FastMarchingWatershed2D¶

Inheritance diagram¶

Classes¶

FastMarchingWatershed2D¶

class ORSModel.ors.FastMarchingWatershed2D¶

Bases: ORSModel.ors.FastMarching2D

brief_description: None author: Nicolas Piché. All other members of ORS participated. version: 1.0 date: July 2010

getClassNameStatic() → str¶

getClassNameStatic

Returns:	output (str) –

getGradMinimumSearchRange(self) → int¶

Returns:	output (int) –

none() → FastMarchingWatershed2D¶

Returns:	output (FastMarchingWatershed2D) –

setGradChannel(self, gradChannel: ORSModel.ors.Channel) → None¶

Parameters:	gradChannel (ORSModel.ors.Channel) –

setGradMinimumSearchRange(self, range: int) → None¶

Parameters:	range (int) –

setLabelChannel(self, labelChannel: ORSModel.ors.Channel) → None¶

Parameters:	labelChannel (ORSModel.ors.Channel) –

FastMarching2D¶

class ORSModel.ors.FastMarching2D

Bases: ORSModel.ors.Unmanaged

brief_description: None author: Benjamin Provencher. All other members of ORS participated. version: 1.0 date: June 2010

cleanSpeedMapChannel(self, outputChannel: ORSModel.ors.Channel) → None

Removes boundaries or non reached values from a speed map channel.

Parameters:	outputChannel (ORSModel.ors.Channel) – a distance map channel (an Channel)

createDistanceMap(self, lOutputChannelDistanceMap: ORSModel.ors.Channel, lMaskChannel: ORSModel.ors.Channel) → None

Parameters:	lOutputChannelDistanceMap (ORSModel.ors.Channel) – lMaskChannel (ORSModel.ors.Channel) –

createDistanceMapForNBIteration(self, lOutputChannelSpeedMap: ORSModel.ors.Channel, forNbIteration: int, autoUpdateROI: bool, lMaskChannel: ORSModel.ors.Channel) → None

Parameters:	lOutputChannelSpeedMap (ORSModel.ors.Channel) – forNbIteration (int) – autoUpdateROI (bool) – lMaskChannel (ORSModel.ors.Channel) –

getClassNameStatic() → str

getClassNameStatic

Returns:	output (str) –

getMeanValue(self) → float

get the mean value used in the setian metric

Returns:	output (float) – float a normalized value

getROICount(self) → int

Returns the number of ROIs that have been set as sources.

Note

A maximum of 10 ROI can be provided.

Returns:	output (int) – the number of ROIs that have been provided (an char)

getVolumeROI(self, index: int) → ROI

Retrieves a particularROI from the index specified slot.

Note

A maximum of 10 ROIs can be provided. The ROIs provided must be of the same shape as the input channel.

Parameters:	index (int) – the slot index (an unsigned char)
Returns:	output (ORSModel.ors.ROI) – the ROI associated with this slot index (an ROI), or NULL if no ROI is at that slot

none() → FastMarching2D

Returns:	output (FastMarching2D) –

resetVolumeROIs(self) → None: Empties all the sourceROI slots.

setEuclideanBias(self, EuclideanBias: float) → None

Provides an Euclidean bias that will be the minimumDijkstra distance between voxels.

Note

Neighbors of distance 1 will have a bias of spacialTerm.

Note

Neighbors of distance sqrt(2) will have a bias of sqrt(2)*spacialTerm.

Note

Neighbors of distance sqrt(3) will have a bias of sqrt(3)*spacialTerm.

Parameters:	EuclideanBias (float) – the minimum distance between voxels (a float)

setInputChannelAndWorkingArea(self, inputChannel: ORSModel.ors.Channel, minX: int, minY: int, maxX: int, maxY: int, currentT: int) → None

Sets the channel that will be used by the 2DFastMarching algorithm to calculate distance.

Note

The min and max boundaries must not describe a space bigger than the input channel.

Parameters:

inputChannel (ORSModel.ors.Channel) – the input channel (an Channel)
minX (int) – the minimum X index in the input channel (an unsigned short)
minY (int) – the minimum Y index in the input channel (an unsigned short)
maxX (int) – the minimum Z index in the input channel (an unsigned short)
maxY (int) – the maximum X index in the input channel (an unsigned short)
currentT (int) – the maximum Y index in the input channel (an unsigned short)

setMeanValue(self, mean: float) → None

Set the mean value used in the setian metric.

Parameters:	mean (float) – float a normalized value

setVolumeROI(self, index: int, aVolROI: ORSModel.ors.ROI) → None

Fills a particularROI slot to be used as a source for the Dijkstra algorithm.

Note

A maximum of 10 ROIs can be provided. The ROIs provided must be of the same shape as the input channel.

Parameters:	index (int) – the slot index (an unsigned char) aVolROI (ORSModel.ors.ROI) – the ROI associated with this slot index (an ROI)

useDijkstraMetric(self, pFlag: bool) → None

Parameters:	pFlag (bool) –

Unmanaged¶

class ORSModel.ors.Unmanaged

Bases: ORSModel.ors.ORSBaseClass

brief_description: Abstract class for objects that are not managed by the core library. author: Eric Fournier. All other members of ORS participated. version: 1.0 date: Jan 2005

atomicLoad(sFilename: str) → Unmanaged

Creates an object from a file where an object was saved.

Parameters:	sFilename (str) – path of the file to load
Returns:	output (Unmanaged) – a managed object, or none() if the load fails

atomicSave(self, aFilename: str) → int

Saves the object to a file.

Parameters:	aFilename (str) – path of the file to save
Returns:	output (int) – 0 if successful, otherwise an error code

createFromPythonRepresentation(aPythonRepresentation: str) → Unmanaged

Create aUnmanaged Object from a python representation a static method.

Parameters:	aPythonRepresentation (str) –
Returns:	output (ORSModel.ors.Unmanaged) –

fromPythonRepresentation(self, aPythonRepresentation: str) → bool

Create aUnmanaged object from a Python string representation.

Parameters:	aPythonRepresentation (str) – a Python evaluable string representation (a string)
Returns:	output (bool) – TRUE if parsing worked, FALSE otherwise (a bool)

classmethod getAllSubclasses(outputCollection=None)

classmethod getClassDenomination()

static getClassFromProgId(progId)

getClassName(self) → str

Retrieves the class name of the core object wrapped by this Interface object.

Returns:	output (str) –

getClassNameStatic() → str

getClassNameStatic

Returns:	output (str) –

getDataChecksum(self) → str

Returns:	output (str) –

getIsInstanceOf(self, pProgId: str) → bool

Queries the object to know if it is an instance of a certain class.

Parameters:	pProgId (str) –
Returns:	output (bool) –

classmethod getIsSubclassOf(parentClass)

getPythonRepresentation(self) → str

Gets a Python evaluable string representation.

Returns:	output (str) –

isNone(self) → bool

Checks if the receiver is none.

Returns:	output (bool) –

isNotNone(self) → bool

Checks if the receiver is not none.

Returns:	output (bool) –

none() → Unmanaged

Returns:	output (Unmanaged) –

ORSBaseClass¶

class ORSModel.ors.ORSBaseClass

brief_description: An abstract class from which all objects issued from the author: Eric Fournier. All other members of ORS participated. version: 1.0 date: Jan 2005

getPythonTraceBack() → typing.List[str]

Set the python traceback for a call from python.

Returns:	output (typing.List[str]) –

isManaged(self) → bool

Returns:	output (bool) –

isNone(self) → bool

Returns:	output (bool) –

setPythonTraceBack(tb: ORSModel.ors.typing.List[str]) → None

Set the python traceback for a call from python.

Parameters:	tb (typing.List[str]) –

FastMarchingWatershed2D¶

Inheritance diagram¶

Classes¶