Hello guys, does anyone know how to calculate the g cost of a diagonal cell? I noticed in most of the tutorial videos that they are using pythagoras law for cell weights of 1. But if there is a cell weight of different values do we need to calculate the g cost using the pythagoras law??
I also agree most of them assume everyone that has the slightest, simplest JS that should take like 5 minutes to solve and never ever go back to JS, requires the utmost, deepest knowledge of the whole framework, and at least 15 similar ones.
@Neil g cost is the cost of moving from one cell to another which is also called the moving cost in path finding algorithms
I can calculate the costs of moving up,down,left and right but when it comes to diagonal cells such as upper left,upper right,lower left and lower left i get stuck...
If you're on a "mountain" cell and takes 3 times as long to cross, then to move to it from anywhere is the normal amount from an adjacent or diagonal cell times 3
apply rules on top of what I mentioned above.. you still have to determine if a diagonal move is the same as an adjacent move or if it takes two moves
May I inject, this is what we talked about recently: As so many progamming questions, the problem isn't acutally a coding one but a maths/physics one :)
iirc, G is simply adding up all the weights on the path, F however is used to calculate the cost of movement (heuristic estimation in most cases). Both added results in the complete cost
But that's just for 2 axis'. When you add the third to move diagonally and don't just make it 1 or 2 steps, you got floating point. I think the question is: What does the concept say?
Hello guys, does anyone know how to calculate the g cost of a diagonal cell? I noticed in most of the tutorial videos that they are using pythagoras law for cell weights of 1. But if there is a cell weight of different values do we need to calculate the g cost using the pythagoras law??
Its a grid with obstacles and the purpose is to identify the shortest path from a given x y coordinate. starting and ending point x y coordinates are entered by the user.
So i thought of solving that using a star algorithm
Lets put it this way. the algorithm tries to minimize distance, right? If you set diagonal movement to 0, it will use diagonals whenever possible and get near 0 distance
I have a client/server based program where a client has a continuous read worker that calls an event whenever a message is received, that is then processed by a messagerouter to route it to the appropriate class for processing. What is the best way for a subscriber to wait until a particular message from a particular client is received?
Well, it's hard to say without knowing your implementation, but it looks like you need some sort of blockingcollection. A ConcurrentQueue, for instance.
The simplest way is to simply have some sort of WaitHandle that you wait on, and which the message handler sets. This means that your main logic blocks the thread until the message arrives, and it means the message handler is on a different thread (which makes sense)
@cubesnyc So GameLogic.DoTheThing() calls await GetPlayerActionAsync(). This relinquishes its thread and suspends its operation. When GetPlayerActionAsync completes (because the MessageRouter supplied the message) it returns the PlayerAction payload.
BlockingCollection<T> is a pub/sub collection based on a ConcurrentQueue<T>. When you call TryTake() on it, it will return the contents of the queue, or block, waiting. On another thread, your Router pushes a new message into it, triggering the Take operation to complete, returning the message.
I've found two - either use GetConsumerEnumerable() (and use in a foreach) or wrap it in Task.Run, i.e. Task.Run(() => bc.Take()); - the latter is however frowned upon, but it's the way I've found which works for just getting one item.
@PargatSingh BTW your question is getting downvoted because you don't explain the steps you took to reproduce your problem, nor do you explain what you have already tried to do to fix it.
Also, make sure you speak with Oliver after changing the starting path.
> In our case, this appears to be related to projects created in older versions of Visual Studio and then opened in VS2017. These projects do not have the <DependsOnNETStandard> element in the .csproj file.
