solvespace/group.cpp

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#include "solvespace.h"
const hParam Param::NO_PARAM = { 0 };
#define NO_PARAM (Param::NO_PARAM)
const hGroup Group::HGROUP_REFERENCES = { 1 };
#define gs (SS.GW.gs)
void Group::AddParam(IdList<Param,hParam> *param, hParam hp, double v) {
Param pa;
memset(&pa, 0, sizeof(pa));
pa.h = hp;
pa.val = v;
param->Add(&pa);
}
void Group::MenuGroup(int id) {
Group g;
ZERO(&g);
g.visible = true;
g.color = RGB(100, 100, 100);
if(id >= RECENT_IMPORT && id < (RECENT_IMPORT + MAX_RECENT)) {
strcpy(g.impFile, RecentFile[id-RECENT_IMPORT]);
id = GraphicsWindow::MNU_GROUP_IMPORT;
}
SS.GW.GroupSelection();
switch(id) {
case GraphicsWindow::MNU_GROUP_3D:
g.type = DRAWING_3D;
g.name.strcpy("sketch-in-3d");
break;
case GraphicsWindow::MNU_GROUP_WRKPL:
g.type = DRAWING_WORKPLANE;
g.name.strcpy("sketch-in-plane");
if(gs.points == 1 && gs.n == 1) {
g.subtype = WORKPLANE_BY_POINT_ORTHO;
Vector u = SS.GW.projRight, v = SS.GW.projUp;
u = u.ClosestOrtho();
v = v.Minus(u.ScaledBy(v.Dot(u)));
v = v.ClosestOrtho();
g.predef.q = Quaternion::From(u, v);
g.predef.origin = gs.point[0];
} else if(gs.points == 1 && gs.lineSegments == 2 && gs.n == 3) {
g.subtype = WORKPLANE_BY_LINE_SEGMENTS;
g.predef.origin = gs.point[0];
g.predef.entityB = gs.entity[0];
g.predef.entityC = gs.entity[1];
Vector ut = SK.GetEntity(g.predef.entityB)->VectorGetNum();
Vector vt = SK.GetEntity(g.predef.entityC)->VectorGetNum();
ut = ut.WithMagnitude(1);
vt = vt.WithMagnitude(1);
if(fabs(SS.GW.projUp.Dot(vt)) < fabs(SS.GW.projUp.Dot(ut))) {
SWAP(Vector, ut, vt);
g.predef.swapUV = true;
}
if(SS.GW.projRight.Dot(ut) < 0) g.predef.negateU = true;
if(SS.GW.projUp. Dot(vt) < 0) g.predef.negateV = true;
} else {
Error("Bad selection for new sketch in workplane. This "
"group can be created with:\r\n\r\n"
" * a point (orthogonal to coordinate axes, "
"through the point)\r\n"
" * a point and two line segments (parallel to the "
"lines, through the point)\r\n");
return;
}
break;
case GraphicsWindow::MNU_GROUP_EXTRUDE:
if(!SS.GW.LockedInWorkplane()) {
Error("Select a workplane (Sketch -> In Workplane) before "
"extruding. The sketch will be extruded normal to the "
"workplane.");
return;
}
g.type = EXTRUDE;
g.opA = SS.GW.activeGroup;
g.predef.entityB = SS.GW.ActiveWorkplane();
g.subtype = ONE_SIDED;
g.name.strcpy("extrude");
break;
case GraphicsWindow::MNU_GROUP_LATHE:
if(gs.points == 1 && gs.vectors == 1 && gs.n == 2) {
g.predef.origin = gs.point[0];
g.predef.entityB = gs.vector[0];
} else if(gs.lineSegments == 1 && gs.n == 1) {
g.predef.origin = SK.GetEntity(gs.entity[0])->point[0];
g.predef.entityB = gs.entity[0];
// since a line segment is a vector
} else {
Error("Bad selection for new lathe group. This group can "
"be created with:\r\n\r\n"
" * a point and a line segment or normal "
"(revolved about an axis parallel to line / "
"normal, through point)\r\n"
" * a line segment (revolved about line segment)\r\n");
return;
}
g.type = LATHE;
g.opA = SS.GW.activeGroup;
g.name.strcpy("lathe");
break;
case GraphicsWindow::MNU_GROUP_SWEEP: {
g.type = SWEEP;
// Get the group one before the active group; that's our
// trajectory
int i;
for(i = 1; i < SK.group.n - 1; i++) {
Group *gnext = &(SK.group.elem[i+1]);
if(gnext->h.v == SS.GW.activeGroup.v) {
g.opA = SK.group.elem[i].h;
break;
}
}
if(i >= SK.group.n - 1) {
Error("At least one sketch before the active sketch must "
"exist; that specifies the sweep trajectory.");
return;
}
// The active group is our section
g.opB = SS.GW.activeGroup;
g.name.strcpy("sweep");
break;
}
case GraphicsWindow::MNU_GROUP_HELICAL: {
if(gs.points == 1 && gs.lineSegments == 1 && gs.n == 2) {
Vector pt = SK.GetEntity(gs.point[0])->PointGetNum();
Entity *ln = SK.GetEntity(gs.entity[0]);
Vector lpa = SK.GetEntity(ln->point[0])->PointGetNum();
Vector lpb = SK.GetEntity(ln->point[1])->PointGetNum();
double d = pt.DistanceToLine(lpa, lpb.Minus(lpa));
if(d < LENGTH_EPS) {
Error("Point on helix can't lie on helix's axis!");
return;
}
g.predef.origin = gs.point[0];
g.predef.entityB = gs.entity[0];
} else {
Error("Bad selection for helical sweep. This group can "
"be created with:\r\n\r\n"
" * a line segment and a point (line segment "
"is axis of helix, point lies on helix)\r\n");
return;
}
g.type = HELICAL_SWEEP;
g.subtype = RIGHT_HANDED;
g.valA = 3; // turns;
g.valB = 300/SS.GW.scale; // pitch along axis
g.valC = 0; // pitch in radius
g.opA = SS.GW.activeGroup;
g.name.strcpy("helical-sweep");
break;
}
case GraphicsWindow::MNU_GROUP_ROT: {
if(gs.points == 1 && gs.n == 1 && SS.GW.LockedInWorkplane()) {
g.predef.origin = gs.point[0];
Entity *w = SK.GetEntity(SS.GW.ActiveWorkplane());
g.predef.entityB = w->Normal()->h;
g.activeWorkplane = w->h;
} else if(gs.points == 1 && gs.vectors == 1 && gs.n == 2) {
g.predef.origin = gs.point[0];
g.predef.entityB = gs.vector[0];
} else {
Error("Bad selection for new rotation. This group can "
"be created with:\r\n\r\n"
" * a point, while locked in workplane (rotate "
"in plane, about that point)\r\n"
" * a point and a line or a normal (rotate about "
"an axis through the point, and parallel to "
"line / normal)\r\n");
return;
}
g.type = ROTATE;
g.opA = SS.GW.activeGroup;
g.valA = 3;
g.subtype = ONE_SIDED;
g.name.strcpy("rotate");
break;
}
case GraphicsWindow::MNU_GROUP_TRANS:
g.type = TRANSLATE;
g.opA = SS.GW.activeGroup;
g.valA = 3;
g.subtype = ONE_SIDED;
g.predef.entityB = SS.GW.ActiveWorkplane();
g.activeWorkplane = SS.GW.ActiveWorkplane();
g.name.strcpy("translate");
break;
case GraphicsWindow::MNU_GROUP_IMPORT: {
g.type = IMPORTED;
g.opA = SS.GW.activeGroup;
if(strlen(g.impFile) == 0) {
if(!GetOpenFile(g.impFile, SLVS_EXT, SLVS_PATTERN)) return;
}
g.name.strcpy("import");
g.meshCombine = COMBINE_AS_ASSEMBLE;
break;
}
default: oops();
}
SS.GW.ClearSelection();
SS.UndoRemember();
SK.group.AddAndAssignId(&g);
Group *gg = SK.GetGroup(g.h);
if(gg->type == IMPORTED) {
SS.ReloadAllImported();
}
gg->clean = false;
SS.GW.activeGroup = gg->h;
SS.GenerateAll();
if(gg->type == DRAWING_WORKPLANE) {
// Can't set the active workplane for this one until after we've
// regenerated, because the workplane doesn't exist until then.
gg->activeWorkplane = gg->h.entity(0);
}
gg->Activate();
SS.GW.AnimateOntoWorkplane();
TextWindow::ScreenSelectGroup(0, gg->h.v);
SS.later.showTW = true;
}
void Group::TransformImportedBy(Vector t, Quaternion q) {
if(type != IMPORTED) oops();
hParam tx, ty, tz, qw, qx, qy, qz;
tx = h.param(0);
ty = h.param(1);
tz = h.param(2);
qw = h.param(3);
qx = h.param(4);
qy = h.param(5);
qz = h.param(6);
Quaternion qg = Quaternion::From(qw, qx, qy, qz);
qg = q.Times(qg);
Vector tg = Vector::From(tx, ty, tz);
tg = tg.Plus(t);
SK.GetParam(tx)->val = tg.x;
SK.GetParam(ty)->val = tg.y;
SK.GetParam(tz)->val = tg.z;
SK.GetParam(qw)->val = qg.w;
SK.GetParam(qx)->val = qg.vx;
SK.GetParam(qy)->val = qg.vy;
SK.GetParam(qz)->val = qg.vz;
}
char *Group::DescriptionString(void) {
static char ret[100];
if(name.str[0]) {
sprintf(ret, "g%03x-%s", h.v, name.str);
} else {
sprintf(ret, "g%03x-(unnamed)", h.v);
}
return ret;
}
void Group::Activate(void) {
if(type == EXTRUDE || type == IMPORTED) {
SS.GW.showFaces = true;
} else {
SS.GW.showFaces = false;
}
SS.MarkGroupDirty(h); // for good measure; shouldn't be needed
SS.later.generateAll = true;
SS.later.showTW = true;
}
void Group::Generate(IdList<Entity,hEntity> *entity,
IdList<Param,hParam> *param)
{
Vector gn = (SS.GW.projRight).Cross(SS.GW.projUp);
Vector gp = SS.GW.projRight.Plus(SS.GW.projUp);
Vector gc = (SS.GW.offset).ScaledBy(-1);
gn = gn.WithMagnitude(200/SS.GW.scale);
gp = gp.WithMagnitude(200/SS.GW.scale);
int a, i;
switch(type) {
case DRAWING_3D:
break;
case DRAWING_WORKPLANE: {
Quaternion q;
if(subtype == WORKPLANE_BY_LINE_SEGMENTS) {
Vector u = SK.GetEntity(predef.entityB)->VectorGetNum();
Vector v = SK.GetEntity(predef.entityC)->VectorGetNum();
u = u.WithMagnitude(1);
Vector n = u.Cross(v);
v = (n.Cross(u)).WithMagnitude(1);
if(predef.swapUV) SWAP(Vector, u, v);
if(predef.negateU) u = u.ScaledBy(-1);
if(predef.negateV) v = v.ScaledBy(-1);
q = Quaternion::From(u, v);
} else if(subtype == WORKPLANE_BY_POINT_ORTHO) {
// Already given, numerically.
q = predef.q;
} else oops();
Entity normal;
memset(&normal, 0, sizeof(normal));
normal.type = Entity::NORMAL_N_COPY;
normal.numNormal = q;
normal.point[0] = h.entity(2);
normal.group = h;
normal.h = h.entity(1);
entity->Add(&normal);
Entity point;
memset(&point, 0, sizeof(point));
point.type = Entity::POINT_N_COPY;
point.numPoint = SK.GetEntity(predef.origin)->PointGetNum();
point.group = h;
point.h = h.entity(2);
entity->Add(&point);
Entity wp;
memset(&wp, 0, sizeof(wp));
wp.type = Entity::WORKPLANE;
wp.normal = normal.h;
wp.point[0] = point.h;
wp.group = h;
wp.h = h.entity(0);
entity->Add(&wp);
break;
}
case EXTRUDE: {
AddParam(param, h.param(0), gn.x);
AddParam(param, h.param(1), gn.y);
AddParam(param, h.param(2), gn.z);
int ai, af;
if(subtype == ONE_SIDED) {
ai = 0; af = 2;
} else if(subtype == TWO_SIDED) {
ai = -1; af = 1;
} else oops();
// Get some arbitrary point in the sketch, that will be used
// as a reference when defining top and bottom faces.
hEntity pt = { 0 };
for(i = 0; i < entity->n; i++) {
Entity *e = &(entity->elem[i]);
if(e->group.v != opA.v) continue;
if(e->IsPoint()) pt = e->h;
e->CalculateNumerical(false);
hEntity he = e->h; e = NULL;
// As soon as I call CopyEntity, e may become invalid! That
// adds entities, which may cause a realloc.
CopyEntity(entity, SK.GetEntity(he), ai, REMAP_BOTTOM,
h.param(0), h.param(1), h.param(2),
NO_PARAM, NO_PARAM, NO_PARAM, NO_PARAM,
true, false);
CopyEntity(entity, SK.GetEntity(he), af, REMAP_TOP,
h.param(0), h.param(1), h.param(2),
NO_PARAM, NO_PARAM, NO_PARAM, NO_PARAM,
true, false);
MakeExtrusionLines(entity, he);
}
// Remapped versions of that arbitrary point will be used to
// provide points on the plane faces.
MakeExtrusionTopBottomFaces(entity, pt);
break;
}
case LATHE: {
break;
}
case SWEEP: {
break;
}
case HELICAL_SWEEP: {
break;
}
case TRANSLATE: {
// The translation vector
AddParam(param, h.param(0), gp.x);
AddParam(param, h.param(1), gp.y);
AddParam(param, h.param(2), gp.z);
int n = (int)valA, a0 = 0;
if(subtype == ONE_SIDED && skipFirst) {
a0++; n++;
}
for(a = a0; a < n; a++) {
for(i = 0; i < entity->n; i++) {
Entity *e = &(entity->elem[i]);
if(e->group.v != opA.v) continue;
e->CalculateNumerical(false);
CopyEntity(entity, e,
a*2 - (subtype == ONE_SIDED ? 0 : (n-1)),
(a == (n - 1)) ? REMAP_LAST : a,
h.param(0), h.param(1), h.param(2),
NO_PARAM, NO_PARAM, NO_PARAM, NO_PARAM,
true, false);
}
}
break;
}
case ROTATE: {
// The center of rotation
AddParam(param, h.param(0), gc.x);
AddParam(param, h.param(1), gc.y);
AddParam(param, h.param(2), gc.z);
// The rotation quaternion
AddParam(param, h.param(3), 30*PI/180);
AddParam(param, h.param(4), gn.x);
AddParam(param, h.param(5), gn.y);
AddParam(param, h.param(6), gn.z);
int n = (int)valA, a0 = 0;
if(subtype == ONE_SIDED && skipFirst) {
a0++; n++;
}
for(a = a0; a < n; a++) {
for(i = 0; i < entity->n; i++) {
Entity *e = &(entity->elem[i]);
if(e->group.v != opA.v) continue;
e->CalculateNumerical(false);
CopyEntity(entity, e,
a*2 - (subtype == ONE_SIDED ? 0 : (n-1)),
(a == (n - 1)) ? REMAP_LAST : a,
h.param(0), h.param(1), h.param(2),
h.param(3), h.param(4), h.param(5), h.param(6),
false, true);
}
}
break;
}
case IMPORTED:
// The translation vector
AddParam(param, h.param(0), gp.x);
AddParam(param, h.param(1), gp.y);
AddParam(param, h.param(2), gp.z);
// The rotation quaternion
AddParam(param, h.param(3), 1);
AddParam(param, h.param(4), 0);
AddParam(param, h.param(5), 0);
AddParam(param, h.param(6), 0);
for(i = 0; i < impEntity.n; i++) {
Entity *ie = &(impEntity.elem[i]);
CopyEntity(entity, ie, 0, 0,
h.param(0), h.param(1), h.param(2),
h.param(3), h.param(4), h.param(5), h.param(6),
false, false);
}
break;
default: oops();
}
}
void Group::AddEq(IdList<Equation,hEquation> *l, Expr *expr, int index) {
Equation eq;
eq.e = expr;
eq.h = h.equation(index);
l->Add(&eq);
}
void Group::GenerateEquations(IdList<Equation,hEquation> *l) {
Equation eq;
ZERO(&eq);
if(type == IMPORTED) {
// Normalize the quaternion
ExprQuaternion q = {
Expr::From(h.param(3)),
Expr::From(h.param(4)),
Expr::From(h.param(5)),
Expr::From(h.param(6)) };
AddEq(l, (q.Magnitude())->Minus(Expr::From(1)), 0);
} else if(type == ROTATE) {
// The axis and center of rotation are specified numerically
#define EC(x) (Expr::From(x))
#define EP(x) (Expr::From(h.param(x)))
ExprVector orig = SK.GetEntity(predef.origin)->PointGetExprs();
AddEq(l, (orig.x)->Minus(EP(0)), 0);
AddEq(l, (orig.y)->Minus(EP(1)), 1);
AddEq(l, (orig.z)->Minus(EP(2)), 2);
// param 3 is the angle, which is free
Vector axis = SK.GetEntity(predef.entityB)->VectorGetNum();
axis = axis.WithMagnitude(1);
AddEq(l, (EC(axis.x))->Minus(EP(4)), 3);
AddEq(l, (EC(axis.y))->Minus(EP(5)), 4);
AddEq(l, (EC(axis.z))->Minus(EP(6)), 5);
} else if(type == EXTRUDE) {
if(predef.entityB.v != Entity::FREE_IN_3D.v) {
// The extrusion path is locked along a line, normal to the
// specified workplane.
Entity *w = SK.GetEntity(predef.entityB);
ExprVector u = w->Normal()->NormalExprsU();
ExprVector v = w->Normal()->NormalExprsV();
ExprVector extruden = {
Expr::From(h.param(0)),
Expr::From(h.param(1)),
Expr::From(h.param(2)) };
AddEq(l, u.Dot(extruden), 0);
AddEq(l, v.Dot(extruden), 1);
}
} else if(type == TRANSLATE) {
if(predef.entityB.v != Entity::FREE_IN_3D.v) {
Entity *w = SK.GetEntity(predef.entityB);
ExprVector n = w->Normal()->NormalExprsN();
ExprVector trans;
trans = ExprVector::From(h.param(0), h.param(1), h.param(2));
// The translation vector is parallel to the workplane
AddEq(l, trans.Dot(n), 0);
}
}
}
hEntity Group::Remap(hEntity in, int copyNumber) {
// A hash table is used to accelerate the search
int hash = ((unsigned)(in.v*61 + copyNumber)) % REMAP_PRIME;
int i = remapCache[hash];
if(i >= 0 && i < remap.n) {
EntityMap *em = &(remap.elem[i]);
if(em->input.v == in.v && em->copyNumber == copyNumber) {
return h.entity(em->h.v);
}
}
// but if we don't find it in the hash table, then linear search
for(i = 0; i < remap.n; i++) {
EntityMap *em = &(remap.elem[i]);
if(em->input.v == in.v && em->copyNumber == copyNumber) {
// We already have a mapping for this entity.
remapCache[hash] = i;
return h.entity(em->h.v);
}
}
// And if we still don't find it, then create a new entry.
EntityMap em;
em.input = in;
em.copyNumber = copyNumber;
remap.AddAndAssignId(&em);
return h.entity(em.h.v);
}
void Group::MakeExtrusionLines(IdList<Entity,hEntity> *el, hEntity in) {
Entity *ep = SK.GetEntity(in);
Entity en;
ZERO(&en);
if(ep->IsPoint()) {
// A point gets extruded to form a line segment
en.point[0] = Remap(ep->h, REMAP_TOP);
en.point[1] = Remap(ep->h, REMAP_BOTTOM);
en.group = h;
en.construction = ep->construction;
en.style = ep->style;
en.h = Remap(ep->h, REMAP_PT_TO_LINE);
en.type = Entity::LINE_SEGMENT;
el->Add(&en);
} else if(ep->type == Entity::LINE_SEGMENT) {
// A line gets extruded to form a plane face; an endpoint of the
// original line is a point in the plane, and the line is in the plane.
Vector a = SK.GetEntity(ep->point[0])->PointGetNum();
Vector b = SK.GetEntity(ep->point[1])->PointGetNum();
Vector ab = b.Minus(a);
en.param[0] = h.param(0);
en.param[1] = h.param(1);
en.param[2] = h.param(2);
en.numPoint = a;
en.numNormal = Quaternion::From(0, ab.x, ab.y, ab.z);
en.group = h;
en.construction = ep->construction;
en.style = ep->style;
en.h = Remap(ep->h, REMAP_LINE_TO_FACE);
en.type = Entity::FACE_XPROD;
el->Add(&en);
}
}
void Group::MakeExtrusionTopBottomFaces(IdList<Entity,hEntity> *el, hEntity pt)
{
if(pt.v == 0) return;
Group *src = SK.GetGroup(opA);
Vector n = src->poly.normal;
Entity en;
ZERO(&en);
en.type = Entity::FACE_NORMAL_PT;
en.group = h;
en.numNormal = Quaternion::From(0, n.x, n.y, n.z);
en.point[0] = Remap(pt, REMAP_TOP);
en.h = Remap(Entity::NO_ENTITY, REMAP_TOP);
el->Add(&en);
en.point[0] = Remap(pt, REMAP_BOTTOM);
en.h = Remap(Entity::NO_ENTITY, REMAP_BOTTOM);
el->Add(&en);
}
void Group::CopyEntity(IdList<Entity,hEntity> *el,
Entity *ep, int timesApplied, int remap,
hParam dx, hParam dy, hParam dz,
hParam qw, hParam qvx, hParam qvy, hParam qvz,
bool asTrans, bool asAxisAngle)
{
Entity en;
memset(&en, 0, sizeof(en));
en.type = ep->type;
en.h = Remap(ep->h, remap);
en.timesApplied = timesApplied;
en.group = h;
en.construction = ep->construction;
en.style = ep->style;
switch(ep->type) {
case Entity::WORKPLANE:
// Don't copy these.
return;
case Entity::LINE_SEGMENT:
en.point[0] = Remap(ep->point[0], remap);
en.point[1] = Remap(ep->point[1], remap);
break;
case Entity::CUBIC:
en.point[0] = Remap(ep->point[0], remap);
en.point[1] = Remap(ep->point[1], remap);
en.point[2] = Remap(ep->point[2], remap);
en.point[3] = Remap(ep->point[3], remap);
break;
case Entity::CIRCLE:
en.point[0] = Remap(ep->point[0], remap);
en.normal = Remap(ep->normal, remap);
en.distance = Remap(ep->distance, remap);
break;
case Entity::ARC_OF_CIRCLE:
en.point[0] = Remap(ep->point[0], remap);
en.point[1] = Remap(ep->point[1], remap);
en.point[2] = Remap(ep->point[2], remap);
en.normal = Remap(ep->normal, remap);
break;
case Entity::TTF_TEXT:
en.point[0] = Remap(ep->point[0], remap);
en.point[1] = Remap(ep->point[1], remap);
en.normal = Remap(ep->normal, remap);
en.str.strcpy(ep->str.str);
en.font.strcpy(ep->font.str);
break;
case Entity::POINT_N_COPY:
case Entity::POINT_N_TRANS:
case Entity::POINT_N_ROT_TRANS:
case Entity::POINT_N_ROT_AA:
case Entity::POINT_IN_3D:
case Entity::POINT_IN_2D:
if(asTrans) {
en.type = Entity::POINT_N_TRANS;
en.param[0] = dx;
en.param[1] = dy;
en.param[2] = dz;
} else {
if(asAxisAngle) {
en.type = Entity::POINT_N_ROT_AA;
} else {
en.type = Entity::POINT_N_ROT_TRANS;
}
en.param[0] = dx;
en.param[1] = dy;
en.param[2] = dz;
en.param[3] = qw;
en.param[4] = qvx;
en.param[5] = qvy;
en.param[6] = qvz;
}
en.numPoint = ep->actPoint;
if(mirror) en.numPoint.z *= -1;
break;
case Entity::NORMAL_N_COPY:
case Entity::NORMAL_N_ROT:
case Entity::NORMAL_N_ROT_AA:
case Entity::NORMAL_IN_3D:
case Entity::NORMAL_IN_2D:
if(asTrans) {
en.type = Entity::NORMAL_N_COPY;
} else {
if(asAxisAngle) {
en.type = Entity::NORMAL_N_ROT_AA;
} else {
en.type = Entity::NORMAL_N_ROT;
}
en.param[0] = qw;
en.param[1] = qvx;
en.param[2] = qvy;
en.param[3] = qvz;
}
en.numNormal = ep->actNormal;
if(mirror) en.numNormal = en.numNormal.MirrorZ();
en.point[0] = Remap(ep->point[0], remap);
break;
case Entity::DISTANCE_N_COPY:
case Entity::DISTANCE:
en.type = Entity::DISTANCE_N_COPY;
en.numDistance = ep->actDistance;
break;
case Entity::FACE_NORMAL_PT:
case Entity::FACE_XPROD:
case Entity::FACE_N_ROT_TRANS:
case Entity::FACE_N_TRANS:
case Entity::FACE_N_ROT_AA:
if(asTrans) {
en.type = Entity::FACE_N_TRANS;
en.param[0] = dx;
en.param[1] = dy;
en.param[2] = dz;
} else {
if(asAxisAngle) {
en.type = Entity::FACE_N_ROT_AA;
} else {
en.type = Entity::FACE_N_ROT_TRANS;
}
en.param[0] = dx;
en.param[1] = dy;
en.param[2] = dz;
en.param[3] = qw;
en.param[4] = qvx;
en.param[5] = qvy;
en.param[6] = qvz;
}
en.numPoint = ep->actPoint;
en.numNormal = ep->actNormal;
if(mirror) {
if(en.type != Entity::FACE_N_ROT_TRANS) oops();
en.numPoint.z *= -1;
en.numNormal.vz *= -1;
}
break;
default:
oops();
}
// If the entity came from an imported file where it was invisible then
// ep->actiVisble will be false, and we should hide it. Or if the entity
// came from a copy (e.g. step and repeat) of a force-hidden imported
// entity, then we also want to hide it.
en.forceHidden = (!ep->actVisible) || ep->forceHidden;
el->Add(&en);
}