abs_reader.py @ 379e15b

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload

Last change on this file since 379e15b was 28caa03, checked in by Mathieu Doucet <doucetm@…>, 15 years ago
Improved hierarchical reader structure, put back reader plugin, minor fixes.
Property mode set to `100644`
File size: 10.0 KB

Rev	Line
[d8a5f12]	1	"""
	2	This software was developed by the University of Tennessee as part of the
	3	Distributed Data Analysis of Neutron Scattering Experiments (DANSE)
	4	project funded by the US National Science Foundation.
	5
	6	See the license text in license.txt
	7
	8	copyright 2008, University of Tennessee
	9	"""
	10
	11	import numpy
	12	import os
[99d1af6]	13	from DataLoader.data_info import Data1D, Detector
[d8a5f12]	14
[99d1af6]	15	has_converter = True
	16	try:
	17	from data_util.nxsunit import Converter
	18	except:
	19	has_converter = False
	20
[d8a5f12]	21	class Reader:
	22	"""
	23	Class to load IGOR reduced .ABS files
	24	"""
[8780e9a]	25	## File type
[28caa03]	26	type_name = "IGOR 1D"
	27	## Wildcards
[8780e9a]	28	type = ["IGOR 1D files (.abs)\|.abs"]
[d8a5f12]	29	## List of allowed extensions
[8bd8ea4]	30	ext=['.abs', '.ABS']
[d8a5f12]	31
	32	def read(self, path):
	33	"""
	34	Load data file
	35
	36	@param path: file path
	37	@return: Data1D object, or None
	38	@raise RuntimeError: when the file can't be opened
	39	@raise ValueError: when the length of the data vectors are inconsistent
	40	"""
	41	if os.path.isfile(path):
	42	basename = os.path.basename(path)
	43	root, extension = os.path.splitext(basename)
	44	if extension.lower() in self.ext:
	45	try:
	46	input_f = open(path,'r')
	47	except :
	48	raise RuntimeError, "abs_reader: cannot open %s" % path
	49	buff = input_f.read()
	50	lines = buff.split('\n')
	51	x = numpy.zeros(0)
	52	y = numpy.zeros(0)
	53	dy = numpy.zeros(0)
[148ad64]	54	dx = numpy.zeros(0)
	55	output = Data1D(x, y, dy=dy, dx=dx)
[99d1af6]	56	detector = Detector()
	57	output.detector.append(detector)
[b99ac227]	58	output.filename = basename
[d8a5f12]	59
	60	is_info = False
	61	is_center = False
	62	is_data_started = False
	63
[99d1af6]	64	data_conv_q = None
	65	data_conv_i = None
	66
[ca10d8e]	67	if has_converter == True and output.x_unit != '1/A':
	68	data_conv_q = Converter('1/A')
[99d1af6]	69	# Test it
	70	data_conv_q(1.0, output.x_unit)
	71
[ca10d8e]	72	if has_converter == True and output.y_unit != '1/cm':
	73	data_conv_i = Converter('1/cm')
[99d1af6]	74	# Test it
	75	data_conv_i(1.0, output.y_unit)
	76
[d8a5f12]	77	for line in lines:
[470bf7e]	78
[d8a5f12]	79	# Information line 1
	80	if is_info==True:
	81	is_info = False
	82	line_toks = line.split()
	83
	84	# Wavelength in Angstrom
	85	try:
[99d1af6]	86	value = float(line_toks[1])
	87	if has_converter==True and output.source.wavelength_unit != 'A':
	88	conv = Converter('A')
	89	output.source.wavelength = conv(value, units=output.source.wavelength_unit)
	90	else:
	91	output.source.wavelength = value
[d8a5f12]	92	except:
[470bf7e]	93	#goes to ASC reader
	94	raise RuntimeError, "abs_reader: cannot open %s" % path
[148ad64]	95	#raise ValueError,"IgorReader: can't read this file, missing wavelength"
[d8a5f12]	96
	97	# Distance in meters
	98	try:
[99d1af6]	99	value = float(line_toks[3])
	100	if has_converter==True and detector.distance_unit != 'm':
	101	conv = Converter('m')
	102	detector.distance = conv(value, units=detector.distance_unit)
	103	else:
	104	detector.distance = value
[d8a5f12]	105	except:
[470bf7e]	106	#goes to ASC reader
	107	raise RuntimeError, "abs_reader: cannot open %s" % path
[d8a5f12]	108
[99d1af6]	109	# Transmission
[d8a5f12]	110	try:
	111	output.sample.transmission = float(line_toks[4])
	112	except:
	113	# Transmission is not a mandatory entry
	114	pass
	115
[99d1af6]	116	# Thickness in mm
[d8a5f12]	117	try:
[99d1af6]	118	value = float(line_toks[5])
[b99ac227]	119	if has_converter==True and output.sample.thickness_unit != 'cm':
	120	conv = Converter('cm')
[99d1af6]	121	output.sample.thickness = conv(value, units=output.sample.thickness_unit)
	122	else:
	123	output.sample.thickness = value
[d8a5f12]	124	except:
	125	# Thickness is not a mandatory entry
	126	pass
[470bf7e]	127
	128	#MON CNT LAMBDA DET ANG DET DIST TRANS THICK AVE STEP
	129	if line.count("LAMBDA")>0:
	130	is_info = True
[d8a5f12]	131
[470bf7e]	132	# Find center info line
	133	if is_center==True:
	134	is_center = False
	135	line_toks = line.split()
	136	# Center in bin number
	137	center_x = float(line_toks[0])
	138	center_y = float(line_toks[1])
[99d1af6]	139
[470bf7e]	140	# Bin size
	141	if has_converter==True and detector.pixel_size_unit != 'mm':
	142	conv = Converter('mm')
	143	detector.pixel_size.x = conv(5.0, units=detector.pixel_size_unit)
	144	detector.pixel_size.y = conv(5.0, units=detector.pixel_size_unit)
	145	else:
	146	detector.pixel_size.x = 5.0
	147	detector.pixel_size.y = 5.0
[99d1af6]	148
[470bf7e]	149	# Store beam center in distance units
	150	# Det 640 x 640 mm
	151	if has_converter==True and detector.beam_center_unit != 'mm':
	152	conv = Converter('mm')
	153	detector.beam_center.x = conv(center_x*5.0, units=detector.beam_center_unit)
	154	detector.beam_center.y = conv(center_y*5.0, units=detector.beam_center_unit)
	155	else:
	156	detector.beam_center.x = center_x*5.0
	157	detector.beam_center.y = center_y*5.0
[d8a5f12]	158
[470bf7e]	159	# Detector type
	160	try:
	161	detector.name = line_toks[7]
	162	except:
	163	# Detector name is not a mandatory entry
	164	pass
	165
	166	#BCENT(X,Y) A1(mm) A2(mm) A1A2DIST(m) DL/L BSTOP(mm) DET_TYP
	167	if line.count("BCENT")>0:
	168	is_center = True
[d8a5f12]	169
[470bf7e]	170	# Parse the data
	171	if is_data_started==True:
	172	toks = line.split()
	173
	174	try:
	175	_x = float(toks[0])
	176	_y = float(toks[1])
	177	_dy = float(toks[2])
	178	_dx = float(toks[3])
[99d1af6]	179
[470bf7e]	180	if data_conv_q is not None:
	181	_x = data_conv_q(_x, units=output.x_unit)
	182	_dx = data_conv_i(_dx, units=output.x_unit)
[148ad64]	183
[470bf7e]	184	if data_conv_i is not None:
	185	_y = data_conv_i(_y, units=output.y_unit)
	186	_dy = data_conv_i(_dy, units=output.y_unit)
	187
	188	x = numpy.append(x, _x)
	189	y = numpy.append(y, _y)
	190	dy = numpy.append(dy, _dy)
	191	dx = numpy.append(dx, _dx)
	192
	193	except:
	194	# Could not read this data line. If we are here
	195	# it is because we are in the data section. Just
	196	# skip it.
	197	pass
[148ad64]	198
[470bf7e]	199	#The 6 columns are \| Q (1/A) \| I(Q) (1/cm) \| std. dev. I(Q) (1/cm) \| sigmaQ \| meanQ \| ShadowFactor\|
	200	if line.count("The 6 columns")>0:
	201	is_data_started = True
	202
[d8a5f12]	203	# Sanity check
	204	if not len(y) == len(dy):
	205	raise ValueError, "abs_reader: y and dy have different length"
[8bd8ea4]	206
	207	# If the data length is zero, consider this as
	208	# though we were not able to read the file.
	209	if len(x)==0:
	210	raise ValueError, "ascii_reader: could not load file"
[d8a5f12]	211
	212	output.x = x
	213	output.y = y
	214	output.dy = dy
[148ad64]	215	output.dx = dx
[99d1af6]	216	if data_conv_q is not None:
	217	output.xaxis("\\rm{Q}", output.x_unit)
	218	else:
	219	output.xaxis("\\rm{Q}", 'A^{-1}')
	220	if data_conv_i is not None:
[0e2aa40]	221	output.yaxis("\\rm{Intensity}", output.y_unit)
[99d1af6]	222	else:
[0e2aa40]	223	output.yaxis("\\rm{Intensity}","cm^{-1}")
[d8a5f12]	224	return output
	225	else:
	226	raise RuntimeError, "%s is not a file" % path
	227	return None
	228
	229	if __name__ == "__main__":
	230	reader = Reader()
[470bf7e]	231	print reader.read("../test/jan08002.ABS")
[d8a5f12]	232
	233
	234

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source: sasview/DataLoader/readers/abs_reader.py @ 379e15b

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