/* copyright (c) 2022 grunfink - MIT license */ #ifndef _XS_JSON_H #define _XS_JSON_H d_char *xs_json_dumps_pp(char *data, int indent); #define xs_json_dumps(data) xs_json_dumps_pp(data, 0) d_char *xs_json_loads(const char *json); #ifdef XS_IMPLEMENTATION /** IMPLEMENTATION **/ /** JSON dumps **/ d_char *_xs_json_dumps_str(d_char *s, char *data) /* dumps a string in JSON format */ { unsigned char c; s = xs_str_cat(s, "\""); while ((c = *data)) { if (c == '\n') s = xs_str_cat(s, "\\n"); else if (c == '\r') s = xs_str_cat(s, "\\r"); else if (c == '\t') s = xs_str_cat(s, "\\t"); else if (c == '\\') s = xs_str_cat(s, "\\\\"); else if (c == '"') s = xs_str_cat(s, "\\\""); else if (c < 32) { char tmp[10]; sprintf(tmp, "\\u%04x", (unsigned int) c); s = xs_str_cat(s, tmp); } else s = xs_append_m(s, data, 1); data++; } s = xs_str_cat(s, "\""); return s; } d_char *_xs_json_indent(d_char *s, int level, int indent) /* adds indentation */ { if (indent) { int n; s = xs_str_cat(s, "\n"); for (n = 0; n < level * indent; n++) s = xs_str_cat(s, " "); } return s; } d_char *_xs_json_dumps(d_char *s, char *data, int level, int indent) /* dumps partial data as JSON */ { char *k, *v; int c = 0; switch (xs_type(data)) { case XSTYPE_NULL: s = xs_str_cat(s, "null"); break; case XSTYPE_TRUE: s = xs_str_cat(s, "true"); break; case XSTYPE_FALSE: s = xs_str_cat(s, "false"); break; case XSTYPE_NUMBER: { char tmp[32]; snprintf(tmp, sizeof(tmp), "%g", xs_number_get(data)); s = xs_str_cat(s, tmp); } break; case XSTYPE_SOL: s = xs_str_cat(s, "["); while (xs_list_iter(&data, &v)) { if (c != 0) s = xs_str_cat(s, ","); s = _xs_json_indent(s, level + 1, indent); s = _xs_json_dumps(s, v, level + 1, indent); c++; } s = _xs_json_indent(s, level, indent); s = xs_str_cat(s, "]"); break; case XSTYPE_SOD: s = xs_str_cat(s, "{"); while (xs_dict_iter(&data, &k, &v)) { if (c != 0) s = xs_str_cat(s, ","); s = _xs_json_indent(s, level + 1, indent); s = _xs_json_dumps_str(s, k); s = xs_str_cat(s, ":"); if (indent) s = xs_str_cat(s, " "); s = _xs_json_dumps(s, v, level + 1, indent); c++; } s = _xs_json_indent(s, level, indent); s = xs_str_cat(s, "}"); break; case XSTYPE_STRING: s = _xs_json_dumps_str(s, data); break; default: break; } return s; } d_char *xs_json_dumps_pp(char *data, int indent) /* dumps a piece of data as JSON */ { xstype t = xs_type(data); d_char *s = NULL; if (t == XSTYPE_SOL || t == XSTYPE_SOD) { s = xs_str_new(NULL); s = _xs_json_dumps(s, data, 0, indent); } return s; } /** JSON loads **/ /* this code comes mostly from the Minimum Profit Text Editor (MPDM) */ typedef enum { JS_ERROR = -1, JS_INCOMPLETE, JS_OCURLY, JS_OBRACK, JS_CCURLY, JS_CBRACK, JS_COMMA, JS_COLON, JS_VALUE, JS_STRING, JS_INTEGER, JS_REAL, JS_TRUE, JS_FALSE, JS_NULL, JS_ARRAY, JS_OBJECT } js_type; d_char *_xs_json_loads_lexer(const char **json, js_type *t) { char c; const char *s = *json; d_char *v = NULL; /* skip blanks */ while (*s == L' ' || *s == L'\t' || *s == L'\n' || *s == L'\r') s++; c = *s++; if (c == '{') *t = JS_OCURLY; else if (c == '}') *t = JS_CCURLY; else if (c == '[') *t = JS_OBRACK; else if (c == ']') *t = JS_CBRACK; else if (c == ',') *t = JS_COMMA; else if (c == ':') *t = JS_COLON; else if (c == '"') { *t = JS_STRING; v = xs_str_new(NULL); while ((c = *s) != '"' && c != '\0') { char tmp[5]; int cp, i; if (c == '\\') { s++; c = *s; switch (c) { case 'n': c = '\n'; break; case 'r': c = '\r'; break; case 't': c = '\t'; break; case 'u': /* Unicode codepoint as an hex char */ s++; memcpy(tmp, s, 4); s += 3; tmp[4] = '\0'; sscanf(tmp, "%04x", &i); if (i >= 0xd800 && i <= 0xdfff) { /* it's a surrogate pair */ cp = (i & 0x3ff) << 10; /* skip to the next value */ s += 3; memcpy(tmp, s, 4); s += 3; sscanf(tmp, "%04x", &i); cp |= (i & 0x3ff); cp += 0x10000; } else cp = i; v = xs_utf8_enc(v, cp); c = '\0'; break; } } if (c) v = xs_append_m(v, &c, 1); s++; } if (c != '\0') s++; } else if (c == '-' || (c >= '0' && c <= '9') || c == '.') { xs *vn = NULL; *t = JS_INTEGER; vn = xs_str_new(NULL); vn = xs_append_m(vn, &c, 1); while (((c = *s) >= '0' && c <= '9') || c == '.') { if (c == '.') *t = JS_REAL; vn = xs_append_m(vn, &c, 1); s++; } /* convert to XSTYPE_NUMBER */ v = xs_number_new(atof(vn)); } else if (c == 't' && strncmp(s, "rue", 3) == 0) { s += 3; *t = JS_TRUE; v = xs_val_new(XSTYPE_TRUE); } else if (c == 'f' && strncmp(s, "alse", 4) == 0) { s += 4; *t = JS_FALSE; v = xs_val_new(XSTYPE_FALSE); } else if (c == 'n' && strncmp(s, "ull", 3) == 0) { s += 3; *t = JS_NULL; v = xs_val_new(XSTYPE_NULL); } else *t = JS_ERROR; *json = s; return v; } d_char *_xs_json_loads_array(const char **json, js_type *t); d_char *_xs_json_loads_object(const char **json, js_type *t); d_char *_xs_json_loads_value(const char **json, js_type *t, d_char *v) /* parses a JSON value */ { if (*t == JS_OBRACK) v = _xs_json_loads_array(json, t); else if (*t == JS_OCURLY) v = _xs_json_loads_object(json, t); if (*t >= JS_VALUE) *t = JS_VALUE; else *t = JS_ERROR; return v; } d_char *_xs_json_loads_array(const char **json, js_type *t) /* parses a JSON array */ { const char *s = *json; xs *v; d_char *l; js_type tt; l = xs_list_new(); *t = JS_INCOMPLETE; v = _xs_json_loads_lexer(&s, &tt); if (tt == JS_CBRACK) *t = JS_ARRAY; else { v = _xs_json_loads_value(&s, &tt, v); if (tt == JS_VALUE) { l = xs_list_append(l, v); while (*t == JS_INCOMPLETE) { _xs_json_loads_lexer(&s, &tt); if (tt == JS_CBRACK) *t = JS_ARRAY; else if (tt == JS_COMMA) { xs *v2; v2 = _xs_json_loads_lexer(&s, &tt); v2 = _xs_json_loads_value(&s, &tt, v2); if (tt == JS_VALUE) l = xs_list_append(l, v2); else *t = JS_ERROR; } else *t = JS_ERROR; } } else *t = JS_ERROR; } if (*t == JS_ERROR) { free(l); l = NULL; } *json = s; return l; } d_char *_xs_json_loads_object(const char **json, js_type *t) /* parses a JSON object */ { const char *s = *json; xs *k1; d_char *d; js_type tt; d = xs_dict_new(); *t = JS_INCOMPLETE; k1 = _xs_json_loads_lexer(&s, &tt); if (tt == JS_CCURLY) *t = JS_OBJECT; else if (tt == JS_STRING) { _xs_json_loads_lexer(&s, &tt); if (tt == JS_COLON) { xs *v1; v1 = _xs_json_loads_lexer(&s, &tt); v1 = _xs_json_loads_value(&s, &tt, v1); if (tt == JS_VALUE) { d = xs_dict_append(d, k1, v1); while (*t == JS_INCOMPLETE) { _xs_json_loads_lexer(&s, &tt); if (tt == JS_CCURLY) *t = JS_OBJECT; else if (tt == JS_COMMA) { xs *k; k = _xs_json_loads_lexer(&s, &tt); if (tt == JS_STRING) { _xs_json_loads_lexer(&s, &tt); if (tt == JS_COLON) { xs *v; v = _xs_json_loads_lexer(&s, &tt); v = _xs_json_loads_value(&s, &tt, v); if (tt == JS_VALUE) d = xs_dict_append(d, k, v); else *t = JS_ERROR; } else *t = JS_ERROR; } else *t = JS_ERROR; } else *t = JS_ERROR; } } else *t = JS_ERROR; } else *t = JS_ERROR; } else *t = JS_ERROR; if (*t == JS_ERROR) { free(d); d = NULL; } *json = s; return d; } d_char *xs_json_loads(const char *json) /* loads a string in JSON format and converts to a multiple data */ { d_char *v = NULL; js_type t; _xs_json_loads_lexer(&json, &t); if (t == JS_OBRACK) v = _xs_json_loads_array(&json, &t); else if (t == JS_OCURLY) v = _xs_json_loads_object(&json, &t); else t = JS_ERROR; return v; } #endif /* XS_IMPLEMENTATION */ #endif /* _XS_JSON_H */