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/*====================================================================*
- Copyright (C) 2001 Leptonica. All rights reserved.
- This software is distributed in the hope that it will be
- useful, but with NO WARRANTY OF ANY KIND.
- No author or distributor accepts responsibility to anyone for the
- consequences of using this software, or for whether it serves any
- particular purpose or works at all, unless he or she says so in
- writing. Everyone is granted permission to copy, modify and
- redistribute this source code, for commercial or non-commercial
- purposes, with the following restrictions: (1) the origin of this
- source code must not be misrepresented; (2) modified versions must
- be plainly marked as such; and (3) this notice may not be removed
- or altered from any source or modified source distribution.
*====================================================================*/
/*
* rotatetest1.c
*
* rotatetest1 filein angle(in degrees) fileout
*/
#include <stdio.h>
#include <stdlib.h>
#include "allheaders.h"
#define NTIMES 180
#define NITERS 3
main(int argc,
char **argv)
{
l_int32 i, w, h, d;
PIX *pixs, *pixd;
l_float32 angle, deg2rad, pops, ang;
char *filein, *fileout;
static char mainName[] = "rotatetest1";
if (argc != 4)
exit(ERROR_INT(" Syntax: rotatetest1 filein angle fileout", mainName, 1));
filein = argv[1];
angle = atof(argv[2]);
fileout = argv[3];
deg2rad = 3.1415926535 / 180.;
if ((pixs = pixRead(filein)) == NULL)
exit(ERROR_INT("pix not made", mainName, 1));
w = pixGetWidth(pixs);
h = pixGetHeight(pixs);
#if 0
/* repertory of rotation operations to choose from */
pixd = pixRotateAM(pixs, deg2rad * angle, L_BRING_IN_WHITE);
pixd = pixRotateAMColor(pixs, deg2rad * angle, 0xffffff00);
pixd = pixRotateAMColorFast(pixs, deg2rad * angle, 255);
pixd = pixRotateAMCorner(pixs, deg2rad * angle, L_BRING_IN_WHITE);
pixd = pixRotateShear(pixs, w /2, h / 2, deg2rad * angle,
L_BRING_IN_WHITE);
pixd = pixRotate3Shear(pixs, w /2, h / 2, deg2rad * angle,
L_BRING_IN_WHITE);
pixRotateShearIP(pixs, w / 2, h / 2, deg2rad * angle); pixd = pixs;
#endif
#if 0
/* timing of shear rotation */
for (i = 0; i < NITERS; i++) {
pixd = pixRotateShear(pixs, (i * w) / NITERS,
(i * h) / NITERS, deg2rad * angle,
L_BRING_IN_WHITE);
pixDisplay(pixd, 100 + 20 * i, 100 + 20 * i);
pixDestroy(&pixd);
}
#endif
#if 0
/* timing of in-place shear rotation */
for (i = 0; i < NITERS; i++) {
pixRotateShearIP(pixs, w/2, h/2, deg2rad * angle, L_BRING_IN_WHITE);
/* pixRotateShearCenterIP(pixs, deg2rad * angle, L_BRING_IN_WHITE); */
pixDisplay(pixs, 100 + 20 * i, 100 + 20 * i);
}
pixd = pixs;
if (pixGetDepth(pixd) == 1)
pixWrite(fileout, pixd, IFF_PNG);
else
pixWrite(fileout, pixd, IFF_JFIF_JPEG);
pixDestroy(&pixs);
#endif
#if 0
/* timing of various rotation operations (choose) */
startTimer();
w = pixGetWidth(pixs);
h = pixGetHeight(pixs);
for (i = 0; i < NTIMES; i++) {
pixd = pixRotateShearCenter(pixs, deg2rad * angle, L_BRING_IN_WHITE);
pixDestroy(&pixd);
}
pops = (l_float32)(w * h * NTIMES / 1000000.) / stopTimer();
fprintf(stderr, "vers. 1, mpops: %f\n", pops);
startTimer();
w = pixGetWidth(pixs);
h = pixGetHeight(pixs);
for (i = 0; i < NTIMES; i++) {
pixRotateShearIP(pixs, w/2, h/2, deg2rad * angle, L_BRING_IN_WHITE);
}
pops = (l_float32)(w * h * NTIMES / 1000000.) / stopTimer();
fprintf(stderr, "shear, mpops: %f\n", pops);
pixWrite(fileout, pixs, IFF_PNG);
for (i = 0; i < NTIMES; i++) {
pixRotateShearIP(pixs, w/2, h/2, -deg2rad * angle, L_BRING_IN_WHITE);
}
pixWrite("/usr/tmp/junkout", pixs, IFF_PNG);
#endif
#if 0
/* area-mapping rotation operations */
pixd = pixRotateAM(pixs, deg2rad * angle, L_BRING_IN_WHITE);
/* pixd = pixRotateAMColorFast(pixs, deg2rad * angle, 255); */
if (pixGetDepth(pixd) == 1)
pixWrite(fileout, pixd, IFF_PNG);
else
pixWrite(fileout, pixd, IFF_JFIF_JPEG);
#endif
#if 1
/* compare the standard area-map color rotation with
* the fast area-map color rotation, on a pixel basis */
{
PIX *pix1, *pix2;
NUMA *nar, *nag, *nab, *naseq;
GPLOT *gplot;
startTimer();
pix1 = pixRotateAMColor(pixs, 0.12, 0xffffff00);
fprintf(stderr, " standard color rotate: %7.2f sec\n", stopTimer());
pixWrite("junkcolor1", pix1, IFF_JFIF_JPEG);
startTimer();
pix2 = pixRotateAMColorFast(pixs, 0.12, 255);
fprintf(stderr, " fast color rotate: %7.2f sec\n", stopTimer());
pixWrite("junkcolor2", pix2, IFF_JFIF_JPEG);
pixd = pixAbsDifference(pix1, pix2);
pixGetColorHistogram(pixd, 1, &nar, &nag, &nab);
naseq = numaMakeSequence(0., 1., 256);
gplot = gplotCreate("junk_absdiff", GPLOT_X11, "Number vs diff",
"diff", "number");
gplotAddPlot(gplot, naseq, nar, GPLOT_POINTS, "red");
gplotAddPlot(gplot, naseq, nag, GPLOT_POINTS, "green");
gplotAddPlot(gplot, naseq, nab, GPLOT_POINTS, "blue");
gplotMakeOutput(gplot);
pixDestroy(&pix1);
pixDestroy(&pix2);
pixDestroy(&pixd);
numaDestroy(&nar);
numaDestroy(&nag);
numaDestroy(&nab);
numaDestroy(&naseq);
gplotDestroy(&gplot);
}
#endif
/* Do a succession of 180 7-degree rotations in a cw
* direction, and unwind the result with another set in
* a ccw direction. Although there is a considerable amount
* of distortion after successive rotations, after all
* 360 rotations, the resulting image is restored to
* its original pristine condition! */
#if 0
ang = 7.0 * deg2rad;
w = pixGetWidth(pixs);
h = pixGetHeight(pixs);
pixd = pixRotate(pixs, ang, L_ROTATE_SHEAR, L_BRING_IN_WHITE, w, h);
pixWrite("junkrot7", pixd, IFF_PNG);
for (i = 1; i < 180; i++) {
pixs = pixd;
pixd = pixRotate(pixs, ang, L_ROTATE_SHEAR, L_BRING_IN_WHITE, w, h);
if ((i % 30) == 0) pixDisplay(pixd, 600, 0);
pixDestroy(&pixs);
}
pixWrite("junkspin", pixd, IFF_PNG);
pixDisplay(pixd, 0, 0);
for (i = 0; i < 180; i++) {
pixs = pixd;
pixd = pixRotate(pixs, -ang, L_ROTATE_SHEAR, L_BRING_IN_WHITE, w, h);
if (i && (i % 30) == 0) pixDisplay(pixd, 600, 500);
pixDestroy(&pixs);
}
pixWrite("junkunspin", pixd, IFF_PNG);
pixDisplay(pixd, 0, 500);
pixDestroy(&pixd);
#endif
exit(0);
}
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