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- #ifndef Py_BUILD_CORE_BUILTIN
- # define Py_BUILD_CORE_MODULE 1
- #endif
- #include "Python.h"
- #include "pycore_long.h" // _PyLong_GetOne()
- #include "structmember.h"
- #include <ctype.h>
- #include <stddef.h>
- #include <stdint.h>
- #include "datetime.h"
- #include "clinic/_zoneinfo.c.h"
- /*[clinic input]
- module zoneinfo
- class zoneinfo.ZoneInfo "PyObject *" "PyTypeObject *"
- [clinic start generated code]*/
- /*[clinic end generated code: output=da39a3ee5e6b4b0d input=d12c73c0eef36df8]*/
- typedef struct TransitionRuleType TransitionRuleType;
- typedef struct StrongCacheNode StrongCacheNode;
- typedef struct {
- PyObject *utcoff;
- PyObject *dstoff;
- PyObject *tzname;
- long utcoff_seconds;
- } _ttinfo;
- typedef struct {
- _ttinfo std;
- _ttinfo dst;
- int dst_diff;
- TransitionRuleType *start;
- TransitionRuleType *end;
- unsigned char std_only;
- } _tzrule;
- typedef struct {
- PyDateTime_TZInfo base;
- PyObject *key;
- PyObject *file_repr;
- PyObject *weakreflist;
- size_t num_transitions;
- size_t num_ttinfos;
- int64_t *trans_list_utc;
- int64_t *trans_list_wall[2];
- _ttinfo **trans_ttinfos; // References to the ttinfo for each transition
- _ttinfo *ttinfo_before;
- _tzrule tzrule_after;
- _ttinfo *_ttinfos; // Unique array of ttinfos for ease of deallocation
- unsigned char fixed_offset;
- unsigned char source;
- } PyZoneInfo_ZoneInfo;
- struct TransitionRuleType {
- int64_t (*year_to_timestamp)(TransitionRuleType *, int);
- };
- typedef struct {
- TransitionRuleType base;
- uint8_t month; /* 1 - 12 */
- uint8_t week; /* 1 - 5 */
- uint8_t day; /* 0 - 6 */
- int16_t hour; /* -167 - 167, RFC 8536 §3.3.1 */
- int8_t minute; /* signed 2 digits */
- int8_t second; /* signed 2 digits */
- } CalendarRule;
- typedef struct {
- TransitionRuleType base;
- uint8_t julian; /* 0, 1 */
- uint16_t day; /* 0 - 365 */
- int16_t hour; /* -167 - 167, RFC 8536 §3.3.1 */
- int8_t minute; /* signed 2 digits */
- int8_t second; /* signed 2 digits */
- } DayRule;
- struct StrongCacheNode {
- StrongCacheNode *next;
- StrongCacheNode *prev;
- PyObject *key;
- PyObject *zone;
- };
- typedef struct {
- PyTypeObject *ZoneInfoType;
- // Imports
- PyObject *io_open;
- PyObject *_tzpath_find_tzfile;
- PyObject *_common_mod;
- // Caches
- PyObject *TIMEDELTA_CACHE;
- PyObject *ZONEINFO_WEAK_CACHE;
- StrongCacheNode *ZONEINFO_STRONG_CACHE;
- _ttinfo NO_TTINFO;
- } zoneinfo_state;
- // Constants
- static const int EPOCHORDINAL = 719163;
- static int DAYS_IN_MONTH[] = {
- -1, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31,
- };
- static int DAYS_BEFORE_MONTH[] = {
- -1, 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334,
- };
- static const int SOURCE_NOCACHE = 0;
- static const int SOURCE_CACHE = 1;
- static const int SOURCE_FILE = 2;
- static const size_t ZONEINFO_STRONG_CACHE_MAX_SIZE = 8;
- // Forward declarations
- static int
- load_data(zoneinfo_state *state, PyZoneInfo_ZoneInfo *self,
- PyObject *file_obj);
- static void
- utcoff_to_dstoff(size_t *trans_idx, long *utcoffs, long *dstoffs,
- unsigned char *isdsts, size_t num_transitions,
- size_t num_ttinfos);
- static int
- ts_to_local(size_t *trans_idx, int64_t *trans_utc, long *utcoff,
- int64_t *trans_local[2], size_t num_ttinfos,
- size_t num_transitions);
- static int
- parse_tz_str(zoneinfo_state *state, PyObject *tz_str_obj, _tzrule *out);
- static int
- parse_abbr(const char **p, PyObject **abbr);
- static int
- parse_tz_delta(const char **p, long *total_seconds);
- static int
- parse_transition_time(const char **p, int *hour, int *minute, int *second);
- static int
- parse_transition_rule(const char **p, TransitionRuleType **out);
- static _ttinfo *
- find_tzrule_ttinfo(_tzrule *rule, int64_t ts, unsigned char fold, int year);
- static _ttinfo *
- find_tzrule_ttinfo_fromutc(_tzrule *rule, int64_t ts, int year,
- unsigned char *fold);
- static int
- build_ttinfo(zoneinfo_state *state, long utcoffset, long dstoffset,
- PyObject *tzname, _ttinfo *out);
- static void
- xdecref_ttinfo(_ttinfo *ttinfo);
- static int
- ttinfo_eq(const _ttinfo *const tti0, const _ttinfo *const tti1);
- static int
- build_tzrule(zoneinfo_state *state, PyObject *std_abbr, PyObject *dst_abbr,
- long std_offset, long dst_offset, TransitionRuleType *start,
- TransitionRuleType *end, _tzrule *out);
- static void
- free_tzrule(_tzrule *tzrule);
- static PyObject *
- load_timedelta(zoneinfo_state *state, long seconds);
- static int
- get_local_timestamp(PyObject *dt, int64_t *local_ts);
- static _ttinfo *
- find_ttinfo(zoneinfo_state *state, PyZoneInfo_ZoneInfo *self, PyObject *dt);
- static int
- ymd_to_ord(int y, int m, int d);
- static int
- is_leap_year(int year);
- static size_t
- _bisect(const int64_t value, const int64_t *arr, size_t size);
- static int
- eject_from_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *key);
- static void
- clear_strong_cache(zoneinfo_state *state, const PyTypeObject *const type);
- static void
- update_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *key, PyObject *zone);
- static PyObject *
- zone_from_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *const key);
- static inline zoneinfo_state *
- zoneinfo_get_state(PyObject *mod)
- {
- zoneinfo_state *state = (zoneinfo_state *)PyModule_GetState(mod);
- assert(state != NULL);
- return state;
- }
- static inline zoneinfo_state *
- zoneinfo_get_state_by_cls(PyTypeObject *cls)
- {
- zoneinfo_state *state = (zoneinfo_state *)_PyType_GetModuleState(cls);
- assert(state != NULL);
- return state;
- }
- static struct PyModuleDef zoneinfomodule;
- static inline zoneinfo_state *
- zoneinfo_get_state_by_self(PyTypeObject *self)
- {
- PyObject *mod = PyType_GetModuleByDef(self, &zoneinfomodule);
- assert(mod != NULL);
- return zoneinfo_get_state(mod);
- }
- static PyObject *
- zoneinfo_new_instance(zoneinfo_state *state, PyTypeObject *type, PyObject *key)
- {
- PyObject *file_obj = NULL;
- PyObject *file_path = NULL;
- file_path = PyObject_CallFunctionObjArgs(state->_tzpath_find_tzfile,
- key, NULL);
- if (file_path == NULL) {
- return NULL;
- }
- else if (file_path == Py_None) {
- PyObject *meth = state->_common_mod;
- file_obj = PyObject_CallMethod(meth, "load_tzdata", "O", key);
- if (file_obj == NULL) {
- Py_DECREF(file_path);
- return NULL;
- }
- }
- PyObject *self = (PyObject *)(type->tp_alloc(type, 0));
- if (self == NULL) {
- goto error;
- }
- if (file_obj == NULL) {
- PyObject *func = state->io_open;
- file_obj = PyObject_CallFunction(func, "Os", file_path, "rb");
- if (file_obj == NULL) {
- goto error;
- }
- }
- if (load_data(state, (PyZoneInfo_ZoneInfo *)self, file_obj)) {
- goto error;
- }
- PyObject *rv = PyObject_CallMethod(file_obj, "close", NULL);
- Py_SETREF(file_obj, NULL);
- if (rv == NULL) {
- goto error;
- }
- Py_DECREF(rv);
- ((PyZoneInfo_ZoneInfo *)self)->key = Py_NewRef(key);
- goto cleanup;
- error:
- Py_CLEAR(self);
- cleanup:
- if (file_obj != NULL) {
- PyObject *exc = PyErr_GetRaisedException();
- PyObject *tmp = PyObject_CallMethod(file_obj, "close", NULL);
- _PyErr_ChainExceptions1(exc);
- if (tmp == NULL) {
- Py_CLEAR(self);
- }
- Py_XDECREF(tmp);
- Py_DECREF(file_obj);
- }
- Py_DECREF(file_path);
- return self;
- }
- static PyObject *
- get_weak_cache(zoneinfo_state *state, PyTypeObject *type)
- {
- if (type == state->ZoneInfoType) {
- return state->ZONEINFO_WEAK_CACHE;
- }
- else {
- PyObject *cache =
- PyObject_GetAttrString((PyObject *)type, "_weak_cache");
- // We are assuming that the type lives at least as long as the function
- // that calls get_weak_cache, and that it holds a reference to the
- // cache, so we'll return a "borrowed reference".
- Py_XDECREF(cache);
- return cache;
- }
- }
- static PyObject *
- zoneinfo_new(PyTypeObject *type, PyObject *args, PyObject *kw)
- {
- PyObject *key = NULL;
- static char *kwlist[] = {"key", NULL};
- if (PyArg_ParseTupleAndKeywords(args, kw, "O", kwlist, &key) == 0) {
- return NULL;
- }
- zoneinfo_state *state = zoneinfo_get_state_by_self(type);
- PyObject *instance = zone_from_strong_cache(state, type, key);
- if (instance != NULL || PyErr_Occurred()) {
- return instance;
- }
- PyObject *weak_cache = get_weak_cache(state, type);
- instance = PyObject_CallMethod(weak_cache, "get", "O", key, Py_None);
- if (instance == NULL) {
- return NULL;
- }
- if (instance == Py_None) {
- Py_DECREF(instance);
- PyObject *tmp = zoneinfo_new_instance(state, type, key);
- if (tmp == NULL) {
- return NULL;
- }
- instance =
- PyObject_CallMethod(weak_cache, "setdefault", "OO", key, tmp);
- Py_DECREF(tmp);
- if (instance == NULL) {
- return NULL;
- }
- ((PyZoneInfo_ZoneInfo *)instance)->source = SOURCE_CACHE;
- }
- update_strong_cache(state, type, key, instance);
- return instance;
- }
- static int
- zoneinfo_traverse(PyZoneInfo_ZoneInfo *self, visitproc visit, void *arg)
- {
- Py_VISIT(Py_TYPE(self));
- Py_VISIT(self->key);
- return 0;
- }
- static int
- zoneinfo_clear(PyZoneInfo_ZoneInfo *self)
- {
- Py_CLEAR(self->key);
- Py_CLEAR(self->file_repr);
- return 0;
- }
- static void
- zoneinfo_dealloc(PyObject *obj_self)
- {
- PyZoneInfo_ZoneInfo *self = (PyZoneInfo_ZoneInfo *)obj_self;
- PyTypeObject *tp = Py_TYPE(self);
- PyObject_GC_UnTrack(self);
- if (self->weakreflist != NULL) {
- PyObject_ClearWeakRefs(obj_self);
- }
- if (self->trans_list_utc != NULL) {
- PyMem_Free(self->trans_list_utc);
- }
- for (size_t i = 0; i < 2; i++) {
- if (self->trans_list_wall[i] != NULL) {
- PyMem_Free(self->trans_list_wall[i]);
- }
- }
- if (self->_ttinfos != NULL) {
- for (size_t i = 0; i < self->num_ttinfos; ++i) {
- xdecref_ttinfo(&(self->_ttinfos[i]));
- }
- PyMem_Free(self->_ttinfos);
- }
- if (self->trans_ttinfos != NULL) {
- PyMem_Free(self->trans_ttinfos);
- }
- free_tzrule(&(self->tzrule_after));
- zoneinfo_clear(self);
- tp->tp_free(obj_self);
- Py_DECREF(tp);
- }
- /*[clinic input]
- @classmethod
- zoneinfo.ZoneInfo.from_file
- cls: defining_class
- file_obj: object
- /
- key: object = None
- Create a ZoneInfo file from a file object.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_from_file_impl(PyTypeObject *type, PyTypeObject *cls,
- PyObject *file_obj, PyObject *key)
- /*[clinic end generated code: output=77887d1d56a48324 input=d26111f29eed6863]*/
- {
- PyObject *file_repr = NULL;
- PyZoneInfo_ZoneInfo *self = NULL;
- PyObject *obj_self = (PyObject *)(type->tp_alloc(type, 0));
- self = (PyZoneInfo_ZoneInfo *)obj_self;
- if (self == NULL) {
- return NULL;
- }
- file_repr = PyUnicode_FromFormat("%R", file_obj);
- if (file_repr == NULL) {
- goto error;
- }
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- if (load_data(state, self, file_obj)) {
- goto error;
- }
- self->source = SOURCE_FILE;
- self->file_repr = file_repr;
- self->key = Py_NewRef(key);
- return obj_self;
- error:
- Py_XDECREF(file_repr);
- Py_XDECREF(self);
- return NULL;
- }
- /*[clinic input]
- @classmethod
- zoneinfo.ZoneInfo.no_cache
- cls: defining_class
- /
- key: object
- Get a new instance of ZoneInfo, bypassing the cache.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_no_cache_impl(PyTypeObject *type, PyTypeObject *cls,
- PyObject *key)
- /*[clinic end generated code: output=b0b09b3344c171b7 input=0238f3d56b1ea3f1]*/
- {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- PyObject *out = zoneinfo_new_instance(state, type, key);
- if (out != NULL) {
- ((PyZoneInfo_ZoneInfo *)out)->source = SOURCE_NOCACHE;
- }
- return out;
- }
- /*[clinic input]
- @classmethod
- zoneinfo.ZoneInfo.clear_cache
- cls: defining_class
- /
- *
- only_keys: object = None
- Clear the ZoneInfo cache.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_clear_cache_impl(PyTypeObject *type, PyTypeObject *cls,
- PyObject *only_keys)
- /*[clinic end generated code: output=114d9b7c8a22e660 input=e32ca3bb396788ba]*/
- {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- PyObject *weak_cache = get_weak_cache(state, type);
- if (only_keys == NULL || only_keys == Py_None) {
- PyObject *rv = PyObject_CallMethod(weak_cache, "clear", NULL);
- if (rv != NULL) {
- Py_DECREF(rv);
- }
- clear_strong_cache(state, type);
- }
- else {
- PyObject *item = NULL;
- PyObject *pop = PyUnicode_FromString("pop");
- if (pop == NULL) {
- return NULL;
- }
- PyObject *iter = PyObject_GetIter(only_keys);
- if (iter == NULL) {
- Py_DECREF(pop);
- return NULL;
- }
- while ((item = PyIter_Next(iter))) {
- // Remove from strong cache
- if (eject_from_strong_cache(state, type, item) < 0) {
- Py_DECREF(item);
- break;
- }
- // Remove from weak cache
- PyObject *tmp = PyObject_CallMethodObjArgs(weak_cache, pop, item,
- Py_None, NULL);
- Py_DECREF(item);
- if (tmp == NULL) {
- break;
- }
- Py_DECREF(tmp);
- }
- Py_DECREF(iter);
- Py_DECREF(pop);
- }
- if (PyErr_Occurred()) {
- return NULL;
- }
- Py_RETURN_NONE;
- }
- /*[clinic input]
- zoneinfo.ZoneInfo.utcoffset
- cls: defining_class
- dt: object
- /
- Retrieve a timedelta representing the UTC offset in a zone at the given datetime.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_utcoffset_impl(PyObject *self, PyTypeObject *cls,
- PyObject *dt)
- /*[clinic end generated code: output=b71016c319ba1f91 input=2bb6c5364938f19c]*/
- {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- _ttinfo *tti = find_ttinfo(state, (PyZoneInfo_ZoneInfo *)self, dt);
- if (tti == NULL) {
- return NULL;
- }
- return Py_NewRef(tti->utcoff);
- }
- /*[clinic input]
- zoneinfo.ZoneInfo.dst
- cls: defining_class
- dt: object
- /
- Retrieve a timedelta representing the amount of DST applied in a zone at the given datetime.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_dst_impl(PyObject *self, PyTypeObject *cls, PyObject *dt)
- /*[clinic end generated code: output=cb6168d7723a6ae6 input=2167fb80cf8645c6]*/
- {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- _ttinfo *tti = find_ttinfo(state, (PyZoneInfo_ZoneInfo *)self, dt);
- if (tti == NULL) {
- return NULL;
- }
- return Py_NewRef(tti->dstoff);
- }
- /*[clinic input]
- zoneinfo.ZoneInfo.tzname
- cls: defining_class
- dt: object
- /
- Retrieve a string containing the abbreviation for the time zone that applies in a zone at a given datetime.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo_tzname_impl(PyObject *self, PyTypeObject *cls,
- PyObject *dt)
- /*[clinic end generated code: output=3b6ae6c3053ea75a input=15a59a4f92ed1f1f]*/
- {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- _ttinfo *tti = find_ttinfo(state, (PyZoneInfo_ZoneInfo *)self, dt);
- if (tti == NULL) {
- return NULL;
- }
- return Py_NewRef(tti->tzname);
- }
- #define GET_DT_TZINFO PyDateTime_DATE_GET_TZINFO
- static PyObject *
- zoneinfo_fromutc(PyObject *obj_self, PyObject *dt)
- {
- if (!PyDateTime_Check(dt)) {
- PyErr_SetString(PyExc_TypeError,
- "fromutc: argument must be a datetime");
- return NULL;
- }
- if (GET_DT_TZINFO(dt) != obj_self) {
- PyErr_SetString(PyExc_ValueError,
- "fromutc: dt.tzinfo "
- "is not self");
- return NULL;
- }
- PyZoneInfo_ZoneInfo *self = (PyZoneInfo_ZoneInfo *)obj_self;
- int64_t timestamp;
- if (get_local_timestamp(dt, ×tamp)) {
- return NULL;
- }
- size_t num_trans = self->num_transitions;
- _ttinfo *tti = NULL;
- unsigned char fold = 0;
- if (num_trans >= 1 && timestamp < self->trans_list_utc[0]) {
- tti = self->ttinfo_before;
- }
- else if (num_trans == 0 ||
- timestamp > self->trans_list_utc[num_trans - 1]) {
- tti = find_tzrule_ttinfo_fromutc(&(self->tzrule_after), timestamp,
- PyDateTime_GET_YEAR(dt), &fold);
- // Immediately after the last manual transition, the fold/gap is
- // between self->trans_ttinfos[num_transitions - 1] and whatever
- // ttinfo applies immediately after the last transition, not between
- // the STD and DST rules in the tzrule_after, so we may need to
- // adjust the fold value.
- if (num_trans) {
- _ttinfo *tti_prev = NULL;
- if (num_trans == 1) {
- tti_prev = self->ttinfo_before;
- }
- else {
- tti_prev = self->trans_ttinfos[num_trans - 2];
- }
- int64_t diff = tti_prev->utcoff_seconds - tti->utcoff_seconds;
- if (diff > 0 &&
- timestamp < (self->trans_list_utc[num_trans - 1] + diff)) {
- fold = 1;
- }
- }
- }
- else {
- size_t idx = _bisect(timestamp, self->trans_list_utc, num_trans);
- _ttinfo *tti_prev = NULL;
- if (idx >= 2) {
- tti_prev = self->trans_ttinfos[idx - 2];
- tti = self->trans_ttinfos[idx - 1];
- }
- else {
- tti_prev = self->ttinfo_before;
- tti = self->trans_ttinfos[0];
- }
- // Detect fold
- int64_t shift =
- (int64_t)(tti_prev->utcoff_seconds - tti->utcoff_seconds);
- if (shift > (timestamp - self->trans_list_utc[idx - 1])) {
- fold = 1;
- }
- }
- PyObject *tmp = PyNumber_Add(dt, tti->utcoff);
- if (tmp == NULL) {
- return NULL;
- }
- if (fold) {
- if (PyDateTime_CheckExact(tmp)) {
- ((PyDateTime_DateTime *)tmp)->fold = 1;
- dt = tmp;
- }
- else {
- PyObject *replace = PyObject_GetAttrString(tmp, "replace");
- Py_DECREF(tmp);
- if (replace == NULL) {
- return NULL;
- }
- PyObject *args = PyTuple_New(0);
- if (args == NULL) {
- Py_DECREF(replace);
- return NULL;
- }
- PyObject *kwargs = PyDict_New();
- if (kwargs == NULL) {
- Py_DECREF(replace);
- Py_DECREF(args);
- return NULL;
- }
- dt = NULL;
- if (!PyDict_SetItemString(kwargs, "fold", _PyLong_GetOne())) {
- dt = PyObject_Call(replace, args, kwargs);
- }
- Py_DECREF(args);
- Py_DECREF(kwargs);
- Py_DECREF(replace);
- if (dt == NULL) {
- return NULL;
- }
- }
- }
- else {
- dt = tmp;
- }
- return dt;
- }
- static PyObject *
- zoneinfo_repr(PyZoneInfo_ZoneInfo *self)
- {
- PyObject *rv = NULL;
- const char *type_name = Py_TYPE((PyObject *)self)->tp_name;
- if (!(self->key == Py_None)) {
- rv = PyUnicode_FromFormat("%s(key=%R)", type_name, self->key);
- }
- else {
- assert(PyUnicode_Check(self->file_repr));
- rv = PyUnicode_FromFormat("%s.from_file(%U)", type_name,
- self->file_repr);
- }
- return rv;
- }
- static PyObject *
- zoneinfo_str(PyZoneInfo_ZoneInfo *self)
- {
- if (!(self->key == Py_None)) {
- return Py_NewRef(self->key);
- }
- else {
- return zoneinfo_repr(self);
- }
- }
- /* Pickles the ZoneInfo object by key and source.
- *
- * ZoneInfo objects are pickled by reference to the TZif file that they came
- * from, which means that the exact transitions may be different or the file
- * may not un-pickle if the data has changed on disk in the interim.
- *
- * It is necessary to include a bit indicating whether or not the object
- * was constructed from the cache, because from-cache objects will hit the
- * unpickling process's cache, whereas no-cache objects will bypass it.
- *
- * Objects constructed from ZoneInfo.from_file cannot be pickled.
- */
- static PyObject *
- zoneinfo_reduce(PyObject *obj_self, PyObject *unused)
- {
- PyZoneInfo_ZoneInfo *self = (PyZoneInfo_ZoneInfo *)obj_self;
- if (self->source == SOURCE_FILE) {
- // Objects constructed from files cannot be pickled.
- PyObject *pickle_error =
- _PyImport_GetModuleAttrString("pickle", "PicklingError");
- if (pickle_error == NULL) {
- return NULL;
- }
- PyErr_Format(pickle_error,
- "Cannot pickle a ZoneInfo file from a file stream.");
- Py_DECREF(pickle_error);
- return NULL;
- }
- unsigned char from_cache = self->source == SOURCE_CACHE ? 1 : 0;
- PyObject *constructor = PyObject_GetAttrString(obj_self, "_unpickle");
- if (constructor == NULL) {
- return NULL;
- }
- PyObject *rv = Py_BuildValue("O(OB)", constructor, self->key, from_cache);
- Py_DECREF(constructor);
- return rv;
- }
- /*[clinic input]
- @classmethod
- zoneinfo.ZoneInfo._unpickle
- cls: defining_class
- key: object
- from_cache: unsigned_char(bitwise=True)
- /
- Private method used in unpickling.
- [clinic start generated code]*/
- static PyObject *
- zoneinfo_ZoneInfo__unpickle_impl(PyTypeObject *type, PyTypeObject *cls,
- PyObject *key, unsigned char from_cache)
- /*[clinic end generated code: output=556712fc709deecb input=6ac8c73eed3de316]*/
- {
- if (from_cache) {
- PyObject *val_args = Py_BuildValue("(O)", key);
- if (val_args == NULL) {
- return NULL;
- }
- PyObject *rv = zoneinfo_new(type, val_args, NULL);
- Py_DECREF(val_args);
- return rv;
- }
- else {
- zoneinfo_state *state = zoneinfo_get_state_by_cls(cls);
- return zoneinfo_new_instance(state, type, key);
- }
- }
- /* It is relatively expensive to construct new timedelta objects, and in most
- * cases we're looking at a relatively small number of timedeltas, such as
- * integer number of hours, etc. We will keep a cache so that we construct
- * a minimal number of these.
- *
- * Possibly this should be replaced with an LRU cache so that it's not possible
- * for the memory usage to explode from this, but in order for this to be a
- * serious problem, one would need to deliberately craft a malicious time zone
- * file with many distinct offsets. As of tzdb 2019c, loading every single zone
- * fills the cache with ~450 timedeltas for a total size of ~12kB.
- *
- * This returns a new reference to the timedelta.
- */
- static PyObject *
- load_timedelta(zoneinfo_state *state, long seconds)
- {
- PyObject *rv;
- PyObject *pyoffset = PyLong_FromLong(seconds);
- if (pyoffset == NULL) {
- return NULL;
- }
- rv = PyDict_GetItemWithError(state->TIMEDELTA_CACHE, pyoffset);
- if (rv == NULL) {
- if (PyErr_Occurred()) {
- goto error;
- }
- PyObject *tmp = PyDateTimeAPI->Delta_FromDelta(
- 0, seconds, 0, 1, PyDateTimeAPI->DeltaType);
- if (tmp == NULL) {
- goto error;
- }
- rv = PyDict_SetDefault(state->TIMEDELTA_CACHE, pyoffset, tmp);
- Py_DECREF(tmp);
- }
- Py_XINCREF(rv);
- Py_DECREF(pyoffset);
- return rv;
- error:
- Py_DECREF(pyoffset);
- return NULL;
- }
- /* Constructor for _ttinfo object - this starts by initializing the _ttinfo
- * to { NULL, NULL, NULL }, so that Py_XDECREF will work on partially
- * initialized _ttinfo objects.
- */
- static int
- build_ttinfo(zoneinfo_state *state, long utcoffset, long dstoffset,
- PyObject *tzname, _ttinfo *out)
- {
- out->utcoff = NULL;
- out->dstoff = NULL;
- out->tzname = NULL;
- out->utcoff_seconds = utcoffset;
- out->utcoff = load_timedelta(state, utcoffset);
- if (out->utcoff == NULL) {
- return -1;
- }
- out->dstoff = load_timedelta(state, dstoffset);
- if (out->dstoff == NULL) {
- return -1;
- }
- out->tzname = Py_NewRef(tzname);
- return 0;
- }
- /* Decrease reference count on any non-NULL members of a _ttinfo */
- static void
- xdecref_ttinfo(_ttinfo *ttinfo)
- {
- if (ttinfo != NULL) {
- Py_XDECREF(ttinfo->utcoff);
- Py_XDECREF(ttinfo->dstoff);
- Py_XDECREF(ttinfo->tzname);
- }
- }
- /* Equality function for _ttinfo. */
- static int
- ttinfo_eq(const _ttinfo *const tti0, const _ttinfo *const tti1)
- {
- int rv;
- if ((rv = PyObject_RichCompareBool(tti0->utcoff, tti1->utcoff, Py_EQ)) <
- 1) {
- goto end;
- }
- if ((rv = PyObject_RichCompareBool(tti0->dstoff, tti1->dstoff, Py_EQ)) <
- 1) {
- goto end;
- }
- if ((rv = PyObject_RichCompareBool(tti0->tzname, tti1->tzname, Py_EQ)) <
- 1) {
- goto end;
- }
- end:
- return rv;
- }
- /* Given a file-like object, this populates a ZoneInfo object
- *
- * The current version calls into a Python function to read the data from
- * file into Python objects, and this translates those Python objects into
- * C values and calculates derived values (e.g. dstoff) in C.
- *
- * This returns 0 on success and -1 on failure.
- *
- * The function will never return while `self` is partially initialized —
- * the object only needs to be freed / deallocated if this succeeds.
- */
- static int
- load_data(zoneinfo_state *state, PyZoneInfo_ZoneInfo *self, PyObject *file_obj)
- {
- int rv = 0;
- PyObject *data_tuple = NULL;
- long *utcoff = NULL;
- long *dstoff = NULL;
- size_t *trans_idx = NULL;
- unsigned char *isdst = NULL;
- self->trans_list_utc = NULL;
- self->trans_list_wall[0] = NULL;
- self->trans_list_wall[1] = NULL;
- self->trans_ttinfos = NULL;
- self->_ttinfos = NULL;
- self->file_repr = NULL;
- size_t ttinfos_allocated = 0;
- data_tuple = PyObject_CallMethod(state->_common_mod, "load_data", "O",
- file_obj);
- if (data_tuple == NULL) {
- goto error;
- }
- if (!PyTuple_CheckExact(data_tuple)) {
- PyErr_Format(PyExc_TypeError, "Invalid data result type: %r",
- data_tuple);
- goto error;
- }
- // Unpack the data tuple
- PyObject *trans_idx_list = PyTuple_GetItem(data_tuple, 0);
- if (trans_idx_list == NULL) {
- goto error;
- }
- PyObject *trans_utc = PyTuple_GetItem(data_tuple, 1);
- if (trans_utc == NULL) {
- goto error;
- }
- PyObject *utcoff_list = PyTuple_GetItem(data_tuple, 2);
- if (utcoff_list == NULL) {
- goto error;
- }
- PyObject *isdst_list = PyTuple_GetItem(data_tuple, 3);
- if (isdst_list == NULL) {
- goto error;
- }
- PyObject *abbr = PyTuple_GetItem(data_tuple, 4);
- if (abbr == NULL) {
- goto error;
- }
- PyObject *tz_str = PyTuple_GetItem(data_tuple, 5);
- if (tz_str == NULL) {
- goto error;
- }
- // Load the relevant sizes
- Py_ssize_t num_transitions = PyTuple_Size(trans_utc);
- if (num_transitions < 0) {
- goto error;
- }
- Py_ssize_t num_ttinfos = PyTuple_Size(utcoff_list);
- if (num_ttinfos < 0) {
- goto error;
- }
- self->num_transitions = (size_t)num_transitions;
- self->num_ttinfos = (size_t)num_ttinfos;
- // Load the transition indices and list
- self->trans_list_utc =
- PyMem_Malloc(self->num_transitions * sizeof(int64_t));
- if (self->trans_list_utc == NULL) {
- goto error;
- }
- trans_idx = PyMem_Malloc(self->num_transitions * sizeof(Py_ssize_t));
- if (trans_idx == NULL) {
- goto error;
- }
- for (size_t i = 0; i < self->num_transitions; ++i) {
- PyObject *num = PyTuple_GetItem(trans_utc, i);
- if (num == NULL) {
- goto error;
- }
- self->trans_list_utc[i] = PyLong_AsLongLong(num);
- if (self->trans_list_utc[i] == -1 && PyErr_Occurred()) {
- goto error;
- }
- num = PyTuple_GetItem(trans_idx_list, i);
- if (num == NULL) {
- goto error;
- }
- Py_ssize_t cur_trans_idx = PyLong_AsSsize_t(num);
- if (cur_trans_idx == -1) {
- goto error;
- }
- trans_idx[i] = (size_t)cur_trans_idx;
- if (trans_idx[i] > self->num_ttinfos) {
- PyErr_Format(
- PyExc_ValueError,
- "Invalid transition index found while reading TZif: %zd",
- cur_trans_idx);
- goto error;
- }
- }
- // Load UTC offsets and isdst (size num_ttinfos)
- utcoff = PyMem_Malloc(self->num_ttinfos * sizeof(long));
- isdst = PyMem_Malloc(self->num_ttinfos * sizeof(unsigned char));
- if (utcoff == NULL || isdst == NULL) {
- goto error;
- }
- for (size_t i = 0; i < self->num_ttinfos; ++i) {
- PyObject *num = PyTuple_GetItem(utcoff_list, i);
- if (num == NULL) {
- goto error;
- }
- utcoff[i] = PyLong_AsLong(num);
- if (utcoff[i] == -1 && PyErr_Occurred()) {
- goto error;
- }
- num = PyTuple_GetItem(isdst_list, i);
- if (num == NULL) {
- goto error;
- }
- int isdst_with_error = PyObject_IsTrue(num);
- if (isdst_with_error == -1) {
- goto error;
- }
- else {
- isdst[i] = (unsigned char)isdst_with_error;
- }
- }
- dstoff = PyMem_Calloc(self->num_ttinfos, sizeof(long));
- if (dstoff == NULL) {
- goto error;
- }
- // Derive dstoff and trans_list_wall from the information we've loaded
- utcoff_to_dstoff(trans_idx, utcoff, dstoff, isdst, self->num_transitions,
- self->num_ttinfos);
- if (ts_to_local(trans_idx, self->trans_list_utc, utcoff,
- self->trans_list_wall, self->num_ttinfos,
- self->num_transitions)) {
- goto error;
- }
- // Build _ttinfo objects from utcoff, dstoff and abbr
- self->_ttinfos = PyMem_Malloc(self->num_ttinfos * sizeof(_ttinfo));
- if (self->_ttinfos == NULL) {
- goto error;
- }
- for (size_t i = 0; i < self->num_ttinfos; ++i) {
- PyObject *tzname = PyTuple_GetItem(abbr, i);
- if (tzname == NULL) {
- goto error;
- }
- ttinfos_allocated++;
- int rc = build_ttinfo(state, utcoff[i], dstoff[i], tzname,
- &(self->_ttinfos[i]));
- if (rc) {
- goto error;
- }
- }
- // Build our mapping from transition to the ttinfo that applies
- self->trans_ttinfos =
- PyMem_Calloc(self->num_transitions, sizeof(_ttinfo *));
- if (self->trans_ttinfos == NULL) {
- goto error;
- }
- for (size_t i = 0; i < self->num_transitions; ++i) {
- size_t ttinfo_idx = trans_idx[i];
- assert(ttinfo_idx < self->num_ttinfos);
- self->trans_ttinfos[i] = &(self->_ttinfos[ttinfo_idx]);
- }
- // Set ttinfo_before to the first non-DST transition
- for (size_t i = 0; i < self->num_ttinfos; ++i) {
- if (!isdst[i]) {
- self->ttinfo_before = &(self->_ttinfos[i]);
- break;
- }
- }
- // If there are only DST ttinfos, pick the first one, if there are no
- // ttinfos at all, set ttinfo_before to NULL
- if (self->ttinfo_before == NULL && self->num_ttinfos > 0) {
- self->ttinfo_before = &(self->_ttinfos[0]);
- }
- if (tz_str != Py_None && PyObject_IsTrue(tz_str)) {
- if (parse_tz_str(state, tz_str, &(self->tzrule_after))) {
- goto error;
- }
- }
- else {
- if (!self->num_ttinfos) {
- PyErr_Format(PyExc_ValueError, "No time zone information found.");
- goto error;
- }
- size_t idx;
- if (!self->num_transitions) {
- idx = self->num_ttinfos - 1;
- }
- else {
- idx = trans_idx[self->num_transitions - 1];
- }
- _ttinfo *tti = &(self->_ttinfos[idx]);
- build_tzrule(state, tti->tzname, NULL, tti->utcoff_seconds, 0, NULL,
- NULL, &(self->tzrule_after));
- // We've abused the build_tzrule constructor to construct an STD-only
- // rule mimicking whatever ttinfo we've picked up, but it's possible
- // that the one we've picked up is a DST zone, so we need to make sure
- // that the dstoff is set correctly in that case.
- if (PyObject_IsTrue(tti->dstoff)) {
- _ttinfo *tti_after = &(self->tzrule_after.std);
- Py_SETREF(tti_after->dstoff, Py_NewRef(tti->dstoff));
- }
- }
- // Determine if this is a "fixed offset" zone, meaning that the output of
- // the utcoffset, dst and tzname functions does not depend on the specific
- // datetime passed.
- //
- // We make three simplifying assumptions here:
- //
- // 1. If tzrule_after is not std_only, it has transitions that might occur
- // (it is possible to construct TZ strings that specify STD and DST but
- // no transitions ever occur, such as AAA0BBB,0/0,J365/25).
- // 2. If self->_ttinfos contains more than one _ttinfo object, the objects
- // represent different offsets.
- // 3. self->ttinfos contains no unused _ttinfos (in which case an otherwise
- // fixed-offset zone with extra _ttinfos defined may appear to *not* be
- // a fixed offset zone).
- //
- // Violations to these assumptions would be fairly exotic, and exotic
- // zones should almost certainly not be used with datetime.time (the
- // only thing that would be affected by this).
- if (self->num_ttinfos > 1 || !self->tzrule_after.std_only) {
- self->fixed_offset = 0;
- }
- else if (self->num_ttinfos == 0) {
- self->fixed_offset = 1;
- }
- else {
- int constant_offset =
- ttinfo_eq(&(self->_ttinfos[0]), &self->tzrule_after.std);
- if (constant_offset < 0) {
- goto error;
- }
- else {
- self->fixed_offset = constant_offset;
- }
- }
- goto cleanup;
- error:
- // These resources only need to be freed if we have failed, if we succeed
- // in initializing a PyZoneInfo_ZoneInfo object, we can rely on its dealloc
- // method to free the relevant resources.
- if (self->trans_list_utc != NULL) {
- PyMem_Free(self->trans_list_utc);
- self->trans_list_utc = NULL;
- }
- for (size_t i = 0; i < 2; ++i) {
- if (self->trans_list_wall[i] != NULL) {
- PyMem_Free(self->trans_list_wall[i]);
- self->trans_list_wall[i] = NULL;
- }
- }
- if (self->_ttinfos != NULL) {
- for (size_t i = 0; i < ttinfos_allocated; ++i) {
- xdecref_ttinfo(&(self->_ttinfos[i]));
- }
- PyMem_Free(self->_ttinfos);
- self->_ttinfos = NULL;
- }
- if (self->trans_ttinfos != NULL) {
- PyMem_Free(self->trans_ttinfos);
- self->trans_ttinfos = NULL;
- }
- rv = -1;
- cleanup:
- Py_XDECREF(data_tuple);
- if (utcoff != NULL) {
- PyMem_Free(utcoff);
- }
- if (dstoff != NULL) {
- PyMem_Free(dstoff);
- }
- if (isdst != NULL) {
- PyMem_Free(isdst);
- }
- if (trans_idx != NULL) {
- PyMem_Free(trans_idx);
- }
- return rv;
- }
- /* Function to calculate the local timestamp of a transition from the year. */
- int64_t
- calendarrule_year_to_timestamp(TransitionRuleType *base_self, int year)
- {
- CalendarRule *self = (CalendarRule *)base_self;
- // We want (year, month, day of month); we have year and month, but we
- // need to turn (week, day-of-week) into day-of-month
- //
- // Week 1 is the first week in which day `day` (where 0 = Sunday) appears.
- // Week 5 represents the last occurrence of day `day`, so we need to know
- // the first weekday of the month and the number of days in the month.
- int8_t first_day = (ymd_to_ord(year, self->month, 1) + 6) % 7;
- uint8_t days_in_month = DAYS_IN_MONTH[self->month];
- if (self->month == 2 && is_leap_year(year)) {
- days_in_month += 1;
- }
- // This equation seems magical, so I'll break it down:
- // 1. calendar says 0 = Monday, POSIX says 0 = Sunday so we need first_day
- // + 1 to get 1 = Monday -> 7 = Sunday, which is still equivalent
- // because this math is mod 7
- // 2. Get first day - desired day mod 7 (adjusting by 7 for negative
- // numbers so that -1 % 7 = 6).
- // 3. Add 1 because month days are a 1-based index.
- int8_t month_day = ((int8_t)(self->day) - (first_day + 1)) % 7;
- if (month_day < 0) {
- month_day += 7;
- }
- month_day += 1;
- // Now use a 0-based index version of `week` to calculate the w-th
- // occurrence of `day`
- month_day += ((int8_t)(self->week) - 1) * 7;
- // month_day will only be > days_in_month if w was 5, and `w` means "last
- // occurrence of `d`", so now we just check if we over-shot the end of the
- // month and if so knock off 1 week.
- if (month_day > days_in_month) {
- month_day -= 7;
- }
- int64_t ordinal = ymd_to_ord(year, self->month, month_day) - EPOCHORDINAL;
- return ordinal * 86400 + (int64_t)self->hour * 3600 +
- (int64_t)self->minute * 60 + self->second;
- }
- /* Constructor for CalendarRule. */
- int
- calendarrule_new(int month, int week, int day, int hour,
- int minute, int second, CalendarRule *out)
- {
- // These bounds come from the POSIX standard, which describes an Mm.n.d
- // rule as:
- //
- // The d'th day (0 <= d <= 6) of week n of month m of the year (1 <= n <=
- // 5, 1 <= m <= 12, where week 5 means "the last d day in month m" which
- // may occur in either the fourth or the fifth week). Week 1 is the first
- // week in which the d'th day occurs. Day zero is Sunday.
- if (month < 1 || month > 12) {
- PyErr_Format(PyExc_ValueError, "Month must be in [1, 12]");
- return -1;
- }
- if (week < 1 || week > 5) {
- PyErr_Format(PyExc_ValueError, "Week must be in [1, 5]");
- return -1;
- }
- if (day < 0 || day > 6) {
- PyErr_Format(PyExc_ValueError, "Day must be in [0, 6]");
- return -1;
- }
- if (hour < -167 || hour > 167) {
- PyErr_Format(PyExc_ValueError, "Hour must be in [0, 167]");
- return -1;
- }
- TransitionRuleType base = {&calendarrule_year_to_timestamp};
- CalendarRule new_offset = {
- .base = base,
- .month = (uint8_t)month,
- .week = (uint8_t)week,
- .day = (uint8_t)day,
- .hour = (int16_t)hour,
- .minute = (int8_t)minute,
- .second = (int8_t)second,
- };
- *out = new_offset;
- return 0;
- }
- /* Function to calculate the local timestamp of a transition from the year.
- *
- * This translates the day of the year into a local timestamp — either a
- * 1-based Julian day, not including leap days, or the 0-based year-day,
- * including leap days.
- * */
- int64_t
- dayrule_year_to_timestamp(TransitionRuleType *base_self, int year)
- {
- // The function signature requires a TransitionRuleType pointer, but this
- // function is only applicable to DayRule* objects.
- DayRule *self = (DayRule *)base_self;
- // ymd_to_ord calculates the number of days since 0001-01-01, but we want
- // to know the number of days since 1970-01-01, so we must subtract off
- // the equivalent of ymd_to_ord(1970, 1, 1).
- //
- // We subtract off an additional 1 day to account for January 1st (we want
- // the number of full days *before* the date of the transition - partial
- // days are accounted for in the hour, minute and second portions.
- int64_t days_before_year = ymd_to_ord(year, 1, 1) - EPOCHORDINAL - 1;
- // The Julian day specification skips over February 29th in leap years,
- // from the POSIX standard:
- //
- // Leap days shall not be counted. That is, in all years-including leap
- // years-February 28 is day 59 and March 1 is day 60. It is impossible to
- // refer explicitly to the occasional February 29.
- //
- // This is actually more useful than you'd think — if you want a rule that
- // always transitions on a given calendar day (other than February 29th),
- // you would use a Julian day, e.g. J91 always refers to April 1st and J365
- // always refers to December 31st.
- uint16_t day = self->day;
- if (self->julian && day >= 59 && is_leap_year(year)) {
- day += 1;
- }
- return (days_before_year + day) * 86400 + (int64_t)self->hour * 3600 +
- (int64_t)self->minute * 60 + self->second;
- }
- /* Constructor for DayRule. */
- static int
- dayrule_new(int julian, int day, int hour, int minute,
- int second, DayRule *out)
- {
- // The POSIX standard specifies that Julian days must be in the range (1 <=
- // n <= 365) and that non-Julian (they call it "0-based Julian") days must
- // be in the range (0 <= n <= 365).
- if (day < julian || day > 365) {
- PyErr_Format(PyExc_ValueError, "day must be in [%d, 365], not: %d",
- julian, day);
- return -1;
- }
- if (hour < -167 || hour > 167) {
- PyErr_Format(PyExc_ValueError, "Hour must be in [0, 167]");
- return -1;
- }
- TransitionRuleType base = {
- &dayrule_year_to_timestamp,
- };
- DayRule tmp = {
- .base = base,
- .julian = (uint8_t)julian,
- .day = (int16_t)day,
- .hour = (int16_t)hour,
- .minute = (int8_t)minute,
- .second = (int8_t)second,
- };
- *out = tmp;
- return 0;
- }
- /* Calculate the start and end rules for a _tzrule in the given year. */
- static void
- tzrule_transitions(_tzrule *rule, int year, int64_t *start, int64_t *end)
- {
- assert(rule->start != NULL);
- assert(rule->end != NULL);
- *start = rule->start->year_to_timestamp(rule->start, year);
- *end = rule->end->year_to_timestamp(rule->end, year);
- }
- /* Calculate the _ttinfo that applies at a given local time from a _tzrule.
- *
- * This takes a local timestamp and fold for disambiguation purposes; the year
- * could technically be calculated from the timestamp, but given that the
- * callers of this function already have the year information accessible from
- * the datetime struct, it is taken as an additional parameter to reduce
- * unnecessary calculation.
- * */
- static _ttinfo *
- find_tzrule_ttinfo(_tzrule *rule, int64_t ts, unsigned char fold, int year)
- {
- if (rule->std_only) {
- return &(rule->std);
- }
- int64_t start, end;
- uint8_t isdst;
- tzrule_transitions(rule, year, &start, &end);
- // With fold = 0, the period (denominated in local time) with the smaller
- // offset starts at the end of the gap and ends at the end of the fold;
- // with fold = 1, it runs from the start of the gap to the beginning of the
- // fold.
- //
- // So in order to determine the DST boundaries we need to know both the
- // fold and whether DST is positive or negative (rare), and it turns out
- // that this boils down to fold XOR is_positive.
- if (fold == (rule->dst_diff >= 0)) {
- end -= rule->dst_diff;
- }
- else {
- start += rule->dst_diff;
- }
- if (start < end) {
- isdst = (ts >= start) && (ts < end);
- }
- else {
- isdst = (ts < end) || (ts >= start);
- }
- if (isdst) {
- return &(rule->dst);
- }
- else {
- return &(rule->std);
- }
- }
- /* Calculate the ttinfo and fold that applies for a _tzrule at an epoch time.
- *
- * This function can determine the _ttinfo that applies at a given epoch time,
- * (analogous to trans_list_utc), and whether or not the datetime is in a fold.
- * This is to be used in the .fromutc() function.
- *
- * The year is technically a redundant parameter, because it can be calculated
- * from the timestamp, but all callers of this function should have the year
- * in the datetime struct anyway, so taking it as a parameter saves unnecessary
- * calculation.
- **/
- static _ttinfo *
- find_tzrule_ttinfo_fromutc(_tzrule *rule, int64_t ts, int year,
- unsigned char *fold)
- {
- if (rule->std_only) {
- *fold = 0;
- return &(rule->std);
- }
- int64_t start, end;
- uint8_t isdst;
- tzrule_transitions(rule, year, &start, &end);
- start -= rule->std.utcoff_seconds;
- end -= rule->dst.utcoff_seconds;
- if (start < end) {
- isdst = (ts >= start) && (ts < end);
- }
- else {
- isdst = (ts < end) || (ts >= start);
- }
- // For positive DST, the ambiguous period is one dst_diff after the end of
- // DST; for negative DST, the ambiguous period is one dst_diff before the
- // start of DST.
- int64_t ambig_start, ambig_end;
- if (rule->dst_diff > 0) {
- ambig_start = end;
- ambig_end = end + rule->dst_diff;
- }
- else {
- ambig_start = start;
- ambig_end = start - rule->dst_diff;
- }
- *fold = (ts >= ambig_start) && (ts < ambig_end);
- if (isdst) {
- return &(rule->dst);
- }
- else {
- return &(rule->std);
- }
- }
- /* Parse a TZ string in the format specified by the POSIX standard:
- *
- * std offset[dst[offset],start[/time],end[/time]]
- *
- * std and dst must be 3 or more characters long and must not contain a
- * leading colon, embedded digits, commas, nor a plus or minus signs; The
- * spaces between "std" and "offset" are only for display and are not actually
- * present in the string.
- *
- * The format of the offset is ``[+|-]hh[:mm[:ss]]``
- *
- * See the POSIX.1 spec: IEE Std 1003.1-2018 §8.3:
- *
- * https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap08.html
- */
- static int
- parse_tz_str(zoneinfo_state *state, PyObject *tz_str_obj, _tzrule *out)
- {
- PyObject *std_abbr = NULL;
- PyObject *dst_abbr = NULL;
- TransitionRuleType *start = NULL;
- TransitionRuleType *end = NULL;
- // Initialize offsets to invalid value (> 24 hours)
- long std_offset = 1 << 20;
- long dst_offset = 1 << 20;
- const char *tz_str = PyBytes_AsString(tz_str_obj);
- if (tz_str == NULL) {
- return -1;
- }
- const char *p = tz_str;
- // Read the `std` abbreviation, which must be at least 3 characters long.
- if (parse_abbr(&p, &std_abbr)) {
- if (!PyErr_Occurred()) {
- PyErr_Format(PyExc_ValueError, "Invalid STD format in %R", tz_str_obj);
- }
- goto error;
- }
- // Now read the STD offset, which is required
- if (parse_tz_delta(&p, &std_offset)) {
- PyErr_Format(PyExc_ValueError, "Invalid STD offset in %R", tz_str_obj);
- goto error;
- }
- // If the string ends here, there is no DST, otherwise we must parse the
- // DST abbreviation and start and end dates and times.
- if (*p == '\0') {
- goto complete;
- }
- if (parse_abbr(&p, &dst_abbr)) {
- if (!PyErr_Occurred()) {
- PyErr_Format(PyExc_ValueError, "Invalid DST format in %R", tz_str_obj);
- }
- goto error;
- }
- if (*p == ',') {
- // From the POSIX standard:
- //
- // If no offset follows dst, the alternative time is assumed to be one
- // hour ahead of standard time.
- dst_offset = std_offset + 3600;
- }
- else {
- if (parse_tz_delta(&p, &dst_offset)) {
- PyErr_Format(PyExc_ValueError, "Invalid DST offset in %R",
- tz_str_obj);
- goto error;
- }
- }
- TransitionRuleType **transitions[2] = {&start, &end};
- for (size_t i = 0; i < 2; ++i) {
- if (*p != ',') {
- PyErr_Format(PyExc_ValueError,
- "Missing transition rules in TZ string: %R",
- tz_str_obj);
- goto error;
- }
- p++;
- if (parse_transition_rule(&p, transitions[i])) {
- PyErr_Format(PyExc_ValueError,
- "Malformed transition rule in TZ string: %R",
- tz_str_obj);
- goto error;
- }
- }
- if (*p != '\0') {
- PyErr_Format(PyExc_ValueError,
- "Extraneous characters at end of TZ string: %R",
- tz_str_obj);
- goto error;
- }
- complete:
- build_tzrule(state, std_abbr, dst_abbr, std_offset, dst_offset,
- start, end, out);
- Py_DECREF(std_abbr);
- Py_XDECREF(dst_abbr);
- return 0;
- error:
- Py_XDECREF(std_abbr);
- if (dst_abbr != NULL && dst_abbr != Py_None) {
- Py_DECREF(dst_abbr);
- }
- if (start != NULL) {
- PyMem_Free(start);
- }
- if (end != NULL) {
- PyMem_Free(end);
- }
- return -1;
- }
- static int
- parse_digits(const char **p, int min, int max, int *value)
- {
- assert(max <= 3);
- *value = 0;
- for (int i = 0; i < max; i++, (*p)++) {
- if (!Py_ISDIGIT(**p)) {
- return (i < min) ? -1 : 0;
- }
- *value *= 10;
- *value += (**p) - '0';
- }
- return 0;
- }
- /* Parse the STD and DST abbreviations from a TZ string. */
- static int
- parse_abbr(const char **p, PyObject **abbr)
- {
- const char *ptr = *p;
- const char *str_start;
- const char *str_end;
- if (*ptr == '<') {
- char buff;
- ptr++;
- str_start = ptr;
- while ((buff = *ptr) != '>') {
- // From the POSIX standard:
- //
- // In the quoted form, the first character shall be the less-than
- // ( '<' ) character and the last character shall be the
- // greater-than ( '>' ) character. All characters between these
- // quoting characters shall be alphanumeric characters from the
- // portable character set in the current locale, the plus-sign (
- // '+' ) character, or the minus-sign ( '-' ) character. The std
- // and dst fields in this case shall not include the quoting
- // characters.
- if (!isalpha(buff) && !isdigit(buff) && buff != '+' &&
- buff != '-') {
- return -1;
- }
- ptr++;
- }
- str_end = ptr;
- ptr++;
- }
- else {
- str_start = ptr;
- // From the POSIX standard:
- //
- // In the unquoted form, all characters in these fields shall be
- // alphabetic characters from the portable character set in the
- // current locale.
- while (isalpha(*ptr)) {
- ptr++;
- }
- str_end = ptr;
- if (str_end == str_start) {
- return -1;
- }
- }
- *abbr = PyUnicode_FromStringAndSize(str_start, str_end - str_start);
- if (*abbr == NULL) {
- return -1;
- }
- *p = ptr;
- return 0;
- }
- /* Parse a UTC offset from a TZ str. */
- static int
- parse_tz_delta(const char **p, long *total_seconds)
- {
- // From the POSIX spec:
- //
- // Indicates the value added to the local time to arrive at Coordinated
- // Universal Time. The offset has the form:
- //
- // hh[:mm[:ss]]
- //
- // One or more digits may be used; the value is always interpreted as a
- // decimal number.
- //
- // The POSIX spec says that the values for `hour` must be between 0 and 24
- // hours, but RFC 8536 §3.3.1 specifies that the hours part of the
- // transition times may be signed and range from -167 to 167.
- int hours = 0;
- int minutes = 0;
- int seconds = 0;
- if (parse_transition_time(p, &hours, &minutes, &seconds)) {
- return -1;
- }
- if (hours > 24 || hours < -24) {
- return -1;
- }
- // Negative numbers correspond to *positive* offsets, from the spec:
- //
- // If preceded by a '-', the timezone shall be east of the Prime
- // Meridian; otherwise, it shall be west (which may be indicated by
- // an optional preceding '+' ).
- *total_seconds = -((hours * 3600L) + (minutes * 60) + seconds);
- return 0;
- }
- /* Parse the date portion of a transition rule. */
- static int
- parse_transition_rule(const char **p, TransitionRuleType **out)
- {
- // The full transition rule indicates when to change back and forth between
- // STD and DST, and has the form:
- //
- // date[/time],date[/time]
- //
- // This function parses an individual date[/time] section, and returns
- // the number of characters that contributed to the transition rule. This
- // does not include the ',' at the end of the first rule.
- //
- // The POSIX spec states that if *time* is not given, the default is 02:00.
- const char *ptr = *p;
- int hour = 2;
- int minute = 0;
- int second = 0;
- // Rules come in one of three flavors:
- //
- // 1. Jn: Julian day n, with no leap days.
- // 2. n: Day of year (0-based, with leap days)
- // 3. Mm.n.d: Specifying by month, week and day-of-week.
- if (*ptr == 'M') {
- int month, week, day;
- ptr++;
- if (parse_digits(&ptr, 1, 2, &month)) {
- return -1;
- }
- if (*ptr++ != '.') {
- return -1;
- }
- if (parse_digits(&ptr, 1, 1, &week)) {
- return -1;
- }
- if (*ptr++ != '.') {
- return -1;
- }
- if (parse_digits(&ptr, 1, 1, &day)) {
- return -1;
- }
- if (*ptr == '/') {
- ptr++;
- if (parse_transition_time(&ptr, &hour, &minute, &second)) {
- return -1;
- }
- }
- CalendarRule *rv = PyMem_Calloc(1, sizeof(CalendarRule));
- if (rv == NULL) {
- return -1;
- }
- if (calendarrule_new(month, week, day, hour, minute, second, rv)) {
- PyMem_Free(rv);
- return -1;
- }
- *out = (TransitionRuleType *)rv;
- }
- else {
- int julian = 0;
- int day = 0;
- if (*ptr == 'J') {
- julian = 1;
- ptr++;
- }
- if (parse_digits(&ptr, 1, 3, &day)) {
- return -1;
- }
- if (*ptr == '/') {
- ptr++;
- if (parse_transition_time(&ptr, &hour, &minute, &second)) {
- return -1;
- }
- }
- DayRule *rv = PyMem_Calloc(1, sizeof(DayRule));
- if (rv == NULL) {
- return -1;
- }
- if (dayrule_new(julian, day, hour, minute, second, rv)) {
- PyMem_Free(rv);
- return -1;
- }
- *out = (TransitionRuleType *)rv;
- }
- *p = ptr;
- return 0;
- }
- /* Parse the time portion of a transition rule (e.g. following an /) */
- static int
- parse_transition_time(const char **p, int *hour, int *minute, int *second)
- {
- // From the spec:
- //
- // The time has the same format as offset except that no leading sign
- // ( '-' or '+' ) is allowed.
- //
- // The format for the offset is:
- //
- // h[h][:mm[:ss]]
- //
- // RFC 8536 also allows transition times to be signed and to range from
- // -167 to +167.
- const char *ptr = *p;
- int sign = 1;
- if (*ptr == '-' || *ptr == '+') {
- if (*ptr == '-') {
- sign = -1;
- }
- ptr++;
- }
- // The hour can be 1 to 3 numeric characters
- if (parse_digits(&ptr, 1, 3, hour)) {
- return -1;
- }
- *hour *= sign;
- // Minutes and seconds always of the format ":dd"
- if (*ptr == ':') {
- ptr++;
- if (parse_digits(&ptr, 2, 2, minute)) {
- return -1;
- }
- *minute *= sign;
- if (*ptr == ':') {
- ptr++;
- if (parse_digits(&ptr, 2, 2, second)) {
- return -1;
- }
- *second *= sign;
- }
- }
- *p = ptr;
- return 0;
- }
- /* Constructor for a _tzrule.
- *
- * If `dst_abbr` is NULL, this will construct an "STD-only" _tzrule, in which
- * case `dst_offset` will be ignored and `start` and `end` are expected to be
- * NULL as well.
- *
- * Returns 0 on success.
- */
- static int
- build_tzrule(zoneinfo_state *state, PyObject *std_abbr, PyObject *dst_abbr,
- long std_offset, long dst_offset, TransitionRuleType *start,
- TransitionRuleType *end, _tzrule *out)
- {
- _tzrule rv = {{0}};
- rv.start = start;
- rv.end = end;
- if (build_ttinfo(state, std_offset, 0, std_abbr, &rv.std)) {
- goto error;
- }
- if (dst_abbr != NULL) {
- rv.dst_diff = dst_offset - std_offset;
- if (build_ttinfo(state, dst_offset, rv.dst_diff, dst_abbr, &rv.dst)) {
- goto error;
- }
- }
- else {
- rv.std_only = 1;
- }
- *out = rv;
- return 0;
- error:
- xdecref_ttinfo(&rv.std);
- xdecref_ttinfo(&rv.dst);
- return -1;
- }
- /* Destructor for _tzrule. */
- static void
- free_tzrule(_tzrule *tzrule)
- {
- xdecref_ttinfo(&(tzrule->std));
- if (!tzrule->std_only) {
- xdecref_ttinfo(&(tzrule->dst));
- }
- if (tzrule->start != NULL) {
- PyMem_Free(tzrule->start);
- }
- if (tzrule->end != NULL) {
- PyMem_Free(tzrule->end);
- }
- }
- /* Calculate DST offsets from transitions and UTC offsets
- *
- * This is necessary because each C `ttinfo` only contains the UTC offset,
- * time zone abbreviation and an isdst boolean - it does not include the
- * amount of the DST offset, but we need the amount for the dst() function.
- *
- * Thus function uses heuristics to infer what the offset should be, so it
- * is not guaranteed that this will work for all zones. If we cannot assign
- * a value for a given DST offset, we'll assume it's 1H rather than 0H, so
- * bool(dt.dst()) will always match ttinfo.isdst.
- */
- static void
- utcoff_to_dstoff(size_t *trans_idx, long *utcoffs, long *dstoffs,
- unsigned char *isdsts, size_t num_transitions,
- size_t num_ttinfos)
- {
- size_t dst_count = 0;
- size_t dst_found = 0;
- for (size_t i = 0; i < num_ttinfos; ++i) {
- dst_count++;
- }
- for (size_t i = 1; i < num_transitions; ++i) {
- if (dst_count == dst_found) {
- break;
- }
- size_t idx = trans_idx[i];
- size_t comp_idx = trans_idx[i - 1];
- // Only look at DST offsets that have nto been assigned already
- if (!isdsts[idx] || dstoffs[idx] != 0) {
- continue;
- }
- long dstoff = 0;
- long utcoff = utcoffs[idx];
- if (!isdsts[comp_idx]) {
- dstoff = utcoff - utcoffs[comp_idx];
- }
- if (!dstoff && idx < (num_ttinfos - 1)) {
- comp_idx = trans_idx[i + 1];
- // If the following transition is also DST and we couldn't find
- // the DST offset by this point, we're going to have to skip it
- // and hope this transition gets assigned later
- if (isdsts[comp_idx]) {
- continue;
- }
- dstoff = utcoff - utcoffs[comp_idx];
- }
- if (dstoff) {
- dst_found++;
- dstoffs[idx] = dstoff;
- }
- }
- if (dst_found < dst_count) {
- // If there are time zones we didn't find a value for, we'll end up
- // with dstoff = 0 for something where isdst=1. This is obviously
- // wrong — one hour will be a much better guess than 0.
- for (size_t idx = 0; idx < num_ttinfos; ++idx) {
- if (isdsts[idx] && !dstoffs[idx]) {
- dstoffs[idx] = 3600;
- }
- }
- }
- }
- #define _swap(x, y, buffer) \
- buffer = x; \
- x = y; \
- y = buffer;
- /* Calculate transitions in local time from UTC time and offsets.
- *
- * We want to know when each transition occurs, denominated in the number of
- * nominal wall-time seconds between 1970-01-01T00:00:00 and the transition in
- * *local time* (note: this is *not* equivalent to the output of
- * datetime.timestamp, which is the total number of seconds actual elapsed
- * since 1970-01-01T00:00:00Z in UTC).
- *
- * This is an ambiguous question because "local time" can be ambiguous — but it
- * is disambiguated by the `fold` parameter, so we allocate two arrays:
- *
- * trans_local[0]: The wall-time transitions for fold=0
- * trans_local[1]: The wall-time transitions for fold=1
- *
- * This returns 0 on success and a negative number of failure. The trans_local
- * arrays must be freed if they are not NULL.
- */
- static int
- ts_to_local(size_t *trans_idx, int64_t *trans_utc, long *utcoff,
- int64_t *trans_local[2], size_t num_ttinfos,
- size_t num_transitions)
- {
- if (num_transitions == 0) {
- return 0;
- }
- // Copy the UTC transitions into each array to be modified in place later
- for (size_t i = 0; i < 2; ++i) {
- trans_local[i] = PyMem_Malloc(num_transitions * sizeof(int64_t));
- if (trans_local[i] == NULL) {
- return -1;
- }
- memcpy(trans_local[i], trans_utc, num_transitions * sizeof(int64_t));
- }
- int64_t offset_0, offset_1, buff;
- if (num_ttinfos > 1) {
- offset_0 = utcoff[0];
- offset_1 = utcoff[trans_idx[0]];
- if (offset_1 > offset_0) {
- _swap(offset_0, offset_1, buff);
- }
- }
- else {
- offset_0 = utcoff[0];
- offset_1 = utcoff[0];
- }
- trans_local[0][0] += offset_0;
- trans_local[1][0] += offset_1;
- for (size_t i = 1; i < num_transitions; ++i) {
- offset_0 = utcoff[trans_idx[i - 1]];
- offset_1 = utcoff[trans_idx[i]];
- if (offset_1 > offset_0) {
- _swap(offset_1, offset_0, buff);
- }
- trans_local[0][i] += offset_0;
- trans_local[1][i] += offset_1;
- }
- return 0;
- }
- /* Simple bisect_right binary search implementation */
- static size_t
- _bisect(const int64_t value, const int64_t *arr, size_t size)
- {
- size_t lo = 0;
- size_t hi = size;
- size_t m;
- while (lo < hi) {
- m = (lo + hi) / 2;
- if (arr[m] > value) {
- hi = m;
- }
- else {
- lo = m + 1;
- }
- }
- return hi;
- }
- /* Find the ttinfo rules that apply at a given local datetime. */
- static _ttinfo *
- find_ttinfo(zoneinfo_state *state, PyZoneInfo_ZoneInfo *self, PyObject *dt)
- {
- // datetime.time has a .tzinfo attribute that passes None as the dt
- // argument; it only really has meaning for fixed-offset zones.
- if (dt == Py_None) {
- if (self->fixed_offset) {
- return &(self->tzrule_after.std);
- }
- else {
- return &(state->NO_TTINFO);
- }
- }
- int64_t ts;
- if (get_local_timestamp(dt, &ts)) {
- return NULL;
- }
- unsigned char fold = PyDateTime_DATE_GET_FOLD(dt);
- assert(fold < 2);
- int64_t *local_transitions = self->trans_list_wall[fold];
- size_t num_trans = self->num_transitions;
- if (num_trans && ts < local_transitions[0]) {
- return self->ttinfo_before;
- }
- else if (!num_trans || ts > local_transitions[self->num_transitions - 1]) {
- return find_tzrule_ttinfo(&(self->tzrule_after), ts, fold,
- PyDateTime_GET_YEAR(dt));
- }
- else {
- size_t idx = _bisect(ts, local_transitions, self->num_transitions) - 1;
- assert(idx < self->num_transitions);
- return self->trans_ttinfos[idx];
- }
- }
- static int
- is_leap_year(int year)
- {
- const unsigned int ayear = (unsigned int)year;
- return ayear % 4 == 0 && (ayear % 100 != 0 || ayear % 400 == 0);
- }
- /* Calculates ordinal datetime from year, month and day. */
- static int
- ymd_to_ord(int y, int m, int d)
- {
- y -= 1;
- int days_before_year = (y * 365) + (y / 4) - (y / 100) + (y / 400);
- int yearday = DAYS_BEFORE_MONTH[m];
- if (m > 2 && is_leap_year(y + 1)) {
- yearday += 1;
- }
- return days_before_year + yearday + d;
- }
- /* Calculate the number of seconds since 1970-01-01 in local time.
- *
- * This gets a datetime in the same "units" as self->trans_list_wall so that we
- * can easily determine which transitions a datetime falls between. See the
- * comment above ts_to_local for more information.
- * */
- static int
- get_local_timestamp(PyObject *dt, int64_t *local_ts)
- {
- assert(local_ts != NULL);
- int hour, minute, second;
- int ord;
- if (PyDateTime_CheckExact(dt)) {
- int y = PyDateTime_GET_YEAR(dt);
- int m = PyDateTime_GET_MONTH(dt);
- int d = PyDateTime_GET_DAY(dt);
- hour = PyDateTime_DATE_GET_HOUR(dt);
- minute = PyDateTime_DATE_GET_MINUTE(dt);
- second = PyDateTime_DATE_GET_SECOND(dt);
- ord = ymd_to_ord(y, m, d);
- }
- else {
- PyObject *num = PyObject_CallMethod(dt, "toordinal", NULL);
- if (num == NULL) {
- return -1;
- }
- ord = PyLong_AsLong(num);
- Py_DECREF(num);
- if (ord == -1 && PyErr_Occurred()) {
- return -1;
- }
- num = PyObject_GetAttrString(dt, "hour");
- if (num == NULL) {
- return -1;
- }
- hour = PyLong_AsLong(num);
- Py_DECREF(num);
- if (hour == -1) {
- return -1;
- }
- num = PyObject_GetAttrString(dt, "minute");
- if (num == NULL) {
- return -1;
- }
- minute = PyLong_AsLong(num);
- Py_DECREF(num);
- if (minute == -1) {
- return -1;
- }
- num = PyObject_GetAttrString(dt, "second");
- if (num == NULL) {
- return -1;
- }
- second = PyLong_AsLong(num);
- Py_DECREF(num);
- if (second == -1) {
- return -1;
- }
- }
- *local_ts = (int64_t)(ord - EPOCHORDINAL) * 86400L +
- (int64_t)(hour * 3600L + minute * 60 + second);
- return 0;
- }
- /////
- // Functions for cache handling
- /* Constructor for StrongCacheNode */
- static StrongCacheNode *
- strong_cache_node_new(PyObject *key, PyObject *zone)
- {
- StrongCacheNode *node = PyMem_Malloc(sizeof(StrongCacheNode));
- if (node == NULL) {
- return NULL;
- }
- node->next = NULL;
- node->prev = NULL;
- node->key = Py_NewRef(key);
- node->zone = Py_NewRef(zone);
- return node;
- }
- /* Destructor for StrongCacheNode */
- void
- strong_cache_node_free(StrongCacheNode *node)
- {
- Py_XDECREF(node->key);
- Py_XDECREF(node->zone);
- PyMem_Free(node);
- }
- /* Frees all nodes at or after a specified root in the strong cache.
- *
- * This can be used on the root node to free the entire cache or it can be used
- * to clear all nodes that have been expired (which, if everything is going
- * right, will actually only be 1 node at a time).
- */
- void
- strong_cache_free(StrongCacheNode *root)
- {
- StrongCacheNode *node = root;
- StrongCacheNode *next_node;
- while (node != NULL) {
- next_node = node->next;
- strong_cache_node_free(node);
- node = next_node;
- }
- }
- /* Removes a node from the cache and update its neighbors.
- *
- * This is used both when ejecting a node from the cache and when moving it to
- * the front of the cache.
- */
- static void
- remove_from_strong_cache(zoneinfo_state *state, StrongCacheNode *node)
- {
- if (state->ZONEINFO_STRONG_CACHE == node) {
- state->ZONEINFO_STRONG_CACHE = node->next;
- }
- if (node->prev != NULL) {
- node->prev->next = node->next;
- }
- if (node->next != NULL) {
- node->next->prev = node->prev;
- }
- node->next = NULL;
- node->prev = NULL;
- }
- /* Retrieves the node associated with a key, if it exists.
- *
- * This traverses the strong cache until it finds a matching key and returns a
- * pointer to the relevant node if found. Returns NULL if no node is found.
- *
- * root may be NULL, indicating an empty cache.
- */
- static StrongCacheNode *
- find_in_strong_cache(const StrongCacheNode *const root, PyObject *const key)
- {
- const StrongCacheNode *node = root;
- while (node != NULL) {
- int rv = PyObject_RichCompareBool(key, node->key, Py_EQ);
- if (rv < 0) {
- return NULL;
- }
- if (rv) {
- return (StrongCacheNode *)node;
- }
- node = node->next;
- }
- return NULL;
- }
- /* Ejects a given key from the class's strong cache, if applicable.
- *
- * This function is used to enable the per-key functionality in clear_cache.
- */
- static int
- eject_from_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *key)
- {
- if (type != state->ZoneInfoType) {
- return 0;
- }
- StrongCacheNode *cache = state->ZONEINFO_STRONG_CACHE;
- StrongCacheNode *node = find_in_strong_cache(cache, key);
- if (node != NULL) {
- remove_from_strong_cache(state, node);
- strong_cache_node_free(node);
- }
- else if (PyErr_Occurred()) {
- return -1;
- }
- return 0;
- }
- /* Moves a node to the front of the LRU cache.
- *
- * The strong cache is an LRU cache, so whenever a given node is accessed, if
- * it is not at the front of the cache, it needs to be moved there.
- */
- static void
- move_strong_cache_node_to_front(zoneinfo_state *state, StrongCacheNode **root,
- StrongCacheNode *node)
- {
- StrongCacheNode *root_p = *root;
- if (root_p == node) {
- return;
- }
- remove_from_strong_cache(state, node);
- node->prev = NULL;
- node->next = root_p;
- if (root_p != NULL) {
- root_p->prev = node;
- }
- *root = node;
- }
- /* Retrieves a ZoneInfo from the strong cache if it's present.
- *
- * This function finds the ZoneInfo by key and if found will move the node to
- * the front of the LRU cache and return a new reference to it. It returns NULL
- * if the key is not in the cache.
- *
- * The strong cache is currently only implemented for the base class, so this
- * always returns a cache miss for subclasses.
- */
- static PyObject *
- zone_from_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *const key)
- {
- if (type != state->ZoneInfoType) {
- return NULL; // Strong cache currently only implemented for base class
- }
- StrongCacheNode *cache = state->ZONEINFO_STRONG_CACHE;
- StrongCacheNode *node = find_in_strong_cache(cache, key);
- if (node != NULL) {
- StrongCacheNode **root = &(state->ZONEINFO_STRONG_CACHE);
- move_strong_cache_node_to_front(state, root, node);
- return Py_NewRef(node->zone);
- }
- return NULL; // Cache miss
- }
- /* Inserts a new key into the strong LRU cache.
- *
- * This function is only to be used after a cache miss — it creates a new node
- * at the front of the cache and ejects any stale entries (keeping the size of
- * the cache to at most ZONEINFO_STRONG_CACHE_MAX_SIZE).
- */
- static void
- update_strong_cache(zoneinfo_state *state, const PyTypeObject *const type,
- PyObject *key, PyObject *zone)
- {
- if (type != state->ZoneInfoType) {
- return;
- }
- StrongCacheNode *new_node = strong_cache_node_new(key, zone);
- StrongCacheNode **root = &(state->ZONEINFO_STRONG_CACHE);
- move_strong_cache_node_to_front(state, root, new_node);
- StrongCacheNode *node = new_node->next;
- for (size_t i = 1; i < ZONEINFO_STRONG_CACHE_MAX_SIZE; ++i) {
- if (node == NULL) {
- return;
- }
- node = node->next;
- }
- // Everything beyond this point needs to be freed
- if (node != NULL) {
- if (node->prev != NULL) {
- node->prev->next = NULL;
- }
- strong_cache_free(node);
- }
- }
- /* Clears all entries into a type's strong cache.
- *
- * Because the strong cache is not implemented for subclasses, this is a no-op
- * for everything except the base class.
- */
- void
- clear_strong_cache(zoneinfo_state *state, const PyTypeObject *const type)
- {
- if (type != state->ZoneInfoType) {
- return;
- }
- strong_cache_free(state->ZONEINFO_STRONG_CACHE);
- state->ZONEINFO_STRONG_CACHE = NULL;
- }
- static PyObject *
- new_weak_cache(void)
- {
- PyObject *WeakValueDictionary =
- _PyImport_GetModuleAttrString("weakref", "WeakValueDictionary");
- if (WeakValueDictionary == NULL) {
- return NULL;
- }
- PyObject *weak_cache = PyObject_CallNoArgs(WeakValueDictionary);
- Py_DECREF(WeakValueDictionary);
- return weak_cache;
- }
- // This function is not idempotent and must be called on a new module object.
- static int
- initialize_caches(zoneinfo_state *state)
- {
- state->TIMEDELTA_CACHE = PyDict_New();
- if (state->TIMEDELTA_CACHE == NULL) {
- return -1;
- }
- state->ZONEINFO_WEAK_CACHE = new_weak_cache();
- if (state->ZONEINFO_WEAK_CACHE == NULL) {
- return -1;
- }
- return 0;
- }
- static PyObject *
- zoneinfo_init_subclass(PyTypeObject *cls, PyObject *args, PyObject **kwargs)
- {
- PyObject *weak_cache = new_weak_cache();
- if (weak_cache == NULL) {
- return NULL;
- }
- if (PyObject_SetAttrString((PyObject *)cls, "_weak_cache",
- weak_cache) < 0) {
- Py_DECREF(weak_cache);
- return NULL;
- }
- Py_DECREF(weak_cache);
- Py_RETURN_NONE;
- }
- /////
- // Specify the ZoneInfo type
- static PyMethodDef zoneinfo_methods[] = {
- ZONEINFO_ZONEINFO_CLEAR_CACHE_METHODDEF
- ZONEINFO_ZONEINFO_NO_CACHE_METHODDEF
- ZONEINFO_ZONEINFO_FROM_FILE_METHODDEF
- ZONEINFO_ZONEINFO_UTCOFFSET_METHODDEF
- ZONEINFO_ZONEINFO_DST_METHODDEF
- ZONEINFO_ZONEINFO_TZNAME_METHODDEF
- {"fromutc", (PyCFunction)zoneinfo_fromutc, METH_O,
- PyDoc_STR("Given a datetime with local time in UTC, retrieve an adjusted "
- "datetime in local time.")},
- {"__reduce__", (PyCFunction)zoneinfo_reduce, METH_NOARGS,
- PyDoc_STR("Function for serialization with the pickle protocol.")},
- ZONEINFO_ZONEINFO__UNPICKLE_METHODDEF
- {"__init_subclass__", (PyCFunction)(void (*)(void))zoneinfo_init_subclass,
- METH_VARARGS | METH_KEYWORDS | METH_CLASS,
- PyDoc_STR("Function to initialize subclasses.")},
- {NULL} /* Sentinel */
- };
- static PyMemberDef zoneinfo_members[] = {
- {.name = "key",
- .offset = offsetof(PyZoneInfo_ZoneInfo, key),
- .type = T_OBJECT_EX,
- .flags = READONLY,
- .doc = NULL},
- {.name = "__weaklistoffset__",
- .offset = offsetof(PyZoneInfo_ZoneInfo, weakreflist),
- .type = T_PYSSIZET,
- .flags = READONLY},
- {NULL}, /* Sentinel */
- };
- static PyType_Slot zoneinfo_slots[] = {
- {Py_tp_repr, zoneinfo_repr},
- {Py_tp_str, zoneinfo_str},
- {Py_tp_getattro, PyObject_GenericGetAttr},
- {Py_tp_methods, zoneinfo_methods},
- {Py_tp_members, zoneinfo_members},
- {Py_tp_new, zoneinfo_new},
- {Py_tp_dealloc, zoneinfo_dealloc},
- {Py_tp_traverse, zoneinfo_traverse},
- {Py_tp_clear, zoneinfo_clear},
- {0, NULL},
- };
- static PyType_Spec zoneinfo_spec = {
- .name = "zoneinfo.ZoneInfo",
- .basicsize = sizeof(PyZoneInfo_ZoneInfo),
- .flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE |
- Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_IMMUTABLETYPE),
- .slots = zoneinfo_slots,
- };
- /////
- // Specify the _zoneinfo module
- static PyMethodDef module_methods[] = {{NULL, NULL}};
- static int
- module_traverse(PyObject *mod, visitproc visit, void *arg)
- {
- zoneinfo_state *state = zoneinfo_get_state(mod);
- Py_VISIT(state->ZoneInfoType);
- Py_VISIT(state->io_open);
- Py_VISIT(state->_tzpath_find_tzfile);
- Py_VISIT(state->_common_mod);
- Py_VISIT(state->TIMEDELTA_CACHE);
- Py_VISIT(state->ZONEINFO_WEAK_CACHE);
- StrongCacheNode *node = state->ZONEINFO_STRONG_CACHE;
- while (node != NULL) {
- StrongCacheNode *next = node->next;
- Py_VISIT(node->key);
- Py_VISIT(node->zone);
- node = next;
- }
- Py_VISIT(state->NO_TTINFO.utcoff);
- Py_VISIT(state->NO_TTINFO.dstoff);
- Py_VISIT(state->NO_TTINFO.tzname);
- return 0;
- }
- static int
- module_clear(PyObject *mod)
- {
- zoneinfo_state *state = zoneinfo_get_state(mod);
- Py_CLEAR(state->ZoneInfoType);
- Py_CLEAR(state->io_open);
- Py_CLEAR(state->_tzpath_find_tzfile);
- Py_CLEAR(state->_common_mod);
- Py_CLEAR(state->TIMEDELTA_CACHE);
- Py_CLEAR(state->ZONEINFO_WEAK_CACHE);
- clear_strong_cache(state, state->ZoneInfoType);
- Py_CLEAR(state->NO_TTINFO.utcoff);
- Py_CLEAR(state->NO_TTINFO.dstoff);
- Py_CLEAR(state->NO_TTINFO.tzname);
- return 0;
- }
- static void
- module_free(void *mod)
- {
- (void)module_clear((PyObject *)mod);
- }
- static int
- zoneinfomodule_exec(PyObject *m)
- {
- PyDateTime_IMPORT;
- if (PyDateTimeAPI == NULL) {
- goto error;
- }
- zoneinfo_state *state = zoneinfo_get_state(m);
- PyObject *base = (PyObject *)PyDateTimeAPI->TZInfoType;
- state->ZoneInfoType = (PyTypeObject *)PyType_FromModuleAndSpec(m,
- &zoneinfo_spec, base);
- if (state->ZoneInfoType == NULL) {
- goto error;
- }
- int rc = PyModule_AddObjectRef(m, "ZoneInfo",
- (PyObject *)state->ZoneInfoType);
- if (rc < 0) {
- goto error;
- }
- /* Populate imports */
- state->_tzpath_find_tzfile =
- _PyImport_GetModuleAttrString("zoneinfo._tzpath", "find_tzfile");
- if (state->_tzpath_find_tzfile == NULL) {
- goto error;
- }
- state->io_open = _PyImport_GetModuleAttrString("io", "open");
- if (state->io_open == NULL) {
- goto error;
- }
- state->_common_mod = PyImport_ImportModule("zoneinfo._common");
- if (state->_common_mod == NULL) {
- goto error;
- }
- if (state->NO_TTINFO.utcoff == NULL) {
- state->NO_TTINFO.utcoff = Py_NewRef(Py_None);
- state->NO_TTINFO.dstoff = Py_NewRef(Py_None);
- state->NO_TTINFO.tzname = Py_NewRef(Py_None);
- }
- if (initialize_caches(state)) {
- goto error;
- }
- return 0;
- error:
- return -1;
- }
- static PyModuleDef_Slot zoneinfomodule_slots[] = {
- {Py_mod_exec, zoneinfomodule_exec},
- {Py_mod_multiple_interpreters, Py_MOD_PER_INTERPRETER_GIL_SUPPORTED},
- {0, NULL},
- };
- static struct PyModuleDef zoneinfomodule = {
- .m_base = PyModuleDef_HEAD_INIT,
- .m_name = "_zoneinfo",
- .m_doc = "C implementation of the zoneinfo module",
- .m_size = sizeof(zoneinfo_state),
- .m_methods = module_methods,
- .m_slots = zoneinfomodule_slots,
- .m_traverse = module_traverse,
- .m_clear = module_clear,
- .m_free = module_free,
- };
- PyMODINIT_FUNC
- PyInit__zoneinfo(void)
- {
- return PyModuleDef_Init(&zoneinfomodule);
- }
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