compiler: always initialize mpfr in integer import
[official-gcc.git] / gcc / is-a.h
blob2012e7bab79456e255626634b055b3dbafb1fdbf
1 /* Dynamic testing for abstract is-a relationships.
2 Copyright (C) 2012-2022 Free Software Foundation, Inc.
3 Contributed by Lawrence Crowl.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 3, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
22 /* This header generic type query and conversion functions.
25 USING THE GENERIC TYPE FACILITY
28 The user functions are:
30 bool is_a <TYPE> (pointer)
32 Tests whether the pointer actually points to a more derived TYPE.
34 Suppose you have a symtab_node *ptr, AKA symtab_node *ptr. You can test
35 whether it points to a 'derived' cgraph_node as follows.
37 if (is_a <cgraph_node *> (ptr))
38 ....
41 TYPE as_a <TYPE> (pointer)
43 Converts pointer to a TYPE.
45 You can just assume that it is such a node.
47 do_something_with (as_a <cgraph_node *> *ptr);
49 TYPE safe_as_a <TYPE> (pointer)
51 Like as_a <TYPE> (pointer), but where pointer could be NULL. This
52 adds a check against NULL where the regular is_a_helper hook for TYPE
53 assumes non-NULL.
55 do_something_with (safe_as_a <cgraph_node *> *ptr);
57 TYPE dyn_cast <TYPE> (pointer)
59 Converts pointer to TYPE if and only if "is_a <TYPE> pointer". Otherwise,
60 returns NULL. This function is essentially a checked down cast.
62 This functions reduce compile time and increase type safety when treating a
63 generic item as a more specific item.
65 You can test and obtain a pointer to the 'derived' type in one indivisible
66 operation.
68 if (cgraph_node *cptr = dyn_cast <cgraph_node *> (ptr))
69 ....
71 As an example, the code change is from
73 if (symtab_function_p (node))
75 struct cgraph_node *cnode = cgraph (node);
76 ....
81 if (cgraph_node *cnode = dyn_cast <cgraph_node *> (node))
83 ....
86 The necessary conditional test defines a variable that holds a known good
87 pointer to the specific item and avoids subsequent conversion calls and
88 the assertion checks that may come with them.
90 When, the property test is embedded within a larger condition, the
91 variable declaration gets pulled out of the condition. (This approach
92 leaves some room for using the variable inappropriately.)
94 if (symtab_variable_p (node) && varpool (node)->finalized)
95 varpool_analyze_node (varpool (node));
97 becomes
99 varpool_node *vnode = dyn_cast <varpool_node *> (node);
100 if (vnode && vnode->finalized)
101 varpool_analyze_node (vnode);
103 Note that we have converted two sets of assertions in the calls to varpool
104 into safe and efficient use of a variable.
106 TYPE safe_dyn_cast <TYPE> (pointer)
108 Like dyn_cast <TYPE> (pointer), except that it accepts null pointers
109 and returns null results for them.
112 If you use these functions and get a 'inline function not defined' or a
113 'missing symbol' error message for 'is_a_helper<....>::test', it means that
114 the connection between the types has not been made. See below.
117 EXTENDING THE GENERIC TYPE FACILITY
119 Method 1
120 --------
122 If DERIVED is derived from BASE, and if BASE contains enough information
123 to determine whether an object is actually an instance of DERIVED,
124 then you can make the above routines work for DERIVED by defining
125 a specialization of is_a_helper such as:
127 template<>
128 struct is_a_helper<DERIVED *> : static_is_a_helper<DERIVED *>
130 static inline bool test (const BASE *p) { return ...; }
133 This test function should return true if P is an instanced of DERIVED.
134 This on its own is enough; the comments below for method 2 do not apply.
136 Method 2
137 --------
139 Alternatively, if two types are connected in ways other than C++
140 inheritance, each connection between them must be made by defining a
141 specialization of the template member function 'test' of the template
142 class 'is_a_helper'. For example,
144 template <>
145 template <>
146 inline bool
147 is_a_helper <cgraph_node *>::test (symtab_node *p)
149 return p->type == SYMTAB_FUNCTION;
152 If a simple reinterpret_cast between the pointer types is incorrect, then you
153 must also specialize the template member function 'cast'. Failure to do so
154 when needed may result in a crash. For example,
156 template <>
157 template <>
158 inline bool
159 is_a_helper <cgraph_node *>::cast (symtab_node *p)
161 return &p->x_function;
166 #ifndef GCC_IS_A_H
167 #define GCC_IS_A_H
169 /* A base class that specializations of is_a_helper can use if casting
170 U * to T is simply a reinterpret_cast. */
172 template <typename T>
173 struct reinterpret_is_a_helper
175 template <typename U>
176 static inline T cast (U *p) { return reinterpret_cast <T> (p); }
179 /* A base class that specializations of is_a_helper can use if casting
180 U * to T is simply a static_cast. This is more type-safe than
181 reinterpret_is_a_helper. */
183 template <typename T>
184 struct static_is_a_helper
186 template <typename U>
187 static inline T cast (U *p) { return static_cast <T> (p); }
190 /* A generic type conversion internal helper class. */
192 template <typename T>
193 struct is_a_helper : reinterpret_is_a_helper<T>
195 template <typename U>
196 static inline bool test (U *p);
199 /* Reuse the definition of is_a_helper<T *> to implement
200 is_a_helper<const T *>. */
202 template <typename T>
203 struct is_a_helper<const T *>
205 template <typename U>
206 static inline const T *cast (const U *p)
208 return is_a_helper<T *>::cast (const_cast <U *> (p));
210 template <typename U>
211 static inline bool test (const U *p)
213 return is_a_helper<T *>::test (p);
217 /* Note that we deliberately do not define the 'test' member template. Not
218 doing so will result in a build-time error for type relationships that have
219 not been defined, rather than a run-time error. See the discussion above
220 for when to define this member. */
222 /* The public interface. */
224 /* A generic test for a type relationship. See the discussion above for when
225 to use this function. The question answered is "Is type T a derived type of
226 type U?". */
228 template <typename T, typename U>
229 inline bool
230 is_a (U *p)
232 return is_a_helper<T>::test (p);
235 /* A generic conversion from a base type U to a derived type T. See the
236 discussion above for when to use this function. */
238 template <typename T, typename U>
239 inline T
240 as_a (U *p)
242 gcc_checking_assert (is_a <T> (p));
243 return is_a_helper <T>::cast (p);
246 /* Similar to as_a<>, but where the pointer can be NULL, even if
247 is_a_helper<T> doesn't check for NULL. */
249 template <typename T, typename U>
250 inline T
251 safe_as_a (U *p)
253 if (p)
255 gcc_checking_assert (is_a <T> (p));
256 return is_a_helper <T>::cast (p);
258 else
259 return NULL;
262 /* A generic checked conversion from a base type U to a derived type T. See
263 the discussion above for when to use this function. */
265 template <typename T, typename U>
266 inline T
267 dyn_cast (U *p)
269 if (is_a <T> (p))
270 return is_a_helper <T>::cast (p);
271 else
272 return static_cast <T> (0);
275 /* Similar to dyn_cast, except that the pointer may be null. */
277 template <typename T, typename U>
278 inline T
279 safe_dyn_cast (U *p)
281 return p ? dyn_cast <T> (p) : 0;
284 #endif /* GCC_IS_A_H */