1 /* Macros for general registry objects.
3 Copyright (C) 2011-2014 Free Software Foundation, Inc.
5 This file is part of GDB.
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3 of the License, or
10 (at your option) any later version.
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with this program. If not, see <http://www.gnu.org/licenses/>. */
23 /* The macros here implement a template type and functions for
24 associating some user data with a container object.
26 A registry is associated with a struct tag name. To attach a
27 registry to a structure, use DEFINE_REGISTRY. This takes the
28 structure tag and an access method as arguments. In the usual
29 case, where the registry fields appear directly in the struct, you
30 can use the 'REGISTRY_FIELDS' macro to declare the fields in the
31 struct definition, and you can pass 'REGISTRY_ACCESS_FIELD' as the
32 access argument to DEFINE_REGISTRY. In other cases, use
33 REGISTRY_FIELDS to define the fields in the appropriate spot, and
34 then define your own accessor to find the registry field structure
35 given an instance of your type.
37 The API user requests a key from a registry during gdb
38 initialization. Later this key can be used to associate some
39 module-specific data with a specific container object.
41 The exported API is best used via the wrapper macros:
43 - register_TAG_data(TAG)
44 Get a new key for the container type TAG.
46 - register_TAG_data_with_cleanup(TAG, SAVE, FREE)
47 Get a new key for the container type TAG.
48 SAVE and FREE are defined as void (*) (struct TAG *object, void *data)
49 When the container object OBJECT is destroyed, first all registered SAVE
51 Then all FREE functions are called.
52 Either or both may be NULL. DATA is the data associated with the
53 container object OBJECT.
55 - clear_TAG_data(TAG, OBJECT)
56 Clear all the data associated with OBJECT. Should be called by the
57 container implementation when a container object is destroyed.
59 - set_TAG_data(TAG, OBJECT, KEY, DATA)
60 Set the data on an object.
62 - TAG_data(TAG, OBJECT, KEY)
63 Fetch the data for an object; returns NULL if it has not been set.
66 /* This structure is used in a container to hold the data that the
69 struct registry_fields
75 /* This macro is used in a container struct definition to define the
76 fields used by the registry code. */
78 #define REGISTRY_FIELDS \
79 struct registry_fields registry_data
81 /* A convenience macro for the typical case where the registry data is
82 kept as fields of the object. This can be passed as the ACCESS
83 method to DEFINE_REGISTRY. */
85 #define REGISTRY_ACCESS_FIELD(CONTAINER) \
88 /* Opaque type representing a container type with a registry. This
89 type is never defined. This is used to factor out common
90 functionality of all struct tag names into common code. IOW,
91 "struct tag name" pointers are cast to and from "struct
92 registry_container" pointers when calling the common registry
93 "backend" functions. */
94 struct registry_container;
96 /* Registry callbacks have this type. */
97 typedef void (*registry_data_callback) (struct registry_container *, void *);
102 registry_data_callback save;
103 registry_data_callback free;
106 struct registry_data_registration
108 struct registry_data *data;
109 struct registry_data_registration *next;
112 struct registry_data_registry
114 struct registry_data_registration *registrations;
115 unsigned num_registrations;
118 /* Registry backend functions. Client code uses the frontend
119 functions defined by DEFINE_REGISTRY below instead. */
121 const struct registry_data *register_data_with_cleanup
122 (struct registry_data_registry *registry,
123 registry_data_callback save,
124 registry_data_callback free);
126 void registry_alloc_data (struct registry_data_registry *registry,
127 struct registry_fields *registry_fields);
129 /* Cast FUNC and CONTAINER to the real types, and call FUNC, also
131 typedef void (*registry_callback_adaptor) (registry_data_callback func,
132 struct registry_container *container,
135 void registry_clear_data (struct registry_data_registry *data_registry,
136 registry_callback_adaptor adaptor,
137 struct registry_container *container,
138 struct registry_fields *fields);
140 void registry_container_free_data (struct registry_data_registry *data_registry,
141 registry_callback_adaptor adaptor,
142 struct registry_container *container,
143 struct registry_fields *fields);
145 void registry_set_data (struct registry_fields *fields,
146 const struct registry_data *data,
149 void *registry_data (struct registry_fields *fields,
150 const struct registry_data *data);
152 /* Define a new registry implementation. */
154 #define DEFINE_REGISTRY(TAG, ACCESS) \
155 struct registry_data_registry TAG ## _data_registry = { NULL, 0 }; \
157 const struct TAG ## _data * \
158 register_ ## TAG ## _data_with_cleanup (void (*save) (struct TAG *, void *), \
159 void (*free) (struct TAG *, void *)) \
161 struct registry_data_registration **curr; \
163 return (struct TAG ## _data *) \
164 register_data_with_cleanup (&TAG ## _data_registry, \
165 (registry_data_callback) save, \
166 (registry_data_callback) free); \
169 const struct TAG ## _data * \
170 register_ ## TAG ## _data (void) \
172 return register_ ## TAG ## _data_with_cleanup (NULL, NULL); \
176 TAG ## _alloc_data (struct TAG *container) \
178 struct registry_fields *rdata = &ACCESS (container)->registry_data; \
180 registry_alloc_data (&TAG ## _data_registry, rdata); \
184 TAG ## registry_callback_adaptor (registry_data_callback func, \
185 struct registry_container *container, \
188 struct TAG *tagged_container = (struct TAG *) container; \
189 struct registry_fields *rdata \
190 = &ACCESS (tagged_container)->registry_data; \
192 registry_ ## TAG ## _callback tagged_func \
193 = (registry_ ## TAG ## _callback) func; \
195 tagged_func (tagged_container, data); \
199 clear_ ## TAG ## _data (struct TAG *container) \
201 struct registry_fields *rdata = &ACCESS (container)->registry_data; \
203 registry_clear_data (&TAG ## _data_registry, \
204 TAG ## registry_callback_adaptor, \
205 (struct registry_container *) container, \
210 TAG ## _free_data (struct TAG *container) \
212 struct registry_fields *rdata = &ACCESS (container)->registry_data; \
214 registry_container_free_data (&TAG ## _data_registry, \
215 TAG ## registry_callback_adaptor, \
216 (struct registry_container *) container, \
221 set_ ## TAG ## _data (struct TAG *container, \
222 const struct TAG ## _data *data, \
225 struct registry_fields *rdata = &ACCESS (container)->registry_data; \
227 registry_set_data (rdata, \
228 (struct registry_data *) data, \
233 TAG ## _data (struct TAG *container, const struct TAG ## _data *data) \
235 struct registry_fields *rdata = &ACCESS (container)->registry_data; \
237 return registry_data (rdata, \
238 (struct registry_data *) data); \
242 /* External declarations for the registry functions. */
244 #define DECLARE_REGISTRY(TAG) \
245 struct TAG ## _data; \
246 typedef void (*registry_ ## TAG ## _callback) (struct TAG *, void *); \
247 extern const struct TAG ## _data *register_ ## TAG ## _data (void); \
248 extern const struct TAG ## _data *register_ ## TAG ## _data_with_cleanup \
249 (registry_ ## TAG ## _callback save, registry_ ## TAG ## _callback free); \
250 extern void clear_ ## TAG ## _data (struct TAG *); \
251 extern void set_ ## TAG ## _data (struct TAG *, \
252 const struct TAG ## _data *data, \
254 extern void *TAG ## _data (struct TAG *, \
255 const struct TAG ## _data *data);
257 #endif /* REGISTRY_H */