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Comparing JSON-XS/XS.xs (file contents):
Revision 1.2 by root, Thu Mar 22 17:28:50 2007 UTC vs.
Revision 1.98 by root, Fri Jul 17 14:33:45 2009 UTC

1	#include "EXTERN.h"	1	#include "EXTERN.h"
2	#include "perl.h"	2	#include "perl.h"
3	#include "XSUB.h"	3	#include "XSUB.h"
4		4
5	#include "assert.h"	5	#include <assert.h>
6	#include "string.h"	6	#include <string.h>
7	#include "stdlib.h"	7	#include <stdlib.h>
		8	#include <stdio.h>
		9	#include <limits.h>
		10	#include <float.h>
8		11
		12	#if defined(__BORLANDC__) || defined(_MSC_VER)
		13	# define snprintf _snprintf // C compilers have this in stdio.h
		14	#endif
		15
		16	// some old perls do not have this, try to make it work, no
		17	// guarentees, though. if it breaks, you get to keep the pieces.
		18	#ifndef UTF8_MAXBYTES
		19	# define UTF8_MAXBYTES 13
		20	#endif
		21
		22	#define IVUV_MAXCHARS (sizeof (UV) * CHAR_BIT * 28 / 93 + 2)
		23
9	#define F_ASCII 0x00000001	24	#define F_ASCII 0x00000001UL
		25	#define F_LATIN1 0x00000002UL
10	#define F_UTF8 0x00000002	26	#define F_UTF8 0x00000004UL
11	#define F_INDENT 0x00000004	27	#define F_INDENT 0x00000008UL
12	#define F_CANONICAL 0x00000008	28	#define F_CANONICAL 0x00000010UL
13	#define F_SPACE_BEFORE 0x00000010	29	#define F_SPACE_BEFORE 0x00000020UL
14	#define F_SPACE_AFTER 0x00000020	30	#define F_SPACE_AFTER 0x00000040UL
15	#define F_JSON_RPC 0x00000040	31	#define F_ALLOW_NONREF 0x00000100UL
		32	#define F_SHRINK 0x00000200UL
		33	#define F_ALLOW_BLESSED 0x00000400UL
		34	#define F_CONV_BLESSED 0x00000800UL
		35	#define F_RELAXED 0x00001000UL
		36	#define F_ALLOW_UNKNOWN 0x00002000UL
		37	#define F_HOOK 0x00080000UL // some hooks exist, so slow-path processing
16		38
17	#define F_PRETTY F_INDENT | F_SPACE_BEFORE | F_SPACE_AFTER	39	#define F_PRETTY F_INDENT | F_SPACE_BEFORE | F_SPACE_AFTER
18	#define F_DEFAULT 0
19		40
20	#define INIT_SIZE 32 // initial scalar size to be allocated	41	#define INIT_SIZE 32 // initial scalar size to be allocated
		42	#define INDENT_STEP 3 // spaces per indentation level
		43
		44	#define SHORT_STRING_LEN 16384 // special-case strings of up to this size
21		45
22	#define SB do {	46	#define SB do {
23	#define SE } while (0)	47	#define SE } while (0)
24		48
25	static HV *json_stash;	49	#if __GNUC__ >= 3
		50	# define expect(expr,value) __builtin_expect ((expr), (value))
		51	# define INLINE static inline
		52	#else
		53	# define expect(expr,value) (expr)
		54	# define INLINE static
		55	#endif
		56
		57	#define expect_false(expr) expect ((expr) != 0, 0)
		58	#define expect_true(expr) expect ((expr) != 0, 1)
		59
		60	#define IN_RANGE_INC(type,val,beg,end) \
		61	((unsigned type)((unsigned type)(val) - (unsigned type)(beg)) \
		62	<= (unsigned type)((unsigned type)(end) - (unsigned type)(beg)))
		63
		64	#define ERR_NESTING_EXCEEDED "json text or perl structure exceeds maximum nesting level (max_depth set too low?)"
		65
		66	#ifdef USE_ITHREADS
		67	# define JSON_SLOW 1
		68	# define JSON_STASH (json_stash ? json_stash : gv_stashpv ("JSON::XS", 1))
		69	#else
		70	# define JSON_SLOW 0
		71	# define JSON_STASH json_stash
		72	#endif
		73
		74	static HV *json_stash, *json_boolean_stash; // JSON::XS::
		75	static SV *json_true, *json_false;
		76
		77	enum {
		78	INCR_M_WS = 0, // initial whitespace skipping, must be 0
		79	INCR_M_STR, // inside string
		80	INCR_M_BS, // inside backslash
		81	INCR_M_JSON // outside anything, count nesting
		82	};
		83
		84	#define INCR_DONE(json) ((json)->incr_nest <= 0 && (json)->incr_mode == INCR_M_JSON)
		85
		86	typedef struct {
		87	U32 flags;
		88	U32 max_depth;
		89	STRLEN max_size;
		90
		91	SV *cb_object;
		92	HV *cb_sk_object;
		93
		94	// for the incremental parser
		95	SV *incr_text; // the source text so far
		96	STRLEN incr_pos; // the current offset into the text
		97	int incr_nest; // {[]}-nesting level
		98	unsigned char incr_mode;
		99	} JSON;
		100
		101	INLINE void
		102	json_init (JSON *json)
		103	{
		104	Zero (json, 1, JSON);
		105	json->max_depth = 512;
		106	}
		107
		108	/////////////////////////////////////////////////////////////////////////////
		109	// utility functions
		110
		111	INLINE SV *
		112	get_bool (const char *name)
		113	{
		114	SV *sv = get_sv (name, 1);
		115
		116	SvREADONLY_on (sv);
		117	SvREADONLY_on (SvRV (sv));
		118
		119	return sv;
		120	}
		121
		122	INLINE void
		123	shrink (SV *sv)
		124	{
		125	sv_utf8_downgrade (sv, 1);
		126
		127	if (SvLEN (sv) > SvCUR (sv) + 1)
		128	{
		129	#ifdef SvPV_shrink_to_cur
		130	SvPV_shrink_to_cur (sv);
		131	#elif defined (SvPV_renew)
		132	SvPV_renew (sv, SvCUR (sv) + 1);
		133	#endif
		134	}
		135	}
		136
		137	// decode an utf-8 character and return it, or (UV)-1 in
		138	// case of an error.
		139	// we special-case "safe" characters from U+80 .. U+7FF,
		140	// but use the very good perl function to parse anything else.
		141	// note that we never call this function for a ascii codepoints
		142	INLINE UV
		143	decode_utf8 (unsigned char *s, STRLEN len, STRLEN *clen)
		144	{
		145	if (expect_true (len >= 2
		146	&& IN_RANGE_INC (char, s[0], 0xc2, 0xdf)
		147	&& IN_RANGE_INC (char, s[1], 0x80, 0xbf)))
		148	{
		149	*clen = 2;
		150	return ((s[0] & 0x1f) << 6) | (s[1] & 0x3f);
		151	}
		152	else
		153	return utf8n_to_uvuni (s, len, clen, UTF8_CHECK_ONLY);
		154	}
		155
		156	// likewise for encoding, also never called for ascii codepoints
		157	// this function takes advantage of this fact, although current gccs
		158	// seem to optimise the check for >= 0x80 away anyways
		159	INLINE unsigned char *
		160	encode_utf8 (unsigned char *s, UV ch)
		161	{
		162	if (expect_false (ch < 0x000080))
		163	*s++ = ch;
		164	else if (expect_true (ch < 0x000800))
		165	*s++ = 0xc0 | ( ch >> 6),
		166	*s++ = 0x80 | ( ch & 0x3f);
		167	else if ( ch < 0x010000)
		168	*s++ = 0xe0 | ( ch >> 12),
		169	*s++ = 0x80 | ((ch >> 6) & 0x3f),
		170	*s++ = 0x80 | ( ch & 0x3f);
		171	else if ( ch < 0x110000)
		172	*s++ = 0xf0 | ( ch >> 18),
		173	*s++ = 0x80 | ((ch >> 12) & 0x3f),
		174	*s++ = 0x80 | ((ch >> 6) & 0x3f),
		175	*s++ = 0x80 | ( ch & 0x3f);
		176
		177	return s;
		178	}
		179
		180	// convert offset pointer to character index, sv must be string
		181	static STRLEN
		182	ptr_to_index (SV *sv, char *offset)
		183	{
		184	return SvUTF8 (sv)
		185	? utf8_distance (offset, SvPVX (sv))
		186	: offset - SvPVX (sv);
		187	}
		188
		189	/////////////////////////////////////////////////////////////////////////////
		190	// encoder
26		191
27	// structure used for encoding JSON	192	// structure used for encoding JSON
28	typedef struct	193	typedef struct
29	{	194	{
30	char *cur;	195	char *cur; // SvPVX (sv) + current output position
31	STRLEN len; // SvLEN (sv)
32	char *end; // SvEND (sv)	196	char *end; // SvEND (sv)
33	SV *sv;	197	SV *sv; // result scalar
34	UV flags;	198	JSON json;
35	int max_recurse;	199	U32 indent; // indentation level
36	int indent;	200	UV limit; // escape character values >= this value when encoding
37	} enc_t;	201	} enc_t;
38		202
39	// structure used for decoding JSON	203	INLINE void
40	typedef struct
41	{
42	char *cur;
43	char *end;
44	char *err;
45	UV flags;
46	} dec_t;
47
48	static UV *
49	SvJSON (SV *sv)
50	{
51	if (!(SvROK (sv) && SvOBJECT (SvRV (sv)) && SvSTASH (SvRV (sv)) == json_stash))
52	croak ("object is not of type JSON::XS");
53
54	return &SvUVX (SvRV (sv));
55	}
56
57	/////////////////////////////////////////////////////////////////////////////
58
59	static void
60	need (enc_t *enc, STRLEN len)	204	need (enc_t *enc, STRLEN len)
61	{	205	{
62	if (enc->cur + len >= enc->end)	206	if (expect_false (enc->cur + len >= enc->end))
63	{	207	{
64	STRLEN cur = enc->cur - SvPVX (enc->sv);	208	STRLEN cur = enc->cur - (char *)SvPVX (enc->sv);
65	SvGROW (enc->sv, cur + len + 1);	209	SvGROW (enc->sv, cur + (len < (cur >> 2) ? cur >> 2 : len) + 1);
66	enc->cur = SvPVX (enc->sv) + cur;	210	enc->cur = SvPVX (enc->sv) + cur;
67	enc->end = SvEND (enc->sv);	211	enc->end = SvPVX (enc->sv) + SvLEN (enc->sv) - 1;
68	}	212	}
69	}	213	}
70		214
71	static void	215	INLINE void
72	encode_ch (enc_t *enc, char ch)	216	encode_ch (enc_t *enc, char ch)
73	{	217	{
74	need (enc, 1);	218	need (enc, 1);
75	*enc->cur++ = ch;	219	*enc->cur++ = ch;
76	}	220	}
…		…
78	static void	222	static void
79	encode_str (enc_t *enc, char *str, STRLEN len, int is_utf8)	223	encode_str (enc_t *enc, char *str, STRLEN len, int is_utf8)
80	{	224	{
81	char *end = str + len;	225	char *end = str + len;
82		226
		227	need (enc, len);
		228
83	while (str < end)	229	while (str < end)
84	{	230	{
85	unsigned char ch = *(unsigned char *)str;	231	unsigned char ch = *(unsigned char *)str;
		232
86	if (ch >= 0x20 && ch < 0x80) // most common case	233	if (expect_true (ch >= 0x20 && ch < 0x80)) // most common case
87	{	234	{
		235	if (expect_false (ch == '"')) // but with slow exceptions
		236	{
		237	need (enc, len += 1);
		238	*enc->cur++ = '\\';
		239	*enc->cur++ = '"';
		240	}
		241	else if (expect_false (ch == '\\'))
		242	{
		243	need (enc, len += 1);
		244	*enc->cur++ = '\\';
		245	*enc->cur++ = '\\';
		246	}
		247	else
88	*enc->cur++ = ch;	248	*enc->cur++ = ch;
		249
89	str++;	250	++str;
90	}	251	}
91	else	252	else
92	{	253	{
93	STRLEN clen;	254	switch (ch)
94	UV uch;
95
96	if (is_utf8)
97	{	255	{
98	uch = utf8n_to_uvuni (str, end - str, &clen, UTF8_CHECK_ONLY);	256	case '\010': need (enc, len += 1); *enc->cur++ = '\\'; *enc->cur++ = 'b'; ++str; break;
99	if (clen < 0)	257	case '\011': need (enc, len += 1); *enc->cur++ = '\\'; *enc->cur++ = 't'; ++str; break;
100	croak ("malformed UTF-8 character in string, cannot convert to JSON");	258	case '\012': need (enc, len += 1); *enc->cur++ = '\\'; *enc->cur++ = 'n'; ++str; break;
101	}	259	case '\014': need (enc, len += 1); *enc->cur++ = '\\'; *enc->cur++ = 'f'; ++str; break;
102	else	260	case '\015': need (enc, len += 1); *enc->cur++ = '\\'; *enc->cur++ = 'r'; ++str; break;
103	{
104	uch = ch;
105	clen = 1;
106	}
107		261
108	need (enc, len += 6);	262	default:
109
110	if (uch < 0xa0 || enc->flags & F_ASCII)
111	{
112	if (uch > 0xFFFFUL)
113	{	263	{
		264	STRLEN clen;
		265	UV uch;
		266
		267	if (is_utf8)
		268	{
		269	uch = decode_utf8 (str, end - str, &clen);
		270	if (clen == (STRLEN)-1)
		271	croak ("malformed or illegal unicode character in string [%.11s], cannot convert to JSON", str);
		272	}
		273	else
		274	{
		275	uch = ch;
114	len += 6;	276	clen = 1;
		277	}
		278
		279	if (uch < 0x80/*0x20*/ || uch >= enc->limit)
		280	{
		281	if (uch >= 0x10000UL)
		282	{
		283	if (uch >= 0x110000UL)
		284	croak ("out of range codepoint (0x%lx) encountered, unrepresentable in JSON", (unsigned long)uch);
		285
115	need (enc, len += 6);	286	need (enc, len += 11);
116	sprintf (enc->cur, "\\u%04x\\u%04x",	287	sprintf (enc->cur, "\\u%04x\\u%04x",
117	(uch - 0x10000) / 0x400 + 0xD800,	288	(int)((uch - 0x10000) / 0x400 + 0xD800),
118	(uch - 0x10000) % 0x400 + 0xDC00);	289	(int)((uch - 0x10000) % 0x400 + 0xDC00));
119	enc->cur += 12;	290	enc->cur += 12;
		291	}
		292	else
		293	{
		294	need (enc, len += 5);
		295	*enc->cur++ = '\\';
		296	*enc->cur++ = 'u';
		297	*enc->cur++ = PL_hexdigit [ uch >> 12 ];
		298	*enc->cur++ = PL_hexdigit [(uch >> 8) & 15];
		299	*enc->cur++ = PL_hexdigit [(uch >> 4) & 15];
		300	*enc->cur++ = PL_hexdigit [(uch >> 0) & 15];
		301	}
		302
		303	str += clen;
120	}	304	}
		305	else if (enc->json.flags & F_LATIN1)
		306	{
		307	*enc->cur++ = uch;
		308	str += clen;
		309	}
		310	else if (is_utf8)
		311	{
		312	need (enc, len += clen);
		313	do
		314	{
		315	*enc->cur++ = *str++;
		316	}
		317	while (--clen);
		318	}
121	else	319	else
122	{	320	{
123	sprintf (enc->cur, "\\u%04x", uch);	321	need (enc, len += UTF8_MAXBYTES - 1); // never more than 11 bytes needed
124	enc->cur += 6;	322	enc->cur = encode_utf8 (enc->cur, uch);
		323	++str;
		324	}
125	}	325	}
126	}	326	}
127	else if (is_utf8)
128	{
129	memcpy (enc->cur, str, clen);
130	enc->cur += clen;
131	}
132	else
133	enc->cur = uvuni_to_utf8_flags (enc->cur, uch, 0);
134
135	str += clen;
136	}	327	}
137		328
138	--len;	329	--len;
139	}	330	}
140	}	331	}
141		332
142	#define INDENT SB \	333	INLINE void
		334	encode_indent (enc_t *enc)
		335	{
143	if (enc->flags & F_INDENT) \	336	if (enc->json.flags & F_INDENT)
144	{ \	337	{
145	int i_; \	338	int spaces = enc->indent * INDENT_STEP;
146	need (enc, enc->indent); \	339
147	for (i_ = enc->indent * 3; i_--; )\	340	need (enc, spaces);
		341	memset (enc->cur, ' ', spaces);
		342	enc->cur += spaces;
		343	}
		344	}
		345
		346	INLINE void
		347	encode_space (enc_t *enc)
		348	{
		349	need (enc, 1);
		350	encode_ch (enc, ' ');
		351	}
		352
		353	INLINE void
		354	encode_nl (enc_t *enc)
		355	{
		356	if (enc->json.flags & F_INDENT)
		357	{
		358	need (enc, 1);
148	encode_ch (enc, ' '); \	359	encode_ch (enc, '\n');
149	} \	360	}
150	SE	361	}
151		362
152	#define SPACE SB need (enc, 1); encode_ch (enc, ' '); SE	363	INLINE void
153	#define NL SB if (enc->flags & F_INDENT) { need (enc, 1); encode_ch (enc, '\n'); } SE	364	encode_comma (enc_t *enc)
154	#define COMMA SB \	365	{
155	encode_ch (enc, ','); \	366	encode_ch (enc, ',');
		367
156	if (enc->flags & F_INDENT) \	368	if (enc->json.flags & F_INDENT)
157	NL; \	369	encode_nl (enc);
158	else if (enc->flags & F_SPACE_AFTER) \	370	else if (enc->json.flags & F_SPACE_AFTER)
159	SPACE; \	371	encode_space (enc);
160	SE	372	}
161		373
162	static void encode_sv (enc_t *enc, SV *sv);	374	static void encode_sv (enc_t *enc, SV *sv);
163		375
164	static void	376	static void
165	encode_av (enc_t *enc, AV *av)	377	encode_av (enc_t *enc, AV *av)
166	{	378	{
167	int i, len = av_len (av);	379	int i, len = av_len (av);
168		380
		381	if (enc->indent >= enc->json.max_depth)
		382	croak (ERR_NESTING_EXCEEDED);
		383
169	encode_ch (enc, '['); NL;	384	encode_ch (enc, '[');
170	++enc->indent;	385
		386	if (len >= 0)
		387	{
		388	encode_nl (enc); ++enc->indent;
171		389
172	for (i = 0; i <= len; ++i)	390	for (i = 0; i <= len; ++i)
173	{	391	{
174	INDENT;	392	SV **svp = av_fetch (av, i, 0);
175	encode_sv (enc, *av_fetch (av, i, 0));
176		393
		394	encode_indent (enc);
		395
		396	if (svp)
		397	encode_sv (enc, *svp);
		398	else
		399	encode_str (enc, "null", 4, 0);
		400
177	if (i < len)	401	if (i < len)
178	COMMA;	402	encode_comma (enc);
179	}	403	}
180		404
181	NL;	405	encode_nl (enc); --enc->indent; encode_indent (enc);
182		406	}
183	--enc->indent;	407
184	INDENT; encode_ch (enc, ']');	408	encode_ch (enc, ']');
185	}	409	}
186		410
187	static void	411	static void
188	encode_he (enc_t *enc, HE *he)	412	encode_hk (enc_t *enc, HE *he)
189	{	413	{
190	encode_ch (enc, '"');	414	encode_ch (enc, '"');
191		415
192	if (HeKLEN (he) == HEf_SVKEY)	416	if (HeKLEN (he) == HEf_SVKEY)
193	{	417	{
194	SV *sv = HeSVKEY (he);	418	SV *sv = HeSVKEY (he);
195	STRLEN len;	419	STRLEN len;
		420	char *str;
		421
		422	SvGETMAGIC (sv);
196	char *str = SvPV (sv, len);	423	str = SvPV (sv, len);
197		424
198	encode_str (enc, str, len, SvUTF8 (sv));	425	encode_str (enc, str, len, SvUTF8 (sv));
199	}	426	}
200	else	427	else
201	encode_str (enc, HeKEY (he), HeKLEN (he), HeKUTF8 (he));	428	encode_str (enc, HeKEY (he), HeKLEN (he), HeKUTF8 (he));
202		429
203	encode_ch (enc, '"');	430	encode_ch (enc, '"');
204		431
205	if (enc->flags & F_SPACE_BEFORE) SPACE;	432	if (enc->json.flags & F_SPACE_BEFORE) encode_space (enc);
206	encode_ch (enc, ':');	433	encode_ch (enc, ':');
207	if (enc->flags & F_SPACE_AFTER ) SPACE;	434	if (enc->json.flags & F_SPACE_AFTER ) encode_space (enc);
208	encode_sv (enc, HeVAL (he));
209	}	435	}
210		436
211	// compare hash entries, used when all keys are bytestrings	437	// compare hash entries, used when all keys are bytestrings
212	static int	438	static int
213	he_cmp_fast (const void *a_, const void *b_)	439	he_cmp_fast (const void *a_, const void *b_)
…		…
218	HE *b = *(HE **)b_;	444	HE *b = *(HE **)b_;
219		445
220	STRLEN la = HeKLEN (a);	446	STRLEN la = HeKLEN (a);
221	STRLEN lb = HeKLEN (b);	447	STRLEN lb = HeKLEN (b);
222		448
223	if (!(cmp == memcmp (HeKEY (a), HeKEY (b), la < lb ? la : lb)))	449	if (!(cmp = memcmp (HeKEY (b), HeKEY (a), lb < la ? lb : la)))
224	cmp = la < lb ? -1 : la == lb ? 0 : 1;	450	cmp = lb - la;
225		451
226	return cmp;	452	return cmp;
227	}	453	}
228		454
229	// compare hash entries, used when some keys are sv's or utf-x	455	// compare hash entries, used when some keys are sv's or utf-x
230	static int	456	static int
231	he_cmp_slow (const void *a, const void *b)	457	he_cmp_slow (const void *a, const void *b)
232	{	458	{
233	return sv_cmp (HeSVKEY_force (*(HE **)a), HeSVKEY_force (*(HE **)b));	459	return sv_cmp (HeSVKEY_force (*(HE **)b), HeSVKEY_force (*(HE **)a));
234	}	460	}
235		461
236	static void	462	static void
237	encode_hv (enc_t *enc, HV *hv)	463	encode_hv (enc_t *enc, HV *hv)
238	{	464	{
239	int count, i;	465	HE *he;
240		466
241	encode_ch (enc, '{'); NL; ++enc->indent;	467	if (enc->indent >= enc->json.max_depth)
		468	croak (ERR_NESTING_EXCEEDED);
242		469
243	if ((count = hv_iterinit (hv)))	470	encode_ch (enc, '{');
244	{	471
245	// for canonical output we have to sort by keys first	472	// for canonical output we have to sort by keys first
246	// actually, this is mostly due to the stupid so-called	473	// actually, this is mostly due to the stupid so-called
247	// security workaround added somewhere in 5.8.x.	474	// security workaround added somewhere in 5.8.x
248	// that randomises hash orderings	475	// that randomises hash orderings
249	if (enc->flags & F_CANONICAL)	476	if (enc->json.flags & F_CANONICAL && !SvRMAGICAL (hv))
		477	{
		478	int count = hv_iterinit (hv);
		479
		480	if (SvMAGICAL (hv))
250	{	481	{
251	HE *he, *hes [count];	482	// need to count by iterating. could improve by dynamically building the vector below
		483	// but I don't care for the speed of this special case.
		484	// note also that we will run into undefined behaviour when the two iterations
		485	// do not result in the same count, something I might care for in some later release.
		486
		487	count = 0;
		488	while (hv_iternext (hv))
		489	++count;
		490
		491	hv_iterinit (hv);
		492	}
		493
		494	if (count)
		495	{
252	int fast = 1;	496	int i, fast = 1;
		497	#if defined(__BORLANDC__) || defined(_MSC_VER)
		498	HE **hes = _alloca (count * sizeof (HE));
		499	#else
		500	HE *hes [count]; // if your compiler dies here, you need to enable C99 mode
		501	#endif
253		502
254	i = 0;	503	i = 0;
255	while ((he = hv_iternext (hv)))	504	while ((he = hv_iternext (hv)))
256	{	505	{
257	hes [i++] = he;	506	hes [i++] = he;
…		…
263		512
264	if (fast)	513	if (fast)
265	qsort (hes, count, sizeof (HE *), he_cmp_fast);	514	qsort (hes, count, sizeof (HE *), he_cmp_fast);
266	else	515	else
267	{	516	{
268	// hack to disable "use bytes"	517	// hack to forcefully disable "use bytes"
269	COP *oldcop = PL_curcop, cop;	518	COP cop = *PL_curcop;
270	cop.op_private = 0;	519	cop.op_private = 0;
		520
		521	ENTER;
		522	SAVETMPS;
		523
		524	SAVEVPTR (PL_curcop);
271	PL_curcop = &cop;	525	PL_curcop = &cop;
272		526
273	SAVETMPS;
274	qsort (hes, count, sizeof (HE *), he_cmp_slow);	527	qsort (hes, count, sizeof (HE *), he_cmp_slow);
		528
275	FREETMPS;	529	FREETMPS;
276		530	LEAVE;
277	PL_curcop = oldcop;
278	}	531	}
279		532
280	for (i = 0; i < count; ++i)	533	encode_nl (enc); ++enc->indent;
		534
		535	while (count--)
281	{	536	{
282	INDENT;	537	encode_indent (enc);
		538	he = hes [count];
283	encode_he (enc, hes [i]);	539	encode_hk (enc, he);
		540	encode_sv (enc, expect_false (SvMAGICAL (hv)) ? hv_iterval (hv, he) : HeVAL (he));
284		541
285	if (i < count - 1)	542	if (count)
286	COMMA;	543	encode_comma (enc);
287	}	544	}
288		545
		546	encode_nl (enc); --enc->indent; encode_indent (enc);
		547	}
		548	}
		549	else
		550	{
		551	if (hv_iterinit (hv) || SvMAGICAL (hv))
		552	if ((he = hv_iternext (hv)))
289	NL;	553	{
		554	encode_nl (enc); ++enc->indent;
		555
		556	for (;;)
		557	{
		558	encode_indent (enc);
		559	encode_hk (enc, he);
		560	encode_sv (enc, expect_false (SvMAGICAL (hv)) ? hv_iterval (hv, he) : HeVAL (he));
		561
		562	if (!(he = hv_iternext (hv)))
		563	break;
		564
		565	encode_comma (enc);
		566	}
		567
		568	encode_nl (enc); --enc->indent; encode_indent (enc);
		569	}
		570	}
		571
		572	encode_ch (enc, '}');
		573	}
		574
		575	// encode objects, arrays and special \0=false and \1=true values.
		576	static void
		577	encode_rv (enc_t *enc, SV *sv)
		578	{
		579	svtype svt;
		580
		581	SvGETMAGIC (sv);
		582	svt = SvTYPE (sv);
		583
		584	if (expect_false (SvOBJECT (sv)))
		585	{
		586	HV *stash = !JSON_SLOW || json_boolean_stash
		587	? json_boolean_stash
		588	: gv_stashpv ("JSON::XS::Boolean", 1);
		589
		590	if (SvSTASH (sv) == stash)
		591	{
		592	if (SvIV (sv))
		593	encode_str (enc, "true", 4, 0);
		594	else
		595	encode_str (enc, "false", 5, 0);
290	}	596	}
291	else	597	else
292	{	598	{
293	SV *sv;	599	#if 0
294	HE *he = hv_iternext (hv);	600	if (0 && sv_derived_from (rv, "JSON::Literal"))
295
296	for (;;)
297	{	601	{
298	INDENT;	602	// not yet
299	encode_he (enc, he);
300
301	if (!(he = hv_iternext (hv)))
302	break;
303
304	COMMA;
305	}	603	}
306		604	#endif
		605	if (enc->json.flags & F_CONV_BLESSED)
307	NL;	606	{
		607	// we re-bless the reference to get overload and other niceties right
		608	GV *to_json = gv_fetchmethod_autoload (SvSTASH (sv), "TO_JSON", 0);
		609
		610	if (to_json)
		611	{
		612	dSP;
		613
		614	ENTER; SAVETMPS; PUSHMARK (SP);
		615	XPUSHs (sv_bless (sv_2mortal (newRV_inc (sv)), SvSTASH (sv)));
		616
		617	// calling with G_SCALAR ensures that we always get a 1 return value
		618	PUTBACK;
		619	call_sv ((SV *)GvCV (to_json), G_SCALAR);
		620	SPAGAIN;
		621
		622	// catch this surprisingly common error
		623	if (SvROK (TOPs) && SvRV (TOPs) == sv)
		624	croak ("%s::TO_JSON method returned same object as was passed instead of a new one", HvNAME (SvSTASH (sv)));
		625
		626	sv = POPs;
		627	PUTBACK;
		628
		629	encode_sv (enc, sv);
		630
		631	FREETMPS; LEAVE;
		632	}
		633	else if (enc->json.flags & F_ALLOW_BLESSED)
		634	encode_str (enc, "null", 4, 0);
		635	else
		636	croak ("encountered object '%s', but neither allow_blessed enabled nor TO_JSON method available on it",
		637	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
		638	}
		639	else if (enc->json.flags & F_ALLOW_BLESSED)
		640	encode_str (enc, "null", 4, 0);
		641	else
		642	croak ("encountered object '%s', but neither allow_blessed nor convert_blessed settings are enabled",
		643	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
308	}	644	}
309	}	645	}
		646	else if (svt == SVt_PVHV)
		647	encode_hv (enc, (HV *)sv);
		648	else if (svt == SVt_PVAV)
		649	encode_av (enc, (AV *)sv);
		650	else if (svt < SVt_PVAV)
		651	{
		652	STRLEN len = 0;
		653	char *pv = svt ? SvPV (sv, len) : 0;
310		654
311	--enc->indent; INDENT; encode_ch (enc, '}');	655	if (len == 1 && *pv == '1')
		656	encode_str (enc, "true", 4, 0);
		657	else if (len == 1 && *pv == '0')
		658	encode_str (enc, "false", 5, 0);
		659	else if (enc->json.flags & F_ALLOW_UNKNOWN)
		660	encode_str (enc, "null", 4, 0);
		661	else
		662	croak ("cannot encode reference to scalar '%s' unless the scalar is 0 or 1",
		663	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
		664	}
		665	else if (enc->json.flags & F_ALLOW_UNKNOWN)
		666	encode_str (enc, "null", 4, 0);
		667	else
		668	croak ("encountered %s, but JSON can only represent references to arrays or hashes",
		669	SvPV_nolen (sv_2mortal (newRV_inc (sv))));
312	}	670	}
313		671
314	static void	672	static void
315	encode_sv (enc_t *enc, SV *sv)	673	encode_sv (enc_t *enc, SV *sv)
316	{	674	{
		675	SvGETMAGIC (sv);
		676
317	if (SvPOKp (sv))	677	if (SvPOKp (sv))
318	{	678	{
319	STRLEN len;	679	STRLEN len;
320	char *str = SvPV (sv, len);	680	char *str = SvPV (sv, len);
321	encode_ch (enc, '"');	681	encode_ch (enc, '"');
322	encode_str (enc, str, len, SvUTF8 (sv));	682	encode_str (enc, str, len, SvUTF8 (sv));
323	encode_ch (enc, '"');	683	encode_ch (enc, '"');
324	}	684	}
325	else if (SvNOKp (sv))	685	else if (SvNOKp (sv))
326	{	686	{
		687	// trust that perl will do the right thing w.r.t. JSON syntax.
327	need (enc, NV_DIG + 32);	688	need (enc, NV_DIG + 32);
328	Gconvert (SvNVX (sv), NV_DIG, 0, enc->cur);	689	Gconvert (SvNVX (sv), NV_DIG, 0, enc->cur);
329	enc->cur += strlen (enc->cur);	690	enc->cur += strlen (enc->cur);
330	}	691	}
331	else if (SvIOKp (sv))	692	else if (SvIOKp (sv))
332	{	693	{
		694	// we assume we can always read an IV as a UV and vice versa
		695	// we assume two's complement
		696	// we assume no aliasing issues in the union
		697	if (SvIsUV (sv) ? SvUVX (sv) <= 59000
		698	: SvIVX (sv) <= 59000 && SvIVX (sv) >= -59000)
		699	{
		700	// optimise the "small number case"
		701	// code will likely be branchless and use only a single multiplication
		702	// works for numbers up to 59074
		703	I32 i = SvIVX (sv);
		704	U32 u;
		705	char digit, nz = 0;
		706
333	need (enc, 64);	707	need (enc, 6);
		708
		709	*enc->cur = '-'; enc->cur += i < 0 ? 1 : 0;
		710	u = i < 0 ? -i : i;
		711
		712	// convert to 4.28 fixed-point representation
		713	u = u * ((0xfffffff + 10000) / 10000); // 10**5, 5 fractional digits
		714
		715	// now output digit by digit, each time masking out the integer part
		716	// and multiplying by 5 while moving the decimal point one to the right,
		717	// resulting in a net multiplication by 10.
		718	// we always write the digit to memory but conditionally increment
		719	// the pointer, to enable the use of conditional move instructions.
		720	digit = u >> 28; *enc->cur = digit + '0'; enc->cur += (nz = nz || digit); u = (u & 0xfffffffUL) * 5;
		721	digit = u >> 27; *enc->cur = digit + '0'; enc->cur += (nz = nz || digit); u = (u & 0x7ffffffUL) * 5;
		722	digit = u >> 26; *enc->cur = digit + '0'; enc->cur += (nz = nz || digit); u = (u & 0x3ffffffUL) * 5;
		723	digit = u >> 25; *enc->cur = digit + '0'; enc->cur += (nz = nz || digit); u = (u & 0x1ffffffUL) * 5;
		724	digit = u >> 24; *enc->cur = digit + '0'; enc->cur += 1; // correctly generate '0'
		725	}
		726	else
		727	{
		728	// large integer, use the (rather slow) snprintf way.
		729	need (enc, IVUV_MAXCHARS);
334	enc->cur +=	730	enc->cur +=
335	SvIsUV(sv)	731	SvIsUV(sv)
336	? snprintf (enc->cur, 64, "%"UVuf, (UV)SvUVX (sv))	732	? snprintf (enc->cur, IVUV_MAXCHARS, "%"UVuf, (UV)SvUVX (sv))
337	: snprintf (enc->cur, 64, "%"IVdf, (IV)SvIVX (sv));	733	: snprintf (enc->cur, IVUV_MAXCHARS, "%"IVdf, (IV)SvIVX (sv));
		734	}
338	}	735	}
339	else if (SvROK (sv))	736	else if (SvROK (sv))
340	{	737	encode_rv (enc, SvRV (sv));
341	if (!--enc->max_recurse)	738	else if (!SvOK (sv) || enc->json.flags & F_ALLOW_UNKNOWN)
342	croak ("data structure too deep (hit recursion limit)");
343
344	sv = SvRV (sv);
345
346	switch (SvTYPE (sv))
347	{
348	case SVt_PVAV: encode_av (enc, (AV *)sv); break;
349	case SVt_PVHV: encode_hv (enc, (HV *)sv); break;
350
351	default:
352	croak ("JSON can only represent references to arrays or hashes");
353	}
354	}
355	else if (!SvOK (sv))
356	encode_str (enc, "null", 4, 0);	739	encode_str (enc, "null", 4, 0);
357	else	740	else
358	croak ("encountered perl type that JSON cannot handle");	741	croak ("encountered perl type (%s,0x%x) that JSON cannot handle, you might want to report this",
		742	SvPV_nolen (sv), SvFLAGS (sv));
359	}	743	}
360		744
361	static SV *	745	static SV *
362	encode_json (SV *scalar, UV flags)	746	encode_json (SV *scalar, JSON *json)
363	{	747	{
364	enc_t enc;	748	enc_t enc;
365	enc.flags = flags;	749
		750	if (!(json->flags & F_ALLOW_NONREF) && !SvROK (scalar))
		751	croak ("hash- or arrayref expected (not a simple scalar, use allow_nonref to allow this)");
		752
		753	enc.json = *json;
366	enc.sv = sv_2mortal (NEWSV (0, INIT_SIZE));	754	enc.sv = sv_2mortal (NEWSV (0, INIT_SIZE));
367	enc.cur = SvPVX (enc.sv);	755	enc.cur = SvPVX (enc.sv);
368	enc.end = SvEND (enc.sv);	756	enc.end = SvEND (enc.sv);
369	enc.max_recurse = 0;
370	enc.indent = 0;	757	enc.indent = 0;
		758	enc.limit = enc.json.flags & F_ASCII ? 0x000080UL
		759	: enc.json.flags & F_LATIN1 ? 0x000100UL
		760	: 0x110000UL;
371		761
372	SvPOK_only (enc.sv);	762	SvPOK_only (enc.sv);
373	encode_sv (&enc, scalar);	763	encode_sv (&enc, scalar);
374		764
		765	SvCUR_set (enc.sv, enc.cur - SvPVX (enc.sv));
		766	*SvEND (enc.sv) = 0; // many xs functions expect a trailing 0 for text strings
		767
375	if (!(flags & (F_ASCII | F_UTF8)))	768	if (!(enc.json.flags & (F_ASCII | F_LATIN1 | F_UTF8)))
376	SvUTF8_on (enc.sv);	769	SvUTF8_on (enc.sv);
377		770
378	SvCUR_set (enc.sv, enc.cur - SvPVX (enc.sv));	771	if (enc.json.flags & F_SHRINK)
		772	shrink (enc.sv);
		773
379	return enc.sv;	774	return enc.sv;
380	}	775	}
381		776
382	/////////////////////////////////////////////////////////////////////////////	777	/////////////////////////////////////////////////////////////////////////////
		778	// decoder
383		779
384	#define WS \	780	// structure used for decoding JSON
		781	typedef struct
		782	{
		783	char *cur; // current parser pointer
		784	char *end; // end of input string
		785	const char *err; // parse error, if != 0
		786	JSON json;
		787	U32 depth; // recursion depth
		788	U32 maxdepth; // recursion depth limit
		789	} dec_t;
		790
		791	INLINE void
		792	decode_comment (dec_t *dec)
		793	{
		794	// only '#'-style comments allowed a.t.m.
		795
		796	while (*dec->cur && *dec->cur != 0x0a && *dec->cur != 0x0d)
		797	++dec->cur;
		798	}
		799
		800	INLINE void
		801	decode_ws (dec_t *dec)
		802	{
385	for (;;) \	803	for (;;)
386	{ \	804	{
387	char ch = *dec->cur; \	805	char ch = *dec->cur;
		806
388	if (ch > 0x20 \	807	if (ch > 0x20)
		808	{
		809	if (expect_false (ch == '#'))
		810	{
		811	if (dec->json.flags & F_RELAXED)
		812	decode_comment (dec);
		813	else
		814	break;
		815	}
		816	else
		817	break;
		818	}
389	|| (ch != 0x20 && ch != 0x0a && ch != 0x0d && ch != 0x09)) \	819	else if (ch != 0x20 && ch != 0x0a && ch != 0x0d && ch != 0x09)
390	break; \	820	break; // parse error, but let higher level handle it, gives better error messages
		821
391	++dec->cur; \	822	++dec->cur;
392	}	823	}
		824	}
393		825
394	#define ERR(reason) SB dec->err = reason; goto fail; SE	826	#define ERR(reason) SB dec->err = reason; goto fail; SE
		827
395	#define EXPECT_CH(ch) SB \	828	#define EXPECT_CH(ch) SB \
396	if (*dec->cur != ch) \	829	if (*dec->cur != ch) \
397	ERR (# ch " expected"); \	830	ERR (# ch " expected"); \
398	++dec->cur; \	831	++dec->cur; \
399	SE	832	SE
400		833
		834	#define DEC_INC_DEPTH if (++dec->depth > dec->json.max_depth) ERR (ERR_NESTING_EXCEEDED)
		835	#define DEC_DEC_DEPTH --dec->depth
		836
401	static SV *decode_sv (dec_t *dec);	837	static SV *decode_sv (dec_t *dec);
402
403	#define APPEND_CH(ch) SB \
404	SvGROW (sv, cur + 1 + 1); \
405	SvPVX (sv)[cur++] = (ch); \
406	SE
407		838
408	static signed char decode_hexdigit[256];	839	static signed char decode_hexdigit[256];
409		840
410	static UV	841	static UV
411	decode_4hex (dec_t *dec)	842	decode_4hex (dec_t *dec)
412	{	843	{
413	signed char d1, d2, d3, d4;	844	signed char d1, d2, d3, d4;
		845	unsigned char *cur = (unsigned char *)dec->cur;
414		846
415	d1 = decode_hexdigit [((unsigned char *)dec->cur) [0]];	847	d1 = decode_hexdigit [cur [0]]; if (expect_false (d1 < 0)) ERR ("exactly four hexadecimal digits expected");
416	if (d1 < 0) ERR ("four hexadecimal digits expected");	848	d2 = decode_hexdigit [cur [1]]; if (expect_false (d2 < 0)) ERR ("exactly four hexadecimal digits expected");
417	d2 = decode_hexdigit [((unsigned char *)dec->cur) [1]];	849	d3 = decode_hexdigit [cur [2]]; if (expect_false (d3 < 0)) ERR ("exactly four hexadecimal digits expected");
418	if (d2 < 0) ERR ("four hexadecimal digits expected");	850	d4 = decode_hexdigit [cur [3]]; if (expect_false (d4 < 0)) ERR ("exactly four hexadecimal digits expected");
419	d3 = decode_hexdigit [((unsigned char *)dec->cur) [2]];
420	if (d3 < 0) ERR ("four hexadecimal digits expected");
421	d4 = decode_hexdigit [((unsigned char *)dec->cur) [3]];
422	if (d4 < 0) ERR ("four hexadecimal digits expected");
423		851
424	dec->cur += 4;	852	dec->cur += 4;
425		853
426	return ((UV)d1) << 12	854	return ((UV)d1) << 12
427	| ((UV)d2) << 8	855	| ((UV)d2) << 8
…		…
433	}	861	}
434		862
435	static SV *	863	static SV *
436	decode_str (dec_t *dec)	864	decode_str (dec_t *dec)
437	{	865	{
438	SV *sv = NEWSV (0,2);	866	SV *sv = 0;
439	STRLEN cur = 0;
440	int utf8 = 0;	867	int utf8 = 0;
		868	char *dec_cur = dec->cur;
441		869
442	for (;;)	870	do
443	{	871	{
444	unsigned char ch = *(unsigned char *)dec->cur;	872	char buf [SHORT_STRING_LEN + UTF8_MAXBYTES];
		873	char *cur = buf;
445		874
446	if (ch == '"')	875	do
447	break;
448	else if (ch == '\\')
449	{	876	{
450	switch (*++dec->cur)	877	unsigned char ch = *(unsigned char *)dec_cur++;
		878
		879	if (expect_false (ch == '"'))
451	{	880	{
452	case '\\':	881	--dec_cur;
453	case '/':	882	break;
454	case '"': APPEND_CH (*dec->cur++); break;	883	}
455		884	else if (expect_false (ch == '\\'))
456	case 'b': APPEND_CH ('\010'); ++dec->cur; break;	885	{
457	case 't': APPEND_CH ('\011'); ++dec->cur; break;	886	switch (*dec_cur)
458	case 'n': APPEND_CH ('\012'); ++dec->cur; break;
459	case 'f': APPEND_CH ('\014'); ++dec->cur; break;
460	case 'r': APPEND_CH ('\015'); ++dec->cur; break;
461
462	case 'u':
463	{	887	{
464	UV lo, hi;	888	case '\\':
465	++dec->cur;	889	case '/':
		890	case '"': *cur++ = *dec_cur++; break;
466		891
467	hi = decode_4hex (dec);	892	case 'b': ++dec_cur; *cur++ = '\010'; break;
468	if (hi == (UV)-1)	893	case 't': ++dec_cur; *cur++ = '\011'; break;
469	goto fail;	894	case 'n': ++dec_cur; *cur++ = '\012'; break;
		895	case 'f': ++dec_cur; *cur++ = '\014'; break;
		896	case 'r': ++dec_cur; *cur++ = '\015'; break;
470		897
471	// possibly a surrogate pair	898	case 'u':
472	if (hi >= 0xd800 && hi < 0xdc00)
473	{	899	{
474	if (dec->cur [0] != '\\' || dec->cur [1] != 'u')	900	UV lo, hi;
475	ERR ("illegal surrogate character");	901	++dec_cur;
476		902
477	dec->cur += 2;	903	dec->cur = dec_cur;
478
479	lo = decode_4hex (dec);	904	hi = decode_4hex (dec);
		905	dec_cur = dec->cur;
480	if (lo == (UV)-1)	906	if (hi == (UV)-1)
481	goto fail;	907	goto fail;
482		908
		909	// possibly a surrogate pair
		910	if (hi >= 0xd800)
		911	if (hi < 0xdc00)
		912	{
		913	if (dec_cur [0] != '\\' || dec_cur [1] != 'u')
		914	ERR ("missing low surrogate character in surrogate pair");
		915
		916	dec_cur += 2;
		917
		918	dec->cur = dec_cur;
		919	lo = decode_4hex (dec);
		920	dec_cur = dec->cur;
		921	if (lo == (UV)-1)
		922	goto fail;
		923
483	if (lo < 0xdc00 || lo >= 0xe000)	924	if (lo < 0xdc00 || lo >= 0xe000)
484	ERR ("surrogate pair expected");	925	ERR ("surrogate pair expected");
485		926
486	hi = (hi - 0xD800) * 0x400 + (lo - 0xDC00) + 0x10000;	927	hi = (hi - 0xD800) * 0x400 + (lo - 0xDC00) + 0x10000;
		928	}
		929	else if (hi < 0xe000)
		930	ERR ("missing high surrogate character in surrogate pair");
		931
		932	if (hi >= 0x80)
		933	{
		934	utf8 = 1;
		935
		936	cur = encode_utf8 (cur, hi);
		937	}
		938	else
		939	*cur++ = hi;
487	}	940	}
488	else if (lo >= 0xdc00 && lo < 0xe000)
489	ERR ("illegal surrogate character");
490
491	if (hi >= 0x80)
492	{	941	break;
493	utf8 = 1;
494		942
495	SvGROW (sv, cur + 4 + 1); // at most 4 bytes for 21 bits
496	cur = (char *)uvuni_to_utf8_flags (SvPVX (sv) + cur, hi, 0) - SvPVX (sv);
497	}
498	else	943	default:
499	APPEND_CH (hi);	944	--dec_cur;
		945	ERR ("illegal backslash escape sequence in string");
500	}	946	}
		947	}
		948	else if (expect_true (ch >= 0x20 && ch < 0x80))
		949	*cur++ = ch;
		950	else if (ch >= 0x80)
		951	{
		952	STRLEN clen;
		953	UV uch;
		954
		955	--dec_cur;
		956
		957	uch = decode_utf8 (dec_cur, dec->end - dec_cur, &clen);
		958	if (clen == (STRLEN)-1)
		959	ERR ("malformed UTF-8 character in JSON string");
		960
		961	do
		962	*cur++ = *dec_cur++;
		963	while (--clen);
		964
		965	utf8 = 1;
		966	}
		967	else
		968	{
		969	--dec_cur;
		970
		971	if (!ch)
		972	ERR ("unexpected end of string while parsing JSON string");
501	break;	973	else
		974	ERR ("invalid character encountered while parsing JSON string");
502	}	975	}
503	}	976	}
504	else if (ch >= 0x20 && ch <= 0x7f)	977	while (cur < buf + SHORT_STRING_LEN);
505	APPEND_CH (*dec->cur++);	978
506	else if (ch >= 0x80)	979	{
		980	STRLEN len = cur - buf;
		981
		982	if (sv)
507	{	983	{
508	STRLEN clen;	984	STRLEN cur = SvCUR (sv);
509	UV uch = utf8n_to_uvuni (dec->cur, dec->end - dec->cur, &clen, UTF8_CHECK_ONLY);
510	if (clen < 0)
511	ERR ("malformed UTF-8 character in string, cannot convert to JSON");
512		985
513	SvGROW (sv, cur + clen + 1); // at most 4 bytes for 21 bits	986	if (SvLEN (sv) <= cur + len)
514	memcpy (SvPVX (sv) + cur, dec->cur, clen);	987	SvGROW (sv, cur + (len < (cur >> 2) ? cur >> 2 : len) + 1);
515	dec->cur += clen;	988
		989	memcpy (SvPVX (sv) + SvCUR (sv), buf, len);
		990	SvCUR_set (sv, SvCUR (sv) + len);
516	}	991	}
517	else	992	else
518	ERR ("invalid character encountered");	993	sv = newSVpvn (buf, len);
519	}	994	}
		995	}
		996	while (*dec_cur != '"');
520		997
521	++dec->cur;	998	++dec_cur;
522		999
		1000	if (sv)
		1001	{
523	SvPOK_only (sv);	1002	SvPOK_only (sv);
524
525	SvCUR_set (sv, cur);
526	*SvEND (sv) = 0;	1003	*SvEND (sv) = 0;
527		1004
528	if (utf8)	1005	if (utf8)
529	SvUTF8_on (sv);	1006	SvUTF8_on (sv);
		1007	}
		1008	else
		1009	sv = newSVpvn ("", 0);
530		1010
		1011	dec->cur = dec_cur;
531	return sv;	1012	return sv;
532		1013
533	fail:	1014	fail:
534	SvREFCNT_dec (sv);	1015	dec->cur = dec_cur;
535	return 0;	1016	return 0;
536	}	1017	}
537		1018
538	static SV *	1019	static SV *
539	decode_num (dec_t *dec)	1020	decode_num (dec_t *dec)
…		…
549	{	1030	{
550	++dec->cur;	1031	++dec->cur;
551	if (*dec->cur >= '0' && *dec->cur <= '9')	1032	if (*dec->cur >= '0' && *dec->cur <= '9')
552	ERR ("malformed number (leading zero must not be followed by another digit)");	1033	ERR ("malformed number (leading zero must not be followed by another digit)");
553	}	1034	}
554		1035	else if (*dec->cur < '0' || *dec->cur > '9')
555	// int	1036	ERR ("malformed number (no digits after initial minus)");
		1037	else
		1038	do
		1039	{
		1040	++dec->cur;
		1041	}
556	while (*dec->cur >= '0' && *dec->cur <= '9')	1042	while (*dec->cur >= '0' && *dec->cur <= '9');
557	++dec->cur;
558		1043
559	// [frac]	1044	// [frac]
560	if (*dec->cur == '.')	1045	if (*dec->cur == '.')
561	{	1046	{
562	is_nv = 1;	1047	++dec->cur;
		1048
		1049	if (*dec->cur < '0' || *dec->cur > '9')
		1050	ERR ("malformed number (no digits after decimal point)");
563		1051
564	do	1052	do
565	{	1053	{
566	++dec->cur;	1054	++dec->cur;
567	}	1055	}
568	while (*dec->cur >= '0' && *dec->cur <= '9');	1056	while (*dec->cur >= '0' && *dec->cur <= '9');
		1057
		1058	is_nv = 1;
569	}	1059	}
570		1060
571	// [exp]	1061	// [exp]
572	if (*dec->cur == 'e' || *dec->cur == 'E')	1062	if (*dec->cur == 'e' || *dec->cur == 'E')
573	{	1063	{
574	is_nv = 1;
575
576	++dec->cur;	1064	++dec->cur;
		1065
577	if (*dec->cur == '-' || *dec->cur == '+')	1066	if (*dec->cur == '-' || *dec->cur == '+')
578	++dec->cur;	1067	++dec->cur;
579		1068
		1069	if (*dec->cur < '0' || *dec->cur > '9')
		1070	ERR ("malformed number (no digits after exp sign)");
		1071
		1072	do
		1073	{
		1074	++dec->cur;
		1075	}
580	while (*dec->cur >= '0' && *dec->cur <= '9')	1076	while (*dec->cur >= '0' && *dec->cur <= '9');
581	++dec->cur;	1077
		1078	is_nv = 1;
582	}	1079	}
583		1080
584	if (!is_nv)	1081	if (!is_nv)
585	{	1082	{
586	UV uv;	1083	int len = dec->cur - start;
587	int numtype = grok_number (start, dec->cur - start, &uv);	1084
588	if (numtype & IS_NUMBER_IN_UV)	1085	// special case the rather common 1..5-digit-int case
589	if (numtype & IS_NUMBER_NEG)	1086	if (*start == '-')
		1087	switch (len)
590	{	1088	{
591	if (uv < (UV)IV_MIN)	1089	case 2: return newSViv (-(IV)( start [1] - '0' * 1));
592	return newSViv (-(IV)uv);	1090	case 3: return newSViv (-(IV)( start [1] * 10 + start [2] - '0' * 11));
		1091	case 4: return newSViv (-(IV)( start [1] * 100 + start [2] * 10 + start [3] - '0' * 111));
		1092	case 5: return newSViv (-(IV)( start [1] * 1000 + start [2] * 100 + start [3] * 10 + start [4] - '0' * 1111));
		1093	case 6: return newSViv (-(IV)(start [1] * 10000 + start [2] * 1000 + start [3] * 100 + start [4] * 10 + start [5] - '0' * 11111));
593	}	1094	}
		1095	else
		1096	switch (len)
		1097	{
		1098	case 1: return newSViv ( start [0] - '0' * 1);
		1099	case 2: return newSViv ( start [0] * 10 + start [1] - '0' * 11);
		1100	case 3: return newSViv ( start [0] * 100 + start [1] * 10 + start [2] - '0' * 111);
		1101	case 4: return newSViv ( start [0] * 1000 + start [1] * 100 + start [2] * 10 + start [3] - '0' * 1111);
		1102	case 5: return newSViv ( start [0] * 10000 + start [1] * 1000 + start [2] * 100 + start [3] * 10 + start [4] - '0' * 11111);
		1103	}
		1104
		1105	{
		1106	UV uv;
		1107	int numtype = grok_number (start, len, &uv);
		1108	if (numtype & IS_NUMBER_IN_UV)
		1109	if (numtype & IS_NUMBER_NEG)
		1110	{
		1111	if (uv < (UV)IV_MIN)
		1112	return newSViv (-(IV)uv);
		1113	}
594	else	1114	else
595	return newSVuv (uv);	1115	return newSVuv (uv);
596	}	1116	}
597		1117
		1118	len -= *start == '-' ? 1 : 0;
		1119
		1120	// does not fit into IV or UV, try NV
		1121	if ((sizeof (NV) == sizeof (double) && DBL_DIG >= len)
		1122	#if defined (LDBL_DIG)
		1123	|| (sizeof (NV) == sizeof (long double) && LDBL_DIG >= len)
		1124	#endif
		1125	)
		1126	// fits into NV without loss of precision
		1127	return newSVnv (Atof (start));
		1128
		1129	// everything else fails, convert it to a string
		1130	return newSVpvn (start, dec->cur - start);
		1131	}
		1132
		1133	// loss of precision here
598	return newSVnv (Atof (start));	1134	return newSVnv (Atof (start));
599		1135
600	fail:	1136	fail:
601	return 0;	1137	return 0;
602	}	1138	}
…		…
604	static SV *	1140	static SV *
605	decode_av (dec_t *dec)	1141	decode_av (dec_t *dec)
606	{	1142	{
607	AV *av = newAV ();	1143	AV *av = newAV ();
608		1144
		1145	DEC_INC_DEPTH;
		1146	decode_ws (dec);
		1147
		1148	if (*dec->cur == ']')
		1149	++dec->cur;
		1150	else
609	for (;;)	1151	for (;;)
610	{	1152	{
611	SV *value;	1153	SV *value;
612		1154
613	value = decode_sv (dec);	1155	value = decode_sv (dec);
614	if (!value)	1156	if (!value)
615	goto fail;	1157	goto fail;
616		1158
617	av_push (av, value);	1159	av_push (av, value);
618		1160
619	WS;	1161	decode_ws (dec);
620		1162
621	if (*dec->cur == ']')	1163	if (*dec->cur == ']')
622	{	1164	{
623	++dec->cur;	1165	++dec->cur;
624	break;	1166	break;
		1167	}
625	}	1168
626
627	if (*dec->cur != ',')	1169	if (*dec->cur != ',')
628	ERR (", or ] expected while parsing array");	1170	ERR (", or ] expected while parsing array");
629		1171
630	++dec->cur;	1172	++dec->cur;
		1173
		1174	decode_ws (dec);
		1175
		1176	if (*dec->cur == ']' && dec->json.flags & F_RELAXED)
		1177	{
		1178	++dec->cur;
		1179	break;
		1180	}
631	}	1181	}
632		1182
		1183	DEC_DEC_DEPTH;
633	return newRV_noinc ((SV *)av);	1184	return newRV_noinc ((SV *)av);
634		1185
635	fail:	1186	fail:
636	SvREFCNT_dec (av);	1187	SvREFCNT_dec (av);
		1188	DEC_DEC_DEPTH;
637	return 0;	1189	return 0;
638	}	1190	}
639		1191
640	static SV *	1192	static SV *
641	decode_hv (dec_t *dec)	1193	decode_hv (dec_t *dec)
642	{	1194	{
		1195	SV *sv;
643	HV *hv = newHV ();	1196	HV *hv = newHV ();
644		1197
		1198	DEC_INC_DEPTH;
		1199	decode_ws (dec);
		1200
		1201	if (*dec->cur == '}')
		1202	++dec->cur;
		1203	else
645	for (;;)	1204	for (;;)
646	{	1205	{
647	SV *key, *value;
648
649	WS; EXPECT_CH ('"');	1206	EXPECT_CH ('"');
650		1207
651	key = decode_str (dec);	1208	// heuristic: assume that
652	if (!key)	1209	// a) decode_str + hv_store_ent are abysmally slow.
653	goto fail;	1210	// b) most hash keys are short, simple ascii text.
654		1211	// => try to "fast-match" such strings to avoid
655	WS; EXPECT_CH (':');	1212	// the overhead of decode_str + hv_store_ent.
656
657	value = decode_sv (dec);
658	if (!value)
659	{	1213	{
		1214	SV *value;
		1215	char *p = dec->cur;
		1216	char *e = p + 24; // only try up to 24 bytes
		1217
		1218	for (;;)
		1219	{
		1220	// the >= 0x80 is false on most architectures
		1221	if (p == e || *p < 0x20 || *p >= 0x80 || *p == '\\')
		1222	{
		1223	// slow path, back up and use decode_str
		1224	SV *key = decode_str (dec);
		1225	if (!key)
		1226	goto fail;
		1227
		1228	decode_ws (dec); EXPECT_CH (':');
		1229
		1230	decode_ws (dec);
		1231	value = decode_sv (dec);
		1232	if (!value)
		1233	{
		1234	SvREFCNT_dec (key);
		1235	goto fail;
		1236	}
		1237
		1238	hv_store_ent (hv, key, value, 0);
660	SvREFCNT_dec (key);	1239	SvREFCNT_dec (key);
		1240
		1241	break;
		1242	}
		1243	else if (*p == '"')
		1244	{
		1245	// fast path, got a simple key
		1246	char *key = dec->cur;
		1247	int len = p - key;
		1248	dec->cur = p + 1;
		1249
		1250	decode_ws (dec); EXPECT_CH (':');
		1251
		1252	decode_ws (dec);
		1253	value = decode_sv (dec);
		1254	if (!value)
661	goto fail;	1255	goto fail;
		1256
		1257	hv_store (hv, key, len, value, 0);
		1258
		1259	break;
		1260	}
		1261
		1262	++p;
		1263	}
662	}	1264	}
663		1265
664	//TODO: optimise	1266	decode_ws (dec);
665	hv_store_ent (hv, key, value, 0);
666		1267
667	WS;
668
669	if (*dec->cur == '}')	1268	if (*dec->cur == '}')
		1269	{
		1270	++dec->cur;
		1271	break;
		1272	}
		1273
		1274	if (*dec->cur != ',')
		1275	ERR (", or } expected while parsing object/hash");
		1276
		1277	++dec->cur;
		1278
		1279	decode_ws (dec);
		1280
		1281	if (*dec->cur == '}' && dec->json.flags & F_RELAXED)
		1282	{
		1283	++dec->cur;
		1284	break;
		1285	}
		1286	}
		1287
		1288	DEC_DEC_DEPTH;
		1289	sv = newRV_noinc ((SV *)hv);
		1290
		1291	// check filter callbacks
		1292	if (dec->json.flags & F_HOOK)
		1293	{
		1294	if (dec->json.cb_sk_object && HvKEYS (hv) == 1)
670	{	1295	{
671	++dec->cur;	1296	HE *cb, *he;
672	break;	1297
		1298	hv_iterinit (hv);
		1299	he = hv_iternext (hv);
		1300	hv_iterinit (hv);
		1301
		1302	// the next line creates a mortal sv each time its called.
		1303	// might want to optimise this for common cases.
		1304	cb = hv_fetch_ent (dec->json.cb_sk_object, hv_iterkeysv (he), 0, 0);
		1305
		1306	if (cb)
		1307	{
		1308	dSP;
		1309	int count;
		1310
		1311	ENTER; SAVETMPS; PUSHMARK (SP);
		1312	XPUSHs (HeVAL (he));
		1313
		1314	PUTBACK; count = call_sv (HeVAL (cb), G_ARRAY); SPAGAIN;
		1315
		1316	if (count == 1)
		1317	{
		1318	sv = newSVsv (POPs);
		1319	FREETMPS; LEAVE;
		1320	return sv;
		1321	}
		1322
		1323	FREETMPS; LEAVE;
		1324	}
673	}	1325	}
674		1326
675	if (*dec->cur != ',')	1327	if (dec->json.cb_object)
676	ERR (", or } expected while parsing object/hash");	1328	{
		1329	dSP;
		1330	int count;
677		1331
678	++dec->cur;	1332	ENTER; SAVETMPS; PUSHMARK (SP);
679	}	1333	XPUSHs (sv_2mortal (sv));
680		1334
681	return newRV_noinc ((SV *)hv);	1335	PUTBACK; count = call_sv (dec->json.cb_object, G_ARRAY); SPAGAIN;
		1336
		1337	if (count == 1)
		1338	{
		1339	sv = newSVsv (POPs);
		1340	FREETMPS; LEAVE;
		1341	return sv;
		1342	}
		1343
		1344	SvREFCNT_inc (sv);
		1345	FREETMPS; LEAVE;
		1346	}
		1347	}
		1348
		1349	return sv;
682		1350
683	fail:	1351	fail:
684	SvREFCNT_dec (hv);	1352	SvREFCNT_dec (hv);
		1353	DEC_DEC_DEPTH;
685	return 0;	1354	return 0;
686	}	1355	}
687		1356
688	static SV *	1357	static SV *
689	decode_sv (dec_t *dec)	1358	decode_sv (dec_t *dec)
690	{	1359	{
691	WS;	1360	// the beauty of JSON: you need exactly one character lookahead
		1361	// to parse everything.
692	switch (*dec->cur)	1362	switch (*dec->cur)
693	{	1363	{
694	case '"': ++dec->cur; return decode_str (dec);	1364	case '"': ++dec->cur; return decode_str (dec);
695	case '[': ++dec->cur; return decode_av (dec);	1365	case '[': ++dec->cur; return decode_av (dec);
696	case '{': ++dec->cur; return decode_hv (dec);	1366	case '{': ++dec->cur; return decode_hv (dec);
697		1367
698	case '-':	1368	case '-':
699	case '0': case '1': case '2': case '3': case '4':	1369	case '0': case '1': case '2': case '3': case '4':
700	case '5': case '6': case '7': case '8': case '9':	1370	case '5': case '6': case '7': case '8': case '9':
701	return decode_num (dec);	1371	return decode_num (dec);
702		1372
703	case 't':	1373	case 't':
704	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "true", 4))	1374	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "true", 4))
705	{	1375	{
706	dec->cur += 4;	1376	dec->cur += 4;
		1377	#if JSON_SLOW
		1378	json_true = get_bool ("JSON::XS::true");
		1379	#endif
707	return newSViv (1);	1380	return newSVsv (json_true);
708	}	1381	}
709	else	1382	else
710	ERR ("'true' expected");	1383	ERR ("'true' expected");
711		1384
712	break;	1385	break;
713		1386
714	case 'f':	1387	case 'f':
715	if (dec->end - dec->cur >= 5 && !memcmp (dec->cur, "false", 5))	1388	if (dec->end - dec->cur >= 5 && !memcmp (dec->cur, "false", 5))
716	{	1389	{
717	dec->cur += 5;	1390	dec->cur += 5;
		1391	#if JSON_SLOW
		1392	json_false = get_bool ("JSON::XS::false");
		1393	#endif
718	return newSViv (0);	1394	return newSVsv (json_false);
719	}	1395	}
720	else	1396	else
721	ERR ("'false' expected");	1397	ERR ("'false' expected");
722		1398
723	break;	1399	break;
724		1400
725	case 'n':	1401	case 'n':
726	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "null", 4))	1402	if (dec->end - dec->cur >= 4 && !memcmp (dec->cur, "null", 4))
727	{	1403	{
728	dec->cur += 4;	1404	dec->cur += 4;
729	return newSViv (1);	1405	return newSVsv (&PL_sv_undef);
730	}	1406	}
731	else	1407	else
732	ERR ("'null' expected");	1408	ERR ("'null' expected");
733		1409
734	break;	1410	break;
735		1411
736	default:	1412	default:
737	ERR ("malformed json string");	1413	ERR ("malformed JSON string, neither array, object, number, string or atom");
738	break;	1414	break;
739	}	1415	}
740		1416
741	fail:	1417	fail:
742	return 0;	1418	return 0;
743	}	1419	}
744		1420
745	static SV *	1421	static SV *
746	decode_json (SV *string, UV flags)	1422	decode_json (SV *string, JSON *json, char **offset_return)
747	{	1423	{
		1424	dec_t dec;
748	SV *sv;	1425	SV *sv;
749		1426
		1427	/* work around bugs in 5.10 where manipulating magic values
		1428	* will perl ignore the magic in subsequent accesses
		1429	*/
		1430	/*SvGETMAGIC (string);*/
		1431	if (SvMAGICAL (string))
		1432	string = sv_2mortal (newSVsv (string));
		1433
		1434	SvUPGRADE (string, SVt_PV);
		1435
		1436	/* work around a bug in perl 5.10, which causes SvCUR to fail an
		1437	* assertion with -DDEBUGGING, although SvCUR is documented to
		1438	* return the xpv_cur field which certainly exists after upgrading.
		1439	* according to nicholas clark, calling SvPOK fixes this.
		1440	* But it doesn't fix it, so try another workaround, call SvPV_nolen
		1441	* and hope for the best.
		1442	* Damnit, SvPV_nolen still trips over yet another assertion. This
		1443	* assertion business is seriously broken, try yet another workaround
		1444	* for the broken -DDEBUGGING.
		1445	*/
		1446	{
		1447	#ifdef DEBUGGING
		1448	STRLEN offset = SvOK (string) ? sv_len (string) : 0;
		1449	#else
		1450	STRLEN offset = SvCUR (string);
		1451	#endif
		1452
		1453	if (offset > json->max_size && json->max_size)
		1454	croak ("attempted decode of JSON text of %lu bytes size, but max_size is set to %lu",
		1455	(unsigned long)SvCUR (string), (unsigned long)json->max_size);
		1456	}
		1457
750	if (!(flags & F_UTF8))	1458	if (json->flags & F_UTF8)
		1459	sv_utf8_downgrade (string, 0);
		1460	else
751	sv_utf8_upgrade (string);	1461	sv_utf8_upgrade (string);
752		1462
753	SvGROW (string, SvCUR (string) + 1); // should basically be a NOP	1463	SvGROW (string, SvCUR (string) + 1); // should basically be a NOP
754		1464
755	dec_t dec;	1465	dec.json = *json;
756	dec.flags = flags;
757	dec.cur = SvPVX (string);	1466	dec.cur = SvPVX (string);
758	dec.end = SvEND (string);	1467	dec.end = SvEND (string);
759	dec.err = 0;	1468	dec.err = 0;
		1469	dec.depth = 0;
760		1470
761	*dec.end = 1; // invalid anywhere	1471	if (dec.json.cb_object || dec.json.cb_sk_object)
		1472	dec.json.flags |= F_HOOK;
		1473
		1474	*dec.end = 0; // this should basically be a nop, too, but make sure it's there
		1475
		1476	decode_ws (&dec);
762	sv = decode_sv (&dec);	1477	sv = decode_sv (&dec);
763	*dec.end = 0;	1478
		1479	if (offset_return)
		1480	*offset_return = dec.cur;
		1481
		1482	if (!(offset_return || !sv))
		1483	{
		1484	// check for trailing garbage
		1485	decode_ws (&dec);
		1486
		1487	if (*dec.cur)
		1488	{
		1489	dec.err = "garbage after JSON object";
		1490	SvREFCNT_dec (sv);
		1491	sv = 0;
		1492	}
		1493	}
764		1494
765	if (!sv)	1495	if (!sv)
766	{	1496	{
767	IV offset = utf8_distance (dec.cur, SvPVX (string));
768	SV *uni = sv_newmortal ();	1497	SV *uni = sv_newmortal ();
769		1498
		1499	// horrible hack to silence warning inside pv_uni_display
		1500	COP cop = *PL_curcop;
		1501	cop.cop_warnings = pWARN_NONE;
		1502	ENTER;
		1503	SAVEVPTR (PL_curcop);
		1504	PL_curcop = &cop;
770	pv_uni_display (uni, dec.cur, dec.end - dec.cur, 20, UNI_DISPLAY_QQ);	1505	pv_uni_display (uni, dec.cur, dec.end - dec.cur, 20, UNI_DISPLAY_QQ);
		1506	LEAVE;
		1507
771	croak ("%s, at character %d (%s)",	1508	croak ("%s, at character offset %d (before \"%s\")",
772	dec.err,	1509	dec.err,
773	(int)offset,	1510	ptr_to_index (string, dec.cur),
774	dec.cur != dec.end ? SvPV_nolen (uni) : "(end of string)");	1511	dec.cur != dec.end ? SvPV_nolen (uni) : "(end of string)");
775	}	1512	}
776		1513
777	sv_dump (sv);//D
778	return sv_2mortal (sv);	1514	sv = sv_2mortal (sv);
		1515
		1516	if (!(dec.json.flags & F_ALLOW_NONREF) && !SvROK (sv))
		1517	croak ("JSON text must be an object or array (but found number, string, true, false or null, use allow_nonref to allow this)");
		1518
		1519	return sv;
779	}	1520	}
		1521
		1522	/////////////////////////////////////////////////////////////////////////////
		1523	// incremental parser
		1524
		1525	static void
		1526	incr_parse (JSON *self)
		1527	{
		1528	const char *p = SvPVX (self->incr_text) + self->incr_pos;
		1529
		1530	for (;;)
		1531	{
		1532	//printf ("loop pod %d *p<%c><%s>, mode %d nest %d\n", p - SvPVX (self->incr_text), *p, p, self->incr_mode, self->incr_nest);//D
		1533	switch (self->incr_mode)
		1534	{
		1535	// only used for intiial whitespace skipping
		1536	case INCR_M_WS:
		1537	for (;;)
		1538	{
		1539	if (*p > 0x20)
		1540	{
		1541	self->incr_mode = INCR_M_JSON;
		1542	goto incr_m_json;
		1543	}
		1544	else if (!*p)
		1545	goto interrupt;
		1546
		1547	++p;
		1548	}
		1549
		1550	// skip a single char inside a string (for \\-processing)
		1551	case INCR_M_BS:
		1552	if (!*p)
		1553	goto interrupt;
		1554
		1555	++p;
		1556	self->incr_mode = INCR_M_STR;
		1557	goto incr_m_str;
		1558
		1559	// inside a string
		1560	case INCR_M_STR:
		1561	incr_m_str:
		1562	for (;;)
		1563	{
		1564	if (*p == '"')
		1565	{
		1566	++p;
		1567	self->incr_mode = INCR_M_JSON;
		1568
		1569	if (!self->incr_nest)
		1570	goto interrupt;
		1571
		1572	goto incr_m_json;
		1573	}
		1574	else if (*p == '\\')
		1575	{
		1576	++p; // "virtually" consumes character after \
		1577
		1578	if (!*p) // if at end of string we have to switch modes
		1579	{
		1580	self->incr_mode = INCR_M_BS;
		1581	goto interrupt;
		1582	}
		1583	}
		1584	else if (!*p)
		1585	goto interrupt;
		1586
		1587	++p;
		1588	}
		1589
		1590	// after initial ws, outside string
		1591	case INCR_M_JSON:
		1592	incr_m_json:
		1593	for (;;)
		1594	{
		1595	switch (*p++)
		1596	{
		1597	case 0:
		1598	--p;
		1599	goto interrupt;
		1600
		1601	case 0x09:
		1602	case 0x0a:
		1603	case 0x0d:
		1604	case 0x20:
		1605	if (!self->incr_nest)
		1606	{
		1607	--p; // do not eat the whitespace, let the next round do it
		1608	goto interrupt;
		1609	}
		1610	break;
		1611
		1612	case '"':
		1613	self->incr_mode = INCR_M_STR;
		1614	goto incr_m_str;
		1615
		1616	case '[':
		1617	case '{':
		1618	if (++self->incr_nest > self->max_depth)
		1619	croak (ERR_NESTING_EXCEEDED);
		1620	break;
		1621
		1622	case ']':
		1623	case '}':
		1624	if (--self->incr_nest <= 0)
		1625	goto interrupt;
		1626	}
		1627	}
		1628	}
		1629
		1630	modechange:
		1631	;
		1632	}
		1633
		1634	interrupt:
		1635	self->incr_pos = p - SvPVX (self->incr_text);
		1636	//printf ("return pos %d mode %d nest %d\n", self->incr_pos, self->incr_mode, self->incr_nest);//D
		1637	}
		1638
		1639	/////////////////////////////////////////////////////////////////////////////
		1640	// XS interface functions
780		1641
781	MODULE = JSON::XS PACKAGE = JSON::XS	1642	MODULE = JSON::XS PACKAGE = JSON::XS
782		1643
783	BOOT:	1644	BOOT:
784	{	1645	{
785	int i;	1646	int i;
786		1647
787	memset (decode_hexdigit, 0xff, 256);
788	for (i = 10; i--; )	1648	for (i = 0; i < 256; ++i)
789	decode_hexdigit ['0' + i] = i;	1649	decode_hexdigit [i] =
		1650	i >= '0' && i <= '9' ? i - '0'
		1651	: i >= 'a' && i <= 'f' ? i - 'a' + 10
		1652	: i >= 'A' && i <= 'F' ? i - 'A' + 10
		1653	: -1;
790		1654
791	for (i = 6; --i; )
792	{
793	decode_hexdigit ['a' + i] = 10 + i;
794	decode_hexdigit ['A' + i] = 10 + i;
795	}
796
797	json_stash = gv_stashpv ("JSON::XS", 1);	1655	json_stash = gv_stashpv ("JSON::XS" , 1);
798	}	1656	json_boolean_stash = gv_stashpv ("JSON::XS::Boolean", 1);
799		1657
800	SV *new (char *dummy)	1658	json_true = get_bool ("JSON::XS::true");
		1659	json_false = get_bool ("JSON::XS::false");
		1660	}
		1661
		1662	PROTOTYPES: DISABLE
		1663
		1664	void CLONE (...)
801	CODE:	1665	CODE:
802	RETVAL = sv_bless (newRV_noinc (newSVuv (F_DEFAULT)), json_stash);	1666	json_stash = 0;
		1667	json_boolean_stash = 0;
		1668
		1669	void new (char *klass)
		1670	PPCODE:
		1671	{
		1672	SV *pv = NEWSV (0, sizeof (JSON));
		1673	SvPOK_only (pv);
		1674	json_init ((JSON *)SvPVX (pv));
		1675	XPUSHs (sv_2mortal (sv_bless (
		1676	newRV_noinc (pv),
		1677	strEQ (klass, "JSON::XS") ? JSON_STASH : gv_stashpv (klass, 1)
		1678	)));
		1679	}
		1680
		1681	void ascii (JSON *self, int enable = 1)
		1682	ALIAS:
		1683	ascii = F_ASCII
		1684	latin1 = F_LATIN1
		1685	utf8 = F_UTF8
		1686	indent = F_INDENT
		1687	canonical = F_CANONICAL
		1688	space_before = F_SPACE_BEFORE
		1689	space_after = F_SPACE_AFTER
		1690	pretty = F_PRETTY
		1691	allow_nonref = F_ALLOW_NONREF
		1692	shrink = F_SHRINK
		1693	allow_blessed = F_ALLOW_BLESSED
		1694	convert_blessed = F_CONV_BLESSED
		1695	relaxed = F_RELAXED
		1696	allow_unknown = F_ALLOW_UNKNOWN
		1697	PPCODE:
		1698	{
		1699	if (enable)
		1700	self->flags |= ix;
		1701	else
		1702	self->flags &= ~ix;
		1703
		1704	XPUSHs (ST (0));
		1705	}
		1706
		1707	void get_ascii (JSON *self)
		1708	ALIAS:
		1709	get_ascii = F_ASCII
		1710	get_latin1 = F_LATIN1
		1711	get_utf8 = F_UTF8
		1712	get_indent = F_INDENT
		1713	get_canonical = F_CANONICAL
		1714	get_space_before = F_SPACE_BEFORE
		1715	get_space_after = F_SPACE_AFTER
		1716	get_allow_nonref = F_ALLOW_NONREF
		1717	get_shrink = F_SHRINK
		1718	get_allow_blessed = F_ALLOW_BLESSED
		1719	get_convert_blessed = F_CONV_BLESSED
		1720	get_relaxed = F_RELAXED
		1721	get_allow_unknown = F_ALLOW_UNKNOWN
		1722	PPCODE:
		1723	XPUSHs (boolSV (self->flags & ix));
		1724
		1725	void max_depth (JSON *self, U32 max_depth = 0x80000000UL)
		1726	PPCODE:
		1727	self->max_depth = max_depth;
		1728	XPUSHs (ST (0));
		1729
		1730	U32 get_max_depth (JSON *self)
		1731	CODE:
		1732	RETVAL = self->max_depth;
803	OUTPUT:	1733	OUTPUT:
804	RETVAL	1734	RETVAL
805		1735
806	SV *ascii (SV *self, int enable)	1736	void max_size (JSON *self, U32 max_size = 0)
807	ALIAS:	1737	PPCODE:
808	ascii = F_ASCII	1738	self->max_size = max_size;
809	utf8 = F_UTF8	1739	XPUSHs (ST (0));
810	indent = F_INDENT	1740
811	canonical = F_CANONICAL	1741	int get_max_size (JSON *self)
812	space_before = F_SPACE_BEFORE
813	space_after = F_SPACE_AFTER
814	json_rpc = F_JSON_RPC
815	pretty = F_PRETTY
816	CODE:	1742	CODE:
817	{	1743	RETVAL = self->max_size;
818	UV *uv = SvJSON (self);
819	if (enable)
820	*uv |= ix;
821	else
822	*uv &= ~ix;
823
824	RETVAL = newSVsv (self);
825	}
826	OUTPUT:	1744	OUTPUT:
827	RETVAL	1745	RETVAL
828		1746
829	void encode (SV *self, SV *scalar)	1747	void filter_json_object (JSON *self, SV *cb = &PL_sv_undef)
830	PPCODE:	1748	PPCODE:
831	XPUSHs (encode_json (scalar, *SvJSON (self)));	1749	{
		1750	SvREFCNT_dec (self->cb_object);
		1751	self->cb_object = SvOK (cb) ? newSVsv (cb) : 0;
832		1752
833	void decode (SV *self, SV *jsonstr)	1753	XPUSHs (ST (0));
		1754	}
		1755
		1756	void filter_json_single_key_object (JSON *self, SV *key, SV *cb = &PL_sv_undef)
834	PPCODE:	1757	PPCODE:
835	XPUSHs (decode_json (jsonstr, *SvJSON (self)));	1758	{
		1759	if (!self->cb_sk_object)
		1760	self->cb_sk_object = newHV ();
836		1761
837	void to_json (SV *scalar)	1762	if (SvOK (cb))
		1763	hv_store_ent (self->cb_sk_object, key, newSVsv (cb), 0);
		1764	else
		1765	{
		1766	hv_delete_ent (self->cb_sk_object, key, G_DISCARD, 0);
		1767
		1768	if (!HvKEYS (self->cb_sk_object))
		1769	{
		1770	SvREFCNT_dec (self->cb_sk_object);
		1771	self->cb_sk_object = 0;
		1772	}
		1773	}
		1774
		1775	XPUSHs (ST (0));
		1776	}
		1777
		1778	void encode (JSON *self, SV *scalar)
838	PPCODE:	1779	PPCODE:
839	XPUSHs (encode_json (scalar, F_UTF8));	1780	XPUSHs (encode_json (scalar, self));
840		1781
841	void from_json (SV *jsonstr)	1782	void decode (JSON *self, SV *jsonstr)
842	PPCODE:	1783	PPCODE:
843	XPUSHs (decode_json (jsonstr, F_UTF8));	1784	XPUSHs (decode_json (jsonstr, self, 0));
844		1785
		1786	void decode_prefix (JSON *self, SV *jsonstr)
		1787	PPCODE:
		1788	{
		1789	char *offset;
		1790	EXTEND (SP, 2);
		1791	PUSHs (decode_json (jsonstr, self, &offset));
		1792	PUSHs (sv_2mortal (newSVuv (ptr_to_index (jsonstr, offset))));
		1793	}
		1794
		1795	void incr_parse (JSON *self, SV *jsonstr = 0)
		1796	PPCODE:
		1797	{
		1798	if (!self->incr_text)
		1799	self->incr_text = newSVpvn ("", 0);
		1800
		1801	// append data, if any
		1802	if (jsonstr)
		1803	{
		1804	if (SvUTF8 (jsonstr))
		1805	{
		1806	if (!SvUTF8 (self->incr_text))
		1807	{
		1808	/* utf-8-ness differs, need to upgrade */
		1809	sv_utf8_upgrade (self->incr_text);
		1810
		1811	if (self->incr_pos)
		1812	self->incr_pos = utf8_hop ((U8 *)SvPVX (self->incr_text), self->incr_pos)
		1813	- (U8 *)SvPVX (self->incr_text);
		1814	}
		1815	}
		1816	else if (SvUTF8 (self->incr_text))
		1817	sv_utf8_upgrade (jsonstr);
		1818
		1819	{
		1820	STRLEN len;
		1821	const char *str = SvPV (jsonstr, len);
		1822	STRLEN cur = SvCUR (self->incr_text);
		1823
		1824	if (SvLEN (self->incr_text) <= cur + len)
		1825	SvGROW (self->incr_text, cur + (len < (cur >> 2) ? cur >> 2 : len) + 1);
		1826
		1827	Move (str, SvEND (self->incr_text), len, char);
		1828	SvCUR_set (self->incr_text, SvCUR (self->incr_text) + len);
		1829	*SvEND (self->incr_text) = 0; // this should basically be a nop, too, but make sure it's there
		1830	}
		1831	}
		1832
		1833	if (GIMME_V != G_VOID)
		1834	do
		1835	{
		1836	char *offset;
		1837
		1838	if (!INCR_DONE (self))
		1839	{
		1840	incr_parse (self);
		1841
		1842	if (self->incr_pos > self->max_size && self->max_size)
		1843	croak ("attempted decode of JSON text of %lu bytes size, but max_size is set to %lu",
		1844	(unsigned long)self->incr_pos, (unsigned long)self->max_size);
		1845
		1846	if (!INCR_DONE (self))
		1847	break;
		1848	}
		1849
		1850	XPUSHs (decode_json (self->incr_text, self, &offset));
		1851
		1852	self->incr_pos -= offset - SvPVX (self->incr_text);
		1853	self->incr_nest = 0;
		1854	self->incr_mode = 0;
		1855
		1856	sv_chop (self->incr_text, offset);
		1857	}
		1858	while (GIMME_V == G_ARRAY);
		1859	}
		1860
		1861	SV *incr_text (JSON *self)
		1862	ATTRS: lvalue
		1863	CODE:
		1864	{
		1865	if (self->incr_pos)
		1866	croak ("incr_text can not be called when the incremental parser already started parsing");
		1867
		1868	RETVAL = self->incr_text ? SvREFCNT_inc (self->incr_text) : &PL_sv_undef;
		1869	}
		1870	OUTPUT:
		1871	RETVAL
		1872
		1873	void incr_skip (JSON *self)
		1874	CODE:
		1875	{
		1876	if (self->incr_pos)
		1877	{
		1878	sv_chop (self->incr_text, SvPV_nolen (self->incr_text) + self->incr_pos);
		1879	self->incr_pos = 0;
		1880	self->incr_nest = 0;
		1881	self->incr_mode = 0;
		1882	}
		1883	}
		1884
		1885	void incr_reset (JSON *self)
		1886	CODE:
		1887	{
		1888	SvREFCNT_dec (self->incr_text);
		1889	self->incr_text = 0;
		1890	self->incr_pos = 0;
		1891	self->incr_nest = 0;
		1892	self->incr_mode = 0;
		1893	}
		1894
		1895	void DESTROY (JSON *self)
		1896	CODE:
		1897	SvREFCNT_dec (self->cb_sk_object);
		1898	SvREFCNT_dec (self->cb_object);
		1899	SvREFCNT_dec (self->incr_text);
		1900
		1901	PROTOTYPES: ENABLE
		1902
		1903	void encode_json (SV *scalar)
		1904	ALIAS:
		1905	to_json_ = 0
		1906	encode_json = F_UTF8
		1907	PPCODE:
		1908	{
		1909	JSON json;
		1910	json_init (&json);
		1911	json.flags |= ix;
		1912	XPUSHs (encode_json (scalar, &json));
		1913	}
		1914
		1915	void decode_json (SV *jsonstr)
		1916	ALIAS:
		1917	from_json_ = 0
		1918	decode_json = F_UTF8
		1919	PPCODE:
		1920	{
		1921	JSON json;
		1922	json_init (&json);
		1923	json.flags |= ix;
		1924	XPUSHs (decode_json (jsonstr, &json, 0));
		1925	}
		1926
		1927

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