static void gst_imx_compositor_pad_update_canvas(GstImxCompositorPad *compositor_pad, GstImxRegion const *source_region)
{
GstImxCompositor *compositor;
GstVideoInfo *info = &(GST_IMXBP_VIDEO_AGGREGATOR_PAD(compositor_pad)->info);
/* Catch redundant calls */
if (!(compositor_pad->canvas_needs_update))
return;
compositor = GST_IMX_COMPOSITOR(gst_pad_get_parent_element(GST_PAD(compositor_pad)));
/* (Re)compute the outer region */
gst_imx_compositor_pad_compute_outer_region(compositor_pad);
/* (Re)computer the inner region */
gst_imx_canvas_calculate_inner_region(&(compositor_pad->canvas), info);
/* Next, clip the canvas against the overall region,
* which describes the output frame's size
* This way, it is ensured that only the parts that are "within"
* the output frame are blit */
gst_imx_canvas_clip(
&(compositor_pad->canvas),
&(compositor->overall_region),
info,
source_region,
&(compositor_pad->source_subset)
);
/* Canvas updated, mark it as such */
compositor_pad->canvas_needs_update = FALSE;
gst_object_unref(GST_OBJECT(compositor));
}
static gboolean gst_imx_blitter_video_transform_set_caps(GstBaseTransform *transform, GstCaps *in, GstCaps *out)
{
gboolean inout_info_equal;
GstVideoInfo in_info, out_info;
GstImxBlitterVideoTransform *blitter_video_transform = GST_IMX_BLITTER_VIDEO_TRANSFORM(transform);
GstImxBlitterVideoTransformClass *klass = GST_IMX_BLITTER_VIDEO_TRANSFORM_CLASS(G_OBJECT_GET_CLASS(transform));
GstImxCanvas *canvas = &(blitter_video_transform->canvas);
GstImxRegion source_subset;
g_assert(klass->are_video_infos_equal != NULL);
g_assert(blitter_video_transform->blitter != NULL);
if (!gst_video_info_from_caps(&in_info, in) || !gst_video_info_from_caps(&out_info, out))
{
GST_ERROR_OBJECT(transform, "caps are invalid");
blitter_video_transform->inout_info_set = FALSE;
return FALSE;
}
inout_info_equal = klass->are_video_infos_equal(blitter_video_transform, &in_info, &out_info);
if (inout_info_equal)
GST_DEBUG_OBJECT(transform, "input and output caps are equal");
else
GST_DEBUG_OBJECT(transform, "input and output caps are not equal: input: %" GST_PTR_FORMAT " output: %" GST_PTR_FORMAT, (gpointer)in, (gpointer)out);
gst_imx_blitter_set_input_video_info(blitter_video_transform->blitter, &in_info);
gst_imx_blitter_set_output_video_info(blitter_video_transform->blitter, &out_info);
/* setting new caps changes the canvas, so recalculate it
* the recalculation here is done without any input cropping, so set
* last_frame_with_cropdata to FALSE, in case subsequent frames do
* contain crop metadata */
blitter_video_transform->last_frame_with_cropdata = FALSE;
/* the canvas always encompasses the entire output frame */
canvas->outer_region.x1 = 0;
canvas->outer_region.y1 = 0;
canvas->outer_region.x2 = GST_VIDEO_INFO_WIDTH(&out_info);
canvas->outer_region.y2 = GST_VIDEO_INFO_HEIGHT(&out_info);
gst_imx_canvas_calculate_inner_region(canvas, &in_info);
gst_imx_canvas_clip(canvas, &(canvas->outer_region), &in_info, NULL, &source_subset);
gst_imx_blitter_set_input_region(blitter_video_transform->blitter, &source_subset);
gst_imx_blitter_set_output_canvas(blitter_video_transform->blitter, canvas);
blitter_video_transform->input_video_info = in_info;
blitter_video_transform->output_video_info = out_info;
blitter_video_transform->inout_info_equal = inout_info_equal;
blitter_video_transform->inout_info_set = TRUE;
return TRUE;
}
static void gst_imx_blitter_video_sink_update_canvas(GstImxBlitterVideoSink *blitter_video_sink, GstImxRegion const *source_region)
{
/* must be called with lock held */
GstImxRegion *outer_region = &(blitter_video_sink->canvas.outer_region);
GstImxRegion source_subset;
/* Define the outer region */
if ((blitter_video_sink->window_width == 0) || (blitter_video_sink->window_height == 0))
{
/* If either window_width or window_height is 0, then just use the
* entire framebuffer as the outer region */
*outer_region = blitter_video_sink->framebuffer_region;
}
else
{
/* Use the defined window as the outer region */
outer_region->x1 = blitter_video_sink->window_x_coord;
outer_region->y1 = blitter_video_sink->window_y_coord;
outer_region->x2 = blitter_video_sink->window_x_coord + blitter_video_sink->window_width;
outer_region->y2 = blitter_video_sink->window_y_coord + blitter_video_sink->window_height;
}
gst_imx_canvas_calculate_inner_region(&(blitter_video_sink->canvas), &(blitter_video_sink->input_video_info));
gst_imx_canvas_clip(
&(blitter_video_sink->canvas),
&(blitter_video_sink->framebuffer_region),
&(blitter_video_sink->input_video_info),
source_region,
&source_subset
);
gst_imx_blitter_set_input_region(blitter_video_sink->blitter, &source_subset);
gst_imx_blitter_set_output_canvas(blitter_video_sink->blitter, &(blitter_video_sink->canvas));
blitter_video_sink->canvas_needs_update = FALSE;
}
static GstFlowReturn gst_imx_blitter_video_transform_prepare_output_buffer(GstBaseTransform *transform, GstBuffer *input, GstBuffer **outbuf)
{
gboolean passthrough;
GstImxBlitterVideoTransform *blitter_video_transform = GST_IMX_BLITTER_VIDEO_TRANSFORM(transform);
GstImxBlitterVideoTransformClass *klass = GST_IMX_BLITTER_VIDEO_TRANSFORM_CLASS(G_OBJECT_GET_CLASS(transform));
GstVideoCropMeta *video_crop_meta;
gboolean update_canvas = FALSE;
/* If either there is no input buffer or in- and output info are not equal,
* it is clear there can be no passthrough mode */
passthrough = (input != NULL) && blitter_video_transform->inout_info_equal;
GST_IMX_BLITTER_VIDEO_TRANSFORM_LOCK(blitter_video_transform);
/* Check if cropping needs to be done */
if ((input != NULL) && blitter_video_transform->input_crop && ((video_crop_meta = gst_buffer_get_video_crop_meta(input)) != NULL))
{
GstImxRegion source_region;
gint in_width, in_height;
source_region.x1 = video_crop_meta->x;
source_region.y1 = video_crop_meta->y;
source_region.x2 = video_crop_meta->x + video_crop_meta->width;
source_region.y2 = video_crop_meta->y + video_crop_meta->height;
in_width = GST_VIDEO_INFO_WIDTH(&(blitter_video_transform->input_video_info));
in_height = GST_VIDEO_INFO_HEIGHT(&(blitter_video_transform->input_video_info));
/* Make sure the source region does not exceed valid bounds */
source_region.x1 = MAX(0, source_region.x1);
source_region.y1 = MAX(0, source_region.y1);
source_region.x2 = MIN(in_width, source_region.x2);
source_region.y2 = MIN(in_height, source_region.y2);
/* If the crop rectangle encompasses the entire frame, cropping is
* effectively a no-op, so make it passthrough in that case,
* unless passthrough is already FALSE */
passthrough = passthrough && (source_region.x1 == 0) && (source_region.y1 == 0) && (source_region.x2 == in_width) && (source_region.y2 == in_height);
GST_LOG_OBJECT(blitter_video_transform, "retrieved crop rectangle %" GST_IMX_REGION_FORMAT, GST_IMX_REGION_ARGS(&source_region));
/* Canvas needs to be updated if either one of these applies:
* - the current frame has crop metadata, the last one didn't
* - the new crop rectangle and the last are different */
if (!(blitter_video_transform->last_frame_with_cropdata) || !gst_imx_region_equal(&source_region, &(blitter_video_transform->last_source_region)))
{
GST_LOG_OBJECT(blitter_video_transform, "using new crop rectangle %" GST_IMX_REGION_FORMAT, GST_IMX_REGION_ARGS(&source_region));
blitter_video_transform->last_source_region = source_region;
update_canvas = TRUE;
}
blitter_video_transform->last_frame_with_cropdata = TRUE;
}
else
{
/* Force a canvas update if this frame has no crop metadata but the last one did */
if (blitter_video_transform->last_frame_with_cropdata)
update_canvas = TRUE;
blitter_video_transform->last_frame_with_cropdata = FALSE;
}
if (update_canvas)
{
GstImxRegion source_subset;
GstImxCanvas *canvas = &(blitter_video_transform->canvas);
gst_imx_canvas_clip(
canvas,
&(canvas->outer_region),
&(blitter_video_transform->input_video_info),
blitter_video_transform->last_frame_with_cropdata ? &(blitter_video_transform->last_source_region) : NULL,
&source_subset
);
gst_imx_blitter_set_input_region(blitter_video_transform->blitter, &source_subset);
gst_imx_blitter_set_output_canvas(blitter_video_transform->blitter, canvas);
}
if ((input != NULL) && passthrough)
{
/* test for additional special cases for passthrough must not be enabled
* such case are transforms like rotation, deinterlacing ... */
passthrough = passthrough && (blitter_video_transform->canvas.inner_rotation == GST_IMX_CANVAS_INNER_ROTATION_NONE) &&
(klass->are_transforms_necessary != NULL) &&
!(klass->are_transforms_necessary(blitter_video_transform, input));
}
else if (!blitter_video_transform->inout_info_equal)
GST_LOG_OBJECT(transform, "input and output caps are not equal");
else if (blitter_video_transform->last_frame_with_cropdata && !passthrough)
GST_LOG_OBJECT(transform, "cropping is performed");
else if (input == NULL)
GST_LOG_OBJECT(transform, "input buffer is NULL");
GST_IMX_BLITTER_VIDEO_TRANSFORM_UNLOCK(blitter_video_transform);
GST_LOG_OBJECT(transform, "passthrough: %s", passthrough ? "yes" : "no");
if (passthrough)
{
/* This instructs the base class to not allocate a new buffer for
* the output, and instead pass the input buffer as the output
* (this is used in the fransform_frame function below) */
*outbuf = input;
return GST_FLOW_OK;
}
else
return GST_BASE_TRANSFORM_CLASS(gst_imx_blitter_video_transform_parent_class)->prepare_output_buffer(transform, input, outbuf);
}
