/* * Carla Utility Tests * Copyright (C) 2013-2014 Filipe Coelho * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or any later version. * * This program 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 General Public License for more details. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ #include "CarlaUtils.hpp" #include "CarlaBackendUtils.hpp" #include "CarlaBridgeUtils.hpp" // #include "CarlaDssiUtils.hpp" #include "CarlaJuceUtils.hpp" #include "CarlaLadspaUtils.hpp" // #include "CarlaLibUtils.hpp" // #include "CarlaLv2Utils.hpp" #include "CarlaOscUtils.hpp" #include "CarlaPipeUtils.hpp" // #include "CarlaShmUtils.hpp" // #include "CarlaStateUtils.hpp" // #include "CarlaVstUtils.hpp" // #include "CarlaLibCounter.hpp" // #include "CarlaLogThread.hpp" // #include "CarlaMutex.hpp" // #include "CarlaRingBuffer.hpp" // #include "CarlaString.hpp" // #include "CarlaThread.hpp" // #include "List.hpp" // #include "Lv2AtomQueue.hpp" // #include "RtList.hpp" // #include "JucePluginWindow.hpp" struct MyStruct { char pad[100]; int i; double d; void* ptr; }; class MyLeakCheckedClass { public: MyLeakCheckedClass() noexcept {} ~MyLeakCheckedClass() noexcept {} private: char pad[100]; int i; double d; void* ptr; CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(MyLeakCheckedClass) }; #if 0 class MyThread : public CarlaThread { public: MyThread(CarlaMutex* const m) : CarlaThread("myThread"), fMu(m) { } protected: void run() override { carla_stderr("Thread started"); carla_stderr("Thread lock"); fMu->lock(); carla_stderr("Thread sleeping"); carla_sleep(3); carla_stderr("Thread unlock"); fMu->unlock(); carla_stderr("Thread sleep-waiting for stop"); while (! shouldExit()) carla_sleep(1); carla_stderr("Thread finished"); return; vstPluginCanDo(nullptr, "something"); } private: CarlaMutex* const fMu; }; #endif int main() { // misc functions bool2str(false); bool2str(true); pass(); // string print functions carla_debug("DEBUG"); carla_stdout("STDOUT"); carla_stderr("STDERR"); carla_stderr2("STDERR2"); // carla_*sleep carla_sleep(1); carla_msleep(1); // carla_setenv carla_setenv("THIS", "THAT"); assert(std::strcmp(std::getenv("THIS"), "THAT") == 0); // carla_strdup const char* const str1(carla_strdup("string1")); const char* const strF(carla_strdup_free(strdup("stringFree"))); delete[] str1; delete[] strF; { struct TestStruct { const char* str1; const char* str2; const char* str3; const char* str4; TestStruct() : str1(carla_strdup("str1")), str2(carla_strdup("str2")), str3(nullptr), str4(carla_strdup("str4")) {} ~TestStruct() { if (str1 != nullptr) { delete[] str1; str1 = nullptr; } if (str2 != nullptr) { delete[] str2; str2 = nullptr; } if (str3 != nullptr) { delete[] str3; str3 = nullptr; } if (str4 != nullptr) { delete[] str4; str4 = nullptr; } } }; TestStruct a, b, c; } // math/memory functions { assert(carla_min(0, -5, 8) == 8); assert(carla_max(0, -5, 8) == 0); assert(carla_fixValue(0.0f, 1.0f, 1.1f) == 1.0f); int v1 = 6; int v2 = 8; const int v3 = 9; assert(v1 == 6 && v2 == 8 && v3 == 9); carla_copy(&v1, &v2, 1); assert(v1 == 8 && v2 == 8 && v3 == 9); carla_copy(&v2, &v3, 1); assert(v1 == 8 && v2 == 9 && v3 == 9); float fl[5]; carla_fill(fl, 5, 1.11f); assert(fl[0] == 1.11f); assert(fl[1] == 1.11f); assert(fl[2] == 1.11f); assert(fl[3] == 1.11f); assert(fl[4] == 1.11f); carla_add(fl, fl, 5); assert(fl[0] == 1.11f*2); assert(fl[1] == 1.11f*2); assert(fl[2] == 1.11f*2); assert(fl[3] == 1.11f*2); assert(fl[4] == 1.11f*2); carla_add(fl, fl, 4); assert(fl[0] == 1.11f*4); assert(fl[1] == 1.11f*4); assert(fl[2] == 1.11f*4); assert(fl[3] == 1.11f*4); assert(fl[4] == 1.11f*2); carla_add(fl, fl, 3); assert(fl[0] == 1.11f*8); assert(fl[1] == 1.11f*8); assert(fl[2] == 1.11f*8); assert(fl[3] == 1.11f*4); assert(fl[4] == 1.11f*2); carla_add(fl, fl, 2); assert(fl[0] == 1.11f*16); assert(fl[1] == 1.11f*16); assert(fl[2] == 1.11f*8); assert(fl[3] == 1.11f*4); assert(fl[4] == 1.11f*2); carla_add(fl, fl, 1); assert(fl[0] == 1.11f*32); assert(fl[1] == 1.11f*16); assert(fl[2] == 1.11f*8); assert(fl[3] == 1.11f*4); assert(fl[4] == 1.11f*2); char ch[500]; carla_zeroChar(ch, 500); for (int i=0; i<500; ++i) assert(ch[i] == '\0'); } { MyStruct a, b, c[2], d[2]; carla_zeroMem(&a, sizeof(MyStruct)); carla_zeroStruct(b); carla_zeroStruct(c, 2); carla_copyStruct(b, a); carla_copyStruct(d, c, 2); } // Leak check { MyLeakCheckedClass a; MyLeakCheckedClass* const b(new MyLeakCheckedClass); delete b; } #if 0 // Mutex { CarlaMutex m; assert(! m.wasTryLockCalled()); assert(m.tryLock()); assert(m.wasTryLockCalled()); assert(! m.wasTryLockCalled()); // once m.unlock(); m.lock(); assert(! m.wasTryLockCalled()); { CarlaMutex::ScopedUnlocker su(m); } assert(! m.wasTryLockCalled()); m.unlock(); { CarlaMutex::ScopedLocker sl(m); } } // String { CarlaString a, b(2), c("haha"), d((uint)0x999, true), e(0.7f), f(0.9), g('u'); assert(g == "u"); } // Thread { CarlaMutex m; MyThread t(&m); carla_stdout("Thread init started"); t.start(); carla_stdout("Thread init finished, lock waiting..."); m.lock(); carla_stdout("Thread lock wait done"); m.unlock(); t.stop(-1); } #endif return 0; }