/////////////////////////////////////////////////////////////////////// // File: baseapi.h // Description: Simple API for calling tesseract. // Author: Ray Smith // Created: Fri Oct 06 15:35:01 PDT 2006 // // (C) Copyright 2006, 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_API_BASEAPI_H_ #define TESSERACT_API_BASEAPI_H_ #define TESSERACT_VERSION_STR "4.00.00alpha" #define TESSERACT_VERSION 0x040000 #define MAKE_VERSION(major, minor, patch) (((major) << 16) | ((minor) << 8) | \ (patch)) #include // To avoid collision with other typenames include the ABSOLUTE MINIMUM // complexity of includes here. Use forward declarations wherever possible // and hide includes of complex types in baseapi.cpp. #include "apitypes.h" #include "pageiterator.h" #include "platform.h" #include "publictypes.h" #include "resultiterator.h" #include "serialis.h" #include "tesscallback.h" #include "thresholder.h" #include "unichar.h" template class GenericVector; class PAGE_RES; class PAGE_RES_IT; class ParagraphModel; struct BlamerBundle; class BLOCK_LIST; class DENORM; class MATRIX; class ROW; class STRING; class WERD; struct Pix; struct Box; struct Pixa; struct Boxa; class ETEXT_DESC; struct OSResults; class TBOX; class UNICHARSET; class WERD_CHOICE_LIST; struct INT_FEATURE_STRUCT; typedef INT_FEATURE_STRUCT *INT_FEATURE; struct TBLOB; namespace tesseract { class Dawg; class Dict; class EquationDetect; class PageIterator; class LTRResultIterator; class ResultIterator; class MutableIterator; class TessResultRenderer; class Tesseract; class Trie; class Wordrec; typedef int (Dict::*DictFunc)(void* void_dawg_args, UNICHAR_ID unichar_id, bool word_end) const; typedef double (Dict::*ProbabilityInContextFunc)(const char* lang, const char* context, int context_bytes, const char* character, int character_bytes); typedef float (Dict::*ParamsModelClassifyFunc)( const char *lang, void *path); typedef void (Wordrec::*FillLatticeFunc)(const MATRIX &ratings, const WERD_CHOICE_LIST &best_choices, const UNICHARSET &unicharset, BlamerBundle *blamer_bundle); typedef TessCallback4 TruthCallback; /** * Base class for all tesseract APIs. * Specific classes can add ability to work on different inputs or produce * different outputs. * This class is mostly an interface layer on top of the Tesseract instance * class to hide the data types so that users of this class don't have to * include any other Tesseract headers. */ class TESS_API TessBaseAPI { public: TessBaseAPI(); virtual ~TessBaseAPI(); /** * Returns the version identifier as a static string. Do not delete. */ static const char* Version(); /** * If compiled with OpenCL AND an available OpenCL * device is deemed faster than serial code, then * "device" is populated with the cl_device_id * and returns sizeof(cl_device_id) * otherwise *device=NULL and returns 0. */ static size_t getOpenCLDevice(void **device); /** * Writes the thresholded image to stderr as a PBM file on receipt of a * SIGSEGV, SIGFPE, or SIGBUS signal. (Linux/Unix only). */ static void CatchSignals(); /** * Set the name of the input file. Needed for training and * reading a UNLV zone file, and for searchable PDF output. */ void SetInputName(const char* name); /** * These functions are required for searchable PDF output. * We need our hands on the input file so that we can include * it in the PDF without transcoding. If that is not possible, * we need the original image. Finally, resolution metadata * is stored in the PDF so we need that as well. */ const char* GetInputName(); // Takes ownership of the input pix. void SetInputImage(Pix *pix); Pix* GetInputImage(); int GetSourceYResolution(); const char* GetDatapath(); /** Set the name of the bonus output files. Needed only for debugging. */ void SetOutputName(const char* name); /** * Set the value of an internal "parameter." * Supply the name of the parameter and the value as a string, just as * you would in a config file. * Returns false if the name lookup failed. * Eg SetVariable("tessedit_char_blacklist", "xyz"); to ignore x, y and z. * Or SetVariable("classify_bln_numeric_mode", "1"); to set numeric-only mode. * SetVariable may be used before Init, but settings will revert to * defaults on End(). * * Note: Must be called after Init(). Only works for non-init variables * (init variables should be passed to Init()). */ bool SetVariable(const char* name, const char* value); bool SetDebugVariable(const char* name, const char* value); /** * Returns true if the parameter was found among Tesseract parameters. * Fills in value with the value of the parameter. */ bool GetIntVariable(const char *name, int *value) const; bool GetBoolVariable(const char *name, bool *value) const; bool GetDoubleVariable(const char *name, double *value) const; /** * Returns the pointer to the string that represents the value of the * parameter if it was found among Tesseract parameters. */ const char *GetStringVariable(const char *name) const; /** * Print Tesseract parameters to the given file. */ void PrintVariables(FILE *fp) const; /** * Get value of named variable as a string, if it exists. */ bool GetVariableAsString(const char *name, STRING *val); /** * Instances are now mostly thread-safe and totally independent, * but some global parameters remain. Basically it is safe to use multiple * TessBaseAPIs in different threads in parallel, UNLESS: * you use SetVariable on some of the Params in classify and textord. * If you do, then the effect will be to change it for all your instances. * * Start tesseract. Returns zero on success and -1 on failure. * NOTE that the only members that may be called before Init are those * listed above here in the class definition. * * The datapath must be the name of the parent directory of tessdata and * must end in / . Any name after the last / will be stripped. * The language is (usually) an ISO 639-3 string or NULL will default to eng. * It is entirely safe (and eventually will be efficient too) to call * Init multiple times on the same instance to change language, or just * to reset the classifier. * The language may be a string of the form [~][+[~]]* indicating * that multiple languages are to be loaded. Eg hin+eng will load Hindi and * English. Languages may specify internally that they want to be loaded * with one or more other languages, so the ~ sign is available to override * that. Eg if hin were set to load eng by default, then hin+~eng would force * loading only hin. The number of loaded languages is limited only by * memory, with the caveat that loading additional languages will impact * both speed and accuracy, as there is more work to do to decide on the * applicable language, and there is more chance of hallucinating incorrect * words. * WARNING: On changing languages, all Tesseract parameters are reset * back to their default values. (Which may vary between languages.) * If you have a rare need to set a Variable that controls * initialization for a second call to Init you should explicitly * call End() and then use SetVariable before Init. This is only a very * rare use case, since there are very few uses that require any parameters * to be set before Init. * * If set_only_non_debug_params is true, only params that do not contain * "debug" in the name will be set. */ int Init(const char* datapath, const char* language, OcrEngineMode mode, char **configs, int configs_size, const GenericVector *vars_vec, const GenericVector *vars_values, bool set_only_non_debug_params); int Init(const char* datapath, const char* language, OcrEngineMode oem) { return Init(datapath, language, oem, NULL, 0, NULL, NULL, false); } int Init(const char* datapath, const char* language) { return Init(datapath, language, OEM_DEFAULT, NULL, 0, NULL, NULL, false); } // In-memory version reads the traineddata file directly from the given // data[data_size] array, and/or reads data via a FileReader. int Init(const char* data, int data_size, const char* language, OcrEngineMode mode, char** configs, int configs_size, const GenericVector* vars_vec, const GenericVector* vars_values, bool set_only_non_debug_params, FileReader reader); /** * Returns the languages string used in the last valid initialization. * If the last initialization specified "deu+hin" then that will be * returned. If hin loaded eng automatically as well, then that will * not be included in this list. To find the languages actually * loaded use GetLoadedLanguagesAsVector. * The returned string should NOT be deleted. */ const char* GetInitLanguagesAsString() const; /** * Returns the loaded languages in the vector of STRINGs. * Includes all languages loaded by the last Init, including those loaded * as dependencies of other loaded languages. */ void GetLoadedLanguagesAsVector(GenericVector* langs) const; /** * Returns the available languages in the vector of STRINGs. */ void GetAvailableLanguagesAsVector(GenericVector* langs) const; /** * Init only the lang model component of Tesseract. The only functions * that work after this init are SetVariable and IsValidWord. * WARNING: temporary! This function will be removed from here and placed * in a separate API at some future time. */ int InitLangMod(const char* datapath, const char* language); /** * Init only for page layout analysis. Use only for calls to SetImage and * AnalysePage. Calls that attempt recognition will generate an error. */ void InitForAnalysePage(); /** * Read a "config" file containing a set of param, value pairs. * Searches the standard places: tessdata/configs, tessdata/tessconfigs * and also accepts a relative or absolute path name. * Note: only non-init params will be set (init params are set by Init()). */ void ReadConfigFile(const char* filename); /** Same as above, but only set debug params from the given config file. */ void ReadDebugConfigFile(const char* filename); /** * Set the current page segmentation mode. Defaults to PSM_SINGLE_BLOCK. * The mode is stored as an IntParam so it can also be modified by * ReadConfigFile or SetVariable("tessedit_pageseg_mode", mode as string). */ void SetPageSegMode(PageSegMode mode); /** Return the current page segmentation mode. */ PageSegMode GetPageSegMode() const; /** * Recognize a rectangle from an image and return the result as a string. * May be called many times for a single Init. * Currently has no error checking. * Greyscale of 8 and color of 24 or 32 bits per pixel may be given. * Palette color images will not work properly and must be converted to * 24 bit. * Binary images of 1 bit per pixel may also be given but they must be * byte packed with the MSB of the first byte being the first pixel, and a * 1 represents WHITE. For binary images set bytes_per_pixel=0. * The recognized text is returned as a char* which is coded * as UTF8 and must be freed with the delete [] operator. * * Note that TesseractRect is the simplified convenience interface. * For advanced uses, use SetImage, (optionally) SetRectangle, Recognize, * and one or more of the Get*Text functions below. */ char* TesseractRect(const unsigned char* imagedata, int bytes_per_pixel, int bytes_per_line, int left, int top, int width, int height); /** * Call between pages or documents etc to free up memory and forget * adaptive data. */ void ClearAdaptiveClassifier(); /** * @defgroup AdvancedAPI Advanced API * The following methods break TesseractRect into pieces, so you can * get hold of the thresholded image, get the text in different formats, * get bounding boxes, confidences etc. */ /* @{ */ /** * Provide an image for Tesseract to recognize. Format is as * TesseractRect above. Copies the image buffer and converts to Pix. * SetImage clears all recognition results, and sets the rectangle to the * full image, so it may be followed immediately by a GetUTF8Text, and it * will automatically perform recognition. */ void SetImage(const unsigned char* imagedata, int width, int height, int bytes_per_pixel, int bytes_per_line); /** * Provide an image for Tesseract to recognize. As with SetImage above, * Tesseract takes its own copy of the image, so it need not persist until * after Recognize. * Pix vs raw, which to use? * Use Pix where possible. Tesseract uses Pix as its internal representation * and it is therefore more efficient to provide a Pix directly. */ void SetImage(Pix* pix); /** * Set the resolution of the source image in pixels per inch so font size * information can be calculated in results. Call this after SetImage(). */ void SetSourceResolution(int ppi); /** * Restrict recognition to a sub-rectangle of the image. Call after SetImage. * Each SetRectangle clears the recogntion results so multiple rectangles * can be recognized with the same image. */ void SetRectangle(int left, int top, int width, int height); /** * In extreme cases only, usually with a subclass of Thresholder, it * is possible to provide a different Thresholder. The Thresholder may * be preloaded with an image, settings etc, or they may be set after. * Note that Tesseract takes ownership of the Thresholder and will * delete it when it it is replaced or the API is destructed. */ void SetThresholder(ImageThresholder* thresholder) { delete thresholder_; thresholder_ = thresholder; ClearResults(); } /** * Get a copy of the internal thresholded image from Tesseract. * Caller takes ownership of the Pix and must pixDestroy it. * May be called any time after SetImage, or after TesseractRect. */ Pix* GetThresholdedImage(); /** * Get the result of page layout analysis as a leptonica-style * Boxa, Pixa pair, in reading order. * Can be called before or after Recognize. */ Boxa* GetRegions(Pixa** pixa); /** * Get the textlines as a leptonica-style * Boxa, Pixa pair, in reading order. * Can be called before or after Recognize. * If raw_image is true, then extract from the original image instead of the * thresholded image and pad by raw_padding pixels. * If blockids is not NULL, the block-id of each line is also returned as an * array of one element per line. delete [] after use. * If paraids is not NULL, the paragraph-id of each line within its block is * also returned as an array of one element per line. delete [] after use. */ Boxa* GetTextlines(const bool raw_image, const int raw_padding, Pixa** pixa, int** blockids, int** paraids); /* Helper method to extract from the thresholded image. (most common usage) */ Boxa* GetTextlines(Pixa** pixa, int** blockids) { return GetTextlines(false, 0, pixa, blockids, NULL); } /** * Get textlines and strips of image regions as a leptonica-style Boxa, Pixa * pair, in reading order. Enables downstream handling of non-rectangular * regions. * Can be called before or after Recognize. * If blockids is not NULL, the block-id of each line is also returned as an * array of one element per line. delete [] after use. */ Boxa* GetStrips(Pixa** pixa, int** blockids); /** * Get the words as a leptonica-style * Boxa, Pixa pair, in reading order. * Can be called before or after Recognize. */ Boxa* GetWords(Pixa** pixa); /** * Gets the individual connected (text) components (created * after pages segmentation step, but before recognition) * as a leptonica-style Boxa, Pixa pair, in reading order. * Can be called before or after Recognize. * Note: the caller is responsible for calling boxaDestroy() * on the returned Boxa array and pixaDestroy() on cc array. */ Boxa* GetConnectedComponents(Pixa** cc); /** * Get the given level kind of components (block, textline, word etc.) as a * leptonica-style Boxa, Pixa pair, in reading order. * Can be called before or after Recognize. * If blockids is not NULL, the block-id of each component is also returned * as an array of one element per component. delete [] after use. * If blockids is not NULL, the paragraph-id of each component with its block * is also returned as an array of one element per component. delete [] after * use. * If raw_image is true, then portions of the original image are extracted * instead of the thresholded image and padded with raw_padding. * If text_only is true, then only text components are returned. */ Boxa* GetComponentImages(const PageIteratorLevel level, const bool text_only, const bool raw_image, const int raw_padding, Pixa** pixa, int** blockids, int** paraids); // Helper function to get binary images with no padding (most common usage). Boxa* GetComponentImages(const PageIteratorLevel level, const bool text_only, Pixa** pixa, int** blockids) { return GetComponentImages(level, text_only, false, 0, pixa, blockids, NULL); } /** * Returns the scale factor of the thresholded image that would be returned by * GetThresholdedImage() and the various GetX() methods that call * GetComponentImages(). * Returns 0 if no thresholder has been set. */ int GetThresholdedImageScaleFactor() const; /** * Dump the internal binary image to a PGM file. * @deprecated Use GetThresholdedImage and write the image using pixWrite * instead if possible. */ void DumpPGM(const char* filename); /** * Runs page layout analysis in the mode set by SetPageSegMode. * May optionally be called prior to Recognize to get access to just * the page layout results. Returns an iterator to the results. * If merge_similar_words is true, words are combined where suitable for use * with a line recognizer. Use if you want to use AnalyseLayout to find the * textlines, and then want to process textline fragments with an external * line recognizer. * Returns NULL on error or an empty page. * The returned iterator must be deleted after use. * WARNING! This class points to data held within the TessBaseAPI class, and * therefore can only be used while the TessBaseAPI class still exists and * has not been subjected to a call of Init, SetImage, Recognize, Clear, End * DetectOS, or anything else that changes the internal PAGE_RES. */ PageIterator* AnalyseLayout(); PageIterator* AnalyseLayout(bool merge_similar_words); /** * Recognize the image from SetAndThresholdImage, generating Tesseract * internal structures. Returns 0 on success. * Optional. The Get*Text functions below will call Recognize if needed. * After Recognize, the output is kept internally until the next SetImage. */ int Recognize(ETEXT_DESC* monitor); /** * Methods to retrieve information after SetAndThresholdImage(), * Recognize() or TesseractRect(). (Recognize is called implicitly if needed.) */ /** Variant on Recognize used for testing chopper. */ int RecognizeForChopTest(ETEXT_DESC* monitor); /** * Turns images into symbolic text. * * filename can point to a single image, a multi-page TIFF, * or a plain text list of image filenames. * * retry_config is useful for debugging. If not NULL, you can fall * back to an alternate configuration if a page fails for some * reason. * * timeout_millisec terminates processing if any single page * takes too long. Set to 0 for unlimited time. * * renderer is responible for creating the output. For example, * use the TessTextRenderer if you want plaintext output, or * the TessPDFRender to produce searchable PDF. * * If tessedit_page_number is non-negative, will only process that * single page. Works for multi-page tiff file, or filelist. * * Returns true if successful, false on error. */ bool ProcessPages(const char* filename, const char* retry_config, int timeout_millisec, TessResultRenderer* renderer); // Does the real work of ProcessPages. bool ProcessPagesInternal(const char* filename, const char* retry_config, int timeout_millisec, TessResultRenderer* renderer); /** * Turn a single image into symbolic text. * * The pix is the image processed. filename and page_index are * metadata used by side-effect processes, such as reading a box * file or formatting as hOCR. * * See ProcessPages for desciptions of other parameters. */ bool ProcessPage(Pix* pix, int page_index, const char* filename, const char* retry_config, int timeout_millisec, TessResultRenderer* renderer); /** * Get a reading-order iterator to the results of LayoutAnalysis and/or * Recognize. The returned iterator must be deleted after use. * WARNING! This class points to data held within the TessBaseAPI class, and * therefore can only be used while the TessBaseAPI class still exists and * has not been subjected to a call of Init, SetImage, Recognize, Clear, End * DetectOS, or anything else that changes the internal PAGE_RES. */ ResultIterator* GetIterator(); /** * Get a mutable iterator to the results of LayoutAnalysis and/or Recognize. * The returned iterator must be deleted after use. * WARNING! This class points to data held within the TessBaseAPI class, and * therefore can only be used while the TessBaseAPI class still exists and * has not been subjected to a call of Init, SetImage, Recognize, Clear, End * DetectOS, or anything else that changes the internal PAGE_RES. */ MutableIterator* GetMutableIterator(); /** * The recognized text is returned as a char* which is coded * as UTF8 and must be freed with the delete [] operator. */ char* GetUTF8Text(); /** * Make a HTML-formatted string with hOCR markup from the internal * data structures. * page_number is 0-based but will appear in the output as 1-based. * monitor can be used to * cancel the recognition * receive progress callbacks */ char* GetHOCRText(ETEXT_DESC* monitor, int page_number); /** * Make a HTML-formatted string with hOCR markup from the internal * data structures. * page_number is 0-based but will appear in the output as 1-based. */ char* GetHOCRText(int page_number); /** * Make a TSV-formatted string from the internal data structures. * page_number is 0-based but will appear in the output as 1-based. */ char* GetTSVText(int page_number); /** * The recognized text is returned as a char* which is coded in the same * format as a box file used in training. Returned string must be freed with * the delete [] operator. * Constructs coordinates in the original image - not just the rectangle. * page_number is a 0-based page index that will appear in the box file. */ char* GetBoxText(int page_number); /** * The recognized text is returned as a char* which is coded * as UNLV format Latin-1 with specific reject and suspect codes * and must be freed with the delete [] operator. */ char* GetUNLVText(); /** * Detect the orientation of the input image and apparent script (alphabet). * orient_deg is the detected clockwise rotation of the input image in degrees * (0, 90, 180, 270) * orient_conf is the confidence (15.0 is reasonably confident) * script_name is an ASCII string, the name of the script, e.g. "Latin" * script_conf is confidence level in the script * Returns true on success and writes values to each parameter as an output */ bool DetectOrientationScript(int* orient_deg, float* orient_conf, const char** script_name, float* script_conf); /** * The recognized text is returned as a char* which is coded * as UTF8 and must be freed with the delete [] operator. * page_number is a 0-based page index that will appear in the osd file. */ char* GetOsdText(int page_number); /** Returns the (average) confidence value between 0 and 100. */ int MeanTextConf(); /** * Returns all word confidences (between 0 and 100) in an array, terminated * by -1. The calling function must delete [] after use. * The number of confidences should correspond to the number of space- * delimited words in GetUTF8Text. */ int* AllWordConfidences(); /** * Applies the given word to the adaptive classifier if possible. * The word must be SPACE-DELIMITED UTF-8 - l i k e t h i s , so it can * tell the boundaries of the graphemes. * Assumes that SetImage/SetRectangle have been used to set the image * to the given word. The mode arg should be PSM_SINGLE_WORD or * PSM_CIRCLE_WORD, as that will be used to control layout analysis. * The currently set PageSegMode is preserved. * Returns false if adaption was not possible for some reason. */ bool AdaptToWordStr(PageSegMode mode, const char* wordstr); /** * Free up recognition results and any stored image data, without actually * freeing any recognition data that would be time-consuming to reload. * Afterwards, you must call SetImage or TesseractRect before doing * any Recognize or Get* operation. */ void Clear(); /** * Close down tesseract and free up all memory. End() is equivalent to * destructing and reconstructing your TessBaseAPI. * Once End() has been used, none of the other API functions may be used * other than Init and anything declared above it in the class definition. */ void End(); /** * Clear any library-level memory caches. * There are a variety of expensive-to-load constant data structures (mostly * language dictionaries) that are cached globally -- surviving the Init() * and End() of individual TessBaseAPI's. This function allows the clearing * of these caches. **/ static void ClearPersistentCache(); /** * Check whether a word is valid according to Tesseract's language model * @return 0 if the word is invalid, non-zero if valid. * @warning temporary! This function will be removed from here and placed * in a separate API at some future time. */ int IsValidWord(const char *word); // Returns true if utf8_character is defined in the UniCharset. bool IsValidCharacter(const char *utf8_character); bool GetTextDirection(int* out_offset, float* out_slope); /** Sets Dict::letter_is_okay_ function to point to the given function. */ void SetDictFunc(DictFunc f); /** Sets Dict::probability_in_context_ function to point to the given * function. */ void SetProbabilityInContextFunc(ProbabilityInContextFunc f); /** Sets Wordrec::fill_lattice_ function to point to the given function. */ void SetFillLatticeFunc(FillLatticeFunc f); /** * Estimates the Orientation And Script of the image. * @return true if the image was processed successfully. */ bool DetectOS(OSResults*); /** This method returns the features associated with the input image. */ void GetFeaturesForBlob(TBLOB* blob, INT_FEATURE_STRUCT* int_features, int* num_features, int* feature_outline_index); /** * This method returns the row to which a box of specified dimensions would * belong. If no good match is found, it returns NULL. */ static ROW* FindRowForBox(BLOCK_LIST* blocks, int left, int top, int right, int bottom); /** * Method to run adaptive classifier on a blob. * It returns at max num_max_matches results. */ void RunAdaptiveClassifier(TBLOB* blob, int num_max_matches, int* unichar_ids, float* ratings, int* num_matches_returned); /** This method returns the string form of the specified unichar. */ const char* GetUnichar(int unichar_id); /** Return the pointer to the i-th dawg loaded into tesseract_ object. */ const Dawg *GetDawg(int i) const; /** Return the number of dawgs loaded into tesseract_ object. */ int NumDawgs() const; /** Returns a ROW object created from the input row specification. */ static ROW *MakeTessOCRRow(float baseline, float xheight, float descender, float ascender); /** Returns a TBLOB corresponding to the entire input image. */ static TBLOB *MakeTBLOB(Pix *pix); /** * This method baseline normalizes a TBLOB in-place. The input row is used * for normalization. The denorm is an optional parameter in which the * normalization-antidote is returned. */ static void NormalizeTBLOB(TBLOB *tblob, ROW *row, bool numeric_mode); Tesseract* tesseract() const { return tesseract_; } OcrEngineMode oem() const { return last_oem_requested_; } void InitTruthCallback(TruthCallback *cb) { truth_cb_ = cb; } void set_min_orientation_margin(double margin); /** * Return text orientation of each block as determined by an earlier run * of layout analysis. */ void GetBlockTextOrientations(int** block_orientation, bool** vertical_writing); /** Find lines from the image making the BLOCK_LIST. */ BLOCK_LIST* FindLinesCreateBlockList(); /** * Delete a block list. * This is to keep BLOCK_LIST pointer opaque * and let go of including the other headers. */ static void DeleteBlockList(BLOCK_LIST* block_list); /* @} */ protected: /** Common code for setting the image. Returns true if Init has been called. */ TESS_LOCAL bool InternalSetImage(); /** * Run the thresholder to make the thresholded image. If pix is not NULL, * the source is thresholded to pix instead of the internal IMAGE. */ TESS_LOCAL virtual void Threshold(Pix** pix); /** * Find lines from the image making the BLOCK_LIST. * @return 0 on success. */ TESS_LOCAL int FindLines(); /** Delete the pageres and block list ready for a new page. */ void ClearResults(); /** * Return an LTR Result Iterator -- used only for training, as we really want * to ignore all BiDi smarts at that point. * delete once you're done with it. */ TESS_LOCAL LTRResultIterator* GetLTRIterator(); /** * Return the length of the output text string, as UTF8, assuming * one newline per line and one per block, with a terminator, * and assuming a single character reject marker for each rejected character. * Also return the number of recognized blobs in blob_count. */ TESS_LOCAL int TextLength(int* blob_count); /** @defgroup ocropusAddOns ocropus add-ons */ /* @{ */ /** * Adapt to recognize the current image as the given character. * The image must be preloaded and be just an image of a single character. */ TESS_LOCAL void AdaptToCharacter(const char *unichar_repr, int length, float baseline, float xheight, float descender, float ascender); /** Recognize text doing one pass only, using settings for a given pass. */ TESS_LOCAL PAGE_RES* RecognitionPass1(BLOCK_LIST* block_list); TESS_LOCAL PAGE_RES* RecognitionPass2(BLOCK_LIST* block_list, PAGE_RES* pass1_result); //// paragraphs.cpp //////////////////////////////////////////////////// TESS_LOCAL void DetectParagraphs(bool after_text_recognition); /** * Extract the OCR results, costs (penalty points for uncertainty), * and the bounding boxes of the characters. */ TESS_LOCAL static int TesseractExtractResult(char** text, int** lengths, float** costs, int** x0, int** y0, int** x1, int** y1, PAGE_RES* page_res); TESS_LOCAL const PAGE_RES* GetPageRes() const { return page_res_; } /* @} */ protected: Tesseract* tesseract_; ///< The underlying data object. Tesseract* osd_tesseract_; ///< For orientation & script detection. EquationDetect* equ_detect_; ///* paragraph_models_; BLOCK_LIST* block_list_; ///< The page layout. PAGE_RES* page_res_; ///< The page-level data. STRING* input_file_; ///< Name used by training code. STRING* output_file_; ///< Name used by debug code. STRING* datapath_; ///< Current location of tessdata. STRING* language_; ///< Last initialized language. OcrEngineMode last_oem_requested_; ///< Last ocr language mode requested. bool recognition_done_; ///< page_res_ contains recognition data. TruthCallback *truth_cb_; /// fxn for setting truth_* in WERD_RES /** * @defgroup ThresholderParams Thresholder Parameters * Parameters saved from the Thresholder. Needed to rebuild coordinates. */ /* @{ */ int rect_left_; int rect_top_; int rect_width_; int rect_height_; int image_width_; int image_height_; /* @} */ private: // A list of image filenames gets special consideration bool ProcessPagesFileList(FILE *fp, STRING *buf, const char* retry_config, int timeout_millisec, TessResultRenderer* renderer, int tessedit_page_number); // TIFF supports multipage so gets special consideration. bool ProcessPagesMultipageTiff(const unsigned char *data, size_t size, const char* filename, const char* retry_config, int timeout_millisec, TessResultRenderer* renderer, int tessedit_page_number); // There's currently no way to pass a document title from the // Tesseract command line, and we have multiple places that choose // to set the title to an empty string. Using a single named // variable will hopefully reduce confusion if the situation changes // in the future. const char *unknown_title_ = ""; }; // class TessBaseAPI. /** Escape a char string - remove &<>"' with HTML codes. */ STRING HOcrEscape(const char* text); } // namespace tesseract. #endif // TESSERACT_API_BASEAPI_H_