solvespace/exposed/lib.cpp

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#include "solvespace.h"
#include "slvs.h"
Sketch SK;
System SYS;
int IsInit = 0;
void Group::GenerateEquations(IdList<Equation,hEquation> *l) {
// Nothing to do for now.
}
extern "C" {
void Slvs_QuaternionU(double qw, double qx, double qy, double qz,
double *x, double *y, double *z)
{
Quaternion q = Quaternion::From(qw, qx, qy, qz);
Vector v = q.RotationU();
*x = v.x;
*y = v.y;
*z = v.z;
}
void Slvs_QuaternionV(double qw, double qx, double qy, double qz,
double *x, double *y, double *z)
{
Quaternion q = Quaternion::From(qw, qx, qy, qz);
Vector v = q.RotationV();
*x = v.x;
*y = v.y;
*z = v.z;
}
void Slvs_QuaternionN(double qw, double qx, double qy, double qz,
double *x, double *y, double *z)
{
Quaternion q = Quaternion::From(qw, qx, qy, qz);
Vector v = q.RotationN();
*x = v.x;
*y = v.y;
*z = v.z;
}
void Slvs_MakeQuaternion(double ux, double uy, double uz,
double vx, double vy, double vz,
double *qw, double *qx, double *qy, double *qz)
{
Vector u = Vector::From(ux, uy, uz),
v = Vector::From(vx, vy, vz);
Quaternion q = Quaternion::From(u, v);
*qw = q.w;
*qx = q.vx;
*qy = q.vy;
*qz = q.vz;
}
void Slvs_Solve(Slvs_System *ssys, Slvs_hGroup shg)
{
if(!IsInit) {
#if 1
dbp("SolveSpace library initialized (evaluation version only).");
dbp("Built " __DATE__ " " __TIME__
". Copyright 2009 Jonathan Westhues.");
HWND h = GetForegroundWindow();
MessageBox(h,
"This is an evaluation copy of SolveSpace. To purchase a license, please "
"contact info@solvespace.com.\r\n\r\n"
"Copyright 2009 Jonathan Westhues.",
"SolveSpace", MB_OK);
#endif
InitHeaps();
IsInit = 1;
}
int i;
for(i = 0; i < ssys->params; i++) {
Slvs_Param *sp = &(ssys->param[i]);
Param p;
ZERO(&p);
p.h.v = sp->h;
p.val = sp->val;
SK.param.Add(&p);
if(sp->group == shg) {
SYS.param.Add(&p);
}
}
for(i = 0; i < ssys->entities; i++) {
Slvs_Entity *se = &(ssys->entity[i]);
EntityBase e;
ZERO(&e);
switch(se->type) {
case SLVS_E_POINT_IN_3D: e.type = Entity::POINT_IN_3D; break;
case SLVS_E_POINT_IN_2D: e.type = Entity::POINT_IN_2D; break;
case SLVS_E_NORMAL_IN_3D: e.type = Entity::NORMAL_IN_3D; break;
case SLVS_E_NORMAL_IN_2D: e.type = Entity::NORMAL_IN_2D; break;
case SLVS_E_DISTANCE: e.type = Entity::DISTANCE; break;
case SLVS_E_WORKPLANE: e.type = Entity::WORKPLANE; break;
case SLVS_E_LINE_SEGMENT: e.type = Entity::LINE_SEGMENT; break;
case SLVS_E_CUBIC: e.type = Entity::CUBIC; break;
case SLVS_E_CIRCLE: e.type = Entity::CIRCLE; break;
case SLVS_E_ARC_OF_CIRCLE: e.type = Entity::ARC_OF_CIRCLE; break;
default: dbp("bad entity type %d", se->type); return;
}
e.h.v = se->h;
e.group.v = se->group;
e.workplane.v = se->wrkpl;
e.point[0].v = se->point[0];
e.point[1].v = se->point[1];
e.point[2].v = se->point[2];
e.point[3].v = se->point[3];
e.normal.v = se->normal;
e.distance.v = se->distance;
e.param[0].v = se->param[0];
e.param[1].v = se->param[1];
e.param[2].v = se->param[2];
e.param[3].v = se->param[3];
SK.entity.Add(&e);
}
for(i = 0; i < ssys->constraints; i++) {
Slvs_Constraint *sc = &(ssys->constraint[i]);
ConstraintBase c;
ZERO(&c);
int t;
switch(sc->type) {
case SLVS_C_POINTS_COINCIDENT: t = Constraint::POINTS_COINCIDENT; break;
case SLVS_C_PT_PT_DISTANCE: t = Constraint::PT_PT_DISTANCE; break;
case SLVS_C_PT_PLANE_DISTANCE: t = Constraint::PT_PLANE_DISTANCE; break;
case SLVS_C_PT_LINE_DISTANCE: t = Constraint::PT_LINE_DISTANCE; break;
case SLVS_C_PT_FACE_DISTANCE: t = Constraint::PT_FACE_DISTANCE; break;
case SLVS_C_PT_IN_PLANE: t = Constraint::PT_IN_PLANE; break;
case SLVS_C_PT_ON_LINE: t = Constraint::PT_ON_LINE; break;
case SLVS_C_PT_ON_FACE: t = Constraint::PT_ON_FACE; break;
case SLVS_C_EQUAL_LENGTH_LINES: t = Constraint::EQUAL_LENGTH_LINES; break;
case SLVS_C_LENGTH_RATIO: t = Constraint::LENGTH_RATIO; break;
case SLVS_C_EQ_LEN_PT_LINE_D: t = Constraint::EQ_LEN_PT_LINE_D; break;
case SLVS_C_EQ_PT_LN_DISTANCES: t = Constraint::EQ_PT_LN_DISTANCES; break;
case SLVS_C_EQUAL_ANGLE: t = Constraint::EQUAL_ANGLE; break;
case SLVS_C_EQUAL_LINE_ARC_LEN: t = Constraint::EQUAL_LINE_ARC_LEN; break;
case SLVS_C_SYMMETRIC: t = Constraint::SYMMETRIC; break;
case SLVS_C_SYMMETRIC_HORIZ: t = Constraint::SYMMETRIC_HORIZ; break;
case SLVS_C_SYMMETRIC_VERT: t = Constraint::SYMMETRIC_VERT; break;
case SLVS_C_SYMMETRIC_LINE: t = Constraint::SYMMETRIC_LINE; break;
case SLVS_C_AT_MIDPOINT: t = Constraint::AT_MIDPOINT; break;
case SLVS_C_HORIZONTAL: t = Constraint::HORIZONTAL; break;
case SLVS_C_VERTICAL: t = Constraint::VERTICAL; break;
case SLVS_C_DIAMETER: t = Constraint::DIAMETER; break;
case SLVS_C_PT_ON_CIRCLE: t = Constraint::PT_ON_CIRCLE; break;
case SLVS_C_SAME_ORIENTATION: t = Constraint::SAME_ORIENTATION; break;
case SLVS_C_ANGLE: t = Constraint::ANGLE; break;
case SLVS_C_PARALLEL: t = Constraint::PARALLEL; break;
case SLVS_C_PERPENDICULAR: t = Constraint::PERPENDICULAR; break;
case SLVS_C_ARC_LINE_TANGENT: t = Constraint::ARC_LINE_TANGENT; break;
case SLVS_C_CUBIC_LINE_TANGENT: t = Constraint::CUBIC_LINE_TANGENT; break;
case SLVS_C_EQUAL_RADIUS: t = Constraint::EQUAL_RADIUS; break;
default: dbp("bad constraint type %d", sc->type); return;
}
c.type = t;
c.h.v = sc->h;
c.group.v = sc->group;
c.workplane.v = sc->wrkpl;
c.valA = sc->valA;
c.ptA.v = sc->ptA;
c.ptB.v = sc->ptB;
c.entityA.v = sc->entityA;
c.entityB.v = sc->entityB;
c.entityC.v = sc->entityC;
c.entityD.v = sc->entityD;
c.other = (sc->other) ? true : false;
SK.constraint.Add(&c);
}
if(System::MAX_DRAGGED < 4) oops();
for(i = 0; i < System::MAX_DRAGGED; i++) {
SYS.dragged[i].v = 0;
}
SYS.dragged[0].v = ssys->dragged[0];
SYS.dragged[1].v = ssys->dragged[1];
SYS.dragged[2].v = ssys->dragged[2];
SYS.dragged[3].v = ssys->dragged[3];
Group g;
ZERO(&g);
g.h.v = shg;
List<hConstraint> bad;
ZERO(&bad);
// Now we're finally ready to solve!
bool andFindBad = ssys->calculateFaileds ? true : false;
int how = SYS.Solve(&g, &(ssys->dof), &bad, andFindBad, false);
switch(how) {
case System::SOLVED_OKAY:
ssys->result = SLVS_RESULT_OKAY;
break;
case System::DIDNT_CONVERGE:
ssys->result = SLVS_RESULT_DIDNT_CONVERGE;
break;
case System::SINGULAR_JACOBIAN:
ssys->result = SLVS_RESULT_INCONSISTENT;
break;
case System::TOO_MANY_UNKNOWNS:
ssys->result = SLVS_RESULT_TOO_MANY_UNKNOWNS;
break;
default: oops();
}
// Write the new parameter values back to our caller.
for(i = 0; i < ssys->params; i++) {
Slvs_Param *sp = &(ssys->param[i]);
hParam hp = { sp->h };
sp->val = SK.GetParam(hp)->val;
}
if(ssys->failed) {
// Copy over any the list of problematic constraints.
for(i = 0; i < ssys->faileds && i < bad.n; i++) {
ssys->failed[i] = bad.elem[i].v;
}
ssys->faileds = bad.n;
}
bad.Clear();
SYS.param.Clear();
SK.param.Clear();
SK.entity.Clear();
SK.constraint.Clear();
}
}