protected override void WriteDataXML(XElement ele, ElderScrollsPlugin master)
{
XElement subEle;
ele.TryPathTo("Density", true, out subEle);
subEle.Value = Density.ToString();
ele.TryPathTo("Slope/Min", true, out subEle);
subEle.Value = MinSlope.ToString();
ele.TryPathTo("Slope/Max", true, out subEle);
subEle.Value = MaxSlope.ToString();
WriteUnused1XML(ele, master);
ele.TryPathTo("UnitFromWater/Amount", true, out subEle);
subEle.Value = UnitFromWaterAmount.ToString();
WriteUnused2XML(ele, master);
ele.TryPathTo("UnitFromWater/Type", true, out subEle);
subEle.Value = UnitFromWaterType.ToString();
ele.TryPathTo("PositionRange", true, out subEle);
subEle.Value = PositionRange.ToString("G15");
ele.TryPathTo("HeightRange", true, out subEle);
subEle.Value = HeightRange.ToString("G15");
ele.TryPathTo("ColorRange", true, out subEle);
subEle.Value = ColorRange.ToString("G15");
ele.TryPathTo("WavePeriod", true, out subEle);
subEle.Value = WavePeriod.ToString("G15");
ele.TryPathTo("Flags", true, out subEle);
subEle.Value = Flags.ToString();
WriteUnused3XML(ele, master);
}
private EditDistance ComputeEditDistance(double[,] sim,
PositionRange srcRange,
PositionRange trgRange)
{
const double invalidAssignmentCosts = 100000.0d;
// TODO handle special cases (one/both of the arrays being empty/having no elements)
// TODO use diagonal algorithm
int i;
int j;
int sourceObjectsCount = srcRange.Into - srcRange.Start + 1;
int targetObjectsCount = trgRange.Into - trgRange.Start + 1;
EditDistance result = new EditDistance(sourceObjectsCount, targetObjectsCount, 0.0d);
MatrixItem[,] matrix = new MatrixItem[sourceObjectsCount + 1, targetObjectsCount + 1];
// initialize matrix
matrix[0, 0] = new MatrixItem(0.0d, EditOperation.Identity, 0.0d);
for (i = 1; i <= sourceObjectsCount; ++i)
{
matrix[i, 0] = new MatrixItem((double)i * _InsertDeleteCosts, EditOperation.Delete, 0.0d);
}
for (j = 1; j <= targetObjectsCount; ++j)
{
matrix[0, j] = new MatrixItem((double)j * _InsertDeleteCosts, EditOperation.Insert, 0.0d);
}
for (i = 1; i <= sourceObjectsCount; ++i)
{
for (j = 1; j <= targetObjectsCount; ++j)
{
matrix[i, j] = new MatrixItem(0.0d, EditOperation.Identity, 0.0d);
}
}
// populate edit distance matrix
for (i = 1; i <= sourceObjectsCount; ++i)
{
for (j = 1; j <= targetObjectsCount; ++j)
{
double similarity = sim[srcRange.Start + i - 1, trgRange.Start + j - 1];
System.Diagnostics.Debug.Assert((similarity >= 0.0d && similarity <= 1.0d) ||
similarity == -1.0d);
// low similarity means high "change costs" and vice versa:
double changeCosts = (similarity < 0)
? invalidAssignmentCosts
: matrix[i - 1, j - 1].Score + (1.0d - similarity);
double insertCosts = matrix[i, j - 1].Score + _InsertDeleteCosts;
double deleteCosts = matrix[i - 1, j].Score + _InsertDeleteCosts;
double min = Math.Min(Math.Min(changeCosts, deleteCosts), insertCosts);
matrix[i, j].Score = min;
matrix[i, j].Similarity = similarity;
if (min == deleteCosts)
{
matrix[i, j].Operation = EditOperation.Delete;
}
else if (min == insertCosts)
{
matrix[i, j].Operation = EditOperation.Insert;
}
else if (min == changeCosts)
{
if (similarity == 1.0d)
{
matrix[i, j].Operation = EditOperation.Identity;
}
else
{
matrix[i, j].Operation = EditOperation.Change;
}
}
}
}
// readout the cheapest path
i = sourceObjectsCount;
j = targetObjectsCount;
// TODO we may rather need to find the end point at the borders
result.Distance += matrix[i, j].Score;
while (i > 0 || j > 0)
{
EditDistanceItem item = new EditDistanceItem();
item.Resolution = EditDistanceResolution.None;
MatrixItem m = matrix[i, j];
item.Operation = m.Operation;
switch (item.Operation)
{
case EditOperation.Identity:
item.Costs = 0.0d;
--i;
--j;
break;
case EditOperation.Change:
item.Costs = (1.0d - m.Similarity);
--i;
--j;
break;
case EditOperation.Insert:
item.Costs = _InsertDeleteCosts;
--j;
break;
case EditOperation.Delete:
item.Costs = _InsertDeleteCosts;
--i;
break;
}
System.Diagnostics.Debug.Assert(i >= 0 && j >= 0);
System.Diagnostics.Debug.Assert(sourceObjectsCount == 0 ||
item.Operation == EditOperation.Insert ||
i < sourceObjectsCount);
System.Diagnostics.Debug.Assert(targetObjectsCount == 0 ||
item.Operation == EditOperation.Delete ||
j < targetObjectsCount);
// TODO shift only for certain ops?
item.Source = srcRange.Start + i;
item.Target = trgRange.Start + j;
result.AddAtStart(item);
}
return(result);
}
