int main(int argc,
char **argv)
{
char *filein, *fileout;
l_int32 x, y, n, i;
PIX *pixs;
PTA *pta;
PTAA *ptaa, *ptaa2, *ptaa3;
static char mainName[] = "cornertest";
if (argc != 3)
return ERROR_INT(" Syntax: cornertest filein fileout", mainName, 1);
filein = argv[1];
fileout = argv[2];
if ((pixs = pixRead(filein)) == NULL)
return ERROR_INT("pixs not made", mainName, 1);
/* Clean noise in LR corner of witten.tif */
pixSetPixel(pixs, 2252, 3051, 0);
pixSetPixel(pixs, 2252, 3050, 0);
pixSetPixel(pixs, 2251, 3050, 0);
pta = pixFindCornerPixels(pixs);
ptaWriteStream(stderr, pta, 1);
/* Test pta and ptaa I/O */
#if 1
ptaa = ptaaCreate(3);
ptaaAddPta(ptaa, pta, L_COPY);
ptaaAddPta(ptaa, pta, L_COPY);
ptaaAddPta(ptaa, pta, L_COPY);
ptaaWriteStream(stderr, ptaa, 1);
ptaaWrite("/tmp/junkptaa", ptaa, 1);
ptaa2 = ptaaRead("/tmp/junkptaa");
ptaaWrite("/tmp/junkptaa2", ptaa2, 1);
ptaaWrite("/tmp/junkptaa3", ptaa, 0);
ptaa3 = ptaaRead("/tmp/junkptaa3");
ptaaWrite("/tmp/junkptaa4", ptaa3, 0);
ptaaDestroy(&ptaa);
ptaaDestroy(&ptaa2);
ptaaDestroy(&ptaa3);
#endif
/* mark corner pixels */
n = ptaGetCount(pta);
for (i = 0; i < n; i++) {
ptaGetIPt(pta, i, &x, &y);
pixRenderLine(pixs, x - LINE_SIZE, y, x + LINE_SIZE, y, 5,
L_FLIP_PIXELS);
pixRenderLine(pixs, x, y - LINE_SIZE, x, y + LINE_SIZE, 5,
L_FLIP_PIXELS);
}
pixWrite(fileout, pixs, IFF_PNG);
pixDestroy(&pixs);
ptaDestroy(&pta);
ptaDestroy(&pta);
return 0;
}
main(int argc,
char **argv)
{
l_int32 i, j, x, y, rval, gval, bval;
l_uint32 pixel;
l_float32 frval, fgval, fbval;
NUMA *nahue, *nasat, *napk;
PIX *pixs, *pixhsv, *pixh, *pixg, *pixf, *pixd;
PIX *pixr, *pixt1, *pixt2, *pixt3;
PIXA *pixa, *pixapk;
PTA *ptapk;
L_REGPARAMS *rp;
l_chooseDisplayProg(L_DISPLAY_WITH_XV);
if (regTestSetup(argc, argv, &rp))
return 1;
/* Make a graded frame color */
pixs = pixCreate(650, 900, 32);
for (i = 0; i < 900; i++) {
rval = 40 + i / 30;
for (j = 0; j < 650; j++) {
gval = 255 - j / 30;
bval = 70 + j / 30;
composeRGBPixel(rval, gval, bval, &pixel);
pixSetPixel(pixs, j, i, pixel);
}
}
/* Place an image inside the frame and convert to HSV */
pixt1 = pixRead("1555-3.jpg");
pixt2 = pixScale(pixt1, 0.5, 0.5);
pixRasterop(pixs, 100, 100, 2000, 2000, PIX_SRC, pixt2, 0, 0);
pixDestroy(&pixt1);
pixDestroy(&pixt2);
pixDisplayWithTitle(pixs, 400, 0, "Input image", rp->display);
pixa = pixaCreate(0);
pixhsv = pixConvertRGBToHSV(NULL, pixs);
/* Work in the HS projection of HSV */
pixh = pixMakeHistoHS(pixhsv, 5, &nahue, &nasat);
pixg = pixMaxDynamicRange(pixh, L_LOG_SCALE);
pixf = pixConvertGrayToFalseColor(pixg, 1.0);
regTestWritePixAndCheck(rp, pixf, IFF_PNG); /* 0 */
pixDisplayWithTitle(pixf, 100, 0, "False color HS histo", rp->display);
pixaAddPix(pixa, pixs, L_COPY);
pixaAddPix(pixa, pixhsv, L_INSERT);
pixaAddPix(pixa, pixg, L_INSERT);
pixaAddPix(pixa, pixf, L_INSERT);
gplotSimple1(nahue, GPLOT_PNG, "/tmp/junkhue", "Histogram of hue values");
#ifndef _WIN32
sleep(1);
#else
Sleep(1000);
#endif /* _WIN32 */
pixt3 = pixRead("/tmp/junkhue.png");
regTestWritePixAndCheck(rp, pixt3, IFF_PNG); /* 1 */
pixDisplayWithTitle(pixt3, 100, 300, "Histo of hue", rp->display);
pixaAddPix(pixa, pixt3, L_INSERT);
gplotSimple1(nasat, GPLOT_PNG, "/tmp/junksat",
"Histogram of saturation values");
#ifndef _WIN32
sleep(1);
#else
Sleep(1000);
#endif /* _WIN32 */
pixt3 = pixRead("/tmp/junksat.png");
regTestWritePixAndCheck(rp, pixt3, IFF_PNG); /* 2 */
pixDisplayWithTitle(pixt3, 100, 800, "Histo of saturation", rp->display);
pixaAddPix(pixa, pixt3, L_INSERT);
pixd = pixaDisplayTiledAndScaled(pixa, 32, 270, 7, 0, 30, 3);
regTestWritePixAndCheck(rp, pixd, IFF_PNG); /* 3 */
pixDisplayWithTitle(pixd, 0, 400, "Hue and Saturation Mosaic", rp->display);
pixDestroy(&pixd);
pixaDestroy(&pixa);
numaDestroy(&nahue);
numaDestroy(&nasat);
/* Find all the peaks */
pixFindHistoPeaksHSV(pixh, L_HS_HISTO, 20, 20, 6, 2.0,
&ptapk, &napk, &pixapk);
numaWriteStream(stderr, napk);
ptaWriteStream(stderr, ptapk, 1);
pixd = pixaDisplayTiledInRows(pixapk, 32, 1400, 1.0, 0, 30, 2);
regTestWritePixAndCheck(rp, pixd, IFF_PNG); /* 4 */
pixDisplayWithTitle(pixd, 0, 550, "Peaks in HS", rp->display);
pixDestroy(&pixh);
pixDestroy(&pixd);
pixaDestroy(&pixapk);
/* Make masks for each of the peaks */
pixa = pixaCreate(0);
pixr = pixScaleBySampling(pixs, 0.4, 0.4);
for (i = 0; i < 6; i++) {
ptaGetIPt(ptapk, i, &x, &y);
pixt1 = pixMakeRangeMaskHS(pixr, y, 20, x, 20, L_INCLUDE_REGION);
pixaAddPix(pixa, pixt1, L_INSERT);
pixGetAverageMaskedRGB(pixr, pixt1, 0, 0, 1, L_MEAN_ABSVAL,
&frval, &fgval, &fbval);
composeRGBPixel((l_int32)frval, (l_int32)fgval, (l_int32)fbval,
&pixel);
pixt2 = pixCreateTemplate(pixr);
pixSetAll(pixt2);
pixPaintThroughMask(pixt2, pixt1, 0, 0, pixel);
pixaAddPix(pixa, pixt2, L_INSERT);
pixt3 = pixCreateTemplate(pixr);
pixSetAllArbitrary(pixt3, pixel);
pixaAddPix(pixa, pixt3, L_INSERT);
}
pixd = pixaDisplayTiledAndScaled(pixa, 32, 225, 3, 0, 30, 3);
regTestWritePixAndCheck(rp, pixd, IFF_PNG); /* 5 */
pixDisplayWithTitle(pixd, 600, 0, "Masks over peaks", rp->display);
pixDestroy(&pixs);
pixDestroy(&pixr);
pixDestroy(&pixd);
pixaDestroy(&pixa);
ptaDestroy(&ptapk);
numaDestroy(&napk);
regTestCleanup(rp);
return 0;
}