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lets say I have a viewport with a width of 1000px

And in the viewport I have 3 boxes placed horizontally along the viewport.

Each box is 500px. Now normally it would be viewport_width / box_width which would yield 2

How ever, if you were to move the first box slightly to the left, out of the viewport, the 3rd box would be slightly visible on the right hand side.

What equasion would i need to use to figure out the maximum number of boxes which can be visible in the defined viewport (assume all boxes are the same width)


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Given your specification, you've already given the answer, 3. – Will A Jun 20 '11 at 0:07
my code has to assume the viewport width will change constantly, so i need to compute it on the fly – Ozzy Jun 20 '11 at 0:09
What else changes? Do you need a general formula for any viewport, box, # of boxes? – Will A Jun 20 '11 at 0:11
yea just a general formula which assumes that viewport size can change, box numbers can change and box width can change. all boxes will be same width however – Ozzy Jun 20 '11 at 0:12

2 Answers 2

up vote 2 down vote accepted

I'm pretty sure you already have it figured out. Since there can only ever be 1 partial box on either end, the maximum number of visible boxes should be (viewport_width / box_width) + 1

To take into account Will's (correct) caveat:

ceil((viewport_width/box_width) + 1))

Edit: convinced myself that ceil is in fact the correct choice

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If the OP is asking for a general formula (not clear), how about the case of viewport_width = 11, box_width = 3? Five boxes can be visible at once. (with 1, 3, 3, 3, 1 'columns' visible from the boxes). – Will A Jun 20 '11 at 0:09
i used this together with ceiling the value in ( ) and it works perfectly. – Ozzy Jun 20 '11 at 0:13
...but given that (with ceiling), viewport_width = 10, box_width = 3 would give 5 which is incorrect. – Will A Jun 20 '11 at 0:15
True, using round would make sense as kniteli wrote:) – Ozzy Jun 20 '11 at 0:18
@Ozzy - hmm, I'm not convinced. I'm sure that this will still give incorrect results. How about with vpw 11 and bw 2? Gives 7, answer should be 6. – Will A Jun 20 '11 at 0:23

It's the same math, really. You seem to be thinking of fractional boxes as if being able to see 50% of box A, 100% of box B, and 50% of box C is more than two boxes, total, but it's not. The equation is unchanged.

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