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RectangularDetector

This is a Python binding to the C++ class Mantid::Geometry::RectangularDetector.

bases: mantid.geometry.CompAssembly, mantid.geometry.IObjComponent

class mantid.geometry.RectangularDetector

getBoolParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_bool

getDescription((Component)self) → str :

Return the description of current parameterized component

getDistance((IComponent)self, (IComponent)other) → float :

Returns the distance, in metres, between this and the given component

getFullName((IComponent)self) → str :

Returns full path name of component

getIntParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_int

getName((IComponent)self) → str :

Returns the name of the component

getNumberParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_dbl

getParamDescription((Component)self, (str)pname[, (bool)recursive=True]) → str

getParamShortDescription((Component)self, (str)pname[, (bool)recursive=True]) → str

getParameterNames((Component)self[, (bool)recursive=True]) → std_set_str

getParameterType((Component)self, (str)pname[, (bool)recursive=True]) → str

getPos((IComponent)self) → V3D :

Returns the absolute position of the component

getPositionParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_v3d

getRelativePos((Component)self) → V3D

getRelativeRot((IComponent)self) → Quat :

Returns the relative rotation as a Quat

getRotation((Component)self) → Quat

getRotationParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_quat

getShortDescription((Component)self) → str :

Return the short description of current parameterized component

getStringParameter((Component)self, (str)pname[, (bool)recursive=True]) → std_vector_str

hasParameter((Component)self, (str)name[, (bool)recursive=True]) → bool

idFillOrder((GridDetector)self) → str :

Returns the idFillOrder

idfillbyfirst_y((RectangularDetector)self) → bool :

Returns the idfillbyfirst_y

idstart((RectangularDetector)self) → int :

Returns the idstart

idstep((RectangularDetector)self) → int :

Returns the idstep

idstepbyrow((RectangularDetector)self) → int :

Returns the idstepbyrow

maxDetectorID((RectangularDetector)self) → int :

Returns the maximum detector id

minDetectorID((RectangularDetector)self) → int :

Returns the minimum detector id

nelements((ICompAssembly)self) → int :

Returns the number of elements in the assembly

setDescription((Component)self, (str)descr) → None :

Set component’s description, works only if the component is parameterized component

shape((IObjComponent)self) → IObject :

Get the object that represents the physical shape of this component

type((IComponent)self) → str :

Returns the type of the component represented as a string

xpixels((RectangularDetector)self) → int :

Returns the number of pixels in the X direction

xsize((RectangularDetector)self) → float :

Returns the size in the X direction

xstart((RectangularDetector)self) → float :

Returns the start position in the X direction

xstep((RectangularDetector)self) → float :

Returns the step size in the X direction

ypixels((RectangularDetector)self) → int :

Returns the number of pixels in the Y direction

ysize((RectangularDetector)self) → float :

Returns the size in the Y direction

ystart((RectangularDetector)self) → float :

Returns the start position in the Y direction

ystep((RectangularDetector)self) → float :

Returns the step size in the Y direction

zpixels((GridDetector)self) → int :

Returns the number of pixels in the Z direction

zsize((GridDetector)self) → float :

Returns the size in the Z direction

zstart((GridDetector)self) → float :

Returns the start position in the Z direction

zstep((GridDetector)self) → float :

Returns the step size in the Z direction