/** * @file llsingleton_test.cpp * @date 2011-08-11 * @brief Unit test for the LLSingleton class * * $LicenseInfo:firstyear=2011&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2011, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "llsingleton.h" #include "../test/lltut.h" #include "wrapllerrs.h" #include "llsd.h" // Capture execution sequence by appending to log string. std::string sLog; #define DECLARE_CLASS(CLS) \ struct CLS: public LLSingleton \ { \ LLSINGLETON(CLS); \ ~CLS(); \ public: \ static enum dep_flag { \ DEP_NONE, /* no dependency */ \ DEP_CTOR, /* dependency in ctor */ \ DEP_INIT /* dependency in initSingleton */ \ } sDepFlag; \ \ void initSingleton() override; \ void cleanupSingleton() override; \ }; \ \ CLS::dep_flag CLS::sDepFlag = DEP_NONE DECLARE_CLASS(A); DECLARE_CLASS(B); #define DEFINE_MEMBERS(CLS, OTHER) \ CLS::CLS() \ { \ sLog.append(#CLS); \ if (sDepFlag == DEP_CTOR) \ { \ (void)OTHER::instance(); \ } \ } \ \ void CLS::initSingleton() \ { \ sLog.append("i" #CLS); \ if (sDepFlag == DEP_INIT) \ { \ (void)OTHER::instance(); \ } \ } \ \ void CLS::cleanupSingleton() \ { \ sLog.append("x" #CLS); \ } \ \ CLS::~CLS() \ { \ sLog.append("~" #CLS); \ } DEFINE_MEMBERS(A, B) DEFINE_MEMBERS(B, A) namespace tut { struct singleton { // We need a class created with the LLSingleton template to test with. class LLSingletonTest: public LLSingleton { LLSINGLETON_EMPTY_CTOR(LLSingletonTest); }; }; typedef test_group singleton_t; typedef singleton_t::object singleton_object_t; tut::singleton_t tut_singleton("LLSingleton"); template<> template<> void singleton_object_t::test<1>() { } template<> template<> void singleton_object_t::test<2>() { LLSingletonTest* singleton_test = LLSingletonTest::getInstance(); ensure(singleton_test); } template<> template<> void singleton_object_t::test<3>() { //Construct the instance LLSingletonTest::getInstance(); ensure(LLSingletonTest::instanceExists()); //Delete the instance LLSingletonTest::deleteSingleton(); ensure(!LLSingletonTest::instanceExists()); //Construct it again. LLSingletonTest* singleton_test = LLSingletonTest::getInstance(); ensure(singleton_test); ensure(LLSingletonTest::instanceExists()); } #define TESTS(CLS, OTHER, N0, N1, N2, N3) \ template<> template<> \ void singleton_object_t::test() \ { \ set_test_name("just " #CLS); \ CLS::sDepFlag = CLS::DEP_NONE; \ OTHER::sDepFlag = OTHER::DEP_NONE; \ sLog.clear(); \ \ (void)CLS::instance(); \ ensure_equals(sLog, #CLS "i" #CLS); \ LLSingletonBase::deleteAll(); \ ensure_equals(sLog, #CLS "i" #CLS "x" #CLS "~" #CLS); \ } \ \ template<> template<> \ void singleton_object_t::test() \ { \ set_test_name(#CLS " ctor depends " #OTHER); \ CLS::sDepFlag = CLS::DEP_CTOR; \ OTHER::sDepFlag = OTHER::DEP_NONE; \ sLog.clear(); \ \ (void)CLS::instance(); \ ensure_equals(sLog, #CLS #OTHER "i" #OTHER "i" #CLS); \ LLSingletonBase::deleteAll(); \ ensure_equals(sLog, #CLS #OTHER "i" #OTHER "i" #CLS "x" #CLS "~" #CLS "x" #OTHER "~" #OTHER); \ } \ \ template<> template<> \ void singleton_object_t::test() \ { \ set_test_name(#CLS " init depends " #OTHER); \ CLS::sDepFlag = CLS::DEP_INIT; \ OTHER::sDepFlag = OTHER::DEP_NONE; \ sLog.clear(); \ \ (void)CLS::instance(); \ ensure_equals(sLog, #CLS "i" #CLS #OTHER "i" #OTHER); \ LLSingletonBase::deleteAll(); \ ensure_equals(sLog, #CLS "i" #CLS #OTHER "i" #OTHER "x" #CLS "~" #CLS "x" #OTHER "~" #OTHER); \ } \ \ template<> template<> \ void singleton_object_t::test() \ { \ set_test_name(#CLS " circular init"); \ CLS::sDepFlag = CLS::DEP_INIT; \ OTHER::sDepFlag = OTHER::DEP_CTOR; \ sLog.clear(); \ \ (void)CLS::instance(); \ ensure_equals(sLog, #CLS "i" #CLS #OTHER "i" #OTHER); \ LLSingletonBase::deleteAll(); \ ensure_equals(sLog, #CLS "i" #CLS #OTHER "i" #OTHER "x" #CLS "~" #CLS "x" #OTHER "~" #OTHER); \ } TESTS(A, B, 4, 5, 6, 7) TESTS(B, A, 8, 9, 10, 11) #define PARAMSINGLETON(cls) \ class cls: public LLParamSingleton \ { \ LLSINGLETON(cls, const LLSD::String& str): mDesc(str) {} \ cls(LLSD::Integer i): mDesc(i) {} \ \ public: \ std::string desc() const { return mDesc.asString(); } \ \ private: \ LLSD mDesc; \ } // Declare two otherwise-identical LLParamSingleton classes so we can // validly initialize each using two different constructors. If we tried // to test that with a single LLParamSingleton class within the same test // program, we'd get 'trying to use deleted LLParamSingleton' errors. PARAMSINGLETON(PSing1); PARAMSINGLETON(PSing2); template<> template<> void singleton_object_t::test<12>() { set_test_name("LLParamSingleton"); WrapLLErrs catcherr; // query methods ensure("false positive on instanceExists()", ! PSing1::instanceExists()); ensure("false positive on wasDeleted()", ! PSing1::wasDeleted()); // try to reference before initializing std::string threw = catcherr.catch_llerrs([](){ (void)PSing1::instance(); }); ensure_contains("too-early instance() didn't throw", threw, "Uninitialized"); // getInstance() behaves the same as instance() threw = catcherr.catch_llerrs([](){ (void)PSing1::getInstance(); }); ensure_contains("too-early getInstance() didn't throw", threw, "Uninitialized"); // initialize using LLSD::String constructor PSing1::initParamSingleton("string"); ensure_equals(PSing1::instance().desc(), "string"); ensure("false negative on instanceExists()", PSing1::instanceExists()); // try to initialize again threw = catcherr.catch_llerrs([](){ PSing1::initParamSingleton("again"); }); ensure_contains("second ctor(string) didn't throw", threw, "twice"); #ifndef LL_GNUC // FIXME: Fails to build under GCC // try to initialize using the other constructor -- should be // well-formed, but illegal at runtime threw = catcherr.catch_llerrs([](){ PSing1::initParamSingleton(17); }); ensure_contains("other ctor(int) didn't throw", threw, "twice"); #endif PSing1::deleteSingleton(); ensure("false negative on wasDeleted()", PSing1::wasDeleted()); threw = catcherr.catch_llerrs([](){ (void)PSing1::instance(); }); ensure_contains("accessed deleted LLParamSingleton", threw, "deleted"); } #ifndef LL_GNUC // FIXME: Fails to build under GCC template<> template<> void singleton_object_t::test<13>() { set_test_name("LLParamSingleton alternate ctor"); WrapLLErrs catcherr; // We don't have to restate all the tests for PSing1. Only test validly // using the other constructor. PSing2::initParamSingleton(17); ensure_equals(PSing2::instance().desc(), "17"); // can't do it twice std::string threw = catcherr.catch_llerrs([](){ PSing2::initParamSingleton(34); }); ensure_contains("second ctor(int) didn't throw", threw, "twice"); // can't use the other constructor either threw = catcherr.catch_llerrs([](){ PSing2::initParamSingleton("string"); }); ensure_contains("other ctor(string) didn't throw", threw, "twice"); } #endif class CircularPCtor: public LLParamSingleton { LLSINGLETON(CircularPCtor) { // never mind indirection, just go straight for the circularity (void)instance(); } }; template<> template<> void singleton_object_t::test<14>() { set_test_name("Circular LLParamSingleton constructor"); WrapLLErrs catcherr; std::string threw = catcherr.catch_llerrs([](){ CircularPCtor::initParamSingleton(); }); ensure_contains("constructor circularity didn't throw", threw, "constructor"); } class CircularPInit: public LLParamSingleton { LLSINGLETON_EMPTY_CTOR(CircularPInit); public: virtual void initSingleton() override { // never mind indirection, just go straight for the circularity CircularPInit *pt = getInstance(); if (!pt) { throw; } } }; template<> template<> void singleton_object_t::test<15>() { set_test_name("Circular LLParamSingleton initSingleton()"); WrapLLErrs catcherr; std::string threw = catcherr.catch_llerrs([](){ CircularPInit::initParamSingleton(); }); ensure("initSingleton() circularity threw", threw.empty()); } }