Branch.AddBranchPoint (Using Length Mode)
The Branch.AddBranchPoint method can be used in Quality Rules Reuse. This section describes how to add and position a
new branch point using a branch extremity, a branch point, or a support as reference.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iReferenceElement
|
Input |
Yes |
Feature
|
The reference element can be a: |
iOrientation
|
Input |
Yes |
String |
="after" : the branch point is created
after the reference element.
="before" : the branch point is created
before the reference element.
|
iDistance
|
Input |
Yes |
LENGTH |
The distance between the element and the
branch point to add. When the reference element is a support,
the distance is the length between the support's center and
the branch point.
|
oBranchPoint
|
Output |
Yes |
BranchPoint
|
The added branch point. |
ReturnType
Boolean
The method returns FALSE if the branch point is not correctly created.
Example
The following sample illustrates how to create branch points taking into account
an Elec3DSupportRouteElement, an Elec3DDeviceRouteElement, and a
Elec3DPointRouteElement.
/* Create BranchPoint on Primary branch (“BPA”)*/
let BranchPointPrimary(BranchPoint)
let Ext1(SegmentExtremity)
let Ext2(SegmentExtremity)
let Orientation(String)
let Distance(LENGTH)
let ReferenceExt(Feature)
let result(Boolean)
PrimaryBranch.Elec_BranchExtremities(Ext1, Ext2)
set ReferenceExt=Ext1
Orientation="after"
Distance=300mm
result=FALSE
result=PrimaryBranch->AddBranchPoint( ReferenceExt,Orientation,Distance,BranchPointPrimary)
if ( result==TRUE) Notify(" branch point created : ",BranchPointPrimary.Name)
else Notify(" branch point NOT created !!! ")
/* Creation Branch01 */
/*Create point route element*/
let BPPrimaryRoute(Elec3DPointRouteElement)
result=FALSE
result=CreatePointRouteElement(BranchPointPrimary, BPPrimaryRoute)
if ( result==TRUE) Notify("point route element created ")
else Notify(" point route element NOT created !!! ")
/* Create Support route element */
let Support1Route(Elec3DSupportRouteElement)
let Support2Route(Elec3DSupportRouteElement)
result=FALSE
result=CreateSupportRouteElement(Support1, 1, Support1Route)
if ( result==TRUE) Notify("support route element 1 created ")
else Notify(" support route element 1 NOT created !!! ")
result=FALSE
result=CreateSupportRouteElement(Support2, 1, Support2Route)
if ( result==TRUE) Notify("support route element 2 created ")
else Notify(" support route element 2 NOT created !!! ")
/* Create device route element */
let ListOfCntPt2(List)
let TypeOfCntPt2(list)
let ElecCntPoint2(Elec3DSegmentConnectionPoint)
TypeOfCntPt2.Append("Elec3DSegmentConnectionPoint")
ListElectricalConnectionPoints(Device1.Reference, TypeOfCntPt2, ListOfCntPt2)
let IndexOfConnectionDevice2(integer)
set IndexOfConnectionDevice2=1
if(ListOfCntPt2.Size()>0)
{
ElecCntPoint2=ListOfCntPt2.GetItem(IndexOfConnectionDevice2)
}
else
{
Notify("No connection point on Device1 looking for cavities")
let TypeOfCavity2(list)
TypeOfCavity2.Append("Elec3DCavity")
ListElectricalConnectionPoints(Device1.Reference, TypeOfCavity2, ListOfCntPt2)
if(ListOfCntPt2.Size()>0)
{
ElecCntPoint2=ListOfCntPt2.GetItem(IndexOfConnectionDevice2)
}
}
let Device1Route(Elec3DDeviceRouteElement)
result=FALSE
result=CreateDeviceRouteElement(Device1, ElecCntPoint2, Device1Route)
if ( result==TRUE) Notify("Device route element 2 created ")
else Notify("Device route element 2 NOT created !!! ")
let ListOfRouteElement(List)
ListOfRouteElement.Append(BPPrimaryRoute)
ListOfRouteElement.Append(Support1Route)
ListOfRouteElement.Append(Support2Route)
ListOfRouteElement.Append(Device1Route)
let Branch01(Branch)
result=FALSE
result=CreateBranch(EBG,ListOfRouteElement, Branch01)
if ( result==TRUE) Notify("Branch01created ")
else Notify("Branch01 NOT created !!! ")
/* set attributes on Branch01 */
Branch01.Name="Branch01"
Branch01.SetBuildMode("Bend")
Branch01.SetBendRadius(20mm)
let Circle(ElecCircularProfile)
CreateCircularProfile(20mm, Circle)
let ListSegment(List)
let Segment1(Segment)
ListSegment=Branch01.Children
if(ListSegment.Size()>0)
{
Segment1 = ListSegment.GetItem(1)
}
Segment1.SetProfile(Circle)
/* Create BranchPoint on branch01 (“BP1”) and ("BP2") */
let DistanceBP1(Length)
let DistanceBP2(Length)
set DistanceBP1=20mm
set DistanceBP2=20mm
let BP1(BranchPoint)
let BP2(BranchPoint)
let BP3(BranchPoint)
let BP4(BranchPoint)
let BP5(BranchPoint)
// test with real support
result=FALSE
result=Branch01.AddBranchPoint(Support1,Orientation,DistanceBP1,BP1)
if ( result==TRUE) Notify("BP1 OK ")
else Notify("Error : BP1 is not created!!!")
result=FALSE
result=Branch01.AddBranchPoint(Support2Route,Orientation,DistanceBP2,BP2)
if ( result==TRUE) Notify("BP2 OK ")
else Notify("Error : BP2 is not created!!!")
let OrientationBefore(String)
let DistanceBP3(Length)
OrientationBefore="before"
set DistanceBP3=20mm
result=FALSE
result=Branch01.AddBranchPoint(Device1Route,OrientationBefore,DistanceBP3,BP3)
if ( result==TRUE) Notify("BP3 OK ")
else Notify("Error : BP3 is not created!!!")
let BP1Route(Elec3DPointRouteElement)
result=FALSE
result=CreatePointRouteElement(BP1, BP1Route)
result=FALSE
result=Branch01.AddBranchPoint(BP1Route,OrientationBefore,DistanceBP3,BP4)
if ( result==TRUE) Notify("BP4 OK ")
else Notify("Error : BP4 is not created!!!")
result=FALSE
result=Branch01.AddBranchPoint(BPPrimaryRoute,OrientationBefore,DistanceBP3,BP5)
if ( result==TRUE) Notify("Error : : BP5 is created but it is not normal ")
else Notify("BP5 is not created but this is normal behavior!!!")
// Set profiles on two segments
let Segment2(Segment)
let Segment3(Segment)
ListSegment=Branch01.Children
if(ListSegment.Size() <> 5)
Notify("List of segment is different from 5")
else
{
Segment2=ListSegment.GetItem(2)
Segment3=ListSegment.GetItem(3)
}
Branch.AddBranchPoint (Using Ratio Mode)
The Branch.AddBranchPoint method can be used in Quality Rules Reuse. This section describes how to add a new branch
point on a branch using one of the branch's extremity as positioning reference.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iReferenceExtremity |
Input |
Yes |
SegmentExtremity
|
The reference element is one of the branch
extremities. |
iRatio |
Input |
Yes |
Real |
The positioning ratio on the branch's curve.
The ratio value is between 0 and 1. The reference element is the
first extremity of the branch. |
oBranchPoint |
Output |
Yes |
BranchPoint
|
The added branch point. |
ReturnType
Boolean
The method returns FALSE if the branch point is not correctly created.
Branch.ComputeAndUpdateName()
The Branch.ComputeAndUpdateName() method can be used to rename an existing
branch according to an industrial criteria.
The method delegates the renaming to the Compute Feature Name
(Compute_Elec_Feature_Name) opening ID. Therefore, there are no
arguments for this method.
For more information about the opening ID, see Data Setup User's Guide: List of Resource Set IDs: 3D
Modeling: Electrical Physical System Design Resources: Electrical Physical
System Design: Business Logic: Compute Feature Name
(Compute_Elec_Feature_Name).
Signature
Branch.ComputeAndUpdateName() : Boolean
Branch.Elec_BranchExtremities()
The Branch.Elec_BranchExtremities() method can be used in Quality Rules Reuse.
Branch.GetPath
This method creates the network path of a branch.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oNetworkPath |
Output |
Yes |
Elec3DNetworkPath |
The path from one branch extremity to the
other. |
ReturnType
Boolean
The method returns FALSE if the search for the network's nodes and arcs fails.
Branch.ListBranchPoint
The Branch.ListBranchPoint method can be used in Quality Rules Reuse. It allows to retrieve the branch points positioned along a branch.
Signature
Branch.ListBranchPoint(oListBranchPoint : List): Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListBranchPoint
|
Output |
Yes |
List |
The ordered list of branch points positioned
along the branch. |
ReturnType
Boolean
The method returns FALSE if the method fails.
Branch.ListElecComponents()
The Branch.ListElecComponents() method can be used in Quality Rules Reuse.
Signature
Branch.ListElecComponents(ListOfElecComponents : List, ReturnOrderedList : Boolean) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfElecComponents
|
Out |
Yes |
List
|
None |
ReturnOrderedList
|
In |
Yes |
Boolean
|
None |
Branch.SetBendRadius
The Branch.SetBendRadius method can be used in Quality Rules Reuse. It allows to define the bend radius value of a branch.
Signature
Branch.SetBendRadius(BendRadius : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
BendRadius
|
Input |
Yes |
LENGTH |
The bend radius value. |
ReturnType
Boolean
The method returns FALSE if the branch cannot be built correctly with the new
bend radius value.
Branch.SetBuildMode
The Branch.SetBuildMode method can be used in Quality Rules Reuse. It allows to define a Build Mode on a branch.
Signature
Branch.SetBuildMode(TypeOfTheBuildMode : String): Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
TypeOfTheBuildMode
|
Input |
Yes |
String |
The Build Mode for a branch can be:
- Slack
- Length
- Bend
- Straight Bend
- Cornered Polyline
|
ReturnType
Boolean
The method returns FALSE if the branch cannot be built correctly with the new
Build Mode.
Branch.SetLength
The Branch.SetLength method can be used in Quality Rules Reuse. It allows to define the Length value of a branch
built in Length mode.
Signature
Branch.SetLength(Length : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
Length
|
Input |
Yes |
Real |
The length value. |
ReturnType
Boolean
The method returns FALSE if:
- The branch cannot be built correctly with the new Length value.
- The Build Mode of the branch is not Length.
Branch.SetSlack
The Branch.SetSlack method can be used in Quality Rules Reuse. It allows to define the Slack value of a branch built in Slack mode.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
Slack
|
Input |
Yes |
Real |
The slack value. |
ReturnType
Boolean
The method returns FALSE if:
- The branch cannot be built correctly with the new Slack value.
- The Build Mode of the branch is not Slack.
BranchPoint.GetDistance
The BranchPoint.GetDistance method can be used in Quality Rules Reuse. It allows to retrieve the distance between a branch point and its reference point,
provided that the reference point is a branch extremity.
Signature
BranchPoint.GetDistance(iReferenceExtremity : SegmentExtremity, oBranchPointPosition : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iReferenceElement
|
Input |
Yes |
Feature |
The branch extremity. |
oDistance
|
Output |
Yes |
LENGTH |
The distance between the branch extremity and
the branch point. |
ReturnType
Boolean
The method returns FALSE if the branch point position cannot be computed.
Conductor.ComputeAndUpdateName()
The Conductor.ComputeAndUpdateName() method can be used to rename an existing
conductor according to an industrial criteria.
The method delegates the renaming to the Compute Feature Name
(Compute_Elec_Feature_Name) opening ID. Therefore, there are no
arguments for this method.
For more information about the opening ID, see Data Setup User's Guide: List of Resource Set IDs: 3D
Modeling: Electrical Physical System Design Resources: Electrical Physical
System Design: Business Logic: Compute Feature Name
(Compute_Elec_Feature_Name).
Signature
Conductor.ComputeAndUpdateName(): Boolean
Conductor.ComputedMinAngle()
The Conductor.ComputedMinAngle() method can be used in Quality Rules Reuse.
Signature
Conductor.ComputedMinAngle(MinBendAngle : ANGLE, Segment1 : Segment, Segment2 : Segment) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
MinBendAngle
|
Out |
Yes |
ANGLE |
None |
Segment1
|
Out |
Yes |
Segment
|
None |
Segment2
|
Out |
Yes |
Segment
|
None |
Conductor.ComputedMinBendRadius()
TheConductor.ComputedMinBendRadius() method can be used in Quality Rules Reuse.
Signature
Conductor.ComputedMinBendRadius(MinBendRadius : LENGTH, Segment : Segment) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
MinBendRadius
|
Out |
Yes |
LENGTH |
None |
Segment
|
Out |
Yes |
Segment
|
None |
Conductor.FromTo()
The Conductor.FromTo() method can be used in Quality Rules Reuse.
Signature
Conductor.FromTo(From Product : VPMInstance, FromConnectionPointName : String, To Product : VPMInstance, ToConnectionPointName : String) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
From Product
|
Out |
Yes |
VPMInstance |
None |
FromConnectionPointName
|
Out |
Yes |
String
|
None |
To Product
|
Out |
Yes |
VPMInstance |
None |
ToConnectionPointName
|
Out |
Yes |
String
|
None |
Conductor.GetFromTo()
The Conductor.GetFromTo() method allows to get the properties of devices and
cavities positioned at a conductor's ends.
Signature
Conductor.GetFromTo(FromDevice : ProductOccurrence, FromCavity : Elec3DCavity, ToDevice : ProductOccurrence, ToCavity : Elec3DCavity) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
FromDevice
|
Output |
Yes |
ProductOccurrence |
Occurrence of an equipment or device at a
conductor's "From" end. Can be NULL for spare cables.
|
FromCavity
|
Output |
Yes |
Elec3DCavity |
Cavity at a conductor's "From" End. Can be
NULL if the conductor is defined directly until the device.
|
ToDevice
|
Output |
Yes |
ProductOccurrence |
Occurrence of an equipment or device at a
conductor's "To" end. Can be NULL for spare cables.
|
ToCavity
|
Output |
Yes |
Elec3DCavity |
Cavity at a conductor To End. Can be NULL
if the conductor is defined directly until the device.
|
ReturnType
Boolean
The method returns TRUE if the conductor's ends are retrieved successfully (even
if the devices and/or cavities at ends are not defined).
Note:
The output ProductOccurrence always supports one of the
exposed equipment or device occurrence types (such as
Elec3DSingleInsertConnectorOccurrence ,
Elec3DSpliceOccurrence ,
Elec3DShellOccurrence ,
SharedEquipmentPartOccurrence ).
Example
let FromDevice (ProductOccurrence)
let ToDevice (ProductOccurrence)
let FromCavity (Elec3DCavity)
let ToCavity (Elec3DCavity)
let Result (Boolean)
let sMessage (STRING)
let sName (STRING)
set sMessage = Obj.Name
Result = Obj->GetFromTo (FromDevice, FromCavity, ToDevice, ToCavity)
if(true == Result)
sMessage = sMessage + ": Result = true, "
else
sMessage = sMessage + ": Result = false, "
sMessage = sMessage + "From Device = "
set sName = "NULL"
if(NULL <> FromDevice) sName = FromDevice.Name
sMessage = sMessage + sName + ", From Cavity = "
set sName = "NULL"
if(NULL <> FromCavity) sName = FromCavity.Name
sMessage = sMessage + sName + ", To Device = "
set sName = "NULL"
if(NULL <> ToDevice) sName = ToDevice.Name
sMessage = sMessage + sName + ", To Cavity = "
set sName = "NULL"
if(NULL <> ToCavity) sName = ToCavity.Name
sMessage = sMessage + sName
Notify (sMessage)
Conductor.GetPath
This method creates the network path(s) and the extremities of a conductor.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oNetworkPathList |
Output |
Yes |
List |
The paths created from the conductor route.
|
oCFrom |
Output |
Yes |
Elec3DConductorEnd |
The first extremity of the conductor (From).
|
oCTo |
Output |
Yes |
Elec3DConductorEnd |
The second extremity of the conductor (To).
|
ReturnType
Boolean
The method returns FALSE if:
- The conductor is not fully routed.
- The search for the network path fails.
Conductor.GetRoute()
The Conductor.GetRoute() method exposes the list of segments and distant
links through which a conductor is routed in sequential order. It also enables to
retrieve the segments' length in a route.
The sequence starts from the "From" end of a conductor and ends to its "To" end.
Signature
Conductor.GetRoute(ListOfElements : List, ListOfLengthInRoute : List) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListOfElements
|
Output |
Yes |
List
|
List of segments and distant links in
sequential order. |
ListOfLenghthInRoute
|
Output |
Yes |
List
|
List of the elements' length composing the
route. For segments, the method returns the complete length
if the conductor is routed through the whole segment. If the
conductor is partially routed through a segment (due to
proxy branch point or distant link incident on it), the
method returns the partial length of this segment.
For distant links, the method returns the length between the
segment and the device's origin or cavity center.
|
Note:
For distant links, the length is calculated as follows:
ReturnType
Boolean
The method returns TRUE if the conductor's route is complete and if the elements
in the route are listed successfully.
The method returns FALSE if the conductor is not routed or has a broken route or
if the segments' listing fails.
Example
Object:Conductor
//------------------------------------------------------------------------------
// Check, using function GetRoute of Conductor
//-----------------------------------------------------------------------------
let ListOfSegmentOrDistantLinks(LIST)
let ListOfLengthInRoute(LIST)
let bool(BOOLEAN)
let i(INTEGER)
let sizeSegment(INTEGER)
let sizeLength(INTEGER)
let len(Length)
let sMessage(STRING)
let sMessageLength(STRING)
let feat (Feature)
bool = Object.GetRoute( ListOfSegmentOrDistantLinks, ListOfLengthInRoute)
set sMessage = "Conductor Name - " + Object.Name
if(true == bool) set sMessage = sMessage + "; Result = TRUE"
else set sMessage = sMessage + "; Result = FALSE"
if( (NULL <> ListOfSegmentOrDistantLinks) and (NULL <> ListOfLengthInRoute) )
{
set sMessage = sMessage + ", Number of elements = "
sizeSegment = ListOfSegmentOrDistantLinks->Size()
sizeLength = ListOfLengthInRoute->Size()
if(sizeSegment == sizeLength)
{
set sMessage = sMessage + ToString(sizeLength) + ", List of Elements in Route and their lengths – ["
i = 1
for i while i<= sizeSegment
{
set feat = ListOfSegmentOrDistantLinks->GetItem(i)
set len = ListOfLengthInRoute->GetItem(i)
if(NULL <> feat) set sMessage = sMessage + feat.Name + "("
else set sMessage = sMessage + "("
set sMessage = sMessage + ToString(len) + ")"
if(i < sizeSegment) set sMessage = sMessage + ", "
}
set sMessage = sMessage + "]"
}
}
else
{
set sMessage = sMessage + ", NULL/ INVALID Lists"
}
Notify(sMessage)
Conductor.GetRouteBendInformation()
The Conductor.GetRouteBendInformation() method exposes information about
conductors' bends.
The following information is provided in three lists:
- Bends angles
- Bends entry segments
- Bends exit segments
Conductor.SetPath
This method allows to assign a network path to a conductor to define its
route.
Note:
If the conductor is already routed, the existing route is reset and replaced by
the new route.
Signature
Conductor.SetPath (iList3DNetworkPath:List) : Integer
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iList3DNetworkPath
|
Input |
Yes |
List |
List of the network paths defining the route
of the conductor. If the list is empty, the route is
reset. |
ConductorGroup.AddConductor
This method allows to assign a conductor to a conductor group.
Signature
ConductorGroup.AddConductor (iConductorToAdd:ElecConductor) : Integer
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iConductorToAdd |
Input |
Yes |
List |
The conductor to add in the conductor
group. |
ReturnType
Integer
The method returns FALSE if the conductor already belongs to another conductor
group.
ConductorGroup.CreateConductor
This method allows to create a conductor in a conductor group specifying the
devices and/or cavities the conductor is connected to.
Signature
ConductorGroup.CreateConductor ( iDeviceOccurrenceFrom:ProductOccurrence, iCavityFrom:ElecPort, iDeviceOccurrenceTo:ProductOccurrence, iCavityTo:ElecPort, oConductor:ElecConductor) : Integer
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iDeviceOccurrenceFrom |
Input |
Yes |
ProductOccurence |
The device from which the conductor is
connected. |
iCavityFrom |
Input |
Yes |
ElecPort |
The cavity from which the conductor is
connected. Note:
This parameter can be null.
|
iDeviceOccurrenceTo |
Input |
Yes |
ProductOccurence |
The device to which the conductor is
connected. |
iCavityTo |
Input |
Yes |
ElecPort |
The cavity to which the conductor is
connected. Note:
This parameter can be null.
|
oConductor |
Output |
Yes |
ElecConductor |
The new conductor |
ConductorGroup.ComputeAndUpdateName()
The ConductorGroup.ComputeAndUpdateName() method can be used to rename an
existing conductor group according to an industrial criteria.
The method delegates the renaming to the Compute Feature Name
(Compute_Elec_Feature_Name) opening ID. Therefore, there are no
arguments for this method.
For more information about the opening ID, see Data Setup User's Guide: List of Resource Set IDs: 3D
Modeling: Electrical Physical System Design Resources: Electrical Physical
System Design: Business Logic: Compute Feature Name
(Compute_Elec_Feature_Name).
Signature
ConductorGroup.ComputeAndUpdateName(): Boolean
ElecDeviceDistantLink.GetAbscissa
The ElecDeviceDistantLink.GetAbscissa() method enables to get the position of
a device distant link on a segment curve from the segment's start extremity.
Signature
ElecDeviceDistantLink.GetAbscissa(LengthFromStart: LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ElecDeviceDistantLink
|
Input |
Yes |
ElecDeviceDistantLink |
- |
LengthFromStart
|
Output |
Yes |
LENGTH |
Length or abscissa of a distant link computed
on a segment from its start extremity. |
ReturnType
Boolean
The method returns TRUE if the distant links search succeeds, and FALSE if the
search fails.
ElecDeviceDistantLink.GetDeviceDistantLinkLength
This method enables to get the length between a device and a branch which are
connected through a distant link.
Signature
ElecDeviceDistantLink.GetDeviceDistantLinkLength(DeviceDistantLinkLength : LENGTH, Conductor : Conductor) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
DeviceDistantLinkLength
|
Out |
Yes |
LENGTH |
- |
Conductor
|
In |
Yes |
Conductor
|
When the conductor ends on a particular device cavity, the
length is calculated from the segment to this device cavity.
If the conductor ends on a device or if
Conductor is not given as Input, the
length is calculated from the segment to the device origin.
|
Note:
The DeviceDistantLinkLength is calculated as follows:
ReturnType
Boolean
The method returns TRUE if the distant links search succeeds, and FALSE if the
search fails.
ElecItinerary.IsEqual()
This
methods allows to compare the itinerary of a validated cable route against the
itinerary computed during a network impact analysis.
Signature
ElecItinerary.IsEqual(ElecItineraryArgument : ElecItinerary) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ElecItineraryArgument |
In |
|
ElecItinerary |
-
|
ElecRoute.ActivateConstraint()
This
method activates the inclusive or exclusive constraints on a
cable-route.
Signature
ElecRoute.ActivateConstraint() : Integer
ReturnType
Integer
The method returns 0 if the activation of constraints fails.
The method returns 1 if the activation of constraints succeeds.
ElecRoute.AddExclusionConstraint()
This
method creates an exception on the input path so that the path is always excluded
from the automatic routing of cable-routes.
Signature
ElecRoute.AddExclusionConstraint(ListElec3DNetworkPath : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListElec3DNetworkPath |
In |
|
List |
-
|
ElecRoute.AddInclusionConstraint()
This
method constraints the input path so that the path is always included in the route
of the cable-route when it is automatically routed.
Signature
ElecRoute.AddInclusionConstraint(ListElec3DNetworkPath : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListElec3DNetworkPath |
In |
|
List |
-
|
ElecRoute.ComputeAndUpdateName()
This method allows to retrieve and update the name of a cable's
route.
Signature
ElecRoute.ComputeAndUpdateName() : Integer
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
ElecRoute.ComputeLength()
This
methods allows to retrieve the length of a cable's route.
Signature
ElecRoute.ComputeLength(Length : LENGTH) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Length |
Out |
|
LENGTH |
Computed
length of the route of the cable. |
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
ElecRoute.ComputeRouteStatus()
This
methods allows to retrieve the current route status of a cable's route.
Signature
ElecRoute.ComputeRouteStatus(RouteStatus : RouteStatus) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
RouteStatus |
Out |
|
RouteStatus |
Computed
route status. |
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
ElecRoute.DeactivateConstraint()
This
method deactivates inclusive and exlusive constraints on a cable-route.
Signature
ElecRoute.DeactivateConstraint() : Integer
ReturnType
Integer
The
method returns 0 if the deactivation of constraints fails.
The
method returns 1 if the deactivation of constraints succeeds.
ElecRoute.GetCable()
The
method allows to retrieve the cable to which a route belongs.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ParentCable |
Out |
|
Elec3DCableOccurrence |
The
cable to which a route belongs. |
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
ElecRoute.GetConstraintStatus()
This
method retrieves the constraint status for a cable-route.
Signature
ElecRoute.GetConstraintStatus(ConstraintStatus : Integer) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ConstraintStatus |
Out |
|
Integer |
Gets the constraint status of a cable-route.
The following values are available:
- 1: activated constraints
- 0: deactivated constraints
- -1: not
constrained
|
ReturnType
Integer
The
method returns 0 if the method fails to retrieve the constraint status.
The
method returns 1 if the method succeeds to retrieve the constraint status.
ElecRoute.GetExclusionConstraint()
This
method retrieves the path of a cable-route which is added as an exlusion
constraint.
Signature
ElecRoute.GetExclusionConstraint(ListElec3DNetworkPath : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListElec3DNetworkPath |
Out |
|
List |
-
|
ReturnType
Integer
The
method returns 0 if it fails to retrieve the path of the exclusion
constraint.
The method returns 1 if the path is successfully retrieved.
ElecRoute.GetFrom()
This method allows to retrieve the extremity which is at the start of a
cable's
route.
Signature
ElecRoute.GetFrom(FromProductOcc : ProductOccurrence, FromPort : VPMPort) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
FromProductOcc |
Out |
|
ProductOccurrence |
The
device positioned at the "From" end of the route. |
FromPort |
Out |
|
VPMPort |
The
connection point. |
ElecRoute.GetInclusionConstraint()
This
method retrieves the path of a cable-route which is added as an inclusion
constraint.
Signature
ElecRoute.GetInclusionConstraint(ListElec3DNetworkPath : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListElec3DNetworkPath |
Out |
|
List |
-
|
ReturnType
Integer
The
method returns 0 if it fails to retrieve the path of the inclusion
constraint.
The method returns 1 if the path is successfully retrieved.
The method returns 2 if no inclusion constraint is found.
ElecRoute.GetLastRoutingRuleSet()
This method allows to retrieve the route rule set which comprises the
information defining the path of a cable's route.
Signature
ElecRoute.GetLastRoutingRuleSet(RoutingRuleSet : RouteRuleSet) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
RoutingRuleSet |
Out |
|
RouteRuleSet |
The
RouteRuleSet
type which holds the information used to define the path of the
cable's route. |
ReturnType
Integer
The returned integer can be:
- -1: the route rule set is not retrieved.
- 0: the method fails.
- 1: the methods succeeds.
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
ElecRoute.GetParentEPS()
This methods allows to retrieve the electrical physical system in which
a cable's route is aggregated.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ParentEPS |
Out |
|
Electrical3DSystem |
Parent
electrical physical system of the cable's route. |
ElecRoute.GetPath()
This methods allows to retrieve the path of a cable's route, as well as
the ends of the route.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
List3DNetworkPath |
Out |
|
List |
List
of the network paths.
- When a cable is fully routed, the method returns one
path.
- When a cable is partially routed, the method returns
multiple paths.
|
ConductorEnd1 |
Out |
|
Elec3DConductorEnd |
The
"From" end of the route. |
ConductorEnd2 |
Out |
|
Elec3DConductorEnd |
The "To" end of the
route. |
ElecRoute.GetTo()
This method allows to retrieve the extremity which is at the end of a
cable's
route.
Signature
ElecRoute.GetTo(ToProductOcc : ProductOccurrence, ToPort : VPMPort) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ToProductOcc |
Out |
|
ProductOccurrence |
The
device positioned at the end of the route. |
ToPort |
Out |
|
VPMPort |
The
connection point. |
ElecRoute.IsConstraintRespected()
This
method provides information on whether the current route of the cable-route respects
the inclusive or exclusive constraints.
Signature
ElecRoute.IsConstraintRespected(IsConstraintRespectedStatus : Boolean) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
IsConstraintRespectedStatus |
Out |
|
Boolean |
Provides information if the route of a completely routed
cable respects the constraints on it.
The following values are available:
- True: constraints are respected
- False: constraints are not respected
|
ReturnType
Integer
The
method returns -2 if the constraints are deactivated for the cable-route.
The method returns -1 if the cable-route is not completely routed.
The method returns 0 if a generic error is detected.
The method returns 1 if the method is successfully executed.
ElecRoute.RemoveConstraint()
This
method removes a previously constrained cable-route (inclusive or exclusive) from a
cable-route path.
Signature
ElecRoute.RemoveConstraint(ListElec3DNetworkPath : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListElec3DNetworkPath |
In |
|
List |
-
|
ReturnType
Integer
The
method returns 0 if the constraint is not removed.
The method returns 1 if the constraint is removed.
ElecRoute.Validate()
This
method validates a cable route.
An optional Boolean argument IsRevalidationAllowed is provided to
revalidate an already validated cable route.
Signature
ElecRoute.Validate(IsRevalidationAllowed : Boolean) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
IsRevalidationAllowed |
In |
No |
Boolean |
Check
for revalidation. Note:
Even if
IsRevalidationAllowed is true, the
revalidation for an already validated cable route will be
done only when the cable route is impacted.
|
ReturnType
Integer
Return Type |
Description |
0 |
Cable route validation failed. |
1 |
Cable route validation successful. |
-1 |
Cable route not editable. |
-2 |
Cable route not routed. |
2 |
Cable route already validated. |
ElecRoute.InValidate()
This
method invalidates a cable route.
Signature
ElecRoute.InValidate() : Integer
ReturnType
Integer
Return Type |
Description |
0 |
Cable route invalidation failed. |
1 |
Cable route invalidation successful. |
-1 |
Cable route not editable. |
2 |
Cable route already validated. |
ElecRoute.Revise()
This
method revises a cable route.
Signature
ElecRoute.Revise() : Integer
ReturnType
Integer
Return Type |
Description |
0 |
Cable route revision failed. |
1 |
Cable route revision successful. |
-1 |
Cable route not editable. |
2 |
Cable route already in revision. |
ElectricalBranchGeometry.ListProtectionsWithTotalLength()
The ListProtectionsWithTotalLength user function is exposed on an electrical
branch geometry and is used to get the list of protections inside it as well as a
list containing the total length of these protections.
Signature
ElectricalBranchGeometry.ListProtectionsWithTotalLength(ListOfProtection : List, ListOfTotalLength : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfProtection
|
Out |
Yes |
List
|
Lists the names of the protections contained
inside the electrical branch geometry. |
ListOfTotalLength
|
Out |
Yes |
List
|
Lists the total length of individual
protections of ListOfProtection. |
Example
BranchGeoRef : ElectricalbranchGeometry
let result(BOOLEAN)
let listOfProtection(LIST)
let listOfTotalLength(LIST)
let sName(STRING)
let numOfProtInstances(INTEGER)
let sizeOfTotalLengthList(INTEGER)
let sProtection1(STRING)
let sProtection2(STRING)
let sProtection3(STRING)
let lengthOfProtection1(REAL)
let lengthOfProtection2(REAL)
let lengthOfProtection3(REAL)
result = BranchGeoRef.ListProtectionsWithTotalLength( listOfProtection, listOfTotalLength )
set sName = BranchGeoRef.Name
if(false == result) /* Should return TRUE */
{
Message ("Protection Instances not found for reference #", sName)
}
set numOfProtInstances = listOfProtection->Size()
set sizeOfTotalLengthList = listOfTotalLength->Size()
if (( 3 <> numOfProtInstances) and (3 <> sizeOfTotalLengthList))
{
Message ("Number of Protection Instances found for reference # is not correct", sName)
}
set sProtection1 = listOfProtection->GetItem(1)
set sProtection2 = listOfProtection->GetItem(2)
set sProtection3 = listOfProtection->GetItem(3)
lengthOfProtection1 = listOfTotalLength->GetItem(1)
lengthOfProtection2 = listOfTotalLength->GetItem(2)
lengthOfProtection3 = listOfTotalLength->GetItem(3)
if(sProtection1 <> "FixedPro")
{
Message("Protection1 is not correct" )
}
if((lengthOfProtection1 < 50.001) and (lengthOfProtection1 >49.999))
{
Message("Length of Protection1 is not correct")
}
if(sProtection2 <> "AdaptivePro" )
{
Message("Protection2 is not correct" )
}
if((lengthOfProtection2 < 100.001) and (lengthOfProtection2 >99.999))
{
Message("Length of Protection2 is not correct")
}
if(sProtection3 <> "CorrugatedPro1")
{
Message("Protection3 is not correct")
}
if((lengthOfProtection3 < 150.001) and (lengthOfProtection3 >149.999))
{
Message("Length of Protection3 is not correct")
}
Elec3DCable.AddJunctionDeviceAfterPosition()
This
function allows to add a junction after a specific position.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Position |
In |
|
Integer |
Position
after which the junction is associated to the cable.The integer
starts at 0, which means it starts at the "From" end of the
cable. |
JunctionDeviceOcc |
In |
|
ProductOccurrence |
The
junction associated to the cable. |
JunctionPort |
In |
|
Elec3DJunctionPoint |
The
junction point associated to the cable. |
Elec3DCable.ClearAllJunctionAssociation()
The
function allows to remove all the junction associations from a cable. After the
operation, only one single route remains for the cable.
Signature
Elec3DCable.ClearAllJunctionAssociation() : Integer
Elec3DCable.DispatchRouteToEPS()
This
function allows to move a cable route to a specific electrical physical
system.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputElecRouteToDispatch |
In |
|
ElecRoute |
The
cable's route to dispatch. After the operation, the status of
the cable's route becomes "Not validated" and the route is
unlinked from the cable. |
TargetElectrical3DSystemOcc |
In |
|
Electrical3DSystemOccurrence |
The
target electrical physical system. If the value is NULL, the
target electrical physical system is the same electrical
physical system as the cable. |
NewElecRouteDispatched |
Out |
|
ElecRoute |
The
new cable route after the dispatch. It replaces the input
route. |
Elec3DCable.GetCableReference()
This function allows to retrieve the cable reference which is mapped
with a cable.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
CableReference |
Out |
|
Elec3DCableReference |
Cable
reference to which the cable in session is linked to, and from
which it retrieves its properties. |
ReturnType
Integer
The integer can be the following:
- -1: the mapped cable reference is not found.
- 0: the funtion returns false.
- 1: the cable reference is found but not mapped.
- 2: the cable reference is mapped and found.
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
set Cable = ThisObject.Reference
Cable.GetCableReference(CableRef)
let MassCable = 0 kg_m
let MassCableRef = 0 kg_m
let DiaCable(LENGTH)
let DiaCableRef(LENGTH)
set DiaCableRef = CableRef.V_Elec_Diameter
set DiaCable = Cable.V_Elec_Diameter
set MassCableRef = CableRef.V_Elec_Line_Mass
set MassCable = Cable.V_Elec_Line_Mass
Notify("DiaCableRef: " + DiaCableRef)
Notify("DiaCable: " + DiaCable)
Notify("MassCableRef: " + MassCableRef)
Notify("MassCable: " + MassCable)
if (DiaCableRef <> DiaCable)
{
Notify("Dia Different")
}
if (MassCableRef <> MassCable)
{
Notify("Mass Different")
}
Elec3DCable.GetFrom()
This function allows to retrieve the extremity which is at the start of
a cable.
Signature
Elec3DCable.GetFrom(FromDevice : ProductOccurrence, FromCavity : Elec3DCavity) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
FromDevice |
Out |
|
ProductOccurrence |
The
device positioned at the "From" end of the cable. |
FromCavity |
Out |
|
Elec3DCavity |
The
connection point. |
Elec3DCable.GetTo()
This function allows to retrieve the extremity which is at the end of a
cable.
Signature
Elec3DCable.GetTo(ToDevice : ProductOccurrence, ToCavity : Elec3DCavity) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ToDevice |
Out |
|
ProductOccurrence |
The
device positioned at the "To" end of the cable. |
ToCavity |
Out |
|
Elec3DCavity |
The
connection point. |
Elec3DCable.IsSynchronizeAvailable()
This
method indicates if an electricable cable can be synchronized with its cable
routes.
Signature
Elec3DCable.IsSynchronizeAvailable(InputElecRoute : ElecRoute, oIsSynchronizeAvailable : Boolean) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputElecRoute |
In |
|
ElecRoute |
The
cable route to check for the synchronization. |
oIsSynchronizeAvailable |
Out |
|
Boolean |
-
|
ReturnType
Integer
The method succeeds if the cable route is validated and if it is not already
synchronized with its cable.
Elec3DCable.ListOrderedJunctionDevices()
This
function allows to retrieved an ordered list of the junctions and junction points
associated to a cable.
Signature
Elec3DCable.ListOrderedJunctionDevices(ListJunctionDevices : List, ListJunctionPorts : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListJunctionDevices |
Out |
|
List |
Ordered
list of the junctions associated to the cable. |
ListJunctionPorts |
Out |
|
List |
Ordered
list of the junction points associated to the cable. |
Notes:
- Both lists should have the same size.
- If the link between a junction and a cable is broken, the list returns
NULL.
Elec3DCable.ListOrderedRoutes()
This
function allows to retrieved an ordered list of the routes of a cable.
Signature
Elec3DCable.ListOrderedRoutes(ListOrderedElecRoutes : List, ListOrderedLinkStatus : List) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListOrderedElecRoutes |
Out |
|
List |
Ordered
list of the cable's routes. |
ListOrderedLinkStatus |
Out |
|
List |
Ordered
list of the junction points. |
Notes:
- Both lists should have the same size.
- If one of the routes of a cable is deleted,
ListOrderedElecRoutes lreturns NULL.
Example
Let Cable(Elec3DCable)
Let CableRef(Elec3DCableReference)
Let RouteList(LIST)
Let RouteListStatus(LIST)
set Cable = ThisObject.Reference
Cable.ListOrderedRoutes(RouteList, RouteListStatus)
let ThisRoute(ElecRoute)
for ThisRoute inside RouteList
{
Notify("RouteName: " + ThisRoute.Name)
// Attributes
let ThisRouteLength(LENGTH)
let ThisRouteStatus(RouteStatus)
let ThisValidationStatus(RouteValidationStatus)
set ThisRouteLength = ThisRoute.Elec_ValidatedLength
set ThisRouteStatus = ThisRoute.Elec_ValidatedRouteStatus
set ThisValidationStatus = ThisRoute.Elec_ValidationStatus
Notify("ThisRouteLength: " + ThisRouteLength)
if ("Not_Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Not_Routed")
else if ("Routed" == ThisRouteStatus)
Notify("ThisRouteStatus: Routed")
if ("Not_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Not_Validated")
else if ("Fully_Validated" == ThisValidationStatus)
Notify("ThisValidationStatus: Fully_Validated")
// Method GetCable()
let parentCable(Elec3DCableOccurrence)
ThisRoute.GetCable(parentCable)
Notify("Parent Cable: " + parentCable.Name)
// Method ComputeRouteStatus()
let computedRouteSts(RouteStatus)
ThisRoute.ComputeRouteStatus(computedRouteSts)
if ("Not_Routed" == computedRouteSts)
Notify("computedRouteSts: Not_Routed")
else if ("Routed" == computedRouteSts)
Notify("computedRouteSts: Routed")
// Method ComputeLength()
let ComputedLength(LENGTH)
ThisRoute.ComputeLength(ComputedLength)
Notify("ComputedLength: " + ComputedLength)
// Method GetLastRoutingRuleSet()
let LastRuleSet(RouteRuleSet)
ThisRoute.GetLastRoutingRuleSet(LastRuleSet)
Notify("LastRuleSet: " + LastRuleSet.Name)
// Method ComputeAndUpdateName()
// This will invoke the BusinessRule : Compute_Elec_Feature_Name. BR already provided.
ThisRoute.ComputeAndUpdateName ()
Notify("Updated Name: " + ThisRoute.Name)
}
Elec3DCable.RemoveJunctionDeviceAtPosition()
This
function allows to remove a specific junction from a cable, specifying the position
of the junction.
Signature
Elec3DCable.RemoveJunctionDeviceAtPosition(Position : Integer, KeepFirstRoute : Boolean) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Position |
In |
|
Integer |
Position
of the junction to be removed. |
KeepFirstRoute |
In |
|
Boolean |
Specifies
which cable's route to keep after removing the junction. Note:
By
default, the value is TRUE. In this case, the first cable's
route is kept.
|
Elec3DCable.ReplaceJunctionDeviceAtPosition()
This
function allows to replace a junction at a specific position.
Signature
Elec3DCable.ReplaceJunctionDeviceAtPosition(Position : Integer, JunctionDeviceOcc : ProductOccurrence) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Position |
In |
|
Integer |
Position
where the input junction is replaced. The integer value starts
at 1. |
JunctionDeviceOcc |
In |
|
ProductOccurrence |
The
junction to be replaced. |
Elec3DCable.SetEstimatedLength()
This
method allows to set a length on a cable route that is not synchronized with its
cable.
Signature
Elec3DCable.SetEstimatedLength(InputElecRoute : ElecRoute, dEstimatedLength : LENGTH) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputElecRoute |
In |
|
ElecRoute |
-
|
dEstimatedLength |
In |
|
LENGTH |
-
|
Elec3DCable.Synchronize()
This
methods lets you synchronize an electrical cable with its cable routes.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputElecRoute |
In |
|
ElecRoute |
Cable
route which is synchronized with the cable. |
ReturnType
Integer
The
method succeeds if the cable route is validated and if the routing information
are different between the cable and its cable routes.
Elec3DCable.ResetDeletedRoutes()
This
function allows to create cable routes at the position of deleted
routes.
Signature
Elec3DCable.ResetDeletedRoutes() : Integer
Elec3DCable.UnSynchronize()
This
method removes the routing information previously persisted to an electrical
cable.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputElecRoute |
In |
|
ElecRoute |
The
cable route which is unsynchronized. |
Elec3DConductor.ListInstances()
The ListInstances user function is exposed on a conductor reference and is
used to get the list of its instances.
Signature
Elec3DConductor.ListInstances(ListOfInstances : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfInstances
|
Out |
Yes |
List
|
Returns the list of instances in current
editor of the conductor reference on which ListInstances() is
called. |
Example
ElecConductorRef : Elec3DConductor
Let listInstances (LIST)
Let result (BOOLEAN)
Let sName (STRING)
Let nbInst (INTEGER)
set result = ElecConductorRef->ListInstances(listInstances)
set sName = ElecConductorRef.V_Name
if(false == result) /* Should return TRUE */
{
Message ("Instances not found for reference #", sName)
}
set nbInst = listInstances->Size()
if( ((sName == "ConductorRef1") and (3 <> nbInst)) or ((sName == "ConductorRef2") and (1 <> nbInst)) )
{
Message ("Number of Instances found (= #) for reference # is incorrect", nbInst, sName)
}
Elec3DBranchableAnnotation.GetName()
This
method retrieves the Name of the branch annotation.
Signature
Elec3DBranchableAnnotation.GetName(Name : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Name |
Out |
|
String |
The
name of the branch is retrieved. |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DBranchableAnnotation.GetResource()
This
method retrieves the Resource of the branch annotation.
Signature
Elec3DBranchableAnnotation.GetResource(Resource : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Resource |
Out |
|
String |
The resource of the branch is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DBranchableAnnotation.GetSubType()
This
method retrieves the SubType of the branch annotation.
Signature
Elec3DBranchableAnnotation.GetSubType(SubType : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
SubType |
Out |
|
String |
The
subtype of the branch is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DConductorEnd.ComputeLength
This method retrieves the length of a conductor extremity based on the
cavities and the connected devices (backshells).
The routed conductor may be connected to:
- The cavity of a single device
- The cavity of a device belonging to a complex connector. The conductor is
considered as route through a set of cavities.
- A backshell can be plugged to the device. The length of the backshell is
added to conductor end length.
Signature
ComputeLength(oConductorEndLength : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oConductorEndLength
|
Output |
Yes |
LENGTH |
The equivalent length of the conductor end
including the cavity length and the backshell length. |
ReturnType
Boolean
The method returns FALSE if the search for components fails.
Elec3DConductorEnd.GetDevice
This method retrieves the device connected at a conductor extremity.
Signature
GetDevice(oDeviceOccurrence : ProductOccurrence, oElePort : ElecPort) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oDeviceOccurrence
|
Output |
Yes |
ProductOccurrence |
The device occurrence. |
oElePort
|
Output |
Yes |
ElecPort |
The cavity (can be NULL). |
ReturnType
Boolean
The method returns FALSE if the search for the device fails.
Elec3DConductorGroup.ListInstances()
The ListInstances user function is exposed on a conductor group reference,
and is used to get the list of its instances.
Signature
Elec3DConductorGroup.ListInstances(ListOfInstances : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfInstances
|
Out |
Yes |
List
|
Returns the list of instances in current
editor of the conductor group reference on which ListInstances()
is called. |
Example
ElecConductorGrpRef : Elec3DConductorGroup
Let listInstancesOfCondtrGrp (LIST)
Let result (BOOLEAN)
Let sNameCondtrGrp (STRING)
Let nbInstCondtrGrp (INTEGER)
set result = ElecConductorGrpRef->ListInstances(listInstancesOfCondtrGrp)
set sNameCondtrGrp = ElecConductorGrpRef.V_Name
if(false == result) /* Should return TRUE */
{
Message ("Instances not found for ConductorGrpReference #", sNameCondtrGrp)
}
set nbInstCondtrGrp = listInstancesOfCondtrGrp->Size()
if( ((sNameCondtrGrp == "ConductorGrp1") and (2 <> nbInstCondtrGrp)) or ((sNameCondtrGrp == "ConductorGrp2") and (2 <> nbInstCondtrGrp)) )
{
Message ("Number of Instances found (= #) for ConductorGrpReference # is incorrect", nbInstCondtrGrp, sNameCondtrGrp)
}
Elec3DDeviceNode.GetComponents
This method retrieves the electrical 3D objects belonging to a device node.
Signature
GetComponents(oDeviceOccurrence : ProductOccurrence, oElecPort : VPMPort, oListExtremities : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oDeviceOccurence
|
Output |
Yes |
ProductOccurrence |
The device occurrence. |
oElecPort
|
Output |
Yes |
VPMPort |
The electrical port. |
oListConnectedFeatures
|
Output |
Yes |
List |
The segment extremities connected to the
electrical port. |
ReturnType
Boolean
The methods returns FALSE if the objects cannot be retrieved.
Elec3DJunctionDeviceNode.GetComponents()
This method retrieves the electrical 3D objects belonging to a junction
device node.
Signature
Elec3DJunctionDeviceNode.GetComponents(ElectricalJunctionDeviceOccurrence : ProductOccurrence, ElectricalJunctionPoint : VPMPort, List3DElements : List) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ElectricalJunctionDeviceOccurrence |
Out |
|
ProductOccurrence |
The
junction device occurrence. |
ElectricalJunctionPoint |
Out |
|
VPMPort |
The
junction point. |
List3DElements |
Out |
|
List |
The segment extremities connected to the
junction point. |
ReturnType
Boolean
The methods returns FALSE if the objects cannot be retrieved.
Elec3DJunctionNode.GetComponents
This method retrieves the segment extremities belonging to a junction node.
Signature
GetComponents(oListExtremities : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListExtremities
|
Output |
Yes |
List |
The segment extremities which are connected
together. |
ReturnType
Boolean
The methods returns FALSE if the objects cannot be retrieved.
Elec3DNetworkArc.ComputeLength
This method computes the length of a network arc.
Signature
ComputeLength(oArcLength : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oArcLength
|
Output |
Yes |
LENGTH |
The length of the arc. |
ReturnType
Boolean
The method returns FALSE if the length computation fails.
Elec3DNetworkArc.ComputeSupportPosition
This method computes the position of a support in a network arc.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iSupport
|
Input |
Yes |
SharedSupportPartOccurrence
|
A support in the path. |
iReferenceNode
|
Input |
Yes |
Elec3DNetworkNode
|
The reference node. |
oSupportIn
|
Output |
Yes |
LENGTH |
The entry point position of the support in
the path. |
oSupportOut
|
Output |
Yes |
LENGTH |
The exit point position of the support in the
path. |
Elec3DNetworkArc.GetComponent
This method retrieves the segment belonging to an arc.
Signature
GetComponent(oSegmentArc : Segment) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oSegmentArc
|
Output |
Yes |
Feature |
The segment with the extremity connected to
the device node. |
ReturnType
Boolean
The method FALSE if the segment cannot be retrieved.
Elec3DNetworkArc.GetNodes
This method retrieves the nodes of an arc.
ReturnType
Boolean
The method returns FALSE if the nodes cannot be retrieved.
Elec3DNetworkArc.NextNode
This method allows to navigate the network from an arc to its next connected
node.
ReturnType
Boolean
The method returns FALSE if the node cannot be retrieved.
Elec3DNetworkArc.SegregationCode
This method retrieves the segregation code of a segment belonging to an arc.
Signature
SegregationCode : STRING
Elec3DNetworkNode.GetArcs
This method retrieves the arcs of a node.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListArcs
|
Output |
Yes |
List |
The list of arcs connected to the node.
|
ReturnType
Boolean
The method returns FALSE if the arcs cannot be retrieved.
Elec3DNetworkNode.NextArcs
This method allows to navigate the network from a node to its next connected
arcs.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iPrevArcs
|
Input |
Yes |
Elec3DNetworkNode
|
The previous arc. |
oNextArcs
|
Output |
Yes |
List |
The list of next arcs connected to the node.
Can be empty.
|
ReturnType
Boolean
The method returns FALSE if the arcs cannot be retrieved.
Elec3DNetworkPath.ComputeLength
This method computes the length of network path.
Signature
ComputeLength(oPathLength : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oPathLength |
Output |
Yes |
LENGTH |
The length of the path. This length is the
sum of all the arcs' length in the path.
|
ReturnType
Boolean
The method returns FALSE if the length computation fails.
Elec3DNetworkPath.GetPathBetweenNodes
This
method retrieves the path between two nodes.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
3DNetworkSubPath |
Out |
|
Elec3DNetworkPath |
Path
between the two nodes |
3DNetworkNodeStart |
In |
|
Elec3DNetworkNode |
Start
Node. If the value is set to NULL, then the start node is the
first node of the underlying Path-Element (Branch, Segment,
Conductor, or ElecRoute). |
3DNetworkNodeEnd |
In |
|
Elec3DNetworkNode |
End
Node. If the value is set to NULL, then the end node is the last
node of the underlying Path-Element (Branch, Segment, Conductor,
or ElecRoute). |
ReturnType
Integer
The
method returns -1 if the path between is incomplete.
The method returns 0 if the path cannot be found.
The method returns 1 if the path is found.
Elec3DNetworkPath.ListBendWithPosition
This method computes the position of bends in a network path.
There is two kinds of bends:
- Geometrical bend: corresponds to a bend in a branch with a cornered polyline
curve.
- Branch bend: corresponds to a direction change at a branch crossing. In a
network path, the branch bends are associated to the network nodes.
For each bend in the network path:
- The position of bend in path is computed: the position is the position of
the middle point of the bend.
- The network object in path corresponding to the location of the bend in
network path : at a node or inside an arc.
- The angle of the bend is computed.
- For distant links , the angle is the angle at node position.
Signature
ListBendWithPosition(oBendPositions : List ,oBendAngles : List, oNetworkObjects : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oBendPositions |
Output |
Yes |
List |
The bend positions in the path [LENGTH].
|
oBendAngles |
Output |
Yes |
List |
The bend angles [ANGLE]. |
oNetworkObjects |
Output |
Yes |
List |
The bend location in the network:
- Node for node bend (ELEC3DNetworkNode)
- Arc for branch bends (Elec3DNetworkArc)
|
ReturnType
Boolean
The method returns FALSE if the bend computation fails.
Elec3DNetworkPath.ListNetworkPathElement
This method retrieves the network elements (nodes and arcs) belonging to a
network path.
Signature
ListNetworkPathElement(oNetworkPathElements : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oNetworkPathElements |
Output |
Yes |
List |
The ordered list of nodes and arcs from the
first extremity node in the path to the last. |
ReturnType
Boolean
The method returns FALSE if the search for the network's nodes and arc fails.
Elec3DNetworkPath.ListNodeWithPosition
This method computes the position of nodes in a network path. The position
is computed from the length between the node and the origin of the path.
Signature
ListNodeWithPosition(oListNode : List, oListNodePosition : LENGTH) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListNode |
Output |
Yes |
List |
List of nodes in the path. |
oListNodePosition |
Output |
Yes |
List |
The list of the node positions in the path
[LENGTH]. |
ReturnType
Boolean
The method returns FALSE if the length computation fails.
Elec3DNetworkPath.ListProtection
This method retrieves the protections belonging to a network path.
Signature
ListProtection(oListProtection : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListProtection |
Output |
Yes |
List |
The ordered list of protections belonging to
the network path. |
ReturnType
Boolean
The method returns FALSE if the search for protections fails.
Elec3DNetworkPath.ListSupport
This method retrieves the supports belonging to a network path.
Signature
ListSupport(oListSupportOccurrence : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListSupportOccurence |
Output |
Yes |
List |
The ordered list of support occurrences
belonging to the network path. |
ReturnType
Boolean
The method returns FALSE if the search for supports fails.
Elec3DNetworkPath.ListSupportWithPosition
This method computes the position of supports in a network path. The
position is computed from the length between the support and the origin of the path.
Signature
ListSupportWithPosition(oListSupport : List, oListSupportIn : List, oListSupportOut : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListSupport |
Output |
Yes |
List |
A support in the path. |
oListSupportIn |
Output |
Yes |
List |
The list of the entry point position of the
support in the path [LENGTH]. |
oListSupportOut |
Output |
Yes |
List |
The list of exit point position of the support in the path
[LENGTH].
|
ReturnType
Boolean
The method returns FALSE if the length computation fails.
Elec3DProxyNode.GetComponents
This method retrieves the 3D objects belonging to a proxy node.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oSegment
|
Output |
Yes |
Segment |
Segment to which the distant link or proxy
branch point is connected. |
oListExtremities
|
Output |
Yes |
List |
The segment extremities connected to the node.
Can be empty.
|
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSpliceNode.GetComponents
This method retrieves the electrical 3D objects belonging to a splice node.
Signature
GetComponents(oListSpliceOccurrence : List, oListExtremities : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListSpliceOccurrence
|
Output |
Yes |
List
|
The list of splice occurrences. |
oListExtremities
|
Output |
Yes |
List |
The segment extremities connected to the
splice occurrence (at least two). |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSystem.CreateConductor
This method allows to create a conductor in an electrical physical system
specifying the devices and/or cavities the conductor is connected to.
Signature
Electrical3DSystem.CreateConductor ( iDeviceOccurrenceFrom:ProductOccurrence, iCavityFrom:ElecPort, iDeviceOccurrenceTo:ProductOccurrence, iCavityTo:ElecPort, oConductor:ElecConductor) : Integer
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
iDeviceOccurrenceFrom |
Input |
Yes |
ProductOccurence |
The device from which the conductor is
connected. |
iCavityFrom |
Input |
Yes |
ElecPort |
The cavity from which the conductor is
connected. Note:
This parameter can be null.
|
iDeviceOccurrenceTo |
Input |
Yes |
ProductOccurence |
The device to which the conductor is
connected. |
iCavityTo |
Input |
Yes |
ElecPort |
The cavity to which the conductor is
connected. Note:
This parameter can be null.
|
oConductor |
Output |
Yes |
ElecConductor |
New conductor |
Elec3DSystem.CreateConductorGroup
This method allows to create a conductor group in an electrical physical
system.
Signature
Electrical3DSystem.CreateConductorGroup ( oConductorGroup:ElecConductorGroup) : Integer
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oConductorGroup |
Output |
Yes |
ElecConductorGroup |
New conductor group |
InternalProtection.GetProtectionExtremities()
The InternalProtection.GetProtectionExtremities() method can be used in Quality Rules Reuse.
Signature
InternalProtection.GetProtectionExtremities(ProtectionType : String, ProtectionExtremity1 : Point, ProtectionExtremity2 : Point) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ProtectionType
|
In |
Yes |
String
|
None |
ProtectionExtremity1
|
Out |
Yes |
Point |
None |
ProtectionExtremity2
|
Out |
Yes |
Point |
None |
Elec3DProtectionAnnotation.GetAnnotation()
This
method retrieves the annotation of the protection.
Signature
Elec3DProtectionAnnotation.GetAnnotation(Annotation : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Annotation |
Out |
|
String |
The
annotation is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetBendRadius()
This
method retrieves the bend radius of the protection.
Signature
Elec3DProtectionAnnotation.GetBendRadius(BendRadius : Integer) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
BendRadius |
Out |
|
Integer |
The
bend radius is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetBendRadiusDelta()
This
method retrieve the BendRadiusDelta of the protection.
Signature
Elec3DProtectionAnnotation.GetBendRadiusDelta(BendRadiusDelta : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
BendRadiusDelta |
Out |
|
LENGTH |
The
bend radius delta is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetExternalReference()
This
method retrieves the external reference of the protection.
Signature
Elec3DProtectionAnnotation.GetExternalReference(ExternalReference : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ExternalReference |
Out |
|
String |
The
external reference is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetFlexibility()
This
method retrieves the flexibility of the protection.
Signature
Elec3DProtectionAnnotation.GetFlexibility(Flexibility : Integer) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Flexibility |
Out |
|
Integer |
The
flexibility is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetInnerDiameter()
This
method retrieves the inner diameter of the protection.
Signature
Elec3DProtectionAnnotation.GetInnerDiameter(InnerDiameter : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InnerDiameter |
Out |
|
LENGTH |
The
inner diameter is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetLength()
This
method retrieves the length of the protection.
Signature
Elec3DProtectionAnnotation.GetLength(Length : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Length |
Out |
|
LENGTH |
The
length of the protection is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetLineType()
This
method retrieves the line type of the protection.
Signature
Elec3DProtectionAnnotation.GetLineType(LineType : Integer) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
LineType |
Out |
|
Integer |
The
line type is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetMass()
This
method retrieves the mass of the protection.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Mass |
Out |
|
Magnitude |
The
mass is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetNumberLayer()
This
method retrieves the number of layers of the protection.
Signature
Elec3DProtectionAnnotation.GetNumberLayer(NumberLayer : Integer) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
NumberLayer |
Out |
|
Integer |
The
number of layers are retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetOverlappingLength()
This
method retrieves the overlapping length of the protection.
Signature
Elec3DProtectionAnnotation.GetOverlappingLength(OverlappingLength : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
OverlappingLength |
Out |
|
LENGTH |
The
overlapping length is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetPreferredLength()
This
method retrieves the preferred length of the protection.
Signature
Elec3DProtectionAnnotation.GetPreferredLength(PreferredLength : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
PreferredLength |
Out |
|
LENGTH |
The
preferred length is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetReferencePartNumber()
This
method retrieves the reference part number of the protection.
Signature
Elec3DProtectionAnnotation.GetReferencePartNumber(ReferencePartNumber : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ReferencePartNumber |
Out |
|
String |
The
reference part number is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetSubType()
This
method retrieves the reference part number of the protection.
Signature
Elec3DProtectionAnnotation.GetSubType(SubType : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
SubType |
Out |
|
String |
The
reference part number is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetTapeLength()
This
method retrieves the tape length of the protection.
Signature
Elec3DProtectionAnnotation.GetTapeLength(TapeLength : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
TapeLength |
Out |
|
LENGTH |
The
tape length is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetTapeThickness()
This
method retrieves the tape thickness of the protection.
Signature
Elec3DProtectionAnnotation.GetTapeThickness(TapeThickness : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
TapeThickness |
Out |
|
LENGTH |
The
tape thickness is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetTapeWidth()
This
method retrieves the tape width of the protection.
Signature
Elec3DProtectionAnnotation.GetTapeWidth(TapeWidth : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
TapeWidth |
Out |
|
LENGTH |
The
tape width is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetTapingAngle()
This
method retrieves the taping angle of the protection.
Signature
Elec3DProtectionAnnotation.GetTapingAngle(TapingAngle : ANGLE) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
TapingAngle |
Out |
|
ANGLE |
The
taping angle is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProtectionAnnotation.GetThickness()
This
method retrieves the thickness of the protection.
Signature
Elec3DProtectionAnnotation.GetThickness(Thickness : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Thickness |
Out |
|
LENGTH |
Retrieves the thickness of the protection |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DProxyNode.GetComponents()
Signature
Elec3DProxyNode.GetComponents(Segment : Segment, ListExtremity : List) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Segment |
Out |
|
Segment |
-
|
ListExtremity |
Out |
|
List |
-
|
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetBendRadius()
This
method retrieves the bend radius of the segment.
Signature
Elec3DSegmentAnnotation.GetBendRadius(BendRadius : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
BendRadius |
Out |
|
LENGTH |
The
diameter of the bend radius is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetDiameter()
This
method retrieves the diameter of the segment.
Signature
Elec3DSegmentAnnotation.GetDiameter(Diameter : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Diameter |
Out |
|
LENGTH |
The
diameter of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetElecConstantArea()
This
method retrieves the ElecConstantArea of the segment.
Signature
Elec3DSegmentAnnotation.GetElecConstantArea(ElecConstantArea : Boolean) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ElecConstantArea |
Out |
|
Boolean |
The
ElecConstantArea of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetElecRepType()
This
method retrieves the ElecRepType of the segment.
Signature
Elec3DSegmentAnnotation.GetElecRepType(ElecRepType : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ElecRepType |
Out |
|
String |
The
ElecRepType of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetFlexibility()
This
method retrieves the flexibility of the segment.
Signature
Elec3DSegmentAnnotation.GetFlexibility(Flexibility : Integer) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Flexibility |
Out |
|
Integer |
The
length of the flexibility is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetLength()
This
method retrieves the length of the segment.
Signature
Elec3DSegmentAnnotation.GetLength(Length : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Length |
Out |
|
LENGTH |
The
length of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the objects cannot be retrieved.
Elec3DSegmentAnnotation.GetMaxDiameter()
This
method retrieves the MaxDiameter of the segment.
Signature
Elec3DSegmentAnnotation.GetMaxDiameter(MaxDiameter : LENGTH) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
MaxDiameter |
Out |
|
LENGTH |
The
MaxDiameter the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DSegmentAnnotation.GetName()
This
method retrieves the name of the segment.
Signature
Elec3DSegmentAnnotation.GetName(Name : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Name |
Out |
|
String |
The name of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DSegmentAnnotation.GetResource()
This
method retrieves the resource of the segment annotation.
Signature
Elec3DSegmentAnnotation.GetResource(Resource : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Resource |
Out |
|
String |
The
subtype of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DSegmentAnnotation.GetSeparationCode()
This
method retrieves the separation code of the segment annotation.
Signature
Elec3DSegmentAnnotation.GetSeparationCode(SeparationCode : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
SeparationCode |
Out |
|
String |
The
separation code of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
Elec3DSegmentAnnotation.GetSubType()
This
method retrieves the SubType of the segment annotation.
Signature
Elec3DSegmentAnnotation.GetSubType(SubType : String) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
SubType |
Out |
|
String |
The
subtype of the Segment is retrieved |
ReturnType
Boolean
The method returns FALSE if the attribute is not found.
PLMEleRefMultiBranchable.ListProtectionsWithTotalLength()
The ListProtectionsWithTotalLength user function is exposed on an electrical
branch geometry and is used to get the list of protections inside it as well as a
list containing the total length of these protections.
Signature
PLMEleRefMultiBranchable.ListProtectionsWithTotalLength(ListOfProtection : List, ListOfTotalLength : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfProtection
|
Out |
Yes |
List
|
Lists the names of the protections contained
inside the electrical branch geometry. |
ListOfTotalLength
|
Out |
Yes |
List
|
Lists the total length of individual
protections of ListOfProtection. |
Example
BranchGeoRef : PLMEleRefMultiBranchable
let result(BOOLEAN)
let listOfProtection(LIST)
let listOfTotalLength(LIST)
let sName(STRING)
let numOfProtInstances(INTEGER)
let sizeOfTotalLengthList(INTEGER)
let sProtection1(STRING)
let sProtection2(STRING)
let sProtection3(STRING)
let lengthOfProtection1(REAL)
let lengthOfProtection2(REAL)
let lengthOfProtection3(REAL)
result = BranchGeoRef.ListProtectionsWithTotalLength( listOfProtection, listOfTotalLength )
set sName = BranchGeoRef.Name
if(false == result) /* Should return TRUE */
{
Message ("Protection Instances not found for reference #", sName)
}
set numOfProtInstances = listOfProtection->Size()
set sizeOfTotalLengthList = listOfTotalLength->Size()
if (( 3 <> numOfProtInstances) and (3 <> sizeOfTotalLengthList))
{
Message ("Number of Protection Instances found for reference # is not correct", sName)
}
set sProtection1 = listOfProtection->GetItem(1)
set sProtection2 = listOfProtection->GetItem(2)
set sProtection3 = listOfProtection->GetItem(3)
lengthOfProtection1 = listOfTotalLength->GetItem(1)
lengthOfProtection2 = listOfTotalLength->GetItem(2)
lengthOfProtection3 = listOfTotalLength->GetItem(3)
if(sProtection1 <> "FixedPro")
{
Message("Protection1 is not correct" )
}
if((lengthOfProtection1 < 50.001) and (lengthOfProtection1 >49.999))
{
Message("Length of Protection1 is not correct")
}
if(sProtection2 <> "AdaptivePro" )
{
Message("Protection2 is not correct" )
}
if((lengthOfProtection2 < 100.001) and (lengthOfProtection2 >99.999))
{
Message("Length of Protection2 is not correct")
}
if(sProtection3 <> "CorrugatedPro1")
{
Message("Protection3 is not correct")
}
if((lengthOfProtection3 < 150.001) and (lengthOfProtection3 >149.999))
{
Message("Length of Protection3 is not correct")
}
PLMEleRefWire.ListInstances()
The ListInstances user function is exposed on a conductor reference and is
used to get the list of its instances.
Signature
PLMEleRefWire.ListInstances(ListOfInstances : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfInstances
|
Out |
Yes |
List
|
Returns the list of instances in current
editor of the conductor reference on which ListInstances() is
called. |
Example
ElecConductorRef : PLMEleRefWire
Let listInstances (LIST)
Let result (BOOLEAN)
Let sName (STRING)
Let nbInst (INTEGER)
set result = ElecConductorRef->ListInstances(listInstances)
set sName = ElecConductorRef.V_Name
if(false == result) /* Should return TRUE */
{
Message ("Instances not found for reference #", sName)
}
set nbInst = listInstances->Size()
if( ((sName == "ConductorRef1") and (3 <> nbInst)) or ((sName == "ConductorRef2") and (1 <> nbInst)) )
{
Message ("Number of Instances found (= #) for reference # is incorrect", nbInst, sName)
}
PLMEleRefWireGroup.ListInstances()
The ListInstances user function is exposed on a conductor group reference and
is used to get the list of its instances.
Signature
PLMEleRefWireGroup.ListInstances(ListOfInstances : List) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
ListOfInstances
|
Out |
Yes |
List
|
Returns the list of instances in current
editor of the conductor group reference on which ListInstances()
is called. |
Example
ElecConductorGrpRef : PLMEleRefWireGroup
Let listInstancesOfCondtrGrp (LIST)
Let result (BOOLEAN)
Let sNameCondtrGrp (STRING)
Let nbInstCondtrGrp (INTEGER)
set result = ElecConductorGrpRef->ListInstances(listInstancesOfCondtrGrp)
set sNameCondtrGrp = ElecConductorGrpRef.V_Name
if(false == result) /* Should return TRUE */
{
Message ("Instances not found for ConductorGrpReference #", sNameCondtrGrp)
}
set nbInstCondtrGrp = listInstancesOfCondtrGrp->Size()
if( ((sNameCondtrGrp == "ConductorGrp1") and (2 <> nbInstCondtrGrp)) or ((sNameCondtrGrp == "ConductorGrp2") and (2 <> nbInstCondtrGrp)) )
{
Message ("Number of Instances found (= #) for ConductorGrpReference # is incorrect", nbInstCondtrGrp, sNameCondtrGrp)
}
ElectricalBranchGeometryOccurrence.GetFeatureAnnotation()
This
method retrieves the feature annotation from the UUID.
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
UUID |
In |
|
String |
The UUID received from the interference
calculation and saved inside the light model |
Elec3DAnnotation |
Out |
|
Elec3DAnnotation |
The feature annotation with all the attributes
saved inside the light model. The feature is null if
annotation was not found. |
ReturnType
Boolean
The method returns FALSE if the feature annotation was not found inside the light
model from UUID.
ElectricalGeometryOccurrence.LoopDetection()
Signature
ElectricalGeometryOccurrence.LoopDetection(ListOfSegmentInLoop : List) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ListOfSegmentInLoop |
Out |
|
List |
-
|
Segment.ComputeAndUpdateName()
The Segment.ComputeAndUpdateName() method can be used to rename an existing
segment according to an industrial criteria.
The method delegates the renaming to the Compute Feature Name
(Compute_Elec_Feature_Name) opening ID. Therefore, there are no
arguments for this method.
For more information about the opening ID, see Data Setup User's Guide: List of Resource Set IDs: 3D
Modeling: Electrical Physical System Design Resources: Electrical Physical
System Design: Business Logic: Compute Feature Name
(Compute_Elec_Feature_Name).
Signature
Segment.ComputeAndUpdateName() : Boolean
Segment.Elec_BundleSegmentExtremities()
The Segment.Elec_BundleSegmentExtremities() can be used in Quality Rules Reuse.
Signature
Segment.Elec_BundleSegmentExtremities(SegmentExtremity1 : SegmentExtremity, SegmentExtremity2 : SegmentExtremity) : Boolean
Segment.Elec_FillingRatio()
The Segment.Elec_FillingRatio() can be used in Quality Rules Reuse.
Signature
Segment.Elec_FillingRatio(FillingRatio : Real, FromStartEnd : Boolean [, StartOffset : Real, EndOffset : Real]) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
FillingRatio
|
Output |
Yes |
Real
|
Output filling ratio of the segment. This
ratio is the equivalent diameter of conductors passing through
the segment with the equivalent section area of the segment.
|
FromStartEnd
|
Input |
No |
Boolean
|
Optional Boolean argument to decide on the
exact section of the segment for which the filling ratio is to
be computed. It should be given when either or both of the next
two arguments are specified. It is useful to compute the filling
ratio of a part of a segment (due to presence of proxy branch
points). |
StartOffset
|
Input |
No |
Real
|
Optional argument to decide the exact section
of the segment for which the filling ratio is to be computed. It
should be the distance ratio of the first section to the segment
length. If the distance of the section is computed from the
second segment extremity, then the boolean "FromStartEnd" should
be FALSE. Note:
Start and end offset should be computed from the
same segment end.
|
EndOffset
|
Input |
No |
Real
|
Optional argument to decide the exact section
of the segment for which the filling ratio is to be computed. It
should be the distance ratio of the first section to the segment
length. If the distance of the section is computed from the
second segment extremity, then the boolean "FromStartEnd" should
be FALSE. Note:
Start and end offset should be computed from the
same segment end.
|
Example
This exposed function on segment returns the filling ratio of the segment. It
corresponds to CATIEwrNetworkArc:: GetFillingRatio method.
The filling ratio is the ratio of the "equivalent diameter of the conductors
passing through this segment" with "the equivalent section area of the segment"
(depending on its profile). Therefore, it is equal to 0 for a segment which has
no conductors passing through it and it is equal to 1 for a completely filled
segment.
The image below shows the usage and need of the three optional arguments:
To find the filling ratio of the segment within section A-B, the knowledge
function for Segment.Elec_FillingRatio is called with the following arguments:
OutputFillingRatio -> Real
FromStartEnd -> Boolean -> TRUE
StartOffset->Real -> la/L
EndOffset->Real -> lb/L
Segment.GetPath
This method creates the network path of a segment.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oNetworkPath |
Output |
Yes |
Elec3DNetworkPath |
The path from one segment extremity to the
other. |
ReturnType
Boolean
The method returns FALSE if the search for the network's nodes and arcs fails.
Segment.GetProfile()
The Segment.GetProfile() method can be used in Quality Rules Reuse. It allows to retrieve the profile type of a
segment.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
SegmentProfile
|
Output |
Yes |
ElecProfile
|
- |
Example
The following sample illustrates how to retrieve the profile type of a segment.
let EleSegment(segment)
let strProfileType(string)
set EleSegment = ThisObject
EleSegment.GetProfile(currentProfile)
set strProfileType = currentProfile.Elec_ProfileType
Notify("Profile type is : ", strProfileType)
Segment.ListCrossedSpaces()
The Segment.ListCrossedSpaces() method lists the spaces crossed by a segment.
This method can be called while using the Validate Segment Overloading for
Input Conductor Considering Underlying Conductors
(EWR_ValidateSegmentInConductorRoute) opening ID. For more
information, see Electrical 3D Design: Spaces Integration: Routing Conductors
through Spaces.
Signature
Segment.ListCrossedSpaces(ListSpaceOccurrence : List) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Segment
|
In |
Yes |
Segment
|
- |
ListSpaceOccurrence
|
Out |
Yes |
List
|
Contains the list of space occurences crossed
by the segment. |
Example
The following sample enables to list the segments crossing spaces FZ1 and FZ2.
let ListSpace(List)
let segment_name(String)
let space_name(String)
let space_occurrence(ProductOccurrence)
segment_name=my_segment.Name
if ( segment_name.Search("FZ1",1,true) > 0 )
{
my_segment.ListCrossedSpaces(ListSpace)
for space_occurrence inside ListSpace
{
space_name = space_occurrence.Name
if ( space_name.Search("FZ1",1,true) > 0 )
{
Message(segment_name+" in space "+space_occurrence.Name )
}
}
}
if ( segment_name.Search("FZ2",1,true) > 0 )
{
my_segment.ListCrossedSpaces(ListSpace)
for space_occurrence inside ListSpace
{
space_name = space_occurrence.Name
if ( space_name.Search("FZ2",1,true) > 0 )
{
Message(segment_name+" in space "+space_occurrence.Name )
}
}
}
Segment.ListSecondaryConnectionPositions()
The Segment.ListSecondaryConnectionPositions() method can be used in Quality Rules Reuse.
Signature
Segment.ListSecondaryConnectionPositions(SecondaryCnxType : String, oListOffsetfromSegStart : List, oListOffsetfromSegEnd : List, oListOfConnectedSegment : List]) : Boolean
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
Segment
|
Input |
Yes |
Segment |
- |
SecondaryCnxType
|
Input |
Yes |
String
|
Type of secondary connection to search. Valid
input strings are "ProxyBranchPoint", "DistantDeviceCnx" and
"All". |
oListOffsetfromSegStart
|
Output |
Yes |
List
|
Lists the distances from the "Start"
extremity for all secondary connection positions on the primary
segments. The secondary connection positions output depends
on the SecondaryCnxType input.
|
oListOffsetfromSegEnd
|
Output |
Yes |
List
|
Lists the distances from the "End" extremity
for all the secondary connection positions on the primary
segments. The secondary connection positions output depends
on the SecondaryCnxType input.
|
oListOfConnectedSegment
|
Output |
No |
List
|
List of lists which contain the segments
connected through the secondary connections (used only for proxy
branch points). If the listed secondary connections are
"DistantDeviceCnx", the list is NULL.
|
Example 1
The following sample illustrates how to retrieve:
- The proxy branch points positioned on a segment
- The distance separating the proxy branch points from the start and the
end of the segment
- The segments connected through secondary connections
Seg: Segment
//------------------------------------------------------------------------------
// Check, using exposed ListSecondaryConnectionPositions type
//-----------------------------------------------------------------------------
/* Check created by SSA2 2/22/2016 */
let listSeg (LIST)
let listFromStart (LIST)
let listFromEnd (LIST)
let index (INTEGER)
let index2 (INTEGER)
let index3 (INTEGER)
let size (INTEGER)
let size2 (INTEGER)
let size3 (INTEGER)
let sMessage (STRING)
let len (Length)
let listOfSegments(LIST)
let result (Boolean)
let SegConnected (Segment)
set sMessage = Seg.Name
result = Seg->ListSecondaryConnectionPositions("ProxyBranchPoint", listFromStart, listFromEnd, listOfSegments)
if(true == result) set sMessage = sMessage + ": Result = true"
else set sMessage = sMessage + ": Result = true"
set size2 = listFromStart.Size()
set sMessage = sMessage + ", Number of Proxy branch points = " + ToString(size2)
set index2 = 1
if( (1 <= size2) and (size2 == listFromEnd.Size()) )
{
for index2 while index2 <= size2
{
set len = listFromStart.GetItem(index2)
sMessage = sMessage + "Length From start (" + ToString(index2) + ") = " + ToString(len) + ", "
set len = listFromEnd.GetItem(index2)
sMessage = sMessage + "Length From End (" + ToString(index2) + ") = " + ToString(len) + ", "
if(NULL <> listOfSegments)
{
sMessage = sMessage + "List of Segments = "
/*List of Connected segment @ Proxy BranchPoint */
set index3 = 1
set size3 = listOfSegments->Size()
for index3 while index3<=size3
{
set listSeg = listOfSegments.GetItem(index3)
if(NULL <> listSeg)
{
set index = 1
size = listSeg.Size()
for index while index <= size
{
set SegConnected = listSeg.GetItem(index1)
if(NULL <> SegConnected) sMessage = sMessage + SegConnected.Name + ", "
else sMessage = sMessage + ", "
}
}
else sMessage = sMessage + ", "
}
}
else sMessage = sMessage + "List of Segments = NULL"
}
}
Notify(sMessage)
Example 2
The following example illustrates how to retrieve:
- The position of segments belonging to secondary branches and connected
to a primary branch through proxy branch points
- The position of the device distant links on a source segment
let ListChild (LIST)
let listOffsetfromStart (LIST)
let listOffsetfromEnd (LIST)
let seg (Segment)
let bVal(Boolean)
let rPosn(Real)
let enumVal(string)
set ListChild = Branch.Children
Message ("#", ListChild->Size())
set seg = ListChild->GetItem(1)
if(NULL <> seg)
{
// process Proxy branch points
// ----------------------------
set enumVal="ProxyBranchPoint"
set bVal = seg.ListSecondaryConnectionPositions(enumVal, listOffsetfromStart, listOffsetfromEnd)
if(bVal <> FALSE)
{
Message ("Nb of ProxyBranchPoint positions identified on Primary Segment : #", listOffsetfromStart->Size())
rPosn = listOffsetfromStart->GetItem(1);
Message ("First ProxyBranchPoint position is identifiedfrom Start at a distance : #", rPosn)
}
listOffsetfromStart.RemoveAll();
listOffsetfromEnd.RemoveAll();
// process Distant device connexion
// ---------------------------------
set enumVal="DistantDeviceCnx"
set bVal = seg.ListSecondaryConnectionPositions(DistantCnx, listOffsetfromStart, listOffsetfromEnd)
if(bVal <> FALSE)
{
Message ("Nb of Device Distant Cnx positions identified on Primary Segment : #", listOffsetfromEnd->Size())
rPosn = listOffsetfromEnd->GetItem(1);
Message ("First Distant Cnx position is identifiedfrom End at a distance : #", rPosn)
}
set segEnd = ListSegChild->GetItem(1)
}
Segment.SetProfile
The Segment.SetProfile method can be used in Quality Rules Reuse. It allows to define a profile type on a
segment.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
Profile
|
Input |
Yes |
ElecProfile
|
- |
ReturnType
Boolean
The method returns FALSE if the branch cannot be built correctly with the new
profile.
SegmentExtremity.GetNode
This method retrieves the node connected at a segment extremity.
Signature
GetNode(oNode : Elec3DNetworkNode) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oNode |
Output |
Yes |
Elec3DNetworkNode |
The node corresponding to the segment
extremity. |
ReturnType
Boolean
The method returns FALSE if the search for the node fails.
SharedEquipmentPartOccurrence.CheckLockAngle()
Signature
SharedEquipmentPartOccurrence.CheckLockAngle(ReferenceElement : ProductOccurrence, Check : Boolean, Angle : ANGLE) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
ReferenceElement |
In |
|
ProductOccurrence |
-
|
Check |
Out |
|
Boolean |
-
|
Angle |
Out |
|
ANGLE |
-
|
SharedEquipmentPartOccurrence.ComputeGlobalOrientation()
Signature
SharedEquipmentPartOccurrence.ComputeGlobalOrientation(AngleAxisZ : ANGLE, AngleXYPlane : ANGLE, ReferenceAxis : Axis System [, RefAxisOccurrence : ProductOccurrence]) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
AngleAxisZ |
Out |
|
ANGLE |
-
|
AngleXYPlane |
Out |
|
ANGLE |
-
|
ReferenceAxis |
In |
|
AxisSystem |
-
|
RefAxisOccurrence |
In |
|
ProductOccurrence |
-
|
SharedEquipmentPartOccurrence.ComputeOrientation()
Signature
SharedEquipmentPartOccurrence.ComputeOrientation(InputReferenceElement : ProductOccurrence, Angle : ANGLE, ComputedReferenceElement : ProductOccurrence) : Integer
Arguments
Name |
Input/Output |
Required? |
Type |
Comment |
InputReferenceElement |
In |
|
ProductOccurrence |
-
|
Angle |
Out |
|
ANGLE |
-
|
ComputedReferenceElement |
Out |
|
ProductOccurrence |
-
|
SharedSupportPartOccurence.ListArc
This method retrieves the arcs corresponding to the segments routed inside a
support occurrence.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
oListArc |
Output |
Yes |
List |
The list of arcs routed inside the support.
|
iSection |
Input |
Optional |
Integer |
The section number.
If iSection is not set: all arcs are retrieved.
|
ReturnType
Boolean
The method returns FALSE if the search for arcs fails.
Wire.ComputedMinAngle()
The Wire.ComputedMinAngle() method can be used in Quality Rules Reuse.
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
MinBendAngle
|
Out |
Yes |
ANGLE |
None |
Segment1
|
Out |
Yes |
Segment
|
None |
Segment2
|
Out |
Yes |
Segment
|
None |
Wire.ComputedMinBendRadius()
The Wire.ComputedMinBendRadius() method can be used in Quality Rules Reuse.
Signature
Wire.ComputedMinBendRadius(MinBendRadius : LENGTH, Segment : Segment) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
MinBendRadius
|
Out |
Yes |
LENGTH |
None |
Segment
|
Out |
Yes |
Segment
|
None |
Wire.FromTo()
The Wire.FromTo() method can be used in Quality Rules Reuse.
Signature
Wire.FromTo(From Product : VPMInstance, FromConnectionPointName : String, To Product : VPMInstance, ToConnectionPointName : String) : Boolean
Arguments
Name |
Input / Output |
Required? |
Type |
Comment |
From Product
|
Out |
Yes |
VPMInstance |
None |
FromConnectionPointName
|
Out |
Yes |
String
|
None |
To Product
|
Out |
Yes |
VPMInstance |
None |
ToConnectionPointName
|
Out |
Yes |
String
|
None |
Wire.GetRouteBendInformation()
The Wire.GetRouteBendInformation() method can be used in Quality Rules Reuse.
|