// Copyright 2010 Google Inc. All Rights Reserved. // Author: rays@google.com (Ray Smith) // // 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_TRAININGSAMPLESET_H_ #define TESSERACT_TRAINING_TRAININGSAMPLESET_H_ #include "bitvector.h" #include "genericvector.h" #include "indexmapbidi.h" #include "matrix.h" #include "shapetable.h" #include "trainingsample.h" class UNICHARSET; namespace tesseract { struct FontInfo; class FontInfoTable; class IntFeatureMap; class IntFeatureSpace; class TrainingSample; struct UnicharAndFonts; // Collection of TrainingSample used for training or testing a classifier. // Provides several useful methods to operate on the collection as a whole, // including outlier detection and deletion, providing access by font and // class, finding the canonical sample, finding the "cloud" features (OR of // all features in all samples), replication of samples, caching of distance // metrics. class TrainingSampleSet { public: explicit TrainingSampleSet(const FontInfoTable& fontinfo_table); ~TrainingSampleSet(); // 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); // Accessors int num_samples() const { return samples_.size(); } int num_raw_samples() const { return num_raw_samples_; } int NumFonts() const { return font_id_map_.SparseSize(); } const UNICHARSET& unicharset() const { return unicharset_; } int charsetsize() const { return unicharset_size_; } const FontInfoTable& fontinfo_table() const { return fontinfo_table_; } // Loads an initial unicharset, or sets one up if the file cannot be read. void LoadUnicharset(const char* filename); // Adds a character sample to this sample set. // If the unichar is not already in the local unicharset, it is added. // Returns the unichar_id of the added sample, from the local unicharset. int AddSample(const char* unichar, TrainingSample* sample); // Adds a character sample to this sample set with the given unichar_id, // which must correspond to the local unicharset (in this). void AddSample(int unichar_id, TrainingSample* sample); // Returns the number of samples for the given font,class pair. // If randomize is true, returns the number of samples accessible // with randomizing on. (Increases the number of samples if small.) // OrganizeByFontAndClass must have been already called. int NumClassSamples(int font_id, int class_id, bool randomize) const; // Gets a sample by its index. const TrainingSample* GetSample(int index) const; // Gets a sample by its font, class, index. // OrganizeByFontAndClass must have been already called. const TrainingSample* GetSample(int font_id, int class_id, int index) const; // Get a sample by its font, class, index. Does not randomize. // OrganizeByFontAndClass must have been already called. TrainingSample* MutableSample(int font_id, int class_id, int index); // Returns a string debug representation of the given sample: // font, unichar_str, bounding box, page. STRING SampleToString(const TrainingSample& sample) const; // Gets the combined set of features used by all the samples of the given // font/class combination. const BitVector& GetCloudFeatures(int font_id, int class_id) const; // Gets the indexed features of the canonical sample of the given // font/class combination. const GenericVector& GetCanonicalFeatures(int font_id, int class_id) const; // Returns the distance between the given UniCharAndFonts pair. // If matched_fonts, only matching fonts, are considered, unless that yields // the empty set. // OrganizeByFontAndClass must have been already called. float UnicharDistance(const UnicharAndFonts& uf1, const UnicharAndFonts& uf2, bool matched_fonts, const IntFeatureMap& feature_map); // Returns the distance between the given pair of font/class pairs. // Finds in cache or computes and caches. // OrganizeByFontAndClass must have been already called. float ClusterDistance(int font_id1, int class_id1, int font_id2, int class_id2, const IntFeatureMap& feature_map); // Computes the distance between the given pair of font/class pairs. float ComputeClusterDistance(int font_id1, int class_id1, int font_id2, int class_id2, const IntFeatureMap& feature_map) const; // Returns the number of canonical features of font/class 2 for which // neither the feature nor any of its near neighbors occurs in the cloud // of font/class 1. Each such feature is a reliable separation between // the classes, ASSUMING that the canonical sample is sufficiently // representative that every sample has a feature near that particular // feature. To check that this is so on the fly would be prohibitively // expensive, but it might be possible to pre-qualify the canonical features // to include only those for which this assumption is true. // ComputeCanonicalFeatures and ComputeCloudFeatures must have been called // first, or the results will be nonsense. int ReliablySeparable(int font_id1, int class_id1, int font_id2, int class_id2, const IntFeatureMap& feature_map, bool thorough) const; // Returns the total index of the requested sample. // OrganizeByFontAndClass must have been already called. int GlobalSampleIndex(int font_id, int class_id, int index) const; // Gets the canonical sample for the given font, class pair. // ComputeCanonicalSamples must have been called first. const TrainingSample* GetCanonicalSample(int font_id, int class_id) const; // Gets the max distance for the given canonical sample. // ComputeCanonicalSamples must have been called first. float GetCanonicalDist(int font_id, int class_id) const; // Returns a mutable pointer to the sample with the given index. TrainingSample* mutable_sample(int index) { return samples_[index]; } // Gets ownership of the sample with the given index, removing it from this. TrainingSample* extract_sample(int index) { TrainingSample* sample = samples_[index]; samples_[index] = nullptr; return sample; } // Generates indexed features for all samples with the supplied feature_space. void IndexFeatures(const IntFeatureSpace& feature_space); // Marks the given sample for deletion. // Deletion is actually completed by DeleteDeadSamples. void KillSample(TrainingSample* sample); // Deletes all samples with a negative sample index marked by KillSample. // Must be called before OrganizeByFontAndClass, and OrganizeByFontAndClass // must be called after as the samples have been renumbered. void DeleteDeadSamples(); // Callback function returns true if the given sample is to be deleted, due // to having a negative classid. bool DeleteableSample(const TrainingSample* sample); // Construct an array to access the samples by font,class pair. void OrganizeByFontAndClass(); // Constructs the font_id_map_ which maps real font_ids (sparse) to a compact // index for the font_class_array_. void SetupFontIdMap(); // Finds the sample for each font, class pair that has least maximum // distance to all the other samples of the same font, class. // OrganizeByFontAndClass must have been already called. void ComputeCanonicalSamples(const IntFeatureMap& map, bool debug); // Replicates the samples to a minimum frequency defined by // 2 * kSampleRandomSize, or for larger counts duplicates all samples. // After replication, the replicated samples are perturbed slightly, but // in a predictable and repeatable way. // Use after OrganizeByFontAndClass(). void ReplicateAndRandomizeSamples(); // Caches the indexed features of the canonical samples. // ComputeCanonicalSamples must have been already called. void ComputeCanonicalFeatures(); // Computes the combined set of features used by all the samples of each // font/class combination. Use after ReplicateAndRandomizeSamples. void ComputeCloudFeatures(int feature_space_size); // Adds all fonts of the given class to the shape. void AddAllFontsForClass(int class_id, Shape* shape) const; // Display the samples with the given indexed feature that also match // the given shape. void DisplaySamplesWithFeature(int f_index, const Shape& shape, const IntFeatureSpace& feature_space, ScrollView::Color color, ScrollView* window) const; private: // Struct to store a triplet of unichar, font, distance in the distance cache. struct FontClassDistance { int unichar_id; int font_id; // Real font id. float distance; }; // Simple struct to store information related to each font/class combination. struct FontClassInfo { FontClassInfo(); // 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); // Number of raw samples. int32_t num_raw_samples; // Index of the canonical sample. int32_t canonical_sample; // Max distance of the canonical sample from any other. float canonical_dist; // Sample indices for the samples, including replicated. GenericVector samples; // Non-serialized cache data. // Indexed features of the canonical sample. GenericVector canonical_features; // The mapped features of all the samples. BitVector cloud_features; // Caches for ClusterDistance. // Caches for other fonts but matching this unichar. -1 indicates not set. // Indexed by compact font index from font_id_map_. GenericVector font_distance_cache; // Caches for other unichars but matching this font. -1 indicates not set. GenericVector unichar_distance_cache; // Cache for the rest (non matching font and unichar.) // A cache of distances computed by ReliablySeparable. GenericVector distance_cache; }; PointerVector samples_; // Number of samples before replication/randomization. int num_raw_samples_; // Character set we are training for. UNICHARSET unicharset_; // Character set size to which the 2-d arrays below refer. int unicharset_size_; // Map to allow the font_class_array_ below to be compact. // The sparse space is the real font_id, used in samples_ . // The compact space is an index to font_class_array_ IndexMapBiDi font_id_map_; // A 2-d array of FontClassInfo holding information related to each // (font_id, class_id) pair. GENERIC_2D_ARRAY* font_class_array_; // Reference to the fontinfo_table_ in MasterTrainer. Provides names // for font_ids in the samples. Not serialized! const FontInfoTable& fontinfo_table_; }; } // namespace tesseract. #endif // TRAININGSAMPLESETSET_H_