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I am trying to convert an array consisting of strings to an array with float values and a string. My code currently looks like this:

datatype1=np.dtype([
('LOCATION_THETA',np.float64),
('LOCATION_PHI',np.float64),
('ETHETA_MAGN',np.float64),
('ETHETA_PHASE',np.float64),
('EPHI_MAGN',np.float64),
('EPHI_PHASE',np.float64),
('DIRECTIVITY_VERT',np.float64),
('DIRECTIVITY_HORIZ',np.float64),
('DIRECTIVITY_TOTAL',np.float64),
('POLARISATION_AXIALR',np.float64),
('POLARISATION_ANGLE',np.float64),
('POLARISATION_DIRECTION','|S5')])

table2=np.array(table,dtype=datatype1)

With table (a numpy array of strings) looking like this:

[['0.00' '0.00' '5.751E-01' '-2.08' '9.532E-05' '-86.19' '1.7442' '-73.8670' '1.7442' '0.0002' '0.00' 'RIGHT']
 ['2.00' '0.00' '5.747E-01' '-2.11' '1.291E-04' '-82.47' '1.7390' '-71.2312' '1.7390' '0.0002' '0.00' 'RIGHT']
 ['4.00' '0.00' '5.738E-01' '-2.21' '1.632E-04' '-80.31' '1.7243' '-69.1973' '1.7243' '0.0003' '0.00' 'RIGHT']
 ['6.00' '0.00' '5.722E-01' '-2.38' '1.973E-04' '-78.94' '1.7001' '-67.5479' '1.7001' '0.0003' '0.00' 'RIGHT']
 ['8.00' '0.00' '5.699E-01' '-2.61' '2.314E-04' '-78.02' '1.6663' '-66.1644' '1.6663' '0.0004' '0.01' 'RIGHT']
...

However, when I execute the script, I get the following error:

ValueError: could not convert string to float: RIGHT

Which it shouldn't do, because i want the string to be |S5, not float...

Thanks in advance for your help!

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1  
It worked for me. I had to put commas in between the values in table though. The error suggests that maybe there is a missing comma between one or more of your columns in table. –  atomh33ls Sep 25 '13 at 12:21

1 Answer 1

up vote 1 down vote accepted

What happens here is that when you do:

ts = np.array(t, dtype=dt)

the dtype is being applied to each element in table. It works fine for the first 11 elements, then it gets to 'RIGHT' which it cannot make into an integer. Here is what it does without the 'RIGHT' (this is going to be messy!):

>>> t[:2,:-1]
array([['0.00', '0.00', '5.751E-01', '-2.08', '9.532E-05', '-86.19', '1.7442', '-73.8670', '1.7442', '0.0002', '0.00'],
       ['2.00', '0.00', '5.747E-01', '-2.11', '1.291E-04', '-82.47', '1.7390', '-71.2312', '1.7390', '0.0002', '0.00']], 
      dtype='|S9')

>>> np.array(t[:2,:-1], dt)
array([[(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, '0.00'),
        (0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, '0.00'),
        (0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, 0.5751, '5.751'),
        (-2.08, -2.08, -2.08, -2.08, -2.08, -2.08, -2.08, -2.08, -2.08, -2.08, -2.08, '-2.08'),
        (9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, 9.532e-05, '9.532'),
        (-86.19, -86.19, -86.19, -86.19, -86.19, -86.19, -86.19, -86.19, -86.19, -86.19, -86.19, '-86.1'),
        (1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, '1.744'),
        (-73.867, -73.867, -73.867, -73.867, -73.867, -73.867, -73.867, -73.867, -73.867, -73.867, -73.867, '-73.8'),
        (1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, 1.7442, '1.744'),
        (0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, '0.000'),
        (0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, '0.00')],
       [(2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, 2.0, '2.00'),
        (0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, '0.00'),
        (0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, 0.5747, '5.747'),
        (-2.11, -2.11, -2.11, -2.11, -2.11, -2.11, -2.11, -2.11, -2.11, -2.11, -2.11, '-2.11'),
        (0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, 0.0001291, '1.291'),
        (-82.47, -82.47, -82.47, -82.47, -82.47, -82.47, -82.47, -82.47, -82.47, -82.47, -82.47, '-82.4'),
        (1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, '1.739'),
        (-71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, -71.2312, '-71.2'),
        (1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, 1.739, '1.739'),
        (0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, 0.0002, '0.000'),
        (0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, '0.00')]], 
      dtype=[('LOCATION_THETA', '<f8'), ('LOCATION_PHI', '<f8'), ('ETHETA_MAGN', '<f8'), ('ETHETA_PHASE', '<f8'), ('EPHI_MAGN', '<f8'), ('EPHI_PHASE', '<f8'), ('DIRECTIVITY_VERT', '<f8'), ('DIRECTIVITY_HORIZ', '<f8'), ('DIRECTIVITY_TOTAL', '<f8'), ('POLARISATION_AXIALR', '<f8'), ('POLARISATION_ANGLE', '<f8'), ('POLARISATION_DIRECTION', 'S5')])

So, you can see that for each element you get a nice little tuple ('record') with dtype datatype1 (it even makes the last one a string for you).

There are a few ways around this, the best way is to create/import the array with the proper dtype from the start, so that you never have to copy it. For some conversions, it is possible to make a view where it simple interprets the data as if it had the new complex dtype, but this will not convert a string to a number, since that is more complicated than just pretending the data is a number.

In your case, you should probably use a recarray which is slightly more complicated than a regular structured array, then you can use the fromarrays function. It expects a list of columns, each with uniform type, not of rows, hence the transpose:

>>> np.rec.fromarrays(t.T, dt)
rec.array([ (0.0, 0.0, 0.5751, -2.08, 9.532e-05, -86.19, 1.7442, -73.867, 1.7442, 0.0002, 0.0, 'RIGHT'),
       (2.0, 0.0, 0.5747, -2.11, 0.0001291, -82.47, 1.739, -71.2312, 1.739, 0.0002, 0.0, 'RIGHT'),
       (4.0, 0.0, 0.5738, -2.21, 0.0001632, -80.31, 1.7243, -69.1973, 1.7243, 0.0003, 0.0, 'RIGHT'),
       (6.0, 0.0, 0.5722, -2.38, 0.0001973, -78.94, 1.7001, -67.5479, 1.7001, 0.0003, 0.0, 'RIGHT'),
       (8.0, 0.0, 0.5699, -2.61, 0.0002314, -78.02, 1.6663, -66.1644, 1.6663, 0.0004, 0.01, 'RIGHT')], 
      dtype=[('LOCATION_THETA', '<f8'), ('LOCATION_PHI', '<f8'), ('ETHETA_MAGN', '<f8'), ('ETHETA_PHASE', '<f8'), ('EPHI_MAGN', '<f8'), ('EPHI_PHASE', '<f8'), ('DIRECTIVITY_VERT', '<f8'), ('DIRECTIVITY_HORIZ', '<f8'), ('DIRECTIVITY_TOTAL', '<f8'), ('POLARISATION_AXIALR', '<f8'), ('POLARISATION_ANGLE', '<f8'), ('POLARISATION_DIRECTION', 'S5')])

Lovely! But wait, it is now this rec.array... If you want to keep it that way, it's fine. If you want it to be a regular structured array, do:

>>> np.asarray(np.rec.fromarrays(t.T, dt))
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