// (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 #include "absl/strings/str_format.h" // for absl::StrFormat #include "include_gunit.h" #include "serialis.h" #include "shapetable.h" #include "unicharset.h" namespace tesseract { #ifndef DISABLED_LEGACY_ENGINE static std::string TmpNameToPath(const std::string& name) { return file::JoinPath(FLAGS_test_tmpdir, name); } // Sets up a simple shape with some unichars. static void Setup352(int font_id, Shape* shape) { shape->AddToShape(3, font_id); shape->AddToShape(5, font_id); shape->AddToShape(2, font_id); } // Verifies some properties of the 352 shape. static void Expect352(int font_id, const Shape& shape) { EXPECT_EQ(3, shape.size()); EXPECT_TRUE(shape.ContainsUnichar(2)); EXPECT_TRUE(shape.ContainsUnichar(3)); EXPECT_TRUE(shape.ContainsUnichar(5)); EXPECT_FALSE(shape.ContainsUnichar(1)); EXPECT_TRUE(shape.ContainsUnicharAndFont(2, font_id)); EXPECT_FALSE(shape.ContainsUnicharAndFont(2, font_id - 1)); EXPECT_FALSE(shape.ContainsUnicharAndFont(font_id, 2)); // It should be a subset of itself. EXPECT_TRUE(shape.IsSubsetOf(shape)); } #endif // The fixture for testing Shape. class ShapeTest : public testing::Test { protected: void SetUp() { std::locale::global(std::locale("")); file::MakeTmpdir(); } }; // Tests that a Shape works as expected for all the basic functions. TEST_F(ShapeTest, BasicTest) { #ifdef DISABLED_LEGACY_ENGINE // Skip test because Shape is missing. GTEST_SKIP(); #else Shape shape1; EXPECT_EQ(0, shape1.size()); Setup352(101, &shape1); Expect352(101, shape1); // It should still work after file I/O. std::string filename = TmpNameToPath("shapefile"); FILE* fp = fopen(filename.c_str(), "wb"); ASSERT_TRUE(fp != nullptr); EXPECT_TRUE(shape1.Serialize(fp)); fclose(fp); TFile tfp; EXPECT_TRUE(tfp.Open(filename.c_str(), nullptr)); Shape shape2; EXPECT_TRUE(shape2.DeSerialize(&tfp)); Expect352(101, shape2); // They should be subsets of each other. EXPECT_TRUE(shape1.IsSubsetOf(shape2)); EXPECT_TRUE(shape2.IsSubsetOf(shape1)); // They should be equal unichars. EXPECT_TRUE(shape1.IsEqualUnichars(&shape2)); // and still pass afterwards. Expect352(101, shape1); Expect352(101, shape2); #endif } // Tests AddShape separately, as it takes quite a bit of work. TEST_F(ShapeTest, AddShapeTest) { #ifdef DISABLED_LEGACY_ENGINE // Skip test because Shape is missing. GTEST_SKIP(); #else Shape shape1; Setup352(101, &shape1); Expect352(101, shape1); // Now setup a different shape with different content. Shape shape2; shape2.AddToShape(3, 101); // Duplicates shape1. shape2.AddToShape(5, 110); // Different font to shape1. shape2.AddToShape(7, 101); // Different unichar to shape1. // They should NOT be subsets of each other. EXPECT_FALSE(shape1.IsSubsetOf(shape2)); EXPECT_FALSE(shape2.IsSubsetOf(shape1)); // Now add shape2 to shape1. shape1.AddShape(shape2); // Test subsets again. EXPECT_FALSE(shape1.IsSubsetOf(shape2)); EXPECT_TRUE(shape2.IsSubsetOf(shape1)); EXPECT_EQ(4, shape1.size()); EXPECT_FALSE(shape1.ContainsUnichar(1)); EXPECT_TRUE(shape1.ContainsUnicharAndFont(5, 101)); EXPECT_TRUE(shape1.ContainsUnicharAndFont(5, 110)); EXPECT_FALSE(shape1.ContainsUnicharAndFont(3, 110)); EXPECT_FALSE(shape1.ContainsUnicharAndFont(7, 110)); EXPECT_FALSE(shape1.IsEqualUnichars(&shape2)); #endif } // The fixture for testing Shape. class ShapeTableTest : public testing::Test {}; // Tests that a Shape works as expected for all the basic functions. TEST_F(ShapeTableTest, FullTest) { #ifdef DISABLED_LEGACY_ENGINE // Skip test because Shape is missing. GTEST_SKIP(); #else Shape shape1; Setup352(101, &shape1); // Build a shape table with the same data, but in separate shapes. UNICHARSET unicharset; unicharset.unichar_insert(" "); for (int i = 1; i <= 10; ++i) { std::string class_str = absl::StrFormat("class%d", i); unicharset.unichar_insert(class_str.c_str()); } ShapeTable st(unicharset); EXPECT_EQ(0, st.AddShape(3, 101)); EXPECT_EQ(1, st.AddShape(5, 101)); EXPECT_EQ(2, st.AddShape(2, 101)); EXPECT_EQ(3, st.NumShapes()); Expect352(101, shape1); EXPECT_EQ(3, st.AddShape(shape1)); for (int i = 0; i < 3; ++i) { EXPECT_FALSE(st.MutableShape(i)->IsEqualUnichars(&shape1)); } EXPECT_TRUE(st.MutableShape(3)->IsEqualUnichars(&shape1)); EXPECT_TRUE(st.AnyMultipleUnichars()); st.DeleteShape(3); EXPECT_FALSE(st.AnyMultipleUnichars()); // Now merge to make a single shape like shape1. EXPECT_EQ(1, st.MasterUnicharCount(0)); st.MergeShapes(0, 1); EXPECT_EQ(3, st.MergedUnicharCount(1, 2)); st.MergeShapes(1, 2); for (int i = 0; i < 3; ++i) { EXPECT_EQ(3, st.MasterUnicharCount(i)); // Master font count is the sum of all the font counts in the shape, not // the actual number of different fonts in the shape. EXPECT_EQ(3, st.MasterFontCount(i)); } EXPECT_EQ(0, st.MasterDestinationIndex(1)); EXPECT_EQ(0, st.MasterDestinationIndex(2)); ShapeTable st2; st2.AppendMasterShapes(st, nullptr); EXPECT_EQ(1, st.NumMasterShapes()); EXPECT_EQ(1, st2.NumShapes()); EXPECT_TRUE(st2.MutableShape(0)->IsEqualUnichars(&shape1)); EXPECT_TRUE(st2.AnyMultipleUnichars()); #endif } } // namespace