void Model::DeleteObjTree(vector<Gtk::TreeModel::Path> &iter)
{
objtree.DeleteSelected (iter);
ClearGCode();
ClearLayers();
ModelChanged();
}
Model::~Model()
{
ClearLayers();
ClearGCode();
delete m_previewLayer;
preview_shapes.clear();
}
void Model::ModelChanged()
{
if (m_inhibit_modelchange) return;
//printer.update_temp_poll_interval(); // necessary?
if (!is_printing) {
CalcBoundingBoxAndCenter();
Infill::clearPatterns();
if ( layers.size()>0 || m_previewGCode.size()>0 || m_previewLayer ) {
ClearGCode();
ClearLayers();
}
setCurrentPrintingLine(0);
m_model_changed.emit();
}
}
void Model::ConvertToGCode()
{
if (is_calculating) {
return;
}
is_calculating=true;
// default:
settings.SelectExtruder(0);
Glib::TimeVal start_time;
start_time.assign_current_time();
gcode.clear();
GCodeState state(gcode);
Infill::clearPatterns();
Vector3d printOffset = settings.getPrintMargin();
double printOffsetZ = printOffset.z();
// Make Layers
lastlayer = NULL;
Slice();
//CleanupLayers();
MakeShells();
if (settings.get_boolean("Slicing","DoInfill") &&
!settings.get_boolean("Slicing","NoTopAndBottom") &&
(settings.get_double("Slicing","SolidThickness") > 0 ||
settings.get_integer("Slicing","ShellCount") > 0))
// not bridging when support
MakeUncoveredPolygons( settings.get_boolean("Slicing","MakeDecor"),
!settings.get_boolean("Slicing","NoBridges") &&
!settings.get_boolean("Slicing","Support") );
if (settings.get_boolean("Slicing","Support"))
// easier before having multiplied uncovered bottoms
MakeSupportPolygons(settings.get_double("Slicing","SupportWiden"));
MakeFullSkins(); // must before multiplied uncovered bottoms
MultiplyUncoveredPolygons();
if (settings.get_boolean("Slicing","Skirt"))
MakeSkirt();
CalcInfill();
if (settings.get_boolean("Raft","Enable"))
{
printOffset += Vector3d (settings.get_double("Raft","Size"), 0);
MakeRaft (state, printOffsetZ); // printOffsetZ will have height of raft added
}
state.ResetLastWhere(Vector3d(0,0,0));
uint count = layers.size();
m_progress->start (_("Making Lines"), count+1);
state.AppendCommand(MILLIMETERSASUNITS, false, _("Millimeters"));
state.AppendCommand(ABSOLUTEPOSITIONING, false, _("Absolute Pos"));
if (settings.get_boolean("Slicing","RelativeEcode"))
state.AppendCommand(RELATIVE_ECODE, false, _("Relative E Code"));
else
state.AppendCommand(ABSOLUTE_ECODE, false, _("Absolute E Code"));
bool cont = true;
vector<PLine3> plines;
bool farthestStart = settings.get_boolean("Slicing","FarthestLayerStart");
Vector3d start = state.LastPosition();
for (uint p=0; p<count; p++) {
cont = (m_progress->update(p)) ;
if (!cont) break;
// cerr << "GCode layer " << (p+1) << " of " << count
// << " offset " << printOffsetZ
// << " have commands: " <<commands.size()
// << " start " << start << endl;;
// try {
if (farthestStart) {
// Vector2d randstart = layers[p]->getRandomPolygonPoint();
// start.set(randstart.x(), randstart.y());
const Vector2d fartheststart = layers[p]->getFarthestPolygonPoint(start);
start.set(fartheststart.x(), fartheststart.y());
}
layers[p]->MakePrintlines(start,
plines,
printOffsetZ,
settings);
// } catch (Glib::Error &e) {
// error("GCode Error:", (e.what()).c_str());
// }
// if (layers[p]->getPrevious() != NULL)
// cerr << p << ": " <<layers[p]->LayerNo << " prev: "
// << layers[p]->getPrevious()->LayerNo << endl;
}
// do antiooze retract for all lines:
Printlines::makeAntioozeRetract(plines, settings, m_progress);
vector<Command> commands;
//Printlines::getCommands(plines, settings, commands, m_progress);
Printlines::getCommands(plines, settings, state, m_progress);
//state.AppendCommands(commands, settings.Slicing.RelativeEcode);
string GcodeTxt;
if (cont)
gcode.MakeText (GcodeTxt, settings, m_progress);
else {
ClearLayers();
ClearGCode();
ClearPreview();
}
// display whole layer if flat shapes
// if (shapes.back()->dimensions() == 2)
// gcode.layerchanges.push_back(0);
m_progress->stop (_("Done"));
int h = (int)state.timeused/3600;
int m = ((int)state.timeused%3600)/60;
int s = ((int)state.timeused-3600*h-60*m);
std::ostringstream ostr;
ostr << _("Time Estimation: ") ;
if (h>0) ostr << h <<_("h") ;
ostr <<m <<_("m") <<s <<_("s") ;
double gctime = gcode.GetTimeEstimation();
if (abs(state.timeused - gctime) > 10) {
h = (int)(gctime/3600);
m = ((int)gctime)%3600/60;
s = (int)(gctime)-3600*h-60*m;
ostr << _(" / GCode Estimation: ");
if (h>0) ostr << h <<_("h");
ostr<< m <<_("m") << s <<_("s") ;
}
double totlength = gcode.GetTotalExtruded(settings.get_boolean("Slicing","RelativeEcode"));
ostr << _(" - total extruded: ") << totlength << "mm";
// TODO: ths assumes all extruders use the same filament diameter
const double diam = settings.get_double("Extruder","FilamentDiameter");
const double ccm = totlength * diam * diam / 4. * M_PI / 1000 ;
ostr << " = " << ccm << "cm^3 ";
ostr << "(ABS~" << ccm*1.08 << "g, PLA~" << ccm*1.25 << "g)";
if (statusbar)
statusbar->push(ostr.str());
else
cout << ostr.str() << endl;
{
Glib::TimeVal now;
now.assign_current_time();
const int time_used = (int) round((now - start_time).as_double()); // seconds
cerr << "GCode generated in " << time_used << " seconds. " << GcodeTxt.size() << " bytes" << endl;
}
is_calculating=false;
m_signal_gcode_changed.emit();
}
