/* * Carla misc utils based on Juce * Copyright (C) 2013 Raw Material Software Ltd. * Copyright (c) 2016 ROLI Ltd. * Copyright (C) 2013-2019 Filipe Coelho * * Permission to use, copy, modify, and/or distribute this software for any purpose with * or without fee is hereby granted, provided that the above copyright notice and this * permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD * TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef CARLA_JUCE_UTILS_HPP_INCLUDED #define CARLA_JUCE_UTILS_HPP_INCLUDED #include "CarlaUtils.hpp" #include #include /** A good old-fashioned C macro concatenation helper. This combines two items (which may themselves be macros) into a single string, avoiding the pitfalls of the ## macro operator. */ #define CARLA_JOIN_MACRO_HELPER(a, b) a ## b #define CARLA_JOIN_MACRO(item1, item2) CARLA_JOIN_MACRO_HELPER(item1, item2) /** Same but for joining 3 items */ #define CARLA_JOIN_MACRO_HELPER3(a, b, c) a ## b ## c #define CARLA_JOIN_MACRO3(item1, item2, item3) CARLA_JOIN_MACRO_HELPER3(item1, item2, item3) #ifdef DEBUG /** This macro lets you embed a leak-detecting object inside a class. To use it, simply declare a CARLA_LEAK_DETECTOR(YourClassName) inside a private section of the class declaration. E.g. @code class MyClass { public: MyClass(); void blahBlah(); private: CARLA_LEAK_DETECTOR(MyClass) }; @endcode */ # define CARLA_LEAK_DETECTOR(ClassName) \ friend class ::LeakedObjectDetector; \ static const char* getLeakedObjectClassName() noexcept { return #ClassName; } \ ::LeakedObjectDetector CARLA_JOIN_MACRO(leakDetector_, ClassName); # define CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(ClassName) \ CARLA_DECLARE_NON_COPYABLE(ClassName) \ CARLA_LEAK_DETECTOR(ClassName) #else /** Don't use leak detection on release builds. */ # define CARLA_LEAK_DETECTOR(ClassName) # define CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(ClassName) \ CARLA_DECLARE_NON_COPYABLE(ClassName) #endif //===================================================================================================================== /** Converts a dBFS value to its equivalent gain level. A gain of 1.0 = 0 dB, and lower gains map onto negative decibel values. Any decibel value lower than minusInfinityDb will return a gain of 0. */ static inline float decibelsToGain (const double decibels, const double minusInfinityDb = -100.0) { return decibels > minusInfinityDb ? static_cast(std::pow(10.0, decibels * 0.05)) : 0.0f; } //===================================================================================================================== /** Embedding an instance of this class inside another class can be used as a low-overhead way of detecting leaked instances. This class keeps an internal static count of the number of instances that are active, so that when the app is shutdown and the static destructors are called, it can check whether there are any left-over instances that may have been leaked. To use it, use the CARLA_LEAK_DETECTOR macro as a simple way to put one in your class declaration. */ template class LeakedObjectDetector { public: //================================================================================================================= LeakedObjectDetector() noexcept { ++(getCounter().numObjects); } LeakedObjectDetector(const LeakedObjectDetector&) noexcept { ++(getCounter().numObjects); } ~LeakedObjectDetector() noexcept { if (--(getCounter().numObjects) < 0) { /** If you hit this, then you've managed to delete more instances of this class than you've created.. That indicates that you're deleting some dangling pointers. Note that although this assertion will have been triggered during a destructor, it might not be this particular deletion that's at fault - the incorrect one may have happened at an earlier point in the program, and simply not been detected until now. Most errors like this are caused by using old-fashioned, non-RAII techniques for your object management. Tut, tut. Always, always use ScopedPointers, OwnedArrays, ReferenceCountedObjects, etc, and avoid the 'delete' operator at all costs! */ carla_stderr2("*** Dangling pointer deletion! Class: '%s', Count: %i", getLeakedObjectClassName(), getCounter().numObjects); } } private: //================================================================================================================= class LeakCounter { public: LeakCounter() noexcept : numObjects(0) {} ~LeakCounter() noexcept { if (numObjects > 0) { /** If you hit this, then you've leaked one or more objects of the type specified by the 'OwnerClass' template parameter - the name should have been printed by the line above. If you're leaking, it's probably because you're using old-fashioned, non-RAII techniques for your object management. Tut, tut. Always, always use ScopedPointers, OwnedArrays, ReferenceCountedObjects, etc, and avoid the 'delete' operator at all costs! */ carla_stderr2("*** Leaked objects detected: %i instance(s) of class '%s'", numObjects, getLeakedObjectClassName()); } } // this should be an atomic... volatile int numObjects; }; static const char* getLeakedObjectClassName() noexcept { return OwnerClass::getLeakedObjectClassName(); } static LeakCounter& getCounter() noexcept { static LeakCounter counter; return counter; } }; //===================================================================================================================== #endif // CARLA_JUCE_UTILS_HPP_INCLUDED