Return the binary representation of the input number as a string.
For negative numbers, if width is not given, a minus sign is added to the front. If width is given, the two’s complement of the number is returned, with respect to that width.
In a two’s-complement system negative numbers are represented by the two’s complement of the absolute value. This is the most common method of representing signed integers on computers [1]. A N-bit two’s-complement system can represent every integer in the range \(-2^{N-1}\) to \(+2^{N-1}-1\).
Only an integer decimal number can be used.
The length of the returned string if num is positive, or the length of the two’s complement if num is negative, provided that width is at least a sufficient number of bits for num to be represented in the designated form. If the width value is insufficient, an error is raised.
Binary representation of num or two’s complement of num.
See also
base_repr
Return a string representation of a number in the given base system.
bin
Python’s built-in binary representation generator of an integer.
Notes
binary_repr is equivalent to using base_repr with base 2, but about 25x faster.
References
Examples
>>> import numpy as np >>> np.binary_repr(3) '11' >>> np.binary_repr(-3) '-11' >>> np.binary_repr(3, width=4) '0011'
The two’s complement is returned when the input number is negative and width is specified:
>>> np.binary_repr(-3, width=3) '101' >>> np.binary_repr(-3, width=5) '11101'
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