I have a Breakout game in which, at some point, I detect the collision between the ball and the paddle with something like this:
// Ball class
rectangle.Intersects(paddle.Rectangle);
Is there any way I can get the exact coordinates of the collision, or any details about it, with the current XNA API?
I thought of doing some basic calculations, such as comparing the exact coordinates of each object on the moment of the collision. It would look something like this:
// Ball class
if((rectangle.X - paddle.Rectangle.X) < (paddle.Rectangle.Width / 2))
// Collision happened on the left side
else
// Collision happened on the right side
But I'm not sure this is the correct way to do it.
Do you guys have any tips on maybe an engine I might have to use to achieve that? Or even good coding practices using this method?
I've found at http://msdn.microsoft.com/en-us/library/microsoft.xna.framework.rectangle.intersect.aspx
that there are two similar static methods (they differ on the way the value is returned) which as a result give You the intersection which also is a rectangle. This should be enough to do what You want.
Related
I have searched the net and best possible way I found is this:
Transform GetClosestEnemy(Transform[] objects)
{
Transform BestTarget = null;
float ClosestDistance = float.MaxValue;
Vector3 currentPosition = transform.position;
foreach (Transform CurrentObject in objects)
{
Vector3 DifferenceToTarget = CurrentObject.position - currentPosition;
float DistanceToTarget = DifferenceToTarget.sqrMagnitude;
if (DistanceToTarget < ClosestDistance)
{
ClosestDistance = DistanceToTarget;
BestTarget = CurrentObject;
}
}
return BestTarget;
}
This seems the best way but my real question is, can I use Physics.SphereCast , OnCollisionStay or something to feed this function? I feel like they will be more expensive than just going through all of the possible objects. Is it true? How do these functions actually work?
The function is indeed very well written and optimized. However using Physics.SphereCast and OnCollisionStay to feed it would be nonsensical.
Physics.SphereCast is essentially a "thick" and more expensive raycast. It can tell you if an object with a collider is on its path, with a bit more detailed information about the first collider that was hit. Obviously finding the closest object if you only have one undermines needing an algorithm. If your underlying problem was to find the closest object in a particular direction it could solve it on its own.
There is a related function called Physics.SphereCastAll, which could make a bit more sense, since that one returns all objects in the path of the cast, but your question would have to be something along the line of "which object is closest to this unrelated point among all the objects in front this other point".
OnCollisionStay is individually called every physics timestep for every object with a collider and rigidbody that is in contact with the collider. It's no good for area selection, since it will actively push out all objects inside. You might have meant OnTriggerStay, which does work for an area, but is still not fitting for the problem. The nature of this method would require a bunch of memory to save what objects are in and a chunk of processing power since all that would be done every physics time step (0.03s by default), which is why I wouldn't even consider it. Personally I don't think it is even possible to solve your problem with OnCollisionStay, I would use a combination of OnCollisionEnter and OnCollisionExit if someone insisted on using triggers.
In my opinion the function that makes most sense is Physics.OverlapSphere. It returns an array of colliders within a specified radius. It could basically perform a physics based "prefiltering" so objects at the other end of the scene aren't even considered.
The following code shows an example on how you could use Physics.OverlapSphere to get a set of objects, convert them to transforms, pass them to your function and print the result.
Collider[] hitCollider = Physics.Overlaobjsphere(center, radius);
Transform[] objs = new Transform[hitCollider.Length];
for(int i=0; i<hitCollider.Length; i++){
objs[i] = hitCollider[i].transform;
}
Debug.Log(GetClosestEnemy(objs));
A small quirk is that Physics.OverlapSphere returns the Colliders and any given GameObject can have multiples of those. That means that we might be calculating the same object several times. In this case it is acceptable, since filtering them out will take more processing power than just running them thru another time.
The people that made the physics engine worked hard to optimize it. Nevertheless it can be expensive to involve physics. For example if you are going to check the same five objects over and over again doing a sphere overlap might not make sense. On the other hand if the objects of interest are instantiated and deleted all the time it might be unavoidable to use Physics to even gather a set to check against. For the average user these optimization considerations are unnecessary. Modern hardware usually has enough computational power. Never the less if you are curious you can always program a benchmark, repeating the algorithm a million times and measuring the time that it took using a Stopwatch.
I am currently writing a Minecraft clone in Unity as my pet project, and I'm trying to implement raycasts for it, so that I can know which block the player looks at (I will use raycasts for other purposes too). The world of the game is a 3D grid of perfect unit cubes. Each element of a grid is either solid or not. I want to be able to shoot a ray from any point of my world and get the point where that ray hits the surface of a first solid block in it's way.
Here's a c# pseudocode of what my game aproximately looks like:
// An aproximation of what Unity's Vector3 looks like.
public struct Vector3
{
public float x, y, z;
}
public class World
{
public bool[,,] blocks;
public bool IsSolid(Vector3 pos) // i.e. if pos is inside a solid block
{
return blocks[Math.Floor(pos.x), Math.Floor(pos.y), Math.Floor(pos.z)]
}
public Vector3 Raycast(Vector3 origin, Vector3 direction)
{
// some algorithm, that returns the point at which ray hits a solid block
}
}
Note, that coordintaes of any Vector3 may not be whole nubers, it is entirely possible for rays to start (or end) at fractional coordinates. For simplicity you may (or may not) assume that world is infinite and a ray will always hit some block eventually. Remeber, that Raycast() should return the point at which the ray hits the surface of a cube.
What is the best algorithm I can use for this?
My priorities (in order) are:
Speed - making a raycast should be fast
Elegance - the algorithm should reasonably straightforward and concise
Generality - the algorithm should be easy to modify (i.e. add some extra functionality to it.)
Here's a Q/A for some possible questions:
Q: Why not use Unity's native colliders and raycasts?
A: Unity's colliders and raycast are too slow and aren't optimized for my needs, furthermore, that is by no means elegant of generic.
Q: Do you want an implementation of an algorithm or just the basic concept?
A: I'm fine with just understanding the basis of an aglorithm, but I would really apreciate an implementaion (preferably in C#).
Here are some basic principles. You will need to be fairly comfortable with linear algebra to even attempt this, and read and understand how ray-plane intersection works.
Your ray will start inside a cube, and it will hit one of the 6 faces on its way out of the cube. In normal cases we can quickly eliminate three of the faces by just checking if the ray direction points in the same direction as the cube-face. This is done by checking the sign of the dot product between the vectors. To find the first hit of the three remaining faces we do an intersection test to the corresponding plane, and pick the closest one, if you know the hit face you know what cube it hit. If that cube is empty you repeat the process until you find a non-empty cube. You may also add some checks to avoid edge cases, like eliminating all planes that are parallel to your ray as early as possible.
However, to get any real speed you really need some kind of tree structure to reduce the number of checks done. There are many alternatives, kd-trees, r-trees etc, but in this specific case I would probably consider a sparse octree. This means your cubes will be part of larger 2x2x2 sections, where the whole section can be tagged as empty, filled, partial filled etc. These sections will also be grouped into larger 2x2x2 sections and so on, until you hit some max size that either contains your entire play area, or one independently loadable unit of your play area, and have some logic to test multiple units if needed.
Raycasting is done more or less the same way with a octree as in the simple case, except you now have variable sized cubes. And when you hit a face you need to traverse the tree to find the next cube to test.
But to actually make a well optimized implementation of this requires quite a bit of experience, both in the concepts involved, and in the language and hardware. You may also need insight in the structure of your actual game-world, since there might be non obvious shortcuts you can take that significantly help speedup performance. So it is not guaranteed that your implementation will be faster than unitys built in.
I am an inexperienced programmer, I am looking for advice on a new unity project:
I need to generate terrain for a 3d game from fairly large tiles. For now I only need one type of tile, but I was thinking, I better set up a registry system now and dynamically generate that default tile in an infinite grid. I have a few concerns though, like will the objects continue to load as the character moves into the render distance of a new tile (or chunk if you rather). Also, all the tutorials I have found are wrong for me in some way, like it only works in 2d and doesn't have collision, or is just a static registry and does not allow for changing the content of the tiles in-game.
Right now I don't even know what the code looks like to place a 3d object in the scene without building them from vectors, which maybe I could do. I also don't know how I would want to trigger the code.
Could someone give me an idea of what the code would look like / terminology to look up / a tutorial that gives me what I need?
This looks like a pretty big scope for a new programmer but lets give it a shot. Generating terrain will be a large learning experience when it comes to performance and optimization when you don't know what you're doing.
First off, you'll probably want to make a script that acts as a controller for generating your objects and put this inside of the player. I would start by only making a small area, or one chunk, generate and then move on to making multiple chunks generate when you understand what you're doing. To 'place' an object in your scene you will want to make an instance of the object. I'd start by trying to make your grid of objects, this can be done pretty easily on initialization (Start() function) through a for loop, for testing purposes. IE, if you are trying to make 16x16 squares like minecraft; have a for loop that runs 16 times (For the x) and a for loop inside of that to run 16 times (for the z). That way you can make a complete square of, in this case, cubes. Here is some very untested code just to give you an example of what I'm talking about.
public GameObject cube; //Cube you want to make a copy of, this will appear in the editor
void Start(){
for(var x=0; x < 16; x++){
for(var z=0; z < 16; z++){
GameObject newCube = Instantiate(cube); //Creates an instance of the 'cube' object, think of this like a copy.
newCube.transform.position = new Vector3(x, 0, z); //Places the cube on the x and z which is updated in the for loops
}
}
}
Now where you go from here will be very different depending on what you're trying to do exactly but you can start by looking into perlin noise to add in a randomized y level that looks good. It's very easy to use once you grasp the general concept and this example I provided should help you understand how to use it. They even give good examples of how to use this on the Unity docs.
In all, programming is all about learning. You'll have to learn how to only take the parts of resources that you need for what you're trying to create. I think what I provided you should give you a good start on what you want to create but it will take a deeper understanding to carry things out on your own. Just test different things and truly try and understand how they work and you'll be able to implement parts of them into your own project.
I hope this helps, good luck!
Let's say I want to replicate Planeshifting from Legacy of Kain: Soul Reaver in Unity.
There are 2 realms: Spectral realm and Material realm.
The Spectral realm is based on the Material realm, only has the geometry distorted and certain objects fade out/become non-interactive.
In Soul Reaver, it is used as means to go to areas where you normally wouldn't be able to in Material (distorting geometry), to use other powers (such as going through grates).
My question is: Is it even possible at all to implement this in Unity 3D? (I would need the Scene(level) or the objects to have 2 states somehow that I could switch beetween/distort to real-time.)
I would call this a rather advanced topic and there are multiple ways of accomplishing a at least similar effect.
But to answer your actual question straight away - Yes it is possible.
And here are some approaches i would take (i guess that would be your next question ;))
The easiest way is obviously having game object which have their collider and renderer disabled (or the whole object) when "changing
realms". But this for sure isn't the best-looking way of doing it,
even tho a lot of motion blur or other image effect could help.
(Depending on what shaders you use, animating the alpha value can
create a fading effect as well)
The more advanced way would be the actual manipulation of vertices (changing the object). There are quite a few tutorials on
how to change the geometry of object. Take a look at Mesh() in the
official documentation:
http://docs.unity3d.com/ScriptReference/Mesh.html
A class that allows creating or modifying meshes from scripts.
Another way (didn't try) thats rather easy would be using shape keys. I don't know which Software you use to create your
world/models but blender has this function which allows you to define
a base shape, then edit the verticies in blender and save it as a
second (or more) shapes. Unity can blend smoothly between those
shapes as being shown in this video:
https://www.youtube.com/watch?v=6vvNV1VeXhk
Yes it will be possible in Unity3D, but your question is quite general. You could try something like having 2 models per GameObject (perhaps as children or fields on the script) and disabling 1 of them depending on which realm the player is in. You could have 2 scenes for each level and switch between them, though that might be too slow. You could see if there are any plugins/assets that allow you to define 2 models and morph between them. There are probably a number of other routes you could take, but I can't really help more until you've chosen a path.
I have been developing a game in my spare time for the past few months. One sticking point that I have reimplemented over and over and not got 100% working is the collision detection. My system (posted below) mostly works however random things seem to happen from time to time, like the player being pushed outside the bounds of the level etc. Tutorials on the matter I have come across seem to offer basic workings, i.e, you have to know an object will be in relation to the object in question, but in a real game you wouldn't really know this. Here is my implementation but what I am after is if anyone knows of a good solid system for achieving what I am doing here.
Note that item comes from a collection of IItem which exposes the Rectangle and a few other bits for each item.
public void Move(float xAdditional, float yAdditional)
{
X += xAdditional;
Y += yAdditional;
foreach (var item in Level.Items)
{
if (item != this)
{
if (item.Boundary.Intersects(this.Boundary))
{
if (item.Boundary.Top > this.Boundary.Top) //we have collided with an object below us.
{
Y = item.Boundary.Top - (this.Boundary.Height/2);
}
if(item.Boundary.Bottom < this.Boundary.Bottom)//we have collided with an object above us.
{
Y = item.Boundary.Bottom + (this.Boundary.Height/2);
}
if(item.Boundary.Left > this.Boundary.Left) //We have collided with an object to the right.
{
X = item.Boundary.Left - (this.Boundary.Width/2);
}
if(item.Boundary.Right < this.Boundary.Right)// We have collided with an object to the left;
{
X = item.Boundary.Right + (this.Boundary.Width/2);
}
}
}
}
}
The final solution was to drop my own solution and implement Farseer.
Thanks
After some time with it I then opted for physics2d.net which I have found much more usable from a developers point of view.
First of all, Collision Detection depends heavily on the object geometry.
There are multiple proven to work solutions cast into linear algebra math,
but they are dependent on the geometries you try to use. Rather than
implementing an algorithm using your object's properties try to implement a mathematic equation directly and then use the result to determine if your collision happened or not. (like using vectors t = a-b, if |t|>0 collision, else not).
If you have a simple geometry like rectangles or circles you should take a
look into 'Mathematics for 3d game programming & computer graphics' by Eric
Lengyel.
Also keep in mind that you can achieve collision detection with other methods
like sprite collision. Another possibility is to use a higher level framework
doing this work for you (e.g. OSG)