webmcp: libraries/json/json.c annotate

webmcp

annotate libraries/json/json.c @ 194:654ddbcc49d0

Bugfix in autodoc.lua; Added documentation for JSON library; json.import(...) returns json.null for "null" on top-level

author	jbe
date	Mon Aug 11 17:38:12 2014 +0200 (2014-08-11)
parents	0014a7c22013
children	9fd7e1bf9fe3

rev	line source
jbe@121	1 #include <lua.h>
jbe@121	2 #include <lauxlib.h>
jbe@122	3 #include <stdlib.h>
jbe@121	4 #include <string.h>
jbe@154	5 #include <math.h>
jbe@121	6
jbe@144	7 // maximum number of nested JSON values (objects and arrays):
jbe@182	8 // NOTE: json_import can store 2^32 / 3 levels on stack swap (using
jbe@183	9 // also negative indicies after integer wraparound), and
jbe@183	10 // json_export can store even more levels, so 1024^3 =
jbe@183	11 // 1073741824 is a safe value and allows practically unlimited
jbe@183	12 // levels for JSON documents <= 2 GiB.
jbe@182	13 #define JSON_MAXDEPTH (102410241024)
jbe@142	14
jbe@193	15 // define type JSON_LIGHTUSERDATA and
jbe@193	16 // generate dummy memory addresses for lightuserdata values:
jbe@193	17 #define JSON_LIGHTUSERDATA char
jbe@193	18 static struct {
jbe@193	19 JSON_LIGHTUSERDATA nullmark; // lightuserdata value represents a NULL value
jbe@193	20 JSON_LIGHTUSERDATA shadowtbl; // lightuserdata key for shadow table
jbe@193	21 } json_lightuserdata;
jbe@193	22
jbe@193	23 // macros for special nullmark value:
jbe@193	24 #define json_isnullmark(L, i) (lua_touserdata((L), (i)) == &json_lightuserdata.nullmark)
jbe@193	25 #define json_pushnullmark(L) lua_pushlightuserdata((L), &json_lightuserdata.nullmark)
jbe@193	26
jbe@193	27 // macros for getting and setting shadow tables
jbe@193	28 #define json_setshadow(L, i) lua_rawsetp((L), (i), &json_lightuserdata.shadowtbl)
jbe@193	29 #define json_getshadow(L, i) lua_rawgetp((L), (i), &json_lightuserdata.shadowtbl)
jbe@193	30 #define json_createproxy(L) lua_createtable((L), 0, 1)
jbe@193	31
jbe@193	32 // generate additional dummy memory addresses that represent Lua objects
jbe@193	33 // via lightuserdata keys and LUA_REGISTRYINDEX:
jbe@193	34 static struct {
jbe@193	35 JSON_LIGHTUSERDATA objectmt; // metatable for JSON objects
jbe@193	36 JSON_LIGHTUSERDATA arraymt; // metatable for JSON arrays
jbe@193	37 } json_registry;
jbe@155	38
jbe@144	39 // macros for usage of Lua registry:
jbe@145	40 #define json_regpointer(x) (&json_registry.x)
jbe@151	41 #define json_regfetchpointer(L, x) lua_rawgetp((L), LUA_REGISTRYINDEX, (x))
jbe@151	42 #define json_regfetch(L, x) json_regfetchpointer(L, json_regpointer(x))
jbe@151	43 #define json_regstore(L, x) lua_rawsetp(L, LUA_REGISTRYINDEX, json_regpointer(x))
jbe@145	44
jbe@157	45 // returns the string "<JSON null marker>":
jbe@157	46 static int json_nullmark_tostring(lua_State *L) {
jbe@157	47 lua_pushliteral(L, "<JSON null marker>");
jbe@157	48 return 1;
jbe@157	49 }
jbe@157	50
jbe@169	51 #define json_convert_source_idx 1
jbe@169	52 #define json_convert_iterator_idx 2
jbe@169	53 #define json_convert_output_idx 3
jbe@169	54 #define json_convert_shadow_idx 4
jbe@172	55 #define json_convert_iterfun_idx 5
jbe@172	56 #define json_convert_itertbl_idx 6
jbe@169	57
jbe@175	58 // converts a Lua table (or any other iterable value) to a JSON object or JSON array:
jbe@169	59 // (does never modify the argument, returns an empty object or array if argument is nil)
jbe@169	60 static int json_convert(lua_State *L, int array) {
jbe@171	61 int arrayidx = 0;
jbe@171	62 // determine is argument is given:
jbe@169	63 if (lua_isnoneornil(L, json_convert_source_idx)) {
jbe@171	64 // if no argument is given (or if argument is nil),
jbe@193	65 // create proxy table with shadow table, and leave proxy table on top of stack:
jbe@193	66 json_createproxy(L);
jbe@169	67 lua_newtable(L);
jbe@193	68 json_setshadow(L, -2);
jbe@169	69 } else {
jbe@171	70 // if an argument was given,
jbe@193	71 // stack shall contain only one function argument:
jbe@171	72 lua_settop(L, 1);
jbe@193	73 // check if there is an iterator function in its metatable:
jbe@193	74 if (luaL_getmetafield(L, json_convert_source_idx, array ? "__ipairs" : "__pairs")) {
jbe@193	75 // if there is an iterator function,
jbe@193	76 // leave it on stack position 2 and verify its type:
jbe@193	77 if (lua_type(L, json_convert_iterator_idx) != LUA_TFUNCTION)
jbe@169	78 return luaL_error(L, "%s metamethod is not a function", array ? "__ipairs" : "__pairs");
jbe@169	79 } else {
jbe@193	80 // if there is no iterator function,
jbe@193	81 // verify the type of the argument itself:
jbe@193	82 luaL_checktype(L, json_convert_source_idx, LUA_TTABLE);
jbe@193	83 // push nil onto stack position 2:
jbe@169	84 lua_pushnil(L);
jbe@143	85 }
jbe@171	86 // create result table on stack position 3:
jbe@193	87 json_createproxy(L);
jbe@169	88 // create shadow table on stack position 4:
jbe@169	89 lua_newtable(L);
jbe@193	90 lua_pushvalue(L, -1);
jbe@193	91 json_setshadow(L, -3);
jbe@171	92 // check if iterator function exists:
jbe@169	93 if (lua_isnil(L, json_convert_iterator_idx)) {
jbe@171	94 // if there is no iterator function,
jbe@171	95 // distinguish between objects and arrays:
jbe@171	96 if (array == 0) {
jbe@171	97 // for an object, copy all string key value pairs to shadow table:
jbe@171	98 for (lua_pushnil(L); lua_next(L, json_convert_source_idx); lua_pop(L, 1)) {
jbe@171	99 if (lua_type(L, -2) == LUA_TSTRING) {
jbe@171	100 lua_pushvalue(L, -2);
jbe@171	101 lua_pushvalue(L, -2);
jbe@171	102 lua_rawset(L, json_convert_shadow_idx);
jbe@171	103 }
jbe@171	104 }
jbe@171	105 } else {
jbe@171	106 // for an array, copy consecutive integer value pairs to shadow table:
jbe@171	107 while (1) {
jbe@175	108 // throw error if array would exceed INT_MAX elements:
jbe@171	109 // TODO: Lua 5.3 may support more elements
jbe@171	110 if (arrayidx == INT_MAX) {
jbe@171	111 lua_pushnumber(L, (size_t)INT_MAX+1);
jbe@171	112 lua_rawget(L, json_convert_source_idx);
jbe@171	113 if (lua_isnil(L, -1)) break;
jbe@171	114 return luaL_error(L, "Array exceeded length of %d elements", INT_MAX);
jbe@171	115 }
jbe@175	116 // get next array entry:
jbe@171	117 arrayidx++;
jbe@171	118 lua_rawgeti(L, json_convert_source_idx, arrayidx);
jbe@175	119 // break if value is nil:
jbe@171	120 if (lua_isnil(L, -1)) break;
jbe@175	121 // store value in shadow table:
jbe@171	122 lua_rawseti(L, json_convert_shadow_idx, arrayidx);
jbe@171	123 }
jbe@169	124 }
jbe@169	125 } else {
jbe@172	126 // if there is an iterator function,
jbe@172	127 // call iterator function with source value (first argument)
jbe@172	128 // and store 3 result values on stack positions 5 through 7:
jbe@172	129 lua_pushvalue(L, json_convert_iterator_idx);
jbe@172	130 lua_pushvalue(L, 1);
jbe@172	131 lua_call(L, 1, 3);
jbe@175	132 // iterate through key value pairs and store some of them in shadow table
jbe@174	133 // while replacing nil values with null-marker:
jbe@172	134 while (1) {
jbe@175	135 // call iterfun function:
jbe@172	136 lua_pushvalue(L, json_convert_iterfun_idx);
jbe@172	137 lua_pushvalue(L, json_convert_itertbl_idx);
jbe@172	138 lua_pushvalue(L, -3);
jbe@172	139 lua_remove(L, -4);
jbe@172	140 lua_call(L, 2, 2);
jbe@175	141 // break iteration loop if key is nil:
jbe@172	142 if (lua_isnil(L, -2)) break;
jbe@175	143 // store key value pair only if key type is correct:
jbe@172	144 if (lua_type(L, -2) == (array ? LUA_TNUMBER : LUA_TSTRING)) {
jbe@175	145 // if key type is correct,
jbe@175	146 // push key onto stack:
jbe@172	147 lua_pushvalue(L, -2);
jbe@175	148 // if value is nil, push null-marker onto stack (as value):
jbe@174	149 if (lua_isnil(L, -2)) json_pushnullmark(L);
jbe@175	150 // else push value onto stack:
jbe@174	151 else lua_pushvalue(L, -2);
jbe@175	152 // set key value pair in shadow table:
jbe@172	153 lua_rawset(L, json_convert_shadow_idx);
jbe@172	154 }
jbe@175	155 // pop value from stack, but leave key on stack:
jbe@172	156 lua_pop(L, 1);
jbe@172	157 }
jbe@143	158 }
jbe@171	159 // let result table be on top of stack:
jbe@169	160 lua_settop(L, json_convert_output_idx);
jbe@136	161 }
jbe@171	162 // set metatable (for result table on top of stack):
jbe@171	163 if (array == 0) json_regfetch(L, objectmt);
jbe@171	164 else json_regfetch(L, arraymt);
jbe@169	165 lua_setmetatable(L, -2);
jbe@171	166 // return table on top of stack:
jbe@136	167 return 1;
jbe@136	168 }
jbe@136	169
jbe@175	170 // converts a Lua table (or any other iterable value) to a JSON object:
jbe@175	171 // (does never modify the argument, returns an empty object or array if argument is nil)
jbe@136	172 static int json_object(lua_State *L) {
jbe@169	173 return json_convert(L, 0);
jbe@136	174 }
jbe@136	175
jbe@175	176 // converts a Lua table (or any other iterable value) to a JSON array:
jbe@175	177 // (does never modify the argument, returns an empty object or array if argument is nil)
jbe@136	178 static int json_array(lua_State *L) {
jbe@169	179 return json_convert(L, 1);
jbe@136	180 }
jbe@136	181
jbe@145	182 // internal states of JSON parser:
jbe@124	183 #define JSON_STATE_VALUE 0
jbe@124	184 #define JSON_STATE_OBJECT_KEY 1
jbe@124	185 #define JSON_STATE_OBJECT_KEY_TERMINATOR 2
jbe@124	186 #define JSON_STATE_OBJECT_VALUE 3
jbe@124	187 #define JSON_STATE_OBJECT_SEPARATOR 4
jbe@124	188 #define JSON_STATE_ARRAY_VALUE 5
jbe@124	189 #define JSON_STATE_ARRAY_SEPARATOR 6
jbe@124	190 #define JSON_STATE_END 7
jbe@121	191
jbe@145	192 // special Lua stack indicies for json_import function:
jbe@138	193 #define json_import_objectmt_idx 2
jbe@138	194 #define json_import_arraymt_idx 3
jbe@193	195 #define json_import_stackswap_idx 4
jbe@138	196
jbe@168	197 // macros for hex decoding:
jbe@168	198 #define json_utf16_surrogate(x) ((x) >= 0xD800 && (x) <= 0xDFFF)
jbe@168	199 #define json_utf16_lead(x) ((x) >= 0xD800 && (x) <= 0xDBFF)
jbe@168	200 #define json_utf16_tail(x) ((x) >= 0xDC00 && (x) <= 0xDFFF)
jbe@167	201 #define json_import_readhex(x) \
jbe@167	202 do { \
jbe@167	203 x = 0; \
jbe@167	204 for (i=0; i<4; i++) { \
jbe@167	205 x <<= 4; \
jbe@167	206 c = str[pos++]; \
jbe@167	207 if (c >= '0' && c <= '9') x += c - '0'; \
jbe@167	208 else if (c >= 'A' && c <= 'F') x += c - 'A' + 10; \
jbe@167	209 else if (c >= 'a' && c <= 'f') x += c - 'a' + 10; \
jbe@167	210 else if (c == 0) goto json_import_unexpected_eof; \
jbe@167	211 else goto json_import_unexpected_escape; \
jbe@167	212 } \
jbe@167	213 } while (0)
jbe@167	214
jbe@136	215 // decodes a JSON document:
jbe@121	216 static int json_import(lua_State *L) {
jbe@181	217 int stackswapidx = 0; // elements in stack swap table
jbe@181	218 int i; // loop variable
jbe@181	219 const char *str; // string to parse
jbe@181	220 size_t total; // total length of string to parse
jbe@181	221 size_t pos = 0; // current position in string to parse
jbe@181	222 size_t level = 0; // nested levels of objects/arrays currently being processed
jbe@145	223 int mode = JSON_STATE_VALUE; // state of parser (i.e. "what's expected next?")
jbe@181	224 unsigned char c; // variable to store a single character to be processed (unsigned!)
jbe@181	225 luaL_Buffer luabuf; // Lua buffer to decode JSON string values
jbe@181	226 char *cbuf; // C buffer to decode JSON string values
jbe@181	227 size_t outlen; // maximum length or write position of C buffer
jbe@181	228 long codepoint; // decoded UTF-16 character or higher codepoint
jbe@181	229 long utf16tail; // second decoded UTF-16 character (surrogate tail)
jbe@181	230 size_t arraylen; // variable to temporarily store the array length
jbe@166	231 // require string as argument and convert to C string with length information:
jbe@166	232 str = luaL_checklstring(L, 1, &total);
jbe@166	233 // if string contains a NULL byte, this is a syntax error
jbe@166	234 if (strlen(str) != total) goto json_import_syntax_error;
jbe@147	235 // stack shall contain one function argument:
jbe@138	236 lua_settop(L, 1);
jbe@147	237 // push objectmt onto stack position 2:
jbe@144	238 json_regfetch(L, objectmt);
jbe@147	239 // push arraymt onto stack position 3:
jbe@144	240 json_regfetch(L, arraymt);
jbe@181	241 // push table for stack swapping onto stack position 5:
jbe@181	242 // (needed to avoid Lua stack overflows)
jbe@181	243 lua_newtable(L);
jbe@136	244 // main loop of parser:
jbe@136	245 json_import_loop:
jbe@136	246 // skip whitespace and store next character in variable 'c':
jbe@146	247 while (c = str[pos],
jbe@146	248 c == ' ' \|\|
jbe@146	249 c == '\f' \|\|
jbe@146	250 c == '\n' \|\|
jbe@146	251 c == '\r' \|\|
jbe@146	252 c == '\t' \|\|
jbe@146	253 c == '\v'
jbe@146	254 ) pos++;
jbe@170	255 // NOTE: variable c needs to be unsigned in the following code
jbe@136	256 // switch statement to handle certain (single) characters:
jbe@121	257 switch (c) {
jbe@136	258 // handle end of JSON document:
jbe@121	259 case 0:
jbe@136	260 // if end of JSON document was expected, then return top element of stack as result:
jbe@124	261 if (mode == JSON_STATE_END) return 1;
jbe@136	262 // otherwise, the JSON document was malformed:
jbe@167	263 if (level == 0) {
jbe@167	264 lua_pushnil(L);
jbe@167	265 lua_pushliteral(L, "Empty string");
jbe@167	266 } else {
jbe@167	267 json_import_unexpected_eof:
jbe@167	268 lua_pushnil(L);
jbe@167	269 lua_pushliteral(L, "Unexpected end of JSON document");
jbe@167	270 }
jbe@121	271 return 2;
jbe@181	272 // new JSON object or JSON array:
jbe@121	273 case '{':
jbe@181	274 case '[':
jbe@181	275 // if an encountered JSON object is not expected here, then return an error:
jbe@146	276 if (
jbe@181	277 c == '{' &&
jbe@181	278 mode != JSON_STATE_VALUE &&
jbe@181	279 mode != JSON_STATE_OBJECT_VALUE &&
jbe@181	280 mode != JSON_STATE_ARRAY_VALUE
jbe@181	281 ) goto json_import_syntax_error;
jbe@181	282 // if an encountered JSON array is not expected here, then return an error:
jbe@181	283 if (
jbe@181	284 c == '[' &&
jbe@146	285 mode != JSON_STATE_VALUE &&
jbe@146	286 mode != JSON_STATE_OBJECT_VALUE &&
jbe@146	287 mode != JSON_STATE_ARRAY_VALUE
jbe@146	288 ) goto json_import_syntax_error;
jbe@181	289 // consume input character:
jbe@181	290 pos++;
jbe@181	291 // limit nested levels:
jbe@181	292 if (level >= JSON_MAXDEPTH) {
jbe@181	293 lua_pushnil(L);
jbe@181	294 lua_pushfstring(L, "More than %d nested JSON levels", JSON_MAXDEPTH);
jbe@181	295 return 2;
jbe@181	296 }
jbe@181	297 // swap Lua stack entries for previous level to swap table:
jbe@181	298 // (avoids depth limitations due to Lua stack size)
jbe@181	299 if (level) {
jbe@181	300 lua_rawseti(L, json_import_stackswap_idx, ++stackswapidx);
jbe@181	301 lua_rawseti(L, json_import_stackswap_idx, ++stackswapidx);
jbe@181	302 lua_rawseti(L, json_import_stackswap_idx, ++stackswapidx);
jbe@181	303 }
jbe@181	304 // increment level:
jbe@181	305 level++;
jbe@181	306 // create JSON object or JSON array on stack:
jbe@136	307 lua_newtable(L);
jbe@181	308 // set metatable of JSON object or JSON array:
jbe@181	309 lua_pushvalue(L, c == '{' ? json_import_objectmt_idx : json_import_arraymt_idx);
jbe@125	310 lua_setmetatable(L, -2);
jbe@136	311 // create internal shadow table on stack:
jbe@136	312 lua_newtable(L);
jbe@146	313 // register internal shadow table:
jbe@193	314 lua_pushvalue(L, -1);
jbe@193	315 json_setshadow(L, -3);
jbe@181	316 // distinguish between JSON objects and JSON arrays:
jbe@181	317 if (c == '{') {
jbe@181	318 // if JSON object,
jbe@181	319 // expect object key (or end of object) to follow:
jbe@181	320 mode = JSON_STATE_OBJECT_KEY;
jbe@181	321 } else {
jbe@181	322 // if JSON array,
jbe@181	323 // expect array value (or end of array) to follow:
jbe@181	324 mode = JSON_STATE_ARRAY_VALUE;
jbe@181	325 // add nil as key (needed to keep stack balance) and as magic to detect arrays:
jbe@181	326 if (c == '[') lua_pushnil(L);
jbe@142	327 }
jbe@121	328 goto json_import_loop;
jbe@136	329 // end of JSON object:
jbe@121	330 case '}':
jbe@136	331 // if end of JSON object is not expected here, then return an error:
jbe@146	332 if (
jbe@146	333 mode != JSON_STATE_OBJECT_KEY &&
jbe@146	334 mode != JSON_STATE_OBJECT_SEPARATOR
jbe@146	335 ) goto json_import_syntax_error;
jbe@136	336 // jump to common code for end of JSON object and JSON array:
jbe@121	337 goto json_import_close;
jbe@136	338 // end of JSON array:
jbe@121	339 case ']':
jbe@136	340 // if end of JSON array is not expected here, then return an error:
jbe@146	341 if (
jbe@146	342 mode != JSON_STATE_ARRAY_VALUE &&
jbe@146	343 mode != JSON_STATE_ARRAY_SEPARATOR
jbe@146	344 ) goto json_import_syntax_error;
jbe@146	345 // pop nil key/magic (that was needed to keep stack balance):
jbe@140	346 lua_pop(L, 1);
jbe@136	347 // continue with common code for end of JSON object and JSON array:
jbe@136	348 // common code for end of JSON object or JSON array:
jbe@121	349 json_import_close:
jbe@136	350 // consume input character:
jbe@121	351 pos++;
jbe@136	352 // pop shadow table:
jbe@136	353 lua_pop(L, 1);
jbe@136	354 // check if nested:
jbe@121	355 if (--level) {
jbe@146	356 // if nested,
jbe@181	357 // restore previous stack elements from stack swap:
jbe@181	358 lua_rawgeti(L, json_import_stackswap_idx, stackswapidx--);
jbe@181	359 lua_insert(L, -2);
jbe@181	360 lua_rawgeti(L, json_import_stackswap_idx, stackswapidx--);
jbe@181	361 lua_insert(L, -2);
jbe@181	362 lua_rawgeti(L, json_import_stackswap_idx, stackswapidx--);
jbe@181	363 lua_insert(L, -2);
jbe@146	364 // check if outer(!) structure is an array or object:
jbe@140	365 if (lua_isnil(L, -2)) {
jbe@136	366 // select array value processing:
jbe@124	367 mode = JSON_STATE_ARRAY_VALUE;
jbe@121	368 } else {
jbe@136	369 // select object value processing:
jbe@124	370 mode = JSON_STATE_OBJECT_VALUE;
jbe@121	371 }
jbe@136	372 // store value in outer structure:
jbe@121	373 goto json_import_process_value;
jbe@121	374 }
jbe@136	375 // if not nested, then expect end of JSON document and continue with loop:
jbe@136	376 mode = JSON_STATE_END;
jbe@121	377 goto json_import_loop;
jbe@136	378 // key terminator:
jbe@121	379 case ':':
jbe@136	380 // if key terminator is not expected here, then return an error:
jbe@124	381 if (mode != JSON_STATE_OBJECT_KEY_TERMINATOR)
jbe@121	382 goto json_import_syntax_error;
jbe@136	383 // consume input character:
jbe@121	384 pos++;
jbe@146	385 // expect object value to follow:
jbe@124	386 mode = JSON_STATE_OBJECT_VALUE;
jbe@146	387 // continue with loop:
jbe@121	388 goto json_import_loop;
jbe@136	389 // value terminator (NOTE: trailing comma at end of value or key-value list is tolerated by this parser)
jbe@121	390 case ',':
jbe@146	391 // branch according to parser state:
jbe@124	392 if (mode == JSON_STATE_OBJECT_SEPARATOR) {
jbe@146	393 // expect an object key to follow:
jbe@124	394 mode = JSON_STATE_OBJECT_KEY;
jbe@124	395 } else if (mode == JSON_STATE_ARRAY_SEPARATOR) {
jbe@146	396 // expect an array value to follow:
jbe@124	397 mode = JSON_STATE_ARRAY_VALUE;
jbe@121	398 } else {
jbe@136	399 // if value terminator is not expected here, then return an error:
jbe@136	400 goto json_import_syntax_error;
jbe@121	401 }
jbe@136	402 // consume input character:
jbe@121	403 pos++;
jbe@136	404 // continue with loop:
jbe@121	405 goto json_import_loop;
jbe@136	406 // string literal:
jbe@121	407 case '"':
jbe@146	408 // consume quote character:
jbe@146	409 pos++;
jbe@162	410 // find last character in input string:
jbe@162	411 outlen = pos;
jbe@162	412 while ((c = str[outlen]) != '"') {
jbe@161	413 // consume one character:
jbe@162	414 outlen++;
jbe@161	415 // handle unexpected end of JSON document:
jbe@161	416 if (c == 0) goto json_import_unexpected_eof;
jbe@161	417 // consume one extra character when encountering an escaped quote:
jbe@162	418 else if (c == '\\' && str[outlen] == '"') outlen++;
jbe@161	419 }
jbe@162	420 // determine buffer length:
jbe@162	421 outlen -= pos;
jbe@161	422 // check if string is non empty:
jbe@162	423 if (outlen) {
jbe@161	424 // prepare buffer to decode string (with maximum possible length) and set write position to zero:
jbe@162	425 cbuf = luaL_buffinitsize(L, &luabuf, outlen);
jbe@162	426 outlen = 0;
jbe@161	427 // loop through the characters until encountering end quote:
jbe@161	428 while ((c = str[pos++]) != '"') {
jbe@162	429 // NOTE: unexpected end cannot happen anymore
jbe@162	430 if (c < 32 \|\| c == 127) {
jbe@161	431 // do not allow ASCII control characters:
jbe@161	432 // NOTE: illegal UTF-8 sequences and extended control characters are not sanitized
jbe@161	433 // by this parser to allow different encodings than Unicode
jbe@161	434 lua_pushnil(L);
jbe@161	435 lua_pushliteral(L, "Unexpected control character in JSON string");
jbe@161	436 return 2;
jbe@161	437 } else if (c == '\\') {
jbe@161	438 // read next char after backslash escape:
jbe@161	439 c = str[pos++];
jbe@161	440 switch (c) {
jbe@161	441 // unexpected end-of-string:
jbe@161	442 case 0:
jbe@161	443 goto json_import_unexpected_eof;
jbe@161	444 // unescaping of quotation mark, slash, and backslash:
jbe@161	445 case '"':
jbe@161	446 case '/':
jbe@161	447 case '\\':
jbe@162	448 cbuf[outlen++] = c;
jbe@161	449 break;
jbe@161	450 // unescaping of backspace:
jbe@162	451 case 'b': cbuf[outlen++] = '\b'; break;
jbe@161	452 // unescaping of form-feed:
jbe@162	453 case 'f': cbuf[outlen++] = '\f'; break;
jbe@161	454 // unescaping of new-line:
jbe@162	455 case 'n': cbuf[outlen++] = '\n'; break;
jbe@161	456 // unescaping of carriage-return:
jbe@162	457 case 'r': cbuf[outlen++] = '\r'; break;
jbe@161	458 // unescaping of tabulator:
jbe@162	459 case 't': cbuf[outlen++] = '\t'; break;
jbe@161	460 // unescaping of UTF-16 characters
jbe@161	461 case 'u':
jbe@167	462 // decode 4 hex nibbles:
jbe@167	463 json_import_readhex(codepoint);
jbe@167	464 // handle surrogate character:
jbe@167	465 if (json_utf16_surrogate(codepoint)) {
jbe@167	466 // check if first surrogate is in valid range:
jbe@167	467 if (json_utf16_lead(codepoint)) {
jbe@167	468 // require second surrogate:
jbe@167	469 if ((c = str[pos++]) != '\\' \|\| (c = str[pos++]) != 'u') {
jbe@167	470 if (c == 0) goto json_import_unexpected_eof;
jbe@167	471 else goto json_import_wrong_surrogate;
jbe@167	472 }
jbe@167	473 // read 4 hex nibbles of second surrogate character:
jbe@167	474 json_import_readhex(utf16tail);
jbe@167	475 // check if second surrogate is in valid range:
jbe@167	476 if (!json_utf16_tail(utf16tail)) goto json_import_wrong_surrogate;
jbe@167	477 // calculate codepoint:
jbe@167	478 codepoint = 0x10000 + (utf16tail - 0xDC00) + (codepoint - 0xD800) * 0x400;
jbe@167	479 } else {
jbe@167	480 // throw error for wrong surrogates:
jbe@167	481 json_import_wrong_surrogate:
jbe@167	482 lua_pushnil(L);
jbe@167	483 lua_pushliteral(L, "Illegal UTF-16 surrogate in JSON string escape sequence");
jbe@167	484 return 2;
jbe@167	485 }
jbe@167	486 }
jbe@167	487 // encode as UTF-8:
jbe@167	488 if (codepoint < 0x80) {
jbe@167	489 cbuf[outlen++] = (char)codepoint;
jbe@167	490 } else if (codepoint < 0x800) {
jbe@167	491 cbuf[outlen++] = (char)(0xc0 \| (codepoint >> 6));
jbe@167	492 cbuf[outlen++] = (char)(0x80 \| (codepoint & 0x3f));
jbe@167	493 } else if (codepoint < 0x10000) {
jbe@167	494 cbuf[outlen++] = (char)(0xe0 \| (codepoint >> 12));
jbe@167	495 cbuf[outlen++] = (char)(0x80 \| ((codepoint >> 6) & 0x3f));
jbe@167	496 cbuf[outlen++] = (char)(0x80 \| (codepoint & 0x3f));
jbe@167	497 } else {
jbe@167	498 cbuf[outlen++] = (char)(0xf0 \| (codepoint >> 18));
jbe@167	499 cbuf[outlen++] = (char)(0x80 \| ((codepoint >> 12) & 0x3f));
jbe@167	500 cbuf[outlen++] = (char)(0x80 \| ((codepoint >> 6) & 0x3f));
jbe@167	501 cbuf[outlen++] = (char)(0x80 \| (codepoint & 0x3f));
jbe@167	502 }
jbe@167	503 break;
jbe@161	504 // unexpected escape sequence:
jbe@161	505 default:
jbe@167	506 json_import_unexpected_escape:
jbe@161	507 lua_pushnil(L);
jbe@161	508 lua_pushliteral(L, "Unexpected string escape sequence in JSON document");
jbe@161	509 return 2;
jbe@161	510 }
jbe@161	511 } else {
jbe@161	512 // normal character:
jbe@162	513 cbuf[outlen++] = c;
jbe@121	514 }
jbe@121	515 }
jbe@161	516 // process buffer to Lua string:
jbe@162	517 luaL_pushresultsize(&luabuf, outlen);
jbe@161	518 } else {
jbe@161	519 // if JSON string is empty,
jbe@161	520 // push empty Lua string:
jbe@161	521 lua_pushliteral(L, "");
jbe@167	522 // consume closing quote:
jbe@167	523 pos++;
jbe@121	524 }
jbe@136	525 // continue with processing of decoded string:
jbe@121	526 goto json_import_process_value;
jbe@121	527 }
jbe@136	528 // process values whose type is is not deducible from a single character:
jbe@136	529 if ((c >= '0' && c <= '9') \|\| c == '-' \|\| c == '+') {
jbe@146	530 // for numbers,
jbe@146	531 // use strtod() call to parse a (double precision) floating point number:
jbe@167	532 double numval;
jbe@122	533 char *endptr;
jbe@122	534 numval = strtod(str+pos, &endptr);
jbe@146	535 // catch parsing errors:
jbe@122	536 if (endptr == str+pos) goto json_import_syntax_error;
jbe@146	537 // consume characters that were parsed:
jbe@122	538 pos += endptr - (str+pos);
jbe@146	539 // push parsed (double precision) floating point number on Lua stack:
jbe@122	540 lua_pushnumber(L, numval);
jbe@122	541 } else if (!strncmp(str+pos, "true", 4)) {
jbe@136	542 // consume 4 input characters for "true":
jbe@121	543 pos += 4;
jbe@147	544 // put Lua true value onto stack:
jbe@136	545 lua_pushboolean(L, 1);
jbe@121	546 } else if (!strncmp(str+pos, "false", 5)) {
jbe@136	547 // consume 5 input characters for "false":
jbe@121	548 pos += 5;
jbe@147	549 // put Lua false value onto stack:
jbe@136	550 lua_pushboolean(L, 0);
jbe@121	551 } else if (!strncmp(str+pos, "null", 4)) {
jbe@136	552 // consume 4 input characters for "null":
jbe@136	553 pos += 4;
jbe@194	554 // push special null-marker onto stack:
jbe@194	555 json_pushnullmark(L);
jbe@121	556 } else {
jbe@136	557 // all other cases are a syntax error:
jbe@121	558 goto json_import_syntax_error;
jbe@121	559 }
jbe@136	560 // process a decoded value or key value pair (expected on top of Lua stack):
jbe@136	561 json_import_process_value:
jbe@121	562 switch (mode) {
jbe@136	563 // an object key has been read:
jbe@124	564 case JSON_STATE_OBJECT_KEY:
jbe@136	565 // if an object key is not a string, then this is a syntax error:
jbe@121	566 if (lua_type(L, -1) != LUA_TSTRING) goto json_import_syntax_error;
jbe@146	567 // expect key terminator to follow:
jbe@124	568 mode = JSON_STATE_OBJECT_KEY_TERMINATOR;
jbe@146	569 // continue with loop:
jbe@121	570 goto json_import_loop;
jbe@136	571 // a key value pair has been read:
jbe@124	572 case JSON_STATE_OBJECT_VALUE:
jbe@136	573 // store key value pair in outer shadow table:
jbe@130	574 lua_rawset(L, -3);
jbe@146	575 // expect value terminator (or end of object) to follow:
jbe@124	576 mode = JSON_STATE_OBJECT_SEPARATOR;
jbe@146	577 // continue with loop:
jbe@121	578 goto json_import_loop;
jbe@136	579 // an array value has been read:
jbe@124	580 case JSON_STATE_ARRAY_VALUE:
jbe@152	581 // get current array length:
jbe@152	582 arraylen = lua_rawlen(L, -3);
jbe@152	583 // throw error if array would exceed INT_MAX elements:
jbe@152	584 // TODO: Lua 5.3 may support more elements
jbe@152	585 if (arraylen >= INT_MAX) {
jbe@152	586 lua_pushnil(L);
jbe@152	587 lua_pushfstring(L, "Array exceeded length of %d elements", INT_MAX);
jbe@152	588 }
jbe@136	589 // store value in outer shadow table:
jbe@152	590 lua_rawseti(L, -3, arraylen + 1);
jbe@146	591 // expect value terminator (or end of object) to follow:
jbe@124	592 mode = JSON_STATE_ARRAY_SEPARATOR;
jbe@146	593 // continue with loop
jbe@121	594 goto json_import_loop;
jbe@136	595 // a single value has been read:
jbe@124	596 case JSON_STATE_VALUE:
jbe@136	597 // leave value on top of stack, expect end of JSON document, and continue with loop:
jbe@124	598 mode = JSON_STATE_END;
jbe@121	599 goto json_import_loop;
jbe@121	600 }
jbe@146	601 // syntax error handling (reachable by goto statement):
jbe@136	602 json_import_syntax_error:
jbe@121	603 lua_pushnil(L);
jbe@121	604 lua_pushliteral(L, "Syntax error in JSON document");
jbe@121	605 return 2;
jbe@121	606 }
jbe@121	607
jbe@146	608 // gets a value or its type from a JSON document (passed as first argument)
jbe@175	609 // using a path (passed as variable number of keys after the first argument):
jbe@137	610 static int json_path(lua_State *L, int type_mode) {
jbe@193	611 int stacktop; // number of arguments
jbe@193	612 int idx = 2; // stack index of current argument to process
jbe@173	613 // require at least one argument:
jbe@173	614 luaL_checkany(L, 1);
jbe@193	615 // store stack index of top of stack (number of arguments):
jbe@138	616 stacktop = lua_gettop(L);
jbe@146	617 // use first argument as "current value" (stored on top of stack):
jbe@193	618 lua_pushvalue(L, 1);
jbe@146	619 // process each "path key" (2nd argument and following arguments):
jbe@138	620 while (idx <= stacktop) {
jbe@146	621 // if "current value" (on top of stack) is nil, then the path cannot be walked and nil is returned:
jbe@137	622 if (lua_isnil(L, -1)) return 1;
jbe@137	623 // try to get shadow table of "current value":
jbe@193	624 json_getshadow(L, -1);
jbe@126	625 if (lua_isnil(L, -1)) {
jbe@137	626 // if no shadow table is found,
jbe@193	627 if (lua_type(L, -2) == LUA_TTABLE) {
jbe@146	628 // and if "current value" is a table,
jbe@193	629 // pop nil from stack:
jbe@146	630 lua_pop(L, 1);
jbe@137	631 // get "next value" using the "path key":
jbe@130	632 lua_pushvalue(L, idx++);
jbe@130	633 lua_gettable(L, -2);
jbe@130	634 } else {
jbe@137	635 // if "current value" is not a table,
jbe@146	636 // then the path cannot be walked and nil (already on top of stack) is returned:
jbe@137	637 return 1;
jbe@130	638 }
jbe@130	639 } else {
jbe@137	640 // if a shadow table is found,
jbe@137	641 // set "current value" to its shadow table:
jbe@130	642 lua_replace(L, -2);
jbe@137	643 // get "next value" using the "path key":
jbe@130	644 lua_pushvalue(L, idx++);
jbe@130	645 lua_rawget(L, -2);
jbe@126	646 }
jbe@137	647 // the "next value" replaces the "current value":
jbe@130	648 lua_replace(L, -2);
jbe@126	649 }
jbe@137	650 if (!type_mode) {
jbe@137	651 // if a value (and not its type) was requested,
jbe@137	652 // check if value is the null-marker, and store nil on top of Lua stack in that case:
jbe@155	653 if (json_isnullmark(L, -1)) lua_pushnil(L);
jbe@137	654 } else {
jbe@137	655 // if the type was requested,
jbe@137	656 // check if value is the null-marker:
jbe@155	657 if (json_isnullmark(L, -1)) {
jbe@137	658 // if yes, store string "null" on top of Lua stack:
jbe@130	659 lua_pushliteral(L, "null");
jbe@137	660 } else {
jbe@137	661 // otherwise,
jbe@138	662 // check if metatable indicates "object" or "array":
jbe@138	663 if (lua_getmetatable(L, -1)) {
jbe@144	664 json_regfetch(L, objectmt);
jbe@138	665 if (lua_rawequal(L, -2, -1)) {
jbe@146	666 // if value has metatable for JSON objects,
jbe@138	667 // return string "object":
jbe@138	668 lua_pushliteral(L, "object");
jbe@138	669 return 1;
jbe@138	670 }
jbe@144	671 json_regfetch(L, arraymt);
jbe@138	672 if (lua_rawequal(L, -3, -1)) {
jbe@146	673 // if value has metatable for JSON arrays,
jbe@146	674 // return string "object":
jbe@138	675 lua_pushliteral(L, "array");
jbe@138	676 return 1;
jbe@138	677 }
jbe@146	678 // remove 3 metatables (one of the value, two for comparison) from stack:
jbe@138	679 lua_pop(L, 3);
jbe@138	680 }
jbe@138	681 // otherwise, get the Lua type:
jbe@138	682 lua_pushstring(L, lua_typename(L, lua_type(L, -1)));
jbe@126	683 }
jbe@126	684 }
jbe@137	685 // return the top most value on the Lua stack:
jbe@137	686 return 1;
jbe@130	687 }
jbe@130	688
jbe@147	689 // gets a value from a JSON document (passed as first argument)
jbe@175	690 // using a path (passed as variable number of keys after the first argument):
jbe@130	691 static int json_get(lua_State *L) {
jbe@137	692 return json_path(L, 0);
jbe@130	693 }
jbe@130	694
jbe@147	695 // gets a value's type from a JSON document (passed as first argument)
jbe@175	696 // using a path (passed as variable number of keys after first the argument):
jbe@130	697 static int json_type(lua_State *L) {
jbe@137	698 return json_path(L, 1);
jbe@130	699 }
jbe@130	700
jbe@173	701 // special Lua stack indicies for json_set function:
jbe@193	702 #define json_set_objectmt_idx 1
jbe@193	703 #define json_set_arraymt_idx 2
jbe@173	704
jbe@173	705 // stack offset of arguments to json_set function:
jbe@193	706 #define json_set_idxshift 2
jbe@173	707
jbe@173	708 // sets a value (passed as second argument) in a JSON document (passed as first argument)
jbe@175	709 // using a path (passed as variable number of keys starting at third argument):
jbe@173	710 static int json_set(lua_State *L) {
jbe@193	711 int stacktop; // stack index of top of stack (after shifting)
jbe@193	712 int idx; // stack index of current argument to process
jbe@173	713 // require at least two arguments:
jbe@173	714 luaL_checkany(L, 1);
jbe@173	715 luaL_checkany(L, 2);
jbe@193	716 // insert objectmt into stack at position 1 (shifting the arguments):
jbe@173	717 json_regfetch(L, objectmt);
jbe@193	718 lua_insert(L, 1);
jbe@193	719 // insert arraymt into stack at position 2 (shifting the arguments):
jbe@193	720 json_regfetch(L, arraymt);
jbe@173	721 lua_insert(L, 2);
jbe@173	722 // store stack index of top of stack:
jbe@173	723 stacktop = lua_gettop(L);
jbe@173	724 // use nil as initial "parent value":
jbe@173	725 lua_pushnil(L);
jbe@173	726 // use first argument as "current value":
jbe@173	727 lua_pushvalue(L, 1 + json_set_idxshift);
jbe@173	728 // set all necessary values in path:
jbe@173	729 for (idx = 3 + json_set_idxshift; idx<=stacktop; idx++) {
jbe@173	730 // push metatable of "current value" onto stack:
jbe@173	731 if (!lua_getmetatable(L, -1)) lua_pushnil(L);
jbe@173	732 // distinguish according to type of path key:
jbe@173	733 switch (lua_type(L, idx)) {
jbe@173	734 case LUA_TSTRING:
jbe@173	735 // if path key is a string,
jbe@173	736 // check if "current value" is a JSON object (or table without metatable):
jbe@173	737 if (
jbe@173	738 lua_rawequal(L, -1, json_set_objectmt_idx) \|\|
jbe@173	739 (lua_isnil(L, -1) && lua_type(L, -2) == LUA_TTABLE)
jbe@173	740 ) {
jbe@173	741 // if "current value" is acceptable,
jbe@173	742 // pop metatable and leave "current value" on top of stack:
jbe@173	743 lua_pop(L, 1);
jbe@173	744 } else {
jbe@173	745 // if "current value" is not acceptable:
jbe@173	746 // pop metatable and "current value":
jbe@173	747 lua_pop(L, 2);
jbe@173	748 // throw error if parent element does not exist:
jbe@173	749 if (lua_isnil(L, -1)) return luaL_error(L, "Root element is not a JSON object");
jbe@173	750 // push new JSON object as "current value" onto stack:
jbe@193	751 json_createproxy(L);
jbe@173	752 // create and register shadow table:
jbe@173	753 lua_newtable(L);
jbe@193	754 json_setshadow(L, -2);
jbe@173	755 // set metatable of JSON object:
jbe@173	756 lua_pushvalue(L, json_set_objectmt_idx);
jbe@173	757 lua_setmetatable(L, -2);
jbe@173	758 // set entry in "parent value":
jbe@173	759 lua_pushvalue(L, idx-1);
jbe@173	760 lua_pushvalue(L, -2);
jbe@173	761 lua_settable(L, -4);
jbe@173	762 }
jbe@173	763 break;
jbe@173	764 case LUA_TNUMBER:
jbe@173	765 // if path key is a number,
jbe@173	766 // check if "current value" is a JSON array (or table without metatable):
jbe@173	767 if (
jbe@173	768 lua_rawequal(L, -1, json_set_arraymt_idx) \|\|
jbe@173	769 (lua_isnil(L, -1) && lua_type(L, -2) == LUA_TTABLE)
jbe@173	770 ) {
jbe@173	771 // if "current value" is acceptable,
jbe@173	772 // pop metatable and leave "current value" on top of stack:
jbe@173	773 lua_pop(L, 1);
jbe@173	774 } else {
jbe@173	775 // if "current value" is not acceptable:
jbe@173	776 // pop metatable and "current value":
jbe@173	777 lua_pop(L, 2);
jbe@173	778 // throw error if parent element does not exist:
jbe@173	779 if (lua_isnil(L, -1)) return luaL_error(L, "Root element is not a JSON array");
jbe@173	780 // push new JSON array as "current value" onto stack:
jbe@193	781 json_createproxy(L);
jbe@173	782 // create and register shadow table:
jbe@173	783 lua_newtable(L);
jbe@193	784 json_setshadow(L, -2);
jbe@173	785 // set metatable of JSON array:
jbe@173	786 lua_pushvalue(L, json_set_arraymt_idx);
jbe@173	787 lua_setmetatable(L, -2);
jbe@173	788 // set entry in "parent value":
jbe@173	789 lua_pushvalue(L, idx-1);
jbe@173	790 lua_pushvalue(L, -2);
jbe@173	791 lua_settable(L, -4);
jbe@173	792 }
jbe@173	793 break;
jbe@173	794 default:
jbe@173	795 return luaL_error(L, "Invalid path key of type %s", lua_typename(L, lua_type(L, idx)));
jbe@173	796 }
jbe@173	797 // check if last path element is being processed:
jbe@173	798 if (idx == stacktop) {
jbe@173	799 // if the last path element is being processed,
jbe@173	800 // set last path value in "current value" container:
jbe@173	801 lua_pushvalue(L, idx);
jbe@173	802 lua_pushvalue(L, 2 + json_set_idxshift);
jbe@173	803 lua_settable(L, -3);
jbe@173	804 } else {
jbe@173	805 // if the processed path element is not the last,
jbe@173	806 // use old "current value" as new "parent value"
jbe@173	807 lua_remove(L, -2);
jbe@173	808 // push new "current value" onto stack by performing a lookup:
jbe@173	809 lua_pushvalue(L, idx);
jbe@173	810 lua_gettable(L, -2);
jbe@173	811 }
jbe@173	812 }
jbe@173	813 // return first argument for convenience:
jbe@173	814 lua_settop(L, 1 + json_set_idxshift);
jbe@173	815 return 1;
jbe@173	816 }
jbe@173	817
jbe@147	818 // returns the length of a JSON array (or zero for a table without numeric keys):
jbe@130	819 static int json_len(lua_State *L) {
jbe@147	820 // stack shall contain one function argument:
jbe@130	821 lua_settop(L, 1);
jbe@193	822 // push shadow table or nil onto stack:
jbe@193	823 json_getshadow(L, 1);
jbe@193	824 // pop nil from stack if no shadow table has been found:
jbe@193	825 if (lua_isnil(L, -1)) lua_pop(L, 1);
jbe@193	826 // return length of argument or shadow table:
jbe@193	827 lua_pushnumber(L, lua_rawlen(L, -1));
jbe@123	828 return 1;
jbe@123	829 }
jbe@123	830
jbe@175	831 // __index metamethod for JSON objects and JSON arrays:
jbe@130	832 static int json_index(lua_State *L) {
jbe@148	833 // stack shall contain two function arguments:
jbe@130	834 lua_settop(L, 2);
jbe@193	835 // replace first argument with its shadow table
jbe@193	836 // or throw error if no shadow table is found:
jbe@193	837 json_getshadow(L, 1);
jbe@139	838 if (lua_isnil(L, -1)) return luaL_error(L, "Shadow table not found");
jbe@193	839 lua_replace(L, 1);
jbe@148	840 // use key passed as second argument to lookup value in shadow table:
jbe@193	841 lua_rawget(L, 1);
jbe@148	842 // if value is null-marker, then push nil onto stack:
jbe@193	843 if (json_isnullmark(L, 2)) lua_pushnil(L);
jbe@148	844 // return either looked up value, or nil
jbe@127	845 return 1;
jbe@127	846 }
jbe@127	847
jbe@175	848 // __newindex metamethod for JSON objects and JSON arrays:
jbe@130	849 static int json_newindex(lua_State *L) {
jbe@148	850 // stack shall contain three function arguments:
jbe@130	851 lua_settop(L, 3);
jbe@193	852 // replace first argument with its shadow table
jbe@193	853 // or throw error if no shadow table is found:
jbe@193	854 json_getshadow(L, 1);
jbe@130	855 if (lua_isnil(L, -1)) return luaL_error(L, "Shadow table not found");
jbe@130	856 lua_replace(L, 1);
jbe@193	857 // second and third argument to write to shadow table:
jbe@130	858 lua_rawset(L, 1);
jbe@148	859 // return nothing:
jbe@148	860 return 0;
jbe@121	861 }
jbe@121	862
jbe@175	863 // function returned as first value by json_pairs function:
jbe@135	864 static int json_pairs_iterfunc(lua_State *L) {
jbe@149	865 // stack shall contain two function arguments:
jbe@135	866 lua_settop(L, 2);
jbe@193	867 // replace first argument with its shadow table
jbe@193	868 // or throw error if no shadow table is found:
jbe@193	869 json_getshadow(L, 1);
jbe@135	870 if (lua_isnil(L, -1)) return luaL_error(L, "Shadow table not found");
jbe@193	871 lua_replace(L, 1);
jbe@149	872 // get next key value pair from shadow table (using previous key from argument 2)
jbe@149	873 // and return nothing if there is no next pair:
jbe@193	874 if (!lua_next(L, 1)) return 0;
jbe@149	875 // replace null-marker with nil:
jbe@155	876 if (json_isnullmark(L, -1)) {
jbe@135	877 lua_pop(L, 1);
jbe@135	878 lua_pushnil(L);
jbe@135	879 }
jbe@149	880 // return key and value (or key and nil, if null-marker was found):
jbe@135	881 return 2;
jbe@135	882 }
jbe@135	883
jbe@149	884 // returns a triple such that 'for key, value in pairs(obj) do ... end'
jbe@175	885 // iterates through all key value pairs (including JSON null values represented as Lua nil):
jbe@135	886 static int json_pairs(lua_State *L) {
jbe@172	887 // require one argument to function
jbe@172	888 luaL_checkany(L, 1);
jbe@149	889 // return triple of function json_pairs_iterfunc, first argument, and nil:
jbe@139	890 lua_pushcfunction(L, json_pairs_iterfunc);
jbe@135	891 lua_pushvalue(L, 1);
jbe@135	892 lua_pushnil(L);
jbe@135	893 return 3;
jbe@135	894 }
jbe@135	895
jbe@175	896 // function returned as first value by json_ipairs function:
jbe@134	897 static int json_ipairs_iterfunc(lua_State *L) {
jbe@152	898 lua_Integer idx;
jbe@149	899 // stack shall contain two function arguments:
jbe@134	900 lua_settop(L, 2);
jbe@149	901 // calculate new index by incrementing second argument:
jbe@134	902 idx = lua_tointeger(L, 2) + 1;
jbe@193	903 // push shadow table onto stack position 3
jbe@193	904 // or throw error if no shadow table is found:
jbe@193	905 json_getshadow(L, 1);
jbe@134	906 if (lua_isnil(L, -1)) return luaL_error(L, "Shadow table not found");
jbe@193	907 // do integer lookup in shadow table and store result on stack position 4:
jbe@193	908 lua_rawgeti(L, 3, idx);
jbe@149	909 // return nothing if there was no value:
jbe@193	910 if (lua_isnil(L, 4)) return 0;
jbe@149	911 // return new index and
jbe@149	912 // either the looked up value if it is not equal to the null-marker
jbe@149	913 // or nil instead of null-marker:
jbe@134	914 lua_pushinteger(L, idx);
jbe@193	915 if (json_isnullmark(L, 4)) lua_pushnil(L);
jbe@193	916 else lua_pushvalue(L, 4);
jbe@134	917 return 2;
jbe@134	918 }
jbe@134	919
jbe@149	920 // returns a triple such that 'for idx, value in ipairs(ary) do ... end'
jbe@175	921 // iterates through all values (including JSON null values represented as Lua nil):
jbe@134	922 static int json_ipairs(lua_State *L) {
jbe@172	923 // require one argument to function
jbe@172	924 luaL_checkany(L, 1);
jbe@149	925 // return triple of function json_ipairs_iterfunc, first argument, and zero:
jbe@139	926 lua_pushcfunction(L, json_ipairs_iterfunc);
jbe@134	927 lua_pushvalue(L, 1);
jbe@134	928 lua_pushinteger(L, 0);
jbe@134	929 return 3;
jbe@134	930 }
jbe@134	931
jbe@175	932 // datatype representing a table key:
jbe@175	933 // (used for sorting)
jbe@163	934 typedef struct {
jbe@163	935 size_t length;
jbe@163	936 const char *data;
jbe@163	937 } json_key_t;
jbe@163	938
jbe@175	939 // comparation function for table keys to be passed to qsort function:
jbe@163	940 static int json_key_cmp(json_key_t key1, json_key_t key2) {
jbe@163	941 size_t pos = 0;
jbe@163	942 unsigned char c1, c2;
jbe@163	943 while (1) {
jbe@163	944 if (key1->length > pos) {
jbe@163	945 if (key2->length > pos) {
jbe@163	946 c1 = key1->data[pos];
jbe@163	947 c2 = key2->data[pos];
jbe@163	948 if (c1 < c2) return -1;
jbe@163	949 else if (c1 > c2) return 1;
jbe@163	950 } else {
jbe@163	951 return 1;
jbe@163	952 }
jbe@163	953 } else {
jbe@163	954 if (key2->length > pos) {
jbe@163	955 return -1;
jbe@163	956 } else {
jbe@163	957 return 0;
jbe@163	958 }
jbe@163	959 }
jbe@163	960 pos++;
jbe@163	961 }
jbe@163	962 }
jbe@163	963
jbe@175	964 // constants for type detection of ambiguous tables:
jbe@154	965 #define JSON_TABLETYPE_UNKNOWN 0
jbe@154	966 #define JSON_TABLETYPE_OBJECT 1
jbe@154	967 #define JSON_TABLETYPE_ARRAY 2
jbe@154	968
jbe@183	969 typedef struct {
jbe@183	970 int type;
jbe@183	971 int pos;
jbe@183	972 int count;
jbe@183	973 json_key_t keys[1]; // or more
jbe@183	974 } json_container_t;
jbe@183	975
jbe@183	976 // special Lua stack indicies for json_export function:
jbe@183	977 #define json_export_value_idx 1
jbe@183	978 #define json_export_indentstring_idx 2
jbe@183	979 #define json_export_objectmt_idx 3
jbe@183	980 #define json_export_arraymt_idx 4
jbe@193	981 #define json_export_stackswap_idx 5
jbe@193	982 #define json_export_luacontainer_idx 6
jbe@193	983 #define json_export_ccontainer_idx 7
jbe@193	984 #define json_export_buffer_idx 8
jbe@164	985
jbe@183	986 // encodes a JSON document (passed as first argument)
jbe@187	987 // optionally using indentation (indentation string or true passed as second argument)
jbe@183	988 static int json_export(lua_State *L) {
jbe@183	989 int pretty; // pretty printing on? (i.e. printing with indentation)
jbe@183	990 luaL_Buffer buf; // Lua buffer containing result string
jbe@183	991 lua_Number num; // number to encode
jbe@190	992 char numstr[21]; // encoded number (sign, zero, point, 17 significant digits, and terminating NULL byte)
jbe@183	993 const char *str; // string to encode
jbe@183	994 size_t strlen; // length of string to encode
jbe@183	995 size_t strpos ; // position in string or position of current key
jbe@183	996 unsigned char c; // character to encode (unsigned!)
jbe@183	997 char hexcode[7]; // store for unicode hex escape sequence
jbe@183	998 // NOTE: 7 bytes due to backslash, character 'u', 4 hex digits, and terminating NULL byte
jbe@183	999 int tabletype; // table type: unknown, JSON object, or JSON array
jbe@183	1000 size_t keycount = 0; // number of string keys in object
jbe@185	1001 json_key_t *key; // pointer to C structure containing a string key
jbe@183	1002 int level = 0; // current depth level
jbe@183	1003 int i; // iteration variable for level dependent repetitions
jbe@183	1004 int stackswapidx = 0; // elements in stack swap table
jbe@183	1005 int containerkey = 0; // temporarily set to 1, if a container key is being encoded
jbe@183	1006 json_container_t *container = NULL; // pointer to current C struct for container information
jbe@183	1007 // stack shall contain two function arguments:
jbe@183	1008 lua_settop(L, 2);
jbe@188	1009 // check if pretty printing (with indentation) is desired:
jbe@188	1010 if (lua_toboolean(L, json_export_indentstring_idx)) {
jbe@188	1011 // if yes,
jbe@188	1012 // set pretty variable to 1:
jbe@188	1013 pretty = 1;
jbe@188	1014 // check if second argument is a boolean (true):
jbe@188	1015 if (lua_isboolean(L, json_export_indentstring_idx)) {
jbe@188	1016 // if yes,
jbe@188	1017 // use default indentation if indentation argument is boolean true:
jbe@188	1018 lua_pushliteral(L, " ");
jbe@188	1019 lua_replace(L, json_export_indentstring_idx);
jbe@188	1020 } else {
jbe@188	1021 // if no,
jbe@188	1022 // require second argument to be a string:
jbe@188	1023 luaL_checktype(L, json_export_indentstring_idx, LUA_TSTRING);
jbe@188	1024 }
jbe@188	1025 } else {
jbe@188	1026 // if no,
jbe@188	1027 // set pretty variable to 0:
jbe@188	1028 pretty = 0;
jbe@157	1029 }
jbe@183	1030 // push objectmt onto stack position 3:
jbe@183	1031 json_regfetch(L, objectmt);
jbe@183	1032 // push arraymt onto stack position 4:
jbe@183	1033 json_regfetch(L, arraymt);
jbe@193	1034 // push table for stack swapping onto stack position 5:
jbe@183	1035 lua_newtable(L);
jbe@193	1036 // create placeholders on stack positions 6 through 7:
jbe@187	1037 lua_settop(L, json_export_buffer_idx);
jbe@183	1038 // create Lua string buffer:
jbe@183	1039 luaL_buffinit(L, &buf);
jbe@183	1040 // loop:
jbe@183	1041 while (1) {
jbe@183	1042 // if value to encode is the null-marker, then treat it the same as nil:
jbe@183	1043 if (json_isnullmark(L, json_export_value_idx)) {
jbe@183	1044 lua_pushnil(L);
jbe@183	1045 lua_replace(L, json_export_value_idx);
jbe@164	1046 }
jbe@183	1047 // distinguish between different Lua types:
jbe@183	1048 switch (lua_type(L, json_export_value_idx)) {
jbe@183	1049 // value to encode is nil:
jbe@183	1050 case LUA_TNIL:
jbe@183	1051 // add string "null" to output buffer:
jbe@183	1052 luaL_addstring(&buf, "null");
jbe@183	1053 break;
jbe@183	1054 // value to encode is of type number:
jbe@183	1055 case LUA_TNUMBER:
jbe@183	1056 // convert value to double precision number:
jbe@183	1057 num = lua_tonumber(L, json_export_value_idx);
jbe@183	1058 // throw error if number is not-a-number:
jbe@183	1059 if (isnan(num)) return luaL_error(L, "JSON export not possible for NaN value");
jbe@183	1060 // throw error if number is positive or negative infinity:
jbe@183	1061 if (isinf(num)) return luaL_error(L, "JSON export not possible for infinite numbers");
jbe@191	1062 // determine necessary precision to represent double precision floating point number:
jbe@192	1063 sprintf(numstr, "%.16g", num);
jbe@191	1064 if (strtod(numstr, NULL) != num) sprintf(numstr, "%.17g", num);
jbe@191	1065 // add string encoding of the number to the output buffer:
jbe@189	1066 luaL_addstring(&buf, numstr);
jbe@183	1067 break;
jbe@183	1068 // value to encode is of type boolean:
jbe@183	1069 case LUA_TBOOLEAN:
jbe@183	1070 // add string "true" or "false" according to boolean value:
jbe@183	1071 luaL_addstring(&buf, lua_toboolean(L, json_export_value_idx) ? "true" : "false");
jbe@183	1072 break;
jbe@183	1073 // value to encode is of type string:
jbe@183	1074 case LUA_TSTRING:
jbe@183	1075 // add quoted and escaped string to output buffer:
jbe@183	1076 str = lua_tolstring(L, json_export_value_idx, &strlen);
jbe@183	1077 luaL_addchar(&buf, '"');
jbe@183	1078 strpos = 0;
jbe@183	1079 while (strpos < strlen) {
jbe@183	1080 c = str[strpos++];
jbe@183	1081 if (c == '"') luaL_addstring(&buf, "\\\"");
jbe@183	1082 else if (c == '\\') luaL_addstring(&buf, "\\\\");
jbe@183	1083 else if (c == 127) luaL_addstring(&buf, "\\u007F");
jbe@183	1084 else if (c >= 32) luaL_addchar(&buf, c);
jbe@183	1085 else if (c == '\b') luaL_addstring(&buf, "\\b");
jbe@183	1086 else if (c == '\f') luaL_addstring(&buf, "\\f");
jbe@183	1087 else if (c == '\n') luaL_addstring(&buf, "\\n");
jbe@183	1088 else if (c == '\r') luaL_addstring(&buf, "\\r");
jbe@183	1089 else if (c == '\t') luaL_addstring(&buf, "\\t");
jbe@183	1090 else if (c == '\v') luaL_addstring(&buf, "\\v");
jbe@183	1091 else {
jbe@183	1092 sprintf(hexcode, "\\u%04X", c);
jbe@183	1093 luaL_addstring(&buf, hexcode);
jbe@154	1094 }
jbe@154	1095 }
jbe@183	1096 luaL_addchar(&buf, '"');
jbe@183	1097 break;
jbe@183	1098 // value to encode is of type table (this includes JSON objects and JSON arrays):
jbe@183	1099 case LUA_TTABLE:
jbe@183	1100 // use table's metatable to try to determine type of table:
jbe@183	1101 tabletype = JSON_TABLETYPE_UNKNOWN;
jbe@188	1102 if (lua_getmetatable(L, json_export_value_idx)) {
jbe@183	1103 if (lua_rawequal(L, -1, json_export_objectmt_idx)) {
jbe@183	1104 tabletype = JSON_TABLETYPE_OBJECT;
jbe@183	1105 } else {
jbe@183	1106 if (lua_rawequal(L, -1, json_export_arraymt_idx)) {
jbe@183	1107 tabletype = JSON_TABLETYPE_ARRAY;
jbe@183	1108 } else {
jbe@183	1109 return luaL_error(L, "JSON export not possible for tables with nonsupported metatable");
jbe@183	1110 }
jbe@183	1111 }
jbe@183	1112 // reset stack (pop metatable from stack):
jbe@183	1113 lua_pop(L, 1);
jbe@183	1114 }
jbe@193	1115 // replace table with its shadow table if existent:
jbe@193	1116 json_getshadow(L, json_export_value_idx);
jbe@183	1117 if (lua_isnil(L, -1)) lua_pop(L, 1);
jbe@193	1118 else lua_replace(L, json_export_value_idx);
jbe@187	1119 // check if type of table is still undetermined
jbe@187	1120 // and optionally calculate number of string keys (keycount)
jbe@187	1121 // or set keycount to zero:
jbe@186	1122 keycount = 0;
jbe@183	1123 if (tabletype == JSON_TABLETYPE_UNKNOWN) {
jbe@187	1124 // if type of table is undetermined,
jbe@187	1125 // iterate over all keys:
jbe@188	1126 for (lua_pushnil(L); lua_next(L, json_export_value_idx); lua_pop(L, 1)) {
jbe@183	1127 switch (lua_type(L, -2)) {
jbe@183	1128 case LUA_TSTRING:
jbe@183	1129 // for string keys,
jbe@183	1130 // increase keycount (may avoid another iteration):
jbe@183	1131 keycount++;
jbe@183	1132 // if type of table was unknown, then type of table is a JSON object now:
jbe@183	1133 if (tabletype == JSON_TABLETYPE_UNKNOWN) tabletype = JSON_TABLETYPE_OBJECT;
jbe@183	1134 // if type of table was a JSON array, then the type of table is ambiguous now
jbe@183	1135 // and an error is thrown:
jbe@183	1136 else if (tabletype == JSON_TABLETYPE_ARRAY) goto json_export_tabletype_error;
jbe@183	1137 break;
jbe@183	1138 case LUA_TNUMBER:
jbe@183	1139 // for numeric keys,
jbe@183	1140 // if type of table was unknown, then type of table is a JSON array now:
jbe@183	1141 if (tabletype == JSON_TABLETYPE_UNKNOWN) tabletype = JSON_TABLETYPE_ARRAY;
jbe@183	1142 // if type of table was a JSON object, then the type of table is ambiguous now
jbe@183	1143 // and an error is thrown:
jbe@183	1144 else if (tabletype == JSON_TABLETYPE_OBJECT) goto json_export_tabletype_error;
jbe@183	1145 break;
jbe@183	1146 }
jbe@164	1147 }
jbe@163	1148 }
jbe@183	1149 // raise error if too many nested levels:
jbe@183	1150 if (level >= JSON_MAXDEPTH) {
jbe@183	1151 return luaL_error(L, "More than %d nested JSON levels", JSON_MAXDEPTH);
jbe@163	1152 }
jbe@183	1153 // store previous container information (if existent) on stack swap
jbe@183	1154 // and increase level variable:
jbe@183	1155 if (level++) {
jbe@183	1156 lua_pushvalue(L, json_export_luacontainer_idx);
jbe@183	1157 lua_rawseti(L, json_export_stackswap_idx, ++stackswapidx);
jbe@183	1158 lua_pushvalue(L, json_export_ccontainer_idx);
jbe@183	1159 lua_rawseti(L, json_export_stackswap_idx, ++stackswapidx);
jbe@183	1160 }
jbe@188	1161 // use value as current container:
jbe@188	1162 lua_pushvalue(L, json_export_value_idx);
jbe@188	1163 lua_replace(L, json_export_luacontainer_idx);
jbe@183	1164 // distinguish between JSON objects and JSON arrays:
jbe@183	1165 switch (tabletype) {
jbe@183	1166 // JSON object:
jbe@183	1167 case JSON_TABLETYPE_OBJECT:
jbe@183	1168 // calculate count of string keys unless it has been calculated before:
jbe@183	1169 if (!keycount) {
jbe@183	1170 for (lua_pushnil(L); lua_next(L, json_export_luacontainer_idx); lua_pop(L, 1)) {
jbe@183	1171 if (lua_type(L, -2) == LUA_TSTRING) keycount++;
jbe@164	1172 }
jbe@164	1173 }
jbe@186	1174 // allocate memory for C structure containing string keys and container iteration state:
jbe@186	1175 container = lua_newuserdata(L, sizeof(json_container_t) + (keycount-1) * sizeof(json_key_t));
jbe@187	1176 // store reference to C structure on designated stack position:
jbe@186	1177 lua_replace(L, json_export_ccontainer_idx);
jbe@186	1178 // initialize C structure for container state:
jbe@186	1179 container->type = JSON_TABLETYPE_OBJECT;
jbe@186	1180 container->count = keycount;
jbe@186	1181 container->pos = 0;
jbe@187	1182 // check if object contains any keys:
jbe@183	1183 if (keycount) {
jbe@187	1184 // if yes,
jbe@187	1185 // copy all string keys to the C structure (and reset container->pos again):
jbe@183	1186 for (lua_pushnil(L); lua_next(L, json_export_luacontainer_idx); lua_pop(L, 1)) {
jbe@183	1187 if (lua_type(L, -2) == LUA_TSTRING) {
jbe@183	1188 json_key_t *key = &container->keys[container->pos++];
jbe@183	1189 key->data = lua_tolstring(L, -2, &key->length);
jbe@183	1190 }
jbe@183	1191 }
jbe@183	1192 container->pos = 0;
jbe@183	1193 // sort C array using quicksort:
jbe@183	1194 qsort(container->keys, keycount, sizeof(json_key_t), (void *)json_key_cmp);
jbe@154	1195 }
jbe@183	1196 // add opening bracket to output buffer:
jbe@183	1197 luaL_addchar(&buf, '{');
jbe@183	1198 break;
jbe@183	1199 // JSON array:
jbe@183	1200 case JSON_TABLETYPE_ARRAY:
jbe@187	1201 // allocate memory for C structure for container iteration state:
jbe@183	1202 container = lua_newuserdata(L, sizeof(json_container_t) - sizeof(json_key_t));
jbe@187	1203 // store reference to C structure on designated stack position:
jbe@183	1204 lua_replace(L, json_export_ccontainer_idx);
jbe@187	1205 // initialize C structure for container state:
jbe@183	1206 container->type = JSON_TABLETYPE_ARRAY;
jbe@183	1207 container->pos = 0;
jbe@183	1208 // add opening bracket to output buffer:
jbe@183	1209 luaL_addchar(&buf, '[');
jbe@183	1210 break;
jbe@183	1211 default:
jbe@183	1212 // throw error if table type is unknown:
jbe@183	1213 json_export_tabletype_error:
jbe@183	1214 return luaL_error(L, "JSON export not possible for ambiguous table (cannot decide whether it is an object or array)");
jbe@183	1215 }
jbe@183	1216 break;
jbe@183	1217 default:
jbe@183	1218 // all other datatypes are considered an error:
jbe@183	1219 return luaL_error(L, "JSON export not possible for values of type \"%s\"", lua_typename(L, lua_type(L, json_export_value_idx)));
jbe@183	1220 }
jbe@187	1221 // check if a container is being processed:
jbe@183	1222 if (container) {
jbe@187	1223 // if yes,
jbe@187	1224 // execute code for container iteration:
jbe@184	1225 json_export_container:
jbe@187	1226 // distinguish between JSON objects and JSON arrays:
jbe@183	1227 switch (container->type) {
jbe@187	1228 // JSON object:
jbe@183	1229 case JSON_TABLETYPE_OBJECT:
jbe@187	1230 // finish iteration if all string keys have been processed:
jbe@185	1231 if (container->pos == container->count) goto json_export_close;
jbe@187	1232 // push current string key on top of stack:
jbe@185	1233 key = &container->keys[container->pos];
jbe@185	1234 lua_pushlstring(L, key->data, key->length);
jbe@187	1235 // check if the key has already been exported:
jbe@185	1236 if (!containerkey) {
jbe@187	1237 // if no,
jbe@187	1238 // add a comma to the output buffer if necessary:
jbe@185	1239 if (container->pos) luaL_addchar(&buf, ',');
jbe@187	1240 // set containerkey variable to true:
jbe@185	1241 containerkey = 1;
jbe@183	1242 } else {
jbe@187	1243 // if a key has already been exported,
jbe@187	1244 // add a colon to the output buffer:
jbe@185	1245 luaL_addchar(&buf, ':');
jbe@187	1246 // add a space to the output buffer for pretty results:
jbe@185	1247 if (pretty) luaL_addchar(&buf, ' ');
jbe@187	1248 // replace string key on top of stack with corresponding value:
jbe@185	1249 lua_rawget(L, json_export_luacontainer_idx);
jbe@187	1250 // reset containerkey variable
jbe@185	1251 containerkey = 0;
jbe@187	1252 // increase number of processed key value pairs:
jbe@185	1253 container->pos++;
jbe@163	1254 }
jbe@187	1255 // store key or value on top of stack in designated stack position:
jbe@185	1256 lua_replace(L, json_export_value_idx);
jbe@183	1257 break;
jbe@187	1258 // JSON array:
jbe@183	1259 case JSON_TABLETYPE_ARRAY:
jbe@187	1260 // store next value in designated stack position:
jbe@185	1261 lua_rawgeti(L, json_export_luacontainer_idx, container->pos+1);
jbe@183	1262 lua_replace(L, json_export_value_idx);
jbe@187	1263 // finish iteration if value is nil:
jbe@185	1264 if (lua_isnil(L, json_export_value_idx)) goto json_export_close;
jbe@187	1265 // add a comma to the output buffer if necessary:
jbe@185	1266 if (container->pos) luaL_addchar(&buf, ',');
jbe@187	1267 // increase number of processed values:
jbe@185	1268 container->pos++;
jbe@183	1269 break;
jbe@187	1270 // common code for closing JSON objects or JSON arrays:
jbe@183	1271 json_export_close:
jbe@187	1272 // decrement level variable:
jbe@185	1273 level--;
jbe@187	1274 // handle indentation for pretty results:
jbe@187	1275 if (pretty && container->pos) {
jbe@187	1276 luaL_addchar(&buf, '\n');
jbe@187	1277 for (i=0; i<level; i++) {
jbe@187	1278 lua_pushvalue(L, json_export_indentstring_idx);
jbe@187	1279 luaL_addvalue(&buf);
jbe@185	1280 }
jbe@164	1281 }
jbe@187	1282 // add closing bracket to output buffer:
jbe@185	1283 luaL_addchar(&buf, container->type == JSON_TABLETYPE_OBJECT ? '}' : ']');
jbe@187	1284 // finish export if last level has been closed:
jbe@185	1285 if (!level) goto json_export_finish;
jbe@187	1286 // otherwise,
jbe@187	1287 // recall previous container information from stack swap
jbe@187	1288 // and set C pointer to corresponding C struct:
jbe@185	1289 lua_rawgeti(L, json_export_stackswap_idx, stackswapidx--);
jbe@185	1290 lua_replace(L, json_export_ccontainer_idx);
jbe@185	1291 container = lua_touserdata(L, json_export_ccontainer_idx);
jbe@185	1292 lua_rawgeti(L, json_export_stackswap_idx, stackswapidx--);
jbe@185	1293 lua_replace(L, json_export_luacontainer_idx);
jbe@187	1294 // repeat code for container iteration:
jbe@185	1295 goto json_export_container;
jbe@164	1296 }
jbe@184	1297 // handle indentation for pretty results:
jbe@185	1298 if (pretty && (containerkey \|\| container->type == JSON_TABLETYPE_ARRAY)) {
jbe@185	1299 luaL_addchar(&buf, '\n');
jbe@185	1300 for (i=0; i<level; i++) {
jbe@185	1301 lua_pushvalue(L, json_export_indentstring_idx);
jbe@185	1302 luaL_addvalue(&buf);
jbe@164	1303 }
jbe@154	1304 }
jbe@183	1305 } else {
jbe@187	1306 // if no container is being processed,
jbe@187	1307 // finish export:
jbe@185	1308 json_export_finish:
jbe@185	1309 // for pretty results, add final newline character if outermost container is processed:
jbe@185	1310 if (pretty) luaL_addchar(&buf, '\n');
jbe@187	1311 // create and return Lua string from buffer contents
jbe@154	1312 luaL_pushresult(&buf);
jbe@154	1313 return 1;
jbe@154	1314 }
jbe@154	1315 }
jbe@164	1316 }
jbe@164	1317
jbe@149	1318 // functions in library module:
jbe@121	1319 static const struct luaL_Reg json_module_functions[] = {
jbe@133	1320 {"object", json_object},
jbe@173	1321 {"array", json_array},
jbe@121	1322 {"import", json_import},
jbe@154	1323 {"export", json_export},
jbe@173	1324 {"get", json_get},
jbe@173	1325 {"type", json_type},
jbe@173	1326 {"set", json_set},
jbe@121	1327 {NULL, NULL}
jbe@121	1328 };
jbe@121	1329
jbe@149	1330 // metamethods for JSON objects, JSON arrays, and unknown JSON collections (object or array):
jbe@126	1331 static const struct luaL_Reg json_metatable_functions[] = {
jbe@130	1332 {"__len", json_len},
jbe@130	1333 {"__index", json_index},
jbe@130	1334 {"__newindex", json_newindex},
jbe@135	1335 {"__pairs", json_pairs},
jbe@134	1336 {"__ipairs", json_ipairs},
jbe@160	1337 {"__tostring", json_export},
jbe@126	1338 {NULL, NULL}
jbe@126	1339 };
jbe@126	1340
jbe@157	1341 // metamethods for JSON null marker:
jbe@157	1342 static const struct luaL_Reg json_nullmark_metamethods[] = {
jbe@157	1343 {"__tostring", json_nullmark_tostring},
jbe@157	1344 {NULL, NULL}
jbe@157	1345 };
jbe@157	1346
jbe@149	1347 // initializes json library:
jbe@121	1348 int luaopen_json(lua_State *L) {
jbe@149	1349 // empty stack:
jbe@126	1350 lua_settop(L, 0);
jbe@149	1351 // push library module onto stack position 1:
jbe@149	1352 lua_newtable(L);
jbe@149	1353 // register library functions:
jbe@149	1354 luaL_setfuncs(L, json_module_functions, 0);
jbe@149	1355 // create and store objectmt:
jbe@138	1356 lua_newtable(L);
jbe@138	1357 luaL_setfuncs(L, json_metatable_functions, 0);
jbe@144	1358 json_regstore(L, objectmt);
jbe@149	1359 // create and store arraymt:
jbe@138	1360 lua_newtable(L);
jbe@138	1361 luaL_setfuncs(L, json_metatable_functions, 0);
jbe@144	1362 json_regstore(L, arraymt);
jbe@157	1363 // set metatable of null marker and make it available through library module:
jbe@157	1364 json_pushnullmark(L);
jbe@157	1365 lua_newtable(L);
jbe@157	1366 luaL_setfuncs(L, json_nullmark_metamethods, 0);
jbe@157	1367 lua_setmetatable(L, -2);
jbe@157	1368 lua_setfield(L, 1, "null");
jbe@157	1369 // return library module (that's expected on top of stack):
jbe@121	1370 return 1;
jbe@121	1371 }