From some experiments(*), it seems that Python/f2py treats `np.int8`

as compatible with `logical*1`

, while `np.bool`

or `np.bool8`

not for some reason. After inserting `print *, "(fort) x = ", x`

into foo.f90, we get:

```
>>> foo.foo( np.array( [ True, False, False ], dtype=np.bool ) )
copied an array: size=3, elsize=1
(fort) x = T F F
>>> foo.foo( np.array( [ False, True, False ], dtype=np.bool8 ) )
copied an array: size=3, elsize=1
(fort) x = F T F
>>> foo.foo( np.array( [ False, False, True ], dtype=np.int8 ) ) # no copy
(fort) x = F F T
```

Because `True`

and `False`

are simply mapped to 1 and 0, using an `int8`

array on the Python side may be convenient.

(*) Some experiments

Here, I changed the f2py intent comment to `inout`

to see whether we can modify the array from the Fortran side.

foo.f90:

```
subroutine foo(x, n)
use iso_c_binding
implicit none
integer n
logical*1 x( n )
! logical x( n )
! logical(c_bool) x( n )
!f2py intent(inout) x
!f2py intent(hide), depend(x) :: n=shape(x,0)
print *, "(fort) x = ", x
print *, "(fort) sizeof(x(1)) = ", sizeof(x(1))
print *, "(fort) resetting x(:) to true"
x(:) = .true.
end subroutine
```

test.py:

```
import numpy as np
import foo
for T in [ np.bool, np.bool8,
np.int, np.int8, np.int32, np.int64,
np.uint, np.uint8, np.uint32, np.uint64,
np.dtype('b'), np.dtype('int8'), np.dtype('int32') ]:
print( "-------------------------" )
print( "dtype =", T )
x = np.array( [ True, False, True ], dtype=T )
print( "input x =", x )
try:
foo.foo( x )
print( "output x =", x )
except:
print( "failed" )
```

Results with `logical*1`

:

```
-------------------------
dtype = <class 'bool'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'numpy.bool_'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'int'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int8'>
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = <class 'numpy.int32'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint8'>
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = <class 'numpy.uint32'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = int8
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = int8
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = int32
input x = [1 0 1]
failed
```

Results with `logical`

(default kind):

```
-------------------------
dtype = <class 'bool'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'numpy.bool_'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'int'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int8'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int32'>
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 4
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = <class 'numpy.int64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint8'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint32'>
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 4
(fort) resetting x(:) to true
output x = [1 1 1]
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = int8
input x = [1 0 1]
failed
-------------------------
dtype = int8
input x = [1 0 1]
failed
-------------------------
dtype = int32
input x = [1 0 1]
(fort) x = T F T
(fort) sizeof(x(1)) = 4
(fort) resetting x(:) to true
output x = [1 1 1]
```

Results with `logical(c_bool)`

(via iso_c_binding):

```
-------------------------
dtype = <class 'bool'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'numpy.bool_'>
input x = [ True False True]
failed
-------------------------
dtype = <class 'int'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int8'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.int32'>
input x = [1 0 1]
(fort) x = T F F
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [65793 0 1]
-------------------------
dtype = <class 'numpy.int64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint8'>
input x = [1 0 1]
failed
-------------------------
dtype = <class 'numpy.uint32'>
input x = [1 0 1]
(fort) x = T F F
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [65793 0 1]
-------------------------
dtype = <class 'numpy.uint64'>
input x = [1 0 1]
failed
-------------------------
dtype = int8
input x = [1 0 1]
failed
-------------------------
dtype = int8
input x = [1 0 1]
failed
-------------------------
dtype = int32
input x = [1 0 1]
(fort) x = T F F
(fort) sizeof(x(1)) = 1
(fort) resetting x(:) to true
output x = [65793 0 1]
```

For some reason, this last `logical(c_bool)`

does not work with the above usage... (f2py seems to consider `logical(c_bool)`

as 4 bytes, while gfortran treats it as 1 byte, so something is inconsistent...)

`logical*1`

is a one byte logical type. Using`logical`

gives the same message.`*`

syntax is standard only for character types. But probably it wont change much.`ctypes`

and set the respective return argument type to`numpy.ctypeslib.ndpointer(ctypes.c_bool)`

.`logical(c_bool)`

.