Aminet 41

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/ Aminet 41 / Aminet 41 (2001)(Schatztruhe)[!][Feb 2001].iso / Aminet / dev / c / libmpeg_src.lha / hybrid.c < prev next >

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C/C++ Source or Header | 1995-09-25 | 6.6 KB | 234 lines

/* * Copyright (c) 1992 The Regents of the University of California. * All rights reserved. * * Permission to use, copy, modify, and distribute this software and its * documentation for any purpose, without fee, and without written agreement is * hereby granted, provided that the above copyright notice and the following * two paragraphs appear in all copies of this software. * * IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT * OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF * CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. */ /* This file contains C code to implement an ordered dither. */ #include <config.h> #include "video.h" #include "proto.h" #include "dither.h" #define DITH_SIZE 16 /* Structures used to implement hybrid ordered dither/floyd-steinberg dither algorithm. */ static unsigned char *l_darrays[DITH_SIZE]; static unsigned char cr_fsarray[256][4]; static unsigned char cb_fsarray[256][4]; /* *-------------------------------------------------------------- * * InitHybridDither-- * * Structures intialized for hybrid dithering. Ordered dither * patterns set for luminance channel, f-s errors precomputed * for chrominance channels. * * Results: * None. * * Side effects: * None. * *-------------------------------------------------------------- */ void InitHybridDither() { int i, j, k, err_range, threshval; unsigned char *lmark; for (i=0; i<DITH_SIZE; i++) { lmark = l_darrays[i] = (unsigned char *) malloc(256); for (j=0; j<lum_values[0]; j++) { *lmark++ = 0; } for (j=0; j<(LUM_RANGE-1); j++) { err_range = lum_values[j+1] - lum_values[j]; threshval = ((i * err_range) / DITH_SIZE)+lum_values[j]; for (k=lum_values[j]; k<lum_values[j+1]; k++) { if (k > threshval) *lmark++ = ((j+1) * (CR_RANGE * CB_RANGE)); else *lmark++ = (j * (CR_RANGE * CB_RANGE)); } } for (j=lum_values[LUM_RANGE-1]; j<256; j++) { *lmark++ = (LUM_RANGE-1)*(CR_RANGE * CB_RANGE); } } { int cr1, cr2, cr3, cr4, err1, err2; int cb1, cb2, cb3, cb4, val, nval; for (i=0; i<256; i++) { val = i; cr1 = (val * CR_RANGE) / 256; err1 = (val - cr_values[cr1])/2; err2 = (val - cr_values[cr1]) - err1; nval = val+err1; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cr2 = (nval * CR_RANGE) / 256; err1 = (nval - cr_values[cr2])/2; nval = val+err2; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cr3 = (nval * CR_RANGE) / 256; err2 = (nval - cr_values[cr3])/2; nval = val+err1+err2; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cr4 = (nval * CR_RANGE) / 256; cr_fsarray[i][0] = cr1*CB_RANGE; cr_fsarray[i][1] = cr2*CB_RANGE; cr_fsarray[i][2] = cr3*CB_RANGE; cr_fsarray[i][3] = cr4*CB_RANGE; } for (i=0; i<256; i++) { val = i; cb1 = (val * CB_RANGE) / 256; err1 = (val - cb_values[cb1])/2; err2 = (val - cb_values[cb1]) - err1; nval = val+err1; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cb2 = (nval * CB_RANGE) / 256; err1 = (nval - cb_values[cb2])/2; nval = val+err2; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cb3 = (nval * CB_RANGE) / 256; err2 = (nval - cb_values[cb3])/2; nval = val+err1+err2; if (nval > 255) nval = 255; else if (nval < 0) nval = 0; cb4 = (nval * CB_RANGE) / 256; cb_fsarray[i][0] = cb1; cb_fsarray[i][1] = cb2; cb_fsarray[i][2] = cb3; cb_fsarray[i][3] = cb4; } } } /* *-------------------------------------------------------------- * * HybridDitherImage -- * * Dithers an image using an ordered dither. * Assumptions made: * 1) The color space is allocated y:cr:cb = 8:4:4 * 2) The spatial resolution of y:cr:cb is 4:1:1 * The luminance channel is dithered based on the standard * ordered dither pattern for a 4x4 area. The Chrominance * channels are dithered based on precomputed f-s errors. * Two errors are propogated per pixel. Errors are NOT propogated * beyond a 2x2 pixel area. * * Results: * None. * * Side effects: * None. * *-------------------------------------------------------------- */ void HybridDitherImage (lum, cr, cb, out, h, w) unsigned char *lum; unsigned char *cr; unsigned char *cb; unsigned char *out; int w, h; { unsigned char *l, *r, *b, *o1, *o2; unsigned char *l2; int i, j; l = lum; l2 = lum+w; r = cr; b = cb; o1 = out; o2 = out+w; for (i=0; i<h; i+=4) { for (j=0; j<w; j+=4) { *o1++ = pixel[(l_darrays[0][*l++] | cr_fsarray[*r][0] | cb_fsarray[*b][0])]; *o1++ = pixel[(l_darrays[8][*l++] | cr_fsarray[*r][1] | cb_fsarray[*b][1])]; *o2++ = pixel[(l_darrays[12][*l2++] | cr_fsarray[*r][2] | cb_fsarray[*b][2])]; *o2++ = pixel[(l_darrays[4][*l2++] | cr_fsarray[*r++][3] | cb_fsarray[*b++][3])]; *o1++ = pixel[(l_darrays[2][*l++] | cr_fsarray[*r][0] | cb_fsarray[*b][0])]; *o1++ = pixel[(l_darrays[10][*l++] | cr_fsarray[*r][1] | cb_fsarray[*b][1])]; *o2++ = pixel[(l_darrays[14][*l2++] | cr_fsarray[*r][2] | cb_fsarray[*b][2])]; *o2++ = pixel[(l_darrays[6][*l2++] | cr_fsarray[*r++][3] | cb_fsarray[*b++][3])]; } l += w; l2 += w; o1 += w; o2 += w; for (j=0; j<w; j+=4) { *o1++ = pixel[(l_darrays[3][*l++] | cr_fsarray[*r][1] | cb_fsarray[*b][1])]; *o1++ = pixel[(l_darrays[11][*l++] | cr_fsarray[*r][0] | cb_fsarray[*b][0])]; *o2++ = pixel[(l_darrays[15][*l2++] | cr_fsarray[*r][3] | cb_fsarray[*b][3])]; *o2++ = pixel[(l_darrays[7][*l2++] | cr_fsarray[*r++][2] | cb_fsarray[*b++][2])]; *o1++ = pixel[(l_darrays[1][*l++] | cr_fsarray[*r][1] | cb_fsarray[*b][1])]; *o1++ = pixel[(l_darrays[9][*l++] | cr_fsarray[*r][0] | cb_fsarray[*b][0])]; *o2++ = pixel[(l_darrays[13][*l2++] | cr_fsarray[*r][3] | cb_fsarray[*b][3])]; *o2++ = pixel[(l_darrays[5][*l2++] | cr_fsarray[*r++][2] | cb_fsarray[*b++][2])]; } l += w; l2 += w; o1 += w; o2 += w; } }