numpy.array2string
-
numpy.array2string(self, *args, **kwargs)
[source] -
Return a string representation of an array.
Parameters: a : ndarray
Input array.
max_line_width : int, optional
The maximum number of columns the string should span. Newline characters splits the string appropriately after array elements.
precision : int, optional
Floating point precision. Default is the current printing precision (usually 8), which can be altered using
set_printoptions
.suppress_small : bool, optional
Represent very small numbers as zero. A number is “very small” if it is smaller than the current printing precision.
separator : str, optional
Inserted between elements.
prefix : str, optional
An array is typically printed as:
'prefix(' + array2string(a) + ')'
The length of the prefix string is used to align the output correctly.
style : function, optional
A function that accepts an ndarray and returns a string. Used only when the shape of
a
is equal to()
, i.e. for 0-D arrays.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_` - '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'
Returns: array_str : str
String representation of the array.
Raises: TypeError
if a callable in
formatter
does not return a string.See also
Notes
If a formatter is specified for a certain type, the
precision
keyword is ignored for that type.This is a very flexible function;
array_repr
andarray_str
are usingarray2string
internally so keywords with the same name should work identically in all three functions.Examples
>>> x = np.array([1e-16,1,2,3]) >>> print(np.array2string(x, precision=2, separator=',', ... suppress_small=True)) [ 0., 1., 2., 3.]
>>> x = np.arange(3.) >>> np.array2string(x, formatter={'float_kind':lambda x: "%.2f" % x}) '[0.00 1.00 2.00]'
>>> x = np.arange(3) >>> np.array2string(x, formatter={'int':lambda x: hex(x)}) '[0x0L 0x1L 0x2L]'
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Licensed under the NumPy License.
https://docs.scipy.org/doc/numpy-1.13.0/reference/generated/numpy.array2string.html