File Coverage

xs/si16.xsi

Criterion	Covered	Total	%
statement	112	285	39.3
branch	158	678	23.3
condition			n/a
subroutine			n/a
pod			n/a
total	270	963	28.0

line	stmt	bran	code
1			MODULE = Data::HashMap PACKAGE = Data::HashMap::SI16
2			PROTOTYPES: DISABLE
3
4			SV*
5			new(char* class, ...)
6			CODE:
7	17	100	EXTRACT_NEW_ARGS(_max_size, _ttl, _lru_skip);
		100
		50
8	17		HashMapSI16* map = hashmap_si16_create(_max_size, _ttl, _lru_skip);
9	17	50	if (!map) croak("Failed to create HashMap::SI16");
10	17		RETVAL = sv_setref_pv(newSV(0), class, (void*)map);
11			OUTPUT:
12			RETVAL
13
14			void
15			DESTROY(SV* self_sv)
16			CODE:
17	17	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
18	17		hashmap_si16_destroy(self);
19	17		sv_setiv(SvRV(self_sv), 0);
20
21			bool
22			put(SV* self_sv, SV* key_sv, int16_t value)
23			CODE:
24	80122	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
25	80122	50	EXTRACT_STR_KEY(key_sv);
26	80122		RETVAL = hashmap_si16_put(self, _kstr, (uint32_t)_klen, _khash, _kutf8, value, 0);
27			OUTPUT:
28			RETVAL
29
30			SV*
31			get(SV* self_sv, SV* key_sv)
32			CODE:
33	50011	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
34	50011	50	EXTRACT_STR_KEY(key_sv);
35			int16_t value;
36	50011	100	if (!hashmap_si16_get(self, _kstr, (uint32_t)_klen, _khash, &value))
37	4		XSRETURN_UNDEF;
38	50007		RETVAL = newSViv(value);
39			OUTPUT:
40			RETVAL
41
42			bool
43			remove(SV* self_sv, SV* key_sv)
44			CODE:
45	80005	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
46	80005	50	EXTRACT_STR_KEY(key_sv);
47	80005		RETVAL = hashmap_si16_remove(self, _kstr, (uint32_t)_klen, _khash);
48			OUTPUT:
49			RETVAL
50
51			SV*
52			take(SV* self_sv, SV* key_sv)
53			CODE:
54	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
55	1	50	EXTRACT_STR_KEY(key_sv);
56			int16_t value;
57	1	50	if (!hashmap_si16_take(self, _kstr, (uint32_t)_klen, _khash, &value)) XSRETURN_UNDEF;
58	1		RETVAL = newSViv(value);
59			OUTPUT:
60			RETVAL
61
62			bool
63			exists(SV* self_sv, SV* key_sv)
64			CODE:
65	4	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
66	4	50	EXTRACT_STR_KEY(key_sv);
67	4		RETVAL = hashmap_si16_exists(self, _kstr, (uint32_t)_klen, _khash);
68			OUTPUT:
69			RETVAL
70
71			SV*
72			incr(SV* self_sv, SV* key_sv)
73			CODE:
74	11	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
75	11	50	EXTRACT_STR_KEY(key_sv);
76			int16_t val;
77	11	100	if (!hashmap_si16_increment(self, _kstr, (uint32_t)_klen, _khash, _kutf8, &val))
78	1		croak("HashMap::SI16: increment failed");
79	10		RETVAL = newSViv(val);
80			OUTPUT:
81			RETVAL
82
83			SV*
84			decr(SV* self_sv, SV* key_sv)
85			CODE:
86	5	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
87	5	50	EXTRACT_STR_KEY(key_sv);
88			int16_t val;
89	5	100	if (!hashmap_si16_decrement(self, _kstr, (uint32_t)_klen, _khash, _kutf8, &val))
90	1		croak("HashMap::SI16: decrement failed");
91	4		RETVAL = newSViv(val);
92			OUTPUT:
93			RETVAL
94
95			SV*
96			incr_by(SV* self_sv, SV* key_sv, int16_t delta)
97			CODE:
98	6	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
99	6	50	EXTRACT_STR_KEY(key_sv);
100			int16_t val;
101	6	100	if (!hashmap_si16_increment_by(self, _kstr, (uint32_t)_klen, _khash, _kutf8, delta, &val))
102	2		croak("HashMap::SI16: incr_by failed");
103	4		RETVAL = newSViv(val);
104			OUTPUT:
105			RETVAL
106
107			size_t
108			size(SV* self_sv)
109			CODE:
110	7	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
111	7	50	RETVAL = self->size;
112			OUTPUT:
113			RETVAL
114
115			size_t
116			max_size(SV* self_sv)
117			CODE:
118	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
119	0	0	RETVAL = self->max_size;
120			OUTPUT:
121			RETVAL
122
123			UV
124			ttl(SV* self_sv)
125			CODE:
126	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
127	0	0	RETVAL = (UV)self->default_ttl;
128			OUTPUT:
129			RETVAL
130
131			UV
132			lru_skip(SV* self_sv)
133			CODE:
134	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
135	0	0	RETVAL = (UV)self->lru_skip;
136			OUTPUT:
137			RETVAL
138
139			void
140			keys(SV* self_sv)
141			PPCODE:
142	2	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
143	2	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
144	2	50	EXTEND(SP, self->size);
145			size_t i;
146	34	100	for (i = 0; i < self->capacity; i++) {
147	32	100	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
148	2		uint32_t klen = HM_UNPACK_LEN(self->nodes[i].key_len);
149	2		SV* sv = newSVpvn(self->nodes[i].key, klen);
150	2	50	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(sv);
151	2	50	mXPUSHs(sv);
152			}
153			}
154
155			void
156			values(SV* self_sv)
157			PPCODE:
158	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
159	1	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
160	1	50	EXTEND(SP, self->size);
161			size_t i;
162	17	100	for (i = 0; i < self->capacity; i++) {
163	16	100	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now))
		50
		50
		0
		0
164	2	50	mXPUSHi(self->nodes[i].value);
165			}
166
167			void
168			items(SV* self_sv)
169			PPCODE:
170	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
171	1	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
172	1	50	EXTEND(SP, self->size * 2);
173			size_t i;
174	17	100	for (i = 0; i < self->capacity; i++) {
175	16	100	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
176	2		uint32_t klen = HM_UNPACK_LEN(self->nodes[i].key_len);
177	2		SV* sv = newSVpvn(self->nodes[i].key, klen);
178	2	50	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(sv);
179	2	50	mXPUSHs(sv);
180	2	50	mXPUSHi(self->nodes[i].value);
181			}
182			}
183
184			void
185			each(SV* self_sv)
186			PPCODE:
187	3	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
188	3	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
189	17	100	while (self->iter_pos < self->capacity) {
190	16		size_t i = self->iter_pos++;
191	16	100	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
192	2	50	EXTEND(SP, 2);
193			{
194	2		uint32_t klen = HM_UNPACK_LEN(self->nodes[i].key_len);
195	2		SV* ksv = newSVpvn(self->nodes[i].key, klen);
196	2	50	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(ksv);
197	2	50	mXPUSHs(ksv);
198			}
199	2	50	if (GIMME_V == G_SCALAR) XSRETURN(1);
200	2	50	mXPUSHi(self->nodes[i].value);
201	2		XSRETURN(2);
202			}
203			}
204	1		self->iter_pos = 0;
205	1		XSRETURN_EMPTY;
206
207			void
208			iter_reset(SV* self_sv)
209			CODE:
210	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
211	0		self->iter_pos = 0;
212
213			void
214			drain(SV* self_sv, UV count)
215			PPCODE:
216	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
217	0	0	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
218	0		UV n = 0;
219	0	0	EXTEND(SP, (count < self->size ? count : self->size) * 2);
220	0	0	while (self->iter_pos < self->capacity && n < count) {
		0
221	0		size_t i = self->iter_pos++;
222	0	0	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		0
		0
		0
		0
223			{
224	0		SV* ksv = newSVpvn(self->nodes[i].key, HM_UNPACK_LEN(self->nodes[i].key_len));
225	0	0	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(ksv);
226	0	0	mXPUSHs(ksv);
227			}
228	0	0	mXPUSHi(self->nodes[i].value);
229	0	0	if (HM_UNLIKELY(self->lru_prev)) hashmap_si16_lru_unlink(self, (uint32_t)i);
230	0		hashmap_si16_tombstone_at(self, i);
231	0		n++;
232			}
233			}
234	0	0	if (self->iter_pos >= self->capacity) self->iter_pos = 0;
235	0	0	HM_MAYBE_COMPACT_XS(self, hashmap_si16_compact);
		0
		0
236
237			void
238			pop(SV* self_sv)
239			PPCODE:
240	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
241	1	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
242	1	50	if (self->lru_prev) {
243	1	50	while (self->lru_tail != HM_LRU_NONE) {
244	1		uint32_t idx = self->lru_tail;
245	1	50	if (HM_UNLIKELY(HM_TTL_SKIP_EXPIRED(self, idx, now))) {
		0
		50
		0
246	0		hashmap_si16_expire_at(self, idx, true); continue;
247			}
248	1	50	EXTEND(SP, 2);
249			{
250	1		SV* ksv = newSVpvn(self->nodes[idx].key, HM_UNPACK_LEN(self->nodes[idx].key_len));
251	1	50	if (HM_UNPACK_UTF8(self->nodes[idx].key_len)) SvUTF8_on(ksv);
252	1	50	mXPUSHs(ksv);
253			}
254	1	50	mXPUSHi(self->nodes[idx].value);
255	1		hashmap_si16_lru_unlink(self, idx);
256	1		hashmap_si16_tombstone_at(self, idx);
257	1	50	HM_MAYBE_COMPACT_XS(self, hashmap_si16_compact);
		50
		0
258	1		XSRETURN(2);
259			}
260	0		XSRETURN_EMPTY;
261			} else {
262	0	0	while (self->iter_pos < self->capacity) {
263	0		size_t i = self->iter_pos++;
264	0	0	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		0
		0
		0
		0
265	0	0	EXTEND(SP, 2);
266			{
267	0		SV* ksv = newSVpvn(self->nodes[i].key, HM_UNPACK_LEN(self->nodes[i].key_len));
268	0	0	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(ksv);
269	0	0	mXPUSHs(ksv);
270			}
271	0	0	mXPUSHi(self->nodes[i].value);
272	0		hashmap_si16_tombstone_at(self, i);
273	0	0	HM_MAYBE_COMPACT_XS(self, hashmap_si16_compact);
		0
		0
274	0		XSRETURN(2);
275			}
276			}
277	0		self->iter_pos = 0;
278	0		XSRETURN_EMPTY;
279			}
280
281			void
282			shift(SV* self_sv)
283			PPCODE:
284	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
285	0	0	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
286	0	0	if (self->lru_prev) {
287	0	0	while (self->lru_head != HM_LRU_NONE) {
288	0		uint32_t idx = self->lru_head;
289	0	0	if (HM_UNLIKELY(HM_TTL_SKIP_EXPIRED(self, idx, now))) {
		0
		0
		0
290	0		hashmap_si16_expire_at(self, idx, true); continue;
291			}
292	0	0	EXTEND(SP, 2);
293			{
294	0		SV* ksv = newSVpvn(self->nodes[idx].key, HM_UNPACK_LEN(self->nodes[idx].key_len));
295	0	0	if (HM_UNPACK_UTF8(self->nodes[idx].key_len)) SvUTF8_on(ksv);
296	0	0	mXPUSHs(ksv);
297			}
298	0	0	mXPUSHi(self->nodes[idx].value);
299	0		hashmap_si16_lru_unlink(self, idx);
300	0		hashmap_si16_tombstone_at(self, idx);
301	0	0	HM_MAYBE_COMPACT_XS(self, hashmap_si16_compact);
		0
		0
302	0		XSRETURN(2);
303			}
304	0		XSRETURN_EMPTY;
305			} else {
306	0	0	if (self->iter_pos == 0) self->iter_pos = self->capacity;
307	0	0	while (self->iter_pos > 0) {
308	0		size_t i = --self->iter_pos;
309	0	0	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		0
		0
		0
		0
310	0	0	EXTEND(SP, 2);
311			{
312	0		SV* ksv = newSVpvn(self->nodes[i].key, HM_UNPACK_LEN(self->nodes[i].key_len));
313	0	0	if (HM_UNPACK_UTF8(self->nodes[i].key_len)) SvUTF8_on(ksv);
314	0	0	mXPUSHs(ksv);
315			}
316	0	0	mXPUSHi(self->nodes[i].value);
317	0		hashmap_si16_tombstone_at(self, i);
318	0	0	HM_MAYBE_COMPACT_XS(self, hashmap_si16_compact);
		0
		0
319	0		XSRETURN(2);
320			}
321			}
322	0		XSRETURN_EMPTY;
323			}
324
325
326			void
327			clear(SV* self_sv)
328			CODE:
329	2	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
330	2		hashmap_si16_clear(self);
331
332			void
333			reserve(SV* self_sv, UV count)
334			CODE:
335	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
336	0	0	if (!hashmap_si16_reserve(self, (size_t)count))
337	0		croak("Failed to reserve capacity");
338
339			void
340			purge(SV* self_sv)
341			CODE:
342	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
343	0		hashmap_si16_purge(self);
344
345			SV*
346			freeze(SV* self_sv)
347			CODE:
348	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
349	0	0	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
350	0		SV* buf = newSV(22 + self->size * 32);
351	0		SvPOK_on(buf);
352	0		SvCUR_set(buf, 0);
353			/* Header: magic(4) + version(1) + variant_id(1) + count(4) + max_size(4) + ttl(4) + lru_skip(4) */
354	0		sv_catpvn(buf, "DHMP", 4);
355	0		{ uint8_t ver = 1; sv_catpvn(buf, (const char*)&ver, 1); }
356	0		{ uint8_t vid = 9; sv_catpvn(buf, (const char*)&vid, 1); }
357	0		STRLEN cnt_offset = SvCUR(buf);
358	0		{ uint32_t cnt = 0; sv_catpvn(buf, (const char*)&cnt, 4); }
359	0		UV n_written = 0;
360	0		{ uint32_t ms = (uint32_t)self->max_size; sv_catpvn(buf, (const char*)&ms, 4); }
361	0		{ uint32_t dt = self->default_ttl; sv_catpvn(buf, (const char*)&dt, 4); }
362	0		{ uint32_t ls = self->lru_skip; sv_catpvn(buf, (const char*)&ls, 4); }
363			{ size_t i;
364	0	0	for (i = 0; i < self->capacity; i++) {
365	0	0	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		0
		0
		0
		0
366	0		uint32_t kl = HM_UNPACK_LEN(self->nodes[i].key_len);
367	0		uint8_t ku = HM_UNPACK_UTF8(self->nodes[i].key_len) ? 1 : 0;
368	0		sv_catpvn(buf, (const char*)&kl, 4);
369	0		sv_catpvn(buf, (const char*)&ku, 1);
370	0		sv_catpvn(buf, self->nodes[i].key, kl);
371	0		sv_catpvn(buf, (const char*)&self->nodes[i].value, 2);
372			/* TTL: remaining seconds (0 = none) */
373	0		{ uint32_t rem = 0;
374	0	0	if (self->expires_at && self->expires_at[i] && self->expires_at[i] >= now) {
		0
		0
375	0		rem = self->expires_at[i] - now;
376	0	0	if (!rem) rem = 1;
377			}
378	0		sv_catpvn(buf, (const char*)&rem, 4);
379			}
380	0		n_written++;
381			}
382			}
383			}
384	0		{ uint32_t actual = (uint32_t)n_written;
385	0		memcpy(SvPVX(buf) + cnt_offset, &actual, 4); }
386	0		RETVAL = buf;
387			OUTPUT:
388			RETVAL
389
390			SV*
391			thaw(char* class, SV* data)
392			CODE:
393			STRLEN dlen;
394	0		const uint8_t* p = (const uint8_t*)SvPV(data, dlen);
395	0		const uint8_t* end = p + dlen;
396	0	0	if (dlen < 22 \|\| memcmp(p, "DHMP", 4) != 0) croak("Invalid freeze data");
		0
397	0		p += 4;
398	0	0	uint8_t ver = *p++; if (ver != 1) croak("Unsupported freeze version %d", ver);
399	0	0	uint8_t vid = *p++; if (vid != 9) croak("Variant mismatch: expected 9, got %d", vid);
400	0		uint32_t cnt; memcpy(&cnt, p, 4); p += 4;
401	0		uint32_t ms; memcpy(&ms, p, 4); p += 4;
402	0		uint32_t dt; memcpy(&dt, p, 4); p += 4;
403	0		uint32_t ls; memcpy(&ls, p, 4); p += 4;
404	0		HashMapSI16* map = hashmap_si16_create((size_t)ms, dt, ls);
405	0	0	if (!map) croak("Failed to create map for thaw");
406	0	0	if (cnt > 0) hashmap_si16_reserve(map, (size_t)cnt);
407			{ uint32_t j;
408	0	0	for (j = 0; j < cnt; j++) {
409	0	0	if (p + 11 > end) { hashmap_si16_destroy(map); croak("Truncated freeze data"); }
410	0		uint32_t kl; memcpy(&kl, p, 4); p += 4;
411	0		uint8_t ku = *p++; bool kutf8 = ku ? true : false;
412	0	0	if (p + kl + 6 > end) { hashmap_si16_destroy(map); croak("Truncated freeze data"); }
413	0		const char* kstr = (const char*)p; p += kl;
414	0		uint32_t khash = hm_hash_string(kstr, kl);
415	0		int16_t val; memcpy(&val, p, 2); p += 2;
416	0		uint32_t ttl; memcpy(&ttl, p, 4); p += 4;
417	0	0	if (!hashmap_si16_put(map, kstr, kl, khash, kutf8, val, ttl)) { hashmap_si16_destroy(map); croak("OOM during thaw"); }
418	0	0	if (ttl == 0 && map->expires_at) hashmap_si16_persist(map, kstr, kl, khash);
		0
419			}
420			}
421	0	0	if (p > end) croak("Truncated freeze data");
422	0		RETVAL = sv_setref_pv(newSV(0), class, (void*)map);
423			OUTPUT:
424			RETVAL
425
426
427			UV
428			capacity(SV* self_sv)
429			CODE:
430	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
431	0	0	RETVAL = (UV)self->capacity;
432			OUTPUT:
433			RETVAL
434
435			bool
436			persist(SV* self_sv, SV* key_sv)
437			CODE:
438	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
439	0	0	EXTRACT_STR_KEY(key_sv);
440	0		RETVAL = hashmap_si16_persist(self, _kstr, (uint32_t)_klen, _khash);
441			OUTPUT:
442			RETVAL
443
444			SV*
445			swap(SV* self_sv, SV* key_sv, int16_t new_val)
446			CODE:
447	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
448	0	0	EXTRACT_STR_KEY(key_sv);
449			int16_t old;
450	0	0	if (!hashmap_si16_swap(self, _kstr, (uint32_t)_klen, _khash, new_val, &old)) XSRETURN_UNDEF;
451	0		RETVAL = newSViv(old);
452			OUTPUT:
453			RETVAL
454
455			bool
456			cas(SV* self_sv, SV* key_sv, int16_t expected, int16_t new_val)
457			CODE:
458	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
459	0	0	EXTRACT_STR_KEY(key_sv);
460	0		RETVAL = hashmap_si16_cas(self, _kstr, (uint32_t)_klen, _khash, expected, new_val);
461			OUTPUT:
462			RETVAL
463
464
465			SV*
466			clone(SV* self_sv)
467			CODE:
468	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
469	0		HashMapSI16* clone = hashmap_si16_clone(self);
470	0	0	if (!clone) croak("Failed to clone");
471	0	0	RETVAL = sv_setref_pv(newSV(0), HvNAME(SvSTASH(SvRV(self_sv))), (void*)clone);
		0
		0
		0
		0
		0
472			OUTPUT:
473			RETVAL
474
475			void
476			from_hash(SV* self_sv, SV* href)
477			CODE:
478	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
479	0	0	if (!SvROK(href) \|\| SvTYPE(SvRV(href)) != SVt_PVHV)
		0
480	0		croak("from_hash requires a hashref");
481	0		HV* hv = (HV*)SvRV(href);
482	0	0	hashmap_si16_reserve(self, (size_t)HvUSEDKEYS(hv));
483	0		hv_iterinit(hv);
484			HE* he;
485	0	0	while ((he = hv_iternext(hv))) {
486	0	0	STRLEN klen; const char* kstr = HePV(he, klen);
487	0	0	bool kutf8 = HeUTF8(he) ? true : false;
488	0		uint32_t khash = hm_hash_string(kstr, (uint32_t)klen);
489	0		SV* val = HeVAL(he);
490	0		hashmap_si16_put(self, kstr, (uint32_t)klen, khash, kutf8, (int16_t)SvIV(val), 0);
491			}
492
493			void
494			merge(SV* self_sv, SV* other_sv)
495			CODE:
496	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
497	0	0	if (!SvROK(other_sv) \|\| !SvOBJECT(SvRV(other_sv)) \|\| SvSTASH(SvRV(other_sv)) != stash_si16)
		0
		0
498	0		croak("Expected a Data::HashMap::SI16 object");
499	0		HashMapSI16* other = INT2PTR(HashMapSI16*, SvIV(SvRV(other_sv)));
500	0		hashmap_si16_reserve(self, self->size + other->size);
501	0	0	uint32_t now = other->expires_at ? (uint32_t)time(NULL) : 0;
502			size_t i;
503	0	0	for (i = 0; i < other->capacity; i++) {
504	0	0	if (SI16_NODE_LIVE(other->nodes[i]) && !HM_TTL_SKIP_EXPIRED(other, i, now))
		0
		0
		0
		0
505	0		hashmap_si16_put(self, other->nodes[i].key, HM_UNPACK_LEN(other->nodes[i].key_len), other->nodes[i].key_hash, HM_UNPACK_UTF8(other->nodes[i].key_len), other->nodes[i].value, 0);
506			}
507
508
509			SV*
510			to_hash(SV* self_sv)
511			CODE:
512	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
513	1		HV* hv = newHV();
514	1	50	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
515			size_t i;
516	17	100	for (i = 0; i < self->capacity; i++) {
517	16	100	if (SI16_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
518	1		uint32_t klen = HM_UNPACK_LEN(self->nodes[i].key_len);
519	1		bool kutf8 = HM_UNPACK_UTF8(self->nodes[i].key_len);
520	1		SV* val = newSViv(self->nodes[i].value);
521	1	50	(void)hv_store(hv, self->nodes[i].key, kutf8 ? -(I32)klen : (I32)klen, val, 0);
522			}
523			}
524	1		RETVAL = newRV_noinc((SV*)hv);
525			OUTPUT:
526			RETVAL
527
528			bool
529			put_ttl(SV* self_sv, SV* key_sv, int16_t value, UV ttl)
530			CODE:
531	1	50	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		50
		50
		50
532	1	50	EXTRACT_STR_KEY(key_sv);
533	1		RETVAL = hashmap_si16_put(self, _kstr, (uint32_t)_klen, _khash, _kutf8, value, (uint32_t)ttl);
534			OUTPUT:
535			RETVAL
536
537			SV*
538			get_or_set(SV* self_sv, SV* key_sv, int16_t default_value)
539			CODE:
540	0	0	EXTRACT_MAP(HashMapSI16, stash_si16, "Data::HashMap::SI16", self_sv);
		0
		0
		0
541	0	0	EXTRACT_STR_KEY(key_sv);
542			bool was_found;
543	0		size_t idx = hashmap_si16_get_or_set(self, _kstr, (uint32_t)_klen, _khash, _kutf8, default_value, 0, &was_found);
544	0	0	if (idx >= self->capacity) XSRETURN_UNDEF;
545	0		RETVAL = newSViv(self->nodes[idx].value);
546			OUTPUT:
547			RETVAL
548
549
550