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27 * \brief The video processing API
29 * This file contains the \ref api_vpp "Video processing API".
40 * \defgroup api_vpp Video processing API
44 * The video processing API uses the same paradigm as for decoding:
45 * - Query for supported filters;
46 * - Set up a video processing pipeline;
47 * - Send video processing parameters through VA buffers.
49 * \section api_vpp_caps Query for supported filters
51 * Checking whether video processing is supported can be performed
52 * with vaQueryConfigEntrypoints() and the profile argument set to
53 * #VAProfileNone. If video processing is supported, then the list of
54 * returned entry-points will include #VAEntrypointVideoProc.
57 * VAEntrypoint *entrypoints;
58 * int i, num_entrypoints, supportsVideoProcessing = 0;
60 * num_entrypoints = vaMaxNumEntrypoints();
61 * entrypoints = malloc(num_entrypoints * sizeof(entrypoints[0]);
62 * vaQueryConfigEntrypoints(va_dpy, VAProfileNone,
63 * entrypoints, &num_entrypoints);
65 * for (i = 0; !supportsVideoProcessing && i < num_entrypoints; i++) {
66 * if (entrypoints[i] == VAEntrypointVideoProc)
67 * supportsVideoProcessing = 1;
71 * Then, the vaQueryVideoProcFilters() function is used to query the
72 * list of video processing filters.
75 * VAProcFilterType filters[VAProcFilterCount];
76 * unsigned int num_filters = VAProcFilterCount;
78 * // num_filters shall be initialized to the length of the array
79 * vaQueryVideoProcFilters(va_dpy, vpp_ctx, &filters, &num_filters);
82 * Finally, individual filter capabilities can be checked with
83 * vaQueryVideoProcFilterCaps().
86 * VAProcFilterCap denoise_caps;
87 * unsigned int num_denoise_caps = 1;
88 * vaQueryVideoProcFilterCaps(va_dpy, vpp_ctx,
89 * VAProcFilterNoiseReduction,
90 * &denoise_caps, &num_denoise_caps
93 * VAProcFilterCapDeinterlacing deinterlacing_caps[VAProcDeinterlacingCount];
94 * unsigned int num_deinterlacing_caps = VAProcDeinterlacingCount;
95 * vaQueryVideoProcFilterCaps(va_dpy, vpp_ctx,
96 * VAProcFilterDeinterlacing,
97 * &deinterlacing_caps, &num_deinterlacing_caps
101 * \section api_vpp_setup Set up a video processing pipeline
103 * A video processing pipeline buffer is created for each source
104 * surface we want to process. However, buffers holding filter
105 * parameters can be created once and for all. Rationale is to avoid
106 * multiple creation/destruction chains of filter buffers and also
107 * because filter parameters generally won't change frame after
108 * frame. e.g. this makes it possible to implement a checkerboard of
109 * videos where the same filters are applied to each video source.
111 * The general control flow is demonstrated by the following pseudo-code:
114 * VABufferID denoise_filter, deint_filter;
115 * VABufferID filter_bufs[VAProcFilterCount];
116 * unsigned int num_filter_bufs;
118 * for (i = 0; i < num_filters; i++) {
119 * switch (filters[i]) {
120 * case VAProcFilterNoiseReduction: { // Noise reduction filter
121 * VAProcFilterParameterBuffer denoise;
122 * denoise.type = VAProcFilterNoiseReduction;
123 * denoise.value = 0.5;
124 * vaCreateBuffer(va_dpy, vpp_ctx,
125 * VAProcFilterParameterBufferType, sizeof(denoise), 1,
126 * &denoise, &denoise_filter
128 * filter_bufs[num_filter_bufs++] = denoise_filter;
132 * case VAProcFilterDeinterlacing: // Motion-adaptive deinterlacing
133 * for (j = 0; j < num_deinterlacing_caps; j++) {
134 * VAProcFilterCapDeinterlacing * const cap = &deinterlacing_caps[j];
135 * if (cap->type != VAProcDeinterlacingMotionAdaptive)
138 * VAProcFilterParameterBufferDeinterlacing deint;
139 * deint.type = VAProcFilterDeinterlacing;
140 * deint.algorithm = VAProcDeinterlacingMotionAdaptive;
141 * vaCreateBuffer(va_dpy, vpp_ctx,
142 * VAProcFilterParameterBufferType, sizeof(deint), 1,
143 * &deint, &deint_filter
145 * filter_bufs[num_filter_bufs++] = deint_filter;
151 * Once the video processing pipeline is set up, the caller shall check the
152 * implied capabilities and requirements with vaQueryVideoProcPipelineCaps().
153 * This function can be used to validate the number of reference frames are
154 * needed by the specified deinterlacing algorithm, the supported color
158 * VAProcPipelineCaps pipeline_caps;
159 * VASurfaceID *forward_references;
160 * unsigned int num_forward_references;
161 * VASurfaceID *backward_references;
162 * unsigned int num_backward_references;
163 * VAProcColorStandardType in_color_standards[VAProcColorStandardCount];
164 * VAProcColorStandardType out_color_standards[VAProcColorStandardCount];
166 * pipeline_caps.input_color_standards = NULL;
167 * pipeline_caps.num_input_color_standards = ARRAY_ELEMS(in_color_standards);
168 * pipeline_caps.output_color_standards = NULL;
169 * pipeline_caps.num_output_color_standards = ARRAY_ELEMS(out_color_standards);
170 * vaQueryVideoProcPipelineCaps(va_dpy, vpp_ctx,
171 * filter_bufs, num_filter_bufs,
175 * num_forward_references = pipeline_caps.num_forward_references;
176 * forward_references =
177 * malloc(num__forward_references * sizeof(VASurfaceID));
178 * num_backward_references = pipeline_caps.num_backward_references;
179 * backward_references =
180 * malloc(num_backward_references * sizeof(VASurfaceID));
183 * \section api_vpp_submit Send video processing parameters through VA buffers
185 * Video processing pipeline parameters are submitted for each source
186 * surface to process. Video filter parameters can also change, per-surface.
187 * e.g. the list of reference frames used for deinterlacing.
190 * foreach (iteration) {
191 * vaBeginPicture(va_dpy, vpp_ctx, vpp_surface);
192 * foreach (surface) {
193 * VARectangle output_region;
194 * VABufferID pipeline_buf;
195 * VAProcPipelineParameterBuffer *pipeline_param;
197 * vaCreateBuffer(va_dpy, vpp_ctx,
198 * VAProcPipelineParameterBuffer, sizeof(*pipeline_param), 1,
199 * NULL, &pipeline_buf
202 * // Setup output region for this surface
203 * // e.g. upper left corner for the first surface
204 * output_region.x = BORDER;
205 * output_region.y = BORDER;
206 * output_region.width =
207 * (vpp_surface_width - (Nx_surfaces + 1) * BORDER) / Nx_surfaces;
208 * output_region.height =
209 * (vpp_surface_height - (Ny_surfaces + 1) * BORDER) / Ny_surfaces;
211 * vaMapBuffer(va_dpy, pipeline_buf, &pipeline_param);
212 * pipeline_param->surface = surface;
213 * pipeline_param->surface_region = NULL;
214 * pipeline_param->output_region = &output_region;
215 * pipeline_param->output_background_color = 0;
216 * if (first surface to render)
217 * pipeline_param->output_background_color = 0xff000000; // black
218 * pipeline_param->filter_flags = VA_FILTER_SCALING_HQ;
219 * pipeline_param->filters = filter_bufs;
220 * pipeline_param->num_filters = num_filter_bufs;
221 * vaUnmapBuffer(va_dpy, pipeline_buf);
223 * // Update reference frames for deinterlacing, if necessary
224 * pipeline_param->forward_references = forward_references;
225 * pipeline_param->num_forward_references = num_forward_references_used;
226 * pipeline_param->backward_references = backward_references;
227 * pipeline_param->num_backward_references = num_bacward_references_used;
230 * vaRenderPicture(va_dpy, vpp_ctx, &pipeline_buf, 1);
232 * vaEndPicture(va_dpy, vpp_ctx);
237 /** \brief Video filter types. */
238 typedef enum _VAProcFilterType
{
239 VAProcFilterNone
= 0,
240 /** \brief Noise reduction filter. */
241 VAProcFilterNoiseReduction
,
242 /** \brief Deinterlacing filter. */
243 VAProcFilterDeinterlacing
,
244 /** \brief Sharpening filter. */
245 VAProcFilterSharpening
,
246 /** \brief Color balance parameters. */
247 VAProcFilterColorBalance
,
251 /** \brief Deinterlacing types. */
252 typedef enum _VAProcDeinterlacingType
{
253 VAProcDeinterlacingNone
= 0,
254 /** \brief Bob deinterlacing algorithm. */
255 VAProcDeinterlacingBob
,
256 /** \brief Weave deinterlacing algorithm. */
257 VAProcDeinterlacingWeave
,
258 /** \brief Motion adaptive deinterlacing algorithm. */
259 VAProcDeinterlacingMotionAdaptive
,
260 /** \brief Motion compensated deinterlacing algorithm. */
261 VAProcDeinterlacingMotionCompensated
,
262 /** \brief Number of deinterlacing algorithms. */
263 VAProcDeinterlacingCount
264 } VAProcDeinterlacingType
;
266 /** \brief Color balance types. */
267 typedef enum _VAProcColorBalanceType
{
268 VAProcColorBalanceNone
= 0,
270 VAProcColorBalanceHue
,
271 /** \brief Saturation. */
272 VAProcColorBalanceSaturation
,
273 /** \brief Brightness. */
274 VAProcColorBalanceBrightness
,
275 /** \brief Contrast. */
276 VAProcColorBalanceContrast
,
277 /** \brief Automatically adjusted saturation. */
278 VAProcColorBalanceAutoSaturation
,
279 /** \brief Automatically adjusted brightness. */
280 VAProcColorBalanceAutoBrightness
,
281 /** \brief Automatically adjusted contrast. */
282 VAProcColorBalanceAutoContrast
,
283 /** \brief Number of color balance attributes. */
284 VAProcColorBalanceCount
285 } VAProcColorBalanceType
;
287 /** \brief Color standard types. */
288 typedef enum _VAProcColorStandardType
{
289 VAProcColorStandardNone
= 0,
290 /** \brief ITU-R BT.601. */
291 VAProcColorStandardBT601
,
292 /** \brief ITU-R BT.709. */
293 VAProcColorStandardBT709
,
294 /** \brief ITU-R BT.470-2 System M. */
295 VAProcColorStandardBT470M
,
296 /** \brief ITU-R BT.470-2 System B, G. */
297 VAProcColorStandardBT470BG
,
298 /** \brief SMPTE-170M. */
299 VAProcColorStandardSMPTE170M
,
300 /** \brief SMPTE-240M. */
301 VAProcColorStandardSMPTE240M
,
302 /** \brief Generic film. */
303 VAProcColorStandardGenericFilm
,
304 /** \brief Number of color standards. */
305 VAProcColorStandardCount
306 } VAProcColorStandardType
;
308 /** @name Video pipeline flags */
310 /** \brief Specifies whether to apply subpictures when processing a surface. */
311 #define VA_PROC_PIPELINE_SUBPICTURES 0x00000001
313 * \brief Specifies whether to apply power or performance
314 * optimizations to a pipeline.
316 * When processing several surfaces, it may be necessary to prioritize
317 * more certain pipelines than others. This flag is only a hint to the
318 * video processor so that it can omit certain filters to save power
319 * for example. Typically, this flag could be used with video surfaces
320 * decoded from a secondary bitstream.
322 #define VA_PROC_PIPELINE_FAST 0x00000002
325 /** @name Video filter flags */
327 /** \brief Specifies whether the filter shall be present in the pipeline. */
328 #define VA_PROC_FILTER_MANDATORY 0x00000001
331 /** @name Pipeline end flags */
333 /** \brief Specifies the pipeline is the last. */
334 #define VA_PIPELINE_FLAG_END 0x00000004
337 /** \brief Video processing pipeline capabilities. */
338 typedef struct _VAProcPipelineCaps
{
339 /** \brief Pipeline flags. See VAProcPipelineParameterBuffer::pipeline_flags. */
340 unsigned int pipeline_flags
;
341 /** \brief Extra filter flags. See VAProcPipelineParameterBuffer::filter_flags. */
342 unsigned int filter_flags
;
343 /** \brief Number of forward reference frames that are needed. */
344 unsigned int num_forward_references
;
345 /** \brief Number of backward reference frames that are needed. */
346 unsigned int num_backward_references
;
347 /** \brief List of color standards supported on input. */
348 VAProcColorStandardType
*input_color_standards
;
349 /** \brief Number of elements in \ref input_color_standards array. */
350 unsigned int num_input_color_standards
;
351 /** \brief List of color standards supported on output. */
352 VAProcColorStandardType
*output_color_standards
;
353 /** \brief Number of elements in \ref output_color_standards array. */
354 unsigned int num_output_color_standards
;
355 } VAProcPipelineCaps
;
357 /** \brief Specification of values supported by the filter. */
358 typedef struct _VAProcFilterValueRange
{
359 /** \brief Minimum value supported, inclusive. */
361 /** \brief Maximum value supported, inclusive. */
363 /** \brief Default value. */
365 /** \brief Step value that alters the filter behaviour in a sensible way. */
367 } VAProcFilterValueRange
;
370 * \brief Video processing pipeline configuration.
372 * This buffer defines a video processing pipeline. As for any buffer
373 * passed to \c vaRenderPicture(), this is a one-time usage model.
374 * However, the actual filters to be applied are provided in the
375 * \c filters field, so they can be re-used in other processing
378 * The target surface is specified by the \c render_target argument of
379 * \c vaBeginPicture(). The general usage model is described as follows:
380 * - \c vaBeginPicture(): specify the target surface that receives the
382 * - \c vaRenderPicture(): specify a surface to be processed and composed
383 * into the \c render_target. Use as many \c vaRenderPicture() calls as
384 * necessary surfaces to compose ;
385 * - \c vaEndPicture(): tell the driver to start processing the surfaces
386 * with the requested filters.
388 * If a filter (e.g. noise reduction) needs to be applied with different
389 * values for multiple surfaces, the application needs to create as many
390 * filter parameter buffers as necessary. i.e. the filter parameters shall
391 * not change between two calls to \c vaRenderPicture().
393 * For composition usage models, the first surface to process will generally
394 * use an opaque background color, i.e. \c output_background_color set with
395 * the most significant byte set to \c 0xff. For instance, \c 0xff000000 for
396 * a black background. Then, subsequent surfaces would use a transparent
399 typedef struct _VAProcPipelineParameterBuffer
{
401 * \brief Source surface ID.
403 * ID of the source surface to process. If subpictures are associated
404 * with the video surfaces then they shall be rendered to the target
405 * surface, if the #VA_PROC_PIPELINE_SUBPICTURES pipeline flag is set.
409 * \brief Region within the source surface to be processed.
411 * Pointer to a #VARectangle defining the region within the source
412 * surface to be processed. If NULL, \c surface_region implies the
415 const VARectangle
*surface_region
;
417 * \brief Requested input color primaries.
419 * Color primaries are implicitly converted throughout the processing
420 * pipeline. The video processor chooses the best moment to apply
421 * this conversion. The set of supported color primaries primaries
422 * for input shall be queried with vaQueryVideoProcPipelineCaps().
424 VAProcColorStandardType surface_color_standard
;
426 * \brief Region within the output surface.
428 * Pointer to a #VARectangle defining the region within the output
429 * surface that receives the processed pixels. If NULL, \c output_region
430 * implies the whole surface.
432 * Note that any pixels residing outside the specified region will
433 * be filled in with the \ref output_background_color.
435 const VARectangle
*output_region
;
437 * \brief Background color.
439 * Background color used to fill in pixels that reside outside of the
440 * specified \ref output_region. The color is specified in ARGB format:
441 * [31:24] alpha, [23:16] red, [15:8] green, [7:0] blue.
443 * Unless the alpha value is zero or the \ref output_region represents
444 * the whole target surface size, implementations shall not render the
445 * source surface to the target surface directly. Rather, in order to
446 * maintain the exact semantics of \ref output_background_color, the
447 * driver shall use a temporary surface and fill it in with the
448 * appropriate background color. Next, the driver will blend this
449 * temporary surface into the target surface.
451 unsigned int output_background_color
;
453 * \brief Requested output color primaries.
455 VAProcColorStandardType output_color_standard
;
457 * \brief Pipeline filters. See video pipeline flags.
459 * Flags to control the pipeline, like whether to apply subpictures
460 * or not, notify the driver that it can opt for power optimizations,
461 * should this be needed.
463 unsigned int pipeline_flags
;
465 * \brief Extra filter flags. See vaPutSurface() flags.
467 * Filter flags are used as a fast path, wherever possible, to use
468 * vaPutSurface() flags instead of explicit filter parameter buffers.
470 * Allowed filter flags API-wise. Use vaQueryVideoProcPipelineCaps()
471 * to check for implementation details:
472 * - Bob-deinterlacing: \c VA_FRAME_PICTURE, \c VA_TOP_FIELD,
473 * \c VA_BOTTOM_FIELD. Note that any deinterlacing filter
474 * (#VAProcFilterDeinterlacing) will override those flags.
475 * - Color space conversion: \c VA_SRC_BT601, \c VA_SRC_BT709,
476 * \c VA_SRC_SMPTE_240.
477 * - Scaling: \c VA_FILTER_SCALING_DEFAULT, \c VA_FILTER_SCALING_FAST,
478 * \c VA_FILTER_SCALING_HQ, \c VA_FILTER_SCALING_NL_ANAMORPHIC.
480 unsigned int filter_flags
;
482 * \brief Array of filters to apply to the surface.
484 * The list of filters shall be ordered in the same way the driver expects
485 * them. i.e. as was returned from vaQueryVideoProcFilters().
486 * Otherwise, a #VA_STATUS_ERROR_INVALID_FILTER_CHAIN is returned
487 * from vaRenderPicture() with this buffer.
489 * #VA_STATUS_ERROR_UNSUPPORTED_FILTER is returned if the list
490 * contains an unsupported filter.
492 * Note: no filter buffer is destroyed after a call to vaRenderPicture(),
493 * only this pipeline buffer will be destroyed as per the core API
494 * specification. This allows for flexibility in re-using the filter for
495 * other surfaces to be processed.
498 /** \brief Actual number of filters. */
499 unsigned int num_filters
;
500 /** \brief Array of forward reference frames. */
501 VASurfaceID
*forward_references
;
502 /** \brief Number of forward reference frames that were supplied. */
503 unsigned int num_forward_references
;
504 /** \brief Array of backward reference frames. */
505 VASurfaceID
*backward_references
;
506 /** \brief Number of backward reference frames that were supplied. */
507 unsigned int num_backward_references
;
508 } VAProcPipelineParameterBuffer
;
511 * \brief Filter parameter buffer base.
513 * This is a helper structure used by driver implementations only.
514 * Users are not supposed to allocate filter parameter buffers of this
517 typedef struct _VAProcFilterParameterBufferBase
{
518 /** \brief Filter type. */
519 VAProcFilterType type
;
520 } VAProcFilterParameterBufferBase
;
523 * \brief Default filter parametrization.
525 * Unless there is a filter-specific parameter buffer,
526 * #VAProcFilterParameterBuffer is the default type to use.
528 typedef struct _VAProcFilterParameterBuffer
{
529 /** \brief Filter type. */
530 VAProcFilterType type
;
533 } VAProcFilterParameterBuffer
;
535 /** @name De-interlacing flags */
538 * \brief Bottom field first in the input frame.
539 * if this is not set then assumes top field first.
541 #define VA_DEINTERLACING_BOTTOM_FIELD_FIRST 0x0001
543 * \brief Bottom field used in deinterlacing.
544 * if this is not set then assumes top field is used.
546 #define VA_DEINTERLACING_BOTTOM_FIELD 0x0002
548 * \brief A single field is stored in the input frame.
549 * if this is not set then assumes the frame contains two interleaved fields.
551 #define VA_DEINTERLACING_ONE_FIELD 0x0004
554 /** \brief Deinterlacing filter parametrization. */
555 typedef struct _VAProcFilterParameterBufferDeinterlacing
{
556 /** \brief Filter type. Shall be set to #VAProcFilterDeinterlacing. */
557 VAProcFilterType type
;
558 /** \brief Deinterlacing algorithm. */
559 VAProcDeinterlacingType algorithm
;
560 /** \brief Deinterlacing flags. */
562 } VAProcFilterParameterBufferDeinterlacing
;
565 * \brief Color balance filter parametrization.
567 * This buffer defines color balance attributes. A VA buffer can hold
568 * several color balance attributes by creating a VA buffer of desired
569 * number of elements. This can be achieved by the following pseudo-code:
572 * enum { kHue, kSaturation, kBrightness, kContrast };
574 * // Initial color balance parameters
575 * static const VAProcFilterParameterBufferColorBalance colorBalanceParams[4] =
578 * { VAProcFilterColorBalance, VAProcColorBalanceHue, 0.5 },
580 * { VAProcFilterColorBalance, VAProcColorBalanceSaturation, 0.5 },
582 * { VAProcFilterColorBalance, VAProcColorBalanceBrightness, 0.5 },
584 * { VAProcFilterColorBalance, VAProcColorBalanceSaturation, 0.5 }
588 * VABufferID colorBalanceBuffer;
589 * vaCreateBuffer(va_dpy, vpp_ctx,
590 * VAProcFilterParameterBufferType, sizeof(*pColorBalanceParam), 4,
591 * colorBalanceParams,
592 * &colorBalanceBuffer
595 * VAProcFilterParameterBufferColorBalance *pColorBalanceParam;
596 * vaMapBuffer(va_dpy, colorBalanceBuffer, &pColorBalanceParam);
598 * // Change brightness only
599 * pColorBalanceBuffer[kBrightness].value = 0.75;
601 * vaUnmapBuffer(va_dpy, colorBalanceBuffer);
604 typedef struct _VAProcFilterParameterBufferColorBalance
{
605 /** \brief Filter type. Shall be set to #VAProcFilterColorBalance. */
606 VAProcFilterType type
;
607 /** \brief Color balance attribute. */
608 VAProcColorBalanceType attrib
;
610 * \brief Color balance value.
612 * Special case for automatically adjusted attributes. e.g.
613 * #VAProcColorBalanceAutoSaturation,
614 * #VAProcColorBalanceAutoBrightness,
615 * #VAProcColorBalanceAutoContrast.
616 * - If \ref value is \c 1.0 +/- \c FLT_EPSILON, the attribute is
617 * automatically adjusted and overrides any other attribute of
618 * the same type that would have been set explicitly;
619 * - If \ref value is \c 0.0 +/- \c FLT_EPSILON, the attribute is
620 * disabled and other attribute of the same type is used instead.
623 } VAProcFilterParameterBufferColorBalance
;
626 * \brief Default filter cap specification (single range value).
628 * Unless there is a filter-specific cap structure, #VAProcFilterCap is the
629 * default type to use for output caps from vaQueryVideoProcFilterCaps().
631 typedef struct _VAProcFilterCap
{
632 /** \brief Range of supported values for the filter. */
633 VAProcFilterValueRange range
;
636 /** \brief Capabilities specification for the deinterlacing filter. */
637 typedef struct _VAProcFilterCapDeinterlacing
{
638 /** \brief Deinterlacing algorithm. */
639 VAProcDeinterlacingType type
;
640 } VAProcFilterCapDeinterlacing
;
642 /** \brief Capabilities specification for the color balance filter. */
643 typedef struct _VAProcFilterCapColorBalance
{
644 /** \brief Color balance operation. */
645 VAProcColorBalanceType type
;
646 /** \brief Range of supported values for the specified operation. */
647 VAProcFilterValueRange range
;
648 } VAProcFilterCapColorBalance
;
651 * \brief Queries video processing filters.
653 * This function returns the list of video processing filters supported
654 * by the driver. The \c filters array is allocated by the user and
655 * \c num_filters shall be initialized to the number of allocated
656 * elements in that array. Upon successful return, the actual number
657 * of filters will be overwritten into \c num_filters. Otherwise,
658 * \c VA_STATUS_ERROR_MAX_NUM_EXCEEDED is returned and \c num_filters
659 * is adjusted to the number of elements that would be returned if enough
660 * space was available.
662 * The list of video processing filters supported by the driver shall
663 * be ordered in the way they can be iteratively applied. This is needed
664 * for both correctness, i.e. some filters would not mean anything if
665 * applied at the beginning of the pipeline; but also for performance
666 * since some filters can be applied in a single pass (e.g. noise
667 * reduction + deinterlacing).
669 * @param[in] dpy the VA display
670 * @param[in] context the video processing context
671 * @param[out] filters the output array of #VAProcFilterType elements
672 * @param[in,out] num_filters the number of elements allocated on input,
673 * the number of elements actually filled in on output
676 vaQueryVideoProcFilters(
679 VAProcFilterType
*filters
,
680 unsigned int *num_filters
684 * \brief Queries video filter capabilities.
686 * This function returns the list of capabilities supported by the driver
687 * for a specific video filter. The \c filter_caps array is allocated by
688 * the user and \c num_filter_caps shall be initialized to the number
689 * of allocated elements in that array. Upon successful return, the
690 * actual number of filters will be overwritten into \c num_filter_caps.
691 * Otherwise, \c VA_STATUS_ERROR_MAX_NUM_EXCEEDED is returned and
692 * \c num_filter_caps is adjusted to the number of elements that would be
693 * returned if enough space was available.
695 * @param[in] dpy the VA display
696 * @param[in] context the video processing context
697 * @param[in] type the video filter type
698 * @param[out] filter_caps the output array of #VAProcFilterCap elements
699 * @param[in,out] num_filter_caps the number of elements allocated on input,
700 * the number of elements actually filled in output
703 vaQueryVideoProcFilterCaps(
706 VAProcFilterType type
,
708 unsigned int *num_filter_caps
712 * \brief Queries video processing pipeline capabilities.
714 * This function returns the video processing pipeline capabilities. The
715 * \c filters array defines the video processing pipeline and is an array
716 * of buffers holding filter parameters.
718 * Note: the #VAProcPipelineCaps structure contains user-provided arrays.
719 * If non-NULL, the corresponding \c num_* fields shall be filled in on
720 * input with the number of elements allocated. Upon successful return,
721 * the actual number of elements will be overwritten into the \c num_*
722 * fields. Otherwise, \c VA_STATUS_ERROR_MAX_NUM_EXCEEDED is returned
723 * and \c num_* fields are adjusted to the number of elements that would
724 * be returned if enough space was available.
726 * @param[in] dpy the VA display
727 * @param[in] context the video processing context
728 * @param[in] filters the array of VA buffers defining the video
729 * processing pipeline
730 * @param[in] num_filters the number of elements in filters
731 * @param[in,out] pipeline_caps the video processing pipeline capabilities
734 vaQueryVideoProcPipelineCaps(
738 unsigned int num_filters
,
739 VAProcPipelineCaps
*pipeline_caps
748 #endif /* VA_VPP_H */