2016-11-08 07:38:07 +08:00
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///////////////////////////////////////////////////////////////////////
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// File: linerec.cpp
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// Description: Top-level line-based recognition module for Tesseract.
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// Author: Ray Smith
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// Created: Thu May 02 09:47:06 PST 2013
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//
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// (C) Copyright 2013, Google Inc.
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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///////////////////////////////////////////////////////////////////////
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#include "tesseractclass.h"
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#include "allheaders.h"
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#include "boxread.h"
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#include "imagedata.h"
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#ifndef ANDROID_BUILD
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#include "lstmrecognizer.h"
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#include "recodebeam.h"
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#endif
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#include "pageres.h"
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#include "tprintf.h"
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2018-05-20 21:18:07 +08:00
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#include <algorithm>
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2016-11-08 07:38:07 +08:00
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namespace tesseract {
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// Scale factor to make certainty more comparable to Tesseract.
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const float kCertaintyScale = 7.0f;
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// Worst acceptable certainty for a dictionary word.
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const float kWorstDictCertainty = -25.0f;
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// Generates training data for training a line recognizer, eg LSTM.
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// Breaks the page into lines, according to the boxes, and writes them to a
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// serialized DocumentData based on output_basename.
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void Tesseract::TrainLineRecognizer(const STRING& input_imagename,
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const STRING& output_basename,
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BLOCK_LIST *block_list) {
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STRING lstmf_name = output_basename + ".lstmf";
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DocumentData images(lstmf_name);
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if (applybox_page > 0) {
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// Load existing document for the previous pages.
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2017-05-04 07:09:44 +08:00
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if (!images.LoadDocument(lstmf_name.string(), 0, 0, nullptr)) {
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2016-11-08 07:38:07 +08:00
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tprintf("Failed to read training data from %s!\n", lstmf_name.string());
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return;
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}
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}
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GenericVector<TBOX> boxes;
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GenericVector<STRING> texts;
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// Get the boxes for this page, if there are any.
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2016-12-13 00:19:35 +08:00
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if (!ReadAllBoxes(applybox_page, false, input_imagename, &boxes, &texts, nullptr,
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nullptr) ||
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2016-11-08 07:38:07 +08:00
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boxes.empty()) {
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tprintf("Failed to read boxes from %s\n", input_imagename.string());
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return;
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}
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TrainFromBoxes(boxes, texts, block_list, &images);
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2016-12-01 07:51:17 +08:00
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images.Shuffle();
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2016-12-13 00:19:35 +08:00
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if (!images.SaveDocument(lstmf_name.string(), nullptr)) {
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2016-11-08 07:38:07 +08:00
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tprintf("Failed to write training data to %s!\n", lstmf_name.string());
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}
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}
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// Generates training data for training a line recognizer, eg LSTM.
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// Breaks the boxes into lines, normalizes them, converts to ImageData and
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// appends them to the given training_data.
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void Tesseract::TrainFromBoxes(const GenericVector<TBOX>& boxes,
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const GenericVector<STRING>& texts,
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BLOCK_LIST *block_list,
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DocumentData* training_data) {
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int box_count = boxes.size();
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// Process all the text lines in this page, as defined by the boxes.
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int end_box = 0;
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2016-12-01 07:51:17 +08:00
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// Don't let \t, which marks newlines in the box file, get into the line
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// content, as that makes the line unusable in training.
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while (end_box < texts.size() && texts[end_box] == "\t") ++end_box;
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for (int start_box = end_box; start_box < box_count; start_box = end_box) {
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2016-11-08 07:38:07 +08:00
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// Find the textline of boxes starting at start and their bounding box.
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TBOX line_box = boxes[start_box];
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STRING line_str = texts[start_box];
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for (end_box = start_box + 1; end_box < box_count && texts[end_box] != "\t";
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++end_box) {
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line_box += boxes[end_box];
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line_str += texts[end_box];
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}
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// Find the most overlapping block.
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2016-12-13 00:19:35 +08:00
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BLOCK* best_block = nullptr;
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2016-11-08 07:38:07 +08:00
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int best_overlap = 0;
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BLOCK_IT b_it(block_list);
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for (b_it.mark_cycle_pt(); !b_it.cycled_list(); b_it.forward()) {
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BLOCK* block = b_it.data();
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2016-12-13 00:19:35 +08:00
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if (block->pdblk.poly_block() != nullptr && !block->pdblk.poly_block()->IsText())
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2016-11-08 07:38:07 +08:00
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continue; // Not a text block.
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2018-04-19 19:55:39 +08:00
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TBOX block_box = block->pdblk.bounding_box();
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2016-11-08 07:38:07 +08:00
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block_box.rotate(block->re_rotation());
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if (block_box.major_overlap(line_box)) {
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TBOX overlap_box = line_box.intersection(block_box);
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if (overlap_box.area() > best_overlap) {
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best_overlap = overlap_box.area();
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best_block = block;
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}
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}
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}
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2016-12-13 00:19:35 +08:00
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ImageData* imagedata = nullptr;
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if (best_block == nullptr) {
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2016-11-08 07:38:07 +08:00
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tprintf("No block overlapping textline: %s\n", line_str.string());
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} else {
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imagedata = GetLineData(line_box, boxes, texts, start_box, end_box,
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*best_block);
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}
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2016-12-13 00:19:35 +08:00
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if (imagedata != nullptr)
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2016-11-08 07:38:07 +08:00
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training_data->AddPageToDocument(imagedata);
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2016-12-01 07:51:17 +08:00
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// Don't let \t, which marks newlines in the box file, get into the line
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// content, as that makes the line unusable in training.
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while (end_box < texts.size() && texts[end_box] == "\t") ++end_box;
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2016-11-08 07:38:07 +08:00
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}
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}
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// Returns an Imagedata containing the image of the given box,
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// and ground truth boxes/truth text if available in the input.
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// The image is not normalized in any way.
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ImageData* Tesseract::GetLineData(const TBOX& line_box,
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const GenericVector<TBOX>& boxes,
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const GenericVector<STRING>& texts,
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int start_box, int end_box,
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const BLOCK& block) {
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TBOX revised_box;
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ImageData* image_data = GetRectImage(line_box, block, kImagePadding,
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&revised_box);
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2016-12-13 00:19:35 +08:00
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if (image_data == nullptr) return nullptr;
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2016-11-08 07:38:07 +08:00
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image_data->set_page_number(applybox_page);
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// Copy the boxes and shift them so they are relative to the image.
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FCOORD block_rotation(block.re_rotation().x(), -block.re_rotation().y());
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ICOORD shift = -revised_box.botleft();
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GenericVector<TBOX> line_boxes;
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GenericVector<STRING> line_texts;
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for (int b = start_box; b < end_box; ++b) {
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TBOX box = boxes[b];
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box.rotate(block_rotation);
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box.move(shift);
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line_boxes.push_back(box);
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line_texts.push_back(texts[b]);
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}
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GenericVector<int> page_numbers;
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page_numbers.init_to_size(line_boxes.size(), applybox_page);
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image_data->AddBoxes(line_boxes, line_texts, page_numbers);
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return image_data;
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}
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// Helper gets the image of a rectangle, using the block.re_rotation() if
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// needed to get to the image, and rotating the result back to horizontal
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// layout. (CJK characters will be on their left sides) The vertical text flag
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// is set in the returned ImageData if the text was originally vertical, which
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// can be used to invoke a different CJK recognition engine. The revised_box
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// is also returned to enable calculation of output bounding boxes.
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ImageData* Tesseract::GetRectImage(const TBOX& box, const BLOCK& block,
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int padding, TBOX* revised_box) const {
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TBOX wbox = box;
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wbox.pad(padding, padding);
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*revised_box = wbox;
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// Number of clockwise 90 degree rotations needed to get back to tesseract
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// coords from the clipped image.
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int num_rotations = 0;
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if (block.re_rotation().y() > 0.0f)
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num_rotations = 1;
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else if (block.re_rotation().x() < 0.0f)
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num_rotations = 2;
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else if (block.re_rotation().y() < 0.0f)
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num_rotations = 3;
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// Handle two cases automatically: 1 the box came from the block, 2 the box
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// came from a box file, and refers to the image, which the block may not.
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2018-04-19 19:55:39 +08:00
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if (block.pdblk.bounding_box().major_overlap(*revised_box))
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2016-11-08 07:38:07 +08:00
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revised_box->rotate(block.re_rotation());
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// Now revised_box always refers to the image.
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// BestPix is never colormapped, but may be of any depth.
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Pix* pix = BestPix();
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int width = pixGetWidth(pix);
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int height = pixGetHeight(pix);
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TBOX image_box(0, 0, width, height);
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// Clip to image bounds;
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*revised_box &= image_box;
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2016-12-13 00:19:35 +08:00
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if (revised_box->null_box()) return nullptr;
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2016-11-08 07:38:07 +08:00
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Box* clip_box = boxCreate(revised_box->left(), height - revised_box->top(),
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revised_box->width(), revised_box->height());
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2016-12-13 00:19:35 +08:00
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Pix* box_pix = pixClipRectangle(pix, clip_box, nullptr);
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if (box_pix == nullptr) return nullptr;
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2016-11-08 07:38:07 +08:00
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boxDestroy(&clip_box);
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if (num_rotations > 0) {
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Pix* rot_pix = pixRotateOrth(box_pix, num_rotations);
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pixDestroy(&box_pix);
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box_pix = rot_pix;
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}
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// Convert sub-8-bit images to 8 bit.
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int depth = pixGetDepth(box_pix);
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if (depth < 8) {
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Pix* grey;
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grey = pixConvertTo8(box_pix, false);
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pixDestroy(&box_pix);
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box_pix = grey;
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}
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bool vertical_text = false;
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if (num_rotations > 0) {
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// Rotated the clipped revised box back to internal coordinates.
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FCOORD rotation(block.re_rotation().x(), -block.re_rotation().y());
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revised_box->rotate(rotation);
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if (num_rotations != 2)
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vertical_text = true;
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}
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return new ImageData(vertical_text, box_pix);
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}
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#ifndef ANDROID_BUILD
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// Recognizes a word or group of words, converting to WERD_RES in *words.
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// Analogous to classify_word_pass1, but can handle a group of words as well.
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void Tesseract::LSTMRecognizeWord(const BLOCK& block, ROW *row, WERD_RES *word,
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PointerVector<WERD_RES>* words) {
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TBOX word_box = word->word->bounding_box();
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// Get the word image - no frills.
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if (tessedit_pageseg_mode == PSM_SINGLE_WORD ||
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tessedit_pageseg_mode == PSM_RAW_LINE) {
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// In single word mode, use the whole image without any other row/word
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// interpretation.
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word_box = TBOX(0, 0, ImageWidth(), ImageHeight());
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} else {
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float baseline = row->base_line((word_box.left() + word_box.right()) / 2);
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if (baseline + row->descenders() < word_box.bottom())
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word_box.set_bottom(baseline + row->descenders());
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if (baseline + row->x_height() + row->ascenders() > word_box.top())
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word_box.set_top(baseline + row->x_height() + row->ascenders());
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}
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ImageData* im_data = GetRectImage(word_box, block, kImagePadding, &word_box);
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2016-12-13 00:19:35 +08:00
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if (im_data == nullptr) return;
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2016-11-08 07:38:07 +08:00
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lstm_recognizer_->RecognizeLine(*im_data, true, classify_debug_level > 0,
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kWorstDictCertainty / kCertaintyScale,
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2018-10-17 22:43:39 +08:00
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word_box, words, lstm_choice_mode);
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2016-11-08 07:38:07 +08:00
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delete im_data;
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SearchWords(words);
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}
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// Apply segmentation search to the given set of words, within the constraints
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// of the existing ratings matrix. If there is already a best_choice on a word
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// leaves it untouched and just sets the done/accepted etc flags.
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void Tesseract::SearchWords(PointerVector<WERD_RES>* words) {
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// Run the segmentation search on the network outputs and make a BoxWord
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// for each of the output words.
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// If we drop a word as junk, then there is always a space in front of the
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// next.
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2016-12-06 06:41:43 +08:00
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const Dict* stopper_dict = lstm_recognizer_->GetDict();
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if (stopper_dict == nullptr) stopper_dict = &getDict();
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bool any_nonspace_delimited = false;
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for (int w = 0; w < words->size(); ++w) {
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WERD_RES* word = (*words)[w];
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if (word->best_choice != nullptr &&
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word->best_choice->ContainsAnyNonSpaceDelimited()) {
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any_nonspace_delimited = true;
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break;
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}
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}
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2016-11-08 07:38:07 +08:00
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for (int w = 0; w < words->size(); ++w) {
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WERD_RES* word = (*words)[w];
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2016-12-13 00:19:35 +08:00
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if (word->best_choice == nullptr) {
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2016-11-08 07:38:07 +08:00
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// It is a dud.
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2016-12-06 06:41:43 +08:00
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word->SetupFake(lstm_recognizer_->GetUnicharset());
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2016-11-08 07:38:07 +08:00
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} else {
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// Set the best state.
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for (int i = 0; i < word->best_choice->length(); ++i) {
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int length = word->best_choice->state(i);
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word->best_state.push_back(length);
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}
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2016-12-14 06:37:40 +08:00
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word->reject_map.initialise(word->best_choice->length());
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2016-11-08 07:38:07 +08:00
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word->tess_failed = false;
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word->tess_accepted = true;
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word->tess_would_adapt = false;
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word->done = true;
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word->tesseract = this;
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2018-05-20 21:18:07 +08:00
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float word_certainty = std::min(word->space_certainty,
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2016-11-08 07:38:07 +08:00
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word->best_choice->certainty());
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word_certainty *= kCertaintyScale;
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if (getDict().stopper_debug_level >= 1) {
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tprintf("Best choice certainty=%g, space=%g, scaled=%g, final=%g\n",
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word->best_choice->certainty(), word->space_certainty,
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2018-05-20 21:18:07 +08:00
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std::min(word->space_certainty, word->best_choice->certainty()) *
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2016-11-08 07:38:07 +08:00
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kCertaintyScale,
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word_certainty);
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word->best_choice->print();
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}
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2017-01-26 07:58:39 +08:00
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word->best_choice->set_certainty(word_certainty);
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2018-02-21 00:19:10 +08:00
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word->tess_accepted = stopper_dict->AcceptableResult(word);
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2016-11-08 07:38:07 +08:00
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}
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}
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}
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#endif // ANDROID_BUILD
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} // namespace tesseract.
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