CaRMtl/rene/zirkel/constructors/IntersectionConstructor.java

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/*
Copyright 2006 Rene Grothmann, modified by Eric Hakenholz
This file is part of C.a.R. software.
C.a.R. is a free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, version 3 of the License.
C.a.R. is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package rene.zirkel.constructors;
import java.awt.event.MouseEvent;
import eric.JZirkelCanvas;
import rene.util.MyVector;
import rene.util.xml.XmlTag;
import rene.util.xml.XmlTree;
import rene.gui.Global;
import rene.zirkel.ZirkelCanvas;
import rene.zirkel.construction.Construction;
import rene.zirkel.construction.ConstructionException;
import rene.zirkel.objects.CircleIntersectionObject;
import rene.zirkel.objects.ConstructionObject;
import rene.zirkel.objects.IntersectionObject;
import rene.zirkel.objects.LineCircleIntersectionObject;
import rene.zirkel.objects.LineIntersectionObject;
import rene.zirkel.objects.LineQuadricIntersectionObject;
import rene.zirkel.objects.PointObject;
import rene.zirkel.objects.PointonObjectIntersectionObject;
import rene.zirkel.objects.PrimitiveCircleObject;
import rene.zirkel.objects.PrimitiveLineObject;
import rene.zirkel.objects.QuadricObject;
import rene.zirkel.objects.QuadricQuadricIntersectionObject;
public class IntersectionConstructor extends ObjectConstructor {
ConstructionObject P1=null, P2=null;
boolean immediate = false;
MouseEvent ev = null;
@Override
public void mousePressed(final MouseEvent e, final ZirkelCanvas zc) {
if (!zc.Visual) {
return;
}
ev = e;
if (P1==null) {
final MyVector v=zc.selectPointonObjects(e.getX(), e.getY());
if (v.size()==2) {
P1=(ConstructionObject) v.elementAt(0);
P2=(ConstructionObject) v.elementAt(1);
if (P1.equals(P2)|| P2.equals(P1) || (P1.isFilled()&&P2.isFilled())) {
P1=P2=null;
} else {
immediate=true;
}
}
}
ConstructionObject obj = null;
if(P1==null || P2==null){
obj = select(e.getX(), e.getY(), zc);
}
setConstructionObject(obj, zc);
}
@Override
public void setConstructionObject(ConstructionObject obj, ZirkelCanvas zc){
if (P1==null) {
P1 = obj;
if (P1!=null) {
P1.setSelected(true);
zc.repaint();
showStatus(zc);
}
} else if(P2==null) {
P2 = obj;
}
if (P2!=null) {
if (P2==P1) {
P2=null;
return;
}
final IntersectionObject o[]=construct(P1, P2, zc.getConstruction());
if (o!=null) {
IntersectionObject oc=null;
if (immediate&&o.length>1) {
if (o[1].nearto(ev.getX(), ev.getY(), zc)) {
o[0]=null;
oc=o[1];
} else {
o[1]=null;
oc=o[0];
}
}
for (final IntersectionObject element : o) {
if (element!=null) {
element.setDefaults();
zc.addObject(element);
element.validate(zc.x(ev.getX()), zc.y(ev.getY()));
}
}
/**
* See, if the other intersection is visible and already a
* point of both objects.
*/
if (oc!=null) {
oc.autoAway();
}
}
reset(zc);
}
}
@Override
public void mouseMoved(final MouseEvent e, final ZirkelCanvas zc,
final boolean simple) {
// System.out.println("inter : "+e.getX()+" "+e.getY());
zc.indicateIntersectedObjects(e.getX(), e.getY());
}
public static IntersectionObject[] construct(final ConstructionObject P1,
final ConstructionObject P2, final Construction c) {
IntersectionObject o[]=null;
if (P1 instanceof PrimitiveLineObject) {
if (P2 instanceof PrimitiveLineObject) {
o=new IntersectionObject[1];
o[0]=new LineIntersectionObject(c, (PrimitiveLineObject) P1,
(PrimitiveLineObject) P2);
} else if (P2 instanceof PrimitiveCircleObject) {
o=new IntersectionObject[2];
o[0]=new LineCircleIntersectionObject(c,
(PrimitiveLineObject) P1, (PrimitiveCircleObject) P2,
true);
o[1]=new LineCircleIntersectionObject(c,
(PrimitiveLineObject) P1, (PrimitiveCircleObject) P2,
false);
} else if (P2 instanceof QuadricObject) {
o=new IntersectionObject[2];
o[0]=new LineQuadricIntersectionObject(c,
(PrimitiveLineObject) P1, (QuadricObject) P2, true);
o[1]=new LineQuadricIntersectionObject(c,
(PrimitiveLineObject) P1, (QuadricObject) P2, false);
} else {
return construct(P2, P1, c);
}
} else if (P1 instanceof QuadricObject) {
if (P2 instanceof PrimitiveLineObject) {
o=new IntersectionObject[2];
o[0]=new LineQuadricIntersectionObject(c,
(PrimitiveLineObject) P2, (QuadricObject) P1, true);
o[1]=new LineQuadricIntersectionObject(c,
(PrimitiveLineObject) P2, (QuadricObject) P1, false);
} else if (P2 instanceof QuadricObject) {
if (((QuadricObject) P1).getP()[0].is3D()||((QuadricObject) P1).getP()[1].is3D()||((QuadricObject) P1).getP()[2].is3D()||((QuadricObject) P1).getP()[3].is3D()||((QuadricObject) P1).getP()[4].is3D()||
((QuadricObject) P2).getP()[0].is3D()||((QuadricObject) P2).getP()[1].is3D()||((QuadricObject) P2).getP()[2].is3D()||((QuadricObject) P2).getP()[3].is3D()||((QuadricObject) P2).getP()[4].is3D()) {// Dibs : truc de givré pour régler un bug avec l'intersection de cercles 3D
final PointObject p1=((QuadricObject) P1).getP()[1];
p1.setEX3D(p1.getEX3D().toString()+"+0.00001");
p1.setFixed("x(O)+("+p1.getEX3D()+")*(x(X)-x(O))+("+p1.getEY3D()+")*(x(Y)-x(O))+("+p1.getEZ3D()+")*(x(Z)-x(O))", "y(O)+("+p1.getEX3D()+")*(y(X)-y(O))+("+p1.getEY3D()+")*(y(Y)-y(O))+("+p1.getEZ3D()+")*(y(Z)-y(O))");
}
o=new IntersectionObject[4];
o[0]=new QuadricQuadricIntersectionObject(c,
(QuadricObject) P2, (QuadricObject) P1, 0);
o[1]=new QuadricQuadricIntersectionObject(c,
(QuadricObject) P2, (QuadricObject) P1, 1);
o[2]=new QuadricQuadricIntersectionObject(c,
(QuadricObject) P2, (QuadricObject) P1, 2);
o[3]=new QuadricQuadricIntersectionObject(c,
(QuadricObject) P2, (QuadricObject) P1, 3);
} else {
o=new PointonObjectIntersectionObject[1];
o[0]=new PointonObjectIntersectionObject(c, P1, P2);
}
} else if (P1 instanceof PrimitiveCircleObject) {
if (P2 instanceof PrimitiveCircleObject) {
if ((P1.isDPLineOrSegmentObject())&&(P2.isDPLineOrSegmentObject())) {
o=new IntersectionObject[1];
o[0]=new CircleIntersectionObject(c,
(PrimitiveCircleObject) P1, (PrimitiveCircleObject) P2,
true);
} else {
o=new IntersectionObject[2];
o[0]=new CircleIntersectionObject(c,
(PrimitiveCircleObject) P1, (PrimitiveCircleObject) P2,
true);
o[1]=new CircleIntersectionObject(c,
(PrimitiveCircleObject) P1, (PrimitiveCircleObject) P2,
false);
}
} else if (P2 instanceof PrimitiveLineObject) {
o=new IntersectionObject[2];
o[0]=new LineCircleIntersectionObject(c,
(PrimitiveLineObject) P2, (PrimitiveCircleObject) P1,
true);
o[1]=new LineCircleIntersectionObject(c,
(PrimitiveLineObject) P2, (PrimitiveCircleObject) P1,
false);
} else {
return construct(P2, P1, c);
}
} else {
o=new PointonObjectIntersectionObject[1];
o[0]=new PointonObjectIntersectionObject(c, P1, P2);
}
return o;
}
public ConstructionObject select(final int x, final int y, final ZirkelCanvas zc) // select a line or circle at x,y
{
return zc.selectPointonObject(x, y, false);
}
@Override
public void reset(final ZirkelCanvas zc) { // reset the tool
super.reset(zc);
if (zc.Visual) {
P1=P2=null;
showStatus(zc);
} else {
zc.setPrompt(Global.name("prompt.intersection"));
}
}
@Override
public void showStatus(final ZirkelCanvas zc) {
if (P1==null) {
zc.showStatus(Global.name("message.intersection.first",
"Intersection: Select first object!"));
} else {
zc.showStatus(Global.name("message.intersection.second",
"Intersection: Select second object!"));
}
}
@Override
public boolean construct(final XmlTree tree, final Construction c)
throws ConstructionException {
if (!testTree(tree, "Intersection")) {
return constructOther(tree, c);
}
final XmlTag tag=tree.getTag();
if (!tag.hasParam("first")||!tag.hasParam("second")) {
throw new ConstructionException("Intersection parameters missing!");
}
try {
final ConstructionObject o1=c.find(tag.getValue("first"));
final ConstructionObject o2=c.find(tag.getValue("second"));
final IntersectionObject o[]=construct(o1, o2, c);
if (o==null) {
throw new Exception("");
}
String name="", nameOther="";
if (tag.hasParam("name")) {
name=tag.getValue("name");
}
if (tag.hasParam("other")) {
nameOther=tag.getValue("other");
}
if (o.length>1) {
IntersectionObject oo=o[0];
if (tag.hasParam("which")) {
if (tag.getValue("which").equals("first")) {
oo=o[0];
} else if (tag.getValue("which").equals("second")) {
oo=o[1];
} else if (tag.getValue("which").equals("0")) {
oo=o[0];
} else if (tag.getValue("which").equals("1")) {
oo=o[1];
} else if (tag.getValue("which").equals("2")) {
oo=o[2];
} else if (tag.getValue("which").equals("3")) {
oo=o[3];
}
if (!name.equals("")) {
oo.setName(name);
}
PointConstructor.setType(tag, oo);
setName(tag, oo);
set(tree, oo);
c.add(oo);
setConditionals(tree, c, oo);
if (tag.hasParam("awayfrom")) {
oo.setAway(tag.getValue("awayfrom"), true);
} else if (tag.hasParam("closeto")) {
oo.setAway(tag.getValue("closeto"), false);
}
if (tag.hasParam("valid")) {
oo.setRestricted(false);
}
if (tag.hasParam("alternate")) {
oo.setAlternate(true);
}
} else if (tag.hasParam("other")) {
if (!name.equals("")) {
o[0].setName(name);
}
if (!nameOther.equals("")) {
o[1].setName(nameOther);
}
if (tag.hasParam("awayfrom")) {
o[0].setAway(tag.getValue("awayfrom"), true);
o[1].setAway(tag.getValue("awayfrom"), false);
} else if (tag.hasParam("closeto")) {
o[1].setAway(tag.getValue("awayfrom"), true);
o[0].setAway(tag.getValue("awayfrom"), false);
}
for (final IntersectionObject element : o) {
if (element==null) {
continue;
}
PointConstructor.setType(tag, element);
set(tree, element);
c.add(element);
setConditionals(tree, c, element);
}
}
} else {
if (!name.equals("")) {
o[0].setName(name);
}
PointConstructor.setType(tag, o[0]);
setName(tag, o[0]);
set(tree, o[0]);
c.add(o[0]);
setConditionals(tree, c, o[0]);
if (tag.hasParam("valid")) {
o[0].setRestricted(false);
}
try {
final double x=new Double(tag.getValue("x")).doubleValue();
final double y=new Double(tag.getValue("y")).doubleValue();
o[0].setXY(x, y);
} catch (final Exception e) {
}
}
} catch (final ConstructionException e) {
throw e;
} catch (final Exception e) {
//e.printStackTrace();
throw new ConstructionException("Intersection parameters illegal!");
}
return true;
}
public boolean constructOther(final XmlTree tree, final Construction c)
throws ConstructionException {
if (!testTree(tree, "OtherIntersection")) {
return false;
}
final XmlTag tag=tree.getTag();
if (tag.hasParam("name")) {
final ConstructionObject o=c.find(tag.getValue("name"));
if (o==null||!(o instanceof IntersectionObject)) {
throw new ConstructionException("OtherIntersection not found!");
}
final IntersectionObject oo=(IntersectionObject) o;
PointConstructor.setType(tag, oo);
o.setDefaults();
set(tree, o);
final ConstructionObject ol=c.lastButN(1);
if (tag.hasParam("awayfrom")) {
oo.setAway(tag.getValue("awayfrom"), true);
if (ol!=null&&(ol instanceof IntersectionObject)) {
((IntersectionObject) ol).setAway(tag.getValue("awayfrom"),
false);
}
} else if (tag.hasParam("closeto")) {
oo.setAway(tag.getValue("closeto"), false);
if (ol!=null&&(ol instanceof IntersectionObject)) {
((IntersectionObject) ol).setAway(tag.getValue("awayfrom"),
true);
}
}
if (tag.hasParam("valid")) {
oo.setRestricted(false);
}
} else {
throw new ConstructionException(
"OtherIntersection must have a name!");
}
return true;
}
@Override
public String getTag() {
return "Intersection";
}
@Override
public void construct(final Construction c, final String name,
final String params[], final int nparams)
throws ConstructionException {
if (nparams!=2&&nparams!=3) {
throw new ConstructionException(Global.name("exception.nparams"));
}
final ConstructionObject p1=c.find(params[0]);
if (p1==null) {
throw new ConstructionException(Global.name("exception.notfound")+" "+params[0]);
}
final ConstructionObject p2=c.find(params[1]);
if (p2==null) {
throw new ConstructionException(Global.name("exception.notfound")+" "+params[0]);
}
final IntersectionObject o[]=construct(p1, p2, c);
if (o==null) {
throw new ConstructionException(Global.name("exception.type"));
}
if (o.length==1) {
c.add(o[0]);
o[0].setDefaults();
if (!name.equals("")) {
o[0].setName(name);
}
} else {
if (name.equals("")) {
for (final IntersectionObject element : o) {
c.add(element);
element.setDefaults();
}
} else {
final String names[]=new String[2];
int n;
if ((n=name.indexOf(','))>=0) {
names[0]=name.substring(n+1).trim();
names[1]=name.substring(0, n).trim();
} else {
names[0]=name;
names[1]="";
}
for (int i=0; i<o.length; i++) {
if (names[i].equals("")) {
continue;
}
c.add(o[i]);
o[i].setDefaults();
o[i].setName(names[i]);
}
}
}
}
}