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Cosmetics and comments.

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Patch by Karolina Lindqvist <karolina.lindqvist@kramnet.se>
"This is the whitespace patch for vf_zrmjpeg.c with doxygen comments that I
promised a while ago."

Some additional whitespace fixes by me, there are no functional changes.


git-svn-id: svn://svn.mplayerhq.hu/mplayer/trunk@19957 b3059339-0415-0410-9bf9-f77b7e298cf2
This commit is contained in:
rik 2006-09-23 16:28:57 +00:00
parent 4bb03ad126
commit 830063b190
1 changed files with 333 additions and 145 deletions
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278
libmpcodecs/vf_zrmjpeg.c
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@ -1,3 +1,9 @@
/**
* \file vf_zrmjpeg.c
*
* \brief Does mjpeg encoding as required by the zrmjpeg filter as well
* as by the zr video driver.
*/
/*
* Copyright (C) 2005 Rik Snel <rsnel@cube.dyndns.org>, license GPL v2
* - based on vd_lavc.c by A'rpi (C) 2002-2003
@ -40,14 +46,19 @@
extern int avcodec_inited;
/* some convenient #define's, is this portable enough? */
/// Printout with vf_zrmjpeg: prefix at VERBOSE level
#define VERBOSE(...) mp_msg(MSGT_DECVIDEO, MSGL_V, "vf_zrmjpeg: " __VA_ARGS__)
/// Printout with vf_zrmjpeg: prefix at ERROR level
#define ERROR(...) mp_msg(MSGT_DECVIDEO, MSGL_ERR, "vf_zrmjpeg: " __VA_ARGS__)
/// Printout with vf_zrmjpeg: prefix at WARNING level
#define WARNING(...) mp_msg(MSGT_DECVIDEO, MSGL_WARN, \
"vf_zrmjpeg: " __VA_ARGS__)
// "local" flag in vd_ffmpeg.c. If not set, avcodec_init() et. al. need to be called
// set when init is done, so that initialization is not done twice.
extern int avcodec_inited;
/// structure copied from mjpeg.c
/* zrmjpeg_encode_mb needs access to these tables for the black & white
* option */
typedef struct MJpegContext {
@ -62,14 +73,15 @@ typedef struct MJpegContext {
uint16_t huff_code_ac_chrominance[256];
} MJpegContext;
// The get_pixels routine to use. The real routine comes from dsputil
/// The get_pixels() routine to use. The real routine comes from dsputil
static void (*get_pixels)(DCTELEM *restrict block, const uint8_t *pixels, int line_size);
/* Begin excessive code duplication ************************************/
/* Code coming from mpegvideo.c and mjpeg.c in ../libavcodec ***********/
/// copy of the table in mpegvideo.c
static const unsigned short aanscales[64] = {
/* precomputed values scaled up by 14 bits */
/**< precomputed values scaled up by 14 bits */
16384, 22725, 21407, 19266, 16384, 12873, 8867, 4520,
22725, 31521, 29692, 26722, 22725, 17855, 12299, 6270,
21407, 29692, 27969, 25172, 21407, 16819, 11585, 5906,
@ -80,9 +92,26 @@ static const unsigned short aanscales[64] = {
4520, 6270, 5906, 5315, 4520, 3552, 2446, 1247
};
/*
* This routine is like the routine with the same name in mjpeg.c,
* except for some coefficient changes.
/// Precompute DCT quantizing matrix
/**
* This routine will precompute the combined DCT matrix with qscale
* and DCT renorm needed by the MPEG encoder here. It is basically the
* same as the routine with the same name in mpegvideo.c, except for
* some coefficient changes. The matrix will be computed in two variations,
* depending on the DCT version used. The second used by the MMX version of DCT.
*
* \param s MpegEncContext pointer
* \param qmat[OUT] pointer to where the matrix is stored
* \param qmat16[OUT] pointer to where matrix for MMX is stored.
* This matrix is not permutated
* and second 64 entries are bias
* \param quant_matrix[IN] the quantizion matrix to use
* \param bias bias for the quantizer
* \param qmin minimum qscale value to set up for
* \param qmax maximum qscale value to set up for
*
* Only rows between qmin and qmax will be populated in the matrix.
* In this MJPEG encoder, only the value 8 for qscale is used.
*/
static void convert_matrix(MpegEncContext *s, int (*qmat)[64],
uint16_t (*qmat16)[2][64], const uint16_t *quant_matrix,
@ -139,7 +168,15 @@ static void convert_matrix(MpegEncContext *s, int (*qmat)[64],
}
}
/*
/// Emit the DC value into a MJPEG code sream
/**
* This routine is only intended to be used from encode_block
*
* \param s pointer to MpegEncContext structure
* \param val the DC value to emit
* \param huff_size pointer to huffman code size array
* \param huff_code pointer to the code array corresponding to \a huff_size
*
* This routine is a clone of mjpeg_encode_dc
*/
static inline void encode_dc(MpegEncContext *s, int val,
@ -160,7 +197,12 @@ static inline void encode_dc(MpegEncContext *s, int val,
}
}
/*
/// Huffman encode and emit one DCT block into the MJPEG code stream
/**
* \param s pointer to MpegEncContext structure
* \param block pointer to the DCT block to emit
* \param n
*
* This routine is a duplicate of encode_block in mjpeg.c
*/
static void encode_block(MpegEncContext *s, DCTELEM *block, int n) {
@ -222,6 +264,18 @@ static void encode_block(MpegEncContext *s, DCTELEM *block, int n) {
put_bits(&s->pb, huff_size_ac[0], huff_code_ac[0]);
}
/// clip overflowing DCT coefficients
/**
* If the computed DCT coefficients in a block overflow, this routine
* will go through them and clip them to be in the valid range.
*
* \param s pointer to MpegEncContext
* \param block pointer to DCT block to process
* \param last_index index of the last non-zero coefficient in block
*
* The max and min level, which are clipped to, are stored in
* s->min_qcoeff and s->max_qcoeff respectively.
*/
static inline void clip_coeffs(MpegEncContext *s, DCTELEM *block,
int last_index) {
int i;
@ -249,10 +303,18 @@ typedef struct {
int v_rs;
} jpeg_enc_t;
/* this function is a reproduction of the one in mjpeg, it includes two
// Huffman encode and emit one MCU of MJPEG code
/**
* \param j pointer to jpeg_enc_t structure
*
* This function huffman encodes one MCU, and emits the
* resulting bitstream into the MJPEG code that is currently worked on.
*
* this function is a reproduction of the one in mjpeg, it includes two
* changes, it allows for black&white encoding (it skips the U and V
* macroblocks and it outputs the huffman code for 'no change' (dc) and
* 'all zero' (ac)) and it takes 4 macroblocks (422) instead of 6 (420) */
* 'all zero' (ac)) and it takes 4 macroblocks (422) instead of 6 (420)
*/
static always_inline void zr_mjpeg_encode_mb(jpeg_enc_t *j) {
MJpegContext *m = j->s->mjpeg_ctx;
@ -279,9 +341,18 @@ static always_inline void zr_mjpeg_encode_mb(jpeg_enc_t *j) {
}
}
/*
* Taking one MCU (YUYV) from 8-bit pixel planar storage and
* filling it into four 16-bit pixel DCT macroblocks.
/// Fill one DCT MCU from planar storage
/**
* This routine will convert one MCU from YUYV planar storage into 4
* DCT macro blocks, converting from 8-bit format in the planar
* storage to 16-bit format used in the DCT.
*
* \param j pointer to jpeg_enc structure, and also storage for DCT macro blocks
* \param x pixel x-coordinate for the first pixel
* \param y pixel y-coordinate for the first pixel
* \param y_data pointer to the Y plane
* \param u_data pointer to the U plane
* \param v_data pointer to the V plane
*/
static always_inline void fill_block(jpeg_enc_t *j, int x, int y,
unsigned char *y_data, unsigned char *u_data,
@ -326,28 +397,36 @@ static always_inline void fill_block(jpeg_enc_t *j, int x, int y,
}
}
/* this function can take all kinds of YUV colorspaces
* YV12, YVYU, UYVY. The necesary parameters must be set up by the caller
* y_rs means "y row size".
* For YUYV, for example, is u_buf = y_buf + 1, v_buf = y_buf + 3,
* y_rs = u_rs = v_rs.
/**
* \brief initialize mjpeg encoder
*
* The actual buffers must be passed with mjpeg_encode_frame, this is
* to make it possible to call encode on the buffer provided by the
* codec in draw_frame.
* This routine is to set up the parameters and initialize the mjpeg encoder.
* It does all the initializations needed of lower level routines.
* The formats accepted by this encoder is YUV422P and YUV420
*
* The data is straightened out at the moment it is put in DCT
* blocks, there are therefore no spurious memcopies involved */
/* Notice that w must be a multiple of 16 and h must be a multiple of 8 */
/* We produce YUV422 jpegs, the colors must be subsampled horizontally,
* if the colors are also subsampled vertically, then this function
* performs cheap upsampling (better solution will be: a DCT that is
* optimized in the case that every two rows are the same) */
/* cu = 0 means 'No cheap upsampling'
* cu = 1 means 'perform cheap upsampling' */
/* The encoder doesn't know anything about interlacing, the halve height
* \param w width in pixels of the image to encode, must be a multiple of 16
* \param h height in pixels of the image to encode, must be a multiple of 8
* \param y_rsize size of each plane row Y component
* \param y_rsize size of each plane row U component
* \param v_rsize size of each plane row V component
* \param cu "cheap upsample". Set to 0 for YUV422 format, 1 for YUV420 format
* when set to 1, the encoder will assume that there is only half th
* number of rows of chroma information, and every chroma row is
* duplicated.
* \param q quality parameter for the mjpeg encode. Between 1 and 20 where 1
* is best quality and 20 is the worst quality.
* \param b monochrome flag. When set to 1, the mjpeg output is monochrome.
* In that case, the colour information is omitted, and actually the
* colour planes are not touched.
*
* \returns an appropriately set up jpeg_enc_t structure
*
* The actual plane buffer addreses are passed by jpeg_enc_frame().
*
* The encoder doesn't know anything about interlacing, the halve height
* needs to be passed and the double rowstride. Which field gets encoded
* is decided by what buffers are passed to mjpeg_encode_frame */
* is decided by what buffers are passed to mjpeg_encode_frame()
*/
static jpeg_enc_t *jpeg_enc_init(int w, int h, int y_rsize,
int u_rsize, int v_rsize,
int cu, int q, int b) {
@ -382,13 +461,21 @@ static jpeg_enc_t *jpeg_enc_init(int w, int h, int y_rsize,
j->s->y_dc_scale = 8;
j->s->c_dc_scale = 8;
/*
* This sets up the MCU (Minimal Code Unit) number
* of appearances of the various component
* for the SOF0 table in the generated MJPEG.
* The values are not used for anything else.
* The current setup is simply YUV422, with two horizontal Y components
* for every UV component.
*/
j->s->mjpeg_write_tables = 1; // setup to write tables
j->s->mjpeg_vsample[0] = 1;
j->s->mjpeg_vsample[1] = 1;
j->s->mjpeg_vsample[2] = 1;
j->s->mjpeg_hsample[0] = 2;
j->s->mjpeg_hsample[1] = 1;
j->s->mjpeg_hsample[2] = 1;
j->s->mjpeg_vsample[0] = 1; // 1 appearance of Y vertically
j->s->mjpeg_vsample[1] = 1; // 1 appearance of U vertically
j->s->mjpeg_vsample[2] = 1; // 1 appearance of V vertically
j->s->mjpeg_hsample[0] = 2; // 2 appearances of Y horizontally
j->s->mjpeg_hsample[1] = 1; // 1 appearance of U horizontally
j->s->mjpeg_hsample[2] = 1; // 1 appearance of V horizontally
j->cheap_upsample = cu;
j->bw = b;
@ -403,6 +490,7 @@ static jpeg_enc_t *jpeg_enc_init(int w, int h, int y_rsize,
avcodec_inited=1;
}
// Build mjpeg huffman code tables, setting up j->s->mjpeg_ctx
if (mjpeg_init(j->s) < 0) {
av_free(j->s);
av_free(j);
@ -418,19 +506,24 @@ static jpeg_enc_t *jpeg_enc_init(int w, int h, int y_rsize,
}
// Set some a minimum amount of default values that are needed
// Indicates that we should generated normal MJPEG
j->s->avctx->codec_id = CODEC_ID_MJPEG;
// Which DCT method to use. AUTO will select the fastest one
j->s->avctx->dct_algo = FF_DCT_AUTO;
j->s->intra_quant_bias= 1<<(QUANT_BIAS_SHIFT-1); //(a + x/2)/x
j->s->avctx->thread_count = 1;
/* make MPV_common_init allocate important buffers, like s->block */
/* make MPV_common_init allocate important buffers, like s->block
* Also initializes dsputil */
if (MPV_common_init(j->s) < 0) {
av_free(j->s);
av_free(j);
return NULL;
}
/* correct the value for sc->mb_height */
/* correct the value for sc->mb_height. MPV_common_init put other
* values there */
j->s->mb_height = j->s->height/8;
j->s->mb_intra = 1;
@ -439,15 +532,41 @@ static jpeg_enc_t *jpeg_enc_init(int w, int h, int y_rsize,
for (i = 1; i < 64; i++)
j->s->intra_matrix[i] = clip_uint8(
(ff_mpeg1_default_intra_matrix[i]*j->s->qscale) >> 3);
// precompute matrix
convert_matrix(j->s, j->s->q_intra_matrix, j->s->q_intra_matrix16,
j->s->intra_matrix, j->s->intra_quant_bias, 8, 8);
/* Pick up the selection of the optimal get_pixels() routine
* to use, which was done in MPV_common_init() */
get_pixels = j->s->dsp.get_pixels;
return j;
}
/**
* \brief mjpeg encode an image
*
* This routine will take a 3-plane YUV422 image and encoded it with MJPEG
* base line format, as suitable as input for the Zoran hardare MJPEG chips.
*
* It requires that the \a j parameter points the structure set up by the
* jpeg_enc_init() routine.
*
* \param j pointer to jpeg_enc_t structure as created by jpeg_enc_init()
* \param y_data pointer to Y component plane, packed one byte/pixel
* \param u_data pointer to U component plane, packed one byte per every
* other pixel
* \param v_data pointer to V component plane, packed one byte per every
* other pixel
* \param bufr pointer to the buffer where the mjpeg encoded code is stored
*
* \returns the number of bytes stored into \a bufr
*
* If \a j->s->mjpeg_write_tables is set, it will also emit the mjpeg tables,
* otherwise it will just emit the data. The \a j->s->mjpeg_write_tables
* variable will be reset to 0 by the routine.
*/
static int jpeg_enc_frame(jpeg_enc_t *j, uint8_t *y_data,
uint8_t *u_data, uint8_t *v_data, uint8_t *bufr) {
int mb_x, mb_y, overflow;
@ -509,12 +628,19 @@ static int jpeg_enc_frame(jpeg_enc_t *j, uint8_t *y_data,
return pbBufPtr(&(j->s->pb)) - j->s->pb.buf;
}
/// the real uninit routine
/**
* This is the real routine that does the uninit of the ZRMJPEG filter
*
* \param j pointer to jpeg_enc structure
*/
static void jpeg_enc_uninit(jpeg_enc_t *j) {
mjpeg_close(j->s);
av_free(j->s);
av_free(j);
}
/// Private structure for ZRMJPEG filter
struct vf_priv_s {
jpeg_enc_t *j;
unsigned char buf[256*1024];
@ -527,6 +653,24 @@ struct vf_priv_s {
int maxheight;
};
/// vf CONFIGURE entry point for the ZRMJPEG filter
/**
* \param vf video filter instance pointer
* \param width image source width in pixels
* \param height image source height in pixels
* \param d_width width of requested window, just a hint
* \param d_height height of requested window, just a hint
* \param flags vf filter flags
* \param outfmt
*
* \returns returns 0 on error
*
* This routine will make the necessary hardware-related decisions for
* the ZRMJPEG filter, do the initialization of the MJPEG encoder, and
* then select one of the ZRJMJPEGIT or ZRMJPEGNI filters and then
* arrange to dispatch to the config() entry pointer for the one
* selected.
*/
static int config(struct vf_instance_s* vf, int width, int height, int d_width,
int d_height, unsigned int flags, unsigned int outfmt){
struct vf_priv_s *priv = vf->priv;
@ -580,7 +724,10 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
}
if (priv->hdec > maxstretchx) {
if (priv->fd) {
WARNING("horizontal decimation too high, changing to %d (use fd to keep hdec=%d)\n", maxstretchx, priv->hdec);
WARNING("horizontal decimation too high, "
"changing to %d (use fd to keep"
" hdec=%d)\n",
maxstretchx, priv->hdec);
priv->hdec = maxstretchx;
}
}
@ -595,7 +742,9 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
stretchy = 2;
} else if (priv->vdec == 4) {
if (!priv->fd) {
WARNING("vertical decimation too high, changing to 2 (use fd to keep vdec=4)\n");
WARNING("vertical decimation too high, "
"changing to 2 (use fd to keep "
"vdec=4)\n");
priv->vdec = 2;
}
stretchy = 2;
@ -604,7 +753,9 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
stretchx = 4;
} else if (priv->hdec == 4) {
if (priv->fd) {
WARNING("horizontal decimation too high, changing to 2 (use fd to keep hdec=4)\n");
WARNING("horizontal decimation too high, "
"changing to 2 (use fd to keep "
"hdec=4)\n");
priv->hdec = 2;
}
stretchx = 4;
@ -615,7 +766,9 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
stretchy = 2;
priv->fields = 1;
if (priv->vdec != 1 && !priv->fd) {
WARNING("vertical decimation too high, changing to 1 (use fd to keep vdec=%d)\n", priv->vdec);
WARNING("vertical decimation too high, changing to 1 "
"(use fd to keep vdec=%d)\n",
priv->vdec);
priv->vdec = 1;
}
if (priv->hdec != 1 && !priv->fd) {
@ -636,7 +789,12 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
if ((width/priv->hdec)*stretchx > priv->maxwidth ||
(height/(priv->vdec*priv->fields))*
stretchy*priv->fields > priv->maxheight) {
ERROR("output dimensions too large (%dx%d), max (%dx%d) insert crop to fix\n", (width/priv->hdec)*stretchx, (height/(priv->vdec*priv->fields))*stretchy*priv->fields, priv->maxwidth, priv->maxheight);
ERROR("output dimensions too large (%dx%d), max (%dx%d) "
"insert crop to fix\n",
(width/priv->hdec)*stretchx,
(height/(priv->vdec*priv->fields))*
stretchy*priv->fields,
priv->maxwidth, priv->maxheight);
err = 1;
}
@ -667,6 +825,12 @@ static int config(struct vf_instance_s* vf, int width, int height, int d_width,
(priv->fields == 2) ? IMGFMT_ZRMJPEGIT : IMGFMT_ZRMJPEGNI);
}
/// put_image entrypoint for the ZRMJPEG vf filter
/***
* \param vf pointer to vf_instance
* \param mpi pointer to mp_image_t structure
* \param pts
*/
static int put_image(struct vf_instance_s* vf, mp_image_t *mpi, double pts){
struct vf_priv_s *priv = vf->priv;
int size = 0;
@ -686,6 +850,16 @@ static int put_image(struct vf_instance_s* vf, mp_image_t *mpi, double pts){
return vf_next_put_image(vf,dmpi, pts);
}
/// query_format entrypoint for the ZRMJPEG vf filter
/***
* \param vf pointer to vf_instance
* \param fmt image format to query for
*
* \returns 0 if image format in fmt is not supported
*
* Given the image format specified by \a fmt, this routine is called
* to ask if the format is supported or not.
*/
static int query_format(struct vf_instance_s* vf, unsigned int fmt){
VERBOSE("query_format() called\n");
@ -702,6 +876,10 @@ static int query_format(struct vf_instance_s* vf, unsigned int fmt){
return 0;
}
/// vf UNINIT entry point for the ZRMJPEG filter
/**
* \param vf pointer to the vf instance structure
*/
static void uninit(vf_instance_t *vf) {
struct vf_priv_s *priv = vf->priv;
VERBOSE("uninit() called\n");
@ -709,6 +887,16 @@ static void uninit(vf_instance_t *vf) {
free(priv);
}
/// vf OPEN entry point for the ZRMJPEG filter
/**
* \param vf pointer to the vf instance structure
* \param args the argument list string for the -vf zrmjpeg command
*
* \returns 0 for error, 1 for success
*
* This routine will do some basic initialization of local structures etc.,
* and then parse the command line arguments specific for the ZRMJPEG filter.
*/
static int open(vf_instance_t *vf, char* args){
struct vf_priv_s *priv;
VERBOSE("open() called: args=\"%s\"\n", args);