numpy.set_printoptions¶
-
numpy.
set_printoptions
(precision=None, threshold=None, edgeitems=None, linewidth=None, suppress=None, nanstr=None, infstr=None, formatter=None, sign=None, floatmode=None, **kwarg)[source]¶ Set printing options.
These options determine the way floating point numbers, arrays and other NumPy objects are displayed.
Parameters: precision : int, optional
Number of digits of precision for floating point output (default 8).
threshold : int, optional
Total number of array elements which trigger summarization rather than full repr (default 1000).
edgeitems : int, optional
Number of array items in summary at beginning and end of each dimension (default 3).
linewidth : int, optional
The number of characters per line for the purpose of inserting line breaks (default 75).
suppress : bool, optional
If True, always print floating point numbers using fixed point notation, in which case numbers equal to zero in the current precision will print as zero. If False, then scientific notation is used when absolute value of the smallest number is < 1e-4 or the ratio of the maximum absolute value to the minimum is > 1e3. The default is False.
nanstr : str, optional
String representation of floating point not-a-number (default nan).
infstr : str, optional
String representation of floating point infinity (default inf).
sign : string, either ‘-‘, ‘+’, or ‘ ‘, optional
Controls printing of the sign of floating-point types. If ‘+’, always print the sign of positive values. If ‘ ‘, always prints a space (whitespace character) in the sign position of positive values. If ‘-‘, omit the sign character of positive values. (default ‘-‘)
formatter : dict of callables, optional
If not None, the keys should indicate the type(s) that the respective formatting function applies to. Callables should return a string. Types that are not specified (by their corresponding keys) are handled by the default formatters. Individual types for which a formatter can be set are:
- 'bool' - 'int' - 'timedelta' : a `numpy.timedelta64` - 'datetime' : a `numpy.datetime64` - 'float' - 'longfloat' : 128-bit floats - 'complexfloat' - 'longcomplexfloat' : composed of two 128-bit floats - 'numpystr' : types `numpy.string_` and `numpy.unicode_` - 'object' : `np.object_` arrays - 'str' : all other strings
Other keys that can be used to set a group of types at once are:
- 'all' : sets all types - 'int_kind' : sets 'int' - 'float_kind' : sets 'float' and 'longfloat' - 'complex_kind' : sets 'complexfloat' and 'longcomplexfloat' - 'str_kind' : sets 'str' and 'numpystr'
floatmode : str, optional
Controls the interpretation of the precision option for floating-point types. Can take the following values:
- ‘fixed’ : Always print exactly precision fractional digits,
even if this would print more or fewer digits than necessary to specify the value uniquely.
- ‘unique : Print the minimum number of fractional digits necessary
to represent each value uniquely. Different elements may have a different number of digits. The value of the precision option is ignored.
- ‘maxprec’ : Print at most precision fractional digits, but if
an element can be uniquely represented with fewer digits only print it with that many.
- ‘maxprec_equal’ : Print at most precision fractional digits,
but if every element in the array can be uniquely represented with an equal number of fewer digits, use that many digits for all elements.
legacy : string or False, optional
If set to the string ‘1.13’ enables 1.13 legacy printing mode. This approximates numpy 1.13 print output by including a space in the sign position of floats and different behavior for 0d arrays. If set to False, disables legacy mode. Unrecognized strings will be ignored with a warning for forward compatibility.
New in version 1.14.0.
See also
Notes
formatter
is always reset with a call toset_printoptions
.Examples
Floating point precision can be set:
>>> np.set_printoptions(precision=4) >>> print(np.array([1.123456789])) [ 1.1235]
Long arrays can be summarised:
>>> np.set_printoptions(threshold=5) >>> print(np.arange(10)) [0 1 2 ..., 7 8 9]
Small results can be suppressed:
>>> eps = np.finfo(float).eps >>> x = np.arange(4.) >>> x**2 - (x + eps)**2 array([ -4.9304e-32, -4.4409e-16, 0.0000e+00, 0.0000e+00]) >>> np.set_printoptions(suppress=True) >>> x**2 - (x + eps)**2 array([-0., -0., 0., 0.])
A custom formatter can be used to display array elements as desired:
>>> np.set_printoptions(formatter={'all':lambda x: 'int: '+str(-x)}) >>> x = np.arange(3) >>> x array([int: 0, int: -1, int: -2]) >>> np.set_printoptions() # formatter gets reset >>> x array([0, 1, 2])
To put back the default options, you can use:
>>> np.set_printoptions(edgeitems=3,infstr='inf', ... linewidth=75, nanstr='nan', precision=8, ... suppress=False, threshold=1000, formatter=None)