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38 #define NS(n) ((n) < 0 ? (int)((n)*65536.0-0.5+DBL_EPSILON) : (int)((n)*65536.0+0.5))
39 #define CB(n) av_clip_uint8(n)
42 { +0.7152, +0.0722, +0.2126 },
43 { +0.5900, +0.1100, +0.3000 },
44 { +0.5870, +0.1140, +0.2990 },
45 { +0.7010, +0.0870, +0.2120 },
46 { +0.6780, +0.0593, +0.2627 },
79 #define OFFSET(x) offsetof(ColorMatrixContext, x)
80 #define FLAGS AV_OPT_FLAG_VIDEO_PARAM|AV_OPT_FLAG_FILTERING_PARAM
136 for (
i = 0;
i < 3;
i++)
137 for (j = 0; j < 3; j++)
138 cm[
i][j] = yuv[
i][0] *
rgb[0][j] + yuv[
i][1] *
rgb[1][j] + yuv[
i][2] *
rgb[2][j];
144 double yuv_coeff[5][3][3];
145 double rgb_coeffd[5][3][3];
146 double yuv_convertd[25][3][3];
147 double bscale, rscale;
150 for (
i = 0;
i < 5;
i++) {
154 bscale = 0.5 / (yuv_coeff[
i][0][1] - 1.0);
155 rscale = 0.5 / (yuv_coeff[
i][0][2] - 1.0);
156 yuv_coeff[
i][1][0] = bscale * yuv_coeff[
i][0][0];
157 yuv_coeff[
i][1][1] = 0.5;
158 yuv_coeff[
i][1][2] = bscale * yuv_coeff[
i][0][2];
159 yuv_coeff[
i][2][0] = rscale * yuv_coeff[
i][0][0];
160 yuv_coeff[
i][2][1] = rscale * yuv_coeff[
i][0][1];
161 yuv_coeff[
i][2][2] = 0.5;
163 for (
i = 0;
i < 5;
i++)
165 for (
i = 0;
i < 5;
i++) {
166 for (j = 0; j < 5; j++) {
168 for (k = 0; k < 3; k++) {
169 color->yuv_convert[v][k][0] =
NS(yuv_convertd[v][k][0]);
170 color->yuv_convert[v][k][1] =
NS(yuv_convertd[v][k][1]);
171 color->yuv_convert[v][k][2] =
NS(yuv_convertd[v][k][2]);
173 if (
color->yuv_convert[v][0][0] != 65536 ||
color->yuv_convert[v][1][0] != 0 ||
174 color->yuv_convert[v][2][0] != 0) {
182 static const char *
const color_modes[] = {
"bt709",
"fcc",
"bt601",
"smpte240m",
"bt2020"};
210 const int src_pitch =
src->linesize[0];
211 const int dst_pitch = dst->
linesize[0];
212 const int slice_start = (
height * jobnr ) / nb_jobs;
214 const unsigned char *srcp =
src->data[0] + slice_start * src_pitch;
215 unsigned char *dstp = dst->
data[0] + slice_start * dst_pitch;
216 const int c2 =
td->c2;
217 const int c3 =
td->c3;
218 const int c4 =
td->c4;
219 const int c5 =
td->c5;
220 const int c6 =
td->c6;
221 const int c7 =
td->c7;
224 for (y = slice_start; y <
slice_end; y++) {
225 for (x = 0; x <
width; x += 4) {
226 const int u = srcp[x + 0] - 128;
227 const int v = srcp[x + 2] - 128;
228 const int uvval =
c2 *
u + c3 * v + 1081344;
229 dstp[x + 0] =
CB((c4 *
u + c5 * v + 8421376) >> 16);
230 dstp[x + 1] =
CB((65536 * (srcp[x + 1] - 16) + uvval) >> 16);
231 dstp[x + 2] =
CB((c6 *
u + c7 * v + 8421376) >> 16);
232 dstp[x + 3] =
CB((65536 * (srcp[x + 3] - 16) + uvval) >> 16);
248 const int slice_start = (
height * jobnr ) / nb_jobs;
250 const int src_pitchY =
src->linesize[0];
251 const int src_pitchUV =
src->linesize[1];
252 const unsigned char *srcpU =
src->data[1] + slice_start * src_pitchUV;
253 const unsigned char *srcpV =
src->data[2] + slice_start * src_pitchUV;
254 const unsigned char *srcpY =
src->data[0] + slice_start * src_pitchY;
255 const int dst_pitchY = dst->
linesize[0];
256 const int dst_pitchUV = dst->
linesize[1];
257 unsigned char *dstpU = dst->
data[1] + slice_start * dst_pitchUV;
258 unsigned char *dstpV = dst->
data[2] + slice_start * dst_pitchUV;
259 unsigned char *dstpY = dst->
data[0] + slice_start * dst_pitchY;
260 const int c2 =
td->c2;
261 const int c3 =
td->c3;
262 const int c4 =
td->c4;
263 const int c5 =
td->c5;
264 const int c6 =
td->c6;
265 const int c7 =
td->c7;
268 for (y = slice_start; y <
slice_end; y++) {
269 for (x = 0; x <
width; x++) {
270 const int u = srcpU[x] - 128;
271 const int v = srcpV[x] - 128;
272 const int uvval =
c2 *
u + c3 * v + 1081344;
273 dstpY[x] =
CB((65536 * (srcpY[x] - 16) + uvval) >> 16);
274 dstpU[x] =
CB((c4 *
u + c5 * v + 8421376) >> 16);
275 dstpV[x] =
CB((c6 *
u + c7 * v + 8421376) >> 16);
279 srcpU += src_pitchUV;
280 srcpV += src_pitchUV;
281 dstpU += dst_pitchUV;
282 dstpV += dst_pitchUV;
295 const int slice_start = (
height * jobnr ) / nb_jobs;
297 const int src_pitchY =
src->linesize[0];
298 const int src_pitchUV =
src->linesize[1];
299 const unsigned char *srcpU =
src->data[1] + slice_start * src_pitchUV;
300 const unsigned char *srcpV =
src->data[2] + slice_start * src_pitchUV;
301 const unsigned char *srcpY =
src->data[0] + slice_start * src_pitchY;
302 const int dst_pitchY = dst->
linesize[0];
303 const int dst_pitchUV = dst->
linesize[1];
304 unsigned char *dstpU = dst->
data[1] + slice_start * dst_pitchUV;
305 unsigned char *dstpV = dst->
data[2] + slice_start * dst_pitchUV;
306 unsigned char *dstpY = dst->
data[0] + slice_start * dst_pitchY;
307 const int c2 =
td->c2;
308 const int c3 =
td->c3;
309 const int c4 =
td->c4;
310 const int c5 =
td->c5;
311 const int c6 =
td->c6;
312 const int c7 =
td->c7;
315 for (y = slice_start; y <
slice_end; y++) {
316 for (x = 0; x <
width; x += 2) {
317 const int u = srcpU[x >> 1] - 128;
318 const int v = srcpV[x >> 1] - 128;
319 const int uvval =
c2 *
u + c3 * v + 1081344;
320 dstpY[x + 0] =
CB((65536 * (srcpY[x + 0] - 16) + uvval) >> 16);
321 dstpY[x + 1] =
CB((65536 * (srcpY[x + 1] - 16) + uvval) >> 16);
322 dstpU[x >> 1] =
CB((c4 *
u + c5 * v + 8421376) >> 16);
323 dstpV[x >> 1] =
CB((c6 *
u + c7 * v + 8421376) >> 16);
327 srcpU += src_pitchUV;
328 srcpV += src_pitchUV;
329 dstpU += dst_pitchUV;
330 dstpV += dst_pitchUV;
343 const int slice_start = ((
height * jobnr ) / nb_jobs) << 1;
345 const int src_pitchY =
src->linesize[0];
346 const int src_pitchUV =
src->linesize[1];
347 const int dst_pitchY = dst->
linesize[0];
348 const int dst_pitchUV = dst->
linesize[1];
349 const unsigned char *srcpY =
src->data[0] + src_pitchY * slice_start;
350 const unsigned char *srcpU =
src->data[1] + src_pitchUV * (slice_start >> 1);
351 const unsigned char *srcpV =
src->data[2] + src_pitchUV * (slice_start >> 1);
352 const unsigned char *srcpN =
src->data[0] + src_pitchY * (slice_start + 1);
353 unsigned char *dstpU = dst->
data[1] + dst_pitchUV * (slice_start >> 1);
354 unsigned char *dstpV = dst->
data[2] + dst_pitchUV * (slice_start >> 1);
355 unsigned char *dstpY = dst->
data[0] + dst_pitchY * slice_start;
356 unsigned char *dstpN = dst->
data[0] + dst_pitchY * (slice_start + 1);
357 const int c2 =
td->c2;
358 const int c3 =
td->c3;
359 const int c4 =
td->c4;
360 const int c5 =
td->c5;
361 const int c6 =
td->c6;
362 const int c7 =
td->c7;
365 for (y = slice_start; y <
slice_end; y += 2) {
366 for (x = 0; x <
width; x += 2) {
367 const int u = srcpU[x >> 1] - 128;
368 const int v = srcpV[x >> 1] - 128;
369 const int uvval =
c2 *
u + c3 * v + 1081344;
370 dstpY[x + 0] =
CB((65536 * (srcpY[x + 0] - 16) + uvval) >> 16);
371 dstpY[x + 1] =
CB((65536 * (srcpY[x + 1] - 16) + uvval) >> 16);
372 dstpN[x + 0] =
CB((65536 * (srcpN[x + 0] - 16) + uvval) >> 16);
373 dstpN[x + 1] =
CB((65536 * (srcpN[x + 1] - 16) + uvval) >> 16);
374 dstpU[x >> 1] =
CB((c4 *
u + c5 * v + 8421376) >> 16);
375 dstpV[x >> 1] =
CB((c6 *
u + c7 * v + 8421376) >> 16);
377 srcpY += src_pitchY << 1;
378 dstpY += dst_pitchY << 1;
379 srcpN += src_pitchY << 1;
380 dstpN += dst_pitchY << 1;
381 srcpU += src_pitchUV;
382 srcpV += src_pitchUV;
383 dstpU += dst_pitchUV;
384 dstpV += dst_pitchUV;
433 av_log(
ctx,
AV_LOG_ERROR,
"Input frame does not specify a supported colorspace, and none has been specified as source either\n");
441 switch(
color->dest) {
485 .
name =
"colormatrix",
495 .priv_class = &colormatrix_class,
AVFrame * ff_get_video_buffer(AVFilterLink *link, int w, int h)
Request a picture buffer with a specific set of permissions.
Filter the word “frame” indicates either a video frame or a group of audio as stored in an AVFrame structure Format for each input and each output the list of supported formats For video that means pixel format For audio that means channel sample they are references to shared objects When the negotiation mechanism computes the intersection of the formats supported at each end of a all references to both lists are replaced with a reference to the intersection And when a single format is eventually chosen for a link amongst the remaining all references to the list are updated That means that if a filter requires that its input and output have the same format amongst a supported all it has to do is use a reference to the same list of formats query_formats can leave some formats unset and return AVERROR(EAGAIN) to cause the negotiation mechanism toagain later. That can be used by filters with complex requirements to use the format negotiated on one link to set the formats supported on another. Frame references ownership and permissions
#define u(width, name, range_min, range_max)
int ff_filter_frame(AVFilterLink *link, AVFrame *frame)
Send a frame of data to the next filter.
const AVPixFmtDescriptor * av_pix_fmt_desc_get(enum AVPixelFormat pix_fmt)
int yuv_convert[25][3][3]
The exact code depends on how similar the blocks are and how related they are to the and needs to apply these operations to the correct inlink or outlink if there are several Macros are available to factor that when no extra processing is inlink
void av_frame_free(AVFrame **frame)
Free the frame and any dynamically allocated objects in it, e.g.
enum AVColorSpace colorspace
YUV colorspace type.
This structure describes decoded (raw) audio or video data.
#define AV_LOG_VERBOSE
Detailed information.
static void solve_coefficients(double cm[3][3], double rgb[3][3], double yuv[3][3])
const char * name
Filter name.
A link between two filters.
@ AVCOL_SPC_BT2020_CL
ITU-R BT2020 constant luminance system.
uint8_t * data[AV_NUM_DATA_POINTERS]
pointer to the picture/channel planes.
@ AVCOL_SPC_BT470BG
also ITU-R BT601-6 625 / ITU-R BT1358 625 / ITU-R BT1700 625 PAL & SECAM / IEC 61966-2-4 xvYCC601
static int process_slice_uyvy422(AVFilterContext *ctx, void *arg, int jobnr, int nb_jobs)
A filter pad used for either input or output.
static const AVFilterPad colormatrix_inputs[]
#define AV_LOG_ERROR
Something went wrong and cannot losslessly be recovered.
const AVFilterPad ff_video_default_filterpad[1]
An AVFilterPad array whose only entry has name "default" and is of type AVMEDIA_TYPE_VIDEO.
static int process_slice_yuv420p(AVFilterContext *ctx, void *arg, int jobnr, int nb_jobs)
@ AVCOL_SPC_SMPTE170M
also ITU-R BT601-6 525 / ITU-R BT1358 525 / ITU-R BT1700 NTSC / functionally identical to above
static void calc_coefficients(AVFilterContext *ctx)
static int slice_end(AVCodecContext *avctx, AVFrame *pict)
Handle slice ends.
static int filter_frame(AVFilterLink *link, AVFrame *in)
uint8_t log2_chroma_w
Amount to shift the luma width right to find the chroma width.
static const double yuv_coeff_luma[5][3]
static void inverse3x3(double im[3][3], double m[3][3])
@ AV_PIX_FMT_YUV420P
planar YUV 4:2:0, 12bpp, (1 Cr & Cb sample per 2x2 Y samples)
#define FILTER_INPUTS(array)
Filter the word “frame” indicates either a video frame or a group of audio as stored in an AVFrame structure Format for each input and each output the list of supported formats For video that means pixel format For audio that means channel sample they are references to shared objects When the negotiation mechanism computes the intersection of the formats supported at each end of a link
Describe the class of an AVClass context structure.
int av_frame_copy_props(AVFrame *dst, const AVFrame *src)
Copy only "metadata" fields from src to dst.
static int process_slice_yuv422p(AVFilterContext *ctx, void *arg, int jobnr, int nb_jobs)
static int process_slice_yuv444p(AVFilterContext *ctx, void *arg, int jobnr, int nb_jobs)
these buffered frames must be flushed immediately if a new input produces new the filter must not call request_frame to get more It must just process the frame or queue it The task of requesting more frames is left to the filter s request_frame method or the application If a filter has several the filter must be ready for frames arriving randomly on any input any filter with several inputs will most likely require some kind of queuing mechanism It is perfectly acceptable to have a limited queue and to drop frames when the inputs are too unbalanced request_frame For filters that do not use the this method is called when a frame is wanted on an output For a source
#define NULL_IF_CONFIG_SMALL(x)
Return NULL if CONFIG_SMALL is true, otherwise the argument without modification.
#define FILTER_PIXFMTS(...)
int format
format of the frame, -1 if unknown or unset Values correspond to enum AVPixelFormat for video frames,...
static int config_input(AVFilterLink *inlink)
AVFILTER_DEFINE_CLASS(colormatrix)
#define AVFILTER_FLAG_SUPPORT_TIMELINE_GENERIC
Some filters support a generic "enable" expression option that can be used to enable or disable a fil...
@ AVCOL_SPC_SMPTE240M
derived from 170M primaries and D65 white point, 170M is derived from BT470 System M's primaries
static av_cold int init(AVFilterContext *ctx)
#define i(width, name, range_min, range_max)
@ AVCOL_SPC_BT2020_NCL
ITU-R BT2020 non-constant luminance system.
int w
agreed upon image width
AVColorSpace
YUV colorspace type.
int ff_filter_get_nb_threads(AVFilterContext *ctx)
Get number of threads for current filter instance.
Used for passing data between threads.
const char * name
Pad name.
const AVFilter ff_vf_colormatrix
static const char *const color_modes[]
@ AV_PIX_FMT_UYVY422
packed YUV 4:2:2, 16bpp, Cb Y0 Cr Y1
int h
agreed upon image height
static const AVOption colormatrix_options[]
@ AVCOL_SPC_FCC
FCC Title 47 Code of Federal Regulations 73.682 (a)(20)
@ AV_PIX_FMT_YUV444P
planar YUV 4:4:4, 24bpp, (1 Cr & Cb sample per 1x1 Y samples)
#define AVFILTER_FLAG_SLICE_THREADS
The filter supports multithreading by splitting frames into multiple parts and processing them concur...
@ AV_PIX_FMT_YUV422P
planar YUV 4:2:2, 16bpp, (1 Cr & Cb sample per 2x1 Y samples)
Descriptor that unambiguously describes how the bits of a pixel are stored in the up to 4 data planes...
#define FILTER_OUTPUTS(array)
int linesize[AV_NUM_DATA_POINTERS]
For video, a positive or negative value, which is typically indicating the size in bytes of each pict...
static av_always_inline int ff_filter_execute(AVFilterContext *ctx, avfilter_action_func *func, void *arg, int *ret, int nb_jobs)
@ AVCOL_SPC_BT709
also ITU-R BT1361 / IEC 61966-2-4 xvYCC709 / derived in SMPTE RP 177 Annex B
uint8_t log2_chroma_h
Amount to shift the luma height right to find the chroma height.
