solvespace/mesh.cpp

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#include "solvespace.h"
void SMesh::Clear(void) {
l.Clear();
}
void SMesh::AddTriangle(STriMeta meta, Vector n, Vector a, Vector b, Vector c) {
Vector ab = b.Minus(a), bc = c.Minus(b);
Vector np = ab.Cross(bc);
if(np.Magnitude() < 1e-10) {
// ugh; gl sometimes tesselates to collinear triangles
return;
}
if(np.Dot(n) > 0) {
AddTriangle(meta, a, b, c);
} else {
AddTriangle(meta, c, b, a);
}
}
void SMesh::AddTriangle(STriMeta meta, Vector a, Vector b, Vector c) {
STriangle t; ZERO(&t);
t.meta = meta;
t.a = a;
t.b = b;
t.c = c;
AddTriangle(&t);
}
void SMesh::AddTriangle(STriangle *st) {
l.Add(st);
}
void SMesh::DoBounding(Vector v, Vector *vmax, Vector *vmin) {
vmax->x = max(vmax->x, v.x);
vmax->y = max(vmax->y, v.y);
vmax->z = max(vmax->z, v.z);
vmin->x = min(vmin->x, v.x);
vmin->y = min(vmin->y, v.y);
vmin->z = min(vmin->z, v.z);
}
void SMesh::GetBounding(Vector *vmax, Vector *vmin) {
int i;
*vmin = Vector::From( 1e12, 1e12, 1e12);
*vmax = Vector::From(-1e12, -1e12, -1e12);
for(i = 0; i < l.n; i++) {
STriangle *st = &(l.elem[i]);
DoBounding(st->a, vmax, vmin);
DoBounding(st->b, vmax, vmin);
DoBounding(st->c, vmax, vmin);
}
}
void SMesh::Simplify(int start) {
#define MAX_TRIANGLES 2000
if(l.n - start > MAX_TRIANGLES) oops();
STriMeta meta = l.elem[start].meta;
STriangle tout[MAX_TRIANGLES];
int toutc = 0;
Vector n, conv[MAX_TRIANGLES*3];
int convc = 0;
int start0 = start;
int i, j;
for(i = start; i < l.n; i++) {
STriangle *tr = &(l.elem[i]);
if((tr->Normal()).Magnitude() < LENGTH_EPS*LENGTH_EPS) {
tr->tag = 0;
} else {
tr->tag = 0;
}
}
for(;;) {
bool didAdd;
convc = 0;
for(i = start; i < l.n; i++) {
STriangle *tr = &(l.elem[i]);
if(tr->tag) continue;
tr->tag = 1;
n = (tr->Normal()).WithMagnitude(1);
conv[convc++] = tr->a;
conv[convc++] = tr->b;
conv[convc++] = tr->c;
start = i+1;
break;
}
if(i >= l.n) break;
do {
didAdd = false;
for(j = 0; j < convc; j++) {
Vector a = conv[WRAP((j-1), convc)],
b = conv[j],
d = conv[WRAP((j+1), convc)],
e = conv[WRAP((j+2), convc)];
Vector c;
for(i = start; i < l.n; i++) {
STriangle *tr = &(l.elem[i]);
if(tr->tag) continue;
if((tr->a).Equals(d) && (tr->b).Equals(b)) {
c = tr->c;
} else if((tr->b).Equals(d) && (tr->c).Equals(b)) {
c = tr->a;
} else if((tr->c).Equals(d) && (tr->a).Equals(b)) {
c = tr->b;
} else {
continue;
}
// The vertex at C must be convex; but the others must
// be tested
Vector ab = b.Minus(a);
Vector bc = c.Minus(b);
Vector cd = d.Minus(c);
Vector de = e.Minus(d);
double bDot = (ab.Cross(bc)).Dot(n);
double dDot = (cd.Cross(de)).Dot(n);
bDot /= min(ab.Magnitude(), bc.Magnitude());
dDot /= min(cd.Magnitude(), de.Magnitude());
if(fabs(bDot) < LENGTH_EPS && fabs(dDot) < LENGTH_EPS) {
conv[WRAP((j+1), convc)] = c;
// and remove the vertex at j, which is a dup
memmove(conv+j, conv+j+1,
(convc - j - 1)*sizeof(conv[0]));
convc--;
} else if(fabs(bDot) < LENGTH_EPS && dDot > 0) {
conv[j] = c;
} else if(fabs(dDot) < LENGTH_EPS && bDot > 0) {
conv[WRAP((j+1), convc)] = c;
} else if(bDot > 0 && dDot > 0) {
// conv[j] is unchanged, conv[j+1] goes to [j+2]
memmove(conv+j+2, conv+j+1,
(convc - j - 1)*sizeof(conv[0]));
conv[j+1] = c;
convc++;
} else {
continue;
}
didAdd = true;
tr->tag = 1;
break;
}
}
} while(didAdd);
// I need to debug why this is required; sometimes the above code
// still generates a convex polygon
for(i = 0; i < convc; i++) {
Vector a = conv[WRAP((i-1), convc)],
b = conv[i],
c = conv[WRAP((i+1), convc)];
Vector ab = b.Minus(a);
Vector bc = c.Minus(b);
double bDot = (ab.Cross(bc)).Dot(n);
bDot /= min(ab.Magnitude(), bc.Magnitude());
if(bDot < 0) oops();
}
for(i = 0; i < convc - 2; i++) {
STriangle tr = STriangle::From(meta, conv[0], conv[i+1], conv[i+2]);
if((tr.Normal()).Magnitude() > LENGTH_EPS*LENGTH_EPS) {
tout[toutc++] = tr;
}
}
}
l.n = start0;
for(i = 0; i < toutc; i++) {
AddTriangle(&(tout[i]));
}
}
void SMesh::AddAgainstBsp(SMesh *srcm, SBsp3 *bsp3) {
int i;
for(i = 0; i < srcm->l.n; i++) {
STriangle *st = &(srcm->l.elem[i]);
int pn = l.n;
atLeastOneDiscarded = false;
bsp3->Insert(st, this);
if(!atLeastOneDiscarded && (l.n != (pn+1))) {
l.n = pn;
if(flipNormal) {
AddTriangle(st->meta, st->c, st->b, st->a);
} else {
AddTriangle(st->meta, st->a, st->b, st->c);
}
}
if(l.n - pn > 1) {
Simplify(pn);
}
}
}
void SMesh::MakeFromUnion(SMesh *a, SMesh *b) {
SBsp3 *bspa = SBsp3::FromMesh(a);
SBsp3 *bspb = SBsp3::FromMesh(b);
flipNormal = false;
keepCoplanar = false;
AddAgainstBsp(b, bspa);
flipNormal = false;
keepCoplanar = true;
AddAgainstBsp(a, bspb);
}
void SMesh::MakeFromDifference(SMesh *a, SMesh *b) {
SBsp3 *bspa = SBsp3::FromMesh(a);
SBsp3 *bspb = SBsp3::FromMesh(b);
flipNormal = true;
keepCoplanar = true;
AddAgainstBsp(b, bspa);
flipNormal = false;
keepCoplanar = false;
AddAgainstBsp(a, bspb);
}
bool SMesh::MakeFromInterferenceCheck(SMesh *srca, SMesh *srcb, SMesh *error) {
SBsp3 *bspa = SBsp3::FromMesh(srca);
SBsp3 *bspb = SBsp3::FromMesh(srcb);
error->Clear();
error->flipNormal = true;
error->keepCoplanar = false;
error->AddAgainstBsp(srcb, bspa);
error->AddAgainstBsp(srca, bspb);
// Now we have a list of all the triangles (or fragments thereof) from
// A that lie inside B, or vice versa. That's the interference, and
// we report it so that it can be flagged.
// But as far as the actual model, we just copy everything over.
int i;
for(i = 0; i < srca->l.n; i++) {
AddTriangle(&(srca->l.elem[i]));
}
for(i = 0; i < srcb->l.n; i++) {
AddTriangle(&(srcb->l.elem[i]));
}
return (error->l.n == 0);
}
void SMesh::MakeFromCopy(SMesh *a) {
int i;
for(i = 0; i < a->l.n; i++) {
AddTriangle(&(a->l.elem[i]));
}
}
DWORD SMesh::FirstIntersectionWith(Point2d mp) {
Vector p0 = Vector::From(mp.x, mp.y, 0);
Vector gn = Vector::From(0, 0, 1);
double maxT = -1e12;
DWORD face = 0;
int i;
for(i = 0; i < l.n; i++) {
STriangle tr = l.elem[i];
tr.a = SS.GW.ProjectPoint3(tr.a);
tr.b = SS.GW.ProjectPoint3(tr.b);
tr.c = SS.GW.ProjectPoint3(tr.c);
Vector n = tr.Normal();
if(n.Dot(gn) < LENGTH_EPS) continue; // back-facing or on edge
if(tr.ContainsPointProjd(gn, p0)) {
// Let our line have the form r(t) = p0 + gn*t
double t = -(n.Dot((tr.a).Minus(p0)))/(n.Dot(gn));
if(t > maxT) {
maxT = t;
face = tr.meta.face;
}
}
}
return face;
}