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Situation:

  1. I have a set of X (e.g. 10,000) captured screen coordinates.
  2. Displayed onscreen is a virtual keyboard. This is rendered as rows of adjacent rectangular controls (Border controls in this case).
  3. I want to convert each screen coordinate into the key it would hit if I were performing standard hit testing, i.e. which key is the coordinate over.
  4. This needs to be done as efficiently as possible.

Possible solution:

  1. Generate a set of key positions that contains each key's screen coordinates (LeftX, RightX, TopY, BottomY) and update this if the onscreen keyboard is moved/resized.
  2. Iterate through my captured screen coordinates and lookup which key it relates to.

Question:

Ignoring the potential gains of performing the loops in parallel, I want to understand the best structures and lookup techniques to use to take a screen coordinate and perform the lookup of the matching key based on the stored set of key positions.

Knowing that keys on a keyboard are horizontally and vertically adjacent, could I use this to optimise the lookup, e.g. create a hash table of rows of keys and use the screen coordinate's Y component to return either null (coordinate is not over the keyboard) or another hash table that represents the keys in that row. I could then use the screen coord's X component to do a similar lookup.

Bear in mind that keys do not often align into columns, so I would have to lookup a row, before I lookup the key in a row, as opposed to matching the screen coord's X component to a column and then looking up a key in that column.

I suspect that using standard WPF hit testing would be hugely inefficient as it tests against all possible visuals under the coordinate, when I only care about a single layer.

Thank you for any help you can give me. It's possibly trivial, but I am not familiar with ways to hash based on a range of values

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I think approach is wrong. Represent every keyboard key as a rectangle, do Rectangle.Contains(point) for hit tests. The procedure will iterate an array of key's rectangles and do hit-test until hit-test is passed or end of array. You can optimize it a bit, by putting most often used keys rectangles into beginning of array. –  Sinatr Feb 21 '14 at 13:29
    
What are you trying to achieve ? I'm probably missing something, but I can't think of ay purpose for this kind of verification, perhaps you don't need it! Or I am missing something, in that case more details will be helpful. –  Alex Feb 21 '14 at 13:40
    
I have an onscreen keyboard and an externally captured set of screen coordinates. I want to turn the coordinates into a set of keys on which they intersect, so that I can use that info for further processing. I'm just trying to think of the best way to do it. –  Julius Feb 21 '14 at 13:42
    
@Sinatr Yes, but the point of creating a map is that I can optimise that lookup, rather than performing a linear search through the keys (including whatever overhead the Contains() method adds) for every coordinate. I am trying to remove that linear search as it's inefficient as I have knowledge of the layout that should allow me to optimise it. No? –  Julius Feb 21 '14 at 13:54

1 Answer 1

up vote 1 down vote accepted

The fastest hit test is possible if you use indexes (as they works faster than anything else).

Assign to every key of keyboard an integer number (to example, scan-code). Then create a point map like this

int[] map = new int[ymax * xmax]; // 1920*1200 = 2.304.000 (sizeof(int) * 2.3 Mb)

While it uses quite a lot of memory, you can use it to map other things. It is also possible to index keys first (assuming there will be ~100 keys, you can use byte array instead to hold key indexes, but then you need an additional map from index to key).

Map tells who is the owner of pixel. It can be either 0 (no one) or someone (key scancode/key index/object index).

Hit test is as hard as

return map[x + y * xmax];

But in your situation, I'd recommend to represent key boundaries as Rectangle. While iterating over 100 keys (in worst key) and Rectangle.Contains(point) takes time, the solution might be good enough (and uses little of memory).

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