From: Marko Luukkainen Date: Wed, 17 Jul 2019 16:02:06 +0000 (+0300) Subject: Changed inline component update to take account required space X-Git-Tag: v1.43.0~245 X-Git-Url: https://gerrit.simantics.org/r/gitweb?a=commitdiff_plain;h=refs%2Fchanges%2F26%2F3026%2F1;p=simantics%2F3d.git Changed inline component update to take account required space gitlab #14 Change-Id: Ia0085d15647c666fd2a6802a9490a7f8e3f3d95b --- diff --git a/org.simantics.g3d/src/org/simantics/g3d/math/MathTools.java b/org.simantics.g3d/src/org/simantics/g3d/math/MathTools.java index 63ac1ccc..08a1e7b0 100644 --- a/org.simantics.g3d/src/org/simantics/g3d/math/MathTools.java +++ b/org.simantics.g3d/src/org/simantics/g3d/math/MathTools.java @@ -33,8 +33,8 @@ import org.simantics.g3d.math.EulerTools.Order; */ public class MathTools { - public static double NEAR_ZERO = 0.0000001; - public static double NEAR_HALF = 0.4999999; + public static double NEAR_ZERO = 0.000000001; + public static double NEAR_HALF = 0.499999999; public static final Vector3d Z_AXIS = new Vector3d(0.0,0.0,1.0); public static final Vector3d Y_AXIS = new Vector3d(0.0,1.0,0.0); diff --git a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipeControlPoint.java b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipeControlPoint.java index b8198bda..555a6620 100644 --- a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipeControlPoint.java +++ b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipeControlPoint.java @@ -1018,6 +1018,15 @@ public class PipeControlPoint extends G3DNode implements IP3DNode { p1.remChild(ocp); p2.remChild(sccp); + // TODO : now we assume that this is size change, and we do + if (ocp.next != null) + ocp.next.setPrevious(null); + if (ocp.previous != null) + ocp.previous.setNext(null); + if (sccp.next != null) + sccp.next.setPrevious(null); + if (sccp.previous != null) + sccp.previous.setNext(null); ocp.setNext(null); ocp.setPrevious(null); sccp.setNext(null); @@ -1076,11 +1085,11 @@ public class PipeControlPoint extends G3DNode implements IP3DNode { public void setPosition(Vector3d position) { if (MathTools.equals(position, getPosition())) return; + if (Double.isNaN(position.x) || Double.isNaN(position.y) || Double.isNaN(position.z)) + throw new IllegalArgumentException("NaN is not supported"); super.setPosition(position); if (getParentPoint() == null && component != null) component._setWorldPosition(getWorldPosition()); - if (isDualSub()) - System.out.println(); updateSubPoint(); } diff --git a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipingRules.java b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipingRules.java index 26e2bb52..5ec468e2 100644 --- a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipingRules.java +++ b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/controlpoint/PipingRules.java @@ -25,18 +25,14 @@ public class PipingRules { private static final boolean DEBUG = false; private static final boolean DUMMY = false; - private static final double MIN_TURN_ANGLE = 0.01; + 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 final int REMOVE_NONE = 0; private static final int REMOVE_START = 1; private static final int REMOVE_END = 2; private static final int REMOVE_BOTH = 3; -// private P3DRootNode root; - -// public PipingRules(P3DRootNode root) { -// this.root = root; -// } private enum PathLegUpdateType { NONE, PREV, NEXT, PREV_S, NEXT_S @@ -91,11 +87,11 @@ public class PipingRules { triedIR = false; validate(pcp.getPipeRun()); if (pcp.isPathLegEnd()) { - updatePathLegEndControlPoint(pcp); // FXIME: Rules won't work properly, if they are not run twice. - //updatePathLegEndControlPoint(pcp); + updatePathLegEndControlPoint(pcp); // FIXME: Rules won't work properly, if they are not run twice. + updatePathLegEndControlPoint(pcp); } else { updateInlineControlPoint(pcp); - //updateInlineControlPoint(pcp); + updateInlineControlPoint(pcp); } validate(pcp.getPipeRun()); if (!allowInsertRemove) @@ -281,16 +277,39 @@ public class PipingRules { ArrayList list = new ArrayList(); PipeControlPoint end = start.findNextEnd(list); // this is for inline cp that is also path leg end - if (start.equals(updated)) - lengthChange = PathLegUpdateType.NEXT; - else if (end.equals(updated)) - lengthChange = PathLegUpdateType.PREV; + if (lengthChange == PathLegUpdateType.NONE) { + if (start.equals(updated)) + lengthChange = PathLegUpdateType.NEXT; + else if (end.equals(updated)) + lengthChange = PathLegUpdateType.PREV; + } updatePathLegNext(start, list, end, updated, lengthChange); } private static void updatePathLegNext(PipeControlPoint start, ArrayList list, PipeControlPoint end, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception { updatePathLeg(start, list, end, false, 0, new ArrayList(), updated, lengthChange); } + + private static void updatePathLegPrev(PipeControlPoint start, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception { + ArrayList list = new ArrayList(); + PipeControlPoint end = start.findPreviousEnd(list); + // TODO: this method is not symmetric with updatePathLegNext, which may alter lengthChange parameter? + updatePathLegPrev(start, list, end, updated, lengthChange); + } + + private static void updatePathLegPrev(PipeControlPoint start, ArrayList list, PipeControlPoint end, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception { + // reverses the list + ArrayList nextList = new ArrayList(); + for (PipeControlPoint icp : list) { + if (icp.isDualSub()) { + nextList.add(0, icp.getParentPoint()); + } else { + nextList.add(0, icp); + } + } + updatePathLeg(end, nextList, start, true, 0, new ArrayList(), updated, lengthChange); + + } private static class UpdateStruct2 { public PipeControlPoint start; @@ -457,25 +476,23 @@ public class PipingRules { System.out.println("PipingRules.updateInlineControlPoints() " + u); if (!u.hasOffsets) { - // FIXME : cache positions - if (!checkSizes) { - Vector3d start = new Vector3d(u.startPoint); - Vector3d end = new Vector3d(u.endPoint); - // create offsets. - MathTools.mad(start, u.dir, 0.1); - MathTools.mad(end, u.dir, -0.1); - for (PipeControlPoint icp : u.list) { - updateInlineControlPoint(icp, start, end, u.dir); - - if (icp.isOffset()) { - // TODO : offset vector is already calculated and should be - // cached - Vector3d off = icp.getSizeChangeOffsetVector(u.dir); - updateOffsetPoint(icp, off); - } + + Vector3d start = new Vector3d(u.startPoint); + Vector3d end = new Vector3d(u.endPoint); + // create offsets. + MathTools.mad(start, u.dir, u.start.getInlineLength()); + MathTools.mad(end, u.dir, -u.end.getInlineLength()); + for (PipeControlPoint icp : u.list) { + updateInlineControlPoint(icp, start, end, u.dir); + + if (icp.isOffset()) { + // TODO : offset vector is already calculated and should be cached + Vector3d off = icp.getSizeChangeOffsetVector(u.dir); + updateOffsetPoint(icp, off); } - return; } + if (!checkSizes) + return; ArrayList pathLegPoints = new ArrayList(); pathLegPoints.add(u.start); @@ -541,7 +558,7 @@ public class PipingRules { } } } - } else { + } else { // with offset Vector3d sp = new Vector3d(u.startPoint); Vector3d ep = new Vector3d(u.endPoint); ep.sub(u.offset); @@ -635,8 +652,12 @@ public class PipingRules { } else { // components leave no space to the component and it // must be removed - if (icp.isDeletable()) + + if (icp.isDeletable()) { + if (DEBUG) + System.out.println("PipingRules.updateVariableLength removing " + icp); icp._remove(); + } } } @@ -774,8 +795,8 @@ public class PipingRules { t.sub(closest, u.startPoint); } - double distance = t.lengthSquared(); - boolean aligned = (distance < 0.002); + double distance = t.length(); + boolean aligned = (distance < ALLOWED_OFFSET); if (aligned) { checkExpandPathLeg(u, lengthChange, inlineEnd); @@ -803,7 +824,9 @@ public class PipingRules { } else { closest.set(u.endPoint); } - closest.add(directedDirection); + Vector3d v = new Vector3d(directedDirection); + v.scale(spaceForTurn(other)); + closest.add(v); } if (canMoveOther) { @@ -898,7 +921,7 @@ public class PipingRules { double d1 = position1.distance(new Point3d(p1)); double d2 = position2.distance(new Point3d(p2)); - boolean aligned = (d1 < 0.01 && d2 < 0.01); + boolean aligned = (d1 < ALLOWED_OFFSET && d2 < ALLOWED_OFFSET); if (aligned) { processPathLeg(u); } else { @@ -967,16 +990,42 @@ public class PipingRules { } } + + private static double spaceForTurn(PipeControlPoint tcp) { + // 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(); + } private static void insertElbowUpdate(UpdateStruct2 u, PipeControlPoint dcp, PipeControlPoint next, boolean dcpStart, Vector3d position, Vector3d directedDirection) throws Exception{ - Vector3d closest = new Vector3d(position); - closest.add(directedDirection); + +// Vector3d closest = new Vector3d(position); +// closest.add(directedDirection); + PipeControlPoint tcp = null; - if (dcpStart) - tcp = insertElbow(dcp, next, new Vector3d(closest)); - else - tcp = insertElbow(next, dcp, new Vector3d(closest)); + Vector3d closest; + if (dcpStart) { + closest = MathTools.closestPointOnStraight(next.getWorldPosition(), position, directedDirection); + tcp = insertElbow(dcp, next, closest); + } else { + closest = MathTools.closestPointOnStraight(dcp.getWorldPosition(), position, directedDirection); + tcp = insertElbow(next, dcp, closest); + } + // TODO properly calculate required distance between start and inserted elbow. + double d = MathTools.distance(position, closest); + double s = spaceForTurn(tcp); + if (d < s) { + d = s - d; + Vector3d p = new Vector3d(directedDirection); + p.scale(d); + p.add(closest); + tcp.setPosition(p); + closest = p; + } + + if (DEBUG) System.out.println("PipingRules.updateDirectedPipeRun() inserted " + tcp); @@ -1184,9 +1233,13 @@ public class PipingRules { if (u.toRemove.size() > 0) { for (ExpandIterInfo info : u.toRemove) { if (info.getStart() != null) { + if (DEBUG) + System.out.println("PipingRules.processPathLeg removing start " + info.getStart()); info.getStart()._remove(); } if (info.getEnd() != null) { + if (DEBUG) + System.out.println("PipingRules.processPathLeg removing end " + info.getEnd()); info.getEnd()._remove(); } } @@ -1263,27 +1316,6 @@ public class PipingRules { ocp.setWorldPosition(world); } - private static void updatePathLegPrev(PipeControlPoint start, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception { - ArrayList list = new ArrayList(); - PipeControlPoint end = start.findPreviousEnd(list); - updatePathLegPrev(start, list, end, updated, lengthChange); - } - - private static void updatePathLegPrev(PipeControlPoint start, ArrayList list, PipeControlPoint end, PipeControlPoint updated, PathLegUpdateType lengthChange) throws Exception { - // reverses the list - ArrayList nextList = new ArrayList(); - for (PipeControlPoint icp : list) { - if (icp.isDualSub()) { - nextList.add(0, icp.getParentPoint()); - } else { - nextList.add(0, icp); - } - - } - updatePathLeg(end, nextList, start, true, 0, new ArrayList(), updated, lengthChange); - - } - /** * Updates InlineControlPoints position when straight pipe's end(s) have * been changed) @@ -1293,54 +1325,72 @@ public class PipingRules { * @param nextPoint * @param prevPoint */ - private static void updateInlineControlPoint(PipeControlPoint icp, Vector3d nextPoint, Vector3d prevPoint, Vector3d dir) { + private static void updateInlineControlPoint(PipeControlPoint icp, Vector3d prev, Vector3d next, Vector3d dir) { if (DEBUG) System.out.println("PipingRules.updateInlineControlPoint() " + icp); Vector3d inlinePoint = icp.getWorldPosition(); + Vector3d prevPoint = new Vector3d(prev); + Vector3d nextPoint = new Vector3d(next); + if (!icp.isVariableLength()) { + // Reserve space for fixed length components. + MathTools.mad(prevPoint, dir, icp.getInlineLength()); + MathTools.mad(nextPoint, dir, -icp.getInlineLength()); + if (MathTools.distance(prevPoint, nextPoint) < ALLOWED_OFFSET) { + prevPoint = prev; + nextPoint = next; + } + } + boolean canCalc = MathTools.distance(prevPoint, nextPoint) > ALLOWED_OFFSET; if (DEBUG) System.out.print("InlineControlPoint update " + icp + " " + inlinePoint + " " + prevPoint + " " + nextPoint); Vector3d newInlinePoint = null; - boolean branchUpdate = false; - PipeControlPoint becp = null; - for (PipeControlPoint pcp : icp.getSubPoint()) - if (pcp.isNonDirected()) { - branchUpdate = true; - becp = pcp; - break; - } - - if (DUMMY || !branchUpdate) { - newInlinePoint = MathTools.closestPointOnEdge(new Vector3d(inlinePoint), new Vector3d(nextPoint), new Vector3d(prevPoint)); - } else { - - // FIXME : can only handle one branch - PipeControlPoint p = null; - if (becp.getNext() != null) { - p = becp.findNextEnd(); - } else if (becp.getPrevious() != null) { - p = becp.findPreviousEnd(); - } - if (p == null) { - newInlinePoint = MathTools.closestPointOnEdge(new Vector3d(inlinePoint), new Vector3d(nextPoint), new Vector3d(prevPoint)); + if (canCalc) { + boolean branchUpdate = false; + PipeControlPoint becp = null; + for (PipeControlPoint pcp : icp.getSubPoint()) + if (pcp.isNonDirected()) { + branchUpdate = true; + becp = pcp; + break; + } + + if (DUMMY || !branchUpdate) { + newInlinePoint = MathTools.closestPointOnEdge(new Vector3d(inlinePoint), prevPoint, nextPoint); + } else { - Vector3d branchLegEnd = p.getWorldPosition(); - Vector3d dir2 = new Vector3d(inlinePoint); - dir2.sub(branchLegEnd); - Vector3d dir1 = new Vector3d(nextPoint); - dir1.sub(prevPoint); - newInlinePoint = new Vector3d(); - double mu[] = new double[2]; - MathTools.intersectStraightStraight(new Vector3d(prevPoint), dir1, new Vector3d(branchLegEnd), dir2, newInlinePoint, new Vector3d(), mu); - if (DEBUG) - System.out.println(mu[0]); - // FIXME : reserve space - if (mu[0] < 0.0) { - newInlinePoint = new Vector3d(prevPoint); - } else if (mu[0] > 1.0) { - newInlinePoint = new Vector3d(nextPoint); + + // FIXME : can only handle one branch + PipeControlPoint p = null; + if (becp.getNext() != null) { + p = becp.findNextEnd(); + } else if (becp.getPrevious() != null) { + p = becp.findPreviousEnd(); + } + if (p == null) { + newInlinePoint = MathTools.closestPointOnEdge(new Vector3d(inlinePoint), prevPoint, nextPoint); + } else if (canCalc){ + Vector3d branchLegEnd = p.getWorldPosition(); + Vector3d dir2 = new Vector3d(inlinePoint); + dir2.sub(branchLegEnd); + Vector3d dir1 = new Vector3d(nextPoint); + dir1.sub(prevPoint); + newInlinePoint = new Vector3d(); + double mu[] = new double[2]; + MathTools.intersectStraightStraight(new Vector3d(prevPoint), dir1, new Vector3d(branchLegEnd), dir2, newInlinePoint, new Vector3d(), mu); + if (DEBUG) + System.out.println(mu[0]); + // FIXME : reserve space + if (mu[0] < 0.0) { + newInlinePoint = new Vector3d(prevPoint); + } else if (mu[0] > 1.0) { + newInlinePoint = new Vector3d(nextPoint); + } } } + } else { + // prevPoint == nextPoint + newInlinePoint = new Vector3d(prevPoint); } if (DEBUG) System.out.println(" " + newInlinePoint);