/usr/include/pike8.0/pike/mapping.h is in pike8.0-dev 8.0.164-1build1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 327 328 329 330 331 332 333 334 335 336 337 338 339 340 341 342 343 344 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 365 366 367 368 369 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 386 387 388 389 390 391 392 393 394 395 396 397 398 399 400 401 402 403 404 | /*
|| This file is part of Pike. For copyright information see COPYRIGHT.
|| Pike is distributed under GPL, LGPL and MPL. See the file COPYING
|| for more information.
*/
#ifndef MAPPING_H
#define MAPPING_H
#include "svalue.h"
#include "dmalloc.h"
/* Compatible with PIKE_WEAK_INDICES and PIKE_WEAK_VALUES. */
#define MAPPING_WEAK_INDICES 2
#define MAPPING_WEAK_VALUES 4
#define MAPPING_WEAK 6
#define MAPPING_FLAG_WEAK 6 /* Compat. */
struct keypair
{
struct keypair *next;
unsigned INT32 hval;
struct svalue ind, val;
};
struct mapping_data
{
PIKE_MEMORY_OBJECT_MEMBERS;
INT32 valrefs; /* lock values too */
INT32 hardlinks;
INT32 size, hashsize;
INT32 num_keypairs;
TYPE_FIELD ind_types, val_types;
INT16 flags;
struct keypair *free_list;
struct keypair *hash[1 /* hashsize */ ];
/* struct keypair data_block[ hashsize * AVG_LINK_LENGTH ] */
};
#undef MAPPING_SIZE_DEBUG
/* This debug doesn't work with weak mappings in the gc. */
struct mapping
{
PIKE_MEMORY_OBJECT_MEMBERS;
#ifdef MAPPING_SIZE_DEBUG
INT32 debug_size;
#endif
struct mapping_data *data;
struct mapping *next, *prev;
};
extern struct mapping *first_mapping;
extern struct mapping *gc_internal_mapping;
#define map_delete(m,key) map_delete_no_free(m, key, 0)
#define m_sizeof(m) ((m)->data->size)
#define m_ind_types(m) ((m)->data->ind_types)
#define m_val_types(m) ((m)->data->val_types)
#define mapping_get_flags(m) ((m)->data->flags)
#define mapping_data_is_shared(m) ((m)->data->refs > 1)
#define MD_KEYPAIRS(MD, HSIZE) \
( (struct keypair *) \
DO_ALIGN( PTR_TO_INT(MD) + OFFSETOF(mapping_data, hash) + HSIZE * sizeof(struct keypair *), \
ALIGNOF(struct keypair)) )
#ifndef PIKE_MAPPING_KEYPAIR_LOOP
#define NEW_MAPPING_LOOP(md) \
for((e=0) DO_IF_DMALLOC( ?0:(debug_malloc_touch(md)) ) ;e<(md)->hashsize;e++) for(k=(md)->hash[e];k;k=k->next)
/* WARNING: this should not be used */
#define MAPPING_LOOP(m) \
for((e=0) DO_IF_DMALLOC( ?0:(debug_malloc_touch(m),debug_malloc_touch((m)->data))) ;e<(m)->data->hashsize;e++) for(k=(m)->data->hash[e];k;k=k->next)
#else /* PIKE_MAPPING_KEYPAIR_LOOP */
#define NEW_MAPPING_LOOP(md) \
for(((k = MD_KEYPAIRS(md, (md)->hashsize)), e=0) DO_IF_DMALLOC( ?0:(debug_malloc_touch(md)) ) ; e<(md)->size; e++,k++)
/* WARNING: this should not be used */
#define MAPPING_LOOP(m) \
for(((k = MD_KEYPAIRS((m)->data, (m)->data->hashsize)), e=0) DO_IF_DMALLOC( ?0:(debug_malloc_touch(m),debug_malloc_touch((m)->data)) ) ; e<(m)->data->size; e++,k++)
#endif /* PIKE_MAPPING_KEYPAIR_LOOP */
PMOD_EXPORT void really_free_mapping(struct mapping *md);
#define inl_free_mapping(M) do{ \
struct mapping *m_=(M); \
debug_malloc_touch(m_); \
DO_IF_DEBUG ( \
DO_IF_PIKE_CLEANUP ( \
if (gc_external_refs_zapped) \
gc_check_zapped (m_, PIKE_T_MAPPING, __FILE__, __LINE__))); \
if(!sub_ref(m_)) \
really_free_mapping(m_); \
}while(0)
#if defined(USE_DLL) && defined(DYNAMIC_MODULE)
/* Use the function in modules so we don't have to export the block
* alloc stuff. */
#define free_mapping(M) do_free_mapping (M)
#else
/** Free a previously allocated mapping. The preferred method of freeing
* a mapping is by calling the @ref do_free_mapping function.
*
* @param M The mapping to be freed
* @see do_free_mapping
* @see free_mapping_data
*/
#define free_mapping(M) inl_free_mapping(M)
#endif /* !(USE_DLL && DYNAMIC_MODULE) */
/** Free only the mapping data leaving the mapping structure itself intact.
*
* @param M The mapping structure 'data' member of the mapping whose data is to be removed
* @see free_mapping
* @see really_free_mapping_data
* @see mapping_data
* @see mapping
*/
#define free_mapping_data(M) do{ \
struct mapping_data *md_=(M); \
debug_malloc_touch(md_); \
if(!sub_ref(md_)) really_free_mapping_data(md_); \
/* FIXME: What about valrefs & hardlinks? */ \
}while(0)
/* Prototypes begin here */
void really_free_mapping(struct mapping * m);
void count_memory_in_mappings(size_t * num, size_t * size);
void mapping_free_keypair(struct mapping_data *md, struct keypair *k);
PMOD_EXPORT struct mapping *debug_allocate_mapping(int size);
/** Function that actually frees the mapping data, called by the wrapper
* macro free_mapping_data.
*
* @param M The mapping structure data member of the mapping whose data is to be removed
* @see free_mapping
* @see really_free_mapping_data
* @see mapping_data
* @see mapping
*/
PMOD_EXPORT void really_free_mapping_data(struct mapping_data *md);
/** A wrapper function for the free_mapping macro. Should be used instead of
* the macro as it checks whether the passed mapping is NULL or not.
*
* @param m The mapping to be freed
* @see free_mapping
*/
PMOD_EXPORT void do_free_mapping(struct mapping *m);
/** Makes a copy of the passed mapping data and returns it to the caller.
*
* @param md The mapping structure data member to be copied
* @return Copy of the passed data
* @see mapping
*/
struct mapping_data *copy_mapping_data(struct mapping_data *md);
PMOD_EXPORT void mapping_fix_type_field(struct mapping *m);
PMOD_EXPORT void mapping_set_flags(struct mapping *m, int flags);
/** This function inserts key:val into the mapping m.
* Same as doing m[key]=val; in pike.
*
* @param overwrite how to deal with existing values@n
* @b 0: Do not replace the value if the entry exists.@n
* @b 1: Replace the value if the entry exists.@n
* @b 2: Replace both the index and the value if the entry exists.
*/
PMOD_EXPORT void low_mapping_insert(struct mapping *m,
const struct svalue *key,
const struct svalue *val,
int overwrite);
/** Inserts the specified key and value into the indicated mapping. If
* the key already exists in the mapping, its value is replaced with the
* new one. For other modes of dealing with existing keys you need to
* use the @ref low_mapping_insert function.
*
* @param m mapping the key/value are to be inserted to
* @param key the new entry key
* @param value the new entry value
* @see low_mapping_insert
*/
PMOD_EXPORT void mapping_insert(struct mapping *m,
const struct svalue *key,
const struct svalue *val);
PMOD_EXPORT union anything *mapping_get_item_ptr(struct mapping *m,
const struct svalue *key,
TYPE_T t);
/** Deletes the specified entry from the indicated mapping and frees
* the memory associated with it unless the @b to parameter is not
* NULL, in which case the deleted item's value is assigned to the
* @b to @ref svalue.
*
* @param m mapping containing the entry to delete
* @param key the key which indexes the entry to delete
* @param to if not NULL will contain the deleted item's value
*/
PMOD_EXPORT void map_delete_no_free(struct mapping *m,
const struct svalue *key,
struct svalue *to);
PMOD_EXPORT void check_mapping_for_destruct(struct mapping *m);
/** Look up the specified key in the indicated mapping and return
* the corresponding @ref svalue representing the value of the
* entry.
*
* @param m mapping to check for the key presence
* @param key key to look up in the mapping
* @return an svalue representing the looked up entry's value or
* NULL if the key was not found in the mapping.
* @see low_mapping_string_lookup
* @see simple_mapping_string_lookup
*/
PMOD_EXPORT struct svalue *low_mapping_lookup(struct mapping *m,
const struct svalue *key);
/** Look up an entry in the indicated mapping indexed by the passed @b Pike
* string. It is a shortcut for the common case when the mapping is indexed
* on Pike strings instead of using an @ref svalue and the @ref low_mapping_lookup
* function.
*
* @param m mapping to check for the key presence
* @param p a Pike string to use as the lookup key
* @return an svalue representing the looked up entry's value or NULL of no such
* item was found.
* @see low_mapping_lookup
* @see simple_mapping_string_lookup
*/
PMOD_EXPORT struct svalue *low_mapping_string_lookup(struct mapping *m,
struct pike_string *p);
/** A shortcut function for inserting an entry into a mapping for cases
* where the key is a Pike string.
*
* @param m mapping to insert the new entry into
* @param p a Pike string to be used as the new entry key
* @param val an svalue representing the new entry's value
* @see mapping_insert
* @see low_mapping_insert
* @see mapping_string_insert_string
*/
PMOD_EXPORT void mapping_string_insert(struct mapping *m,
struct pike_string *p,
const struct svalue *val);
/** A shortcut function for inserting an entry into a mapping for cases
* where both the key and the value are Pike strings.
*
* @param m mapping to insert the new entry into
* @param p a Pike string to be used as the new entry key
* @param val a Pike string to be used as the new entry's value
* @see mapping_string_insert
* @see low_mapping_insert
* @see mapping_string_insert
*/
PMOD_EXPORT void mapping_string_insert_string(struct mapping *m,
struct pike_string *p,
struct pike_string *val);
/** A shortcut function to look up an entry in a mapping using a C string
* as the key. The function converts the C string into a Pike string and
* then calls @ref low_mapping_string_lookup to do the work. If your code
* looks up an item in mappings very often and you are using a constant C
* string for that, it will be more beneficial to allocate a Pike string
* yourself in the initialization section of your module and then use it
* with @ref low_mapping_string_lookup instead of calling simple_mapping_string_lookup.
* The advantage is not very big since this function allocates the Pike
* string only once, the first time it is used (or when it gets garbage-
* collected), but it is a small optimization nevertheless.
*
* @param m mapping to look up the entry in
* @param p string to be used as the lookup key
* @return an svalue representing the looked up entry's value or NULL if no
* such entry was found
* @see low_mapping_string_lookup
* @see simple_mapping_string_lookup
* @see low_mapping_lookup
*/
PMOD_EXPORT struct svalue *simple_mapping_string_lookup(struct mapping *m,
const char *p);
/** First look up @b key1 in the passed mapping and check whether the returned
* value, if any, is a mapping itself. If it is a mapping, look it up using
* @b key2 and return the retrieved entry's value, if any. If key1 lookup in
* the @b m mapping doesn't return a mapping and @b create is not 0 allocate
* a new mapping, insert it in @b m and use for lookup with @b key2. If @b key2
* lookup doesn't yield a value in neither of the above cases and @b create is not
* 0, allocate a new svalue representing an undefined number, insert it into the
* mapping retrieved (or allocated) during the @b key1 lookup and then perform a
* @b key2 lookup on the mapping retrieved (or allocated) during the @b key1 and
* return the result.
*
* @param m primary mapping to perform a @b key1 lookup on
* @param key1 key used to lookup an entry in the primary mapping @b m
* @param key2 key used to lookup an entry in the secondary mapping retrieved
* (or allocated) as the result of the @b key1 lookup
* @param create 0 to not insert an entry into neither mapping if it cannot be
* found in the mapping, not 0 to insert such entry.
* @return the result of the @b key2 lookup or 0 if either @b key1 or @b key2
* returned no value and @b create was 0
*
* @see low_mapping_lookup
*/
PMOD_EXPORT struct svalue *mapping_mapping_lookup(struct mapping *m,
const struct svalue *key1,
const struct svalue *key2,
int create);
/** A shortcut for @ref mapping_mapping_lookup when both keys are Pike strings.
* For the (complicated) description of what the function does, see the documentation
* of the @ref mapping_mapping_lookup.
*
* @param m primary mapping to perform a @b key1 lookup on
* @param key1 Pike string used to lookup an entry in the primary mapping @b m
* @param key2 Pike string used to lookup an entry in the secondary mapping retrieved
* (or allocated) as the result of the @b key1 lookup
* @param create 0 to not insert an entry into neither mapping if it cannot be
* found in the mapping, not 0 to insert such entry.
* @return the result of the @b key2 lookup or 0 if either @b key1 or @b key2
* returned no value and @b create was 0
*
* @see low_mapping_lookup
* @see mapping_mapping_lookup
*/
PMOD_EXPORT struct svalue *mapping_mapping_string_lookup(struct mapping *m,
struct pike_string *key1,
struct pike_string *key2,
int create);
PMOD_EXPORT void mapping_index_no_free(struct svalue *dest,
struct mapping *m,
const struct svalue *key);
PMOD_EXPORT struct array *mapping_indices(struct mapping *m);
PMOD_EXPORT struct array *mapping_values(struct mapping *m);
PMOD_EXPORT struct array *mapping_to_array(struct mapping *m);
PMOD_EXPORT void mapping_replace(struct mapping *m,struct svalue *from, struct svalue *to);
PMOD_EXPORT struct mapping *mkmapping(struct array *ind, struct array *val);
PMOD_EXPORT struct mapping *copy_mapping(struct mapping *m);
PMOD_EXPORT struct mapping *copy_mapping(struct mapping *m);
PMOD_EXPORT struct mapping *merge_mappings(struct mapping *a, struct mapping *b, INT32 op);
PMOD_EXPORT struct mapping *merge_mapping_array_ordered(struct mapping *a,
struct array *b, INT32 op);
PMOD_EXPORT struct mapping *merge_mapping_array_unordered(struct mapping *a,
struct array *b, INT32 op);
PMOD_EXPORT struct mapping *add_mappings(struct svalue *argp, INT32 args);
PMOD_EXPORT int mapping_equal_p(struct mapping *a, struct mapping *b, struct processing *p);
void describe_mapping(struct mapping *m,struct processing *p,int indent);
node *make_node_from_mapping(struct mapping *m);
PMOD_EXPORT void f_aggregate_mapping(INT32 args);
PMOD_EXPORT struct mapping *copy_mapping_recursively(struct mapping *m,
struct mapping *p);
PMOD_EXPORT void mapping_search_no_free(struct svalue *to,
struct mapping *m,
const struct svalue *look_for,
const struct svalue *key );
PMOD_EXPORT INT32 mapping_generation(struct mapping *m);
#ifdef PIKE_DEBUG
void check_mapping(const struct mapping *m);
void check_all_mappings(void);
#endif
PMOD_EXPORT void visit_mapping (struct mapping *m, int action, void *extra);
void gc_mark_mapping_as_referenced(struct mapping *m);
void real_gc_cycle_check_mapping(struct mapping *m, int weak);
unsigned gc_touch_all_mappings(void);
void gc_check_all_mappings(void);
void gc_mark_all_mappings(void);
void gc_cycle_check_all_mappings(void);
void gc_zap_ext_weak_refs_in_mappings(void);
size_t gc_free_all_unreferenced_mappings(void);
void simple_describe_mapping(struct mapping *m);
void debug_dump_mapping(struct mapping *m);
int mapping_is_constant(struct mapping *m,
struct processing *p);
void free_all_mapping_blocks(void);
void o_append_mapping( INT32 args );
/* Prototypes end here */
#define allocate_mapping(X) dmalloc_touch(struct mapping *,debug_allocate_mapping(X))
#define visit_mapping_ref(M, REF_TYPE, EXTRA) \
visit_ref (pass_mapping (M), (REF_TYPE), \
(visit_thing_fn *) &visit_mapping, (EXTRA))
#define gc_cycle_check_mapping(X, WEAK) \
gc_cycle_enqueue((gc_cycle_check_cb *) real_gc_cycle_check_mapping, (X), (WEAK))
#endif /* MAPPING_H */
|