FlyByCamera and ChaseCamera refactored all input mapping constants in a dedicated constant class CameraInput with proper doc

git-svn-id: https://jmonkeyengine.googlecode.com/svn/trunk@11101 75d07b2b-3a1a-0410-a2c5-0572b91ccdca
11 years ago · ae20de9edf
parent 035ed5ebec
commit ae20de9edf
3 changed files with 278 additions and 107 deletions
--- a/engine/src/core/com/jme3/input/CameraInput.java
+++ b/engine/src/core/com/jme3/input/CameraInput.java
@ -0,0 +1,143 @@
 /*
 * Copyright (c) 2009-2012 jMonkeyEngine
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 * * Redistributions of source code must retain the above copyright
 *   notice, this list of conditions and the following disclaimer.
 *
 * * Redistributions in binary form must reproduce the above copyright
 *   notice, this list of conditions and the following disclaimer in the
 *   documentation and/or other materials provided with the distribution.
 *
 * * Neither the name of 'jMonkeyEngine' nor the names of its contributors
 *   may be used to endorse or promote products derived from this software
 *   without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */
 package com.jme3.input;
 /**
 * This class defines all the constants used in camera handlers for registration
 * with the inputManager
 *
 * @author Nehon
 */
 public class CameraInput {
    //ChaseCamera constants
    /**
     * Chase camera mapping for moving down. Default assigned to
     * MouseInput.AXIS_Y direction depending on the invertYaxis configuration
     */
    public final static String CHASECAM_DOWN = "ChaseCamDown";
    /**
     * Chase camera mapping for moving up. Default assigned to MouseInput.AXIS_Y
     * direction depending on the invertYaxis configuration
     */
    public final static String CHASECAM_UP = "ChaseCamUp";
    /**
     * Chase camera mapping for zooming in. Default assigned to
     * MouseInput.AXIS_WHEEL direction positive
     */
    public final static String CHASECAM_ZOOMIN = "ChaseCamZoomIn";
    /**
     * Chase camera mapping for zooming out. Default assigned to
     * MouseInput.AXIS_WHEEL direction negative
     */
    public final static String CHASECAM_ZOOMOUT = "ChaseCamZoomOut";
    /**
     * Chase camera mapping for moving left. Default assigned to
     * MouseInput.AXIS_X direction depending on the invertXaxis configuration
     */
    public final static String CHASECAM_MOVELEFT = "ChaseCamMoveLeft";
    /**
     * Chase camera mapping for moving right. Default assigned to
     * MouseInput.AXIS_X direction depending on the invertXaxis configuration
     */
    public final static String CHASECAM_MOVERIGHT = "ChaseCamMoveRight";
    /**
     * Chase camera mapping to initiate the rotation of the cam. Default assigned
     * to MouseInput.BUTTON_LEFT and MouseInput.BUTTON_RIGHT
     */
    public final static String CHASECAM_TOGGLEROTATE = "ChaseCamToggleRotate";
    //fly cameara constants
    /**
     * Fly camera mapping to look left. Default assigned to MouseInput.AXIS_X,
     * direction negative
     */
    public final static String FLYCAM_LEFT = "FLYCAM_Left";
    /**
     * Fly camera mapping to look right. Default assigned to MouseInput.AXIS_X,
     * direction positive
     */
    public final static String FLYCAM_RIGHT = "FLYCAM_Right";
    /**
     * Fly camera mapping to look up. Default assigned to MouseInput.AXIS_Y,
     * direction positive
     */
    public final static String FLYCAM_UP = "FLYCAM_Up";
    /**
     * Fly camera mapping to look down. Default assigned to MouseInput.AXIS_Y,
     * direction negative
     */
    public final static String FLYCAM_DOWN = "FLYCAM_Down";
    /**
     * Fly camera mapping to move left. Default assigned to KeyInput.KEY_A   
     */
    public final static String FLYCAM_STRAFELEFT = "FLYCAM_StrafeLeft";
    /**
     * Fly camera mapping to move right. Default assigned to KeyInput.KEY_D  
     */
    public final static String FLYCAM_STRAFERIGHT = "FLYCAM_StrafeRight";
    /**
     * Fly camera mapping to move forward. Default assigned to KeyInput.KEY_W   
     */
    public final static String FLYCAM_FORWARD = "FLYCAM_Forward";
    /**
     * Fly camera mapping to move backward. Default assigned to KeyInput.KEY_S   
     */
    public final static String FLYCAM_BACKWARD = "FLYCAM_Backward";
    /**
     * Fly camera mapping to zoom in. Default assigned to MouseInput.AXIS_WHEEL,
     * direction positive
     */
    public final static String FLYCAM_ZOOMIN = "FLYCAM_ZoomIn";
    /**
     * Fly camera mapping to zoom in. Default assigned to MouseInput.AXIS_WHEEL,
     * direction negative
     */
    public final static String FLYCAM_ZOOMOUT = "FLYCAM_ZoomOut";
    /**
     * Fly camera mapping to toggle rotation. Default assigned to 
     * MouseInput.BUTTON_LEFT   
     */
    public final static String FLYCAM_ROTATEDRAG = "FLYCAM_RotateDrag";
    /**
     * Fly camera mapping to move up. Default assigned to KeyInput.KEY_Q   
     */
    public final static String FLYCAM_RISE = "FLYCAM_Rise";
    /**
     * Fly camera mapping to move down. Default assigned to KeyInput.KEY_W   
     */
    public final static String FLYCAM_LOWER = "FLYCAM_Lower";
    public final static String FLYCAM_INVERTY = "FLYCAM_InvertY";
 }
--- a/engine/src/core/com/jme3/input/ChaseCamera.java
+++ b/engine/src/core/com/jme3/input/ChaseCamera.java
@ -99,13 +99,43 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
    protected Vector3f temp = new Vector3f(0, 0, 0);
    protected boolean invertYaxis = false;
    protected boolean invertXaxis = false;
    /**
     * @deprecated use {@link CameraInput#CHASECAM_DOWN}
     */
    @Deprecated
    public final static String ChaseCamDown = "ChaseCamDown";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_UP}
     */
    @Deprecated
    public final static String ChaseCamUp = "ChaseCamUp";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_ZOOMIN}
     */
    @Deprecated
    public final static String ChaseCamZoomIn = "ChaseCamZoomIn";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_ZOOMOUT}
     */
    @Deprecated
    public final static String ChaseCamZoomOut = "ChaseCamZoomOut";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_MOVELEFT}
     */
    @Deprecated
    public final static String ChaseCamMoveLeft = "ChaseCamMoveLeft";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_MOVERIGHT}
     */
    @Deprecated
    public final static String ChaseCamMoveRight = "ChaseCamMoveRight";
    /**
     * @deprecated use {@link CameraInput#CHASECAM_TOGGLEROTATE}
     */
    @Deprecated
    public final static String ChaseCamToggleRotate = "ChaseCamToggleRotate";
    protected boolean zoomin;
    protected boolean hideCursorOnRotate = true;
@ -155,7 +185,7 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
    public void onAction(String name, boolean keyPressed, float tpf) {
        if (dragToRotate) {
-            if (name.equals(ChaseCamToggleRotate) && enabled) {
+            if (name.equals(CameraInput.CHASECAM_TOGGLEROTATE) && enabled) {
                if (keyPressed) {
                    canRotate = true;
                    if (hideCursorOnRotate) {
@ -174,21 +204,21 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
    public void onAnalog(String name, float value, float tpf) {
-        if (name.equals(ChaseCamMoveLeft)) {
+        if (name.equals(CameraInput.CHASECAM_MOVELEFT)) {
            rotateCamera(-value);
-        } else if (name.equals(ChaseCamMoveRight)) {
+        } else if (name.equals(CameraInput.CHASECAM_MOVERIGHT)) {
            rotateCamera(value);
-        } else if (name.equals(ChaseCamUp)) {
+        } else if (name.equals(CameraInput.CHASECAM_UP)) {
            vRotateCamera(value);
-        } else if (name.equals(ChaseCamDown)) {
+        } else if (name.equals(CameraInput.CHASECAM_DOWN)) {
            vRotateCamera(-value);
-        } else if (name.equals(ChaseCamZoomIn)) {
+        } else if (name.equals(CameraInput.CHASECAM_ZOOMIN)) {
            zoomCamera(-value);
            if (zoomin == false) {
                distanceLerpFactor = 0;
            }
            zoomin = true;
-        } else if (name.equals(ChaseCamZoomOut)) {
+        } else if (name.equals(CameraInput.CHASECAM_ZOOMOUT)) {
            zoomCamera(+value);
            if (zoomin == true) {
                distanceLerpFactor = 0;
@ -203,33 +233,33 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     */
    public final void registerWithInput(InputManager inputManager) {
-        String[] inputs = {ChaseCamToggleRotate,
+        String[] inputs = {CameraInput.CHASECAM_TOGGLEROTATE,
-            ChaseCamDown,
+            CameraInput.CHASECAM_DOWN,
-            ChaseCamUp,
+            CameraInput.CHASECAM_UP,
-            ChaseCamMoveLeft,
+            CameraInput.CHASECAM_MOVELEFT,
-            ChaseCamMoveRight,
+            CameraInput.CHASECAM_MOVERIGHT,
-            ChaseCamZoomIn,
+            CameraInput.CHASECAM_ZOOMIN,
-            ChaseCamZoomOut};
+            CameraInput.CHASECAM_ZOOMOUT};
        this.inputManager = inputManager;
        if (!invertYaxis) {
-            inputManager.addMapping(ChaseCamDown, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
+            inputManager.addMapping(CameraInput.CHASECAM_DOWN, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
-            inputManager.addMapping(ChaseCamUp, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
+            inputManager.addMapping(CameraInput.CHASECAM_UP, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
        } else {
-            inputManager.addMapping(ChaseCamDown, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
+            inputManager.addMapping(CameraInput.CHASECAM_DOWN, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
-            inputManager.addMapping(ChaseCamUp, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
+            inputManager.addMapping(CameraInput.CHASECAM_UP, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
        }
-        inputManager.addMapping(ChaseCamZoomIn, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, false));
+        inputManager.addMapping(CameraInput.CHASECAM_ZOOMIN, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, false));
-        inputManager.addMapping(ChaseCamZoomOut, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, true));
+        inputManager.addMapping(CameraInput.CHASECAM_ZOOMOUT, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, true));
        if (!invertXaxis) {
-            inputManager.addMapping(ChaseCamMoveLeft, new MouseAxisTrigger(MouseInput.AXIS_X, true));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVELEFT, new MouseAxisTrigger(MouseInput.AXIS_X, true));
-            inputManager.addMapping(ChaseCamMoveRight, new MouseAxisTrigger(MouseInput.AXIS_X, false));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVERIGHT, new MouseAxisTrigger(MouseInput.AXIS_X, false));
        } else {
-            inputManager.addMapping(ChaseCamMoveLeft, new MouseAxisTrigger(MouseInput.AXIS_X, false));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVELEFT, new MouseAxisTrigger(MouseInput.AXIS_X, false));
-            inputManager.addMapping(ChaseCamMoveRight, new MouseAxisTrigger(MouseInput.AXIS_X, true));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVERIGHT, new MouseAxisTrigger(MouseInput.AXIS_X, true));
        }
-        inputManager.addMapping(ChaseCamToggleRotate, new MouseButtonTrigger(MouseInput.BUTTON_LEFT));
+        inputManager.addMapping(CameraInput.CHASECAM_TOGGLEROTATE, new MouseButtonTrigger(MouseInput.BUTTON_LEFT));
-        inputManager.addMapping(ChaseCamToggleRotate, new MouseButtonTrigger(MouseInput.BUTTON_RIGHT));
+        inputManager.addMapping(CameraInput.CHASECAM_TOGGLEROTATE, new MouseButtonTrigger(MouseInput.BUTTON_RIGHT));
        inputManager.addListener(this, inputs);
    }
@ -242,9 +272,9 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     * @param triggers
     */
    public void setToggleRotationTrigger(Trigger... triggers) {
-        inputManager.deleteMapping(ChaseCamToggleRotate);
+        inputManager.deleteMapping(CameraInput.CHASECAM_TOGGLEROTATE);
-        inputManager.addMapping(ChaseCamToggleRotate, triggers);
+        inputManager.addMapping(CameraInput.CHASECAM_TOGGLEROTATE, triggers);
-        inputManager.addListener(this, ChaseCamToggleRotate);
+        inputManager.addListener(this, CameraInput.CHASECAM_TOGGLEROTATE);
    }
    /**
@ -254,9 +284,9 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     * @param triggers
     */
    public void setZoomInTrigger(Trigger... triggers) {
-        inputManager.deleteMapping(ChaseCamZoomIn);
+        inputManager.deleteMapping(CameraInput.CHASECAM_ZOOMIN);
-        inputManager.addMapping(ChaseCamZoomIn, triggers);
+        inputManager.addMapping(CameraInput.CHASECAM_ZOOMIN, triggers);
-        inputManager.addListener(this, ChaseCamZoomIn);
+        inputManager.addListener(this, CameraInput.CHASECAM_ZOOMIN);
    }
    /**
@ -266,9 +296,9 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     * @param triggers
     */
    public void setZoomOutTrigger(Trigger... triggers) {
-        inputManager.deleteMapping(ChaseCamZoomOut);
+        inputManager.deleteMapping(CameraInput.CHASECAM_ZOOMOUT);
-        inputManager.addMapping(ChaseCamZoomOut, triggers);
+        inputManager.addMapping(CameraInput.CHASECAM_ZOOMOUT, triggers);
-        inputManager.addListener(this, ChaseCamZoomOut);
+        inputManager.addListener(this, CameraInput.CHASECAM_ZOOMOUT);
    }
    protected void computePosition() {
@ -581,9 +611,7 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     * @throws IOException
     */
    public void write(JmeExporter ex) throws IOException {
-        OutputCapsule capsule = ex.getCapsule(this);
+        throw new UnsupportedOperationException("remove ChaseCamera before saving");
        capsule.write(maxDistance, "maxDistance", 40);
        capsule.write(minDistance, "minDistance", 1);
    }
    /**
@ -745,7 +773,7 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
    /**
     * Sets the zoom sensitivity, the lower the value, the slower the camera will zoom in and out.
-     * default is 5.
+     * default is 2.
     * @param zoomSensitivity
     */
    public void setZoomSensitivity(float zoomSensitivity) {
@ -910,16 +938,16 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     */
    public void setInvertVerticalAxis(boolean invertYaxis) {
        this.invertYaxis = invertYaxis;
-        inputManager.deleteMapping(ChaseCamDown);
+        inputManager.deleteMapping(CameraInput.CHASECAM_DOWN);
-        inputManager.deleteMapping(ChaseCamUp);
+        inputManager.deleteMapping(CameraInput.CHASECAM_UP);
        if (!invertYaxis) {
-            inputManager.addMapping(ChaseCamDown, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
+            inputManager.addMapping(CameraInput.CHASECAM_DOWN, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
-            inputManager.addMapping(ChaseCamUp, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
+            inputManager.addMapping(CameraInput.CHASECAM_UP, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
        } else {
-            inputManager.addMapping(ChaseCamDown, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
+            inputManager.addMapping(CameraInput.CHASECAM_DOWN, new MouseAxisTrigger(MouseInput.AXIS_Y, false));
-            inputManager.addMapping(ChaseCamUp, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
+            inputManager.addMapping(CameraInput.CHASECAM_UP, new MouseAxisTrigger(MouseInput.AXIS_Y, true));
        }
-        inputManager.addListener(this, ChaseCamDown, ChaseCamUp);
+        inputManager.addListener(this, CameraInput.CHASECAM_DOWN, CameraInput.CHASECAM_UP);
    }
    /**
@ -928,15 +956,15 @@ public class ChaseCamera implements ActionListener, AnalogListener, Control {
     */
    public void setInvertHorizontalAxis(boolean invertXaxis) {
        this.invertXaxis = invertXaxis;
-        inputManager.deleteMapping(ChaseCamMoveLeft);
+        inputManager.deleteMapping(CameraInput.CHASECAM_MOVELEFT);
-        inputManager.deleteMapping(ChaseCamMoveRight);
+        inputManager.deleteMapping(CameraInput.CHASECAM_MOVERIGHT);
        if (!invertXaxis) {
-            inputManager.addMapping(ChaseCamMoveLeft, new MouseAxisTrigger(MouseInput.AXIS_X, true));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVELEFT, new MouseAxisTrigger(MouseInput.AXIS_X, true));
-            inputManager.addMapping(ChaseCamMoveRight, new MouseAxisTrigger(MouseInput.AXIS_X, false));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVERIGHT, new MouseAxisTrigger(MouseInput.AXIS_X, false));
        } else {
-            inputManager.addMapping(ChaseCamMoveLeft, new MouseAxisTrigger(MouseInput.AXIS_X, false));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVELEFT, new MouseAxisTrigger(MouseInput.AXIS_X, false));
-            inputManager.addMapping(ChaseCamMoveRight, new MouseAxisTrigger(MouseInput.AXIS_X, true));
+            inputManager.addMapping(CameraInput.CHASECAM_MOVERIGHT, new MouseAxisTrigger(MouseInput.AXIS_X, true));
        }
-        inputManager.addListener(this, ChaseCamMoveLeft, ChaseCamMoveRight);
+        inputManager.addListener(this, CameraInput.CHASECAM_MOVELEFT, CameraInput.CHASECAM_MOVERIGHT);
    }
 }
--- a/engine/src/core/com/jme3/input/FlyByCamera.java
+++ b/engine/src/core/com/jme3/input/FlyByCamera.java
@ -53,24 +53,24 @@ import com.jme3.renderer.Camera;
 public class FlyByCamera implements AnalogListener, ActionListener {
    private static String[] mappings = new String[]{
-            "FLYCAM_Left",
+            CameraInput.FLYCAM_LEFT,
-            "FLYCAM_Right",
+            CameraInput.FLYCAM_RIGHT,
-            "FLYCAM_Up",
+            CameraInput.FLYCAM_UP,
-            "FLYCAM_Down",
+            CameraInput.FLYCAM_DOWN,
-
+
-            "FLYCAM_StrafeLeft",
+            CameraInput.FLYCAM_STRAFELEFT,
-            "FLYCAM_StrafeRight",
+            CameraInput.FLYCAM_STRAFERIGHT,
-            "FLYCAM_Forward",
+            CameraInput.FLYCAM_FORWARD,
-            "FLYCAM_Backward",
+            CameraInput.FLYCAM_BACKWARD,
-
+
-            "FLYCAM_ZoomIn",
+            CameraInput.FLYCAM_ZOOMIN,
-            "FLYCAM_ZoomOut",
+            CameraInput.FLYCAM_ZOOMOUT,
-            "FLYCAM_RotateDrag",
+            CameraInput.FLYCAM_ROTATEDRAG,
-
+
-            "FLYCAM_Rise",
+            CameraInput.FLYCAM_RISE,
-            "FLYCAM_Lower",
+            CameraInput.FLYCAM_LOWER,
-            "FLYCAM_InvertY"
+            CameraInput.FLYCAM_INVERTY
        };
    protected Camera cam;
@ -211,30 +211,30 @@ public class FlyByCamera implements AnalogListener, ActionListener {
        this.inputManager = inputManager;
        // both mouse and button - rotation of cam
-        inputManager.addMapping("FLYCAM_Left", new MouseAxisTrigger(MouseInput.AXIS_X, true),
+        inputManager.addMapping(CameraInput.FLYCAM_LEFT, new MouseAxisTrigger(MouseInput.AXIS_X, true),
                                               new KeyTrigger(KeyInput.KEY_LEFT));
-        inputManager.addMapping("FLYCAM_Right", new MouseAxisTrigger(MouseInput.AXIS_X, false),
+        inputManager.addMapping(CameraInput.FLYCAM_RIGHT, new MouseAxisTrigger(MouseInput.AXIS_X, false),
                                                new KeyTrigger(KeyInput.KEY_RIGHT));
-        inputManager.addMapping("FLYCAM_Up", new MouseAxisTrigger(MouseInput.AXIS_Y, false),
+        inputManager.addMapping(CameraInput.FLYCAM_UP, new MouseAxisTrigger(MouseInput.AXIS_Y, false),
                                             new KeyTrigger(KeyInput.KEY_UP));
-        inputManager.addMapping("FLYCAM_Down", new MouseAxisTrigger(MouseInput.AXIS_Y, true),
+        inputManager.addMapping(CameraInput.FLYCAM_DOWN, new MouseAxisTrigger(MouseInput.AXIS_Y, true),
                                               new KeyTrigger(KeyInput.KEY_DOWN));
        // mouse only - zoom in/out with wheel, and rotate drag
-        inputManager.addMapping("FLYCAM_ZoomIn", new MouseAxisTrigger(MouseInput.AXIS_WHEEL, false));
+        inputManager.addMapping(CameraInput.FLYCAM_ZOOMIN, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, false));
-        inputManager.addMapping("FLYCAM_ZoomOut", new MouseAxisTrigger(MouseInput.AXIS_WHEEL, true));
+        inputManager.addMapping(CameraInput.FLYCAM_ZOOMOUT, new MouseAxisTrigger(MouseInput.AXIS_WHEEL, true));
-        inputManager.addMapping("FLYCAM_RotateDrag", new MouseButtonTrigger(MouseInput.BUTTON_LEFT));
+        inputManager.addMapping(CameraInput.FLYCAM_ROTATEDRAG, new MouseButtonTrigger(MouseInput.BUTTON_LEFT));
        // keyboard only WASD for movement and WZ for rise/lower height
-        inputManager.addMapping("FLYCAM_StrafeLeft", new KeyTrigger(KeyInput.KEY_A));
+        inputManager.addMapping(CameraInput.FLYCAM_STRAFELEFT, new KeyTrigger(KeyInput.KEY_A));
-        inputManager.addMapping("FLYCAM_StrafeRight", new KeyTrigger(KeyInput.KEY_D));
+        inputManager.addMapping(CameraInput.FLYCAM_STRAFERIGHT, new KeyTrigger(KeyInput.KEY_D));
-        inputManager.addMapping("FLYCAM_Forward", new KeyTrigger(KeyInput.KEY_W));
+        inputManager.addMapping(CameraInput.FLYCAM_FORWARD, new KeyTrigger(KeyInput.KEY_W));
-        inputManager.addMapping("FLYCAM_Backward", new KeyTrigger(KeyInput.KEY_S));
+        inputManager.addMapping(CameraInput.FLYCAM_BACKWARD, new KeyTrigger(KeyInput.KEY_S));
-        inputManager.addMapping("FLYCAM_Rise", new KeyTrigger(KeyInput.KEY_Q));
+        inputManager.addMapping(CameraInput.FLYCAM_RISE, new KeyTrigger(KeyInput.KEY_Q));
-        inputManager.addMapping("FLYCAM_Lower", new KeyTrigger(KeyInput.KEY_Z));
+        inputManager.addMapping(CameraInput.FLYCAM_LOWER, new KeyTrigger(KeyInput.KEY_Z));
        inputManager.addListener(this, mappings);
        inputManager.setCursorVisible(dragToRotate || !isEnabled());
@ -253,26 +253,26 @@ public class FlyByCamera implements AnalogListener, ActionListener {
        if( joystick.getAxis( JoystickAxis.Z_ROTATION ) != null && joystick.getAxis( JoystickAxis.Z_AXIS ) != null ) {
            // Make the left stick move
-            joystick.getXAxis().assignAxis( "FLYCAM_StrafeRight", "FLYCAM_StrafeLeft" );
+            joystick.getXAxis().assignAxis( CameraInput.FLYCAM_STRAFERIGHT, CameraInput.FLYCAM_STRAFELEFT );
-            joystick.getYAxis().assignAxis( "FLYCAM_Backward", "FLYCAM_Forward" );
+            joystick.getYAxis().assignAxis( CameraInput.FLYCAM_BACKWARD, CameraInput.FLYCAM_FORWARD );
            // And the right stick control the camera                       
-            joystick.getAxis( JoystickAxis.Z_ROTATION ).assignAxis( "FLYCAM_Down", "FLYCAM_Up" );
+            joystick.getAxis( JoystickAxis.Z_ROTATION ).assignAxis( CameraInput.FLYCAM_DOWN, CameraInput.FLYCAM_UP );
-            joystick.getAxis( JoystickAxis.Z_AXIS ).assignAxis(  "FLYCAM_Right", "FLYCAM_Left" );
+            joystick.getAxis( JoystickAxis.Z_AXIS ).assignAxis(  CameraInput.FLYCAM_RIGHT, CameraInput.FLYCAM_LEFT );
            // And let the dpad be up and down           
-            joystick.getPovYAxis().assignAxis("FLYCAM_Rise", "FLYCAM_Lower");
+            joystick.getPovYAxis().assignAxis(CameraInput.FLYCAM_RISE, CameraInput.FLYCAM_LOWER);
            if( joystick.getButton( "Button 8" ) != null ) { 
                // Let the stanard select button be the y invert toggle
-                joystick.getButton( "Button 8" ).assignButton( "FLYCAM_InvertY" );
+                joystick.getButton( "Button 8" ).assignButton( CameraInput.FLYCAM_INVERTY );
            }                
        } else {             
-            joystick.getPovXAxis().assignAxis("FLYCAM_StrafeRight", "FLYCAM_StrafeLeft");
+            joystick.getPovXAxis().assignAxis(CameraInput.FLYCAM_STRAFERIGHT, CameraInput.FLYCAM_STRAFELEFT);
-            joystick.getPovYAxis().assignAxis("FLYCAM_Forward", "FLYCAM_Backward");
+            joystick.getPovYAxis().assignAxis(CameraInput.FLYCAM_FORWARD, CameraInput.FLYCAM_BACKWARD);
-            joystick.getXAxis().assignAxis("FLYCAM_Right", "FLYCAM_Left");
+            joystick.getXAxis().assignAxis(CameraInput.FLYCAM_RIGHT, CameraInput.FLYCAM_LEFT);
-            joystick.getYAxis().assignAxis("FLYCAM_Down", "FLYCAM_Up");
+            joystick.getYAxis().assignAxis(CameraInput.FLYCAM_DOWN, CameraInput.FLYCAM_UP);
        }                
    }
@ -391,29 +391,29 @@ public class FlyByCamera implements AnalogListener, ActionListener {
        if (!enabled)
            return;
-        if (name.equals("FLYCAM_Left")){
+        if (name.equals(CameraInput.FLYCAM_LEFT)){
            rotateCamera(value, initialUpVec);
-        }else if (name.equals("FLYCAM_Right")){
+        }else if (name.equals(CameraInput.FLYCAM_RIGHT)){
            rotateCamera(-value, initialUpVec);
-        }else if (name.equals("FLYCAM_Up")){
+        }else if (name.equals(CameraInput.FLYCAM_UP)){
            rotateCamera(-value * (invertY ? -1 : 1), cam.getLeft());
-        }else if (name.equals("FLYCAM_Down")){
+        }else if (name.equals(CameraInput.FLYCAM_DOWN)){
            rotateCamera(value * (invertY ? -1 : 1), cam.getLeft());
-        }else if (name.equals("FLYCAM_Forward")){
+        }else if (name.equals(CameraInput.FLYCAM_FORWARD)){
            moveCamera(value, false);
-        }else if (name.equals("FLYCAM_Backward")){
+        }else if (name.equals(CameraInput.FLYCAM_BACKWARD)){
            moveCamera(-value, false);
-        }else if (name.equals("FLYCAM_StrafeLeft")){
+        }else if (name.equals(CameraInput.FLYCAM_STRAFELEFT)){
            moveCamera(value, true);
-        }else if (name.equals("FLYCAM_StrafeRight")){
+        }else if (name.equals(CameraInput.FLYCAM_STRAFERIGHT)){
            moveCamera(-value, true);
-        }else if (name.equals("FLYCAM_Rise")){
+        }else if (name.equals(CameraInput.FLYCAM_RISE)){
            riseCamera(value);
-        }else if (name.equals("FLYCAM_Lower")){
+        }else if (name.equals(CameraInput.FLYCAM_LOWER)){
            riseCamera(-value);
-        }else if (name.equals("FLYCAM_ZoomIn")){
+        }else if (name.equals(CameraInput.FLYCAM_ZOOMIN)){
            zoomCamera(value);
-        }else if (name.equals("FLYCAM_ZoomOut")){
+        }else if (name.equals(CameraInput.FLYCAM_ZOOMOUT)){
            zoomCamera(-value);
        }
    }
@ -422,10 +422,10 @@ public class FlyByCamera implements AnalogListener, ActionListener {
        if (!enabled)
            return;
-        if (name.equals("FLYCAM_RotateDrag") && dragToRotate){
+        if (name.equals(CameraInput.FLYCAM_ROTATEDRAG) && dragToRotate){
            canRotate = value;
            inputManager.setCursorVisible(!value);
-        } else if (name.equals("FLYCAM_InvertY")) {
+        } else if (name.equals(CameraInput.FLYCAM_INVERTY)) {
            // Toggle on the up.
            if( !value ) {  
                invertY = !invertY;