0026947: Data exchange can not be compiled without visualization anyomre
[occt.git] / src / Standard / Standard_Handle.hxx
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e7195ab4 1// Copyright (c) 2014 OPEN CASCADE SAS
2//
3// This file is part of Open CASCADE Technology software library.
4//
5// This library is free software; you can redistribute it and/or modify it under
6// the terms of the GNU Lesser General Public License version 2.1 as published
7// by the Free Software Foundation, with special exception defined in the file
8// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
9// distribution for complete text of the license and disclaimer of any warranty.
10//
11// Alternatively, this file may be used under the terms of Open CASCADE
12// commercial license or contractual agreement.
13
14#ifndef _Standard_Handle_HeaderFile
15#define _Standard_Handle_HeaderFile
16
17#include <Standard_Address.hxx>
18#include <Standard_Stream.hxx>
19#include <Standard_Transient.hxx>
20
21#include <type_traits>
22
23class Standard_Transient;
24
25namespace opencascade {
26
27 //! Intrusive smart pointer for use with Standard_Transient class and its descendants.
28 //!
29 //! This class is similar to boost::intrusive_ptr<>, with additional
30 //! feature historically supported by Handles in OCCT:
31 //! it has type conversion to const reference to handle to the base types,
32 //! which allows it to be passed by reference
33 //! in functions accepring reference to handle to base class.
34 template <class T>
35 class handle
36 {
37 public:
38 //! STL-compliant typedef of contained type
39 typedef T element_type;
40
41 public:
42
43 //! Empty constructor
44 handle () : entity(0) {}
45
46 //! Constructor from pointer to new object
47 handle (const T *thePtr) : entity(const_cast<T*>(thePtr))
48 {
49 BeginScope();
50 }
51/* TODO: uncomment and remove const from method above
52 //! Constructor from const pointer to new object;
53 //! will raise exception if object's reference counter is zero
54 explicit handle (const T *thePtr) : entity(thePtr->This())
55 {
56 BeginScope();
57 }
58*/
59 //! Copy constructor
60 handle (const handle& theHandle) : entity(theHandle.entity)
61 {
62 BeginScope();
63 }
64
65 //! Destructor
66 ~handle ()
67 {
68 EndScope();
69 }
70
71 //! Nullify the handle
72 void Nullify()
73 {
74 EndScope();
75 }
76
77 //! Check for being null
78 bool IsNull() const { return entity == 0; }
79
80 //! Reset by new pointer
81 void reset (T* thePtr)
82 {
83 Assign (thePtr);
84 }
85
86 //! Assignment operator
87 handle& operator= (const handle& theHandle)
88 {
89 Assign (theHandle.entity);
90 return *this;
91 }
92
93 //! Assignment to pointer
94 handle& operator= (const T* thePtr)
95 {
96 Assign (const_cast<T*>(thePtr));
97 return *this;
98 }
99/* uncomment along with constructor
100 //! Assignment to pointer to const object
101 handle& operator= (const T* thePtr)
102 {
103 Assign (thePtr->This());
104 return *this;
105 }
106*/
107 //! STL-like cast to pointer to referred object
108 const T* get () const { return static_cast<const T*>(this->entity); }
109
110 //! STL-like cast to pointer to referred object
111 T* get () { return static_cast<T*>(this->entity); }
112
113 //! Member access operator (note non-const)
114 T* operator-> () const { return static_cast<T*>(this->entity); }
115
116 //! Dereferencing operator
117 T& operator* () { return *get(); }
118
119 //! Const dereferencing operator
120 const T& operator*() const { return *get(); }
121
122 //! Check for equality
123 template <class T2>
124 bool operator== (const handle<T2>& theHandle) const
125 {
e8862cf4 126 return get() == theHandle.get();
e7195ab4 127 }
128
129 //! Check for equality
e8862cf4 130 template <class T2>
131 bool operator== (const T2 *thePtr) const
e7195ab4 132 {
e8862cf4 133 return get() == thePtr;
e7195ab4 134 }
135
136 //! Check for equality
e8862cf4 137 template <class T2>
138 friend bool operator== (const T2 *left, const handle& right)
e7195ab4 139 {
e8862cf4 140 return left == right.get();
e7195ab4 141 }
142
143 //! Check for inequality
144 template <class T2>
145 bool operator!= (const handle<T2>& theHandle) const
146 {
e8862cf4 147 return get() != theHandle.get();
e7195ab4 148 }
149
150 //! Check for inequality
e8862cf4 151 template <class T2>
152 bool operator!= (const T2 *thePtr) const
e7195ab4 153 {
e8862cf4 154 return get() != thePtr;
e7195ab4 155 }
156
157 //! Check for inequality
e8862cf4 158 template <class T2>
159 friend bool operator!= (const T2 *left, const handle& right)
e7195ab4 160 {
e8862cf4 161 return left != right.get();
e7195ab4 162 }
163
d1a67b9d 164 //! Compare operator for possible use in std::map<> etc.
165 template <class T2>
166 bool operator< (const handle<T2>& theHandle) const
167 {
168 return get() < theHandle.get();
169 }
170
e7195ab4 171 //! Down casting operator
172 template <class T2>
173 static handle DownCast (const handle<T2>& theObject)
174 {
175 return handle (dynamic_cast<T*>(const_cast<T2*>(theObject.get())));
176 }
177
178 //! Down casting operator
179 template <class T2>
180 static handle DownCast (const T2* thePtr)
181 {
182 return handle (dynamic_cast<T*>(const_cast<T2*>(thePtr)));
183 }
184
d1a67b9d 185#if __cplusplus >= 201103L || (defined(_MSC_VER) && _MSC_VER >= 1800) || (defined(__GNUC__) && __GNUC__ >= 4 && __GNUC_MINOR__ >= 6)
186
187 //! Conversion to bool for use in conditional expressions
188 explicit operator bool () const
189 {
190 return entity != nullptr;
191 }
192
193#else /* fallback version for compilers not supporting explicit conversion operators (VC10, VC11, GCC below 4.5) */
194
195 //! Conversion to bool-compatible type for use in conditional expressions
196 operator Standard_Transient* handle::* () const
197 {
198 return entity ? &handle::entity : 0;
199 }
200
201#endif
202
203 //! Upcast to const reference to base type.
e7195ab4 204#if __cplusplus >= 201103L || (defined(_MSC_VER) && _MSC_VER >= 1800) || (defined(__GNUC__) && __GNUC__ >= 4 && __GNUC_MINOR__ >= 3)
205
206 //! Upcast to const reference to base type.
207 template <class T2, typename = typename std::enable_if<std::is_base_of<T2, T>::value>::type>
208 operator const handle<T2>& () const
209 {
210 return reinterpret_cast<const handle<T2>&>(*this);
211 }
212
213 //! Upcast to non-const reference to base type.
d1a67b9d 214 //! NB: this cast can be dangerous, but required for legacy code; see #26377
e7195ab4 215 template <class T2, typename = typename std::enable_if<std::is_base_of<T2, T>::value>::type>
216 operator handle<T2>& ()
217 {
218 return reinterpret_cast<handle<T2>&>(*this);
219 }
220
221#else /* fallback version for compilers not supporting default arguments of function templates (VC10, VC11, GCC below 4.3) */
222
223 //! Upcast to const reference to base type.
224 //! NB: this implementation will cause ambiguity errors on calls to overloaded
225 //! functions accepting handles to different types, since compatibility is
226 //! checked in the cast code rather than ensured by SFINAE (possible with C++11)
227 template <class T2>
228 operator const handle<T2>& () const
229 {
230 // error "type is not a member of enable_if" will be generated if T2 is not sub-type of T
231 // (handle is being cast to const& to handle of non-base type)
232 return reinterpret_cast<typename std::enable_if<std::is_base_of<T2, T>::value, const handle<T2>&>::type>(*this);
233 }
234
235 //! Upcast to non-const reference to base type.
d1a67b9d 236 //! NB: this cast can be dangerous, but required for legacy code; see #26377
e7195ab4 237 template <class T2>
238 operator handle<T2>& ()
239 {
240 // error "type is not a member of enable_if" will be generated if T2 is not sub-type of T
241 // (handle is being cast to const& to handle of non-base type)
242 return reinterpret_cast<typename std::enable_if<std::is_base_of<T2, T>::value, handle<T2>&>::type>(*this);
243 }
244
245#endif
246
247 private:
248
249 //! Assignment
250 void Assign (Standard_Transient *thePtr)
251 {
252 if (thePtr == entity)
253 return;
254 EndScope();
255 entity = thePtr;
256 BeginScope();
257 }
258
259 //! Increment reference counter of referred object
260 void BeginScope()
261 {
262 if (entity != 0)
263 entity->IncrementRefCounter();
264 }
265
266 //! Decrement reference counter and if 0, destroy referred object
267 void EndScope()
268 {
269 if (entity != 0 && entity->DecrementRefCounter() == 0)
270 entity->Delete();
271 entity = 0;
272 }
273
274 template <class T2> friend class handle;
275
276 private:
277 Standard_Transient* entity;
278 };
279
280} // namespace opencascade
281
282//! Define Handle() macro
283#define Handle(Class) opencascade::handle<Class>
284
285//! Global method HashCode(), for use in hash maps
286template <class T>
287inline Standard_Integer HashCode (const Handle(T)& theHandle, const Standard_Integer theUpper)
288{
289 return ::HashCode (const_cast<Standard_Address>(static_cast<const void*>(theHandle.get())), theUpper);
290}
291
35c0599a 292//! For compatibility with previous versions of OCCT, defines typedef opencascade::handle<Class> Handle(Class)
d1a67b9d 293#define DEFINE_STANDARD_HANDLECLASS(C1,C2,BC) class C1; typedef Handle(C1) Handle_##C1;
e7195ab4 294#define DEFINE_STANDARD_HANDLE(C1,C2) DEFINE_STANDARD_HANDLECLASS(C1,C2,Standard_Transient)
295#define DEFINE_STANDARD_PHANDLE(C1,C2) DEFINE_STANDARD_HANDLECLASS(C1,C2,Standard_Persistent)
296
297#endif