// Copyright (c) 2015 The Chromium Embedded Framework Authors. All rights // reserved. Use of this source code is governed by a BSD-style license that // can be found in the LICENSE file. #include "include/test/cef_translator_test.h" #include "testing/gtest/include/gtest/gtest.h" // Test getting/setting primitive types. TEST(TranslatorTest, Primitive) { CefRefPtr obj = CefTranslatorTest::Create(); obj->GetVoid(); // Does nothing, but shouldn't crash. EXPECT_EQ(TEST_BOOL_VAL, obj->GetBool()); EXPECT_EQ(TEST_INT_VAL, obj->GetInt()); EXPECT_EQ(TEST_DOUBLE_VAL, obj->GetDouble()); EXPECT_EQ(TEST_LONG_VAL, obj->GetLong()); EXPECT_EQ(TEST_SIZET_VAL, obj->GetSizet()); EXPECT_TRUE(obj->SetVoid()); // Does nothing, but shouldn't crash. EXPECT_TRUE(obj->SetBool(TEST_BOOL_VAL)); EXPECT_TRUE(obj->SetInt(TEST_INT_VAL)); EXPECT_TRUE(obj->SetDouble(TEST_DOUBLE_VAL)); EXPECT_TRUE(obj->SetLong(TEST_LONG_VAL)); EXPECT_TRUE(obj->SetSizet(TEST_SIZET_VAL)); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting primitive list types. TEST(TranslatorTest, PrimitiveList) { CefRefPtr obj = CefTranslatorTest::Create(); std::vector list; list.push_back(TEST_INT_VAL); list.push_back(TEST_INT_VAL2); EXPECT_TRUE(obj->SetIntList(list)); list.clear(); EXPECT_TRUE(obj->GetIntListByRef(list)); EXPECT_EQ(2U, list.size()); EXPECT_EQ(TEST_INT_VAL, list[0]); EXPECT_EQ(TEST_INT_VAL2, list[1]); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting string types. TEST(TranslatorTest, String) { CefRefPtr obj = CefTranslatorTest::Create(); EXPECT_STREQ(TEST_STRING_VAL, obj->GetString().ToString().c_str()); EXPECT_TRUE(obj->SetString(TEST_STRING_VAL)); CefString str; obj->GetStringByRef(str); EXPECT_STREQ(TEST_STRING_VAL, str.ToString().c_str()); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting string list types. TEST(TranslatorTest, StringList) { CefRefPtr obj = CefTranslatorTest::Create(); std::vector list; list.push_back(TEST_STRING_VAL); list.push_back(TEST_STRING_VAL2); list.push_back(TEST_STRING_VAL3); EXPECT_TRUE(obj->SetStringList(list)); list.clear(); EXPECT_TRUE(obj->GetStringListByRef(list)); EXPECT_EQ(3U, list.size()); EXPECT_STREQ(TEST_STRING_VAL, list[0].ToString().c_str()); EXPECT_STREQ(TEST_STRING_VAL2, list[1].ToString().c_str()); EXPECT_STREQ(TEST_STRING_VAL3, list[2].ToString().c_str()); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting string map types. TEST(TranslatorTest, StringMap) { CefRefPtr obj = CefTranslatorTest::Create(); CefTranslatorTest::StringMap map; map.insert(std::make_pair(TEST_STRING_KEY, TEST_STRING_VAL)); map.insert(std::make_pair(TEST_STRING_KEY2, TEST_STRING_VAL2)); map.insert(std::make_pair(TEST_STRING_KEY3, TEST_STRING_VAL3)); EXPECT_TRUE(obj->SetStringMap(map)); map.clear(); EXPECT_TRUE(obj->GetStringMapByRef(map)); EXPECT_EQ(3U, map.size()); CefTranslatorTest::StringMap::const_iterator it; it = map.find(TEST_STRING_KEY); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL); it = map.find(TEST_STRING_KEY2); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL2); it = map.find(TEST_STRING_KEY3); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL3); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting string multimap types. TEST(TranslatorTest, StringMultimap) { CefRefPtr obj = CefTranslatorTest::Create(); CefTranslatorTest::StringMultimap map; map.insert(std::make_pair(TEST_STRING_KEY, TEST_STRING_VAL)); map.insert(std::make_pair(TEST_STRING_KEY2, TEST_STRING_VAL2)); map.insert(std::make_pair(TEST_STRING_KEY3, TEST_STRING_VAL3)); EXPECT_TRUE(obj->SetStringMultimap(map)); map.clear(); EXPECT_TRUE(obj->GetStringMultimapByRef(map)); EXPECT_EQ(3U, map.size()); CefTranslatorTest::StringMultimap::const_iterator it; it = map.find(TEST_STRING_KEY); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL); it = map.find(TEST_STRING_KEY2); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL2); it = map.find(TEST_STRING_KEY3); EXPECT_TRUE(it != map.end() && it->second == TEST_STRING_VAL3); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting struct types. TEST(TranslatorTest, Struct) { CefRefPtr obj = CefTranslatorTest::Create(); CefPoint point(TEST_X_VAL, TEST_Y_VAL); EXPECT_EQ(point, obj->GetPoint()); EXPECT_TRUE(obj->SetPoint(point)); CefPoint point2; obj->GetPointByRef(point2); EXPECT_EQ(point, point2); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting struct list types. TEST(TranslatorTest, StructList) { CefRefPtr obj = CefTranslatorTest::Create(); std::vector list; list.push_back(CefPoint(TEST_X_VAL, TEST_Y_VAL)); list.push_back(CefPoint(TEST_X_VAL2, TEST_Y_VAL2)); EXPECT_TRUE(obj->SetPointList(list)); list.clear(); EXPECT_TRUE(obj->GetPointListByRef(list)); EXPECT_EQ(2U, list.size()); EXPECT_EQ(CefPoint(TEST_X_VAL, TEST_Y_VAL), list[0]); EXPECT_EQ(CefPoint(TEST_X_VAL2, TEST_Y_VAL2), list[1]); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); } // Test getting/setting library-side object types. TEST(TranslatorTest, Object) { CefRefPtr obj = CefTranslatorTest::Create(); const int kTestVal = 12; CefRefPtr test_obj = CefTranslatorTestObject::Create(kTestVal); EXPECT_EQ(kTestVal, test_obj->GetValue()); int retval = obj->SetObject(test_obj); EXPECT_EQ(kTestVal, retval); EXPECT_EQ(kTestVal, test_obj->GetValue()); const int kTestVal2 = 30; CefRefPtr test_obj2 = obj->GetObject(kTestVal2); EXPECT_EQ(kTestVal2, test_obj2->GetValue()); int retval2 = obj->SetObject(test_obj2); EXPECT_EQ(kTestVal2, retval2); EXPECT_EQ(kTestVal2, test_obj2->GetValue()); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(test_obj->HasOneRef()); EXPECT_TRUE(test_obj2->HasOneRef()); } // Test getting/setting inherited library-side object types. TEST(TranslatorTest, ObjectInherit) { CefRefPtr obj = CefTranslatorTest::Create(); const int kTestVal = 12; const int kTestVal2 = 40; CefRefPtr test_obj = CefTranslatorTestObjectChild::Create(kTestVal, kTestVal2); EXPECT_EQ(kTestVal, test_obj->GetValue()); EXPECT_EQ(kTestVal2, test_obj->GetOtherValue()); int retval = obj->SetObject(test_obj); EXPECT_EQ(kTestVal, retval); EXPECT_EQ(kTestVal, test_obj->GetValue()); EXPECT_EQ(kTestVal2, test_obj->GetOtherValue()); EXPECT_EQ(kTestVal, obj->SetChildObject(test_obj)); EXPECT_EQ(kTestVal, obj->SetChildObjectAndReturnParent(test_obj)->GetValue()); const int kTestVal3 = 100; CefRefPtr test_obj2 = CefTranslatorTestObjectChildChild::Create(kTestVal, kTestVal2, kTestVal3); EXPECT_EQ(kTestVal, test_obj2->GetValue()); EXPECT_EQ(kTestVal2, test_obj2->GetOtherValue()); EXPECT_EQ(kTestVal3, test_obj2->GetOtherOtherValue()); int retval2 = obj->SetObject(test_obj2); EXPECT_EQ(kTestVal, retval2); EXPECT_EQ(kTestVal, test_obj2->GetValue()); EXPECT_EQ(kTestVal2, test_obj2->GetOtherValue()); EXPECT_EQ(kTestVal3, test_obj2->GetOtherOtherValue()); EXPECT_EQ(kTestVal, obj->SetChildObject(test_obj2)); EXPECT_EQ(kTestVal, obj->SetChildObjectAndReturnParent(test_obj2)->GetValue()); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(test_obj->HasOneRef()); EXPECT_TRUE(test_obj2->HasOneRef()); } // Test getting/setting library-side object list types. TEST(TranslatorTest, ObjectList) { CefRefPtr obj = CefTranslatorTest::Create(); const int kVal1 = 34; const int kVal2 = 10; CefRefPtr val1 = CefTranslatorTestObject::Create(kVal1); CefRefPtr val2 = CefTranslatorTestObjectChild::Create(kVal2, 0); std::vector > list; list.push_back(val1); list.push_back(val2); EXPECT_TRUE(obj->SetObjectList(list, kVal1, kVal2)); list.clear(); EXPECT_TRUE(obj->GetObjectListByRef(list, kVal1, kVal2)); EXPECT_EQ(2U, list.size()); EXPECT_EQ(kVal1, list[0]->GetValue()); EXPECT_EQ(kVal2, list[1]->GetValue()); list.clear(); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(val1->HasOneRef()); EXPECT_TRUE(val2->HasOneRef()); } namespace { class TranslatorTestHandler : public CefTranslatorTestHandler { public: explicit TranslatorTestHandler(const int val) : val_(val) { } virtual int GetValue() override { return val_; } private: const int val_; IMPLEMENT_REFCOUNTING(TranslatorTestHandler); DISALLOW_COPY_AND_ASSIGN(TranslatorTestHandler); }; class TranslatorTestHandlerChild : public CefTranslatorTestHandlerChild { public: TranslatorTestHandlerChild(const int val, const int other_val) : val_(val), other_val_(other_val) { } virtual int GetValue() override { return val_; } virtual int GetOtherValue() override { return other_val_; } private: const int val_; const int other_val_; IMPLEMENT_REFCOUNTING(TranslatorTestHandlerChild); DISALLOW_COPY_AND_ASSIGN(TranslatorTestHandlerChild); }; } // namespace // Test getting/setting client-side handler types. TEST(TranslatorTest, Handler) { CefRefPtr obj = CefTranslatorTest::Create(); const int kTestVal = 12; CefRefPtr test_obj = new TranslatorTestHandler(kTestVal); EXPECT_EQ(kTestVal, test_obj->GetValue()); EXPECT_EQ(kTestVal, obj->SetHandler(test_obj.get())); CefRefPtr handler = obj->SetHandlerAndReturn(test_obj.get()); EXPECT_EQ(test_obj.get(), handler.get()); EXPECT_EQ(kTestVal, handler->GetValue()); handler = NULL; // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(test_obj->HasOneRef()); } // Test getting/setting inherited client-side handler types. TEST(TranslatorTest, HandlerInherit) { CefRefPtr obj = CefTranslatorTest::Create(); const int kTestVal = 12; const int kTestVal2 = 86; CefRefPtr test_obj = new TranslatorTestHandlerChild(kTestVal, kTestVal2); EXPECT_EQ(kTestVal, test_obj->GetValue()); EXPECT_EQ(kTestVal2, test_obj->GetOtherValue()); int retval = obj->SetHandler(test_obj); EXPECT_EQ(kTestVal, retval); EXPECT_EQ(kTestVal, test_obj->GetValue()); EXPECT_EQ(kTestVal2, test_obj->GetOtherValue()); EXPECT_EQ(kTestVal, obj->SetChildHandler(test_obj)); CefRefPtr handler = obj->SetChildHandlerAndReturnParent(test_obj); EXPECT_EQ(kTestVal, handler->GetValue()); EXPECT_EQ(test_obj.get(), handler.get()); handler = NULL; // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(test_obj->HasOneRef()); } // Test getting/setting client-side object list types. TEST(TranslatorTest, HandlerList) { CefRefPtr obj = CefTranslatorTest::Create(); const int kVal1 = 34; const int kVal2 = 10; CefRefPtr val1 = new TranslatorTestHandler(kVal1); CefRefPtr val2 = new TranslatorTestHandlerChild(kVal2, 0); std::vector > list; list.push_back(val1); list.push_back(val2); EXPECT_TRUE(obj->SetHandlerList(list, kVal1, kVal2)); list.clear(); EXPECT_TRUE(obj->GetHandlerListByRef(list, val1, val2)); EXPECT_EQ(2U, list.size()); EXPECT_EQ(kVal1, list[0]->GetValue()); EXPECT_EQ(val1.get(), list[0].get()); EXPECT_EQ(kVal2, list[1]->GetValue()); EXPECT_EQ(val2.get(), list[1].get()); list.clear(); // Only one reference to the object should exist. EXPECT_TRUE(obj->HasOneRef()); EXPECT_TRUE(val1->HasOneRef()); EXPECT_TRUE(val2->HasOneRef()); }