# Tag Info

11

Here is a JavaScript implementation, along with source code and an online demo I did as a hobby/research project. It is very simple, but you can change some of the params (grid size, # of walls, debugging info on/off). It will show you the calculated f(x), g(x), and h(x) values for each node that is inspected. The demo page implementation uses jQuery.

8

Here's a C++ implementation. It's fairly well tested by now, and used in commercial video games and various AI projects. http://code.google.com/p/a-star-algorithm-implementation/ And there's a tutorial, which I actually wrote first: http://www.heyes-jones.com/astar.html

8

Assuming your grid is static and doesn't change. You can calculate the connected components of your graph once after building the grid. Then you can easily check if source and target vertex are within a component or not. If yes, then execute A*, if not then don't as there can't be a path between the components. You can get the connected components of a ...

4

You need to break ties towards the endpoint. (Without breaking ties towards endpoint) (With breaking ties towards endpoint) (Example with an obstacle)

4

Here's a C# implementation done by one of the people who build the language.

3

Have you considered adding a gradient cost to pixels near objects? Perhaps one as simple as a linear gradient: C = -mx + b Where x is the distance to the nearest object, b is the cost right outside the boundary, and m is the rate at which the cost dies off. Of course, if C is negative, it should be set to 0. Perhaps a simple hyperbolic decay C = b/x ...

3

You might try to enlarge the obstacles taking size of the robot into account. You could round the corners of the obstacles to address the blocking problem. Then the gaps that are filled are too small for the robot to squeeze through anyway.

3

RGB space is terrible for interpreting whether colors are similar to one another. A different color space that matches closer to human perception of color is HSV (hue saturation and value). Here are the steps you should follow: Convert your value from RGB space to HSV (http://www.cs.rit.edu/~ncs/color/t_convert.html) Modify the saturation and value to ...

3

Well, the short and simple answer: indexi = (int)(coords.X/map[0,0].length) indexj = (int)(coords.Y/map[0,0].height) EDIT: Of course, OP edits post with almost this answer before I post this. /facepalm

3

The key is to first convert your array into a "digraph" which is a directed-graph consisting only of the valid cell-to-cell moves according to your rules. This digraph would be an array or list of entries consisting of: {FromCell, ToCell} Your digraph would contain data like this: 2,4 4,5 5,8 1,2 1,3 1,9 3,4 3,8 3,7 8,10 7,10 From here you should be ...

3

Source codes and demos in different programming languages: List of demo's for each language: C++: 1 Java: 3 Processing: 1 Actionscript 3 (Flash): 4 Flex (Flash): 1 Javascript: 6 C#: 1 Ruby: 1 Prolog: 1 Unity: 1 Lua: 1 Pathfinding Demo in different languages Enjoy :)

3

One approach to solve it as 'regular' Shortest Path problem is to increase the dimensionality of the problem. Let's say you have a grid, so your graph is actually consisting of vertices:V={(x,y) | for each x,y on the grid} and edges E={(v1,v2) | can move from v1 to v2 in a single step }. The above is for 'regular' static graphs. In your problem, add ...

3

To find a path instead of the shortest path, use any graph traversal (e.g. depth-first or best-first). It won't necessarily be faster, in fact it may check many more nodes than A* on some graphs, so it depends on your data. However, it will be easier to implement and the constant factors will be significantly lower. To avoid search for a path when there is ...

2

You can use either DFS or BFS since you just want to know if the two vertices are connected. Both algorithms run in O(|V|) where V is the set of all vertices in the graph. Use any of this two algorithms if your heuristic takes some non trivial time to get computed, otherwise I think A* should run similarly or better than DFS or BFS. As another option you ...

2

Using documented APIs, your best bet would be to wrap a filesystem, perhaps fuse-zip with MacFUSE, then associate an application with the zip UTI such that it mounts the corresponding filesystem in the Finder. You could trigger unmounting by checking for busy files and using Finder scripting interfaces to monitor open windows.

2

I've done one such physical robot. My solution was to move one step backward whenever there is a left and right turn to do. The red line is as I understand your problem. The Black line is what I did to resolve the issue. The robot can move straight backward for a step then turn right.

1

How about this: for (int i = 0; i < mapCols; ++i) { if (coords.X >= i * map[0, 0].length && coords.X < i * map[0, 0].length + map[0, 0].length) { indexi = i; break; // no need to continue the loop } } for (int j = 0; j < mapRows; ++j) { if (coords.Y >= j * map[0, 0].height && ...

1

Not an implementation, but I found http://theory.stanford.edu/~amitp/GameProgramming/AStarComparison.html to be a particularly clear explanation of the algorithm. Has pseudocode that makes it very easy to implement, along with an extended review of various data structures that can be used for implementing the open & closed sets, a discussion of ...

1

After cd'ing into your new app and installing all the node modules with "npm install" run "cake watch". This will create the files and templates tower needs. Many of the doc's and instructions are out of date, though I'm pretty sure that's the next major project for tower: getting those up to date.

1

You have to keep track of each node in the path to the target. That way you only animate the motion to the next node. Also you can use a CCMoveTo action instead on doing the animation yourself.

1

It's not a URL at all (except in the case of applets, and you didn't mention an applet). You need to put the Pathfinder jar in the classpath when compiling and running, via -cp to javac and java. If it's an applet, it's more complex.

1

A Clojure implementation, heavily based on an example given in PAIP.

1

You can use JPF's symbolic execution extension to "run" a single method: http://babelfish.arc.nasa.gov/trac/jpf/wiki/projects/jpf-symbc/doc Haven't used it myself, though.

1

An AS 3 example... http://www.dauntless.be/astar/

1

If the graph is small enough, you can precompute all shortest paths using the Floyd-Warshall algorithm. This takes O(|V|²) memory for storing the paths, and O(|V|³) time for the precomputation. Obviously this is not an option for very large graphs. For those you should use Thomas's answer and precompute the connected components (takes linear time and ...

1

There are many ways to do this. You say you've found a way (no detail) to find the items in the "current directory" - presumably a directory you supply. So an obvious solution is surely to use that, and for each item it returns which is a directory to recursively scan that one as well? If you want all the items in one go you can use ...

1

This looks like a breadth first search

1

Your code need much restructuring. Basically, you're not using at all the info about which line is used in current path (take/3 is useless, since it doesn't bind the third argument). Here is my take on this. Add the loop detection, now that you have the 'seen so far' nodes... %route(From, To, Directions, Lines_Visited). route(X,X,RPath,Path) :- ...

1

Step-by-step instruction (active layer = Layer 1): Draw a rounded rectangle on Layer 1. Name = Frame, Stroke = Black, Fill = None Create Layer below Layer 1. Name = Bg Draw a rectangle on Bg around Frame. Name = BgRect, Stroke = None, Fill = Yellow Lock Bg Draw a circle on Layer 1 above Frame. Name = OuterCircle, Stroke = None, Fill = Black Draw a circle ...

1

Here's what I understood after reading multiple research papers. Algorithm runs in iterations first iteration: route every connection with minimum delay, even if there is congestion Second iteration iterate as long as congestion exists rip-up and re-route every net in the circuit the cost of using a congested routing resource is increased from ...

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