using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Content;
using Microsoft.Xna.Framework.Graphics;
namespace CarFire
{
/*
///
/// A type for the states of an artificually intelligent entity.
///
public enum AiState
{
Standing,
Pacing,
Chasing,
Dazed,
Fighting,
Retreating
}
*/
///
/// An example monster. This can serve as a starting place for
/// creating other monsters. This one just follows a path.
///
public class SaberMonster : IMonster
{
//starting health
int health = 100;
///
/// Construct this type of monster. This constructor is called
/// by the map when the game requests entities.
///
/// The single character ID.
/// The initial position on the map.
/// More parameters.
/// The game object reference.
public SaberMonster(char identifier, Point position, Dictionary info, Game game)
{
mId = identifier;
mMotion = new MovementManager(position);
mRetryInterval = 2 + (position.X * 25789 + position.Y * 259) % 30;
// We need to keep the game reference in order to get the grid when we
// need to find paths.
mGame = game;
// Get the speed of the monster. If not set in the map, it defaults to
// whatever the default of MovementManager is... 1 I think.
string speedString;
if (info.TryGetValue("speed", out speedString))
{
int? speed = Parse.Integer(speedString);
if (speed != null) mMotion.Speed = speed.Value;
}
// Get the "idle path" coordinates loaded from the map.
string idlePath;
if (info.TryGetValue("path", out idlePath))
{
string[] idlePathPoints = Parse.List(idlePath);
foreach (string pathPoint in idlePathPoints)
{
Point? point = Parse.Coordinates(pathPoint);
if (point != null) mWaypoints.Add(point.Value);
}
}
mPath = new List();
// Start doing something...
StartPacing();
}
public void DefaultAction()
{
}
public void Chasing(Point Chase)
{
}
///
/// Call this to switch the monster AI state to pacing and set up
/// the initial paths. The monster will start following the path it
/// was defined with in the map file.
///
public void StartPacing()
{
if (mWaypoints.Count == 0) return;
mState = AiState.Pacing;
// Determine the best (closest) waypoint to start at.
// We may not be on the path, so we have to walk to get on it.
mWaypointIndex = 0;
int closest = int.MaxValue;
for (int i = 0; i < mWaypoints.Count; i++)
{
int distance = PathFinder.GetManhattanDistance(Coordinates, mWaypoints[i]);
if (distance < closest)
{
mWaypointIndex = i;
closest = distance;
}
}
// Find the path to get to the closest waypoint.
ChartPath();
}
Direction GetDirectionToNextCell()
{
if (mPath != null)
{
if (mPathIndex >= mPath.Count)
{
// We're done with the current path, so find the path to
// the next waypoint... forever.
mWaypointIndex++;
ChartPath();
}
// We need to make sure our direction is set to the next cell
// we want to be. If our current coordinates match that, we need
// to change our direction to get to the next cell.
else if (mPath[mPathIndex] == mMotion.Coordinates)
{
mPathIndex++;
mPathDirection = MovementManager.GetDirection(mMotion.Coordinates, mPath[mPathIndex % mPath.Count]);
}
return mPathDirection;
}
else return Direction.None;
}
void ChartPath()
{
if (mPathSearch == null)
{
Point waypoint = mWaypoints[mWaypointIndex % mWaypoints.Count];
PathFinder pathFinder = new PathFinder(mGame.Grid);
Point? nearby = pathFinder.GetNearbyOpenCell(waypoint);
if (nearby != null) mPathSearch = pathFinder.GetPathAsync(mMotion.Coordinates, nearby.Value);
mPathIndex = 0;
mPath = null;
}
else if (mPathSearch.IsCompleted)
{
mPath = (List)mPathSearch.Path;
mPathSearch = null;
if (mPath != null) mPathDirection = MovementManager.GetDirection(mMotion.Coordinates, mPath[0]);
}
}
#region IMonster Members
///
/// I don't know what this is for.
///
public bool visible
{
get { throw new NotImplementedException(); }
}
#endregion
#region ICharacter Members
///
/// Load the monster's content. This is called by the map when
/// the game requests the entities.
///
/// The zaphnod.
public void LoadContent(ContentManager contentManager)
{
mTexture = contentManager.Load("default");
}
///
/// Update the monster's state. This should be called by the game
/// every "frame" (whenever the game is updating its state). In this
/// simple monster, all we need to do is update the motion manager.
///
///
public void Update(TimeSpan timeSpan)
{
switch (mState)
{
case AiState.Pacing:
Direction direction = GetDirectionToNextCell();
Point destination = MovementManager.GetNeighbor(Coordinates, direction);
if (mGame.IsCellOpen(destination))
{
mMotion.Update(timeSpan, direction);
}
else
{
if (mGame.CurrentFrameNumber % mRetryInterval == 0) ChartPath();
mMotion.Update(timeSpan);
}
break;
case AiState.Standing:
mMotion.Update(timeSpan);
break;
}
}
///
/// Draw the monster. We just ask the map for our screen position,
/// passing it the position which the motion manager keeps track of.
///
/// The
public void Draw(SpriteBatch spriteBatch)
{
Rectangle position = mGame.State.Map.GetRectangleFromCoordinates(mMotion.Position);
spriteBatch.Draw(mTexture, position, Color.White);
}
///
/// A monster should keep track of its health. This one doesn't.
///
public int Health
{
get { return this.health; }
}
///
/// This monster is invincible.
///
///
public void causeDamageTo(int amount)
{
this.health -= amount;
}
public bool IsCollidable { get { return true; } }
///
/// Get the smoothed position.
///
public Vector2 Position { get { return mMotion.Position; } }
///
/// Get the grid coordinates.
///
public Point Coordinates {
get { return mMotion.Coordinates; }
set { mMotion = new MovementManager(value, mMotion.Speed); }
}
///
/// Get the entity identifier.
///
public char Identifier { get { return mId; } }
#endregion
#region Private Variables
Game mGame;
char mId;
MovementManager mMotion;
List mWaypoints = new List(); // List of waypoints that we got from the map.
int mWaypointIndex; // Index to the waypoint we're heading for.
List mPath; // List of cells in the path between the position between where
// we started and the waypoint we're heading for.
int mPathIndex; // Index to the cell we're heading for.
Direction mPathDirection; // The direction between our current position and the place we're going.
int mRetryInterval;
PathFinder.AsyncTask mPathSearch; // If a path search is in progress, this is the task object.
AiState mState; // What is the monster doing?
Texture2D mTexture; // Obvious.
#endregion
}
}