#endif
int nedmallopt(int parno, int value) THROWSPEC { return nedpmallopt(0, parno, value); }
int nedmalloc_trim(size_t pad) THROWSPEC { return nedpmalloc_trim(0, pad); }
-void nedmalloc_stats() THROWSPEC { nedpmalloc_stats(0); }
-size_t nedmalloc_footprint() THROWSPEC { return nedpmalloc_footprint(0); }
+void nedmalloc_stats(void) THROWSPEC { nedpmalloc_stats(0); }
+size_t nedmalloc_footprint(void) THROWSPEC { return nedpmalloc_footprint(0); }
void **nedindependent_calloc(size_t elemsno, size_t elemsize, void **chunks) THROWSPEC { return nedpindependent_calloc(0, elemsno, elemsize, chunks); }
void **nedindependent_comalloc(size_t elems, size_t *sizes, void **chunks) THROWSPEC { return nedpindependent_comalloc(0, elems, sizes, chunks); }
}
/* We really want to make sure this goes into memory now but we
have to be careful of breaking aliasing rules, so write it twice */
- *((volatile struct malloc_state **) &p->m[end])=p->m[end]=temp;
+ {
+ volatile struct malloc_state **_m=(volatile struct malloc_state **) &p->m[end];
+ *_m=(p->m[end]=temp);
+ }
ACQUIRE_LOCK(&p->m[end]->mutex);
/*printf("Created mspace idx %d\n", end);*/
RELEASE_LOCK(&p->mutex);
{
char *s2 = 0;
if (s1) {
- s2 = malloc(strlen(s1) + 1);
- strcpy(s2, s1);
+ size_t len = strlen(s1) + 1;
+ s2 = malloc(len);
+ memcpy(s2, s1, len);
}
return s2;
}