/* * Linux VeeJay * * Copyright(C)2002 Niels Elburg * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License , or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307 , USA. */ #include #include #include #include #include #include "common.h" #include "slicer.h" static int *slice_xshift = NULL; static int *slice_yshift = NULL; static void recalc(int w, int h , uint8_t *Yinp, int v1, int v2 ) { int x,y,dx,dy,r,p; int l = w * h; int valx = v1;//(w / 100.0) * v1; int valy = v2;//(h / 100.0) * v1; for(x = dx = 0; x < w; x++) { if(dx==0) { uint8_t *Yin = Yinp + (x * h); r = ((rand() & valx))-((valx>>1)+1); dx = 8 + ( (Yin[x] & ((valx>>1))-1) ); } else { dx--; } slice_yshift[x] = r; } for(y=dy=0; y < h; y++) { if(dy==0) { uint8_t *Yin = Yinp + (y * w); r = (rand() & valy)-((valy>>1)+1); dy = ( 8 + Yin[x] & ((valy>>1)-1) ); } else { dy--; } slice_xshift[y] = r; } } int slicer_malloc(int width, int height) { slice_xshift = (int*) vj_malloc(sizeof(int) * height); if(!slice_xshift) return 0; slice_yshift = (int*) vj_malloc(sizeof(int) * width); if(!slice_yshift) return 0; return 1; } vj_effect *slicer_init(int w, int h) { vj_effect *ve = (vj_effect *) vj_calloc(sizeof(vj_effect)); ve->num_params = 3; ve->defaults = (int *) vj_calloc(sizeof(int) * ve->num_params); /* default values */ ve->limits[0] = (int *) vj_calloc(sizeof(int) * ve->num_params); /* min */ ve->limits[1] = (int *) vj_calloc(sizeof(int) * ve->num_params); /* max */ ve->limits[0][0] = 1; ve->limits[1][0] = w; ve->limits[0][1] = 1; ve->limits[1][1] = h; ve->limits[0][2] = 0; ve->limits[1][2] = 1; ve->defaults[0] = 16; ve->defaults[1] = 16; ve->defaults[2] = 0; ve->description = "Slicer"; ve->sub_format = 1; ve->extra_frame = 1; ve->has_user = 0; ve->param_description = vje_build_param_list( ve->num_params, "Width", "Height", "Mode"); return ve; } void slicer_apply( VJFrame *frame, VJFrame *frame2, int width, int height, int val1, int val2, int mode) { int x,y,p,q; const unsigned int len = (width * height); uint8_t *Y = frame->data[0]; uint8_t *Cb= frame->data[1]; uint8_t *Cr= frame->data[2]; uint8_t *Y2= frame2->data[0]; uint8_t *Cb2=frame2->data[1]; uint8_t *Cr2=frame2->data[2]; uint8_t *aA = frame->data[3]; uint8_t *aB = frame2->data[3]; int dx,dy; srand( val1 * val2 ); recalc( width, height, Y2, val1 ,val2 ); if( mode == 0 ) { for(y=0; y < height; y++){ for(x=0; x < width; x++) { dx = x + slice_xshift[y]; dy = y + slice_yshift[x]; p = dy * width + dx; q = y * width + x; if( p >= 0 && p < len ) { Y[q] = Y2[p]; Cb[q] = Cb2[p]; Cr[q] = Cr2[p]; aA[q] = aB[p]; } else { Y[q] = pixel_Y_lo_; Cb[q] = 128; Cr[q] = 128; aA[q] = 0; } } } } else { for(y=0; y < height; y++){ for(x=0; x < width; x++) { dx = x + slice_xshift[y]; dy = y + slice_yshift[x]; p = dy * width + dx; q = y * width + x; if( p >= 0 && p < len ) { Y[q] = Y2[p]; Cb[q] = Cb2[p]; Cr[q] = Cr2[p]; aA[q] = aB[p]; } } } } } void slicer_free() { if ( slice_xshift ) free( slice_xshift ); if ( slice_yshift ) free( slice_yshift ); slice_xshift = NULL; slice_yshift = NULL; }