#include <string.h>
#include <math.h>
+typedef void ( *composite_line_fn )( uint8_t *dest, uint8_t *src, int width_src, uint8_t *alpha, int weight, uint16_t *luma, int softness );
+
+/* mmx function declarations */
+#ifdef USE_MMX
+ void composite_line_yuv_mmx( uint8_t *dest, uint8_t *src, int width_src, uint8_t *alpha, int weight, uint16_t *luma, int softness );
+ int composite_have_mmx( void );
+#endif
+
/** Geometry struct.
*/
struct geometry_s
{
+ int frame;
float position;
float mix;
int nw; // normalised width
position = ( position - in->position ) / ( out->position - in->position );
// Calculate this frames geometry
- output->nw = in->nw;
- output->nh = in->nh;
- output->x = in->x + ( out->x - in->x ) * position;
- output->y = in->y + ( out->y - in->y ) * position;
- output->w = in->w + ( out->w - in->w ) * position;
- output->h = in->h + ( out->h - in->h ) * position;
- output->mix = in->mix + ( out->mix - in->mix ) * position;
- output->distort = in->distort;
-
- output->x = ( int )floor( output->x ) & 0xfffffffe;
- output->w = ( int )floor( output->w ) & 0xfffffffe;
- output->sw &= 0xfffffffe;
+ if ( in->frame != out->frame - 1 )
+ {
+ output->nw = in->nw;
+ output->nh = in->nh;
+ output->x = rint( in->x + ( out->x - in->x ) * position + 0.5 );
+ output->y = rint( in->y + ( out->y - in->y ) * position + 0.5 );
+ output->w = rint( in->w + ( out->w - in->w ) * position + 0.5 );
+ output->h = rint( in->h + ( out->h - in->h ) * position + 0.5 );
+ output->mix = in->mix + ( out->mix - in->mix ) * position;
+ output->distort = in->distort;
+ }
+ else
+ {
+ output->nw = out->nw;
+ output->nh = out->nh;
+ output->x = out->x;
+ output->y = out->y;
+ output->w = out->w;
+ output->h = out->h;
+ output->mix = out->mix;
+ output->distort = out->distort;
+ }
}
-void transition_destroy_keys( void *arg )
+static void transition_destroy_keys( void *arg )
{
struct geometry_s *ptr = arg;
struct geometry_s *next = NULL;
// Parse and add to the list
geometry_parse( temp, ptr, value, normalised_width, normalised_height );
- // Assign the position
+ // Assign the position and frame
+ temp->frame = frame;
temp->position = position;
// Allow the next to be appended after this one
else
end->position = 1;
- // Assign to properties to ensure we get destroyed
- mlt_properties_set_data( properties, "geometries", start, 0, transition_destroy_keys, NULL );
-
return start;
}
mlt_position out = mlt_transition_get_out( this );
// Get the position of the frame
- mlt_position position = mlt_frame_get_position( frame );
+ char *name = mlt_properties_get( mlt_transition_properties( this ), "_unique_id" );
+ mlt_position position = mlt_properties_get_position( mlt_frame_properties( frame ), name );
// Now do the calcs
float x = ( float )( position - in ) / ( float )( out - in + 1 );
*p++ = ( image[ i ] - 16 ) * 299; // 299 = 65535 / 219
}
+
+/** Composite a source line over a destination line
+*/
+
+static inline
+void composite_line_yuv( uint8_t *dest, uint8_t *src, int width_src, uint8_t *alpha, int weight, uint16_t *luma, int softness )
+{
+ register int j;
+ int a, mix;
+
+ for ( j = 0; j < width_src; j ++ )
+ {
+ a = ( alpha == NULL ) ? 255 : *alpha ++;
+ mix = ( luma == NULL ) ? weight : linearstep( luma[ j ], luma[ j ] + softness, weight );
+ mix = ( mix * ( a + 1 ) ) >> 8;
+ *dest = ( *src++ * mix + *dest * ( ( 1 << 16 ) - mix ) ) >> 16;
+ dest++;
+ *dest = ( *src++ * mix + *dest * ( ( 1 << 16 ) - mix ) ) >> 16;
+ dest++;
+ }
+}
+
/** Composite function.
*/
-static int composite_yuv( uint8_t *p_dest, int width_dest, int height_dest, int bpp, uint8_t *p_src, int width_src, int height_src, uint8_t *p_alpha, struct geometry_s geometry, int field, uint16_t *p_luma, int32_t softness )
+static int composite_yuv( uint8_t *p_dest, int width_dest, int height_dest, uint8_t *p_src, int width_src, int height_src, uint8_t *p_alpha, struct geometry_s geometry, int field, uint16_t *p_luma, int32_t softness, composite_line_fn line_fn )
{
int ret = 0;
- int i, j;
+ int i;
int x_src = 0, y_src = 0;
int32_t weight = ( 1 << 16 ) * ( geometry.mix / 100 );
+ int step = ( field > -1 ) ? 2 : 1;
+ int bpp = 2;
int stride_src = width_src * bpp;
int stride_dest = width_dest * bpp;
-
+
// Adjust to consumer scale
int x = geometry.x * width_dest / geometry.nw;
int y = geometry.y * height_dest / geometry.nh;
-
- x &= 0xfffffffe;
- width_src &= 0xfffffffe;
+ int uneven = ( x & 1 );
// optimization points - no work to do
if ( width_src <= 0 || height_src <= 0 )
}
// crop overlay beyond right edge of frame
- else if ( x + width_src > width_dest )
+ if ( x + width_src > width_dest )
width_src = width_dest - x;
// crop overlay off the top edge of the frame
{
y_src = -y;
height_src -= y_src;
+ y = 0;
}
+
// crop overlay below bottom edge of frame
- else if ( y + height_src > height_dest )
+ if ( y + height_src > height_dest )
height_src = height_dest - y;
// offset pointer into overlay buffer based on cropping
height_src--;
}
- uint8_t *p = p_src;
- uint8_t *q = p_dest;
- uint8_t *o = p_dest;
- uint16_t *l = p_luma;
- uint8_t *z = p_alpha;
-
- uint8_t a;
- int32_t current_weight;
- int32_t value;
- int step = ( field > -1 ) ? 2 : 1;
-
- stride_src = stride_src * step;
+ stride_src *= step;
+ stride_dest *= step;
int alpha_stride = stride_src / bpp;
- stride_dest = stride_dest * step;
+
+ if ( uneven )
+ p_src -= 2;
// now do the compositing only to cropped extents
- for ( i = 0; i < height_src; i += step )
+ if ( line_fn != NULL )
{
- p = p_src;
- q = p_dest;
- o = q;
- l = p_luma;
- z = p_alpha;
-
- for ( j = 0; j < width_src; j ++ )
+ for ( i = 0; i < height_src; i += step )
{
- a = ( z == NULL ) ? 255 : *z ++;
- current_weight = ( l == NULL ) ? weight : linearstep( l[ j ], l[ j ] + softness, weight );
- value = ( current_weight * ( a + 1 ) ) >> 8;
- *o ++ = ( *p++ * value + *q++ * ( ( 1 << 16 ) - value ) ) >> 16;
- *o ++ = ( *p++ * value + *q++ * ( ( 1 << 16 ) - value ) ) >> 16;
+ line_fn( p_dest, p_src, width_src, p_alpha, weight, p_luma, softness );
+
+ p_src += stride_src;
+ p_dest += stride_dest;
+ if ( p_alpha )
+ p_alpha += alpha_stride;
+ if ( p_luma )
+ p_luma += alpha_stride;
+ }
+ }
+ else
+ {
+ for ( i = 0; i < height_src; i += step )
+ {
+ composite_line_yuv( p_dest, p_src, width_src, p_alpha, weight, p_luma, softness );
+
+ p_src += stride_src;
+ p_dest += stride_dest;
+ if ( p_alpha )
+ p_alpha += alpha_stride;
+ if ( p_luma )
+ p_luma += alpha_stride;
}
-
- p_src += stride_src;
- p_dest += stride_dest;
- if ( p_alpha )
- p_alpha += alpha_stride;
- if ( p_luma )
- p_luma += alpha_stride;
}
return ret;
mlt_properties b_props = mlt_frame_properties( b_frame );
mlt_properties properties = mlt_transition_properties( this );
- if ( mlt_properties_get( properties, "distort" ) == NULL && geometry->distort == 0 )
+ if ( mlt_properties_get( properties, "distort" ) == NULL && mlt_properties_get( b_props, "distort" ) == NULL && geometry->distort == 0 )
{
// Adjust b_frame pixel aspect
int normalised_width = geometry->w;
*width = geometry->sw * *width / geometry->nw;
*height = geometry->sh * *height / geometry->nh;
- x -= x % 2;
+ //x = ( x | 1 ) ^ 1;
// optimization points - no work to do
- if ( *width <= 0 || *height <= 0 )
+ if ( *width < 1 || *height < 1 )
return 1;
if ( ( x < 0 && -x >= *width ) || ( y < 0 && -y >= *height ) )
}
-struct geometry_s *composite_calculate( struct geometry_s *result, mlt_transition this, mlt_frame a_frame, float position )
+static struct geometry_s *composite_calculate( struct geometry_s *result, mlt_transition this, mlt_frame a_frame, float position )
{
// Get the properties from the transition
mlt_properties properties = mlt_transition_properties( this );
struct geometry_s *start = mlt_properties_get_data( properties, "geometries", NULL );
// Now parse the geometries
- if ( start == NULL )
+ if ( start == NULL || mlt_properties_get_int( properties, "refresh" ) )
{
// Obtain the normalised width and height from the a_frame
int normalised_width = mlt_properties_get_int( a_props, "normalised_width" );
// Parse the transitions properties
start = transition_parse_keys( this, normalised_width, normalised_height );
+
+ // Assign to properties to ensure we get destroyed
+ mlt_properties_set_data( properties, "geometries", start, 0, transition_destroy_keys, NULL );
+ mlt_properties_set_int( properties, "refresh", 0 );
}
// Do the calculation
return start;
}
+static inline void inline_memcpy( uint8_t *dest, uint8_t *src, int length )
+{
+ uint8_t *end = src + length;
+ while ( src < end )
+ {
+ *dest ++ = *src ++;
+ *dest ++ = *src ++;
+ }
+}
+
mlt_frame composite_copy_region( mlt_transition this, mlt_frame a_frame, mlt_position frame_position )
{
// Create a frame to return
w = result.w * width / result.nw;
h = result.h * height / result.nh;
- x &= 0xfffffffe;
- w &= 0xfffffffe;
+ if ( y < 0 )
+ {
+ h = h + y;
+ y = 0;
+ }
+
+ if ( y + h > height )
+ h = height - y;
+
+ x = ( x | 1 ) ^ 1;
+ w = ( w | 1 ) ^ 1;
// Now we need to create a new destination image
dest = mlt_pool_alloc( w * h * 2 );
while ( q < r )
{
- memcpy( q, p, w * 2 );
+ inline_memcpy( q, p, w * 2 );
q += w * 2;
p += width * 2;
}
// Assign this position to the b frame
mlt_frame_set_position( b_frame, frame_position );
+ mlt_properties_set( b_props, "distort", "true" );
// Return the frame
return b_frame;
// Get the image from the a frame
mlt_frame_get_image( a_frame, image, format, width, height, 1 );
+ // Get the properties from the transition
+ mlt_properties properties = mlt_transition_properties( this );
+
if ( b_frame != NULL )
{
// Get the properties of the a frame
// Get the properties of the b frame
mlt_properties b_props = mlt_frame_properties( b_frame );
- // Get the properties from the transition
- mlt_properties properties = mlt_transition_properties( this );
-
// Structures for geometry
struct geometry_s result;
// Do the calculation
struct geometry_s *start = composite_calculate( &result, this, a_frame, position );
-
+
+ // Get the image from the b frame
+ uint8_t *image_b = NULL;
+ int width_b = *width;
+ int height_b = *height;
+
// Optimisation - no compositing required
if ( result.mix == 0 || ( result.w == 0 && result.h == 0 ) )
return 0;
+ // Need to keep the width/height of the a_frame on the b_frame for titling
+ if ( mlt_properties_get( a_props, "dest_width" ) == NULL )
+ {
+ mlt_properties_set_int( a_props, "dest_width", *width );
+ mlt_properties_set_int( a_props, "dest_height", *height );
+ mlt_properties_set_int( b_props, "dest_width", *width );
+ mlt_properties_set_int( b_props, "dest_height", *height );
+ }
+ else
+ {
+ mlt_properties_set_int( b_props, "dest_width", mlt_properties_get_int( a_props, "dest_width" ) );
+ mlt_properties_set_int( b_props, "dest_height", mlt_properties_get_int( a_props, "dest_height" ) );
+ }
+
// Since we are the consumer of the b_frame, we must pass along these
// consumer properties from the a_frame
+ mlt_properties_set_double( b_props, "consumer_deinterlace", mlt_properties_get_double( a_props, "consumer_deinterlace" ) );
mlt_properties_set_double( b_props, "consumer_aspect_ratio", mlt_properties_get_double( a_props, "consumer_aspect_ratio" ) );
- // Get the image from the b frame
- uint8_t *image_b = NULL;
- int width_b = *width;
- int height_b = *height;
-
+ // Special case for titling...
+ if ( mlt_properties_get_int( properties, "titles" ) )
+ {
+ if ( mlt_properties_get( b_props, "rescale.interp" ) == NULL )
+ mlt_properties_set( b_props, "rescale.interp", "nearest" );
+ mlt_properties_set( properties, "fill", NULL );
+ width_b = mlt_properties_get_int( a_props, "dest_width" );
+ height_b = mlt_properties_get_int( a_props, "dest_height" );
+ }
+
if ( get_b_frame_image( this, b_frame, &image_b, &width_b, &height_b, &result ) == 0 )
{
uint8_t *dest = *image;
uint8_t *src = image_b;
- int bpp = 2;
uint8_t *alpha = mlt_frame_get_alpha_mask( b_frame );
- int progressive = mlt_properties_get_int( a_props, "progressive" ) ||
- mlt_properties_get_int( a_props, "consumer_progressive" ) ||
+ int progressive =
+ mlt_properties_get_int( a_props, "consumer_deinterlace" ) ||
mlt_properties_get_int( properties, "progressive" );
int field;
int32_t luma_softness = mlt_properties_get_double( properties, "softness" ) * ( 1 << 16 );
uint16_t *luma_bitmap = get_luma( properties, width_b, height_b );
+ //composite_line_fn line_fn = mlt_properties_get_int( properties, "_MMX" ) ? composite_line_yuv_mmx : NULL;
+ composite_line_fn line_fn = NULL;
for ( field = 0; field < ( progressive ? 1 : 2 ); field++ )
{
alignment_calculate( &result );
// Composite the b_frame on the a_frame
- composite_yuv( dest, *width, *height, bpp, src, width_b, height_b, alpha, result, progressive ? -1 : field, luma_bitmap, luma_softness );
+ composite_yuv( dest, *width, *height, src, width_b, height_b, alpha, result, progressive ? -1 : field, luma_bitmap, luma_softness, line_fn );
}
}
}
static mlt_frame composite_process( mlt_transition this, mlt_frame a_frame, mlt_frame b_frame )
{
+ // Get a unique name to store the frame position
+ char *name = mlt_properties_get( mlt_transition_properties( this ), "_unique_id" );
+
+ // Assign the current position to the name
+ mlt_properties_set_position( mlt_frame_properties( a_frame ), name, mlt_frame_get_position( a_frame ) );
+
// Propogate the transition properties to the b frame
mlt_properties_set_double( mlt_frame_properties( b_frame ), "relative_position", position_calculate( this, mlt_frame_get_position( a_frame ) ) );
+
mlt_frame_push_service( a_frame, this );
- mlt_frame_push_get_image( a_frame, transition_get_image );
mlt_frame_push_frame( a_frame, b_frame );
+ mlt_frame_push_get_image( a_frame, transition_get_image );
return a_frame;
}
mlt_transition this = calloc( sizeof( struct mlt_transition_s ), 1 );
if ( this != NULL && mlt_transition_init( this, NULL ) == 0 )
{
+ mlt_properties properties = mlt_transition_properties( this );
+
this->process = composite_process;
- mlt_properties_set( mlt_transition_properties( this ), "start", arg != NULL ? arg : "85%,5%:10%x10%" );
+
+ // Default starting motion and zoom
+ mlt_properties_set( properties, "start", arg != NULL ? arg : "85%,5%:10%x10%" );
// Default factory
- mlt_properties_set( mlt_transition_properties( this ), "factory", "fezzik" );
+ mlt_properties_set( properties, "factory", "fezzik" );
+
+#ifdef USE_MMX
+ //mlt_properties_set_int( properties, "_MMX", composite_have_mmx() );
+#endif
}
return this;
}