To use GKAgents or not - sprite-kit

I am developing (or atleast trying to develop)
a decently big real time tactics game (something similar to RTS) using SpriteKit.
I am using GamePlay kit for pathfinding.
Initially I used SKActions to move the sprites within the Path but fast enough I realized that it was a big mistake.
Then I tried to implement it with GKAgents (this is my current state)
I feel that GKAgents are very raw and premature also they are following some strange Newton Law #1 that makes them to move forever (I can't think of any scenario where it would be useful - maybe for presentations at WWDC)
as well as I see that they have some Angular speed to perform rotations
which I don't need at all and can't really find how to disable it...
As well as GKBehaviors given a GKGoals seems to make some weird thing...
Setting behavior to avoid obstacles makes my units to joggle around them...
Setting behavior with follow path goal completely ignores everything unless the maxPredictionTime is low enough...
I am not even willing to tell what happens when I combine both them.
I feel broken...
I feel like I have 2 options now:
1) to struggle more with those agents and trying to make them behave as I wish
2) To roll all the movement on my own with help by GKObstacleGraph and a path Finding (which is buggy as well I have to say at some points the path to the point will generate the most awful path like "go touch that obstacle then reverse touch that one then go to the actual point (which from the beginning could be achieved by a straight line)").
Question is:
What would be the best out of those options ?

One of the best ways (in SpriteKit/GameplayKit) to get the kind of behavior you're after is to recognize that path planning and path following need not be the same operation. GameplayKit provides tools for both — GKObstacleGraph is good for planning and GKAgent is good for following a planned path — and they work best when you combine the strengths of each.
(It can be a bit misleading that GKAgent provides obstacle avoidance; don't think of this in the same way as finding a route around obstacles, more like reacting to sudden obstacles in your way.)
To put it another way, GKObstacleGraph and GKAgent are like the difference between navigating with a map and safely driving a car. The former is where you decide to take CA-85 and US-101 instead of I-280. (And maybe reevaluate your decision once in awhile — say, to pick a different set of roads around a traffic jam.) The latter is where you, continuously moment-to-moment, change lanes, avoid potholes, pass slower vehicles, slow down for heavy traffic, etc.
In Apple's DemoBots sample code, they break this out into two steps:
Use GKObstacleGraph to do high level path planning. That is, when the bad guys are "here" and the hero is "way over there", and there are some walls in between, select a series of waypoints that roughly approximates a route from here to there.
Use GKAgent behaviors to make the character roughly follow that path while also reacting to other factors (like making the bad guys not step on each other and giving them vaguely realistic movement curves instead of simply following the lines between waypoints).
You can find most of the relevant stuff behind this in TaskBotBehavior.swift in that sample code — start from addGoalsToFollowPath and look at both the places that gets called and the calls it makes.
As for the "moving forever" and "angular speed" issues...
The agent simulation is a weird mix of a motivation analogy (i.e. the agent does what's needed to move it toward where it "wants" within constraints) and a physics system (i.e. those movements are modeled like forces/impulses). If you take away an agent's goals, it doesn't know that it needs to stop — instead, you need to give it a goal of stopping. (That is, a movement speed goal of zero.) There might be a better model than what Apple's chosen here — file bugs if you have suggestions for design improvements.
Angular speed is trickier. The notion of agents' intrinsic physical constraints being sort of analogous to, say, vehicles on land or boats at sea is pretty well baked into the system. It can't really handle things like space fighters that have to reorient to vector their thrust, or walking creatures that can just as happily walk sideways or backwards as forward — at least, not on its own. You can get some mileage toward changing the "feel" of agent movement with the maxAcceleration property, but you're limited by the fact that said property covers both linear and angular acceleration.
Remember, though, that the interface between what the agent system "wants" and what "actually happens" in your game world is under your control. The easiest way to implement GKAgentDelegate is to just sync the velocity and position properties of the agent and the sprite that it represents. However, you don't have to do it that way — you could calculate a different force/impulse and apply it to your sprite.

I can't comment yet so I post as an answer. I faced the same problem recently: agent wiggling around the target or the agent that keeps moving even if you remove the behavior. Then I realized that the behavior is just the algorithm controling the movement, but you can still access and set the agent's speed, position and angle by hand.
In my case, I have a critter entity that chases for food in the scene. When it makes contact with the food agent, the food entity is removed. I tried many things to make the critter stop after eating the food (it would keep going in a straight line). And all I had to do was to set its speed to 0. That is because the behavior will influence not the position directly, but the speed/angle combination instead (from what I understand). When there is no goal for the entity, it doesn't "want" to change it's state, so whatever speed and direction it reached, it will keep. It will simply not update/change it. So unless you create a goal to make it want to stop, it will wiggle/keep going. The easy way is to set the behavior to nil and set the speed to 0 yourself.
If the behavior/goal system doesn't do it for the type of animation you are looking for, you can still use the Agent system and customize the movement with the AgenDelegate protocol and the update method and make it interact with other agents later on. You can even synchronize the agent with a node that is moved with the physics engine or with actions (or any other way).
I think the agent system is nice to keep around since you can use it later, even if it's only for special effects. But just as mixing actions and physics can give some weird results, mixing goal/behaviors and any other "automated" tool will probably result in an erratic behavior.
You can also use the agent system for other stuff than moving an actual sprite around. For example, you could use an agent to act as a "target seeker" to simulate reaction time for your enemies. The agent moves around the scene and finds other agents, when it makes contact with a suitable target, the enemy entity would attack it (random idea).
It's not a "one size fits all" solution, but it's a very nice tool to have.

Related

Using process modelling library for vessel sailing behavior in Anylogic

I want to use 'process modelling library' to mimic vessel movement from one point to another (because 'road traffic library' cannot realistically reflect the ship movement).
However, I am stuck at defining a way for speed control and keeping a safe distance between two vessels. What I want to achieve is the speed of each vessel (agent) should be restricted in a threshold [MaxSpeed,MinSpeed], and all the vessels should keep a safe distance/time with the vessels in front or behind. For example, if a vessel with speed 15 knots catches the vessel with speed 10 knots, it will change the speed to 10 knots before reaching the required safe distance/time.
Currently, what I am thinking is to set the agent speed at 'Source' block or 'MoveTo' block, and create a function to avoid collision. Does anybody know how the function will look like? I am very appreciate if any idea or comments, thanks!
Even though depending on your model there may be smart ways of doing this, I will show you a generic inefficient way of doing this in a very simplified way without deceleration or any fancy stuff.
It's a good idea to first set up a node in front of your boat as a safety distance:
I also added an event that will check if other boats are getting too close to the boat itself... so in the event you can have code like this that runs every minute for example:
for(Boat c : main.boats){
if(unsafeDistance.contains(c.getX()-getX(),c.getY()-getY())){
setSpeed(c.getSpeed());
break;
}
}
This code checks if there is any boat inside the safety node, and if there is one, the boat will instantaneously change its speed to the speed of the boat in front of it.
This code is ugly and inefficient, but if you want something better, you need to think about it yourself using the characteristics of your situation in order to make it better... but this solution should work using moveTo blocks from the Process modeling library.

UE4 get all players in FoV

I'm trying to build an array of all player pawns that are in the players FoV cone. I'd prefer to not have to loop through GetAllActorsofClass for obvious performance reasons. This will be done every tick.
GetAllActorsOfClass iterates over a hash table of things of that class. Even with 100 players it is unlikely to be very costly. I would imagine that a "get actors in frustum" would just do that under the hood.
If you are okay with using it, from there you would use ConvertWorldLocationToScreenLocation and compare that to the screen bounds coordinates with GetViewportSize.
The only method the wouldn't use GetAllActorsOfClass I can think of offhand is to calculate the size of the rectangle at the "end" of the frustum, using a giant multi box trace, and filtering based on the dot product. Traces are cheap, dot product is cheap. Whether or not it's cheaper than GetAllActorsOfClass is going to be specific to your game.
If performance is really a problem the best solution is to use code. Depending on your implementation you might be able to use Blueprint nativization to get an extra boost without digging into code.
Use MultiSphereTrace from your player to his FOV direction and loop through hit results.
Make sure you set the collision layer correctly so the trace only interact with target player.
I do this on my mobile game with around 10-20 actors per frame, and it works fine.

Create natural disaster model in unity3D

I am working on a application where, I would like to make a 3D terrain model of my country in unity3D in clusive of hills, mountains and rivers. So far I've been able to use mapbox to import the country map because unity wrld sdk doesn't yet support my country.
However the end goal is to create an application capable of representing natural disasters. Example, I have the country. I would like to know how would one go about causing rain to occurred that would essentially affect the "water levels" of the river and essentially show a flood. Basically, after I bring in the terrain how do I "act" on it to cause a landslide.
Any help or tutorial pointing to such would be welcomed.
You will need different models for each natural disaster. You will always only get a rough estimate of what may happen as your data will never represent the actual terrain. (For example earthquake, you may be able to reproduce damage to structures but never be able to predict if there will be a drift in the earth itself)
Rain/ Flood
A really simple simulation of rising ground water is slowly moving a "water" plane up. This crude approach will demonstrate which areas are going to be under water quite easily. For a detailed flood simulation you will need a fluid simulation of any kind (there are quite a few on the asset store)
Avalanche
Treat it as a fluid system with a strong resistance.
Vulcan
Almost the same as a flood, just with more viscosity.
Earthquake
You may be able to simulate the damage of an earthquake if all your objects have some kind of break point and the earthquake is added force to an area. A set force has an certain chance to destroy the object in the area. (Think of it in terms like any castle destroy game aka Flappy Bird, the bullet is your local earthquake and the castle your terrain + building/ trees)
Fire
You will need something like a burn value. Higher value = the longer it burns, harder to put out, faster spread. If a fire starts at any given point, it grows around. A river would have a value of 0, same as mountains. A forest would have a high value, a grass plain a low value. If you want to simulate a hot dry summer, your terrain could add a fixed value to everything, grass gets drying and thus has a higher chance to spread fire.

Simulating physics for voxel constructions (Minecraft, Dwarf Fortress, etc)?

I'm hoping to prototype some very basic physics/statics simulations for "voxel-based" games like Minecraft and Dwarf Fortress, so that the game can detect when a player has constructed a structure that should not be able to stand up on its own.. Obviously this is a very fuzzy definition -- whether a structure is impossible depends upon multitude of material and environmental properties -- but the general idea is to motivate players to build structures that resemble the buildings we see in the real world. I'll describe what I mean in a bit more detail below, but I generally want to know if anyone could suggest either an potential approach to the problem or a resource that I could use.
Here's some examples of buildings that could be impossible if the material was not strong enough.
Here's some example situations. My understanding of this subject is not great but bear with me.
If this structure were to be made of concrete with dimensions of, say, 4m by 200m, it would probably not be able to stand up. Because the center of mass is not over its connection to the ground, I think it would either tip over or crack at the base.
The center of gravity of this arch lies between the columns holding it up, but if it was very big and made of a weak, heavy material, it would crumble under its own weight.
This tower has its center of gravity right over its base, but if it is sufficiently tall then it only takes a bit of force for the wind to topple it over.
Now, I expect that a full-scale real-time simulation of these physics isn't really possible... but there's a lot of ways that I could simplify the simulation. For example:
Tests for physics-defying structures could be infrequently and randomly performed, so a bad building doesn't crumble right as soon as it is built, but as much as a few minutes later.
Minecraft and Dwarf Fortress hardly perform rigid- or soft-body physics. For this reason, any piece of a building that is deemed to be physically impossible can simple "pop" into rubble instead of spawning a bunch of accurate physics props.
Have you considered taking an existing 3d environment physics engine and "rounding off" orientations of objects? In the case of your first object (the L-shaped thing), you could run a simulation of a continuous, non-voxelized object of similar shape behind the scenes and then monitor that object for orientation changes. In a simple case, if the object's representation of the continuous hits the ground, the object in the voxelized gameplay world could move its blocks to the ground.
I don't think there is a feasible way to do this. Minecraft has no notion of physical structure. So you will have to look at each block individually to determine if it should fall (there are other considerations but this is minimum). You would therefore need a way to distinguish between ground and "not ground". This is modeling problem first and foremost, not a programming problem (not even simulation design). I think this question is out of scope for SO.
For instance consider the following model, that may give you an indication of the complexities involved:
each block above height = 0 experiences a "down pull" = P, P may be any of the following:
0 if the box is supported by another box
m*g (where m is its mass which depends on material density * voxel volume) otherwise if it is free
F represents some "friction" or "glue" between vertical faces of boxes, it counteracts P.
This friction should have a threshold beyond which it "breaks" and the block then has a net pull downwards.
if m*g < sum F, box stays where it is. Otherwise, box falls.
F depends on the pairs of materials in contact
for n=2, so you can form a line of blocks between two towers
F is what causes the net pull of a box to be larger than m*g. For instance if you have two blocks a-b-c with c being on d, then a pulls on b, so b should be "heavier" than m*g where it contacts c. If this net is > F, then the pair a-b should fall.
You might be able to simulate the above and get interesting results, but you will find it really challenging to handle the case where there are two towsers with a line of blocks between them: the towers are coupled together by line of blocks, there is no longer a "tip" to the line of blocks. At this stage you might as well get out your physics books to create a system of boxes and springs and come up with equations that you might be able to solve numerically, but in a full 3D system you will have a 3D mesh of springs to navigate iteratively to converge to force values on each box and determine which ones move.
A professor of mine suggested that I look at this paper.
Additionally, I found the keyword for what it is I'm looking for. "Structural Analysis." I bought a textbook and I have a long road ahead of me.

How would you keep a top view of a train on the tracks with the Box2D physics engine?

I think it would be fun to model a top view of a train following a track, traversing switches and so on, using a physics library like Box2D. What joints and motors would I need to make this work?
I'm curious about how to implement the forces needed to make the car follow a spline track so it can bump into other train cars, pedestrians, DeLoreans etc. Just saying "the car is now at spline(t)" for each time step would create excessive forces in the physics engine. If I understand correctly, you have to stick the car onto the track with one force, constrain its angle to tend towards parallel with the track with another (or stick the front and back of the car to the track with two forces), and create another force to propel the train forward. I'm looking for some details on how to accomplish these things.
I believe it would be easier without "real" physics, like the ball movement of games such as Luxor or Tumble Bugs. Meaning: let the train follow a spline which is defined by the tracks.
Using phyiscs is probably overkill to make a train follow a track and could lead to all kinds of undesired side-effects, including jerky motion, train derailing, train getting stuck on junctions, etc.
You could still join the individual wagons together using physic joints, however. Just make sure that only the locomotive gets acceleration forces, the rest of the train just follows or is pushed but stays on the spline.
Why are you worried about keeping it "on the tracks"? Where is it going to go? Gravity should keep it down, object intersection should keep it up, and so the only directions you need to worry about are forward and backwards. That's where a motor comes in, and you're done. The rest is decorations.
In response to edit of problem:
Siderails. And have the train long enough / rigid enough compared to its width that you can navigate crossings (make them closer to right angles to minimize the crossing problems.
A top-down view (i.e. seeing the train from the sky) doesn't really require a 2d physics engine - if I understand you correctly. In fact, it seems like it wouldn't really help with the problem (if you want a train simulation), but then maybe you just wanna try it out for fun. :)
However, what about putting something like a slider joint on the train and the cars, and a motor on the locomotive. The slider joint might need some special implementation; you probably want to run the train along a spline and not a segment of straight lines, right?
Some sort of ball joint would connect the cars together.
The implementation is not so toughand I was able to prototype something in a few hours that does the basic job. It will require a lot of work to make it run smoothly, but it's essentially just "siderails."
Being top-down you obviously first must turn off gravity in Box2D. Second, build a train. Treat train wheels like car wheels and it'll suddenly get a lot more simple. For tracks you have a few choices:
Create your own game object (not in the box2D world) that is a simple line the train will then "follow" (you can use motors on train wheels to "steer" towards the line). Then just overlay the line with some nice wide "rail" graphics and you have a nicely faked system. Tell the wheels to turn off if it strays too far from the line and presto, you have a derailment.
Create actual physical rails - outside rails (like siderails) that the trains "wheels" will bump into. They will have to have gentle curves in this instance, which could be very difficult given the limited resources you have (simulating a nice slow curve out of boxes in Box2D is rough on the processor)
Then just let your train go!