+ Nozzle nozzle = root.createNozzle();
+ nozzle.setType(nozzleType.getUri());
+ String n = root.getUniqueName(nozzleType.getName());
+ nozzle.setName(n);
+ PipeRun pipeRun = new PipeRun();
+ n = root.getUniqueName("PipeRun");
+ pipeRun.setName(n);
+ nozzle.setPipeRun(pipeRun);
+
+ equipment.addChild(nozzle);
+ root.addChild(pipeRun);
+ // root.getNodeMap().commit("Add nozzle " + n);
+ return nozzle;
+ }
+
+ public static class InsertInstruction {
+ public String typeUri;
+
+ public PositionType position = PositionType.NEXT;
+ public PositionType insertPosition = PositionType.NEXT;
+
+ // Reducer requires pipe specs
+ public Double diameter;
+ public Double turnRadius;
+
+ // Variable length
+ public Double length;
+
+ // Variable angle
+ public Double angle;
+
+ // Rotation angle used with turns and rotated inline.
+ public Double rotationAngle;
+
+ public String getTypeUri() {
+ return typeUri;
+ }
+
+ public void setTypeUri(String typeUri) {
+ this.typeUri = typeUri;
+ }
+
+ public PositionType getPosition() {
+ return position;
+ }
+
+ public void setPosition(PositionType position) {
+ this.position = position;
+ }
+
+ public PositionType getInsertPosition() {
+ return insertPosition;
+ }
+
+ public void setInsertPosition(PositionType insertPosition) {
+ this.insertPosition = insertPosition;
+ }
+
+ public Double getDiameter() {
+ return diameter;
+ }
+
+ public void setDiameter(Double diameter) {
+ this.diameter = diameter;
+ }
+
+ public Double getTurnRadius() {
+ return turnRadius;
+ }
+
+ public void setTurnRadius(Double turnRadius) {
+ this.turnRadius = turnRadius;
+ }
+
+ public Double getLength() {
+ return length;
+ }
+
+ public void setLength(Double length) {
+ this.length = length;
+ }
+
+ public Double getAngle() {
+ return angle;
+ }
+
+ public void setAngle(Double angle) {
+ this.angle = angle;
+ }
+
+ public Double getRotationAngle() {
+ return rotationAngle;
+ }
+
+ public void setRotationAngle(Double rotationAngle) {
+ this.rotationAngle = rotationAngle;
+ }
+
+ }
+
+ public static PipelineComponent addComponent(P3DRootNode root, PipelineComponent component, InsertInstruction inst) throws Exception {
+
+ PipelineComponent newComponent = ComponentUtils.createComponent(root, inst.typeUri);
+ PipeControlPoint newPcp = newComponent.getControlPoint();
+
+ PipeControlPoint toPcp = component.getControlPoint();
+ PipeRun pipeRun = toPcp.getPipeRun();
+
+ String typeName = names.get(inst.typeUri);
+ if (typeName == null)
+ typeName = "Component";
+
+ Vector3d dir = null;
+ Vector3d pos = null;
+
+ PositionType position = inst.position;
+ PositionType insertPosition = inst.insertPosition;
+ boolean lengthAdjustable = false;
+ if (newComponent instanceof InlineComponent) {
+ lengthAdjustable = ((InlineComponent)newComponent).isVariableLength() || ((InlineComponent)newComponent).isModifialble();
+ }
+ boolean insertAdjustable = false;
+ if (component instanceof InlineComponent) {
+ insertAdjustable = ((InlineComponent)component).isVariableLength();
+ }
+ boolean sizeChange = false;
+ if (newComponent instanceof InlineComponent) {
+ sizeChange = ((InlineComponent)newComponent).isSizeChange();
+ }
+
+ if (toPcp.isInline()) {
+ switch (position) {
+ case NEXT:
+ if (toPcp.isDualInline()) {
+ toPcp = toPcp.getDualSub();
+ pipeRun = toPcp.getPipeRun();
+ }
+
+ break;
+ case PREVIOUS:
+ if (toPcp.isDualSub()) {
+ toPcp = toPcp.parent;
+ pipeRun = toPcp.getPipeRun();
+ }
+ break;
+ default:
+ break;
+ }
+ Vector3d start = new Vector3d();
+ Vector3d end = new Vector3d();
+ dir = new Vector3d();
+ toPcp.getInlineControlPointEnds(start, end, dir);
+ dir.normalize();
+ switch (position) {
+ case NEXT:
+ pos = new Vector3d(end);
+ break;
+ case PREVIOUS:
+ pos = new Vector3d(start);
+ break;
+ case SPLIT:
+ pos = new Vector3d(toPcp.getWorldPosition());
+ break;
+ default:
+ break;
+ }
+
+ } else if (toPcp.isDirected()) {
+ dir = new Vector3d(toPcp.getDirection(Direction.NEXT));
+ pos = new Vector3d(toPcp.getWorldPosition());
+ } else if (toPcp.isTurn() && toPcp.asFixedAngle()) {
+ dir = new Vector3d(toPcp.getDirection(position == PositionType.NEXT ? Direction.NEXT : Direction.PREVIOUS));
+ pos = new Vector3d(toPcp.getWorldPosition());
+ if (!lengthAdjustable) {
+ Vector3d v = new Vector3d(dir);
+ v.scale(toPcp.getInlineLength());
+ pos.add(v);
+ } else {
+ if (insertPosition == PositionType.NEXT) {
+ Vector3d v = new Vector3d(dir);
+ v.scale(toPcp.getInlineLength());
+ pos.add(v);
+ } else if (insertPosition == PositionType.SPLIT) {
+ // scale 0.5*length so that we don't remove the length twice from the new component
+ Vector3d v = new Vector3d(dir);
+ v.scale(toPcp.getInlineLength()*0.5);
+ pos.add(v);
+ }
+ }
+ }
+
+ String name = component.getPipeRun().getUniqueName(typeName);
+ newComponent.setName(name);
+
+ pipeRun.addChild(newComponent);
+ if (newPcp.isSizeChange())
+ newComponent.setAlternativePipeRun(pipeRun);
+
+ if (newComponent instanceof InlineComponent) {
+ InlineComponent inlineComponent = (InlineComponent)newComponent;
+ if (inlineComponent.isVariableLength()|| inlineComponent.isModifialble()) {
+ newPcp.setLength(inst.length);
+ newComponent.setParameter("length", inst.length);
+ }
+ if (inst.rotationAngle != null)
+ ((InlineComponent) newComponent).setRotationAngle(inst.rotationAngle);
+ } else if (newComponent instanceof TurnComponent) {
+ TurnComponent turnComponent = (TurnComponent)newComponent;
+ if (turnComponent.isVariableAngle()) {
+ newPcp.setTurnAngle(inst.angle);
+ newComponent.setParameter("turnAngle", inst.angle);
+ }
+ if (inst.rotationAngle != null)
+ ((TurnComponent) newComponent).setRotationAngle(inst.rotationAngle);
+ }
+
+
+ newComponent.updateParameters();
+
+ Vector3d v = new Vector3d(dir);
+ if (insertAdjustable) {
+ if (insertPosition == PositionType.NEXT)
+ v.scale(newComponent.getControlPoint().getInlineLength());
+ else if (insertPosition == PositionType.SPLIT)
+ v.set(0, 0, 0);
+ else if (insertPosition == PositionType.PREVIOUS)
+ v.scale(-newComponent.getControlPoint().getInlineLength());
+ } else {
+ v.scale(newComponent.getControlPoint().getInlineLength());
+ }
+ switch (position) {
+ case NEXT:
+ pos.add(v);
+ break;
+ case PREVIOUS:
+ pos.sub(v);
+ break;
+ case SPLIT:
+ break;
+ default:
+ break;
+ }
+
+ switch (position) {
+ case NEXT:
+ if (toPcp.isDualInline())
+ toPcp = toPcp.getDualSub();
+ newPcp.insert(toPcp, Direction.NEXT);
+ newPcp.setWorldPosition(pos);
+ break;
+ case PREVIOUS:
+ if (toPcp.isDualSub())
+ toPcp = toPcp.parent;
+ newPcp.insert(toPcp, Direction.PREVIOUS);
+ newPcp.setWorldPosition(pos);
+ break;
+ case SPLIT:
+ PipingRules.splitVariableLengthComponent(newComponent, (InlineComponent)component, true);
+ default:
+ break;
+ }
+
+ // Move the size change and the rest of the components in the pipe run to a new pipe run
+ if (sizeChange) {
+ PipeRun other = new PipeRun();
+ String n = root.getUniqueName("PipeRun");
+ other.setName(n);
+ other.setPipeDiameter(inst.diameter);
+ other.setTurnRadius(inst.turnRadius);
+ root.addChild(other);
+
+ other.addChild(newComponent.getControlPoint().getDualSub());
+ newComponent.setAlternativePipeRun(other);
+
+ boolean forward = position != PositionType.PREVIOUS;
+ PipelineComponent comp = forward ? newComponent.getNext() : newComponent.getPrevious();
+ while (comp != null && comp.getPipeRun() == pipeRun) {
+ if (comp.getParent() == pipeRun) {
+ comp.deattach();
+ other.addChild(comp);
+ } else {
+ comp.setPipeRun(other);
+ }
+
+ // Reset parameters to match new pipe run
+ comp.updateParameters();
+
+ comp = forward ? comp.getNext() : comp.getPrevious();
+ }
+
+ newComponent.updateParameters();
+ }
+
+ return newComponent;
+ }
+
+ public static boolean connect(PipelineComponent current, PipelineComponent endTo) throws Exception {
+ return connect(current, endTo, null, null);
+ }
+
+ /**
+ * Connects component to another component
+ * @param current
+ * @param endTo
+ * @param endType
+ * @param position
+ * @return
+ * @throws Exception
+ */
+ public static boolean connect(PipelineComponent current, PipelineComponent endTo, PositionType endType, Vector3d position) throws Exception{
+ PipeControlPoint endCP = endTo.getControlPoint();
+ boolean reversed;
+ if (current.getNext() == null)
+ reversed = false;
+ else if (current.getPrevious() == null)
+ reversed = true;
+ else
+ return false;
+
+ PipeRun pipeRun = current.getPipeRun();
+ P3DRootNode root = (P3DRootNode)current.getRootNode();
+ PipeControlPoint currentCP = current.getControlPoint();
+
+ if (endType == null || endType == PositionType.NEXT || endType == PositionType.PREVIOUS) {
+
+
+
+ boolean requiresReverse = false;
+ if (!reversed && endCP.getPrevious() != null) {
+ if (endCP.getNext() != null)
+ return false;
+ requiresReverse = true;
+ } else if (reversed && endCP.getNext() != null) {
+ if (endCP.getPrevious() != null)
+ return false;
+ requiresReverse = true;
+ }
+ PipeRun other = endCP.getPipeRun();
+ boolean mergeRuns = other == null ? true : pipeRun.canMerge(other);
+
+ if (requiresReverse) {
+ // Pipe line must be traversible with next/previous relations without direction change.
+ // Now the component, where we are connecting the created pipeline is defined in different order.
+ PipingRules.reverse(other);
+
+ }
+
+ if (mergeRuns) {
+ // Runs have compatible specs and must be merged
+ if (other != null && pipeRun != other)
+ pipeRun.merge(other);
+ else if (other == null) {
+ if (!(endTo instanceof Nozzle)) {
+ pipeRun.addChild(endTo);
+ } else {
+ endTo.setPipeRun(pipeRun);
+ }
+ }
+ if (!reversed) {
+ currentCP.setNext(endCP);
+ endCP.setPrevious(currentCP);
+ } else {
+ currentCP.setPrevious(endCP);
+ endCP.setNext(currentCP);
+ }
+ } else {
+ // Runs do not have compatible specs, and a reducer must be attached in between.
+ InlineComponent reducer = ComponentUtils.createReducer(root);
+ PipeControlPoint pcp = reducer.getControlPoint();
+
+ Vector3d endPos = endCP.getWorldPosition();
+ Vector3d currentPos = currentCP.getWorldPosition();
+ Vector3d v = new Vector3d(endPos);
+ v.sub(currentPos);
+ v.scale(0.5);
+ v.add(currentPos);
+
+ PipingRules.addSizeChange(reversed, pipeRun, other, reducer, currentCP, endCP);
+
+ pcp.setWorldPosition(v);
+ reducer.updateParameters();
+ }
+ PipingRules.positionUpdate(endCP);
+ return true;
+
+ } else if (endType == PositionType.SPLIT) {
+ InlineComponent branchSplit = createBranchSplit((InlineComponent)endTo, position);
+ if (branchSplit == null)
+ return false;
+ PipeControlPoint branchSplitCP = branchSplit.getControlPoint();
+ PipeControlPoint pcp = new PipeControlPoint(branchSplit,pipeRun);
+ branchSplitCP.children.add(pcp);
+ pcp.parent = branchSplitCP;
+ pcp.setWorldOrientation(branchSplitCP.getWorldOrientation());
+ pcp.setWorldPosition(branchSplitCP.getWorldPosition());
+
+
+ if(!reversed) {
+ pcp.setPrevious(currentCP);
+ currentCP.setNext(pcp);
+ } else {
+ pcp.setNext(currentCP);
+ currentCP.setPrevious(pcp);
+ }
+ PipingRules.positionUpdate(endCP);
+ return true;
+ }
+ return false;
+ }
+
+ public static InlineComponent createBranchSplit(InlineComponent component, Vector3d pos) throws Exception{
+ if (!component.isVariableLength())
+ return null;
+ PipeRun pipeRun = component.getPipeRun();
+ Vector3d sStart = new Vector3d();
+ Vector3d sEnd = new Vector3d();
+ component.getControlPoint().getInlineControlPointEnds(sStart, sEnd);
+
+ if (MathTools.distance(sStart, sEnd) < (pipeRun.getPipeDiameter()*0.5))
+ return null;
+
+
+ Vector3d p = MathTools.closestPointOnEdge(new Vector3d(pos), sStart, sEnd);
+ if (p == sStart) {
+ Vector3d v = new Vector3d(sEnd);
+ v.sub(sStart);
+ v.normalize();
+ v.scale(component.getPipeRun().getPipeDiameter()*0.5);
+ p.add(v);
+ } else if (p == sEnd) {
+ Vector3d v = new Vector3d(sStart);
+ v.sub(sEnd);
+ v.normalize();
+ v.scale(component.getPipeRun().getPipeDiameter()*0.5);
+ p.add(v);
+ }
+
+ P3DRootNode root = (P3DRootNode)component.getRootNode();
+ InlineComponent branchSplit = ComponentUtils.createBranchSplit(root);
+ String branchName = component.getPipeRun().getUniqueName("Branch");
+ branchSplit.setName(branchName);
+ component.getPipeRun().addChild(branchSplit);
+ PipeControlPoint branchSplitCP = branchSplit.getControlPoint();
+ branchSplitCP.setWorldPosition(p);
+ PipingRules.splitVariableLengthComponent(branchSplit, component, false);
+ return branchSplit;