I'm working with mpmath python library to gain precision during some computations, but i need to cast the result in a numpy native type.

More precisely i need to cast an mpmath matrix (that contains mpf object types) in an numpy.ndarray (that contains float types).

I have solved the problem with a raw approach:

```
# My input Matrix:
matr = mp.matrix(
[[ '115.80200375', '22.80402473', '13.69453064', '54.28049263'],
[ '22.80402473', '86.14887381', '53.79999432', '42.78548627'],
[ '13.69453064', '53.79999432', '110.9695448' , '37.24270321'],
[ '54.28049263', '42.78548627', '37.24270321', '95.79388469']])
# multiple precision computation
D = MPDBiteration(matr)
# Create a new ndarray
Z = numpy.ndarray((matr.cols,matr.rows),dtype=numpy.float)
# I fill it pretty "manually"
for i in range(0,matr.rows):
for j in range(0,matr.cols):
Z[i,j] = D[i,j] # or float(D[i,j]) seems to work the same
```

My question is:

Is there a better/more elegant/easier/clever way to do it?

## UPDATE:

Reading again and again the mpmath documentation I've found this very useful method: tolist() , it can be used as follows:

```
Z = np.array(matr.tolist(),dtype=np.float32)
```

It seems slightly better and elegant (no for loops needed)

Are there better ways to do it? Does my second solution round or chop extra digits?