#include #include #include #include #include #include #include "kson.h" /************* *** Parse *** *************/ kson_node_t *kson_parse_core(const char *json, long *_n, int *error, long *parsed_len) { long *stack = 0, top = 0, max = 0, n_a = 0, m_a = 0, i, j; kson_node_t *a = 0, *u; const char *p, *q; size_t *tmp; #define __push_back(y) do { \ if (top == max) { \ max = max? max<<1 : 4; \ stack = (long*)realloc(stack, sizeof(long) * max); \ } \ stack[top++] = (y); \ } while (0) #define __new_node(z) do { \ if (n_a == m_a) { \ long old_m = m_a; \ m_a = m_a? m_a<<1 : 4; \ a = (kson_node_t*)realloc(a, sizeof(kson_node_t) * m_a); \ memset(a + old_m, 0, sizeof(kson_node_t) * (m_a - old_m)); \ } \ *(z) = &a[n_a++]; \ } while (0) assert(sizeof(size_t) == sizeof(kson_node_t*)); *error = KSON_OK; for (p = json; *p; ++p) { while (*p && isspace(*p)) ++p; if (*p == 0) break; if (*p == ',') { // comma is somewhat redundant } else if (*p == '[' || *p == '{') { int t = *p == '['? -1 : -2; if (top < 2 || stack[top-1] != -3) { // unnamed internal node __push_back(n_a); __new_node(&u); __push_back(t); } else stack[top-1] = t; // named internal node } else if (*p == ']' || *p == '}') { long i, start, t = *p == ']'? -1 : -2; for (i = top - 1; i >= 0 && stack[i] != t; --i); if (i < 0) { // error: an extra right bracket *error = KSON_ERR_EXTRA_RIGHT; break; } start = i; u = &a[stack[start-1]]; u->key = u->v.str; u->n = top - 1 - start; u->v.child = (kson_node_t**)malloc(u->n * sizeof(kson_node_t*)); tmp = (size_t*)u->v.child; for (i = start + 1; i < top; ++i) tmp[i - start - 1] = stack[i]; u->type = *p == ']'? KSON_TYPE_BRACKET : KSON_TYPE_BRACE; if ((top = start) == 1) break; // completed one object; remaining characters discarded } else if (*p == ':') { if (top == 0 || stack[top-1] == -3) { *error = KSON_ERR_NO_KEY; break; } __push_back(-3); } else { int c = *p; // get the node to modify if (top >= 2 && stack[top-1] == -3) { // we have a key:value pair here --top; u = &a[stack[top-1]]; u->key = u->v.str; // move old value to key } else { // don't know if this is a bare value or a key:value pair; keep it as a value for now __push_back(n_a); __new_node(&u); } // parse string if (c == '\'' || c == '"') { for (q = ++p; *q && *q != c; ++q) if (*q == '\\') ++q; } else { for (q = p; *q && *q != ']' && *q != '}' && *q != ',' && *q != ':' && *q != '\n'; ++q) if (*q == '\\') ++q; } u->v.str = (char*)malloc(q - p + 1); strncpy(u->v.str, p, q - p); u->v.str[q-p] = 0; // equivalent to u->v.str=strndup(p, q-p) u->type = c == '\''? KSON_TYPE_SGL_QUOTE : c == '"'? KSON_TYPE_DBL_QUOTE : KSON_TYPE_NO_QUOTE; p = c == '\'' || c == '"'? q : q - 1; } } while (*p && isspace(*p)) ++p; // skip trailing blanks if (parsed_len) *parsed_len = p - json; if (top != 1) *error = KSON_ERR_EXTRA_LEFT; for (i = 0; i < n_a; ++i) for (j = 0, u = &a[i], tmp = (size_t*)u->v.child; j < (long)u->n; ++j) u->v.child[j] = &a[tmp[j]]; free(stack); *_n = n_a; return a; } void kson_destroy(kson_t *kson) { long i; if (kson == 0) return; for (i = 0; i < kson->n_nodes; ++i) { free(kson->root[i].key); free(kson->root[i].v.str); } free(kson->root); free(kson); } kson_t *kson_parse(const char *json) { kson_t *kson; int error; kson = (kson_t*)calloc(1, sizeof(kson_t)); kson->root = kson_parse_core(json, &kson->n_nodes, &error, 0); if (error) { kson_destroy(kson); return 0; } return kson; } /************* *** Query *** *************/ const kson_node_t *kson_by_path(const kson_node_t *p, int depth, ...) { va_list ap; va_start(ap, depth); while (p && depth > 0) { if (p->type == KSON_TYPE_BRACE) { p = kson_by_key(p, va_arg(ap, const char*)); } else if (p->type == KSON_TYPE_BRACKET) { p = kson_by_index(p, va_arg(ap, long)); } else break; --depth; } va_end(ap); return p; } /************** *** Fromat *** **************/ void kson_format_recur(const kson_node_t *p, int depth) { long i; if (p->key) printf("\"%s\":", p->key); if (p->type == KSON_TYPE_BRACKET || p->type == KSON_TYPE_BRACE) { putchar(p->type == KSON_TYPE_BRACKET? '[' : '{'); if (p->n) { putchar('\n'); for (i = 0; i <= depth; ++i) fputs(" ", stdout); for (i = 0; i < (long)p->n; ++i) { if (i) { int i; putchar(','); putchar('\n'); for (i = 0; i <= depth; ++i) fputs(" ", stdout); } kson_format_recur(p->v.child[i], depth + 1); } putchar('\n'); for (i = 0; i < depth; ++i) fputs(" ", stdout); } putchar(p->type == KSON_TYPE_BRACKET? ']' : '}'); } else { if (p->type != KSON_TYPE_NO_QUOTE) putchar(p->type == KSON_TYPE_SGL_QUOTE? '\'' : '"'); fputs(p->v.str, stdout); if (p->type != KSON_TYPE_NO_QUOTE) putchar(p->type == KSON_TYPE_SGL_QUOTE? '\'' : '"'); } } void kson_format(const kson_node_t *root) { kson_format_recur(root, 0); putchar('\n'); } /********************* *** Main function *** *********************/ #ifdef KSON_MAIN #define kroundup32(x) (--(x), (x)|=(x)>>1, (x)|=(x)>>2, (x)|=(x)>>4, (x)|=(x)>>8, (x)|=(x)>>16, ++(x)) int main(int argc, char *argv[]) { kson_t *kson = 0; if (argc > 1) { FILE *fp; int len = 0, max = 0, tmp, i; char *json = 0, buf[0x10000]; if ((fp = fopen(argv[1], "rb")) != 0) { // read the entire file into a string while ((tmp = fread(buf, 1, 0x10000, fp)) != 0) { if (len + tmp + 1 > max) { max = len + tmp + 1; kroundup32(max); json = (char*)realloc(json, max); } memcpy(json + len, buf, tmp); len += tmp; } fclose(fp); // parse kson = kson_parse(json); free(json); if (kson) { kson_format(kson->root); if (argc > 2) { // path finding const kson_node_t *p = kson->root; for (i = 2; i < argc && p; ++i) { if (p->type == KSON_TYPE_BRACKET) p = kson_by_index(p, atoi(argv[i])); else if (p->type == KSON_TYPE_BRACE) p = kson_by_key(p, argv[i]); else p = 0; } if (p) { if (kson_is_internal(p)) printf("Reached an internal node\n"); else printf("Value: %s\n", p->v.str); } else printf("Failed to find the slot\n"); } } else printf("Failed to parse\n"); } } else { kson = kson_parse("{'a' : 1,'b':[0,'isn\\'t',true],'d':[{\n\n\n}]}"); if (kson) { const kson_node_t *p = kson_by_path(kson->root, 2, "b", 1); if (p) printf("*** %s\n", p->v.str); else printf("!!! not found\n"); kson_format(kson->root); } else { printf("Failed to parse\n"); } } kson_destroy(kson); return 0; } #endif