private static void BinarySearchSqrt2(int x, InOut.Ergebnis erg)
        {
            int it = 0, curr = 0;

            if (!Helfer.BinarySearch(0, x / 2, ref curr, ref it, num => (num * num).CompareTo(x)))
            {
                curr = -1;
            }
            erg.Setze(curr, it, Complexity.LOGARITHMIC, Complexity.CONSTANT);
        }
 private static Pos BinarySearchMatrix2(Helfer.Matrix <int> mat, int tar, ref int iterations, int current = 0)
 {
     if (Helfer.BinarySearch(0, mat.Length, ref current, ref iterations, (ind) => mat.GetElementAtIndex(ind).CompareTo(tar)))
     {
         return(new Pos(mat.GetCol(current) + 1, mat.GetRow(current) + 1));
     }
     else
     {
         return(new Pos(-1, -1));
     }
 }
Beispiel #3
0
        //SOL
        public static void TwoSum_BinarySearch(Input inp, InOut.Ergebnis erg)
        {
            int[]  arr  = inp.arr;
            int    tar  = inp.target;
            int    it   = 0;
            Output outp = new Output(null);

            for (int i = 0; i < arr.Length - 1; i++, it++)
            {
                int curr = 0;
                if (Helfer.BinarySearch(i + 1, arr.Length - 1, ref curr, ref it, ind => arr[ind].CompareTo(tar - arr[i])))
                {
                    outp     = new Output(new int[] { i + 1, curr + 1 });
                    outp.exp = arr[i] + " + " + arr[curr] + " = " + tar;
                    break;
                }
            }

            // log n + log n-1 + log n-2 ... => log (n * (n-1) *(n-2)...) log (n!) => log (n)
            erg.Setze(outp, it, Complexity.LINEARITHMIC, Complexity.CONSTANT, "Time is actually Log ((n-1)!)");
        }