5

I am not sure if title is correct.

I have few labels which have set their positions in y scale in range:

range = [0, 100px]

for example: 5 labels in positions:

positions = [5px, 6px, 8px, 72px, 76px]

Now I want my algorithm to correct these positions to not let them be closer than 10px to each other and do minimal corrections.

I am expecting calling my function like this:

result = calculateNewPositions(range, positions, min(10px, 100px / positions.length))

and result in this case should be:

[0px, 10px, 20px, 69px, 79px]

What is name of this alghoritm or how to implement that?

  • That's not a sorting algorithm, more of a recursion algorithm.. What have you tried ? – Pogrindis Apr 19 '16 at 15:10
  • I did not expect this to be a sorting alghoritm. I not trayed yet anything. Becaouse I have no idea how to do this efficiently. – gkucmierz Apr 19 '16 at 15:12
  • @Pogrindis cmd+F, "sort", 0 results from the question and title – Joseph Marikle Apr 19 '16 at 15:13
  • 1
    Just for the first two items (5px, 6px) You could either add room to the right or left of each. You seem to set the first one to 0px and second one to 10px, but that's pretty arbitrary. Why not 5px, 15px, 25px? Edit: obviously flex is not an option. I'm using it as an example of how someone had the same questions you should have when determining how to space content in a similar environment. You will need to factor in similar logic for your issue. – Joseph Marikle Apr 19 '16 at 15:18
  • 1
    @NinaScholz Thanks! The question and desired results are much more clear now! – Pogrindis Apr 20 '16 at 9:09
2

Here's an algorithm that should work pretty well for most cases, and tries to make as minimal amount of adjustments as necessary from the original values.

  1. Iterate through each pair of elements.
  2. If the space is not large enough, move them apart from each other by 1, making sure not to violate the range.
  3. Repeat until all the elements have enough space between them.

And here is a sample implementation:

function calculateNewPositions(positions, minSpacing, rangeMin, rangeMax) {
  var temp = positions.slice(0);
  var madeChange;
  do {
    madeChange = false;
    for (var i = 0; i < temp.length - 1; i++)
      if (temp[i + 1] - temp[i] < minSpacing) {
        if (temp[i] > rangeMin) { temp[i]--; madeChange = true; }
        if (temp[i + 1] < rangeMax) { temp[i + 1]++; madeChange = true; }
      }
  } while (madeChange);
  return temp;
}

Demo: https://jsfiddle.net/aaxmuw2t/

Example Result: [0, 10, 20, 69, 79]

Note that this algorithm is very simplistic and may not always yield the best result for really complex arrays with lots of close numbers. For example, if you input [33, 34, 35, 36], you get [19, 29, 40, 50], which has an extra unnecessary space.

  • for this input: [95, 94, 92, 28, 24] it should return that output: '[100, 90, 80, 31, 21]' – gkucmierz Apr 19 '16 at 16:12
  • @gkucmierz: My algorithm assumes the numbers are sorted in ascending order as a precondition, since that was true for the only use case you provided. It should be easy to handle numbers in descending order - just reverse it first, run the algorithm, and reverse again, and you get the expected result. I think you should be able to handle that :) – mellamokb Apr 19 '16 at 17:15
  • You are right @mellamokb it is working in that case also: jsfiddle.net/aaxmuw2t/3 But there are many cases when this code will not work as I expect. I am currently working on another function. – gkucmierz Apr 19 '16 at 17:23
  • @gkucmierz: Unfortunately I think solving this problem truly optimally is NP-hard. So you're going to need some sort of heuristic that works for your common use cases. Good luck! :) – mellamokb Apr 19 '16 at 17:25
  • @gkucmierz: I'd be interested to know for the sake of curiousity. Can you provide a handful of the many cases that did not work as you expect? – mellamokb Apr 21 '16 at 13:39
1
calculateNewPositions = function(positions, minDelta) {
   var newPositions = [0]
   positions.slice(1).forEach(function(pos, index) {
     var delta = positions[index + 1] - positions[index]
     newPositions.push(newPositions[index] + Math.max(delta, minDelta))
   })
   return newPositions
}

https://tonicdev.com/lipp/pos-diff

  • Something is wrong with this function. It is not working correct with my input. – gkucmierz Apr 19 '16 at 15:25
  • the array must not contain the px stuff. [5px, 6px] ---> [5,6] did you try the link? isn't this what you are describing? – lipp Apr 19 '16 at 15:26
  • No, look at your result. res[1] and res[2] are overalapping – gkucmierz Apr 19 '16 at 15:28
  • fixed this just now – lipp Apr 19 '16 at 15:30
  • It returns now: [0, 10, 20, 84, 94] I need [0, 10, 20, 64, 74] in this case – gkucmierz Apr 19 '16 at 15:33
1

I finally did something like this:

var fixPositions = function(range, pos, delta, strict) {
  var i;
  var leftSpaces = [];
  var halfDelta = strict ? delta / 2 : 0;
  delta = Math.min(delta, (range[1] - range[0] / (pos.length + (strict ? 0 : 1))));

  // calculate all spaces that are greater than delta
  leftSpaces.push(Math.max(pos[0] - range[0] - halfDelta, 0));
  for (i = 1; i < pos.length; i++) {
    leftSpaces.push(Math.max(pos[i] - pos[i-1] - delta, 0));
  }
  leftSpaces.push(Math.max(range[1] - pos[pos.length-1] - halfDelta, 0));

  // save indexes of big spaces
  var nonZeroSpacesIdx = [];
  leftSpaces.map(function(space, i) {
    if (space > 0) {
      nonZeroSpacesIdx.push(i);
    }
  });

  // sort indexes by spaces sizes (start from smaller)
  nonZeroSpacesIdx.sort(function(a, b) {
    return leftSpaces[a] - leftSpaces[b];
  });

  // loop until spaces sum are greater than range
  var spacesSum = Infinity;
  while (nonZeroSpacesIdx.length > 0 && spacesSum > 0) {
    spacesSum = 0;
    for (i = 0; i < nonZeroSpacesIdx.length; i++) {
      spacesSum += leftSpaces[nonZeroSpacesIdx[i]];
    }
    var missingDiff = (spacesSum + (pos.length - 1) * delta + halfDelta * 2) - (range[1] - range[0]);

    if (missingDiff <= 0) {
      break;
    }
    // find min diff which can be substracted from all spaces
    var minDiff = Math.min(missingDiff / nonZeroSpacesIdx.length, leftSpaces[nonZeroSpacesIdx[0]]);
    for (i = 0; i < nonZeroSpacesIdx.length; i++) {
      leftSpaces[nonZeroSpacesIdx[i]] -= minDiff;
    }
    // remove index of first space if its equal zero
    if (leftSpaces[nonZeroSpacesIdx[0]] <= 0) {
      nonZeroSpacesIdx.shift();
    }
  }

  // reconstruct new positions
  var newPos = [];
  newPos.push(range[0] + leftSpaces[0] + halfDelta);
  for (i = 1; i < leftSpaces.length - 1; i++) {
    newPos[i] = newPos[i-1] + leftSpaces[i] + delta;
  }

  return newPos;
};

// result should be from range: [5, 95]
console.log(fixPositions([0, 100], [5, 6, 8, 72, 76], 10, true));

// result should be from range: [0, 100]
console.log(fixPositions([0, 100], [5, 6, 8, 72, 76], 10, false));

https://jsfiddle.net/fcwu1oyu/14/

Its not giving exact same values for my input, but it does the job for my pie charts:

enter image description here enter image description here

0

A work in progress solution

The code pushes two too close couples appart with one on each side. This is symetrically and results in sometimes to far pushed values, which can be corrected.

function disperse(values, threshold, range) {
    var delta = Array.apply(null, { length: values.length }).map(function () { return 0; }),
        converged = false;

    while (!converged) {
        converged = true;
        delta = delta.map(function (d, i, dd) {
            if (i < dd.length - 1 && dd.length > 1 && values[i + 1] + dd[i + 1] - values[i] - d < threshold) {
                converged = false;
                dd[i + 1] += 1;
                return d - 1;
            }
            return d;
        });
    }
    converged = false;

    // try to minimise difference
    while (!converged) {
        converged = true;
        delta = delta.map(function (d, i) {
            var space;
            if (i < delta.length - 2) {
                space = values[i + 1] + delta[i + 1] - values[i] - d;
                if (d < 0 && space > threshold) {
                    converged = false;
                    return d + space - threshold;
                }
            }
            return d;
        });
    }

    // respect lower range
    delta.reduce(function (r, d, i, dd) {
        if (values[i] + d < r) {
            dd[i] = r - values[i];
            return r + threshold;
        }
        return values[i] + threshold + d;
    }, range[0]);

    // respect upper range
    delta.reduceRight(function (r, d, i, dd) {
        if (values[i] + d > r) {
            dd[i] = r - values[i];
            return r - threshold;
        }
        return values[i] + d;
    }, range[1]);

    return values.map(function (v, i) {
        return v + delta[i];
    });
}

document.write('<pre>' + JSON.stringify(disperse([5, 6, 8, 72, 76], 10, [0, 100]), 0, 4) + '</pre>');
document.write('<pre>' + JSON.stringify(disperse([5, 6, 7, 8, 72, 76], 10, [0, 100]), 0, 4) + '</pre>');
document.write('<pre>' + JSON.stringify(disperse([24, 28, 92, 94, 95], 10, [0, 100]), 0, 4) + '</pre>');

  • Your answer seems to be the exact identical logic to mine, except that you aren't properly checking the range (0 to 100)... Try the example OP posted under my answer: 24,28,92,94,95. Your code seems to return 21,31,83,94,104, but 104 > 100. – mellamokb Apr 20 '16 at 13:13
  • if so, then i wrote it a year before you. :) – Nina Scholz Apr 20 '16 at 13:15
  • Then we should probably close this question as a duplicate... – mellamokb Apr 20 '16 at 13:16
  • the last value is not in range. this is a prerequisite, that all values must in the range before. – Nina Scholz Apr 20 '16 at 13:17
  • 1
    Sorry,, I guess I didn't explain myself very well :) Maybe this will help: jsfiddle.net/7th90daa. Notice that the input values are all inside the range, but your code spits out a result outside the range (104). Make sense? – mellamokb Apr 21 '16 at 13:37

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