tesseract/pageseg/leptonica_pageseg.cpp
theraysmith aa55810b6b Misc improvements
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@132 d0cd1f9f-072b-0410-8dd7-cf729c803f20
2008-02-01 00:18:33 +00:00

369 lines
11 KiB
C++

///////////////////////////////////////////////////////////////////////
// File: leptonica_pageseg.cpp
// Description: Leptonica-based page segmenter.
// Author: Dan Bloomberg
// Created: Tue Aug 28 08:56:43 PDT 2007
//
// (C) Copyright 2007, Google Inc.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
///////////////////////////////////////////////////////////////////////
// Include automatically generated configuration file if running autoconf.
#ifdef HAVE_CONFIG_H
#include "config_auto.h"
#endif
#include "leptonica_pageseg.h"
#ifdef HAVE_LIBLEPT
// The jpeg library still has INT32 as long, which is no good for 64 bit.
#define INT32 WRONGINT32
#define BOX LEPT_BOX
// Include leptonica library only if autoconf (or makefile etc) tell us to.
#include "allheaders.h"
#undef BOX
#undef INT32
#endif
#ifdef HAVE_LIBLEPT
// ONLY available if you have Leptonica installed.
// class LeptonicaPageSeg
//
// Region segmentation
// bool GetHalftoneMask()
// bool GetTextlineMask()
// bool GetTextblockMask()
//
// Top-level (for testing/debugging)
// bool GetAllRegions()
//
//
//------------------------------------------------------------------
// Region segmentation
//------------------------------------------------------------------
// GetHalftoneMask()
// Input: pixs (input image, assumed to be at 300 - 400 ppi)
// &pixht (returns halftone mask; can be NULL)
// &baht (returns boxa of halftone mask component b.b.s; can be NULL)
// &paht (returns pixa of halftone mask components; can be NULL)
// debugflag (set true to write out intermediate images)
// Return: true if ok, false on error
// Note: If there are no halftone regions, all requested data structures
// are returned as NULL. This is not an error.
bool LeptonicaPageSeg::GetHalftoneMask(Pix *pixs,
Pix **ppixht,
Boxa **pbaht,
Pixa **ppaht,
bool debugflag) {
if (!pixs) {
fprintf(stderr, "pixs not defined\n");
return false;
}
int32 debug = debugflag ? 1 : 0;
// 2x reduce, to 150 - 200 ppi
Pix *pixr = pixReduceRankBinaryCascade(pixs, 1, 0, 0, 0);
pixDisplayWrite(pixr, debug);
// Get the halftone mask
Pix *pixht2 = pixGenHalftoneMask(pixr, NULL, NULL, debug);
pixDestroy(&pixr);
if (!pixht2) {
if (debug)
printf("No halftone image parts found\n");
if (ppixht) *ppixht = NULL;
if (pbaht) *pbaht = NULL;
if (ppaht) *ppaht = NULL;
return true;
} else {
if (debug)
printf("Halftone image parts found\n");
}
Pix *pixht = pixExpandReplicate(pixht2, 2);
pixDisplayWrite(pixht, debug);
pixDestroy(&pixht2);
// Fill to capture pixels near the mask edges that were missed
Pix *pixt = pixSeedfillBinary(NULL, pixht, pixs, 8);
pixOr(pixht, pixht, pixt);
pixDestroy(&pixt);
if (ppaht) {
Boxa *boxa = pixConnComp(pixht, ppaht, 4);
if (pbaht) {
*pbaht = boxa;
} else {
boxaDestroy(&boxa);
}
} else if (pbaht) {
*pbaht = pixConnComp(pixht, NULL, 4);
}
if (ppixht) {
*ppixht =pixht;
} else {
pixDestroy(&pixht);
}
return true;
}
// GetTextlineMask()
// Input: pixs (input image, assumed to be at 300 - 400 ppi)
// &pixtm (returns textline mask; can be NULL)
// &pixvws (returns vertical whitespace mask; can be NULL)
// &batm (returns boxa of textline mask component b.b.s; can be NULL)
// &patm (returns pixa of textline mask components; can be NULL)
// debugflag (set true to write out intermediate images)
// Return: true if ok, false on error
bool LeptonicaPageSeg::GetTextlineMask(Pix *pixs,
Pix **ppixtm,
Pix **ppixvws,
Boxa **pbatm,
Pixa **ppatm,
bool debugflag) {
if (!pixs) {
fprintf(stderr, "pixs not defined\n");
return false;
}
int32 debug = debugflag ? 1 : 0;
// 2x reduce, to 150 - 200 ppi
Pix *pixr = pixReduceRankBinaryCascade(pixs, 1, 0, 0, 0);
pixDisplayWrite(pixr, debug);
// Remove the halftone pixels from the image
Pix *pixtext;
Pix *pixht2 = pixGenHalftoneMask(pixr, &pixtext, NULL, debug);
pixDestroy(&pixr);
pixDestroy(&pixht2);
// Get the textline mask at full res
Pix *pixvws;
Pix *pixtm2 = pixGenTextlineMask(pixtext, &pixvws, NULL, debug);
Pix *pixt = pixExpandReplicate(pixtm2, 2);
pixDestroy(&pixtext);
pixDestroy(&pixtm2);
// Small dilation to capture pixels near the mask edges that were missed
// Do not use filling here, because the result is then used to find
// textblocks, and a mistake here gets propagated.
Pix *pixtm = pixDilateBrick(NULL, pixt, 3, 3);
pixDestroy(&pixt);
pixDisplayWrite(pixtm, debug);
if (ppatm) {
Boxa *boxa = pixConnComp(pixtm, ppatm, 4);
if (pbatm) {
*pbatm = boxa;
} else {
boxaDestroy(&boxa);
}
} else if (pbatm) {
*pbatm = pixConnComp(pixtm, NULL, 4);
}
if (ppixtm) {
*ppixtm =pixtm;
} else {
pixDestroy(&pixtm);
}
if (ppixvws) {
*ppixvws =pixvws;
} else {
pixDestroy(&pixvws);
}
return true;
}
// GetTextblockMask()
// Input: pixs (input image, assumed to be at 300 - 400 ppi)
// &pixtb (returns textblock mask; can be NULL)
// &batb (returns boxa of textblock mask component b.b; can be NULL)
// &patb (returns pixa of textblock mask components; can be NULL)
// debugflag (set true to write out intermediate images)
// Return: true if ok, false on error
// Notes:
// To obtain a set of polylines of the outer borders of each of the
// textblock regions, use pixGetOuterBordersPtaa().
bool LeptonicaPageSeg::GetTextblockMask(Pix *pixs,
Pix **ppixtb,
Boxa **pbatb,
Pixa **ppatb,
bool debugflag) {
if (!pixs) {
fprintf(stderr, "pixs not defined\n");
return false;
}
int32 debug = debugflag ? 1 : 0;
// Get the textline mask at 2x reduction
Pix *pixtm, *pixvws;
GetTextlineMask(pixs, &pixtm, &pixvws, NULL, NULL, debugflag);
Pix *pixtm2 = pixReduceRankBinaryCascade(pixtm, 1, 0, 0, 0);
pixDestroy(&pixtm);
// Get the textblock mask
Pix *pixtb2 = pixGenTextblockMask(pixtm2, pixvws, debug);
Pix *pixt = pixExpandReplicate(pixtb2, 2);
pixDestroy(&pixtm2);
pixDestroy(&pixtb2);
pixDestroy(&pixvws);
// Dilate to capture pixels near the mask edges that were missed
Pix *pixtb = pixDilateBrick(NULL, pixt, 3, 3);
pixDestroy(&pixt);
pixDisplayWrite(pixtb, debug);
if (ppatb) {
Boxa *boxa = pixConnComp(pixtb, ppatb, 4);
if (pbatb) {
*pbatb = boxa;
} else {
boxaDestroy(&boxa);
}
} else if (pbatb) {
*pbatb = pixConnComp(pixtb, NULL, 4);
}
if (ppixtb) {
*ppixtb = pixtb;
} else {
pixDestroy(&pixtb);
}
return true;
}
//------------------------------------------------------------------
// Top-level (for testing/debugging)
//------------------------------------------------------------------
// GetAllRegions()
// Input: pixs (input image, assumed to be at 300 - 400 ppi)
// &pixhm (returns halftone mask; can be NULL)
// &pixtm (returns textline mask; can be NULL)
// &pixtb (returns textblock mask; can be NULL)
// debugflag (set true to write out intermediate images and data)
// Return: true if ok, false on error
// Note: use NULL for input on each mask you don't want.
bool LeptonicaPageSeg::GetAllRegions(Pix *pixs,
Pix **ppixhm,
Pix **ppixtm,
Pix **ppixtb,
bool debugflag) {
if (!pixs || (pixGetDepth(pixs) != 1)) {
fprintf(stderr, "pixs not read or not 1 bpp\n");
return 1;
}
int32 w, h;
pixGetDimensions(pixs, &w, &h, NULL);
int32 debug = debugflag ? 1 : 0;
// Segment the page
Boxa *batm = NULL;
Boxa *batb = NULL;
Pixa *patm = NULL;
Pixa *patb = NULL;
Pix *pixhm = NULL;
Pix *pixtm = NULL;
Pix *pixtb = NULL;
startTimer();
LeptonicaPageSeg::GetHalftoneMask(pixs, &pixhm, NULL, NULL, false);
if (debug)
printf("Halftone segmentation time: %f sec\n", stopTimer());
startTimer();
LeptonicaPageSeg::GetTextlineMask(pixs, &pixtm, NULL, &batm, &patm, false);
if (debug)
printf("Textline segmentation time: %f sec\n", stopTimer());
startTimer();
LeptonicaPageSeg::GetTextblockMask(pixs, &pixtb, &batb, &patb, debugflag);
if (debug)
printf("Textblock segmentation time: %f sec\n", stopTimer());
// Display the textlines
if (debug) {
Pix *pixt = pixaDisplayRandomCmap(patm, w, h);
pixcmapResetColor(pixGetColormap(pixt), 0, 255, 255, 255); // white bg
pixDisplay(pixt, 100, 100);
pixDisplayWrite(pixt, 1);
pixDestroy(&pixt);
}
// Display the textblocks
if (debug) {
Pix *pixt = pixaDisplayRandomCmap(patb, w, h);
pixcmapResetColor(pixGetColormap(pixt), 0, 255, 255, 255);
pixDisplay(pixt, 100, 100);
pixDisplayWrite(pixt, 1);
pixDestroy(&pixt);
}
// Identify the outlines of each textblock
if (debug) {
Ptaa *ptaa = pixGetOuterBordersPtaa(pixtb);
Pix *pixt = pixRenderRandomCmapPtaa(pixtb, ptaa, 8, 1);
PixColormap *cmap = pixGetColormap(pixt);
pixcmapResetColor(cmap, 0, 130, 130, 130);
pixDisplayWrite(pixt, debug);
pixDestroy(&pixt);
ptaaWrite("junk_ptaa_outlines.ptaa", ptaa, 1);
ptaaDestroy(&ptaa);
}
// Save b.b. for textblocks
if (debug) {
Boxa *ba1 = boxaSelectBySize(batb, 3, 3, L_SELECT_IF_BOTH,
L_SELECT_IF_GTE, NULL);
boxaWrite("junk_textblock.boxa", ba1);
boxaDestroy(&ba1);
}
if (ppixhm) {
*ppixhm = pixhm;
} else {
pixDestroy(&pixhm);
}
if (ppixtm) {
*ppixtm = pixtm;
} else {
pixDestroy(&pixtm);
}
if (ppixtb) {
*ppixtb = pixtb;
} else {
pixDestroy(&pixtb);
}
boxaDestroy(&batm);
boxaDestroy(&batb);
pixaDestroy(&patm);
pixaDestroy(&patb);
pixDestroy(&pixs);
return true;
}
#endif // HAVE_LIBLEPT