Ejemplo n.º 1
0
    void enforceConstraints() {
        // Perfect vertical reflection.
        if (fBall.pos.fY < kBounds.fTop || fBall.pos.fY >= kBounds.fBottom) {
            fBall.spd.fY = -fBall.spd.fY;
            fBall.pos.fY = box_reflect(fBall.pos.fY, kBounds.fTop, kBounds.fBottom);
        }

        // Horizontal bounce - introduces a speed fuzz.
        if (fBall.pos.fX < kBounds.fLeft || fBall.pos.fX >= kBounds.fRight) {
            fBall.spd.fX = this->fuzzBallSpeed(-fBall.spd.fX);
            fBall.spd.fY = this->fuzzBallSpeed(fBall.spd.fY);
            fBall.pos.fX = box_reflect(fBall.pos.fX, kBounds.fLeft, kBounds.fRight);
            this->updatePaddleStrategy();
        }
    }
Ejemplo n.º 2
0
int main(int argc, char** argv)
{
  //printf("%f\n",GRID_NUM);
  struct timespec diff(struct timespec start, struct timespec end);
  struct timespec time1, time2;
  struct timespec time_stamp;


  int npart,i,j,Num;

  params param;
  mols mol;
  adjacent adj;

  param.npart = N_BODY_NUM;
  param.dt = DT;
  param.eps_lj = EPS;
  param.sig_lj = SIG;

  mol.x = malloc(2*param.npart * sizeof(float));
  mol.v = malloc(2*param.npart * sizeof(float));
  mol.a = malloc(2*param.npart * sizeof(float));
  mol.F = malloc(2*param.npart * sizeof(float));
#if (NEAREST)
  double Blength = BLOCK_LENGTH(GRID_NUM,BOX_SIZE);
  printf("Blength: %lf\n",Blength);
  Num = EST_NUM(GRID_NUM,N_BODY_NUM);
  Num = 4*Num;
  if(!Num)
  {
     Num = 4;
  }
  
  if(N_BODY_NUM < Num)
  {
    Num = N_BODY_NUM;
  }

  adj.n = malloc(sizeof(int) * GRID_NUM * GRID_NUM * Num);
  memset(adj.n,-1,sizeof(int) * GRID_NUM * GRID_NUM *  Num);
  printf("Num: %d\n",Num);
#endif

  npart = init_particles(param.npart, mol.x , mol.v, &param);
  if(npart < param.npart)
  {
    fprintf(stderr, "Could not generate %d particles, Trying %d particles instead\n",param.npart,npart);
    param.npart = npart;
  }
  else
  {
    fprintf(stdout,"Generated %d particles\n",param.npart);
  }

  init_particles_va( param.npart, mol.v,mol.a, &param);

#if(NEAREST)
  printf("Before gridSort\n");
  gridSort(npart, GRID_NUM, Num, adj.n, mol.x);
  printf("After gridSort\n");
#endif

  /*for(i=0;i<npart;i++)
    printf("myBlockNum: %d\n",getMyBlock(param.npart,2*i, adj.n, Num/2));

    for(i=0; i < param.npart; i++)
    {
    printf("nBody-Num: %d Posx: %f Velx: %f Accx: %f Forcex: %f\n",i,
    mol.x[2*i],mol.v[2*i],mol.a[2*i],mol.F[2*i]);
    printf("nBody-Num: %d Posy: %f Vely: %f Accy: %f Forcey: %f\n",i,
    mol.x[2*i+1],mol.v[2*i+1],mol.a[2*i+1],mol.F[2*i+1]);
    }
    */

#if(LINUX)

  clock_gettime(CLOCK_REALTIME, &time1);

#endif
#if(NEAREST)
  compute_forces_nearby(param.npart, adj.n, mol.x, mol.F, GRID_NUM, Num);

#elif(OPT)  
  compute_forces(param.npart,mol.x,mol.F);
#else
    compute_forces_naive(param.npart,mol.x,mol.F);

#endif
  printf("After First ComputeForces\n");
  for(i=0;i<ITERS;i++)
  {
#if(NEAREST)
    gridSort(npart, GRID_NUM, Num, adj.n, mol.x);		    // Added in the gridSort function for each iteration
#endif
    verletInt1(param.npart,param.dt , mol.x, mol.v,mol.a);
    box_reflect(param.npart,mol.x,mol.v,mol.a );
#if(NEAREST)
    compute_forces_nearby(param.npart, adj.n, mol.x, mol.F, GRID_NUM, Num);
#elif(OPT)
    compute_forces(param.npart,mol.x,mol.F);
#else
    compute_forces_naive(param.npart,mol.x,mol.F);
#endif
    verletInt2(param.npart,param.dt, mol.x, mol.v, mol.a);
    memset(mol.F, 0 , 2*param.npart * sizeof(float));
  }

#if(LINUX)

  clock_gettime(CLOCK_REALTIME, &time2);

#endif

  /*
     for(i=0; i < param.npart; i++)
     {
     printf("nBody-Num: %d Posx: %f Velx: %f Accx: %f Forcex: %f\n",i,
     mol.x[2*i],mol.v[2*i],mol.a[2*i],mol.F[2*i]);
     printf("nBody-Num: %d Posy: %f Vely: %f Accy: %f Forcey: %f\n",i,
     mol.x[2*i+1],mol.v[2*i+1],mol.a[2*i+1],mol.F[2*i+1]);
     }
     */

#if(LINUX)

  double blength = BLOCK_LENGTH(GRID_NUM,BOX_SIZE);
  printf("Boxsize: %lf,Blocksize: %lf,MaxBodiesPerBlock: %d\n",BOX_SIZE,blength, maxNumPartPerBlock(blength,SIG));
  time_stamp = diff(time1,time2);
  printf("Execution time: %lf\n",(double)((time_stamp.tv_sec + (time_stamp.tv_nsec/1.0e9))));

#else

  printf("Boxsize: %lf,BlockNum: %lf,MaxBodiesPerBlock: %d\n",BOX_SIZE,GRID_NUM, maxNumPartPerBlock(GRID_NUM,SIG));

#endif

  /*        // test statements for the grid allocation
            int count =0;
            for(i=0;i<GRID_NUM*GRID_NUM*Num/2;i++)
            {
            if(adj.n[i]!=-1)
            {
            count++;
            }
            }
            printf("%d\n",count);

*/
#if(NEAREST)
  free(adj.n);
#endif
  free(mol.x);
  free(mol.v);
  free(mol.a);
  free(mol.F);
  printf("Done\n");

  return 0;
}