File Coverage

xs/ii.xsi

Criterion	Covered	Total	%
statement	244	250	97.6
branch	380	616	61.6
condition			n/a
subroutine			n/a
pod			n/a
total	624	866	72.0

line	stmt	bran	code
1			MODULE = Data::HashMap PACKAGE = Data::HashMap::II
2			PROTOTYPES: DISABLE
3
4			SV*
5			new(char* class, ...)
6			CODE:
7	117	100	EXTRACT_NEW_ARGS(_max_size, _ttl, _lru_skip);
		100
		100
8	117		HashMapII* map = hashmap_ii_create(_max_size, _ttl, _lru_skip);
9	117	50	if (!map) croak("Failed to create HashMap::II");
10	117		RETVAL = sv_setref_pv(newSV(0), class, (void*)map);
11			OUTPUT:
12			RETVAL
13
14			void
15			DESTROY(SV* self_sv)
16			CODE:
17	125	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
18	125		hashmap_ii_destroy(self);
19	125		sv_setiv(SvRV(self_sv), 0);
20
21			bool
22			put(SV* self_sv, int64_t key, int64_t value)
23			CODE:
24	384731	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
25	384731		RETVAL = hashmap_ii_put(self, key, value, 0);
26			OUTPUT:
27			RETVAL
28
29			SV*
30			get(SV* self_sv, int64_t key)
31			CODE:
32	100190	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
33			int64_t value;
34	100190	100	if (!hashmap_ii_get(self, key, &value)) XSRETURN_UNDEF;
35	100161		RETVAL = newSViv(value);
36			OUTPUT:
37			RETVAL
38
39			bool
40			remove(SV* self_sv, int64_t key)
41			CODE:
42	280022	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
43	280022		RETVAL = hashmap_ii_remove(self, key);
44			OUTPUT:
45			RETVAL
46
47			SV*
48			take(SV* self_sv, int64_t key)
49			CODE:
50	3	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
51			int64_t value;
52	3	100	if (!hashmap_ii_take(self, key, &value)) XSRETURN_UNDEF;
53	1		RETVAL = newSViv(value);
54			OUTPUT:
55			RETVAL
56
57			bool
58			exists(SV* self_sv, int64_t key)
59			CODE:
60	10	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
61	10		RETVAL = hashmap_ii_exists(self, key);
62			OUTPUT:
63			RETVAL
64
65			SV*
66			incr(SV* self_sv, int64_t key)
67			CODE:
68	15014	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
69			int64_t val;
70	15014	100	if (!hashmap_ii_increment(self, key, &val))
71	3		croak("HashMap::II: increment failed");
72	15011		RETVAL = newSViv(val);
73			OUTPUT:
74			RETVAL
75
76			SV*
77			decr(SV* self_sv, int64_t key)
78			CODE:
79	5006	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
80			int64_t val;
81	5006	100	if (!hashmap_ii_decrement(self, key, &val))
82	2		croak("HashMap::II: decrement failed");
83	5004		RETVAL = newSViv(val);
84			OUTPUT:
85			RETVAL
86
87			SV*
88			incr_by(SV* self_sv, int64_t key, int64_t delta)
89			CODE:
90	8	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
91			int64_t val;
92	8	100	if (!hashmap_ii_increment_by(self, key, delta, &val))
93	2		croak("HashMap::II: incr_by failed");
94	6		RETVAL = newSViv(val);
95			OUTPUT:
96			RETVAL
97
98			size_t
99			size(SV* self_sv)
100			CODE:
101	55	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
102	55	50	RETVAL = self->size;
103			OUTPUT:
104			RETVAL
105
106			size_t
107			max_size(SV* self_sv)
108			CODE:
109	7	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
110	7	50	RETVAL = self->max_size;
111			OUTPUT:
112			RETVAL
113
114			UV
115			ttl(SV* self_sv)
116			CODE:
117	5	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
118	5	50	RETVAL = (UV)self->default_ttl;
119			OUTPUT:
120			RETVAL
121
122			UV
123			lru_skip(SV* self_sv)
124			CODE:
125	4	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
126	4	50	RETVAL = (UV)self->lru_skip;
127			OUTPUT:
128			RETVAL
129
130			void
131			keys(SV* self_sv)
132			PPCODE:
133	9	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
134	9	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
135	9	50	EXTEND(SP, self->size);
136			size_t i;
137	649	100	for (i = 0; i < self->capacity; i++) {
138	640	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now))
		100
		100
		50
		100
139	221	50	mXPUSHi(self->nodes[i].key);
140			}
141
142			void
143			values(SV* self_sv)
144			PPCODE:
145	5	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
146	5	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
147	5	50	EXTEND(SP, self->size);
148			size_t i;
149	565	100	for (i = 0; i < self->capacity; i++) {
150	560	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now))
		100
		100
		50
		50
151	203	50	mXPUSHi(self->nodes[i].value);
152			}
153
154			void
155			items(SV* self_sv)
156			PPCODE:
157	5	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
158	5	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
159	5	50	EXTEND(SP, self->size * 2);
160			size_t i;
161	565	100	for (i = 0; i < self->capacity; i++) {
162	560	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		100
		100
		50
		50
163	203	50	mXPUSHi(self->nodes[i].key);
164	203	50	mXPUSHi(self->nodes[i].value);
165			}
166			}
167
168			void
169			each(SV* self_sv)
170			PPCODE:
171	31	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
172	31	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
173	180	100	while (self->iter_pos < self->capacity) {
174	174		size_t i = self->iter_pos++;
175	174	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		100
		100
		50
		100
176	25	50	EXTEND(SP, 2);
177	25	50	mXPUSHi(self->nodes[i].key);
178	25	100	if (GIMME_V == G_SCALAR) XSRETURN(1);
179	24	50	mXPUSHi(self->nodes[i].value);
180	24		XSRETURN(2);
181			}
182			}
183	6		self->iter_pos = 0;
184	6		XSRETURN_EMPTY;
185
186			void
187			iter_reset(SV* self_sv)
188			CODE:
189	1	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
190	1		self->iter_pos = 0;
191
192			void
193			drain(SV* self_sv, UV count)
194			PPCODE:
195	5	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
196	5	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
197	5		UV n = 0;
198	5	50	EXTEND(SP, (count < self->size ? count : self->size) * 2);
199	59	100	while (self->iter_pos < self->capacity && n < count) {
		100
200	54		size_t i = self->iter_pos++;
201	54	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		100
		50
		100
202	14	50	mXPUSHi(self->nodes[i].key);
203	14	50	mXPUSHi(self->nodes[i].value);
204	14	100	if (HM_UNLIKELY(self->lru_prev)) hashmap_ii_lru_unlink(self, (uint32_t)i);
205	14		hashmap_ii_tombstone_at(self, i);
206	14		n++;
207			}
208			}
209	5	100	if (self->iter_pos >= self->capacity) self->iter_pos = 0;
210	5	100	if (self->tombstones > self->capacity / 4 \|\|
211	4	100	(self->size > 0 && self->tombstones > self->size))
		50
212	1		hashmap_ii_compact(self);
213
214			void
215			pop(SV* self_sv)
216			PPCODE:
217	7	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
218	7	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
219	7	100	if (self->lru_prev) {
220	5	100	while (self->lru_tail != HM_LRU_NONE) {
221	4		uint32_t idx = self->lru_tail;
222	4	100	if (HM_UNLIKELY(self->expires_at && self->expires_at[idx]) && now >= self->expires_at[idx]) {
		50
		100
223	2		hashmap_ii_expire_at(self, idx, true); continue;
224			}
225	2	50	EXTEND(SP, 2);
226	2	50	mXPUSHi(self->nodes[idx].key);
227	2	50	mXPUSHi(self->nodes[idx].value);
228	2		hashmap_ii_lru_unlink(self, idx);
229	2		hashmap_ii_tombstone_at(self, idx);
230	2	50	if (self->tombstones > self->capacity / 4 \|\|
231	2	100	(self->size > 0 && self->tombstones > self->size))
		50
232	0		hashmap_ii_compact(self);
233	2		XSRETURN(2);
234			}
235	1		XSRETURN_EMPTY;
236			} else {
237	31	100	while (self->iter_pos < self->capacity) {
238	30		size_t i = self->iter_pos++;
239	30	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
240	3	50	EXTEND(SP, 2);
241	3	50	mXPUSHi(self->nodes[i].key);
242	3	50	mXPUSHi(self->nodes[i].value);
243	3		hashmap_ii_tombstone_at(self, i);
244	3	50	if (self->tombstones > self->capacity / 4 \|\|
245	3	100	(self->size > 0 && self->tombstones > self->size))
		100
246	1		hashmap_ii_compact(self);
247	3		XSRETURN(2);
248			}
249			}
250	1		self->iter_pos = 0;
251	1		XSRETURN_EMPTY;
252			}
253
254			void
255			shift(SV* self_sv)
256			PPCODE:
257	7	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
258	7	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
259	7	100	if (self->lru_prev) {
260	3	100	while (self->lru_head != HM_LRU_NONE) {
261	2		uint32_t idx = self->lru_head;
262	2	100	if (HM_UNLIKELY(self->expires_at && self->expires_at[idx]) && now >= self->expires_at[idx]) {
		50
		50
263	0		hashmap_ii_expire_at(self, idx, true); continue;
264			}
265	2	50	EXTEND(SP, 2);
266	2	50	mXPUSHi(self->nodes[idx].key);
267	2	50	mXPUSHi(self->nodes[idx].value);
268	2		hashmap_ii_lru_unlink(self, idx);
269	2		hashmap_ii_tombstone_at(self, idx);
270	2	50	if (self->tombstones > self->capacity / 4 \|\|
271	2	50	(self->size > 0 && self->tombstones > self->size))
		50
272	0		hashmap_ii_compact(self);
273	2		XSRETURN(2);
274			}
275	1		XSRETURN_EMPTY;
276			} else {
277	4	100	if (self->iter_pos == 0) self->iter_pos = self->capacity;
278	20	100	while (self->iter_pos > 0) {
279	19		size_t i = --self->iter_pos;
280	19	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		50
		0
		0
281	3	50	EXTEND(SP, 2);
282	3	50	mXPUSHi(self->nodes[i].key);
283	3	50	mXPUSHi(self->nodes[i].value);
284	3		hashmap_ii_tombstone_at(self, i);
285	3	50	if (self->tombstones > self->capacity / 4 \|\|
286	3	100	(self->size > 0 && self->tombstones > self->size))
		100
287	1		hashmap_ii_compact(self);
288	3		XSRETURN(2);
289			}
290			}
291	1		XSRETURN_EMPTY;
292			}
293
294
295			void
296			clear(SV* self_sv)
297			CODE:
298	8	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
299	8		hashmap_ii_clear(self);
300
301			void
302			reserve(SV* self_sv, UV count)
303			CODE:
304	1	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
305	1	50	if (!hashmap_ii_reserve(self, (size_t)count))
306	0		croak("Failed to reserve capacity");
307
308			void
309			purge(SV* self_sv)
310			CODE:
311	1	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
312	1		hashmap_ii_purge(self);
313
314			SV*
315			freeze(SV* self_sv)
316			CODE:
317	4	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
318	4	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
319	4		SV* buf = newSV(22 + self->size * 32);
320	4		SvPOK_on(buf);
321	4		SvCUR_set(buf, 0);
322			/* Header: magic(4) + version(1) + variant_id(1) + count(4) + max_size(4) + ttl(4) + lru_skip(4) */
323	4		sv_catpvn(buf, "DHMP", 4);
324	4		{ uint8_t ver = 1; sv_catpvn(buf, (const char*)&ver, 1); }
325	4		{ uint8_t vid = 1; sv_catpvn(buf, (const char*)&vid, 1); }
326	4		STRLEN cnt_offset = SvCUR(buf);
327	4		{ uint32_t cnt = 0; sv_catpvn(buf, (const char*)&cnt, 4); }
328	4		UV n_written = 0;
329	4		{ uint32_t ms = (uint32_t)self->max_size; sv_catpvn(buf, (const char*)&ms, 4); }
330	4		{ uint32_t dt = self->default_ttl; sv_catpvn(buf, (const char*)&dt, 4); }
331	4		{ uint32_t ls = self->lru_skip; sv_catpvn(buf, (const char*)&ls, 4); }
332			{ size_t i;
333	420	100	for (i = 0; i < self->capacity; i++) {
334	416	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		100
		50
		100
335	152		sv_catpvn(buf, (const char*)&self->nodes[i].key, 8);
336	152		sv_catpvn(buf, (const char*)&self->nodes[i].value, 8);
337			/* TTL: remaining seconds (0 = none) */
338	152		{ uint32_t rem = 0;
339	152	100	if (self->expires_at && self->expires_at[i] && self->expires_at[i] > now)
		50
		50
340	1		rem = self->expires_at[i] - now;
341	152		sv_catpvn(buf, (const char*)&rem, 4);
342			}
343	152		n_written++;
344			}
345			}
346			}
347	4		{ uint32_t actual = (uint32_t)n_written;
348	4		memcpy(SvPVX(buf) + cnt_offset, &actual, 4); }
349	4		RETVAL = buf;
350			OUTPUT:
351			RETVAL
352
353			SV*
354			thaw(char* class, SV* data)
355			CODE:
356			STRLEN dlen;
357	7		const uint8_t* p = (const uint8_t*)SvPV(data, dlen);
358	7		const uint8_t* end = p + dlen;
359	7	100	if (dlen < 22 \|\| memcmp(p, "DHMP", 4) != 0) croak("Invalid freeze data");
		50
360	6		p += 4;
361	6	50	uint8_t ver = *p++; if (ver != 1) croak("Unsupported freeze version %d", ver);
362	6	100	uint8_t vid = *p++; if (vid != 1) croak("Variant mismatch: expected 1, got %d", vid);
363	5		uint32_t cnt; memcpy(&cnt, p, 4); p += 4;
364	5		uint32_t ms; memcpy(&ms, p, 4); p += 4;
365	5		uint32_t dt; memcpy(&dt, p, 4); p += 4;
366	5		uint32_t ls; memcpy(&ls, p, 4); p += 4;
367	5		HashMapII* map = hashmap_ii_create((size_t)ms, dt, ls);
368	5	50	if (!map) croak("Failed to create map for thaw");
369	5	50	if (cnt > 0) hashmap_ii_reserve(map, (size_t)cnt);
370			{ uint32_t j;
371	158	100	for (j = 0; j < cnt; j++) {
372	154	100	if (p + 20 > end) { hashmap_ii_destroy(map); croak("Truncated freeze data"); }
373	153		int64_t key; memcpy(&key, p, 8); p += 8;
374	153		int64_t val; memcpy(&val, p, 8); p += 8;
375	153		uint32_t ttl; memcpy(&ttl, p, 4); p += 4;
376	153		hashmap_ii_put(map, key, val, ttl);
377			}
378			}
379	4	50	if (p > end) croak("Truncated freeze data");
380	4		RETVAL = sv_setref_pv(newSV(0), class, (void*)map);
381			OUTPUT:
382			RETVAL
383
384
385			UV
386			capacity(SV* self_sv)
387			CODE:
388	2	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
389	2	50	RETVAL = (UV)self->capacity;
390			OUTPUT:
391			RETVAL
392
393			bool
394			persist(SV* self_sv, int64_t key)
395			CODE:
396	2	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
397	2		RETVAL = hashmap_ii_persist(self, key);
398			OUTPUT:
399			RETVAL
400
401			SV*
402			swap(SV* self_sv, int64_t key, int64_t new_val)
403			CODE:
404	2	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
405			int64_t old;
406	2	100	if (!hashmap_ii_swap(self, key, new_val, &old)) XSRETURN_UNDEF;
407	1		RETVAL = newSViv(old);
408			OUTPUT:
409			RETVAL
410
411			bool
412			cas(SV* self_sv, int64_t key, int64_t expected, int64_t new_val)
413			CODE:
414	3	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
415	3		RETVAL = hashmap_ii_cas(self, key, expected, new_val);
416			OUTPUT:
417			RETVAL
418
419
420			SV*
421			clone(SV* self_sv)
422			CODE:
423	4	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
424	4		HashMapII* clone = hashmap_ii_clone(self);
425	4	50	if (!clone) croak("Failed to clone");
426	4	50	RETVAL = sv_setref_pv(newSV(0), HvNAME(SvSTASH(SvRV(self_sv))), (void*)clone);
		50
		50
		0
		50
		50
427			OUTPUT:
428			RETVAL
429
430			void
431			from_hash(SV* self_sv, SV* href)
432			CODE:
433	2	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
434	2	50	if (!SvROK(href) \|\| SvTYPE(SvRV(href)) != SVt_PVHV)
		50
435	0		croak("from_hash requires a hashref");
436	2		HV* hv = (HV*)SvRV(href);
437	2	50	hashmap_ii_reserve(self, (size_t)HvUSEDKEYS(hv));
438	2		hv_iterinit(hv);
439			HE* he;
440	55	100	while ((he = hv_iternext(hv))) {
441	53		SV* ksv = hv_iterkeysv(he);
442	53		int64_t key = (int64_t)SvIV(ksv);
443	53		SV* val = HeVAL(he);
444	53		hashmap_ii_put(self, key, (int64_t)SvIV(val), 0);
445			}
446
447			void
448			merge(SV* self_sv, SV* other_sv)
449			CODE:
450	4	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
451	4	50	if (!SvROK(other_sv) \|\| !SvOBJECT(SvRV(other_sv)) \|\| SvSTASH(SvRV(other_sv)) != stash_ii)
		50
		50
452	0		croak("Expected a Data::HashMap::II object");
453	4		HashMapII* other = INT2PTR(HashMapII*, SvIV(SvRV(other_sv)));
454	4		hashmap_ii_reserve(self, self->size + other->size);
455	4	50	uint32_t now = other->expires_at ? (uint32_t)time(NULL) : 0;
456			size_t i;
457	68	100	for (i = 0; i < other->capacity; i++) {
458	64	100	if (II_NODE_LIVE(other->nodes[i]) && !HM_TTL_SKIP_EXPIRED(other, i, now))
		50
		50
		0
		0
459	7		hashmap_ii_put(self, other->nodes[i].key, other->nodes[i].value, 0);
460			}
461
462
463			SV*
464			to_hash(SV* self_sv)
465			CODE:
466	5	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
467	5		HV* hv = newHV();
468	5	100	uint32_t now = self->expires_at ? (uint32_t)time(NULL) : 0;
469			size_t i;
470	197	100	for (i = 0; i < self->capacity; i++) {
471	192	100	if (II_NODE_LIVE(self->nodes[i]) && !HM_TTL_SKIP_EXPIRED(self, i, now)) {
		50
		100
		100
		50
472	53		SV* val = newSViv(self->nodes[i].value);
473			char kbuf[24];
474	53		int klen = my_snprintf(kbuf, sizeof(kbuf), "%" IVdf, (IV)self->nodes[i].key);
475	53		(void)hv_store(hv, kbuf, klen, val, 0);
476			}
477			}
478	5		RETVAL = newRV_noinc((SV*)hv);
479			OUTPUT:
480			RETVAL
481
482			bool
483			put_ttl(SV* self_sv, int64_t key, int64_t value, UV ttl)
484			CODE:
485	108	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
486	108		RETVAL = hashmap_ii_put(self, key, value, (uint32_t)ttl);
487			OUTPUT:
488			RETVAL
489
490			SV*
491			get_or_set(SV* self_sv, int64_t key, int64_t default_value)
492			CODE:
493	15	50	EXTRACT_MAP(HashMapII, stash_ii, "Data::HashMap::II", self_sv);
		50
		50
		50
494			bool was_found;
495	15		size_t idx = hashmap_ii_get_or_set(self, key, default_value, 0, &was_found);
496			(void)was_found;
497	15	50	if (idx >= self->capacity) XSRETURN_UNDEF;
498	15		RETVAL = newSViv(self->nodes[idx].value);
499			OUTPUT:
500			RETVAL
501
502
503