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LBPM/tests/lbpm_morphopen_pp.cpp
James McClure 30e0a4e24b fix bug in morphopen
2022-01-12 14:31:12 -05:00

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/*
* Pre-processor to generate signed distance function from segmented data
* segmented data should be stored in a raw binary file as 1-byte integer (type char)
* will output distance functions for phases
*/
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <iostream>
#include <fstream>
#include <sstream>
#include "common/Array.h"
#include "common/Domain.h"
#include "analysis/distance.h"
#include "analysis/morphology.h"
//*************************************************************************
// Morpohologica pre-processor
// Initialize phase distribution using morphological approach
// Signed distance function is used to determine fluid configuration
//*************************************************************************
int main(int argc, char **argv)
{
// Initialize MPI
Utilities::startup( argc, argv );
Utilities::MPI comm( MPI_COMM_WORLD );
int rank = comm.getRank();
{
//.......................................................................
// Reading the domain information file
//.......................................................................
char LocalRankFilename[40];
string filename;
double SW,Rcrit_new;
if (argc > 1){
filename=argv[1];
Rcrit_new=0.f;
//SW=strtod(argv[2],NULL);
}
else ERROR("No input database provided\n");
NULL_USE( Rcrit_new );
// read the input database
auto db = std::make_shared<Database>( filename );
auto domain_db = db->getDatabase( "Domain" );
// Read domain parameters
auto READFILE = domain_db->getScalar<std::string>( "Filename" );
auto size = domain_db->getVector<int>( "n" );
auto nproc = domain_db->getVector<int>( "nproc" );
auto ReadValues = domain_db->getVector<int>( "ReadValues" );
auto WriteValues = domain_db->getVector<int>( "WriteValues" );
SW = domain_db->getScalar<double>("Sw");
signed char ErodeLabel=2;
signed char OpenLabel=1;
if (domain_db->keyExists( "OpenLabel" )){
OpenLabel = domain_db->getScalar<int>("OpenLabel");
}
if (domain_db->keyExists( "ErodeLabel" )){
ErodeLabel = domain_db->getScalar<int>("ErodeLabel");
}
// Generate the NWP configuration
//if (rank==0) printf("Initializing morphological distribution with critical radius %f \n", Rcrit);
if (rank==0) printf("Performing morphological opening with target saturation %f \n", SW);
// GenerateResidual(id,nx,ny,nz,Saturation);
int nx = size[0];
int ny = size[1];
int nz = size[2];
size_t N = (nx+2)*(ny+2)*(nz+2);
std::shared_ptr<Domain> Dm (new Domain(domain_db,comm));
std::shared_ptr<Domain> Mask (new Domain(domain_db,comm));
// std::shared_ptr<Domain> Dm (new Domain(nx,ny,nz,rank,nprocx,nprocy,nprocz,Lx,Ly,Lz,BC));
for (size_t n=0; n<N; n++) Dm->id[n]=1;
Dm->CommInit();
signed char *id;
id = new signed char [N];
Mask->Decomp(READFILE);
Mask->CommInit();
// Generate the NWP configuration
//if (rank==0) printf("Initializing morphological distribution with critical radius %f \n", Rcrit);
if (rank==0) printf("Performing morphological opening with target saturation %f \n", SW);
// GenerateResidual(id,nx,ny,nz,Saturation);
nx+=2; ny+=2; nz+=2;
// Generate the signed distance map
// Initialize the domain and communication
Array<char> id_solid(nx,ny,nz);
DoubleArray SignDist(nx,ny,nz);
// Solve for the position of the solid phase
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;
id[n] = Mask->id[n];
// Initialize the solid phase
if (Mask->id[n] > 0){
id_solid(i,j,k) = 1;
}
else
id_solid(i,j,k) = 0;
}
}
}
// 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++){
// Initialize distance to +/- 1
SignDist(i,j,k) = 2.0*double(id_solid(i,j,k))-1.0;
}
}
}
if (rank==0) printf("Initialized solid phase -- Converting to Signed Distance function \n");
CalcDist(SignDist,id_solid,*Dm);
comm.barrier();
// Run the morphological opening
MorphOpen(SignDist, id, Dm, SW, ErodeLabel, OpenLabel);
// 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<int>( "ComponentLabels" );
auto HistoryLabels = domain_db->getVector<int>( "HistoryLabels" );
size_t NLABELS=LabelList.size();
if (rank==0){
for (unsigned int idx=0; idx < NLABELS; idx++){
signed char VALUE = LabelList[idx];
signed 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++){
// 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++){
signed char VALUE=LabelList[idx];
signed char NEWVALUE=HistoryLabels[idx];
if (LOCVAL == VALUE){
idx = NLABELS;
if (SignDist(i,j,k) < 2.0){
id[n] = NEWVALUE;
}
}
}
}
}
}
}
if (rank==0) printf("Writing ID file \n");
sprintf(LocalRankFilename,"ID.%05i",rank);
FILE *ID = fopen(LocalRankFilename,"wb");
fwrite(id,1,N,ID);
fclose(ID);
// write the geometry to a single file
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;
Mask->id[n] = id[n];
}
}
}
comm.barrier();
auto filename2 = READFILE + ".morphopen.raw";
if (rank==0) printf("Writing file to: %s \n", filename2.data());
Mask->AggregateLabels(filename2);
}
Utilities::shutdown();
}
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