/// <summary>compute the cost</summary>
/// <param name="subfrcptlt">it is allowed that there is only one point in subfrcptlt</param>
/// <param name="subtocptlt">it is allowed that there is only one point in subfrcptlt</param>
/// <param name="StandardVectorCpt">if frcpl and tocpl are not in the same place, we use StandardVectorCpt to offset their distance</param>
/// <returns>the cost</returns>
protected double CalDistance(List <CPoint> subfrcptlt, List <CPoint> subtocptlt)
{
CLIA pLIA = new CLIA(subfrcptlt, subtocptlt, true); //linear interpolation between subfrcptlt and subtocptlt
double dblEvaluation = _pEvaluation.CalEvaluationCorr(pLIA.CLI(),
_pEvaluation.dlgEvaluationMethod, pLIA.dblFrTotalLength, pLIA.dblToTotalLength);
return(dblEvaluation);
}
public CParameterResult LIMorphing()
{
List <CPolyline> pLSCPlLt = _LSCPlLt;
List <CPolyline> pSSCPlLt = _SSCPlLt;
long lngStartTime1 = System.Environment.TickCount; //lngTime1
pLSCPlLt.ForEach(cpl => cpl.SetEdgeLengthOnToCpt());
pSSCPlLt.ForEach(cpl => cpl.SetEdgeLengthOnToCpt());
long lngTime1 = System.Environment.TickCount - lngStartTime1; //lngTime1
double dblX = pSSCPlLt[0].FrCpt.X - pLSCPlLt[0].FrCpt.X;
double dblY = pSSCPlLt[0].FrCpt.Y - pLSCPlLt[0].FrCpt.Y;
CPoint StandardVectorCpt = new CPoint(0, dblX, dblY);
_StandardVectorCpt = StandardVectorCpt;
double dblStandardLength = CGeoFunc.CalDis(0, 0, dblX, dblY);
List <List <CCorrCpts> > pCorrCptsLtLt = new List <List <CCorrCpts> >(pLSCPlLt.Count);
long lngStartTime2 = System.Environment.TickCount; //lngTime2
pCorrCptsLtLt = new List <List <CCorrCpts> >(pLSCPlLt.Count); //initialize
//pCtrlCptLtLt = new List<List<CCorrCpts>>(pLSCPlLt.Count); //initialize
for (int i = 0; i < LSCPlLt.Count; i++)
{
CLIA pCLIA = new CLIA(LSCPlLt[i], SSCPlLt[i]);
pCorrCptsLtLt.Add(pCLIA.CLI().ToList());
}
long lngTime2 = System.Environment.TickCount - lngStartTime2; //lngTime2
_ParameterInitialize.tsslTime.Text = "Running Time: " + Convert.ToString(lngTime2) + "ms"; //显示运行时间
CHelpFunc.SaveCorrLine(pCorrCptsLtLt, "Linear", _ParameterInitialize.pWorkspace, _ParameterInitialize.m_mapControl);
_CorrCptsLtLt = pCorrCptsLtLt;
//the results will be recorded in _ParameterResult
CParameterResult ParameterResult = new CParameterResult();
ParameterResult.pMorphingBase = this as CMorphingBase;
_ParameterResult = ParameterResult;
return(ParameterResult);
}
/// <summary>以回溯的方式寻找对应线段</summary>
/// <returns>对应线段数组</returns>
protected List <CCorrCpts> GetCorrespondences(CTable Table, List <CPoint> frcptlt, List <CPoint> tocptlt, out List <CCorrCpts> CtrlCptsLt)
{
var CPairIntLt = new List <CPairInt>(frcptlt.Count + tocptlt.Count);
int inti = Table.intRow - 1;
int intj = Table.intCol - 1;
//record all the nodes
int intCtrlCount = 1; //number of pairs of control points
while (inti > 0 || intj > 0)
{
int intI = inti;
int intJ = intj;
CPairIntLt.Add(new CPairInt(intI, intJ));
inti = inti - Table.aCell[intI, intJ].intBackK1;
intj = intj - Table.aCell[intI, intJ].intBackK2;
intCtrlCount++;
}
//get results
List <CCorrCpts> CorrCptsLt = new List <CCorrCpts>(frcptlt.Count + tocptlt.Count - 2);
CtrlCptsLt = new List <CCorrCpts>(intCtrlCount);
//var CCorrCptsFirst = new CCorrCpts(frcptlt[0], tocptlt[0]);
//CorrCptsLt.Add(CCorrCptsFirst);
//CtrlCptsLt.Add(CCorrCptsFirst); // add the first pair of control points
for (int i = CPairIntLt.Count - 1; i >= 0; i--)
{
int intI = CPairIntLt[i].Int1;
int intJ = CPairIntLt[i].Int2;
var subfrcptlt = frcptlt.GetRange(intI - Table.aCell[intI, intJ].intBackK1, Table.aCell[intI, intJ].intBackK1 + 1);
var subtocptlt = tocptlt.GetRange(intJ - Table.aCell[intI, intJ].intBackK2, Table.aCell[intI, intJ].intBackK2 + 1);
CLIA pLIA = new CLIA(subfrcptlt, subtocptlt, true);
CorrCptsLt.AddRange(pLIA.CLI(false)); //to reduce memory using of Table, we interpolate here again
CtrlCptsLt.Add(CorrCptsLt.Last());
}
return(CorrCptsLt);
}
