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Dominique Blouin authoredDominique Blouin authored
TMLADChoice.java 8.60 KiB
/* Copyright or (C) or Copr. GET / ENST, Telecom-Paris, Ludovic Apvrille
*
* ludovic.apvrille AT enst.fr
*
* This software is a computer program whose purpose is to allow the
* edition of TURTLE analysis, design and deployment diagrams, to
* allow the generation of RT-LOTOS or Java code from this diagram,
* and at last to allow the analysis of formal validation traces
* obtained from external tools, e.g. RTL from LAAS-CNRS and CADP
* from INRIA Rhone-Alpes.
*
* This software is governed by the CeCILL license under French law and
* abiding by the rules of distribution of free software. You can use,
* modify and/ or redistribute the software under the terms of the CeCILL
* license as circulated by CEA, CNRS and INRIA at the following URL
* "http://www.cecill.info".
*
* As a counterpart to the access to the source code and rights to copy,
* modify and redistribute granted by the license, users are provided only
* with a limited warranty and the software's author, the holder of the
* economic rights, and the successive licensors have only limited
* liability.
*
* In this respect, the user's attention is drawn to the risks associated
* with loading, using, modifying and/or developing or reproducing the
* software by the user in light of its specific status of free software,
* that may mean that it is complicated to manipulate, and that also
* therefore means that it is reserved for developers and experienced
* professionals having in-depth computer knowledge. Users are therefore
* encouraged to load and test the software's suitability as regards their
* requirements in conditions enabling the security of their systems and/or
* data to be ensured and, more generally, to use and operate it in the
* same conditions as regards security.
*
* The fact that you are presently reading this means that you have had
* knowledge of the CeCILL license and that you accept its terms.
*/
package ui.tmlad;
import ui.AllowedBreakpoint;
import ui.BasicErrorHighlight;
import ui.EmbeddedComment;
import ui.TDiagramPanel;
import ui.TGComponent;
import ui.TGComponentManager;
import ui.TGConnectingPoint;
import ui.ad.TADChoice;
/**
* Class TMLADChoice
* Choice with guards. to be used in activity diagrams
* Creation: 21/11/2005
* @version 1.0 21/11/2005
* @author Ludovic APVRILLE
*/
public class TMLADChoice extends TADChoice /* Issue #69 TGCWithInternalComponent*/ implements EmbeddedComment, AllowedBreakpoint, BasicErrorHighlight {
// Issue #31
// private int lineLength = 10;
// private int lineOutLength = 25;
// private int textX1, textY1, textX2, textY2, textX3, textY3;
//
// protected int stateOfError = 0; // Not yet checked
// public final static int NOT_VERIFIED = 0;
public final static int REACHABLE = 1;
public final static int NOT_REACHABLE = 2;
public int securityInformation;
public TMLADChoice(int _x, int _y, int _minX, int _maxX, int _minY, int _maxY, boolean _pos, TGComponent _father, TDiagramPanel _tdp) {
super(_x, _y, _minX, _maxX, _minY, _maxY, _pos, _father, _tdp);
// width = 30;
// height = 30;
// textX1 = -lineOutLength;
// textY1 = height/2 - 5;
// textX2 = width + 5;
// textY2 = height/2 - 5;
// textX3 = width /2 + 5;
// textY3 = height + 15;
//
// nbConnectingPoint = 4;
// connectingPoint = new TGConnectingPoint[nbConnectingPoint];
// connectingPoint[0] = new TGConnectingPointTMLAD(this, 0, -lineLength, true, false, 0.5, 0.0);
// connectingPoint[1] = new TGConnectingPointTMLAD(this, -lineOutLength, 0, false, true, 0.0, 0.5);
// connectingPoint[2] = new TGConnectingPointTMLAD(this, lineOutLength, 0, false, true, 1.0, 0.5);
// connectingPoint[3] = new TGConnectingPointTMLAD(this, 0, lineOutLength, false, true, 0.5, 1.0);
//
// nbInternalTGComponent = 3;
// tgcomponent = new TGComponent[nbInternalTGComponent];
//
// TGCOneLineText tgc = new TGCOneLineText(x+textX1, y+textY1, textX1-50, textX1+5, textY1, textY1 + 25, true, this, _tdp);
// tgc.setValue("[ ]");
// tgc.setName("guard 1");
// tgcomponent[0] = tgc;
//
// tgc = new TGCOneLineText(x+textX2, y+textY2, textX2, textX2+20, textY2, textY2+25, true, this, _tdp);
// tgc.setValue("[ ]");
// tgc.setName("guard 2");
// tgcomponent[1] = tgc;
//
// tgc = new TGCOneLineText(x+textX3, y+textY3, textX3, textX3+20, textY3, textY3+25, true, this, _tdp);
// tgc.setValue("[ ]");
// tgc.setName("guard 3");
// tgcomponent[2] = tgc;
//
// moveable = true;
// editable = false;
// removable = true;
//
// name = "choice";
//
// myImageIcon = IconManager.imgic208;
}
@Override
protected void createConnectingPoints() {
nbConnectingPoint = 4;
connectingPoint = new TGConnectingPoint[nbConnectingPoint];
connectingPoint[ 0 ] = new TGConnectingPointTMLAD(this, 0, -lineLength, true, false, 0.5, 0.0);
connectingPoint[ 1 ] = new TGConnectingPointTMLAD(this, -OUT_LINE_LENGTH, 0, false, true, 0.0, 0.5);
connectingPoint[ 2 ] = new TGConnectingPointTMLAD(this, OUT_LINE_LENGTH, 0, false, true, 1.0, 0.5);
connectingPoint[ 3 ] = new TGConnectingPointTMLAD(this, 0, OUT_LINE_LENGTH, false, true, 0.5, 1.0);
}
// public void internalDrawing(Graphics g) {
// if (stateOfError > 0) {
// Color c = g.getColor();
// switch(stateOfError) {
// case ErrorHighlight.OK:
// g.setColor(ColorManager.CHOICE);
// break;
// default:
// g.setColor(ColorManager.UNKNOWN_BOX_ACTION);
// }
// // Making the polygon
// int [] px1 = {x+(width/2), x+width+2, x + (width/2), x};
// int [] py1 = {y, y + height/2, y+height+2, y+height/2};
// g.fillPolygon(px1, py1, 4);// g.setColor(c);
// }
//
// g.drawLine(x+(width/2), y, x+width, y + height/2);
// g.drawLine(x, y + height / 2, x+width/2, y + height);
// g.drawLine(x + width/2, y, x, y + height/2);
// g.drawLine(x + width, y + height/2, x + width/2, y + height);
//
// g.drawLine(x+(width/2), y, x+(width/2), y - lineLength);
// g.drawLine(x, y + height/2, x-lineOutLength, y + height/2);
// g.drawLine(x + width, y + height/2, x+ width + lineOutLength, y + height/2);
// g.drawLine(x+(width/2), y + height, x+(width/2), y + height + lineOutLength);
// }
//
// public TGComponent isOnOnlyMe(int _x, int _y) {
// if (GraphicLib.isInRectangle(_x, _y, x, y, width, height)) {
// return this;
// }
//
// if ((int)(Line2D.ptSegDistSq(x+(width/2), y + height, x+(width/2), y + height + lineOutLength, _x, _y)) < distanceSelected) {
// return this;
// }
//
// if ((int)(Line2D.ptSegDistSq(x + width, y + height/2, x+ width + lineOutLength, y + height/2, _x, _y)) < distanceSelected) {
// return this;
// }
//
// if ((int)(Line2D.ptSegDistSq(x, y + height/2, x-lineOutLength, y + height/2, _x, _y)) < distanceSelected) {
// return this;
// }
//
// if ((int)(Line2D.ptSegDistSq(x+(width/2), y, x+(width/2), y - lineLength, _x, _y)) < distanceSelected) {
// return this;
// }
//
// return null;
// }
// public String getGuard(int i) {
// if ((i>=0) && (i<nbInternalTGComponent)) {
// return tgcomponent[i].getValue();
// }
// return "";
// }
// public void drawSecurityInformation(Graphics g) {
// if (securityInformation > 0) {
//
// Color c = g.getColor();
// Color c1;
// switch(securityInformation) {
// case REACHABLE:
// c1 = Color.green;
// break;
// case NOT_REACHABLE:
// c1 = Color.red;
// break;
// default:
// return;
// }
//
// GraphicLib.arrowWithLine(g, 1, 0, 10, x-30, y+4, x-15, y+4, true);
// g.drawOval(x-11, y-3, 7, 9);
// g.setColor(c1);
// g.fillRect(x-12, y, 9, 7);
// g.setColor(c);
// g.drawRect(x-12, y, 9, 7);
//
// }
//
// }//
// public void setGuard(String guard, int i) {
// if ((i>=0) && (i<nbInternalTGComponent)) {
// tgcomponent[i].setValue(guard);
// }
// }
@Override
public int getType() {
return TGComponentManager.TMLAD_CHOICE;
}
@Override
public int getDefaultConnector() {
return TGComponentManager.CONNECTOR_TMLAD;
}
//
// public void setStateAction(int _stateAction) {
// stateOfError = _stateAction;
// }
}