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Added analysis to tests/BlobAnalyzeParallel

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This commit is contained in:
James E McClure
2015-06-02 15:24:36 -04:00
parent 91def9d841
commit 48eda6f759
1 changed files with 230 additions and 0 deletions
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230
tests/BlobAnalyzeParallel.cpp
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@@ -42,6 +42,71 @@ void readRankData( int proc, int nx, int ny, int nz, DoubleArray& Phase, DoubleA
ReadBinaryFile(file2, SignDist.get(), nx*ny*nz);
}
inline void WriteBlobStates(TwoPhase TCAT, double D, double porosity){
FILE *BLOBSTATES= fopen("blobstates.tcat","w");
int a;
double iVol=1.0/TCAT.Dm.Volume;
double PoreVolume;
double nwp_volume,vol_n,pan,pn,pw,pawn,pwn,awn,ans,aws,Jwn,Kwn,lwns,cwns,clwns;
double sw,awnD,awsD,ansD,lwnsDD,JwnD,pc;
nwp_volume=vol_n=pan=awn=ans=Jwn=Kwn=lwns=clwns=pawn=0.0;
pw = TCAT.paw_global;
aws = TCAT.aws;
// Compute the averages over the entire non-wetting phsae
for (a=0; a<(int)TCAT.BlobAverages.size(1); a++){
vol_n += TCAT.BlobAverages(0,a);
pan += TCAT.BlobAverages(2,a)*TCAT.BlobAverages(0,a);
awn += TCAT.BlobAverages(3,a);
ans += TCAT.BlobAverages(4,a);
Jwn += TCAT.BlobAverages(5,a)*TCAT.BlobAverages(3,a);
Kwn += TCAT.BlobAverages(6,a)*TCAT.BlobAverages(3,a);
lwns += TCAT.BlobAverages(7,a);
clwns += TCAT.BlobAverages(8,a)*TCAT.BlobAverages(7,a);
nwp_volume += TCAT.BlobAverages(1,a);
pawn += TCAT.BlobAverages(2,a)*TCAT.BlobAverages(3,a);
}
// Compute the pore voume (sum of wetting an non-wetting phase volumes)
PoreVolume=TCAT.wp_volume_global + nwp_volume;
// Subtract off portions of non-wetting phase in order of size
for (a=TCAT.BlobAverages.size(1)-1; a>0; a--){
// Subtract the features one-by-one
vol_n -= TCAT.BlobAverages(0,a);
pan -= TCAT.BlobAverages(2,a)*TCAT.BlobAverages(0,a);
awn -= TCAT.BlobAverages(3,a);
ans -= TCAT.BlobAverages(4,a);
Jwn -= TCAT.BlobAverages(5,a)*TCAT.BlobAverages(3,a);
Kwn -= TCAT.BlobAverages(6,a)*TCAT.BlobAverages(3,a);
lwns -= TCAT.BlobAverages(7,a);
clwns -= TCAT.BlobAverages(8,a)*TCAT.BlobAverages(7,a);
nwp_volume -= TCAT.BlobAverages(1,a);
pawn -= TCAT.BlobAverages(2,a)*TCAT.BlobAverages(3,a);
// Update wetting phase averages
aws += TCAT.BlobAverages(4,a);
if (vol_n > 64){ // Only consider systems with "large enough" blobs -- 4^3
if (fabs(1.0 - nwp_volume/PoreVolume - sw) > 0.005 || a == 1){
sw = 1.0 - nwp_volume/PoreVolume;
JwnD = Jwn*D/awn;
//trJwnD = -trJwn*D/trawn;
cwns = clwns / lwns;
pwn = (pawn/awn-pw)*D/0.058;
pn = pan/vol_n;
awnD = awn*D*iVol;
awsD = aws*D*iVol;
ansD = ans*D*iVol;
lwnsDD = lwns*D*D*iVol;
pc = (pn-pw)*D/0.058; // hard-coded surface tension due to being lazy
fprintf(BLOBSTATES,"%.5g %.5g %.5g ",sw,pn,pw);
fprintf(BLOBSTATES,"%.5g %.5g %.5g %.5g ",awnD,awsD,ansD,lwnsDD);
fprintf(BLOBSTATES,"%.5g %.5g %.5g %.5g %i\n",pc,pwn,JwnD,cwns,a);
}
}
}
fclose(BLOBSTATES);
}
int main(int argc, char **argv)
{
@@ -117,6 +182,171 @@ int main(int argc, char **argv)
fclose(BLOBLOCAL);
printf("Wrote BlobLabel.%05i \n",rank);
//.......................................................................
//copies of data needed to perform checkpointing from cpu
double *Den, *DistEven, *DistOdd;
Den = new double[2*N];
DistEven = new double[10*N];
DistOdd = new double[9*N];
//.........................................................................
if (rank==0) printf("Reading restart file! \n");
// Read in the restart file to CPU buffers
ReadCheckpoint(LocalRestartFile, Den, DistEven, DistOdd, N);
MPI_Barrier(MPI_COMM_WORLD);
//.........................................................................
// Populate the arrays needed to perform averaging
if (rank==0) printf("Populate arrays \n");
// Compute porosity
double porosity,sum,sum_global;
sum=0.0;
for (int n=0; n<Nx*Ny*Nz; n++){
double phi,da,db,press,vx,vy,vz;
double f0,f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18;
da = Den[n];
db = Den[N+n];
f0 = DistEven[n];
f2 = DistEven[N+n];
f4 = DistEven[2*N+n];
f6 = DistEven[3*N+n];
f8 = DistEven[4*N+n];
f10 = DistEven[5*N+n];
f12 = DistEven[6*N+n];
f14 = DistEven[7*N+n];
f16 = DistEven[8*N+n];
f18 = DistEven[9*N+n];
//........................................................................
f1 = DistOdd[n];
f3 = DistOdd[1*N+n];
f5 = DistOdd[2*N+n];
f7 = DistOdd[3*N+n];
f9 = DistOdd[4*N+n];
f11 = DistOdd[5*N+n];
f13 = DistOdd[6*N+n];
f15 = DistOdd[7*N+n];
f17 = DistOdd[8*N+n];
//.................Compute the velocity...................................
press = 0.3333333333333333*(f0+f2+f1+f4+f3+f6+f5+f8+f7+f10+
f9+f12+f11+f14+f13+f16+f15+f18+f17);
vx = f1-f2+f7-f8+f9-f10+f11-f12+f13-f14;
vy = f3-f4+f7-f8-f9+f10+f15-f16+f17-f18;
vz = f5-f6+f11-f12-f13+f14+f15-f16-f17+f18;
Averages.Phase(n)=(da-db)/(da+db);
Averages.Phase_tplus(n)=(da-db)/(da+db);
Averages.Phase_tminus(n)=(da-db)/(da+db);
Averages.Press(n)=press;
Averages.Vel_x(n)=vx;
Averages.Vel_y(n)=vy;
Averages.Vel_z(n)=vz;
if (Averages.SDs(n) > 0.0){
Dm.id[n]=1;
sum += 1.0;
}
else Dm.id[n]=0;
}
delete [] DistEven;
delete [] DistOdd;
MPI_Allreduce(&sum,&sum_global,1,MPI_DOUBLE,MPI_SUM,MPI_COMM_WORLD);
porosity = sum_global/Dm.Volume;
if (rank==0) printf("Porosity = %f \n",porosity);
Dm.CommInit(MPI_COMM_WORLD);
for (int i=0; i<N; i++) Averages.SDs(i) -= 1.0; // map the distance
double beta = 0.95;
Averages.SetupCubes(Dm);
Averages.UpdateSolid();
Averages.Initialize();
Averages.ComputeDelPhi();
Averages.ColorToSignedDistance(beta,Averages.Phase.get(),Averages.SDn.get());
Averages.UpdateMeshValues();
Averages.ComputeLocalBlob();
Averages.Reduce();
int b=0;
// Blobs.Set(Averages.BlobAverages.NBLOBS);
int dimx = Averages.BlobAverages.size(0);
int dimy = Averages.BlobAverages.size(1);
int TotalBlobInfoSize=dimx*dimy;
FILE *BLOBLOG;
if (rank==0){
BLOBLOG=fopen("blobs.tcat","w");
//printf("dimx=%i \n",dimx);
}
// BlobContainer Blobs;
DoubleArray RecvBuffer(dimx);
// MPI_Allreduce(&Averages.BlobAverages.get(),&Blobs.get(),1,MPI_DOUBLE,MPI_SUM,Dm.Comm);
MPI_Barrier(MPI_COMM_WORLD);
if (rank==0) printf("All ranks passed gate \n");
for (int b=0; b<(int)Averages.BlobAverages.size(1); b++){
MPI_Allreduce(&Averages.BlobAverages(0,b),&RecvBuffer(0),dimx,MPI_DOUBLE,MPI_SUM,MPI_COMM_WORLD);
for (int idx=0; idx<dimx-1; idx++) Averages.BlobAverages(idx,b)=RecvBuffer(idx);
MPI_Barrier(MPI_COMM_WORLD);
if (Averages.BlobAverages(0,b) > 0.0){
double Vn,pn,awn,ans,Jwn,Kwn,lwns,cwns,trawn,trJwn;
Vn = Averages.BlobAverages(1,b);
pn = Averages.BlobAverages(2,b)/Averages.BlobAverages(0,b);
awn = Averages.BlobAverages(3,b);
ans = Averages.BlobAverages(4,b);
if (awn != 0.0){
Jwn = Averages.BlobAverages(5,b)/Averages.BlobAverages(3,b);
Kwn = Averages.BlobAverages(6,b)/Averages.BlobAverages(3,b);
}
else Jwn=Kwn=0.0;
trawn = Averages.BlobAverages(12,b);
if (trawn != 0.0){
trJwn = Averages.BlobAverages(13,b)/trawn;
}
else trJwn=0.0;
lwns = Averages.BlobAverages(7,b);
if (lwns != 0.0) cwns = Averages.BlobAverages(8,b)/Averages.BlobAverages(7,b);
else cwns=0.0;
Averages.BlobAverages(2,b) = pn;
Averages.BlobAverages(5,b) = trJwn;
Averages.BlobAverages(6,b) = Kwn;
Averages.BlobAverages(8,b) = cwns;
// Averages.BlobAverages(13,b) = trJwn;
}
}
Averages.SortBlobs();
if (rank==0){
// printf("Reduced blob %i \n",b);
fprintf(BLOBLOG,"%.5g %.5g %.5g\n",Averages.vol_w_global,Averages.paw_global,Averages.aws_global);
for (int b=0; b<(int)Averages.BlobAverages.size(1); b++){
if (Averages.BlobAverages(0,b) > 0.0){
double Vn,pn,awn,ans,Jwn,Kwn,lwns,cwns;
Vn = Averages.BlobAverages(1,b);
pn = Averages.BlobAverages(2,b);
awn = Averages.BlobAverages(3,b);
ans = Averages.BlobAverages(4,b);
Jwn = Averages.BlobAverages(5,b);
Kwn = Averages.BlobAverages(6,b);
lwns = Averages.BlobAverages(7,b);
cwns = Averages.BlobAverages(8,b);
fprintf(BLOBLOG,"%.5g ", Vn); //Vn
fprintf(BLOBLOG,"%.5g ", pn); //pn
fprintf(BLOBLOG,"%.5g ", awn); //awn
fprintf(BLOBLOG,"%.5g ", ans); //ans
fprintf(BLOBLOG,"%.5g ", Jwn); //Jwn
fprintf(BLOBLOG,"%.5g ", Kwn); //Kwn
fprintf(BLOBLOG,"%.5g ", lwns); //lwns
fprintf(BLOBLOG,"%.5g\n",cwns); //cwns
}
}
}
if (rank==0) fclose(BLOBLOG);
double Length=1.0;
if (rank==0) WriteBlobStates(Averages,Length,porosity);
/*FILE *BLOBS = fopen("Blobs.dat","wb");
fwrite(GlobalBlobID.get(),4,Nx*Ny*Nz,BLOBS);