int &iGeneral, int sizeSegment,
std::vector<double> *lstInX,std::vector<double> *lstInY, std::vector<double> *lstInZ,
std::vector<double> *lstOutX,std::vector<double> *lstOutY, std::vector<double> *lstOutZ,
- std::vector<int> *lstIndexsOut )
+ std::vector<int> *lstIndexsOut, bool open )
{
creaContoursFactory f;
manualContourModel *m;
int i,size=iGeneral+sizeSegment;
-
double x,y,z;
-
m = (manualContourModel*)f.getContourModel( bbGetInputType() );
m->SetNumberOfPointsSpline( bbGetInputNbPoints() );
- m->SetCloseContour( bbGetInputOpenClose() );
+ m->SetCloseContour( open );
for (i=iGeneral;i<size;i++)
{
m->AddPoint( (*lstInX)[i] , (*lstInY)[i] , (*lstInZ)[i] );
delete m;
}
+
+void ManualContourModel_Box::RedistributionPoints( std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ,
+ std::vector<int> *lstIndexsOut )
+{
+ std::vector<double> lstRstX;
+ std::vector<double> lstRstY;
+ std::vector<double> lstRstZ;
+ int iLstIndexOut,sizeLstIndexOut = lstIndexsOut->size();
+ int ii, iGeneral=0;
+ int size;
+ for (iLstIndexOut=0; iLstIndexOut<sizeLstIndexOut; iLstIndexOut++)
+ {
+ lstRstX.clear();
+ lstRstY.clear();
+ lstRstZ.clear();
+ size=(*lstIndexsOut)[iLstIndexOut];
+ if (size>2)
+ {
+ double dist=0,dist2,distSeg,delta;
+ double dd,dx,dy,dz;
+ int i,k;
+ for ( i=iGeneral+1 ; i<iGeneral+size ; i++ )
+ {
+ dx = (*lstOutX)[i]-(*lstOutX)[i-1];
+ dy = (*lstOutY)[i]-(*lstOutY)[i-1];
+ dz = (*lstOutZ)[i]-(*lstOutZ)[i-1];
+ dist= dist+sqrt( dx*dx + dy*dy + dz*dz );
+ } //for
+ delta = dist/(size-1);
+ lstRstX.push_back( (*lstOutX)[iGeneral] );
+ lstRstY.push_back( (*lstOutY)[iGeneral] );
+ lstRstZ.push_back( (*lstOutZ)[iGeneral] );
+ for (i=iGeneral+1; i<iGeneral+size;i++)
+ {
+ dist2 = 0;
+ for (k=iGeneral+1; k<iGeneral+size;k++)
+ {
+ dx = (*lstOutX)[k]-(*lstOutX)[k-1];
+ dy = (*lstOutY)[k]-(*lstOutY)[k-1];
+ dz = (*lstOutZ)[k]-(*lstOutZ)[k-1];
+ distSeg = sqrt( dx*dx + dy*dy + dz*dz );
+ ii = i-iGeneral;
+ if ( dist2+distSeg >= ii*delta )
+ {
+ dd=(ii*delta-dist2)/distSeg;
+ if (distSeg==0)
+ {
+ dd = 0;
+ } // if distSeg == 0
+ lstRstX.push_back( (*lstOutX)[k-1] + dd*dx );
+ lstRstY.push_back( (*lstOutY)[k-1] + dd*dy );
+ lstRstZ.push_back( (*lstOutZ)[k-1] + dd*dz );
+ k=iGeneral+size;
+ } else {
+ if ( k==iGeneral+size-1 )
+ {
+ dd = 1;
+ lstRstX.push_back( (*lstOutX)[k-1] + dd*dx );
+ lstRstY.push_back( (*lstOutY)[k-1] + dd*dy );
+ lstRstZ.push_back( (*lstOutZ)[k-1] + dd*dz );
+ }
+ }// if dist2
+ dist2 = dist2+distSeg;
+ } // for k
+ } //for i
+ if (lstRstX.size()!=size)
+ {
+ printf("EED Warnning! ManualContourModel_Box::RedistributionPoints >> This list is not coherent iLstIndexOut=%d lstRstX.size()=%d size=%d\n",iLstIndexOut, lstRstX.size(), size);
+ }
+ for (i=iGeneral; i<iGeneral+size;i++)
+ {
+ ii=i-iGeneral;
+ (*lstOutX)[i] = lstRstX[ii];
+ (*lstOutY)[i] = lstRstY[ii];
+ (*lstOutZ)[i] = lstRstZ[ii];
+ } // for i
+ } // if size>2
+ iGeneral=iGeneral+size;
+ }// for iLstIndexOut
+}
+
+
+//-------------------------------------------------------------------------------------------------------------
+
+
+void ManualContourModel_Box::ExtractContour( std::vector<double> *lstX,
+ std::vector<double> *lstY,
+ std::vector<double> *lstZ,
+ std::vector<int> *lstIndexs,
+ int contour,
+ std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ )
+{
+ int i;
+// int iLstIndex;
+ int iContour;
+ int sizeLstIndexslstIndexs;
+ int iGeneral;
+ int iGeneralPlusSize;
+ if ( (lstX!=NULL) && (lstY!=NULL) && (lstZ!=NULL) && (lstIndexs!=NULL) && (lstOutX!=NULL) && (lstOutY!=NULL) && (lstOutZ!=NULL) )
+ {
+ sizeLstIndexslstIndexs = (*lstIndexs).size();
+ if ( sizeLstIndexslstIndexs!=0 )
+ {
+ (*lstOutX).clear();
+ (*lstOutY).clear();
+ (*lstOutZ).clear();
+ iGeneral = 0;
+ iGeneralPlusSize = (*lstIndexs)[0];
+ for ( iContour=1 ; iContour<=contour ; iContour++ )
+ {
+ iGeneral = iGeneral+(*lstIndexs)[iContour-1];
+ iGeneralPlusSize = iGeneral+(*lstIndexs)[iContour];
+ } // for iContour
+ for ( i=iGeneral ; i<iGeneralPlusSize ; i++ )
+ {
+ (*lstOutX).push_back( (*lstX)[i] );
+ (*lstOutY).push_back( (*lstY)[i] );
+ (*lstOutZ).push_back( (*lstZ)[i] );
+ } //for
+ } // size
+ } // NULL
+}
+
+void ManualContourModel_Box::PutPointsInContour(std::vector<double> *lstTmpX,
+ std::vector<double> *lstTmpY,
+ std::vector<double> *lstTmpZ,
+ int contour,
+ std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ,
+ std::vector<int> *lstOutIndexs )
+{
+ int i;
+// int iLstIndex;
+ int iContour;
+ int sizeLstIndexslstIndexs;
+ int iGeneral;
+ int iGeneralPlusSize;
+ int iSize;
+ int SizeContour;
+ if ( (lstTmpX!=NULL) && (lstTmpY!=NULL) && (lstTmpZ!=NULL) && (lstOutX!=NULL) && (lstOutY!=NULL) && (lstOutZ!=NULL) && (lstOutIndexs!=NULL) )
+ {
+ sizeLstIndexslstIndexs = (*lstOutIndexs).size();
+ if ( sizeLstIndexslstIndexs!=0 )
+ {
+ iGeneral = 0;
+ SizeContour = (*lstOutIndexs)[0];
+ iGeneralPlusSize = iGeneral + SizeContour;
+ for ( iContour=1 ; iContour<=contour ; iContour++ )
+ {
+ iGeneral = iGeneral + (*lstOutIndexs)[iContour-1];
+ SizeContour = (*lstOutIndexs)[iContour];
+ iGeneralPlusSize = iGeneral + SizeContour;
+ } // for iContour
+
+ if(SizeContour==(*lstTmpX).size() )
+ {
+ int iSize=0;
+ for ( i=iGeneral ; i<iGeneralPlusSize ; i++ )
+ {
+ (*lstOutX)[i] = (*lstTmpX)[iSize] ;
+ (*lstOutY)[i] = (*lstTmpY)[iSize] ;
+ (*lstOutZ)[i] = (*lstTmpZ)[iSize] ;
+ iSize++;
+ } //for
+ } else {
+ printf("EED Warnning!! ManualContourModel_Box::PutPointsInContour the lstTmp vector is not of the correct size. SizeContour=%d lstTmp.size=%d\n"
+ ,SizeContour, (*lstTmpX).size() );
+ for ( i=iGeneral ; i<iGeneralPlusSize ; i++ )
+ {
+ (*lstOutX)[i] = -9999 ;
+ (*lstOutY)[i] = -9999 ;
+ (*lstOutZ)[i] = -9999 ;
+ } //for
+ }
+ } // size
+ } // NULL
+}
+
+
+void ManualContourModel_Box::Redistribution_SIN( double alpha,
+ double beta,
+ std::vector<double> *lstC1X,
+ std::vector<double> *lstC1Y,
+ std::vector<double> *lstC1Z,
+ double sizeOfContour,
+ std::vector<double> *lstC2X,
+ std::vector<double> *lstC2Y,
+ std::vector<double> *lstC2Z )
+{
+ std::vector<double> lstRstX;
+ std::vector<double> lstRstY;
+ std::vector<double> lstRstZ;
+ int ii,iGeneral;
+ int size,iGeneralPlusSize;
+ int iGeneralPlusSizeMoisUn;
+ int iGeneralPlusSizeMoisDeux;
+ int i,k;
+ int firstK;
+ double iiByDelta;
+ double dist2,distSeg;
+ double dd,dx,dy,dz;
+ double t,tt, PI;
+ double TwoPI;
+ double dist;
+ dist = sizeOfContour;
+ PI = 3.14159265;
+ TwoPI = 2*PI;
+ iGeneral = 0;
+ size = (*lstC1X).size();
+ iGeneralPlusSize = iGeneral+size;
+ iGeneralPlusSizeMoisUn = iGeneralPlusSize-1;
+ iGeneralPlusSizeMoisDeux = iGeneralPlusSize-2;
+ if (size>2)
+ {
+ firstK = 0;
+ for (i=iGeneral; i<iGeneralPlusSize;i++) // For each point of one contour
+ {
+ ii = i-iGeneral;
+ dist2 = 0;
+
+ t = ((double)ii) / ((double)(size-1));
+ tt = t + 0.70710678182*sin(t*TwoPI)*beta + alpha;
+ if (tt>1) { tt=tt-1; }
+ if (tt<0) { tt=tt+1; }
+ iiByDelta = tt * dist;
+
+ for ( k=iGeneral ; k<iGeneralPlusSizeMoisUn ; k++ ) // Search inside
+ {
+ dx = (*lstC1X)[k+1]-(*lstC1X)[k];
+ dy = (*lstC1Y)[k+1]-(*lstC1Y)[k];
+ dz = (*lstC1Z)[k+1]-(*lstC1Z)[k];
+ distSeg = sqrt( dx*dx + dy*dy + dz*dz );
+ if ( dist2+distSeg >= iiByDelta )
+ {
+ if (distSeg==0)
+ {
+ dd = 0;
+ } else {
+ dd=(iiByDelta-dist2)/distSeg;
+ }// if distSeg == 0
+ lstRstX.push_back( (*lstC1X)[k] + dd*dx );
+ lstRstY.push_back( (*lstC1Y)[k] + dd*dy );
+ lstRstZ.push_back( (*lstC1Z)[k] + dd*dz );
+ if (ii==0) { firstK=k; }
+ k = iGeneralPlusSize-1;
+ } else {
+ if ( k==iGeneralPlusSizeMoisDeux )
+ {
+ dd = 1;
+ lstRstX.push_back( (*lstC1X)[k] + dd*dx );
+ lstRstY.push_back( (*lstC1Y)[k] + dd*dy );
+ lstRstZ.push_back( (*lstC1Z)[k] + dd*dz );
+ } // if k
+ }// if dist2
+ dist2 = dist2 + distSeg;
+ } // for k
+ } //for i
+ if (lstRstX.size()!=size)
+ {
+ printf("EED Warnning! ManualContourModel_Box::Redistribution_SIN >> This list is not coherent lstRstX.size()=%d size=%d\n", lstRstX.size(), size);
+ }
+ (*lstC2X).clear();
+ (*lstC2Y).clear();
+ (*lstC2Z).clear();
+ for (i=iGeneral; i<iGeneralPlusSize;i++)
+ {
+ (*lstC2X).push_back(-1);
+ (*lstC2Y).push_back(-1);
+ (*lstC2Z).push_back(-1);
+ } // for i
+ int iii;
+ for (i=iGeneral; i<iGeneralPlusSize;i++)
+ {
+ ii = i-iGeneral;
+ iii = iGeneral+ ( (i-iGeneral) + firstK) % size ;
+ (*lstC2X)[iii] = lstRstX[ii];
+ (*lstC2Y)[iii] = lstRstY[ii];
+ (*lstC2Z)[iii] = lstRstZ[ii];
+ } // for i
+ (*lstC2X)[iGeneralPlusSize-1]=(*lstC2X)[iGeneral];
+ (*lstC2Y)[iGeneralPlusSize-1]=(*lstC2Y)[iGeneral];
+ (*lstC2Z)[iGeneralPlusSize-1]=(*lstC2Z)[iGeneral];
+ } else {
+ for (i=0; i<size ; i++)
+ {
+ (*lstC2X)[i] = (*lstC1X)[i];
+ (*lstC2Y)[i] = (*lstC1Y)[i];
+ (*lstC2Z)[i] = (*lstC1Z)[i];
+ } // for i
+ }// if size>2
+}
+
+void ManualContourModel_Box::CopyContour2InContour1(
+ std::vector<double> *lstInX,
+ std::vector<double> *lstInY,
+ std::vector<double> *lstInZ,
+ std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ )
+{
+ int i,sizeLstInX=(*lstInX).size();
+ (*lstOutX).clear();
+ (*lstOutY).clear();
+ (*lstOutZ).clear();
+ for ( i=0 ; i<sizeLstInX ; i++ )
+ {
+ (*lstOutX).push_back( (*lstInX)[i] );
+ (*lstOutY).push_back( (*lstInY)[i] );
+ (*lstOutZ).push_back( (*lstInZ)[i] );
+ } // for i
+}
+
+double ManualContourModel_Box::IntegralDistanceTwoContours(std::vector<double> *lstTmpAX,
+ std::vector<double> *lstTmpAY,
+ std::vector<double> *lstTmpAZ,
+ std::vector<double> *lstTmpBX,
+ std::vector<double> *lstTmpBY,
+ std::vector<double> *lstTmpBZ )
+{
+ int i;
+ double dx;
+ double dy;
+ double dz;
+ double dist = 0;
+ int iSize = (*lstTmpAX).size();
+ for ( i=0 ; i<iSize ; i++ )
+ {
+ dx = (*lstTmpAX)[i]-(*lstTmpBX)[i];
+ dy = (*lstTmpAY)[i]-(*lstTmpBY)[i];
+ dz = (*lstTmpAZ)[i]-(*lstTmpBZ)[i];
+// dist = dist + sqrt( dx*dx + dy*dy + dz*dz );
+ dist = dist + (dx*dx + dy*dy + dz*dz) ;
+ } //for i
+ return dist;
+}
+
+void ManualContourModel_Box::findAlphaBetaSinDistribution( std::vector<double> *ptrLstTmp2X,
+ std::vector<double> *ptrLstTmp2Y,
+ std::vector<double> *ptrLstTmp2Z ,
+ int sizeContour,
+ std::vector<double> *ptrLstTmp1X,
+ std::vector<double> *ptrLstTmp1Y,
+ std::vector<double> *ptrLstTmp1Z,
+ double *alphaOut,
+ double *betaOut)
+{
+ std::vector<double> lstTmp2aX;
+ std::vector<double> lstTmp2aY;
+ std::vector<double> lstTmp2aZ;
+ double alpha,iAlpha,deltaAlpha;
+ double beta,iBeta,deltaBeta;
+ double distAcum;
+ double minDistAcum;
+ deltaAlpha = 0.1 / 2;
+ deltaBeta = 0.01 / 2;
+ beta = 0.05;
+ alpha = 0;
+ minDistAcum = 999999999999;
+ for (iAlpha=0 ; iAlpha<1; iAlpha=iAlpha+deltaAlpha )
+ {
+ Redistribution_SIN( iAlpha,beta, ptrLstTmp2X,ptrLstTmp2Y,ptrLstTmp2Z ,sizeContour, &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ distAcum = IntegralDistanceTwoContours( ptrLstTmp1X,ptrLstTmp1Y,ptrLstTmp1Z , &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ if (distAcum<minDistAcum)
+ {
+ alpha = iAlpha;
+ minDistAcum = distAcum;
+ } // if integerDist
+ } // for alpha
+// find Beta
+ minDistAcum = 999999999999;
+ for (iBeta=0.0 ; iBeta<0.2; iBeta=iBeta+deltaBeta)
+ {
+ Redistribution_SIN( alpha,iBeta, ptrLstTmp2X,ptrLstTmp2Y,ptrLstTmp2Z ,sizeContour, &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ distAcum = IntegralDistanceTwoContours( ptrLstTmp1X,ptrLstTmp1Y,ptrLstTmp1Z , &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ if (distAcum<minDistAcum)
+ {
+ beta = iBeta;
+ minDistAcum = distAcum;
+ } // if integerDist
+ } // for iBeta
+ *alphaOut = alpha;
+ *betaOut = beta;
+}
+
+
+
+double ManualContourModel_Box::SizeContour( std::vector<double> *lstX,
+ std::vector<double> *lstY,
+ std::vector<double> *lstZ)
+{
+ int i;
+ double dx;
+ double dy;
+ double dz;
+ double dist = 0;
+ int iSize = (*lstX).size() - 1;
+ for ( i=0 ; i<iSize ; i++ )
+ {
+ dx = (*lstX)[i+1]-(*lstX)[i];
+ dy = (*lstY)[i+1]-(*lstY)[i];
+ dz = (*lstZ)[i+1]-(*lstZ)[i];
+ dist= dist+sqrt( dx*dx + dy*dy + dz*dz );
+ } //for i
+ return dist;
+}
+
+
+
+void ManualContourModel_Box::CalculeLstSizeContours( std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ,
+ std::vector<int> *lstIndexsOut,
+ std::vector<double> *lstSizeContours )
+{
+ int i;
+// int iLstIndex;
+ int iContour;
+ int sizeLstIndexs;
+ int iGeneral;
+ int iGeneralPlusSize;
+ double dx,dy,dz;
+ double dist;
+ (*lstSizeContours).clear();
+ if ( (lstOutX!=NULL) && (lstOutY!=NULL) && (lstOutZ!=NULL) && (lstIndexsOut!=NULL) )
+ {
+ sizeLstIndexs = (*lstIndexsOut).size();
+ if ( sizeLstIndexs!=0 )
+ {
+ iGeneral = 0;
+ for ( iContour=0 ; iContour<sizeLstIndexs ; iContour++ )
+ {
+ dist = 0;
+ iGeneralPlusSize = iGeneral + (*lstIndexsOut)[iContour];
+ for ( i=iGeneral+1 ; i<iGeneralPlusSize ; i++ )
+ {
+ dx = (*lstOutX)[i]-(*lstOutX)[i-1] ;
+ dy = (*lstOutY)[i]-(*lstOutY)[i-1] ;
+ dz = (*lstOutZ)[i]-(*lstOutZ)[i-1] ;
+ dist= dist + sqrt( dx*dx +dy*dy + dz*dz );
+ } // for iGeneral
+ (*lstSizeContours).push_back( dist );
+ iGeneral = iGeneralPlusSize;
+ } // for iContour
+ } // sizeLstIndexs
+ } // if lst NULL
+}
+
+
+void ManualContourModel_Box::RedistributionPointsAllContours_SIN( std::vector<double> *lstOutX,
+ std::vector<double> *lstOutY,
+ std::vector<double> *lstOutZ,
+ std::vector<int> *lstIndexsOut )
+{
+ std::vector<double> lstTmp1X;
+ std::vector<double> lstTmp1Y;
+ std::vector<double> lstTmp1Z;
+ std::vector<double> lstTmp2X;
+ std::vector<double> lstTmp2Y;
+ std::vector<double> lstTmp2Z;
+ std::vector<double> lstTmp2aX;
+ std::vector<double> lstTmp2aY;
+ std::vector<double> lstTmp2aZ;
+ std::vector<double> lstTmp3X;
+ std::vector<double> lstTmp3Y;
+ std::vector<double> lstTmp3Z;
+ std::vector<int> lstContourExeption;
+ std::vector<double> lstSizeContours;
+ int iContour;
+ double nbContours = (*lstIndexsOut).size();
+ double alpha,beta;
+ double sizeContour1;
+ double sizeContour2;
+ double sizeContour3;
+
+ CalculeLstSizeContours(lstOutX,lstOutY,lstOutZ,lstIndexsOut, &lstSizeContours);
+
+// ------------ Wave 1 Back to Fordward (redistribution for the little one)-----------------
+ ExtractContour(lstOutX,lstOutY,lstOutZ,lstIndexsOut,0,&lstTmp1X,&lstTmp1Y,&lstTmp1Z);
+// sizeContour1 = SizeContour( &lstTmp1X, &lstTmp1Y, &lstTmp1Z );
+ sizeContour1 = lstSizeContours[0];
+
+// Increment
+ for ( iContour=0; iContour<nbContours-1 ; iContour++ ) // Back to Fordward
+ {
+ ExtractContour( lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour+1 ,&lstTmp2X,&lstTmp2Y,&lstTmp2Z );
+// sizeContour2 = SizeContour( &lstTmp2X, &lstTmp2Y, &lstTmp2Z );
+ sizeContour2 = lstSizeContours[ iContour+1 ];
+
+ if (iContour+2<nbContours)
+ {
+// ExtractContour( lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour+2 ,&lstTmp3X,&lstTmp3Y,&lstTmp3Z );
+// sizeContour3 = SizeContour( &lstTmp3X, &lstTmp3Y, &lstTmp3Z );
+ sizeContour3 = lstSizeContours[ iContour+2 ];
+ } else {
+ sizeContour3=-1;
+ }
+ if ( (sizeContour1>=sizeContour2) && (sizeContour2>sizeContour3) )
+ {
+ findAlphaBetaSinDistribution( &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp1X,&lstTmp1Y,&lstTmp1Z, &alpha,&beta);
+ Redistribution_SIN( alpha,beta, &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ sizeContour2 = SizeContour( &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ lstSizeContours[ iContour+1 ] = sizeContour2;
+ PutPointsInContour(&lstTmp2aX,&lstTmp2aY,&lstTmp2aZ, iContour+1 ,lstOutX,lstOutY,lstOutZ,lstIndexsOut);
+ CopyContour2InContour1( &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ , &lstTmp1X,&lstTmp1Y,&lstTmp1Z );
+ } else {
+ if ( (sizeContour3!=-1) && (sizeContour1<sizeContour2) && (sizeContour2>sizeContour3) ) // Warning for a maximum local
+ {
+ lstInconsistentContourY.push_back( lstTmp2Y[0] );
+ lstInconsistentContourID.push_back( iContour+1 );
+ } // if maximum local
+ CopyContour2InContour1( &lstTmp2aX,&lstTmp2Y,&lstTmp2Z , &lstTmp1X,&lstTmp1Y,&lstTmp1Z );
+ } //if sizeContour1>sizeContour2>sizeContour3
+ sizeContour1 = sizeContour2;
+ } // for iContour
+
+
+// ------------ Wave 2 fordward to back (redistribute the litle one)-----------------
+ ExtractContour(lstOutX,lstOutY,lstOutZ,lstIndexsOut,nbContours-1,&lstTmp1X,&lstTmp1Y,&lstTmp1Z);
+// sizeContour1 = SizeContour( &lstTmp1X, &lstTmp1Y, &lstTmp1Z );
+ sizeContour1 = lstSizeContours[ nbContours-1 ];
+
+// Increment
+ for ( iContour=nbContours-1; iContour>0 ; iContour-- ) // Fordward to Back
+ {
+ ExtractContour( lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour-1 ,&lstTmp2X,&lstTmp2Y,&lstTmp2Z );
+// sizeContour2 = SizeContour( &lstTmp2X, &lstTmp2Y, &lstTmp2Z );
+ sizeContour2 = lstSizeContours[ iContour-1 ];
+ if (iContour-2>=0)
+ {
+// ExtractContour( lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour-2 ,&lstTmp3X,&lstTmp3Y,&lstTmp3Z );
+// sizeContour3 = SizeContour( &lstTmp3X, &lstTmp3Y, &lstTmp3Z );
+ sizeContour3 = lstSizeContours[ iContour-2 ];
+ } else {
+ sizeContour3=-1;
+ }
+ if ( (sizeContour1>sizeContour2) && (sizeContour2>sizeContour3) )
+ {
+ findAlphaBetaSinDistribution( &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp1X,&lstTmp1Y,&lstTmp1Z, &alpha,&beta);
+ Redistribution_SIN( alpha,beta, &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ sizeContour2 = SizeContour( &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ lstSizeContours[ iContour-1 ] = sizeContour2;
+ PutPointsInContour(&lstTmp2aX,&lstTmp2aY,&lstTmp2aZ, iContour-1 ,lstOutX,lstOutY,lstOutZ,lstIndexsOut);
+ CopyContour2InContour1( &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ , &lstTmp1X,&lstTmp1Y,&lstTmp1Z );
+ } else {
+ if ( (sizeContour1>sizeContour2) && (sizeContour2<sizeContour3) ) // Warning for a minim local
+ {
+ lstContourExeption.push_back( iContour-1 );
+ } // if minimum local
+ if ( (sizeContour3!=-1) && (sizeContour1<sizeContour2) && (sizeContour2>sizeContour3) ) // Warning for a maximum local
+ {
+ lstInconsistentContourY.push_back( lstTmp2Y[0] );
+ lstInconsistentContourID.push_back( iContour-1 );
+ } // if Maximum local
+ CopyContour2InContour1( &lstTmp2X,&lstTmp2Y,&lstTmp2Z , &lstTmp1X,&lstTmp1Y,&lstTmp1Z );
+ } //if sizeContour1>sizeContour2>sizeContour3
+ sizeContour1 = sizeContour2;
+ } // for iContour
+
+// ------------ Wave 3 redistribution for the minimun detected in Wave 1 -----------------
+ double alpha1,alpha2;
+ double beta1,beta2;
+ double iExtra,sizeExtra=lstContourExeption.size();
+ for ( iExtra=0 ; iExtra<sizeExtra ; iExtra++ )
+ {
+ iContour = lstContourExeption[iExtra];
+ ExtractContour(lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour-1 , &lstTmp1X,&lstTmp1Y,&lstTmp1Z);
+ ExtractContour(lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour , &lstTmp2X,&lstTmp2Y,&lstTmp2Z);
+ ExtractContour(lstOutX,lstOutY,lstOutZ,lstIndexsOut, iContour+1 , &lstTmp3X,&lstTmp3Y,&lstTmp3Z);
+// sizeContour2 = SizeContour( &lstTmp2X, &lstTmp2Y, &lstTmp2Z );
+ sizeContour2 = lstSizeContours[ iContour ];
+ printf("EED Warnning! ManualContourModel_Box::RedistributionPointsAllContours_SIN wave3 posible inconsistent contour y=%f iContour=%d\n", lstTmp2Y[0], iContour );
+ lstInconsistentContourY.push_back( lstTmp2Y[0] );
+ lstInconsistentContourID.push_back( iContour );
+ findAlphaBetaSinDistribution( &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp1X,&lstTmp1Y,&lstTmp1Z, &alpha1,&beta1);
+ findAlphaBetaSinDistribution( &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp3X,&lstTmp3Y,&lstTmp3Z, &alpha2,&beta2);
+ if (beta2>beta1)
+ {
+ alpha = alpha2;
+ } else {
+ alpha = alpha1;
+ }
+ beta = ( beta1 + beta2 ) / 2;
+ Redistribution_SIN( alpha,beta, &lstTmp2X,&lstTmp2Y,&lstTmp2Z ,sizeContour2, &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ sizeContour2 = SizeContour( &lstTmp2aX,&lstTmp2aY,&lstTmp2aZ );
+ lstSizeContours[ iContour ] = sizeContour2;
+ PutPointsInContour(&lstTmp2aX,&lstTmp2aY,&lstTmp2aZ, iContour ,lstOutX,lstOutY,lstOutZ,lstIndexsOut);
+ } // for iExtra
+
+
+}
+
+void ManualContourModel_Box::ClockwisePoints( std::vector<double> *lstInX,
+ std::vector<double> *lstInY,
+ std::vector<double> *lstInZ,
+ std::vector<int> *lstIndexsIn )
+{
+ int iLstIndexIn,sizeLstIndexIn=lstIndexsIn->size();
+ int i,iGeneral=0;
+ int size,size2;
+ double cx,cy,cz;
+ double px,py,pz;
+ double backpx,backpy,backpz;
+ double ang;
+ char dir=-1;
+ bool dirx,diry,dirz;
+ int flagAng=0;
+ float backang;
+ double tmp;
+
+ // For each contour
+ for (iLstIndexIn=0; iLstIndexIn<sizeLstIndexIn; iLstIndexIn++)
+ {
+ // Step 1. Find gravity center and direction
+ size = (*lstIndexsIn)[iLstIndexIn];
+ if (size>2) // for contour with more than 2 points
+ {
+ cx = 0;
+ cy = 0;
+ cz = 0;
+ dirx = true;
+ diry = true;
+ dirz = true;
+ for ( i=0 ; i<size ; i++ )
+ {
+ px=(*lstInX)[iGeneral+i];
+ py=(*lstInY)[iGeneral+i];
+ pz=(*lstInZ)[iGeneral+i];
+ cx = px + cx;
+ cy = py + cy;
+ cz = pz + cz;
+ if (i!=0)
+ {
+ if (backpx!=px) { dirx=false; }
+ if (backpy!=py) { diry=false; }
+ if (backpz!=pz) { dirz=false; }
+ backpx=px;
+ backpy=py;
+ backpz=pz;
+ } // if i!=0
+ backpx=px;
+ backpy=py;
+ backpz=pz;
+ } // for i
+ cx=cx/size;
+ cy=cy/size;
+ cz=cz/size;
+ if (dirx==true) { dir=1; } // YZ
+ if (diry==true) { dir=2; } // XZ
+ if (dirz==true) { dir=0; } // XZ
+ // Step 2. Find angle diference find
+ flagAng=0;
+ for ( i=0 ; i<size ; i++ )
+ {
+ px = (*lstInX)[iGeneral+i]-cx;
+ py = (*lstInY)[iGeneral+i]-cy;
+ pz = (*lstInZ)[iGeneral+i]-cz;
+ if (dir==0) { ang=atan2( py , px ); } // XY
+ if (dir==1) { ang=atan2( pz , py ); } // YZ
+ if (dir==2) { ang=atan2( pz , px ); } // XZ
+ if (i>0)
+ {
+ if (backang<ang)
+ {
+ flagAng++;
+ } else {
+ flagAng--;
+ }// if backang<ang
+ } // if i
+ backang=ang;
+ } // for i
+
+
+ // Step 3. Invert order of points
+ if (flagAng<0)
+ {
+ size2 = size/2;
+ for ( i=0 ; i<size2 ; i++ )
+ {
+ tmp = (*lstInX)[iGeneral+i];
+ (*lstInX)[iGeneral+i] = (*lstInX)[iGeneral+size-1-i];
+ (*lstInX)[iGeneral+size-1-i] = tmp;
+ tmp = (*lstInY)[iGeneral+i];
+ (*lstInY)[iGeneral+i] = (*lstInY)[iGeneral+size-1-i];
+ (*lstInY)[iGeneral+size-1-i] = tmp;
+ tmp = (*lstInZ)[iGeneral+i];
+ (*lstInZ)[iGeneral+i] = (*lstInZ)[iGeneral+size-1-i];
+ (*lstInZ)[iGeneral+size-1-i] = tmp;
+ } // for i
+ } // flagAng
+ } // size>2
+ iGeneral = iGeneral+size;
+ } // for iLstIndexIn
+}
+
+
+void ManualContourModel_Box::ShiftValues( std::vector<double> *lstInX,
+ std::vector<double> *lstInY,
+ std::vector<double> *lstInZ,
+ std::vector<int> *lstIndexsIn )
+{
+ int iLstIndexIn,sizeLstIndexIn=lstIndexsIn->size();
+ int ii, iGeneral=0;
+ int size,size2;
+ double dist,distMin;
+ int i,iBack;
+ int ig;
+ double dx,dy,dz;
+ std::vector<double> LstTmpX;
+ std::vector<double> LstTmpY;
+ std::vector<double> LstTmpZ;
+ if (sizeLstIndexIn>=2)
+ {
+ for (iLstIndexIn=0; iLstIndexIn<sizeLstIndexIn-1; iLstIndexIn++)
+ {
+ size = (*lstIndexsIn)[iLstIndexIn];
+ size2 = (*lstIndexsIn)[iLstIndexIn+1];
+ //find min distance and iBack
+ distMin = 10000000;
+ iBack = 0;
+ // Comparing distance between two contours
+ // Both contours need the same size
+ for (ig=0; ig<size; ig++)
+ {
+ dist=0;
+ for ( i=0 ; i<size2 ; i++ )
+ {
+ dx = (*lstInX)[iGeneral+i]-(*lstInX)[iGeneral+size+(i+ig)%size];
+ dy = (*lstInY)[iGeneral+i]-(*lstInY)[iGeneral+size+(i+ig)%size];
+ dz = (*lstInZ)[iGeneral+i]-(*lstInZ)[iGeneral+size+(i+ig)%size];
+ dist= dist + sqrt( dx*dx + dy*dy + dz*dz );
+ } // for i size2
+ if ( dist<distMin )
+ {
+ iBack = ig+size;
+ distMin = dist;
+ }
+ } // for ig size
+ if (iBack!=0)
+ {
+ LstTmpX.clear();
+ LstTmpY.clear();
+ LstTmpZ.clear();
+ for (i=0 ; i<size2 ; i++)
+ {
+ ii = (i+iBack)%size2;
+ if (ii<(size2-1)) // Skip the last item
+ {
+ LstTmpX.push_back( (*lstInX)[iGeneral+size+ii] );
+ LstTmpY.push_back( (*lstInY)[iGeneral+size+ii] );
+ LstTmpZ.push_back( (*lstInZ)[iGeneral+size+ii] );
+ }
+ } // for i
+ //Repeat the first item at the end to close the contour
+ LstTmpX.push_back( LstTmpX[0] );
+ LstTmpY.push_back( LstTmpY[0] );
+ LstTmpZ.push_back( LstTmpZ[0] );
+ for (i=0 ; i<size2 ; i++)
+ {
+ (*lstInX)[iGeneral+size+i] = LstTmpX[i];
+ (*lstInY)[iGeneral+size+i] = LstTmpY[i];
+ (*lstInZ)[iGeneral+size+i] = LstTmpZ[i];
+ } // for i
+ }
+ iGeneral=iGeneral+size;
+ } // for iLstIndexIn
+ } // if sizeLstIndexIn
+}
+
+
+
void ManualContourModel_Box::Process()
{
// THE MAIN PROCESSING METHOD BODY
// bbSetOutputOut( bbGetInputIn() );
// std::cout << "Output value = " <<bbGetOutputOut() << std::endl;
-
- std::vector<double> lstInX=bbGetInputLstControlPointsX();
- std::vector<double> lstInY=bbGetInputLstControlPointsY();
- std::vector<double> lstInZ=bbGetInputLstControlPointsZ();
-
- if ( (lstInX.size()!=lstInY.size()) || (lstInY.size()!=lstInZ.size()) )
- {
- printf("Warnning !! .. ManualContourModel_Box: The list X Y Z, no have the same number of elements \n");
- return;
- }
-
- std::vector<int> lstIndexsIn=bbGetInputLstIndexsIn();
- std::vector<int> lstIndexsOut;
- std::vector<double> lstOutX;
- std::vector<double> lstOutY;
- std::vector<double> lstOutZ;
-
- if (bbGetInputLstIndexsIn().size()==0)
+ if (bbGetInputActive()==true)
{
- lstIndexsIn.push_back( lstInX.size() );
- }
+ lstInconsistentContourY.clear();
+ lstInconsistentContourID.clear();
- int i,size=lstIndexsIn.size();
- int iGeneral=0;
- for (i=0;i<size;i++)
- {
- ProcessBySegment( bbGetInputType() ,
- iGeneral, lstIndexsIn[i] ,
- &lstInX,&lstInY,&lstInZ,
- &lstOutX,&lstOutY,&lstOutZ,
- &lstIndexsOut);
- } // for
- bbSetOutputLstContourPointsX(lstOutX);
- bbSetOutputLstContourPointsY(lstOutY);
- bbSetOutputLstContourPointsZ(lstOutZ);
- bbSetOutputLstIndexsOut(lstIndexsOut);
+ // First Step Spline Interpolation
+ std::vector<double> lstInX=bbGetInputLstControlPointsX();
+ std::vector<double> lstInY=bbGetInputLstControlPointsY();
+ std::vector<double> lstInZ=bbGetInputLstControlPointsZ();
+ if ( (lstInX.size()!=lstInY.size()) || (lstInY.size()!=lstInZ.size()) )
+ {
+ printf("Warnning !! .. ManualContourModel_Box: The list X Y Z, no have the same number of elements \n");
+ return;
+ }
+ std::vector<int> lstIndexsIn=bbGetInputLstIndexsIn();
+ std::vector<int> lstIndexsOut;
+ std::vector<double> lstOutX;
+ std::vector<double> lstOutY;
+ std::vector<double> lstOutZ;
+ if (bbGetInputLstIndexsIn().size()==0)
+ {
+ lstIndexsIn.push_back( lstInX.size() );
+ }
+
+ // Step 1. All contours the same clockwise direction (Control Points)
+ if (bbGetInputDoubleContour()==1)
+ {
+ ClockwisePoints( &lstInX , &lstInY , &lstInZ , &lstIndexsIn );
+ // ShiftValues( &lstInX , &lstInY , &lstInZ , &lstIndexsIn );
+ } // DoubleContour
+ int i,size = lstIndexsIn.size();
+ int iGeneral= 0;
+
+ // Step 2. Spline interpolation of control points
+ for (i=0;i<size;i++)
+ {
+ ProcessBySegment( bbGetInputType() ,
+ iGeneral, lstIndexsIn[i] ,
+ &lstInX , &lstInY , &lstInZ,
+ &lstOutX , &lstOutY , &lstOutZ,
+ &lstIndexsOut,bbGetInputOpenClose() );
+ } // for
+ if (bbGetInputDoubleContour()==0)
+ {
+ // Finish if Simple contours
+ //////////////////// Set Out DoubleContour = 0
+ bbSetOutputLstContourPointsX(lstOutX);
+ bbSetOutputLstContourPointsY(lstOutY);
+ bbSetOutputLstContourPointsZ(lstOutZ);
+ bbSetOutputLstIndexsOut(lstIndexsOut);
+ } else {
+ // Step 3. Interpolation in the other direction
+ // Step 3.1 Linear Normalice points around contours
+ RedistributionPoints(&lstOutX,&lstOutY,&lstOutZ,&lstIndexsOut);
+ //EED 01/2021
+ // Step 3.2 Shift points to find minimun acumulate distance
+ ShiftValues( &lstOutX, &lstOutY, &lstOutZ, &lstIndexsOut );
+ // Step 3.3. SIN Normalice points around contours
+ if (bbGetInputParam().size()>=1)
+ {
+ if (bbGetInputParam()[0]==1)
+ {
+ RedistributionPointsAllContours_SIN( &lstOutX,&lstOutY,&lstOutZ,&lstIndexsOut);
+ ShiftValues( &lstOutX, &lstOutY, &lstOutZ, &lstIndexsOut );
+ } // if 1
+ } // if size
+ // Step 3.4 Transpose the vectors
+ lstInX.clear();
+ lstInY.clear();
+ lstInZ.clear();
+ lstIndexsIn.clear();
+ size = bbGetInputNbPoints();
+ int j,size2 = lstIndexsOut.size();
+ for (i=0;i<size;i++)
+ {
+ for (j=0;j<size2;j++)
+ {
+ lstInX.push_back( lstOutX[ j*lstIndexsOut[j] + i ] );
+ lstInY.push_back( lstOutY[ j*lstIndexsOut[j] + i ] );
+ lstInZ.push_back( lstOutZ[ j*lstIndexsOut[j] + i ] );
+ } // for j
+ lstIndexsIn.push_back( size2 );
+ } // for i
+ lstOutX.clear();
+ lstOutY.clear();
+ lstOutZ.clear();
+ lstIndexsOut.clear();
+ // Step 3.5 Interponation 2
+ size=lstIndexsIn.size();
+ iGeneral=0;
+ for (i=0;i<size;i++)
+ {
+ ProcessBySegment( bbGetInputType() ,
+ iGeneral, lstIndexsIn[i] ,
+ &lstInX,&lstInY,&lstInZ,
+ &lstOutX,&lstOutY,&lstOutZ,
+ &lstIndexsOut,bbGetInputOpenClose2());
+ } // for
+ RedistributionPoints(&lstOutX,&lstOutY,&lstOutZ,&lstIndexsOut);
+ // Step 3.6 Transpose the vectors
+ lstInX.clear();
+ lstInY.clear();
+ lstInZ.clear();
+ lstIndexsIn.clear();
+ size = bbGetInputNbPoints();
+ size2 = lstIndexsOut.size();
+ for (i=0;i<size;i++)
+ {
+ for (j=0;j<size2;j++)
+ {
+ lstInX.push_back( lstOutX[ j*lstIndexsOut[j] + i ] );
+ lstInY.push_back( lstOutY[ j*lstIndexsOut[j] + i ] );
+ lstInZ.push_back( lstOutZ[ j*lstIndexsOut[j] + i ] );
+ } // for j
+ lstIndexsIn.push_back( size2 );
+ } // for i
+ lstOutX.clear();
+ lstOutY.clear();
+ lstOutZ.clear();
+ lstIndexsOut.clear();
+ //////////////////// Set Out DoubleContour = 1
+ bbSetOutputLstContourPointsX( lstInX );
+ bbSetOutputLstContourPointsY( lstInY );
+ bbSetOutputLstContourPointsZ( lstInZ );
+ bbSetOutputLstIndexsOut( lstIndexsIn );
+ bbSetOutputLstPssblIncnsnstntCntrY( lstInconsistentContourY );
+ bbSetOutputLstPssblIncnsnstntCntrID( lstInconsistentContourID );
+ } // if DoubleContour
+ } // if Active
}
//=====
// Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost)
//=====
void ManualContourModel_Box::bbUserSetDefaultValues()
{
-
// SET HERE THE DEFAULT INPUT/OUTPUT VALUES OF YOUR BOX
// Here we initialize the input 'In' to 0
- bbSetInputType(1);
+ bbSetInputActive(true);
+ bbSetInputType(1);
+ bbSetInputDoubleContour(0);
bbSetInputOpenClose(false);
- bbSetInputNbPoints(100);
-
+ bbSetInputOpenClose2(false);
+ bbSetInputNbPoints(100);
}
//=====
// Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost)
//=====
void ManualContourModel_Box::bbUserInitializeProcessing()
{
-
// THE INITIALIZATION METHOD BODY :
// Here does nothing
// but this is where you should allocate the internal/output pointers
// if any
-
-
}
//=====
// Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost)
//=====
void ManualContourModel_Box::bbUserFinalizeProcessing()
{
-
// THE FINALIZATION METHOD BODY :
// Here does nothing
// but this is where you should desallocate the internal/output pointers
-// if any
-
-}
+// if any
}
-// EO namespace bbcreaMaracasVisu
+} // EO namespace bbcreaMaracasVisu