/*
Taken from https://gist.github.com/mstum/63a6e3e8cf54e8ae55b6aa28ca6f20c5
Modified slightly to remove the need for unsafe and changed namespace to plugin namespace
*/
using System;
using System.Collections.Generic;
namespace COM3D2.MeidoPhotoStudio.Plugin
{
///
/// A string comparer that behaves like StrCmpLogicalW
/// https://msdn.microsoft.com/en-us/library/windows/desktop/bb759947
///
/// This means:
/// * case insensitive (ZA == za)
/// * numbers are treated as numbers (z20 > z3) and assumed positive
/// (-100 comes AFTER 10 and 100, because the minus is seen
/// as a char, not as part of the number)
/// * leading zeroes come before anything else (z001 < z01 < z1)
///
/// Note: Instead of instantiating this, you can also use
///
/// if you don't need an but can
/// use a delegate instead.
///
///
/// NOTE: This behaves slightly different than StrCmpLogicalW because
/// it handles large numbers.
///
/// At some point, StrCmpLogicalW just gives up trying to parse
/// something as a number (see the Test cases), while we keep going.
/// Since we want to sort lexicographily as much as possible,
/// that difference makes sense.
///
public class LexicographicStringComparer : IComparer
{
///
/// A delegate.
///
public static int Comparison(string x, string y)
{
// 1 = x > y, -1 = y > x, 0 = x == y
// Rules: Numbers < Letters. Space < everything
if (x == y) return 0;
if (string.IsNullOrEmpty(x) && !string.IsNullOrEmpty(y)) return -1;
if (!string.IsNullOrEmpty(x) && string.IsNullOrEmpty(y)) return 1;
if (string.IsNullOrEmpty(x) && string.IsNullOrEmpty(y)) return 0; // "" and null are the same for the purposes of this
var yl = y.Length;
for (int i = 0; i < x.Length; i++)
{
if (yl <= i) return 1;
var cx = x[i];
var cy = y[i];
if (Char.IsWhiteSpace(cx) && !Char.IsWhiteSpace(cy)) return -1;
if (!Char.IsWhiteSpace(cx) && Char.IsWhiteSpace(cy)) return 1;
if (IsDigit(cx))
{
if (!IsDigit(cy))
{
return -1;
}
// Both are digits, but now we need to look at them as a whole, since
// 10 > 2, but 10 > 002 > 02 > 2
var numCmp = CompareNumbers(x, y, i, out int numChars);
if (numCmp != 0) return numCmp;
i += numChars; // We might have looked at more than one char, e.g., "10" is 2 chars
}
else if (IsDigit(cy))
{
return 1;
}
else
{
// Do this after the digit check
// Case insensitive
// Normalize to Uppercase:
// https://docs.microsoft.com/en-US/visualstudio/code-quality/ca1308-normalize-strings-to-uppercase
var cmp = Char.ToUpper(cx).CompareTo(Char.ToUpper(cy));
if (cmp != 0) return cmp;
}
}
// Strings are equal to that point, and y is at least as large as x
if (y.Length > x.Length) return -1;
return 0;
}
///
public int Compare(string x, string y)
=> Comparison(x, y);
private static int CompareNumbers(string x, string y, int ix, out int numChars)
{
var xParsed = ParseNumber(x, ix);
var yParsed = ParseNumber(y, ix);
numChars = yParsed.NumCharsRead > xParsed.NumCharsRead
? xParsed.NumCharsRead
: yParsed.NumCharsRead;
return xParsed.CompareTo(yParsed);
}
private static ParsedNumber ParseNumber(string str, int offset)
{
var result = 0;
var numChars = 0;
var leadingZeroes = 0;
var numOverflows = 0;
bool countZeroes = true;
for (int j = offset; j < str.Length; j++)
{
char c = str[j];
if (IsDigit(c))
{
var cInt = (c - 48); // 48/0x30 is '0'
checked
{
long tmp = (result * 10L) + cInt;
if (tmp > int.MaxValue)
{
numOverflows++;
tmp = tmp % int.MaxValue;
}
result = (int)tmp;
numChars++;
}
if (cInt == 0 && countZeroes)
{
leadingZeroes++;
}
else
{
countZeroes = false;
}
}
else
{
break;
}
}
return new ParsedNumber(result, numOverflows, leadingZeroes, numChars);
}
private static bool IsDigit(char c) => (c >= '0' && c <= '9');
///
/// Note that the ParsedNumber is not very useful as a number,
/// but purely as a way to compare two numbers that are stored in a string.
///
private struct ParsedNumber : IComparable, IComparer
{
///
/// The remainder, that is, the part of the number that
/// didn't overflow int.MaxValue.
///
public int Remainder;
///
/// How often did the number overflow int.MaxValue during parsing?
///
public int Overflows;
///
/// How many leading zeroes were there in the string during parsing?
/// "001" has a LeadingZeroesCount of 2.
/// "100" has a LeadingZeroesCount of 0.
/// "010" has a LeadingZeroesCount of 1.
///
/// This is important, because 001 comes before 01 comes before 1.
///
public int LeadingZeroesCount;
///
/// How many characters were read from the input during parsing?
///
public int NumCharsRead;
public ParsedNumber(int remainder, int overflows, int leadingZeroes, int numChars)
{
Remainder = remainder;
Overflows = overflows;
LeadingZeroesCount = leadingZeroes;
NumCharsRead = numChars;
}
public int Compare(ParsedNumber x, ParsedNumber y)
{
// Note: if numCharsX and Y aren't equal, this doesn't matter
// as the return value will be either -1 or 1 anyway
if (x.Overflows > y.Overflows) return 1;
if (x.Overflows < y.Overflows) return -1;
// 001 > 01 > 1
if (x.Remainder == y.Remainder)
{
if (x.LeadingZeroesCount > y.LeadingZeroesCount) return -1;
if (x.LeadingZeroesCount < y.LeadingZeroesCount) return 1;
}
if (x.Remainder > y.Remainder) return 1;
if (x.Remainder < y.Remainder) return -1;
return 0;
}
public int CompareTo(ParsedNumber other)
=> Compare(this, other);
}
}
}