Use inside diameter for eccentric reducer offset calculation

[simantics/3d.git] / org.simantics.plant3d / src / org / simantics / plant3d / scenegraph / PipelineComponent.java

diff --git a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/PipelineComponent.java b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/PipelineComponent.java
index f0621fdd2ce7f76dad1490963b62ba73583065a1..6afa937d60f18c8cdbd38234ecfae6d3fbce360c 100644 (file)
--- a/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/PipelineComponent.java
+++ b/org.simantics.plant3d/src/org/simantics/plant3d/scenegraph/PipelineComponent.java
@@ -616,8 +616,8 @@ public abstract class PipelineComponent extends GeometryNode {
                        }
                        
                        // Calculate center of mass for the frustum
-                       double r1 = getPipeRun().getPipeDiameter();
-                       double r2 = getAlternativePipeRun().getPipeDiameter();
+                       double r1 = getPipeRun().getInsideDiameter();
+                       double r2 = getAlternativePipeRun().getInsideDiameter();
                        
                        Vector3d p1 = new Vector3d(), p2 = new Vector3d();
                        pcp.getInlineControlPointEnds(p1, p2);
@@ -646,7 +646,7 @@ public abstract class PipelineComponent extends GeometryNode {
                        
                        double r = ((TurnComponent)this).getTurnRadius();
                        double a = pcp.getTurnAngle();
-                       double pipeRadius = pcp.getPipeRun().getPipeDiameter() / 2;
+                       double pipeRadius = pcp.getPipeRun().getInsideDiameter() / 2;
                        
                        // Unit vector in inlet flow direction
                        Vector3d inletDir = pcp.getPathLegDirection(Direction.PREVIOUS);
@@ -686,7 +686,7 @@ public abstract class PipelineComponent extends GeometryNode {
                if (pcp == null)
                        throw new IllegalStateException("No centroid defined");
                
-               double pipeRadius = getPipeRun().getPipeDiameter() / 2;
+               double pipeRadius = getPipeRun().getInsideDiameter() / 2;
                
                switch (pcp.getType()) {
                case INLINE:
@@ -698,7 +698,7 @@ public abstract class PipelineComponent extends GeometryNode {
                        
                        // Calculate center of mass for the frustum
                        double r1 = pipeRadius;
-                       double r2 = getAlternativePipeRun().getPipeDiameter() / 2;
+                       double r2 = getAlternativePipeRun().getInsideDiameter() / 2;
                        return pcp.getLength() * Math.PI * (r1*r1 + r1*r2 + r2*r2) / 4;
                case TURN: {
                        double r = ((TurnComponent)this).getTurnRadius();