The problem is that `np.float`

is not a **valid** datatype for a NumPy array in numba. You have to provide the explicit dtype to numba. This isn't just a problem with `np.empty`

but also for other array-creation routines like `np.ones`

, `np.zeros`

, ... in numba.

To make your example work only a little change is needed:

```
from numba import jit
import numpy as np
@jit(nopython=True)
def empty():
return np.empty(5, np.float64) # np.float64 instead of np.float
empty()
```

Or the shorthand `np.float_`

. Or if you want 32 bit floats use `np.float32`

instead.

Note that `np.float`

is just an alias for the normal Python `float`

and as such not a *real* NumPy dtype:

```
>>> np.float is float
True
>>> issubclass(np.float, np.generic)
False
>>> issubclass(np.float64, np.generic)
True
```

Likewise there are some additional aliases that just are interpreted as if they were NumPy dtypes (source):

### Built-in Python types

Several python types are equivalent to a corresponding array scalar when used to generate a dtype object:

```
int int_
bool bool_
float float_
complex cfloat
bytes bytes_
str bytes_ (Python2) or unicode_ (Python3)
unicode unicode_
buffer void
(all others) object_
```

However numba doesn't know about these aliases and even when not dealing with numba you are probably better off using the *real* dtypes directly:

### Array types and conversions between types

NumPy supports a much greater variety of numerical types than Python does. This section shows which are available, and how to modify an array’s data-type.

```
Data type Description
bool_ Boolean (True or False) stored as a byte
int_ Default integer type (same as C long; normally either int64 or int32)
intc Identical to C int (normally int32 or int64)
intp Integer used for indexing (same as C ssize_t; normally either int32 or int64)
int8 Byte (-128 to 127)
int16 Integer (-32768 to 32767)
int32 Integer (-2147483648 to 2147483647)
int64 Integer (-9223372036854775808 to 9223372036854775807)
uint8 Unsigned integer (0 to 255)
uint16 Unsigned integer (0 to 65535)
uint32 Unsigned integer (0 to 4294967295)
uint64 Unsigned integer (0 to 18446744073709551615)
float_ Shorthand for float64.
float16 Half precision float: sign bit, 5 bits exponent, 10 bits mantissa
float32 Single precision float: sign bit, 8 bits exponent, 23 bits mantissa
float64 Double precision float: sign bit, 11 bits exponent, 52 bits mantissa
complex_ Shorthand for complex128.
complex64 Complex number, represented by two 32-bit floats (real and imaginary components)
complex128 Complex number, represented by two 64-bit floats (real and imaginary components)
```

Note that some of these are **not** supported by numba!