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refactor morphdrain pp

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This commit is contained in:
James E McClure 2019-02-20 18:33:41 -05:00
parent 9098f725ec
commit 5ccb06646d
1 changed files with 73 additions and 295 deletions
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358
tests/lbpm_morphdrain_pp.cpp
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@ -134,6 +134,8 @@ int main(int argc, char **argv)
// Initialize the domain and communication
Array<char> id_solid(nx,ny,nz);
DoubleArray SignDist(nx,ny,nz);
DoubleArray phase(nx,ny,nz);
IntArray phase_label(nx,ny,nz);
// Solve for the position of the solid phase
for (int k=0;k<nz;k++){
@ -160,315 +162,91 @@ int main(int argc, char **argv)
if (rank==0) printf("Initialized solid phase -- Converting to Signed Distance function \n");
CalcDist(SignDist,id_solid,Dm);
/* // Read the signed distance from file
sprintf(LocalRankFilename,"SignDist.%05i",rank);
FILE *DIST = fopen(LocalRankFilename,"rb");
size_t ReadSignDist;
ReadSignDist=fread(SignDist.data(),8,N,DIST);
if (ReadSignDist != size_t(N)) printf("lbpm_morphdrain_pp: Error reading signed distance function (rank=%i)\n",rank);
fclose(DIST);
*/
fillData.fill(SignDist);
// Run the morphological opening
MorphOpen(SignDist, id, Dm, SW);
Dm.CommInit();
int iproc = Dm.iproc();
int jproc = Dm.jproc();
int kproc = Dm.kproc();
// Generate the NWP configuration
//if (rank==0) printf("Performing morphological drainage with critical radius %f \n", Rcrit);
if (rank==0) printf("Performing morphological drainage with target saturation %f \n", SW);
// GenerateResidual(id,nx,ny,nz,Saturation);
// Communication buffers
char *sendID_x, *sendID_y, *sendID_z, *sendID_X, *sendID_Y, *sendID_Z;
char *sendID_xy, *sendID_yz, *sendID_xz, *sendID_Xy, *sendID_Yz, *sendID_xZ;
char *sendID_xY, *sendID_yZ, *sendID_Xz, *sendID_XY, *sendID_YZ, *sendID_XZ;
char *recvID_x, *recvID_y, *recvID_z, *recvID_X, *recvID_Y, *recvID_Z;
char *recvID_xy, *recvID_yz, *recvID_xz, *recvID_Xy, *recvID_Yz, *recvID_xZ;
char *recvID_xY, *recvID_yZ, *recvID_Xz, *recvID_XY, *recvID_YZ, *recvID_XZ;
// send buffers
sendID_x = new char [Dm.sendCount_x];
sendID_y = new char [Dm.sendCount_y];
sendID_z = new char [Dm.sendCount_z];
sendID_X = new char [Dm.sendCount_X];
sendID_Y = new char [Dm.sendCount_Y];
sendID_Z = new char [Dm.sendCount_Z];
sendID_xy = new char [Dm.sendCount_xy];
sendID_yz = new char [Dm.sendCount_yz];
sendID_xz = new char [Dm.sendCount_xz];
sendID_Xy = new char [Dm.sendCount_Xy];
sendID_Yz = new char [Dm.sendCount_Yz];
sendID_xZ = new char [Dm.sendCount_xZ];
sendID_xY = new char [Dm.sendCount_xY];
sendID_yZ = new char [Dm.sendCount_yZ];
sendID_Xz = new char [Dm.sendCount_Xz];
sendID_XY = new char [Dm.sendCount_XY];
sendID_YZ = new char [Dm.sendCount_YZ];
sendID_XZ = new char [Dm.sendCount_XZ];
//......................................................................................
// recv buffers
recvID_x = new char [Dm.recvCount_x];
recvID_y = new char [Dm.recvCount_y];
recvID_z = new char [Dm.recvCount_z];
recvID_X = new char [Dm.recvCount_X];
recvID_Y = new char [Dm.recvCount_Y];
recvID_Z = new char [Dm.recvCount_Z];
recvID_xy = new char [Dm.recvCount_xy];
recvID_yz = new char [Dm.recvCount_yz];
recvID_xz = new char [Dm.recvCount_xz];
recvID_Xy = new char [Dm.recvCount_Xy];
recvID_xZ = new char [Dm.recvCount_xZ];
recvID_xY = new char [Dm.recvCount_xY];
recvID_yZ = new char [Dm.recvCount_yZ];
recvID_Yz = new char [Dm.recvCount_Yz];
recvID_Xz = new char [Dm.recvCount_Xz];
recvID_XY = new char [Dm.recvCount_XY];
recvID_YZ = new char [Dm.recvCount_YZ];
recvID_XZ = new char [Dm.recvCount_XZ];
//......................................................................................
int sendtag,recvtag;
sendtag = recvtag = 7;
int x,y,z;
int ii,jj,kk;
int Nx = nx;
int Ny = ny;
int Nz = nz;
double GlobalNumber = 1.f;
double count,countGlobal,totalGlobal;
count = 0.f;
for (int k=0;k<nz;k++){
for (int j=0;j<ny;j++){
for (int i=0;i<nx;i++){
n = k*nx*ny+j*nx+i;
if (SignDist(i,j,k) < 0.0) id[n] = 0;
else{
// initially saturated with wetting phase
id[n] = 2;
count+=1.0;
int n = k*nx*ny+j*nx+i;
if (id[n] == 1){
phase(i,j,k) = 1.0;
}
}
}
}
// total Global is the number of nodes in the pore-space
MPI_Allreduce(&count,&totalGlobal,1,MPI_DOUBLE,MPI_SUM,comm);
double porosity=totalGlobal/(double(nprocx*nprocy*nprocz)*double(nx-2)*double(ny-2)*double(nz-2));
if (rank==0) printf("Media Porosity: %f \n",porosity);
double radius,Rcrit_new;
radius = 0.0;
// Layer the inlet with NWP
if (kproc == 0){
for(j=0; j<Ny; j++){
for(i=0; i<Nx; i++){
n = j*nx+i;
// n = nx*ny + j*nx+i;
id[n]=1;
if (SignDist(i,j,0) > radius){
radius=SignDist(i,j,0);
}
}
}
}
MPI_Allreduce(&radius,&Rcrit_new,1,MPI_DOUBLE,MPI_MAX,comm);
if (rank==0) printf("Starting morhpological drainage with critical radius = %f \n",Rcrit_new);
int imin,jmin,kmin,imax,jmax,kmax;
// Decrease the critical radius until the target saturation is met
double deltaR=0.01; // amount to change the radius in voxel units
double Rcrit_old;
double sw_old=1.0; // initial WP saturation set to one
double sw_new=1.0; // initial WP saturation set to one
double sw_diff_old = 1.0;
double sw_diff_new = 1.0;
while (sw_new > SW && Rcrit_new > 0.99){
Rcrit_old = Rcrit_new;
Rcrit_new -= deltaR*Rcrit_old;// decrease critical radius
sw_old = sw_new;
sw_diff_old = sw_diff_new;
int Window=round(Rcrit_new);
GlobalNumber = 1.0;
while (GlobalNumber > 0){
//if (rank==0) printf("GlobalNumber=%f \n",GlobalNumber);
double LocalNumber=GlobalNumber=0.f;
for(k=0; k<Nz; k++){
for(j=0; j<Ny; j++){
for(i=0; i<Nx; i++){
n = k*nx*ny + j*nx+i;
if (id[n] == 1 && SignDist(i,j,k) > Rcrit_new){
// loop over the window and update
imin=max(1,i-Window);
jmin=max(1,j-Window);
kmin=max(1,k-Window);
imax=min(Nx-1,i+Window);
jmax=min(Ny-1,j+Window);
kmax=min(Nz-1,k+Window);
for (kk=kmin; kk<kmax; kk++){
for (jj=jmin; jj<jmax; jj++){
for (ii=imin; ii<imax; ii++){
int nn = kk*nx*ny+jj*nx+ii;
double dsq = double((ii-i)*(ii-i)+(jj-j)*(jj-j)+(kk-k)*(kk-k));
if (id[nn] == 2 && dsq <= Rcrit_new*Rcrit_new){
LocalNumber+=1.0;
id[nn]=1;
}
}
}
}
}
// move on
else
phase(i,j,k) = -1.0;
}
}
}
// Extract only the connected part
BlobIDstruct new_index;
double vF=0.0; double vS=0.0;
ComputeGlobalBlobIDs(nx-2,ny-2,nz-2,Dm.rank_info,phase,SignDist,vF,vS,phase_label,Dm.comm);
MPI_Barrier(comm);
// Pack and send the updated ID values
PackID(Dm.sendList_x, Dm.sendCount_x ,sendID_x, id);
PackID(Dm.sendList_X, Dm.sendCount_X ,sendID_X, id);
PackID(Dm.sendList_y, Dm.sendCount_y ,sendID_y, id);
PackID(Dm.sendList_Y, Dm.sendCount_Y ,sendID_Y, id);
PackID(Dm.sendList_z, Dm.sendCount_z ,sendID_z, id);
PackID(Dm.sendList_Z, Dm.sendCount_Z ,sendID_Z, id);
PackID(Dm.sendList_xy, Dm.sendCount_xy ,sendID_xy, id);
PackID(Dm.sendList_Xy, Dm.sendCount_Xy ,sendID_Xy, id);
PackID(Dm.sendList_xY, Dm.sendCount_xY ,sendID_xY, id);
PackID(Dm.sendList_XY, Dm.sendCount_XY ,sendID_XY, id);
PackID(Dm.sendList_xz, Dm.sendCount_xz ,sendID_xz, id);
PackID(Dm.sendList_Xz, Dm.sendCount_Xz ,sendID_Xz, id);
PackID(Dm.sendList_xZ, Dm.sendCount_xZ ,sendID_xZ, id);
PackID(Dm.sendList_XZ, Dm.sendCount_XZ ,sendID_XZ, id);
PackID(Dm.sendList_yz, Dm.sendCount_yz ,sendID_yz, id);
PackID(Dm.sendList_Yz, Dm.sendCount_Yz ,sendID_Yz, id);
PackID(Dm.sendList_yZ, Dm.sendCount_yZ ,sendID_yZ, id);
PackID(Dm.sendList_YZ, Dm.sendCount_YZ ,sendID_YZ, id);
//......................................................................................
MPI_Sendrecv(sendID_x,Dm.sendCount_x,MPI_CHAR,Dm.rank_x(),sendtag,
recvID_X,Dm.recvCount_X,MPI_CHAR,Dm.rank_X(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_X,Dm.sendCount_X,MPI_CHAR,Dm.rank_X(),sendtag,
recvID_x,Dm.recvCount_x,MPI_CHAR,Dm.rank_x(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_y,Dm.sendCount_y,MPI_CHAR,Dm.rank_y(),sendtag,
recvID_Y,Dm.recvCount_Y,MPI_CHAR,Dm.rank_Y(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_Y,Dm.sendCount_Y,MPI_CHAR,Dm.rank_Y(),sendtag,
recvID_y,Dm.recvCount_y,MPI_CHAR,Dm.rank_y(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_z,Dm.sendCount_z,MPI_CHAR,Dm.rank_z(),sendtag,
recvID_Z,Dm.recvCount_Z,MPI_CHAR,Dm.rank_Z(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_Z,Dm.sendCount_Z,MPI_CHAR,Dm.rank_Z(),sendtag,
recvID_z,Dm.recvCount_z,MPI_CHAR,Dm.rank_z(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_xy,Dm.sendCount_xy,MPI_CHAR,Dm.rank_xy(),sendtag,
recvID_XY,Dm.recvCount_XY,MPI_CHAR,Dm.rank_XY(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_XY,Dm.sendCount_XY,MPI_CHAR,Dm.rank_XY(),sendtag,
recvID_xy,Dm.recvCount_xy,MPI_CHAR,Dm.rank_xy(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_Xy,Dm.sendCount_Xy,MPI_CHAR,Dm.rank_Xy(),sendtag,
recvID_xY,Dm.recvCount_xY,MPI_CHAR,Dm.rank_xY(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_xY,Dm.sendCount_xY,MPI_CHAR,Dm.rank_xY(),sendtag,
recvID_Xy,Dm.recvCount_Xy,MPI_CHAR,Dm.rank_Xy(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_xz,Dm.sendCount_xz,MPI_CHAR,Dm.rank_xz(),sendtag,
recvID_XZ,Dm.recvCount_XZ,MPI_CHAR,Dm.rank_XZ(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_XZ,Dm.sendCount_XZ,MPI_CHAR,Dm.rank_XZ(),sendtag,
recvID_xz,Dm.recvCount_xz,MPI_CHAR,Dm.rank_xz(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_Xz,Dm.sendCount_Xz,MPI_CHAR,Dm.rank_Xz(),sendtag,
recvID_xZ,Dm.recvCount_xZ,MPI_CHAR,Dm.rank_xZ(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_xZ,Dm.sendCount_xZ,MPI_CHAR,Dm.rank_xZ(),sendtag,
recvID_Xz,Dm.recvCount_Xz,MPI_CHAR,Dm.rank_Xz(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_yz,Dm.sendCount_yz,MPI_CHAR,Dm.rank_yz(),sendtag,
recvID_YZ,Dm.recvCount_YZ,MPI_CHAR,Dm.rank_YZ(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_YZ,Dm.sendCount_YZ,MPI_CHAR,Dm.rank_YZ(),sendtag,
recvID_yz,Dm.recvCount_yz,MPI_CHAR,Dm.rank_yz(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_Yz,Dm.sendCount_Yz,MPI_CHAR,Dm.rank_Yz(),sendtag,
recvID_yZ,Dm.recvCount_yZ,MPI_CHAR,Dm.rank_yZ(),recvtag,comm,MPI_STATUS_IGNORE);
MPI_Sendrecv(sendID_yZ,Dm.sendCount_yZ,MPI_CHAR,Dm.rank_yZ(),sendtag,
recvID_Yz,Dm.recvCount_Yz,MPI_CHAR,Dm.rank_Yz(),recvtag,comm,MPI_STATUS_IGNORE);
UnpackID(Dm.recvList_x, Dm.recvCount_x ,recvID_x, id);
UnpackID(Dm.recvList_X, Dm.recvCount_X ,recvID_X, id);
UnpackID(Dm.recvList_y, Dm.recvCount_y ,recvID_y, id);
UnpackID(Dm.recvList_Y, Dm.recvCount_Y ,recvID_Y, id);
UnpackID(Dm.recvList_z, Dm.recvCount_z ,recvID_z, id);
UnpackID(Dm.recvList_Z, Dm.recvCount_Z ,recvID_Z, id);
UnpackID(Dm.recvList_xy, Dm.recvCount_xy ,recvID_xy, id);
UnpackID(Dm.recvList_Xy, Dm.recvCount_Xy ,recvID_Xy, id);
UnpackID(Dm.recvList_xY, Dm.recvCount_xY ,recvID_xY, id);
UnpackID(Dm.recvList_XY, Dm.recvCount_XY ,recvID_XY, id);
UnpackID(Dm.recvList_xz, Dm.recvCount_xz ,recvID_xz, id);
UnpackID(Dm.recvList_Xz, Dm.recvCount_Xz ,recvID_Xz, id);
UnpackID(Dm.recvList_xZ, Dm.recvCount_xZ ,recvID_xZ, id);
UnpackID(Dm.recvList_XZ, Dm.recvCount_XZ ,recvID_XZ, id);
UnpackID(Dm.recvList_yz, Dm.recvCount_yz ,recvID_yz, id);
UnpackID(Dm.recvList_Yz, Dm.recvCount_Yz ,recvID_Yz, id);
UnpackID(Dm.recvList_yZ, Dm.recvCount_yZ ,recvID_yZ, id);
UnpackID(Dm.recvList_YZ, Dm.recvCount_YZ ,recvID_YZ, id);
//......................................................................................
MPI_Allreduce(&LocalNumber,&GlobalNumber,1,MPI_DOUBLE,MPI_SUM,comm);
// Layer the inlet with NWP
if (kproc == 0){
for(j=0; j<Ny; j++){
for(i=0; i<Nx; i++){
n = j*nx+i;
// n = nx*ny + j*nx+i;
id[n]=1;
}
}
}
// Layer the outlet with WP
if (kproc == nprocz-1){
for(j=0; j<Ny; j++){
for(i=0; i<Nx; i++){
n = (nz-1)*nx*ny+j*nx+i;
// n = nx*ny + j*nx+i;
for (int k=0;k<nz;k++){
for (int j=0;j<ny;j++){
for (int i=0;i<nx;i++){
int n = k*nx*ny+j*nx+i;
if (id[n] == 1 && phase_label(i,j,k) > 1){
id[n] = 2;
}
}
}
}
count = 1.f;
for (int k=1; k<Nz-1; k++){
for (int j=1; j<Ny-1; j++){
for (int i=1; i<Nx-1; i++){
n=k*Nx*Ny+j*Nx+i;
if (id[n] == 2){
count+=1.0;
}
}
}
}
MPI_Allreduce(&count,&countGlobal,1,MPI_DOUBLE,MPI_SUM,comm);
sw_new= countGlobal/totalGlobal;
sw_diff_new = abs(sw_new-SW);
// if (rank==0){
// printf("Final saturation=%f\n",sw_new);
// printf("Final critical radius=%f\n",Rcrit_new);
//
// }
}
if (sw_diff_new<sw_diff_old){
// calculate distance to non-wetting fluid
if (domain_db->keyExists( "HistoryLabels" )){
if (rank==0) printf("Relabel solid components that touch fluid 1 \n");
auto LabelList = domain_db->getVector<char>( "ComponentLabels" );
auto HistoryLabels = domain_db->getVector<char>( "HistoryLabels" );
size_t NLABELS=LabelList.size();
if (rank==0){
printf("Final saturation=%f\n",sw_new);
printf("Final critical radius=%f\n",Rcrit_new);
for (unsigned int idx=0; idx < NLABELS; idx++){
char VALUE = LabelList[idx];
char NEWVAL = HistoryLabels[idx];
printf(" Relabel component %d as %d \n", VALUE, NEWVAL);
}
}
for (int k=0;k<nz;k++){
for (int j=0;j<ny;j++){
for (int i=0;i<nx;i++){
int n = k*nx*ny+j*nx+i;
// Initialize the solid phase
if (id[n] == 1) id_solid(i,j,k) = 0;
else id_solid(i,j,k) = 1;
}
}
}
// Initialize the signed distance function
for (int k=0;k<nz;k++){
for (int j=0;j<ny;j++){
for (int i=0;i<nx;i++){
int n = k*nx*ny+j*nx+i;
// Initialize distance to +/- 1
SignDist(i,j,k) = 2.0*double(id_solid(i,j,k))-1.0;
}
}
}
CalcDist(SignDist,id_solid,*Dm);
// re-label IDs near the non-wetting fluid
for (int k=0;k<nz;k++){
for (int j=0;j<ny;j++){
for (int i=0;i<nx;i++){
int n = k*nx*ny+j*nx+i;
signed char LOCVAL = id[n];
for (unsigned int idx=0; idx < NLABELS; idx++){
char VALUE=LabelList[idx];
char NEWVALUE=HistoryLabels[idx];
if (LOCVAL == VALUE){
idx = NLABELS;
if (SignDist(i,j,k) < 1.0){
id[n] = NEWVALUE;
}
}
}
}
}
else{
if (rank==0){
printf("Final saturation=%f\n",sw_old);
printf("Final critical radius=%f\n",Rcrit_old);
}
}