ref: c2afc5c2c11aaae10c49dc57271d3e5f38900fcb
dir: /thirdparty/oso.c/
#include "oso.h" #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #if (defined(__GNUC__) || defined(__clang__)) && defined(__has_attribute) #if __has_attribute(noinline) && __has_attribute(noclone) #define OSO_NOINLINE __attribute__((noinline, noclone)) #elif __has_attribute(noinline) #define OSO_NOINLINE __attribute__((noinline)) #endif #elif defined(_MSC_VER) #define OSO_NOINLINE __declspec(noinline) #endif #ifndef OSO_NOINLINE #define OSO_NOINLINE #endif #define OSO_INTERNAL OSO_NOINLINE static #define OSO_HDR(s) ((oso_header *)s - 1) #define OSO_CAP_MAX (SIZE_MAX - (sizeof(oso_header) + 1)) typedef struct oso { size_t len; size_t cap; } oso_header; OSO_INTERNAL oso *oso_impl_reallochdr(oso_header *hdr, size_t new_cap) { if (hdr) { oso_header *new_hdr = realloc(hdr, sizeof(oso_header) + new_cap + 1); if (!new_hdr) { free(hdr); return NULL; } new_hdr->cap = new_cap; return new_hdr + 1; } hdr = malloc(sizeof(oso_header) + new_cap + 1); if (!hdr) return NULL; hdr->len = 0; hdr->cap = new_cap; ((char *)(hdr + 1))[0] = '\0'; return hdr + 1; } OSO_INTERNAL oso *oso_impl_catvprintf(oso *s, char const *fmt, va_list ap) { size_t old_len; int required; va_list cpy; va_copy(cpy, ap); required = vsnprintf(NULL, 0, fmt, cpy); va_end(cpy); osomakeroomfor(&s, (size_t)required); if (!s) return NULL; old_len = OSO_HDR(s)->len; vsnprintf((char *)s + old_len, (size_t)required + 1, fmt, ap); OSO_HDR(s)->len = old_len + (size_t)required; return s; } OSO_NOINLINE void osoensurecap(oso **p, size_t new_cap) { oso *s = *p; if (new_cap > OSO_CAP_MAX) { if (s) { free(OSO_HDR(s)); *p = NULL; } return; } oso_header *hdr = NULL; if (s) { hdr = OSO_HDR(s); if (hdr->cap >= new_cap) return; } *p = oso_impl_reallochdr(hdr, new_cap); } OSO_NOINLINE void osomakeroomfor(oso **p, size_t add_len) { oso *s = *p; oso_header *hdr = NULL; size_t new_cap; if (s) { hdr = OSO_HDR(s); size_t len = hdr->len, cap = hdr->cap; if (len > OSO_CAP_MAX - add_len) { // overflow, goodnight free(hdr); *p = NULL; return; } new_cap = len + add_len; if (cap >= new_cap) return; } else { if (add_len > OSO_CAP_MAX) return; new_cap = add_len; } *p = oso_impl_reallochdr(hdr, new_cap); } void osoput(oso **p, char const *restrict cstr) { osoputlen(p, cstr, strlen(cstr)); } OSO_NOINLINE void osoputlen(oso **p, char const *restrict cstr, size_t len) { oso *s = *p; osoensurecap(&s, len); if (s) { OSO_HDR(s)->len = len; memcpy((char *)s, cstr, len); ((char *)s)[len] = '\0'; } *p = s; } void osoputoso(oso **p, oso const *other) { if (!other) return; osoputlen(p, (char const *)other, OSO_HDR(other)->len); } void osoputvprintf(oso **p, char const *fmt, va_list ap) { *p = oso_impl_catvprintf(*p, fmt, ap); } void osoputprintf(oso **p, char const *fmt, ...) { va_list ap; va_start(ap, fmt); *p = oso_impl_catvprintf(*p, fmt, ap); va_end(ap); } void osocat(oso **p, char const *cstr) { osocatlen(p, cstr, strlen(cstr)); } OSO_NOINLINE void osocatlen(oso **p, char const *cstr, size_t len) { oso *s = *p; osomakeroomfor(&s, len); if (s) { oso_header *hdr = OSO_HDR(s); size_t curr_len = hdr->len; memcpy((char *)s + curr_len, cstr, len); ((char *)s)[curr_len + len] = '\0'; hdr->len = curr_len + len; } *p = s; } void osocatoso(oso **p, oso const *other) { if (!other) return; osocatlen(p, (char const *)other, OSO_HDR(other)->len); } void osocatvprintf(oso **p, char const *fmt, va_list ap) { oso *s = *p; if (s) { OSO_HDR(s)->len = 0; ((char *)s)[0] = '\0'; } *p = oso_impl_catvprintf(s, fmt, ap); } void osocatprintf(oso **p, char const *fmt, ...) { oso *s = *p; if (s) { OSO_HDR(s)->len = 0; ((char *)s)[0] = '\0'; } va_list ap; va_start(ap, fmt); *p = oso_impl_catvprintf(s, fmt, ap); va_end(ap); } void osoclear(oso **p) { oso *s = *p; if (!s) return; OSO_HDR(s)->len = 0; ((char *)s)[0] = '\0'; } void osofree(oso *s) { if (s) free(OSO_HDR(s)); } void osowipe(oso **p) { osofree(*p); *p = NULL; } void ososwap(oso const **a, oso const **b) { oso const *tmp = *a; *a = *b; *b = tmp; } size_t osolen(oso const *s) { return s ? OSO_HDR(s)->len : 0; } size_t osocap(oso const *s) { return s ? OSO_HDR(s)->cap : 0; } void osolencap(oso const *s, size_t *out_len, size_t *out_cap) { if (!s) { *out_len = 0; *out_cap = 0; return; } oso_header *hdr = OSO_HDR(s); *out_len = hdr->len; *out_cap = hdr->cap; } size_t osoavail(oso const *s) { if (!s) return 0; oso_header *h = OSO_HDR(s); return h->cap - h->len; } void osotrim(oso *restrict s, char const *restrict cut_set) { if (!s) return; char *str, *start, *end, *start_pos, *end_pos; start_pos = start = str = (char *)s; end_pos = end = str + OSO_HDR(s)->len - 1; while (start_pos <= end && strchr(cut_set, *start_pos)) start_pos++; while (end_pos > start_pos && strchr(cut_set, *end_pos)) end_pos--; size_t len = (start_pos > end_pos) ? 0 : ((size_t)(end_pos - start_pos) + 1); OSO_HDR(s)->len = len; if (str != start_pos) memmove(str, start_pos, len); str[len] = '\0'; } #undef OSO_HDR #undef OSO_NOINLINE #undef OSO_CAP_MAX #undef OSO_INTERNAL