import java.util.ArrayList;
import java.util.Collection;
-import java.util.HashMap;
import java.util.List;
-import java.util.Map;
import javax.vecmath.Point3d;
import javax.vecmath.Quat4d;
import org.simantics.g3d.math.MathTools;
import org.simantics.plant3d.scenegraph.InlineComponent;
-import org.simantics.plant3d.scenegraph.Nozzle;
import org.simantics.plant3d.scenegraph.P3DRootNode;
import org.simantics.plant3d.scenegraph.PipeRun;
import org.simantics.plant3d.scenegraph.PipelineComponent;
private static final boolean DEBUG = false;
private static final boolean DUMMY = false;
- private static double MIN_TURN_ANGLE = 0.001; // Threshold for removing turn components.
- private static double ALLOWED_OFFSET = 0.001; // Allowed offset for directed path legs
+ private static double MIN_TURN_ANGLE = 0.001; // Threshold for removing turn components.
+ private static double ALLOWED_OFFSET = 0.001; // Allowed offset for directed path legs
+ private static double MIN_INLINE_LENGTH = 0.001; // Minimum length of inline components, when component removal is not allowed.
private static final int REMOVE_NONE = 0;
private static final int REMOVE_START = 1;
private static final int REMOVE_BOTH = 3;
+ // PathLeg iteration indicator. NEXT_S > NEXT > NONE PREV_S > PREV > NONE
private enum PathLegUpdateType {
- NONE, PREV, NEXT, PREV_S, NEXT_S
+ NONE, // Only current path leg needs to be updated (for example, inline comp was moved)
+ PREV, // Current and previous path leg need to be updated
+ NEXT, // Current and next path leg need to be updated
+ PREV_S, // Current and previous two path legs need to be updated (turn was moved, which affect other path leg end turns, and thus following path legs
+ NEXT_S // Current and next two path legs need to be updated
};
- private static boolean enabled = true;
+ private static boolean enabled = true; //
private static boolean updating = false;
private static boolean allowInsertRemove = true;
private static boolean triedIR = false;
private static Object ruleMutex = new Object();
public static void requestUpdate(PipeControlPoint pcp) {
+ if (!PipingRules.enabled)
+ return;
if (DEBUG) System.out.println("PipingRules request " + pcp);
synchronized (updateMutex) {
if (!requestUpdates.contains(pcp))
}
public static boolean update() throws Exception {
+ if (!PipingRules.enabled)
+ return false;
+
if (requestUpdates.size() == 0)
return false;
allowInsertRemove = allowIR;
triedIR = false;
validate(pcp.getPipeRun());
- if (pcp.isPathLegEnd()) {
+ if (pcp.asPathLegEnd()) {
updatePathLegEndControlPoint(pcp); // FIXME: Rules won't work properly, if they are not run twice.
- updatePathLegEndControlPoint(pcp);
+ //updatePathLegEndControlPoint(pcp);
} else {
updateInlineControlPoint(pcp);
- updateInlineControlPoint(pcp);
+ //updateInlineControlPoint(pcp);
}
validate(pcp.getPipeRun());
if (!allowInsertRemove)
public static boolean isEnabled() {
return enabled;
}
-
-// private void commit() {
-// root.getNodeMap().commit();
-// }
public static class ExpandIterInfo {
// these two are turn control points
System.out.println("PipingRules.insertElbow() " + pcp1 + " " + pcp2 + " " + pos);
if (pcp1.getNext() == pcp2 && pcp2.getPrevious() == pcp1) {
- } else if (pcp1.getNext() == pcp2 && pcp1.isDualInline() && pcp2.getPrevious() == pcp1.getSubPoint().get(0)) {
- pcp1 = pcp1.getSubPoint().get(0);
+ } else if (pcp1.getNext() == pcp2 && pcp1.isDualInline() && pcp2.getPrevious() == pcp1.getDualSub()) {
+ pcp1 = pcp1.getDualSub();
} else if (pcp1.getPrevious() == pcp2 && pcp2.getNext() == pcp1) {
PipeControlPoint t = pcp1;
pcp1 = pcp2;
pcp2 = t;
- } else if (pcp2.isDualInline() && pcp1.getPrevious() == pcp2.getSubPoint().get(0) && pcp2.getNext() == pcp1) {
+ } else if (pcp2.isDualInline() && pcp1.getPrevious() == pcp2.getDualSub() && pcp2.getNext() == pcp1) {
PipeControlPoint t = pcp1;
- pcp1 = pcp2.getSubPoint().get(0);
+ pcp1 = pcp2.getDualSub();
pcp2 = t;
} else {
throw new RuntimeException();
TurnComponent elbow = ComponentUtils.createTurn((P3DRootNode)pcp1.getRootNode());
PipeControlPoint pcp = elbow.getControlPoint();
if (pcp1.isDualInline())
- pcp1 = pcp1.getSubPoint().get(0);
+ pcp1 = pcp1.getDualSub();
String name = pcp1.getPipeRun().getUniqueName("Elbow");
elbow.setName(name);
pcp1.getPipeRun().addChild(elbow);
System.out.println("PipingRules.insertStraight() " + pcp1 + " " + pcp2 + " " + pos);
if (pcp1.getNext() == pcp2 && pcp2.getPrevious() == pcp1) {
- } else if (pcp1.getNext() == pcp2 && pcp1.isDualInline() && pcp2.getPrevious() == pcp1.getSubPoint().get(0)) {
- pcp1 = pcp1.getSubPoint().get(0);
+ } else if (pcp1.getNext() == pcp2 && pcp1.isDualInline() && pcp2.getPrevious() == pcp1.getDualSub()) {
+ pcp1 = pcp1.getDualSub();
} else if (pcp1.getPrevious() == pcp2 && pcp2.getNext() == pcp1) {
PipeControlPoint t = pcp1;
pcp1 = pcp2;
pcp2 = t;
- } else if (pcp2.isDualInline() && pcp1.getPrevious() == pcp2.getSubPoint().get(0) && pcp2.getNext() == pcp1) {
+ } else if (pcp2.isDualInline() && pcp1.getPrevious() == pcp2.getDualSub() && pcp2.getNext() == pcp1) {
PipeControlPoint t = pcp1;
- pcp1 = pcp2.getSubPoint().get(0);
+ pcp1 = pcp2.getDualSub();
pcp2 = t;
} else {
throw new RuntimeException();
InlineComponent component = ComponentUtils.createStraight((P3DRootNode)pcp1.getRootNode());
PipeControlPoint scp = component.getControlPoint();
if (pcp1.isDualInline())
- pcp1 = pcp1.getSubPoint().get(0);
+ pcp1 = pcp1.getDualSub();
String name = pcp1.getPipeRun().getUniqueName("Pipe");
component.setName(name);
pcp1.getPipeRun().addChild(component);
InlineComponent component = ComponentUtils.createStraight((P3DRootNode)pcp.getRootNode());
PipeControlPoint scp = component.getControlPoint();
if (pcp.isDualInline() && direction == Direction.NEXT)
- pcp = pcp.getSubPoint().get(0);
+ pcp = pcp.getDualSub();
String name = pcp.getPipeRun().getUniqueName("Pipe");
component.setName(name);
pcp.getPipeRun().addChild(component);
}
private static void updatePathLegNext(PipeControlPoint start, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception {
-
UpdateStruct2 us = createUS(start, Direction.NEXT, 0, new ArrayList<ExpandIterInfo>(), updated);
- if (lengthChange == PathLegUpdateType.NONE) {
- if (start.equals(updated))
- lengthChange = PathLegUpdateType.NEXT;
- else if (us.end.equals(updated))
- lengthChange = PathLegUpdateType.PREV;
+ if (us == null) {
+ System.out.println("Null update struct " + start);
+ return;
}
updatePathLeg(us, lengthChange);
}
private static void updatePathLegPrev(PipeControlPoint start, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception {
- // TODO: this method is not symmetric with updatePathLegNext, which may alter lengthChange parameter?
UpdateStruct2 us = createUS(start, Direction.PREVIOUS, 0, new ArrayList<ExpandIterInfo>(), updated);
-// if (lengthChange == PathLegUpdateType.NONE) {
-// if (start.equals(updated))
-// lengthChange = PathLegUpdateType.NEXT;
-// else if (us.end.equals(updated))
-// lengthChange = PathLegUpdateType.PREV;
-// }
+ if (us == null) {
+ System.out.println("Null update struct " + start);
+ return;
+ }
updatePathLeg(us, lengthChange);
}
}
+ @SuppressWarnings("unused")
private static boolean calculateOffset(Vector3d startPoint, Vector3d endPoint, ArrayList<PipeControlPoint> list, Vector3d dir, Vector3d offset) {
boolean hasOffsets = false;
List<PipeControlPoint> offsets = new ArrayList<PipeControlPoint>(list.size());
private static boolean asDirected(PipeControlPoint pcp, Direction direction) {
if (pcp.isDirected())
return true;
- if (pcp.isTurn() && pcp.isFixed()) {
+ if (pcp.asFixedAngle()) {
if (!pcp._getReversed())
return direction == Direction.NEXT;
else
}
private static void updatePathLeg(UpdateStruct2 u, PathLegUpdateType lengthChange) throws Exception {
+ boolean rs = true;
+ boolean re = true;
+ if (lengthChange == PathLegUpdateType.NONE) {
+ rs = false;
+ re = false;
+ }
+ updatePathLeg(u, lengthChange, rs, re);
+ }
+
+ private static void updatePathLeg(UpdateStruct2 u, PathLegUpdateType lengthChange, boolean rs, boolean re) throws Exception {
int directed = 0;
if (asDirected(u.start, Direction.NEXT))
directed++;
if (asDirected(u.end, Direction.PREVIOUS))
directed++;
+ if (rs)
+ u.start.getPipelineComponent().setError(null);
+ if (re)
+ u.end.getPipelineComponent().setError(null);
+ for (PipeControlPoint pcp : u.list)
+ pcp.getPipelineComponent().setError(null);
switch (directed) {
case 0:
updateFreePathLeg(u, lengthChange);
if (DEBUG)
System.out.println("PipingRules.updateFreePipeRun " + u + " " + lengthChange);
checkExpandPathLeg(u, lengthChange);
- if (u.start.isInline() || u.end.isInline() || u.start.isFixed() || u.end.isFixed())
+ if (u.start.isInline() || u.end.isInline() || u.start.asFixedAngle()|| u.end.asFixedAngle())
processPathLeg(u, true, false);
}
if (checkSizes) {
// create offsets for leg ends.
- MathTools.mad(start, u.dir, u.start.getInlineLength());
- MathTools.mad(end, u.dir, -u.end.getInlineLength());
+ if (u.start.isTurn())
+ MathTools.mad(start, u.dir, u.start.getInlineLength());
+ if (u.end.isTurn())
+ MathTools.mad(end, u.dir, -u.end.getInlineLength());
}
-
+
boolean recalcline = false;
if (!u.hasOffsets) {
return;
ArrayList<PipeControlPoint> pathLegPoints = new ArrayList<PipeControlPoint>();
+ ArrayList<PipeControlPoint> fixedLengthPoints = new ArrayList<PipeControlPoint>();
pathLegPoints.add(u.start);
+
for (PipeControlPoint icp : u.list) {
// updateInlineControlPoint(icp, u.startPoint,
// u.endPoint,u.dir);
updateBranchControlPointBranches(icp);
pathLegPoints.add(icp);
+ if (!icp.isVariableLength())
+ fixedLengthPoints.add(icp);
}
pathLegPoints.add(u.end);
- // TODO : values can be cached in the loop
+ // updateInlineControlPoint keeps components between path leg ends, but does not ensure that fixed length components do no overlap each other
+
+ for (int i = 0; i < fixedLengthPoints.size(); i++) {
+ PipeControlPoint prev = i == 0 ? null : fixedLengthPoints.get(i-1);
+ PipeControlPoint curr = fixedLengthPoints.get(i);
+ PipeControlPoint next = i == fixedLengthPoints.size() -1 ? null : fixedLengthPoints.get(i+1);
+ updateFixedLength(curr, prev, next, start,end, u.dir);
+ }
+
for (int i = 0; i < pathLegPoints.size(); i++) {
PipeControlPoint icp = pathLegPoints.get(i);
PipeControlPoint next = i < pathLegPoints.size() - 1 ? pathLegPoints.get(i + 1) : null;
if (prev != null && prev.isDualInline())
- prev = prev.getSubPoint().get(0);
+ prev = prev.getDualSub();
if (icp.isVariableLength()) {
if (recalcline) {
u.list.clear();
u.start.findNextEnd(u.list);
+ }
+ if (checkSizes) {
+ double pathLegLength = MathTools.distance(u.startPoint, u.endPoint);
+ double availableLength = pathLegLength;
+ if (u.start.isTurn())
+ availableLength -= u.start.getInlineLength();
+ if (u.end.isTurn())
+ availableLength -= u.end.getInlineLength();
+ for (PipeControlPoint pcp : u.list) {
+ if (!pcp.isVariableLength())
+ availableLength-= pcp.getLength();
+ }
+ if (availableLength < 0.0) {
+ u.start.getPipelineComponent().setError("Not enough available space");
+ u.end.getPipelineComponent().setError("Not enough available space");
+ for (PipeControlPoint pcp : u.list)
+ pcp.getPipelineComponent().setError("Not enough available space");
+ }
+// System.out.println(u.start.getPipelineComponent().toString() + " " + pathLegLength + " " + availableLength + " " + u.end.getPipelineComponent().toString() + " " + u.start.getInlineLength() + " " + u.end.getInlineLength());
}
}
+ private static void updateFixedLength(PipeControlPoint icp, PipeControlPoint prev, PipeControlPoint next, Vector3d s, Vector3d e, Vector3d dir) {
+ if (prev != null) {
+ checkOverlap(icp, prev);
+ }
+ if (next != null)
+ checkOverlap(icp, next);
+ }
+
+ private static void checkOverlap(PipeControlPoint icp, PipeControlPoint prev) {
+ double d = MathTools.distance(prev.getWorldPosition(), icp.getWorldPosition());
+ double r = icp.getInlineLength() + prev.getInlineLength();
+ if (d < r) {
+ if (icp.getPipelineComponent().getError() == null)
+ icp.getPipelineComponent().setError("Overlapping");
+ if (prev.getPipelineComponent().getError() == null)
+ prev.getPipelineComponent().setError("Overlapping");
+ }
+ }
+
private static boolean updateVariableLength(PipeControlPoint icp, PipeControlPoint prev, PipeControlPoint next) {
Vector3d prevPos = prev.getWorldPosition();
Vector3d nextPos = next.getWorldPosition();
Vector3d dir = new Vector3d(nextPos);
dir.sub(prevPos);
- double l = dir.lengthSquared(); // distance between
- // control points
- // (square)
- double l2prev = prev.getInlineLength(); // distance
- // taken
- // by
- // components
+ double l = dir.length(); // distance between control points
+ double l2prev = prev.getInlineLength(); // distance taken by components
double l2next = next.getInlineLength();
double l2 = l2prev + l2next;
- double l2s = MathTools.square(l2);
- if (l2s < l) { // check if there is enough space for
- // variable length component.
+ double length = l - l2; // true length of the variable length component
+ if (length >= MIN_INLINE_LENGTH) { // check if there is enough space for variable length component.
// components fit
dir.normalize();
- double length = Math.sqrt(l) - l2; // true length of
- // the variable
- // length
- // component
- dir.scale(length * 0.5 + l2prev); // calculate
- // center
- // position of
- // the component
+ dir.scale(length * 0.5 + l2prev); // calculate center position of the component
dir.add(prevPos);
icp.setWorldPosition(dir);
icp.setLength(length);
return false;
} else {
- // components leave no space to the component and it
- // must be removed
-
+ // components leave no space to the component and it must be removed
if (icp.isDeletable()) {
+ if (!allowInsertRemove) {
+ icp.setLength(MIN_INLINE_LENGTH);
+ icp.getPipelineComponent().setError("Not enough available space");
+ triedIR = true;
+ return false;
+ }
if (DEBUG)
System.out.println("PipingRules.updateVariableLength removing " + icp);
icp._remove();
return true;
+ } else {
+ icp.setLength(MIN_INLINE_LENGTH);
+ icp.getPipelineComponent().setError("Not enough available space");
}
return false;
}
if (l > l2s) {
if (allowInsertRemove) {
dir.normalize();
- double length = Math.sqrt(l) - l2; // true length of the
- // variable length
- // component
- dir.scale(length * 0.5 + l2prev); // calculate center
- // position of the
- // component
+ double length = Math.sqrt(l) - l2; // true length of the variable length component
+ dir.scale(length * 0.5 + l2prev); // calculate center position of the component
dir.add(prevPos);
- PipeControlPoint scp = insertStraight(prev, icp, dir, length);
+ insertStraight(prev, icp, dir, length);
return true;
} else {
triedIR = true;
double distance = t.length();
boolean aligned = (distance < ALLOWED_OFFSET);
if (aligned) {
- if (u.start.isInline() || u.end.isInline() || u.start.isFixed() || u.end.isFixed())
+ if (u.start.isInline() || u.end.isInline() || u.start.asFixedAngle() || u.end.asFixedAngle())
processPathLeg(u, true, false);
checkExpandPathLeg(u, lengthChange, inlineEnd);
// TODO : this returns now space for 90 deg turn.
// The challenge: position of tcp affects the turn angle, which then affects the required space. Perhaps we need to iterate...
// Additionally, if the path legs contain offset, using just positions of opposite path leg ends is not enough,
- return tcp.getPipeRun().getTurnRadius();
+ return ((TurnComponent)tcp.getPipelineComponent()).getTurnRadius();
}
private static void insertElbowUpdate(UpdateStruct2 u, PipeControlPoint dcp, PipeControlPoint next, boolean dcpStart, Vector3d position, Vector3d directedDirection) throws Exception{
// end,Point3d endPoint, Vector3d dir, boolean hasOffsets,int iter, boolean
// reversed, ArrayList<ExpandIterInfo> toRemove) throws TransactionException
// {
+ @SuppressWarnings("unused")
private static void processPathLegNoOffset(UpdateStruct2 u) throws Exception {
if (DEBUG)
System.out.println("PipingRules.processPathLeg " + u.start + " " + u.end);
private static void updateOffsetPoint(PipeControlPoint sccp, Vector3d offset) {
Vector3d world = sccp.getWorldPosition();
world.add(offset);
- PipeControlPoint ocp = sccp.getSubPoint().iterator().next();
+ PipeControlPoint ocp = sccp.getDualSub();
ocp.setWorldPosition(world);
}
if (canCalc) {
boolean branchUpdate = false;
PipeControlPoint becp = null;
- for (PipeControlPoint pcp : icp.getSubPoint())
+ for (PipeControlPoint pcp : icp.getChildPoints())
if (pcp.isNonDirected()) {
branchUpdate = true;
becp = pcp;
private static void updateEndComponentControlPoint(PipeControlPoint ecp, Vector3d start, Vector3d end) throws Exception {
if (DEBUG)
System.out.println("PipingRules.updateEndComponentControlPoint() " + ecp);
- // PipeControlPoint next = ecp.getNext();
- // PipeControlPoint prev = ecp.getPrevious();
- // if (next != null) {
- // end = G3DTools.getPoint(next.getLocalPosition());
- // start = G3DTools.getPoint(ecp.getLocalPosition());
- // } else if (prev != null) {
- // end = G3DTools.getPoint(ecp.getLocalPosition());
- // start = G3DTools.getPoint(prev.getLocalPosition());
- // } else {
- // // TODO : warning?
- // return;
- // }
- // Vector3d dir = new Vector3d (end);
- // dir.sub(start);
- // dir.normalize();
- // G3DTools.setTuple(ecp.getDirection(), dir);
- if (!ecp.isFixed())
- updateControlPointOrientation(ecp);
-
- for (PipeControlPoint pcp : ecp.getSubPoint()) {
+ //FIXME : end control point cannot be fixed!
+ //if (!ecp.isFixed())
+ updateControlPointOrientation(ecp);
+
+ for (PipeControlPoint pcp : ecp.getChildPoints()) {
// TODO update position
updatePathLegEndControlPoint(pcp);
}
System.out.println("PipingRules.updateBranchControlPointBranches() " + bcp);
if (bcp.isDualInline())
return;
- Collection<PipeControlPoint> branches = bcp.getSubPoint();
+ Collection<PipeControlPoint> branches = bcp.getChildPoints();
if (branches.size() == 0) {
if (DEBUG)
System.out.println("No Branches found");
}
}
- if (!tcp.isFixed()) {
+ if (!tcp.asFixedAngle()) {
if (next == null || prev == null) {
Vector3d turnAxis = new Vector3d();
turnAxis.cross(prev, next);
if (turnAxis.lengthSquared() > MathTools.NEAR_ZERO) {
- double elbowRadius = tcp.getPipelineComponent().getPipeRun().getTurnRadius();
+ double elbowRadius = ((TurnComponent)tcp.getPipelineComponent()).getTurnRadius();
double R = elbowRadius / Math.tan(angle * 0.5);
turnAxis.normalize();
PipeControlPoint pcp = pipeRun.getControlPoints().iterator().next();
while (pcp.getPrevious() != null) {
PipeControlPoint prev = pcp.getPrevious();
- if (prev.getPipeRun() != pipeRun)
- break;
+ if (prev.getPipeRun() != pipeRun && prev.getPipeRun() != null) { // bypass possible corruption
+ break;
+ }
pcp = prev;
}
if (pcp.isDualSub()) {
while (true) {
List<PipeControlPoint> points = getControlPoints(pipeRun);
PipeControlPoint pcp = points.get(0);
- if (pcp.isSizeChange() && pcp.getSubPoint().size() > 0) {
+ if (pcp.isSizeChange() && pcp.getChildPoints().size() > 0) {
pipeRun = pcp.getPipeRun();
} else {
break;
List<PipeControlPoint> points = getControlPoints(pipeRun);
pcps.add(points);
PipeControlPoint pcp = points.get(points.size()-1);
- if (pcp.getSubPoint().size() > 0) {
- pipeRun = pcp.getSubPoint().get(0).getPipeRun();
+ if (pcp.getChildPoints().size() > 0) {
+ PipeRun pipeRun2 = pcp.getChildPoints().get(0).getPipeRun();
+ if (pipeRun == pipeRun2)
+ break;
+ else
+ pipeRun = pipeRun2;
} else {
break;
}
PipeControlPoint current = list.get(i);
PipeControlPoint currentSub = null;
if (current.isDualInline())
- currentSub = current.getSubPoint().get(0);
+ currentSub = current.getDualSub();
if (first) {
PipeControlPoint next = list.get(i+1);
if (next.isDualInline())
- next = next.getSubPoint().get(0);
+ next = next.getDualSub();
if (current.getNext() == next)
current.setNext(null);
current.setPrevious(next);
PipeControlPoint prev = list.get(i-1);
PipeControlPoint next = list.get(i+1);
if (next.isDualInline())
- next = next.getSubPoint().get(0);
+ next = next.getDualSub();
current.setPrevious(next);
}
}
- if (current.isTurn() && current.isFixed()) {
+ //if (current.isTurn() && current.isFixed()) {
+ if (current.asFixedAngle()) {
current.setReversed(!current._getReversed());
}
if (current.isInline() && current.isReverse()) {
}
}
- public static void merge(PipeRun run1, PipeRun r2) {
- Map<PipeControlPoint, Vector3d> positions = new HashMap<PipeControlPoint, Vector3d>();
- Map<PipeControlPoint, Quat4d> orientations = new HashMap<PipeControlPoint, Quat4d>();
- for (PipeControlPoint pcp : r2.getControlPoints()) {
- positions.put(pcp, pcp.getWorldPosition());
- orientations.put(pcp, pcp.getWorldOrientation());
- }
- for (PipeControlPoint pcp : r2.getControlPoints()) {
- r2.deattachChild(pcp);
- run1.addChild(pcp);
- PipelineComponent component = pcp.getPipelineComponent();
- if (component != null) {
- if (!(component instanceof Nozzle)) {
- component.deattach();
- run1.addChild(component);
- } else {
- Nozzle n = (Nozzle)component;
- n.setPipeRun(run1);
- }
- }
- }
- r2.remove();
-
- }
+
public static void validate(PipeRun pipeRun) {
if (pipeRun == null)
}
List<PipeControlPoint> runPcps = getControlPoints(pipeRun);
if (runPcps.size() != count) {
- System.out.println("Run " + pipeRun.getName() + " contains unconnected control points");
+ System.out.println("Run " + pipeRun.getName() + " contains unconnected control points, found " + runPcps.size() + " connected, " + pcps.size() + " total.");
+ for (PipeControlPoint pcp : pcps) {
+ if (!runPcps.contains(pcp)) {
+ System.out.println("Unconnected " + pcp + " " + pcp.getPipelineComponent());
+ }
+ }
}
for (PipeControlPoint pcp : pcps) {
+ if (pcp.getPipeRun() == null) {
+ System.out.println("PipeRun ref missing " + pcp + " " + pcp.getPipelineComponent());
+ }
if (!pcp.isDirected() && pcp.getNext() == null && pcp.getPrevious() == null)
- System.out.println("Orphan undirected " + pcp);
+ System.out.println("Orphan undirected " + pcp + " " + pcp.getPipelineComponent());
}
for (PipeControlPoint pcp : pcps) {
if (pcp.getParentPoint() == null) {
PipeControlPoint sub = null;
if (pcp.isDualInline())
- sub = pcp.getSubPoint().get(0);
+ sub = pcp.getDualSub();
PipeControlPoint next = pcp.getNext();
PipeControlPoint prev = pcp.getPrevious();
if (next != null) {
}
public static void splitVariableLengthComponent(PipelineComponent newComponent, InlineComponent splittingComponent, boolean assignPos) throws Exception{
- assert(!splittingComponent.getControlPoint().isFixed());
- assert(!(newComponent instanceof InlineComponent && !newComponent.getControlPoint().isFixed()));
+ assert(!splittingComponent.getControlPoint().isFixedLength());
+ assert(!(newComponent instanceof InlineComponent && !newComponent.getControlPoint().isFixedLength()));
PipeControlPoint newCP = newComponent.getControlPoint();
PipeControlPoint splittingCP = splittingComponent.getControlPoint();
PipeControlPoint nextCP = splittingCP.getNext();
// this should not be possible
throw new RuntimeException("VariableLengthComponent " + splittingComponent + " is not connected to anything.");
}
- double reservedLength = splittingComponent.getControlPoint().getLength();
double newLength = newComponent.getControlPoint().getLength();
vn.interpolate(next, 0.5);
- PipeControlPoint newVariableLengthCP = null;//insertStraight(pcp1, pcp2, pos, length);
if (nextCP == null) {
newCP.insert(splittingCP, Direction.NEXT);
- newVariableLengthCP = insertStraight(newCP, Direction.NEXT, new Vector3d(vn), ln);
+ insertStraight(newCP, Direction.NEXT, new Vector3d(vn), ln);
splittingCP.setWorldPosition(new Vector3d(vp));
// ControlPointTools.setWorldPosition(splittingCP, vp);
// splittingCP.setRelatedScalarDouble(ProcessResource.plant3Dresource.HasLength, lp);
} else if (prevCP == null) {
newCP.insert(splittingCP, Direction.PREVIOUS);
- newVariableLengthCP = insertStraight(newCP, Direction.PREVIOUS, new Vector3d(vp), lp);
+ insertStraight(newCP, Direction.PREVIOUS, new Vector3d(vp), lp);
splittingCP.setWorldPosition(new Vector3d(vn));
// splittingCP.setRelatedScalarDouble(ProcessResource.plant3Dresource.HasLength, ln);
} else {
newCP.insert(splittingCP, nextCP);
- newVariableLengthCP = insertStraight(newCP, nextCP, new Vector3d(vn), ln);
+ insertStraight(newCP, nextCP, new Vector3d(vn), ln);
splittingCP.setWorldPosition(new Vector3d(vp));
// splittingCP.setRelatedScalarDouble(ProcessResource.plant3Dresource.HasLength, lp);
}
public static void addSizeChange(boolean reversed, PipeRun pipeRun, PipeRun other, InlineComponent reducer, PipeControlPoint previous, PipeControlPoint next) {
PipeControlPoint pcp = reducer.getControlPoint();
- PipeControlPoint ocp = pcp.getSubPoint().get(0);
+ PipeControlPoint ocp = pcp.getDualSub();
if (!reversed) {
String name = pipeRun.getUniqueName("Reducer");
reducer.setName(name);