mirror of
https://github.com/tesseract-ocr/tesseract.git
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6b8b1f0007
Signed-off-by: Stefan Weil <sw@weilnetz.de>
255 lines
10 KiB
C++
255 lines
10 KiB
C++
// (C) Copyright 2017, 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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#include <allheaders.h>
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#include <string> // for std::string
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#include "include_gunit.h"
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#include <tesseract/baseapi.h>
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#include <tesseract/osdetect.h>
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#include "colfind.h"
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#include "log.h" // for LOG
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#include "mutableiterator.h"
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#include "pageres.h"
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#include "tesseractclass.h"
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#include "textlineprojection.h"
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namespace tesseract {
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// Minimum score for a STRONG_CHAIN textline.
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// NOTE: Keep in sync with textlineprojection.cc.
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const int kMinStrongTextValue = 6;
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// The fixture for testing Tesseract.
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class TextlineProjectionTest : public testing::Test {
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protected:
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std::string OutputNameToPath(const std::string &name) {
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file::MakeTmpdir();
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return file::JoinPath(FLAGS_test_tmpdir, name);
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}
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TextlineProjectionTest() {
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src_pix_ = nullptr;
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bin_pix_ = nullptr;
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finder_ = nullptr;
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denorm_ = nullptr;
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projection_ = nullptr;
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}
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~TextlineProjectionTest() override {
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src_pix_.destroy();
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bin_pix_.destroy();
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delete finder_;
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}
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void SetImage(const char *filename) {
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src_pix_.destroy();
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src_pix_ = pixRead(file::JoinPath(TESTING_DIR, filename).c_str());
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api_.Init(TESSDATA_DIR, "eng", tesseract::OEM_TESSERACT_ONLY);
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api_.SetPageSegMode(tesseract::PSM_AUTO_OSD);
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api_.SetImage(src_pix_);
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}
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// Ugly hacked-together function sets up projection_ and denorm_ by setting
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// up for auto pagelayout, setting up a ColumnFinder, running it, and
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// using accessors to get at the internal denorm and projection.
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// If the coordinates have been rotated, the denorm should match
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// correctly and transform coordinates back to the projection.
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// We throw away all the blocks, blobs etc, and test the projection with
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// the resultiterator from a separate BaseAPI run.
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void SetupProjection() {
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tesseract::TessdataManager mgr;
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auto osd_tess = std::make_unique<Tesseract>();
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OSResults osr;
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EXPECT_EQ(osd_tess->init_tesseract(TESSDATA_DIR, "", "osd", tesseract::OEM_TESSERACT_ONLY,
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nullptr, 0, nullptr, nullptr, false, &mgr),
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0);
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tesseract_ = std::make_unique<Tesseract>();
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EXPECT_EQ(tesseract_->init_tesseract(TESSDATA_DIR, "", "eng", tesseract::OEM_TESSERACT_ONLY,
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nullptr, 0, nullptr, nullptr, false, &mgr),
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0);
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bin_pix_ = api_.GetThresholdedImage();
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*tesseract_->mutable_pix_binary() = bin_pix_.clone();
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osd_tess->set_source_resolution(api_.tesseract()->source_resolution());
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tesseract_->set_source_resolution(api_.tesseract()->source_resolution());
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int width = pixGetWidth(bin_pix_);
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int height = pixGetHeight(bin_pix_);
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// First make a single block covering the whole image.
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auto *block = new BLOCK("", true, 0, 0, 0, 0, width, height);
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block->set_right_to_left(false);
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BLOCK_LIST src_blocks;
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BLOCK_IT block_it(&src_blocks);
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block_it.add_to_end(block);
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Image photomask_pix = nullptr;
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// The blocks made by the ColumnFinder. Moved to blocks before return.
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BLOCK_LIST found_blocks;
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TO_BLOCK_LIST temp_blocks;
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finder_ =
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tesseract_->SetupPageSegAndDetectOrientation(tesseract::PSM_AUTO_OSD, &src_blocks, osd_tess.get(),
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&osr, &temp_blocks, &photomask_pix, nullptr);
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TO_BLOCK_IT to_block_it(&temp_blocks);
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TO_BLOCK *to_block = to_block_it.data();
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denorm_ = finder_->denorm();
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TO_BLOCK_LIST to_blocks;
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BLOBNBOX_LIST diacritic_blobs;
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EXPECT_GE(finder_->FindBlocks(tesseract::PSM_AUTO, nullptr, 1, to_block, photomask_pix, nullptr,
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nullptr, nullptr, &found_blocks, &diacritic_blobs, &to_blocks),
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0);
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projection_ = finder_->projection();
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photomask_pix.destroy();
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}
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// Helper evaluates the given box, expects the result to be greater_than
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// or !greater_than the target_value and provides diagnostics if not.
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void EvaluateBox(const TBOX &box, bool greater_or_equal, int target_value, const char *text,
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const char *message) {
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int value = projection_->EvaluateBox(box, denorm_, false);
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if (greater_or_equal != (value > target_value)) {
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LOG(INFO) << "EvaluateBox too " << (greater_or_equal ? "low" : "high")
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<< ":" << value << " vs " << target_value << " for " << message << " word '" << text << "' at:";
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box.print();
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value = projection_->EvaluateBox(box, denorm_, true);
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} else {
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LOG(INFO) << "EvaluateBox OK(" << value << ") for " << message << " word '" << text << "'";
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}
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if (greater_or_equal) {
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EXPECT_GE(value, target_value);
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} else {
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EXPECT_LT(value, target_value);
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}
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}
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// Helper evaluates the DistanceOfBoxFromBox function by expecting that
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// box should be nearer to true_box than false_box.
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void EvaluateDistance(const TBOX &box, const TBOX &true_box, const TBOX &false_box,
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const char *text, const char *message) {
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int true_dist = projection_->DistanceOfBoxFromBox(box, true_box, true, denorm_, false);
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int false_dist = projection_->DistanceOfBoxFromBox(box, false_box, true, denorm_, false);
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if (false_dist <= true_dist) {
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LOG(INFO) << "Distance wrong:" << false_dist << " vs " << true_dist
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<< " for " << message << " word '" << text << "' at:";
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true_box.print();
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projection_->DistanceOfBoxFromBox(box, true_box, true, denorm_, true);
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projection_->DistanceOfBoxFromBox(box, false_box, true, denorm_, true);
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} else {
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LOG(INFO) << "Distance OK(" << false_dist << " vs " << true_dist
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<< ") for " << message << " word '" << text << "'";
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}
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}
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// Tests the projection on the word boxes of the given image.
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// line_height is the cap + descender size of the text.
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void VerifyBoxes(const char *imagefile, int line_height) {
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SetImage(imagefile);
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api_.Recognize(nullptr);
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SetupProjection();
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MutableIterator *it = api_.GetMutableIterator();
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do {
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char *text = it->GetUTF8Text(tesseract::RIL_WORD);
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const PAGE_RES_IT *pr_it = it->PageResIt();
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WERD_RES *word = pr_it->word();
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// The word_box refers to the internal, possibly rotated, coords.
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TBOX word_box = word->word->bounding_box();
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bool small_word = word_box.height() * 1.5 < line_height;
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bool tall_word = word_box.height() * 1.125 > line_height;
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// We pad small and tall words differently because ascenders and
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// descenders affect the position and size of the upper/lower boxes.
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int padding;
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if (small_word) {
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padding = word_box.height();
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} else if (tall_word) {
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padding = word_box.height() / 3;
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} else {
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padding = word_box.height() / 2;
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}
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// Test that the word box gets a good score.
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EvaluateBox(word_box, true, kMinStrongTextValue, text, "Real Word");
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// Now test a displaced box, both above and below the word.
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TBOX upper_box(word_box);
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upper_box.set_bottom(word_box.top());
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upper_box.set_top(word_box.top() + padding);
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EvaluateBox(upper_box, false, kMinStrongTextValue, text, "Upper Word");
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EvaluateBox(upper_box, true, -1, text, "Upper Word not vertical");
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TBOX lower_box = word_box;
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lower_box.set_top(word_box.bottom());
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lower_box.set_bottom(word_box.bottom() - padding);
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if (tall_word) {
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lower_box.move(ICOORD(0, padding / 2));
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}
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EvaluateBox(lower_box, false, kMinStrongTextValue, text, "Lower Word");
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EvaluateBox(lower_box, true, -1, text, "Lower Word not vertical");
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// Since some words have no text below and some words have no text above
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// check that at least one of the boxes satisfies BoxOutOfTextline.
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bool upper_or_lower_out_of_textline =
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projection_->BoxOutOfHTextline(upper_box, denorm_, false) ||
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projection_->BoxOutOfHTextline(lower_box, denorm_, false);
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if (!upper_or_lower_out_of_textline) {
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projection_->BoxOutOfHTextline(upper_box, denorm_, true);
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projection_->BoxOutOfHTextline(lower_box, denorm_, true);
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}
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EXPECT_TRUE(upper_or_lower_out_of_textline);
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// Now test DistanceOfBoxFromBox by faking a challenger word, and asking
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// that each pad box be nearer to its true textline than the
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// challenger. Due to the tight spacing of latin text, getting
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// the right position and size of these test boxes is quite fiddly.
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padding = line_height / 4;
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upper_box.set_top(upper_box.bottom() + padding);
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TBOX target_box(word_box);
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if (!small_word) {
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upper_box.move(ICOORD(0, -padding * 3 / 2));
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}
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target_box.set_top(upper_box.bottom());
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TBOX upper_challenger(upper_box);
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upper_challenger.set_bottom(upper_box.top());
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upper_challenger.set_top(upper_box.top() + word_box.height());
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EvaluateDistance(upper_box, target_box, upper_challenger, text, "Upper Word");
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if (tall_word) {
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lower_box.move(ICOORD(0, padding / 2));
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}
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lower_box.set_bottom(lower_box.top() - padding);
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target_box = word_box;
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target_box.set_bottom(lower_box.top());
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TBOX lower_challenger(lower_box);
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lower_challenger.set_top(lower_box.bottom());
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lower_challenger.set_bottom(lower_box.bottom() - word_box.height());
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EvaluateDistance(lower_box, target_box, lower_challenger, text, "Lower Word");
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delete[] text;
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} while (it->Next(tesseract::RIL_WORD));
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delete it;
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}
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Image src_pix_;
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Image bin_pix_;
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BLOCK_LIST blocks_;
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std::string ocr_text_;
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tesseract::TessBaseAPI api_;
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std::unique_ptr<Tesseract> tesseract_;
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ColumnFinder *finder_;
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const DENORM *denorm_;
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const TextlineProjection *projection_;
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};
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// Tests all word boxes on an unrotated image.
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TEST_F(TextlineProjectionTest, Unrotated) {
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VerifyBoxes("phototest.tif", 31);
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}
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// Tests character-level applyboxes on italic Times New Roman.
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TEST_F(TextlineProjectionTest, Rotated) {
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VerifyBoxes("phototestrot.tif", 31);
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}
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} // namespace tesseract
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