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511 lines
24 KiB
C++
511 lines
24 KiB
C++
///////////////////////////////////////////////////////////////////////
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// File: classify.h
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// Description: classify class.
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// Author: Samuel Charron
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//
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// (C) Copyright 2006, 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_CLASSIFY_CLASSIFY_H__
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#define TESSERACT_CLASSIFY_CLASSIFY_H__
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#include "adaptive.h"
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#include "ccstruct.h"
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#include "classify.h"
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#include "dict.h"
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#include "featdefs.h"
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#include "fontinfo.h"
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#include "intfx.h"
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#include "intmatcher.h"
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#include "normalis.h"
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#include "ratngs.h"
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#include "ocrfeatures.h"
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#include "unicity_table.h"
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class ScrollView;
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class WERD_CHOICE;
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class WERD_RES;
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struct ADAPT_RESULTS;
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struct NORM_PROTOS;
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static const int kUnknownFontinfoId = -1;
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static const int kBlankFontinfoId = -2;
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namespace tesseract {
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struct ShapeRating;
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class ShapeTable;
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// How segmented is a blob. In this enum, character refers to a classifiable
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// unit, but that is too long and character is usually easier to understand.
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enum CharSegmentationType {
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CST_FRAGMENT, // A partial character.
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CST_WHOLE, // A correctly segmented character.
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CST_IMPROPER, // More than one but less than 2 characters.
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CST_NGRAM // Multiple characters.
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};
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class Classify : public CCStruct {
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public:
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Classify();
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virtual ~Classify();
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Dict& getDict() {
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return dict_;
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}
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const ShapeTable* shape_table() const {
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return shape_table_;
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}
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/* adaptive.cpp ************************************************************/
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ADAPT_TEMPLATES NewAdaptedTemplates(bool InitFromUnicharset);
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int GetFontinfoId(ADAPT_CLASS Class, uinT8 ConfigId);
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// Runs the class pruner from int_templates on the given features, returning
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// the number of classes output in results.
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// int_templates Class pruner tables
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// num_features Number of features in blob
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// features Array of features
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// normalization_factors (input) Array of int_templates->NumClasses fudge
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// factors from blob normalization process.
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// (Indexed by CLASS_INDEX)
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// expected_num_features (input) Array of int_templates->NumClasses
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// expected number of features for each class.
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// (Indexed by CLASS_INDEX)
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// results (output) Sorted Array of pruned classes.
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// Array must be sized to take the maximum possible
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// number of outputs : int_templates->NumClasses.
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int PruneClasses(const INT_TEMPLATES_STRUCT* int_templates,
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int num_features,
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const INT_FEATURE_STRUCT* features,
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const uinT8* normalization_factors,
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const uinT16* expected_num_features,
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CP_RESULT_STRUCT* results);
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void ReadNewCutoffs(FILE *CutoffFile, bool swap, inT64 end_offset,
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CLASS_CUTOFF_ARRAY Cutoffs);
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void PrintAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates);
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void WriteAdaptedTemplates(FILE *File, ADAPT_TEMPLATES Templates);
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ADAPT_TEMPLATES ReadAdaptedTemplates(FILE *File);
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/* normmatch.cpp ************************************************************/
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FLOAT32 ComputeNormMatch(CLASS_ID ClassId,
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const FEATURE_STRUCT& feature, BOOL8 DebugMatch);
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void FreeNormProtos();
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NORM_PROTOS *ReadNormProtos(FILE *File, inT64 end_offset);
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/* protos.cpp ***************************************************************/
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void ReadClassFile();
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void ConvertProto(PROTO Proto, int ProtoId, INT_CLASS Class);
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INT_TEMPLATES CreateIntTemplates(CLASSES FloatProtos,
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const UNICHARSET& target_unicharset);
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/* adaptmatch.cpp ***********************************************************/
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// Learn the given word using its chopped_word, seam_array, denorm,
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// box_word, best_state, and correct_text to learn both correctly and
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// incorrectly segmented blobs. If filename is not NULL, then LearnBlob
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// is called and the data will be written to a file for static training.
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// Otherwise AdaptToBlob is called for adaption within a document.
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// If rejmap is not NULL, then only chars with a rejmap entry of '1' will
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// be learned, otherwise all chars with good correct_text are learned.
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void LearnWord(const char* filename, const char *rejmap, WERD_RES *word);
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// Builds a blob of length fragments, from the word, starting at start,
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// and then learn it, as having the given correct_text.
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// If filename is not NULL, then LearnBlob
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// is called and the data will be written to a file for static training.
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// Otherwise AdaptToBlob is called for adaption within a document.
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// threshold is a magic number required by AdaptToChar and generated by
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// GetAdaptThresholds.
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// Although it can be partly inferred from the string, segmentation is
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// provided to explicitly clarify the character segmentation.
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void LearnPieces(const char* filename, int start, int length,
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float threshold, CharSegmentationType segmentation,
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const char* correct_text, WERD_RES *word);
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void InitAdaptiveClassifier(bool load_pre_trained_templates);
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void InitAdaptedClass(TBLOB *Blob,
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const DENORM& denorm,
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CLASS_ID ClassId,
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int FontinfoId,
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ADAPT_CLASS Class,
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ADAPT_TEMPLATES Templates);
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void AdaptToPunc(TBLOB *Blob,
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const DENORM& denorm,
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CLASS_ID ClassId,
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int FontinfoId,
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FLOAT32 Threshold);
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void AmbigClassifier(TBLOB *Blob,
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const DENORM& denorm,
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INT_TEMPLATES Templates,
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ADAPT_CLASS *Classes,
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UNICHAR_ID *Ambiguities,
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ADAPT_RESULTS *Results);
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void MasterMatcher(INT_TEMPLATES templates,
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inT16 num_features,
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const INT_FEATURE_STRUCT* features,
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const uinT8* norm_factors,
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ADAPT_CLASS* classes,
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int debug,
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int num_classes,
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const TBOX& blob_box,
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CLASS_PRUNER_RESULTS results,
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ADAPT_RESULTS* final_results);
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// Converts configs to fonts, and if the result is not adapted, and a
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// shape_table_ is present, the shape is expanded to include all
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// unichar_ids represented, before applying a set of corrections to the
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// distance rating in int_result, (see ComputeCorrectedRating.)
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// The results are added to the final_results output.
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void ExpandShapesAndApplyCorrections(ADAPT_CLASS* classes,
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bool debug,
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int class_id,
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int bottom, int top,
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float cp_rating,
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int blob_length,
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const uinT8* cn_factors,
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INT_RESULT_STRUCT& int_result,
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ADAPT_RESULTS* final_results);
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// Applies a set of corrections to the distance im_rating,
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// including the cn_correction, miss penalty and additional penalty
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// for non-alnums being vertical misfits. Returns the corrected distance.
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double ComputeCorrectedRating(bool debug, int unichar_id, double cp_rating,
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double im_rating, int feature_misses,
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int bottom, int top,
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int blob_length, const uinT8* cn_factors);
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void ConvertMatchesToChoices(const DENORM& denorm, const TBOX& box,
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ADAPT_RESULTS *Results,
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BLOB_CHOICE_LIST *Choices);
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void AddNewResult(ADAPT_RESULTS *results,
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CLASS_ID class_id,
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int shape_id,
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FLOAT32 rating,
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bool adapted,
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int config,
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int fontinfo_id,
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int fontinfo_id2);
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int GetAdaptiveFeatures(TBLOB *Blob,
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INT_FEATURE_ARRAY IntFeatures,
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FEATURE_SET *FloatFeatures);
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#ifndef GRAPHICS_DISABLED
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void DebugAdaptiveClassifier(TBLOB *Blob,
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const DENORM& denorm,
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ADAPT_RESULTS *Results);
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#endif
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void GetAdaptThresholds (TWERD * Word,
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const DENORM& denorm,
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const WERD_CHOICE& BestChoice,
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const WERD_CHOICE& BestRawChoice,
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FLOAT32 Thresholds[]);
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PROTO_ID MakeNewTempProtos(FEATURE_SET Features,
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int NumBadFeat,
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FEATURE_ID BadFeat[],
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INT_CLASS IClass,
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ADAPT_CLASS Class,
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BIT_VECTOR TempProtoMask);
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int MakeNewTemporaryConfig(ADAPT_TEMPLATES Templates,
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CLASS_ID ClassId,
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int FontinfoId,
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int NumFeatures,
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INT_FEATURE_ARRAY Features,
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FEATURE_SET FloatFeatures);
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void MakePermanent(ADAPT_TEMPLATES Templates,
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CLASS_ID ClassId,
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int ConfigId,
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const DENORM& denorm,
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TBLOB *Blob);
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void PrintAdaptiveMatchResults(FILE *File, ADAPT_RESULTS *Results);
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void RemoveExtraPuncs(ADAPT_RESULTS *Results);
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void RemoveBadMatches(ADAPT_RESULTS *Results);
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void SetAdaptiveThreshold(FLOAT32 Threshold);
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void ShowBestMatchFor(TBLOB *Blob,
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const DENORM& denorm,
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CLASS_ID ClassId,
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int shape_id,
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BOOL8 AdaptiveOn,
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BOOL8 PreTrainedOn,
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ADAPT_RESULTS *Results);
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// Returns a string for the classifier class_id: either the corresponding
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// unicharset debug_str or the shape_table_ debug str.
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STRING ClassIDToDebugStr(const INT_TEMPLATES_STRUCT* templates,
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int class_id, int config_id) const;
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// Converts a classifier class_id index with a config ID to:
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// shape_table_ present: a shape_table_ index OR
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// No shape_table_: a font ID.
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// Without shape training, each class_id, config pair represents a single
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// unichar id/font combination, so this function looks up the corresponding
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// font id.
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// With shape training, each class_id, config pair represents a single
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// shape table index, so the fontset_table stores the shape table index,
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// and the shape_table_ must be consulted to obtain the actual unichar_id/
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// font combinations that the shape represents.
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int ClassAndConfigIDToFontOrShapeID(int class_id,
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int int_result_config) const;
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// Converts a shape_table_ index to a classifier class_id index (not a
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// unichar-id!). Uses a search, so not fast.
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int ShapeIDToClassID(int shape_id) const;
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UNICHAR_ID *BaselineClassifier(TBLOB *Blob,
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const DENORM& denorm,
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ADAPT_TEMPLATES Templates,
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ADAPT_RESULTS *Results);
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int CharNormClassifier(TBLOB *Blob,
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const DENORM& denorm,
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INT_TEMPLATES Templates,
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ADAPT_RESULTS *Results);
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// As CharNormClassifier, but operates on a TrainingSample and outputs to
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// a GenericVector of ShapeRating without conversion to classes.
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int CharNormTrainingSample(bool pruner_only, const TrainingSample& sample,
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GenericVector<ShapeRating>* results);
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UNICHAR_ID *GetAmbiguities(TBLOB *Blob,
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const DENORM& denorm,
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CLASS_ID CorrectClass);
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void DoAdaptiveMatch(TBLOB *Blob,
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const DENORM& denorm,
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ADAPT_RESULTS *Results);
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void AdaptToChar(TBLOB *Blob,
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const DENORM& denorm,
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CLASS_ID ClassId,
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int FontinfoId,
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FLOAT32 Threshold);
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void DisplayAdaptedChar(TBLOB* blob, const DENORM& denorm,
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INT_CLASS_STRUCT* int_class);
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int AdaptableWord(TWERD *Word,
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const WERD_CHOICE &BestChoiceWord,
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const WERD_CHOICE &RawChoiceWord);
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void EndAdaptiveClassifier();
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void PrintAdaptiveStatistics(FILE *File);
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void SettupPass1();
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void SettupPass2();
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void AdaptiveClassifier(TBLOB *Blob,
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const DENORM& denorm,
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BLOB_CHOICE_LIST *Choices,
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CLASS_PRUNER_RESULTS cp_results);
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void ClassifyAsNoise(ADAPT_RESULTS *Results);
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void ResetAdaptiveClassifierInternal();
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int GetBaselineFeatures(TBLOB *Blob,
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const DENORM& denorm,
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INT_TEMPLATES Templates,
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INT_FEATURE_ARRAY IntFeatures,
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uinT8* CharNormArray,
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inT32 *BlobLength);
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int GetCharNormFeatures(TBLOB *Blob,
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const DENORM& denorm,
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INT_TEMPLATES Templates,
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INT_FEATURE_ARRAY IntFeatures,
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uinT8* PrunerNormArray,
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uinT8* CharNormArray,
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inT32 *BlobLength,
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inT32 *FeatureOutlineIndex);
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// Computes the char_norm_array for the unicharset and, if not NULL, the
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// pruner_array as appropriate according to the existence of the shape_table.
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// The norm_feature is deleted as it is almost certainly no longer needed.
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void ComputeCharNormArrays(FEATURE_STRUCT* norm_feature,
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INT_TEMPLATES_STRUCT* templates,
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uinT8* char_norm_array,
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uinT8* pruner_array);
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bool TempConfigReliable(CLASS_ID class_id, const TEMP_CONFIG &config);
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void UpdateAmbigsGroup(CLASS_ID class_id, const DENORM& denorm, TBLOB *Blob);
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void ResetFeaturesHaveBeenExtracted();
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bool AdaptiveClassifierIsFull() { return NumAdaptationsFailed > 0; }
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bool LooksLikeGarbage(const DENORM& denorm, TBLOB *blob);
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void RefreshDebugWindow(ScrollView **win, const char *msg,
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int y_offset, const TBOX &wbox);
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/* float2int.cpp ************************************************************/
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void ClearCharNormArray(uinT8* char_norm_array);
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void ComputeIntCharNormArray(const FEATURE_STRUCT& norm_feature,
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uinT8* char_norm_array);
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void ComputeIntFeatures(FEATURE_SET Features, INT_FEATURE_ARRAY IntFeatures);
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/* intproto.cpp *************************************************************/
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INT_TEMPLATES ReadIntTemplates(FILE *File);
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void WriteIntTemplates(FILE *File, INT_TEMPLATES Templates,
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const UNICHARSET& target_unicharset);
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CLASS_ID GetClassToDebug(const char *Prompt, bool* adaptive_on,
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bool* pretrained_on, int* shape_id);
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void ShowMatchDisplay();
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/* font detection ***********************************************************/
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UnicityTable<FontInfo>& get_fontinfo_table() {
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return fontinfo_table_;
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}
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UnicityTable<FontSet>& get_fontset_table() {
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return fontset_table_;
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}
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/* mfoutline.cpp ***********************************************************/
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void NormalizeOutlines(LIST Outlines, FLOAT32 *XScale, FLOAT32 *YScale);
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/* outfeat.cpp ***********************************************************/
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FEATURE_SET ExtractOutlineFeatures(TBLOB *Blob);
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/* picofeat.cpp ***********************************************************/
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FEATURE_SET ExtractPicoFeatures(TBLOB *Blob);
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// Member variables.
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// Parameters.
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BOOL_VAR_H(prioritize_division, FALSE,
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"Prioritize blob division over chopping");
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INT_VAR_H(tessedit_single_match, FALSE, "Top choice only from CP");
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BOOL_VAR_H(classify_enable_learning, true, "Enable adaptive classifier");
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INT_VAR_H(classify_debug_level, 0, "Classify debug level");
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/* mfoutline.cpp ***********************************************************/
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/* control knobs used to control normalization of outlines */
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INT_VAR_H(classify_norm_method, character, "Normalization Method ...");
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double_VAR_H(classify_char_norm_range, 0.2,
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"Character Normalization Range ...");
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double_VAR_H(classify_min_norm_scale_x, 0.0, "Min char x-norm scale ...");
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double_VAR_H(classify_max_norm_scale_x, 0.325, "Max char x-norm scale ...");
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double_VAR_H(classify_min_norm_scale_y, 0.0, "Min char y-norm scale ...");
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double_VAR_H(classify_max_norm_scale_y, 0.325, "Max char y-norm scale ...");
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/* adaptmatch.cpp ***********************************************************/
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BOOL_VAR_H(tess_cn_matching, 0, "Character Normalized Matching");
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BOOL_VAR_H(tess_bn_matching, 0, "Baseline Normalized Matching");
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BOOL_VAR_H(classify_enable_adaptive_matcher, 1, "Enable adaptive classifier");
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BOOL_VAR_H(classify_use_pre_adapted_templates, 0,
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"Use pre-adapted classifier templates");
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BOOL_VAR_H(classify_save_adapted_templates, 0,
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"Save adapted templates to a file");
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BOOL_VAR_H(classify_enable_adaptive_debugger, 0, "Enable match debugger");
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INT_VAR_H(matcher_debug_level, 0, "Matcher Debug Level");
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INT_VAR_H(matcher_debug_flags, 0, "Matcher Debug Flags");
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INT_VAR_H(classify_learning_debug_level, 0, "Learning Debug Level: ");
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double_VAR_H(matcher_good_threshold, 0.125, "Good Match (0-1)");
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double_VAR_H(matcher_great_threshold, 0.0, "Great Match (0-1)");
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double_VAR_H(matcher_perfect_threshold, 0.02, "Perfect Match (0-1)");
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double_VAR_H(matcher_bad_match_pad, 0.15, "Bad Match Pad (0-1)");
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double_VAR_H(matcher_rating_margin, 0.1, "New template margin (0-1)");
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double_VAR_H(matcher_avg_noise_size, 12.0, "Avg. noise blob length: ");
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INT_VAR_H(matcher_permanent_classes_min, 1, "Min # of permanent classes");
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INT_VAR_H(matcher_min_examples_for_prototyping, 3,
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"Reliable Config Threshold");
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INT_VAR_H(matcher_sufficient_examples_for_prototyping, 5,
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"Enable adaption even if the ambiguities have not been seen");
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double_VAR_H(matcher_clustering_max_angle_delta, 0.015,
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"Maximum angle delta for prototype clustering");
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double_VAR_H(classify_misfit_junk_penalty, 0.0,
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"Penalty to apply when a non-alnum is vertically out of "
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"its expected textline position");
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double_VAR_H(rating_scale, 1.5, "Rating scaling factor");
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double_VAR_H(certainty_scale, 20.0, "Certainty scaling factor");
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double_VAR_H(tessedit_class_miss_scale, 0.00390625,
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"Scale factor for features not used");
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INT_VAR_H(classify_adapt_proto_threshold, 230,
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"Threshold for good protos during adaptive 0-255");
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INT_VAR_H(classify_adapt_feature_threshold, 230,
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"Threshold for good features during adaptive 0-255");
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BOOL_VAR_H(disable_character_fragments, TRUE,
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"Do not include character fragments in the"
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" results of the classifier");
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double_VAR_H(classify_character_fragments_garbage_certainty_threshold, -3.0,
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"Exclude fragments that do not match any whole character"
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" with at least this certainty");
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BOOL_VAR_H(classify_debug_character_fragments, FALSE,
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"Bring up graphical debugging windows for fragments training");
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BOOL_VAR_H(matcher_debug_separate_windows, FALSE,
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"Use two different windows for debugging the matching: "
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"One for the protos and one for the features.");
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STRING_VAR_H(classify_learn_debug_str, "", "Class str to debug learning");
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/* intmatcher.cpp **********************************************************/
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INT_VAR_H(classify_class_pruner_threshold, 229,
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"Class Pruner Threshold 0-255");
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INT_VAR_H(classify_class_pruner_multiplier, 30,
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"Class Pruner Multiplier 0-255: ");
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INT_VAR_H(classify_cp_cutoff_strength, 7,
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"Class Pruner CutoffStrength: ");
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INT_VAR_H(classify_integer_matcher_multiplier, 14,
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"Integer Matcher Multiplier 0-255: ");
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|
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// Use class variables to hold onto built-in templates and adapted templates.
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INT_TEMPLATES PreTrainedTemplates;
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ADAPT_TEMPLATES AdaptedTemplates;
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// Create dummy proto and config masks for use with the built-in templates.
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BIT_VECTOR AllProtosOn;
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BIT_VECTOR PrunedProtos;
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BIT_VECTOR AllConfigsOn;
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BIT_VECTOR AllProtosOff;
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BIT_VECTOR AllConfigsOff;
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BIT_VECTOR TempProtoMask;
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bool EnableLearning;
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/* normmatch.cpp */
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NORM_PROTOS *NormProtos;
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|
/* font detection ***********************************************************/
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UnicityTable<FontInfo> fontinfo_table_;
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// Without shape training, each class_id, config pair represents a single
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// unichar id/font combination, so each fontset_table_ entry holds font ids
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// for each config in the class.
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// With shape training, each class_id, config pair represents a single
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// shape_table_ index, so the fontset_table_ stores the shape_table_ index,
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// and the shape_table_ must be consulted to obtain the actual unichar_id/
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// font combinations that the shape represents.
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UnicityTable<FontSet> fontset_table_;
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|
|
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INT_VAR_H(il1_adaption_test, 0, "Dont adapt to i/I at beginning of word");
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BOOL_VAR_H(classify_bln_numeric_mode, 0,
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|
"Assume the input is numbers [0-9].");
|
|
|
|
protected:
|
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IntegerMatcher im_;
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|
FEATURE_DEFS_STRUCT feature_defs_;
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|
// If a shape_table_ is present, it is used to remap classifier output in
|
|
// ExpandShapesAndApplyCorrections. font_ids referenced by configs actually
|
|
// mean an index to the shape_table_ and the choices returned are *all* the
|
|
// shape_table_ entries at that index.
|
|
ShapeTable* shape_table_;
|
|
|
|
private:
|
|
|
|
Dict dict_;
|
|
|
|
/* variables used to hold performance statistics */
|
|
int AdaptiveMatcherCalls;
|
|
int BaselineClassifierCalls;
|
|
int CharNormClassifierCalls;
|
|
int AmbigClassifierCalls;
|
|
int NumWordsAdaptedTo;
|
|
int NumCharsAdaptedTo;
|
|
int NumBaselineClassesTried;
|
|
int NumCharNormClassesTried;
|
|
int NumAmbigClassesTried;
|
|
int NumClassesOutput;
|
|
int NumAdaptationsFailed;
|
|
|
|
/* variables used to hold onto extracted features. This is used
|
|
to map from the old scheme in which baseline features and char norm
|
|
features are extracted separately, to the new scheme in which they
|
|
are extracted at the same time. */
|
|
bool FeaturesHaveBeenExtracted;
|
|
bool FeaturesOK;
|
|
INT_FEATURE_ARRAY BaselineFeatures;
|
|
INT_FEATURE_ARRAY CharNormFeatures;
|
|
INT_FX_RESULT_STRUCT FXInfo;
|
|
|
|
// Expected number of features in the class pruner, used to penalize
|
|
// unknowns that have too few features (like a c being classified as e) so
|
|
// it doesn't recognize everything as '@' or '#'.
|
|
// CharNormCutoffs is for the static classifier (with no shapetable).
|
|
// BaselineCutoffs gets a copy of CharNormCutoffs as an estimate of the real
|
|
// value in the adaptive classifier. Both are indexed by unichar_id.
|
|
// shapetable_cutoffs_ provides a similar value for each shape in the
|
|
// shape_table_
|
|
uinT16* CharNormCutoffs;
|
|
uinT16* BaselineCutoffs;
|
|
GenericVector<uinT16> shapetable_cutoffs_;
|
|
ScrollView* learn_debug_win_;
|
|
ScrollView* learn_fragmented_word_debug_win_;
|
|
ScrollView* learn_fragments_debug_win_;
|
|
};
|
|
} // namespace tesseract
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|
|
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#endif // TESSERACT_CLASSIFY_CLASSIFY_H__
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