Work in Progress 2D PT MPI v3

This commit is contained in:
Aditya Ujeniya 2023-08-21 16:33:32 +02:00
parent f406e5c0f7
commit 5ecd277ab3
17 changed files with 20089 additions and 19664 deletions

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@ -44,4 +44,18 @@ eps 0.00001 # stopping tolerance for pressure iteration
rho 0.52 #
omg 1.8 # relaxation parameter for SOR iteration
gamma 0.9 # upwind differencing factor gamma
# Particle Tracing Data:
# -----------------------
numberOfParticles 30
startTime 10
injectTimePeriod 2.0
writeTimePeriod 2.0
x1 1.0
y1 0.0
x2 1.0
y2 4.0
#===============================================================================

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@ -44,4 +44,17 @@ eps 0.001 # stopping tolerance for pressure iteration
rho 0.5 #
omg 1.7 # relaxation parameter for SOR iteration
gamma 0.9 # upwind differencing factor gamma
# Particle Tracing Data:
# -----------------------
numberOfParticles 30
startTime 0
injectTimePeriod 2.0
writeTimePeriod 0.5
x1 0.1
y1 0.9
x2 0.9
y2 0.9
#===============================================================================

File diff suppressed because it is too large Load Diff

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@ -14,6 +14,9 @@
#include "progress.h"
#include "solver.h"
#include "timing.h"
#include "particletracing.h"
#include "vtkWriter.h"
#include <mpi.h>
@ -27,6 +30,8 @@ int main (int argc, char** argv)
double S, E;
Parameter params;
Solver solver;
ParticleTracer particletracer;
MPI_Init(&argc, &argv);
MPI_Comm_rank(MPI_COMM_WORLD, &rank);
@ -42,17 +47,23 @@ int main (int argc, char** argv)
{
variant = atoi(argv[2]);
}
initSolver(&solver, &params);
initParticleTracer(&particletracer, &params, &solver);
if (rank == 0) {
printParameter(&params);
}
initSolver(&solver, &params);
printParticleTracerParameters(&particletracer);
initProgress(solver.te);
abort();
double tau = solver.tau;
double te = solver.te;
double t = 0.0;
int (*solver_generic[])(solver) = {solve, solveRB, solveRBA};
int (*solver_generic[])() = {solve, solveRB, solveRBA};
S = getTimeStamp();
@ -68,8 +79,11 @@ int main (int argc, char** argv)
setSpecialBoundaryCondition(&solver);
computeFG(&solver);
computeRHS(&solver);
(*solver_generic[variant - 1])(&solver);
solver_generic[variant - 1](&solver);
adaptUV(&solver);
//trace(&particletracer, solver.u, solver.v, t);
t += solver.dt;

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@ -82,6 +82,16 @@ void readParameter(Parameter* param, const char* filename)
PARSE_REAL(p_init);
PARSE_REAL(rho);
/* Added new particle tracing parameters */
PARSE_INT(numberOfParticles);
PARSE_REAL(startTime);
PARSE_REAL(injectTimePeriod);
PARSE_REAL(writeTimePeriod);
PARSE_REAL(x1);
PARSE_REAL(y1);
PARSE_REAL(x2);
PARSE_REAL(y2);
}
}

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@ -18,6 +18,11 @@ typedef struct {
char* name;
int bcLeft, bcRight, bcBottom, bcTop;
double u_init, v_init, p_init;
int numberOfParticles;
double startTime, injectTimePeriod, writeTimePeriod;
double x1, y1, x2, y2;
} Parameter;
void initParameter(Parameter*);

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@ -0,0 +1,305 @@
/*
* Copyright (C) 2022 NHR@FAU, University Erlangen-Nuremberg.
* All rights reserved. This file is part of nusif-solver.
* Use of this source code is governed by a MIT style
* license that can be found in the LICENSE file.
*/
#include <float.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "vtkWriter.h"
#define U(i, j) u[(j) * (imax + 2) + (i)]
#define V(i, j) v[(j) * (imax + 2) + (i)]
static int ts = 0;
#define IDIM 0
#define JDIM 1
static double sum(double* sizes, int size, int offset, int coord, int init)
{
double sum = 0;
for (int i = init; i < size && coord > 0; i+=offset, --coord)
{
sum += sizes[i];
}
return sum;
}
void printParticles(ParticleTracer* particletracer)
{
for(int i = 0; i < particletracer->totalParticles; ++i)
{
printf("Particle position X : %.2f, Y : %.2f, flag : %d\n", particletracer->particlePool[i].x,
particletracer->particlePool[i].y,
particletracer->particlePool[i].flag);
}
}
void injectParticles(ParticleTracer* particletracer)
{
double x, y;
for(int i = 0; i < particletracer->numberOfParticles; ++i)
{
x = particletracer->linSpaceLine[i].x;
y = particletracer->linSpaceLine[i].y;
if(true)
{
particletracer->particlePool[particletracer->pointer].x = x;
particletracer->particlePool[particletracer->pointer].y = y;
particletracer->particlePool[particletracer->pointer].flag = true;
++(particletracer->pointer);
++(particletracer->totalParticles);
}
}
}
void advanceParticles(ParticleTracer* particletracer, double* restrict u, double* restrict v, double time)
{
int imax = particletracer->imax;
int jmax = particletracer->jmax;
double dx = particletracer->dx;
double dy = particletracer->dy;
double xlength = particletracer->xlength;
double ylength = particletracer->ylength;
for(int i = 0; i < particletracer->totalParticles; ++i)
{
if(particletracer->particlePool[i].flag == true)
{
double x = particletracer->particlePool[i].x;
double y = particletracer->particlePool[i].y;
int iCoord = (int)(x / dx) + 1;
int jCoord = (int)((y + 0.5 * dy) / dy) + 1;
double x1 = (double)(iCoord - 1) * dx;
double y1 = ((double)(jCoord - 1) - 0.5) * dy;
double x2 = (double)iCoord * dx;
double y2 = ((double)jCoord - 0.5) * dy;
double u_n = (1.0 / (dx * dy)) *
((x2 - x) * (y2 - y) * U(iCoord - 1, jCoord - 1) +
(x - x1) * (y2 - y) * U(iCoord, jCoord - 1) +
(x2 - x) * (y - y1) * U(iCoord - 1, jCoord) +
(x - x1) * (y - y1) * U(iCoord, jCoord));
double new_x = x + particletracer->dt * u_n;
particletracer->particlePool[i].x = new_x;
iCoord = (int)((x + 0.5 * dx) / dx) + 1;
jCoord = (int)(y / dy) + 1;
x1 = ((double)(iCoord - 1) - 0.5) * dx;
y1 = (double)(jCoord - 1) * dy;
x2 = ((double)iCoord - 0.5) * dx;
y2 = (double)jCoord * dy;
double v_n = (1.0 / (dx * dy)) *
((x2 - x) * (y2 - y) * V(iCoord - 1, jCoord - 1) +
(x - x1) * (y2 - y) * V(iCoord, jCoord - 1) +
(x2 - x) * (y - y1) * V(iCoord - 1, jCoord) +
(x - x1) * (y - y1) * V(iCoord, jCoord));
double new_y = y + particletracer->dt * v_n;
particletracer->particlePool[i].y = new_y;
// printf("\tOld X : %.2f, New X : %.2f, iCoord : %d\n\tOld Y : %.2f, New Y : %.2f, jCoord : %d\n\n", x, new_x, iCoord, y, new_y, jCoord);
// printf("\tU(iCoord - 1, jCoord - 1) : %.2f, U(iCoord, jCoord - 1) : %.2f, U(iCoord - 1, jCoord) : %.2f, U(iCoord, jCoord) : %.2f\n", U(iCoord - 1, jCoord - 1), U(iCoord, jCoord - 1), U(iCoord - 1, jCoord), U(iCoord, jCoord));
// printf("\tV(iCoord - 1, jCoord - 1) : %.2f, V(iCoord, jCoord - 1) : %.2f, V(iCoord - 1, jCoord) : %.2f, V(iCoord, jCoord) : %.2f\n\n", V(iCoord - 1, jCoord - 1), V(iCoord, jCoord - 1), V(iCoord - 1, jCoord), V(iCoord, jCoord));
// printf("\t U N : %.2f, V N : %.2f\n\n", u_n, v_n);
// printf("\t j-1 * (imax + 2) + i-1 = %d with element from U : %.2f", (jCoord - 1) * (200 + 2) + (iCoord - 1), u[(jCoord - 1) * (imax + 2) + (iCoord - 1)]);
// printf("\nimax : %d, jmax : %d\n", imax, jmax);
if (((new_x < 0.0) || (new_x > xlength) || (new_y < 0.0) || (new_y > ylength)))
{
particletracer->particlePool[i].flag = false;
}
}
}
}
void freeParticles(ParticleTracer* particletracer)
{
free(particletracer->particlePool);
free(particletracer->linSpaceLine);
}
void writeParticles(ParticleTracer* particletracer)
{
VtkOptions opts = { .particletracer = particletracer };
char filename[50];
snprintf(filename, 50, "vtk_files/particles%d.vtk", ts);
vtkOpen(&opts, filename, ts);
vtkParticle(&opts, "particle");
vtkClose(&opts);
FILE* fp;
Particle* particlePool = particletracer->particlePool;
snprintf(filename, 50, "vis_files/particles_%d.dat", ts);
fp = fopen(filename, "w");
if (fp == NULL) {
printf("Error!\n");
exit(EXIT_FAILURE);
}
for (int i = 0; i < particletracer->totalParticles; ++i)
{
double x = particlePool[i].x;
double y = particlePool[i].y;
fprintf(fp, "%f %f\n", x, y);
}
fclose(fp);
++ts;
}
void initParticleTracer(ParticleTracer* particletracer, Parameter* params, Solver* solver)
{
int dims[NDIMS] = { 0, 0 };
int periods[NDIMS] = { 0, 0 };
/* initializing local properties from params */
particletracer->numberOfParticles = params->numberOfParticles;
particletracer->startTime = params->startTime;
particletracer->injectTimePeriod = params->injectTimePeriod;
particletracer->writeTimePeriod = params->writeTimePeriod;
particletracer->dt = params->dt;
particletracer->dx = params->xlength / params->imax;
particletracer->dy = params->ylength / params->jmax;
particletracer->xlength = params->xlength;
particletracer->ylength = params->ylength;
particletracer->x1 = params->x1;
particletracer->y1 = params->y1;
particletracer->x2 = params->x2;
particletracer->y2 = params->y2;
particletracer->lastInjectTime = params->startTime;
particletracer->lastUpdateTime = params->startTime;
particletracer->lastWriteTime = params->startTime;
particletracer->pointer = 0;
particletracer->totalParticles = 0;
particletracer->imax = params->imax;
particletracer->jmax = params->jmax;
particletracer->imaxLocal = solver->imaxLocal;
particletracer->jmaxLocal = solver->jmaxLocal;
particletracer->estimatedNumParticles = (particletracer->imaxLocal * particletracer->jmaxLocal) + (4 * params->numberOfParticles);
particletracer->particlePool = malloc(sizeof(Particle) * particletracer->estimatedNumParticles);
particletracer->linSpaceLine = malloc(sizeof(Particle) * particletracer->numberOfParticles);
/* duplicating communication from solver */
MPI_Comm_dup(solver->comm, &particletracer->comm);
particletracer->rank = solver->rank;
particletracer->size = solver->size;
memcpy(particletracer->dims, solver->dims, sizeof(solver->dims));
memcpy(particletracer->coords, solver->coords, sizeof(solver->coords));
memcpy(particletracer->iNeighbours, solver->iNeighbours, sizeof(solver->iNeighbours));
memcpy(particletracer->jNeighbours, solver->jNeighbours, sizeof(solver->jNeighbours));
particletracer->xLocal = particletracer->imaxLocal * particletracer->dx;
particletracer->yLocal = particletracer->jmaxLocal * particletracer->dy;
double xLocal[solver->size];
double yLocal[solver->size];
MPI_Allgather(&particletracer->xLocal, 1, MPI_DOUBLE, xLocal, 1, MPI_DOUBLE, particletracer->comm);
MPI_Allgather(&particletracer->yLocal, 1, MPI_DOUBLE, yLocal, 1, MPI_DOUBLE, particletracer->comm);
particletracer->xOffset = sum(xLocal, particletracer->size, particletracer->dims[JDIM], particletracer->coords[IDIM], particletracer->coords[JDIM]);
particletracer->yOffset = sum(yLocal, particletracer->size, particletracer->dims[IDIM], particletracer->coords[JDIM], particletracer->coords[IDIM]);
for (int i = 0; i < particletracer->numberOfParticles; ++i)
{
double spacing = (double)i / (double)(particletracer->numberOfParticles - 1);
particletracer->linSpaceLine[i].x = spacing * particletracer->x1 + (1.0 - spacing) * particletracer->x2;
particletracer->linSpaceLine[i].y = spacing * particletracer->y1 + (1.0 - spacing) * particletracer->y2;
particletracer->linSpaceLine[i].flag = true;
}
}
void printParticleTracerParameters(ParticleTracer* particletracer)
{
printf("Particle Tracing data:\n");
printf("Rank : %d\n", particletracer->rank);
printf("\tNumber of particles : %d being injected for every period of %.2f\n", particletracer->numberOfParticles, particletracer->injectTimePeriod);
printf("\tstartTime : %.2f\n", particletracer->startTime);
printf("\t(Line along which the particles are to be injected) \n\tx1 : %.2f, y1 : %.2f, x2 : %.2f, y2 : %.2f\n", particletracer->x1, particletracer->y1, particletracer->x2, particletracer->y2);
printf("\tPointer : %d, TotalParticles : %d\n", particletracer->pointer, particletracer->totalParticles);
printf("\tdt : %.2f, dx : %.2f, dy : %.2f\n", particletracer->dt, particletracer->dx, particletracer->dy);
printf("\tcoord[0] : %d, coord[1] : %d\n", particletracer->coords[IDIM], particletracer->coords[JDIM]);
printf("\txOffset : %.2f, yOffset : %.2f\n", particletracer->xOffset, particletracer->yOffset);
printf("\txLocal : %.2f, yLocal : %.2f\n", particletracer->xLocal, particletracer->yLocal);
}
void trace(ParticleTracer* particletracer, double* u, double* v, double time)
{
if (time >= particletracer->startTime)
{
//printParticles(particletracer);
if( (time - particletracer->lastInjectTime) >= particletracer->injectTimePeriod)
{
injectParticles(particletracer);
particletracer->lastInjectTime = time;
}
if( (time - particletracer->lastWriteTime) >= particletracer->writeTimePeriod)
{
//writeParticles(particletracer);
particletracer->lastWriteTime = time;
}
advanceParticles(particletracer, u, v, time);
compress(particletracer);
particletracer->lastUpdateTime = time;
}
}
void compress(ParticleTracer* particletracer)
{
Particle* memPool = particletracer->particlePool;
Particle tempPool[particletracer->totalParticles];
int totalParticles = 0;
for(int i=0; i < particletracer->totalParticles; ++i)
{
if(memPool[i].flag == 1)
{
tempPool[totalParticles].x = memPool[i].x;
tempPool[totalParticles].y = memPool[i].y;
tempPool[totalParticles].flag = memPool[i].flag;
++totalParticles;
}
}
particletracer->totalParticles = totalParticles;
particletracer->pointer = totalParticles + 1;
memcpy(particletracer->particlePool, tempPool, totalParticles*sizeof(Particle));
}

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@ -0,0 +1,58 @@
/*
* Copyright (C) 2022 NHR@FAU, University Erlangen-Nuremberg.
* All rights reserved. This file is part of nusif-solver.
* Use of this source code is governed by a MIT style
* license that can be found in the LICENSE file.
*/
#ifndef __PARTICLETRACING_H_
#define __PARTICLETRACING_H_
#include "allocate.h"
#include "parameter.h"
#include "solver.h"
#include "particletracing.h"
#include <stdbool.h>
#include <mpi.h>
#define NDIMS 2
typedef enum COORD { X = 0, Y, NCOORD } COORD;
typedef struct
{
double x, y;
bool flag;
} Particle;
typedef struct {
int numberOfParticles, totalParticles;
double startTime, injectTimePeriod, writeTimePeriod, lastInjectTime, lastUpdateTime, lastWriteTime;
int estimatedNumParticles;
double dx, dy, dt;
Particle* linSpaceLine;
Particle* particlePool;
int pointer;
double imax, jmax, xlength, ylength, imaxLocal, jmaxLocal;
double x1, y1, x2, y2;
MPI_Comm comm;
int rank, size;
int iNeighbours[NDIMS], jNeighbours[NDIMS];
int coords[NDIMS], dims[NDIMS];
double xLocal, yLocal, xOffset, yOffset;
} ParticleTracer;
void initParticleTracer(ParticleTracer*, Parameter*, Solver* );
void injectParticles(ParticleTracer*);
void advanceParticles(ParticleTracer*, double* , double*, double);
void freeParticles(ParticleTracer*);
void writeParticles(ParticleTracer*);
void printParticleTracerParameters(ParticleTracer*);
void printParticles(ParticleTracer*);
void trace(ParticleTracer*, double* , double* , double );
void compress(ParticleTracer* );
#endif

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@ -0,0 +1,128 @@
/*
* Copyright (C) 2022 NHR@FAU, University Erlangen-Nuremberg.
* All rights reserved. This file is part of nusif-solver.
* Use of this source code is governed by a MIT style
* license that can be found in the LICENSE file.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "vtkWriter.h"
static float floatSwap(float f)
{
union {
float f;
char b[4];
} dat1, dat2;
dat1.f = f;
dat2.b[0] = dat1.b[3];
dat2.b[1] = dat1.b[2];
dat2.b[2] = dat1.b[1];
dat2.b[3] = dat1.b[0];
return dat2.f;
}
static void writeHeader(VtkOptions* o, int ts)
{
fprintf(o->fh, "# vtk DataFile Version 3.0\n");
fprintf(o->fh, "PAMPI cfd solver particle tracing file\n");
if (o->fmt == ASCII) {
fprintf(o->fh, "ASCII\n");
} else if (o->fmt == BINARY) {
fprintf(o->fh, "BINARY\n");
}
fprintf(o->fh, "DATASET UNSTRUCTURED_GRID\n");
fprintf(o->fh, "FIELD FieldData 2\n");
fprintf(o->fh, "TIME 1 1 double\n");
fprintf(o->fh, "%d\n", ts);
fprintf(o->fh, "CYCLE 1 1 int\n");
fprintf(o->fh, "1\n");
}
void vtkOpen(VtkOptions* o, char* problem, int ts)
{
o->fh = fopen(problem, "w");
if (o->fh == NULL) {
printf("vtkWriter not initialize! Call vtkOpen first!\n");
exit(EXIT_FAILURE);
}
writeHeader(o, ts);
printf("Writing VTK output for %s\n", problem);
}
void vtkParticle(VtkOptions* o, char* name)
{
Particle* particlePool = o->particletracer->particlePool;
int imax = o->solver->imax;
int jmax = o->solver->jmax;
if (o->fh == NULL) {
printf("vtkWriter not initialize! Call vtkOpen first!\n");
exit(EXIT_FAILURE);
}
fprintf(o->fh, "POINTS %d float\n", o->particletracer->totalParticles);
for (int i = 0; i < o->particletracer->totalParticles; ++i)
{
double x = particlePool[i].x;
double y = particlePool[i].y;
fprintf(o->fh, "%.2f %.2f 0.0\n", x, y);
}
fprintf(o->fh, "CELLS %d %d\n", o->particletracer->totalParticles, 2 * o->particletracer->totalParticles);
for (int i = 0; i < o->particletracer->totalParticles; ++i)
{
fprintf(o->fh, "1 %d\n", i);
}
fprintf(o->fh, "CELL_TYPES %d\n", o->particletracer->totalParticles);
for (int i = 0; i < o->particletracer->totalParticles; ++i)
{
fprintf(o->fh, "1\n");
}
/*
for (int k = 0; k < kmax; k++) {
for (int j = 0; j < jmax; j++) {
for (int i = 0; i < imax; i++) {
if (o->fmt == ASCII) {
fprintf(o->fh,
"%f %f %f\n",
G(vec.u, i, j, k),
G(vec.v, i, j, k),
G(vec.w, i, j, k));
} else if (o->fmt == BINARY) {
fwrite((float[3]) { floatSwap(G(vec.u, i, j, k)),
floatSwap(G(vec.v, i, j, k)),
floatSwap(G(vec.w, i, j, k)) },
sizeof(float),
3,
o->fh);
}
}
}
}
if (o->fmt == BINARY) fprintf(o->fh, "\n");
*/
}
void vtkClose(VtkOptions* o)
{
fclose(o->fh);
o->fh = NULL;
}

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@ -0,0 +1,26 @@
/*
* Copyright (C) 2022 NHR@FAU, University Erlangen-Nuremberg.
* All rights reserved. This file is part of nusif-solver.
* Use of this source code is governed by a MIT style
* license that can be found in the LICENSE file.
*/
#ifndef __VTKWRITER_H_
#define __VTKWRITER_H_
#include <stdio.h>
#include "particletracing.h"
#include "solver.h"
typedef enum VtkFormat { ASCII = 0, BINARY } VtkFormat;
typedef struct VtkOptions {
VtkFormat fmt;
FILE* fh;
Solver* solver;
ParticleTracer* particletracer;
} VtkOptions;
extern void vtkOpen(VtkOptions* opts, char* filename, int ts);
extern void vtkParticle(VtkOptions* opts, char* name);
extern void vtkClose(VtkOptions* opts);
#endif // __VTKWRITER_H_

File diff suppressed because it is too large Load Diff

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@ -71,7 +71,7 @@ int main (int argc, char** argv)
adaptUV(&solver);
/* Added function for particle tracing. Will inject and advance particles as per timePeriod */
trace(&particletracer, &solver, solver.u, solver.v, t);
trace(&particletracer, solver.u, solver.v, t);
t += solver.dt;
nt++;

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@ -111,9 +111,9 @@ void freeParticles(ParticleTracer* particletracer)
free(particletracer->linSpaceLine);
}
void writeParticles(ParticleTracer* particletracer, Solver* solver)
void writeParticles(ParticleTracer* particletracer)
{
VtkOptions opts = { .solver = solver, .particletracer = particletracer };
VtkOptions opts = { .particletracer = particletracer };
char filename[50];
snprintf(filename, 50, "vtk_files/particles%d.vtk", ts);
@ -197,7 +197,7 @@ void printParticleTracerParameters(ParticleTracer* particletracer)
printf("\tdt : %.2f, dx : %.2f, dy : %.2f\n", particletracer->dt, particletracer->dx, particletracer->dy);
}
void trace(ParticleTracer* particletracer, Solver* solver, double* u, double* v, double time)
void trace(ParticleTracer* particletracer, double* u, double* v, double time)
{
if (time >= particletracer->startTime)
{
@ -209,7 +209,7 @@ void trace(ParticleTracer* particletracer, Solver* solver, double* u, double* v,
}
if( (time - particletracer->lastWriteTime) >= particletracer->writeTimePeriod)
{
writeParticles(particletracer, solver);
writeParticles(particletracer);
particletracer->lastWriteTime = time;
}
@ -237,5 +237,6 @@ void compress(ParticleTracer* particletracer)
}
particletracer->totalParticles = totalParticles;
particletracer->pointer = totalParticles + 1;
memcpy(particletracer->particlePool, tempPool, totalParticles*sizeof(Particle));
}

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@ -40,7 +40,7 @@ void initParticleTracer(ParticleTracer*, Parameter*);
void injectParticles(ParticleTracer*);
void advanceParticles(ParticleTracer*, double* , double*, double);
void freeParticles(ParticleTracer*);
void writeParticles(ParticleTracer*, Solver*);
void writeParticles(ParticleTracer*);
void printParticleTracerParameters(ParticleTracer*);
void printParticles(ParticleTracer*);
void trace(ParticleTracer*, Solver*, double* , double* , double );

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@ -61,8 +61,8 @@ void vtkParticle(VtkOptions* o, char* name)
{
Particle* particlePool = o->particletracer->particlePool;
int imax = o->solver->imax;
int jmax = o->solver->jmax;
int imax = o->particletracer->imax;
int jmax = o->particletracer->jmax;
if (o->fh == NULL) {
printf("vtkWriter not initialize! Call vtkOpen first!\n");

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@ -16,7 +16,6 @@ typedef enum VtkFormat { ASCII = 0, BINARY } VtkFormat;
typedef struct VtkOptions {
VtkFormat fmt;
FILE* fh;
Solver* solver;
ParticleTracer* particletracer;
} VtkOptions;

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@ -297,5 +297,7 @@ void compress(ParticleTracer* particletracer)
}
particletracer->totalParticles = totalParticles;
particletracer->pointer = totalParticles + 1;
memcpy(particletracer->particlePool, tempPool, totalParticles*sizeof(Particle));
}