/**
* OrbisGIS is a java GIS application dedicated to research in GIScience.
* OrbisGIS is developed by the GIS group of the DECIDE team of the
* Lab-STICC CNRS laboratory, see <http://www.lab-sticc.fr/>.
*
* The GIS group of the DECIDE team is located at :
*
* Laboratoire Lab-STICC – CNRS UMR 6285
* Equipe DECIDE
* UNIVERSITÉ DE BRETAGNE-SUD
* Institut Universitaire de Technologie de Vannes
* 8, Rue Montaigne - BP 561 56017 Vannes Cedex
*
* OrbisGIS is distributed under GPL 3 license.
*
* Copyright (C) 2007-2014 CNRS (IRSTV FR CNRS 2488)
* Copyright (C) 2015-2017 CNRS (Lab-STICC UMR CNRS 6285)
*
* This file is part of OrbisGIS.
*
* OrbisGIS is 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, either version 3 of the License, or (at your option) any later
* version.
*
* OrbisGIS 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
* OrbisGIS. If not, see <http://www.gnu.org/licenses/>.
*
* For more information, please consult: <http://www.orbisgis.org/>
* or contact directly:
* info_at_ orbisgis.org
*/
package org.orbisgis.mapeditor.map.tools.generated;
import java.awt.Graphics;
import org.orbisgis.coremap.layerModel.MapContext;
import org.orbisgis.mapeditor.map.tool.*;
public abstract class Selection extends AbstractAutomaton {
@Override
public String[] getTransitionLabels() {
return new String[]{};
}
@Override
public Code[] getTransitionCodes() {
return new Code[]{};
}
@Override
public void transition(Code code) throws NoSuchTransitionException,
TransitionException, FinishedAutomatonException {
if (Code.ESC == code) {
status = Status.STANDBY;
transitionTo_Standby(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
}
Status preStatus;
switch(status){
case STANDBY :
if (Code.POINT == code) {
preStatus = status;
try {
status = Status.ONE_POINT;
transitionTo_OnePoint(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case ONE_POINT :
switch(code){
case SELECTION :
preStatus = status;
try {
status = Status.SELECTION;
transitionTo_Selection(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
break;
case NO_SELECTION :
preStatus = status;
try {
status = Status.ONE_POINT_LEFT;
transitionTo_OnePointLeft(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
break;
case INIT :
preStatus = status;
try {
status = Status.STANDBY;
transitionTo_Standby(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
break;
}
break;
case ONE_POINT_LEFT :
if (Code.POINT == code) {
preStatus = status;
try {
status = Status.TWO_POINTS;
transitionTo_TwoPoints(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case TWO_POINTS :
if (Code.SELECTION == code) {
preStatus = status;
try {
status = Status.SELECTION;
transitionTo_Selection(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
} else if (Code.NO_SELECTION == code) {
preStatus = status;
try {
status = Status.STANDBY;
transitionTo_Standby(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case SELECTION :
if (Code.POINT == code) {
preStatus = status;
try {
status = Status.POINT_WITH_SELECTION;
transitionTo_PointWithSelection(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case POINT_WITH_SELECTION :
if (Code.IN_HANDLER == code) {
preStatus = status;
try {
status = Status.MOVEMENT;
transitionTo_Movement(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
} else if (Code.OUT_HANDLER == code) {
preStatus = status;
try {
status = Status.ONE_POINT;
transitionTo_OnePoint(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case MOVEMENT :
if (Code.POINT == code) {
preStatus = status;
try {
status = Status.MAKE_MOVE;
transitionTo_MakeMove(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
case MAKE_MOVE :
if (Code.EMPTY == code) {
preStatus = status;
try {
status = Status.SELECTION;
transitionTo_Selection(mc, tm);
if (isFinished(status)) {
throw new FinishedAutomatonException();
}
} catch (TransitionException e) {
status = preStatus;
throw e;
}
}
break;
default :
throw new NoSuchTransitionException(code.toString());
}
}
public boolean isFinished(Status status) {
switch(status){
case STANDBY :
case ONE_POINT :
case ONE_POINT_LEFT :
case TWO_POINTS :
case SELECTION :
case POINT_WITH_SELECTION :
case MOVEMENT :
case MAKE_MOVE :
return false;
default:
throw new RuntimeException("Invalid status: " + status);
}
}
@Override
public void draw(Graphics g) throws DrawingException {
switch(status){
case STANDBY :
drawIn_Standby(g, mc, tm);
break;
case ONE_POINT:
drawIn_OnePoint(g, mc, tm);
break;
case ONE_POINT_LEFT :
drawIn_OnePointLeft(g, mc, tm);
break;
case TWO_POINTS :
drawIn_TwoPoints(g, mc, tm);
break;
case SELECTION :
drawIn_Selection(g, mc, tm);
break;
case POINT_WITH_SELECTION :
drawIn_PointWithSelection(g, mc, tm);
break;
case MOVEMENT :
drawIn_Movement(g, mc, tm);
break;
case MAKE_MOVE :
drawIn_MakeMove(g, mc, tm);
break;
}
}
public abstract void transitionTo_Standby(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_Standby(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_OnePoint(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_OnePoint(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_OnePointLeft(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_OnePointLeft(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_TwoPoints(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_TwoPoints(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_Selection(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_Selection(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_PointWithSelection(MapContext vc,
ToolManager tm) throws FinishedAutomatonException,
TransitionException;
public abstract void drawIn_PointWithSelection(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_Movement(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_Movement(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public abstract void transitionTo_MakeMove(MapContext vc, ToolManager tm)
throws FinishedAutomatonException, TransitionException;
public abstract void drawIn_MakeMove(Graphics g, MapContext vc,
ToolManager tm) throws DrawingException;
public String getMessage() {
switch(status){
case STANDBY :
return i18n.tr("Select a geometry or draw a selection rectangle");
case ONE_POINT_LEFT:
return i18n.tr("Select the second point");
case SELECTION :
return i18n.tr("Click a handler to move it or select another geometry");
case MOVEMENT:
return i18n.tr("Place the handler in its new position");
case MAKE_MOVE :
case TWO_POINTS :
case POINT_WITH_SELECTION :
case ONE_POINT :
return "";
default :
throw new RuntimeException(i18n.tr("Can't find the status of this tool."));
}
}
@Override
public String getTooltip() {
return i18n.tr("Select a feature");
}
@Override
public void toolFinished(MapContext vc, ToolManager tm)
throws NoSuchTransitionException, TransitionException,
FinishedAutomatonException {
}
}