Use `val.item()`

to convert most NumPy values to a native Python type:

```
import numpy as np
# for example, numpy.float32 -> python float
val = np.float32(0)
pyval = val.item()
print(type(pyval)) # <class 'float'>
# and similar...
type(np.float64(0).item()) # <class 'float'>
type(np.uint32(0).item()) # <class 'int'>
type(np.int16(0).item()) # <class 'int'>
type(np.cfloat(0).item()) # <class 'complex'>
type(np.datetime64(0, 'D').item()) # <class 'datetime.date'>
type(np.datetime64('2001-01-01 00:00:00').item()) # <class 'datetime.datetime'>
type(np.timedelta64(0, 'D').item()) # <class 'datetime.timedelta'>
...
```

(Another method is `np.asscalar(val)`

, however it is deprecated since NumPy 1.16).

For the curious, to build a table of conversions of NumPy array scalars for your system:

```
for name in dir(np):
obj = getattr(np, name)
if hasattr(obj, 'dtype'):
try:
if 'time' in name:
npn = obj(0, 'D')
else:
npn = obj(0)
nat = npn.item()
print('{0} ({1!r}) -> {2}'.format(name, npn.dtype.char, type(nat)))
except:
pass
```

There are a few NumPy types that have no native Python equivalent on some systems, including: `clongdouble`

, `clongfloat`

, `complex192`

, `complex256`

, `float128`

, `longcomplex`

, `longdouble`

and `longfloat`

. These need to be converted to their nearest NumPy equivalent before using `.item()`

.