From: W. Trevor King Date: Fri, 4 Jun 2010 05:15:46 +0000 (-0400) Subject: Add hooke.driver.igorbinarywave so Hooke can read Igor files. X-Git-Tag: v0.2~56 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=bf9cd0a01312928dbe2f4769d1d1b7c032bd8ff3;p=igor.git Add hooke.driver.igorbinarywave so Hooke can read Igor files. --- diff --git a/hooke/driver/igorbinarywave.py b/hooke/driver/igorbinarywave.py new file mode 100644 index 0000000..45af198 --- /dev/null +++ b/hooke/driver/igorbinarywave.py @@ -0,0 +1,508 @@ +#!/usr/bin/python +# +# igorbinarywave provides pure Python interface between IGOR Binary +# Wave files and Numpy arrays. +# +# Copyright 2010 W. Trevor King + +# Based on WaveMetric's Technical Note 003, "Igor Binary Format" +# ftp://ftp.wavemetrics.net/IgorPro/Technical_Notes/TN003.zip +# From ftp://ftp.wavemetrics.net/IgorPro/Technical_Notes/TN000.txt +# We place no restrictions on copying Technical Notes, with the +# exception that you cannot resell them. So read, enjoy, and +# share. We hope IGOR Technical Notes will provide you with lots of +# valuable information while you are developing IGOR applications. + +import array +import struct +import sys +import types + +import numpy + + +__version__ = '0.1' + + +class Field (object): + """Represent a Structure field. + + See Also + -------- + Structure + """ + def __init__(self, format, name, default=None, help=None, count=1): + self.format = format # See the struct documentation + self.name = name + self.default = None + self.help = help + self.count = count + self.total_count = numpy.prod(count) + +class Structure (struct.Struct): + """Represent a C structure. + + A convenient wrapper around struct.Struct that uses Fields and + adds dict-handling methods for transparent name assignment. + + See Also + -------- + Field + + Examples + -------- + + Represent the C structure:: + + struct thing { + short version; + long size[3]; + } + + As + + >>> from pprint import pprint + >>> thing = Structure(name='thing', + ... fields=[Field('h', 'version'), Field('l', 'size', count=3)]) + >>> thing.set_byte_order('>') + >>> b = array.array('b', range(2+4*3)) + >>> d = thing.unpack_dict_from(buffer=b) + >>> pprint(d) + {'size': array([ 33752069, 101124105, 168496141]), 'version': 1} + >>> [hex(x) for x in d['size']] + ['0x2030405L', '0x6070809L', '0xa0b0c0dL'] + + You can even get fancy with multi-dimensional arrays. + + >>> thing = Structure(name='thing', + ... fields=[Field('h', 'version'), Field('l', 'size', count=(3,2))]) + >>> thing.set_byte_order('>') + >>> b = array.array('b', range(2+4*3*2)) + >>> d = thing.unpack_dict_from(buffer=b) + >>> d['size'].shape + (3, 2) + >>> pprint(d) + {'size': array([[ 33752069, 101124105], + [168496141, 235868177], + [303240213, 370612249]]), + 'version': 1} + """ + def __init__(self, name, fields, byte_order='='): + # '=' for native byte order, standard size and alignment + # See http://docs.python.org/library/struct for details + self.name = name + self.fields = fields + self.set_byte_order(byte_order) + + def __str__(self): + return self.name + + def set_byte_order(self, byte_order): + """Allow changing the format byte_order on the fly. + """ + if (hasattr(self, 'format') and self.format != None + and self.format.startswith(byte_order)): + return # no need to change anything + format = [] + for field in self.fields: + format.extend([field.format]*field.total_count) + struct.Struct.__init__(self, format=byte_order+''.join(format).replace('P', 'L')) + + def _flatten_args(self, args): + # handle Field.count > 0 + flat_args = [] + for a,f in zip(args, self.fields): + if f.total_count > 1: + flat_args.extend(a) + else: + flat_args.append(a) + return flat_args + + def _unflatten_args(self, args): + # handle Field.count > 0 + unflat_args = [] + i = 0 + for f in self.fields: + if f.total_count > 1: + data = numpy.array(args[i:i+f.total_count]) + data = data.reshape(f.count) + unflat_args.append(data) + else: + unflat_args.append(args[i]) + i += f.total_count + return unflat_args + + def pack(self, *args): + return struct.Struct.pack(self, *self._flatten_args(args)) + + def pack_into(self, buffer, offset, *args): + return struct.Struct.pack_into(self, buffer, offset, + *self._flatten_args(args)) + + def _clean_dict(self, dict): + for f in self.fields: + if f.name not in dict: + if f.default != None: + dict[f.name] = f.default + else: + raise ValueError('%s field not set for %s' + % f.name, self.__class__.__name__) + return dict + + def pack_dict(self, dict): + dict = self._clean_dict(dict) + return self.pack(*[dict[f.name] for f in self.fields]) + + def pack_dict_into(self, buffer, offset, dict={}): + dict = self._clean_dict(dict) + return self.pack_into(buffer, offset, + *[dict[f.name] for f in self.fields]) + + def unpack(self, string): + return self._unflatten_args(struct.Struct.unpack(self, string)) + + def unpack_from(self, buffer, offset=0): + return self._unflatten_args( + struct.Struct.unpack_from(self, buffer, offset)) + + def unpack_dict(self, string): + return dict(zip([f.name for f in self.fields], + self.unpack(string))) + + def unpack_dict_from(self, buffer, offset=0): + return dict(zip([f.name for f in self.fields], + self.unpack_from(buffer, offset))) + + +# Numpy doesn't support complex integers by default, see +# http://mail.python.org/pipermail/python-dev/2002-April/022408.html +# http://mail.scipy.org/pipermail/numpy-discussion/2007-October/029447.html +# So we roll our own types. See +# http://docs.scipy.org/doc/numpy/user/basics.rec.html +# http://docs.scipy.org/doc/numpy/reference/generated/numpy.dtype.html +complexInt8 = numpy.dtype([('real', numpy.int8), ('imag', numpy.int8)]) +complexInt16 = numpy.dtype([('real', numpy.int16), ('imag', numpy.int16)]) +complexInt32 = numpy.dtype([('real', numpy.int32), ('imag', numpy.int32)]) +complexUInt8 = numpy.dtype([('real', numpy.uint8), ('imag', numpy.uint8)]) +complexUInt16 = numpy.dtype([('real', numpy.uint16), ('imag', numpy.uint16)]) +complexUInt32 = numpy.dtype([('real', numpy.uint32), ('imag', numpy.uint32)]) + + +# Begin IGOR constants and typedefs from IgorBin.h + +# From IgorMath.h +TYPE_TABLE = { # (key: integer flag, value: numpy dtype) + 0:None, # Text wave, not handled in ReadWave.c + 1:numpy.complex, # NT_CMPLX, makes number complex. + 2:numpy.float32, # NT_FP32, 32 bit fp numbers. + 3:numpy.complex64, + 4:numpy.float64, # NT_FP64, 64 bit fp numbers. + 5:numpy.complex128, + 8:numpy.int8, # NT_I8, 8 bit signed integer. Requires Igor Pro + # 2.0 or later. + 9:complexInt8, + 0x10:numpy.int16,# NT_I16, 16 bit integer numbers. Requires Igor + # Pro 2.0 or later. + 0x11:complexInt16, + 0x20:numpy.int32,# NT_I32, 32 bit integer numbers. Requires Igor + # Pro 2.0 or later. + 0x21:complexInt32, +# 0x40:None, # NT_UNSIGNED, Makes above signed integers +# # unsigned. Requires Igor Pro 3.0 or later. + 0x48:numpy.uint8, + 0x49:complexUInt8, + 0x50:numpy.uint16, + 0x51:complexUInt16, + 0x60:numpy.uint32, + 0x61:complexUInt32, +} + +# From wave.h +MAXDIMS = 4 + +# From binary.h +BinHeaderCommon = Structure( # WTK: this one is mine. + name='BinHeaderCommon', + fields=[ + Field('h', 'version', help='Version number for backwards compatibility.'), + ]) + +BinHeader1 = Structure( + name='BinHeader1', + fields=[ + Field('h', 'version', help='Version number for backwards compatibility.'), + Field('l', 'wfmSize', help='The size of the WaveHeader2 data structure plus the wave data plus 16 bytes of padding.'), + Field('h', 'checksum', help='Checksum over this header and the wave header.'), + ]) + +BinHeader2 = Structure( + name='BinHeader2', + fields=[ + Field('h', 'version', help='Version number for backwards compatibility.'), + Field('l', 'wfmSize', help='The size of the WaveHeader2 data structure plus the wave data plus 16 bytes of padding.'), + Field('l', 'noteSize', help='The size of the note text.'), + Field('l', 'pictSize', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('h', 'checksum', help='Checksum over this header and the wave header.'), + ]) + +BinHeader3 = Structure( + name='BinHeader3', + fields=[ + Field('h', 'version', help='Version number for backwards compatibility.'), + Field('h', 'wfmSize', help='The size of the WaveHeader2 data structure plus the wave data plus 16 bytes of padding.'), + Field('l', 'noteSize', help='The size of the note text.'), + Field('l', 'formulaSize', help='The size of the dependency formula, if any.'), + Field('l', 'pictSize', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('h', 'checksum', help='Checksum over this header and the wave header.'), + ]) + +BinHeader5 = Structure( + name='BinHeader5', + fields=[ + Field('h', 'version', help='Version number for backwards compatibility.'), + Field('h', 'checksum', help='Checksum over this header and the wave header.'), + Field('l', 'wfmSize', help='The size of the WaveHeader5 data structure plus the wave data.'), + Field('l', 'formulaSize', help='The size of the dependency formula, if any.'), + Field('l', 'noteSize', help='The size of the note text.'), + Field('l', 'dataEUnitsSize', help='The size of optional extended data units.'), + Field('l', 'dimEUnitsSize', help='The size of optional extended dimension units.', count=MAXDIMS), + Field('l', 'dimLabelsSize', help='The size of optional dimension labels.', count=MAXDIMS), + Field('l', 'sIndicesSize', help='The size of string indicies if this is a text wave.'), + Field('l', 'optionsSize1', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('l', 'optionsSize2', default=0, help='Reserved. Write zero. Ignore on read.'), + ]) + + +# From wave.h +MAX_WAVE_NAME2 = 18 # Maximum length of wave name in version 1 and 2 + # files. Does not include the trailing null. +MAX_WAVE_NAME5 = 31 # Maximum length of wave name in version 5 + # files. Does not include the trailing null. +MAX_UNIT_CHARS = 3 + +# Header to an array of waveform data. + +WaveHeader2 = Structure( + name='WaveHeader2', + fields=[ + Field('h', 'type', help='See types (e.g. NT_FP64) above. Zero for text waves.'), + Field('P', 'next', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('c', 'bname', help='Name of wave plus trailing null.', count=MAX_WAVE_NAME2+2), + Field('h', 'whVersion', default=0, help='Write 0. Ignore on read.'), + Field('h', 'srcFldr', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('P', 'fileName', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('c', 'dataUnits', default=0, help='Natural data units go here - null if none.', count=MAX_UNIT_CHARS+1), + Field('c', 'xUnits', default=0, help='Natural x-axis units go here - null if none.', count=MAX_UNIT_CHARS+1), + Field('l', 'npnts', help='Number of data points in wave.'), + Field('h', 'aModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('d', 'hsA', help='X value for point p = hsA*p + hsB'), + Field('d', 'hsB', help='X value for point p = hsA*p + hsB'), + Field('h', 'wModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('h', 'swModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('h', 'fsValid', help='True if full scale values have meaning.'), + Field('d', 'topFullScale', help='The min full scale value for wave.'), # sic, 'min' should probably be 'max' + Field('d', 'botFullScale', help='The min full scale value for wave.'), + Field('c', 'useBits', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('c', 'kindBits', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('P', 'formula', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('l', 'depID', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('L', 'creationDate', help='DateTime of creation. Not used in version 1 files.'), + Field('c', 'wUnused', default=0, help='Reserved. Write zero. Ignore on read.', count=2), + Field('L', 'modDate', help='DateTime of last modification.'), + Field('P', 'waveNoteH', help='Used in memory only. Write zero. Ignore on read.'), + Field('f', 'wData', help='The start of the array of waveform data.', count=4), + ]) + +WaveHeader5 = Structure( + name='WaveHeader5', + fields=[ + Field('P', 'next', help='link to next wave in linked list.'), + Field('L', 'creationDate', help='DateTime of creation.'), + Field('L', 'modDate', help='DateTime of last modification.'), + Field('l', 'npnts', help='Total number of points (multiply dimensions up to first zero).'), + Field('h', 'type', help='See types (e.g. NT_FP64) above. Zero for text waves.'), + Field('h', 'dLock', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('c', 'whpad1', default=0, help='Reserved. Write zero. Ignore on read.', count=6), + Field('h', 'whVersion', default=1, help='Write 1. Ignore on read.'), + Field('c', 'bname', help='Name of wave plus trailing null.', count=MAX_WAVE_NAME5+1), + Field('l', 'whpad2', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('P', 'dFolder', default=0, help='Used in memory only. Write zero. Ignore on read.'), + # Dimensioning info. [0] == rows, [1] == cols etc + Field('l', 'nDim', help='Number of of items in a dimension -- 0 means no data.', count=MAXDIMS), + Field('d', 'sfA', help='Index value for element e of dimension d = sfA[d]*e + sfB[d].', count=MAXDIMS), + Field('d', 'sfB', help='Index value for element e of dimension d = sfA[d]*e + sfB[d].', count=MAXDIMS), + # SI units + Field('c', 'dataUnits', default=0, help='Natural data units go here - null if none.', count=MAX_UNIT_CHARS+1), + Field('c', 'dimUnits', default=0, help='Natural dimension units go here - null if none.', count=(MAXDIMS, MAX_UNIT_CHARS+1)), + Field('h', 'fsValid', help='TRUE if full scale values have meaning.'), + Field('h', 'whpad3', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('d', 'topFullScale', help='The max and max full scale value for wave'), # sic, probably "max and min" + Field('d', 'botFullScale', help='The max and max full scale value for wave.'), # sic, probably "max and min" + Field('P', 'dataEUnits', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('P', 'dimEUnits', default=0, help='Used in memory only. Write zero. Ignore on read.', count=MAXDIMS), + Field('P', 'dimLabels', default=0, help='Used in memory only. Write zero. Ignore on read.', count=MAXDIMS), + Field('P', 'waveNoteH', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('l', 'whUnused', default=0, help='Reserved. Write zero. Ignore on read.', count=16), + # The following stuff is considered private to Igor. + Field('h', 'aModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('h', 'wModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('h', 'swModified', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('c', 'useBits', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('c', 'kindBits', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('P', 'formula', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('l', 'depID', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('h', 'whpad4', default=0, help='Reserved. Write zero. Ignore on read.'), + Field('h', 'srcFldr', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('P', 'fileName', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('P', 'sIndices', default=0, help='Used in memory only. Write zero. Ignore on read.'), + Field('f', 'wData', help='The start of the array of data. Must be 64 bit aligned.', count=1), + ]) + +# End IGOR constants and typedefs from IgorBin.h + +# Begin functions from ReadWave.c + +def need_to_reorder_bytes(version): + # If the low order byte of the version field of the BinHeader + # structure is zero then the file is from a platform that uses + # different byte-ordering and therefore all data will need to be + # reordered. + return version & 0xFF == 0 + +def byte_order(needToReorderBytes): + little_endian = sys.byteorder == 'little' + if needToReorderBytes: + little_endian = not little_endian + if little_endian: + return '<' # little-endian + return '>' # big-endian + +def version_structs(version, byte_order): + if version == 1: + bin = BinHeader1 + wave = WaveHeader2 + elif version == 2: + bin = BinHeader2 + wave = WaveHeader2 + elif version == 3: + bin = BinHeader3 + wave = WaveHeader2 + elif version == 5: + bin = BinHeader5 + wave = WaveHeader5 + else: + raise ValueError('This does not appear to be a valid Igor binary wave file. The version field = %d.\n', version); + checkSumSize = bin.size + wave.size + if version == 5: + checkSumSize -= 4 # Version 5 checksum does not include the wData field. + bin.set_byte_order(byte_order) + wave.set_byte_order(byte_order) + return (bin, wave, checkSumSize) + +def checksum(buffer, byte_order, oldcksum, numbytes): + x = numpy.ndarray( + (numbytes/2,), # 2 bytes to a short -- ignore trailing odd byte + dtype=numpy.dtype(byte_order+'h'), + buffer=buffer) + oldcksum += x.sum() + if oldcksum > 2**31: # fake the C implementation's int rollover + oldcksum %= 2**32 + if oldcksum > 2**31: + oldcksum -= 2**31 + return oldcksum & 0xffff + +# Translated from ReadWave() +def loadibw(filename): + if hasattr(filename, 'read'): + f = filename # filename is actually a stream object + else: + f = open(filename, 'rb') + try: + b = buffer(f.read(BinHeaderCommon.size)) + version = BinHeaderCommon.unpack_dict_from(b)['version'] + needToReorderBytes = need_to_reorder_bytes(version) + byteOrder = byte_order(needToReorderBytes) + + if needToReorderBytes: + BinHeaderCommon.set_byte_order(byteOrder) + version = BinHeaderCommon.unpack_dict_from(b)['version'] + bin_struct,wave_struct,checkSumSize = version_structs(version, byteOrder) + + b = buffer(b + f.read(bin_struct.size + wave_struct.size - BinHeaderCommon.size)) + c = checksum(b, byteOrder, 0, checkSumSize) + if c != 0: + raise ValueError('Error in checksum - should be 0, is %d. This does not appear to be a valid Igor binary wave file.' % c) + bin_info = bin_struct.unpack_dict_from(b) + wave_info = wave_struct.unpack_dict_from(b, offset=bin_struct.size) + if wave_info['type'] == 0: + raise NotImplementedError('Text wave') + if version in [1,2,3]: + tail = 16 # 16 = size of wData field in WaveHeader2 structure + waveDataSize = bin_info['wfmSize'] - wave_struct.size + # = bin_info['wfmSize']-16 - (wave_struct.size - tail) + else: + assert version == 5, version + tail = 4 # 4 = size of wData field in WaveHeader5 structure + waveDataSize = bin_info['wfmSize'] - (wave_struct.size - tail) + # dtype() wrapping to avoid numpy.generic and + # getset_descriptor issues with the builtin Numpy types + # (e.g. int32). It has no effect on our local complex + # integers. + t = numpy.dtype(TYPE_TABLE[wave_info['type']]) + assert waveDataSize == wave_info['npnts'] * t.itemsize, \ + ('%d, %d, %d, %s' % (waveDataSize, wave_info['npnts'], t.itemsize, t)) + tail_data = array.array('f', b[-tail:]) + data_b = buffer(buffer(tail_data) + f.read(waveDataSize-tail)) + data = numpy.ndarray( + wave_info['npnts'], + dtype=t.newbyteorder(byteOrder), + buffer=data_b + ) + finally: + if not hasattr(filename, 'read'): + f.close() + + return data, bin_info, wave_info + + +def saveibw(filename): + raise NotImplementedError + + +if __name__ == '__main__': + """IBW -> ASCII conversion + """ + import optparse + import sys + + p = optparse.OptionParser(version=__version__) + + p.add_option('-f', '--infile', dest='infile', metavar='FILE', + default='-', help='Input IGOR Binary Wave (.ibw) file.') + p.add_option('-o', '--outfile', dest='outfile', metavar='FILE', + default='-', help='File for ASCII output.') + p.add_option('-v', '--verbose', dest='verbose', default=0, + action='count', help='Increment verbosity') + p.add_option('-t', '--test', dest='test', default=False, + action='store_true', help='Run internal tests and exit.') + + options,args = p.parse_args() + + if options.test == True: + import doctest + num_failures,num_tests = doctest.testmod(verbose=options.verbose) + sys.exit(min(num_failures, 127)) + + if len(args) > 0 and options.infile == None: + options.infile = args[0] + if options.infile == '-': + options.infile = sys.stdin + if options.outfile == '-': + options.outfile = sys.stdout + + data,bin_info,wave_info = loadibw(options.infile) + numpy.savetxt(options.outfile, data, fmt='%g', delimiter='\n') + if options.verbose > 0: + import pprint + pprint.pprint(bin_info) + pprint.pprint(wave_info)