int main(int argc, char **argv) { l_int32 i, j, sizex, sizey, bias; FPIX *fpixv, *fpixrv; L_KERNEL *kel1, *kel2, *kel3x, *kel3y; PIX *pixs, *pixacc, *pixg, *pixt, *pixd; PIX *pixb, *pixm, *pixms, *pixrv, *pix1, *pix2, *pix3, *pix4; L_REGPARAMS *rp; if (regTestSetup(argc, argv, &rp)) return 1; /* Test pixBlockconvGray() on 8 bpp */ pixs = pixRead("test8.jpg"); pixacc = pixBlockconvAccum(pixs); pixd = pixBlockconvGray(pixs, pixacc, 3, 5); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 0 */ pixDisplayWithTitle(pixd, 100, 0, NULL, rp->display); pixDestroy(&pixacc); pixDestroy(&pixd); /* Test pixBlockconv() on 8 bpp */ pixd = pixBlockconv(pixs, 9, 8); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 1 */ pixDisplayWithTitle(pixd, 200, 0, NULL, rp->display); pixDestroy(&pixd); pixDestroy(&pixs); /* Test pixBlockrank() on 1 bpp */ pixs = pixRead("test1.png"); pixacc = pixBlockconvAccum(pixs); for (i = 0; i < 3; i++) { pixd = pixBlockrank(pixs, pixacc, 4, 4, 0.25 + 0.25 * i); regTestWritePixAndCheck(rp, pixd, IFF_PNG); /* 2 - 4 */ pixDisplayWithTitle(pixd, 300 + 100 * i, 0, NULL, rp->display); pixDestroy(&pixd); } /* Test pixBlocksum() on 1 bpp */ pixd = pixBlocksum(pixs, pixacc, 16, 16); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 5 */ pixDisplayWithTitle(pixd, 700, 0, NULL, rp->display); pixDestroy(&pixd); pixDestroy(&pixacc); pixDestroy(&pixs); /* Test pixCensusTransform() */ pixs = pixRead("test24.jpg"); pixg = pixScaleRGBToGrayFast(pixs, 2, COLOR_GREEN); pixd = pixCensusTransform(pixg, 10, NULL); regTestWritePixAndCheck(rp, pixd, IFF_PNG); /* 6 */ pixDisplayWithTitle(pixd, 800, 0, NULL, rp->display); pixDestroy(&pixd); /* Test generic convolution with kel1 */ kel1 = kernelCreateFromString(5, 5, 2, 2, kel1str); pixd = pixConvolve(pixg, kel1, 8, 1); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 7 */ pixDisplayWithTitle(pixd, 100, 500, NULL, rp->display); pixDestroy(&pixd); /* Test convolution with flat rectangular kel */ kel2 = kernelCreate(11, 11); kernelSetOrigin(kel2, 5, 5); for (i = 0; i < 11; i++) { for (j = 0; j < 11; j++) kernelSetElement(kel2, i, j, 1); } pixd = pixConvolve(pixg, kel2, 8, 1); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 8 */ pixDisplayWithTitle(pixd, 200, 500, NULL, rp->display); pixDestroy(&pixd); kernelDestroy(&kel1); kernelDestroy(&kel2); /* Test pixBlockconv() on 32 bpp */ pixt = pixScaleBySampling(pixs, 0.5, 0.5); pixd = pixBlockconv(pixt, 4, 6); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 9 */ pixDisplayWithTitle(pixd, 300, 500, NULL, rp->display); pixDestroy(&pixt); pixDestroy(&pixs); pixDestroy(&pixg); pixDestroy(&pixd); /* Test bias convolution non-separable with kel2 */ pixs = pixRead("marge.jpg"); pixg = pixScaleRGBToGrayFast(pixs, 2, COLOR_GREEN); kel2 = kernelCreateFromString(5, 5, 2, 2, kel2str); pixd = pixConvolveWithBias(pixg, kel2, NULL, TRUE, &bias); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 10 */ pixDisplayWithTitle(pixd, 400, 500, NULL, rp->display); fprintf(stderr, "bias = %d\n", bias); kernelDestroy(&kel2); pixDestroy(&pixd); /* Test bias convolution separable with kel3x and kel3y */ kel3x = kernelCreateFromString(1, 5, 0, 2, kel3xstr); kel3y = kernelCreateFromString(7, 1, 3, 0, kel3ystr); pixd = pixConvolveWithBias(pixg, kel3x, kel3y, TRUE, &bias); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 11 */ pixDisplayWithTitle(pixd, 500, 500, NULL, rp->display); fprintf(stderr, "bias = %d\n", bias); kernelDestroy(&kel3x); kernelDestroy(&kel3y); pixDestroy(&pixd); pixDestroy(&pixs); pixDestroy(&pixg); /* Test pixWindowedMean() and pixWindowedMeanSquare() on 8 bpp */ pixs = pixRead("feyn-fract2.tif"); pixg = pixConvertTo8(pixs, 0); sizex = 5; sizey = 20; pixb = pixAddBorderGeneral(pixg, sizex + 1, sizex + 1, sizey + 1, sizey + 1, 0); pixm = pixWindowedMean(pixb, sizex, sizey, 1, 1); pixms = pixWindowedMeanSquare(pixb, sizex, sizey, 1); regTestWritePixAndCheck(rp, pixm, IFF_JFIF_JPEG); /* 12 */ pixDisplayWithTitle(pixm, 100, 0, NULL, rp->display); pixDestroy(&pixs); pixDestroy(&pixb); /* Test pixWindowedVariance() on 8 bpp */ pixWindowedVariance(pixm, pixms, &fpixv, &fpixrv); pixrv = fpixConvertToPix(fpixrv, 8, L_CLIP_TO_ZERO, 1); regTestWritePixAndCheck(rp, pixrv, IFF_JFIF_JPEG); /* 13 */ pixDisplayWithTitle(pixrv, 100, 250, NULL, rp->display); pix1 = fpixDisplayMaxDynamicRange(fpixv); pix2 = fpixDisplayMaxDynamicRange(fpixrv); pixDisplayWithTitle(pix1, 100, 500, "Variance", rp->display); pixDisplayWithTitle(pix2, 100, 750, "RMS deviation", rp->display); regTestWritePixAndCheck(rp, pix1, IFF_JFIF_JPEG); /* 14 */ regTestWritePixAndCheck(rp, pix2, IFF_JFIF_JPEG); /* 15 */ fpixDestroy(&fpixv); fpixDestroy(&fpixrv); pixDestroy(&pixm); pixDestroy(&pixms); pixDestroy(&pixrv); /* Test again all windowed functions with simpler interface */ pixWindowedStats(pixg, sizex, sizey, 0, NULL, NULL, &fpixv, &fpixrv); pix3 = fpixDisplayMaxDynamicRange(fpixv); pix4 = fpixDisplayMaxDynamicRange(fpixrv); regTestComparePix(rp, pix1, pix3); /* 16 */ regTestComparePix(rp, pix2, pix4); /* 17 */ pixDestroy(&pixg); pixDestroy(&pix1); pixDestroy(&pix2); pixDestroy(&pix3); pixDestroy(&pix4); fpixDestroy(&fpixv); fpixDestroy(&fpixrv); return regTestCleanup(rp); }
main(int argc, char **argv) { l_float32 sum, sumx, sumy, diff; L_DEWARP *dew; L_DEWARPA *dewa; FPIX *fpixs, *fpixs2, *fpixs3, *fpixs4, *fpixg, *fpixd; FPIX *fpix1, *fpix2, *fpixt1, *fpixt2; DPIX *dpix, *dpix2; L_KERNEL *kel, *kelx, *kely; PIX *pixs, *pixs2, *pixs3, *pixt, *pixd, *pixg, *pixb, *pixn; PIX *pixt1, *pixt2, *pixt3, *pixt4, *pixt5, *pixt6; PIXA *pixa; PTA *ptas, *ptad; L_REGPARAMS *rp; if (regTestSetup(argc, argv, &rp)) return 1; pixa = pixaCreate(0); /* Gaussian kernel */ kel = makeGaussianKernel(5, 5, 3.0, 4.0); kernelGetSum(kel, &sum); if (rp->display) fprintf(stderr, "Sum for 2d gaussian kernel = %f\n", sum); pixt = kernelDisplayInPix(kel, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 0 */ pixSaveTiled(pixt, pixa, 1, 1, 20, 8); pixDestroy(&pixt); /* Separable gaussian kernel */ makeGaussianKernelSep(5, 5, 3.0, 4.0, &kelx, &kely); kernelGetSum(kelx, &sumx); if (rp->display) fprintf(stderr, "Sum for x gaussian kernel = %f\n", sumx); kernelGetSum(kely, &sumy); if (rp->display) fprintf(stderr, "Sum for y gaussian kernel = %f\n", sumy); if (rp->display) fprintf(stderr, "Sum for x * y gaussian kernel = %f\n", sumx * sumy); pixt = kernelDisplayInPix(kelx, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 1 */ pixSaveTiled(pixt, pixa, 1, 0, 20, 8); pixDestroy(&pixt); pixt = kernelDisplayInPix(kely, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 2 */ pixSaveTiled(pixt, pixa, 1, 0, 20, 8); pixDestroy(&pixt); /* Use pixRasterop() to generate source image */ pixs = pixRead("test8.jpg"); pixs2 = pixRead("karen8.jpg"); pixRasterop(pixs, 150, 125, 150, 100, PIX_SRC, pixs2, 75, 100); regTestWritePixAndCheck(rp, pixs, IFF_JFIF_JPEG); /* 3 */ /* Convolution directly with pix */ pixt1 = pixConvolve(pixs, kel, 8, 1); regTestWritePixAndCheck(rp, pixt1, IFF_JFIF_JPEG); /* 4 */ pixSaveTiled(pixt1, pixa, 1, 1, 20, 8); pixt2 = pixConvolveSep(pixs, kelx, kely, 8, 1); regTestWritePixAndCheck(rp, pixt2, IFF_JFIF_JPEG); /* 5 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 8); /* Convolution indirectly with fpix, using fpixRasterop() * to generate the source image. */ fpixs = pixConvertToFPix(pixs, 3); fpixs2 = pixConvertToFPix(pixs2, 3); fpixRasterop(fpixs, 150, 125, 150, 100, fpixs2, 75, 100); fpixt1 = fpixConvolve(fpixs, kel, 1); pixt3 = fpixConvertToPix(fpixt1, 8, L_CLIP_TO_ZERO, 1); regTestWritePixAndCheck(rp, pixt3, IFF_JFIF_JPEG); /* 6 */ pixSaveTiled(pixt3, pixa, 1, 1, 20, 8); fpixt2 = fpixConvolveSep(fpixs, kelx, kely, 1); pixt4 = fpixConvertToPix(fpixt2, 8, L_CLIP_TO_ZERO, 1); regTestWritePixAndCheck(rp, pixt4, IFF_JFIF_JPEG); /* 7 */ pixSaveTiled(pixt4, pixa, 1, 0, 20, 8); pixDestroy(&pixs2); fpixDestroy(&fpixs2); fpixDestroy(&fpixt1); fpixDestroy(&fpixt2); /* Comparison of results */ pixCompareGray(pixt1, pixt2, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolve and pixConvolveSep: %f\n", diff); pixCompareGray(pixt3, pixt4, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of fpixConvolve and fpixConvolveSep: %f\n", diff); pixCompareGray(pixt1, pixt3, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolve and fpixConvolve: %f\n", diff); pixCompareGray(pixt2, pixt4, L_COMPARE_ABS_DIFF, GPLOT_PNG, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolveSep and fpixConvolveSep: %f\n", diff); pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); /* Test arithmetic operations; add in a fraction rotated by 180 */ pixs3 = pixRotate180(NULL, pixs); regTestWritePixAndCheck(rp, pixs3, IFF_JFIF_JPEG); /* 8 */ pixSaveTiled(pixs3, pixa, 1, 1, 20, 8); fpixs3 = pixConvertToFPix(pixs3, 3); fpixd = fpixLinearCombination(NULL, fpixs, fpixs3, 20.0, 5.0); fpixAddMultConstant(fpixd, 0.0, 23.174); /* multiply up in magnitude */ pixd = fpixDisplayMaxDynamicRange(fpixd); /* bring back to 8 bpp */ regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 9 */ pixSaveTiled(pixd, pixa, 1, 0, 20, 8); pixDestroy(&pixs3); fpixDestroy(&fpixs3); fpixDestroy(&fpixd); pixDestroy(&pixd); pixDestroy(&pixs); fpixDestroy(&fpixs); /* Save the comparison graph; gnuplot should have made it by now! */ #ifndef _WIN32 sleep(2); #else Sleep(2000); #endif /* _WIN32 */ pixt5 = pixRead("/tmp/grayroot.png"); regTestWritePixAndCheck(rp, pixt5, IFF_PNG); /* 10 */ pixSaveTiled(pixt5, pixa, 1, 1, 20, 8); pixDestroy(&pixt5); /* Display results */ pixd = pixaDisplay(pixa, 0, 0); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 11 */ pixDisplayWithTitle(pixd, 100, 100, NULL, rp->display); pixDestroy(&pixd); pixaDestroy(&pixa); /* Test some more convolutions, with sampled output. First on pix */ pixa = pixaCreate(0); pixs = pixRead("1555-7.jpg"); pixg = pixConvertTo8(pixs, 0); l_setConvolveSampling(5, 5); pixt1 = pixConvolve(pixg, kel, 8, 1); regTestWritePixAndCheck(rp, pixt1, IFF_JFIF_JPEG); /* 12 */ pixSaveTiled(pixt1, pixa, 1, 1, 20, 32); pixt2 = pixConvolveSep(pixg, kelx, kely, 8, 1); regTestWritePixAndCheck(rp, pixt2, IFF_JFIF_JPEG); /* 13 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 32); pixt3 = pixConvolveRGB(pixs, kel); regTestWritePixAndCheck(rp, pixt3, IFF_JFIF_JPEG); /* 14 */ pixSaveTiled(pixt3, pixa, 1, 0, 20, 32); pixt4 = pixConvolveRGBSep(pixs, kelx, kely); regTestWritePixAndCheck(rp, pixt4, IFF_JFIF_JPEG); /* 15 */ pixSaveTiled(pixt4, pixa, 1, 0, 20, 32); /* Then on fpix */ fpixg = pixConvertToFPix(pixg, 1); fpixt1 = fpixConvolve(fpixg, kel, 1); pixt5 = fpixConvertToPix(fpixt1, 8, L_CLIP_TO_ZERO, 0); regTestWritePixAndCheck(rp, pixt5, IFF_JFIF_JPEG); /* 16 */ pixSaveTiled(pixt5, pixa, 1, 1, 20, 32); fpixt2 = fpixConvolveSep(fpixg, kelx, kely, 1); pixt6 = fpixConvertToPix(fpixt2, 8, L_CLIP_TO_ZERO, 0); regTestWritePixAndCheck(rp, pixt6, IFF_JFIF_JPEG); /* 17 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 32); regTestCompareSimilarPix(rp, pixt1, pixt5, 2, 0.00, 0); /* 18 */ regTestCompareSimilarPix(rp, pixt2, pixt6, 2, 0.00, 0); /* 19 */ pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); pixDestroy(&pixt5); pixDestroy(&pixt6); fpixDestroy(&fpixg); fpixDestroy(&fpixt1); fpixDestroy(&fpixt2); pixd = pixaDisplay(pixa, 0, 0); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 20 */ pixDisplayWithTitle(pixd, 600, 100, NULL, rp->display); pixDestroy(&pixs); pixDestroy(&pixg); pixDestroy(&pixd); pixaDestroy(&pixa); /* Test extension (continued and slope). * First, build a smooth vertical disparity array; * then extend and show the contours. */ pixs = pixRead("cat-35.jpg"); pixn = pixBackgroundNormSimple(pixs, NULL, NULL); pixg = pixConvertRGBToGray(pixn, 0.5, 0.3, 0.2); pixb = pixThresholdToBinary(pixg, 130); dewa = dewarpaCreate(1, 30, 1, 15, 0); dew = dewarpCreate(pixb, 35); dewarpaInsertDewarp(dewa, dew); dewarpBuildModel(dew, NULL); dewarpPopulateFullRes(dew, NULL); fpixs = dew->fullvdispar; fpixs2 = fpixAddContinuedBorder(fpixs, 200, 200, 100, 300); fpixs3 = fpixAddSlopeBorder(fpixs, 200, 200, 100, 300); dpix = fpixConvertToDPix(fpixs3); fpixs4 = dpixConvertToFPix(dpix); pixt1 = fpixRenderContours(fpixs, 2.0, 0.2); pixt2 = fpixRenderContours(fpixs2, 2.0, 0.2); pixt3 = fpixRenderContours(fpixs3, 2.0, 0.2); pixt4 = fpixRenderContours(fpixs4, 2.0, 0.2); pixt5 = pixRead("karen8.jpg"); dpix2 = pixConvertToDPix(pixt5, 1); pixt6 = dpixConvertToPix(dpix2, 8, L_CLIP_TO_ZERO, 0); regTestWritePixAndCheck(rp, pixt1, IFF_PNG); /* 21 */ pixDisplayWithTitle(pixt1, 0, 100, NULL, rp->display); regTestWritePixAndCheck(rp, pixt2, IFF_PNG); /* 22 */ pixDisplayWithTitle(pixt2, 470, 100, NULL, rp->display); regTestWritePixAndCheck(rp, pixt3, IFF_PNG); /* 23 */ pixDisplayWithTitle(pixt3, 1035, 100, NULL, rp->display); regTestComparePix(rp, pixt3, pixt4); /* 24 */ regTestComparePix(rp, pixt5, pixt6); /* 25 */ pixDestroy(&pixs); pixDestroy(&pixn); pixDestroy(&pixg); pixDestroy(&pixb); pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); pixDestroy(&pixt5); pixDestroy(&pixt6); fpixDestroy(&fpixs2); fpixDestroy(&fpixs3); fpixDestroy(&fpixs4); dpixDestroy(&dpix); dpixDestroy(&dpix2); /* Test affine and projective transforms on fpix */ fpixWrite("/tmp/fpix1.fp", dew->fullvdispar); fpix1 = fpixRead("/tmp/fpix1.fp"); pixt1 = fpixAutoRenderContours(fpix1, 40); regTestWritePixAndCheck(rp, pixt1, IFF_PNG); /* 26 */ pixDisplayWithTitle(pixt1, 0, 500, NULL, rp->display); pixDestroy(&pixt1); MakePtasAffine(1, &ptas, &ptad); fpix2 = fpixAffinePta(fpix1, ptad, ptas, 200, 0.0); pixt2 = fpixAutoRenderContours(fpix2, 40); regTestWritePixAndCheck(rp, pixt2, IFF_PNG); /* 27 */ pixDisplayWithTitle(pixt2, 400, 500, NULL, rp->display); fpixDestroy(&fpix2); pixDestroy(&pixt2); ptaDestroy(&ptas); ptaDestroy(&ptad); MakePtas(1, &ptas, &ptad); fpix2 = fpixProjectivePta(fpix1, ptad, ptas, 200, 0.0); pixt3 = fpixAutoRenderContours(fpix2, 40); regTestWritePixAndCheck(rp, pixt3, IFF_PNG); /* 28 */ pixDisplayWithTitle(pixt3, 400, 500, NULL, rp->display); fpixDestroy(&fpix2); pixDestroy(&pixt3); ptaDestroy(&ptas); ptaDestroy(&ptad); fpixDestroy(&fpix1); dewarpaDestroy(&dewa); kernelDestroy(&kel); kernelDestroy(&kelx); kernelDestroy(&kely); return regTestCleanup(rp); }
main(int argc, char **argv) { l_float32 sum, sumx, sumy, diff; FPIX *fpixs, *fpixs2, *fpixs3, *fpixt1, *fpixt2, *fpixg, *fpixd; L_KERNEL *kel, *kelx, *kely; PIX *pixs, *pixs2, *pixs3, *pixt, *pixd, *pixg; PIX *pixt1, *pixt2, *pixt3, *pixt4, *pixt5, *pixt6; PIXA *pixa; L_REGPARAMS *rp; if (regTestSetup(argc, argv, &rp)) return 1; pixa = pixaCreate(0); /* Gaussian kernel */ kel = makeGaussianKernel(5, 5, 3.0, 4.0); kernelGetSum(kel, &sum); if (rp->display) fprintf(stderr, "Sum for 2d gaussian kernel = %f\n", sum); pixt = kernelDisplayInPix(kel, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 0 */ pixSaveTiled(pixt, pixa, 1, 1, 20, 8); pixDestroy(&pixt); /* Separable gaussian kernel */ makeGaussianKernelSep(5, 5, 3.0, 4.0, &kelx, &kely); kernelGetSum(kelx, &sumx); if (rp->display) fprintf(stderr, "Sum for x gaussian kernel = %f\n", sumx); kernelGetSum(kely, &sumy); if (rp->display) fprintf(stderr, "Sum for y gaussian kernel = %f\n", sumy); if (rp->display) fprintf(stderr, "Sum for x * y gaussian kernel = %f\n", sumx * sumy); pixt = kernelDisplayInPix(kelx, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 1 */ pixSaveTiled(pixt, pixa, 1, 0, 20, 8); pixDestroy(&pixt); pixt = kernelDisplayInPix(kely, 41, 2); regTestWritePixAndCheck(rp, pixt, IFF_PNG); /* 2 */ pixSaveTiled(pixt, pixa, 1, 0, 20, 8); pixDestroy(&pixt); /* Use pixRasterop() to generate source image */ pixs = pixRead("test8.jpg"); pixs2 = pixRead("karen8.jpg"); pixRasterop(pixs, 150, 125, 150, 100, PIX_SRC, pixs2, 75, 100); regTestWritePixAndCheck(rp, pixs, IFF_JFIF_JPEG); /* 3 */ /* Convolution directly with pix */ pixt1 = pixConvolve(pixs, kel, 8, 1); regTestWritePixAndCheck(rp, pixt1, IFF_JFIF_JPEG); /* 4 */ pixSaveTiled(pixt1, pixa, 1, 1, 20, 8); pixt2 = pixConvolveSep(pixs, kelx, kely, 8, 1); regTestWritePixAndCheck(rp, pixt2, IFF_JFIF_JPEG); /* 5 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 8); /* Convolution indirectly with fpix, using fpixRasterop() * to generate the source image. */ fpixs = pixConvertToFPix(pixs, 3); fpixs2 = pixConvertToFPix(pixs2, 3); fpixRasterop(fpixs, 150, 125, 150, 100, fpixs2, 75, 100); fpixt1 = fpixConvolve(fpixs, kel, 1); pixt3 = fpixConvertToPix(fpixt1, 8, L_CLIP_TO_ZERO, 1); regTestWritePixAndCheck(rp, pixt3, IFF_JFIF_JPEG); /* 6 */ pixSaveTiled(pixt3, pixa, 1, 1, 20, 8); fpixt2 = fpixConvolveSep(fpixs, kelx, kely, 1); pixt4 = fpixConvertToPix(fpixt2, 8, L_CLIP_TO_ZERO, 1); regTestWritePixAndCheck(rp, pixt4, IFF_JFIF_JPEG); /* 7 */ pixSaveTiled(pixt4, pixa, 1, 0, 20, 8); pixDestroy(&pixs2); fpixDestroy(&fpixs2); fpixDestroy(&fpixt1); fpixDestroy(&fpixt2); /* Comparison of results */ pixCompareGray(pixt1, pixt2, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolve and pixConvolveSep: %f\n", diff); pixCompareGray(pixt3, pixt4, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of fpixConvolve and fpixConvolveSep: %f\n", diff); pixCompareGray(pixt1, pixt3, L_COMPARE_ABS_DIFF, 0, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolve and fpixConvolve: %f\n", diff); pixCompareGray(pixt2, pixt4, L_COMPARE_ABS_DIFF, GPLOT_PNG, NULL, &diff, NULL, NULL); if (rp->display) fprintf(stderr, "Ave diff of pixConvolveSep and fpixConvolveSep: %f\n", diff); pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); /* Test arithmetic operations; add in a fraction rotated by 180 */ pixs3 = pixRotate180(NULL, pixs); regTestWritePixAndCheck(rp, pixs3, IFF_JFIF_JPEG); /* 8 */ pixSaveTiled(pixs3, pixa, 1, 1, 20, 8); fpixs3 = pixConvertToFPix(pixs3, 3); fpixd = fpixLinearCombination(NULL, fpixs, fpixs3, 20.0, 5.0); fpixAddMultConstant(fpixd, 0.0, 23.174); /* multiply up in magnitude */ pixd = fpixDisplayMaxDynamicRange(fpixd); /* bring back to 8 bpp */ regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 9 */ pixSaveTiled(pixd, pixa, 1, 0, 20, 8); pixDestroy(&pixs3); fpixDestroy(&fpixs3); fpixDestroy(&fpixd); pixDestroy(&pixd); pixDestroy(&pixs); fpixDestroy(&fpixs); /* Save the comparison graph; gnuplot should have made it by now! */ #ifndef _WIN32 sleep(2); #else Sleep(2000); #endif /* _WIN32 */ pixt5 = pixRead("/tmp/grayroot.png"); regTestWritePixAndCheck(rp, pixt5, IFF_PNG); /* 10 */ pixSaveTiled(pixt5, pixa, 1, 1, 20, 8); pixDestroy(&pixt5); /* Display results */ pixd = pixaDisplay(pixa, 0, 0); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 11 */ pixDisplayWithTitle(pixd, 100, 100, NULL, rp->display); pixDestroy(&pixd); pixaDestroy(&pixa); /* Test some more convolutions, with sampled output. First on pix */ pixa = pixaCreate(0); pixs = pixRead("1555-7.jpg"); pixg = pixConvertTo8(pixs, 0); l_setConvolveSampling(5, 5); pixt1 = pixConvolve(pixg, kel, 8, 1); regTestWritePixAndCheck(rp, pixt1, IFF_JFIF_JPEG); /* 12 */ pixSaveTiled(pixt1, pixa, 1, 1, 20, 32); pixt2 = pixConvolveSep(pixg, kelx, kely, 8, 1); regTestWritePixAndCheck(rp, pixt2, IFF_JFIF_JPEG); /* 13 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 32); pixt3 = pixConvolveRGB(pixs, kel); regTestWritePixAndCheck(rp, pixt3, IFF_JFIF_JPEG); /* 14 */ pixSaveTiled(pixt3, pixa, 1, 0, 20, 32); pixt4 = pixConvolveRGBSep(pixs, kelx, kely); regTestWritePixAndCheck(rp, pixt4, IFF_JFIF_JPEG); /* 15 */ pixSaveTiled(pixt4, pixa, 1, 0, 20, 32); /* Then on fpix */ fpixg = pixConvertToFPix(pixg, 1); fpixt1 = fpixConvolve(fpixg, kel, 1); pixt5 = fpixConvertToPix(fpixt1, 8, L_CLIP_TO_ZERO, 0); regTestWritePixAndCheck(rp, pixt5, IFF_JFIF_JPEG); /* 16 */ pixSaveTiled(pixt5, pixa, 1, 1, 20, 32); fpixt2 = fpixConvolveSep(fpixg, kelx, kely, 1); pixt6 = fpixConvertToPix(fpixt2, 8, L_CLIP_TO_ZERO, 0); regTestWritePixAndCheck(rp, pixt6, IFF_JFIF_JPEG); /* 17 */ pixSaveTiled(pixt2, pixa, 1, 0, 20, 32); regTestCompareSimilarPix(rp, pixt1, pixt5, 2, 0.00, 0); /* 18 */ regTestCompareSimilarPix(rp, pixt2, pixt6, 2, 0.00, 0); /* 19 */ pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); pixDestroy(&pixt5); pixDestroy(&pixt6); fpixDestroy(&fpixg); fpixDestroy(&fpixt1); fpixDestroy(&fpixt2); pixd = pixaDisplay(pixa, 0, 0); regTestWritePixAndCheck(rp, pixd, IFF_JFIF_JPEG); /* 20 */ pixDisplayWithTitle(pixd, 600, 100, NULL, rp->display); pixDestroy(&pixd); pixaDestroy(&pixa); regTestCleanup(rp); pixDestroy(&pixs); pixDestroy(&pixg); kernelDestroy(&kel); kernelDestroy(&kelx); kernelDestroy(&kely); return 0; }