CaRMtl/rene/zirkel/constructors/CircleConstructor.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;
// file: PointConstructor.java
import eric.JSelectPopup;
import java.awt.event.MouseEvent;
import rene.gui.Global;
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.expression.Expression;
import rene.zirkel.macro.Macro;
import rene.zirkel.objects.Circle3Object;
import rene.zirkel.objects.CircleObject;
import rene.zirkel.objects.ConstructionObject;
import rene.zirkel.objects.FixedCircleObject;
import rene.zirkel.objects.PointObject;
import rene.zirkel.objects.PointonObject;
import rene.zirkel.objects.PrimitiveCircleObject;
import rene.zirkel.objects.SegmentObject;
public class CircleConstructor extends ObjectConstructor {
PointObject P1=null, P2=null;
boolean Fixed=false;
boolean reallyFixed=false;
int EventX, EventY;
public CircleConstructor(final boolean fixed) {
Fixed=fixed;
}
public CircleConstructor() {
this(false);
}
FixedCircleObject C;
ConstructionObject O;
boolean ShowsValue, ShowsName;
int Moved;
@Override
public void mousePressed(final MouseEvent e, final ZirkelCanvas zc) {
if (!zc.Visual) {
return;
}
ConstructionObject obj=null;
reallyFixed=(e.isShiftDown()||Fixed);
EventX=e.getX();
EventY=e.getY();
if ((P1==null)||(!reallyFixed&&(P2==null))){
obj=select(e.getX(), e.getY(), zc, e.isAltDown());
}
setConstructionObject(obj, zc);
}
public void setConstructionObject(ConstructionObject obj, ZirkelCanvas zc) {
// Il y a eu ambiguité et la méthode est forcément appelée par le
// popupmenu de sélection :
if ((JSelectPopup.isCallerObject())&&(obj instanceof PointonObject)) {
int x=JSelectPopup.getMouseX();
int y=JSelectPopup.getMouseY();
PointObject o=new PointObject(zc.getConstruction(), zc.x(x), zc.y(y), obj);
o.setUseAlpha(true);
zc.addObject(o);
zc.validate();
o.setDefaults();
zc.repaint();
o.edit(zc, false, false);
obj=o;
}
if (P1==null) {
if (obj instanceof PointObject) {
P1=(PointObject) obj;
P1.setSelected(true);
zc.repaint();
}
} else {
if (reallyFixed) {
final FixedCircleObject c=new FixedCircleObject(zc.getConstruction(), P1, zc.x(EventX), zc.y(EventY));
zc.addObject(c);
c.setDefaults();
zc.repaint();
O=C=c;
ShowsValue=c.showValue();
ShowsName=c.showName();
if (Global.getParameter("options.movefixname", true)) {
C.setShowValue(true);
C.setShowName(true);
}
Dragging=true;
Moved=0;
P2=null;
} else {
if (obj instanceof PointObject) {
P2=(PointObject) obj;
if (P2==P1) {
P2=null;
return;
}
final CircleObject c=new CircleObject(zc.getConstruction(), P1, P2);
zc.addObject(c);
c.setDefaults();
c.validate();
zc.repaint();
if (P2.moveable()&&!P2.isPointOn()&&zc.isNewPoint()) {
ShowsValue=c.showValue();
ShowsName=c.showName();
if (Global.getParameter("options.movename", false)) {
c.setShowValue(true);
c.setShowName(true);
}
O=c;
Dragging=true;
Moved=0;
} else {
P1.setSelected(false);
P1=P2=null;
}
}
}
}
showStatus(zc);
}
@Override
public boolean waitForLastPoint() {
return P1!=null&&P2==null;
}
@Override
public void finishConstruction(final MouseEvent e, final ZirkelCanvas zc) {
P2=select(e.getX(), e.getY(), zc, e.isAltDown());
if (P2!=null) {
final CircleObject c=new CircleObject(zc.getConstruction(), P1,
P2);
zc.addObject(c);
c.setDefaults();
c.validate();
zc.repaint();
}
P2=null;
}
@Override
public boolean waitForPoint() {
return P1==null||!Fixed;
}
@Override
public void mouseDragged(final MouseEvent e, final ZirkelCanvas zc) {
if (!Dragging) {
return;
}
Moved++;
if (P2==null) {
C.init(zc.getConstruction(), zc.x(e.getX()), zc.y(e.getY()));
if (C instanceof FixedCircleObject) {
((FixedCircleObject) C).setDragable(Moved>5);
}
} else {
P2.move(zc.x(e.getX()), zc.y(e.getY()));
zc.validate();
}
zc.repaint();
}
@Override
public void mouseReleased(final MouseEvent e, final ZirkelCanvas zc) {
if (!Dragging) {
return;
}
Dragging=false;
O.setShowValue(ShowsValue);
O.setShowName(ShowsName);
zc.repaint();
if (P2==null) {
P1.setSelected(false);
P1=null;
C.round();
if (Moved<=5) {
C.edit(zc, true, true);
if (C instanceof FixedCircleObject
&&((FixedCircleObject) C).isEditAborted()) {
zc.delete(C);
zc.repaint();
reset(zc);
}
}
C.validate();
} else {
P1.setSelected(false);
P2.updateText();
P1=P2=null;
}
O.updateCircleDep();
zc.repaint();
zc.showStatus();
}
public PointObject select(final int x, final int y, final ZirkelCanvas zc, boolean altdown) {
return zc.selectCreatePoint(x, y, altdown);
}
@Override
public void reset(final ZirkelCanvas zc) {
super.reset(zc);
if (zc.Visual) {
P1=P2=null;
showStatus(zc);
} else {
zc.setPrompt(Global.name("prompt.circle"));
}
}
@Override
public void showStatus(final ZirkelCanvas zc) {
if (Fixed) {
if (P1==null) {
zc.showStatus(Global.name("message.fixedcircle.midpoint"));
} else {
zc.showStatus(Global.name("message.fixedcircle.radius"));
}
} else {
if (P1==null) {
zc.showStatus(Global.name("message.circle.midpoint"));
} else {
zc.showStatus(Global.name("message.circle.radius"));
}
}
}
@Override
public boolean construct(final XmlTree tree, final Construction c)
throws ConstructionException {
if (!testTree(tree, "Circle")) {
return false;
}
final XmlTag tag=tree.getTag();
try {
if (!tag.hasParam("midpoint")) {
throw new ConstructionException("Circle parameters missing!");
}
if (!tag.hasParam("through")) {
if (tag.hasParam("fixed")) {
final PointObject p1=(PointObject) c.find(tag.getValue("midpoint"));
final FixedCircleObject o=new FixedCircleObject(c, p1, 0,
0);
c.add(o);
setConditionals(tree, c, o);
setName(tag, o);
set(tree, o);
if (tag.hasParam("partial")) {
o.setPartial(true);
}
if (tag.hasParam("filled")) {
o.setFilled(true);
}
if (tag.hasTrueParam("dragable")) {
o.setDragable(true);
}
if (tag.hasTrueParam("drawable")) {
o.setDragable(true); // downward compatibility
}
o.setFixed(tag.getValue("fixed"));
if (tag.hasParam("start")&&tag.hasParam("end")) {
o.setRange(tag.getValue("start"), tag.getValue("end"));
}
if (tag.hasParam("acute")) {
o.setObtuse(false);
}
if (tag.hasParam("chord")) {
o.setArc(false);
}
} else {
if (!(c instanceof Macro)) {
throw new ConstructionException(
"Circle parameters missing!");
}
final PointObject p1=(PointObject) c.find(tag.getValue("midpoint"));
final PrimitiveCircleObject o=new PrimitiveCircleObject(
c, p1);
setName(tag, o);
set(tree, o);
c.add(o);
setConditionals(tree, c, o);
}
} else {
final PointObject p1=(PointObject) c.find(tag.getValue("midpoint"));
final PointObject p2=(PointObject) c.find(tag.getValue("through"));
final CircleObject o=new CircleObject(c, p1, p2);
setName(tag, o);
set(tree, o);
c.add(o);
setConditionals(tree, c, o);
if (tag.hasParam("partial")) {
o.setPartial(true);
}
if (tag.hasParam("filled")) {
o.setFilled(true);
}
if (tag.hasParam("start")&&tag.hasParam("end")) {
o.setRange(tag.getValue("start"), tag.getValue("end"));
}
if (tag.hasParam("acute")) {
o.setObtuse(false);
}
if (tag.hasParam("chord")) {
o.setArc(false);
}
if (tag.hasParam("fixed")) {
try {
o.setFixed(true, tag.getValue("fixed"));
} catch (final Exception e) {
throw new ConstructionException("Fixed value illegal!");
}
}
}
} catch (final ConstructionException e) {
throw e;
} catch (final Exception e) {
throw new ConstructionException("Circle parameters illegal!");
}
return true;
}
@Override
public String getTag() {
return "Circle";
}
@Override
public void construct(final Construction c, final String name,
final String params[], final int nparams)
throws ConstructionException {
if (nparams>3||nparams==0) {
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]);
}
if (!(P1 instanceof PointObject)) {
throw new ConstructionException(Global.name("exception.type")+" "
+params[0]);
}
if (nparams==1) {
final PrimitiveCircleObject s=new PrimitiveCircleObject(c,
(PointObject) P1);
c.add(s);
s.setDefaults();
if (!name.equals("")) {
s.setNameCheck(name);
}
return;
}
final ConstructionObject P2=c.find(params[1]);
if (P2==null) {
final Expression ex=new Expression(params[1], c, null);
if (!ex.isValid()) {
throw new ConstructionException(Global.name("exception.expression"));
}
final FixedCircleObject s=new FixedCircleObject(c,
(PointObject) P1, 0, 0);
c.add(s);
s.setDefaults();
s.setFixed(params[1]);
s.validate();
if (!name.equals("")) {
s.setNameCheck(name);
}
return;
}
if (P2 instanceof SegmentObject) {
final Circle3Object s=new Circle3Object(c, ((SegmentObject) P2).getP1(), ((SegmentObject) P2).getP2(), (PointObject) P1);
c.add(s);
s.setDefaults();
if (!name.equals("")) {
s.setNameCheck(name);
}
return;
}
if (!(P2 instanceof PointObject)) {
throw new ConstructionException(Global.name("exception.type")+" "
+params[1]);
}
if (nparams==3) {
final ConstructionObject P3=c.find(params[2]);
if (P3==null||!(P3 instanceof PointObject)) {
final CircleObject s=new CircleObject(c, (PointObject) P1,
(PointObject) P2);
if (!s.canFix()) {
throw new ConstructionException(Global.name("exception.canfix"));
}
s.setFixed(true, params[2]);
if (!s.isValidFix()) {
throw new ConstructionException(Global.name("exception.fix")
+" "+params[2]);
}
c.add(s);
s.validate();
if (!name.equals("")) {
s.setNameCheck(name);
}
s.setDefaults();
return;
} else {
final Circle3Object cr=new Circle3Object(c, (PointObject) P2,
(PointObject) P3, (PointObject) P1);
c.add(cr);
cr.setDefaults();
if (!name.equals("")) {
cr.setNameCheck(name);
}
return;
}
}
final CircleObject s=new CircleObject(c, (PointObject) P1,
(PointObject) P2);
c.add(s);
s.setDefaults();
if (!name.equals("")) {
s.setName(name);
}
}
}