215 lines
5.0 KiB
C
215 lines
5.0 KiB
C
#include "mupdf/fitz.h"
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#include <string.h>
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/*
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FIXME: Currently transitions only work with alpha. Our app only
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uses alpha.
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*/
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static int
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fade(fz_pixmap *tpix, const fz_pixmap *opix, const fz_pixmap *npix, int time)
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{
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unsigned char *t, *o, *n;
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int size;
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int h;
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int tstride, ostride, nstride;
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if (!tpix || !opix || !npix || tpix->w != opix->w || opix->w != npix->w || tpix->h != opix->h || opix->h != npix->h || tpix->n != opix->n || opix->n != npix->n)
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return 0;
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h = tpix->h;
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size = tpix->w * tpix->n;
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ostride = opix->stride - size;
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nstride = npix->stride - size;
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tstride = tpix->stride - size;
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t = tpix->samples;
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o = opix->samples;
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n = npix->samples;
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while (h--)
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{
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int ww = size;
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while (ww-- > 0)
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{
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int op = *o++;
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int np = *n++;
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*t++ = ((op<<8) + ((np-op) * time) + 0x80)>>8;
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}
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o += ostride;
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n += nstride;
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t += tstride;
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}
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return 1;
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}
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static int
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blind_horiz(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time)
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{
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unsigned char *t, *o, *n;
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int blind_height, size, position, y;
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int tstride, ostride, nstride;
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if (!tpix || !opix || !npix || tpix->w != opix->w || opix->w != npix->w || tpix->h != opix->h || opix->h != npix->h || tpix->n != opix->n || opix->n != npix->n)
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return 0;
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size = tpix->w * tpix->n;
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blind_height = (tpix->h+7) / 8;
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position = blind_height * time / 256;
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ostride = opix->stride;
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nstride = npix->stride;
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tstride = tpix->stride;
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t = tpix->samples;
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o = opix->samples;
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n = npix->samples;
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for (y = 0; y < tpix->h; y++)
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{
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memcpy(t, ((y % blind_height) <= position ? n : o), size);
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t += tstride;
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o += ostride;
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n += nstride;
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}
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return 1;
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}
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static int
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blind_vertical(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time)
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{
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unsigned char *t, *o, *n;
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int blind_width, size, position, y;
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int tstride, ostride, nstride;
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if (!tpix || !opix || !npix || tpix->w != opix->w || opix->w != npix->w || tpix->h != opix->h || opix->h != npix->h || tpix->n != opix->n || opix->n != npix->n)
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return 0;
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size = tpix->w * tpix->n;
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blind_width = (tpix->w+7) / 8;
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position = blind_width * time / 256;
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blind_width *= tpix->n;
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position *= tpix->n;
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ostride = opix->stride - size;
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nstride = npix->stride - size;
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tstride = tpix->stride - size;
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t = tpix->samples;
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o = opix->samples;
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n = npix->samples;
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for (y = 0; y < tpix->h; y++)
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{
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int w, x;
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x = 0;
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while ((w = size - x) > 0)
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{
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int p;
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if (w > blind_width)
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w = blind_width;
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p = position;
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if (p > w)
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p = w;
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memcpy(t, n, p);
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memcpy(t+position, o+position, w - p);
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x += blind_width;
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t += w;
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o += w;
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n += w;
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}
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o += ostride;
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n += nstride;
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t += tstride;
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}
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return 1;
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}
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static int
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wipe_tb(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time)
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{
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unsigned char *t, *o, *n;
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int size, position, y;
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int tstride, ostride, nstride;
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if (!tpix || !opix || !npix || tpix->w != opix->w || opix->w != npix->w || tpix->h != opix->h || opix->h != npix->h || tpix->n != opix->n || opix->n != npix->n)
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return 0;
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size = tpix->w * tpix->n;
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position = tpix->h * time / 256;
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ostride = opix->stride;
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nstride = npix->stride;
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tstride = tpix->stride;
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t = tpix->samples;
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o = opix->samples;
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n = npix->samples;
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for (y = 0; y < position; y++)
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{
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memcpy(t, n, size);
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t += tstride;
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o += ostride;
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n += nstride;
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}
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for (; y < tpix->h; y++)
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{
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memcpy(t, o, size);
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t += tstride;
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o += ostride;
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n += nstride;
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}
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return 1;
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}
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static int
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wipe_lr(fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time)
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{
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unsigned char *t, *o, *n;
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int size, position, y;
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int tstride, ostride, nstride;
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if (!tpix || !opix || !npix || tpix->w != opix->w || opix->w != npix->w || tpix->h != opix->h || opix->h != npix->h || tpix->n != opix->n || opix->n != npix->n)
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return 0;
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size = tpix->w * tpix->n;
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position = tpix->w * time / 256;
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position *= tpix->n;
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ostride = opix->stride;
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nstride = npix->stride;
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tstride = tpix->stride;
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t = tpix->samples;
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o = opix->samples + position;
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n = npix->samples;
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for (y = 0; y < tpix->h; y++)
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{
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memcpy(t, n, position);
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memcpy(t+position, o, size-position);
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t += tstride;
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o += ostride;
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n += nstride;
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}
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return 1;
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}
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/*
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Generate a frame of a transition.
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tpix: Target pixmap
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opix: Old pixmap
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npix: New pixmap
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time: Position within the transition (0 to 256)
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trans: Transition details
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Returns 1 if successfully generated a frame.
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*/
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int fz_generate_transition(fz_context *ctx, fz_pixmap *tpix, fz_pixmap *opix, fz_pixmap *npix, int time, fz_transition *trans)
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{
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switch (trans->type)
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{
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default:
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case FZ_TRANSITION_FADE:
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return fade(tpix, opix, npix, time);
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case FZ_TRANSITION_BLINDS:
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if (trans->vertical)
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return blind_vertical(tpix, opix, npix, time);
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else
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return blind_horiz(tpix, opix, npix, time);
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case FZ_TRANSITION_WIPE:
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switch (((trans->direction + 45 + 360) % 360) / 90)
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{
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default:
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case 0: return wipe_lr(tpix, opix, npix, time);
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case 1: return wipe_tb(tpix, npix, opix, 256-time);
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case 2: return wipe_lr(tpix, npix, opix, 256-time);
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case 3: return wipe_tb(tpix, opix, npix, time);
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}
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}
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}
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