/*! * pixDisplayWithTitle() * * Input: pix (1, 2, 4, 8, 16, 32 bpp) * x, y (location of display frame) * title (<optional> on frame; can be NULL); * dispflag (1 to write, else disabled) * Return: 0 if OK; 1 on error * * Notes: * (1) See notes for pixDisplay(). * (2) This displays the image if dispflag == 1. */ l_int32 pixDisplayWithTitle(PIX *pixs, l_int32 x, l_int32 y, const char *title, l_int32 dispflag) { char *tempname; char buffer[L_BUF_SIZE]; static l_int32 index = 0; /* caution: not .so or thread safe */ l_int32 w, h, d, spp, maxheight, opaque, threeviews, ignore; l_float32 ratw, rath, ratmin; PIX *pix0, *pix1, *pix2; PIXCMAP *cmap; #ifndef _WIN32 l_int32 wt, ht; #else char *pathname; char fullpath[_MAX_PATH]; #endif /* _WIN32 */ PROCNAME("pixDisplayWithTitle"); if (dispflag != 1) return 0; if (!pixs) return ERROR_INT("pixs not defined", procName, 1); if (var_DISPLAY_PROG != L_DISPLAY_WITH_XZGV && var_DISPLAY_PROG != L_DISPLAY_WITH_XLI && var_DISPLAY_PROG != L_DISPLAY_WITH_XV && var_DISPLAY_PROG != L_DISPLAY_WITH_IV && var_DISPLAY_PROG != L_DISPLAY_WITH_OPEN) { return ERROR_INT("no program chosen for display", procName, 1); } /* Display with three views if either spp = 4 or if colormapped * and the alpha component is not fully opaque */ opaque = TRUE; if ((cmap = pixGetColormap(pixs)) != NULL) pixcmapIsOpaque(cmap, &opaque); spp = pixGetSpp(pixs); threeviews = (spp == 4 || !opaque) ? TRUE : FALSE; /* If colormapped and not opaque, remove the colormap to RGBA */ if (!opaque) pix0 = pixRemoveColormap(pixs, REMOVE_CMAP_WITH_ALPHA); else pix0 = pixClone(pixs); /* Scale if necessary; this will also remove a colormap */ pixGetDimensions(pix0, &w, &h, &d); maxheight = (threeviews) ? MAX_DISPLAY_HEIGHT / 3 : MAX_DISPLAY_HEIGHT; if (w <= MAX_DISPLAY_WIDTH && h <= maxheight) { if (d == 16) /* take MSB */ pix1 = pixConvert16To8(pix0, 1); else pix1 = pixClone(pix0); } else { ratw = (l_float32)MAX_DISPLAY_WIDTH / (l_float32)w; rath = (l_float32)maxheight / (l_float32)h; ratmin = L_MIN(ratw, rath); if (ratmin < 0.125 && d == 1) pix1 = pixScaleToGray8(pix0); else if (ratmin < 0.25 && d == 1) pix1 = pixScaleToGray4(pix0); else if (ratmin < 0.33 && d == 1) pix1 = pixScaleToGray3(pix0); else if (ratmin < 0.5 && d == 1) pix1 = pixScaleToGray2(pix0); else pix1 = pixScale(pix0, ratmin, ratmin); } pixDestroy(&pix0); if (!pix1) return ERROR_INT("pix1 not made", procName, 1); /* Generate the three views if required */ if (threeviews) pix2 = pixDisplayLayersRGBA(pix1, 0xffffff00, 0); else pix2 = pixClone(pix1); if (index == 0) { lept_rmdir("disp"); lept_mkdir("disp"); } index++; if (pixGetDepth(pix2) < 8 || (w < MAX_SIZE_FOR_PNG && h < MAX_SIZE_FOR_PNG)) { snprintf(buffer, L_BUF_SIZE, "/tmp/disp/write.%03d.png", index); pixWrite(buffer, pix2, IFF_PNG); } else { snprintf(buffer, L_BUF_SIZE, "/tmp/disp/write.%03d.jpg", index); pixWrite(buffer, pix2, IFF_JFIF_JPEG); } tempname = stringNew(buffer); #ifndef _WIN32 /* Unix */ if (var_DISPLAY_PROG == L_DISPLAY_WITH_XZGV) { /* no way to display title */ pixGetDimensions(pix2, &wt, &ht, NULL); snprintf(buffer, L_BUF_SIZE, "xzgv --geometry %dx%d+%d+%d %s &", wt + 10, ht + 10, x, y, tempname); } else if (var_DISPLAY_PROG == L_DISPLAY_WITH_XLI) { if (title) { snprintf(buffer, L_BUF_SIZE, "xli -dispgamma 1.0 -quiet -geometry +%d+%d -title \"%s\" %s &", x, y, title, tempname); } else { snprintf(buffer, L_BUF_SIZE, "xli -dispgamma 1.0 -quiet -geometry +%d+%d %s &", x, y, tempname); } } else if (var_DISPLAY_PROG == L_DISPLAY_WITH_XV) { if (title) { snprintf(buffer, L_BUF_SIZE, "xv -quit -geometry +%d+%d -name \"%s\" %s &", x, y, title, tempname); } else { snprintf(buffer, L_BUF_SIZE, "xv -quit -geometry +%d+%d %s &", x, y, tempname); } } else if (var_DISPLAY_PROG == L_DISPLAY_WITH_OPEN) { snprintf(buffer, L_BUF_SIZE, "open %s &", tempname); } ignore = system(buffer); #else /* _WIN32 */ /* Windows: L_DISPLAY_WITH_IV */ pathname = genPathname(tempname, NULL); _fullpath(fullpath, pathname, sizeof(fullpath)); if (title) { snprintf(buffer, L_BUF_SIZE, "i_view32.exe \"%s\" /pos=(%d,%d) /title=\"%s\"", fullpath, x, y, title); } else { snprintf(buffer, L_BUF_SIZE, "i_view32.exe \"%s\" /pos=(%d,%d)", fullpath, x, y); } ignore = system(buffer); FREE(pathname); #endif /* _WIN32 */ pixDestroy(&pix1); pixDestroy(&pix2); FREE(tempname); return 0; }
/*! * pixDisplayWithTitle() * * Input: pix (1, 2, 4, 8, 16, 32 bpp) * x, y (location of display frame) * title (<optional> on frame; can be NULL); * dispflag (1 to write, else disabled) * Return: 0 if OK; 1 on error * * Notes: * (1) See notes for pixDisplay(). * (2) This displays the image if dispflag == 1. */ l_int32 pixDisplayWithTitle(PIX *pixs, l_int32 x, l_int32 y, const char *title, l_int32 dispflag) { char *tempname; char buffer[L_BUF_SIZE]; static l_int32 index = 0; /* caution: not .so or thread safe */ l_int32 w, h, d, ignore; l_float32 ratw, rath, ratmin; PIX *pixt; #ifndef _WIN32 l_int32 wt, ht; #else char *pathname; char fullpath[_MAX_PATH]; #endif /* _WIN32 */ PROCNAME("pixDisplayWithTitle"); if (dispflag != 1) return 0; if (!pixs) return ERROR_INT("pixs not defined", procName, 1); if (var_DISPLAY_PROG != L_DISPLAY_WITH_XV && var_DISPLAY_PROG != L_DISPLAY_WITH_XLI && var_DISPLAY_PROG != L_DISPLAY_WITH_XZGV && var_DISPLAY_PROG != L_DISPLAY_WITH_IV) return ERROR_INT("no program chosen for display", procName, 1); pixGetDimensions(pixs, &w, &h, &d); if (w <= MAX_DISPLAY_WIDTH && h <= MAX_DISPLAY_HEIGHT) { if (d == 16) /* take MSB */ pixt = pixConvert16To8(pixs, 1); else pixt = pixClone(pixs); } else { ratw = (l_float32)MAX_DISPLAY_WIDTH / (l_float32)w; rath = (l_float32)MAX_DISPLAY_HEIGHT / (l_float32)h; ratmin = L_MIN(ratw, rath); if (ratmin < 0.125 && d == 1) pixt = pixScaleToGray8(pixs); else if (ratmin < 0.25 && d == 1) pixt = pixScaleToGray4(pixs); else if (ratmin < 0.33 && d == 1) pixt = pixScaleToGray3(pixs); else if (ratmin < 0.5 && d == 1) pixt = pixScaleToGray2(pixs); else pixt = pixScale(pixs, ratmin, ratmin); if (!pixt) return ERROR_INT("pixt not made", procName, 1); } if (index == 0) { lept_rmdir("display"); lept_mkdir("display"); } index++; if (pixGetDepth(pixt) < 8 || (w < MAX_SIZE_FOR_PNG && h < MAX_SIZE_FOR_PNG)) { snprintf(buffer, L_BUF_SIZE, "/tmp/display/write.%03d.png", index); pixWrite(buffer, pixt, IFF_PNG); } else { snprintf(buffer, L_BUF_SIZE, "/tmp/display/write.%03d.jpg", index); pixWrite(buffer, pixt, IFF_JFIF_JPEG); } tempname = stringNew(buffer); #ifndef _WIN32 /* Unix */ if (var_DISPLAY_PROG == L_DISPLAY_WITH_XV) { if (title) snprintf(buffer, L_BUF_SIZE, "xv -quit -geometry +%d+%d -name \"%s\" %s &", x, y, title, tempname); else snprintf(buffer, L_BUF_SIZE, "xv -quit -geometry +%d+%d %s &", x, y, tempname); } else if (var_DISPLAY_PROG == L_DISPLAY_WITH_XLI) { if (title) snprintf(buffer, L_BUF_SIZE, "xli -dispgamma 1.0 -quiet -geometry +%d+%d -title \"%s\" %s &", x, y, title, tempname); else snprintf(buffer, L_BUF_SIZE, "xli -dispgamma 1.0 -quiet -geometry +%d+%d %s &", x, y, tempname); } else if (var_DISPLAY_PROG == L_DISPLAY_WITH_XZGV) { /* no way to display title */ pixGetDimensions(pixt, &wt, &ht, NULL); snprintf(buffer, L_BUF_SIZE, "xzgv --geometry %dx%d+%d+%d %s &", wt + 10, ht + 10, x, y, tempname); } ignore = system(buffer); #else /* _WIN32 */ /* Windows: L_DISPLAY_WITH_IV */ pathname = genPathname(tempname, NULL); _fullpath(fullpath, pathname, sizeof(fullpath)); if (title) snprintf(buffer, L_BUF_SIZE, "i_view32.exe \"%s\" /pos=(%d,%d) /title=\"%s\"", fullpath, x, y, title); else snprintf(buffer, L_BUF_SIZE, "i_view32.exe \"%s\" /pos=(%d,%d)", fullpath, x, y); ignore = system(buffer); FREE(pathname); #endif /* _WIN32 */ pixDestroy(&pixt); FREE(tempname); return 0; }
main(int argc, char **argv) { PIX *pixs; l_int32 d; static char mainName[] = "scaletest2"; if (argc != 2) return ERROR_INT(" Syntax: scaletest2 filein", mainName, 1); if ((pixs = pixRead(argv[1])) == NULL) return ERROR_INT("pixs not made", mainName, 1); d = pixGetDepth(pixs); #if 1 /* Integer scale-to-gray functions */ if (d == 1) { PIX *pixd; pixd = pixScaleToGray2(pixs); pixWrite("/tmp/s2g_2x", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray3(pixs); pixWrite("/tmp/s2g_3x", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray4(pixs); pixWrite("/tmp/s2g_4x", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray6(pixs); pixWrite("/tmp/s2g_6x", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray8(pixs); pixWrite("/tmp/s2g_8x", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray16(pixs); pixWrite("/tmp/s2g_16x", pixd, IFF_PNG); pixDestroy(&pixd); } #endif #if 1 /* Various non-integer scale-to-gray, compared with * with different ways of getting similar results */ if (d == 1) { PIX *pixt, *pixd; pixd = pixScaleToGray8(pixs); pixWrite("/tmp/s2g_8.png", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray(pixs, 0.124); pixWrite("/tmp/s2g_124.png", pixd, IFF_PNG); pixDestroy(&pixd); pixd = pixScaleToGray(pixs, 0.284); pixWrite("/tmp/s2g_284.png", pixd, IFF_PNG); pixDestroy(&pixd); pixt = pixScaleToGray4(pixs); pixd = pixScaleBySampling(pixt, 284./250., 284./250.); pixWrite("/tmp/s2g_284.2.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixt = pixScaleToGray4(pixs); pixd = pixScaleGrayLI(pixt, 284./250., 284./250.); pixWrite("/tmp/s2g_284.3.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixt = pixScaleBinary(pixs, 284./250., 284./250.); pixd = pixScaleToGray4(pixt); pixWrite("/tmp/s2g_284.4.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixt = pixScaleToGray4(pixs); pixd = pixScaleGrayLI(pixt, 0.49, 0.49); pixWrite("/tmp/s2g_42.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixt = pixScaleToGray4(pixs); pixd = pixScaleSmooth(pixt, 0.49, 0.49); pixWrite("/tmp/s2g_4sm.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixt = pixScaleBinary(pixs, .16/.125, .16/.125); pixd = pixScaleToGray8(pixt); pixWrite("/tmp/s2g_16.png", pixd, IFF_PNG); pixDestroy(&pixt); pixDestroy(&pixd); pixd = pixScaleToGray(pixs, .16); pixWrite("/tmp/s2g_16.2.png", pixd, IFF_PNG); pixDestroy(&pixd); } #endif #if 1 /* Antialiased (smoothed) reduction, along with sharpening */ if (d != 1) { PIX *pixt1, *pixt2; startTimer(); pixt1 = pixScaleSmooth(pixs, 0.154, 0.154); fprintf(stderr, "fast scale: %5.3f sec\n", stopTimer()); pixDisplayWithTitle(pixt1, 0, 0, "smooth scaling", DISPLAY); pixWrite("/tmp/smooth1.png", pixt1, IFF_PNG); pixt2 = pixUnsharpMasking(pixt1, 1, 0.3); pixWrite("/tmp/smooth2.png", pixt2, IFF_PNG); pixDisplayWithTitle(pixt2, 200, 0, "sharp scaling", DISPLAY); pixDestroy(&pixt1); pixDestroy(&pixt2); } #endif #if 1 /* Test a large range of scale-to-gray reductions */ if (d == 1) { l_int32 i; l_float32 scale; PIX *pixd; for (i = 2; i < 15; i++) { scale = 1. / (l_float32)i; startTimer(); pixd = pixScaleToGray(pixs, scale); fprintf(stderr, "Time for scale %7.3f: %7.3f sec\n", scale, stopTimer()); pixDisplayWithTitle(pixd, 75 * i, 100, "scaletogray", DISPLAY); pixDestroy(&pixd); } for (i = 8; i < 14; i++) { scale = 1. / (l_float32)(2 * i); startTimer(); pixd = pixScaleToGray(pixs, scale); fprintf(stderr, "Time for scale %7.3f: %7.3f sec\n", scale, stopTimer()); pixDisplayWithTitle(pixd, 100 * i, 600, "scaletogray", DISPLAY); pixDestroy(&pixd); } } #endif #if 1 /* Test the same range of scale-to-gray mipmap reductions */ if (d == 1) { l_int32 i; l_float32 scale; PIX *pixd; for (i = 2; i < 15; i++) { scale = 1. / (l_float32)i; startTimer(); pixd = pixScaleToGrayMipmap(pixs, scale); fprintf(stderr, "Time for scale %7.3f: %7.3f sec\n", scale, stopTimer()); pixDisplayWithTitle(pixd, 75 * i, 100, "scale mipmap", DISPLAY); pixDestroy(&pixd); } for (i = 8; i < 12; i++) { scale = 1. / (l_float32)(2 * i); startTimer(); pixd = pixScaleToGrayMipmap(pixs, scale); fprintf(stderr, "Time for scale %7.3f: %7.3f sec\n", scale, stopTimer()); pixDisplayWithTitle(pixd, 100 * i, 600, "scale mipmap", DISPLAY); pixDestroy(&pixd); } } #endif #if 1 /* Test several methods for antialiased reduction, * along with sharpening */ if (d != 1) { PIX *pixt1, *pixt2, *pixt3, *pixt4, *pixt5, *pixt6, *pixt7; l_float32 SCALING = 0.27; l_int32 SIZE = 7; l_int32 smooth; l_float32 FRACT = 1.0; smooth = SIZE / 2; startTimer(); pixt1 = pixScaleSmooth(pixs, SCALING, SCALING); fprintf(stderr, "fast scale: %5.3f sec\n", stopTimer()); pixDisplayWithTitle(pixt1, 0, 0, "smooth scaling", DISPLAY); pixWrite("/tmp/sm_1.png", pixt1, IFF_PNG); pixt2 = pixUnsharpMasking(pixt1, 1, 0.3); pixDisplayWithTitle(pixt2, 150, 0, "sharpened scaling", DISPLAY); startTimer(); pixt3 = pixBlockconv(pixs, smooth, smooth); pixt4 = pixScaleBySampling(pixt3, SCALING, SCALING); fprintf(stderr, "slow scale: %5.3f sec\n", stopTimer()); pixDisplayWithTitle(pixt4, 200, 200, "sampled scaling", DISPLAY); pixWrite("/tmp/sm_2.png", pixt4, IFF_PNG); startTimer(); pixt5 = pixUnsharpMasking(pixs, smooth, FRACT); pixt6 = pixBlockconv(pixt5, smooth, smooth); pixt7 = pixScaleBySampling(pixt6, SCALING, SCALING); fprintf(stderr, "very slow scale + sharp: %5.3f sec\n", stopTimer()); pixDisplayWithTitle(pixt7, 500, 200, "sampled scaling", DISPLAY); pixWrite("/tmp/sm_3.jpg", pixt7, IFF_JFIF_JPEG); pixDestroy(&pixt1); pixDestroy(&pixt2); pixDestroy(&pixt3); pixDestroy(&pixt4); pixDestroy(&pixt5); pixDestroy(&pixt6); pixDestroy(&pixt7); } #endif #if 1 /* Test the color scaling function, comparing the * special case of scaling factor 2.0 with the * general case. */ if (d == 32) { PIX *pix1, *pix2, *pixd; NUMA *nar, *nag, *nab, *naseq; GPLOT *gplot; startTimer(); pix1 = pixScaleColorLI(pixs, 2.00001, 2.0); fprintf(stderr, " Time with regular LI: %7.3f\n", stopTimer()); pixWrite("/tmp/color1.jpg", pix1, IFF_JFIF_JPEG); startTimer(); pix2 = pixScaleColorLI(pixs, 2.0, 2.0); fprintf(stderr, " Time with 2x LI: %7.3f\n", stopTimer()); pixWrite("/tmp/color2.jpg", pix2, IFF_JFIF_JPEG); pixd = pixAbsDifference(pix1, pix2); pixGetColorHistogram(pixd, 1, &nar, &nag, &nab); naseq = numaMakeSequence(0., 1., 256); gplot = gplotCreate("/tmp/plot_absdiff", GPLOT_X11, "Number vs diff", "diff", "number"); gplotSetScaling(gplot, GPLOT_LOG_SCALE_Y); 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(&naseq); numaDestroy(&nar); numaDestroy(&nag); numaDestroy(&nab); gplotDestroy(&gplot); } #endif #if 1 /* Test the gray LI scaling function, comparing the * special cases of scaling factor 2.0 and 4.0 with the * general case */ if (d == 8 || d == 32) { PIX *pixt, *pix0, *pix1, *pix2, *pixd; NUMA *nagray, *naseq; GPLOT *gplot; if (d == 8) pixt = pixClone(pixs); else pixt = pixConvertRGBToGray(pixs, 0.33, 0.34, 0.33); pix0 = pixScaleGrayLI(pixt, 0.5, 0.5); #if 1 startTimer(); pix1 = pixScaleGrayLI(pix0, 2.00001, 2.0); fprintf(stderr, " Time with regular LI 2x: %7.3f\n", stopTimer()); startTimer(); pix2 = pixScaleGrayLI(pix0, 2.0, 2.0); fprintf(stderr, " Time with 2x LI: %7.3f\n", stopTimer()); #else startTimer(); pix1 = pixScaleGrayLI(pix0, 4.00001, 4.0); fprintf(stderr, " Time with regular LI 4x: %7.3f\n", stopTimer()); startTimer(); pix2 = pixScaleGrayLI(pix0, 4.0, 4.0); fprintf(stderr, " Time with 2x LI: %7.3f\n", stopTimer()); #endif pixWrite("/tmp/gray1", pix1, IFF_JFIF_JPEG); pixWrite("/tmp/gray2", pix2, IFF_JFIF_JPEG); pixd = pixAbsDifference(pix1, pix2); nagray = pixGetGrayHistogram(pixd, 1); naseq = numaMakeSequence(0., 1., 256); gplot = gplotCreate("/tmp/g_absdiff", GPLOT_X11, "Number vs diff", "diff", "number"); gplotSetScaling(gplot, GPLOT_LOG_SCALE_Y); gplotAddPlot(gplot, naseq, nagray, GPLOT_POINTS, "gray"); gplotMakeOutput(gplot); pixDestroy(&pixt); pixDestroy(&pix0); pixDestroy(&pix1); pixDestroy(&pix2); pixDestroy(&pixd); numaDestroy(&naseq); numaDestroy(&nagray); gplotDestroy(&gplot); } #endif pixDestroy(&pixs); return 0; }
int main(int argc, char **argv) { l_int32 i; PIX *pixs, *pixc; PIXA *pixa; L_REGPARAMS *rp; if (regTestSetup(argc, argv, &rp)) return 1; /* Test 1 bpp */ fprintf(stderr, "\n-------------- Testing 1 bpp ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[0]); pixc = pixScale(pixs, 0.32, 0.32); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 0 */ pixSaveTiled(pixc, pixa, 1.0, 1, SPACE, 32); pixDestroy(&pixc); pixc = pixScaleToGray3(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 1 */ PixSave32(pixa, pixc); pixc = pixScaleToGray4(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 2 */ pixSaveTiled(pixc, pixa, 1.0, 1, SPACE, 32); pixDestroy(&pixc); pixc = pixScaleToGray6(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 3 */ PixSave32(pixa, pixc); pixc = pixScaleToGray8(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 4 */ PixSave32(pixa, pixc); pixc = pixScaleToGray16(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 5 */ PixSave32(pixa, pixc); pixDestroy(&pixs); PixaSaveDisplay(pixa, rp); /* 6 */ for (i = 1; i < 10; i++) { pixa = pixaCreate(0); AddScaledImages(pixa, image[i], WIDTH); PixaSaveDisplay(pixa, rp); /* 7 - 16 */ } /* Test 2 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 2 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[1]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 2.25, 2.25); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 17 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 18 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 19 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 20 */ pixDestroy(&pixs); /* Test 2 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 2 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[2]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 2.25, 2.25); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 21 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 22 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 23 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 24 */ pixDestroy(&pixs); /* Test 4 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 4 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[3]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.72, 1.72); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 25 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 26 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 27 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 28 */ pixDestroy(&pixs); /* Test 4 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 4 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[4]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.72, 1.72); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 29 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 30 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 31 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 32 */ pixDestroy(&pixs); /* Test 8 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 8 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[5]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 33 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 34 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 35 */ PixSave32(pixa, pixc); pixDestroy(&pixs); pixs = pixRead("graytext.png"); pixc = pixScaleToSize(pixs, 0, 32); /* uses fast unsharp masking */ regTestWritePixAndCheck(rp, pixc, IFF_PNG); /* 36 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 37 */ pixDestroy(&pixs); /* Test 8 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 8 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[6]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 38 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 39 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 40 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 41 */ pixDestroy(&pixs); /* Test 16 bpp */ fprintf(stderr, "\n-------------- Testing 16 bpp ------------\n"); pixa = pixaCreate(0); pixs = pixRead(image[7]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 42 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 43 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 44 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 45 */ pixDestroy(&pixs); /* Test 32 bpp */ fprintf(stderr, "\n-------------- Testing 32 bpp ------------\n"); pixa = pixaCreate(0); pixs = pixRead(image[8]); pixSaveTiled(pixs, pixa, 1.0, 1, SPACE, 32); pixc = pixScale(pixs, 1.42, 1.42); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 46 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 47 */ PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); /* 48 */ PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); /* 49 */ pixDestroy(&pixs); return regTestCleanup(rp); }
main(int argc, char **argv) { l_int32 i; PIX *pixs, *pixc, *pixd; PIXA *pixa; L_REGPARAMS *rp; if (regTestSetup(argc, argv, &rp)) return 1; /* Test 1 bpp */ fprintf(stderr, "\n-------------- Testing 1 bpp ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[0]); pixc = pixScale(pixs, 0.32, 0.32); regTestWritePixAndCheck(rp, pixc, IFF_PNG); pixSaveTiled(pixc, pixa, 1, 1, SPACE, 32); pixDestroy(&pixc); pixc = pixScaleToGray3(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScaleToGray4(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); pixSaveTiled(pixc, pixa, 1, 1, SPACE, 32); pixDestroy(&pixc); pixc = pixScaleToGray6(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScaleToGray8(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScaleToGray16(pixs); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixDestroy(&pixs); PixaSaveDisplay(pixa, rp); for (i = 1; i < 10; i++) { pixa = pixaCreate(0); AddScaledImages(pixa, image[i], WIDTH); PixaSaveDisplay(pixa, rp); } /* Test 2 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 2 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[1]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 2.25, 2.25); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 2 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 2 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[2]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 2.25, 2.25); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 4 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 4 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[3]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.72, 1.72); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 4 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 4 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[4]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.72, 1.72); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_PNG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 8 bpp without colormap */ fprintf(stderr, "\n-------------- Testing 8 bpp without cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[5]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 8 bpp with colormap */ fprintf(stderr, "\n-------------- Testing 8 bpp with cmap ----------\n"); pixa = pixaCreate(0); pixs = pixRead(image[6]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 16 bpp */ fprintf(stderr, "\n-------------- Testing 16 bpp ------------\n"); pixa = pixaCreate(0); pixs = pixRead(image[7]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.92, 1.92); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); /* Test 32 bpp */ fprintf(stderr, "\n-------------- Testing 32 bpp ------------\n"); pixa = pixaCreate(0); pixs = pixRead(image[8]); pixSaveTiled(pixs, pixa, 1, 1, SPACE, 32); pixc = pixScale(pixs, 1.42, 1.42); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.85, 0.85); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); pixc = pixScale(pixs, 0.65, 0.65); regTestWritePixAndCheck(rp, pixc, IFF_JFIF_JPEG); PixSave32(pixa, pixc); PixaSaveDisplay(pixa, rp); pixDestroy(&pixs); return regTestCleanup(rp); }