/* 2004.02.01 first released source code for IOMP */ /* * Copyright (C) 2000-2002 the xine project * * This file is part of xine, a free video player. * * xine is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * xine is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * 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 02111-1307, USA * * YUV "Decoder" by Mike Melanson (melanson@pcisys.net) * Actually, this decoder just reorganizes chunks of raw YUV data in such * a way that xine can display them. * * $Id: yuv.c,v 1.2 2003/11/25 04:26:08 georgedon Exp $ */ #include #include #include #include #include #include "xine_internal.h" #include "video_out.h" #include "buffer.h" #include "xineutils.h" #include "bswap.h" #define VIDEOBUFSIZE 128*1024 typedef struct { video_decoder_class_t decoder_class; } yuv_class_t; typedef struct yuv_decoder_s { video_decoder_t video_decoder; /* parent video decoder structure */ yuv_class_t *class; xine_stream_t *stream; /* these are traditional variables in a video decoder object */ uint64_t video_step; /* frame duration in pts units */ int decoder_ok; /* current decoder status */ int skipframes; unsigned char *buf; /* the accumulated buffer data */ int bufsize; /* the maximum size of buf */ int size; /* the current size of buf */ int width; /* the width of a video frame */ int height; /* the height of a video frame */ double ratio; /* the width to height ratio */ int progressive; int top_field_first; } yuv_decoder_t; /************************************************************************** * xine video plugin functions *************************************************************************/ /* * This function receives a buffer of data from the demuxer layer and * figures out how to handle it based on its header flags. */ static void yuv_decode_data (video_decoder_t *this_gen, buf_element_t *buf) { yuv_decoder_t *this = (yuv_decoder_t *) this_gen; xine_bmiheader *bih; vo_frame_t *img; /* video out frame */ /* a video decoder does not care about this flag (?) */ if (buf->decoder_flags & BUF_FLAG_PREVIEW) return; if (buf->decoder_flags & BUF_FLAG_HEADER) { /* need to initialize */ this->stream->video_out->open (this->stream->video_out, this->stream); if(this->buf) free(this->buf); bih = (xine_bmiheader *) buf->content; this->width = (bih->biWidth + 3) & ~0x03; this->height = (bih->biHeight + 3) & ~0x03; this->video_step = buf->decoder_info[1]; this->progressive = buf->decoder_info[0]; this->top_field_first = buf->decoder_info[2]; if(buf->decoder_info[3] && buf->decoder_info[4]) this->ratio = (double)buf->decoder_info[3]/(double)buf->decoder_info[4]; else this->ratio = (double)this->width/(double)this->height; if (this->buf) free (this->buf); this->bufsize = VIDEOBUFSIZE; this->buf = malloc(this->bufsize); this->size = 0; this->decoder_ok = 1; /* load the stream/meta info */ switch (buf->type) { case BUF_VIDEO_YV12: this->stream->meta_info[XINE_META_INFO_VIDEOCODEC] = strdup("Raw YV12"); break; case BUF_VIDEO_YVU9: this->stream->meta_info[XINE_META_INFO_VIDEOCODEC] = strdup("Raw YVU9"); break; case BUF_VIDEO_GREY: this->stream->meta_info[XINE_META_INFO_VIDEOCODEC] = strdup("Greyscale YUV"); break; case BUF_VIDEO_I420: this->stream->meta_info[XINE_META_INFO_VIDEOCODEC] = strdup("Raw I420"); break; } this->stream->stream_info[XINE_STREAM_INFO_FRAME_DURATION] = this->video_step; return; } else if (this->decoder_ok && !(buf->decoder_flags & BUF_FLAG_SPECIAL)) { if (this->size + buf->size > this->bufsize) { this->bufsize = this->size + 2 * buf->size; this->buf = realloc (this->buf, this->bufsize); } xine_fast_memcpy (&this->buf[this->size], buf->content, buf->size); this->size += buf->size; if (buf->decoder_flags & BUF_FLAG_FRAMERATE) this->video_step = buf->decoder_info[0]; if (buf->decoder_flags & BUF_FLAG_FRAME_END) { if (buf->type == BUF_VIDEO_YV12) { int y; uint8_t *dy, *du, *dv, *sy, *su, *sv; img = this->stream->video_out->get_frame (this->stream->video_out, this->width, this->height, this->ratio, XINE_IMGFMT_YV12, VO_BOTH_FIELDS); /* FIXME: Write and use xine wide yv12 copy function */ dy = img->base[0]; du = img->base[1]; dv = img->base[2]; sy = this->buf; su = this->buf + (this->width * this->height * 5/4); sv = this->buf + (this->width * this->height); for (y=0; yheight; y++) { xine_fast_memcpy (dy, sy, this->width); dy += img->pitches[0]; sy += this->width; } for (y=0; yheight/2; y++) { xine_fast_memcpy (du, su, this->width/2); xine_fast_memcpy (dv, sv, this->width/2); du += img->pitches[1]; dv += img->pitches[2]; su += this->width/2; sv += this->width/2; } } else if (buf->type == BUF_VIDEO_I420) { int y; uint8_t *dy, *du, *dv, *sy, *su, *sv; img = this->stream->video_out->get_frame (this->stream->video_out, this->width, this->height, this->ratio, XINE_IMGFMT_YV12, VO_BOTH_FIELDS); /* FIXME: Write and use xine wide yv12 copy function */ dy = img->base[0]; du = img->base[1]; dv = img->base[2]; sy = this->buf; su = this->buf + (this->width * this->height); sv = this->buf + (this->width * this->height * 5/4); for (y=0; yheight; y++) { xine_fast_memcpy (dy, sy, this->width); dy += img->pitches[0]; sy += this->width; } for (y=0; yheight/2; y++) { xine_fast_memcpy (du, su, this->width/2); xine_fast_memcpy (dv, sv, this->width/2); du += img->pitches[1]; dv += img->pitches[2]; su += this->width/2; sv += this->width/2; } } else if (buf->type == BUF_VIDEO_YVU9) { img = this->stream->video_out->get_frame (this->stream->video_out, this->width, this->height, this->ratio, XINE_IMGFMT_YV12, VO_BOTH_FIELDS); yuv9_to_yv12( /* Y */ this->buf, this->width, img->base[0], img->pitches[0], /* U */ this->buf + (this->width * this->height), this->width / 4, img->base[1], img->pitches[1], /* V */ this->buf + (this->width * this->height) + (this->width * this->height / 16), this->width / 4, img->base[2], img->pitches[2], /* width x height */ this->width, this->height); } else if (buf->type == BUF_VIDEO_GREY) { img = this->stream->video_out->get_frame (this->stream->video_out, this->width, this->height, this->ratio, XINE_IMGFMT_YV12, VO_BOTH_FIELDS); xine_fast_memcpy(img->base[0], this->buf, this->width * this->height); memset( img->base[1], 0x80, this->width * this->height / 4 ); memset( img->base[2], 0x80, this->width * this->height / 4 ); } else { /* just allocate something to avoid compiler warnings */ img = this->stream->video_out->get_frame (this->stream->video_out, this->width, this->height, this->ratio, XINE_IMGFMT_YV12, VO_BOTH_FIELDS); } img->duration = this->video_step; img->pts = buf->pts; img->bad_frame = 0; img->draw(img, this->stream); img->free(img); this->size = 0; } } } /* * This function is called when xine needs to flush the system. Not * sure when or if this is used or even if it needs to do anything. */ static void yuv_flush (video_decoder_t *this_gen) { } /* * This function resets the video decoder. */ static void yuv_reset (video_decoder_t *this_gen) { yuv_decoder_t *this = (yuv_decoder_t *) this_gen; this->size = 0; } static void yuv_discontinuity (video_decoder_t *this_gen) { } /* * This function frees the video decoder instance allocated to the decoder. */ static void yuv_dispose (video_decoder_t *this_gen) { yuv_decoder_t *this = (yuv_decoder_t *) this_gen; if (this->buf) { free (this->buf); this->buf = NULL; } if (this->decoder_ok) { this->decoder_ok = 0; this->stream->video_out->close(this->stream->video_out, this->stream); } free (this_gen); } static video_decoder_t *open_plugin (video_decoder_class_t *class_gen, xine_stream_t *stream) { yuv_decoder_t *this ; this = (yuv_decoder_t *) xine_xmalloc (sizeof (yuv_decoder_t)); this->video_decoder.decode_data = yuv_decode_data; this->video_decoder.flush = yuv_flush; this->video_decoder.reset = yuv_reset; this->video_decoder.discontinuity = yuv_discontinuity; this->video_decoder.dispose = yuv_dispose; this->size = 0; this->stream = stream; this->class = (yuv_class_t *) class_gen; this->decoder_ok = 0; this->buf = NULL; return &this->video_decoder; } static char *get_identifier (video_decoder_class_t *this) { return "YUV"; } static char *get_description (video_decoder_class_t *this) { return "Raw YUV video decoder plugin"; } static void dispose_class (video_decoder_class_t *this) { free (this); } static void *init_plugin (xine_t *xine, void *data) { yuv_class_t *this; this = (yuv_class_t *) xine_xmalloc (sizeof (yuv_class_t)); this->decoder_class.open_plugin = open_plugin; this->decoder_class.get_identifier = get_identifier; this->decoder_class.get_description = get_description; this->decoder_class.dispose = dispose_class; return this; } /* * exported plugin catalog entry */ static uint32_t video_types[] = { BUF_VIDEO_YV12, BUF_VIDEO_YVU9, BUF_VIDEO_GREY, BUF_VIDEO_I420, 0 }; static decoder_info_t dec_info_video = { video_types, /* supported types */ 1 /* priority */ }; plugin_info_t xine_plugin_info[] = { /* type, API, "name", version, special_info, init_function */ { PLUGIN_VIDEO_DECODER, 15, "yuv", XINE_VERSION_CODE, &dec_info_video, init_plugin }, { PLUGIN_NONE, 0, "", 0, NULL, NULL } };