libamxc  1.10.3
C Generic Data Containers
variant_int32.c
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54 
55 #include <sys/resource.h>
56 
57 #include <stdlib.h>
58 #include <stdio.h>
59 #include <fcntl.h>
60 
61 #include <amxc_variant_priv.h>
62 
63 static int variant_int32_to_string(amxc_var_t* const dest,
64  const amxc_var_t* const src) {
65  int retval = -1;
66  int check = 0;
67  int size_needed = snprintf(NULL, 0, "%" PRId32, src->data.i32);
68  dest->data.s = (char*) calloc(size_needed + 1, sizeof(char));
69 
70  when_null(dest->data.s, exit);
71 
72  check = snprintf(dest->data.s, size_needed + 1, "%" PRId32, src->data.i32);
73  if(check < 0) {
74  free(dest->data.s);
75  dest->data.s = NULL;
76  goto exit;
77  }
78 
79  retval = 0;
80 
81 exit:
82  return retval;
83 }
84 
85 static int variant_int32_to_int8(amxc_var_t* const dest,
86  const amxc_var_t* const src) {
87  int retval = -1;
88 
89  /* verify overflow or underflow */
90  when_true(src->data.i32 > INT8_MAX || src->data.i32 < INT8_MIN, exit);
91 
92  dest->data.i8 = (int8_t) src->data.i32;
93  retval = 0;
94 
95 exit:
96  return retval;
97 }
98 
99 static int variant_int32_to_int16(amxc_var_t* const dest,
100  const amxc_var_t* const src) {
101  int retval = -1;
102 
103  /* verify overflow or underflow */
104  when_true(src->data.i32 > INT16_MAX || src->data.i32 < INT16_MIN, exit);
105 
106  dest->data.i16 = (int16_t) src->data.i32;
107  retval = 0;
108 
109 exit:
110  return retval;
111 }
112 
113 static int variant_int32_to_int64(amxc_var_t* const dest,
114  const amxc_var_t* const src) {
115  int retval = -1;
116 
117  dest->data.i64 = (int64_t) src->data.i32;
118  retval = 0;
119 
120  return retval;
121 }
122 
123 static int variant_int32_to_uint8(amxc_var_t* const dest,
124  const amxc_var_t* const src) {
125  int retval = -1;
126 
127  /* verify overflow or underflow */
128  when_true(src->data.i32 == INT32_MIN || llabs(src->data.i32) > UINT8_MAX, exit);
129 
130  dest->data.ui8 = (uint8_t) llabs(src->data.i32);
131  retval = 0;
132 
133 exit:
134  return retval;
135 }
136 
137 static int variant_int32_to_uint16(amxc_var_t* const dest,
138  const amxc_var_t* const src) {
139  int retval = -1;
140 
141  /* verify overflow or underflow */
142  when_true(src->data.i32 == INT32_MIN || llabs(src->data.i32) > UINT16_MAX, exit);
143 
144  dest->data.ui16 = (uint16_t) llabs(src->data.i32);
145  retval = 0;
146 
147 exit:
148  return retval;
149 }
150 
151 static int variant_int32_to_uint32(amxc_var_t* const dest,
152  const amxc_var_t* const src) {
153  int retval = -1;
154 
155  /* verify overflow or underflow */
156  dest->data.ui32 = (uint32_t) llabs(src->data.i32);
157  retval = 0;
158 
159  return retval;
160 }
161 
162 static int variant_int32_to_uint64(amxc_var_t* const dest,
163  const amxc_var_t* const src) {
164  dest->data.ui64 = llabs(src->data.i32);
165  return 0;
166 }
167 
168 
169 static int variant_int32_to_float(amxc_var_t* const dest,
170  const amxc_var_t* const src) {
171  dest->data.f = (float) src->data.i32;
172  return 0;
173 }
174 
175 static int variant_int32_to_double(amxc_var_t* const dest,
176  const amxc_var_t* const src) {
177  dest->data.d = (double) src->data.i32;
178  return 0;
179 }
180 
181 static int variant_int32_to_bool(amxc_var_t* const dest,
182  const amxc_var_t* const src) {
183  dest->data.b = src->data.i32 == 0 ? false : true;
184  return 0;
185 }
186 
187 static int variant_int32_to_fd(amxc_var_t* const dest,
188  const amxc_var_t* const src) {
189  int retval = -1;
190  struct rlimit nofile = { 0, 0 };
191  when_failed(getrlimit(RLIMIT_NOFILE, &nofile), exit);
192 
193  when_true(src->data.i32 < 0 || (rlim_t) llabs(src->data.i32) > nofile.rlim_max, exit);
194  when_failed(fcntl((int) llabs(src->data.i32), F_GETFD), exit);
195 
196  dest->data.fd = (int) llabs(src->data.i32);
197  retval = 0;
198 
199 exit:
200  return retval;
201 }
202 
203 static int variant_int32_to_ts(amxc_var_t* const dest,
204  const amxc_var_t* const src) {
205  int retval = -1;
206  dest->data.ts.sec = src->data.i32;
207  if(amxc_ts_is_valid(&dest->data.ts)) {
208  retval = 0;
209  } else {
210  dest->data.ts.sec = 0;
211  }
212 
213  return retval;
214 }
215 
216 static int variant_int32_convert_to(amxc_var_t* const dest,
217  const amxc_var_t* const src) {
218  int retval = -1;
219 
220  amxc_var_convert_fn_t convfn[AMXC_VAR_ID_CUSTOM_BASE] = {
221  amxc_var_default_convert_to_null,
222  variant_int32_to_string,
223  variant_int32_to_int8,
224  variant_int32_to_int16,
225  amxc_var_default_copy,
226  variant_int32_to_int64,
227  variant_int32_to_uint8,
228  variant_int32_to_uint16,
229  variant_int32_to_uint32,
230  variant_int32_to_uint64,
231  variant_int32_to_float,
232  variant_int32_to_double,
233  variant_int32_to_bool,
234  amxc_var_default_convert_to_list,
235  amxc_var_default_convert_to_htable,
236  variant_int32_to_fd,
237  variant_int32_to_ts,
238  variant_int32_to_string,
239  variant_int32_to_string,
240  amxc_var_default_copy,
241  };
242 
243  if(dest->type_id >= AMXC_VAR_ID_CUSTOM_BASE) {
244  goto exit;
245  }
246 
247  if(convfn[dest->type_id] != NULL) {
248  if(dest->type_id == AMXC_VAR_ID_ANY) {
249  amxc_var_set_type(dest, AMXC_VAR_ID_INT32);
250  }
251  retval = convfn[dest->type_id](dest, src);
252  }
253 
254 exit:
255  return retval;
256 }
257 
258 static int variant_int32_compare(const amxc_var_t* const lval,
259  const amxc_var_t* const rval,
260  int* const result) {
261  if(lval->data.i32 == rval->data.i32) {
262  *result = 0;
263  } else if(lval->data.i32 > rval->data.i32) {
264  *result = 1;
265  } else {
266  *result = -1;
267  }
268  return 0;
269 }
270 
271 static amxc_var_type_t amxc_variant_int32 = {
272  .init = NULL,
273  .del = NULL,
274  .copy = amxc_var_default_copy,
275  .move = amxc_var_default_move,
276  .convert_from = NULL,
277  .convert_to = variant_int32_convert_to,
278  .compare = variant_int32_compare,
279  .get_key = NULL,
280  .set_key = NULL,
281  .get_index = NULL,
282  .set_index = NULL,
283  .type_id = 0,
284  .hit = { .ait = NULL, .key = NULL, .next = NULL },
285  .name = AMXC_VAR_NAME_INT32
286 };
287 
288 CONSTRUCTOR static void amxc_var_int32_init(void) {
289  amxc_var_add_type(&amxc_variant_int32, AMXC_VAR_ID_INT32);
290 }
291 
292 DESTRUCTOR static void amxc_var_int32_cleanup(void) {
293  amxc_var_remove_type(&amxc_variant_int32);
294 }
295 
296 int amxc_var_set_int32_t(amxc_var_t* var, int32_t val) {
297  int retval = -1;
298  when_null(var, exit);
299 
300  when_failed(amxc_var_set_type(var, AMXC_VAR_ID_INT32), exit);
301 
302  var->data.i32 = val;
303  retval = 0;
304 
305 exit:
306  return retval;
307 }
308 
309 int32_t amxc_var_get_int32_t(const amxc_var_t* var) {
310  int32_t retval = 0;
311  amxc_var_t variant;
312  when_null(var, exit);
313 
314  amxc_var_init(&variant);
315  when_failed(amxc_var_convert(&variant, var, AMXC_VAR_ID_INT32), exit);
316  retval = variant.data.i32;
317  amxc_var_clean(&variant);
318 
319 exit:
320  return retval;
321 }
322 
323 int32_t amxc_var_get_const_int32_t(const amxc_var_t* const var) {
324  int32_t retval = 0;
325  when_null(var, exit);
326  when_true(var->type_id != AMXC_VAR_ID_INT32, exit);
327 
328  retval = var->data.i32;
329 
330 exit:
331  return retval;
332 }
333 
334 amxc_var_t* amxc_var_add_new_int32_t(amxc_var_t* const var, int32_t val) {
335  amxc_var_t* subvar = NULL;
336 
337  when_null(var, exit);
338  subvar = amxc_var_add_new(var);
339  when_null(subvar, exit);
340 
341  if(amxc_var_set_int32_t(subvar, val) != 0) {
342  amxc_var_delete(&subvar);
343  }
344 
345 exit:
346  return subvar;
347 }
348 
349 amxc_var_t* amxc_var_add_new_key_int32_t(amxc_var_t* const var, const char* key, int32_t val) {
350  amxc_var_t* subvar = NULL;
351 
352  when_null(var, exit);
353  subvar = amxc_var_add_new_key(var, key);
354  when_null(subvar, exit);
355 
356  if(amxc_var_set_int32_t(subvar, val) != 0) {
357  amxc_var_delete(&subvar);
358  }
359 
360 exit:
361  return subvar;
362 }
when_failed
#define when_failed(x, l)
Definition: amxc_macros.h:142
when_true
#define when_true(x, l)
Definition: amxc_macros.h:134
CONSTRUCTOR
#define CONSTRUCTOR
Definition: amxc_macros.h:86
when_null
#define when_null(x, l)
Definition: amxc_macros.h:126
DESTRUCTOR
#define DESTRUCTOR
Definition: amxc_macros.h:90
amxc_variant_priv.h
amxc_var_default_convert_to_null
int PRIVATE amxc_var_default_convert_to_null(amxc_var_t *const dest, const amxc_var_t *const src)
amxc_var_default_move
int PRIVATE amxc_var_default_move(amxc_var_t *const dest, amxc_var_t *const src)
Definition: amxc_variant.c:142
amxc_var_add_type
uint32_t PRIVATE amxc_var_add_type(amxc_var_type_t *const type, const uint32_t index)
Definition: amxc_variant_type.c:119
amxc_var_default_convert_to_htable
int PRIVATE amxc_var_default_convert_to_htable(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: amxc_variant.c:174
amxc_var_default_copy
int PRIVATE amxc_var_default_copy(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: amxc_variant.c:136
amxc_var_remove_type
int PRIVATE amxc_var_remove_type(amxc_var_type_t *const type)
Definition: amxc_variant_type.c:157
amxc_var_default_convert_to_list
int PRIVATE amxc_var_default_convert_to_list(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: amxc_variant.c:155
amxc_ts_is_valid
bool amxc_ts_is_valid(const amxc_ts_t *tsp)
Checks if a timestamp is valid.
Definition: amxc_timestamp.c:527
amxc_var_get_const_int32_t
int32_t amxc_var_get_const_int32_t(const amxc_var_t *const var)
Conversion helper function.
Definition: variant_int32.c:323
amxc_var_add_new_int32_t
amxc_var_t * amxc_var_add_new_int32_t(amxc_var_t *const var, int32_t val)
Conversion helper function.
Definition: variant_int32.c:334
amxc_var_get_int32_t
int32_t amxc_var_get_int32_t(const amxc_var_t *var)
Conversion helper function.
Definition: variant_int32.c:309
amxc_var_set_int32_t
int amxc_var_set_int32_t(amxc_var_t *var, int32_t val)
Setter helper function.
Definition: variant_int32.c:296
amxc_var_add_new_key_int32_t
amxc_var_t * amxc_var_add_new_key_int32_t(amxc_var_t *const var, const char *key, int32_t val)
Conversion helper function.
Definition: variant_int32.c:349
AMXC_VAR_ID_CUSTOM_BASE
#define AMXC_VAR_ID_CUSTOM_BASE
Base variant id for custom variants.
Definition: amxc_variant.h:257
AMXC_VAR_NAME_INT32
#define AMXC_VAR_NAME_INT32
Provides a name for variant id AMXC_VAR_ID_INT32.
Definition: amxc_variant.h:294
AMXC_VAR_ID_INT32
#define AMXC_VAR_ID_INT32
Signed 32 bit integer variant id.
Definition: amxc_variant.h:152
AMXC_VAR_ID_ANY
#define AMXC_VAR_ID_ANY
Special variant id, typically used in cast or conversion functions.
Definition: amxc_variant.h:247
amxc_var_convert_fn_t
int(* amxc_var_convert_fn_t)(amxc_var_t *const dest, const amxc_var_t *const src)
Variant type callback function prototype for dynamically converting one type to another.
Definition: amxc_variant_type.h:118
amxc_var_set_type
int amxc_var_set_type(amxc_var_t *const var, const uint32_t type)
Change the variant data type.
Definition: amxc_variant.c:261
amxc_var_init
int amxc_var_init(amxc_var_t *const var)
Initializes a variant.
Definition: amxc_variant.c:223
amxc_var_add_new
amxc_var_t * amxc_var_add_new(amxc_var_t *const var)
Adds a new variant to a composite variant.
Definition: amxc_variant.c:551
amxc_var_clean
void amxc_var_clean(amxc_var_t *const var)
Clean-up and reset variant.
Definition: amxc_variant.c:237
amxc_var_delete
void amxc_var_delete(amxc_var_t **var)
Frees the previously allocated variant.
Definition: amxc_variant.c:207
amxc_var_add_new_key
amxc_var_t * amxc_var_add_new_key(amxc_var_t *const var, const char *key)
Adds a new variant with a key to a composite variant.
Definition: amxc_variant.c:526
amxc_var_convert
int amxc_var_convert(amxc_var_t *const dest, const amxc_var_t *src, const uint32_t type_id)
Converts one variant (source) to another variant(destination) using the specified variant type id.
Definition: amxc_variant.c:333
_amxc_var_type
A variant type structure.
Definition: amxc_variant_type.h:211
_amxc_var_type::init
amxc_var_new_fn_t init
Definition: amxc_variant_type.h:212
_amxc_var
The variant struct definition.
Definition: amxc_variant.h:861
_amxc_var::data
void * data
Definition: amxc_variant.h:883
_amxc_var::type_id
uint32_t type_id
Definition: amxc_variant.h:864
var
static amxc_var_t * var
Definition: test_issue_58.c:77
variant_int32_to_bool
static int variant_int32_to_bool(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:181
variant_int32_to_uint32
static int variant_int32_to_uint32(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:151
amxc_variant_int32
static amxc_var_type_t amxc_variant_int32
Definition: variant_int32.c:271
variant_int32_to_fd
static int variant_int32_to_fd(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:187
variant_int32_convert_to
static int variant_int32_convert_to(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:216
amxc_var_int32_init
static CONSTRUCTOR void amxc_var_int32_init(void)
Definition: variant_int32.c:288
variant_int32_to_int16
static int variant_int32_to_int16(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:99
variant_int32_to_double
static int variant_int32_to_double(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:175
amxc_var_int32_cleanup
static DESTRUCTOR void amxc_var_int32_cleanup(void)
Definition: variant_int32.c:292
variant_int32_compare
static int variant_int32_compare(const amxc_var_t *const lval, const amxc_var_t *const rval, int *const result)
Definition: variant_int32.c:258
variant_int32_to_uint64
static int variant_int32_to_uint64(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:162
variant_int32_to_uint16
static int variant_int32_to_uint16(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:137
variant_int32_to_int64
static int variant_int32_to_int64(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:113
variant_int32_to_uint8
static int variant_int32_to_uint8(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:123
variant_int32_to_string
static int variant_int32_to_string(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:63
variant_int32_to_int8
static int variant_int32_to_int8(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:85
variant_int32_to_float
static int variant_int32_to_float(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:169
variant_int32_to_ts
static int variant_int32_to_ts(amxc_var_t *const dest, const amxc_var_t *const src)
Definition: variant_int32.c:203