Beispiel #1
0
jint Java_com_googlecode_leptonica_android_Dewarp_nativeDewarp(JNIEnv *env, jclass clazz, jint nativePix) {
	  LOGV("%s",__FUNCTION__);
	  PIX* pixd=NULL;
  PIX *pixs = (PIX *) nativePix;
  PIX* pixb = pixThresholdToBinary(pixs, 130);
  //  Basic functioning:
  L_Dewarp *dew = dewarpCreate(pixb,0,60,5,1);
  int buildresult=dewarpBuildModel(dew, 0);
  if(buildresult==0){
    int applyresult=dewarpApplyDisparity(dew, pixs, 0);
    if(applyresult==0){
      pixd = pixClone(dew->pixd);
    }
  }
  pixDestroy(&pixb);
  dewarpDestroy(&dew);
  
  if(pixd!=NULL){
    return (jint) pixd;
  } else {
    return (jint) 0;
  }
}
Beispiel #2
0
l_int32 main(int    argc,
             char **argv)
{
l_int32    i, n, ignore;
l_float32  a, b, c, d, e;
L_DEWARP  *dew;
FILE      *fp;
FPIX      *fpix;
NUMA      *nax, *nay, *nafit;
PIX       *pixs, *pixn, *pixg, *pixb, *pixt1, *pixt2, *pixt3;
PIX       *pixs2, *pixn2, *pixg2, *pixb2, *pixv, *pixd;
PTA       *pta, *ptad;
PTAA      *ptaa1, *ptaa2;

    pixs = pixRead("1555-7.jpg");

        /* Normalize for varying background and binarize */
    pixn = pixBackgroundNormSimple(pixs, NULL, NULL);
    pixg = pixConvertRGBToGray(pixn, 0.5, 0.3, 0.2);
    pixb = pixThresholdToBinary(pixg, 130);

        /* Run the basic functions */
    dew = dewarpCreate(pixb, 7, 30, 15, 1);
    dewarpBuildModel(dew, 1);
    dewarpApplyDisparity(dew, pixg, 1);

        /* Save the intermediate dewarped images */
    pixv = pixRead("/tmp/pixv.png");
    pixd = pixRead("/tmp/pixd.png");

        /* Normalize another image, that doesn't have enough textlines
         * to build an accurate model */
    pixs2 = pixRead("1555-3.jpg");
    pixn2 = pixBackgroundNormSimple(pixs2, NULL, NULL);
    pixg2 = pixConvertRGBToGray(pixn2, 0.5, 0.3, 0.2);
    pixb2 = pixThresholdToBinary(pixg2, 130);

        /* Apply the previous disparity model to this image */
    dewarpApplyDisparity(dew, pixg2, 1);
    dewarpDestroy(&dew);

        /* Get the textline centers */
	const char* const morph2 = "c15.1 + o15.1 + c50.1";

    ptaa1 = pixGetTextlineCenters(pixb,morph2, 0);
    pixt1 = pixCreateTemplate(pixs);
    pixt2 = pixDisplayPtaa(pixt1, ptaa1);
    pixWrite("/tmp/textline1.png", pixt2, IFF_PNG);
    pixDisplayWithTitle(pixt2, 500, 100, "textline centers", 1);
    pixDestroy(&pixt1);

        /* Remove short lines */
    fprintf(stderr, "Num all lines = %d\n", ptaaGetCount(ptaa1));
    ptaa2 = ptaaRemoveShortLines(pixb, ptaa1, 0.8, 0);

        /* Fit to curve */
    n = ptaaGetCount(ptaa2);
    fprintf(stderr, "Num long lines = %d\n", n);
    for (i = 0; i < n; i++) {
        pta = ptaaGetPta(ptaa2, i, L_CLONE);
        ptaGetArrays(pta, &nax, NULL);
#if DO_QUAD
        ptaGetQuadraticLSF(pta, &a, &b, &c, &nafit);
/*        fprintf(stderr, "a = %7.3f, b = %7.3f, c = %7.3f\n", a, b, c); */
#elif  DO_CUBIC
        ptaGetCubicLSF(pta, &a, &b, &c, &d, &nafit);
/*        fprintf(stderr, "a = %7.3f, b = %7.3f, c = %7.3f, d = %7.3f\n",
                a, b, c, d);  */
#elif DO_QUARTIC
        ptaGetQuarticLSF(pta, &a, &b, &c, &d, &e, &nafit);
/*        fprintf(stderr,
              "a = %7.3f, b = %7.3f, c = %7.3f, d = %7.3f, e = %7.3f\n",
              a, b, c, d, e); */
#endif
        ptad = ptaCreateFromNuma(nax, nafit);
        pixDisplayPta(pixt2, pixt2, ptad);
        ptaDestroy(&pta);
        ptaDestroy(&ptad);
        numaDestroy(&nax);
        numaDestroy(&nafit);
    }

    pixDisplayWithTitle(pixt2, 700, 100, "fitted lines superimposed", 1);
    pixWrite("/tmp/textline2.png", pixt2, IFF_PNG);
    ptaaDestroy(&ptaa1);
    ptaaDestroy(&ptaa2);
    pixDestroy(&pixt2);

         /* Write out the files to be imaged */
    lept_mkdir("junkdir");
    pixWrite("/tmp/junkdir/001.jpg", pixs, IFF_JFIF_JPEG);
    pixWrite("/tmp/junkdir/002.jpg", pixn, IFF_JFIF_JPEG);
    pixWrite("/tmp/junkdir/003.jpg", pixg, IFF_JFIF_JPEG);
    pixWrite("/tmp/junkdir/004.png", pixb, IFF_TIFF_G4);
    pixt1 = pixRead("/tmp/textline1.png");
    pixWrite("/tmp/junkdir/005.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixt1 = pixRead("/tmp/textline2.png");
    pixWrite("/tmp/junkdir/006.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixt1 = pixRead("/tmp/lines1.png");
    pixWrite("/tmp/junkdir/007.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixt1 = pixRead("/tmp/lines2.png");
    pixWrite("/tmp/junkdir/008.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixt1 = pixRead("/tmp/vert-contours.png");
    pixWrite("/tmp/junkdir/009.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixWrite("/tmp/junkdir/010.png", pixv, IFF_PNG);
    pixt1 = pixThresholdToBinary(pixv, 130);
    pixWrite("/tmp/junkdir/011.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixt1 = pixRead("/tmp/horiz-contours.png");
    pixWrite("/tmp/junkdir/012.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixWrite("/tmp/junkdir/013.png", pixd, IFF_PNG);
    pixt1 = pixThresholdToBinary(pixd, 130);
    pixWrite("/tmp/junkdir/014.png", pixt1, IFF_PNG);
    pixDestroy(&pixt1);
    pixWrite("/tmp/junkdir/015.png", pixb, IFF_TIFF_G4);

        /* (these are for the second image) */
    pixWrite("/tmp/junkdir/016.jpg", pixs2, IFF_JFIF_JPEG);
    pixWrite("/tmp/junkdir/017.png", pixb2, IFF_TIFF_G4);
    pixt1 = pixRead("/tmp/pixv.png");
    pixt2 = pixThresholdToBinary(pixt1, 130);
    pixWrite("/tmp/junkdir/018.png", pixt2, IFF_PNG);
    pixDestroy(&pixt1);
    pixDestroy(&pixt2);
    pixt1 = pixRead("/tmp/pixd.png");
    pixt2 = pixThresholdToBinary(pixt1, 130);
    pixWrite("/tmp/junkdir/019.png", pixt2, IFF_PNG);
    pixDestroy(&pixt1);
    pixDestroy(&pixt2);

        /* Generate the 19 page ps and pdf files */
    convertFilesToPS("/tmp/junkdir", NULL, 135, "/tmp/dewarp.ps");
    fprintf(stderr, "ps file made: /tmp/dewarp.ps\n");
    ignore = system("ps2pdf /tmp/dewarp.ps /tmp/dewarp.pdf");
    fprintf(stderr, "pdf file made: /tmp/dewarp.pdf\n");

    pixDestroy(&pixs);
    pixDestroy(&pixn);
    pixDestroy(&pixg);
    pixDestroy(&pixb);
    pixDestroy(&pixs2);
    pixDestroy(&pixn2);
    pixDestroy(&pixg2);
    pixDestroy(&pixb2);
    pixDestroy(&pixv);
    pixDestroy(&pixd);

    return 0;
}
l_int32 main(int    argc,
             char **argv)
{
l_int32       i, n;
l_float32     a, b, c;
L_DEWARP     *dew, *dew2;
DPIX         *dpix1, *dpix2, *dpix3;
FPIX         *fpix1, *fpix2, *fpix3;
NUMA         *nax, *nafit;
PIX          *pixs, *pixn, *pixg, *pixb, *pixt1, *pixt2;
PIX          *pixs2, *pixn2, *pixg2, *pixb2;
PTA          *pta, *ptad;
PTAA         *ptaa1, *ptaa2;
L_REGPARAMS  *rp;

    if (regTestSetup(argc, argv, &rp))
              return 1;

    pixs = pixRead("1555-7.jpg");
    
        /* Normalize for varying background and binarize */
    pixn = pixBackgroundNormSimple(pixs, NULL, NULL);
    pixg = pixConvertRGBToGray(pixn, 0.5, 0.3, 0.2);
    pixb = pixThresholdToBinary(pixg, 130);
    pixDestroy(&pixn);
    pixDestroy(&pixg);
    regTestWritePixAndCheck(rp, pixb, IFF_PNG);  /* 0 */
    pixDisplayWithTitle(pixb, 0, 0, "binarized input", rp->display);

        /* Get the textline centers */
    ptaa1 = pixGetTextlineCenters(pixb, 0);
    pixt1 = pixCreateTemplate(pixs);
    pixt2 = pixDisplayPtaa(pixt1, ptaa1);
    regTestWritePixAndCheck(rp, pixt2, IFF_PNG);  /* 1 */
    pixDisplayWithTitle(pixt2, 0, 500, "textline centers", rp->display);
    pixDestroy(&pixt1);

        /* Remove short lines */
    ptaa2 = ptaaRemoveShortLines(pixb, ptaa1, 0.8, 0);

        /* Fit to quadratic */
    n = ptaaGetCount(ptaa2);
    for (i = 0; i < n; i++) {
        pta = ptaaGetPta(ptaa2, i, L_CLONE);
        ptaGetArrays(pta, &nax, NULL);
        ptaGetQuadraticLSF(pta, &a, &b, &c, &nafit);
        ptad = ptaCreateFromNuma(nax, nafit);
        pixDisplayPta(pixt2, pixt2, ptad);
        ptaDestroy(&pta);
        ptaDestroy(&ptad);
        numaDestroy(&nax);
        numaDestroy(&nafit);
    }
    regTestWritePixAndCheck(rp, pixt2, IFF_PNG);  /* 2 */
    pixDisplayWithTitle(pixt2, 300, 500, "fitted lines superimposed",
                        rp->display);
    ptaaDestroy(&ptaa1);
    ptaaDestroy(&ptaa2);
    pixDestroy(&pixt2);

        /* Run with only vertical disparity correction */
    if ((dew = dewarpCreate(pixb, 7, 30, 15, 0)) == NULL)
        return ERROR_INT("\n\n\n FAILURE !!! \n\n\n", rp->testname, 1);
    dewarpBuildModel(dew, 0);
    dewarpApplyDisparity(dew, pixb, 0);
    regTestWritePixAndCheck(rp, dew->pixd, IFF_PNG);  /* 3 */
    pixDisplayWithTitle(dew->pixd, 400, 0, "fixed for vert disparity",
                        rp->display);
    dewarpDestroy(&dew);

        /* Run with both vertical and horizontal disparity correction */
    if ((dew = dewarpCreate(pixb, 7, 30, 15, 1)) == NULL)
        return ERROR_INT("\n\n\n FAILURE !!! \n\n\n", rp->testname, 1);
    dewarpBuildModel(dew, 0);
    dewarpApplyDisparity(dew, pixb, 0);
    regTestWritePixAndCheck(rp, dew->pixd, IFF_PNG);  /* 4 */
    pixDisplayWithTitle(dew->pixd, 800, 0, "fixed for both disparities",
                        rp->display);

        /* Read another image, normalize background and binarize */
    pixs2 = pixRead("1555-3.jpg");
    pixn2 = pixBackgroundNormSimple(pixs2, NULL, NULL);
    pixg2 = pixConvertRGBToGray(pixn2, 0.5, 0.3, 0.2);
    pixb2 = pixThresholdToBinary(pixg2, 130);
    pixDestroy(&pixn2);
    pixDestroy(&pixg2);
    regTestWritePixAndCheck(rp, pixb, IFF_PNG);  /* 5 */
    pixDisplayWithTitle(pixb, 0, 400, "binarized input (2)", rp->display);

        /* Minimize and re-apply previous disparity to this image */
    dewarpMinimize(dew);
    dewarpApplyDisparity(dew, pixb2, 0);
    regTestWritePixAndCheck(rp, dew->pixd, IFF_PNG);  /* 6 */
    pixDisplayWithTitle(dew->pixd, 400, 400, "fixed (2) for both disparities",
                        rp->display);

        /* Write and read back minimized dewarp struct */
    dewarpWrite("/tmp/dewarp.7.dew", dew);
    regTestCheckFile(rp, "/tmp/dewarp.7.dew");  /* 7 */
    dew2 = dewarpRead("/tmp/dewarp.7.dew");
    dewarpWrite("/tmp/dewarp.8.dew", dew2);
    regTestCheckFile(rp, "/tmp/dewarp.8.dew");  /* 8 */
    regTestCompareFiles(rp, 7, 8);  /* 9 */

        /* Apply dew2 to pixb2 */
    dewarpApplyDisparity(dew2, pixb2, 0);
    regTestWritePixAndCheck(rp, dew2->pixd, IFF_PNG);  /* 10 */
    pixDisplayWithTitle(dew->pixd, 800, 400, "fixed (3) for both disparities",
                        rp->display);

        /* Minimize, repopulate disparity arrays, and apply again */
    dewarpMinimize(dew2);
    dewarpApplyDisparity(dew2, pixb2, 0);
    regTestWritePixAndCheck(rp, dew2->pixd, IFF_PNG);  /* 11 */
    regTestCompareFiles(rp, 10, 11);  /* 12 */
    pixDisplayWithTitle(dew->pixd, 900, 400, "fixed (4) for both disparities",
                        rp->display);

        /* Test a few of the fpix functions */
    fpix1 = fpixClone(dew->sampvdispar);
    fpixWrite("/tmp/sampv.13.fpix", fpix1);
    regTestCheckFile(rp, "/tmp/sampv.13.fpix");  /* 13 */
    fpix2 = fpixRead("/tmp/sampv.13.fpix");
    fpixWrite("/tmp/sampv.14.fpix", fpix2);
    regTestCheckFile(rp, "/tmp/sampv.14.fpix");  /* 14 */
    regTestCompareFiles(rp, 13, 14);  /* 15 */
    fpix3 = fpixScaleByInteger(fpix2, 30);
    pixt1 = fpixRenderContours(fpix3, -2., 2.0, 0.2);
    regTestWritePixAndCheck(rp, pixt1, IFF_PNG);  /* 16 */
    pixDisplayWithTitle(pixt1, 0, 800, "v. disparity contours", rp->display);
    fpixDestroy(&fpix1);
    fpixDestroy(&fpix2);
    fpixDestroy(&fpix3);
    pixDestroy(&pixt1);

        /* Test a few of the dpix functions */
    dpix1 = fpixConvertToDPix(dew->sampvdispar);
    dpixWrite("/tmp/sampv.17.dpix", dpix1);
    regTestCheckFile(rp, "/tmp/sampv.17.dpix");  /* 17 */
    dpix2 = dpixRead("/tmp/sampv.17.dpix");
    dpixWrite("/tmp/sampv.18.dpix", dpix2);
    regTestCheckFile(rp, "/tmp/sampv.18.dpix");  /* 18 */
    regTestCompareFiles(rp, 17, 18);  /* 19 */
    dpix3 = dpixScaleByInteger(dpix2, 30);
    fpix3 = dpixConvertToFPix(dpix3);
    pixt1 = fpixRenderContours(fpix3, -2., 2.0, 0.2);
    regTestWritePixAndCheck(rp, pixt1, IFF_PNG);  /* 20 */
    pixDisplayWithTitle(pixt1, 400, 800, "v. disparity contours", rp->display);
    regTestCompareFiles(rp, 16, 20);  /* 21 */
    dpixDestroy(&dpix1);
    dpixDestroy(&dpix2);
    dpixDestroy(&dpix3);
    fpixDestroy(&fpix3);
    pixDestroy(&pixt1);

    dewarpDestroy(&dew);
    dewarpDestroy(&dew2);
    pixDestroy(&pixs);
    pixDestroy(&pixb);
    pixDestroy(&pixs2);
    pixDestroy(&pixb2);
    regTestCleanup(rp);
    return 0;
}