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The Instrument in Mantid is a geometrical description of the components that make up the beam line. The components described will generally include:
Other components may also be included such as
An instrument is described using an instrument definition file.
The Mantid geometry is further explained here.
Why do we have a full instrument description, and not just a list of L2 and 2Theta values?
A list of L2 and 2Theta values will provide information to perform unit conversions and several other algorithms, however a full geometric instrument description allows much more.
You can get access to the Instrument for a workspace with
instrument = ws.getInstrument()
ws = CreateSampleWorkspace()
instrument = ws.getInstrument()
# get the instrument name
print(instrument.getName())
# Get the validity dates for this instrument definition
print(instrument.getValidToDate())
print(instrument.getValidFromDate())
# Get the X,Y,Z position of the source and sample
source = instrument.getSource()
sample = instrument.getSample()
print(source.getPos())
print(sample.getPos())
# Get the distance from the source to the sample
print(sample.getDistance(source))
The instrument class has several methods to help in finding the objects that describe specific parts of the instrument.
ws = CreateSampleWorkspace()
instrument = ws.getInstrument()
# Get the source and sample
source = instrument.getSource()
sample = instrument.getSample()
# You can get a component by name
bank1 = instrument.getComponentByName("bank1")
# Or by Detector_id
det101 = instrument.getDetector(101)
Instruments, or any component within them (bank, detector, chopper, slit etc) can have parameters defined for them. These can be accessed from Python. Any search for instrument parameters cascades up the instrument tree, so a detector will inherit any parameters from it’s back, and it’s instrument.
# setup
ws = CreateSampleWorkspace()
#set a string parameter on the whole instrument
SetInstrumentParameter(ws,ParameterName="TestParam",Value="Hello")
#set a Number parameter just for bank 1
SetInstrumentParameter(ws,ParameterName="NumberParam",Value="3", ComponentName="bank1",ParameterType="Number")
#set a different value on bank 2
SetInstrumentParameter(ws,ParameterName="NumberParam",Value="3.5", ComponentName="bank2",ParameterType="Number")
instrument=ws.getInstrument()
bank1=instrument.getComponentByName("bank1")
bank2=instrument.getComponentByName("bank2")
print("The whole instrument parameter can be read from anywhere.")
print(" The instrument: " + instrument.getStringParameter("TestParam")[0])
print(" bank 1: " + bank1.getStringParameter("TestParam")[0])
print(" bank 2: " + bank2.getStringParameter("TestParam")[0])
print("The parameters on the Bank 1 can be read from the bank or below.")
#For this one call getIntParameter as the number was an int
print(" bank 1: " + str(bank1.getIntParameter("NumberParam")[0]))
#For this one call getNumberParameter as the number was a float
print(" bank 2: " + str(bank2.getNumberParameter("NumberParam")[0]))
#if you are not sure of the type of a parameter you can call getParameterType
print(" The type of NumberParam in bank 1: " + bank1.getParameterType("NumberParam"))
print(" The type of NumberParam in bank 2: " + bank2.getParameterType("NumberParam"))
Output:
The whole instrument parameter can be read from anywhere.
The instrument: Hello
bank 1: Hello
bank 2: Hello
The parameters on the Bank 1 can be read from the bank or below.
bank 1: 3
bank 2: 3.5
The type of NumberParam in bank 1: int
The type of NumberParam in bank 2: double
# setup as above
instrument=ws.getInstrument()
det101=instrument.getDetector(101)
for name in det101.getParameterNames() :
if det101.getParameterType(name) == "int":
value = det101.getIntParameter(name)
if det101.getParameterType(name) == "double":
value = det101.getNumberParameter(name)
if det101.getParameterType(name) == "string":
value = det101.getStringParameter(name)
print("{0} {1}".format(name,value))
Output:
NumberParam [3]
TestParam ['Hello']
Category: Concepts