mirror of
https://github.com/tesseract-ocr/tesseract.git
synced 2024-11-27 20:59:36 +08:00
0c20d3f843
Signed-off-by: Stefan Weil <sw@weilnetz.de>
158 lines
5.8 KiB
C++
158 lines
5.8 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 "unicharset.h"
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#include <string>
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#include "gmock/gmock.h" // for testing::ElementsAreArray
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#include "include_gunit.h"
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#include "log.h" // for LOG
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using testing::ElementsAreArray;
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namespace tesseract {
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class UnicharsetTest : public ::testing::Test {
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protected:
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void SetUp() override {
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std::locale::global(std::locale(""));
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}
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};
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TEST(UnicharsetTest, Basics) {
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// This test verifies basic insertion, unichar_to_id, and encode.
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UNICHARSET u;
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u.unichar_insert("a");
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EXPECT_EQ(u.size(), 4);
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u.unichar_insert("f");
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EXPECT_EQ(u.size(), 5);
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u.unichar_insert("i");
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EXPECT_EQ(u.size(), 6);
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// The fi ligature is NOT added because it can be encoded with a cleanup as f
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// then i.
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u.unichar_insert("\ufb01");
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EXPECT_EQ(u.size(), 6);
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u.unichar_insert("e");
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EXPECT_EQ(u.size(), 7);
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u.unichar_insert("n");
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EXPECT_EQ(u.size(), 8);
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EXPECT_EQ(u.unichar_to_id("f"), 4);
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EXPECT_EQ(u.unichar_to_id("i"), 5);
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// The fi ligature has no valid id.
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EXPECT_EQ(u.unichar_to_id("\ufb01"), INVALID_UNICHAR_ID);
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// The fi pair has no valid id.
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EXPECT_EQ(u.unichar_to_id("fi"), INVALID_UNICHAR_ID);
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std::vector<int> labels;
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EXPECT_TRUE(u.encode_string("affine", true, &labels, nullptr, nullptr));
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std::vector<int> v(&labels[0], &labels[0] + labels.size());
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EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 7, 6}));
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// With the fi ligature encoding fails without a pre-cleanup.
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std::string lig_str = "af\ufb01ne";
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EXPECT_FALSE(u.encode_string(lig_str.c_str(), true, &labels, nullptr, nullptr));
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lig_str = u.CleanupString(lig_str.c_str());
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EXPECT_TRUE(u.encode_string(lig_str.c_str(), true, &labels, nullptr, nullptr));
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v = std::vector<int>(&labels[0], &labels[0] + labels.size());
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EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 7, 6}));
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}
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TEST(UnicharsetTest, Multibyte) {
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// This test verifies basic insertion, unichar_to_id, and encode.
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// The difference from Basic above is that now we are testing multi-byte
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// unicodes instead of single byte.
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UNICHARSET u;
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// Insert some Arabic letters.
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u.unichar_insert("\u0627");
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EXPECT_EQ(u.size(), 4);
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u.unichar_insert("\u062c");
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EXPECT_EQ(u.size(), 5);
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u.unichar_insert("\u062f");
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EXPECT_EQ(u.size(), 6);
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u.unichar_insert("\ufb01"); // fi ligature is added as fi pair.
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EXPECT_EQ(u.size(), 7);
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u.unichar_insert("\u062b");
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EXPECT_EQ(u.size(), 8);
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u.unichar_insert("\u0635");
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EXPECT_EQ(u.size(), 9);
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EXPECT_EQ(u.unichar_to_id("\u0627"), 3);
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EXPECT_EQ(u.unichar_to_id("\u062c"), 4);
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// The first two bytes of this string is \u0627, which matches id 3;
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EXPECT_EQ(u.unichar_to_id("\u0627\u062c", 2), 3);
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EXPECT_EQ(u.unichar_to_id("\u062f"), 5);
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// Individual f and i are not present, but they are there as a pair.
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EXPECT_EQ(u.unichar_to_id("f"), INVALID_UNICHAR_ID);
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EXPECT_EQ(u.unichar_to_id("i"), INVALID_UNICHAR_ID);
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EXPECT_EQ(u.unichar_to_id("fi"), 6);
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// The fi ligature is findable.
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EXPECT_EQ(u.unichar_to_id("\ufb01"), 6);
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std::vector<int> labels;
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EXPECT_TRUE(
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u.encode_string("\u0627\u062c\u062c\u062f\u0635\u062b", true, &labels, nullptr, nullptr));
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std::vector<int> v(&labels[0], &labels[0] + labels.size());
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EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 8, 7}));
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// With the fi ligature the fi is picked out.
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std::vector<char> lengths;
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unsigned encoded_length;
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std::string src_str = "\u0627\u062c\ufb01\u0635\u062b";
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// src_str has to be pre-cleaned for lengths to be correct.
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std::string cleaned = u.CleanupString(src_str.c_str());
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EXPECT_TRUE(u.encode_string(cleaned.c_str(), true, &labels, &lengths, &encoded_length));
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EXPECT_EQ(encoded_length, cleaned.size());
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std::string len_str(&lengths[0], lengths.size());
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EXPECT_STREQ(len_str.c_str(), "\002\002\002\002\002");
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v = std::vector<int>(&labels[0], &labels[0] + labels.size());
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EXPECT_THAT(v, ElementsAreArray({3, 4, 6, 8, 7}));
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}
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TEST(UnicharsetTest, MultibyteBigrams) {
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// This test verifies basic insertion, unichar_to_id, and encode.
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// The difference from Basic above is that now we are testing multi-byte
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// unicodes instead of single byte.
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UNICHARSET u;
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// Insert some Arabic letters.
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u.unichar_insert("\u0c9c");
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EXPECT_EQ(u.size(), 4);
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u.unichar_insert("\u0cad");
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EXPECT_EQ(u.size(), 5);
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u.unichar_insert("\u0ccd\u0c9c");
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EXPECT_EQ(u.size(), 6);
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u.unichar_insert("\u0ccd");
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EXPECT_EQ(u.size(), 7);
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// By default the encodable bigram is NOT added.
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u.unichar_insert("\u0ccd\u0cad");
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EXPECT_EQ(u.size(), 7);
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// It is added if we force it to be.
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u.unichar_insert("\u0ccd\u0cad", OldUncleanUnichars::kTrue);
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EXPECT_EQ(u.size(), 8);
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std::vector<char> data;
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tesseract::TFile fp;
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fp.OpenWrite(&data);
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u.save_to_file(&fp);
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fp.Open(&data[0], data.size());
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UNICHARSET v;
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v.load_from_file(&fp, false);
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EXPECT_EQ(v.unichar_to_id("\u0c9c"), 3);
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EXPECT_EQ(v.unichar_to_id("\u0cad"), 4);
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EXPECT_EQ(v.unichar_to_id("\u0ccd\u0c9c"), 5);
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EXPECT_EQ(v.unichar_to_id("\u0ccd"), 6);
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EXPECT_EQ(v.unichar_to_id("\u0ccd\u0cad"), 7);
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}
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TEST(UnicharsetTest, OldStyle) {
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// This test verifies an old unicharset that contains fi/fl ligatures loads
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// and keeps all the entries.
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std::string filename = file::JoinPath(TESTDATA_DIR, "eng.unicharset");
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UNICHARSET u;
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LOG(INFO) << "Filename=" << filename;
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EXPECT_TRUE(u.load_from_file(filename.c_str()));
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EXPECT_EQ(u.size(), 111);
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}
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} // namespace tesseract
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