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SetSample v1

Summary

Set properties of the sample and its environment for a workspace

See Also

SetSampleMaterial, CreateSampleShape, CopySample, SetBeam

Properties

Name	Direction	Type	Default	Description
InputWorkspace	InOut	Workspace	Mandatory	A workspace whose sample properties will be updated
Geometry	Input	Dictionary		A dictionary of geometry parameters for the sample.
Material	Input	Dictionary		A dictionary of material parameters for the sample. See SetSampleMaterial for all accepted parameters
Environment	Input	Dictionary		A dictionary of parameters to configure the sample environment
ContainerGeometry	Input	Dictionary		A dictionary of geometry parameters for the container.
ContainerMaterial	Input	Dictionary		A dictionary of material parameters for the container.

Description

Set properties of the sample and its environment on a workspace.

The arguments to this algorithm are all expected to be dictionaries specifying multiple parameters that relate to the respective argument, as explained below.

Note

Contrary to the xml forms of defining the geometry which are in metres, dict versions are in centimetres.

Geometry and ContainerGeometry

Specifies the shape of the sample (and container). This can be specified in the following ways:

• a sample geometry can be defined in the environment definition file using either CSG or Mesh geometry. If this approach is taken then the Geometry property can be left blank

• if an environment is specified that already knows the geometry of the sample and that geometry is defined using a CSG shape (ie non-mesh shape) then the fields of the known geometry container can be customized. See Sample Environment concept page for further details

• a full definition of the shape can be supplied in this property.

For defining the full shape a key called Shape specifying the desired shape is expected along with additional keys specifying the values (all values are assumed to be in centimeters):

• FlatPlate: Width, Height, Thick, Center, Angle

• Cylinder: Height, Radius, Center, Axis

• HollowCylinder: Height, InnerRadius, OuterRadius, Center, Axis

• FlatPlateHolder: Width, Height, Thick, Center, Angle, FrontThick, BackThick. This is a CSG union of 2 FlatPlates tightly wrapping a FlatPlate sample. To be used for the ContainerGeometry.

• HollowCylinderHolder: Height, InnerRadius, InnerOuterRadius, OuterInnerRadius, OuterRadius, Center. This is a CSG union of 2 HollowCylinders tightly wrapping a HollowCylinder sample. To be used for the ContainerGeometry.

• Sphere: Center, Radius

• CSG: Value is a string containing any generic shape as detailed in How To Define Geometric Shape

The Center key is expected to be a list of three values indicating the [X,Y,Z] position of the center, which would be the geometrical center of the shape. The reference frame of the defined instrument is used to set the coordinate system for the shape.

The Angle argument for a flat plate shape is expected to be in degrees and is defined as the angle between the positive beam axis and the normal to the face perpendicular to the beam axis when it is not rotated, increasing in an anti-clockwise sense. The rotation is performed about the vertical axis of the instrument’s reference frame.

Material and ContainerMaterial

Specifies the composition of the sample (or its container) using properties from the SetSampleMaterial v1 algorithm. Please see the algorithm documentation for the supported keywords.

Note

Note that for the keys which historically had the Sample prefix (e.g. SampleNumberDensity) the prefix should not be specified here; that is, NumberDensity instead of SampleNumberDensity, etc. However, for backwards compatibility, it works also with prefixes.

Note

Note that this algorithm does not invoke SetSampleMaterial v1 anymore, but sets the material directly through the API.

Environment

Specifies the sample environment kit to be used. There are two possibilities:

Environment Definition File

In this case the environment kit must be defined in the XML format. See Sample Environment concept page for further details on how the creating a definition file.

Three keywords must be specified in the Environment dictionary:

• Name: The name of the predefined kit (required)

• Container: The id of the container within the predefined kit. (required if there is more than one container defined for the kit).

• Path: The directory containing the predefined kit, allowing XML files to be loaded from any directory. If this is not set, then the Sample Environment XML file must be in one of the instrument directories.

The name of a kit must be unique for a given instrument. The following procedure is used when trying to find a named definition, e.g CRYO-01:

• check the instrument name on the input workspace:

  • if this is a known instrument at a known facility (is in Facilities.xml) then use these as FACILITY & INSTRUMENT respectively

  • else use the default facility and instrument as FACILITY & INSTRUMENT respectively

• append .xml to the given kit name

• find the current list of directories containing instrument definition files (see Instrument Definition Directories for the default directory list)

• for each (INSTDIR) in turn:

  • construct a test path INSTDIR/sampleenvironments/FACILITY/INSTRUMENT/CRYO-01.xml

  • if this file exists then select this as the kit file and the search stops

  • otherwise if the file does not exist continue onto the next INSTDIR

  • repeat for the facility directories if not found in for the specific instrument

Container Geometry and Material

You can specify the geometry and the material of a single container directly with the ContainerGeometry and ContainerMaterial dictionaries. This option is used only when Environment input is left blank. See the sections above for the available keywords to configure those.

Usage

The following example uses a test file called CRYO-01.xml in the [INSTALLDIR]/instrument/sampleenvironments/TEST_LIVE/ISIS_Histogram/ directory.

If the examples are run via the Mantid user interface then double instead of single quotes will need to be used for the dictionary parameters.

Example - Container with preset cylinderical sample geometry

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()

# Use geometry as is from environment definition
SetSample(ws, Environment={'Name': 'CRYO-01', 'Container': '8mm'},
          Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                    'NumberDensity': 0.1})

Example - Override height of preset cylinder sample

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
# Use geometry from environment but set different height for sample
SetSample(ws, Environment={'Name': 'CRYO-01', 'Container': '8mm'},
          Geometry={'Height': 4.0},
          Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                    'NumberDensity': 0.1})

Example - Specify height and mass of preset cylinder sample

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
# Use geometry from environment but set different height for sample
# and calculate density with supplied sample mass
SetSample(ws, Environment={'Name': 'CRYO-01', 'Container': '8mm'},
          Geometry={'Height': 4.0},
          Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                    'Mass': 3.0})

Example - Override complete sample geometry

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
# Use geometry from environment but set different height for sample
SetSample(ws, Environment={'Name': 'CRYO-01', 'Container': '8mm'},
          Geometry={'Shape': 'HollowCylinder', 'Height': 4.0,
                    'InnerRadius': 0.8, 'OuterRadius': 1.0,
                    'Center': [0.,0.,0.]},
          Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                    'NumberDensity': 0.1})

Example - Use sphere sample geometry

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()

# Set sample geometry of workspace to a Sphere
SetSample(ws, Geometry={'Shape': 'Sphere',
              'Radius': 2.0, 'Center': [0.,0.,0.]})

Example - Flat plate sample in a flat plate holder container

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
SetSample(ws,
        Geometry={'Shape': 'FlatPlate', 'Height': 4.0,
                  'Width': 2.0, 'Thick': 1.0,
                  'Center': [0.,0.,0.]},
        Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                  'NumberDensity': 0.1},
        ContainerGeometry={'Shape': 'FlatPlateHolder', 'Height': 4.0,
                  'Width': 2.0, 'Thick': 1.0, 'FrontThick': 0.3, 'BackThick': 0.4,
                  'Center': [0.,0.,0.]},
        ContainerMaterial={'ChemicalFormula': 'Al',
                  'NumberDensity': 0.01})

Example - Cylinder sample in a hollow cylinder container

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
SetSample(ws,
        Geometry={'Shape': 'Cylinder', 'Height': 4.0,
                  'Radius': 2.0, 'Center': [0.,0.,0.]},
        Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                  'NumberDensity': 0.1},
        ContainerGeometry={'Shape': 'HollowCylinder', 'Height': 4.0,
                  'InnerRadius': 2.0, 'OuterRadius': 2.3,
                  'Center': [0.,0.,0.]},
        ContainerMaterial={'ChemicalFormula': 'Al',
                  'NumberDensity': 0.01})

Example - Hollow cylinder sample in a hollow cylinder holder container

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
SetSample(ws,
        Geometry={'Shape': 'HollowCylinder', 'Height': 4.0,
                  'InnerRadius': 2.0, 'OuterRadius': 3.0, 'Center': [0.,0.,0.]},
        Material={'ChemicalFormula': '(Li7)2-C-H4-N-Cl6',
                  'NumberDensity': 0.1},
        ContainerGeometry={'Shape': 'HollowCylinderHolder', 'Height': 4.0,
                  'InnerRadius': 1.5, 'InnerOuterRadius': 2.0, 'OuterInnerRadius': 3.0, 'OuterRadius': 4.0,
                  'Center': [0.,0.,0.]},
        ContainerMaterial={'ChemicalFormula': 'Al',
                  'NumberDensity': 0.01})

Example - Specify shape using CSG object

# A fake host workspace, replace this with your real one.
ws = CreateSampleWorkspace()
# Specify an Infinite Cylinder geometry using CSG
infinite_cylinder_xml = " \
<infinite-cylinder id='some-cylinder'> \
    <centre x='0.0'  y='0.2' z='0' /> \
        <axis x='0.0'  y='0.2' z='0' /> \
    <radius val='1' /> \
</infinite-cylinder> \
<algebra val='some-cylinder' /> \
"
# Set sample geometry of workspace to this CSG object Sphere
SetSample(ws, Geometry={'Shape': 'CSG', 'Value': infinite_cylinder_xml})

Example - SetGoniometer to apply automatic rotation to Sample Shape.

SetSample can be used to apply an automatic goniometer rotation. SetGoniometer should be called before SetSample. After running this example code to rotate a cuboid by 30° anti-clockwise around y, the sample shape can be plotted (see 3D Mesh Plots for Sample Shapes):

cuboid = " \
<cuboid id='some-cuboid'> \
<height val='2.0'  /> \
<width val='2.0' />  \
<depth  val='0.2' />  \
<centre x='10.0' y='10.0' z='10.0'  />  \
</cuboid>  \
<algebra val='some-cuboid' /> \
"

ws = CreateSampleWorkspace()
SetGoniometer(ws, Axis0="30,0,1,0,-1")
SetSample(ws, Geometry={'Shape': 'CSG', 'Value': cuboid})

(Source code, png, hires.png, pdf)

Categories: AlgorithmIndex | Sample

Source

C++ header: SetSample.h

C++ source: SetSample.cpp