Image::Leptonica::Func::recogbasic
version 0.04
recogbasic.c
recogbasic.c Recoga creation, destruction and access L_RECOGA *recogaCreateFromRecog() L_RECOGA *recogaCreateFromPixaa() L_RECOGA *recogaCreate() void recogaDestroy() l_int32 recogaAddRecog() static l_int32 recogaExtendArray() l_int32 recogReplaceInRecoga() L_RECOG *recogaGetRecog() l_int32 recogaGetCount() l_int32 recogGetCount() l_int32 recogGetIndex() l_int32 recogGetParent() l_int32 recogSetBootflag() Recog initialization and destruction L_RECOG *recogCreateFromRecog() L_RECOG *recogCreateFromPixa() L_RECOG *recogCreate() void recogDestroy() Appending (combining two recogs into one) l_int32 recogAppend() Character/index lookup l_int32 recogGetClassIndex() l_int32 recogStringToIndex() l_int32 recogGetClassString() l_int32 l_convertCharstrToInt() Serialization L_RECOGA *recogaRead() L_RECOGA *recogaReadStream() l_int32 recogaWrite() l_int32 recogaWriteStream() l_int32 recogaWritePixaa() L_RECOG *recogRead() L_RECOG *recogReadStream() l_int32 recogWrite() l_int32 recogWriteStream() l_int32 recogWritePixa() static l_int32 recogAddCharstrLabels() static l_int32 recogAddAllSamples() The recognizer functionality is split into four files: recogbasic.c: create, destroy, access, serialize recogtrain.c: training on labelled and unlabelled data recogident.c: running the recognizer(s) on input recogdid.c: running the recognizer(s) on input using a document image decoding (DID) hidden markov model This is a content-adapted (or book-adapted) recognizer (BAR) application. The recognizers here are typically bootstrapped from data that has been labelled by a generic recognition system, such as Tesseract. The general procedure to create a recognizer (recog) from labelled data is to add the labelled character bitmaps, and call recogTrainingFinished() when done. Typically, the recog is added to a recoga (an array of recognizers) before use. However, for identifying single characters, it is possible to use a single recog. If there is more than one recog, the usage options are: (1) To join the two together (e.g., if they're from the same source) (2) To put them separately into a recoga (recognizer array). For training numeric input, an example set of calls that scales each training input to (w, h) and will use the averaged templates for identifying unknown characters is: L_Recog *rec = recogCreate(w, h, L_USE_AVERAGE, 128, 1, "fonts"); for (i = 0; i < n; i++) { // read in n training digits Pix *pix = ... recogTrainLabelled(rec, pix, NULL, text[i], 0, 0); } recogTrainingFinished(rec, 0); // required It is an error if any function that computes averages, removes outliers or requests identification of an unlabelled character, such as: (1) computing the sample averages: recogAverageSamples() (2) removing outliers: recogRemoveOutliers() (3) requesting identification of an unlabeled character: recogIdentifyPix() is called before an explicit call to finish training. Note that to do further training on a "finished" recognizer, just set recog->train_done = FALSE; add the new training samples, and again call recogTrainingFinished(rec, 0); // required If using all examples for identification, all scaled to (w, h), and with outliers removed, do something like this: L_Recog *rec = recogCreate(w, h, L_USE_ALL, 128, 1, "fonts"); for (i = 0; i < n; i++) { // read in n training characters Pix *pix = ... recogTrainLabelled(rec, pix, NULL, text[i], 0, 0); } recogTrainingFinished(rec, 0); // remove anything with correlation less than 0.7 with average recogRemoveOutliers(rec, 0.7, 0.5, 0); You can train a recognizer from a pixa where the text field in each pix is the character string: L_Recog *recboot = recogCreateFromPixa(pixa, w, h, L_USE_AVERAGE, 128, 1, "fonts"); This is useful as a "bootstrap" recognizer for training a new recognizer (rec) on an unlabelled data set that has a different origin from recboot. To do this, the new recognizer must be initialized to use the same (w,h) scaling as the bootstrap recognizer. If the new recognizer is to be used without scaling (e.g., on images from a single source, like a book), call recogSetScaling() to regenerate all the scaled samples and averages: L_Recog *rec = recogCreate(w, h, L_USE_ALL, 128, 1, "fonts"); for (i = 0; i < n; i++) { // read in n training characters Pix *pix = ... recogTrainUnlabelled(rec, recboot, pix, NULL, 1, 0.75, 0); } recogTrainingFinished(rec, 0); recogSetScaling(rec, 0, 0); // use with no scaling
l_int32 l_convertCharstrToInt ( const char *str, l_int32 *pval )
l_convertCharstrToInt() Input: str (input string representing one UTF-8 character; not more than 4 bytes) &val (<return> integer value for the input. Think of it as a 1-to-1 hash code.) Return: 0 if OK, 1 on error
l_int32 recogAppend ( L_RECOG *recog1, L_RECOG *recog2 )
recogAppend() Input: recog1 recog2 (gets added to recog1) Return: 0 if OK, 1 on error Notes: (1) This is used to make a training recognizer from more than one trained recognizer source. It should only be used when the bitmaps for corresponding character classes are very similar. That constraint does not arise when the character classes are disjoint; e.g., if recog1 is digits and recog2 is alphabetical. (2) This is done by appending recog2 to recog1. Averages are computed for each recognizer, if necessary, before appending. (3) Non-array fields are combined using the appropriate min and max.
L_RECOG * recogCreate ( l_int32 scalew, l_int32 scaleh, l_int32 templ_type, l_int32 threshold, l_int32 maxyshift, const char *fontdir )
recogCreate() Input: scalew (scale all widths to this; use 0 for no scaling) scaleh (scale all heights to this; use 0 for no scaling) templ_type (L_USE_AVERAGE or L_USE_ALL) threshold (for binarization; typically ~128) maxyshift (from nominal centroid alignment; typically 0 or 1) fontdir (<optional> directory for bitmap fonts for debugging) Return: recog, or null on error Notes: (1) For a set trained on one font, such as numbers in a book, it is sensible to set scalew = scaleh = 0. (2) For a mixed training set, scaling to a fixed height, such as 32 pixels, but leaving the width unscaled, is effective. (3) The storage for most of the arrays is allocated when training is finished.
L_RECOG * recogCreateFromPixa ( PIXA *pixa, l_int32 scalew, l_int32 scaleh, l_int32 templ_type, l_int32 threshold, l_int32 maxyshift, const char *fontdir )
recogCreateFromPixa() Input: pixa (of labelled, 1 bpp images) scalew (scale all widths to this; use 0 for no scaling) scaleh (scale all heights to this; use 0 for no scaling) templ_type (L_USE_AVERAGE or L_USE_ALL) threshold (for binarization; typically ~128) maxyshift (from nominal centroid alignment; typically 0 or 1) fontdir (<optional> directory for bitmap fonts for debugging) Return: recog, or null on error Notes: (1) This is a convenience function for training from labelled data. The pixa can be read from file. (2) The pixa should contain the unscaled bitmaps used for training. (3) The characters here should work as a single "font", because each image example is put into a class defined by its character label. All examples in the same class should be similar.
L_RECOG * recogCreateFromRecog ( L_RECOG *recs, l_int32 scalew, l_int32 scaleh, l_int32 templ_type, l_int32 threshold, l_int32 maxyshift, const char *fontdir )
recogCreateFromRecog() Input: recs (source recog with arbitrary input parameters) scalew (scale all widths to this; use 0 for no scaling) scaleh (scale all heights to this; use 0 for no scaling) templ_type (L_USE_AVERAGE or L_USE_ALL) threshold (for binarization; typically ~128) maxyshift (from nominal centroid alignment; typically 0 or 1) fontdir (<optional> directory for bitmap fonts for debugging) Return: recd, or null on error Notes: (1) This is a convenience function that generates a recog using the unscaled training data in an existing recog.
void recogDestroy ( L_RECOG **precog )
recogDestroy() Input: &recog (<will be set to null before returning>) Return: void Notes: (1) If a recog has a parent, the parent owns it. A recogDestroy() will fail if there is a parent.
l_int32 recogGetClassIndex ( L_RECOG *recog, l_int32 val, char *text, l_int32 *pindex )
recogGetClassIndex() Input: recog (with LUT's pre-computed) val (integer value; can be up to 3 bytes for UTF-8) text (text from which @val was derived; used if not found) &index (<return> index into dna_tochar) Return: 0 if found; 1 if not found and added; 2 on error. Notes: (1) This is used during training. It searches the dna character array for @val. If not found, it increments the setsize by 1, augmenting both the index and text arrays. (2) Returns the index in &index, except on error. (3) Caller must check the function return value.
l_int32 recogGetCount ( L_RECOG *recog )
recogGetCount() Input: recog Return: count of classes in recog; 0 if no recog or on error
l_int32 recogGetIndex ( L_RECOG *recog, l_int32 *pindex )
recogGetIndex() Input: recog &index (into the parent recoga; -1 if no parent) Return: 0 if OK, 1 on error
L_RECOGA * recogGetParent ( L_RECOG *recog )
recogGetParent() Input: recog Return: recoga (back-pointer to parent); can be null
L_RECOG * recogRead ( const char *filename )
recogRead() Input: filename Return: recog, or null on error Notes: (1) Serialization can be applied to any recognizer, including one with more than one "font". That is, it can have multiple character classes with the same character set description, where each of those classes contains characters that are very similar in size and shape. Each pixa in the serialized pixaa contains images for a single character class.
L_RECOG * recogReadStream ( FILE *fp )
recogReadStream() Input: stream Return: recog, or null on error
l_int32 recogReplaceInRecoga ( L_RECOG **precog1, L_RECOG *recog2 )
recogReplaceInRecoga() Input: &recog1 (old recog, to be destroyed) recog2 (new recog, to be inserted in place of @recog1) Return: 0 if OK, 1 on error Notes: (1) This always destroys recog1. (2) If recog1 belongs to a recoga, this inserts recog2 into the slot that recog1 previously occupied.
l_int32 recogSetBootflag ( L_RECOG *recog )
recogSetBootflag() Input: recog Return: 0 if OK, 1 on error Notes: (1) This must be set for any bootstrap recog, where the samples are not from the media being identified. (2) It is used to enforce scaled bitmaps for identification, and to prevent the recog from being used to split touching characters (which requires unscaled samples from the material being identified).
l_int32 recogStringToIndex ( L_RECOG *recog, char *text, l_int32 *pindex )
recogStringToIndex() Input: recog text (text string for some class) &index (<return> index for that class; -1 if not found) Return: 0 if OK, 1 on error (not finding the string is an error)
l_int32 recogWrite ( const char *filename, L_RECOG *recog )
recogWrite() Input: filename recog Return: 0 if OK, 1 on error
l_int32 recogWritePixa ( const char *filename, L_RECOG *recog )
recogWritePixa() Input: filename recog Return: 0 if OK, 1 on error Notes: (1) This generates a pixa of all the unscaled images in the recognizer, where each one has its character string in the pix text field, by flattening pixaa_u to a pixa. (2) As a side-effect, the character class label is written into each pix in recog.
l_int32 recogWriteStream ( FILE *fp, L_RECOG *recog, const char *filename )
recogWriteStream() Input: stream (opened for "wb") recog filename (output serialized filename; embedded in file) Return: 0 if OK, 1 on error
l_int32 recogaAddRecog ( L_RECOGA *recoga, L_RECOG *recog )
recogaAddRecog() Input: recoga recog (to be added and owned by the recoga; not a copy) Return: recoga, or null on error
L_RECOGA * recogaCreate ( l_int32 n )
recogaCreate() Input: n (initial number of recog ptrs) Return: recoga, or null on error
L_RECOGA * recogaCreateFromPixaa ( PIXAA *paa, l_int32 scalew, l_int32 scaleh, l_int32 templ_type, l_int32 threshold, l_int32 maxyshift, const char *fontdir )
recogaCreateFromPixaa() Input: paa (of labelled, 1 bpp images) scalew (scale all widths to this; use 0 for no scaling) scaleh (scale all heights to this; use 0 for no scaling) templ_type (L_USE_AVERAGE or L_USE_ALL) threshold (for binarization; typically ~128) maxyshift (from nominal centroid alignment; typically 0 or 1) fontdir (<optional> directory for bitmap fonts for debugging) Return: recoga, or null on error Notes: (1) This is a convenience function for training from labelled data. (2) Each pixa in the paa is a set of labelled data that is used to train a recognizer (e.g., for a set of characters in a font). Each image example in the pixa is put into a class in its recognizer, defined by its character label. All examples in the same class should be similar. (3) The pixaa can be written by recogaWritePixaa(), and must contain the unscaled bitmaps used for training.
L_RECOGA * recogaCreateFromRecog ( L_RECOG *recog )
recogaCreateFromRecog() Input: recog Return: recoga, or null on error Notes: (1) This is a convenience function for making a recoga after you have a recog. The recog is owned by the recoga. (2) For splitting connected components, the input recog must be from the material to be identified, and not a generic bootstrap recog. Those can be added later.
void recogaDestroy ( L_RECOGA **precoga )
recogaDestroy() Input: &recoga (<will be set to null before returning>) Return: void Notes: (1) If a recog has a parent, the parent owns it. To destroy a recog, it must first be "orphaned".
l_int32 recogaGetCount ( L_RECOGA *recoga )
recogaGetCount() Input: recoga Return: count of recog in array; 0 if no recog or on error
L_RECOG * recogaGetRecog ( L_RECOGA *recoga, l_int32 index )
recogaGetRecog() Input: recoga index (to the index-th recog) Return: recog, or null on error Notes: (1) This returns a ptr to the recog, which is still owned by the recoga. Do not destroy it.
L_RECOGA * recogaRead ( const char *filename )
recogaRead() Input: filename Return: recoga, or null on error Notes: (1) This allows serialization of an array of recognizers, each of which can be used for different fonts, font styles, etc.
L_RECOGA * recogaReadStream ( FILE *fp )
recogaReadStream() Input: stream Return: recog, or null on error
l_int32 recogaWrite ( const char *filename, L_RECOGA *recoga )
recogaWrite() Input: filename recoga Return: 0 if OK, 1 on error
l_int32 recogaWritePixaa ( const char *filename, L_RECOGA *recoga )
recogaWritePixaa() Input: filename recoga Return: 0 if OK, 1 on error Notes: (1) For each recognizer, this generates a pixa of all the unscaled images. They are combined into a pixaa for the set of recognizers. Each pix has has its character string in the pix text field. (2) As a side-effect, the character class label is written into each pix in recog.
l_int32 recogaWriteStream ( FILE *fp, L_RECOGA *recoga, const char *filename )
recogaWriteStream() Input: stream (opened for "wb") recoga filename (output serialized filename; embedded in file) Return: 0 if OK, 1 on error
Zakariyya Mughal <zmughal@cpan.org>
This software is copyright (c) 2014 by Zakariyya Mughal.
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
To install Image::Leptonica, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Image::Leptonica
CPAN shell
perl -MCPAN -e shell install Image::Leptonica
For more information on module installation, please visit the detailed CPAN module installation guide.