mirror of
https://github.com/tesseract-ocr/tesseract.git
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7ec4fd7a56
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@904 d0cd1f9f-072b-0410-8dd7-cf729c803f20
433 lines
16 KiB
C++
433 lines
16 KiB
C++
/******************************************************************
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* File: cube_control.cpp
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* Description: Tesseract class methods for invoking cube convolutional
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* neural network word recognizer.
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* Author: Raquel Romano
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* Created: September 2009
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*
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**********************************************************************/
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// Include automatically generated configuration file if running autoconf.
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#ifdef HAVE_CONFIG_H
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#include "config_auto.h"
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#endif
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#include "allheaders.h"
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#include "cube_object.h"
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#include "cube_reco_context.h"
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#include "tesseractclass.h"
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#include "tesseract_cube_combiner.h"
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namespace tesseract {
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/**********************************************************************
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* convert_prob_to_tess_certainty
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*
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* Normalize a probability in the range [0.0, 1.0] to a tesseract
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* certainty in the range [-20.0, 0.0]
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**********************************************************************/
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static float convert_prob_to_tess_certainty(float prob) {
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return (prob - 1.0) * 20.0;
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}
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/**********************************************************************
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* char_box_to_tbox
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*
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* Create a TBOX from a character bounding box. If nonzero, the
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* x_offset accounts for any additional padding of the word box that
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* should be taken into account.
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*
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**********************************************************************/
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TBOX char_box_to_tbox(Box* char_box, TBOX word_box, int x_offset) {
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l_int32 left;
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l_int32 top;
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l_int32 width;
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l_int32 height;
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l_int32 right;
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l_int32 bottom;
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boxGetGeometry(char_box, &left, &top, &width, &height);
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left += word_box.left() - x_offset;
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right = left + width;
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top = word_box.bottom() + word_box.height() - top;
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bottom = top - height;
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return TBOX(left, bottom, right, top);
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}
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/**********************************************************************
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* extract_cube_state
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*
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* Extract CharSamp objects and character bounding boxes from the
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* CubeObject's state. The caller should free both structres.
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*
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**********************************************************************/
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bool Tesseract::extract_cube_state(CubeObject* cube_obj,
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int* num_chars,
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Boxa** char_boxes,
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CharSamp*** char_samples) {
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if (!cube_obj) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (extract_cube_state): Invalid cube object "
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"passed to extract_cube_state\n");
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}
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return false;
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}
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// Note that the CubeObject accessors return either the deslanted or
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// regular objects search object or beam search object, whichever
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// was used in the last call to Recognize()
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CubeSearchObject* cube_search_obj = cube_obj->SrchObj();
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if (!cube_search_obj) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (Extract_cube_state): Could not retrieve "
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"cube's search object in extract_cube_state.\n");
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}
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return false;
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}
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BeamSearch *beam_search_obj = cube_obj->BeamObj();
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if (!beam_search_obj) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (Extract_cube_state): Could not retrieve "
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"cube's beam search object in extract_cube_state.\n");
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}
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return false;
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}
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// Get the character samples and bounding boxes by backtracking
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// through the beam search path
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int best_node_index = beam_search_obj->BestPresortedNodeIndex();
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*char_samples = beam_search_obj->BackTrack(
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cube_search_obj, best_node_index, num_chars, NULL, char_boxes);
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if (!*char_samples)
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return false;
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return true;
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}
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/**********************************************************************
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* create_cube_box_word
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*
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* Fill the given BoxWord with boxes from character bounding
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* boxes. The char_boxes have local coordinates w.r.t. the
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* word bounding box, i.e., the left-most character bbox of each word
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* has (0,0) left-top coord, but the BoxWord must be defined in page
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* coordinates.
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**********************************************************************/
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bool Tesseract::create_cube_box_word(Boxa *char_boxes,
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int num_chars,
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TBOX word_box,
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BoxWord* box_word) {
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if (!box_word) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (create_cube_box_word): Invalid box_word.\n");
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}
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return false;
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}
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// Find the x-coordinate of left-most char_box, which could be
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// nonzero if the word image was padded before recognition took place.
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int x_offset = -1;
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for (int i = 0; i < num_chars; ++i) {
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Box* char_box = boxaGetBox(char_boxes, i, L_CLONE);
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if (x_offset < 0 || char_box->x < x_offset) {
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x_offset = char_box->x;
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}
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boxDestroy(&char_box);
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}
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for (int i = 0; i < num_chars; ++i) {
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Box* char_box = boxaGetBox(char_boxes, i, L_CLONE);
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TBOX tbox = char_box_to_tbox(char_box, word_box, x_offset);
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boxDestroy(&char_box);
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box_word->InsertBox(i, tbox);
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}
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return true;
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}
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/**********************************************************************
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* init_cube_objects
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*
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* Instantiates Tesseract object's CubeRecoContext and TesseractCubeCombiner.
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* Returns false if cube context could not be created or if load_combiner is
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* true, but the combiner could not be loaded.
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**********************************************************************/
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bool Tesseract::init_cube_objects(bool load_combiner,
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TessdataManager *tessdata_manager) {
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ASSERT_HOST(cube_cntxt_ == NULL);
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ASSERT_HOST(tess_cube_combiner_ == NULL);
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// Create the cube context object
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cube_cntxt_ = CubeRecoContext::Create(this, tessdata_manager, &unicharset);
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if (cube_cntxt_ == NULL) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (Tesseract::init_cube_objects()): Failed to "
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"instantiate CubeRecoContext\n");
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}
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return false;
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}
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// Create the combiner object and load the combiner net for target languages.
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if (load_combiner) {
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tess_cube_combiner_ = new tesseract::TesseractCubeCombiner(cube_cntxt_);
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if (!tess_cube_combiner_ || !tess_cube_combiner_->LoadCombinerNet()) {
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delete cube_cntxt_;
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cube_cntxt_ = NULL;
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if (tess_cube_combiner_ != NULL) {
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delete tess_cube_combiner_;
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tess_cube_combiner_ = NULL;
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}
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if (cube_debug_level > 0)
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tprintf("Cube ERROR (Failed to instantiate TesseractCubeCombiner\n");
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return false;
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}
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}
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return true;
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}
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/**********************************************************************
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* run_cube_combiner
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*
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* Iterates through tesseract's results and calls cube on each word,
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* combining the results with the existing tesseract result.
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**********************************************************************/
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void Tesseract::run_cube_combiner(PAGE_RES *page_res) {
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if (page_res == NULL || tess_cube_combiner_ == NULL)
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return;
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PAGE_RES_IT page_res_it(page_res);
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// Iterate through the word results and call cube on each word.
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for (page_res_it.restart_page(); page_res_it.word () != NULL;
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page_res_it.forward()) {
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BLOCK* block = page_res_it.block()->block;
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if (block->poly_block() != NULL && !block->poly_block()->IsText())
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continue; // Don't deal with non-text blocks.
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WERD_RES* word = page_res_it.word();
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// Skip cube entirely if tesseract's certainty is greater than threshold.
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int combiner_run_thresh = convert_prob_to_tess_certainty(
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cube_cntxt_->Params()->CombinerRunThresh());
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if (word->best_choice->certainty() >= combiner_run_thresh) {
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continue;
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}
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// Use the same language as Tesseract used for the word.
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Tesseract* lang_tess = word->tesseract;
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// Setup a trial WERD_RES in which to classify with cube.
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WERD_RES cube_word;
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cube_word.InitForRetryRecognition(*word);
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cube_word.SetupForRecognition(lang_tess->unicharset, this, BestPix(),
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OEM_CUBE_ONLY,
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NULL, false, false, false,
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page_res_it.row()->row,
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page_res_it.block()->block);
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CubeObject *cube_obj = lang_tess->cube_recognize_word(
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page_res_it.block()->block, &cube_word);
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if (cube_obj != NULL)
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lang_tess->cube_combine_word(cube_obj, &cube_word, word);
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delete cube_obj;
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}
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}
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/**********************************************************************
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* cube_word_pass1
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*
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* Recognizes a single word using (only) cube. Compatible with
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* Tesseract's classify_word_pass1/classify_word_pass2.
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**********************************************************************/
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void Tesseract::cube_word_pass1(BLOCK* block, ROW *row, WERD_RES *word) {
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CubeObject *cube_obj = cube_recognize_word(block, word);
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delete cube_obj;
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}
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/**********************************************************************
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* cube_recognize_word
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*
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* Cube recognizer to recognize a single word as with classify_word_pass1
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* but also returns the cube object in case the combiner is needed.
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**********************************************************************/
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CubeObject* Tesseract::cube_recognize_word(BLOCK* block, WERD_RES* word) {
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if (!cube_binary_ || !cube_cntxt_) {
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if (cube_debug_level > 0 && !cube_binary_)
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tprintf("Tesseract::run_cube(): NULL binary image.\n");
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word->SetupFake(unicharset);
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return NULL;
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}
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TBOX word_box = word->word->bounding_box();
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if (block != NULL && (block->re_rotation().x() != 1.0f ||
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block->re_rotation().y() != 0.0f)) {
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// TODO(rays) We have to rotate the bounding box to get the true coords.
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// This will be achieved in the future via DENORM.
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// In the mean time, cube can't process this word.
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if (cube_debug_level > 0) {
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tprintf("Cube can't process rotated word at:");
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word_box.print();
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}
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word->SetupFake(unicharset);
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return NULL;
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}
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CubeObject* cube_obj = new tesseract::CubeObject(
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cube_cntxt_, cube_binary_, word_box.left(),
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pixGetHeight(cube_binary_) - word_box.top(),
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word_box.width(), word_box.height());
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if (!cube_recognize(cube_obj, block, word)) {
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delete cube_obj;
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return NULL;
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}
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return cube_obj;
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}
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/**********************************************************************
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* cube_combine_word
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*
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* Combines the cube and tesseract results for a single word, leaving the
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* result in tess_word.
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**********************************************************************/
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void Tesseract::cube_combine_word(CubeObject* cube_obj, WERD_RES* cube_word,
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WERD_RES* tess_word) {
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float combiner_prob = tess_cube_combiner_->CombineResults(tess_word,
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cube_obj);
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// If combiner probability is greater than tess/cube combiner
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// classifier threshold, i.e. tesseract wins, then just return the
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// tesseract result unchanged, as the combiner knows nothing about how
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// correct the answer is. If cube and tesseract agree, then improve the
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// scores before returning.
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WERD_CHOICE* tess_best = tess_word->best_choice;
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WERD_CHOICE* cube_best = cube_word->best_choice;
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if (cube_debug_level || classify_debug_level) {
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tprintf("Combiner prob = %g vs threshold %g\n",
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combiner_prob, cube_cntxt_->Params()->CombinerClassifierThresh());
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}
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if (combiner_prob >=
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cube_cntxt_->Params()->CombinerClassifierThresh()) {
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if (tess_best->unichar_string() == cube_best->unichar_string()) {
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// Cube and tess agree, so improve the scores.
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tess_best->set_rating(tess_best->rating() / 2);
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tess_best->set_certainty(tess_best->certainty() / 2);
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}
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return;
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}
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// Cube wins.
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// It is better for the language combiner to have all tesseract scores,
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// so put them in the cube result.
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cube_best->set_rating(tess_best->rating());
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cube_best->set_certainty(tess_best->certainty());
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if (cube_debug_level || classify_debug_level) {
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tprintf("Cube INFO: tesseract result replaced by cube: %s -> %s\n",
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tess_best->unichar_string().string(),
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cube_best->unichar_string().string());
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}
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tess_word->ConsumeWordResults(cube_word);
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}
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/**********************************************************************
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* cube_recognize
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*
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* Call cube on the current word, and write the result to word.
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* Sets up a fake result and returns false if something goes wrong.
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**********************************************************************/
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bool Tesseract::cube_recognize(CubeObject *cube_obj, BLOCK* block,
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WERD_RES *word) {
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// Run cube
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WordAltList *cube_alt_list = cube_obj->RecognizeWord();
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if (!cube_alt_list || cube_alt_list->AltCount() <= 0) {
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if (cube_debug_level > 0) {
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tprintf("Cube returned nothing for word at:");
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word->word->bounding_box().print();
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}
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word->SetupFake(unicharset);
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return false;
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}
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// Get cube's best result and its probability, mapped to tesseract's
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// certainty range
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char_32 *cube_best_32 = cube_alt_list->Alt(0);
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double cube_prob = CubeUtils::Cost2Prob(cube_alt_list->AltCost(0));
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float cube_certainty = convert_prob_to_tess_certainty(cube_prob);
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string cube_best_str;
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CubeUtils::UTF32ToUTF8(cube_best_32, &cube_best_str);
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// Retrieve Cube's character bounding boxes and CharSamples,
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// corresponding to the most recent call to RecognizeWord().
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Boxa *char_boxes = NULL;
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CharSamp **char_samples = NULL;;
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int num_chars;
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if (!extract_cube_state(cube_obj, &num_chars, &char_boxes, &char_samples)
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&& cube_debug_level > 0) {
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tprintf("Cube WARNING (Tesseract::cube_recognize): Cannot extract "
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"cube state.\n");
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word->SetupFake(unicharset);
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return false;
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}
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// Convert cube's character bounding boxes to a BoxWord.
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BoxWord cube_box_word;
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TBOX tess_word_box = word->word->bounding_box();
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if (word->denorm.block() != NULL)
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tess_word_box.rotate(word->denorm.block()->re_rotation());
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bool box_word_success = create_cube_box_word(char_boxes, num_chars,
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tess_word_box,
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&cube_box_word);
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boxaDestroy(&char_boxes);
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if (!box_word_success) {
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if (cube_debug_level > 0) {
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tprintf("Cube WARNING (Tesseract::cube_recognize): Could not "
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"create cube BoxWord\n");
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}
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word->SetupFake(unicharset);
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return false;
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}
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// Fill tesseract result's fields with cube results
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fill_werd_res(cube_box_word, cube_best_str.c_str(), word);
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// Create cube's best choice.
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BLOB_CHOICE** choices = new BLOB_CHOICE*[num_chars];
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for (int i = 0; i < num_chars; ++i) {
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UNICHAR_ID uch_id =
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cube_cntxt_->CharacterSet()->UnicharID(char_samples[i]->StrLabel());
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choices[i] = new BLOB_CHOICE(uch_id, 0.0, cube_certainty, -1, -1,
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0, 0, 0, 0, BCC_STATIC_CLASSIFIER);
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}
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word->FakeClassifyWord(num_chars, choices);
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// within a word, cube recognizes the word in reading order.
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word->best_choice->set_unichars_in_script_order(true);
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delete [] choices;
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delete [] char_samples;
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// Some sanity checks
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ASSERT_HOST(word->best_choice->length() == word->reject_map.length());
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if (cube_debug_level || classify_debug_level) {
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tprintf("Cube result: %s r=%g, c=%g\n",
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word->best_choice->unichar_string().string(),
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word->best_choice->rating(),
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word->best_choice->certainty());
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}
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return true;
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}
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/**********************************************************************
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* fill_werd_res
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*
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* Fill Tesseract's word result fields with cube's.
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*
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**********************************************************************/
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void Tesseract::fill_werd_res(const BoxWord& cube_box_word,
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const char* cube_best_str,
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WERD_RES* tess_werd_res) {
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delete tess_werd_res->box_word;
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tess_werd_res->box_word = new BoxWord(cube_box_word);
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tess_werd_res->box_word->ClipToOriginalWord(tess_werd_res->denorm.block(),
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tess_werd_res->word);
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// Fill text and remaining fields
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tess_werd_res->word->set_text(cube_best_str);
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tess_werd_res->tess_failed = FALSE;
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tess_werd_res->tess_accepted = tess_acceptable_word(tess_werd_res);
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// There is no output word, so we can' call AdaptableWord, but then I don't
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// think we need to. Fudge the result with accepted.
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tess_werd_res->tess_would_adapt = tess_werd_res->tess_accepted;
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// Set word to done, i.e., ignore all of tesseract's tests for rejection
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tess_werd_res->done = tess_werd_res->tess_accepted;
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}
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} // namespace tesseract
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