arrayfire-py/arrayfire/array_api/_elementwise_functions.py at master · arrayfire/arrayfire-py

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from __future__ import annotations

import arrayfire as af

from ._array_object import Array

# TODO

# Add documentation and edge cases like types checking, array values, etc.

def abs(x: Array, /) -> Array:

return Array._new(af.abs(x._array))

def acos(x: Array, /) -> Array:

return Array._new(af.acos(x._array))

def acosh(x: Array, /) -> Array:

return Array._new(af.acosh(x._array))

def add(x1: Array, x2: Array, /) -> Array:

return Array._new(af.add(x1._array, x2._array))

def asin(x: Array, /) -> Array:

return Array._new(af.asin(x._array))

def asinh(x: Array, /) -> Array:

return Array._new(af.asinh(x._array))

def atan(x: Array, /) -> Array:

return Array._new(af.atan(x._array))

def atan2(x1: Array, x2: Array, /) -> Array:

return Array._new(af.atan2(x1._array, x2._array))

def atanh(x: Array, /) -> Array:

return Array._new(af.atanh(x._array))

def bitwise_and(x1: Array, x2: Array, /) -> Array:

return Array._new(af.bitand(x1._array, x2._array))

def bitwise_left_shift(x1: Array, x2: Array, /) -> Array:

return Array._new(af.bitshiftl(x1._array, x2._array))

def bitwise_invert(x: Array, /) -> Array:

return Array._new(af.bitnot(x._array))

def bitwise_or(x1: Array, x2: Array, /) -> Array:

return Array._new(af.bitor(x1._array, x2._array))

def bitwise_right_shift(x1: Array, x2: Array, /) -> Array:

return Array._new(af.bitshiftr(x1._array, x2._array))

def bitwise_xor(x1: Array, x2: Array, /) -> Array:

return Array._new(af.bitxor(x1._array, x2._array))

def ceil(x: Array, /) -> Array:

return Array._new(af.ceil(x._array))

def conj(x: Array, /) -> Array:

return Array._new(af.conjg(x._array))

def cos(x: Array, /) -> Array:

return Array._new(af.cos(x._array))

def cosh(x: Array, /) -> Array:

return Array._new(af.cosh(x._array))

def divide(x1: Array, x2: Array, /) -> Array:

return Array._new(af.div(x1._array, x2._array))

def equal(x1: Array, x2: Array, /) -> Array:

return Array._new(af.eq(x1._array, x2._array))

def exp(x: Array, /) -> Array:

return Array._new(af.exp(x._array))

def expm1(x: Array, /) -> Array:

return Array._new(af.expm1(x._array))

def floor(x: Array, /) -> Array:

return Array._new(af.floor(x._array))

def floor_divide(x1: Array, x2: Array, /) -> Array:

# TODO

return NotImplemented

def greater(x1: Array, x2: Array, /) -> Array:

return Array._new(af.gt(x1._array, x2._array))

def greater_equal(x1: Array, x2: Array, /) -> Array:

return Array._new(af.ge(x1._array, x2._array))

def imag(x: Array, /) -> Array:

return Array._new(af.imag(x._array))

def isfinite(x: Array, /) -> Array:

# TODO

return NotImplemented

def isinf(x: Array, /) -> Array:

return Array._new(af.isinf(x._array))

def isnan(x: Array, /) -> Array:

return Array._new(af.isnan(x._array))

def less(x1: Array, x2: Array, /) -> Array:

return Array._new(af.lt(x1._array, x2._array))

def less_equal(x1: Array, x2: Array, /) -> Array:

return Array._new(af.le(x1._array, x2._array))

def log(x: Array, /) -> Array:

return Array._new(af.log(x._array))

def log1p(x: Array, /) -> Array:

return Array._new(af.log1p(x._array))

def log2(x: Array, /) -> Array:

return Array._new(af.log2(x._array))

def log10(x: Array, /) -> Array:

return Array._new(af.log10(x._array))

def logaddexp(x1: Array, x2: Array) -> Array:

# TODO

return NotImplemented

def logical_and(x1: Array, x2: Array, /) -> Array:

return Array._new(af.logical_and(x1._array, x2._array))

def logical_not(x: Array, /) -> Array:

return Array._new(af.logical_not(x._array))

def logical_or(x1: Array, x2: Array, /) -> Array:

return Array._new(af.logical_or(x1._array, x2._array))

def logical_xor(x1: Array, x2: Array, /) -> Array:

# TODO

return NotImplemented

def multiply(x1: Array, x2: Array, /) -> Array:

return Array._new(af.mul(x1._array, x2._array))

def negative(x: Array, /) -> Array:

return Array._new(af.lt(x._array, 1))

def not_equal(x1: Array, x2: Array, /) -> Array:

return Array._new(af.neq(x1._array, x2._array))

def positive(x: Array, /) -> Array:

return Array._new(af.gt(x._array, 1))

def pow(x1: Array, x2: Array, /) -> Array:

return Array._new(af.pow(x1._array, x2._array))

def real(x: Array, /) -> Array:

return Array._new(af.real(x._array))

def remainder(x1: Array, x2: Array, /) -> Array:

return Array._new(af.rem(x1._array, x2._array))

def round(x: Array, /) -> Array:

return Array._new(af.round(x._array))

def sign(x: Array, /) -> Array:

return Array._new(af.sign(x._array))

def sin(x: Array, /) -> Array:

return Array._new(af.sin(x._array))

def sinh(x: Array, /) -> Array:

return Array._new(af.sinh(x._array))

def square(x: Array, /) -> Array:

return Array._new(af.pow(x._array, 2))

def sqrt(x: Array, /) -> Array:

return Array._new(af.sqrt(x._array))

def subtract(x1: Array, x2: Array, /) -> Array:

return Array._new(af.sub(x1._array, x2._array))

def tan(x: Array, /) -> Array:

return Array._new(af.tan(x._array))

def tanh(x: Array, /) -> Array:

return Array._new(af.tanh(x._array))

def trunc(x: Array, /) -> Array:

return Array._new(af.trunc(x._array))

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