mirror of
https://github.com/ioquake/jedi-outcast.git
synced 2024-11-14 00:40:52 +00:00
658 lines
9.5 KiB
C
658 lines
9.5 KiB
C
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#include <stdio.h>
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#include "config.h"
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#include "global.h"
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/* private prototypes */
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static void Read_Lower_Layer_Component_Framewise _ANSI_ARGS_((int comp, int lw, int lh));
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static void Read_Lower_Layer_Component_Fieldwise _ANSI_ARGS_((int comp, int lw, int lh));
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static void Make_Spatial_Prediction_Frame _ANSI_ARGS_((int progressive_frame,
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int llprogressive_frame, unsigned char *fld0, unsigned char *fld1,
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short *tmp, unsigned char *dst, int llx0, int lly0, int llw, int llh,
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int horizontal_size, int vertical_size, int vm, int vn, int hm, int hn,
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int aperture));
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static void Deinterlace _ANSI_ARGS_((unsigned char *fld0, unsigned char *fld1,
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int j0, int lx, int ly, int aperture));
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static void Subsample_Vertical _ANSI_ARGS_((unsigned char *s, short *d,
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int lx, int lys, int lyd, int m, int n, int j0, int dj));
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static void Subsample_Horizontal _ANSI_ARGS_((short *s, unsigned char *d,
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int x0, int lx, int lxs, int lxd, int ly, int m, int n));
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/* get reference frame */
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void Spatial_Prediction()
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{
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if(Frame_Store_Flag)
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{
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Read_Lower_Layer_Component_Framewise(0,lower_layer_prediction_horizontal_size,
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lower_layer_prediction_vertical_size); /* Y */
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Read_Lower_Layer_Component_Framewise(1,lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1); /* Cb ("U") */
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Read_Lower_Layer_Component_Framewise(2,lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1); /* Cr ("V") */
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}
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else
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{
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Read_Lower_Layer_Component_Fieldwise(0,lower_layer_prediction_horizontal_size,
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lower_layer_prediction_vertical_size); /* Y */
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Read_Lower_Layer_Component_Fieldwise(1,lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1); /* Cb ("U") */
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Read_Lower_Layer_Component_Fieldwise(2,lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1); /* Cr ("V") */
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}
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Make_Spatial_Prediction_Frame /* Y */
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(progressive_frame,lower_layer_progressive_frame,llframe0[0],llframe1[0],
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lltmp,current_frame[0],lower_layer_horizontal_offset,
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lower_layer_vertical_offset,
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lower_layer_prediction_horizontal_size,
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lower_layer_prediction_vertical_size,
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horizontal_size,vertical_size,vertical_subsampling_factor_m,
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vertical_subsampling_factor_n,horizontal_subsampling_factor_m,
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horizontal_subsampling_factor_n,
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picture_structure!=FRAME_PICTURE); /* this changed from CD to DIS */
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Make_Spatial_Prediction_Frame /* Cb */
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(progressive_frame,lower_layer_progressive_frame,llframe0[1],llframe1[1],
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lltmp,current_frame[1],lower_layer_horizontal_offset/2,
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lower_layer_vertical_offset/2,
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lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1,
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horizontal_size>>1,vertical_size>>1,vertical_subsampling_factor_m,
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vertical_subsampling_factor_n,horizontal_subsampling_factor_m,
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horizontal_subsampling_factor_n,1);
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Make_Spatial_Prediction_Frame /* Cr */
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(progressive_frame,lower_layer_progressive_frame,llframe0[2],llframe1[2],
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lltmp,current_frame[2],lower_layer_horizontal_offset/2,
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lower_layer_vertical_offset/2,
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lower_layer_prediction_horizontal_size>>1,
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lower_layer_prediction_vertical_size>>1,
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horizontal_size>>1,vertical_size>>1,vertical_subsampling_factor_m,
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vertical_subsampling_factor_n,horizontal_subsampling_factor_m,
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horizontal_subsampling_factor_n,1);
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}
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static void Read_Lower_Layer_Component_Framewise(comp,lw,lh)
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int comp;
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int lw, lh;
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{
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FILE *fd;
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char fname[256];
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char ext[3][3] = {".Y",".U",".V"};
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int i,j;
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sprintf(fname,Lower_Layer_Picture_Filename,True_Framenum);
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strcat(fname,ext[comp]);
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#ifdef VERBOSE
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if (Verbose_Flag>1)
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printf("reading %s\n",fname);
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#endif VERBOSE
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fd=fopen(fname,"rb");
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if (fd==NULL) exit(-1);
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for (j=0; j<lh; j++) {
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for (i=0; i<lw; i++)
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llframe0[comp][lw*j+i]=getc(fd);
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if (! lower_layer_progressive_frame) {
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j++;
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for (i=0; i<lw; i++)
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llframe1[comp][lw*j+i]=getc(fd);
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}
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}
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fclose(fd);
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}
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static void Read_Lower_Layer_Component_Fieldwise(comp,lw,lh)
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int comp;
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int lw, lh;
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{
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FILE *fd;
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char fname[256];
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char ext[3][3] = {".Y",".U",".V"};
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int i,j;
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sprintf(fname,Lower_Layer_Picture_Filename,True_Framenum,lower_layer_progressive_frame ? 'f':'a');
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strcat(fname,ext[comp]);
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#ifdef VERBOSE
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if (Verbose_Flag>1)
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printf("reading %s\n",fname);
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#endif VERBOSE
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fd=fopen(fname,"rb");
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if (fd==NULL) exit(-1);
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for (j=0; j<lh; j+=lower_layer_progressive_frame?1:2)
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for (i=0; i<lw; i++)
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llframe0[comp][lw*j+i]=getc(fd);
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fclose(fd);
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if (! lower_layer_progressive_frame) {
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sprintf(fname,Lower_Layer_Picture_Filename,True_Framenum,'b');
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strcat(fname,ext[comp]);
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#ifdef VERBOSE
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if (Verbose_Flag>1)
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printf("reading %s\n",fname);
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#endif VERBOSE
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fd=fopen(fname,"rb");
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if (fd==NULL) exit(-1);
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for (j=1; j<lh; j+=2)
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for (i=0; i<lw; i++)
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llframe1[comp][lw*j+i]=getc(fd);
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fclose(fd);
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}
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}
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/* form spatial prediction */
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static void Make_Spatial_Prediction_Frame(progressive_frame,
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llprogressive_frame,fld0,fld1,tmp,dst,llx0,lly0,llw,llh,horizontal_size,
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vertical_size,vm,vn,hm,hn,aperture)
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int progressive_frame,llprogressive_frame;
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unsigned char *fld0,*fld1;
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short *tmp;
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unsigned char *dst;
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int llx0,lly0,llw,llh,horizontal_size,vertical_size,vm,vn,hm,hn,aperture;
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{
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int w, h, x0, llw2, llh2;
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llw2 = (llw*hn)/hm;
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llh2 = (llh*vn)/vm;
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if (llprogressive_frame)
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{
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/* progressive -> progressive / interlaced */
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Subsample_Vertical(fld0,tmp,llw,llh,llh2,vm,vn,0,1);
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}
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else if (progressive_frame)
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{
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/* interlaced -> progressive */
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if (lower_layer_deinterlaced_field_select)
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{
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Deinterlace(fld1,fld0,0,llw,llh,aperture);
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Subsample_Vertical(fld1,tmp,llw,llh,llh2,vm,vn,0,1);
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}
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else
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{
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Deinterlace(fld0,fld1,1,llw,llh,aperture);
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Subsample_Vertical(fld0,tmp,llw,llh,llh2,vm,vn,0,1);
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}
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}
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else
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{
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/* interlaced -> interlaced */
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Deinterlace(fld0,fld1,1,llw,llh,aperture);
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Deinterlace(fld1,fld0,0,llw,llh,aperture);
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Subsample_Vertical(fld0,tmp,llw,llh,llh2,vm,vn,0,2);
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Subsample_Vertical(fld1,tmp,llw,llh,llh2,vm,vn,1,2);
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}
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/* vertical limits */
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if (lly0<0)
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{
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tmp-= llw*lly0;
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llh2+= lly0;
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if (llh2<0)
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llh2 = 0;
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h = (vertical_size<llh2) ? vertical_size : llh2;
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}
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else
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{
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dst+= horizontal_size*lly0;
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h= vertical_size - lly0;
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if (h>llh2)
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h = llh2;
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}
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/* horizontal limits */
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if (llx0<0)
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{
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x0 = -llx0;
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llw2+= llx0;
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if (llw2<0)
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llw2 = 0;
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w = (horizontal_size<llw2) ? horizontal_size : llw2;
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}
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else
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{
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dst+= llx0;
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x0 = 0;
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w = horizontal_size - llx0;
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if (w>llw2)
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w = llw2;
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}
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Subsample_Horizontal(tmp,dst,x0,w,llw,horizontal_size,h,hm,hn);
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}
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/* deinterlace one field (interpolate opposite parity samples)
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*
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* deinterlacing is done in-place: if j0=1, fld0 contains the input field in
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* its even lines and the odd lines are interpolated by this routine
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* if j0=0, the input field is in the odd lines and the even lines are
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* interpolated
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*
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* fld0: field to be deinterlaced
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* fld1: other field (referenced by the two field aperture filter)
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* j0: 0: interpolate even (top) lines, 1: interpolate odd (bottom) lines
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* lx: width of fld0 and fld1
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* ly: height of the deinterlaced field (has to be even)
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* aperture: 1: use one field aperture filter (two field otherwise)
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*/
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static void Deinterlace(fld0,fld1,j0,lx,ly,aperture)
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unsigned char *fld0,*fld1;
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int j0,lx,ly; /* ly has to be even */
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int aperture;
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{
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int i,j,v;
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unsigned char *p0, *p0m1, *p0p1, *p1, *p1m2, *p1p2;
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/* deinterlace one field */
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for (j=j0; j<ly; j+=2)
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{
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p0 = fld0+lx*j;
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p0m1 = (j==0) ? p0+lx : p0-lx;
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p0p1 = (j==ly-1) ? p0-lx : p0+lx;
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if (aperture)
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for (i=0; i<lx; i++)
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p0[i] = (unsigned int)(p0m1[i] + p0p1[i] + 1)>>1;
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else
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{
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p1 = fld1 + lx*j;
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p1m2 = (j<2) ? p1 : p1-2*lx;
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p1p2 = (j>=ly-2) ? p1 : p1+2*lx;
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for (i=0; i<lx; i++)
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{
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v = 8*(p0m1[i]+p0p1[i]) + 2*p1[i] - p1m2[i] - p1p2[i];
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p0[i] = Clip[(v + ((v>=0) ? 8 : 7))>>4];
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}
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}
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}
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}
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/* vertical resampling */
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static void Subsample_Vertical(s,d,lx,lys,lyd,m,n,j0,dj)
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unsigned char *s;
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short *d;
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int lx, lys, lyd, m, n, j0, dj;
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{
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int i, j, c1, c2, jd;
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unsigned char *s1, *s2;
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short *d1;
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for (j=j0; j<lyd; j+=dj)
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{
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d1 = d + lx*j;
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jd = (j*m)/n;
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s1 = s + lx*jd;
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s2 = (jd<lys-1)? s1+lx : s1;
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c2 = (16*((j*m)%n) + (n>>1))/n;
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c1 = 16 - c2;
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for (i=0; i<lx; i++)
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d1[i] = c1*s1[i] + c2*s2[i];
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}
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}
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/* horizontal resampling */
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static void Subsample_Horizontal(s,d,x0,lx,lxs,lxd,ly,m,n)
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short *s;
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unsigned char *d;
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int x0, lx, lxs, lxd, ly, m, n;
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{
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int i, i1, j, mpegid, c1, c2, v;
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short *s1, *s2;
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unsigned char *d1;
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for (i1=0; i1<lx; i1++)
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{
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d1 = d + i1;
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i = x0 + i1;
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mpegid = (i*m)/n;
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s1 = s+mpegid;
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s2 = (mpegid<lxs-1) ? s1+1 : s1;
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c2 = (16*((i*m)%n) + (n>>1))/n;
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c1 = 16 - c2;
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for (j=0; j<ly; j++)
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{
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v = c1*(*s1) + c2*(*s2);
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*d1 = (v + ((v>=0) ? 128 : 127))>>8;
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d1+= lxd;
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s1+= lxs;
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s2+= lxs;
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}
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}
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}
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