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What is the best way to declare a numpy array in cython if It should be able to handle both float and double?

I guess it won't be possible with a memory view since there the datatype is crucial, but for an ndarray is there any way to give it a general float type which would still benifit from the swiftness of cython?

so this is what I would usualy do:

def F( np.ndarray A):
    A += 10

I've seen that there is also:

def F( np.ndarray[np.float32_t, ndim=2] A):
    A += 10

but that again will give a bit size for the type. I've also thought along the lines of creating a memory view inside the function depending on the bit size (32 or 64).

Any thought are highly appreciated

Thank you so much for the tip on the floating type. I've tried it like this

import numpy as np
cimport numpy as np
import cython
cimport cython
from libc.math cimport sqrt, abs
from cython cimport floating

def Rot_Matrix(np.ndarray[floating, ndim=3] Fit_X,
               np.ndarray[floating, ndim=3] Ref_X,
               weight = None):
        unsigned int t, T = Fit_X.shape[0]
        unsigned int n, N = Fit_X.shape[1]
        np.ndarray[floating, ndim=3] Rot = np.empty((T,3,3))

    return Rot

when I now call the function with two arrays of np.float32 I get the error

ValueError: Buffer dtype mismatch, expected 'float' but got 'double'

If I do not use the the type definition in the brakes for Rot so it reads np.ndarray[floating, ndim=3] Rot = np.empty((T,3,3)) then I get ndarray back and it works fine. Would you happen to have a pointer for me what I'm doing wrong?

share|improve this question
I doubt you can mix native types of different sizes, it would blow the performance. –  CoDEmanX Apr 28 '14 at 22:00
So you would just leave it as I did in the first example? Would it help to declare the number of dimensions though? –  Magellan88 Apr 28 '14 at 22:09
@Magellan88 I just saw the update to your post. I've updated my response. –  Veedrac May 8 '14 at 7:30

2 Answers 2

up vote 6 down vote accepted

Well this is actually really easy with fused types support:

This goes inside your code.

from cython cimport floating

def cythonfloating_memoryview(floating[:, :] array):
    cdef int i, j

    for i in range(array.shape[0]):
        for j in range(array.shape[1]):
            array[i, j] += 10

Of course, there are loads of ways of doing this:

Name this fuzed.pyx. There's no need to compile or run cython on it; it's handled by pyximport. Don't use pyximport for production code, though, as you should typically only ship .c files.

from cython cimport floating
from numpy import float32_t, float64_t, ndarray

ctypedef fused myfloating:

def cythonfloating_memoryview(floating[:, :] array):
    # ...

def cythonfloating_buffer(ndarray[floating, ndim=2] array):
    # ...

def myfloating_memoryview(myfloating[:, :] array):
    # ...

def myfloating_buffer(ndarray[myfloating, ndim=2] array):
    # ...

and here's a little test script:

Name this test.py and run it as a normal Python script:

import pyximport

import fuzed
import numpy

functions = [

for function in functions:
    floats_32 = numpy.zeros((100, 100), "float32")
    doubles_32 = numpy.zeros((100, 100), "float64")



It's worth noting that fused types are specialised at compilation, and are constant for a particular function invocation. The empty Numpy array you make is always of a double type, but you assign it to either a 32-bit float or a 64-bit float. Here's what you should do:

from cython cimport floating
import numpy

def do_some_things(floating[:] input):
    cdef floating[:] output

    if floating is float:
        output = numpy.empty(10, dtype="float32")
    elif floating is double:
        output = numpy.empty(10, dtype="float64")
        raise ValueError("Unknown floating type.")

    return output

and some tests to prove the point:

import pyximport
#>>> (None, None)

import floatingtest
import numpy

floatingtest.do_some_things(numpy.empty(10, dtype="float32"))
#>>> <MemoryView of 'ndarray' at 0x7f0a514b3d88>
floatingtest.do_some_things(numpy.empty(10, dtype="float32")).itemsize
#>>> 4

floatingtest.do_some_things(numpy.empty(10, dtype="float64"))
#>>> <MemoryView of 'ndarray' at 0x7f0a514b3d88>
floatingtest.do_some_things(numpy.empty(10, dtype="float64")).itemsize
#>>> 8
share|improve this answer
hi, thanks for the test script, I'm not really sure how to use it. I've managed to compile it into a test.o file but there is no function in there to import. I've tried to import the list by doing from test import functions but that won't work. I hope that's not too stupid of a question –  Magellan88 Apr 29 '14 at 21:50
The test script is just a Python file; fuzed is the name of the second block of code. I'll update the answer to clarify. –  Veedrac Apr 29 '14 at 22:50

Fused types can only be used in function declarations. The best analogy I can come up with are templates in C++.

To create a function that can be used with float32/64 do

from cython import floating, numeric
cimport cython

def func_float(floating a):
    print cython.typeof(a)

however you can only used Fused Types in a function that already appear in the function declaration.

share|improve this answer
AFAICT this isn't true... yet you have more votes than me. *cries* ;) –  Veedrac May 8 '14 at 7:33
yeah I realized a bit later that I got compilation errors because cython only handles the fused types that are used in the function declaration. def f(numeric a): cdef floating v will result in a compilation error as well as def f(double a): cdef floating v –  kain88 May 16 '14 at 16:23

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