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1214 lines
61 KiB
C++
1214 lines
61 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: tesseractclass.h
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// Description: The Tesseract class. It holds/owns everything needed
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// to run Tesseract on a single language, and also a set of
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// sub-Tesseracts to run sub-languages. For thread safety, *every*
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// global variable goes in here, directly, or indirectly.
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// This makes it safe to run multiple Tesseracts in different
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// threads in parallel, and keeps the different language
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// instances separate.
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// Author: Ray Smith
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// Created: Fri Mar 07 08:17:01 PST 2008
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//
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// (C) Copyright 2008, Google Inc.
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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///////////////////////////////////////////////////////////////////////
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#ifndef TESSERACT_CCMAIN_TESSERACTCLASS_H__
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#define TESSERACT_CCMAIN_TESSERACTCLASS_H__
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#include "allheaders.h"
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#include "control.h"
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#include "docqual.h"
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#include "devanagari_processing.h"
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#include "genericvector.h"
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#include "params.h"
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#include "ocrclass.h"
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#include "textord.h"
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#include "wordrec.h"
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class BLOB_CHOICE_LIST_CLIST;
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class BLOCK_LIST;
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class CharSamp;
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struct OSResults;
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class PAGE_RES;
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class PAGE_RES_IT;
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struct Pix;
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class ROW;
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class SVMenuNode;
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class TBOX;
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class TO_BLOCK_LIST;
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class WERD;
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class WERD_CHOICE;
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class WERD_RES;
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// Top-level class for all tesseract global instance data.
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// This class either holds or points to all data used by an instance
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// of Tesseract, including the memory allocator. When this is
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// complete, Tesseract will be thread-safe. UNTIL THEN, IT IS NOT!
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//
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// NOTE to developers: Do not create cyclic dependencies through this class!
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// The directory dependency tree must remain a tree! The keep this clean,
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// lower-level code (eg in ccutil, the bottom level) must never need to
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// know about the content of a higher-level directory.
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// The following scheme will grant the easiest access to lower-level
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// global members without creating a cyclic dependency:
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//
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// Class Hierarchy (^ = inheritance):
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//
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// CCUtil (ccutil/ccutil.h)
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// ^ Members include: UNICHARSET
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// CUtil (cutil/cutil_class.h)
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// ^ Members include: TBLOB*, TEXTBLOCK*
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// CCStruct (ccstruct/ccstruct.h)
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// ^ Members include: Image
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// Classify (classify/classify.h)
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// ^ Members include: Dict
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// WordRec (wordrec/wordrec.h)
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// ^ Members include: WERD*, DENORM*
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// Tesseract (ccmain/tesseractclass.h)
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// Members include: Pix*, CubeRecoContext*,
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// TesseractCubeCombiner*
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//
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// Other important classes:
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//
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// TessBaseAPI (api/baseapi.h)
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// Members include: BLOCK_LIST*, PAGE_RES*,
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// Tesseract*, ImageThresholder*
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// Dict (dict/dict.h)
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// Members include: Image* (private)
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//
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// NOTE: that each level contains members that correspond to global
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// data that is defined (and used) at that level, not necessarily where
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// the type is defined so for instance:
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// BOOL_VAR_H(textord_show_blobs, false, "Display unsorted blobs");
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// goes inside the Textord class, not the cc_util class.
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namespace tesseract {
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class ColumnFinder;
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#ifndef ANDROID_BUILD
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class CubeLineObject;
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class CubeObject;
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class CubeRecoContext;
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#endif
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class EquationDetect;
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class Tesseract;
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#ifndef ANDROID_BUILD
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class TesseractCubeCombiner;
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#endif
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// A collection of various variables for statistics and debugging.
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struct TesseractStats {
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TesseractStats()
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: adaption_word_number(0),
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doc_blob_quality(0),
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doc_outline_errs(0),
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doc_char_quality(0),
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good_char_count(0),
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doc_good_char_quality(0),
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word_count(0),
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dict_words(0),
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tilde_crunch_written(false),
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last_char_was_newline(true),
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last_char_was_tilde(false),
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write_results_empty_block(true) {}
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inT32 adaption_word_number;
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inT16 doc_blob_quality;
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inT16 doc_outline_errs;
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inT16 doc_char_quality;
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inT16 good_char_count;
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inT16 doc_good_char_quality;
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inT32 word_count; // count of word in the document
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inT32 dict_words; // number of dicitionary words in the document
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STRING dump_words_str; // accumulator used by dump_words()
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// Flags used by write_results()
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bool tilde_crunch_written;
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bool last_char_was_newline;
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bool last_char_was_tilde;
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bool write_results_empty_block;
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};
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// Struct to hold all the pointers to relevant data for processing a word.
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struct WordData {
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WordData() : word(NULL), row(NULL), block(NULL), prev_word(NULL) {}
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explicit WordData(const PAGE_RES_IT& page_res_it)
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: word(page_res_it.word()), row(page_res_it.row()->row),
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block(page_res_it.block()->block), prev_word(NULL) {}
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WordData(BLOCK* block_in, ROW* row_in, WERD_RES* word_res)
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: word(word_res), row(row_in), block(block_in), prev_word(NULL) {}
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WERD_RES* word;
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ROW* row;
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BLOCK* block;
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WordData* prev_word;
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PointerVector<WERD_RES> lang_words;
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};
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// Definition of a Tesseract WordRecognizer. The WordData provides the context
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// of row/block, in_word holds an initialized, possibly pre-classified word,
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// that the recognizer may or may not consume (but if so it sets *in_word=NULL)
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// and produces one or more output words in out_words, which may be the
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// consumed in_word, or may be generated independently.
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// This api allows both a conventional tesseract classifier to work, or a
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// line-level classifier that generates multiple words from a merged input.
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typedef void (Tesseract::*WordRecognizer)(const WordData& word_data,
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WERD_RES** in_word,
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PointerVector<WERD_RES>* out_words);
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class Tesseract : public Wordrec {
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public:
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Tesseract();
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~Tesseract();
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// Clear as much used memory as possible without resetting the adaptive
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// classifier or losing any other classifier data.
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void Clear();
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// Clear all memory of adaption for this and all subclassifiers.
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void ResetAdaptiveClassifier();
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// Clear the document dictionary for this and all subclassifiers.
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void ResetDocumentDictionary();
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// Set the equation detector.
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void SetEquationDetect(EquationDetect* detector);
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// Simple accessors.
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const FCOORD& reskew() const {
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return reskew_;
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}
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// Destroy any existing pix and return a pointer to the pointer.
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Pix** mutable_pix_binary() {
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Clear();
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return &pix_binary_;
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}
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Pix* pix_binary() const {
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return pix_binary_;
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}
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Pix* pix_grey() const {
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return pix_grey_;
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}
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void set_pix_grey(Pix* grey_pix) {
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pixDestroy(&pix_grey_);
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pix_grey_ = grey_pix;
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}
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// Returns a pointer to a Pix representing the best available image of the
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// page. The image will be 8-bit grey if the input was grey or color. Note
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// that in grey 0 is black and 255 is white. If the input was binary, then
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// the returned Pix will be binary. Note that here black is 1 and white is 0.
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// To tell the difference pixGetDepth() will return 8 or 1.
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// In either case, the return value is a borrowed Pix, and should not be
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// deleted or pixDestroyed.
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Pix* BestPix() const {
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return pix_grey_ != NULL ? pix_grey_ : pix_binary_;
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}
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void set_pix_thresholds(Pix* thresholds) {
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pixDestroy(&pix_thresholds_);
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pix_thresholds_ = thresholds;
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}
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int source_resolution() const {
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return source_resolution_;
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}
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void set_source_resolution(int ppi) {
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source_resolution_ = ppi;
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}
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int ImageWidth() const {
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return pixGetWidth(pix_binary_);
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}
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int ImageHeight() const {
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return pixGetHeight(pix_binary_);
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}
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Pix* scaled_color() const {
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return scaled_color_;
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}
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int scaled_factor() const {
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return scaled_factor_;
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}
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void SetScaledColor(int factor, Pix* color) {
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scaled_factor_ = factor;
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scaled_color_ = color;
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}
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const Textord& textord() const {
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return textord_;
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}
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Textord* mutable_textord() {
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return &textord_;
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}
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bool right_to_left() const {
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return right_to_left_;
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}
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int num_sub_langs() const {
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return sub_langs_.size();
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}
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Tesseract* get_sub_lang(int index) const {
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return sub_langs_[index];
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}
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// Returns true if any language uses Tesseract (as opposed to cube).
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bool AnyTessLang() const {
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if (tessedit_ocr_engine_mode != OEM_CUBE_ONLY) return true;
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for (int i = 0; i < sub_langs_.size(); ++i) {
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if (sub_langs_[i]->tessedit_ocr_engine_mode != OEM_CUBE_ONLY)
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return true;
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}
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return false;
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}
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void SetBlackAndWhitelist();
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// Perform steps to prepare underlying binary image/other data structures for
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// page segmentation. Uses the strategy specified in the global variable
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// pageseg_devanagari_split_strategy for perform splitting while preparing for
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// page segmentation.
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void PrepareForPageseg();
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// Perform steps to prepare underlying binary image/other data structures for
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// Tesseract OCR. The current segmentation is required by this method.
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// Uses the strategy specified in the global variable
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// ocr_devanagari_split_strategy for performing splitting while preparing for
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// Tesseract ocr.
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void PrepareForTessOCR(BLOCK_LIST* block_list,
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Tesseract* osd_tess, OSResults* osr);
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int SegmentPage(const STRING* input_file, BLOCK_LIST* blocks,
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Tesseract* osd_tess, OSResults* osr);
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void SetupWordScripts(BLOCK_LIST* blocks);
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int AutoPageSeg(PageSegMode pageseg_mode, BLOCK_LIST* blocks,
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TO_BLOCK_LIST* to_blocks, BLOBNBOX_LIST* diacritic_blobs,
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Tesseract* osd_tess, OSResults* osr);
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ColumnFinder* SetupPageSegAndDetectOrientation(
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PageSegMode pageseg_mode, BLOCK_LIST* blocks, Tesseract* osd_tess,
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OSResults* osr, TO_BLOCK_LIST* to_blocks, Pix** photo_mask_pix,
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Pix** music_mask_pix);
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// par_control.cpp
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void PrerecAllWordsPar(const GenericVector<WordData>& words);
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//// control.h /////////////////////////////////////////////////////////
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bool ProcessTargetWord(const TBOX& word_box, const TBOX& target_word_box,
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const char* word_config, int pass);
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// Sets up the words ready for whichever engine is to be run
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void SetupAllWordsPassN(int pass_n,
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const TBOX* target_word_box,
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const char* word_config,
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PAGE_RES* page_res,
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GenericVector<WordData>* words);
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// Sets up the single word ready for whichever engine is to be run.
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void SetupWordPassN(int pass_n, WordData* word);
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// Runs word recognition on all the words.
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bool RecogAllWordsPassN(int pass_n, ETEXT_DESC* monitor,
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PAGE_RES_IT* pr_it,
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GenericVector<WordData>* words);
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bool recog_all_words(PAGE_RES* page_res,
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ETEXT_DESC* monitor,
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const TBOX* target_word_box,
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const char* word_config,
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int dopasses);
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void rejection_passes(PAGE_RES* page_res,
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ETEXT_DESC* monitor,
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const TBOX* target_word_box,
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const char* word_config);
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void bigram_correction_pass(PAGE_RES *page_res);
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void blamer_pass(PAGE_RES* page_res);
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// Sets script positions and detects smallcaps on all output words.
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void script_pos_pass(PAGE_RES* page_res);
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// Helper to recognize the word using the given (language-specific) tesseract.
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// Returns positive if this recognizer found more new best words than the
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// number kept from best_words.
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int RetryWithLanguage(const WordData& word_data,
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WordRecognizer recognizer,
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WERD_RES** in_word,
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PointerVector<WERD_RES>* best_words);
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// Moves good-looking "noise"/diacritics from the reject list to the main
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// blob list on the current word. Returns true if anything was done, and
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// sets make_next_word_fuzzy if blob(s) were added to the end of the word.
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bool ReassignDiacritics(int pass, PAGE_RES_IT* pr_it,
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bool* make_next_word_fuzzy);
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// Attempts to put noise/diacritic outlines into the blobs that they overlap.
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// Input: a set of noisy outlines that probably belong to the real_word.
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// Output: outlines that overlapped blobs are set to NULL and put back into
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// the word, either in the blobs or in the reject list.
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void AssignDiacriticsToOverlappingBlobs(
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const GenericVector<C_OUTLINE*>& outlines, int pass, WERD* real_word,
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PAGE_RES_IT* pr_it, GenericVector<bool>* word_wanted,
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GenericVector<bool>* overlapped_any_blob,
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GenericVector<C_BLOB*>* target_blobs);
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// Attempts to assign non-overlapping outlines to their nearest blobs or
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// make new blobs out of them.
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void AssignDiacriticsToNewBlobs(const GenericVector<C_OUTLINE*>& outlines,
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int pass, WERD* real_word, PAGE_RES_IT* pr_it,
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GenericVector<bool>* word_wanted,
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GenericVector<C_BLOB*>* target_blobs);
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// Starting with ok_outlines set to indicate which outlines overlap the blob,
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// chooses the optimal set (approximately) and returns true if any outlines
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// are desired, in which case ok_outlines indicates which ones.
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bool SelectGoodDiacriticOutlines(int pass, float certainty_threshold,
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PAGE_RES_IT* pr_it, C_BLOB* blob,
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const GenericVector<C_OUTLINE*>& outlines,
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int num_outlines,
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GenericVector<bool>* ok_outlines);
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// Classifies the given blob plus the outlines flagged by ok_outlines, undoes
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// the inclusion of the outlines, and returns the certainty of the raw choice.
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float ClassifyBlobPlusOutlines(const GenericVector<bool>& ok_outlines,
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const GenericVector<C_OUTLINE*>& outlines,
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int pass_n, PAGE_RES_IT* pr_it, C_BLOB* blob,
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STRING* best_str);
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// Classifies the given blob (part of word_data->word->word) as an individual
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// word, using languages, chopper etc, returning only the certainty of the
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// best raw choice, and undoing all the work done to fake out the word.
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float ClassifyBlobAsWord(int pass_n, PAGE_RES_IT* pr_it, C_BLOB* blob,
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STRING* best_str, float* c2);
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void classify_word_and_language(int pass_n, PAGE_RES_IT* pr_it,
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WordData* word_data);
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void classify_word_pass1(const WordData& word_data,
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WERD_RES** in_word,
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PointerVector<WERD_RES>* out_words);
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void recog_pseudo_word(PAGE_RES* page_res, // blocks to check
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TBOX &selection_box);
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void fix_rep_char(PAGE_RES_IT* page_res_it);
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ACCEPTABLE_WERD_TYPE acceptable_word_string(const UNICHARSET& char_set,
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const char *s,
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const char *lengths);
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void match_word_pass_n(int pass_n, WERD_RES *word, ROW *row, BLOCK* block);
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void classify_word_pass2(const WordData& word_data,
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WERD_RES** in_word,
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PointerVector<WERD_RES>* out_words);
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void ReportXhtFixResult(bool accept_new_word, float new_x_ht,
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WERD_RES* word, WERD_RES* new_word);
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bool RunOldFixXht(WERD_RES *word, BLOCK* block, ROW *row);
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bool TrainedXheightFix(WERD_RES *word, BLOCK* block, ROW *row);
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// Runs recognition with the test baseline shift and x-height and returns true
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// if there was an improvement in recognition result.
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bool TestNewNormalization(int original_misfits, float baseline_shift,
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float new_x_ht, WERD_RES *word, BLOCK* block,
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ROW *row);
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BOOL8 recog_interactive(PAGE_RES_IT* pr_it);
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// Set fonts of this word.
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void set_word_fonts(WERD_RES *word);
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void font_recognition_pass(PAGE_RES* page_res);
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void dictionary_correction_pass(PAGE_RES* page_res);
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BOOL8 check_debug_pt(WERD_RES *word, int location);
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//// superscript.cpp ////////////////////////////////////////////////////
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bool SubAndSuperscriptFix(WERD_RES *word_res);
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void GetSubAndSuperscriptCandidates(const WERD_RES *word,
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int *num_rebuilt_leading,
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ScriptPos *leading_pos,
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float *leading_certainty,
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int *num_rebuilt_trailing,
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ScriptPos *trailing_pos,
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float *trailing_certainty,
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float *avg_certainty,
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float *unlikely_threshold);
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WERD_RES *TrySuperscriptSplits(int num_chopped_leading,
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float leading_certainty,
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ScriptPos leading_pos,
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int num_chopped_trailing,
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float trailing_certainty,
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ScriptPos trailing_pos,
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WERD_RES *word,
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bool *is_good,
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int *retry_leading,
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int *retry_trailing);
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bool BelievableSuperscript(bool debug,
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const WERD_RES &word,
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float certainty_threshold,
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int *left_ok,
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int *right_ok) const;
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//// cube_control.cpp ///////////////////////////////////////////////////
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#ifndef ANDROID_BUILD
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bool init_cube_objects(bool load_combiner,
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TessdataManager *tessdata_manager);
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// Iterates through tesseract's results and calls cube on each word,
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// combining the results with the existing tesseract result.
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void run_cube_combiner(PAGE_RES *page_res);
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// Recognizes a single word using (only) cube. Compatible with
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// Tesseract's classify_word_pass1/classify_word_pass2.
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void cube_word_pass1(BLOCK* block, ROW *row, WERD_RES *word);
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// Cube recognizer to recognize a single word as with classify_word_pass1
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// but also returns the cube object in case the combiner is needed.
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CubeObject* cube_recognize_word(BLOCK* block, WERD_RES* word);
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// Combines the cube and tesseract results for a single word, leaving the
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// result in tess_word.
|
|
void cube_combine_word(CubeObject* cube_obj, WERD_RES* cube_word,
|
|
WERD_RES* tess_word);
|
|
// Call cube on the current word, and write the result to word.
|
|
// Sets up a fake result and returns false if something goes wrong.
|
|
bool cube_recognize(CubeObject *cube_obj, BLOCK* block, WERD_RES *word);
|
|
void fill_werd_res(const BoxWord& cube_box_word,
|
|
const char* cube_best_str,
|
|
WERD_RES* tess_werd_res);
|
|
bool extract_cube_state(CubeObject* cube_obj, int* num_chars,
|
|
Boxa** char_boxes, CharSamp*** char_samples);
|
|
bool create_cube_box_word(Boxa *char_boxes, int num_chars,
|
|
TBOX word_box, BoxWord* box_word);
|
|
#endif
|
|
//// output.h //////////////////////////////////////////////////////////
|
|
|
|
void output_pass(PAGE_RES_IT &page_res_it, const TBOX *target_word_box);
|
|
void write_results(PAGE_RES_IT &page_res_it, // full info
|
|
char newline_type, // type of newline
|
|
BOOL8 force_eol // override tilde crunch?
|
|
);
|
|
void set_unlv_suspects(WERD_RES *word);
|
|
UNICHAR_ID get_rep_char(WERD_RES *word); // what char is repeated?
|
|
BOOL8 acceptable_number_string(const char *s,
|
|
const char *lengths);
|
|
inT16 count_alphanums(const WERD_CHOICE &word);
|
|
inT16 count_alphas(const WERD_CHOICE &word);
|
|
//// tessedit.h ////////////////////////////////////////////////////////
|
|
void read_config_file(const char *filename, SetParamConstraint constraint);
|
|
// Initialize for potentially a set of languages defined by the language
|
|
// string and recursively any additional languages required by any language
|
|
// traineddata file (via tessedit_load_sublangs in its config) that is loaded.
|
|
// See init_tesseract_internal for args.
|
|
int init_tesseract(const char *arg0,
|
|
const char *textbase,
|
|
const char *language,
|
|
OcrEngineMode oem,
|
|
char **configs,
|
|
int configs_size,
|
|
const GenericVector<STRING> *vars_vec,
|
|
const GenericVector<STRING> *vars_values,
|
|
bool set_only_init_params);
|
|
int init_tesseract(const char *datapath,
|
|
const char *language,
|
|
OcrEngineMode oem) {
|
|
return init_tesseract(datapath, NULL, language, oem,
|
|
NULL, 0, NULL, NULL, false);
|
|
}
|
|
// Common initialization for a single language.
|
|
// arg0 is the datapath for the tessdata directory, which could be the
|
|
// path of the tessdata directory with no trailing /, or (if tessdata
|
|
// lives in the same directory as the executable, the path of the executable,
|
|
// hence the name arg0.
|
|
// textbase is an optional output file basename (used only for training)
|
|
// language is the language code to load.
|
|
// oem controls which engine(s) will operate on the image
|
|
// configs (argv) is an array of config filenames to load variables from.
|
|
// May be NULL.
|
|
// configs_size (argc) is the number of elements in configs.
|
|
// vars_vec is an optional vector of variables to set.
|
|
// vars_values is an optional corresponding vector of values for the variables
|
|
// in vars_vec.
|
|
// If set_only_init_params is true, then only the initialization variables
|
|
// will be set.
|
|
int init_tesseract_internal(const char *arg0,
|
|
const char *textbase,
|
|
const char *language,
|
|
OcrEngineMode oem,
|
|
char **configs,
|
|
int configs_size,
|
|
const GenericVector<STRING> *vars_vec,
|
|
const GenericVector<STRING> *vars_values,
|
|
bool set_only_init_params);
|
|
|
|
// Set the universal_id member of each font to be unique among all
|
|
// instances of the same font loaded.
|
|
void SetupUniversalFontIds();
|
|
|
|
int init_tesseract_lm(const char *arg0,
|
|
const char *textbase,
|
|
const char *language);
|
|
|
|
void recognize_page(STRING& image_name);
|
|
void end_tesseract();
|
|
|
|
bool init_tesseract_lang_data(const char *arg0,
|
|
const char *textbase,
|
|
const char *language,
|
|
OcrEngineMode oem,
|
|
char **configs,
|
|
int configs_size,
|
|
const GenericVector<STRING> *vars_vec,
|
|
const GenericVector<STRING> *vars_values,
|
|
bool set_only_init_params);
|
|
|
|
void ParseLanguageString(const char* lang_str,
|
|
GenericVector<STRING>* to_load,
|
|
GenericVector<STRING>* not_to_load);
|
|
|
|
//// pgedit.h //////////////////////////////////////////////////////////
|
|
SVMenuNode *build_menu_new();
|
|
#ifndef GRAPHICS_DISABLED
|
|
void pgeditor_main(int width, int height, PAGE_RES* page_res);
|
|
#endif // GRAPHICS_DISABLED
|
|
void process_image_event( // action in image win
|
|
const SVEvent &event);
|
|
BOOL8 process_cmd_win_event( // UI command semantics
|
|
inT32 cmd_event, // which menu item?
|
|
char *new_value // any prompt data
|
|
);
|
|
void debug_word(PAGE_RES* page_res, const TBOX &selection_box);
|
|
void do_re_display(
|
|
BOOL8 (tesseract::Tesseract::*word_painter)(PAGE_RES_IT* pr_it));
|
|
BOOL8 word_display(PAGE_RES_IT* pr_it);
|
|
BOOL8 word_bln_display(PAGE_RES_IT* pr_it);
|
|
BOOL8 word_blank_and_set_display(PAGE_RES_IT* pr_its);
|
|
BOOL8 word_set_display(PAGE_RES_IT* pr_it);
|
|
// #ifndef GRAPHICS_DISABLED
|
|
BOOL8 word_dumper(PAGE_RES_IT* pr_it);
|
|
// #endif // GRAPHICS_DISABLED
|
|
void blob_feature_display(PAGE_RES* page_res, const TBOX& selection_box);
|
|
//// reject.h //////////////////////////////////////////////////////////
|
|
// make rej map for word
|
|
void make_reject_map(WERD_RES *word, ROW *row, inT16 pass);
|
|
BOOL8 one_ell_conflict(WERD_RES *word_res, BOOL8 update_map);
|
|
inT16 first_alphanum_index(const char *word,
|
|
const char *word_lengths);
|
|
inT16 first_alphanum_offset(const char *word,
|
|
const char *word_lengths);
|
|
inT16 alpha_count(const char *word,
|
|
const char *word_lengths);
|
|
BOOL8 word_contains_non_1_digit(const char *word,
|
|
const char *word_lengths);
|
|
void dont_allow_1Il(WERD_RES *word);
|
|
inT16 count_alphanums( //how many alphanums
|
|
WERD_RES *word);
|
|
void flip_0O(WERD_RES *word);
|
|
BOOL8 non_0_digit(const UNICHARSET& ch_set, UNICHAR_ID unichar_id);
|
|
BOOL8 non_O_upper(const UNICHARSET& ch_set, UNICHAR_ID unichar_id);
|
|
BOOL8 repeated_nonalphanum_wd(WERD_RES *word, ROW *row);
|
|
void nn_match_word( //Match a word
|
|
WERD_RES *word,
|
|
ROW *row);
|
|
void nn_recover_rejects(WERD_RES *word, ROW *row);
|
|
void set_done( //set done flag
|
|
WERD_RES *word,
|
|
inT16 pass);
|
|
inT16 safe_dict_word(const WERD_RES *werd_res); // is best_choice in dict?
|
|
void flip_hyphens(WERD_RES *word);
|
|
void reject_I_1_L(WERD_RES *word);
|
|
void reject_edge_blobs(WERD_RES *word);
|
|
void reject_mostly_rejects(WERD_RES *word);
|
|
//// adaptions.h ///////////////////////////////////////////////////////
|
|
BOOL8 word_adaptable( //should we adapt?
|
|
WERD_RES *word,
|
|
uinT16 mode);
|
|
|
|
//// tfacepp.cpp ///////////////////////////////////////////////////////
|
|
void recog_word_recursive(WERD_RES* word);
|
|
void recog_word(WERD_RES *word);
|
|
void split_and_recog_word(WERD_RES* word);
|
|
void split_word(WERD_RES *word,
|
|
int split_pt,
|
|
WERD_RES **right_piece,
|
|
BlamerBundle **orig_blamer_bundle) const;
|
|
void join_words(WERD_RES *word,
|
|
WERD_RES *word2,
|
|
BlamerBundle *orig_bb) const;
|
|
//// fixspace.cpp ///////////////////////////////////////////////////////
|
|
BOOL8 digit_or_numeric_punct(WERD_RES *word, int char_position);
|
|
inT16 eval_word_spacing(WERD_RES_LIST &word_res_list);
|
|
void match_current_words(WERD_RES_LIST &words, ROW *row, BLOCK* block);
|
|
inT16 fp_eval_word_spacing(WERD_RES_LIST &word_res_list);
|
|
void fix_noisy_space_list(WERD_RES_LIST &best_perm, ROW *row, BLOCK* block);
|
|
void fix_fuzzy_space_list(WERD_RES_LIST &best_perm, ROW *row, BLOCK* block);
|
|
void fix_sp_fp_word(WERD_RES_IT &word_res_it, ROW *row, BLOCK* block);
|
|
void fix_fuzzy_spaces( //find fuzzy words
|
|
ETEXT_DESC *monitor, //progress monitor
|
|
inT32 word_count, //count of words in doc
|
|
PAGE_RES *page_res);
|
|
void dump_words(WERD_RES_LIST &perm, inT16 score,
|
|
inT16 mode, BOOL8 improved);
|
|
BOOL8 fixspace_thinks_word_done(WERD_RES *word);
|
|
inT16 worst_noise_blob(WERD_RES *word_res, float *worst_noise_score);
|
|
float blob_noise_score(TBLOB *blob);
|
|
void break_noisiest_blob_word(WERD_RES_LIST &words);
|
|
//// docqual.cpp ////////////////////////////////////////////////////////
|
|
GARBAGE_LEVEL garbage_word(WERD_RES *word, BOOL8 ok_dict_word);
|
|
BOOL8 potential_word_crunch(WERD_RES *word,
|
|
GARBAGE_LEVEL garbage_level,
|
|
BOOL8 ok_dict_word);
|
|
void tilde_crunch(PAGE_RES_IT &page_res_it);
|
|
void unrej_good_quality_words( //unreject potential
|
|
PAGE_RES_IT &page_res_it);
|
|
void doc_and_block_rejection( //reject big chunks
|
|
PAGE_RES_IT &page_res_it,
|
|
BOOL8 good_quality_doc);
|
|
void quality_based_rejection(PAGE_RES_IT &page_res_it,
|
|
BOOL8 good_quality_doc);
|
|
void convert_bad_unlv_chs(WERD_RES *word_res);
|
|
void tilde_delete(PAGE_RES_IT &page_res_it);
|
|
inT16 word_blob_quality(WERD_RES *word, ROW *row);
|
|
void word_char_quality(WERD_RES *word, ROW *row, inT16 *match_count,
|
|
inT16 *accepted_match_count);
|
|
void unrej_good_chs(WERD_RES *word, ROW *row);
|
|
inT16 count_outline_errs(char c, inT16 outline_count);
|
|
inT16 word_outline_errs(WERD_RES *word);
|
|
BOOL8 terrible_word_crunch(WERD_RES *word, GARBAGE_LEVEL garbage_level);
|
|
CRUNCH_MODE word_deletable(WERD_RES *word, inT16 &delete_mode);
|
|
inT16 failure_count(WERD_RES *word);
|
|
BOOL8 noise_outlines(TWERD *word);
|
|
//// pagewalk.cpp ///////////////////////////////////////////////////////
|
|
void
|
|
process_selected_words (
|
|
PAGE_RES* page_res, // blocks to check
|
|
//function to call
|
|
TBOX & selection_box,
|
|
BOOL8 (tesseract::Tesseract::*word_processor)(PAGE_RES_IT* pr_it));
|
|
//// tessbox.cpp ///////////////////////////////////////////////////////
|
|
void tess_add_doc_word( //test acceptability
|
|
WERD_CHOICE *word_choice //after context
|
|
);
|
|
void tess_segment_pass_n(int pass_n, WERD_RES *word);
|
|
bool tess_acceptable_word(WERD_RES *word);
|
|
|
|
//// applybox.cpp //////////////////////////////////////////////////////
|
|
// Applies the box file based on the image name fname, and resegments
|
|
// the words in the block_list (page), with:
|
|
// blob-mode: one blob per line in the box file, words as input.
|
|
// word/line-mode: one blob per space-delimited unit after the #, and one word
|
|
// per line in the box file. (See comment above for box file format.)
|
|
// If find_segmentation is true, (word/line mode) then the classifier is used
|
|
// to re-segment words/lines to match the space-delimited truth string for
|
|
// each box. In this case, the input box may be for a word or even a whole
|
|
// text line, and the output words will contain multiple blobs corresponding
|
|
// to the space-delimited input string.
|
|
// With find_segmentation false, no classifier is needed, but the chopper
|
|
// can still be used to correctly segment touching characters with the help
|
|
// of the input boxes.
|
|
// In the returned PAGE_RES, the WERD_RES are setup as they would be returned
|
|
// from normal classification, ie. with a word, chopped_word, rebuild_word,
|
|
// seam_array, denorm, box_word, and best_state, but NO best_choice or
|
|
// raw_choice, as they would require a UNICHARSET, which we aim to avoid.
|
|
// Instead, the correct_text member of WERD_RES is set, and this may be later
|
|
// converted to a best_choice using CorrectClassifyWords. CorrectClassifyWords
|
|
// is not required before calling ApplyBoxTraining.
|
|
PAGE_RES* ApplyBoxes(const STRING& fname, bool find_segmentation,
|
|
BLOCK_LIST *block_list);
|
|
|
|
// Any row xheight that is significantly different from the median is set
|
|
// to the median.
|
|
void PreenXHeights(BLOCK_LIST *block_list);
|
|
|
|
// Builds a PAGE_RES from the block_list in the way required for ApplyBoxes:
|
|
// All fuzzy spaces are removed, and all the words are maximally chopped.
|
|
PAGE_RES* SetupApplyBoxes(const GenericVector<TBOX>& boxes,
|
|
BLOCK_LIST *block_list);
|
|
// Tests the chopper by exhaustively running chop_one_blob.
|
|
// The word_res will contain filled chopped_word, seam_array, denorm,
|
|
// box_word and best_state for the maximally chopped word.
|
|
void MaximallyChopWord(const GenericVector<TBOX>& boxes,
|
|
BLOCK* block, ROW* row, WERD_RES* word_res);
|
|
// Gather consecutive blobs that match the given box into the best_state
|
|
// and corresponding correct_text.
|
|
// Fights over which box owns which blobs are settled by pre-chopping and
|
|
// applying the blobs to box or next_box with the least non-overlap.
|
|
// Returns false if the box was in error, which can only be caused by
|
|
// failing to find an appropriate blob for a box.
|
|
// This means that occasionally, blobs may be incorrectly segmented if the
|
|
// chopper fails to find a suitable chop point.
|
|
bool ResegmentCharBox(PAGE_RES* page_res, const TBOX *prev_box,
|
|
const TBOX& box, const TBOX& next_box,
|
|
const char* correct_text);
|
|
// Consume all source blobs that strongly overlap the given box,
|
|
// putting them into a new word, with the correct_text label.
|
|
// Fights over which box owns which blobs are settled by
|
|
// applying the blobs to box or next_box with the least non-overlap.
|
|
// Returns false if the box was in error, which can only be caused by
|
|
// failing to find an overlapping blob for a box.
|
|
bool ResegmentWordBox(BLOCK_LIST *block_list,
|
|
const TBOX& box, const TBOX& next_box,
|
|
const char* correct_text);
|
|
// Resegments the words by running the classifier in an attempt to find the
|
|
// correct segmentation that produces the required string.
|
|
void ReSegmentByClassification(PAGE_RES* page_res);
|
|
// Converts the space-delimited string of utf8 text to a vector of UNICHAR_ID.
|
|
// Returns false if an invalid UNICHAR_ID is encountered.
|
|
bool ConvertStringToUnichars(const char* utf8,
|
|
GenericVector<UNICHAR_ID>* class_ids);
|
|
// Resegments the word to achieve the target_text from the classifier.
|
|
// Returns false if the re-segmentation fails.
|
|
// Uses brute-force combination of upto kMaxGroupSize adjacent blobs, and
|
|
// applies a full search on the classifier results to find the best classified
|
|
// segmentation. As a compromise to obtain better recall, 1-1 ambigiguity
|
|
// substitutions ARE used.
|
|
bool FindSegmentation(const GenericVector<UNICHAR_ID>& target_text,
|
|
WERD_RES* word_res);
|
|
// Recursive helper to find a match to the target_text (from text_index
|
|
// position) in the choices (from choices_pos position).
|
|
// Choices is an array of GenericVectors, of length choices_length, with each
|
|
// element representing a starting position in the word, and the
|
|
// GenericVector holding classification results for a sequence of consecutive
|
|
// blobs, with index 0 being a single blob, index 1 being 2 blobs etc.
|
|
void SearchForText(const GenericVector<BLOB_CHOICE_LIST*>* choices,
|
|
int choices_pos, int choices_length,
|
|
const GenericVector<UNICHAR_ID>& target_text,
|
|
int text_index,
|
|
float rating, GenericVector<int>* segmentation,
|
|
float* best_rating, GenericVector<int>* best_segmentation);
|
|
// Counts up the labelled words and the blobs within.
|
|
// Deletes all unused or emptied words, counting the unused ones.
|
|
// Resets W_BOL and W_EOL flags correctly.
|
|
// Builds the rebuild_word and rebuilds the box_word.
|
|
void TidyUp(PAGE_RES* page_res);
|
|
// Logs a bad box by line in the box file and box coords.
|
|
void ReportFailedBox(int boxfile_lineno, TBOX box, const char *box_ch,
|
|
const char *err_msg);
|
|
// Creates a fake best_choice entry in each WERD_RES with the correct text.
|
|
void CorrectClassifyWords(PAGE_RES* page_res);
|
|
// Call LearnWord to extract features for labelled blobs within each word.
|
|
// Features are stored in an internal buffer.
|
|
void ApplyBoxTraining(const STRING& fontname, PAGE_RES* page_res);
|
|
|
|
//// fixxht.cpp ///////////////////////////////////////////////////////
|
|
// Returns the number of misfit blob tops in this word.
|
|
int CountMisfitTops(WERD_RES *word_res);
|
|
// Returns a new x-height in pixels (original image coords) that is
|
|
// maximally compatible with the result in word_res.
|
|
// Returns 0.0f if no x-height is found that is better than the current
|
|
// estimate.
|
|
float ComputeCompatibleXheight(WERD_RES *word_res, float* baseline_shift);
|
|
//// Data members ///////////////////////////////////////////////////////
|
|
// TODO(ocr-team): Find and remove obsolete parameters.
|
|
BOOL_VAR_H(tessedit_resegment_from_boxes, false,
|
|
"Take segmentation and labeling from box file");
|
|
BOOL_VAR_H(tessedit_resegment_from_line_boxes, false,
|
|
"Conversion of word/line box file to char box file");
|
|
BOOL_VAR_H(tessedit_train_from_boxes, false,
|
|
"Generate training data from boxed chars");
|
|
BOOL_VAR_H(tessedit_make_boxes_from_boxes, false,
|
|
"Generate more boxes from boxed chars");
|
|
BOOL_VAR_H(tessedit_dump_pageseg_images, false,
|
|
"Dump intermediate images made during page segmentation");
|
|
INT_VAR_H(tessedit_pageseg_mode, PSM_SINGLE_BLOCK,
|
|
"Page seg mode: 0=osd only, 1=auto+osd, 2=auto, 3=col, 4=block,"
|
|
" 5=line, 6=word, 7=char"
|
|
" (Values from PageSegMode enum in publictypes.h)");
|
|
INT_VAR_H(tessedit_ocr_engine_mode, tesseract::OEM_TESSERACT_ONLY,
|
|
"Which OCR engine(s) to run (Tesseract, Cube, both). Defaults"
|
|
" to loading and running only Tesseract (no Cube, no combiner)."
|
|
" (Values from OcrEngineMode enum in tesseractclass.h)");
|
|
STRING_VAR_H(tessedit_char_blacklist, "",
|
|
"Blacklist of chars not to recognize");
|
|
STRING_VAR_H(tessedit_char_whitelist, "",
|
|
"Whitelist of chars to recognize");
|
|
STRING_VAR_H(tessedit_char_unblacklist, "",
|
|
"List of chars to override tessedit_char_blacklist");
|
|
BOOL_VAR_H(tessedit_ambigs_training, false,
|
|
"Perform training for ambiguities");
|
|
INT_VAR_H(pageseg_devanagari_split_strategy,
|
|
tesseract::ShiroRekhaSplitter::NO_SPLIT,
|
|
"Whether to use the top-line splitting process for Devanagari "
|
|
"documents while performing page-segmentation.");
|
|
INT_VAR_H(ocr_devanagari_split_strategy,
|
|
tesseract::ShiroRekhaSplitter::NO_SPLIT,
|
|
"Whether to use the top-line splitting process for Devanagari "
|
|
"documents while performing ocr.");
|
|
STRING_VAR_H(tessedit_write_params_to_file, "",
|
|
"Write all parameters to the given file.");
|
|
BOOL_VAR_H(tessedit_adaption_debug, false,
|
|
"Generate and print debug information for adaption");
|
|
INT_VAR_H(bidi_debug, 0, "Debug level for BiDi");
|
|
INT_VAR_H(applybox_debug, 1, "Debug level");
|
|
INT_VAR_H(applybox_page, 0, "Page number to apply boxes from");
|
|
STRING_VAR_H(applybox_exposure_pattern, ".exp",
|
|
"Exposure value follows this pattern in the image"
|
|
" filename. The name of the image files are expected"
|
|
" to be in the form [lang].[fontname].exp[num].tif");
|
|
BOOL_VAR_H(applybox_learn_chars_and_char_frags_mode, false,
|
|
"Learn both character fragments (as is done in the"
|
|
" special low exposure mode) as well as unfragmented"
|
|
" characters.");
|
|
BOOL_VAR_H(applybox_learn_ngrams_mode, false,
|
|
"Each bounding box is assumed to contain ngrams. Only"
|
|
" learn the ngrams whose outlines overlap horizontally.");
|
|
BOOL_VAR_H(tessedit_display_outwords, false, "Draw output words");
|
|
BOOL_VAR_H(tessedit_dump_choices, false, "Dump char choices");
|
|
BOOL_VAR_H(tessedit_timing_debug, false, "Print timing stats");
|
|
BOOL_VAR_H(tessedit_fix_fuzzy_spaces, true,
|
|
"Try to improve fuzzy spaces");
|
|
BOOL_VAR_H(tessedit_unrej_any_wd, false,
|
|
"Dont bother with word plausibility");
|
|
BOOL_VAR_H(tessedit_fix_hyphens, true, "Crunch double hyphens?");
|
|
BOOL_VAR_H(tessedit_redo_xheight, true, "Check/Correct x-height");
|
|
BOOL_VAR_H(tessedit_enable_doc_dict, true,
|
|
"Add words to the document dictionary");
|
|
BOOL_VAR_H(tessedit_debug_fonts, false, "Output font info per char");
|
|
BOOL_VAR_H(tessedit_debug_block_rejection, false, "Block and Row stats");
|
|
BOOL_VAR_H(tessedit_enable_bigram_correction, true,
|
|
"Enable correction based on the word bigram dictionary.");
|
|
BOOL_VAR_H(tessedit_enable_dict_correction, false,
|
|
"Enable single word correction based on the dictionary.");
|
|
INT_VAR_H(tessedit_bigram_debug, 0, "Amount of debug output for bigram "
|
|
"correction.");
|
|
BOOL_VAR_H(enable_noise_removal, true,
|
|
"Remove and conditionally reassign small outlines when they"
|
|
" confuse layout analysis, determining diacritics vs noise");
|
|
INT_VAR_H(debug_noise_removal, 0, "Debug reassignment of small outlines");
|
|
// Worst (min) certainty, for which a diacritic is allowed to make the base
|
|
// character worse and still be included.
|
|
double_VAR_H(noise_cert_basechar, -8.0, "Hingepoint for base char certainty");
|
|
// Worst (min) certainty, for which a non-overlapping diacritic is allowed to
|
|
// make the base character worse and still be included.
|
|
double_VAR_H(noise_cert_disjoint, -2.5, "Hingepoint for disjoint certainty");
|
|
// Worst (min) certainty, for which a diacritic is allowed to make a new
|
|
// stand-alone blob.
|
|
double_VAR_H(noise_cert_punc, -2.5, "Threshold for new punc char certainty");
|
|
// Factor of certainty margin for adding diacritics to not count as worse.
|
|
double_VAR_H(noise_cert_factor, 0.375,
|
|
"Scaling on certainty diff from Hingepoint");
|
|
INT_VAR_H(noise_maxperblob, 8, "Max diacritics to apply to a blob");
|
|
INT_VAR_H(noise_maxperword, 16, "Max diacritics to apply to a word");
|
|
INT_VAR_H(debug_x_ht_level, 0, "Reestimate debug");
|
|
BOOL_VAR_H(debug_acceptable_wds, false, "Dump word pass/fail chk");
|
|
STRING_VAR_H(chs_leading_punct, "('`\"", "Leading punctuation");
|
|
STRING_VAR_H(chs_trailing_punct1, ").,;:?!", "1st Trailing punctuation");
|
|
STRING_VAR_H(chs_trailing_punct2, ")'`\"", "2nd Trailing punctuation");
|
|
double_VAR_H(quality_rej_pc, 0.08, "good_quality_doc lte rejection limit");
|
|
double_VAR_H(quality_blob_pc, 0.0, "good_quality_doc gte good blobs limit");
|
|
double_VAR_H(quality_outline_pc, 1.0,
|
|
"good_quality_doc lte outline error limit");
|
|
double_VAR_H(quality_char_pc, 0.95, "good_quality_doc gte good char limit");
|
|
INT_VAR_H(quality_min_initial_alphas_reqd, 2, "alphas in a good word");
|
|
INT_VAR_H(tessedit_tess_adaption_mode, 0x27,
|
|
"Adaptation decision algorithm for tess");
|
|
BOOL_VAR_H(tessedit_minimal_rej_pass1, false,
|
|
"Do minimal rejection on pass 1 output");
|
|
BOOL_VAR_H(tessedit_test_adaption, false, "Test adaption criteria");
|
|
BOOL_VAR_H(tessedit_matcher_log, false, "Log matcher activity");
|
|
INT_VAR_H(tessedit_test_adaption_mode, 3,
|
|
"Adaptation decision algorithm for tess");
|
|
BOOL_VAR_H(test_pt, false, "Test for point");
|
|
double_VAR_H(test_pt_x, 99999.99, "xcoord");
|
|
double_VAR_H(test_pt_y, 99999.99, "ycoord");
|
|
INT_VAR_H(paragraph_debug_level, 0, "Print paragraph debug info.");
|
|
BOOL_VAR_H(paragraph_text_based, true,
|
|
"Run paragraph detection on the post-text-recognition "
|
|
"(more accurate)");
|
|
INT_VAR_H(cube_debug_level, 1, "Print cube debug info.");
|
|
STRING_VAR_H(outlines_odd, "%| ", "Non standard number of outlines");
|
|
STRING_VAR_H(outlines_2, "ij!?%\":;", "Non standard number of outlines");
|
|
BOOL_VAR_H(docqual_excuse_outline_errs, false,
|
|
"Allow outline errs in unrejection?");
|
|
BOOL_VAR_H(tessedit_good_quality_unrej, true,
|
|
"Reduce rejection on good docs");
|
|
BOOL_VAR_H(tessedit_use_reject_spaces, true, "Reject spaces?");
|
|
double_VAR_H(tessedit_reject_doc_percent, 65.00,
|
|
"%rej allowed before rej whole doc");
|
|
double_VAR_H(tessedit_reject_block_percent, 45.00,
|
|
"%rej allowed before rej whole block");
|
|
double_VAR_H(tessedit_reject_row_percent, 40.00,
|
|
"%rej allowed before rej whole row");
|
|
double_VAR_H(tessedit_whole_wd_rej_row_percent, 70.00,
|
|
"Number of row rejects in whole word rejects"
|
|
"which prevents whole row rejection");
|
|
BOOL_VAR_H(tessedit_preserve_blk_rej_perfect_wds, true,
|
|
"Only rej partially rejected words in block rejection");
|
|
BOOL_VAR_H(tessedit_preserve_row_rej_perfect_wds, true,
|
|
"Only rej partially rejected words in row rejection");
|
|
BOOL_VAR_H(tessedit_dont_blkrej_good_wds, false,
|
|
"Use word segmentation quality metric");
|
|
BOOL_VAR_H(tessedit_dont_rowrej_good_wds, false,
|
|
"Use word segmentation quality metric");
|
|
INT_VAR_H(tessedit_preserve_min_wd_len, 2,
|
|
"Only preserve wds longer than this");
|
|
BOOL_VAR_H(tessedit_row_rej_good_docs, true,
|
|
"Apply row rejection to good docs");
|
|
double_VAR_H(tessedit_good_doc_still_rowrej_wd, 1.1,
|
|
"rej good doc wd if more than this fraction rejected");
|
|
BOOL_VAR_H(tessedit_reject_bad_qual_wds, true,
|
|
"Reject all bad quality wds");
|
|
BOOL_VAR_H(tessedit_debug_doc_rejection, false, "Page stats");
|
|
BOOL_VAR_H(tessedit_debug_quality_metrics, false,
|
|
"Output data to debug file");
|
|
BOOL_VAR_H(bland_unrej, false, "unrej potential with no chekcs");
|
|
double_VAR_H(quality_rowrej_pc, 1.1,
|
|
"good_quality_doc gte good char limit");
|
|
BOOL_VAR_H(unlv_tilde_crunching, true,
|
|
"Mark v.bad words for tilde crunch");
|
|
BOOL_VAR_H(hocr_font_info, false,
|
|
"Add font info to hocr output");
|
|
BOOL_VAR_H(crunch_early_merge_tess_fails, true, "Before word crunch?");
|
|
BOOL_VAR_H(crunch_early_convert_bad_unlv_chs, false, "Take out ~^ early?");
|
|
double_VAR_H(crunch_terrible_rating, 80.0, "crunch rating lt this");
|
|
BOOL_VAR_H(crunch_terrible_garbage, true, "As it says");
|
|
double_VAR_H(crunch_poor_garbage_cert, -9.0,
|
|
"crunch garbage cert lt this");
|
|
double_VAR_H(crunch_poor_garbage_rate, 60, "crunch garbage rating lt this");
|
|
double_VAR_H(crunch_pot_poor_rate, 40, "POTENTIAL crunch rating lt this");
|
|
double_VAR_H(crunch_pot_poor_cert, -8.0, "POTENTIAL crunch cert lt this");
|
|
BOOL_VAR_H(crunch_pot_garbage, true, "POTENTIAL crunch garbage");
|
|
double_VAR_H(crunch_del_rating, 60, "POTENTIAL crunch rating lt this");
|
|
double_VAR_H(crunch_del_cert, -10.0, "POTENTIAL crunch cert lt this");
|
|
double_VAR_H(crunch_del_min_ht, 0.7, "Del if word ht lt xht x this");
|
|
double_VAR_H(crunch_del_max_ht, 3.0, "Del if word ht gt xht x this");
|
|
double_VAR_H(crunch_del_min_width, 3.0, "Del if word width lt xht x this");
|
|
double_VAR_H(crunch_del_high_word, 1.5,
|
|
"Del if word gt xht x this above bl");
|
|
double_VAR_H(crunch_del_low_word, 0.5, "Del if word gt xht x this below bl");
|
|
double_VAR_H(crunch_small_outlines_size, 0.6, "Small if lt xht x this");
|
|
INT_VAR_H(crunch_rating_max, 10, "For adj length in rating per ch");
|
|
INT_VAR_H(crunch_pot_indicators, 1, "How many potential indicators needed");
|
|
BOOL_VAR_H(crunch_leave_ok_strings, true, "Dont touch sensible strings");
|
|
BOOL_VAR_H(crunch_accept_ok, true, "Use acceptability in okstring");
|
|
BOOL_VAR_H(crunch_leave_accept_strings, false,
|
|
"Dont pot crunch sensible strings");
|
|
BOOL_VAR_H(crunch_include_numerals, false, "Fiddle alpha figures");
|
|
INT_VAR_H(crunch_leave_lc_strings, 4,
|
|
"Dont crunch words with long lower case strings");
|
|
INT_VAR_H(crunch_leave_uc_strings, 4,
|
|
"Dont crunch words with long lower case strings");
|
|
INT_VAR_H(crunch_long_repetitions, 3, "Crunch words with long repetitions");
|
|
INT_VAR_H(crunch_debug, 0, "As it says");
|
|
INT_VAR_H(fixsp_non_noise_limit, 1,
|
|
"How many non-noise blbs either side?");
|
|
double_VAR_H(fixsp_small_outlines_size, 0.28, "Small if lt xht x this");
|
|
BOOL_VAR_H(tessedit_prefer_joined_punct, false, "Reward punctation joins");
|
|
INT_VAR_H(fixsp_done_mode, 1, "What constitues done for spacing");
|
|
INT_VAR_H(debug_fix_space_level, 0, "Contextual fixspace debug");
|
|
STRING_VAR_H(numeric_punctuation, ".,",
|
|
"Punct. chs expected WITHIN numbers");
|
|
INT_VAR_H(x_ht_acceptance_tolerance, 8,
|
|
"Max allowed deviation of blob top outside of font data");
|
|
INT_VAR_H(x_ht_min_change, 8, "Min change in xht before actually trying it");
|
|
INT_VAR_H(superscript_debug, 0, "Debug level for sub & superscript fixer");
|
|
double_VAR_H(superscript_worse_certainty, 2.0, "How many times worse "
|
|
"certainty does a superscript position glyph need to be for us "
|
|
"to try classifying it as a char with a different baseline?");
|
|
double_VAR_H(superscript_bettered_certainty, 0.97, "What reduction in "
|
|
"badness do we think sufficient to choose a superscript over "
|
|
"what we'd thought. For example, a value of 0.6 means we want "
|
|
"to reduce badness of certainty by 40%");
|
|
double_VAR_H(superscript_scaledown_ratio, 0.4,
|
|
"A superscript scaled down more than this is unbelievably "
|
|
"small. For example, 0.3 means we expect the font size to "
|
|
"be no smaller than 30% of the text line font size.");
|
|
double_VAR_H(subscript_max_y_top, 0.5,
|
|
"Maximum top of a character measured as a multiple of x-height "
|
|
"above the baseline for us to reconsider whether it's a "
|
|
"subscript.");
|
|
double_VAR_H(superscript_min_y_bottom, 0.3,
|
|
"Minimum bottom of a character measured as a multiple of "
|
|
"x-height above the baseline for us to reconsider whether it's "
|
|
"a superscript.");
|
|
BOOL_VAR_H(tessedit_write_block_separators, false,
|
|
"Write block separators in output");
|
|
BOOL_VAR_H(tessedit_write_rep_codes, false,
|
|
"Write repetition char code");
|
|
BOOL_VAR_H(tessedit_write_unlv, false, "Write .unlv output file");
|
|
BOOL_VAR_H(tessedit_create_txt, true, "Write .txt output file");
|
|
BOOL_VAR_H(tessedit_create_hocr, false, "Write .html hOCR output file");
|
|
BOOL_VAR_H(tessedit_create_pdf, false, "Write .pdf output file");
|
|
STRING_VAR_H(unrecognised_char, "|",
|
|
"Output char for unidentified blobs");
|
|
INT_VAR_H(suspect_level, 99, "Suspect marker level");
|
|
INT_VAR_H(suspect_space_level, 100,
|
|
"Min suspect level for rejecting spaces");
|
|
INT_VAR_H(suspect_short_words, 2,
|
|
"Dont Suspect dict wds longer than this");
|
|
BOOL_VAR_H(suspect_constrain_1Il, false, "UNLV keep 1Il chars rejected");
|
|
double_VAR_H(suspect_rating_per_ch, 999.9, "Dont touch bad rating limit");
|
|
double_VAR_H(suspect_accept_rating, -999.9, "Accept good rating limit");
|
|
BOOL_VAR_H(tessedit_minimal_rejection, false, "Only reject tess failures");
|
|
BOOL_VAR_H(tessedit_zero_rejection, false, "Dont reject ANYTHING");
|
|
BOOL_VAR_H(tessedit_word_for_word, false,
|
|
"Make output have exactly one word per WERD");
|
|
BOOL_VAR_H(tessedit_zero_kelvin_rejection, false,
|
|
"Dont reject ANYTHING AT ALL");
|
|
BOOL_VAR_H(tessedit_consistent_reps, true, "Force all rep chars the same");
|
|
INT_VAR_H(tessedit_reject_mode, 0, "Rejection algorithm");
|
|
BOOL_VAR_H(tessedit_rejection_debug, false, "Adaption debug");
|
|
BOOL_VAR_H(tessedit_flip_0O, true, "Contextual 0O O0 flips");
|
|
double_VAR_H(tessedit_lower_flip_hyphen, 1.5,
|
|
"Aspect ratio dot/hyphen test");
|
|
double_VAR_H(tessedit_upper_flip_hyphen, 1.8,
|
|
"Aspect ratio dot/hyphen test");
|
|
BOOL_VAR_H(rej_trust_doc_dawg, false, "Use DOC dawg in 11l conf. detector");
|
|
BOOL_VAR_H(rej_1Il_use_dict_word, false, "Use dictword test");
|
|
BOOL_VAR_H(rej_1Il_trust_permuter_type, true, "Dont double check");
|
|
BOOL_VAR_H(rej_use_tess_accepted, true, "Individual rejection control");
|
|
BOOL_VAR_H(rej_use_tess_blanks, true, "Individual rejection control");
|
|
BOOL_VAR_H(rej_use_good_perm, true, "Individual rejection control");
|
|
BOOL_VAR_H(rej_use_sensible_wd, false, "Extend permuter check");
|
|
BOOL_VAR_H(rej_alphas_in_number_perm, false, "Extend permuter check");
|
|
double_VAR_H(rej_whole_of_mostly_reject_word_fract, 0.85, "if >this fract");
|
|
INT_VAR_H(tessedit_image_border, 2, "Rej blbs near image edge limit");
|
|
STRING_VAR_H(ok_repeated_ch_non_alphanum_wds, "-?*\075",
|
|
"Allow NN to unrej");
|
|
STRING_VAR_H(conflict_set_I_l_1, "Il1[]", "Il1 conflict set");
|
|
INT_VAR_H(min_sane_x_ht_pixels, 8, "Reject any x-ht lt or eq than this");
|
|
BOOL_VAR_H(tessedit_create_boxfile, false, "Output text with boxes");
|
|
INT_VAR_H(tessedit_page_number, -1,
|
|
"-1 -> All pages, else specifc page to process");
|
|
BOOL_VAR_H(tessedit_write_images, false, "Capture the image from the IPE");
|
|
BOOL_VAR_H(interactive_display_mode, false, "Run interactively?");
|
|
STRING_VAR_H(file_type, ".tif", "Filename extension");
|
|
BOOL_VAR_H(tessedit_override_permuter, true, "According to dict_word");
|
|
INT_VAR_H(tessdata_manager_debug_level, 0,
|
|
"Debug level for TessdataManager functions.");
|
|
STRING_VAR_H(tessedit_load_sublangs, "",
|
|
"List of languages to load with this one");
|
|
BOOL_VAR_H(tessedit_use_primary_params_model, false,
|
|
"In multilingual mode use params model of the primary language");
|
|
// Min acceptable orientation margin (difference in scores between top and 2nd
|
|
// choice in OSResults::orientations) to believe the page orientation.
|
|
double_VAR_H(min_orientation_margin, 7.0,
|
|
"Min acceptable orientation margin");
|
|
BOOL_VAR_H(textord_tabfind_show_vlines, false, "Debug line finding");
|
|
BOOL_VAR_H(textord_use_cjk_fp_model, FALSE, "Use CJK fixed pitch model");
|
|
BOOL_VAR_H(poly_allow_detailed_fx, false,
|
|
"Allow feature extractors to see the original outline");
|
|
BOOL_VAR_H(tessedit_init_config_only, false,
|
|
"Only initialize with the config file. Useful if the instance is "
|
|
"not going to be used for OCR but say only for layout analysis.");
|
|
BOOL_VAR_H(textord_equation_detect, false, "Turn on equation detector");
|
|
BOOL_VAR_H(textord_tabfind_vertical_text, true, "Enable vertical detection");
|
|
BOOL_VAR_H(textord_tabfind_force_vertical_text, false,
|
|
"Force using vertical text page mode");
|
|
double_VAR_H(textord_tabfind_vertical_text_ratio, 0.5,
|
|
"Fraction of textlines deemed vertical to use vertical page "
|
|
"mode");
|
|
double_VAR_H(textord_tabfind_aligned_gap_fraction, 0.75,
|
|
"Fraction of height used as a minimum gap for aligned blobs.");
|
|
INT_VAR_H(tessedit_parallelize, 0, "Run in parallel where possible");
|
|
BOOL_VAR_H(preserve_interword_spaces, false,
|
|
"Preserve multiple interword spaces");
|
|
BOOL_VAR_H(include_page_breaks, false,
|
|
"Include page separator string in output text after each "
|
|
"image/page.");
|
|
STRING_VAR_H(page_separator, "\f",
|
|
"Page separator (default is form feed control character)");
|
|
|
|
// The following parameters were deprecated and removed from their original
|
|
// locations. The parameters are temporarily kept here to give Tesseract
|
|
// users a chance to updated their [lang].traineddata and config files
|
|
// without introducing failures during Tesseract initialization.
|
|
// TODO(ocr-team): remove these parameters from the code once we are
|
|
// reasonably sure that Tesseract users have updated their data files.
|
|
//
|
|
// BEGIN DEPRECATED PARAMETERS
|
|
BOOL_VAR_H(textord_tabfind_vertical_horizontal_mix, true,
|
|
"find horizontal lines such as headers in vertical page mode");
|
|
INT_VAR_H(tessedit_ok_mode, 5, "Acceptance decision algorithm");
|
|
BOOL_VAR_H(load_fixed_length_dawgs, true, "Load fixed length"
|
|
" dawgs (e.g. for non-space delimited languages)");
|
|
INT_VAR_H(segment_debug, 0, "Debug the whole segmentation process");
|
|
BOOL_VAR_H(permute_debug, 0, "char permutation debug");
|
|
double_VAR_H(bestrate_pruning_factor, 2.0, "Multiplying factor of"
|
|
" current best rate to prune other hypotheses");
|
|
BOOL_VAR_H(permute_script_word, 0,
|
|
"Turn on word script consistency permuter");
|
|
BOOL_VAR_H(segment_segcost_rating, 0,
|
|
"incorporate segmentation cost in word rating?");
|
|
double_VAR_H(segment_reward_script, 0.95,
|
|
"Score multipler for script consistency within a word. "
|
|
"Being a 'reward' factor, it should be <= 1. "
|
|
"Smaller value implies bigger reward.");
|
|
BOOL_VAR_H(permute_fixed_length_dawg, 0,
|
|
"Turn on fixed-length phrasebook search permuter");
|
|
BOOL_VAR_H(permute_chartype_word, 0,
|
|
"Turn on character type (property) consistency permuter");
|
|
double_VAR_H(segment_reward_chartype, 0.97,
|
|
"Score multipler for char type consistency within a word. ");
|
|
double_VAR_H(segment_reward_ngram_best_choice, 0.99,
|
|
"Score multipler for ngram permuter's best choice"
|
|
" (only used in the Han script path).");
|
|
BOOL_VAR_H(ngram_permuter_activated, false,
|
|
"Activate character-level n-gram-based permuter");
|
|
BOOL_VAR_H(permute_only_top, false, "Run only the top choice permuter");
|
|
INT_VAR_H(language_model_fixed_length_choices_depth, 3,
|
|
"Depth of blob choice lists to explore"
|
|
" when fixed length dawgs are on");
|
|
BOOL_VAR_H(use_new_state_cost, FALSE,
|
|
"use new state cost heuristics for segmentation state evaluation");
|
|
double_VAR_H(heuristic_segcost_rating_base, 1.25,
|
|
"base factor for adding segmentation cost into word rating."
|
|
"It's a multiplying factor, the larger the value above 1, "
|
|
"the bigger the effect of segmentation cost.");
|
|
double_VAR_H(heuristic_weight_rating, 1,
|
|
"weight associated with char rating in combined cost of state");
|
|
double_VAR_H(heuristic_weight_width, 1000.0,
|
|
"weight associated with width evidence in combined cost of"
|
|
" state");
|
|
double_VAR_H(heuristic_weight_seamcut, 0,
|
|
"weight associated with seam cut in combined cost of state");
|
|
double_VAR_H(heuristic_max_char_wh_ratio, 2.0,
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|
"max char width-to-height ratio allowed in segmentation");
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|
BOOL_VAR_H(enable_new_segsearch, false,
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|
"Enable new segmentation search path.");
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|
double_VAR_H(segsearch_max_fixed_pitch_char_wh_ratio, 2.0,
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|
"Maximum character width-to-height ratio for"
|
|
"fixed pitch fonts");
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|
// END DEPRECATED PARAMETERS
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|
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|
//// ambigsrecog.cpp /////////////////////////////////////////////////////////
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|
FILE *init_recog_training(const STRING &fname);
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|
void recog_training_segmented(const STRING &fname,
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|
PAGE_RES *page_res,
|
|
volatile ETEXT_DESC *monitor,
|
|
FILE *output_file);
|
|
void ambigs_classify_and_output(const char *label,
|
|
PAGE_RES_IT* pr_it,
|
|
FILE *output_file);
|
|
|
|
#ifndef ANDROID_BUILD
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|
inline CubeRecoContext *GetCubeRecoContext() { return cube_cntxt_; }
|
|
#endif
|
|
|
|
private:
|
|
// The filename of a backup config file. If not null, then we currently
|
|
// have a temporary debug config file loaded, and backup_config_file_
|
|
// will be loaded, and set to null when debug is complete.
|
|
const char* backup_config_file_;
|
|
// The filename of a config file to read when processing a debug word.
|
|
STRING word_config_;
|
|
// Image used for input to layout analysis and tesseract recognition.
|
|
// May be modified by the ShiroRekhaSplitter to eliminate the top-line.
|
|
Pix* pix_binary_;
|
|
// Unmodified image used for input to cube. Always valid.
|
|
Pix* cube_binary_;
|
|
// Grey-level input image if the input was not binary, otherwise NULL.
|
|
Pix* pix_grey_;
|
|
// Thresholds that were used to generate the thresholded image from grey.
|
|
Pix* pix_thresholds_;
|
|
// Input image resolution after any scaling. The resolution is not well
|
|
// transmitted by operations on Pix, so we keep an independent record here.
|
|
int source_resolution_;
|
|
// The shiro-rekha splitter object which is used to split top-lines in
|
|
// Devanagari words to provide a better word and grapheme segmentation.
|
|
ShiroRekhaSplitter splitter_;
|
|
// Page segmentation/layout
|
|
Textord textord_;
|
|
// True if the primary language uses right_to_left reading order.
|
|
bool right_to_left_;
|
|
Pix* scaled_color_;
|
|
int scaled_factor_;
|
|
FCOORD deskew_;
|
|
FCOORD reskew_;
|
|
TesseractStats stats_;
|
|
// Sub-languages to be tried in addition to this.
|
|
GenericVector<Tesseract*> sub_langs_;
|
|
// Most recently used Tesseract out of this and sub_langs_. The default
|
|
// language for the next word.
|
|
Tesseract* most_recently_used_;
|
|
// The size of the font table, ie max possible font id + 1.
|
|
int font_table_size_;
|
|
#ifndef ANDROID_BUILD
|
|
// Cube objects.
|
|
CubeRecoContext* cube_cntxt_;
|
|
TesseractCubeCombiner *tess_cube_combiner_;
|
|
#endif
|
|
// Equation detector. Note: this pointer is NOT owned by the class.
|
|
EquationDetect* equ_detect_;
|
|
};
|
|
|
|
} // namespace tesseract
|
|
|
|
|
|
#endif // TESSERACT_CCMAIN_TESSERACTCLASS_H__
|