snac2/xs.h

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/* copyright (c) 2022 - 2024 grunfink et al. / MIT license */
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#ifndef _XS_H
#define _XS_H
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include <unistd.h>
#include <stdarg.h>
#include <signal.h>
#include <errno.h>
typedef enum {
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XSTYPE_STRING = 0x02, /* C string (\0 delimited) (NOT STORED) */
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XSTYPE_NUMBER = 0x17, /* double in spirit, stored as a C string (\0 delimited) */
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XSTYPE_NULL = 0x18, /* Special NULL value */
XSTYPE_TRUE = 0x06, /* Boolean */
XSTYPE_FALSE = 0x15, /* Boolean */
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XSTYPE_LIST = 0x1d, /* Sequence of LITEMs up to EOM (with size) */
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XSTYPE_LITEM = 0x1f, /* Element of a list (any type) */
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XSTYPE_DICT = 0x1c, /* Sequence of KEYVALs up to EOM (with size) */
XSTYPE_KEYVAL = 0x1e, /* key + value (STRING key + any type) */
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XSTYPE_EOM = 0x19, /* End of Multiple (LIST or DICT) */
XSTYPE_DATA = 0x10 /* A block of anonymous data */
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} xstype;
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/* types */
typedef char xs_val;
typedef char xs_str;
typedef char xs_list;
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typedef char xs_keyval;
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typedef char xs_dict;
typedef char xs_number;
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typedef char xs_data;
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/* size in bytes of the type size */
#define _XS_TYPE_SIZE 4
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/* auto-destroyable strings */
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#define xs __attribute__ ((__cleanup__ (_xs_destroy))) xs_val
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/* not really all, just very much */
#define XS_ALL 0xfffffff
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#ifndef xs_countof
#define xs_countof(a) (sizeof((a)) / sizeof((*a)))
#endif
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void *xs_free(void *ptr);
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void *_xs_realloc(void *ptr, size_t size, const char *file, int line, const char *func);
#define xs_realloc(ptr, size) _xs_realloc(ptr, size, __FILE__, __LINE__, __func__)
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int _xs_blk_size(int sz);
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void _xs_destroy(char **var);
#define xs_debug() raise(SIGTRAP)
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xstype xs_type(const xs_val *data);
int xs_size(const xs_val *data);
int xs_is_null(const xs_val *data);
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int xs_cmp(const xs_val *v1, const xs_val *v2);
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xs_val *xs_dup(const xs_val *data);
xs_val *xs_expand(xs_val *data, int offset, int size);
xs_val *xs_collapse(xs_val *data, int offset, int size);
xs_val *xs_insert_m(xs_val *data, int offset, const char *mem, int size);
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#define xs_insert(data, offset, data2) xs_insert_m(data, offset, data2, xs_size(data2))
#define xs_append_m(data, mem, size) xs_insert_m(data, xs_size(data) - 1, mem, size)
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xs_val *xs_stock(int type);
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xs_str *xs_str_new(const char *str);
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xs_str *xs_str_new_sz(const char *mem, int sz);
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xs_str *xs_str_wrap_i(const char *prefix, xs_str *str, const char *suffix);
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#define xs_str_prepend_i(str, prefix) xs_str_wrap_i(prefix, str, NULL)
xs_str *_xs_str_cat(xs_str *str, const char *strs[]);
#define xs_str_cat(str, ...) _xs_str_cat(str, (const char *[]){ __VA_ARGS__, NULL })
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xs_str *xs_replace_in(xs_str *str, const char *sfrom, const char *sto, int times);
#define xs_replace_i(str, sfrom, sto) xs_replace_in(str, sfrom, sto, XS_ALL)
#define xs_replace(str, sfrom, sto) xs_replace_in(xs_dup(str), sfrom, sto, XS_ALL)
#define xs_replace_n(str, sfrom, sto, times) xs_replace_in(xs_dup(str), sfrom, sto, times)
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xs_str *xs_fmt(const char *fmt, ...);
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int xs_str_in(const char *haystack, const char *needle);
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int xs_starts_and_ends(const char *prefix, const char *str, const char *suffix);
#define xs_startswith(str, prefix) xs_starts_and_ends(prefix, str, NULL)
#define xs_endswith(str, suffix) xs_starts_and_ends(NULL, str, suffix)
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xs_str *xs_crop_i(xs_str *str, int start, int end);
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xs_str *xs_lstrip_chars_i(xs_str *str, const char *chars);
xs_str *xs_rstrip_chars_i(xs_str *str, const char *chars);
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xs_str *xs_strip_chars_i(xs_str *str, const char *chars);
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#define xs_strip_i(str) xs_strip_chars_i(str, " \r\n\t\v\f")
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xs_str *xs_tolower_i(xs_str *str);
xs_list *xs_list_new(void);
xs_list *xs_list_append_m(xs_list *list, const char *mem, int dsz);
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xs_list *_xs_list_append(xs_list *list, const xs_val *vals[]);
#define xs_list_append(list, ...) _xs_list_append(list, (const xs_val *[]){ __VA_ARGS__, NULL })
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int xs_list_iter(xs_list **list, const xs_val **value);
int xs_list_next(const xs_list *list, const xs_val **value, int *ctxt);
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int xs_list_len(const xs_list *list);
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const xs_val *xs_list_get(const xs_list *list, int num);
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xs_list *xs_list_del(xs_list *list, int num);
xs_list *xs_list_insert(xs_list *list, int num, const xs_val *data);
xs_list *xs_list_set(xs_list *list, int num, const xs_val *data);
xs_list *xs_list_dequeue(xs_list *list, xs_val **data, int last);
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#define xs_list_pop(list, data) xs_list_dequeue(list, data, 1)
#define xs_list_shift(list, data) xs_list_dequeue(list, data, 0)
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int xs_list_in(const xs_list *list, const xs_val *val);
xs_str *xs_join(const xs_list *list, const char *sep);
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xs_list *xs_split_n(const char *str, const char *sep, int times);
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#define xs_split(str, sep) xs_split_n(str, sep, XS_ALL)
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xs_list *xs_list_cat(xs_list *l1, const xs_list *l2);
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int xs_keyval_size(const xs_str *key, const xs_val *value);
xs_str *xs_keyval_key(const xs_keyval *keyval);
xs_val *xs_keyval_value(const xs_keyval *keyval);
xs_keyval *xs_keyval_make(xs_keyval *keyval, const xs_str *key, const xs_val *value);
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xs_dict *xs_dict_new(void);
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xs_dict *xs_dict_append(xs_dict *dict, const xs_str *key, const xs_val *value);
xs_dict *xs_dict_prepend(xs_dict *dict, const xs_str *key, const xs_val *value);
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int xs_dict_next(const xs_dict *dict, const xs_str **key, const xs_val **value, int *ctxt);
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const xs_val *xs_dict_get_def(const xs_dict *dict, const xs_str *key, const xs_val *def);
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#define xs_dict_get(dict, key) xs_dict_get_def(dict, key, NULL)
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xs_dict *xs_dict_del(xs_dict *dict, const xs_str *key);
xs_dict *xs_dict_set(xs_dict *dict, const xs_str *key, const xs_val *data);
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xs_dict *xs_dict_gc(xs_dict *dict);
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xs_val *xs_val_new(xstype t);
xs_number *xs_number_new(double f);
double xs_number_get(const xs_number *v);
const char *xs_number_str(const xs_number *v);
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xs_data *xs_data_new(const void *data, int size);
int xs_data_size(const xs_data *value);
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void xs_data_get(void *data, const xs_data *value);
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void *xs_memmem(const char *haystack, int h_size, const char *needle, int n_size);
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unsigned int xs_hash_func(const char *data, int size);
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#ifdef XS_ASSERT
#include <assert.h>
#define XS_ASSERT_TYPE(v, t) assert(xs_type(v) == t)
#define XS_ASSERT_TYPE_NULL(v, t) assert(v == NULL || xs_type(v) == t)
#else
#define XS_ASSERT_TYPE(v, t) (void)(0)
#define XS_ASSERT_TYPE_NULL(v, t) (void)(0)
#endif
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#define xs_return(v) xs_val *__r = v; v = NULL; return __r
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#ifdef XS_IMPLEMENTATION
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void *_xs_realloc(void *ptr, size_t size, const char *file, int line, const char *func)
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{
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xs_val *ndata = realloc(ptr, size);
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if (ndata == NULL) {
fprintf(stderr, "**OUT OF MEMORY**\n");
abort();
}
#ifdef XS_DEBUG
if (ndata != ptr) {
int n;
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FILE *f = fopen("xs_memory.out", "a");
if (ptr != NULL)
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fprintf(f, "%p r\n", ptr);
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fprintf(f, "%p a %ld %s:%d: %s", ndata, size, file, line, func);
if (ptr != NULL) {
fprintf(f, " [");
for (n = 0; n < 32 && ndata[n]; n++) {
if (ndata[n] >= 32 && ndata[n] <= 127)
fprintf(f, "%c", ndata[n]);
else
fprintf(f, "\\%02x", (unsigned char)ndata[n]);
}
fprintf(f, "]");
}
fprintf(f, "\n");
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fclose(f);
}
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#else
(void)file;
(void)line;
(void)func;
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#endif
return ndata;
}
void *xs_free(void *ptr)
{
#ifdef XS_DEBUG
if (ptr != NULL) {
FILE *f = fopen("xs_memory.out", "a");
fprintf(f, "%p b\n", ptr);
fclose(f);
}
#endif
free(ptr);
return NULL;
}
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void _xs_destroy(char **var)
{
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/*
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if (_xs_debug)
printf("_xs_destroy %p\n", var);
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*/
xs_free(*var);
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}
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int _xs_blk_size(int sz)
/* calculates the block size */
{
int blk_size = 4096;
if (sz < 256)
blk_size = 32;
else
if (sz < 4096)
blk_size = 256;
return ((((sz) + blk_size) / blk_size) * blk_size);
}
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xstype xs_type(const xs_val *data)
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/* return the type of data */
{
xstype t;
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if (data == NULL)
t = XSTYPE_NULL;
else
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switch (data[0]) {
case XSTYPE_NULL:
case XSTYPE_TRUE:
case XSTYPE_FALSE:
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case XSTYPE_LIST:
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case XSTYPE_LITEM:
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case XSTYPE_DICT:
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case XSTYPE_KEYVAL:
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case XSTYPE_NUMBER:
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case XSTYPE_EOM:
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case XSTYPE_DATA:
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t = data[0];
break;
default:
t = XSTYPE_STRING;
break;
}
return t;
}
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void _xs_put_size(xs_val *ptr, int i)
/* must match _XS_TYPE_SIZE */
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{
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memcpy(ptr + 1, &i, sizeof(i));
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}
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int _xs_get_size(const xs_val *ptr)
/* must match _XS_TYPE_SIZE */
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{
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int i;
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memcpy(&i, ptr + 1, sizeof(i));
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return i;
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}
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int xs_size(const xs_val *data)
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/* returns the size of data in bytes */
{
int len = 0;
const char *p;
if (data == NULL)
return 0;
switch (xs_type(data)) {
case XSTYPE_STRING:
len = strlen(data) + 1;
break;
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case XSTYPE_LIST:
case XSTYPE_DICT:
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case XSTYPE_DATA:
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len = _xs_get_size(data);
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break;
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case XSTYPE_KEYVAL:
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/* calculate the size of the key and the value */
p = data + 1;
p += xs_size(p);
p += xs_size(p);
len = p - data;
break;
case XSTYPE_LITEM:
/* it's the size of the item + 1 */
p = data + 1;
p += xs_size(p);
len = p - data;
break;
case XSTYPE_NUMBER:
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len = 1 + xs_size(data + 1);
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break;
default:
len = 1;
}
return len;
}
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int xs_is_null(const xs_val *data)
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/* checks for null */
{
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return (xs_type(data) == XSTYPE_NULL);
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}
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int xs_cmp(const xs_val *v1, const xs_val *v2)
/* compares two values */
{
int s1 = xs_size(v1);
int s2 = xs_size(v2);
int d = s1 - s2;
return d == 0 ? memcmp(v1, v2, s1) : d;
}
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xs_val *xs_dup(const xs_val *data)
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/* creates a duplicate of data */
{
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xs_val *s = NULL;
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if (data) {
int sz = xs_size(data);
s = xs_realloc(NULL, _xs_blk_size(sz));
memcpy(s, data, sz);
}
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return s;
}
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xs_val *xs_expand(xs_val *data, int offset, int size)
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/* opens a hole in data */
{
int sz = xs_size(data);
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int n;
sz += size;
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/* open room */
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data = xs_realloc(data, _xs_blk_size(sz));
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/* move up the rest of the data */
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for (n = sz - 1; n >= offset + size; n--)
data[n] = data[n - size];
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if (xs_type(data) == XSTYPE_LIST ||
xs_type(data) == XSTYPE_DICT ||
xs_type(data) == XSTYPE_DATA)
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_xs_put_size(data, sz);
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return data;
}
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xs_val *xs_collapse(xs_val *data, int offset, int size)
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/* shrinks data */
{
int sz = xs_size(data);
int n;
/* don't try to delete beyond the limit */
if (offset + size > sz)
size = sz - offset;
/* shrink total size */
sz -= size;
for (n = offset; n < sz; n++)
data[n] = data[n + size];
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if (xs_type(data) == XSTYPE_LIST ||
xs_type(data) == XSTYPE_DICT ||
xs_type(data) == XSTYPE_DATA)
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_xs_put_size(data, sz);
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return xs_realloc(data, _xs_blk_size(sz));
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}
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xs_val *xs_insert_m(xs_val *data, int offset, const char *mem, int size)
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/* inserts a memory block */
{
data = xs_expand(data, offset, size);
memcpy(data + offset, mem, size);
return data;
}
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xs_val *xs_stock(int type)
/* returns stock values */
{
static xs_val stock_null[] = { XSTYPE_NULL };
static xs_val stock_true[] = { XSTYPE_TRUE };
static xs_val stock_false[] = { XSTYPE_FALSE };
static xs_val stock_0[] = { XSTYPE_NUMBER, '0', '\0' };
static xs_val stock_1[] = { XSTYPE_NUMBER, '1', '\0' };
static xs_list *stock_list = NULL;
static xs_dict *stock_dict = NULL;
switch (type) {
case 0: return stock_0;
case 1: return stock_1;
case XSTYPE_NULL: return stock_null;
case XSTYPE_TRUE: return stock_true;
case XSTYPE_FALSE: return stock_false;
case XSTYPE_LIST:
if (stock_list == NULL)
stock_list = xs_list_new();
return stock_list;
case XSTYPE_DICT:
if (stock_dict == NULL)
stock_dict = xs_dict_new();
return stock_dict;
}
return NULL;
}
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/** strings **/
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xs_str *xs_str_new(const char *str)
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/* creates a new string */
{
return xs_insert(NULL, 0, str ? str : "");
}
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xs_str *xs_str_new_sz(const char *mem, int sz)
/* creates a new string from a memory block, adding an asciiz */
{
xs_str *s = xs_realloc(NULL, _xs_blk_size(sz + 1));
memcpy(s, mem, sz);
s[sz] = '\0';
return s;
}
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xs_str *xs_str_wrap_i(const char *prefix, xs_str *str, const char *suffix)
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/* wraps str with prefix and suffix */
{
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XS_ASSERT_TYPE(str, XSTYPE_STRING);
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if (prefix)
str = xs_insert_m(str, 0, prefix, strlen(prefix));
if (suffix)
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str = xs_insert_m(str, strlen(str), suffix, strlen(suffix));
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return str;
}
xs_str *_xs_str_cat(xs_str *str, const char *strs[])
/* concatenates all strings after str */
{
int o = strlen(str);
while (*strs) {
int sz = strlen(*strs);
str = xs_insert_m(str, o, *strs, sz);
o += sz;
strs++;
}
return str;
}
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xs_str *xs_replace_in(xs_str *str, const char *sfrom, const char *sto, int times)
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/* replaces inline all sfrom with sto */
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{
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XS_ASSERT_TYPE(str, XSTYPE_STRING);
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int sfsz = strlen(sfrom);
int stsz = strlen(sto);
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int diff = stsz - sfsz;
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char *ss;
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int offset = 0;
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while (times > 0 && (ss = strstr(str + offset, sfrom)) != NULL) {
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int n_offset = ss - str;
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if (diff < 0)
str = xs_collapse(str, n_offset, -diff);
else
if (diff > 0)
str = xs_expand(str, n_offset, diff);
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memcpy(str + n_offset, sto, stsz);
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offset = n_offset + stsz;
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times--;
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}
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return str;
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}
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xs_str *xs_fmt(const char *fmt, ...)
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/* formats a string with printf()-like marks */
{
int n;
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xs_str *s = NULL;
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va_list ap;
va_start(ap, fmt);
n = vsnprintf(s, 0, fmt, ap);
va_end(ap);
if (n > 0) {
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s = xs_realloc(NULL, _xs_blk_size(n + 1));
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va_start(ap, fmt);
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vsnprintf(s, n + 1, fmt, ap);
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va_end(ap);
}
return s;
}
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int xs_str_in(const char *haystack, const char *needle)
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/* finds needle in haystack and returns the offset or -1 */
{
char *s;
int r = -1;
if ((s = strstr(haystack, needle)) != NULL)
r = s - haystack;
return r;
}
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int xs_starts_and_ends(const char *prefix, const char *str, const char *suffix)
/* returns true if str starts with prefix and ends with suffix */
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{
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int sz = strlen(str);
int psz = prefix ? strlen(prefix) : 0;
int ssz = suffix ? strlen(suffix) : 0;
if (sz < psz || sz < ssz)
return 0;
if (prefix && memcmp(str, prefix, psz) != 0)
return 0;
if (suffix && memcmp(str + sz - ssz, suffix, ssz) != 0)
return 0;
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return 1;
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}
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xs_str *xs_crop_i(xs_str *str, int start, int end)
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/* crops the string to be only from start to end */
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{
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XS_ASSERT_TYPE(str, XSTYPE_STRING);
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int sz = strlen(str);
if (end <= 0)
end = sz + end;
/* crop from the top */
str[end] = '\0';
/* crop from the bottom */
str = xs_collapse(str, 0, start);
return str;
}
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xs_str *xs_lstrip_chars_i(xs_str *str, const char *chars)
/* strips all chars from the start of str */
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{
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int n;
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for (n = 0; str[n] && strchr(chars, str[n]); n++);
if (n)
str = xs_collapse(str, 0, n);
return str;
}
xs_str *xs_rstrip_chars_i(xs_str *str, const char *chars)
/* strips all chars from the end of str */
{
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int n;
for (n = strlen(str); n > 0 && strchr(chars, str[n - 1]); n--);
str[n] = '\0';
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return str;
}
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xs_str *xs_strip_chars_i(xs_str *str, const char *chars)
/* strips the string of chars from the start and the end */
{
return xs_lstrip_chars_i(xs_rstrip_chars_i(str, chars), chars);
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}
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xs_str *xs_tolower_i(xs_str *str)
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/* convert to lowercase */
{
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XS_ASSERT_TYPE(str, XSTYPE_STRING);
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int n;
for (n = 0; str[n]; n++)
str[n] = tolower(str[n]);
return str;
}
/** lists **/
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xs_list *xs_list_new(void)
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/* creates a new list */
{
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int sz = 1 + _XS_TYPE_SIZE + 1;
xs_list *l = xs_realloc(NULL, sz);
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memset(l, XSTYPE_EOM, sz);
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l[0] = XSTYPE_LIST;
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_xs_put_size(l, sz);
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return l;
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}
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xs_list *_xs_list_write_litem(xs_list *list, int offset, const char *mem, int dsz)
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/* writes a list item */
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{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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if (mem == NULL) {
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mem = xs_stock(XSTYPE_NULL);
dsz = xs_size(mem);
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}
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list = xs_expand(list, offset, dsz + 1);
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list[offset] = XSTYPE_LITEM;
memcpy(list + offset + 1, mem, dsz);
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return list;
}
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xs_list *xs_list_append_m(xs_list *list, const char *mem, int dsz)
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/* adds a memory block to the list */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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return _xs_list_write_litem(list, xs_size(list) - 1, mem, dsz);
}
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xs_list *_xs_list_append(xs_list *list, const xs_val *vals[])
/* adds several values to the list */
{
/* special case: if the first argument is NULL, just insert it */
if (*vals == NULL)
return xs_list_append_m(list, NULL, 0);
while (*vals) {
list = xs_list_append_m(list, *vals, xs_size(*vals));
vals++;
}
return list;
}
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int xs_list_iter(xs_list **list, const xs_val **value)
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/* iterates a list value */
{
int goon = 1;
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xs_val *p = *list;
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/* skip the start of the list */
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if (xs_type(p) == XSTYPE_LIST)
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p += 1 + _XS_TYPE_SIZE;
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/* an element? */
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if (xs_type(p) == XSTYPE_LITEM) {
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p++;
*value = p;
p += xs_size(*value);
}
else {
/* end of list */
goon = 0;
}
/* store back the pointer */
*list = p;
return goon;
}
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int xs_list_next(const xs_list *list, const xs_val **value, int *ctxt)
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/* iterates a list, with context */
{
if (xs_type(list) != XSTYPE_LIST)
return 0;
int goon = 1;
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const char *p = list;
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/* skip the start of the list */
if (*ctxt == 0)
*ctxt = 1 + _XS_TYPE_SIZE;
p += *ctxt;
/* an element? */
if (xs_type(p) == XSTYPE_LITEM) {
p++;
*value = p;
p += xs_size(*value);
}
else {
/* end of list */
goon = 0;
}
/* update the context */
*ctxt = p - list;
return goon;
}
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int xs_list_len(const xs_list *list)
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/* returns the number of elements in the list */
{
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XS_ASSERT_TYPE_NULL(list, XSTYPE_LIST);
int c = 0, ct = 0;
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const xs_val *v;
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while (xs_list_next(list, &v, &ct))
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c++;
return c;
}
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const xs_val *xs_list_get(const xs_list *list, int num)
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/* returns the element #num */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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if (num < 0)
num = xs_list_len(list) + num;
int c = 0, ct = 0;
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const xs_val *v;
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while (xs_list_next(list, &v, &ct)) {
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if (c == num)
return v;
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c++;
}
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return NULL;
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}
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xs_list *xs_list_del(xs_list *list, int num)
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/* deletes element #num */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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const xs_val *v;
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if ((v = xs_list_get(list, num)) != NULL)
list = xs_collapse(list, v - 1 - list, xs_size(v - 1));
return list;
}
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xs_list *xs_list_insert(xs_list *list, int num, const xs_val *data)
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/* inserts an element at #num position */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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const xs_val *v;
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int offset;
if ((v = xs_list_get(list, num)) != NULL)
offset = v - list;
else
offset = xs_size(list);
return _xs_list_write_litem(list, offset - 1, data, xs_size(data));
}
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xs_list *xs_list_set(xs_list *list, int num, const xs_val *data)
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/* sets the element at #num position */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
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list = xs_list_del(list, num);
list = xs_list_insert(list, num, data);
return list;
}
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xs_list *xs_list_dequeue(xs_list *list, xs_val **data, int last)
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/* gets a copy of the first or last element of a list, shrinking it */
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{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
int ct = 0;
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const xs_val *v = NULL;
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if (!last) {
/* get the first */
xs_list_next(list, &v, &ct);
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}
else {
/* iterate to the end */
while (xs_list_next(list, &v, &ct));
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}
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if (v != NULL) {
*data = xs_dup(v);
/* collapse from the address of the element */
list = xs_collapse(list, v - 1 - list, xs_size(v - 1));
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}
return list;
}
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int xs_list_in(const xs_list *list, const xs_val *val)
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/* returns the position of val in list or -1 */
{
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XS_ASSERT_TYPE_NULL(list, XSTYPE_LIST);
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int n = 0;
int ct = 0;
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const xs_val *v;
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int sz = xs_size(val);
while (xs_list_next(list, &v, &ct)) {
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if (sz == xs_size(v) && memcmp(val, v, sz) == 0)
return n;
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n++;
}
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return -1;
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}
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xs_str *xs_join(const xs_list *list, const char *sep)
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/* joins a list into a string */
{
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XS_ASSERT_TYPE(list, XSTYPE_LIST);
xs_str *s = NULL;
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const xs_val *v;
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int c = 0;
int ct = 0;
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int offset = 0;
int ssz = strlen(sep);
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while (xs_list_next(list, &v, &ct)) {
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/* refuse to join non-string values */
if (xs_type(v) == XSTYPE_STRING) {
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int sz;
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/* add the separator */
2023-09-23 16:46:24 +00:00
if (c != 0 && ssz) {
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s = xs_realloc(s, offset + ssz);
memcpy(s + offset, sep, ssz);
offset += ssz;
}
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/* add the element */
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if ((sz = strlen(v)) > 0) {
s = xs_realloc(s, offset + sz);
memcpy(s + offset, v, sz);
offset += sz;
}
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c++;
}
}
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/* null-terminate */
s = xs_realloc(s, _xs_blk_size(offset + 1));
s[offset] = '\0';
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return s;
}
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xs_list *xs_split_n(const char *str, const char *sep, int times)
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/* splits a string into a list upto n times */
{
int sz = strlen(sep);
char *ss;
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xs_list *list;
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list = xs_list_new();
while (times > 0 && (ss = strstr(str, sep)) != NULL) {
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/* create a new string with this slice and add it to the list */
xs *s = xs_str_new_sz(str, ss - str);
list = xs_list_append(list, s);
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/* skip past the separator */
str = ss + sz;
times--;
}
/* add the rest of the string */
list = xs_list_append(list, str);
return list;
}
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xs_list *xs_list_cat(xs_list *l1, const xs_list *l2)
/* concatenates list l2 to l1 */
{
XS_ASSERT_TYPE(l1, XSTYPE_LIST);
XS_ASSERT_TYPE(l2, XSTYPE_LIST);
/* inserts at the end of l1 the content of l2 (skipping header and footer) */
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return xs_insert_m(l1, xs_size(l1) - 1,
l2 + 1 + _XS_TYPE_SIZE, xs_size(l2) - (1 + _XS_TYPE_SIZE + 1));
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}
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/** keyvals **/
int xs_keyval_size(const xs_str *key, const xs_val *value)
/* returns the needed size for a keyval */
{
return 1 + xs_size(key) + xs_size(value);
}
xs_str *xs_keyval_key(const xs_keyval *keyval)
/* returns a pointer to the key of the keyval */
{
return (xs_str *)&keyval[1];
}
xs_val *xs_keyval_value(const xs_keyval *keyval)
/* returns a pointer to the value of the keyval */
{
return (xs_val *)&keyval[1 + xs_size(xs_keyval_key(keyval))];
}
xs_keyval *xs_keyval_make(xs_keyval *keyval, const xs_str *key, const xs_val *value)
/* builds a keyval into mem (should have enough size) */
{
keyval[0] = XSTYPE_KEYVAL;
memcpy(xs_keyval_key(keyval), key, xs_size(key));
memcpy(xs_keyval_value(keyval), value, xs_size(value));
return keyval;
}
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/** dicts **/
2024-06-12 05:55:40 +00:00
typedef struct {
int value_offset; /* offset to value (from dict start) */
int next; /* next node in sequential search */
int child[4]; /* child nodes in hashed search */
char key[]; /* C string key */
} ditem_hdr;
typedef struct {
int size; /* size of full dict (_XS_TYPE_SIZE) */
int first; /* first node for sequential search */
int root; /* root node for hashed search */
ditem_hdr ditems[]; /* the ditems */
} dict_hdr;
2023-01-28 16:49:02 +00:00
xs_dict *xs_dict_new(void)
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/* creates a new dict */
{
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/* size of dict */
int sz = 1 + sizeof(dict_hdr);
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xs_dict *d = xs_realloc(NULL, sz);
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memset(d, '\0', sz);
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d[0] = XSTYPE_DICT;
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_xs_put_size(d, sz);
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return d;
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}
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static int *_xs_dict_locate(const xs_dict *dict, const char *key)
/* locates a ditem */
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{
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unsigned int h = xs_hash_func(key, strlen(key));
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/* start from the root */
dict_hdr *dh = (dict_hdr *)(dict + 1);
int *off = &dh->root;
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while (*off) {
/* pointer to ditem */
ditem_hdr *di = (ditem_hdr *)(dict + *off);
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/* pointer to the key */
const char *d_key = di->key;
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if (strcmp(key, d_key) == 0)
break;
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off = &di->child[h >> 30];
h <<= 2;
}
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return off;
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}
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xs_dict *xs_dict_set(xs_dict *dict, const xs_str *key, const xs_val *value)
/* sets a key/value pair */
2023-02-16 08:32:42 +00:00
{
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if (value == NULL)
value = xs_stock(XSTYPE_NULL);
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if (xs_type(dict) == XSTYPE_DICT) {
int *o = _xs_dict_locate(dict, key);
int end = xs_size(dict);
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if (!*o) {
/* ditem does not exist yet: append to the end */
*o = end;
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int ksz = xs_size(key);
int vsz = xs_size(value);
int dsz = sizeof(ditem_hdr) + ksz + vsz;
2024-03-09 07:32:20 +00:00
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/* open room in the dict for the full ditem */
dict = xs_expand(dict, end, dsz);
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dict_hdr *dh = (dict_hdr *)(dict + 1);
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/* build the ditem */
ditem_hdr *di = (ditem_hdr *)(dict + end);
memset(di, '\0', dsz);
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/* set the offset to the value */
di->value_offset = end + sizeof(ditem_hdr) + ksz;
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/* copy the key */
memcpy(di->key, key, ksz);
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/* copy the value */
memcpy(dict + di->value_offset, value, vsz);
/* chain to the sequential list */
di->next = dh->first;
dh->first = end;
}
else {
/* ditem already exists */
ditem_hdr *di = (ditem_hdr *)(dict + *o);
/* get pointer to the value offset */
int *i = &di->value_offset;
/* deleted? recover offset */
if (*i < 0)
*i *= -1;
/* get old value */
xs_val *o_value = dict + *i;
/* will new value fit over the old one? */
if (xs_size(value) <= xs_size(o_value)) {
/* just overwrite */
/* (difference is leaked inside the dict) */
memcpy(o_value, value, xs_size(value));
}
else {
/* not enough room: new value will live at the end of the dict */
/* (old value is leaked inside the dict) */
*i = end;
dict = xs_insert(dict, end, value);
}
}
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}
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return dict;
}
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xs_dict *xs_dict_append(xs_dict *dict, const xs_str *key, const xs_val *value)
/* just an alias (for this implementation it's the same) */
{
return xs_dict_set(dict, key, value);
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}
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xs_dict *xs_dict_prepend(xs_dict *dict, const xs_str *key, const xs_val *value)
/* just an alias (for this implementation it's the same) */
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{
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return xs_dict_set(dict, key, value);
}
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xs_dict *xs_dict_del(xs_dict *dict, const xs_str *key)
/* deletes a key/value pair */
{
if (xs_type(dict) == XSTYPE_DICT) {
int *o = _xs_dict_locate(dict, key);
if (*o) {
/* found ditem */
ditem_hdr *di = (ditem_hdr *)(dict + *o);
/* deleted ditems have a negative value offset */
di->value_offset *= -1;
}
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}
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return dict;
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}
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const xs_val *xs_dict_get_def(const xs_dict *dict, const xs_str *key, const xs_str *def)
/* gets a value by key, or returns def */
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{
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if (xs_type(dict) == XSTYPE_DICT) {
int *o = _xs_dict_locate(dict, key);
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if (*o) {
/* found ditem */
ditem_hdr *di = (ditem_hdr *)(dict + *o);
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if (di->value_offset > 0)
return dict + di->value_offset;
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}
}
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return def;
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}
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int xs_dict_next(const xs_dict *dict, const xs_str **key, const xs_val **value, int *ctxt)
/* dict iterator, with context */
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{
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if (xs_type(dict) != XSTYPE_DICT)
return 0;
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if (*ctxt == 0) {
/* at the beginning: get the first sequential item */
const dict_hdr *dh = (dict_hdr *)(dict + 1);
*ctxt = dh->first;
}
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*value = NULL;
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while (*value == NULL && *ctxt > 0) {
const ditem_hdr *di = (ditem_hdr *)(dict + *ctxt);
/* get value */
if (di->value_offset > 0) {
*value = (xs_val *)(dict + di->value_offset);
/* get key */
*key = (xs_str *)&di->key;
}
/* get offset to next ditem */
*ctxt = di->next ? di->next : -1;
}
return *value != NULL;
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}
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xs_dict *xs_dict_gc(xs_dict *dict)
/* collects garbage (leaked values) inside a dict */
{
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xs_dict *nd = xs_dict_new();
const xs_str *k;
const xs_val *v;
int c = 0;
/* shamelessly create a new dict with the same content */
while (xs_dict_next(dict, &k, &v, &c))
nd = xs_dict_set(nd, k, v);
xs_free(dict);
return nd;
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}
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/** other values **/
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xs_val *xs_val_new(xstype t)
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/* adds a new special value */
{
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xs_val *v = xs_realloc(NULL, _xs_blk_size(1));
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v[0] = t;
return v;
}
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/** numbers */
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xs_number *xs_number_new(double f)
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/* adds a new number value */
{
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xs_number *v;
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char tmp[64];
snprintf(tmp, sizeof(tmp), "%.15lf", f);
/* strip useless zeros */
if (strchr(tmp, '.') != NULL) {
char *ptr;
for (ptr = tmp + strlen(tmp) - 1; *ptr == '0'; ptr--);
if (*ptr != '.')
ptr++;
*ptr = '\0';
}
/* alloc for the marker and the full string */
v = xs_realloc(NULL, _xs_blk_size(1 + xs_size(tmp)));
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v[0] = XSTYPE_NUMBER;
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memcpy(&v[1], tmp, xs_size(tmp));
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return v;
}
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double xs_number_get(const xs_number *v)
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/* gets the number as a double */
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{
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double f = 0.0;
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if (xs_type(v) == XSTYPE_NUMBER)
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f = atof(&v[1]);
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else
if (xs_type(v) == XSTYPE_STRING)
f = atof(v);
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return f;
}
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const char *xs_number_str(const xs_number *v)
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/* gets the number as a string */
{
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const char *p = NULL;
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if (xs_type(v) == XSTYPE_NUMBER)
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p = &v[1];
return p;
}
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/** raw data blocks **/
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xs_data *xs_data_new(const void *data, int size)
/* returns a new raw data value */
{
xs_data *v;
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/* add the overhead (data type + size) */
int total_size = size + 1 + _XS_TYPE_SIZE;
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v = xs_realloc(NULL, _xs_blk_size(total_size));
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v[0] = XSTYPE_DATA;
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_xs_put_size(v, total_size);
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memcpy(&v[1 + _XS_TYPE_SIZE], data, size);
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return v;
}
int xs_data_size(const xs_data *value)
/* returns the size of the data stored inside value */
{
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return _xs_get_size(value) - (1 + _XS_TYPE_SIZE);
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}
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void xs_data_get(void *data, const xs_data *value)
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/* copies the raw data stored inside value into data */
{
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memcpy(data, &value[1 + _XS_TYPE_SIZE], xs_data_size(value));
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}
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void *xs_memmem(const char *haystack, int h_size, const char *needle, int n_size)
/* clone of memmem */
{
char *p, *r = NULL;
int offset = 0;
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while (!r && h_size - offset > n_size &&
(p = memchr(haystack + offset, *needle, h_size - offset))) {
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if (memcmp(p, needle, n_size) == 0)
r = p;
else
offset = p - haystack + 1;
}
return r;
}
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unsigned int xs_hash_func(const char *data, int size)
/* a general purpose hashing function */
{
unsigned int hash = 0x666;
int n;
for (n = 0; n < size; n++) {
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hash ^= (unsigned char)data[n];
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hash *= 111111111;
}
return hash ^ hash >> 16;
}
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#endif /* XS_IMPLEMENTATION */
#endif /* _XS_H */