#include #include #include #include #include #include #include "array.h" #include "buffer.h" array *array_init(void) { array *a; a = calloc(1, sizeof(*a)); assert(a); a->next_power_of_2 = 1; return a; } array *array_init_array(array *src) { size_t i; array *a = array_init(); a->used = src->used; a->size = src->size; a->next_power_of_2 = src->next_power_of_2; a->unique_ndx = src->unique_ndx; a->data = malloc(sizeof(*src->data) * src->size); for (i = 0; i < src->size; i++) { if (src->data[i]) a->data[i] = src->data[i]->copy(src->data[i]); else a->data[i] = NULL; } a->sorted = malloc(sizeof(*src->sorted) * src->size); memcpy(a->sorted, src->sorted, sizeof(*src->sorted) * src->size); return a; } void array_free(array *a) { size_t i; if (!a) return; if (!a->is_weakref) { for (i = 0; i < a->size; i++) { if (a->data[i]) a->data[i]->free(a->data[i]); } } if (a->data) free(a->data); if (a->sorted) free(a->sorted); free(a); } void array_reset(array *a) { size_t i; if (!a) return; if (!a->is_weakref) { for (i = 0; i < a->used; i++) { a->data[i]->reset(a->data[i]); } } a->used = 0; } data_unset *array_pop(array *a) { data_unset *du; assert(a->used != 0); a->used --; du = a->data[a->used]; a->data[a->used] = NULL; return du; } static int array_get_index(array *a, const char *key, size_t keylen, int *rndx) { int ndx = -1; int i, pos = 0; if (key == NULL) return -1; /* try to find the string */ for (i = pos = a->next_power_of_2 / 2; ; i >>= 1) { int cmp; if (pos < 0) { pos += i; } else if (pos >= (int)a->used) { pos -= i; } else { cmp = buffer_caseless_compare(key, keylen, a->data[a->sorted[pos]]->key->ptr, a->data[a->sorted[pos]]->key->used); if (cmp == 0) { /* found */ ndx = a->sorted[pos]; break; } else if (cmp < 0) { pos -= i; } else { pos += i; } } if (i == 0) break; } if (rndx) *rndx = pos; return ndx; } data_unset *array_get_element(array *a, const char *key) { int ndx; if (-1 != (ndx = array_get_index(a, key, strlen(key) + 1, NULL))) { /* found, leave here */ return a->data[ndx]; } return NULL; } data_unset *array_get_unused_element(array *a, data_type_t t) { data_unset *ds = NULL; UNUSED(t); if (a->size == 0) return NULL; if (a->used == a->size) return NULL; if (a->data[a->used]) { ds = a->data[a->used]; a->data[a->used] = NULL; } return ds; } /* replace or insert data, return the old one with the same key */ data_unset *array_replace(array *a, data_unset *du) { int ndx; if (-1 == (ndx = array_get_index(a, du->key->ptr, du->key->used, NULL))) { array_insert_unique(a, du); return NULL; } else { data_unset *old = a->data[ndx]; a->data[ndx] = du; return old; } } int array_insert_unique(array *a, data_unset *str) { int ndx = -1; int pos = 0; size_t j; /* generate unique index if neccesary */ if (str->key->used == 0 || str->is_index_key) { buffer_copy_long(str->key, a->unique_ndx++); str->is_index_key = 1; } /* try to find the string */ if (-1 != (ndx = array_get_index(a, str->key->ptr, str->key->used, &pos))) { /* found, leave here */ if (a->data[ndx]->type == str->type) { str->insert_dup(a->data[ndx], str); } else { fprintf(stderr, "a\n"); } return 0; } /* insert */ if (a->used+1 > INT_MAX) { /* we can't handle more then INT_MAX entries: see array_get_index() */ return -1; } if (a->size == 0) { a->size = 16; a->data = malloc(sizeof(*a->data) * a->size); a->sorted = malloc(sizeof(*a->sorted) * a->size); assert(a->data); assert(a->sorted); for (j = a->used; j < a->size; j++) a->data[j] = NULL; } else if (a->size == a->used) { a->size += 16; a->data = realloc(a->data, sizeof(*a->data) * a->size); a->sorted = realloc(a->sorted, sizeof(*a->sorted) * a->size); assert(a->data); assert(a->sorted); for (j = a->used; j < a->size; j++) a->data[j] = NULL; } ndx = (int) a->used; a->data[a->used++] = str; if (pos != ndx && ((pos < 0) || buffer_caseless_compare(str->key->ptr, str->key->used, a->data[a->sorted[pos]]->key->ptr, a->data[a->sorted[pos]]->key->used) > 0)) { pos++; } /* move everything on step to the right */ if (pos != ndx) { memmove(a->sorted + (pos + 1), a->sorted + (pos), (ndx - pos) * sizeof(*a->sorted)); } /* insert */ a->sorted[pos] = ndx; if (a->next_power_of_2 == (size_t)ndx) a->next_power_of_2 <<= 1; return 0; } void array_print_indent(int depth) { int i; for (i = 0; i < depth; i ++) { fprintf(stdout, " "); } } size_t array_get_max_key_length(array *a) { size_t maxlen, i; maxlen = 0; for (i = 0; i < a->used; i ++) { data_unset *du = a->data[i]; size_t len = strlen(du->key->ptr); if (len > maxlen) { maxlen = len; } } return maxlen; } int array_print(array *a, int depth) { size_t i; size_t maxlen; int oneline = 1; if (a->used > 5) { oneline = 0; } for (i = 0; i < a->used && oneline; i++) { data_unset *du = a->data[i]; if (!du->is_index_key) { oneline = 0; break; } switch (du->type) { case TYPE_INTEGER: case TYPE_STRING: case TYPE_COUNT: break; default: oneline = 0; break; } } if (oneline) { fprintf(stdout, "("); for (i = 0; i < a->used; i++) { data_unset *du = a->data[i]; if (i != 0) { fprintf(stdout, ", "); } du->print(du, depth + 1); } fprintf(stdout, ")"); return 0; } maxlen = array_get_max_key_length(a); fprintf(stdout, "(\n"); for (i = 0; i < a->used; i++) { data_unset *du = a->data[i]; array_print_indent(depth + 1); if (!du->is_index_key) { int j; if (i && (i % 5) == 0) { fprintf(stdout, "# %zd\n", i); array_print_indent(depth + 1); } fprintf(stdout, "\"%s\"", du->key->ptr); for (j = maxlen - strlen(du->key->ptr); j > 0; j --) { fprintf(stdout, " "); } fprintf(stdout, " => "); } du->print(du, depth + 1); fprintf(stdout, ",\n"); } if (!(i && (i - 1 % 5) == 0)) { array_print_indent(depth + 1); fprintf(stdout, "# %zd\n", i); } array_print_indent(depth); fprintf(stdout, ")"); return 0; } #ifdef DEBUG_ARRAY int main (int argc, char **argv) { array *a; data_string *ds; data_count *dc; UNUSED(argc); UNUSED(argv); a = array_init(); ds = data_string_init(); buffer_copy_string(ds->key, "abc"); buffer_copy_string(ds->value, "alfrag"); array_insert_unique(a, (data_unset *)ds); ds = data_string_init(); buffer_copy_string(ds->key, "abc"); buffer_copy_string(ds->value, "hameplman"); array_insert_unique(a, (data_unset *)ds); ds = data_string_init(); buffer_copy_string(ds->key, "123"); buffer_copy_string(ds->value, "alfrag"); array_insert_unique(a, (data_unset *)ds); dc = data_count_init(); buffer_copy_string(dc->key, "def"); array_insert_unique(a, (data_unset *)dc); dc = data_count_init(); buffer_copy_string(dc->key, "def"); array_insert_unique(a, (data_unset *)dc); array_print(a, 0); array_free(a); fprintf(stderr, "%d\n", buffer_caseless_compare(CONST_STR_LEN("Content-Type"), CONST_STR_LEN("Content-type"))); return 0; } #endif