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juce_ScopedPointer.h
1/*
2 ==============================================================================
3
4 This file is part of the JUCE library.
5 Copyright (c) 2017 - ROLI Ltd.
6
7 JUCE is an open source library subject to commercial or open-source
8 licensing.
9
10 The code included in this file is provided under the terms of the ISC license
11 http://www.isc.org/downloads/software-support-policy/isc-license. Permission
12 To use, copy, modify, and/or distribute this software for any purpose with or
13 without fee is hereby granted provided that the above copyright notice and
14 this permission notice appear in all copies.
15
16 JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
17 EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
18 DISCLAIMED.
19
20 ==============================================================================
21*/
22
23#ifndef DOXYGEN
24
25namespace juce
26{
27
28//==============================================================================
32template <class ObjectType>
34{
35public:
36 //==============================================================================
37 // ScopedPointer is deprecated! You should use std::unique_ptr instead.
38 JUCE_DEPRECATED_ATTRIBUTE inline ScopedPointer() = default;
39
40 // ScopedPointer is deprecated! You should use std::unique_ptr instead.
41 JUCE_DEPRECATED_ATTRIBUTE inline ScopedPointer (decltype (nullptr)) noexcept {}
42
43 // ScopedPointer is deprecated! You should use std::unique_ptr instead.
44 JUCE_DEPRECATED_ATTRIBUTE inline ScopedPointer (ObjectType* objectToTakePossessionOf) noexcept
46 {
47 }
48
49 // ScopedPointer is deprecated! You should use std::unique_ptr instead.
51 : object (objectToTransferFrom.release())
52 {
53 }
54
55 // ScopedPointer is deprecated! You should use std::unique_ptr instead.
56 JUCE_DEPRECATED_ATTRIBUTE inline ~ScopedPointer() { reset(); }
57
59 {
60 if (this != objectToTransferFrom.getAddress())
61 {
62 // Two ScopedPointers should never be able to refer to the same object - if
63 // this happens, you must have done something dodgy!
64 jassert (object == nullptr || object != objectToTransferFrom.object);
65 reset (objectToTransferFrom.release());
66 }
67
68 return *this;
69 }
70
72 {
74 return *this;
75 }
76
77 ScopedPointer (ScopedPointer&& other) noexcept : object (other.object)
78 {
79 other.object = nullptr;
80 }
81
83 {
84 reset (other.release());
85 return *this;
86 }
87
88 //==============================================================================
89 inline operator ObjectType*() const noexcept { return object; }
90 inline ObjectType* get() const noexcept { return object; }
91 inline ObjectType& operator*() const noexcept { return *object; }
92 inline ObjectType* operator->() const noexcept { return object; }
93
94 void reset()
95 {
96 auto* oldObject = object;
97 object = {};
99 }
100
101 void reset (ObjectType* newObject)
102 {
103 if (object != newObject)
104 {
105 auto* oldObject = object;
106 object = newObject;
108 }
109 else
110 {
111 // You're trying to reset this ScopedPointer to itself! This will work here as ScopedPointer does an equality check
112 // but be aware that std::unique_ptr won't do this and you could end up with some nasty, subtle bugs!
113 jassert (newObject == nullptr);
114 }
115 }
116
117 void reset (ScopedPointer& newObject)
118 {
119 reset (newObject.release());
120 }
121
122 ObjectType* release() noexcept { auto* o = object; object = {}; return o; }
123
124 //==============================================================================
125 void swapWith (ScopedPointer<ObjectType>& other) noexcept
126 {
127 // Two ScopedPointers should never be able to refer to the same object - if
128 // this happens, you must have done something dodgy!
129 jassert (object != other.object || this == other.getAddress() || object == nullptr);
130
131 std::swap (object, other.object);
132 }
133
134 inline ObjectType* createCopy() const { return createCopyIfNotNull (object); }
135
136private:
137 //==============================================================================
138 ObjectType* object = nullptr;
139
140 const ScopedPointer* getAddress() const noexcept { return this; } // Used internally to avoid the & operator
141
142 #if ! JUCE_MSVC // (MSVC can't deal with multiple copy constructors)
143 ScopedPointer (const ScopedPointer&) = delete;
144 ScopedPointer& operator= (const ScopedPointer&) = delete;
145 #endif
146};
147
148//==============================================================================
149template <typename ObjectType1, typename ObjectType2>
151{
152 return pointer1 == pointer2.get();
153}
154
155template <typename ObjectType1, typename ObjectType2>
156bool operator!= (ObjectType1* pointer1, const ScopedPointer<ObjectType2>& pointer2) noexcept
157{
158 return pointer1 != pointer2.get();
159}
160
161template <typename ObjectType1, typename ObjectType2>
162bool operator== (const ScopedPointer<ObjectType1>& pointer1, ObjectType2* pointer2) noexcept
163{
164 return pointer1.get() == pointer2;
165}
166
167template <typename ObjectType1, typename ObjectType2>
168bool operator!= (const ScopedPointer<ObjectType1>& pointer1, ObjectType2* pointer2) noexcept
169{
170 return pointer1.get() != pointer2;
171}
172
173template <typename ObjectType1, typename ObjectType2>
174bool operator== (const ScopedPointer<ObjectType1>& pointer1, const ScopedPointer<ObjectType2>& pointer2) noexcept
175{
176 return pointer1.get() == pointer2.get();
177}
178
179template <typename ObjectType1, typename ObjectType2>
180bool operator!= (const ScopedPointer<ObjectType1>& pointer1, const ScopedPointer<ObjectType2>& pointer2) noexcept
181{
182 return pointer1.get() != pointer2.get();
183}
184
185template <class ObjectType>
186bool operator== (decltype (nullptr), const ScopedPointer<ObjectType>& pointer) noexcept
187{
188 return pointer.get() == nullptr;
189}
190
191template <class ObjectType>
192bool operator!= (decltype (nullptr), const ScopedPointer<ObjectType>& pointer) noexcept
193{
194 return pointer.get() != nullptr;
195}
196
197template <class ObjectType>
198bool operator== (const ScopedPointer<ObjectType>& pointer, decltype (nullptr)) noexcept
199{
200 return pointer.get() == nullptr;
201}
202
203template <class ObjectType>
204bool operator!= (const ScopedPointer<ObjectType>& pointer, decltype (nullptr)) noexcept
205{
206 return pointer.get() != nullptr;
207}
208
209//==============================================================================
210// NB: This is just here to prevent any silly attempts to call deleteAndZero() on a ScopedPointer.
211template <typename Type>
212void deleteAndZero (ScopedPointer<Type>&) { static_assert (sizeof (Type) == 12345,
213 "Attempt to call deleteAndZero() on a ScopedPointer"); }
214
215} // namespace juce
216
217#endif