ai-content-maker/.venv/Lib/site-packages/matplotlib/testing/jpl_units/UnitDbl.py

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2024-05-03 04:18:51 +03:00
"""UnitDbl module."""
import functools
import operator
from matplotlib import _api
class UnitDbl:
"""Class UnitDbl in development."""
# Unit conversion table. Small subset of the full one but enough
# to test the required functions. First field is a scale factor to
# convert the input units to the units of the second field. Only
# units in this table are allowed.
allowed = {
"m": (0.001, "km"),
"km": (1, "km"),
"mile": (1.609344, "km"),
"rad": (1, "rad"),
"deg": (1.745329251994330e-02, "rad"),
"sec": (1, "sec"),
"min": (60.0, "sec"),
"hour": (3600, "sec"),
}
_types = {
"km": "distance",
"rad": "angle",
"sec": "time",
}
def __init__(self, value, units):
"""
Create a new UnitDbl object.
Units are internally converted to km, rad, and sec. The only
valid inputs for units are [m, km, mile, rad, deg, sec, min, hour].
The field UnitDbl.value will contain the converted value. Use
the convert() method to get a specific type of units back.
= ERROR CONDITIONS
- If the input units are not in the allowed list, an error is thrown.
= INPUT VARIABLES
- value The numeric value of the UnitDbl.
- units The string name of the units the value is in.
"""
data = _api.check_getitem(self.allowed, units=units)
self._value = float(value * data[0])
self._units = data[1]
def convert(self, units):
"""
Convert the UnitDbl to a specific set of units.
= ERROR CONDITIONS
- If the input units are not in the allowed list, an error is thrown.
= INPUT VARIABLES
- units The string name of the units to convert to.
= RETURN VALUE
- Returns the value of the UnitDbl in the requested units as a floating
point number.
"""
if self._units == units:
return self._value
data = _api.check_getitem(self.allowed, units=units)
if self._units != data[1]:
raise ValueError(f"Error trying to convert to different units.\n"
f" Invalid conversion requested.\n"
f" UnitDbl: {self}\n"
f" Units: {units}\n")
return self._value / data[0]
def __abs__(self):
"""Return the absolute value of this UnitDbl."""
return UnitDbl(abs(self._value), self._units)
def __neg__(self):
"""Return the negative value of this UnitDbl."""
return UnitDbl(-self._value, self._units)
def __bool__(self):
"""Return the truth value of a UnitDbl."""
return bool(self._value)
def _cmp(self, op, rhs):
"""Check that *self* and *rhs* share units; compare them using *op*."""
self.checkSameUnits(rhs, "compare")
return op(self._value, rhs._value)
__eq__ = functools.partialmethod(_cmp, operator.eq)
__ne__ = functools.partialmethod(_cmp, operator.ne)
__lt__ = functools.partialmethod(_cmp, operator.lt)
__le__ = functools.partialmethod(_cmp, operator.le)
__gt__ = functools.partialmethod(_cmp, operator.gt)
__ge__ = functools.partialmethod(_cmp, operator.ge)
def _binop_unit_unit(self, op, rhs):
"""Check that *self* and *rhs* share units; combine them using *op*."""
self.checkSameUnits(rhs, op.__name__)
return UnitDbl(op(self._value, rhs._value), self._units)
__add__ = functools.partialmethod(_binop_unit_unit, operator.add)
__sub__ = functools.partialmethod(_binop_unit_unit, operator.sub)
def _binop_unit_scalar(self, op, scalar):
"""Combine *self* and *scalar* using *op*."""
return UnitDbl(op(self._value, scalar), self._units)
__mul__ = functools.partialmethod(_binop_unit_scalar, operator.mul)
__rmul__ = functools.partialmethod(_binop_unit_scalar, operator.mul)
def __str__(self):
"""Print the UnitDbl."""
return f"{self._value:g} *{self._units}"
def __repr__(self):
"""Print the UnitDbl."""
return f"UnitDbl({self._value:g}, '{self._units}')"
def type(self):
"""Return the type of UnitDbl data."""
return self._types[self._units]
@staticmethod
def range(start, stop, step=None):
"""
Generate a range of UnitDbl objects.
Similar to the Python range() method. Returns the range [
start, stop) at the requested step. Each element will be a
UnitDbl object.
= INPUT VARIABLES
- start The starting value of the range.
- stop The stop value of the range.
- step Optional step to use. If set to None, then a UnitDbl of
value 1 w/ the units of the start is used.
= RETURN VALUE
- Returns a list containing the requested UnitDbl values.
"""
if step is None:
step = UnitDbl(1, start._units)
elems = []
i = 0
while True:
d = start + i * step
if d >= stop:
break
elems.append(d)
i += 1
return elems
def checkSameUnits(self, rhs, func):
"""
Check to see if units are the same.
= ERROR CONDITIONS
- If the units of the rhs UnitDbl are not the same as our units,
an error is thrown.
= INPUT VARIABLES
- rhs The UnitDbl to check for the same units
- func The name of the function doing the check.
"""
if self._units != rhs._units:
raise ValueError(f"Cannot {func} units of different types.\n"
f"LHS: {self._units}\n"
f"RHS: {rhs._units}")