mirror of
https://github.com/tesseract-ocr/tesseract.git
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211 lines
8.0 KiB
C++
211 lines
8.0 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 <string>
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#include <utility>
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#include "include_gunit.h"
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#include "allheaders.h"
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#include "baseapi.h"
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#include "coutln.h"
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#include "log.h" // for LOG
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#include "mutableiterator.h"
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#include "ocrblock.h" // for class BLOCK
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#include "pageres.h"
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#include "polyblk.h"
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#include "resultiterator.h"
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#include "stepblob.h"
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namespace {
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using tesseract::MutableIterator;
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using tesseract::PageIteratorLevel;
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using tesseract::ResultIterator;
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const char* kStrings8087_054[] = {
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"dat", "Dalmatian", "", "DAMAGED DURING", "margarine,", nullptr};
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const PolyBlockType kBlocks8087_054[] = {PT_HEADING_TEXT, PT_FLOWING_TEXT,
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PT_PULLOUT_IMAGE, PT_CAPTION_TEXT,
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PT_FLOWING_TEXT};
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// The fixture for testing Tesseract.
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class LayoutTest : public testing::Test {
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protected:
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std::string TestDataNameToPath(const std::string& name) {
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return file::JoinPath(TESTING_DIR, "/" + name);
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}
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std::string TessdataPath() {
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return file::JoinPath(TESSDATA_DIR, "");
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}
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LayoutTest() { src_pix_ = nullptr; }
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~LayoutTest() { pixDestroy(&src_pix_); }
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void SetImage(const char* filename, const char* lang) {
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pixDestroy(&src_pix_);
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src_pix_ = pixRead(TestDataNameToPath(filename).c_str());
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api_.Init(TessdataPath().c_str(), lang, tesseract::OEM_TESSERACT_ONLY);
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api_.SetPageSegMode(tesseract::PSM_AUTO);
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api_.SetImage(src_pix_);
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}
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// Tests reading order and block finding (very roughly) by iterating
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// over the blocks, expecting that they contain the strings in order,
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// allowing for other blocks in between.
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// An empty string should match an image block, and a nullptr string
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// indicates the end of the array.
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void VerifyBlockTextOrder(const char* strings[], const PolyBlockType* blocks,
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ResultIterator* it) {
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it->Begin();
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int string_index = 0;
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int block_index = 0;
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do {
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char* block_text = it->GetUTF8Text(tesseract::RIL_BLOCK);
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if (block_text != nullptr && it->BlockType() == blocks[string_index] &&
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strstr(block_text, strings[string_index]) != nullptr) {
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LOG(INFO) << "Found string " << strings[string_index]
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<< " in block " << block_index
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<< " of type " << kPolyBlockNames[blocks[string_index]] << "\n";
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// Found this one.
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++string_index;
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} else if (it->BlockType() == blocks[string_index] &&
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block_text == nullptr && strings[string_index][0] == '\0') {
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LOG(INFO) << "Found block of type " << kPolyBlockNames[blocks[string_index]]
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<< " at block " << block_index << "\n";
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// Found this one.
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++string_index;
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} else {
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LOG(INFO) << "No match found in block with text:\n" << block_text;
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}
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delete[] block_text;
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++block_index;
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if (strings[string_index] == nullptr) break;
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} while (it->Next(tesseract::RIL_BLOCK));
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EXPECT_TRUE(strings[string_index] == nullptr);
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}
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// Tests that approximate order of the biggest text blocks is correct.
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// Correctness is tested by the following simple rules:
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// If a block overlaps its predecessor in x, then it must be below it.
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// otherwise, if the block is not below its predecessor, then it must
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// be to the left of it if right_to_left is true, or to the right otherwise.
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void VerifyRoughBlockOrder(bool right_to_left, ResultIterator* it) {
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int prev_left = 0;
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int prev_right = 0;
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int prev_bottom = 0;
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it->Begin();
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do {
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int left, top, right, bottom;
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if (it->BoundingBox(tesseract::RIL_BLOCK, &left, &top, &right, &bottom) &&
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PTIsTextType(it->BlockType()) && right - left > 800 &&
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bottom - top > 200) {
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if (prev_right > prev_left) {
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if (std::min(right, prev_right) > std::max(left, prev_left)) {
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EXPECT_GE(top, prev_bottom) << "Overlapping block should be below";
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} else if (top < prev_bottom) {
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if (right_to_left) {
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EXPECT_GE(prev_left, right) << "Block should be to the left";
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} else {
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EXPECT_GE(left, prev_right) << "Block should be to the right";
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}
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}
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}
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prev_left = left;
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prev_right = right;
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prev_bottom = bottom;
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}
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} while (it->Next(tesseract::RIL_BLOCK));
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}
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// Tests that every blob assigned to the biggest text blocks is contained
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// fully within its block by testing that the block polygon winds around
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// the center of the bounding boxes of the outlines in the blob.
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void VerifyTotalContainment(int winding_target, MutableIterator* it) {
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it->Begin();
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do {
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int left, top, right, bottom;
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if (it->BoundingBox(tesseract::RIL_BLOCK, &left, &top, &right, &bottom) &&
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PTIsTextType(it->BlockType()) && right - left > 800 &&
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bottom - top > 200) {
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const PAGE_RES_IT* pr_it = it->PageResIt();
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POLY_BLOCK* pb = pr_it->block()->block->pdblk.poly_block();
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CHECK(pb != nullptr);
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FCOORD skew = pr_it->block()->block->skew();
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EXPECT_GT(skew.x(), 0.0f);
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EXPECT_GT(skew.y(), 0.0f);
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// Iterate the words in the block.
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MutableIterator word_it = *it;
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do {
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const PAGE_RES_IT* w_it = word_it.PageResIt();
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// Iterate the blobs in the word.
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C_BLOB_IT b_it(w_it->word()->word->cblob_list());
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for (b_it.mark_cycle_pt(); !b_it.cycled_list(); b_it.forward()) {
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C_BLOB* blob = b_it.data();
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// Iterate the outlines in the blob.
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C_OUTLINE_IT ol_it(blob->out_list());
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for (ol_it.mark_cycle_pt(); !ol_it.cycled_list(); ol_it.forward()) {
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C_OUTLINE* ol = ol_it.data();
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TBOX box = ol->bounding_box();
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ICOORD middle((box.left() + box.right()) / 2,
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(box.top() + box.bottom()) / 2);
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EXPECT_EQ(winding_target, pb->winding_number(middle));
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}
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}
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} while (word_it.Next(tesseract::RIL_WORD) &&
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!word_it.IsAtBeginningOf(tesseract::RIL_BLOCK));
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}
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} while (it->Next(tesseract::RIL_BLOCK));
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}
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Pix* src_pix_;
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std::string ocr_text_;
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tesseract::TessBaseAPI api_;
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};
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// Tests that Tesseract gets the important blocks and in the right order
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// on a UNLV page numbered 8087_054.3B.tif. (Dubrovnik)
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TEST_F(LayoutTest, UNLV8087_054) {
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SetImage("8087_054.3B.tif", "eng");
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// Just run recognition.
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EXPECT_EQ(api_.Recognize(nullptr), 0);
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// Check iterator position.
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tesseract::ResultIterator* it = api_.GetIterator();
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VerifyBlockTextOrder(kStrings8087_054, kBlocks8087_054, it);
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delete it;
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}
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// Tests that Tesseract gets the important blocks and in the right order
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// on GOOGLE:13510798882202548:74:84.sj-79.tif (Hebrew image)
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// TODO: replace hebrew.png by Google image referred above
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TEST_F(LayoutTest, HebrewOrderingAndSkew) {
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SetImage("hebrew.png", "eng");
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// Just run recognition.
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EXPECT_EQ(api_.Recognize(nullptr), 0);
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tesseract::MutableIterator* it = api_.GetMutableIterator();
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// In eng mode, block order should not be RTL.
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VerifyRoughBlockOrder(false, it);
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VerifyTotalContainment(1, it);
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delete it;
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// Now try again using Hebrew.
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SetImage("hebrew.png", "heb");
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// Just run recognition.
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EXPECT_EQ(api_.Recognize(nullptr), 0);
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it = api_.GetMutableIterator();
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// In heb mode, block order should be RTL.
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VerifyRoughBlockOrder(true, it);
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// And blobs should still be fully contained.
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VerifyTotalContainment(-1, it);
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delete it;
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}
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} // namespace
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