# are numpy array elements rounded automatically?

I have an numpy array of floats in Python.

When I print the array, the first value is:

``````[7.14519700e+04, ....
``````

If, however, I print out just the first value on it's own, the print out reads:

``````71451.9699799
``````

Obviously these numbers should be identical, so I just wondered, is the array just showing me a rounded version of the element? The second number here has 12 significant figures, and the first only has 9.

I guess I just wonder why these numbers are different?

It's just in the printing, not in the storage. The only confusion might occur because the first example uses numpy's print precision settings, the second example general python's print settings.

You can adjust the numpy precision and print by

``````numpy.set_printoptions(precision=20)
print myarray`
``````

(adjust precision to your needs), or select the number of significant figures in standard python formatted print:

``````print ('%.20f' % myarray[0])
``````

The internal representation of the number is always the same.

The types in a numpy array are well defined. You can get how they are stored by inspecting the `numpy.dtype` property of an array.

For example:

``````import numpy
a = numpy.zeros(10)
print a.dtype
``````

will show `float64`, that is a 64-bit floating point number.

You can specify the type of the array explicitly using either the commonly accepted dtype argument, or the dtype `type` object (that is, the thing that makes the dtype).

``````a = numpy.zeros(10, dtype='complex32') # a 32-bit floating point
b = numpy.longdouble(a) # create a long-double array from a
``````

Regarding the printing, this is just a formatting issue. You can twiddle how numpy prints an array using `numpy.set_printoptions`:

``````>>> a = numpy.random.randn(3) # for interest, randn annoyingly doesn't support the dtype arg
>>> print a
[ 0.12584756  0.73540009 -0.17108244 -0.96818512]
>>> numpy.set_printoptions(precision=3)
>>> print a
[ 0.126  0.735 -0.171 -0.968]
``````
• an example will be helpful for us :) Feb 28, 2013 at 18:07