bgr 32bits */ +#define X264_CSP_MAX 0x0009 /* end of list */ #define X264_CSP_VFLIP 0x1000 /* */ -/* Slice type - */ +/* Slice type */ #define X264_TYPE_AUTO 0x0000 /* Let x264 choose the right type */ #define X264_TYPE_IDR 0x0001 #define X264_TYPE_I 0x0002 @@ -83,45 +137,76 @@ typedef struct x264_t x264_t; #define IS_X264_TYPE_I(x) ((x)==X264_TYPE_I || (x)==X264_TYPE_IDR) #define IS_X264_TYPE_B(x) ((x)==X264_TYPE_B || (x)==X264_TYPE_BREF) -/* Log level - */ +/* Log level */ #define X264_LOG_NONE (-1) #define X264_LOG_ERROR 0 #define X264_LOG_WARNING 1 #define X264_LOG_INFO 2 #define X264_LOG_DEBUG 3 +/* Threading */ +#define X264_THREADS_AUTO 0 /* Automatically select optimal number of threads */ +#define X264_SYNC_LOOKAHEAD_AUTO (-1) /* Automatically select optimal lookahead thread buffer size */ + +/* Zones: override ratecontrol or other options for specific sections of the video. + * See x264_encoder_reconfig() for which options can be changed. + * If zones overlap, whichever comes later in the list takes precedence. */ typedef struct +{ + int i_start, i_end; /* range of frame numbers */ + int b_force_qp; /* whether to use qp vs bitrate factor */ + int i_qp; + float f_bitrate_factor; + struct x264_param_t *param; +} x264_zone_t; + +typedef struct x264_param_t { /* CPU flags */ unsigned int cpu; + int i_threads; /* encode multiple frames in parallel */ + int b_sliced_threads; /* Whether to use slice-based threading. */ + int b_deterministic; /* whether to allow non-deterministic optimizations when threaded */ + int i_sync_lookahead; /* threaded lookahead buffer */ /* Video Properties */ int i_width; int i_height; int i_csp; /* CSP of encoded bitstream, only i420 supported */ - int i_level_idc; + int i_level_idc; + int i_frame_total; /* number of frames to encode if known, else 0 */ struct { /* they will be reduced to be 0 < x <= 65535 and prime */ int i_sar_height; int i_sar_width; + + int i_overscan; /* 0=undef, 1=no overscan, 2=overscan */ + + /* see h264 annex E for the values of the following */ + int i_vidformat; + int b_fullrange; + int i_colorprim; + int i_transfer; + int i_colmatrix; + int i_chroma_loc; /* both top & bottom */ } vui; int i_fps_num; int i_fps_den; - int i_maxframes; /* Maximum number of frames to read from input file and encode, 0=unlimited */ /* Bitstream parameters */ int i_frame_reference; /* Maximum number of reference frames */ int i_keyint_max; /* Force an IDR keyframe at this interval */ int i_keyint_min; /* Scenecuts closer together than this are coded as I, not IDR. */ int i_scenecut_threshold; /* how aggressively to insert extra I frames */ + int b_intra_refresh; /* Whether or not to use periodic intra refresh instead of IDR frames. */ + int i_bframe; /* how many b-frame between 2 references pictures */ - int b_bframe_adaptive; + int i_bframe_adaptive; int i_bframe_bias; - int b_bframe_pyramid; /* Keep some B-frames as references */ + int i_bframe_pyramid; /* Keep some B-frames as references: 0=off, 1=strict hierarchical, 2=normal */ int b_deblocking_filter; int i_deblocking_filter_alphac0; /* [-6, 6] -6 light filter, 6 strong */ @@ -130,70 +215,156 @@ typedef struct int b_cabac; int i_cabac_init_idc; + int b_interlaced; + int b_constrained_intra; + + int i_cqm_preset; + char *psz_cqm_file; /* JM format */ + uint8_t cqm_4iy[16]; /* used only if i_cqm_preset == X264_CQM_CUSTOM */ + uint8_t cqm_4ic[16]; + uint8_t cqm_4py[16]; + uint8_t cqm_4pc[16]; + uint8_t cqm_8iy[64]; + uint8_t cqm_8py[64]; /* Log */ void (*pf_log)( void *, int i_level, const char *psz, va_list ); void *p_log_private; int i_log_level; int b_visualize; + char *psz_dump_yuv; /* filename for reconstructed frames */ /* Encoder analyser parameters */ struct { - unsigned int intra; /* intra flags */ - unsigned int inter; /* inter flags */ + unsigned int intra; /* intra partitions */ + unsigned int inter; /* inter partitions */ + int b_transform_8x8; + int i_weighted_pred; /* weighting for P-frames */ + int b_weighted_bipred; /* implicit weighting for B-frames */ int i_direct_mv_pred; /* spatial vs temporal mv prediction */ + int i_chroma_qp_offset; + int i_me_method; /* motion estimation algorithm to use (X264_ME_*) */ int i_me_range; /* integer pixel motion estimation search range (from predicted mv) */ + int i_mv_range; /* maximum length of a mv (in pixels). -1 = auto, based on level */ + int i_mv_range_thread; /* minimum space between threads. -1 = auto, based on number of threads. */ int i_subpel_refine; /* subpixel motion estimation quality */ int b_chroma_me; /* chroma ME for subpel and mode decision in P-frames */ - int i_mv_range; /* maximum length of a mv (in pixels) */ - - int b_weighted_bipred; /* implicit weighting for B-frames */ - - int i_chroma_qp_offset; - - int b_psnr; /* Do we compute PSNR stats (save a few % of cpu) */ + int b_mixed_references; /* allow each mb partition in P-frames to have it's own reference number */ + int i_trellis; /* trellis RD quantization */ + int b_fast_pskip; /* early SKIP detection on P-frames */ + int b_dct_decimate; /* transform coefficient thresholding on P-frames */ + int i_noise_reduction; /* adaptive pseudo-deadzone */ + float f_psy_rd; /* Psy RD strength */ + float f_psy_trellis; /* Psy trellis strength */ + int b_psy; /* Toggle all psy optimizations */ + + /* the deadzone size that will be used in luma quantization */ + int i_luma_deadzone[2]; /* {inter, intra} */ + + int b_psnr; /* compute and print PSNR stats */ + int b_ssim; /* compute and print SSIM stats */ } analyse; /* Rate control parameters */ struct { - int i_qp_constant; /* 1-51 */ + int i_rc_method; /* X264_RC_* */ + + int i_qp_constant; /* 0-51 */ int i_qp_min; /* min allowed QP value */ int i_qp_max; /* max allowed QP value */ int i_qp_step; /* max QP step between frames */ - int b_cbr; /* use bitrate instead of CQP */ int i_bitrate; + float f_rf_constant; /* 1pass VBR, nominal QP */ float f_rate_tolerance; int i_vbv_max_bitrate; int i_vbv_buffer_size; - float f_vbv_buffer_init; + float f_vbv_buffer_init; /* <=1: fraction of buffer_size. >1: kbit */ float f_ip_factor; float f_pb_factor; + int i_aq_mode; /* psy adaptive QP. (X264_AQ_*) */ + float f_aq_strength; + int b_mb_tree; /* Macroblock-tree ratecontrol. */ + int i_lookahead; + /* 2pass */ int b_stat_write; /* Enable stat writing in psz_stat_out */ char *psz_stat_out; int b_stat_read; /* Read stat from psz_stat_in and use it */ char *psz_stat_in; - /* 2pass params (same than ffmpeg ones) */ - char *psz_rc_eq; /* 2 pass rate control equation */ + /* 2pass params (same as ffmpeg ones) */ float f_qcompress; /* 0.0 => cbr, 1.0 => constant qp */ float f_qblur; /* temporally blur quants */ float f_complexity_blur; /* temporally blur complexity */ + x264_zone_t *zones; /* ratecontrol overrides */ + int i_zones; /* number of zone_t's */ + char *psz_zones; /* alternate method of specifying zones */ } rc; + /* Muxing parameters */ int b_aud; /* generate access unit delimiters */ + int b_repeat_headers; /* put SPS/PPS before each keyframe */ + int b_annexb; /* if set, place start codes (4 bytes) before NAL units, + * otherwise place size (4 bytes) before NAL units. */ + int i_sps_id; /* SPS and PPS id number */ + int b_vfr_input; /* VFR input */ + int i_timebase_num; /* Timebase numerator */ + int i_timebase_den; /* Timebase denominator */ + int b_dts_compress; /* DTS compression: this algorithm eliminates negative DTS + * by compressing them to be less than the second PTS. + * Warning: this will change the timebase! */ + + /* Slicing parameters */ + int i_slice_max_size; /* Max size per slice in bytes; includes estimated NAL overhead. */ + int i_slice_max_mbs; /* Max number of MBs per slice; overrides i_slice_count. */ + int i_slice_count; /* Number of slices per frame: forces rectangular slices. */ + + /* Optional callback for freeing this x264_param_t when it is done being used. + * Only used when the x264_param_t sits in memory for an indefinite period of time, + * i.e. when an x264_param_t is passed to x264_t in an x264_picture_t or in zones. + * Not used when x264_encoder_reconfig is called directly. */ + void (*param_free)( void* ); } x264_param_t; +typedef struct { + int level_idc; + int mbps; /* max macroblock processing rate (macroblocks/sec) */ + int frame_size; /* max frame size (macroblocks) */ + int dpb; /* max decoded picture buffer (bytes) */ + int bitrate; /* max bitrate (kbit/sec) */ + int cpb; /* max vbv buffer (kbit) */ + int mv_range; /* max vertical mv component range (pixels) */ + int mvs_per_2mb; /* max mvs per 2 consecutive mbs. */ + int slice_rate; /* ?? */ + int bipred8x8; /* limit bipred to >=8x8 */ + int direct8x8; /* limit b_direct to >=8x8 */ + int frame_only; /* forbid interlacing */ +} x264_level_t; + +/* all of the levels defined in the standard, terminated by .level_idc=0 */ +extern const x264_level_t x264_levels[]; + /* x264_param_default: * fill x264_param_t with default values and do CPU detection */ void x264_param_default( x264_param_t * ); +/* x264_param_parse: + * set one parameter by name. + * returns 0 on success, or returns one of the following errors. + * note: BAD_VALUE occurs only if it can't even parse the value, + * numerical range is not checked until x264_encoder_open() or + * x264_encoder_reconfig(). + * value=NULL means "true" for boolean options, but is a BAD_VALUE for non-booleans. */ +#define X264_PARAM_BAD_NAME (-1) +#define X264_PARAM_BAD_VALUE (-2) +int x264_param_parse( x264_param_t *, const char *name, const char *value ); + /**************************************************************************** * Picture structures and functions. ****************************************************************************/ @@ -208,21 +379,41 @@ typedef struct typedef struct { - /* In: force picture type (if not auto) XXX: ignored for now + /* In: force picture type (if not auto) + * If x264 encoding parameters are violated in the forcing of picture types, + * x264 will correct the input picture type and log a warning. + * The quality of frametype decisions may suffer if a great deal of fine-grained + * mixing of auto and forced frametypes is done. * Out: type of the picture encoded */ int i_type; /* In: force quantizer for > 0 */ int i_qpplus1; + /* Out: whether this frame is a keyframe. Important when using modes that result in + * SEI recovery points being used instead of IDR frames. */ + int b_keyframe; /* In: user pts, Out: pts of encoded picture (user)*/ int64_t i_pts; - + /* Out: frame dts. Since the pts of the first frame is always zero, + * initial frames may have a negative dts which must be dealt with by any muxer */ + int64_t i_dts; + /* In: custom encoding parameters to be set from this frame forwards + (in coded order, not display order). If NULL, continue using + parameters from the previous frame. Some parameters, such as + aspect ratio, can only be changed per-GOP due to the limitations + of H.264 itself; in this case, the caller must force an IDR frame + if it needs the changed parameter to apply immediately. */ + x264_param_t *param; /* In: raw data */ x264_image_t img; + /* private user data. libx264 doesn't touch this, + not even copy it from input to output frames. */ + void *opaque; } x264_picture_t; /* x264_picture_alloc: - * alloc data for a picture. You must call x264_picture_clean on it. */ -void x264_picture_alloc( x264_picture_t *pic, int i_csp, int i_width, int i_height ); + * alloc data for a picture. You must call x264_picture_clean on it. + * returns 0 on success, or -1 on malloc failure. */ +int x264_picture_alloc( x264_picture_t *pic, int i_csp, int i_width, int i_height ); /* x264_picture_clean: * free associated resource for a x264_picture_t allocated with @@ -255,71 +446,72 @@ enum nal_priority_e NAL_PRIORITY_HIGHEST = 3, }; +/* The data within the payload is already NAL-encapsulated; the ref_idc and type + * are merely in the struct for easy access by the calling application. + * All data returned in an x264_nal_t, including the data in p_payload, is no longer + * valid after the next call to x264_encoder_encode. Thus it must be used or copied + * before calling x264_encoder_encode or x264_encoder_headers again. */ typedef struct { int i_ref_idc; /* nal_priority_e */ int i_type; /* nal_unit_type_e */ - /* This data are raw payload */ + /* Size of payload in bytes. */ int i_payload; + /* If param->b_annexb is set, Annex-B bytestream with 4-byte startcode. + * Otherwise, startcode is replaced with a 4-byte size. + * This size is the size used in mp4/similar muxing; it is equal to i_payload-4 */ uint8_t *p_payload; } x264_nal_t; -/* x264_nal_encode: - * encode a nal into a buffer, setting the size. - * if b_annexeb then a long synch work is added - * XXX: it currently doesn't check for overflow */ -int x264_nal_encode( void *, int *, int b_annexeb, x264_nal_t *nal ); - -/* x264_nal_decode: - * decode a buffer nal into a x264_nal_t */ -int x264_nal_decode( x264_nal_t *nal, void *, int ); - /**************************************************************************** * Encoder functions: ****************************************************************************/ +/* Force a link error in the case of linking against an incompatible API version. + * Glue #defines exist to force correct macro expansion; the final output of the macro + * is x264_encoder_open_##X264_BUILD (for purposes of dlopen). */ +#define x264_encoder_glue1(x,y) x##y +#define x264_encoder_glue2(x,y) x264_encoder_glue1(x,y) +#define x264_encoder_open x264_encoder_glue2(x264_encoder_open_,X264_BUILD) + /* x264_encoder_open: * create a new encoder handler, all parameters from x264_param_t are copied */ -x264_t *x264_encoder_open ( x264_param_t * ); +x264_t *x264_encoder_open( x264_param_t * ); + +/* x264_encoder_reconfig: + * analysis-related parameters from x264_param_t are copied. + * this takes effect immediately, on whichever frame is encoded next; + * due to delay, this may not be the next frame passed to encoder_encode. + * if the change should apply to some particular frame, use x264_picture_t->param instead. + * returns 0 on success, negative on parameter validation error. */ +int x264_encoder_reconfig( x264_t *, x264_param_t * ); +/* x264_encoder_parameters: + * copies the current internal set of parameters to the pointer provided + * by the caller. useful when the calling application needs to know + * how x264_encoder_open has changed the parameters, or the current state + * of the encoder after multiple x264_encoder_reconfig calls. + * note that the data accessible through pointers in the returned param struct + * (e.g. filenames) should not be modified by the calling application. */ +void x264_encoder_parameters( x264_t *, x264_param_t * ); /* x264_encoder_headers: - * return the SPS and PPS that will be used for the whole stream */ + * return the SPS and PPS that will be used for the whole stream. + * if i_nal > 0, returns the total size of all NAL payloads. + * returns negative on error. + * the payloads of all output NALs are guaranteed to be sequential in memory. */ int x264_encoder_headers( x264_t *, x264_nal_t **, int * ); /* x264_encoder_encode: - * encode one picture */ + * encode one picture. + * if i_nal > 0, returns the total size of all NAL payloads. + * returns negative on error, zero if no NAL units returned. + * the payloads of all output NALs are guaranteed to be sequential in memory. */ int x264_encoder_encode ( x264_t *, x264_nal_t **, int *, x264_picture_t *, x264_picture_t * ); /* x264_encoder_close: * close an encoder handler */ void x264_encoder_close ( x264_t * ); - -/* XXX: decoder isn't working so no need to export it */ -#if 0 -/**************************************************************************** - * Decoder functions: - **************************************************************************** - * XXX: Not yet working so do not try ... - ****************************************************************************/ -/* x264_decoder_open: - */ -x264_t *x264_decoder_open ( x264_param_t * ); -/* x264_decoder_decode: - */ -int x264_decoder_decode ( x264_t *, x264_picture_t **, x264_nal_t * ); -/* x264_decoder_close: - */ -void x264_decoder_close ( x264_t * ); -#endif - -/**************************************************************************** - * Private stuff for internal usage: - ****************************************************************************/ -#ifdef __X264__ -# ifdef _MSC_VER -# define inline __inline -# define DECLARE_ALIGNED( type, var, n ) __declspec(align(n)) type var -# else -# define DECLARE_ALIGNED( type, var, n ) type var __attribute__((aligned(n))) -# endif -#endif +/* x264_encoder_delayed_frames: + * return the number of currently delayed (buffered) frames + * this should be used at the end of the stream, to know when you have all the encoded frames. */ +int x264_encoder_delayed_frames( x264_t * ); #endif