Step 0: Profile. Assuming you find that most of the execution time is indeed in
MeasureText, then you can try the following to reduce the number of calls:
- Compute the lengths of all individual characters. Since it sounds like you're rendering a number, this should be a small set.
- Estimate the length
- Take the strings with the top N lengths, and measure only those.
- To avoid even most of the cost of the lookup+sum, also filter to include only those strings within 90% of the maximum string-length, as suggested.
e.g. Something like...
// somewhere else, during initialization - do only once.
var digitLengthDict = possibleChars.ToDictionary(c=>c,c=>TextRenderer.MeasureText(c.ToString()));
var relevantStringArray = Items.Where(w=>w.RenatlUnit!=null).Select(w.RenatlUnit.UnitNumber).ToArray();
double minStrLen = 0.9*relevantStringArray.Max(str => str.Length);
from numstr in relevantStringArray
where str.Length >= minStrLen
orderby numstr.Select(digitChar=>digitLengthDict[digitChar]).Sum() descending
).Take(10).Max() + 2;
If we knew more about the distribution of the strings, that would help.
MeasureText isn't magic; it's quite possible you can duplicate it's functionality entirely quite easily for a limited set of inputs. For instance, it would not surprise me to learn that the Measured length of a string is precisely equal to the sum of the length of all characters in the string, minus the kerning overhang of all character bigrams in the string. If your string then consists of, say,
., and a terminator symbol, then a lookup table of 14 character widths and
15*15-1 kernel corrections might be enough to precisely emulate
MeasureText at a far greater speed, and without much complexity.
Finally, the best solution is to not solve the problem at all - perhaps you can rearchitect the application to not require such a precise number - if a simpler estimate were to suffice, you could avoid
MeasureText almost completely.