[ViewVC] Diff of: cvs/JSON-XS/XS.xs

Comparing JSON-XS/XS.xs (file contents):
Revision 1.38 by root, Mon Jun 11 03:18:07 2007 UTC vs.
Revision 1.46 by root, Mon Jun 25 22:11:39 2007 UTC

…		…
9		9
10	#if defined(__BORLANDC__) \|\| defined(_MSC_VER)	10	#if defined(__BORLANDC__) \|\| defined(_MSC_VER)
11	# define snprintf _snprintf // C compilers have this in stdio.h	11	# define snprintf _snprintf // C compilers have this in stdio.h
12	#endif	12	#endif
13		13
		14	// some old perls do not have this, try to make it work, no
		15	// guarentees, though. if it breaks, you get to keep the pieces.
		16	#ifndef UTF8_MAXBYTES
		17	# define UTF8_MAXBYTES 13
		18	#endif
		19
14	#define F_ASCII 0x00000001UL	20	#define F_ASCII 0x00000001UL
15	#define F_LATIN1 0x00000002UL	21	#define F_LATIN1 0x00000002UL
16	#define F_UTF8 0x00000004UL	22	#define F_UTF8 0x00000004UL
17	#define F_INDENT 0x00000008UL	23	#define F_INDENT 0x00000008UL
18	#define F_CANONICAL 0x00000010UL	24	#define F_CANONICAL 0x00000010UL
19	#define F_SPACE_BEFORE 0x00000020UL	25	#define F_SPACE_BEFORE 0x00000020UL
20	#define F_SPACE_AFTER 0x00000040UL	26	#define F_SPACE_AFTER 0x00000040UL
21	#define F_ALLOW_NONREF 0x00000100UL	27	#define F_ALLOW_NONREF 0x00000100UL
22	#define F_SHRINK 0x00000200UL	28	#define F_SHRINK 0x00000200UL
		29	#define F_ALLOW_BLESSED 0x00000400UL
		30	#define F_CONV_BLESSED 0x00000800UL // NYI
23	#define F_MAXDEPTH 0xf8000000UL	31	#define F_MAXDEPTH 0xf8000000UL
24	#define S_MAXDEPTH 27	32	#define S_MAXDEPTH 27
		33	#define F_MAXSIZE 0x01f00000UL
		34	#define S_MAXSIZE 20
25		35
26	#define DEC_DEPTH(flags) (1UL << ((flags & F_MAXDEPTH) >> S_MAXDEPTH))	36	#define DEC_DEPTH(flags) (1UL << ((flags & F_MAXDEPTH) >> S_MAXDEPTH))
27		37	#define DEC_SIZE(flags) (1UL << ((flags & F_MAXSIZE ) >> S_MAXSIZE ))
28	// F_SELFCONVERT? <=> to_json/toJson
29	// F_BLESSED? <=> { $__class__$ => }
30		38
31	#define F_PRETTY F_INDENT \| F_SPACE_BEFORE \| F_SPACE_AFTER	39	#define F_PRETTY F_INDENT \| F_SPACE_BEFORE \| F_SPACE_AFTER
32	#define F_DEFAULT (9UL << S_MAXDEPTH)	40	#define F_DEFAULT (9UL << S_MAXDEPTH)
33		41
34	#define INIT_SIZE 32 // initial scalar size to be allocated	42	#define INIT_SIZE 32 // initial scalar size to be allocated
…		…
48	#endif	56	#endif
49		57
50	#define expect_false(expr) expect ((expr) != 0, 0)	58	#define expect_false(expr) expect ((expr) != 0, 0)
51	#define expect_true(expr) expect ((expr) != 0, 1)	59	#define expect_true(expr) expect ((expr) != 0, 1)
52		60
53	static HV *json_stash; // JSON::XS::	61	static HV json_stash, json_boolean_stash; // JSON::XS::
		62	static SV json_true, json_false;
54		63
55	/////////////////////////////////////////////////////////////////////////////	64	/////////////////////////////////////////////////////////////////////////////
56	// utility functions	65	// utility functions
57		66
58	static UV *	67	static UV *
…		…
178	STRLEN clen;	187	STRLEN clen;
179	UV uch;	188	UV uch;
180		189
181	if (is_utf8)	190	if (is_utf8)
182	{	191	{
183	//uch = utf8n_to_uvuni (str, end - str, &clen, UTF8_CHECK_ONLY);
184	uch = decode_utf8 (str, end - str, &clen);	192	uch = decode_utf8 (str, end - str, &clen);
185	if (clen == (STRLEN)-1)	193	if (clen == (STRLEN)-1)
186	croak ("malformed or illegal unicode character in string [%.11s], cannot convert to JSON", str);	194	croak ("malformed or illegal unicode character in string [%.11s], cannot convert to JSON", str);
187	}	195	}
188	else	196	else
…		…
463	svtype svt;	471	svtype svt;
464		472
465	SvGETMAGIC (sv);	473	SvGETMAGIC (sv);
466	svt = SvTYPE (sv);	474	svt = SvTYPE (sv);
467		475
		476	if (expect_false (SvOBJECT (sv)))
		477	{
		478	if (SvSTASH (sv) == json_boolean_stash)
		479	{
		480	if (SvIV (sv) == 0)
		481	encode_str (enc, "false", 5, 0);
		482	else
		483	encode_str (enc, "true", 4, 0);
		484	}
		485	else
		486	{
		487	#if 0
		488	if (0 && sv_derived_from (rv, "JSON::Literal"))
		489	{
		490	// not yet
		491	}
		492	#endif
		493	if (enc->flags & F_CONV_BLESSED)
		494	{
		495	// we re-bless the reference to get overload and other niceties right
		496	GV *to_json = gv_fetchmethod_autoload (SvSTASH (sv), "TO_JSON", 1);
		497
		498	if (to_json)
		499	{
		500	dSP;
		501	ENTER;
		502	SAVETMPS;
		503	PUSHMARK (SP);
		504	XPUSHs (sv_bless (sv_2mortal (newRV_inc (sv)), SvSTASH (sv)));
		505
		506	// calling with G_SCALAR ensures that we always get a 1 reutrn value
		507	// check anyways.
		508	PUTBACK;
		509	assert (1 == call_sv ((SV *)GvCV (to_json), G_SCALAR));
		510	SPAGAIN;
		511
		512	encode_sv (enc, POPs);
		513
		514	FREETMPS;
		515	LEAVE;
		516	}
		517	else if (enc->flags & F_ALLOW_BLESSED)
		518	encode_str (enc, "null", 4, 0);
		519	else
		520	croak ("encountered object '%s', but neither allow_blessed enabled nor TO_JSON method available on it",
		521	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
		522	}
		523	else if (enc->flags & F_ALLOW_BLESSED)
		524	encode_str (enc, "null", 4, 0);
		525	else
		526	croak ("encountered object '%s', but neither allow_blessed nor convert_blessed settings are enabled",
		527	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
		528	}
		529	}
468	if (svt == SVt_PVHV)	530	else if (svt == SVt_PVHV)
469	encode_hv (enc, (HV *)sv);	531	encode_hv (enc, (HV *)sv);
470	else if (svt == SVt_PVAV)	532	else if (svt == SVt_PVAV)
471	encode_av (enc, (AV *)sv);	533	encode_av (enc, (AV *)sv);
472	else if (svt < SVt_PVAV)	534	else if (svt < SVt_PVAV)
473	{	535	{
…		…
497	encode_str (enc, str, len, SvUTF8 (sv));	559	encode_str (enc, str, len, SvUTF8 (sv));
498	encode_ch (enc, '"');	560	encode_ch (enc, '"');
499	}	561	}
500	else if (SvNOKp (sv))	562	else if (SvNOKp (sv))
501	{	563	{
		564	// trust that perl will do the right thing w.r.t. JSON syntax.
502	need (enc, NV_DIG + 32);	565	need (enc, NV_DIG + 32);
503	Gconvert (SvNVX (sv), NV_DIG, 0, enc->cur);	566	Gconvert (SvNVX (sv), NV_DIG, 0, enc->cur);
504	enc->cur += strlen (enc->cur);	567	enc->cur += strlen (enc->cur);
505	}	568	}
506	else if (SvIOKp (sv))	569	else if (SvIOKp (sv))
507	{	570	{
508	// we assume we can always read an IV as a UV	571	// we assume we can always read an IV as a UV
509	if (SvUV (sv) & ~(UV)0x7fff)	572	if (SvUV (sv) & ~(UV)0x7fff)
510	{	573	{
		574	// large integer, use the (rather slow) snprintf way.
511	need (enc, sizeof (UV) * 3);	575	need (enc, sizeof (UV) * 3);
512	enc->cur +=	576	enc->cur +=
513	SvIsUV(sv)	577	SvIsUV(sv)
514	? snprintf (enc->cur, sizeof (UV) * 3, "%"UVuf, (UV)SvUVX (sv))	578	? snprintf (enc->cur, sizeof (UV) * 3, "%"UVuf, (UV)SvUVX (sv))
515	: snprintf (enc->cur, sizeof (UV) * 3, "%"IVdf, (IV)SvIVX (sv));	579	: snprintf (enc->cur, sizeof (UV) * 3, "%"IVdf, (IV)SvIVX (sv));
…		…
518	{	582	{
519	// optimise the "small number case"	583	// optimise the "small number case"
520	// code will likely be branchless and use only a single multiplication	584	// code will likely be branchless and use only a single multiplication
521	I32 i = SvIV (sv);	585	I32 i = SvIV (sv);
522	U32 u;	586	U32 u;
		587	char digit, nz = 0;
523		588
524	need (enc, 6);	589	need (enc, 6);
525		590
526	*enc->cur = '-'; enc->cur += i < 0 ? 1 : 0;	591	*enc->cur = '-'; enc->cur += i < 0 ? 1 : 0;
527	u = i < 0 ? -i : i;	592	u = i < 0 ? -i : i;
528		593
529	// convert to 4.28 fixed-point representation	594	// convert to 4.28 fixed-point representation
530	u = u * ((0xfffffff + 10000) / 10000); // 10**5, 5 fractional digits	595	u = u * ((0xfffffff + 10000) / 10000); // 10**5, 5 fractional digits
531		596
532	char digit, nz = 0;	597	// now output digit by digit, each time masking out the integer part
533		598	// and multiplying by 5 while moving the decimal point one to the right,
		599	// resulting in a net multiplication by 10.
		600	// we always write the digit to memory but conditionally increment
		601	// the pointer, to ease the usage of conditional move instructions.
534	digit = u >> 28; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0xfffffff) 5;	602	digit = u >> 28; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0xfffffff) 5;
535	digit = u >> 27; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x7ffffff) 5;	603	digit = u >> 27; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x7ffffff) 5;
536	digit = u >> 26; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x3ffffff) 5;	604	digit = u >> 26; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x3ffffff) 5;
537	digit = u >> 25; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x1ffffff) 5;	605	digit = u >> 25; enc->cur = digit + '0'; enc->cur += (nz = nz \|\| digit); u = (u & 0x1ffffff) 5;
538	digit = u >> 24; *enc->cur = digit + '0'; enc->cur += 1;	606	digit = u >> 24; *enc->cur = digit + '0'; enc->cur += 1; // correctly generate '0'
539	}	607	}
540	}	608	}
541	else if (SvROK (sv))	609	else if (SvROK (sv))
542	encode_rv (enc, SvRV (sv));	610	encode_rv (enc, SvRV (sv));
543	else if (!SvOK (sv))	611	else if (!SvOK (sv))
…		…
625	decode_4hex (dec_t *dec)	693	decode_4hex (dec_t *dec)
626	{	694	{
627	signed char d1, d2, d3, d4;	695	signed char d1, d2, d3, d4;
628	unsigned char cur = (unsigned char )dec->cur;	696	unsigned char cur = (unsigned char )dec->cur;
629		697
630	d1 = decode_hexdigit [cur [0]]; if (expect_false (d1 < 0)) ERR ("four hexadecimal digits expected");	698	d1 = decode_hexdigit [cur [0]]; if (expect_false (d1 < 0)) ERR ("exactly four hexadecimal digits expected");
631	d2 = decode_hexdigit [cur [1]]; if (expect_false (d2 < 0)) ERR ("four hexadecimal digits expected");	699	d2 = decode_hexdigit [cur [1]]; if (expect_false (d2 < 0)) ERR ("exactly four hexadecimal digits expected");
632	d3 = decode_hexdigit [cur [2]]; if (expect_false (d3 < 0)) ERR ("four hexadecimal digits expected");	700	d3 = decode_hexdigit [cur [2]]; if (expect_false (d3 < 0)) ERR ("exactly four hexadecimal digits expected");
633	d4 = decode_hexdigit [cur [3]]; if (expect_false (d4 < 0)) ERR ("four hexadecimal digits expected");	701	d4 = decode_hexdigit [cur [3]]; if (expect_false (d4 < 0)) ERR ("exactly four hexadecimal digits expected");
634		702
635	dec->cur += 4;	703	dec->cur += 4;
636		704
637	return ((UV)d1) << 12	705	return ((UV)d1) << 12
638	\| ((UV)d2) << 8	706	\| ((UV)d2) << 8
…		…
861	{	929	{
862	// special case the rather common 1..4-digit-int case, assumes 32 bit ints or so	930	// special case the rather common 1..4-digit-int case, assumes 32 bit ints or so
863	if (*start == '-')	931	if (*start == '-')
864	switch (dec->cur - start)	932	switch (dec->cur - start)
865	{	933	{
866	case 2: return newSViv (-( start [1] - '0' ));	934	case 2: return newSViv (-( start [1] - '0' * 1));
867	case 3: return newSViv (-( start [1] * 10 + start [2] - '0' * 11));	935	case 3: return newSViv (-( start [1] * 10 + start [2] - '0' * 11));
868	case 4: return newSViv (-( start [1] * 100 + start [2] * 10 + start [3] - '0' * 111));	936	case 4: return newSViv (-( start [1] * 100 + start [2] * 10 + start [3] - '0' * 111));
869	case 5: return newSViv (-(start [1] * 1000 + start [2] * 100 + start [3] * 10 + start [4] - '0' * 1111));	937	case 5: return newSViv (-(start [1] * 1000 + start [2] * 100 + start [3] * 10 + start [4] - '0' * 1111));
870	}	938	}
871	else	939	else
872	switch (dec->cur - start)	940	switch (dec->cur - start)
873	{	941	{
874	case 1: return newSViv ( start [0] - '0' );	942	case 1: return newSViv ( start [0] - '0' * 1);
875	case 2: return newSViv ( start [0] * 10 + start [1] - '0' * 11);	943	case 2: return newSViv ( start [0] * 10 + start [1] - '0' * 11);
876	case 3: return newSViv ( start [0] * 100 + start [1] * 10 + start [2] - '0' * 111);	944	case 3: return newSViv ( start [0] * 100 + start [1] * 10 + start [2] - '0' * 111);
877	case 4: return newSViv ( start [0] * 1000 + start [1] * 100 + start [2] * 10 + start [3] - '0' * 1111);	945	case 4: return newSViv ( start [0] * 1000 + start [1] * 100 + start [2] * 10 + start [3] - '0' * 1111);
878	}	946	}
879		947
…		…
886	if (uv < (UV)IV_MIN)	954	if (uv < (UV)IV_MIN)
887	return newSViv (-(IV)uv);	955	return newSViv (-(IV)uv);
888	}	956	}
889	else	957	else
890	return newSVuv (uv);	958	return newSVuv (uv);
		959
		960	// here would likely be the place for bigint support
891	}	961	}
892	}	962	}
893		963
		964	// if we ever support bigint or bigfloat, this is the place for bigfloat
894	return newSVnv (Atof (start));	965	return newSVnv (Atof (start));
895		966
896	fail:	967	fail:
897	return 0;	968	return 0;
898	}	969	}
…		…
952	if (*dec->cur == '}')	1023	if (*dec->cur == '}')
953	++dec->cur;	1024	++dec->cur;
954	else	1025	else
955	for (;;)	1026	for (;;)
956	{	1027	{
957	SV key, value;
958
959	decode_ws (dec); EXPECT_CH ('"');	1028	decode_ws (dec); EXPECT_CH ('"');
960		1029
961	key = decode_str (dec);	1030	// heuristic: assume that
962	if (!key)	1031	// a) decode_str + hv_store_ent are abysmally slow
963	goto fail;	1032	// b) most hash keys are short, simple ascii text
		1033	// so try to "fast-match" such strings to avoid
		1034	// the overhead of hv_store_ent.
		1035	{
		1036	SV *value;
		1037	char *p = dec->cur;
		1038	char *e = p + 24; // only try up to 24 bytes
964		1039
965	decode_ws (dec); EXPECT_CH (':');	1040	for (;;)
966
967	value = decode_sv (dec);
968	if (!value)
969	{	1041	{
		1042	if (p == e \|\| p < 0x20 \|\| p >= 0x80 \|\| *p == '\\')
		1043	{
		1044	// slow path, back up and use decode_str
		1045	SV *key = decode_str (dec);
		1046	if (!key)
		1047	goto fail;
		1048
		1049	decode_ws (dec); EXPECT_CH (':');
		1050
		1051	value = decode_sv (dec);
		1052	if (!value)
		1053	{
		1054	SvREFCNT_dec (key);
		1055	goto fail;
		1056	}
		1057
		1058	hv_store_ent (hv, key, value, 0);
970	SvREFCNT_dec (key);	1059	SvREFCNT_dec (key);
		1060
		1061	break;
		1062	}
		1063	else if (*p == '"')
		1064	{
		1065	// fast path, got a simple key
		1066	char *key = dec->cur;
		1067	int len = p - key;
		1068	dec->cur = p + 1;
		1069
		1070	decode_ws (dec); EXPECT_CH (':');
		1071
		1072	value = decode_sv (dec);
		1073	if (!value)
971	goto fail;	1074	goto fail;
		1075
		1076	hv_store (hv, key, len, value, 0);
		1077
		1078	break;
		1079	}
		1080
		1081	++p;
972	}	1082	}
973		1083	}
974	hv_store_ent (hv, key, value, 0);
975	SvREFCNT_dec (key);
976		1084
977	decode_ws (dec);	1085	decode_ws (dec);
978		1086
979	if (*dec->cur == '}')	1087	if (*dec->cur == '}')
980	{	1088	{
…		…
999		1107
1000	static SV *	1108	static SV *
1001	decode_sv (dec_t *dec)	1109	decode_sv (dec_t *dec)
1002	{	1110	{
1003	decode_ws (dec);	1111	decode_ws (dec);
		1112
		1113	// the beauty of JSON: you need exactly one character lookahead
		1114	// to parse anything.
1004	switch (*dec->cur)	1115	switch (*dec->cur)
1005	{	1116	{
1006	case '"': ++dec->cur; return decode_str (dec);	1117	case '"': ++dec->cur; return decode_str (dec);
1007	case '[': ++dec->cur; return decode_av (dec);	1118	case '[': ++dec->cur; return decode_av (dec);
1008	case '{': ++dec->cur; return decode_hv (dec);	1119	case '{': ++dec->cur; return decode_hv (dec);
…		…
1014		1125
1015	case 't':	1126	case 't':
1016	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "true", 4))	1127	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "true", 4))
1017	{	1128	{
1018	dec->cur += 4;	1129	dec->cur += 4;
1019	return newSViv (1);	1130	return SvREFCNT_inc (json_true);
1020	}	1131	}
1021	else	1132	else
1022	ERR ("'true' expected");	1133	ERR ("'true' expected");
1023		1134
1024	break;	1135	break;
1025		1136
1026	case 'f':	1137	case 'f':
1027	if (dec->end - dec->cur >= 5 && !memcmp (dec->cur, "false", 5))	1138	if (dec->end - dec->cur >= 5 && !memcmp (dec->cur, "false", 5))
1028	{	1139	{
1029	dec->cur += 5;	1140	dec->cur += 5;
1030	return newSViv (0);	1141	return SvREFCNT_inc (json_false);
1031	}	1142	}
1032	else	1143	else
1033	ERR ("'false' expected");	1144	ERR ("'false' expected");
1034		1145
1035	break;	1146	break;
…		…
1062	SV *sv;	1173	SV *sv;
1063		1174
1064	SvGETMAGIC (string);	1175	SvGETMAGIC (string);
1065	SvUPGRADE (string, SVt_PV);	1176	SvUPGRADE (string, SVt_PV);
1066		1177
		1178	if (flags & F_MAXSIZE && SvCUR (string) > DEC_SIZE (flags))
		1179	croak ("attempted decode of JSON text of %lu bytes size, but max_size is set to %lu",
		1180	(unsigned long)SvCUR (string), (unsigned long)DEC_SIZE (flags));
		1181
1067	if (flags & F_UTF8)	1182	if (flags & F_UTF8)
1068	sv_utf8_downgrade (string, 0);	1183	sv_utf8_downgrade (string, 0);
1069	else	1184	else
1070	sv_utf8_upgrade (string);	1185	sv_utf8_upgrade (string);
1071		1186
…		…
1138		1253
1139	BOOT:	1254	BOOT:
1140	{	1255	{
1141	int i;	1256	int i;
1142		1257
1143	memset (decode_hexdigit, 0xff, 256);
1144
1145	for (i = 0; i < 256; ++i)	1258	for (i = 0; i < 256; ++i)
1146	decode_hexdigit [i] =	1259	decode_hexdigit [i] =
1147	i >= '0' && i <= '9' ? i - '0'	1260	i >= '0' && i <= '9' ? i - '0'
1148	: i >= 'a' && i <= 'f' ? i - 'a' + 10	1261	: i >= 'a' && i <= 'f' ? i - 'a' + 10
1149	: i >= 'A' && i <= 'F' ? i - 'A' + 10	1262	: i >= 'A' && i <= 'F' ? i - 'A' + 10
1150	: -1;	1263	: -1;
1151		1264
1152	json_stash = gv_stashpv ("JSON::XS", 1);	1265	json_stash = gv_stashpv ("JSON::XS" , 1);
		1266	json_boolean_stash = gv_stashpv ("JSON::XS::Boolean", 1);
		1267
		1268	json_true = get_sv ("JSON::XS::true" , 1); SvREADONLY_on (json_true );
		1269	json_false = get_sv ("JSON::XS::false", 1); SvREADONLY_on (json_false);
1153	}	1270	}
1154		1271
1155	PROTOTYPES: DISABLE	1272	PROTOTYPES: DISABLE
1156		1273
1157	SV new (char dummy)	1274	SV new (char dummy)
…		…
1160	OUTPUT:	1277	OUTPUT:
1161	RETVAL	1278	RETVAL
1162		1279
1163	SV ascii (SV self, int enable = 1)	1280	SV ascii (SV self, int enable = 1)
1164	ALIAS:	1281	ALIAS:
1165	ascii = F_ASCII	1282	ascii = F_ASCII
1166	latin1 = F_LATIN1	1283	latin1 = F_LATIN1
1167	utf8 = F_UTF8	1284	utf8 = F_UTF8
1168	indent = F_INDENT	1285	indent = F_INDENT
1169	canonical = F_CANONICAL	1286	canonical = F_CANONICAL
1170	space_before = F_SPACE_BEFORE	1287	space_before = F_SPACE_BEFORE
1171	space_after = F_SPACE_AFTER	1288	space_after = F_SPACE_AFTER
1172	pretty = F_PRETTY	1289	pretty = F_PRETTY
1173	allow_nonref = F_ALLOW_NONREF	1290	allow_nonref = F_ALLOW_NONREF
1174	shrink = F_SHRINK	1291	shrink = F_SHRINK
		1292	allow_blessed = F_ALLOW_BLESSED
		1293	convert_blessed = F_CONV_BLESSED
1175	CODE:	1294	CODE:
1176	{	1295	{
1177	UV *uv = SvJSON (self);	1296	UV *uv = SvJSON (self);
1178	if (enable)	1297	if (enable)
1179	*uv \|= ix;	1298	*uv \|= ix;
…		…
1201	RETVAL = newSVsv (self);	1320	RETVAL = newSVsv (self);
1202	}	1321	}
1203	OUTPUT:	1322	OUTPUT:
1204	RETVAL	1323	RETVAL
1205		1324
		1325	SV max_size (SV self, UV max_size = 0)
		1326	CODE:
		1327	{
		1328	UV *uv = SvJSON (self);
		1329	UV log2 = 0;
		1330
		1331	if (max_size > 0x80000000UL) max_size = 0x80000000UL;
		1332	if (max_size == 1) max_size = 2;
		1333
		1334	while ((1UL << log2) < max_size)
		1335	++log2;
		1336
		1337	uv = uv & ~F_MAXSIZE \| (log2 << S_MAXSIZE);
		1338
		1339	RETVAL = newSVsv (self);
		1340	}
		1341	OUTPUT:
		1342	RETVAL
		1343
1206	void encode (SV self, SV scalar)	1344	void encode (SV self, SV scalar)
1207	PPCODE:	1345	PPCODE:
1208	XPUSHs (encode_json (scalar, *SvJSON (self)));	1346	XPUSHs (encode_json (scalar, *SvJSON (self)));
1209		1347
1210	void decode (SV self, SV jsonstr)	1348	void decode (SV self, SV jsonstr)

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Comparing JSON-XS/XS.xs (file contents): Revision 1.38 by root, Mon Jun 11 03:18:07 2007 UTC vs. Revision 1.46 by root, Mon Jun 25 22:11:39 2007 UTC

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Comparing JSON-XS/XS.xs (file contents):
Revision 1.38 by root, Mon Jun 11 03:18:07 2007 UTC vs.
Revision 1.46 by root, Mon Jun 25 22:11:39 2007 UTC