Unity 5 Network Tutorial Part 4 – Team Colours and Shooting

Welcome to part four of my Unity 5 basic network game tutorial, in this part we will cover automatically assigning players a team number and colour, and also give them the ability to fire a laser.

If you have been following this tutorial up until now, please note that I omitted a line of code from the OnPlayerIDChanged function of the NetworkPlayer script. I’ve updated that now, with an explanation of the what the extra statement does, so you may want to go back and check it out.
For convenience here is the updated OnPlayerIDChanged function.

Part 4a – Basic team manager

To handle assigning player colours and team names, we’ll create a basic team manager for the game. As with most aspects of this tutorial, I’m going to keep it simple, so the implementation of the team manager doesn’t dwarf the networking concepts I’m trying to demonstrate.

To start with open the Offline scene, create an empty GameObject and rename it TeamManager. Then make a new folder in Assets and call it Teams. Create a new script in the Teams folder, rename it TeamManager and drag the new script onto the TeamManager game object in the hierarchy.
Open up the TeamManager script for editing and replace the default code with the following:-

The awake function handles the task of making sure there can ever only be once instance of the TeamManager.

The function we are really interested in is the SetPlayerTeam function, we will call this every time a new player joins, and pass it a reference to the new player game object.
We then get a reference to the NetworkPlayer component on player game object and set the public teamNumber based on the value of TeamManager.playerCount variable.
Then we increment the value of playerCount, so the next player to connect will be on another team.

Also note the use of the [Server] attribute on the SetPlayerTeam function. What this does is ensure that this code will only run on the server, and will generate a warning if we try to run it on a client. As this function makes changes to player objects it has to run on the server.

So far so good, but at this moment we don’t actually have a teamNumber variable on our NetworkPlayer script, so we need to make that now, and as you’ve probably already guessed this will be a syncvar with a hook function.

So we need to make a few small additions to our networkPlayer script. Open it in your editor by double clicking the NetworkPlayer script in the Assets/Player folder and add the following line beneath the playerID variable:-

[SyncVar(hook = “OnTeamChanged”)] public int teamNumber;

This is where we store our team number for this player, and we will use the hook function to update the appearance of our player depending on what team he is allocated.

Now add the function that we will use to tell the server to change the value of this variable.

Next add this line to the end of the OnStartLocalPlayer function

    CmdSetTeam(gameObject);

And add this line to the end of the OnStartClient function

    OnTeamChanged(teamNumber);

Finally add the hook function

What this does is firstly store the new teamNumber value in our copy of the variable and then it sets our player material colour to either red or blue, depending on the value of teamNumber.

That’s all there is to it, when a player joins the game, it calls the CmdSetTeam function which in turn  calls TeamManager.SetPlayerTeam on the server, which as previously explained allocates a team, so players will be alternately assigned to team zero or one (red or blue) as they join the game.

The OnstartClient function makes sure that other players already in the game are correctly updated in your copy of the scene.

Like I said this isn’t a robust example of a team manager, and won’t guarantee balanced team sizes, but for the purposes of this tutorial it is sufficient to illustrate the basic idea.

This is the full NetworkPlayer script with all the above changes incorporated:-

Once you have incorporated all the above changes, save the script and build and run the game and you will see that the first player to connect changes to red, and the second player is blue, subsequent players connection will alternate between the two colours.

Part 4b – Shooting

Now we’ll give the players the ability to fire a laser (I’ll cover bullet projectiles in a later tutorial).

So the first thing we need to do is prepare our player prefab for this. Begin by dragging the player prefab into the Hierarchy and then with it selected add an empty GameObject as a child (GameObject->Create Empty Child) and rename it Laser.
Select the Laser game object and add a LineRenderer component (Component->Effects->LineRenderer) then  expand the Materials, Positions and Parameters sections, by clicking the small triangle to the left of their headings.
Next, change the following properties on the LineRenderer

  • Transform.Position = 0,0,0.51
  • Positions->Element 1 = 0,0,10
  • Start Width = 0.1
  • End Width = 0
  • Start Colour = Yellow
  • End Colour = Red
  • Use World Space = false (unticked)

Then click the small circle to the right of the Element 0 property in Materials, and in the material selector dialog that opens, double click the Sprites-Default material to select it and dismiss the dialog.

Apply the changes to your player prefab, and it should look like this:-

So now we have a laser, we need a way to use it. In the Assets->Player folder, create a new script and call it PlayerShoot. Open it in your editor and replace the default code with the following and save it:-

Drag the saved PlayerShoot script onto your Player prefab in the hierarchy to add it as a component. Now apply the changes to the player prefab and you can delete it from the Hierarchy.

I’ll explain the important bits of this script.

OnStartClient()
In this we get and store a reference to the line renderer, then disable the line renderer so that it isn’t visible as soon as we start, and finally disable the script, which will have the effect of disabling the script for all clients when they join the game.

OnStartLocalPlayer()
In this function, all we do is re-enable the script for the local player, this means that our player object will be the only player object in the scene that has this script running. Otherwise we would have multiple player objects firing when we pressed the fire button, instead of just our own.

Update()
In the update function, we check to see if the fire button was pressed, and also if we are ready to fire again, and if so we call the Fire function.

Fire()
We do two things in this function, firstly we start the ShowLaser coroutine to display the laser effect on our own PC.
We do that here so that the laser is displayed instantly rather than waiting for a response from the server, which otherwise could give the game a ‘laggy’ feel.
However, we also need to tell all the other clients to display the laser fire on their instance of our player object, so that they too can see we fired our laser.
This is where an RPC (Remote Procedure Call) comes in handy, an RPC is a way to run a function or method on a remote PC. But only the server can issue RPC calls so we can’t call it directly, we need to do it via a Cmd function.

So we use the CmdShowLaser function to call the RpcShowLaser function, and this latter function is then executed on all connected client PCs.

In the RpcShowLaser function, the first thing we need to do is determine if this is running on our local player object or the player object belonging to another client.

Basically, if isLocalPlayer is true, that means we fired our laser, and as we have already displayed the laser effect on our PC during the Fire() function, we don’t need to do it again and can just exit the function.
However if isLocalPlayer is false, then that means that someone else fired their laser, and they are telling us that we need to display the laser effect on our copy of their player object, so we start the ShowLaser coroutine.

ShowLaser()
All this does is enable the Laser LineRenderer for 1/10th of a second and then disables it again.

Lastly the CanFire() function just adds a little delay to how often we can fire.

With this script on the player object and the player prefab saved, if you then build and run the game you will see a brief laser flash in front of the player when you press the left mouse button.

Sadly at the moment this laser is completely ineffective as a weapon, so in the next part of the tutorial we’ll add player health and damage.

See you next time.

Unity 5 Network Tutorial Part 3 – Camera control and name labels

Welcome to part 3 of my Unity 5 networking tutorial.

In this part we will give the players their own name and name tag, and we’ll make the camera follow the player that you are controlling.

Part 3a – Synchronizing the PlayerID

To keep things simple we are going to automatically generate a unique name for each player that joins the game, rather than let the user specify one. So first of all we need to decide on a way to obtain a unique identifier for each player.
Luckily the Unity networking system provides us with an easy way to do this, by virtue of the NetworkIdentity.netId. Every networked GameObject is allocated a netID number by the networking system, which is used by Unity to keep a track of that object, and as the netId is unique for every gameObject we can make use of that.

So with that in mind create a new script in the Assets/Player folder and name it NetworkPlayer. Double click the new script to open it in MonoDevelop (or whichever editor you use) and replace the default code with the following code.

The job of this script is to detect when the player joins the game, and then generate and store a unique name for said player.

First of all, note that like the PlayerNetworkMove script we wrote in part 2, this is also a NetworkBehaviour, rather than a MonoBehaviour.

Then, next we have

[SyncVarpublic string playerID;

Basically this is a variable like any other, except that it has a [SyncVar] attribute (Synchronized Variable). What this attribute does is make sure that any time the variable’s value is changed, the new value is automatically sent to all connected players. Furthermore, whenever a new player joins, they receive the current value of that variable for all the other players already in the game.
In this case, we are going to use this variable to store the unique player name we generate later in the script, and as mentioned this will be automatically synchronized with all the other players so they will be able to see our name.

Let’s look at the next bit now, the CmdSetPlayer method.

[Command]
void CmdSetPlayerID(string newID)
{
     playerID = newID;
}

If you remember in Part 2 of the tutorial I mentioned that only the server can make changes to networked objects, well, this is a case in point, we want to be able to change the playerID, so we need a way for the server to change it for us. In order to do this, we need to create a method that updates playerID and give it an attribute, the [Command] attribute. Essentially what this does is make sure the following function will only be run on the server. We also need to follow a specific naming convention for a server command, specifically it has to start with Cmd.

In this example, all the CmdSetPlayer method does is set the playerID value to the value of the newID argument, and because of the [Command] attribute this can only run on the server. Once the value of the variable has been changed, the [Syncvar] attribute of the variable means that the new value will propagate to all connected clients.

So now we come to the final part of the script.

public override void OnStartLocalPlayer ()
{
    string myPlayerID = string.Format(“Player {0}”, GetComponent<NetworkIdentity>().netId.Value)
   
CmdSetPlayerID(myPlayerID);
}

This function is called on network player objects (but only on the client that owns the player), when they join the game. What this means is, that when you join the game, the OnStartLocalPlayer function will run on your player game object on your PC, but not on the game object representing your player on anyone else’s PC.
First of all it retrieves the player’s netId, which is a uInt value, and constructs a string in the format ‘Player n’ (where n is the netId value).
Then it calls the CmdSetPlayerID method, passing in the new playerID, which instructs the server to change the value, this new value is then sent to all connected clients (including the one that made the call) and their copy of playerID is updated with the new value.

Add this script to the player prefab in the Assets/Player folder, by dragging it onto the prefab, or using the Component menu (Component->Scripts->NetworkPlayer) and then save the scene.

If you build and run the game now and run one instance in the Editor and one instance in standalone, windowed mode, you will be able to see this working.
With a host running and a client connected you can check the player(clone) game objects in the inspector, and you will see that the exposed playerID syncvar has a different value for each player.

PlayerIDSyncvar

 

So far, so good, but what we actually want is for the playerID to be displayed in the game, so that ourselves and other players can see it. However, before we do that I want to deal with the camera, and make it so that it follows your player as you move, we’ll come back to the playerID label afterwards.

 

Part 3b – Setting up the camera

The first step in setting up the camera is to load the Online scene, this is important, because if you do the following steps with the Offline scene loaded you’ll end up with no camera on the menu and two cameras in the game scene.

So, with the Online scene loaded, drag the player prefab from the Assets/Player folder into the Hierarchy window, to create an instance of it in the scene. Then we need to drag the Main Camera game object onto the player game object you just created, so that the camera becomes a child of the player, and make sure its transform settings are set to Position (0,10,0) and Rotation (90,0,0) like so:-

PlayerCamera

 

Once these changes have been made, we need to click the Apply button on our player game object in the hierarchy, to save the changes to the prefab.

PrefabApply

Once the changes have been applied go ahead and delete the player game object from the hierarchy. You will notice in the Game window there is a message saying that the scene is missing a fullscreen camera, you can safely ignore this for our purposes.

One further change I’d like to make, is to add a texture to the ground material we made in part 2, as this will make it easier to see that the players are moving, compared to how it would be with a featureless brown ground surface. So to do this, firstly create a new folder in Assets and call it Textures. Then download this texture (Click on the picture or the link below it to open it in your browser, then right click and select Save Picture As…)groundTexture

http://www.doofah.com/tutorials/wp-content/uploads/2016/02/groundTexture.png

Once you have saved the texture to your PC, copy it into the textures folder you just made. You can also, if you wish, use instead any suitable texture you may already have.

Next, select the GroundMaterial in the Assets/Materials folder, and click the small circle just to the left of the word Albedo in the inspector.
This will open the Select Texture dialog… MaterialAlbedo

…within which you should see the groundTexture you just downloaded. Double click the groundTexture to apply it to the material and dismiss the dialog.
Then set the albedo colour to white and lastly set the X and Y tiling values for the Main Map both to 5, so the texture isn’t stretched quite so much. Your Ground Material should look like this now…

… and your ground plane should have a nice tiled texture on it.

Now, save the scene and re-open the Offline scene.

If you build and run the game, and start a server and client, you’ll notice that there is some strange behaviour; Namely on one client the camera doesn’t move when you move the player, but if you move the other player, the camera moves in both clients. This is because both player objects in the game have their own camera and they are fighting for control. We can however, fix this with a small change to the NetworkPlayer script.

So to fix the camera problem, open the player script in MonoDevelop and just below the playerID variable add a private variable of type Camera and call it playerCam and below that add an Awake function like this :-

Camera playerCam;

void Awake()
{
    playerCam = GetComponentInChildren<Camera>();
    playerCam.gameObject.SetActive(false);
}

What this does, is as soon as any player object is created (local player or otherwise), it gets a reference to the attached camera and then disables it, which is ideal for player objects that belong to other players, but not so good for our own player, on our own player we want the camera to be enabled. To manage this we can make use of the OnStartLocalPlayer function again by the addition of the following line

playerCam.gameObject.SetActive(true);

which is just the opposite to what we did in the Awake function, and re-enables the camera, but because we are doing it in the OnStartLocalPlayer function, it only happens for the player object we are controlling. So the overall effect is that the only camera that is enabled is the one that is on the player object we are controlling. Also a side effect of disabling the Camera GameObject rather than just the Camera component, is that we don’t need to specifically disable the associated AudioListener as it is automatically disabled along with the camera.

This is the entire NetworkPlayer script as it should now look.

If you build and run the game now, you will see that the camera now works as it should, i.e. it only follows the local player as it moves. Now we have the camera working how we want, it’s time to sort out the playerID label as previously promised.

 

Part 3c – Add The Player ID label

What we’d like is a label that displays every player’s unique playerID and one way to achieve this is to use a TextMesh component.

So first off, drag the player prefab into the hierarchy to create an instance of it. Create a new empty game object (GameObject->Create Empty), rename it LabelHolder, drag it onto the player game object to parent it to the player game object and make sure its position is set to 0,0,0 and it’s rotation is set to 0,0,0.

Then create another empty GameObject and rename it Label,  then drag this onto the LabelHolder  gameobject to parent it to the LabelHolder . Next ,select the Label game object and add a TextMesh component (Component->Mesh->Text Mesh).

Your player should now look like this :-

PlayerHierarchy

Now we need to change some of the default properties of the TextMesh we just added, so with the Label game object selected,
Set the Position to 0,0,1
Set the Rotation to 90,0,0
Set the Text Mesh Text property to “Player ID”
Set the Character Size to 0.2
Set the Anchor to Middle center
Set the Font Size to 24

Then select the player game object and click apply to save the changes to the player prefab.

Once you’ve done all that your player label should look like this in the inspector. (Note that when the prefab was saved the rotation.x was subject to some floating point rounding error, so isn’t exactly 90 any more).

TextMesh
Having saved the changes to the player prefab you can now go ahead and delete the player object in the hierarchy window.

If you build and run the game, you should see that each player has a name tag above them with the default text “Player ID”. So all we need to do now is make it show the correct playerID and also tidy up the way the labels are rotated for other players that you can see.

The easiest way to stop the player labels from rotating as the players move around, is to stop both the camera and the labels from rotating at all, and we can do that in the NetworkPlayer script.

Open up the NetworkPlayer script for editing, and add the following under the playerCam variable, this gives us somewhere to store a reference to the label holder.

    Transform labelHolder;

Then add the following line to the Awake function, this gets a reference to the label holder that we can use later.

    labelHolder = transform.Find(“LabelHolder”);

Finally add an Update function to the script as so

    void Update()
    {
        if(isLocalPlayer)
        {
            playerCam.transform.rotation = Quaternion.Euler(new Vector3(90,0,0));
        }

        labelHolder.rotation = Quaternion.identity;
}

The update function first does a check to see if it’s running on the local client, and if it is it resets the rotation of the camera, (we are only interested in our own camera).

Then for all player objects in the scene it sets the label holder rotation to zero.

The net effect of this is that regardless of how the players move and rotate, all the labels will stay in place above the player, which makes it much easier to read them.

This is the new version of the NetworkPlayer script with all the above changes included.

Part 3d – Setting the name label text

Now we come to the final bit of this part of the tutorial, setting the label text to match the playerID.

We already know that the playerID is set when the player joins the game and that the value is synchronized to all players, however we then need a way for each player object to update the state of its components (in this case the TextMesh.text property) to reflect the change in the playerID variable. We can achieve this in one of two ways, either by using RPCs (Remote Procedure Calls) or by using a syncvar hook function, and for this task we’ll go with the hook function. I’ll cover RPCs later in the tutorial series.

Basically a syncvar hook function is a function that is automatically invoked on all clients whenever the associated variable is changed, and then we can make changes to the clients game object based on the value of the variable, in this case we will set the TextMesh to show the new name.

To set up our playerID syncvar to use a hook we first need to create the function that it will call when the variable value changes, like so :-

    void OnPlayerIDChanged(string newValue)
    {
        playerID = newValue;
        var textMesh = labelHolder.Find(“Label”).GetComponent<TextMesh>();
        textMesh.text = newValue;
    }

As you can see this is quite a simple function, its task is to locate the TextMesh component on the player object and then set its text to the new value passed into the function.
Also note that  the first statement assigns the new value to the playerID variable. if this step is omitted when using hook functions,  then when a player joins a game his copy of remote clients won’t have their version of that syncvar updated, which could lead to problems later on.

Now if you build the game and run a host in the editor you will see that your player’s name label is set to ‘Player 1’, and then if you run another instance of the game and join as a client, in the editor the 2nd player has the name ‘Player 2’. So that’s all as expected, the SyncVar has sent the new value of the second player’s playerID to the first player and both player objects have updated their labels.

But wait! If you check the player objects on the client instance, the player you control has the label ‘Player 2’, but the other one still has the default ‘Player ID’ text, so the hook function hasn’t been called for any player objects that were already in the game when you joined.

On the face of it, this looks like a bug, however Unity have confirmed that it is intended behaviour as explained by seanr on the Unity forums, much more concisely than I could

SyncVar Hooks are for changes in state, not for initial state. There is the OnStartClient callback for handling initial state.

There is no context during a SyncVar hook, so if they were called for initial state, the client would not be able to tell the difference between initialization of a variable and a change in the value of a variable. This causes un-expected results.

For example, for a “[SyncVar] int health” with a SyncVar hook that causes a client-side “blood-spurt” effect when the object takes damage, the object would play the blood-spurt for any objects with non-maximum health when joining a game in progress. The hook would be called with the new health value, which is different from the default health value, so the object thinks it has taken damage – so it plays its blood-spurt. But this is not what should happen. Setting the initial health of the object to its current value from the server should NOT play the effect.

This applies to all kinds of state changes, such as animation state, particles, etc. Initialization is different from incremental changes and the client-side code needs to know which is happening.

So with that in mind we need to add one more simple function to the NetworkPlayer script to override OnStartClient as follows :-

    public override void OnStartClient ()
    {
        OnPlayerIDChanged(playerID);
    }

And that’s it, all this does is pass current value of playerID to the OnPlayerIDChanged function, so that it can update the text on the TextMesh. The values of SyncVars on objects are guaranteed to be initialized correctly with the latest state from the server when this function is called on the client.

This is the full version of the NetworkPlayer script as it stands

If you save this and then build and run the game you should see that the labels are displayed correctly for all players on all clients and they stay horizontal above the player, no matter how it moves and rotates.

 

That’s it for part 3 of the tutorial  – in the next part we will cover setting up team colors for the players and shooting.

Unity 5 Network Tutorial Part 2 – Online scene setup and player movement

Welcome to part 2 of my Unity 5 basic network game tutorial. In this part we will set up the online scene, handle spawning the players in differing locations, and enable moving them based on player input.

Part 2a – Online scene setup

Before we start on the player movement it will be a good idea to re-design the Online scene so that we have a (very) basic game arena in which our players can do battle. Feel free to embellish this scene as you see fit to make it more interesting.

Go ahead and load the Online scene (double click Online Scene in the Assets\Scenes folder) and save any changes to the existing scene if prompted.

With the Online scene loaded let’s make the ground. Create a plane (GameObject->3D Object->Plane) and rename it Ground, then set it’s transform settings to these values:-

Next, let’s give our ground a bit of colour.

  • Create a new folder in your assets folder and name it Materials.
  • Double click the new folder to open it, and right click in the empty window, then from the popup menu select (Create->Material) and rename the new material GroundMaterial.
  • With the Ground material selected, in the inspector click on the colour selector to the right of the Albedo setting and change it’s colour. I went with a nice brown colour (RGB value 122,78,0).
  • Lastly, left click and drag the Ground material from the Project Window onto the Ground plane in the scene view, and you should see your new colour applied to the ground.

Now we should sort out the camera. This is going to be a top down game, so for the time being let’s move the camera into a position that better suits this (eventually the camera will be attached to the player object). With the Main Camera selected change it’s transform settings to the following:-

CameraTransform

The final thing for our game scene is to create a couple of spawn locations for our players (you can in fact make as many of these as you like). Add an empty GameObject to your scene (GameObject->Create Empty) and rename it SpawnPoint. Now add a NetworkStartPosition component to it (Component->Network->NetworkStartPosition) and set its transform settings as follows:-

SpawnPoint

Now make a duplicate of this SpawnPoint and set its transform settings as follows:-

SpawnPoint2

The network manager will use these GameObjects to set the spawn position for players when they join the game.

Your Online Scene hierarchy should look like this now:-

OnlineSceneHierarchy

At this point it’s probably a good idea to save the scene (File->Save Scene) to avoid the risk of losing all our hard work so far.

If you switch back to the Offline scene, run the game and start a host, you will see a much more obvious scene change now.

While we are at it we can make one more small change to the NetworkManager. Under Spawn Info change Player Spawn Method to Round Robin. This means that players will be spawned at consecutive spawn points rather than randomly chosen ones.

Part 2b – Player movement

Now we’ve come to the part where it gets a bit more interesting and we even need to write a bit of code! But before we do that let’s first stop to talk about a bit about how the Unity networking system works.

The Unity networking system introduced in Unity 5 (often referred to as UNET), is what’s known as a server authoritative system, which simply put means that only the server PC can make changes to networked game objects, and it then propagates those changes to all connected clients.

To give an example, if a player picks up a health pack, it sends a command to the server telling it so, and then the server can update the health (by an amount decided on the server) for that player object, on all connected clients. This prevents possible cheating, because if the client was allowed to update it’s own health it could, in the hands of an unscrupulous player, be made to add more health than it should. By having only the server handle this sort of thing it makes the game far less prone to cheating.

Hopefully that all makes some kind of sense! But in any event it leads me onto a change we want to make to our player object. With the system as I have just described it, if we want to move our player, we would have to send the new position to the server and then wait for it to send back an update before our player would actually move.
Therefore, you would be in a situation where you pressed a movement key and your player didn’t respond instantly, this can make the game feel very laggy, with anything but the lowest of latency. So ideally we would like to be able to update our position ourselves so we get instant visual feedback, and then have our new position sent to all the other players.
This is where the LocalPlayerAuthority setting of the NetworkIdentity component comes into play. By setting this to true, we can make changes to our own player without having to wait for the server to do it for us.

So before we do anything else let’s sort that out. Select your player prefab (in the Assets/Player folder) and in the inspector tick the LocalPlayerAuthority box.

LocalPlayerAuthority

Next, with your player prefab still selected, add a RigidBody component (Component->Physics->RigidBody). untick Use Gravity and set Constraints as follows:-

Now we need to add to the player a network component that will do the work of synchronizing our player’s position and rotation across the network. So with the player prefab selected, add a NetworkTransform component (Component->Network->NetworkTransform).

We need to check that the Transform Sync Mode is set to Sync RigidBody 3D, and we need to change the Rotation Axis to Y (Top Down 2D) as that is the only axis we will be rotating on, and it saves sending unnecessary network data. We’ll also change the Interpolate Rotation value from 1 to 10, otherwise the rotation on remote clients is very slow to catch up.

Your NetworkTransform component should look like this:-

PlayerNetworkTransform

Now comes some code, create a new script in the Assets/Player folder and call it PlayerNetworkMove and paste this code into it replacing the default code then save the file.

Now we need to add this script to the player prefab, so with the player prefab selected use the Component menu to add the script (Component->Scripts->PlayerNetworkMove) or just left click the script and drag it onto the player prefab.

This is a fairly simple script that reads keyboard input and the uses the result from the WASD key presses to rotate the player and move it forward and backwards in the direction it’s facing. Whilst this works perfectly well for a single player game, you will see if you build and run the game and run a host and client, that you have problems with it in a multiplayer game. As you move and rotate one player the other player also moves and rotates. This is because the PlayerNetworkMove script is running on every instance of the player in the scene. So we need to make a couple of changes to fix this.

Firstly we need to add UnityEngine.Networking to the list of using statements at the top of the code and then we need to change our class type from MonoBehaviour to NetworkBehaviour.

Making these changes gives us access to all the new networking features introduced in Unity 5.

Next we need to make sure that we only read the input from the local player  and only manually move the player object owned by the local player. As our script is now a NetworkBehaviour, it has a boolean property called isLocalPlayer, which will only be true for scripts that are running on the client that owns the player object. So we can check the value of that and act accordingly.

Change the Update function to this

This checks to see if the script is running on the local player, and if not it just returns without doing anything else, otherwise it gets the player input as before.

We also need to add the same check to the FixedUpdate function, as so

If the script isn’t running on the local player, fixed update will return without doing anything, otherwise it will move the player as before.

The player position and rotation for the local player is automatically synchronized with all the other clients by the NetworkTransform component we added earlier, so we don’t have to worry about that.

This is the full network aware PlayerNetworkMove script

With this script on the player object, you can build and run two instances of the game and start a host and client. You’ll see two cubes in the scene, both of which can be controlled independently of each other, and as you move a player in one client it is updated in the other client.

That’s it for part 2 of the tutorial, in the next part we will make the camera follow the player, and give each player its own name and name label.

Unity 5 Network Tutorial Part 1

Part 1

What is this tutorial?
This tutorial aims to demonstrate the basic concepts needed to create a multiplayer game. In an attempt to keep it as clear and concise as possible I will keep the game design quite simple, therefore this should be seen as a basis from which to build a game, rather than a tutorial for a complete and finished game.

Who is this tutorial aimed at?
This is aimed at people with a reasonable knowledge of C# and Unity, but little or no experience of network game programming. As such I won’t be explaining in depth basic C# programming concepts or basic Unity concepts, unless it is appropriate within the scope of the tutorial. I also won’t be delving too deeply into the complexities of networking, I’ll just explain enough to cover what we do in the tutorial which should hopefully give enough information to go on from here.

Notes
For the Unity editor layout I will be using the default Tall layout (Window->Layouts->Tall), but with the Game Window docked beneath the Scene Window, however you are free to use whichever layout you are most comfortable with.
Any names I suggest for things such as project names, scene names and gameobjects etc. are completely arbitrary, and you can change them if you wish. However if you do change them you need to make sure you also change any references to them that may come up later in the tutorial to avoid errors.
For ease of following this tutorial I would suggest you probably just go with my names for now.

Part 1a Setting up the project and scenes

  1. Start by creating a new 3D project and call it Unity Networking Tutorial.
  2. Create a folder in Assets, and name it Scenes
  3. Save the current scene into the Scenes folder, and name it Online Scene
  4. Save the current scene again into the scenes folder, but this time call it Offline Scene

SaveScene

Now add the Offline and Online scenes to the build settings, if we don’t do this we will be unable to use them with the NetworkManager in the next step.

BuildSettings

Part 1b Setting up the NetworkManager scenes

Now we’ve got the empty scenes saved and added to the build settings, we need to start populating them with gameobjects. The first thing we need is a Network Manager, which fairly obviously manages the network, so we’ll add that now.

With the Offline scene open (it should already be open, if you followed the above instructions), create an empty gameobject (GameObject->Create Empty) and rename it NetworkManager. Now with the NetworkManager gameobject selected in the hierarchy use the Component Menu to add a NetworkManager and NetworkManagerHud component.

ComponentMenu

NetworkManagerComponentsOnce you have added these components your NetworkManager gameobject should now look like this.

The NetworkManager component will handle the nitty gritty of the network connection between all the players, and has various settings exposed in the inspector, only some of which we need to worry about for this tutorial.
I’ll cover these as we go along and explain what they do.

The first thing we need to look at in the NetworkManager is the Offline Scene and Online Scene settings.
The Offline Scene is where we will show the menu that will allow players to host or join a game, and the Online scene is what will load when the player joins a game (either as a host or client). This switching of scenes is handled automatically by the NetworkManager.
Strictly speaking there is no need to have separate scenes for this, however by doing so you will save yourself some possible headaches later.

So with that in mind, go ahead and drag the Offline Scene from the scenes folder in the project window and drop it onto the Offline Scene entry in the NetworkManager, then do the same for the Online Scene and drop that into the Online Scene entry in the NetworkManager.

The NetworkManagerHUD is solely for the purposes of displaying a basic menu that allows hosting and joining of game sessions. I intend to make another tutorial at a later date that shows how to implement your own UI instead.

Part 1c Setting up the player prefab

Now we have set the scenes up, we need to create a gameobject that will be our player in the game. For this tutorial we will just use a 3d Cube which we can create using the menu option GameObject->3D Object-> Cube.
Once you have added the cube to the scene, rename it to Player and set it’s transform and rotation to 0,0,0 if it isn’t already.

PlayerSceneHierarchyYour scene Hierarchy should now look like the picture to the left.

Before your player object can be used in a network game it has to have a NetworkIdentity component attached to it. The NetworkIdentity component controls an object’s network identity, and it makes the networking system aware of it.

Attach a NetworkIdentity component to your player by selecting the player and then using the menu item Component->Network->NetworkIdentity.

Your player should now look like this…

PlayerNetworkIdentity

Now we need to create a prefab of the player object, so firstly create a new folder under Assets and name it Player, then drag your player object into this folder to create a prefab of it there. You can now delete the original from the Hierarchy.

Now we need to tell the NetworkManager about your player, so it can spawn you into the game when you start a host or join a game.
To do this, find the Spawn Info section of the game manager and if necessary, expand it by clicking the small triangle to the left of the words Spawn Info.
Under Spawn Info you will see an entry for Player Prefab. Drag the player prefab you just created into the Player Prefab slot in the NetworkManager.

Your NetworkManager should now look like this

NetworkManagerPlayerPrefab

At this point, we’ve got the bare minimum needed to run the game and host or join a session.
You can test this now if you like. If you run the game you will be presented with a menu (courtesy of the NetworkManagerHUD component) that allows you to host a game, join a game or start as a server (ignore the matchmaker option for the time being).

NetWorkHUD

If you build the game you can run two instances of it and host a game in one, and join the game in the other.

For now all that will happen is that the menu will change to show the connection status and a disconnect button, and you’ll see a cube in the centre of the game scene (both player objects spawn exactly on top of each other). Not so obviously, the active scene will have also changed to the Online scene you created at the start of the tutorial.

That’s everything for Part 1 of the tutorial, without writing a single line of code we have the basic framework of a multiplayer game up and running!

In the next part we will set up the online scene, handle spawning the players in differing locations, and enable moving them based on player input.