// (C) Copyright 2017, 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 #include "log.h" // for LOG #include "unicharset.h" #include "gmock/gmock.h" // for testing::ElementsAreArray #include "include_gunit.h" using testing::ElementsAreArray; namespace { TEST(UnicharsetTest, Basics) { // This test verifies basic insertion, unichar_to_id, and encode. UNICHARSET u; u.unichar_insert("a"); EXPECT_EQ(u.size(), 4); u.unichar_insert("f"); EXPECT_EQ(u.size(), 5); u.unichar_insert("i"); EXPECT_EQ(u.size(), 6); // The fi ligature is NOT added because it can be encoded with a cleanup as f // then i. u.unichar_insert("\ufb01"); EXPECT_EQ(u.size(), 6); u.unichar_insert("e"); EXPECT_EQ(u.size(), 7); u.unichar_insert("n"); EXPECT_EQ(u.size(), 8); EXPECT_EQ(u.unichar_to_id("f"), 4); EXPECT_EQ(u.unichar_to_id("i"), 5); // The fi ligature has no valid id. EXPECT_EQ(u.unichar_to_id("\ufb01"), INVALID_UNICHAR_ID); // The fi pair has no valid id. EXPECT_EQ(u.unichar_to_id("fi"), INVALID_UNICHAR_ID); GenericVector labels; EXPECT_TRUE(u.encode_string("affine", true, &labels, nullptr, nullptr)); std::vector v(&labels[0], &labels[0] + labels.size()); EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 7, 6})); // With the fi ligature encoding fails without a pre-cleanup. std::string lig_str = "af\ufb01ne"; EXPECT_FALSE( u.encode_string(lig_str.c_str(), true, &labels, nullptr, nullptr)); lig_str = u.CleanupString(lig_str.c_str()); EXPECT_TRUE( u.encode_string(lig_str.c_str(), true, &labels, nullptr, nullptr)); v = std::vector(&labels[0], &labels[0] + labels.size()); EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 7, 6})); } TEST(UnicharsetTest, Multibyte) { // This test verifies basic insertion, unichar_to_id, and encode. // The difference from Basic above is that now we are testing multi-byte // unicodes instead of single byte. UNICHARSET u; // Insert some Arabic letters. u.unichar_insert("\u0627"); EXPECT_EQ(u.size(), 4); u.unichar_insert("\u062c"); EXPECT_EQ(u.size(), 5); u.unichar_insert("\u062f"); EXPECT_EQ(u.size(), 6); u.unichar_insert("\ufb01"); // fi ligature is added as fi pair. EXPECT_EQ(u.size(), 7); u.unichar_insert("\u062b"); EXPECT_EQ(u.size(), 8); u.unichar_insert("\u0635"); EXPECT_EQ(u.size(), 9); EXPECT_EQ(u.unichar_to_id("\u0627"), 3); EXPECT_EQ(u.unichar_to_id("\u062c"), 4); // The first two bytes of this string is \u0627, which matches id 3; EXPECT_EQ(u.unichar_to_id("\u0627\u062c", 2), 3); EXPECT_EQ(u.unichar_to_id("\u062f"), 5); // Individual f and i are not present, but they are there as a pair. EXPECT_EQ(u.unichar_to_id("f"), INVALID_UNICHAR_ID); EXPECT_EQ(u.unichar_to_id("i"), INVALID_UNICHAR_ID); EXPECT_EQ(u.unichar_to_id("fi"), 6); // The fi ligature is findable. EXPECT_EQ(u.unichar_to_id("\ufb01"), 6); GenericVector labels; EXPECT_TRUE(u.encode_string("\u0627\u062c\u062c\u062f\u0635\u062b", true, &labels, nullptr, nullptr)); std::vector v(&labels[0], &labels[0] + labels.size()); EXPECT_THAT(v, ElementsAreArray({3, 4, 4, 5, 8, 7})); // With the fi ligature the fi is picked out. GenericVector lengths; int encoded_length; std::string src_str = "\u0627\u062c\ufb01\u0635\u062b"; // src_str has to be pre-cleaned for lengths to be correct. std::string cleaned = u.CleanupString(src_str.c_str()); EXPECT_TRUE(u.encode_string(cleaned.c_str(), true, &labels, &lengths, &encoded_length)); EXPECT_EQ(encoded_length, cleaned.size()); std::string len_str(&lengths[0], lengths.size()); EXPECT_STREQ(len_str.c_str(), "\002\002\002\002\002"); v = std::vector(&labels[0], &labels[0] + labels.size()); EXPECT_THAT(v, ElementsAreArray({3, 4, 6, 8, 7})); } TEST(UnicharsetTest, MultibyteBigrams) { // This test verifies basic insertion, unichar_to_id, and encode. // The difference from Basic above is that now we are testing multi-byte // unicodes instead of single byte. UNICHARSET u; // Insert some Arabic letters. u.unichar_insert("\u0c9c"); EXPECT_EQ(u.size(), 4); u.unichar_insert("\u0cad"); EXPECT_EQ(u.size(), 5); u.unichar_insert("\u0ccd\u0c9c"); EXPECT_EQ(u.size(), 6); u.unichar_insert("\u0ccd"); EXPECT_EQ(u.size(), 7); // By default the encodable bigram is NOT added. u.unichar_insert("\u0ccd\u0cad"); EXPECT_EQ(u.size(), 7); // It is added if we force it to be. u.unichar_insert("\u0ccd\u0cad", OldUncleanUnichars::kTrue); EXPECT_EQ(u.size(), 8); GenericVector data; tesseract::TFile fp; fp.OpenWrite(&data); u.save_to_file(&fp); fp.Open(&data[0], data.size()); UNICHARSET v; v.load_from_file(&fp, false); EXPECT_EQ(v.unichar_to_id("\u0c9c"), 3); EXPECT_EQ(v.unichar_to_id("\u0cad"), 4); EXPECT_EQ(v.unichar_to_id("\u0ccd\u0c9c"), 5); EXPECT_EQ(v.unichar_to_id("\u0ccd"), 6); EXPECT_EQ(v.unichar_to_id("\u0ccd\u0cad"), 7); } TEST(UnicharsetTest, OldStyle) { // This test verifies an old unicharset that contains fi/fl ligatures loads // and keeps all the entries. std::string filename = file::JoinPath(TESTDATA_DIR, "eng.unicharset"); UNICHARSET u; LOG(INFO) << "Filename=" << filename; EXPECT_TRUE(u.load_from_file(filename.c_str())); EXPECT_EQ(u.size(), 111); } } // namespace