char *Entity::DescriptionString(void) { if(h.isFromRequest()) { Request *r = SK.GetRequest(h.request()); return r->DescriptionString(); } else { Group *g = SK.GetGroup(h.group()); return g->DescriptionString(); } }
void TextWindow::ShowListOfGroups(void) { char radioTrue[] = { ' ', (char)RADIO_TRUE, ' ', 0 }, radioFalse[] = { ' ', (char)RADIO_FALSE, ' ', 0 }, checkTrue[] = { ' ', (char)CHECK_TRUE, ' ', 0 }, checkFalse[] = { ' ', (char)CHECK_FALSE, ' ', 0 }; Printf(true, "%Ft active"); Printf(false, "%Ft shown ok group-name%E"); int i; bool afterActive = false; for(i = 0; i < SK.group.n; i++) { Group *g = &(SK.group.elem[i]); char *s = g->DescriptionString(); bool active = (g->h.v == SS.GW.activeGroup.v); bool shown = g->visible; bool ok = (g->solved.how == System::SOLVED_OKAY); bool ref = (g->h.v == Group::HGROUP_REFERENCES.v); Printf(false, "%Bp%Fd " "%Ft%s%Fb%D%f%Ll%s%E " "%Fb%s%D%f%Ll%s%E " "%Fp%D%f%s%Ll%s%E " "%Fl%Ll%D%f%s", // Alternate between light and dark backgrounds, for readability (i & 1) ? 'd' : 'a', // Link that activates the group ref ? " " : "", g->h.v, (&TextWindow::ScreenActivateGroup), ref ? "" : (active ? radioTrue : radioFalse), // Link that hides or shows the group afterActive ? " - " : "", g->h.v, (&TextWindow::ScreenToggleGroupShown), afterActive ? "" : (shown ? checkTrue : checkFalse), // Link to the errors, if a problem occured while solving ok ? 's' : 'x', g->h.v, (&TextWindow::ScreenHowGroupSolved), ok ? "ok" : "", ok ? "" : "NO", // Link to a screen that gives more details on the group g->h.v, (&TextWindow::ScreenSelectGroup), s); if(active) afterActive = true; } Printf(true, " %Fl%Ls%fshow all%E / %Fl%Lh%fhide all%E", &(TextWindow::ScreenShowGroupsSpecial), &(TextWindow::ScreenShowGroupsSpecial)); Printf(true, " %Fl%Ls%fline styles%E /" " %Fl%Ls%fview%E /" " %Fl%Ls%fconfiguration%E", &(TextWindow::ScreenShowListOfStyles), &(TextWindow::ScreenShowEditView), &(TextWindow::ScreenShowConfiguration)); }
//----------------------------------------------------------------------------- // The screen that's displayed when the sketch fails to solve. A report of // what failed, and (if the problem is a singular Jacobian) a list of // constraints that could be removed to fix it. //----------------------------------------------------------------------------- void TextWindow::ShowGroupSolveInfo(void) { Group *g = SK.group.FindById(shown.group); if(g->solved.how == System::SOLVED_OKAY) { // Go back to the default group info screen shown.screen = SCREEN_GROUP_INFO; Show(); return; } Printf(true, "%FtGROUP %E%s", g->DescriptionString()); switch(g->solved.how) { case System::DIDNT_CONVERGE: Printf(true, "%FxSOLVE FAILED!%Fd no convergence"); Printf(true, "the following constraints are unsatisfied"); break; case System::SINGULAR_JACOBIAN: Printf(true, "%FxSOLVE FAILED!%Fd inconsistent system"); Printf(true, "remove any one of these to fix it"); break; case System::TOO_MANY_UNKNOWNS: Printf(true, "Too many unknowns in a single group!"); return; } for(int i = 0; i < g->solved.remove.n; i++) { hConstraint hc = g->solved.remove.elem[i]; Constraint *c = SK.constraint.FindByIdNoOops(hc); if(!c) continue; Printf(false, "%Bp %Fl%Ll%D%f%h%s%E", (i & 1) ? 'd' : 'a', c->h.v, (&TextWindow::ScreenSelectConstraint), (&TextWindow::ScreenHoverConstraint), c->DescriptionString()); } Printf(true, "It may be possible to fix the problem "); Printf(false, "by selecting Edit -> Undo."); }
void TextWindow::ScreenChangeGroupName(int link, DWORD v) { Group *g = SK.GetGroup(SS.TW.shown.group); SS.TW.ShowEditControl(7, 12, g->DescriptionString()+5); SS.TW.edit.meaning = EDIT_GROUP_NAME; SS.TW.edit.group.v = v; }
void TextWindow::DescribeSelection(void) { Entity *e; Vector p; int i; Printf(false, ""); if(gs.n == 1 && (gs.points == 1 || gs.entities == 1)) { e = SK.GetEntity(gs.points == 1 ? gs.point[0] : gs.entity[0]); #define COSTR(p) \ SS.MmToString((p).x), SS.MmToString((p).y), SS.MmToString((p).z) #define PT_AS_STR "(%Fi%s%E, %Fi%s%E, %Fi%s%E)" #define PT_AS_NUM "(%Fi%3%E, %Fi%3%E, %Fi%3%E)" switch(e->type) { case Entity::POINT_IN_3D: case Entity::POINT_IN_2D: case Entity::POINT_N_TRANS: case Entity::POINT_N_ROT_TRANS: case Entity::POINT_N_COPY: case Entity::POINT_N_ROT_AA: p = e->PointGetNum(); Printf(false, "%FtPOINT%E at " PT_AS_STR, COSTR(p)); break; case Entity::NORMAL_IN_3D: case Entity::NORMAL_IN_2D: case Entity::NORMAL_N_COPY: case Entity::NORMAL_N_ROT: case Entity::NORMAL_N_ROT_AA: { Quaternion q = e->NormalGetNum(); p = q.RotationN(); Printf(false, "%FtNORMAL / COORDINATE SYSTEM%E"); Printf(true, " basis n = " PT_AS_NUM, CO(p)); p = q.RotationU(); Printf(false, " u = " PT_AS_NUM, CO(p)); p = q.RotationV(); Printf(false, " v = " PT_AS_NUM, CO(p)); break; } case Entity::WORKPLANE: { p = SK.GetEntity(e->point[0])->PointGetNum(); Printf(false, "%FtWORKPLANE%E"); Printf(true, " origin = " PT_AS_STR, COSTR(p)); Quaternion q = e->Normal()->NormalGetNum(); p = q.RotationN(); Printf(true, " normal = " PT_AS_NUM, CO(p)); break; } case Entity::LINE_SEGMENT: { Vector p0 = SK.GetEntity(e->point[0])->PointGetNum(); p = p0; Printf(false, "%FtLINE SEGMENT%E"); Printf(true, " thru " PT_AS_STR, COSTR(p)); Vector p1 = SK.GetEntity(e->point[1])->PointGetNum(); p = p1; Printf(false, " " PT_AS_STR, COSTR(p)); Printf(true, " len = %Fi%s%E", SS.MmToString((p1.Minus(p0).Magnitude()))); break; } case Entity::CUBIC_PERIODIC: case Entity::CUBIC: int pts; if(e->type == Entity::CUBIC_PERIODIC) { Printf(false, "%FtPERIODIC C2 CUBIC SPLINE%E"); pts = (3 + e->extraPoints); } else if(e->extraPoints > 0) { Printf(false, "%FtINTERPOLATING C2 CUBIC SPLINE%E"); pts = (4 + e->extraPoints); } else { Printf(false, "%FtCUBIC BEZIER CURVE%E"); pts = 4; } for(i = 0; i < pts; i++) { p = SK.GetEntity(e->point[i])->PointGetNum(); Printf((i==0), " p%d = " PT_AS_STR, i, COSTR(p)); } break; case Entity::ARC_OF_CIRCLE: { Printf(false, "%FtARC OF A CIRCLE%E"); p = SK.GetEntity(e->point[0])->PointGetNum(); Printf(true, " center = " PT_AS_STR, COSTR(p)); p = SK.GetEntity(e->point[1])->PointGetNum(); Printf(true, " endpoints = " PT_AS_STR, COSTR(p)); p = SK.GetEntity(e->point[2])->PointGetNum(); Printf(false, " " PT_AS_STR, COSTR(p)); double r = e->CircleGetRadiusNum(); Printf(true, " diameter = %Fi%s", SS.MmToString(r*2)); Printf(false, " radius = %Fi%s", SS.MmToString(r)); double thetas, thetaf, dtheta; e->ArcGetAngles(&thetas, &thetaf, &dtheta); Printf(false, " arc len = %Fi%s", SS.MmToString(dtheta*r)); break; } case Entity::CIRCLE: { Printf(false, "%FtCIRCLE%E"); p = SK.GetEntity(e->point[0])->PointGetNum(); Printf(true, " center = " PT_AS_STR, COSTR(p)); double r = e->CircleGetRadiusNum(); Printf(true, " diameter = %Fi%s", SS.MmToString(r*2)); Printf(false, " radius = %Fi%s", SS.MmToString(r)); break; } case Entity::FACE_NORMAL_PT: case Entity::FACE_XPROD: case Entity::FACE_N_ROT_TRANS: case Entity::FACE_N_ROT_AA: case Entity::FACE_N_TRANS: Printf(false, "%FtPLANE FACE%E"); p = e->FaceGetNormalNum(); Printf(true, " normal = " PT_AS_NUM, CO(p)); p = e->FaceGetPointNum(); Printf(false, " thru = " PT_AS_STR, COSTR(p)); break; case Entity::TTF_TEXT: { Printf(false, "%FtTRUETYPE FONT TEXT%E"); Printf(true, " font = '%Fi%s%E'", e->font.str); if(e->h.isFromRequest()) { Printf(false, " text = '%Fi%s%E' %Fl%Ll%f%D[change]%E", e->str.str, &ScreenEditTtfText, e->h.request()); Printf(true, " select new font"); SS.fonts.LoadAll(); int i; for(i = 0; i < SS.fonts.l.n; i++) { TtfFont *tf = &(SS.fonts.l.elem[i]); if(strcmp(e->font.str, tf->FontFileBaseName())==0) { Printf(false, "%Bp %s", (i & 1) ? 'd' : 'a', tf->name.str); } else { Printf(false, "%Bp %f%D%Fl%Ll%s%E%Bp", (i & 1) ? 'd' : 'a', &ScreenSetTtfFont, i, tf->name.str, (i & 1) ? 'd' : 'a'); } } } else { Printf(false, " text = '%Fi%s%E'", e->str.str); } break; } default: Printf(true, "%Ft?? ENTITY%E"); break; } Group *g = SK.GetGroup(e->group); Printf(false, ""); Printf(false, "%FtIN GROUP%E %s", g->DescriptionString()); if(e->workplane.v == Entity::FREE_IN_3D.v) { Printf(false, "%FtNOT LOCKED IN WORKPLANE%E"); } else { Entity *w = SK.GetEntity(e->workplane); Printf(false, "%FtIN WORKPLANE%E %s", w->DescriptionString()); } if(e->style.v) { Style *s = Style::Get(e->style); Printf(false, "%FtIN STYLE%E %s", s->DescriptionString()); } else { Printf(false, "%FtIN STYLE%E none"); } if(e->construction) { Printf(false, "%FtCONSTRUCTION"); } } else if(gs.n == 2 && gs.points == 2) { Printf(false, "%FtTWO POINTS"); Vector p0 = SK.GetEntity(gs.point[0])->PointGetNum(); Printf(true, " at " PT_AS_STR, COSTR(p0)); Vector p1 = SK.GetEntity(gs.point[1])->PointGetNum(); Printf(false, " " PT_AS_STR, COSTR(p1)); double d = (p1.Minus(p0)).Magnitude(); Printf(true, " d = %Fi%s", SS.MmToString(d)); } else if(gs.n == 2 && gs.faces == 1 && gs.points == 1) { Printf(false, "%FtA POINT AND A PLANE FACE"); Vector pt = SK.GetEntity(gs.point[0])->PointGetNum(); Printf(true, " point = " PT_AS_STR, COSTR(pt)); Vector n = SK.GetEntity(gs.face[0])->FaceGetNormalNum(); Printf(true, " plane normal = " PT_AS_NUM, CO(n)); Vector pl = SK.GetEntity(gs.face[0])->FaceGetPointNum(); Printf(false, " plane thru = " PT_AS_STR, COSTR(pl)); double dd = n.Dot(pl) - n.Dot(pt); Printf(true, " distance = %Fi%s", SS.MmToString(dd)); } else if(gs.n == 3 && gs.points == 2 && gs.vectors == 1) { Printf(false, "%FtTWO POINTS AND A VECTOR"); Vector p0 = SK.GetEntity(gs.point[0])->PointGetNum(); Printf(true, " pointA = " PT_AS_STR, COSTR(p0)); Vector p1 = SK.GetEntity(gs.point[1])->PointGetNum(); Printf(false, " pointB = " PT_AS_STR, COSTR(p1)); Vector v = SK.GetEntity(gs.vector[0])->VectorGetNum(); v = v.WithMagnitude(1); Printf(true, " vector = " PT_AS_NUM, CO(v)); double d = (p1.Minus(p0)).Dot(v); Printf(true, " proj_d = %Fi%s", SS.MmToString(d)); } else if(gs.n == 2 && gs.lineSegments == 1 && gs.points == 1) { Entity *ln = SK.GetEntity(gs.entity[0]); Vector lp0 = SK.GetEntity(ln->point[0])->PointGetNum(), lp1 = SK.GetEntity(ln->point[1])->PointGetNum(); Printf(false, "%FtLINE SEGMENT AND POINT%E"); Printf(true, " ln thru " PT_AS_STR, COSTR(lp0)); Printf(false, " " PT_AS_STR, COSTR(lp1)); Vector pp = SK.GetEntity(gs.point[0])->PointGetNum(); Printf(true, " point " PT_AS_STR, COSTR(pp)); Printf(true, " pt-ln distance = %Fi%s%E", SS.MmToString(pp.DistanceToLine(lp0, lp1.Minus(lp0)))); } else if(gs.n == 2 && gs.vectors == 2) { Printf(false, "%FtTWO VECTORS"); Vector v0 = SK.GetEntity(gs.entity[0])->VectorGetNum(), v1 = SK.GetEntity(gs.entity[1])->VectorGetNum(); v0 = v0.WithMagnitude(1); v1 = v1.WithMagnitude(1); Printf(true, " vectorA = " PT_AS_NUM, CO(v0)); Printf(false, " vectorB = " PT_AS_NUM, CO(v1)); double theta = acos(v0.Dot(v1)); Printf(true, " angle = %Fi%2%E degrees", theta*180/PI); while(theta < PI/2) theta += PI; while(theta > PI/2) theta -= PI; Printf(false, " or angle = %Fi%2%E (mod 180)", theta*180/PI); } else if(gs.n == 2 && gs.faces == 2) { Printf(false, "%FtTWO PLANE FACES"); Vector n0 = SK.GetEntity(gs.face[0])->FaceGetNormalNum(); Printf(true, " planeA normal = " PT_AS_NUM, CO(n0)); Vector p0 = SK.GetEntity(gs.face[0])->FaceGetPointNum(); Printf(false, " planeA thru = " PT_AS_STR, COSTR(p0)); Vector n1 = SK.GetEntity(gs.face[1])->FaceGetNormalNum(); Printf(true, " planeB normal = " PT_AS_NUM, CO(n1)); Vector p1 = SK.GetEntity(gs.face[1])->FaceGetPointNum(); Printf(false, " planeB thru = " PT_AS_STR, COSTR(p1)); double theta = acos(n0.Dot(n1)); Printf(true, " angle = %Fi%2%E degrees", theta*180/PI); while(theta < PI/2) theta += PI; while(theta > PI/2) theta -= PI; Printf(false, " or angle = %Fi%2%E (mod 180)", theta*180/PI); if(fabs(theta) < 0.01) { double d = (p1.Minus(p0)).Dot(n0); Printf(true, " distance = %Fi%s", SS.MmToString(d)); } } else if(gs.n == 0 && gs.stylables > 0) { Printf(false, "%FtSELECTED:%E comment text"); } else if(gs.n == 0 && gs.constraints == 1) { Printf(false, "%FtSELECTED:%E %s", SK.GetConstraint(gs.constraint[0])->DescriptionString()); } else { int n = SS.GW.selection.n; Printf(false, "%FtSELECTED:%E %d item%s", n, n == 1 ? "" : "s"); } if(shown.screen == SCREEN_STYLE_INFO && shown.style.v >= Style::FIRST_CUSTOM && gs.stylables > 0) { // If we are showing a screen for a particular style, then offer the // option to assign our selected entities to that style. Style *s = Style::Get(shown.style); Printf(true, "%Fl%D%f%Ll(assign to style %s)%E", shown.style.v, &ScreenAssignSelectionToStyle, s->DescriptionString()); } // If any of the selected entities have an assigned style, then offer // the option to remove that style. bool styleAssigned = false; for(i = 0; i < gs.entities; i++) { Entity *e = SK.GetEntity(gs.entity[i]); if(e->style.v != 0) { styleAssigned = true; } } for(i = 0; i < gs.constraints; i++) { Constraint *c = SK.GetConstraint(gs.constraint[i]); if(c->type == Constraint::COMMENT && c->disp.style.v != 0) { styleAssigned = true; } } if(styleAssigned) { Printf(true, "%Fl%D%f%Ll(remove assigned style)%E", 0, &ScreenAssignSelectionToStyle); } Printf(true, "%Fl%f%Ll(unselect all)%E", &TextWindow::ScreenUnselectAll); }