/////////////////////////////////////////////////////////////////////// // File: textord.cpp // Description: The top-level text line and word finding functionality. // Author: Ray Smith // Created: Fri Mar 13 14:43:01 PDT 2009 // // (C) Copyright 2009, 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. // /////////////////////////////////////////////////////////////////////// #include "drawtord.h" #include "textord.h" #include "makerow.h" #include "pageres.h" #include "tordmain.h" #include "wordseg.h" namespace tesseract { Textord::Textord(CCStruct* ccstruct) : ccstruct_(ccstruct), use_cjk_fp_model_(false), // makerow.cpp /////////////////////////////////////////// BOOL_MEMBER(textord_single_height_mode, false, "Script has no xheight, so use a single mode", ccstruct_->params()), // tospace.cpp /////////////////////////////////////////// BOOL_MEMBER(tosp_old_to_method, false, "Space stats use prechopping?", ccstruct_->params()), BOOL_MEMBER(tosp_old_to_constrain_sp_kn, false, "Constrain relative values of inter and intra-word gaps for " "old_to_method.", ccstruct_->params()), BOOL_MEMBER(tosp_only_use_prop_rows, true, "Block stats to use fixed pitch rows?", ccstruct_->params()), BOOL_MEMBER(tosp_force_wordbreak_on_punct, false, "Force word breaks on punct to break long lines in non-space " "delimited langs", ccstruct_->params()), BOOL_MEMBER(tosp_use_pre_chopping, false, "Space stats use prechopping?", ccstruct_->params()), BOOL_MEMBER(tosp_old_to_bug_fix, false, "Fix suspected bug in old code", ccstruct_->params()), BOOL_MEMBER(tosp_block_use_cert_spaces, true, "Only stat OBVIOUS spaces", ccstruct_->params()), BOOL_MEMBER(tosp_row_use_cert_spaces, true, "Only stat OBVIOUS spaces", ccstruct_->params()), BOOL_MEMBER(tosp_narrow_blobs_not_cert, true, "Only stat OBVIOUS spaces", ccstruct_->params()), BOOL_MEMBER(tosp_row_use_cert_spaces1, true, "Only stat OBVIOUS spaces", ccstruct_->params()), BOOL_MEMBER(tosp_recovery_isolated_row_stats, true, "Use row alone when inadequate cert spaces", ccstruct_->params()), BOOL_MEMBER(tosp_only_small_gaps_for_kern, false, "Better guess", ccstruct_->params()), BOOL_MEMBER(tosp_all_flips_fuzzy, false, "Pass ANY flip to context?", ccstruct_->params()), BOOL_MEMBER(tosp_fuzzy_limit_all, true, "Dont restrict kn->sp fuzzy limit to tables", ccstruct_->params()), BOOL_MEMBER(tosp_stats_use_xht_gaps, true, "Use within xht gap for wd breaks", ccstruct_->params()), BOOL_MEMBER(tosp_use_xht_gaps, true, "Use within xht gap for wd breaks", ccstruct_->params()), BOOL_MEMBER(tosp_only_use_xht_gaps, false, "Only use within xht gap for wd breaks", ccstruct_->params()), BOOL_MEMBER(tosp_rule_9_test_punct, false, "Dont chng kn to space next to punct", ccstruct_->params()), BOOL_MEMBER(tosp_flip_fuzz_kn_to_sp, true, "Default flip", ccstruct_->params()), BOOL_MEMBER(tosp_flip_fuzz_sp_to_kn, true, "Default flip", ccstruct_->params()), BOOL_MEMBER(tosp_improve_thresh, false, "Enable improvement heuristic", ccstruct_->params()), INT_MEMBER(tosp_debug_level, 0, "Debug data", ccstruct_->params()), INT_MEMBER(tosp_enough_space_samples_for_median, 3, "or should we use mean", ccstruct_->params()), INT_MEMBER(tosp_redo_kern_limit, 10, "No.samples reqd to reestimate for row", ccstruct_->params()), INT_MEMBER(tosp_few_samples, 40, "No.gaps reqd with 1 large gap to treat as a table", ccstruct_->params()), INT_MEMBER(tosp_short_row, 20, "No.gaps reqd with few cert spaces to use certs", ccstruct_->params()), INT_MEMBER(tosp_sanity_method, 1, "How to avoid being silly", ccstruct_->params()), double_MEMBER(tosp_old_sp_kn_th_factor, 2.0, "Factor for defining space threshold in terms of space and " "kern sizes", ccstruct_->params()), double_MEMBER(tosp_threshold_bias1, 0, "how far between kern and space?", ccstruct_->params()), double_MEMBER(tosp_threshold_bias2, 0, "how far between kern and space?", ccstruct_->params()), double_MEMBER(tosp_narrow_fraction, 0.3, "Fract of xheight for narrow", ccstruct_->params()), double_MEMBER(tosp_narrow_aspect_ratio, 0.48, "narrow if w/h less than this", ccstruct_->params()), double_MEMBER(tosp_wide_fraction, 0.52, "Fract of xheight for wide", ccstruct_->params()), double_MEMBER(tosp_wide_aspect_ratio, 0.0, "wide if w/h less than this", ccstruct_->params()), double_MEMBER(tosp_fuzzy_space_factor, 0.6, "Fract of xheight for fuzz sp", ccstruct_->params()), double_MEMBER(tosp_fuzzy_space_factor1, 0.5, "Fract of xheight for fuzz sp", ccstruct_->params()), double_MEMBER(tosp_fuzzy_space_factor2, 0.72, "Fract of xheight for fuzz sp", ccstruct_->params()), double_MEMBER(tosp_gap_factor, 0.83, "gap ratio to flip sp->kern", ccstruct_->params()), double_MEMBER(tosp_kern_gap_factor1, 2.0, "gap ratio to flip kern->sp", ccstruct_->params()), double_MEMBER(tosp_kern_gap_factor2, 1.3, "gap ratio to flip kern->sp", ccstruct_->params()), double_MEMBER(tosp_kern_gap_factor3, 2.5, "gap ratio to flip kern->sp", ccstruct_->params()), double_MEMBER(tosp_ignore_big_gaps, -1, "xht multiplier", ccstruct_->params()), double_MEMBER(tosp_ignore_very_big_gaps, 3.5, "xht multiplier", ccstruct_->params()), double_MEMBER(tosp_rep_space, 1.6, "rep gap multiplier for space", ccstruct_->params()), double_MEMBER(tosp_enough_small_gaps, 0.65, "Fract of kerns reqd for isolated row stats", ccstruct_->params()), double_MEMBER(tosp_table_kn_sp_ratio, 2.25, "Min difference of kn & sp in table", ccstruct_->params()), double_MEMBER(tosp_table_xht_sp_ratio, 0.33, "Expect spaces bigger than this", ccstruct_->params()), double_MEMBER(tosp_table_fuzzy_kn_sp_ratio, 3.0, "Fuzzy if less than this", ccstruct_->params()), double_MEMBER(tosp_fuzzy_kn_fraction, 0.5, "New fuzzy kn alg", ccstruct_->params()), double_MEMBER(tosp_fuzzy_sp_fraction, 0.5, "New fuzzy sp alg", ccstruct_->params()), double_MEMBER(tosp_min_sane_kn_sp, 1.5, "Dont trust spaces less than this time kn", ccstruct_->params()), double_MEMBER(tosp_init_guess_kn_mult, 2.2, "Thresh guess - mult kn by this", ccstruct_->params()), double_MEMBER(tosp_init_guess_xht_mult, 0.28, "Thresh guess - mult xht by this", ccstruct_->params()), double_MEMBER(tosp_max_sane_kn_thresh, 5.0, "Multiplier on kn to limit thresh", ccstruct_->params()), double_MEMBER(tosp_flip_caution, 0.0, "Dont autoflip kn to sp when large separation", ccstruct_->params()), double_MEMBER(tosp_large_kerning, 0.19, "Limit use of xht gap with large kns", ccstruct_->params()), double_MEMBER(tosp_dont_fool_with_small_kerns, -1, "Limit use of xht gap with odd small kns", ccstruct_->params()), double_MEMBER(tosp_near_lh_edge, 0, "Dont reduce box if the top left is non blank", ccstruct_->params()), double_MEMBER(tosp_silly_kn_sp_gap, 0.2, "Dont let sp minus kn get too small", ccstruct_->params()), double_MEMBER(tosp_pass_wide_fuzz_sp_to_context, 0.75, "How wide fuzzies need context", ccstruct_->params()), // tordmain.cpp /////////////////////////////////////////// BOOL_MEMBER(textord_no_rejects, false, "Don't remove noise blobs", ccstruct_->params()), BOOL_MEMBER(textord_show_blobs, false, "Display unsorted blobs", ccstruct_->params()), BOOL_MEMBER(textord_show_boxes, false, "Display unsorted blobs", ccstruct_->params()), INT_MEMBER(textord_max_noise_size, 7, "Pixel size of noise", ccstruct_->params()), double_MEMBER(textord_blob_size_bigile, 95, "Percentile for large blobs", ccstruct_->params()), double_MEMBER(textord_noise_area_ratio, 0.7, "Fraction of bounding box for noise", ccstruct_->params()), double_MEMBER(textord_blob_size_smallile, 20, "Percentile for small blobs", ccstruct_->params()), double_MEMBER(textord_initialx_ile, 0.75, "Ile of sizes for xheight guess", ccstruct_->params()), double_MEMBER(textord_initialasc_ile, 0.90, "Ile of sizes for xheight guess", ccstruct_->params()), INT_MEMBER(textord_noise_sizefraction, 10, "Fraction of size for maxima", ccstruct_->params()), double_MEMBER(textord_noise_sizelimit, 0.5, "Fraction of x for big t count", ccstruct_->params()), INT_MEMBER(textord_noise_translimit, 16, "Transitions for normal blob", ccstruct_->params()), double_MEMBER(textord_noise_normratio, 2.0, "Dot to norm ratio for deletion", ccstruct_->params()), BOOL_MEMBER(textord_noise_rejwords, true, "Reject noise-like words", ccstruct_->params()), BOOL_MEMBER(textord_noise_rejrows, true, "Reject noise-like rows", ccstruct_->params()), double_MEMBER(textord_noise_syfract, 0.2, "xh fract height error for norm blobs", ccstruct_->params()), double_MEMBER(textord_noise_sxfract, 0.4, "xh fract width error for norm blobs", ccstruct_->params()), double_MEMBER(textord_noise_hfract, 1.0/64, "Height fraction to discard outlines as speckle noise", ccstruct_->params()), INT_MEMBER(textord_noise_sncount, 1, "super norm blobs to save row", ccstruct_->params()), double_MEMBER(textord_noise_rowratio, 6.0, "Dot to norm ratio for deletion", ccstruct_->params()), BOOL_MEMBER(textord_noise_debug, false, "Debug row garbage detector", ccstruct_->params()), double_MEMBER(textord_blshift_maxshift, 0.00, "Max baseline shift", ccstruct_->params()), double_MEMBER(textord_blshift_xfraction, 9.99, "Min size of baseline shift", ccstruct_->params()) { } Textord::~Textord() { } // Make the textlines and words inside each block. void Textord::TextordPage(PageSegMode pageseg_mode, int width, int height, Pix* pix, BLOCK_LIST* blocks, TO_BLOCK_LIST* to_blocks) { page_tr_.set_x(width); page_tr_.set_y(height); if (to_blocks->empty()) { // AutoPageSeg was not used, so we need to find_components first. find_components(pix, blocks, to_blocks); } else { // AutoPageSeg does not need to find_components as it did that already. // Filter_blobs sets up the TO_BLOCKs the same as find_components does. filter_blobs(page_tr_, to_blocks, true); } ASSERT_HOST(!to_blocks->empty()); if (pageseg_mode == PSM_SINGLE_BLOCK_VERT_TEXT) { const FCOORD anticlockwise90(0.0f, 1.0f); const FCOORD clockwise90(0.0f, -1.0f); TO_BLOCK_IT it(to_blocks); for (it.mark_cycle_pt(); !it.cycled_list(); it.forward()) { TO_BLOCK* to_block = it.data(); BLOCK* block = to_block->block; // Create a fake poly_block in block from its bounding box. block->set_poly_block(new POLY_BLOCK(block->bounding_box(), PT_VERTICAL_TEXT)); // Rotate the to_block along with its contained block and blobnbox lists. to_block->rotate(anticlockwise90); // Set the block's rotation values to obey the convention followed in // layout analysis for vertical text. block->set_re_rotation(clockwise90); block->set_classify_rotation(clockwise90); } } TO_BLOCK_IT to_block_it(to_blocks); TO_BLOCK* to_block = to_block_it.data(); // Make the rows in the block. float gradient; // Do it the old fashioned way. if (PSM_LINE_FIND_ENABLED(pageseg_mode)) { gradient = make_rows(page_tr_, to_blocks); } else { // SINGLE_LINE, SINGLE_WORD and SINGLE_CHAR all need a single row. gradient = make_single_row(page_tr_, to_block, to_blocks); } // Now fit baselines. For now only old mode is available. fit_rows(gradient, page_tr_, to_blocks); // Now make the words in the lines. if (PSM_WORD_FIND_ENABLED(pageseg_mode)) { // SINGLE_LINE uses the old word maker on the single line. make_words(this, page_tr_, gradient, blocks, to_blocks); } else { // SINGLE_WORD and SINGLE_CHAR cram all the blobs into a // single word, and in SINGLE_CHAR mode, all the outlines // go in a single blob. TO_BLOCK* to_block = to_block_it.data(); make_single_word(pageseg_mode == PSM_SINGLE_CHAR, to_block->get_rows(), to_block->block->row_list()); } cleanup_blocks(blocks); // Remove empties. // Compute the margins for each row in the block, to be used later for // paragraph detection. BLOCK_IT b_it(blocks); for (b_it.mark_cycle_pt(); !b_it.cycled_list(); b_it.forward()) { b_it.data()->compute_row_margins(); } #ifndef GRAPHICS_DISABLED close_to_win(); #endif } // If we were supposed to return only a single textline, and there is more // than one, clean up and leave only the best. void Textord::CleanupSingleRowResult(PageSegMode pageseg_mode, PAGE_RES* page_res) { if (PSM_LINE_FIND_ENABLED(pageseg_mode)) return; // No cleanup required. PAGE_RES_IT it(page_res); // Find the best row, being the greatest mean word conf. float row_total_conf = 0.0f; int row_word_count = 0; ROW_RES* best_row = NULL; float best_conf = 0.0f; for (it.restart_page(); it.word() != NULL; it.forward()) { WERD_RES* word = it.word(); row_total_conf += word->best_choice->certainty(); ++row_word_count; if (it.next_row() != it.row()) { row_total_conf /= row_word_count; if (best_row == NULL || best_conf < row_total_conf) { best_row = it.row(); best_conf = row_total_conf; } row_total_conf = 0.0f; row_word_count = 0; } } // Now eliminate any word not in the best row. for (it.restart_page(); it.word() != NULL; it.forward()) { if (it.row() != best_row) it.DeleteCurrentWord(); } } } // namespace tesseract.