// Copyright 2010 Google Inc. All Rights Reserved. // Author: rays@google.com (Ray Smith) /////////////////////////////////////////////////////////////////////// // File: mastertrainer.h // Description: Trainer to build the MasterClassifier. // Author: Ray Smith // Created: Wed Nov 03 18:07:01 PDT 2010 // // (C) Copyright 2010, Google Inc. // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // /////////////////////////////////////////////////////////////////////// #ifndef TESSERACT_TRAINING_MASTERTRAINER_H_ #define TESSERACT_TRAINING_MASTERTRAINER_H_ /**---------------------------------------------------------------------------- Include Files and Type Defines ----------------------------------------------------------------------------**/ #include "classify.h" #include "cluster.h" #include "intfx.h" #include "elst.h" #include "errorcounter.h" #include "featdefs.h" #include "fontinfo.h" #include "indexmapbidi.h" #include "intfeaturespace.h" #include "intfeaturemap.h" #include "intmatcher.h" #include "params.h" #include "shapetable.h" #include "trainingsample.h" #include "trainingsampleset.h" #include "unicharset.h" namespace tesseract { class ShapeClassifier; // Simple struct to hold the distance between two shapes during clustering. struct ShapeDist { ShapeDist() : shape1(0), shape2(0), distance(0.0f) {} ShapeDist(int s1, int s2, float dist) : shape1(s1), shape2(s2), distance(dist) {} // Sort operator to sort in ascending order of distance. bool operator<(const ShapeDist& other) const { return distance < other.distance; } int shape1; int shape2; float distance; }; // Class to encapsulate training processes that use the TrainingSampleSet. // Initially supports shape clustering and mftrainining. // Other important features of the MasterTrainer are conditioning the data // by outlier elimination, replication with perturbation, and serialization. class MasterTrainer { public: MasterTrainer(NormalizationMode norm_mode, bool shape_analysis, bool replicate_samples, int debug_level); ~MasterTrainer(); // Writes to the given file. Returns false in case of error. bool Serialize(FILE* fp) const; // Reads from the given file. Returns false in case of error. // If swap is true, assumes a big/little-endian swap is needed. bool DeSerialize(bool swap, FILE* fp); // Loads an initial unicharset, or sets one up if the file cannot be read. void LoadUnicharset(const char* filename); // Sets the feature space definition. void SetFeatureSpace(const IntFeatureSpace& fs) { feature_space_ = fs; feature_map_.Init(fs); } // Reads the samples and their features from the given file, // adding them to the trainer with the font_id from the content of the file. // If verification, then these are verification samples, not training. void ReadTrainingSamples(const char* page_name, const FEATURE_DEFS_STRUCT& feature_defs, bool verification); // Adds the given single sample to the trainer, setting the classid // appropriately from the given unichar_str. void AddSample(bool verification, const char* unichar_str, TrainingSample* sample); // Loads all pages from the given tif filename and append to page_images_. // Must be called after ReadTrainingSamples, as the current number of images // is used as an offset for page numbers in the samples. void LoadPageImages(const char* filename); // Cleans up the samples after initial load from the tr files, and prior to // saving the MasterTrainer: // Remaps fragmented chars if running shape anaylsis. // Sets up the samples appropriately for class/fontwise access. // Deletes outlier samples. void PostLoadCleanup(); // Gets the samples ready for training. Use after both // ReadTrainingSamples+PostLoadCleanup or DeSerialize. // Re-indexes the features and computes canonical and cloud features. void PreTrainingSetup(); // Sets up the master_shapes_ table, which tells which fonts should stay // together until they get to a leaf node classifier. void SetupMasterShapes(); // Adds the junk_samples_ to the main samples_ set. Junk samples are initially // fragments and n-grams (all incorrectly segmented characters). // Various training functions may result in incorrectly segmented characters // being added to the unicharset of the main samples, perhaps because they // form a "radical" decomposition of some (Indic) grapheme, or because they // just look the same as a real character (like rn/m) // This function moves all the junk samples, to the main samples_ set, but // desirable junk, being any sample for which the unichar already exists in // the samples_ unicharset gets the unichar-ids re-indexed to match, but // anything else gets re-marked as unichar_id 0 (space character) to identify // it as junk to the error counter. void IncludeJunk(); // Replicates the samples and perturbs them if the enable_replication_ flag // is set. MUST be used after the last call to OrganizeByFontAndClass on // the training samples, ie after IncludeJunk if it is going to be used, as // OrganizeByFontAndClass will eat the replicated samples into the regular // samples. void ReplicateAndRandomizeSamplesIfRequired(); // Loads the basic font properties file into fontinfo_table_. // Returns false on failure. bool LoadFontInfo(const char* filename); // Loads the xheight font properties file into xheights_. // Returns false on failure. bool LoadXHeights(const char* filename); // Reads spacing stats from filename and adds them to fontinfo_table. // Returns false on failure. bool AddSpacingInfo(const char *filename); // Returns the font id corresponding to the given font name. // Returns -1 if the font cannot be found. int GetFontInfoId(const char* font_name); // Returns the font_id of the closest matching font name to the given // filename. It is assumed that a substring of the filename will match // one of the fonts. If more than one is matched, the longest is returned. int GetBestMatchingFontInfoId(const char* filename); // Returns the filename of the tr file corresponding to the command-line // argument with the given index. const STRING& GetTRFileName(int index) const { return tr_filenames_[index]; } // Sets up a flat shapetable with one shape per class/font combination. void SetupFlatShapeTable(ShapeTable* shape_table); // Sets up a Clusterer for mftraining on a single shape_id. // Call FreeClusterer on the return value after use. CLUSTERER* SetupForClustering(const ShapeTable& shape_table, const FEATURE_DEFS_STRUCT& feature_defs, int shape_id, int* num_samples); // Writes the given float_classes (produced by SetupForFloat2Int) as inttemp // to the given inttemp_file, and the corresponding pffmtable. // The unicharset is the original encoding of graphemes, and shape_set should // match the size of the shape_table, and may possibly be totally fake. void WriteInttempAndPFFMTable(const UNICHARSET& unicharset, const UNICHARSET& shape_set, const ShapeTable& shape_table, CLASS_STRUCT* float_classes, const char* inttemp_file, const char* pffmtable_file); const UNICHARSET& unicharset() const { return samples_.unicharset(); } TrainingSampleSet* GetSamples() { return &samples_; } const ShapeTable& master_shapes() const { return master_shapes_; } // Generates debug output relating to the canonical distance between the // two given UTF8 grapheme strings. void DebugCanonical(const char* unichar_str1, const char* unichar_str2); #ifndef GRAPHICS_DISABLED // Debugging for cloud/canonical features. // Displays a Features window containing: // If unichar_str2 is in the unicharset, and canonical_font is non-negative, // displays the canonical features of the char/font combination in red. // If unichar_str1 is in the unicharset, and cloud_font is non-negative, // displays the cloud feature of the char/font combination in green. // The canonical features are drawn first to show which ones have no // matches in the cloud features. // Until the features window is destroyed, each click in the features window // will display the samples that have that feature in a separate window. void DisplaySamples(const char* unichar_str1, int cloud_font, const char* unichar_str2, int canonical_font); #endif // GRAPHICS_DISABLED void TestClassifierVOld(bool replicate_samples, ShapeClassifier* test_classifier, ShapeClassifier* old_classifier); // Tests the given test_classifier on the internal samples. // See TestClassifier for details. void TestClassifierOnSamples(CountTypes error_mode, int report_level, bool replicate_samples, ShapeClassifier* test_classifier, STRING* report_string); // Tests the given test_classifier on the given samples // error_mode indicates what counts as an error. // report_levels: // 0 = no output. // 1 = bottom-line error rate. // 2 = bottom-line error rate + time. // 3 = font-level error rate + time. // 4 = list of all errors + short classifier debug output on 16 errors. // 5 = list of all errors + short classifier debug output on 25 errors. // If replicate_samples is true, then the test is run on an extended test // sample including replicated and systematically perturbed samples. // If report_string is non-NULL, a summary of the results for each font // is appended to the report_string. double TestClassifier(CountTypes error_mode, int report_level, bool replicate_samples, TrainingSampleSet* samples, ShapeClassifier* test_classifier, STRING* report_string); // Returns the average (in some sense) distance between the two given // shapes, which may contain multiple fonts and/or unichars. // This function is public to facilitate testing. float ShapeDistance(const ShapeTable& shapes, int s1, int s2); private: // Replaces samples that are always fragmented with the corresponding // fragment samples. void ReplaceFragmentedSamples(); // Runs a hierarchical agglomerative clustering to merge shapes in the given // shape_table, while satisfying the given constraints: // * End with at least min_shapes left in shape_table, // * No shape shall have more than max_shape_unichars in it, // * Don't merge shapes where the distance between them exceeds max_dist. void ClusterShapes(int min_shapes, int max_shape_unichars, float max_dist, ShapeTable* shape_table); private: NormalizationMode norm_mode_; // Character set we are training for. UNICHARSET unicharset_; // Original feature space. Subspace mapping is contained in feature_map_. IntFeatureSpace feature_space_; TrainingSampleSet samples_; TrainingSampleSet junk_samples_; TrainingSampleSet verify_samples_; // Master shape table defines what fonts stay together until the leaves. ShapeTable master_shapes_; // Flat shape table has each unichar/font id pair in a separate shape. ShapeTable flat_shapes_; // Font metrics gathered from multiple files. FontInfoTable fontinfo_table_; // Array of xheights indexed by font ids in fontinfo_table_; GenericVector xheights_; // Non-serialized data initialized by other means or used temporarily // during loading of training samples. // Number of different class labels in unicharset_. int charsetsize_; // Flag to indicate that we are running shape analysis and need fragments // fixing. bool enable_shape_anaylsis_; // Flag to indicate that sample replication is required. bool enable_replication_; // Array of classids of fragments that replace the correctly segmented chars. int* fragments_; // Classid of previous correctly segmented sample that was added. int prev_unichar_id_; // Debug output control. int debug_level_; // Feature map used to construct reduced feature spaces for compact // classifiers. IntFeatureMap feature_map_; // Vector of Pix pointers used for classifiers that need the image. // Indexed by page_num_ in the samples. // These images are owned by the trainer and need to be pixDestroyed. GenericVector page_images_; // Vector of filenames of loaded tr files. GenericVector tr_filenames_; }; } // namespace tesseract. #endif // TESSERACT_TRAINING_MASTERTRAINER_H_