from rpython.rtyper.lltypesystem import rffi, lltype from rpython.rtyper.annlowlevel import llhelper from rpython.rlib.rarithmetic import widen from pypy.module.cpyext.pyobject import (PyObject, make_ref, make_typedescr, decref, as_pyobj, incref) from pypy.module.cpyext.api import (cpython_api, CANNOT_FAIL, cpython_struct, PyObjectFields, cts, parse_dir, bootstrap_function, slot_function, Py_TPFLAGS_HEAPTYPE) from pypy.module.cpyext.import_ import PyImport_Import from pypy.module.cpyext.typeobject import PyTypeObjectPtr from pypy.interpreter.error import OperationError from pypy.module.__pypy__.interp_pypydatetime import (W_DateTime_Date, W_DateTime_Time, W_DateTime_Delta) from rpython.tool.sourcetools import func_renamer from pypy.module.cpyext.state import State cts.parse_header(parse_dir / 'cpyext_datetime.h') PyDateTime_CAPI = cts.gettype('PyDateTime_CAPI') @cpython_api([], lltype.Ptr(PyDateTime_CAPI)) def _PyDateTime_Import(space): state = space.fromcache(State) if len(state.datetimeAPI) > 0: return state.datetimeAPI[0] datetimeAPI = lltype.malloc(PyDateTime_CAPI, flavor='raw', track_allocation=False) w_datetime = PyImport_Import(space, space.newtext("datetime")) w_type = space.getattr(w_datetime, space.newtext("date")) datetimeAPI.c_DateType = rffi.cast( PyTypeObjectPtr, make_ref(space, w_type)) # convenient place to modify this, needed since the make_typedescr attach # links the "wrong" struct to W_DateTime_Date, which in turn is needed # because datetime, with a tzinfo entry, inherits from date, without one datetimeAPI.c_DateType.c_tp_basicsize = rffi.sizeof(PyObject.TO) w_type = space.getattr(w_datetime, space.newtext("datetime")) datetimeAPI.c_DateTimeType = rffi.cast( PyTypeObjectPtr, make_ref(space, w_type)) w_type = space.getattr(w_datetime, space.newtext("time")) datetimeAPI.c_TimeType = rffi.cast( PyTypeObjectPtr, make_ref(space, w_type)) w_type = space.getattr(w_datetime, space.newtext("timedelta")) datetimeAPI.c_DeltaType = rffi.cast( PyTypeObjectPtr, make_ref(space, w_type)) w_type = space.getattr(w_datetime, space.newtext("tzinfo")) datetimeAPI.c_TZInfoType = rffi.cast( PyTypeObjectPtr, make_ref(space, w_type)) datetimeAPI.c_Date_FromDate = llhelper( _PyDate_FromDate.api_func.functype, _PyDate_FromDate.api_func.get_wrapper(space)) datetimeAPI.c_Time_FromTime = llhelper( _PyTime_FromTime.api_func.functype, _PyTime_FromTime.api_func.get_wrapper(space)) datetimeAPI.c_DateTime_FromDateAndTime = llhelper( _PyDateTime_FromDateAndTime.api_func.functype, _PyDateTime_FromDateAndTime.api_func.get_wrapper(space)) datetimeAPI.c_Delta_FromDelta = llhelper( _PyDelta_FromDelta.api_func.functype, _PyDelta_FromDelta.api_func.get_wrapper(space)) state.datetimeAPI.append(datetimeAPI) return state.datetimeAPI[0] PyDateTime_Time = cts.gettype('PyDateTime_Time*') PyDateTime_DateTime = cts.gettype('PyDateTime_DateTime*') PyDateTime_Date = cts.gettype('PyDateTime_Date*') PyDateTime_Delta = cts.gettype('PyDateTime_Delta*') # Check functions def make_check_function(func_name, type_name): @cpython_api([PyObject], rffi.INT_real, error=CANNOT_FAIL) @func_renamer(func_name) def check(space, w_obj): try: return space.is_true( space.appexec([w_obj], """(obj): from datetime import %s as datatype return isinstance(obj, datatype) """ % (type_name,))) except OperationError: return 0 @cpython_api([PyObject], rffi.INT_real, error=CANNOT_FAIL) @func_renamer(func_name + "Exact") def check_exact(space, w_obj): try: return space.is_true( space.appexec([w_obj], """(obj): from datetime import %s as datatype return type(obj) is datatype """ % (type_name,))) except OperationError: return 0 return check, check_exact PyDateTime_Check, PyDateTime_CheckExact = make_check_function( "PyDateTime_Check", "datetime") PyDate_Check, PyDate_CheckExact = make_check_function("PyDate_Check", "date") PyTime_Check, PyTime_CheckExact = make_check_function("PyTime_Check", "time") PyDelta_Check, PyDelta_CheckExact = make_check_function( "PyDelta_Check", "timedelta") PyTZInfo_Check, PyTZInfo_CheckExact = make_check_function( "PyTZInfo_Check", "tzinfo") @bootstrap_function def init_datetime(space): # no realize functions since there are no getters make_typedescr(W_DateTime_Time.typedef, basestruct=PyDateTime_Time.TO, attach=type_attach, dealloc=type_dealloc, ) make_typedescr(W_DateTime_Date.typedef, basestruct=PyDateTime_DateTime.TO, attach=type_attach, dealloc=type_dealloc, ) make_typedescr(W_DateTime_Delta.typedef, basestruct=PyDateTime_Delta.TO, attach=timedeltatype_attach, ) def type_attach(space, py_obj, w_obj, w_userdata=None): '''Fills a newly allocated py_obj from the w_obj If it is a datetime.time or datetime.datetime, it may have tzinfo ''' state = space.fromcache(State) if len(state.datetimeAPI) ==0: # can happen in subclassing _PyDateTime_Import(space) if state.datetimeAPI[0].c_TimeType == py_obj.c_ob_type: py_datetime = rffi.cast(PyDateTime_Time, py_obj) w_tzinfo = space.getattr(w_obj, space.newtext('tzinfo')) if space.is_none(w_tzinfo): py_datetime.c_hastzinfo = cts.cast('unsigned char', 0) py_datetime.c_tzinfo = lltype.nullptr(PyObject.TO) else: py_datetime.c_hastzinfo = cts.cast('unsigned char', 1) py_datetime.c_tzinfo = make_ref(space, w_tzinfo) elif state.datetimeAPI[0].c_DateTimeType == py_obj.c_ob_type: # For now this is exactly the same structure as PyDateTime_Time py_datetime = rffi.cast(PyDateTime_DateTime, py_obj) w_tzinfo = space.getattr(w_obj, space.newtext('tzinfo')) if space.is_none(w_tzinfo): py_datetime.c_hastzinfo = cts.cast('unsigned char', 0) py_datetime.c_tzinfo = lltype.nullptr(PyObject.TO) else: py_datetime.c_hastzinfo = cts.cast('unsigned char', 1) py_datetime.c_tzinfo = make_ref(space, w_tzinfo) @slot_function([PyObject], lltype.Void) def type_dealloc(space, py_obj): from pypy.module.cpyext.object import _dealloc state = space.fromcache(State) # cannot raise here, so just crash assert len(state.datetimeAPI) > 0 if state.datetimeAPI[0].c_TimeType == py_obj.c_ob_type: py_datetime = rffi.cast(PyDateTime_Time, py_obj) if (widen(py_datetime.c_hastzinfo) != 0): decref(space, py_datetime.c_tzinfo) elif state.datetimeAPI[0].c_DateTimeType == py_obj.c_ob_type: py_datetime = rffi.cast(PyDateTime_DateTime, py_obj) if (widen(py_datetime.c_hastzinfo) != 0): decref(space, py_datetime.c_tzinfo) _dealloc(space, py_obj) def timedeltatype_attach(space, py_obj, w_obj, w_userdata=None): "Fills a newly allocated py_obj from the w_obj" py_delta = rffi.cast(PyDateTime_Delta, py_obj) days = space.int_w(space.getattr(w_obj, space.newtext('days'))) py_delta.c_days = cts.cast('int', days) seconds = space.int_w(space.getattr(w_obj, space.newtext('seconds'))) py_delta.c_seconds = cts.cast('int', seconds) microseconds = space.int_w(space.getattr(w_obj, space.newtext('microseconds'))) py_delta.c_microseconds = cts.cast('int', microseconds) # Constructors. They are better used as macros. @cpython_api([rffi.INT_real, rffi.INT_real, rffi.INT_real, PyTypeObjectPtr], PyObject) def _PyDate_FromDate(space, year, month, day, w_type): """Return a datetime.date object with the specified year, month and day. """ year = rffi.cast(lltype.Signed, year) month = rffi.cast(lltype.Signed, month) day = rffi.cast(lltype.Signed, day) return space.call_function( w_type, space.newint(year), space.newint(month), space.newint(day)) @cpython_api([rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, PyObject, PyTypeObjectPtr], PyObject) def _PyTime_FromTime(space, hour, minute, second, usecond, w_tzinfo, w_type): """Return a ``datetime.time`` object with the specified hour, minute, second and microsecond.""" hour = rffi.cast(lltype.Signed, hour) minute = rffi.cast(lltype.Signed, minute) second = rffi.cast(lltype.Signed, second) usecond = rffi.cast(lltype.Signed, usecond) return space.call_function( w_type, space.newint(hour), space.newint(minute), space.newint(second), space.newint(usecond), w_tzinfo) @cpython_api([rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, PyObject, PyTypeObjectPtr], PyObject) def _PyDateTime_FromDateAndTime(space, year, month, day, hour, minute, second, usecond, w_tzinfo, w_type): """Return a datetime.datetime object with the specified year, month, day, hour, minute, second and microsecond. """ year = rffi.cast(lltype.Signed, year) month = rffi.cast(lltype.Signed, month) day = rffi.cast(lltype.Signed, day) hour = rffi.cast(lltype.Signed, hour) minute = rffi.cast(lltype.Signed, minute) second = rffi.cast(lltype.Signed, second) usecond = rffi.cast(lltype.Signed, usecond) return space.call_function( w_type, space.newint(year), space.newint(month), space.newint(day), space.newint(hour), space.newint(minute), space.newint(second), space.newint(usecond), w_tzinfo) @cpython_api([PyObject], PyObject) def PyDateTime_FromTimestamp(space, w_args): """Create and return a new datetime.datetime object given an argument tuple suitable for passing to datetime.datetime.fromtimestamp(). """ w_datetime = PyImport_Import(space, space.newtext("datetime")) w_type = space.getattr(w_datetime, space.newtext("datetime")) w_method = space.getattr(w_type, space.newtext("fromtimestamp")) return space.call(w_method, w_args) @cpython_api([PyObject], PyObject) def PyDate_FromTimestamp(space, w_args): """Create and return a new datetime.date object given an argument tuple suitable for passing to datetime.date.fromtimestamp(). """ w_datetime = PyImport_Import(space, space.newtext("datetime")) w_type = space.getattr(w_datetime, space.newtext("date")) w_method = space.getattr(w_type, space.newtext("fromtimestamp")) return space.call(w_method, w_args) @cpython_api([rffi.INT_real, rffi.INT_real, rffi.INT_real, rffi.INT_real, PyTypeObjectPtr], PyObject) def _PyDelta_FromDelta(space, days, seconds, useconds, normalize, w_type): """Return a datetime.timedelta object representing the given number of days, seconds and microseconds. Normalization is performed so that the resulting number of microseconds and seconds lie in the ranges documented for datetime.timedelta objects. """ days = rffi.cast(lltype.Signed, days) seconds = rffi.cast(lltype.Signed, seconds) useconds = rffi.cast(lltype.Signed, useconds) return space.call_function( w_type, space.newint(days), space.newint(seconds), space.newint(useconds)) # Accessors @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_GET_YEAR(space, w_obj): """Return the year, as a positive int. """ return space.int_w(space.getattr(w_obj, space.newtext("year"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_GET_MONTH(space, w_obj): """Return the month, as an int from 1 through 12. """ return space.int_w(space.getattr(w_obj, space.newtext("month"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_GET_DAY(space, w_obj): """Return the day, as an int from 1 through 31. """ return space.int_w(space.getattr(w_obj, space.newtext("day"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DATE_GET_HOUR(space, w_obj): """Return the hour, as an int from 0 through 23. """ return space.int_w(space.getattr(w_obj, space.newtext("hour"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DATE_GET_MINUTE(space, w_obj): """Return the minute, as an int from 0 through 59. """ return space.int_w(space.getattr(w_obj, space.newtext("minute"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DATE_GET_SECOND(space, w_obj): """Return the second, as an int from 0 through 59. """ return space.int_w(space.getattr(w_obj, space.newtext("second"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DATE_GET_MICROSECOND(space, w_obj): """Return the microsecond, as an int from 0 through 999999. """ return space.int_w(space.getattr(w_obj, space.newtext("microsecond"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_TIME_GET_HOUR(space, w_obj): """Return the hour, as an int from 0 through 23. """ return space.int_w(space.getattr(w_obj, space.newtext("hour"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_TIME_GET_MINUTE(space, w_obj): """Return the minute, as an int from 0 through 59. """ return space.int_w(space.getattr(w_obj, space.newtext("minute"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_TIME_GET_SECOND(space, w_obj): """Return the second, as an int from 0 through 59. """ return space.int_w(space.getattr(w_obj, space.newtext("second"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_TIME_GET_MICROSECOND(space, w_obj): """Return the microsecond, as an int from 0 through 999999. """ return space.int_w(space.getattr(w_obj, space.newtext("microsecond"))) # XXX these functions are not present in the Python API # But it does not seem possible to expose a different structure # for types defined in a python module like lib/datetime.py. @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DELTA_GET_DAYS(space, w_obj): return space.int_w(space.getattr(w_obj, space.newtext("days"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DELTA_GET_SECONDS(space, w_obj): return space.int_w(space.getattr(w_obj, space.newtext("seconds"))) @cpython_api([rffi.VOIDP], rffi.INT_real, error=CANNOT_FAIL) def PyDateTime_DELTA_GET_MICROSECONDS(space, w_obj): return space.int_w(space.getattr(w_obj, space.newtext("microseconds")))