void MoveShipTo(CCPoint location)
{
float ds = CCPoint.Distance(ship.Position, location);
var dt = ds / SHIP_SPEED;
var moveShip = new CCMoveTo(dt, location);
var easeShip = new CCEaseSineInOut(moveShip);
ship.RunAction(easeShip);
}
public override void onEnter()
{
base.onEnter();
CCActionInterval move = CCMoveBy.actionWithDuration(3, new CCPoint(350, 0));
CCActionInterval move_back = move.reverse() as CCActionInterval;
CCActionInterval move_ease = CCEaseSineInOut.actionWithAction((CCActionInterval)(move.copy()));
CCActionInterval move_ease_back = move_ease.reverse() as CCActionInterval;
CCFiniteTimeAction seq1 = CCSequence.actions(move, move_back);
CCFiniteTimeAction seq2 = CCSequence.actions(move_ease, move_ease_back);
this.positionForTwo();
m_grossini.runAction(CCRepeatForever.actionWithAction((CCActionInterval)seq1));
m_tamara.runAction(CCRepeatForever.actionWithAction((CCActionInterval)seq2));
}
public void HandleInput(CCPoint touchPoint)
{
desiredLocation = touchPoint;
float differenceY = touchPoint.Y - this.PositionY;
float differenceX = touchPoint.X - this.PositionX;
float angleInDegrees = -1 * CCMathHelper.ToDegrees(
(float)System.Math.Atan2(differenceY, differenceX));
var rotateAction = new CCRotateTo(0.3f, angleInDegrees);
this.AddAction(rotateAction);
var moveAction = new CCMoveTo(1f, touchPoint);
CCAction easingAction = new CCEaseSineInOut(moveAction);
this.AddAction(easingAction);
}
public override void OnEnter()
{
base.OnEnter();
var s = Layer.VisibleBoundsWorldspace.Size;
var move = new CCMoveBy(3, new CCPoint(s.Width - 130, 0));
var move_back = move.Reverse();
var move_ease = new CCEaseSineInOut(move);
var move_ease_back = move_ease.Reverse();
var delay = new CCDelayTime(0.25f);
var seq1 = new CCSequence(move, delay, move_back, delay);
var seq2 = new CCSequence(move_ease, delay, move_ease_back, delay);
PositionForTwo();
m_grossini.RunAction(new CCRepeatForever(seq1));
m_tamara.RunAction(new CCRepeatForever(seq2));
}
public override void OnEnter()
{
base.OnEnter();
var s = CCDirector.SharedDirector.WinSize;
var move = new CCMoveBy(3, new CCPoint(s.Width - 130, 0));
var move_back = move.Reverse();
var move_ease = new CCEaseSineInOut((CCActionInterval)(move.Copy()));
var move_ease_back = move_ease.Reverse();
var delay = new CCDelayTime(0.25f);
var seq1 = CCSequence.FromActions(move, delay, move_back, (CCFiniteTimeAction)delay.Copy());
var seq2 = CCSequence.FromActions(move_ease, (CCFiniteTimeAction)delay.Copy(), move_ease_back, (CCFiniteTimeAction)delay.Copy());
positionForTwo();
m_grossini.RunAction(new CCRepeatForever(seq1));
m_tamara.RunAction(new CCRepeatForever(seq2));
}
void HandleMoveCircle(CCTouch touch)
{
const float timeToTake = 1.5f; // in seconds
CCFiniteTimeAction coreAction = null;
// By default all actions will be added directly to the
// root node - it has values for Position, Scale, and Rotation.
CCNode nodeToAddTo = drawNodeRoot;
switch (VariableOptions [currentVariableIndex])
{
case "Position":
coreAction = new CCMoveTo(timeToTake, touch.Location);
break;
case "Scale":
var distance = CCPoint.Distance(touch.Location, drawNodeRoot.Position);
var desiredScale = distance / DefaultCircleRadius;
coreAction = new CCScaleTo(timeToTake, desiredScale);
break;
case "Rotation":
float differenceY = touch.Location.Y - drawNodeRoot.PositionY;
float differenceX = touch.Location.X - drawNodeRoot.PositionX;
float angleInDegrees = -1 * CCMathHelper.ToDegrees(
(float)Math.Atan2(differenceY, differenceX));
coreAction = new CCRotateTo(timeToTake, angleInDegrees);
break;
case "LineWidth":
coreAction = new LineWidthAction(timeToTake, touch.Location.X / 40f);
// The LineWidthAction is a special action designed to work only on
// LineNode instances, so we have to set the nodeToAddTo to the lineNode:
nodeToAddTo = lineNode;
break;
}
CCAction easing = null;
switch (EasingOptions [currentEasingIndex])
{
case "CCEaseBack":
if (currentInOutIndex == 0)
{
easing = new CCEaseBackOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBackIn(coreAction);
}
else
{
easing = new CCEaseBackInOut(coreAction);
}
break;
case "CCEaseBounce":
if (currentInOutIndex == 0)
{
easing = new CCEaseBounceOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBounceIn(coreAction);
}
else
{
easing = new CCEaseBounceInOut(coreAction);
}
break;
case "CCEaseElastic":
if (currentInOutIndex == 0)
{
easing = new CCEaseElasticOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseElasticIn(coreAction);
}
else
{
easing = new CCEaseElasticInOut(coreAction);
}
break;
case "CCEaseExponential":
if (currentInOutIndex == 0)
{
easing = new CCEaseExponentialOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseExponentialIn(coreAction);
}
else
{
easing = new CCEaseExponentialInOut(coreAction);
}
break;
case "CCEaseSine":
if (currentInOutIndex == 0)
{
easing = new CCEaseSineOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseSineIn(coreAction);
}
else
{
easing = new CCEaseSineInOut(coreAction);
}
break;
}
nodeToAddTo.AddAction(easing ?? coreAction);
}
private void HandleMoveCircle(CCTouch touch)
{
const float timeToTake = 1.5f; // in seconds
CCFiniteTimeAction coreAction = null;
CCNode nodeToAddTo = drawNodeRoot;
switch (VariableOptions [currentVariableIndex])
{
case "Position":
coreAction = new CCMoveTo(timeToTake, touch.Location);
break;
case "Scale":
coreAction = new CCScaleTo(timeToTake, touch.Location.X / 100.0f);
break;
case "Rotation":
coreAction = new CCRotateTo(timeToTake, (touch.Location.X / 3) % 360);
break;
case "LineWidth":
coreAction = new LineWidthAction(timeToTake, touch.Location.X / 40.0f);
nodeToAddTo = lineNode;
break;
}
CCAction easing = null;
switch (EasingOptions [currentEasingIndex])
{
case "<None>":
// no easing, do nothing, it will be handled below
break;
case "CCEaseBack":
if (currentInOutIndex == 0)
{
easing = new CCEaseBackOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBackIn(coreAction);
}
else
{
easing = new CCEaseBackInOut(coreAction);
}
break;
case "CCEaseBounce":
if (currentInOutIndex == 0)
{
easing = new CCEaseBounceOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBounceIn(coreAction);
}
else
{
easing = new CCEaseBounceInOut(coreAction);
}
break;
case "CCEaseElastic":
if (currentInOutIndex == 0)
{
easing = new CCEaseElasticOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseElasticIn(coreAction);
}
else
{
easing = new CCEaseElasticInOut(coreAction);
}
break;
case "CCEaseExponential":
if (currentInOutIndex == 0)
{
easing = new CCEaseExponentialOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseExponentialIn(coreAction);
}
else
{
easing = new CCEaseExponentialInOut(coreAction);
}
break;
case "CCEaseSine":
if (currentInOutIndex == 0)
{
easing = new CCEaseSineOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseSineIn(coreAction);
}
else
{
easing = new CCEaseSineInOut(coreAction);
}
break;
}
if (easing != null)
{
nodeToAddTo.AddAction(easing);
}
else
{
nodeToAddTo.AddAction(coreAction);
}
}
private void HandleMoveCircle(CCTouch touch)
{
const float timeToTake = 1.5f; // in seconds
CCFiniteTimeAction coreAction = null;
CCNode nodeToAddTo = drawNodeRoot;
switch (VariableOptions [currentVariableIndex])
{
case "Position":
coreAction = new CCMoveTo(timeToTake, touch.Location);
break;
case "Scale":
var distance = CCPoint.Distance(touch.Location, drawNodeRoot.Position);
var desiredScale = distance / DefaultCircleRadius;
coreAction = new CCScaleTo(timeToTake, desiredScale);
break;
case "Rotation":
float differenceY = touch.Location.Y - drawNodeRoot.PositionY;
float differenceX = touch.Location.X - drawNodeRoot.PositionX;
float angleInDegrees = -1 * CCMathHelper.ToDegrees(
(float)System.Math.Atan2(differenceY, differenceX));
coreAction = new CCRotateTo(timeToTake, angleInDegrees);
break;
case "LineWidth":
coreAction = new LineWidthAction(timeToTake, touch.Location.X / 40.0f);
nodeToAddTo = lineNode;
break;
}
CCAction easing = null;
switch (EasingOptions [currentEasingIndex])
{
case "<None>":
// no easing, do nothing, it will be handled below
break;
case "CCEaseBack":
if (currentInOutIndex == 0)
{
easing = new CCEaseBackOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBackIn(coreAction);
}
else
{
easing = new CCEaseBackInOut(coreAction);
}
break;
case "CCEaseBounce":
if (currentInOutIndex == 0)
{
easing = new CCEaseBounceOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseBounceIn(coreAction);
}
else
{
easing = new CCEaseBounceInOut(coreAction);
}
break;
case "CCEaseElastic":
if (currentInOutIndex == 0)
{
easing = new CCEaseElasticOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseElasticIn(coreAction);
}
else
{
easing = new CCEaseElasticInOut(coreAction);
}
break;
case "CCEaseExponential":
if (currentInOutIndex == 0)
{
easing = new CCEaseExponentialOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseExponentialIn(coreAction);
}
else
{
easing = new CCEaseExponentialInOut(coreAction);
}
break;
case "CCEaseSine":
if (currentInOutIndex == 0)
{
easing = new CCEaseSineOut(coreAction);
}
else if (currentInOutIndex == 1)
{
easing = new CCEaseSineIn(coreAction);
}
else
{
easing = new CCEaseSineInOut(coreAction);
}
break;
}
if (easing != null)
{
nodeToAddTo.AddAction(easing);
}
else
{
nodeToAddTo.AddAction(coreAction);
}
}