mirror of https://github.com/mpv-player/mpv
vf_unsharp: remove internal implementation
See previous commit.
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@ -18,34 +18,18 @@
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <stdlib.h>
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#include <string.h>
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#include <inttypes.h>
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#include <math.h>
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#include "config.h"
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#include "common/msg.h"
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#include "common/msg.h"
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#include "common/cpudetect.h"
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#include "options/m_option.h"
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#include "options/m_option.h"
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#include "video/img_format.h"
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#include "video/mp_image.h"
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#include "vf.h"
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#include "vf.h"
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#include "video/memcpy_pic.h"
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#include "libavutil/common.h"
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#include "vf_lavfi.h"
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#include "vf_lavfi.h"
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//===========================================================================//
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#define MIN_MATRIX_SIZE 3
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#define MAX_MATRIX_SIZE 63
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typedef struct FilterParam {
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typedef struct FilterParam {
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int msizeX, msizeY;
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int msizeX, msizeY;
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double amount;
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double amount;
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uint32_t *SC[MAX_MATRIX_SIZE-1];
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} FilterParam;
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} FilterParam;
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struct vf_priv_s {
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struct vf_priv_s {
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@ -54,164 +38,8 @@ struct vf_priv_s {
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struct vf_lw_opts *lw_opts;
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struct vf_lw_opts *lw_opts;
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};
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};
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static int vf_open(vf_instance_t *vf)
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//===========================================================================//
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/* This code is based on :
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An Efficient algorithm for Gaussian blur using finite-state machines
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Frederick M. Waltz and John W. V. Miller
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SPIE Conf. on Machine Vision Systems for Inspection and Metrology VII
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Originally published Boston, Nov 98
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*/
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static void unsharp( uint8_t *dst, uint8_t *src, int dstStride, int srcStride, int width, int height, FilterParam *fp ) {
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uint32_t **SC = fp->SC;
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uint32_t SR[MAX_MATRIX_SIZE-1], Tmp1, Tmp2;
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uint8_t* src2 = src; // avoid gcc warning
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int32_t res;
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int x, y, z;
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int amount = fp->amount * 65536.0;
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int stepsX = fp->msizeX/2;
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int stepsY = fp->msizeY/2;
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int scalebits = (stepsX+stepsY)*2;
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int32_t halfscale = 1 << ((stepsX+stepsY)*2-1);
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if( !fp->amount ) {
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if( src == dst )
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return;
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if( dstStride == srcStride )
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memcpy( dst, src, srcStride*height );
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else
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for( y=0; y<height; y++, dst+=dstStride, src+=srcStride )
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memcpy( dst, src, width );
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return;
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}
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for( y=0; y<2*stepsY; y++ )
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memset( SC[y], 0, sizeof(SC[y][0]) * (width+2*stepsX) );
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for( y=-stepsY; y<height+stepsY; y++ ) {
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if( y < height ) src2 = src;
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memset( SR, 0, sizeof(SR[0]) * (2*stepsX-1) );
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for( x=-stepsX; x<width+stepsX; x++ ) {
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Tmp1 = x<=0 ? src2[0] : x>=width ? src2[width-1] : src2[x];
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for( z=0; z<stepsX*2; z+=2 ) {
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Tmp2 = SR[z+0] + Tmp1; SR[z+0] = Tmp1;
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Tmp1 = SR[z+1] + Tmp2; SR[z+1] = Tmp2;
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}
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for( z=0; z<stepsY*2; z+=2 ) {
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Tmp2 = SC[z+0][x+stepsX] + Tmp1; SC[z+0][x+stepsX] = Tmp1;
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Tmp1 = SC[z+1][x+stepsX] + Tmp2; SC[z+1][x+stepsX] = Tmp2;
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}
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if( x>=stepsX && y>=stepsY ) {
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uint8_t* srx = src - stepsY*srcStride + x - stepsX;
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uint8_t* dsx = dst - stepsY*dstStride + x - stepsX;
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res = (int32_t)*srx + ( ( ( (int32_t)*srx - (int32_t)((Tmp1+halfscale) >> scalebits) ) * amount ) >> 16 );
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*dsx = res>255 ? 255 : res<0 ? 0 : (uint8_t)res;
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}
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}
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if( y >= 0 ) {
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dst += dstStride;
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src += srcStride;
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}
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}
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}
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//===========================================================================//
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static int config( struct vf_instance *vf,
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int width, int height, int d_width, int d_height,
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unsigned int flags, unsigned int outfmt ) {
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int z, stepsX, stepsY;
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FilterParam *fp;
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// allocate buffers
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fp = &vf->priv->lumaParam;
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memset( fp->SC, 0, sizeof( fp->SC ) );
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stepsX = fp->msizeX/2;
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stepsY = fp->msizeY/2;
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for( z=0; z<2*stepsY; z++ )
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fp->SC[z] = av_malloc(sizeof(*(fp->SC[z])) * (width+2*stepsX));
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fp = &vf->priv->chromaParam;
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memset( fp->SC, 0, sizeof( fp->SC ) );
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stepsX = fp->msizeX/2;
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stepsY = fp->msizeY/2;
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for( z=0; z<2*stepsY; z++ )
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fp->SC[z] = av_malloc(sizeof(*(fp->SC[z])) * (width+2*stepsX));
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return vf_next_config( vf, width, height, d_width, d_height, flags, outfmt );
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}
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//===========================================================================//
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static struct mp_image *filter(struct vf_instance *vf, struct mp_image *mpi)
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{
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{
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struct mp_image *dmpi = mpi;
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if (!mp_image_is_writeable(mpi)) {
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dmpi = vf_alloc_out_image(vf);
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mp_image_copy_attributes(dmpi, mpi);
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}
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unsharp( dmpi->planes[0], mpi->planes[0], dmpi->stride[0], mpi->stride[0], mpi->w, mpi->h, &vf->priv->lumaParam );
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unsharp( dmpi->planes[1], mpi->planes[1], dmpi->stride[1], mpi->stride[1], mpi->w/2, mpi->h/2, &vf->priv->chromaParam );
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unsharp( dmpi->planes[2], mpi->planes[2], dmpi->stride[2], mpi->stride[2], mpi->w/2, mpi->h/2, &vf->priv->chromaParam );
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#if HAVE_MMX
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if(gCpuCaps.hasMMX)
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__asm__ volatile ("emms\n\t");
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#endif
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#if HAVE_MMX2
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if(gCpuCaps.hasMMX2)
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__asm__ volatile ("sfence\n\t");
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#endif
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if (dmpi != mpi)
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talloc_free(mpi);
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return dmpi;
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}
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static void uninit( struct vf_instance *vf ) {
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unsigned int z;
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FilterParam *fp;
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if( !vf->priv ) return;
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fp = &vf->priv->lumaParam;
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for( z=0; z<sizeof(fp->SC)/sizeof(fp->SC[0]); z++ ) {
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av_free( fp->SC[z] );
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fp->SC[z] = NULL;
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}
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fp = &vf->priv->chromaParam;
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for( z=0; z<sizeof(fp->SC)/sizeof(fp->SC[0]); z++ ) {
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av_free( fp->SC[z] );
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fp->SC[z] = NULL;
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}
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}
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//===========================================================================//
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static int query_format( struct vf_instance *vf, unsigned int fmt ) {
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switch(fmt) {
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case IMGFMT_420P:
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return vf_next_query_format( vf, IMGFMT_420P );
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}
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return 0;
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}
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static int vf_open( vf_instance_t *vf) {
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vf->config = config;
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vf->filter = filter;
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vf->query_format = query_format;
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vf->uninit = uninit;
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struct vf_priv_s *p = vf->priv;
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struct vf_priv_s *p = vf->priv;
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p->lumaParam.msizeX |= 1;
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p->lumaParam.msizeX |= 1;
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@ -227,7 +55,8 @@ static int vf_open( vf_instance_t *vf) {
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return 1;
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return 1;
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}
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}
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return 1;
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MP_FATAL(vf, "Requires libavfilter.\n");
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return 0;
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}
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}
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// same as MIN_/MAX_MATRIX_SIZE
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// same as MIN_/MAX_MATRIX_SIZE
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@ -255,5 +84,3 @@ const vf_info_t vf_info_unsharp = {
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{0}
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{0}
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},
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},
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};
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};
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//===========================================================================//
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