/* * Carla Scope-related classes and tools (pointer and setter taken from JUCE v4) * Copyright (C) 2013 Raw Material Software Ltd. * Copyright (c) 2016 ROLI Ltd. * Copyright (C) 2013-2020 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. */ #ifndef CARLA_SCOPE_UTILS_HPP_INCLUDED #define CARLA_SCOPE_UTILS_HPP_INCLUDED #include "CarlaUtils.hpp" #include #include #if ! (defined(CARLA_OS_HAIKU) || defined(CARLA_OS_MAC) || defined(CARLA_OS_WIN)) # define CARLA_USE_NEWLOCALE #endif #if defined(CARLA_OS_WIN) && __MINGW64_VERSION_MAJOR >= 5 # define CARLA_USE_CONFIGTHREADLOCALE #endif // ----------------------------------------------------------------------- // CarlaScopedEnvVar class class CarlaScopedEnvVar { public: CarlaScopedEnvVar(const char* const envVar, const char* const valueOrNull) noexcept : key(nullptr), origValue(nullptr) { CARLA_SAFE_ASSERT_RETURN(envVar != nullptr && envVar[0] != '\0',); key = carla_strdup_safe(envVar); CARLA_SAFE_ASSERT_RETURN(key != nullptr,); if (const char* const envVarValue = std::getenv(key)) { origValue = carla_strdup_safe(envVarValue); CARLA_SAFE_ASSERT_RETURN(origValue != nullptr,); } // change env var if requested if (valueOrNull != nullptr) carla_setenv(key, valueOrNull); // if null, unset. but only if there is in an active env var value else if (origValue != nullptr) carla_unsetenv(key); } ~CarlaScopedEnvVar() noexcept { bool hasOrigValue = false; if (origValue != nullptr) { hasOrigValue = true; carla_setenv(key, origValue); delete[] origValue; origValue = nullptr; } if (key != nullptr) { if (! hasOrigValue) carla_unsetenv(key); delete[] key; key = nullptr; } } private: const char* key; const char* origValue; CARLA_DECLARE_NON_COPYABLE(CarlaScopedEnvVar) CARLA_PREVENT_HEAP_ALLOCATION }; // ----------------------------------------------------------------------- // CarlaScopedLocale class class CarlaScopedLocale { #ifdef CARLA_USE_NEWLOCALE static constexpr locale_t kNullLocale = (locale_t)nullptr; #endif public: CarlaScopedLocale() noexcept #ifdef CARLA_USE_NEWLOCALE : newloc(::newlocale(LC_NUMERIC_MASK, "C", kNullLocale)), oldloc(newloc != kNullLocale ? ::uselocale(newloc) : kNullLocale) {} #else # ifdef CARLA_USE_CONFIGTHREADLOCALE : oldthreadloc(_configthreadlocale(_ENABLE_PER_THREAD_LOCALE)), # else : # endif oldloc(carla_strdup_safe(::setlocale(LC_NUMERIC, nullptr))) { ::setlocale(LC_NUMERIC, "C"); } #endif ~CarlaScopedLocale() noexcept { #ifdef CARLA_USE_NEWLOCALE if (oldloc != kNullLocale) ::uselocale(oldloc); if (newloc != kNullLocale) ::freelocale(newloc); #else // CARLA_USE_NEWLOCALE if (oldloc != nullptr) { ::setlocale(LC_NUMERIC, oldloc); delete[] oldloc; } # ifdef CARLA_USE_CONFIGTHREADLOCALE if (oldthreadloc != -1) _configthreadlocale(oldthreadloc); # endif #endif // CARLA_USE_NEWLOCALE } private: #ifdef CARLA_USE_NEWLOCALE locale_t newloc, oldloc; #else # ifdef CARLA_USE_CONFIGTHREADLOCALE const int oldthreadloc; # endif const char* const oldloc; #endif CARLA_DECLARE_NON_COPYABLE(CarlaScopedLocale) CARLA_PREVENT_HEAP_ALLOCATION }; //===================================================================================================================== /** This class holds a pointer which is automatically deleted when this object goes out of scope. Once a pointer has been passed to a CarlaScopedPointer, it will make sure that the pointer gets deleted when the CarlaScopedPointer is deleted. Using the CarlaScopedPointer on the stack or as member variables is a good way to use RAII to avoid accidentally leaking dynamically created objects. A CarlaScopedPointer can be used in pretty much the same way that you'd use a normal pointer to an object. If you use the assignment operator to assign a different object to a CarlaScopedPointer, the old one will be automatically deleted. A const CarlaScopedPointer is guaranteed not to lose ownership of its object or change the object to which it points during its lifetime. This means that making a copy of a const CarlaScopedPointer is impossible, as that would involve the new copy taking ownership from the old one. If you need to get a pointer out of a CarlaScopedPointer without it being deleted, you can use the release() method. Something to note is the main difference between this class and the std::auto_ptr class, which is that CarlaScopedPointer provides a cast-to-object operator, whereas std::auto_ptr requires that you always call get() to retrieve the pointer. The advantages of providing the cast is that you don't need to call get(), so can use the CarlaScopedPointer in pretty much exactly the same way as a raw pointer. The disadvantage is that the compiler is free to use the cast in unexpected and sometimes dangerous ways - in particular, it becomes difficult to return a CarlaScopedPointer as the result of a function. To avoid this causing errors, CarlaScopedPointer contains an overloaded constructor that should cause a syntax error in these circumstances, but it does mean that instead of returning a CarlaScopedPointer from a function, you'd need to return a raw pointer (or use a std::auto_ptr instead). */ template class CarlaScopedPointer { public: //================================================================================================================= /** Creates a CarlaScopedPointer containing a null pointer. */ CarlaScopedPointer() noexcept : object(nullptr) {} /** Creates a CarlaScopedPointer that owns the specified object. */ CarlaScopedPointer(ObjectType* const objectToTakePossessionOf) noexcept : object(objectToTakePossessionOf) {} /** Creates a CarlaScopedPointer that takes its pointer from another CarlaScopedPointer. Because a pointer can only belong to one CarlaScopedPointer, this transfers the pointer from the other object to this one, and the other object is reset to be a null pointer. */ CarlaScopedPointer(CarlaScopedPointer& objectToTransferFrom) noexcept : object(objectToTransferFrom.object) { objectToTransferFrom.object = nullptr; } /** Destructor. This will delete the object that this CarlaScopedPointer currently refers to. */ ~CarlaScopedPointer() { delete object; } /** Changes this CarlaScopedPointer to point to a new object. Because a pointer can only belong to one CarlaScopedPointer, this transfers the pointer from the other object to this one, and the other object is reset to be a null pointer. If this CarlaScopedPointer already points to an object, that object will first be deleted. */ CarlaScopedPointer& operator=(CarlaScopedPointer& objectToTransferFrom) { if (this != objectToTransferFrom.getAddress()) { // Two CarlaScopedPointers should never be able to refer to the same object - if // this happens, you must have done something dodgy! CARLA_SAFE_ASSERT_RETURN(object == nullptr || object != objectToTransferFrom.object, *this); ObjectType* const oldObject = object; object = objectToTransferFrom.object; objectToTransferFrom.object = nullptr; delete oldObject; } return *this; } /** Changes this CarlaScopedPointer to point to a new object. If this CarlaScopedPointer already points to an object, that object will first be deleted. The pointer that you pass in may be a nullptr. */ CarlaScopedPointer& operator=(ObjectType* const newObjectToTakePossessionOf) { if (object != newObjectToTakePossessionOf) { ObjectType* const oldObject = object; object = newObjectToTakePossessionOf; delete oldObject; } return *this; } //================================================================================================================= /** Returns the object that this CarlaScopedPointer refers to. */ operator ObjectType*() const noexcept { return object; } /** Returns the object that this CarlaScopedPointer refers to. */ ObjectType* get() const noexcept { return object; } /** Returns the object that this CarlaScopedPointer refers to. */ ObjectType& operator*() const noexcept { return *object; } /** Lets you access methods and properties of the object that this CarlaScopedPointer refers to. */ ObjectType* operator->() const noexcept { return object; } //================================================================================================================= /** Removes the current object from this CarlaScopedPointer without deleting it. This will return the current object, and set the CarlaScopedPointer to a null pointer. */ ObjectType* release() noexcept { ObjectType* const o = object; object = nullptr; return o; } //================================================================================================================= /** Swaps this object with that of another CarlaScopedPointer. The two objects simply exchange their pointers. */ void swapWith(CarlaScopedPointer& other) noexcept { // Two CarlaScopedPointers should never be able to refer to the same object - if // this happens, you must have done something dodgy! CARLA_SAFE_ASSERT_RETURN(object != other.object || this == other.getAddress() || object == nullptr,); std::swap(object, other.object); } private: //================================================================================================================= ObjectType* object; // (Required as an alternative to the overloaded & operator). const CarlaScopedPointer* getAddress() const noexcept { return this; } #ifdef CARLA_PROPER_CPP11_SUPPORT CarlaScopedPointer(const CarlaScopedPointer&) = delete; CarlaScopedPointer& operator=(const CarlaScopedPointer&) = delete; #else CarlaScopedPointer(const CarlaScopedPointer&); CarlaScopedPointer& operator=(const CarlaScopedPointer&); #endif }; //===================================================================================================================== /** Compares a CarlaScopedPointer with another pointer. This can be handy for checking whether this is a null pointer. */ template bool operator==(const CarlaScopedPointer& pointer1, ObjectType* const pointer2) noexcept { return static_cast(pointer1) == pointer2; } /** Compares a CarlaScopedPointer with another pointer. This can be handy for checking whether this is a null pointer. */ template bool operator!=(const CarlaScopedPointer& pointer1, ObjectType* const pointer2) noexcept { return static_cast(pointer1) != pointer2; } //===================================================================================================================== /** Helper class providing an RAII-based mechanism for temporarily setting and then re-setting a value. E.g. @code int x = 1; { CarlaScopedValueSetter setter (x, 2); // x is now 2 } // x is now 1 again { CarlaScopedValueSetter setter (x, 3, 4); // x is now 3 } // x is now 4 @endcode */ template class CarlaScopedValueSetter { public: /** Creates a CarlaScopedValueSetter that will immediately change the specified value to the given new value, and will then reset it to its original value when this object is deleted. Must be used only for 'noexcept' compatible types. */ CarlaScopedValueSetter(ValueType& valueToSet, ValueType newValue) noexcept : value(valueToSet), originalValue(valueToSet) { valueToSet = newValue; } /** Creates a CarlaScopedValueSetter that will immediately change the specified value to the given new value, and will then reset it to be valueWhenDeleted when this object is deleted. */ CarlaScopedValueSetter(ValueType& valueToSet, ValueType newValue, ValueType valueWhenDeleted) noexcept : value(valueToSet), originalValue(valueWhenDeleted) { valueToSet = newValue; } ~CarlaScopedValueSetter() noexcept { value = originalValue; } private: //================================================================================================================= ValueType& value; const ValueType originalValue; CARLA_DECLARE_NON_COPYABLE(CarlaScopedValueSetter) CARLA_PREVENT_HEAP_ALLOCATION }; // ----------------------------------------------------------------------- #endif // CARLA_SCOPE_UTILS_HPP_INCLUDED