Traktor/myenv/Lib/site-packages/fontTools/misc/vector.py

from numbers import Number
import math
import operator
import warnings


__all__ = ["Vector"]


class Vector(tuple):
    """A math-like vector.

    Represents an n-dimensional numeric vector. ``Vector`` objects support
    vector addition and subtraction, scalar multiplication and division,
    negation, rounding, and comparison tests.
    """

    __slots__ = ()

    def __new__(cls, values, keep=False):
        if keep is not False:
            warnings.warn(
                "the 'keep' argument has been deprecated",
                DeprecationWarning,
            )
        if type(values) == Vector:
            # No need to create a new object
            return values
        return super().__new__(cls, values)

    def __repr__(self):
        return f"{self.__class__.__name__}({super().__repr__()})"

    def _vectorOp(self, other, op):
        if isinstance(other, Vector):
            assert len(self) == len(other)
            return self.__class__(op(a, b) for a, b in zip(self, other))
        if isinstance(other, Number):
            return self.__class__(op(v, other) for v in self)
        raise NotImplementedError()

    def _scalarOp(self, other, op):
        if isinstance(other, Number):
            return self.__class__(op(v, other) for v in self)
        raise NotImplementedError()

    def _unaryOp(self, op):
        return self.__class__(op(v) for v in self)

    def __add__(self, other):
        return self._vectorOp(other, operator.add)

    __radd__ = __add__

    def __sub__(self, other):
        return self._vectorOp(other, operator.sub)

    def __rsub__(self, other):
        return self._vectorOp(other, _operator_rsub)

    def __mul__(self, other):
        return self._scalarOp(other, operator.mul)

    __rmul__ = __mul__

    def __truediv__(self, other):
        return self._scalarOp(other, operator.truediv)

    def __rtruediv__(self, other):
        return self._scalarOp(other, _operator_rtruediv)

    def __pos__(self):
        return self._unaryOp(operator.pos)

    def __neg__(self):
        return self._unaryOp(operator.neg)

    def __round__(self, *, round=round):
        return self._unaryOp(round)

    def __eq__(self, other):
        if isinstance(other, list):
            # bw compat Vector([1, 2, 3]) == [1, 2, 3]
            other = tuple(other)
        return super().__eq__(other)

    def __ne__(self, other):
        return not self.__eq__(other)

    def __bool__(self):
        return any(self)

    __nonzero__ = __bool__

    def __abs__(self):
        return math.sqrt(sum(x * x for x in self))

    def length(self):
        """Return the length of the vector. Equivalent to abs(vector)."""
        return abs(self)

    def normalized(self):
        """Return the normalized vector of the vector."""
        return self / abs(self)

    def dot(self, other):
        """Performs vector dot product, returning the sum of
        ``a[0] * b[0], a[1] * b[1], ...``"""
        assert len(self) == len(other)
        return sum(a * b for a, b in zip(self, other))

    # Deprecated methods/properties

    def toInt(self):
        warnings.warn(
            "the 'toInt' method has been deprecated, use round(vector) instead",
            DeprecationWarning,
        )
        return self.__round__()

    @property
    def values(self):
        warnings.warn(
            "the 'values' attribute has been deprecated, use "
            "the vector object itself instead",
            DeprecationWarning,
        )
        return list(self)

    @values.setter
    def values(self, values):
        raise AttributeError(
            "can't set attribute, the 'values' attribute has been deprecated",
        )

    def isclose(self, other: "Vector", **kwargs) -> bool:
        """Return True if the vector is close to another Vector."""
        assert len(self) == len(other)
        return all(math.isclose(a, b, **kwargs) for a, b in zip(self, other))


def _operator_rsub(a, b):
    return operator.sub(b, a)


def _operator_rtruediv(a, b):
    return operator.truediv(b, a)
dodanie neuralnetwork 2024-05-23 01:57:24 +02:00			`from numbers import Number`
			`import math`
			`import operator`
			`import warnings`


			`__all__ = ["Vector"]`


			`class Vector(tuple):`
			`"""A math-like vector.`

			Represents an n-dimensional numeric vector. ``Vector`` objects support
			`vector addition and subtraction, scalar multiplication and division,`
			`negation, rounding, and comparison tests.`
			`"""`

			`__slots__ = ()`

			`def __new__(cls, values, keep=False):`
			`if keep is not False:`
			`warnings.warn(`
			`"the 'keep' argument has been deprecated",`
			`DeprecationWarning,`
			`)`
			`if type(values) == Vector:`
			`# No need to create a new object`
			`return values`
			`return super().__new__(cls, values)`

			`def __repr__(self):`
			`return f"{self.__class__.__name__}({super().__repr__()})"`

			`def _vectorOp(self, other, op):`
			`if isinstance(other, Vector):`
			`assert len(self) == len(other)`
			`return self.__class__(op(a, b) for a, b in zip(self, other))`
			`if isinstance(other, Number):`
			`return self.__class__(op(v, other) for v in self)`
			`raise NotImplementedError()`

			`def _scalarOp(self, other, op):`
			`if isinstance(other, Number):`
			`return self.__class__(op(v, other) for v in self)`
			`raise NotImplementedError()`

			`def _unaryOp(self, op):`
			`return self.__class__(op(v) for v in self)`

			`def __add__(self, other):`
			`return self._vectorOp(other, operator.add)`

			`__radd__ = __add__`

			`def __sub__(self, other):`
			`return self._vectorOp(other, operator.sub)`

			`def __rsub__(self, other):`
			`return self._vectorOp(other, _operator_rsub)`

			`def __mul__(self, other):`
			`return self._scalarOp(other, operator.mul)`

			`__rmul__ = __mul__`

			`def __truediv__(self, other):`
			`return self._scalarOp(other, operator.truediv)`

			`def __rtruediv__(self, other):`
			`return self._scalarOp(other, _operator_rtruediv)`

			`def __pos__(self):`
			`return self._unaryOp(operator.pos)`

			`def __neg__(self):`
			`return self._unaryOp(operator.neg)`

			`def __round__(self, *, round=round):`
			`return self._unaryOp(round)`

			`def __eq__(self, other):`
			`if isinstance(other, list):`
			`# bw compat Vector([1, 2, 3]) == [1, 2, 3]`
			`other = tuple(other)`
			`return super().__eq__(other)`

			`def __ne__(self, other):`
			`return not self.__eq__(other)`

			`def __bool__(self):`
			`return any(self)`

			`__nonzero__ = __bool__`

			`def __abs__(self):`
			`return math.sqrt(sum(x * x for x in self))`

			`def length(self):`
			`"""Return the length of the vector. Equivalent to abs(vector)."""`
			`return abs(self)`

			`def normalized(self):`
			`"""Return the normalized vector of the vector."""`
			`return self / abs(self)`

			`def dot(self, other):`
			`"""Performs vector dot product, returning the sum of`
			``a[0] * b[0], a[1] * b[1], ...``"""
			`assert len(self) == len(other)`
			`return sum(a * b for a, b in zip(self, other))`

			`# Deprecated methods/properties`

			`def toInt(self):`
			`warnings.warn(`
			`"the 'toInt' method has been deprecated, use round(vector) instead",`
			`DeprecationWarning,`
			`)`
			`return self.__round__()`

			`@property`
			`def values(self):`
			`warnings.warn(`
			`"the 'values' attribute has been deprecated, use "`
			`"the vector object itself instead",`
			`DeprecationWarning,`
			`)`
			`return list(self)`

			`@values.setter`
			`def values(self, values):`
			`raise AttributeError(`
			`"can't set attribute, the 'values' attribute has been deprecated",`
			`)`

			`def isclose(self, other: "Vector", **kwargs) -> bool:`
			`"""Return True if the vector is close to another Vector."""`
			`assert len(self) == len(other)`
			`return all(math.isclose(a, b, **kwargs) for a, b in zip(self, other))`


			`def _operator_rsub(a, b):`
			`return operator.sub(b, a)`


			`def _operator_rtruediv(a, b):`
			`return operator.truediv(b, a)`