#include "UnitTest.h" #include "RefPtrTest.h" // For ' < o > ' multiply test scene. static std::function createFunctions[] = { CL(TemplateVectorTest), CL(TemplateMapTest), CL(ValueTest), CL(RefPtrTest), CL(UTFConversionTest) }; static int sceneIdx = -1; static const int MAX_LAYER = (sizeof(createFunctions) / sizeof(createFunctions[0])); static Layer* nextAction() { sceneIdx++; sceneIdx = sceneIdx % MAX_LAYER; auto layer = (createFunctions[sceneIdx])(); return layer; } static Layer* backAction() { sceneIdx--; int total = MAX_LAYER; if( sceneIdx < 0 ) sceneIdx += total; auto layer = (createFunctions[sceneIdx])(); return layer; } static Layer* restartAction() { auto layer = (createFunctions[sceneIdx])(); return layer; } void UnitTestScene::runThisTest() { sceneIdx = -1; addChild(nextAction()); Director::getInstance()->replaceScene(this); } void UnitTestDemo::onEnter() { BaseTest::onEnter(); } void UnitTestDemo::onExit() { BaseTest::onExit(); } std::string UnitTestDemo::title() const { return "UnitTest"; } std::string UnitTestDemo::subtitle() const { return ""; } void UnitTestDemo::restartCallback(Ref* sender) { auto s = new UnitTestScene(); s->addChild( restartAction() ); Director::getInstance()->replaceScene(s); s->release(); } void UnitTestDemo::nextCallback(Ref* sender) { auto s = new UnitTestScene(); s->addChild( nextAction() ); Director::getInstance()->replaceScene(s); s->release(); } void UnitTestDemo::backCallback(Ref* sender) { auto s = new UnitTestScene(); s->addChild( backAction() ); Director::getInstance()->replaceScene(s); s->release(); } //--------------------------------------------------------------- void TemplateVectorTest::onEnter() { UnitTestDemo::onEnter(); Vector vec; CCASSERT(vec.empty(), ""); CCASSERT(vec.capacity() == 0, ""); CCASSERT(vec.size() == 0, ""); CCASSERT(vec.max_size() > 0, ""); auto node1 = Node::create(); node1->setTag(1); vec.pushBack(node1); CCASSERT(node1->getReferenceCount() == 2, ""); auto node2 = Node::create(); node2->setTag(2); vec.pushBack(node2); CCASSERT(vec.getIndex(node1) == 0, ""); CCASSERT(vec.getIndex(node2) == 1, ""); auto node3 = Node::create(); node3->setTag(3); vec.insert(1, node3); CCASSERT(vec.at(0)->getTag() == 1, ""); CCASSERT(vec.at(1)->getTag() == 3, ""); CCASSERT(vec.at(2)->getTag() == 2, ""); // Test copy constructor Vector vec2(vec); CCASSERT(vec2.size() == vec.size(), ""); ssize_t size = vec.size(); for (ssize_t i = 0; i < size; ++i) { CCASSERT(vec2.at(i) == vec.at(i), ""); CCASSERT(vec.at(i)->getReferenceCount() == 3, ""); CCASSERT(vec2.at(i)->getReferenceCount() == 3, ""); } // Test copy assignment operator Vector vec3; vec3 = vec2; CCASSERT(vec3.size() == vec2.size(), ""); size = vec3.size(); for (ssize_t i = 0; i < size; ++i) { CCASSERT(vec3.at(i) == vec2.at(i), ""); CCASSERT(vec3.at(i)->getReferenceCount() == 4, ""); CCASSERT(vec2.at(i)->getReferenceCount() == 4, ""); CCASSERT(vec.at(i)->getReferenceCount() == 4, ""); } // Test move constructor auto createVector = [this](){ Vector ret; for (int i = 0; i < 20; i++) { ret.pushBack(Node::create()); } int j = 1000; for (auto& child : ret) { child->setTag(j++); } return ret; }; Vector vec4(createVector()); for (const auto& child : vec4) { CC_UNUSED_PARAM(child); CCASSERT(child->getReferenceCount() == 2, ""); } // Test init Vector with capacity Vector vec5(10); CCASSERT(vec5.capacity() == 10, ""); vec5.reserve(20); CCASSERT(vec5.capacity() == 20, ""); CCASSERT(vec5.size() == 0, ""); CCASSERT(vec5.empty(), ""); auto toRemovedNode = Node::create(); vec5.pushBack(toRemovedNode); CCASSERT(toRemovedNode->getReferenceCount() == 2, ""); // Test move assignment operator vec5 = createVector(); CCASSERT(toRemovedNode->getReferenceCount() == 1, ""); CCASSERT(vec5.size() == 20, "size should be 20"); for (const auto& child : vec5) { CC_UNUSED_PARAM(child); CCASSERT(child->getReferenceCount() == 2, ""); } // Test Vector::find CCASSERT(vec.find(node3) == (vec.begin() + 1), ""); CCASSERT(std::find(std::begin(vec), std::end(vec), node2) == (vec.begin() + 2), ""); CCASSERT(vec.front()->getTag() == 1, ""); CCASSERT(vec.back()->getTag() == 2, ""); CCASSERT(vec.getRandomObject(), ""); CCASSERT(!vec.contains(Node::create()), ""); CCASSERT(vec.contains(node1), ""); CCASSERT(vec.contains(node2), ""); CCASSERT(vec.contains(node3), ""); CCASSERT(vec.equals(vec2), ""); CCASSERT(vec.equals(vec3), ""); // Insert vec5.insert(2, node1); CCASSERT(vec5.at(2)->getTag() == 1, ""); CCASSERT(vec5.size() == 21, ""); vec5.back()->setTag(100); vec5.popBack(); CCASSERT(vec5.size() == 20, ""); CCASSERT(vec5.back()->getTag() != 100, ""); // Erase and clear Vector vec6 = createVector(); Vector vec7 = vec6; // Copy for check CCASSERT(vec6.size() == 20, ""); vec6.erase(vec6.begin() + 1); // CCASSERT(vec6.size() == 19, ""); CCASSERT((*(vec6.begin() + 1))->getTag() == 1002, ""); vec6.erase(vec6.begin() + 2, vec6.begin() + 10); CCASSERT(vec6.size() == 11, ""); CCASSERT(vec6.at(0)->getTag() == 1000, ""); CCASSERT(vec6.at(1)->getTag() == 1002, ""); CCASSERT(vec6.at(2)->getTag() == 1011, ""); CCASSERT(vec6.at(3)->getTag() == 1012, ""); vec6.erase(3); CCASSERT(vec6.at(3)->getTag() == 1013, ""); vec6.eraseObject(vec6.at(2)); CCASSERT(vec6.at(2)->getTag() == 1013, ""); vec6.clear(); auto objA = Node::create(); // retain count is 1 auto objB = Node::create(); auto objC = Node::create(); { Vector array1; Vector array2; // push back objA 3 times array1.pushBack(objA); // retain count is 2 array1.pushBack(objA); // retain count is 3 array1.pushBack(objA); // retain count is 4 array2.pushBack(objA); // retain count is 5 array2.pushBack(objB); array2.pushBack(objC); for (auto obj : array1) { array2.eraseObject(obj); } CCASSERT(objA->getReferenceCount() == 4, ""); } CCASSERT(objA->getReferenceCount() == 1, ""); { Vector array1; // push back objA 3 times array1.pushBack(objA); // retain count is 2 array1.pushBack(objA); // retain count is 3 array1.pushBack(objA); // retain count is 4 CCASSERT(objA->getReferenceCount() == 4, ""); array1.eraseObject(objA, true); // Remove all occurrences in the Vector. CCASSERT(objA->getReferenceCount() == 1, ""); array1.pushBack(objA); // retain count is 2 array1.pushBack(objA); // retain count is 3 array1.pushBack(objA); // retain count is 4 array1.eraseObject(objA, false); CCASSERT(objA->getReferenceCount() == 3, ""); // Only remove the first occurrence in the Vector. } // Check the retain count in vec7 CCASSERT(vec7.size() == 20, ""); for (const auto& child : vec7) { CC_UNUSED_PARAM(child); CCASSERT(child->getReferenceCount() == 2, ""); } // Sort Vector vecForSort = createVector(); std::sort(vecForSort.begin(), vecForSort.end(), [](Node* a, Node* b){ return a->getTag() >= b->getTag(); }); for (int i = 0; i < 20; ++i) { CCASSERT(vecForSort.at(i)->getTag() - 1000 == (19 - i), ""); } // Reverse vecForSort.reverse(); for (int i = 0; i < 20; ++i) { CCASSERT(vecForSort.at(i)->getTag() - 1000 == i, ""); } // Swap Vector vecForSwap = createVector(); vecForSwap.swap(2, 4); CCASSERT(vecForSwap.at(2)->getTag() == 1004, ""); CCASSERT(vecForSwap.at(4)->getTag() == 1002, ""); vecForSwap.swap(vecForSwap.at(2), vecForSwap.at(4)); CCASSERT(vecForSwap.at(2)->getTag() == 1002, ""); CCASSERT(vecForSwap.at(4)->getTag() == 1004, ""); // shrinkToFit Vector vecForShrink = createVector(); vecForShrink.reserve(100); CCASSERT(vecForShrink.capacity() == 100, ""); vecForShrink.pushBack(Node::create()); vecForShrink.shrinkToFit(); CCASSERT(vecForShrink.capacity() == 21, ""); // get random object // Set the seed by time srand((unsigned)time(nullptr)); Vector vecForRandom = createVector(); log("<--- begin ---->"); for (int i = 0; i < vecForRandom.size(); ++i) { log("Vector: random object tag = %d", vecForRandom.getRandomObject()->getTag()); } log("<---- end ---->"); // Self assignment Vector vecSelfAssign = createVector(); vecSelfAssign = vecSelfAssign; CCASSERT(vecSelfAssign.size() == 20, ""); for (const auto& child : vecSelfAssign) { CC_UNUSED_PARAM(child); CCASSERT(child->getReferenceCount() == 2, ""); } vecSelfAssign = std::move(vecSelfAssign); CCASSERT(vecSelfAssign.size() == 20, ""); for (const auto& child : vecSelfAssign) { CC_UNUSED_PARAM(child); CCASSERT(child->getReferenceCount() == 2, ""); } // const at Vector vecConstAt = createVector(); constFunc(vecConstAt); } void TemplateVectorTest::constFunc(const Vector& vec) const { log("vec[8] = %d", vec.at(8)->getTag()); } std::string TemplateVectorTest::subtitle() const { return "Vector, should not crash"; } //--------------------------------------------------------------- void TemplateMapTest::onEnter() { UnitTestDemo::onEnter(); auto createMap = [this](){ Map ret; for (int i = 0; i < 20; ++i) { auto node = Node::create(); node->setTag(1000 + i); ret.insert(StringUtils::toString(i), node); } return ret; }; // Default constructor Map map1; CCASSERT(map1.empty(), ""); CCASSERT(map1.size() == 0, ""); CCASSERT(map1.keys().empty(), ""); CCASSERT(map1.keys(Node::create()).empty(), ""); // Move constructor Map map2 = createMap(); for (const auto& e : map2) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 2, ""); } // Copy constructor Map map3(map2); for (const auto& e : map3) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 3, ""); } // Move assignment operator Map map4; auto unusedNode = Node::create(); map4.insert("unused",unusedNode); map4 = createMap(); CCASSERT(unusedNode->getReferenceCount() == 1, ""); for (const auto& e : map4) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 2, ""); } // Copy assignment operator Map map5; map5 = map4; for (const auto& e : map5) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 3, ""); } // Check size CCASSERT(map4.size() == map5.size(), ""); for (const auto& e : map4) { CC_UNUSED_PARAM(e); CCASSERT(e.second == map5.find(e.first)->second, ""); } // bucket_count, bucket_size(n), bucket log("--------------"); log("bucket_count = %d", static_cast(map4.bucketCount())); log("size = %d", static_cast(map4.size())); for (int i = 0; i < map4.bucketCount(); ++i) { log("bucket_size(%d) = %d", i, static_cast(map4.bucketSize(i))); } for (const auto& e : map4) { log("bucket(\"%s\"), bucket index = %d", e.first.c_str(), static_cast(map4.bucket(e.first))); } log("----- all keys---------"); // keys and at auto keys = map4.keys(); for (const auto& key : keys) { log("key = %s", key.c_str()); } auto node10Key = map4.at("10"); map4.insert("100", node10Key); map4.insert("101", node10Key); map4.insert("102", node10Key); log("------ keys for object --------"); auto keysForObject = map4.keys(node10Key); for (const auto& key : keysForObject) { log("key = %s", key.c_str()); } log("--------------"); // at in const function constFunc(map4); // find auto nodeToFind = map4.find("10"); CC_UNUSED_PARAM(nodeToFind); CCASSERT(nodeToFind->second->getTag() == 1010, ""); // insert Map map6; auto node1 = Node::create(); node1->setTag(101); auto node2 = Node::create(); node2->setTag(102); auto node3 = Node::create(); node3->setTag(103); map6.insert("insert01", node1); map6.insert("insert02", node2); map6.insert("insert03", node3); CCASSERT(node1->getReferenceCount() == 2, ""); CCASSERT(node2->getReferenceCount() == 2, ""); CCASSERT(node3->getReferenceCount() == 2, ""); CCASSERT(map6.at("insert01") == node1, ""); CCASSERT(map6.at("insert02") == node2, ""); CCASSERT(map6.at("insert03") == node3, ""); // erase Map mapForErase = createMap(); mapForErase.erase(mapForErase.find("9")); CCASSERT(mapForErase.find("9") == mapForErase.end(), ""); CCASSERT(mapForErase.size() == 19, ""); mapForErase.erase("7"); CCASSERT(mapForErase.find("7") == mapForErase.end(), ""); CCASSERT(mapForErase.size() == 18, ""); std::vector itemsToRemove; itemsToRemove.push_back("2"); itemsToRemove.push_back("3"); itemsToRemove.push_back("4"); mapForErase.erase(itemsToRemove); CCASSERT(mapForErase.size() == 15, ""); // clear Map mapForClear = createMap(); auto mapForClearCopy = mapForClear; mapForClear.clear(); for (const auto& e : mapForClearCopy) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 2, ""); } // get random object // Set the seed by time srand((unsigned)time(nullptr)); Map mapForRandom = createMap(); log("<--- begin ---->"); for (int i = 0; i < mapForRandom.size(); ++i) { log("Map: random object tag = %d", mapForRandom.getRandomObject()->getTag()); } log("<---- end ---->"); // Self assignment Map mapForSelfAssign = createMap(); mapForSelfAssign = mapForSelfAssign; CCASSERT(mapForSelfAssign.size() == 20, ""); for (const auto& e : mapForSelfAssign) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 2, ""); } mapForSelfAssign = std::move(mapForSelfAssign); CCASSERT(mapForSelfAssign.size() == 20, ""); for (const auto& e : mapForSelfAssign) { CC_UNUSED_PARAM(e); CCASSERT(e.second->getReferenceCount() == 2, ""); } } void TemplateMapTest::constFunc(const Map& map) const { log("[%s]=(tag)%d", "0", map.at("0")->getTag()); log("[%s]=(tag)%d", "1", map.find("1")->second->getTag()); } std::string TemplateMapTest::subtitle() const { return "Map, should not crash"; } //---------------------------------- void ValueTest::onEnter() { UnitTestDemo::onEnter(); Value v1; CCASSERT(v1.getType() == Value::Type::NONE, ""); CCASSERT(v1.isNull(), ""); Value v2(100); CCASSERT(v2.getType() == Value::Type::INTEGER, ""); CCASSERT(!v2.isNull(), ""); Value v3(101.4f); CCASSERT(v3.getType() == Value::Type::FLOAT, ""); CCASSERT(!v3.isNull(), ""); Value v4(106.1); CCASSERT(v4.getType() == Value::Type::DOUBLE, ""); CCASSERT(!v4.isNull(), ""); unsigned char byte = 50; Value v5(byte); CCASSERT(v5.getType() == Value::Type::BYTE, ""); CCASSERT(!v5.isNull(), ""); Value v6(true); CCASSERT(v6.getType() == Value::Type::BOOLEAN, ""); CCASSERT(!v6.isNull(), ""); Value v7("string"); CCASSERT(v7.getType() == Value::Type::STRING, ""); CCASSERT(!v7.isNull(), ""); Value v8(std::string("string2")); CCASSERT(v8.getType() == Value::Type::STRING, ""); CCASSERT(!v8.isNull(), ""); auto createValueVector = [&](){ ValueVector ret; ret.push_back(v1); ret.push_back(v2); ret.push_back(v3); return ret; }; Value v9(createValueVector()); CCASSERT(v9.getType() == Value::Type::VECTOR, ""); CCASSERT(!v9.isNull(), ""); auto createValueMap = [&](){ ValueMap ret; ret["aaa"] = v1; ret["bbb"] = v2; ret["ccc"] = v3; return ret; }; Value v10(createValueMap()); CCASSERT(v10.getType() == Value::Type::MAP, ""); CCASSERT(!v10.isNull(), ""); auto createValueMapIntKey = [&](){ ValueMapIntKey ret; ret[111] = v1; ret[222] = v2; ret[333] = v3; return ret; }; Value v11(createValueMapIntKey()); CCASSERT(v11.getType() == Value::Type::INT_KEY_MAP, ""); CCASSERT(!v11.isNull(), ""); } std::string ValueTest::subtitle() const { return "Value Test, should not crash"; } void ValueTest::constFunc(const Value& value) const { } // UTFConversionTest static const int TEST_CODE_NUM = 11; static const char16_t __utf16Code[] = { 0x3042, 0x3044, 0x3046, 0x3048, 0x304A, 0x3042, 0x3044, 0x3046, 0x3048, 0x304A, 0x0041, 0x0000, }; // to avoid Xcode error, char => unsigned char // If you use this table, please cast manually as (const char *). static const unsigned char __utf8Code[] = { 0xE3,0x81,0x82, 0xE3,0x81,0x84, 0xE3,0x81,0x86, 0xE3,0x81,0x88, 0xE3,0x81,0x8A, 0xE3,0x81,0x82, 0xE3,0x81,0x84, 0xE3,0x81,0x86, 0xE3,0x81,0x88, 0xE3,0x81,0x8A, 0x41, 0x00, }; static const char16_t WHITE_SPACE_CODE[] = { 0x0009, 0x000A, 0x000B, 0x000C, 0x000D, 0x0020, 0x0085, 0x00A0, 0x1680, 0x2000, 0x2001, 0x2002, 0x2003, 0x2004, 0x2005, 0x2006, 0x2007, 0x2008, 0x2009, 0x200A, 0x2028, 0x2029, 0x202F, 0x205F, 0x3000 }; static void doUTFConversion() { bool isSuccess = false; std::string originalUTF8 = (const char*)__utf8Code; std::u16string originalUTF16 = __utf16Code; //--------------------------- std::string utf8Str; isSuccess = StringUtils::UTF16ToUTF8(originalUTF16, utf8Str); if (isSuccess) { isSuccess = memcmp(utf8Str.data(), originalUTF8.data(), originalUTF8.length()+1)==0; } CCASSERT(isSuccess, "StringUtils::UTF16ToUTF8 failed"); //--------------------------- std::u16string utf16Str; isSuccess = StringUtils::UTF8ToUTF16(originalUTF8, utf16Str); if (isSuccess) { isSuccess = memcmp(utf16Str.data(), originalUTF16.data(), originalUTF16.length()+1)==0; } CCASSERT(isSuccess && (utf16Str.length() == TEST_CODE_NUM), "StringUtils::UTF8ToUTF16 failed"); //--------------------------- auto vec1 = StringUtils::getChar16VectorFromUTF16String(originalUTF16); CCASSERT(vec1.size() == originalUTF16.length(), "StringUtils::getChar16VectorFromUTF16String failed"); //--------------------------- std::vector vec2( vec1 ); vec2.push_back(0x2009); vec2.push_back(0x2009); vec2.push_back(0x2009); vec2.push_back(0x2009); std::vector vec3( vec2 ); StringUtils::trimUTF16Vector(vec2); CCASSERT(vec1.size() == vec2.size(), "StringUtils::trimUTF16Vector failed"); for (size_t i = 0; i < vec2.size(); i++ ) { CCASSERT(vec1.at(i) == vec2.at(i), "StringUtils::trimUTF16Vector failed"); } //--------------------------- CCASSERT(StringUtils::getCharacterCountInUTF8String(originalUTF8) == TEST_CODE_NUM, "StringUtils::getCharacterCountInUTF8String failed"); //--------------------------- int lastIndex = StringUtils::getIndexOfLastNotChar16(vec3, 0x2009); CCASSERT(lastIndex == (vec1.size()-1), "StringUtils::getIndexOfLastNotChar16 failed"); //--------------------------- CCASSERT(originalUTF16.length() == TEST_CODE_NUM, "The length of the original utf16 string isn't equal to TEST_CODE_NUM"); //--------------------------- size_t whiteCodeNum = sizeof(WHITE_SPACE_CODE) / sizeof(WHITE_SPACE_CODE[0]); for( size_t i = 0; i < whiteCodeNum; i++ ) { CCASSERT(StringUtils::isUnicodeSpace(WHITE_SPACE_CODE[i]), "StringUtils::isUnicodeSpace failed"); } CCASSERT(!StringUtils::isUnicodeSpace(0xFFFF), "StringUtils::isUnicodeSpace failed"); CCASSERT(!StringUtils::isCJKUnicode(0xFFFF) && StringUtils::isCJKUnicode(0x3100), "StringUtils::isCJKUnicode failed"); } void UTFConversionTest::onEnter() { UnitTestDemo::onEnter(); for (int i = 0; i < 10000; ++i) { doUTFConversion(); } } std::string UTFConversionTest::subtitle() const { return "UTF8 <-> UTF16 Conversion Test, no crash"; }