public static double GetSpriteAngleToSpriteRadian(AbstractSprite viewerSprite, AbstractSprite viewedSprite)
{
double fullVectorX = viewedSprite.PositionX - viewerSprite.PositionX;
double fullVectorY = viewedSprite.PositionY - viewerSprite.PositionY;
return(Math.Atan2(fullVectorY, fullVectorX));
}
public static double GetStraightDistance(AbstractSprite viewerSprite, AbstractSprite viewedSprite)
{
double viewAxisX = Math.Cos(viewerSprite.AngleRadian);
double viewAxisY = Math.Sin(viewerSprite.AngleRadian);
double relativePointX = viewedSprite.PositionX - viewerSprite.PositionX;
double relativePointY = viewedSprite.PositionY - viewerSprite.PositionY;
return(viewAxisX * relativePointX + viewAxisY * relativePointY);
}
public static double GetStraightDistance(AbstractSprite sprite, RayTracerPoint rayTracerPoint)
{
double viewAxisX = Math.Cos(sprite.AngleRadian);
double viewAxisY = Math.Sin(sprite.AngleRadian);
double relativePointX = rayTracerPoint.X - sprite.PositionX;
double relativePointY = rayTracerPoint.Y - sprite.PositionY;
return(viewAxisX * relativePointX + viewAxisY * relativePointY);
}
/// <summary>
/// Make walk sprite
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="angleOffsetRadian">angle offset (default 0) (in radian)</param>
/// <param name="spritePool">other sprites</param>
/// <param name="map">map</param>
/// <param name="timeDelta">time delta</param>
public static bool TryMakeWalk(AbstractSprite sprite, double angleOffsetRadian, SpritePool spritePool, AbstractMap map, double timeDelta)
{
double xMove = Math.Cos(sprite.AngleRadian + angleOffsetRadian) * sprite.DefaultWalkingDistance * timeDelta;
double yMove = Math.Sin(sprite.AngleRadian + angleOffsetRadian) * sprite.DefaultWalkingDistance * timeDelta;
if (sprite is AbstractHumanoid)
{
AbstractHumanoid humanoid = (AbstractHumanoid)sprite;
humanoid.WalkCycle.UnFire();
humanoid.WalkCycle.Fire();
humanoid.WalkCycle.Update(1);
if (humanoid.IsCrouch)
{
xMove *= humanoid.CrouchSpeedMultiplier;
yMove *= humanoid.CrouchSpeedMultiplier;
}
//If is attacking and not jumping
if (humanoid.StrongAttackCycle.IsFired && humanoid.PositionZ <= 0)
{
xMove *= humanoid.AttackWalkSpeedMultiplier;
yMove *= humanoid.AttackWalkSpeedMultiplier;
}
}
//If is jump
if (sprite.PositionZ > 0)
{
xMove *= sprite.JumpSpeedMultiplier;
yMove *= sprite.JumpSpeedMultiplier;
}
sprite.PositionX += xMove;
bool isDetectCollisionX = IsDetectCollision(sprite, spritePool, map);
if (isDetectCollisionX)
{
sprite.PositionX -= xMove;
}
sprite.PositionY += yMove;
bool isDetectCollisionY = IsDetectCollision(sprite, spritePool, map);
if (isDetectCollisionY)
{
sprite.PositionY -= yMove;
}
return(!(isDetectCollisionX || isDetectCollisionY));
}
/// <summary>
/// Whether sprite is in collision with sprite pool
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="spritePool">sprite pool</param>
/// <returns>Whether sprite is in collision with sprite pool</returns>
public static bool IsDetectSpriteCollision(AbstractSprite sprite, SpritePool spritePool)
{
foreach (AbstractHumanoid otherSprite in spritePool)
{
if (sprite != otherSprite)
{
if (IsDetectSpriteCollision(sprite, otherSprite))
{
return(true);
}
}
}
return(false);
}
/// <summary>
/// Distance for which predator sprite can attack prey
/// </summary>
/// <param name="predator">predator</param>
/// <param name="prey">prey</param>
/// <returns>Distance for which predator sprite can attack prey</returns>
private static double GetAttackRange(AbstractHumanoid predator, AbstractSprite prey)
{
double predatorAttackRange = predator.AttackRange;
if (predator.PositionZ > 0)
{
predatorAttackRange *= predator.AttackRangeJumpMultiplier;
}
else if (predator.IsCrouch)
{
predatorAttackRange *= predator.AttackRangeCrouchMultiplier;
}
return(predatorAttackRange);
}
/// <summary>
/// Whether sprite is in collision with map walls
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="map">map</param>
/// <returns>Whether sprite is in collision with map walls</returns>
public static bool IsDetectMapCollision(AbstractSprite sprite, AbstractMap map)
{
double currentRadius = sprite.Radius;
do
{
if (sprite.PositionX < 0 || sprite.PositionY < 0 || sprite.PositionX >= map.Width || sprite.PositionY >= map.Height)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX - sprite.Radius, sprite.PositionY - sprite.Radius) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX, sprite.PositionY - sprite.Radius) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX + sprite.Radius, sprite.PositionY - sprite.Radius) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX - sprite.Radius, sprite.PositionY) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX + sprite.Radius, sprite.PositionY) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX - sprite.Radius, sprite.PositionY + sprite.Radius) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX, sprite.PositionY + sprite.Radius) != null)
{
return(true);
}
else if (map.GetMatterTypeAt(sprite.PositionX + sprite.Radius, sprite.PositionY + sprite.Radius) != null)
{
return(true);
}
currentRadius -= spriteToMapCollisionPrecision;
} while (currentRadius > 0);
return(false);
}
/// <summary>
/// Make jump sprite
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="timeDelta">time delta</param>
public static void MakeJump(AbstractSprite sprite, double timeDelta)
{
if (!sprite.IsNeedToJumpAgain)
{
if (sprite.PositionZ <= 0)
{
sprite.CurrentJumpAcceleration = sprite.MaxJumpAcceleration;
}
else
{
sprite.CurrentJumpAcceleration += 0.065 * timeDelta;
}
if (sprite.CurrentJumpAcceleration < 0)
{
sprite.IsNeedToJumpAgain = true;
}
}
}
public static bool IsSpriteViewable(AbstractSprite viewerSprite, AbstractSprite viewedSprite, AbstractMap map, int fov)
{
if (viewerSprite == viewedSprite)
{
return(true);
}
double angleRadian = FixAngleRadian(GetSpriteAngleToSpriteRadian(viewerSprite, viewedSprite));
double angleDegree = FixAngleDegree(angleRadian / Math.PI * 180);
double minimumViewingAngle = FixAngleDegree(viewerSprite.AngleDegree - (double)fov / 1.8);
double maximumViewingAngle = FixAngleDegree(viewerSprite.AngleDegree + (double)fov / 1.8);
if (maximumViewingAngle > minimumViewingAngle)
{
if (angleDegree < minimumViewingAngle)
{
return(false);
}
if (angleDegree > maximumViewingAngle)
{
return(false);
}
}
else
{
if (angleDegree < minimumViewingAngle && angleDegree > maximumViewingAngle)
{
return(false);
}
}
double xMove = Math.Cos(angleRadian) * rayDistanceResolution;
double yMove = Math.Sin(angleRadian) * rayDistanceResolution;
double x = viewerSprite.PositionX;
double y = viewerSprite.PositionY;
double xDistanceToPerform = Math.Abs(viewerSprite.PositionX - viewedSprite.PositionX);
double yDistanceToPerform = Math.Abs(viewerSprite.PositionY - viewedSprite.PositionY);
double xDistance = 0;
double yDistance = 0;
while (true)
{
x += xMove;
y += yMove;
xDistance += Math.Abs(xMove);
yDistance += Math.Abs(yMove);
if (xDistance >= xDistanceToPerform && yDistance >= yDistanceToPerform)
{
return(true);
}
if (map.GetMatterTypeAt(x, y) != null)
{
return(false);
}
if (x < 0 || y < 0 || x > map.Width || y > map.Height)
{
return(false);
}
}
}
/// <summary>
/// Whether sprite 1 is in collision with sprite 2
/// </summary>
/// <param name="sprite1">sprite 1</param>
/// <param name="sprite2">sprite 2</param>
/// <returns>Whether sprite 1 is in collision with sprite 2</returns>
public static bool IsDetectSpriteCollision(AbstractSprite sprite1, AbstractSprite sprite2)
{
return(GetSpriteDistance(sprite1, sprite2) < sprite1.Radius + sprite2.Radius);
}
/// <summary>
/// Make fall sprite
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="timeDelta">time delta</param>
public static void MakeFall(AbstractSprite sprite, double timeDelta)
{
sprite.PositionZ += sprite.CurrentJumpAcceleration / 10 * timeDelta;
sprite.CurrentJumpAcceleration -= 0.1 * timeDelta;
sprite.PositionZ = Math.Max(0, sprite.PositionZ);
}
/// <summary>
/// Whether sprite is in collision with another sprite or the map
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="spritePool">sprite pool</param>
/// <param name="map">map</param>
/// <returns>Whether sprite is in collision with another sprite or the map</returns>
public static bool IsDetectCollision(AbstractSprite sprite, SpritePool spritePool, AbstractMap map)
{
return(IsDetectSpriteCollision(sprite, spritePool) || IsDetectMapCollision(sprite, map));
}
/// <summary>
/// Try make rotate sprite from mouse strength
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="angleRotationStrength">rotation strength</param>
public static void TryMakeRotate(AbstractSprite sprite, short angleRotationStrength)
{
sprite.AngleRadian += ((double)angleRotationStrength / -200);
}
/// <summary>
/// Make walk sprite
/// </summary>
/// <param name="sprite">sprite</param>
/// <param name="spritePool">other sprites</param>
/// <param name="map">map</param>
/// <param name="timeDelta">time delta</param>
public static bool TryMakeWalk(AbstractSprite sprite, SpritePool spritePool, AbstractMap map, double timeDelta)
{
return(TryMakeWalk(sprite, 0, spritePool, map, timeDelta));
}
/// <summary>
/// Returns distance between 2 sprites
/// </summary>
/// <param name="sprite1">sprite 1</param>
/// <param name="sprite2">sprite 2</param>
/// <returns>distance between 2 sprites</returns>
public static double GetSpriteDistance(AbstractSprite sprite1, AbstractSprite sprite2)
{
return(Math.Sqrt(Math.Pow(sprite2.PositionX - sprite1.PositionX, 2) + Math.Pow(sprite2.PositionY - sprite1.PositionY, 2)));
}
/// <summary>
/// Whether prey is withing predator's attack range
/// </summary>
/// <param name="predator">predator sprite</param>
/// <param name="prey">prey sprite</param>
/// <returns>Whether prey is withing predator's attack range</returns>
public static bool IsWithinAttackRange(AbstractHumanoid predator, AbstractSprite prey)
{
return(Physics.GetSpriteDistance(predator, prey) <= GetAttackRange(predator, prey));// predatorAttackRange + prey.Radius;
}
