f.path = path
zip_info = self._zip_info(f)
version = zip_info['file-format-version']
+ if zip_info['jpk-data-file'] == 'jpk-data1D-file':
+ return self._zip_read_1d(
+ f, path, info, zip_info, version)
+ elif zip_info['jpk-data-file'] != 'spm-forcefile':
+ raise ValueError('unrecognized JPK file type "%s"'
+ % zip_info['jpk-data-file'])
segments = []
for i in range(len([p for p in f.namelist()
if p.endswith('segment-header.properties')])):
zipfile, index, chan, chan_info))
if channels[-1].shape != expected_shape:
raise NotImplementedError(
- 'Channel %d:%s in %s has strange shape %s != %s'
+ 'channel %d:%s in %s has strange shape %s != %s'
% (index, chan, zipfile.path,
channels[-1].shape, expected_shape))
if len(channels) > 0:
'segments', str(segment_index),
chan_info['data']['file']['name']), 'r')) as f:
assert chan_info['data']['file']['format'] == 'raw', \
- 'Non-raw data format:\n%s' % pprint.pformat(chan_info)
+ 'non-raw data format:\n%s' % pprint.pformat(chan_info)
dtype = self._zip_channel_dtype(chan_info)
data = numpy.frombuffer(
buffer(f.read()),
dtype=dtype,)
+ if dtype.kind in ['i', 'u']:
+ data = self._zip_channel_decode(data, chan_info)
return data
def _zip_calculate_channel(self, chan_info):
step=step,
dtype=numpy.float32)
else:
- raise ValueError('Unrecognized data format "%s"' % type_)
+ raise ValueError('unrecognized data format "%s"' % type_)
def _zip_channel_dtype(self, chan_info):
type_ = chan_info['data']['type']
elif encoder in ['unsignedinteger', 'unsignedinteger-limited']:
dtype = numpy.dtype(numpy.uint32)
else:
- raise ValueError('Unrecognized encoder type "%s" for "%s" data'
+ raise ValueError('unrecognized encoder type "%s" for "%s" data'
% (encoder, type_))
elif type_ in ['short-data', 'short', 'memory-short-data']:
encoder = chan_info['data']['encoder']['type']
elif encoder in ['unsignedshort', 'unsignedshort-limited']:
dtype = numpy.dtype(numpy.uint16)
else:
- raise ValueError('Unrecognized encoder type "%s" for "%s" data'
+ raise ValueError('unrecognized encoder type "%s" for "%s" data'
% (encoder, type_))
else:
- raise ValueError('Unrecognized data format "%s"' % type_)
+ raise ValueError('unrecognized data format "%s"' % type_)
byte_order = '>'
# '>' (big endian) byte order.
# From version 0.3 of JPKForceSpec.txt in the "Binary data" section:
# float (4 bytes, IEEE format).
return dtype.newbyteorder(byte_order)
+ def _zip_channel_decode(self, data, encoder_info):
+ return self._zip_apply_channel_scaling(
+ data, encoder_info['data']['encoder'])
+
def _zip_translate_params(self, params, chan_info, version):
info = {
'raw info':params,
pass # Fall through to 'simple' conversion processing.
else:
assert conversion_info['type'] == 'simple', conversion_info['type']
+ segment[:,channel] = self._zip_apply_channel_scaling(
+ segment[:,channel], conversion_info)
+ unit = self._zip_unit(conversion_info['scaling'], version)
+ segment.info['columns'][channel] = join_data_label(channel_name, unit)
+ return segment
+
+ def _zip_apply_channel_scaling(self, channel_data, conversion_info):
assert conversion_info['scaling']['type'] == 'linear', \
conversion_info['scaling']['type']
assert conversion_info['scaling']['style'] == 'offsetmultiplier', \
conversion_info['scaling']['style']
multiplier = float(conversion_info['scaling']['multiplier'])
offset = float(conversion_info['scaling']['offset'])
- unit = self._zip_unit(conversion_info['scaling'], version)
- segment[:,channel] = segment[:,channel] * multiplier + offset
- segment.info['columns'][channel] = join_data_label(channel_name, unit)
- return segment
+ return channel_data * multiplier + offset
def _zip_unit(self, conversion_info, version):
if version in ['0.%d' % i for i in range(3)]:
sub_info[setting[-1]] = fields[1]
return info
+ def _zip_read_1d(self, zipfile, path, info, zip_info, version):
+ expected_shape = (int(zip_info['data']['num-points']),)
+ if zip_info['data']['type'] in ['constant-data', 'raster-data']:
+ return self._zip_calculate_channel(zip_info)
+ with Closing(zipfile.open(
+ zip_info['data']['file']['name'], 'r')) as f:
+ assert zip_info['data']['file']['format'] == 'raw', \
+ 'non-raw data format:\n%s' % pprint.pformat(chan_info)
+ dtype = self._zip_channel_dtype(zip_info)
+ data = numpy.frombuffer(
+ buffer(f.read()),
+ dtype=dtype,)
+ if dtype.kind in ['i', 'u']:
+ data = self._zip_channel_decode(data, zip_info)
+ if data.shape != expected_shape:
+ raise NotImplementedError(
+ 'channel %s has strange shape %s != %s'
+ % (path, data.shape, expected_shape))
+ d = curve.Data(
+ shape=data.shape,
+ dtype=data.dtype,
+ info=zip_info)
+ d[:] = data
+ return d
+
def _read_old(self, path, info):
raise NotImplementedError(
"Early JPK files (pre-zip) are not supported by Hooke. Please "
"use JPK's `out2jpk-force` script to convert your old files "
- "to a more recent format before loading them with Hooke.")
+ "(%s) to a more recent format before loading them with Hooke."
+ % path)
projects / hooke.git / commitdiff