# Numpy float64 vs Python float

I'm battling some floating point problems in Pandas read_csv function. In my investigation, I found this:

``````In : a = 5.9975

In : a
Out: 5.9975

In : np.float64(a)
Out: 5.9974999999999996
``````

Why is builtin `float` of Python and the `np.float64` type from Python giving different results? I thought they were both C++ doubles?

• Note also that the Pandas `read_csv` function employs its own super-fast string-to-float conversion that is not correctly rounded. Thus after exporting a value and re-reading it, the recovered value may end up being 1 or 2 ulps different from the original. – Mark Dickinson Nov 24 '14 at 8:41

``````>>> numpy.float64(5.9975).hex()
'0x1.7fd70a3d70a3dp+2'
>>> (5.9975).hex()
'0x1.7fd70a3d70a3dp+2'
``````

They are the same number. What differs is their representation; the Python native type uses a "sane" representation, and the NumPy type uses an accurate representation.

• By representation, you mean the way it is printed to screen? – mchangun Nov 24 '14 at 6:16
• Via the `__repr__()` method or its C-level equivalent, yes. – Ignacio Vazquez-Abrams Nov 24 '14 at 6:18
• A truly accurate representation would actually be 5.99749999999999960920149533194489777088165283203125, which is the exact decimal value of the 64-bit float you get when you evaluate the float literal `5.9975`. – Mark Amery Mar 17 '16 at 12:19
• @MarkAmery The max precision a float 64 can reach is close to 10-16 (unit in the last place (ULP), see en.wikipedia.org/wiki/Floating-point_arithmetic) so the idea of an exact decimal value with significantly more than 16 digits for a floating point is misleading. – Jonathan Nappee Jul 3 '17 at 13:02
• @JonathanNappee: Every numeric binary64 representation does in fact have an exact decimal equivalent. The trouble occurs when we believe that a much less precise decimal value is represented by a given binary64 value. – Ignacio Vazquez-Abrams Jul 3 '17 at 13:51

What is the relationship between float, np.float and np.float64 I have ran some tests.

``````a = np.float(123.2)       #
print(type(a))
print('same type? {}'.format(type(a) == float))

a = np.float64(123.2)  #
print(type(a))
print('same type? {}'.format(type(a) == float))
``````

It seems np.float is the same as python float. However, np.float64 is not.

np.float should be some kind of float either float64 or float32. What is the np.float exactly then?

Should I ask this in an individual thread? I think it is relevant to yours.