instrument.py @ ef3445e2

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 ef3445e2 was 79492222, checked in by krzywon, 10 years ago
Changed the file and folder names to remove all SANS references.
Property mode set to `100644`
File size: 10.5 KB

Rev	Line
[3be3a80]	1	"""
[8a621ac]	2	This module is a small tool to allow user to
	3	control instrumental parameters
[3be3a80]	4	"""
	5	import numpy
	6
	7	# defaults in cgs unit
	8	_SAMPLE_A_SIZE = [1.27]
[8a621ac]	9	_SOURCE_A_SIZE = [3.81]
	10	_SAMPLE_DISTANCE = [1627, 0]
	11	_SAMPLE_OFFSET = [0, 0]
	12	_SAMPLE_SIZE = [2.54]
	13	_SAMPLE_THICKNESS = 0.2
	14	_D_DISTANCE = [1000, 0]
[3be3a80]	15	_D_SIZE = [128, 128]
[8a621ac]	16	_D_PIX_SIZE = [0.5, 0.5]
[3be3a80]	17
	18	_MIN = 0.0
[580ee7a]	19	_MAX = 50.0
[3be3a80]	20	_INTENSITY = 368428
	21	_WAVE_LENGTH = 6.0
	22	_WAVE_SPREAD = 0.125
[8a621ac]	23	_MASS = 1.67492729E-24 # [gr]
	24	_LAMBDA_ARRAY = [[0, 1e+16], [_INTENSITY, _INTENSITY]]
	25
[3be3a80]	26
	27	class Aperture(object):
	28	"""
	29	An object class that defines the aperture variables
	30	"""
	31	def __init__(self):
	32
	33	# assumes that all aligned at the centers
	34	# aperture_size [diameter] for pinhole, [dx, dy] for rectangular
	35	self.sample_size = _SAMPLE_A_SIZE
	36	self.source_size = _SOURCE_A_SIZE
	37	self.sample_distance = _SAMPLE_DISTANCE
	38
[8a621ac]	39	def set_source_size(self, size=[]):
[3be3a80]	40	"""
	41	Set the source aperture size
	42	"""
	43	if len(size) == 0:
[8a621ac]	44	self.source_size = 0.0
[3be3a80]	45	else:
	46	self.source_size = size
	47	validate(size[0])
[8a621ac]	48
	49	def set_sample_size(self, size=[]):
[3be3a80]	50	"""
	51	Set the sample aperture size
	52	"""
	53	if len(size) == 0:
[8a621ac]	54	self.sample_size = 0.0
[3be3a80]	55	else:
	56	self.sample_size = size
	57	validate(size[0])
	58
[8a621ac]	59	def set_sample_distance(self, distance=[]):
[3be3a80]	60	"""
	61	Set the sample aperture distance
	62	"""
	63	if len(distance) == 0:
[8a621ac]	64	self.sample_distance = 0.0
[3be3a80]	65	else:
	66	self.sample_distance = distance
	67	validate(distance[0])
	68
	69
	70	class Sample(object):
	71	"""
	72	An object class that defines the sample variables
	73	"""
	74	def __init__(self):
	75
	76	# assumes that all aligned at the centers
	77	# source2sample or sample2detector distance
	78	self.distance = _SAMPLE_OFFSET
	79	self.size = _SAMPLE_SIZE
	80	self.thickness = _SAMPLE_THICKNESS
	81
[8a621ac]	82	def set_size(self, size=[]):
[3be3a80]	83	"""
	84	Set the sample size
	85	"""
	86	if len(size) == 0:
[8a621ac]	87	self.sample_size = 0.0
[3be3a80]	88	else:
	89	self.sample_size = size
	90	validate(size[0])
	91
[8a621ac]	92	def set_thickness(self, thickness=0.0):
[3be3a80]	93	"""
	94	Set the sample thickness
	95	"""
	96	self.thickness = thickness
	97	validate(thickness)
	98
[8a621ac]	99	def set_distance(self, distance=[]):
[3be3a80]	100	"""
	101	Set the sample distance
	102	"""
	103	if len(distance) == 0:
[8a621ac]	104	self.distance = 0.0
[3be3a80]	105	else:
	106	self.distance = distance
	107	if distance[0] != 0.0:
	108	validate(distance[0])
	109
	110
	111	class Detector(object):
	112	"""
	113	An object class that defines the detector variables
	114	"""
	115	def __init__(self):
	116
	117	# assumes that all aligned at the centers
	118	# source2sample or sample2detector distance
	119	self.distance = _D_DISTANCE
	120	self.size = _D_SIZE
	121	self.pix_size = _D_PIX_SIZE
	122
	123
	124
[8a621ac]	125	def set_size(self, size=[]):
[3be3a80]	126	"""
	127	Set the detector size
	128	"""
	129	if len(size) == 0:
	130	self.size = 0
	131	else:
	132	self.size = size
	133	validate(size[0])
	134
[8a621ac]	135	def set_pix_size(self, size=[]):
[3be3a80]	136	"""
	137	Set the detector pix_size
	138	"""
	139	if len(size) == 0:
[8a621ac]	140	self.pix_size = 0
[3be3a80]	141	else:
	142	self.pix_size = size
	143	validate(size[0])
	144
[8a621ac]	145	def set_distance(self, distance=[]):
[3be3a80]	146	"""
	147	Set the detector distance
	148	"""
	149	if len(distance) == 0:
	150	self.distance = 0
	151	else:
	152	self.distance = distance
	153	validate(distance[0])
[580ee7a]	154
	155
[3be3a80]	156	class Neutron(object):
	157	"""
	158	An object that defines the wavelength variables
	159	"""
	160	def __init__(self):
	161
	162	# neutron mass in cgs unit
	163	self.mass = _MASS
[580ee7a]	164
[3be3a80]	165	# wavelength
	166	self.wavelength = _WAVE_LENGTH
	167	# wavelength spread (FWHM)
	168	self.wavelength_spread = _WAVE_SPREAD
[8a621ac]	169	# wavelength spectrum
	170	self.spectrum = self.get_default_spectrum()
[580ee7a]	171	# intensity in counts/sec
[8a621ac]	172	self.intensity = numpy.interp(self.wavelength,
[580ee7a]	173	self.spectrum[0],
	174	self.spectrum[1],
	175	0.0,
	176	0.0)
[3be3a80]	177	# min max range of the spectrum
[580ee7a]	178	self.min = min(self.spectrum[0])
	179	self.max = max(self.spectrum[0])
	180	# wavelength band
	181	self.band = [self.min, self.max]
	182
[3be3a80]	183	# default unit of the thickness
	184	self.wavelength_unit = 'A'
[580ee7a]	185
	186	def set_full_band(self):
	187	"""
	188	set band to default value
	189	"""
	190	self.band = self.spectrum
[8a621ac]	191
	192	def set_spectrum(self, spectrum):
[580ee7a]	193	"""
	194	Set spectrum
	195
	196	:param spectrum: numpy array
	197	"""
[8a621ac]	198	self.spectrum = spectrum
[580ee7a]	199	self.setup_spectrum()
	200
	201	def setup_spectrum(self):
	202	"""
[8a621ac]	203	To set the wavelength spectrum, and intensity, assumes
[580ee7a]	204	wavelength is already within the spectrum
	205	"""
	206	spectrum = self.spectrum
[8a621ac]	207	intensity = numpy.interp(self.wavelength,
[580ee7a]	208	spectrum[0],
	209	spectrum[1],
	210	0.0,
	211	0.0)
	212	self.set_intensity(intensity)
	213	# min max range of the spectrum
	214	self.min = min(self.spectrum[0])
	215	self.max = max(self.spectrum[0])
	216	# set default band
[8a621ac]	217	self.set_band([self.min, self.max])
[580ee7a]	218
	219	def set_band(self, band=[]):
	220	"""
	221	To set the wavelength band
[3be3a80]	222
[580ee7a]	223	:param band: array of [min, max]
	224	"""
	225	# check if the wavelength is in range
	226	if min(band) < self.min or\
	227	max(band) > self.max:
[8a621ac]	228	raise
[580ee7a]	229	self.band = band
	230
[8a621ac]	231	def set_intensity(self, intensity=368428):
[3be3a80]	232	"""
	233	Sets the intensity in counts/sec
	234	"""
[8a621ac]	235	self.intensity = intensity
	236	validate(intensity)
[3be3a80]	237
[8a621ac]	238	def set_wavelength(self, wavelength=_WAVE_LENGTH):
[3be3a80]	239	"""
	240	Sets the wavelength
	241	"""
[580ee7a]	242	# check if the wavelength is in range
	243	if wavelength < min(self.band) or\
	244	wavelength > max(self.band):
[8a621ac]	245	raise
[3be3a80]	246	self.wavelength = wavelength
	247	validate(wavelength)
[8a621ac]	248	self.intensity = numpy.interp(self.wavelength,
[580ee7a]	249	self.spectrum[0],
	250	self.spectrum[1],
	251	0.0,
	252	0.0)
	253
[8a621ac]	254	def set_mass(self, mass=_MASS):
[3be3a80]	255	"""
	256	Sets the wavelength
	257	"""
	258	self.mass = mass
	259	validate(mass)
	260
[8a621ac]	261	def set_wavelength_spread(self, spread=_WAVE_SPREAD):
[3be3a80]	262	"""
	263	Sets the wavelength spread
	264	"""
	265	self.wavelength_spread = spread
	266	if spread != 0.0:
	267	validate(spread)
	268
	269	def get_intensity(self):
	270	"""
	271	To get the value of intensity
	272	"""
	273	return self.intensity
	274
	275	def get_wavelength(self):
	276	"""
	277	To get the value of wavelength
	278	"""
	279	return self.wavelength
	280
	281	def get_mass(self):
	282	"""
	283	To get the neutron mass
	284	"""
	285	return self.mass
	286
	287	def get_wavelength_spread(self):
	288	"""
	289	To get the value of wavelength spread
	290	"""
	291	return self.wavelength_spread
	292
	293	def get_ramdom_value(self):
	294	"""
	295	To get the value of wave length
	296	"""
	297	return self.wavelength
	298
	299	def get_spectrum(self):
	300	"""
	301	To get the wavelength spectrum
	302	"""
	303	return self.spectrum
[8a621ac]	304
[580ee7a]	305	def get_default_spectrum(self):
	306	"""
	307	get default spectrum
	308	"""
	309	return numpy.array(_LAMBDA_ARRAY)
[8a621ac]	310
[580ee7a]	311	def get_band(self):
	312	"""
	313	To get the wavelength band
	314	"""
[8a621ac]	315	return self.band
[3be3a80]	316
	317	def plot_spectrum(self):
	318	"""
	319	To plot the wavelength spactrum
	320	: requirment: matplotlib.pyplot
	321	"""
	322	try:
	323	import matplotlib.pyplot as plt
[8a621ac]	324	plt.plot(self.spectrum[0], self.spectrum[1], linewidth=2, color='r')
	325	plt.legend(['Spectrum'], loc='best')
[3be3a80]	326	plt.show()
	327	except:
	328	raise RuntimeError, "Can't import matplotlib required to plot..."
	329
[580ee7a]	330
	331	class TOF(Neutron):
	332	"""
	333	TOF: make list of wavelength and wave length spreads
	334	"""
	335	def __init__(self):
[3be3a80]	336	"""
[580ee7a]	337	Init
[3be3a80]	338	"""
[580ee7a]	339	Neutron.__init__(self)
	340	#self.switch = switch
	341	self.wavelength_list = [self.wavelength]
	342	self.wavelength_spread_list = [self.wavelength_spread]
	343	self.intensity_list = self.get_intensity_list()
	344
	345	def get_intensity_list(self):
	346	"""
	347	get list of the intensity wrt wavelength_list
	348	"""
[8a621ac]	349	out = numpy.interp(self.wavelength_list,
[580ee7a]	350	self.spectrum[0],
	351	self.spectrum[1],
	352	0.0,
	353	0.0)
	354	return out
	355
	356	def get_wave_list(self):
	357	"""
	358	Get wavelength and wavelength_spread list
	359	"""
	360	return self.wavelength_list, self.wavelengthspread_list
	361
	362	def set_wave_list(self, wavelength=[]):
	363	"""
	364	Set wavelength list
	365
	366	:param wavelength: list of wavelengths
	367	"""
	368	self.wavelength_list = wavelength
	369
	370	def set_wave_spread_list(self, wavelength_spread=[]):
	371	"""
	372	Set wavelength_spread list
	373
	374	:param wavelength_spread: list of wavelength spreads
	375	"""
	376	self.wavelengthspread_list = wavelength_spread
	377
	378
[8a621ac]	379	def validate(value=None):
[3be3a80]	380	"""
	381	Check if the value is folat > 0.0
	382
	383	:return value: True / False
	384	"""
	385	try:
	386	val = float(value)
[19637b1]	387	if val >= 0:
[3be3a80]	388	val = True
	389	else:
	390	val = False
	391	except:
	392	val = False

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SasView

source: sasview/src/sas/calculator/instrument.py @ ef3445e2

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