Esempio n. 1
0
void SPHSystem::computeForce()
{
	int i, j, s, numNei;
	float dij;
	float term1, term2;
	Point3f vij;
	Point3f pf, vf, tf, gf, cf;

	//#pragma omp parallel for private( j, nId, numNei, d, term1, term2, dv, pf, vf, tf, gf )
	for(i=0; i<p.size(); ++i) {
		pf.Set(0,0,0);
		vf.Set(0,0,0);
		tf.Set(0,0,0);
		numNei = p[i]->pq.getSize();

		
		for(s=1; s<=numNei; ++s) {
			j = p[i]->pq.queue[s];
			if(i==j) continue;
			term1 = p[i]->p/(p[i]->d*p[i]->d);
			term2 = p[j]->p/(p[j]->d*p[j]->d);
			vij = *p[i]-*p[j];
			dij = vij.Length();
			// pressure force
			pf += (term1+term2)*p[j]->m*k->pw1(dij)*vij;
			// viscosity force
			vf += p[j]->m*k->vw2(dij)*(p[j]->v-p[i]->v);
			// surface tension			
		}

		
		pf = -p[i]->d*pf;
		vf = (X/p[i]->d)*vf;
		gf = p[i]->d*Point3f(0.0f, -GR, 0.0f);
		
		if(p[i]->n.Length() < ( SIM_DIM==2 ? 0.6f : 3.0f) )		// for 2d < 0.6 ,   3d < 3.0
			tf.Zero();
		else
			tf = -p[i]->lapc*p[i]->n.GetNormalized();
		
		p[i]->tf = tf;
		p[i]->pf = pf;

		p[i]->vf = vf;
		p[i]->a = (pf+vf+gf+tf)/p[i]->d;
	}
}
Esempio n. 2
0
void SPHSystem::computeDensityPressure()
{
	int i, j, s, numNei;
	float lapc, c, d;
	float w;
	float vj;       // volumn
	float lenij;    // length (i,j)
	Point3f n;
	Point3f vecij;  // vector (i,j)
	
	for(i=0; i<p.size(); ++i) {
		p[i]->vol = p[i]->m/p[i]->d;
	}

	#pragma omp parallel for private(s, j, numNei, lapc, c, d, w, vj, lenij, n, vecij )
	for(i=0; i<p.size(); ++i) {
		lapc = 0;
		c = 0;
		d = 0;
		n.Zero();
		numNei = p[i]->pq.getSize();
		for(s=1; s<=numNei; ++s) {
			j = p[i]->pq.queue[s];
			vj = p[j]->vol;
			vecij = *p[i]-*p[j];
			lenij = vecij.Length();
			w = k->w(lenij);
			
			c += p[j]->c*p[j]->m*(vj)*w;
			n += p[j]->m*(vj)*k->w1(lenij)*(vecij);
			lapc += p[j]->m*(vj)*k->w2(lenij);
			
			d += p[j]->m*w;
		}
		p[i]->lapc = lapc;										// laplacian of c
		p[i]->c = c;											// color field
		p[i]->n = n;											// inward surface normal
		
		p[i]->d = d;											// density
		p[i]->p = (K*RHO/7.0f)*(pow((d/RHO),7.0f)-1);           // pressure (Tait Equation, http://graphics.stanford.edu/~wicke/eg09-tutorial/coursenotes.pdf)
		if(p[i]->p < 0)											// correct pressure if p<0
			p[i]->p *= Z;										// reduce it to a tiny number (~=0)
			
	}

}