#include "GUI_ObjectList.hpp"
#include "GUI_ObjectManipulation.hpp"
#include "GUI_App.hpp"
#include "I18N.hpp"
#include "OptionsGroup.hpp"
#include "PresetBundle.hpp"
#include "Tab.hpp"
#include "wxExtensions.hpp"
#include "libslic3r/Model.hpp"
#include "LambdaObjectDialog.hpp"
#include "GLCanvas3D.hpp"
#include <boost/algorithm/string.hpp>
#include "slic3r/Utils/FixModelByWin10.hpp"
namespace Slic3r
{
namespace GUI
{
wxDEFINE_EVENT(EVT_OBJ_LIST_OBJECT_SELECT, SimpleEvent);
// pt_FFF
FreqSettingsBundle FREQ_SETTINGS_BUNDLE_FFF =
{
{ L("Layers and Perimeters"), { "layer_height" , "perimeters", "top_solid_layers", "bottom_solid_layers" } },
{ L("Infill") , { "fill_density", "fill_pattern" } },
{ L("Support material") , { "support_material", "support_material_auto", "support_material_threshold",
"support_material_pattern", "support_material_buildplate_only",
"support_material_spacing" } },
{ L("Extruders") , { "wipe_into_infill", "wipe_into_objects" } }
};
// pt_SLA
FreqSettingsBundle FREQ_SETTINGS_BUNDLE_SLA =
{
{ L("Pad and Support") , { "supports_enable", "pad_enable" } }
};
static PrinterTechnology printer_technology()
{
return wxGetApp().preset_bundle->printers.get_selected_preset().printer_technology();
}
// Config from current edited printer preset
static DynamicPrintConfig& printer_config()
{
return wxGetApp().preset_bundle->printers.get_edited_preset().config;
}
static int extruders_count()
{
return printer_technology() == ptSLA ? 1 :
printer_config().option<ConfigOptionFloats>("nozzle_diameter")->values.size();
}
ObjectList::ObjectList(wxWindow* parent) :
wxDataViewCtrl(parent, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxDV_MULTIPLE),
m_parent(parent)
{
// Fill CATEGORY_ICON
{
// ptFFF
CATEGORY_ICON[L("Layers and Perimeters")] = create_scaled_bitmap("layers.png"); // wxBitmap(from_u8(var("layers.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Infill")] = create_scaled_bitmap("infill.png"); // wxBitmap(from_u8(var("infill.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Support material")] = create_scaled_bitmap("building.png"); // wxBitmap(from_u8(var("building.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Speed")] = create_scaled_bitmap("time.png"); // wxBitmap(from_u8(var("time.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Extruders")] = create_scaled_bitmap("funnel.png"); // wxBitmap(from_u8(var("funnel.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Extrusion Width")] = create_scaled_bitmap("funnel.png"); // wxBitmap(from_u8(var("funnel.png")), wxBITMAP_TYPE_PNG);
// CATEGORY_ICON[L("Skirt and brim")] = create_scaled_bitmap("box.png"); // wxBitmap(from_u8(var("box.png")), wxBITMAP_TYPE_PNG);
// CATEGORY_ICON[L("Speed > Acceleration")] = create_scaled_bitmap("time.png"); // wxBitmap(from_u8(var("time.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Advanced")] = create_scaled_bitmap("wand.png"); // wxBitmap(from_u8(var("wand.png")), wxBITMAP_TYPE_PNG);
// ptSLA
CATEGORY_ICON[L("Supports")] = create_scaled_bitmap("building.png"); // wxBitmap(from_u8(var("building.png")), wxBITMAP_TYPE_PNG);
CATEGORY_ICON[L("Pad")] = create_scaled_bitmap("brick.png"); // wxBitmap(from_u8(var("brick.png")), wxBITMAP_TYPE_PNG);
}
// create control
create_objects_ctrl();
init_icons();
// describe control behavior
Bind(wxEVT_DATAVIEW_SELECTION_CHANGED, [this](wxEvent& event) {
#ifndef __APPLE__
// On Windows and Linux, forces a kill focus emulation on the object manipulator fields because this event handler is called
// before the kill focus event handler on the object manipulator when changing selection in the list, invalidating the object
// manipulator cache with the following call to selection_changed()
wxGetApp().obj_manipul()->emulate_kill_focus();
#endif // __APPLE__
selection_changed();
#ifndef __WXMSW__
set_tooltip_for_item(get_mouse_position_in_control());
#endif //__WXMSW__
});
// Bind(wxEVT_CHAR, [this](wxKeyEvent& event) { key_event(event); }); // doesn't work on OSX
#ifdef __WXMSW__
GetMainWindow()->Bind(wxEVT_MOTION, [this](wxMouseEvent& event) {
set_tooltip_for_item(/*event.GetPosition()*/get_mouse_position_in_control());
event.Skip();
});
#endif //__WXMSW__
Bind(wxEVT_DATAVIEW_ITEM_CONTEXT_MENU, &ObjectList::OnContextMenu, this);
Bind(wxEVT_DATAVIEW_ITEM_BEGIN_DRAG, &ObjectList::OnBeginDrag, this);
Bind(wxEVT_DATAVIEW_ITEM_DROP_POSSIBLE, &ObjectList::OnDropPossible, this);
Bind(wxEVT_DATAVIEW_ITEM_DROP, &ObjectList::OnDrop, this);
Bind(wxEVT_DATAVIEW_ITEM_EDITING_DONE, &ObjectList::OnEditingDone, this);
Bind(wxEVT_DATAVIEW_ITEM_VALUE_CHANGED, &ObjectList::ItemValueChanged, this);
Bind(wxCUSTOMEVT_LAST_VOLUME_IS_DELETED, [this](wxCommandEvent& e) { last_volume_is_deleted(e.GetInt()); });
#ifdef __WXOSX__
Bind(wxEVT_KEY_DOWN, &ObjectList::OnChar, this);
#endif //__WXOSX__
}
ObjectList::~ObjectList()
{
}
void ObjectList::create_objects_ctrl()
{
SetMinSize(wxSize(-1, 15 * wxGetApp().em_unit()));
m_sizer = new wxBoxSizer(wxVERTICAL);
m_sizer->Add(this, 1, wxGROW);
m_objects_model = new PrusaObjectDataViewModel;
AssociateModel(m_objects_model);
m_objects_model->SetAssociatedControl(this);
#if wxUSE_DRAG_AND_DROP && wxUSE_UNICODE
EnableDragSource(wxDF_UNICODETEXT);
EnableDropTarget(wxDF_UNICODETEXT);
#endif // wxUSE_DRAG_AND_DROP && wxUSE_UNICODE
// column 0(Icon+Text) of the view control:
// And Icon can be consisting of several bitmaps
AppendColumn(new wxDataViewColumn(_(L("Name")), new PrusaBitmapTextRenderer(),
0, 20*wxGetApp().em_unit()/*200*/, wxALIGN_LEFT, wxDATAVIEW_COL_RESIZABLE));
// column 1 of the view control:
AppendColumn(create_objects_list_extruder_column(4));
// column 2 of the view control:
AppendBitmapColumn(" ", 2, wxDATAVIEW_CELL_INERT, int(2.5 * wxGetApp().em_unit())/*25*/,
wxALIGN_CENTER_HORIZONTAL, wxDATAVIEW_COL_RESIZABLE);
}
void ObjectList::create_popup_menus()
{
// create popup menus for object and part
create_object_popupmenu(&m_menu_object);
create_part_popupmenu(&m_menu_part);
create_sla_object_popupmenu(&m_menu_sla_object);
create_instance_popupmenu(&m_menu_instance);
}
void ObjectList::set_tooltip_for_item(const wxPoint& pt)
{
wxDataViewItem item;
wxDataViewColumn* col;
HitTest(pt, item, col);
if (!item) return;
if (col->GetTitle() == " " && GetSelectedItemsCount()<2)
GetMainWindow()->SetToolTip(_(L("Right button click the icon to change the object settings")));
else if (col->GetTitle() == _("Name") &&
m_objects_model->GetBitmap(item).GetRefData() == m_bmp_manifold_warning.GetRefData()) {
int obj_idx = m_objects_model->GetIdByItem(item);
auto& stats = (*m_objects)[obj_idx]->volumes[0]->mesh.stl.stats;
int errors = stats.degenerate_facets + stats.edges_fixed + stats.facets_removed +
stats.facets_added + stats.facets_reversed + stats.backwards_edges;
wxString tooltip = wxString::Format(_(L("Auto-repaired (%d errors):\n")), errors);
std::map<std::string, int> error_msg;
error_msg[L("degenerate facets")] = stats.degenerate_facets;
error_msg[L("edges fixed")] = stats.edges_fixed;
error_msg[L("facets removed")] = stats.facets_removed;
error_msg[L("facets added")] = stats.facets_added;
error_msg[L("facets reversed")] = stats.facets_reversed;
error_msg[L("backwards edges")] = stats.backwards_edges;
for (auto error : error_msg)
{
if (error.second > 0)
tooltip += wxString::Format(_("\t%d %s\n"), error.second, error.first);
}
// OR
// tooltip += wxString::Format(_(L("%d degenerate facets, %d edges fixed, %d facets removed, "
// "%d facets added, %d facets reversed, %d backwards edges")),
// stats.degenerate_facets, stats.edges_fixed, stats.facets_removed,
// stats.facets_added, stats.facets_reversed, stats.backwards_edges);
if (is_windows10())
tooltip += _(L("Right button click the icon to fix STL through Netfabb"));
GetMainWindow()->SetToolTip(tooltip);
}
else
GetMainWindow()->SetToolTip(""); // hide tooltip
}
wxPoint ObjectList::get_mouse_position_in_control()
{
const wxPoint& pt = wxGetMousePosition();
// wxWindow* win = GetMainWindow();
// wxPoint screen_pos = win->GetScreenPosition();
return wxPoint(pt.x - /*win->*/GetScreenPosition().x, pt.y - /*win->*/GetScreenPosition().y);
}
int ObjectList::get_selected_obj_idx() const
{
if (GetSelectedItemsCount() == 1)
return m_objects_model->GetIdByItem(m_objects_model->GetTopParent(GetSelection()));
return -1;
}
wxDataViewColumn* ObjectList::create_objects_list_extruder_column(int extruders_count)
{
wxArrayString choices;
choices.Add("default");
for (int i = 1; i <= extruders_count; ++i)
choices.Add(wxString::Format("%d", i));
wxDataViewChoiceRenderer *c =
new wxDataViewChoiceRenderer(choices, wxDATAVIEW_CELL_EDITABLE, wxALIGN_CENTER_HORIZONTAL);
wxDataViewColumn* column = new wxDataViewColumn(_(L("Extruder")), c, 1,
8*wxGetApp().em_unit()/*80*/, wxALIGN_CENTER_HORIZONTAL, wxDATAVIEW_COL_RESIZABLE);
return column;
}
void ObjectList::update_extruder_values_for_items(const int max_extruder)
{
for (int i = 0; i < m_objects->size(); ++i)
{
wxDataViewItem item = m_objects_model->GetItemById(i);
if (!item) continue;
auto object = (*m_objects)[i];
wxString extruder;
if (!object->config.has("extruder") ||
object->config.option<ConfigOptionInt>("extruder")->value > max_extruder)
extruder = "default";
else
extruder = wxString::Format("%d", object->config.option<ConfigOptionInt>("extruder")->value);
m_objects_model->SetValue(extruder, item, 1);
if (object->volumes.size() > 1) {
for (auto id = 0; id < object->volumes.size(); id++) {
item = m_objects_model->GetItemByVolumeId(i, id);
if (!item) continue;
if (!object->volumes[id]->config.has("extruder") ||
object->volumes[id]->config.option<ConfigOptionInt>("extruder")->value > max_extruder)
extruder = "default";
else
extruder = wxString::Format("%d", object->volumes[id]->config.option<ConfigOptionInt>("extruder")->value);
m_objects_model->SetValue(extruder, item, 1);
}
}
}
}
void ObjectList::update_objects_list_extruder_column(int extruders_count)
{
if (!this) return; // #ys_FIXME
if (printer_technology() == ptSLA)
extruders_count = 1;
wxDataViewChoiceRenderer* ch_render = dynamic_cast<wxDataViewChoiceRenderer*>(GetColumn(1)->GetRenderer());
if (ch_render->GetChoices().GetCount() - 1 == extruders_count)
return;
m_prevent_update_extruder_in_config = true;
if (m_objects && extruders_count > 1)
update_extruder_values_for_items(extruders_count);
// delete old 2nd column
DeleteColumn(GetColumn(1));
// insert new created 3rd column
InsertColumn(1, create_objects_list_extruder_column(extruders_count));
// set show/hide for this column
set_extruder_column_hidden(extruders_count <= 1);
//a workaround for a wrong last column width updating under OSX
GetColumn(2)->SetWidth(25);
m_prevent_update_extruder_in_config = false;
}
void ObjectList::set_extruder_column_hidden(const bool hide) const
{
GetColumn(1)->SetHidden(hide);
}
void ObjectList::update_extruder_in_config(const wxDataViewItem& item)
{
if (m_prevent_update_extruder_in_config)
return;
if (m_objects_model->GetParent(item) == wxDataViewItem(0)) {
const int obj_idx = m_objects_model->GetIdByItem(item);
m_config = &(*m_objects)[obj_idx]->config;
}
else {
const int obj_idx = m_objects_model->GetIdByItem(m_objects_model->GetParent(item));
const int volume_id = m_objects_model->GetVolumeIdByItem(item);
if (obj_idx < 0 || volume_id < 0)
return;
m_config = &(*m_objects)[obj_idx]->volumes[volume_id]->config;
}
wxVariant variant;
m_objects_model->GetValue(variant, item, 1);
const wxString selection = variant.GetString();
if (!m_config || selection.empty())
return;
const int extruder = selection.size() > 1 ? 0 : atoi(selection.c_str());
m_config->set_key_value("extruder", new ConfigOptionInt(extruder));
// update scene
wxGetApp().plater()->update();
}
void ObjectList::update_name_in_model(const wxDataViewItem& item) const
{
const int obj_idx = m_objects_model->GetObjectIdByItem(item);
if (obj_idx < 0) return;
if (m_objects_model->GetParent(item) == wxDataViewItem(0)) {
(*m_objects)[obj_idx]->name = m_objects_model->GetName(item).ToUTF8().data();
return;
}
const int volume_id = m_objects_model->GetVolumeIdByItem(item);
if (volume_id < 0) return;
(*m_objects)[obj_idx]->volumes[volume_id]->name = m_objects_model->GetName(item).ToUTF8().data();
}
void ObjectList::init_icons()
{
// m_bmp_modifiermesh = wxBitmap(from_u8(var("lambda.png")), wxBITMAP_TYPE_PNG);//(Slic3r::var("plugin.png")), wxBITMAP_TYPE_PNG);
// m_bmp_solidmesh = wxBitmap(from_u8(var("object.png")), wxBITMAP_TYPE_PNG);//(Slic3r::var("package.png")), wxBITMAP_TYPE_PNG);
// m_bmp_support_enforcer = wxBitmap(from_u8(var("support_enforcer_.png")), wxBITMAP_TYPE_PNG);
// m_bmp_support_blocker = wxBitmap(from_u8(var("support_blocker_.png")), wxBITMAP_TYPE_PNG);
m_bmp_modifiermesh = create_scaled_bitmap("lambda.png");
m_bmp_solidmesh = create_scaled_bitmap("object.png");
m_bmp_support_enforcer = create_scaled_bitmap("support_enforcer_.png");
m_bmp_support_blocker = create_scaled_bitmap("support_blocker_.png");
m_bmp_vector.reserve(4); // bitmaps for different types of parts
m_bmp_vector.push_back(&m_bmp_solidmesh); // Add part
m_bmp_vector.push_back(&m_bmp_modifiermesh); // Add modifier
m_bmp_vector.push_back(&m_bmp_support_enforcer); // Add support enforcer
m_bmp_vector.push_back(&m_bmp_support_blocker); // Add support blocker
m_objects_model->SetVolumeBitmaps(m_bmp_vector);
// init icon for manifold warning
// m_bmp_manifold_warning = wxBitmap(from_u8(var("exclamation_mark_.png")), wxBITMAP_TYPE_PNG);//(Slic3r::var("error.png")), wxBITMAP_TYPE_PNG);
m_bmp_manifold_warning = create_scaled_bitmap("exclamation_mark_.png");
// init bitmap for "Split to sub-objects" context menu
// m_bmp_split = wxBitmap(from_u8(var("split.png")), wxBITMAP_TYPE_PNG);
m_bmp_split = create_scaled_bitmap("split.png");
// init bitmap for "Add Settings" context menu
// m_bmp_cog = wxBitmap(from_u8(var("cog.png")), wxBITMAP_TYPE_PNG);
m_bmp_cog = create_scaled_bitmap("cog.png");
}
void ObjectList::selection_changed()
{
if (m_prevent_list_events) return;
fix_multiselection_conflicts();
// update object selection on Plater
if (!m_prevent_canvas_selection_update)
update_selections_on_canvas();
// to update the toolbar and info sizer
if (!GetSelection() || m_objects_model->GetItemType(GetSelection()) == itObject) {
auto event = SimpleEvent(EVT_OBJ_LIST_OBJECT_SELECT);
event.SetEventObject(this);
wxPostEvent(this, event);
}
part_selection_changed();
}
void ObjectList::OnChar(wxKeyEvent& event)
{
if (event.GetKeyCode() == WXK_BACK){
remove();
}
else if (wxGetKeyState(wxKeyCode('A')) && wxGetKeyState(WXK_SHIFT))
select_item_all_children();
event.Skip();
}
void ObjectList::OnContextMenu(wxDataViewEvent&)
{
wxDataViewItem item;
wxDataViewColumn* col;
const wxPoint pt = get_mouse_position_in_control();
HitTest(pt, item, col);
if (!item)
#ifdef __WXOSX__ // #ys_FIXME temporary workaround for OSX
// after Yosemite OS X version, HitTest return undefined item
item = GetSelection();
if (item)
show_context_menu();
else
printf("undefined item\n");
return;
#else
return;
#endif // __WXOSX__
const wxString title = col->GetTitle();
if (title == " ")
show_context_menu();
else if (title == _("Name") && pt.x >15 &&
m_objects_model->GetBitmap(item).GetRefData() == m_bmp_manifold_warning.GetRefData())
{
if (is_windows10())
fix_through_netfabb();
}
else if (title == _("Extruder"))
show_extruder_selection_menu();
#ifndef __WXMSW__
GetMainWindow()->SetToolTip(""); // hide tooltip
#endif //__WXMSW__
}
void ObjectList::show_context_menu()
{
if (multiple_selection())
{
if (selected_instances_of_same_object())
wxGetApp().plater()->PopupMenu(&m_menu_instance);
else
show_extruder_selection_menu();
return;
}
const auto item = GetSelection();
if (item)
{
const ItemType type = m_objects_model->GetItemType(item);
if (!(type & (itObject | itVolume | itInstance)))
return;
wxMenu* menu = type & itInstance ? &m_menu_instance :
m_objects_model->GetParent(item) != wxDataViewItem(0) ? &m_menu_part :
printer_technology() == ptFFF ? &m_menu_object : &m_menu_sla_object;
if (!(type & itInstance))
append_menu_item_settings(menu);
wxGetApp().plater()->PopupMenu(menu);
}
}
void ObjectList::key_event(wxKeyEvent& event)
{
if (event.GetKeyCode() == WXK_TAB)
Navigate(event.ShiftDown() ? wxNavigationKeyEvent::IsBackward : wxNavigationKeyEvent::IsForward);
else if (event.GetKeyCode() == WXK_DELETE
#ifdef __WXOSX__
|| event.GetKeyCode() == WXK_BACK
#endif //__WXOSX__
) {
printf("WXK_BACK\n");
remove();
}
else if (wxGetKeyState(wxKeyCode('A')) && wxGetKeyState(WXK_SHIFT))
select_item_all_children();
else
event.Skip();
}
void ObjectList::OnBeginDrag(wxDataViewEvent &event)
{
const wxDataViewItem item(event.GetItem());
const bool mult_sel = multiple_selection();
if (mult_sel && !selected_instances_of_same_object() ||
!mult_sel && (GetSelection() != item ||
m_objects_model->GetParent(item) == wxDataViewItem(0) ) ) {
event.Veto();
return;
}
const ItemType& type = m_objects_model->GetItemType(item);
if (!(type & (itVolume | itInstance))) {
event.Veto();
return;
}
if (mult_sel)
{
m_dragged_data.init(m_objects_model->GetObjectIdByItem(item),type);
std::set<int>& sub_obj_idxs = m_dragged_data.inst_idxs();
wxDataViewItemArray sels;
GetSelections(sels);
for (auto sel : sels )
sub_obj_idxs.insert(m_objects_model->GetInstanceIdByItem(sel));
}
else
m_dragged_data.init(m_objects_model->GetObjectIdByItem(item),
type&itVolume ? m_objects_model->GetVolumeIdByItem(item) :
m_objects_model->GetInstanceIdByItem(item),
type);
/* Under MSW or OSX, DnD moves an item to the place of another selected item
* But under GTK, DnD moves an item between another two items.
* And as a result - call EVT_CHANGE_SELECTION to unselect all items.
* To prevent such behavior use m_prevent_list_events
**/
m_prevent_list_events = true;//it's needed for GTK
/* Under GTK, DnD requires to the wxTextDataObject been initialized with some valid value,
* so set some nonempty string
*/
wxTextDataObject* obj = new wxTextDataObject;
obj->SetText("Some text");//it's needed for GTK
event.SetDataObject(obj);
event.SetDragFlags(wxDrag_DefaultMove); // allows both copy and move;
}
bool ObjectList::can_drop(const wxDataViewItem& item) const
{
return m_dragged_data.type() == itInstance && !item.IsOk() ||
m_dragged_data.type() == itVolume && item.IsOk() &&
m_objects_model->GetItemType(item) == itVolume &&
m_dragged_data.obj_idx() == m_objects_model->GetObjectIdByItem(item);
}
void ObjectList::OnDropPossible(wxDataViewEvent &event)
{
const wxDataViewItem& item = event.GetItem();
if (!can_drop(item))
event.Veto();
}
void ObjectList::OnDrop(wxDataViewEvent &event)
{
const wxDataViewItem& item = event.GetItem();
if (!can_drop(item))
{
event.Veto();
m_dragged_data.clear();
return;
}
if (m_dragged_data.type() == itInstance)
{
instances_to_separated_object(m_dragged_data.obj_idx(), m_dragged_data.inst_idxs());
m_dragged_data.clear();
return;
}
const int from_volume_id = m_dragged_data.sub_obj_idx();
int to_volume_id = m_objects_model->GetVolumeIdByItem(item);
// It looks like a fixed in current version of the wxWidgets
// #ifdef __WXGTK__
// /* Under GTK, DnD moves an item between another two items.
// * And event.GetItem() return item, which is under "insertion line"
// * So, if we move item down we should to decrease the to_volume_id value
// **/
// if (to_volume_id > from_volume_id) to_volume_id--;
// #endif // __WXGTK__
auto& volumes = (*m_objects)[m_dragged_data.obj_idx()]->volumes;
auto delta = to_volume_id < from_volume_id ? -1 : 1;
int cnt = 0;
for (int id = from_volume_id; cnt < abs(from_volume_id - to_volume_id); id += delta, cnt++)
std::swap(volumes[id], volumes[id + delta]);
select_item(m_objects_model->ReorganizeChildren(from_volume_id, to_volume_id,
m_objects_model->GetParent(item)));
m_parts_changed = true;
parts_changed(m_dragged_data.obj_idx());
m_dragged_data.clear();
}
// Context Menu
std::vector<std::string> ObjectList::get_options(const bool is_part)
{
if (printer_technology() == ptSLA) {
SLAPrintObjectConfig full_sla_config;
auto options = full_sla_config.keys();
options.erase(find(options.begin(), options.end(), "layer_height"));
return options;
}
PrintRegionConfig reg_config;
auto options = reg_config.keys();
if (!is_part) {
PrintObjectConfig obj_config;
std::vector<std::string> obj_options = obj_config.keys();
options.insert(options.end(), obj_options.begin(), obj_options.end());
}
return options;
}
const std::vector<std::string>& ObjectList::get_options_for_bundle(const wxString& bundle_name)
{
const FreqSettingsBundle& bundle = printer_technology() == ptSLA ?
FREQ_SETTINGS_BUNDLE_SLA : FREQ_SETTINGS_BUNDLE_FFF;
for (auto& it : bundle)
{
if (bundle_name == _(it.first))
return it.second;
}
#if 0
// if "Quick menu" is selected
FreqSettingsBundle& bundle_quick = printer_technology() == ptSLA ?
m_freq_settings_sla: m_freq_settings_fff;
for (auto& it : bundle_quick)
{
if ( bundle_name == wxString::Format(_(L("Quick Add Settings (%s)")), _(it.first)) )
return it.second;
}
#endif
static std::vector<std::string> empty;
return empty;
}
void ObjectList::get_options_menu(settings_menu_hierarchy& settings_menu, const bool is_part)
{
auto options = get_options(is_part);
const int extruders_cnt = extruders_count();
DynamicPrintConfig config;
for (auto& option : options)
{
auto const opt = config.def()->get(option);
auto category = opt->category;
if (category.empty() ||
(category == "Extruders" && extruders_cnt == 1)) continue;
const std::string& label = !opt->full_label.empty() ? opt->full_label : opt->label;
std::pair<std::string, std::string> option_label(option, label);
std::vector< std::pair<std::string, std::string> > new_category;
auto& cat_opt_label = settings_menu.find(category) == settings_menu.end() ? new_category : settings_menu.at(category);
cat_opt_label.push_back(option_label);
if (cat_opt_label.size() == 1)
settings_menu[category] = cat_opt_label;
}
}
void ObjectList::get_settings_choice(const wxString& category_name)
{
wxArrayString names;
wxArrayInt selections;
settings_menu_hierarchy settings_menu;
const bool is_part = m_objects_model->GetParent(GetSelection()) != wxDataViewItem(0);
get_options_menu(settings_menu, is_part);
std::vector< std::pair<std::string, std::string> > *settings_list = nullptr;
auto opt_keys = m_config->keys();
for (auto& cat : settings_menu)
{
if (_(cat.first) == category_name) {
int sel = 0;
for (auto& pair : cat.second) {
names.Add(_(pair.second));
if (find(opt_keys.begin(), opt_keys.end(), pair.first) != opt_keys.end())
selections.Add(sel);
sel++;
}
settings_list = &cat.second;
break;
}
}
if (!settings_list)
return;
if (wxGetSelectedChoices(selections, _(L("Select showing settings")), category_name, names) == -1)
return;
const int selection_cnt = selections.size();
#if 0
if (selection_cnt > 0)
{
// Add selected items to the "Quick menu"
FreqSettingsBundle& freq_settings = printer_technology() == ptSLA ?
m_freq_settings_sla : m_freq_settings_fff;
bool changed_existing = false;
std::vector<std::string> tmp_freq_cat = {};
for (auto& cat : freq_settings)
{
if (_(cat.first) == category_name)
{
std::vector<std::string>& freq_settings_category = cat.second;
freq_settings_category.clear();
freq_settings_category.reserve(selection_cnt);
for (auto sel : selections)
freq_settings_category.push_back((*settings_list)[sel].first);
changed_existing = true;
break;
}
}
if (!changed_existing)
{
// Create new "Quick menu" item
for (auto& cat : settings_menu)
{
if (_(cat.first) == category_name)
{
freq_settings[cat.first] = std::vector<std::string> {};
std::vector<std::string>& freq_settings_category = freq_settings.find(cat.first)->second;
freq_settings_category.reserve(selection_cnt);
for (auto sel : selections)
freq_settings_category.push_back((*settings_list)[sel].first);
break;
}
}
}
}
#endif
std::vector <std::string> selected_options;
selected_options.reserve(selection_cnt);
for (auto sel : selections)
selected_options.push_back((*settings_list)[sel].first);
const DynamicPrintConfig& from_config = printer_technology() == ptFFF ?
wxGetApp().preset_bundle->prints.get_edited_preset().config :
wxGetApp().preset_bundle->sla_prints.get_edited_preset().config;
for (auto& setting : (*settings_list))
{
auto& opt_key = setting.first;
if (find(opt_keys.begin(), opt_keys.end(), opt_key) != opt_keys.end() &&
find(selected_options.begin(), selected_options.end(), opt_key) == selected_options.end())
m_config->erase(opt_key);
if (find(opt_keys.begin(), opt_keys.end(), opt_key) == opt_keys.end() &&
find(selected_options.begin(), selected_options.end(), opt_key) != selected_options.end()) {
const ConfigOption* option = from_config.option(opt_key);
if (!option) {
// if current option doesn't exist in prints.get_edited_preset(),
// get it from default config values
option = DynamicPrintConfig::new_from_defaults_keys({ opt_key })->option(opt_key);
}
m_config->set_key_value(opt_key, option->clone());
}
}
// Add settings item for object
update_settings_item();
}
void ObjectList::get_freq_settings_choice(const wxString& bundle_name)
{
const std::vector<std::string>& options = get_options_for_bundle(bundle_name);
auto opt_keys = m_config->keys();
const DynamicPrintConfig& from_config = wxGetApp().preset_bundle->prints.get_edited_preset().config;
for (auto& opt_key : options)
{
if (find(opt_keys.begin(), opt_keys.end(), opt_key) == opt_keys.end()) {
const ConfigOption* option = from_config.option(opt_key);
if (!option) {
// if current option doesn't exist in prints.get_edited_preset(),
// get it from default config values
option = DynamicPrintConfig::new_from_defaults_keys({ opt_key })->option(opt_key);
}
m_config->set_key_value(opt_key, option->clone());
}
}
// Add settings item for object
update_settings_item();
}
void ObjectList::update_settings_item()
{
auto item = GetSelection();
if (item) {
if (m_objects_model->GetItemType(item) == itInstance)
item = m_objects_model->GetTopParent(item);
const auto settings_item = m_objects_model->IsSettingsItem(item) ? item : m_objects_model->GetSettingsItem(item);
select_item(settings_item ? settings_item :
m_objects_model->AddSettingsChild(item));
}
else {
auto panel = wxGetApp().sidebar().scrolled_panel();
panel->Freeze();
wxGetApp().obj_settings()->UpdateAndShow(true);
panel->Thaw();
}
}
void ObjectList::append_menu_item_add_generic(wxMenuItem* menu, const ModelVolumeType type) {
auto sub_menu = new wxMenu;
if (wxGetApp().get_mode() == comExpert) {
append_menu_item(sub_menu, wxID_ANY, _(L("Load")) + " " + dots, "",
[this, type](wxCommandEvent&) { load_subobject(type); }, "", menu->GetMenu());
sub_menu->AppendSeparator();
}
for (auto& item : { L("Box"), L("Cylinder"), L("Sphere"), L("Slab") }) {
append_menu_item(sub_menu, wxID_ANY, _(item), "",
[this, type, item](wxCommandEvent&) { load_generic_subobject(item, type); }, "", menu->GetMenu());
}
menu->SetSubMenu(sub_menu);
}
void ObjectList::append_menu_items_add_volume(wxMenu* menu)
{
// Note: id accords to type of the sub-object, so sequence of the menu items is important
std::vector<std::string> menu_object_types_items = {L("Add part"), // ~ModelVolumeType::MODEL_PART
L("Add modifier"), // ~ModelVolumeType::PARAMETER_MODIFIER
L("Add support enforcer"), // ~ModelVolumeType::SUPPORT_ENFORCER
L("Add support blocker") }; // ~ModelVolumeType::SUPPORT_BLOCKER
// Update "add" items(delete old & create new) settings popupmenu
for (auto& item : menu_object_types_items){
const auto settings_id = menu->FindItem(_(item));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
}
const ConfigOptionMode mode = wxGetApp().get_mode();
if (mode < comExpert)
{
append_menu_item(menu, wxID_ANY, _(L("Add part")), "",
[this](wxCommandEvent&) { load_subobject(ModelVolumeType::MODEL_PART); }, *m_bmp_vector[int(ModelVolumeType::MODEL_PART)]);
}
if (mode == comSimple) {
append_menu_item(menu, wxID_ANY, _(L("Add support enforcer")), "",
[this](wxCommandEvent&) { load_generic_subobject(L("Box"), ModelVolumeType::SUPPORT_ENFORCER); },
*m_bmp_vector[int(ModelVolumeType::SUPPORT_ENFORCER)]);
append_menu_item(menu, wxID_ANY, _(L("Add support blocker")), "",
[this](wxCommandEvent&) { load_generic_subobject(L("Box"), ModelVolumeType::SUPPORT_BLOCKER); },
*m_bmp_vector[int(ModelVolumeType::SUPPORT_BLOCKER)]);
return;
}
for (int type = mode == comExpert ? 0 : 1 ; type < menu_object_types_items.size(); type++)
{
auto& item = menu_object_types_items[type];
auto menu_item = new wxMenuItem(menu, wxID_ANY, _(item));
menu_item->SetBitmap(*m_bmp_vector[type]);
append_menu_item_add_generic(menu_item, ModelVolumeType(type));
menu->Append(menu_item);
}
}
wxMenuItem* ObjectList::append_menu_item_split(wxMenu* menu)
{
return append_menu_item(menu, wxID_ANY, _(L("Split to parts")), "",
[this](wxCommandEvent&) { split(); }, m_bmp_split, menu);
}
wxMenuItem* ObjectList::append_menu_item_settings(wxMenu* menu_)
{
PrusaMenu* menu = dynamic_cast<PrusaMenu*>(menu_);
// Delete old items from settings popupmenu
auto settings_id = menu->FindItem(_("Add settings"));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
for (auto& it : FREQ_SETTINGS_BUNDLE_FFF)
{
settings_id = menu->FindItem(_(it.first));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
}
for (auto& it : FREQ_SETTINGS_BUNDLE_SLA)
{
settings_id = menu->FindItem(_(it.first));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
}
#if 0
for (auto& it : m_freq_settings_fff)
{
settings_id = menu->FindItem(wxString::Format(_(L("Quick Add Settings (%s)")), _(it.first)));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
}
for (auto& it : m_freq_settings_sla)
{
settings_id = menu->FindItem(wxString::Format(_(L("Quick Add Settings (%s)")), _(it.first)));
if (settings_id != wxNOT_FOUND)
menu->Destroy(settings_id);
}
#endif
menu->DestroySeparators(); // delete old separators
const auto sel_vol = get_selected_model_volume();
if (sel_vol && sel_vol->type() >= ModelVolumeType::SUPPORT_ENFORCER)
return nullptr;
const ConfigOptionMode mode = wxGetApp().get_mode();
if (mode == comSimple)
return nullptr;
// Create new items for settings popupmenu
if (printer_technology() == ptFFF ||
menu->GetMenuItems().size() > 0 && !menu->GetMenuItems().back()->IsSeparator())
menu->m_separator_frst = menu->AppendSeparator();
// Add frequently settings
create_freq_settings_popupmenu(menu);
if (mode == comAdvanced)
return nullptr;
menu->m_separator_scnd = menu->AppendSeparator();
// Add full settings list
auto menu_item = new wxMenuItem(menu, wxID_ANY, _(L("Add settings")));
menu_item->SetBitmap(m_bmp_cog);
// const auto sel_vol = get_selected_model_volume();
// if (sel_vol && sel_vol->type() >= ModelVolumeType::SUPPORT_ENFORCER)
// menu_item->Enable(false);
// else
menu_item->SetSubMenu(create_settings_popupmenu(menu));
return menu->Append(menu_item);
}
wxMenuItem* ObjectList::append_menu_item_change_type(wxMenu* menu)
{
return append_menu_item(menu, wxID_ANY, _(L("Change type")), "",
[this](wxCommandEvent&) { change_part_type(); }, "", menu);
}
wxMenuItem* ObjectList::append_menu_item_instance_to_object(wxMenu* menu)
{
return append_menu_item(menu, wxID_ANY, _(L("Set as a Separated Object")), "",
[this](wxCommandEvent&) { split_instances(); }, "", menu);
}
void ObjectList::append_menu_item_rename(wxMenu* menu)
{
append_menu_item(menu, wxID_ANY, _(L("Rename")), "",
[this](wxCommandEvent&) { rename_item(); }, "", menu);
menu->AppendSeparator();
}
void ObjectList::append_menu_item_fix_through_netfabb(wxMenu* menu)
{
if (!is_windows10())
return;
append_menu_item(menu, wxID_ANY, _(L("Fix through the Netfabb")), "",
[this](wxCommandEvent&) { fix_through_netfabb(); }, "", menu);
menu->AppendSeparator();
}
void ObjectList::append_menu_item_export_stl(wxMenu* menu) const
{
append_menu_item(menu, wxID_ANY, _(L("Export object as STL")) + dots, "",
[](wxCommandEvent&) { wxGetApp().plater()->export_stl(true); }, "", menu);
menu->AppendSeparator();
}
void ObjectList::create_object_popupmenu(wxMenu *menu)
{
#ifdef __WXOSX__
append_menu_item_rename(menu);
#endif // __WXOSX__
append_menu_item_export_stl(menu);
append_menu_item_fix_through_netfabb(menu);
// Split object to parts
m_menu_item_split = append_menu_item_split(menu);
menu->AppendSeparator();
// rest of a object_menu will be added later in:
// - append_menu_items_add_volume() -> for "Add (volumes)"
// - append_menu_item_settings() -> for "Add (settings)"
wxGetApp().plater()->Bind(wxEVT_UPDATE_UI, [this](wxUpdateUIEvent& evt) {
evt.Enable(is_splittable()); }, m_menu_item_split->GetId());
}
void ObjectList::create_sla_object_popupmenu(wxMenu *menu)
{
#ifdef __WXOSX__
append_menu_item_rename(menu);
#endif // __WXOSX__
append_menu_item_export_stl(menu);
append_menu_item_fix_through_netfabb(menu);
// rest of a object_sla_menu will be added later in:
// - append_menu_item_settings() -> for "Add (settings)"
}
void ObjectList::create_part_popupmenu(wxMenu *menu)
{
#ifdef __WXOSX__
append_menu_item_rename(menu);
#endif // __WXOSX__
append_menu_item_fix_through_netfabb(menu);
m_menu_item_split_part = append_menu_item_split(menu);
// Append change part type
menu->AppendSeparator();
append_menu_item_change_type(menu);
// rest of a object_sla_menu will be added later in:
// - append_menu_item_settings() -> for "Add (settings)"
wxGetApp().plater()->Bind(wxEVT_UPDATE_UI, [this](wxUpdateUIEvent& evt) {
evt.Enable(is_splittable()); }, m_menu_item_split_part->GetId());
}
void ObjectList::create_instance_popupmenu(wxMenu*menu)
{
m_menu_item_split_instances = append_menu_item_instance_to_object(menu);
wxGetApp().plater()->Bind(wxEVT_UPDATE_UI, [this](wxUpdateUIEvent& evt) {
evt.Enable(can_split_instances()); }, m_menu_item_split_instances->GetId());
}
wxMenu* ObjectList::create_settings_popupmenu(wxMenu *parent_menu)
{
wxMenu *menu = new wxMenu;
settings_menu_hierarchy settings_menu;
const bool is_part = m_objects_model->GetParent(GetSelection()) != wxDataViewItem(0);
get_options_menu(settings_menu, is_part);
for (auto cat : settings_menu) {
append_menu_item(menu, wxID_ANY, _(cat.first), "",
[menu, this](wxCommandEvent& event) { get_settings_choice(menu->GetLabel(event.GetId())); },
CATEGORY_ICON.find(cat.first) == CATEGORY_ICON.end() ? wxNullBitmap : CATEGORY_ICON.at(cat.first), parent_menu);
}
return menu;
}
void ObjectList::create_freq_settings_popupmenu(wxMenu *menu)
{
// Add default settings bundles
const FreqSettingsBundle& bundle = printer_technology() == ptFFF ?
FREQ_SETTINGS_BUNDLE_FFF : FREQ_SETTINGS_BUNDLE_SLA;
const int extruders_cnt = extruders_count();
for (auto& it : bundle) {
if (it.first.empty() || it.first == "Extruders" && extruders_cnt == 1)
continue;
append_menu_item(menu, wxID_ANY, _(it.first), "",
[menu, this](wxCommandEvent& event) { get_freq_settings_choice(menu->GetLabel(event.GetId())); },
CATEGORY_ICON.find(it.first) == CATEGORY_ICON.end() ? wxNullBitmap : CATEGORY_ICON.at(it.first), menu);
}
#if 0
// Add "Quick" settings bundles
const FreqSettingsBundle& bundle_quick = printer_technology() == ptFFF ?
m_freq_settings_fff : m_freq_settings_sla;
for (auto& it : bundle_quick) {
if (it.first.empty() || it.first == "Extruders" && extruders_cnt == 1)
continue;
append_menu_item(menu, wxID_ANY, wxString::Format(_(L("Quick Add Settings (%s)")), _(it.first)), "",
[menu, this](wxCommandEvent& event) { get_freq_settings_choice(menu->GetLabel(event.GetId())); },
CATEGORY_ICON.find(it.first) == CATEGORY_ICON.end() ? wxNullBitmap : CATEGORY_ICON.at(it.first), menu);
}
#endif
}
void ObjectList::update_opt_keys(t_config_option_keys& opt_keys)
{
auto full_current_opts = get_options(false);
for (int i = opt_keys.size()-1; i >= 0; --i)
if (find(full_current_opts.begin(), full_current_opts.end(), opt_keys[i]) == full_current_opts.end())
opt_keys.erase(opt_keys.begin() + i);
}
void ObjectList::load_subobject(ModelVolumeType type)
{
auto item = GetSelection();
if (!item || m_objects_model->GetParent(item) != wxDataViewItem(0))
return;
int obj_idx = m_objects_model->GetIdByItem(item);
if (obj_idx < 0) return;
wxArrayString part_names;
load_part((*m_objects)[obj_idx], part_names, type);
parts_changed(obj_idx);
for (int i = 0; i < part_names.size(); ++i) {
const wxDataViewItem sel_item = m_objects_model->AddVolumeChild(item, part_names.Item(i), type);
if (i == part_names.size() - 1)
select_item(sel_item);
}
}
void ObjectList::load_part( ModelObject* model_object,
wxArrayString& part_names,
ModelVolumeType type)
{
wxWindow* parent = wxGetApp().tab_panel()->GetPage(0);
m_parts_changed = false;
wxArrayString input_files;
wxGetApp().import_model(parent, input_files);
for (int i = 0; i < input_files.size(); ++i) {
std::string input_file = input_files.Item(i).ToUTF8().data();
Model model;
try {
model = Model::read_from_file(input_file);
}
catch (std::exception &e) {
auto msg = _(L("Error! ")) + input_file + " : " + e.what() + ".";
show_error(parent, msg);
exit(1);
}
for (auto object : model.objects) {
Vec3d delta = Vec3d::Zero();
if (model_object->origin_translation != Vec3d::Zero())
{
object->center_around_origin();
delta = model_object->origin_translation - object->origin_translation;
}
for (auto volume : object->volumes) {
#if !ENABLE_VOLUMES_CENTERING_FIXES
volume->center_geometry();
#endif // !ENABLE_VOLUMES_CENTERING_FIXES
volume->translate(delta);
auto new_volume = model_object->add_volume(*volume);
new_volume->set_type(type);
new_volume->name = boost::filesystem::path(input_file).filename().string();
part_names.Add(from_u8(new_volume->name));
// set a default extruder value, since user can't add it manually
new_volume->config.set_key_value("extruder", new ConfigOptionInt(0));
m_parts_changed = true;
}
}
}
}
// Find volume transformation, so that the chained (instance_trafo * volume_trafo) will be as close to identity
// as possible in least squares norm in regard to the 8 corners of bbox.
// Bounding box is expected to be centered around zero in all axes.
Geometry::Transformation volume_to_bed_transformation(const Geometry::Transformation &instance_transformation, const BoundingBoxf3 &bbox)
{
Geometry::Transformation out;
// Is the angle close to a multiple of 90 degrees?
auto ninety_degrees = [](double a) {
a = fmod(std::abs(a), 0.5 * PI);
if (a > 0.25 * PI)
a = 0.5 * PI - a;
return a < 0.001;
};
if (instance_transformation.is_scaling_uniform()) {
// No need to run the non-linear least squares fitting for uniform scaling.
// Just set the inverse.
out.set_from_transform(instance_transformation.get_matrix(true).inverse());
}
else if (ninety_degrees(instance_transformation.get_rotation().x()) && ninety_degrees(instance_transformation.get_rotation().y()) && ninety_degrees(instance_transformation.get_rotation().z()))
{
// Anisotropic scaling, rotation by multiples of ninety degrees.
Eigen::Matrix3d instance_rotation_trafo =
(Eigen::AngleAxisd(instance_transformation.get_rotation().z(), Vec3d::UnitZ()) *
Eigen::AngleAxisd(instance_transformation.get_rotation().y(), Vec3d::UnitY()) *
Eigen::AngleAxisd(instance_transformation.get_rotation().x(), Vec3d::UnitX())).toRotationMatrix();
Eigen::Matrix3d volume_rotation_trafo =
(Eigen::AngleAxisd(-instance_transformation.get_rotation().x(), Vec3d::UnitX()) *
Eigen::AngleAxisd(-instance_transformation.get_rotation().y(), Vec3d::UnitY()) *
Eigen::AngleAxisd(-instance_transformation.get_rotation().z(), Vec3d::UnitZ())).toRotationMatrix();
// 8 corners of the bounding box.
auto pts = Eigen::MatrixXd(8, 3);
pts(0, 0) = bbox.min.x(); pts(0, 1) = bbox.min.y(); pts(0, 2) = bbox.min.z();
pts(1, 0) = bbox.min.x(); pts(1, 1) = bbox.min.y(); pts(1, 2) = bbox.max.z();
pts(2, 0) = bbox.min.x(); pts(2, 1) = bbox.max.y(); pts(2, 2) = bbox.min.z();
pts(3, 0) = bbox.min.x(); pts(3, 1) = bbox.max.y(); pts(3, 2) = bbox.max.z();
pts(4, 0) = bbox.max.x(); pts(4, 1) = bbox.min.y(); pts(4, 2) = bbox.min.z();
pts(5, 0) = bbox.max.x(); pts(5, 1) = bbox.min.y(); pts(5, 2) = bbox.max.z();
pts(6, 0) = bbox.max.x(); pts(6, 1) = bbox.max.y(); pts(6, 2) = bbox.min.z();
pts(7, 0) = bbox.max.x(); pts(7, 1) = bbox.max.y(); pts(7, 2) = bbox.max.z();
// Corners of the bounding box transformed into the modifier mesh coordinate space, with inverse rotation applied to the modifier.
auto qs = pts *
(instance_rotation_trafo *
Eigen::Scaling(instance_transformation.get_scaling_factor().cwiseProduct(instance_transformation.get_mirror())) *
volume_rotation_trafo).inverse().transpose();
// Fill in scaling based on least squares fitting of the bounding box corners.
Vec3d scale;
for (int i = 0; i < 3; ++ i)
scale(i) = pts.col(i).dot(qs.col(i)) / pts.col(i).dot(pts.col(i));
out.set_rotation(Geometry::extract_euler_angles(volume_rotation_trafo));
out.set_scaling_factor(Vec3d(std::abs(scale(0)), std::abs(scale(1)), std::abs(scale(2))));
out.set_mirror(Vec3d(scale(0) > 0 ? 1. : -1, scale(1) > 0 ? 1. : -1, scale(2) > 0 ? 1. : -1));
}
else
{
// General anisotropic scaling, general rotation.
// Keep the modifier mesh in the instance coordinate system, so the modifier mesh will not be aligned with the world.
// Scale it to get the required size.
out.set_scaling_factor(instance_transformation.get_scaling_factor().cwiseInverse());
}
return out;
}
void ObjectList::load_generic_subobject(const std::string& type_name, const ModelVolumeType type)
{
const auto obj_idx = get_selected_obj_idx();
if (obj_idx < 0)
return;
const GLCanvas3D::Selection& selection = wxGetApp().plater()->canvas3D()->get_selection();
assert(obj_idx == selection.get_object_idx());
/** Any changes of the Object's composition is duplicated for all Object's Instances
* So, It's enough to take a bounding box of a first selected Instance and calculate Part(generic_subobject) position
*/
int instance_idx = *selection.get_instance_idxs().begin();
assert(instance_idx != -1);
if (instance_idx == -1)
return;
// Selected object
ModelObject &model_object = *(*m_objects)[obj_idx];
// Bounding box of the selected instance in world coordinate system including the translation, without modifiers.
BoundingBoxf3 instance_bb = model_object.instance_bounding_box(instance_idx);
const wxString name = _(L("Generic")) + "-" + _(type_name);
TriangleMesh mesh;
auto& bed_shape = printer_config().option<ConfigOptionPoints>("bed_shape")->values;
const auto& sz = BoundingBoxf(bed_shape).size();
const auto side = 0.1 * std::max(sz(0), sz(1));
if (type_name == "Box")
// Sitting on the print bed, left front front corner at (0, 0).
mesh = make_cube(side, side, side);
else if (type_name == "Cylinder")
// Centered around 0, sitting on the print bed.
// The cylinder has the same volume as the box above.
mesh = make_cylinder(0.564 * side, side);
else if (type_name == "Sphere")
// Centered around 0, half the sphere below the print bed, half above.
// The sphere has the same volume as the box above.
mesh = make_sphere(0.62 * side, PI / 18);
else if (type_name == "Slab")
// Sitting on the print bed, left front front corner at (0, 0).
mesh = make_cube(instance_bb.size().x()*1.5, instance_bb.size().y()*1.5, instance_bb.size().z()*0.5);
mesh.repair();
// Mesh will be centered when loading.
ModelVolume *new_volume = model_object.add_volume(std::move(mesh));
new_volume->set_type(type);
#if !ENABLE_GENERIC_SUBPARTS_PLACEMENT
new_volume->set_offset(Vec3d(0.0, 0.0, model_object.origin_translation(2) - mesh.stl.stats.min(2)));
#endif // !ENABLE_GENERIC_SUBPARTS_PLACEMENT
#if !ENABLE_VOLUMES_CENTERING_FIXES
new_volume->center_geometry();
#endif // !ENABLE_VOLUMES_CENTERING_FIXES
#if ENABLE_GENERIC_SUBPARTS_PLACEMENT
if (instance_idx != -1)
{
// First (any) GLVolume of the selected instance. They all share the same instance matrix.
const GLVolume* v = selection.get_volume(*selection.get_volume_idxs().begin());
// Transform the new modifier to be aligned with the print bed.
const BoundingBoxf3 mesh_bb = new_volume->mesh.bounding_box();
new_volume->set_transformation(volume_to_bed_transformation(v->get_instance_transformation(), mesh_bb));
// Set the modifier position.
auto offset = (type_name == "Slab") ?
// Slab: Lift to print bed
Vec3d(0., 0., 0.5 * mesh_bb.size().z() + instance_bb.min.z() - v->get_instance_offset().z()) :
// Translate the new modifier to be pickable: move to the left front corner of the instance's bounding box, lift to print bed.
Vec3d(instance_bb.max(0), instance_bb.min(1), instance_bb.min(2)) + 0.5 * mesh_bb.size() - v->get_instance_offset();
new_volume->set_offset(v->get_instance_transformation().get_matrix(true).inverse() * offset);
}
#endif // ENABLE_GENERIC_SUBPARTS_PLACEMENT
new_volume->name = into_u8(name);
// set a default extruder value, since user can't add it manually
new_volume->config.set_key_value("extruder", new ConfigOptionInt(0));
m_parts_changed = true;
parts_changed(obj_idx);
const auto object_item = m_objects_model->GetTopParent(GetSelection());
select_item(m_objects_model->AddVolumeChild(object_item, name, type));
#ifndef __WXOSX__ //#ifdef __WXMSW__ // #ys_FIXME
selection_changed();
#endif //no __WXOSX__ //__WXMSW__
}
void ObjectList::del_object(const int obj_idx)
{
wxGetApp().plater()->delete_object_from_model(obj_idx);
}
// Delete subobject
void ObjectList::del_subobject_item(wxDataViewItem& item)
{
if (!item) return;
int obj_idx, idx;
ItemType type;
m_objects_model->GetItemInfo(item, type, obj_idx, idx);
if (type == itUndef)
return;
if (type == itSettings)
del_settings_from_config();
else if (type == itInstanceRoot && obj_idx != -1)
del_instances_from_object(obj_idx);
else if (idx == -1)
return;
else if (!del_subobject_from_object(obj_idx, idx, type))
return;
m_objects_model->Delete(item);
}
void ObjectList::del_settings_from_config()
{
auto opt_keys = m_config->keys();
if (opt_keys.size() == 1 && opt_keys[0] == "extruder")
return;
int extruder = -1;
if (m_config->has("extruder"))
extruder = m_config->option<ConfigOptionInt>("extruder")->value;
m_config->clear();
if (extruder >= 0)
m_config->set_key_value("extruder", new ConfigOptionInt(extruder));
}
void ObjectList::del_instances_from_object(const int obj_idx)
{
auto& instances = (*m_objects)[obj_idx]->instances;
if (instances.size() <= 1)
return;
while ( instances.size()> 1)
instances.pop_back();
(*m_objects)[obj_idx]->invalidate_bounding_box(); // ? #ys_FIXME
m_parts_changed = true;
parts_changed(obj_idx);
}
bool ObjectList::del_subobject_from_object(const int obj_idx, const int idx, const int type)
{
if (obj_idx == 1000)
// Cannot delete a wipe tower.
return false;
ModelObject* object = (*m_objects)[obj_idx];
if (type == itVolume) {
const auto volume = object->volumes[idx];
// if user is deleting the last solid part, throw error
int solid_cnt = 0;
for (auto vol : object->volumes)
if (vol->is_model_part())
++solid_cnt;
if (volume->is_model_part() && solid_cnt == 1) {
Slic3r::GUI::show_error(nullptr, _(L("You can't delete the last solid part from object.")));
return false;
}
object->delete_volume(idx);
if (object->volumes.size() == 1)
{
const auto last_volume = object->volumes[0];
if (!last_volume->config.empty()) {
object->config.apply(last_volume->config);
last_volume->config.clear();
}
}
}
else if (type == itInstance) {
if (object->instances.size() == 1) {
Slic3r::GUI::show_error(nullptr, _(L("You can't delete the last intance from object.")));
return false;
}
object->delete_instance(idx);
}
else
return false;
m_parts_changed = true;
parts_changed(obj_idx);
return true;
}
void ObjectList::split()
{
const auto item = GetSelection();
const int obj_idx = get_selected_obj_idx();
if (!item || obj_idx < 0)
return;
ModelVolume* volume;
if (!get_volume_by_item(item, volume)) return;
DynamicPrintConfig& config = printer_config();
const ConfigOption *nozzle_dmtrs_opt = config.option("nozzle_diameter", false);
const auto nozzle_dmrs_cnt = (nozzle_dmtrs_opt == nullptr) ? size_t(1) : dynamic_cast<const ConfigOptionFloats*>(nozzle_dmtrs_opt)->values.size();
if (volume->split(nozzle_dmrs_cnt) == 1) {
wxMessageBox(_(L("The selected object couldn't be split because it contains only one part.")));
return;
}
wxBusyCursor wait;
auto model_object = (*m_objects)[obj_idx];
auto parent = m_objects_model->GetTopParent(item);
if (parent)
m_objects_model->DeleteVolumeChildren(parent);
else
parent = item;
for (auto id = 0; id < model_object->volumes.size(); id++) {
const auto vol_item = m_objects_model->AddVolumeChild(parent, from_u8(model_object->volumes[id]->name),
model_object->volumes[id]->is_modifier() ?
ModelVolumeType::PARAMETER_MODIFIER : ModelVolumeType::MODEL_PART,
model_object->volumes[id]->config.has("extruder") ?
model_object->volumes[id]->config.option<ConfigOptionInt>("extruder")->value : 0,
false);
// add settings to the part, if it has those
auto opt_keys = model_object->volumes[id]->config.keys();
if ( !(opt_keys.size() == 1 && opt_keys[0] == "extruder") ) {
select_item(m_objects_model->AddSettingsChild(vol_item));
Collapse(vol_item);
}
}
if (parent == item)
Expand(parent);
m_parts_changed = true;
parts_changed(obj_idx);
}
bool ObjectList::get_volume_by_item(const wxDataViewItem& item, ModelVolume*& volume)
{
auto obj_idx = get_selected_obj_idx();
if (!item || obj_idx < 0)
return false;
const auto volume_id = m_objects_model->GetVolumeIdByItem(item);
const bool split_part = m_objects_model->GetItemType(item) == itVolume;
// object is selected
if (volume_id < 0) {
if ( split_part || (*m_objects)[obj_idx]->volumes.size() > 1 )
return false;
volume = (*m_objects)[obj_idx]->volumes[0];
}
// volume is selected
else
volume = (*m_objects)[obj_idx]->volumes[volume_id];
return true;
}
bool ObjectList::is_splittable()
{
const wxDataViewItem item = GetSelection();
if (!item) return false;
ModelVolume* volume;
if (!get_volume_by_item(item, volume) || !volume)
return false;
return volume->is_splittable();
}
bool ObjectList::selected_instances_of_same_object()
{
wxDataViewItemArray sels;
GetSelections(sels);
const int obj_idx = m_objects_model->GetObjectIdByItem(sels.front());
for (auto item : sels) {
if (! (m_objects_model->GetItemType(item) & itInstance) ||
obj_idx != m_objects_model->GetObjectIdByItem(item))
return false;
}
return true;
}
bool ObjectList::can_split_instances()
{
const GLCanvas3D::Selection& selection = wxGetApp().plater()->canvas3D()->get_selection();
return selection.is_multiple_full_instance() || selection.is_single_full_instance();
}
void ObjectList::part_settings_changed()
{
m_part_settings_changed = true;
wxGetApp().plater()->changed_object(get_selected_obj_idx());
m_part_settings_changed = false;
}
void ObjectList::parts_changed(int obj_idx)
{
wxGetApp().plater()->changed_object(obj_idx);
m_parts_changed = false;
}
void ObjectList::part_selection_changed()
{
int obj_idx = -1;
m_config = nullptr;
wxString og_name = wxEmptyString;
bool update_and_show_manipulations = false;
bool update_and_show_settings = false;
if (multiple_selection()) {
og_name = _(L("Group manipulation"));
update_and_show_manipulations = true;
}
else
{
const auto item = GetSelection();
if (item)
{
bool is_part = false;
if (m_objects_model->GetParent(item) == wxDataViewItem(0)) {
obj_idx = m_objects_model->GetIdByItem(item);
og_name = _(L("Object manipulation"));
m_config = &(*m_objects)[obj_idx]->config;
update_and_show_manipulations = true;
}
else {
auto parent = m_objects_model->GetParent(item);
// Take ID of the parent object to "inform" perl-side which object have to be selected on the scene
obj_idx = m_objects_model->GetIdByItem(parent);
if (m_objects_model->GetItemType(item) == itSettings) {
if (m_objects_model->GetParent(parent) == wxDataViewItem(0)) {
og_name = _(L("Object Settings to modify"));
m_config = &(*m_objects)[obj_idx]->config;
}
else {
og_name = _(L("Part Settings to modify"));
is_part = true;
auto main_parent = m_objects_model->GetParent(parent);
obj_idx = m_objects_model->GetIdByItem(main_parent);
const auto volume_id = m_objects_model->GetVolumeIdByItem(parent);
m_config = &(*m_objects)[obj_idx]->volumes[volume_id]->config;
}
update_and_show_settings = true;
}
else if (m_objects_model->GetItemType(item) == itVolume) {
og_name = _(L("Part manipulation"));
is_part = true;
const auto volume_id = m_objects_model->GetVolumeIdByItem(item);
m_config = &(*m_objects)[obj_idx]->volumes[volume_id]->config;
update_and_show_manipulations = true;
}
else if (m_objects_model->GetItemType(item) == itInstance) {
og_name = _(L("Instance manipulation"));
update_and_show_manipulations = true;
// fill m_config by object's values
const int obj_idx_ = m_objects_model->GetObjectIdByItem(item);
m_config = &(*m_objects)[obj_idx_]->config;
}
}
}
}
m_selected_object_id = obj_idx;
if (update_and_show_manipulations) {
wxGetApp().obj_manipul()->get_og()->set_name(" " + og_name + " ");
wxGetApp().obj_manipul()->get_og()->set_value("object_name", m_objects_model->GetName(GetSelection()));
}
if (update_and_show_settings)
wxGetApp().obj_settings()->get_og()->set_name(" " + og_name + " ");
Sidebar& panel = wxGetApp().sidebar();
panel.Freeze();
wxGetApp().obj_manipul() ->UpdateAndShow(update_and_show_manipulations);
wxGetApp().obj_settings()->UpdateAndShow(update_and_show_settings);
wxGetApp().sidebar().show_info_sizer();
panel.Layout();
panel.Thaw();
}
void ObjectList::add_object_to_list(size_t obj_idx)
{
auto model_object = (*m_objects)[obj_idx];
wxString item_name = from_u8(model_object->name);
const auto item = m_objects_model->Add(item_name,
!model_object->config.has("extruder") ? 0 :
model_object->config.option<ConfigOptionInt>("extruder")->value);
// Add error icon if detected auto-repaire
auto stats = model_object->volumes[0]->mesh.stl.stats;
int errors = stats.degenerate_facets + stats.edges_fixed + stats.facets_removed +
stats.facets_added + stats.facets_reversed + stats.backwards_edges;
if (errors > 0) {
wxVariant variant;
variant << PrusaDataViewBitmapText(item_name, m_bmp_manifold_warning);
m_objects_model->SetValue(variant, item, 0);
}
// add volumes to the object
if (model_object->volumes.size() > 1) {
for (auto id = 0; id < model_object->volumes.size(); id++) {
auto vol_item = m_objects_model->AddVolumeChild(item,
from_u8(model_object->volumes[id]->name),
model_object->volumes[id]->type(),
!model_object->volumes[id]->config.has("extruder") ? 0 :
model_object->volumes[id]->config.option<ConfigOptionInt>("extruder")->value,
false);
auto opt_keys = model_object->volumes[id]->config.keys();
if (!opt_keys.empty() && !(opt_keys.size() == 1 && opt_keys[0] == "extruder")) {
select_item(m_objects_model->AddSettingsChild(vol_item));
Collapse(vol_item);
}
}
Expand(item);
}
// add instances to the object, if it has those
if (model_object->instances.size()>1)
increase_object_instances(obj_idx, model_object->instances.size());
// add settings to the object, if it has those
auto opt_keys = model_object->config.keys();
if (!opt_keys.empty() && !(opt_keys.size() == 1 && opt_keys[0] == "extruder")) {
select_item(m_objects_model->AddSettingsChild(item));
Collapse(item);
}
#ifndef __WXOSX__
selection_changed();
#endif //__WXMSW__
}
void ObjectList::delete_object_from_list()
{
auto item = GetSelection();
if (!item)
return;
if (m_objects_model->GetParent(item) == wxDataViewItem(0))
select_item(m_objects_model->Delete(item));
else
select_item(m_objects_model->Delete(m_objects_model->GetParent(item)));
}
void ObjectList::delete_object_from_list(const size_t obj_idx)
{
select_item(m_objects_model->Delete(m_objects_model->GetItemById(obj_idx)));
}
void ObjectList::delete_volume_from_list(const size_t obj_idx, const size_t vol_idx)
{
select_item(m_objects_model->Delete(m_objects_model->GetItemByVolumeId(obj_idx, vol_idx)));
}
void ObjectList::delete_instance_from_list(const size_t obj_idx, const size_t inst_idx)
{
select_item(m_objects_model->Delete(m_objects_model->GetItemByInstanceId(obj_idx, inst_idx)));
}
void ObjectList::delete_from_model_and_list(const ItemType type, const int obj_idx, const int sub_obj_idx)
{
if ( !(type&(itObject|itVolume|itInstance)) )
return;
if (type&itObject) {
del_object(obj_idx);
delete_object_from_list(obj_idx);
}
else {
del_subobject_from_object(obj_idx, sub_obj_idx, type);
type == itVolume ? delete_volume_from_list(obj_idx, sub_obj_idx) :
delete_instance_from_list(obj_idx, sub_obj_idx);
}
}
void ObjectList::delete_from_model_and_list(const std::vector<ItemForDelete>& items_for_delete)
{
if (items_for_delete.empty())
return;
for (std::vector<ItemForDelete>::const_reverse_iterator item = items_for_delete.rbegin(); item != items_for_delete.rend(); ++item)
{
if (!(item->type&(itObject | itVolume | itInstance)))
continue;
if (item->type&itObject) {
del_object(item->obj_idx);
m_objects_model->Delete(m_objects_model->GetItemById(item->obj_idx));
}
else {
if (!del_subobject_from_object(item->obj_idx, item->sub_obj_idx, item->type))
continue;
if (item->type&itVolume)
{
m_objects_model->Delete(m_objects_model->GetItemByVolumeId(item->obj_idx, item->sub_obj_idx));
if ((*m_objects)[item->obj_idx]->volumes.size() == 1 &&
(*m_objects)[item->obj_idx]->config.has("extruder"))
{
const wxString extruder = wxString::Format("%d", (*m_objects)[item->obj_idx]->config.option<ConfigOptionInt>("extruder")->value);
m_objects_model->SetValue(extruder, m_objects_model->GetItemById(item->obj_idx), 1);
}
wxGetApp().plater()->canvas3D()->ensure_on_bed(item->obj_idx);
}
else
m_objects_model->Delete(m_objects_model->GetItemByInstanceId(item->obj_idx, item->sub_obj_idx));
}
}
part_selection_changed();
}
void ObjectList::delete_all_objects_from_list()
{
m_objects_model->DeleteAll();
part_selection_changed();
}
void ObjectList::increase_object_instances(const size_t obj_idx, const size_t num)
{
select_item(m_objects_model->AddInstanceChild(m_objects_model->GetItemById(obj_idx), num));
}
void ObjectList::decrease_object_instances(const size_t obj_idx, const size_t num)
{
select_item(m_objects_model->DeleteLastInstance(m_objects_model->GetItemById(obj_idx), num));
}
void ObjectList::unselect_objects()
{
if (!GetSelection())
return;
m_prevent_list_events = true;
UnselectAll();
part_selection_changed();
m_prevent_list_events = false;
}
void ObjectList::select_current_object(int idx)
{
m_prevent_list_events = true;
UnselectAll();
if (idx >= 0)
Select(m_objects_model->GetItemById(idx));
part_selection_changed();
m_prevent_list_events = false;
}
void ObjectList::select_current_volume(int idx, int vol_idx)
{
if (vol_idx < 0) {
select_current_object(idx);
return;
}
m_prevent_list_events = true;
UnselectAll();
if (idx >= 0)
Select(m_objects_model->GetItemByVolumeId(idx, vol_idx));
part_selection_changed();
m_prevent_list_events = false;
}
void ObjectList::remove()
{
if (GetSelectedItemsCount() == 0)
return;
wxDataViewItemArray sels;
GetSelections(sels);
for (auto& item : sels)
{
if (m_objects_model->GetParent(item) == wxDataViewItem(0))
delete_from_model_and_list(itObject, m_objects_model->GetIdByItem(item), -1);
else
del_subobject_item(item);
}
}
void ObjectList::init_objects()
{
m_objects = wxGetApp().model_objects();
}
bool ObjectList::multiple_selection() const
{
return GetSelectedItemsCount() > 1;
}
void ObjectList::update_selections()
{
const GLCanvas3D::Selection& selection = wxGetApp().plater()->canvas3D()->get_selection();
wxDataViewItemArray sels;
// We doesn't update selection if SettingsItem for the current object/part is selected
if (GetSelectedItemsCount() == 1 && m_objects_model->GetItemType(GetSelection()) == itSettings )
{
const auto item = GetSelection();
if (selection.is_single_full_object() &&
m_objects_model->GetIdByItem(m_objects_model->GetParent(item)) == selection.get_object_idx())
return;
if (selection.is_single_volume() || selection.is_modifier()) {
const auto gl_vol = selection.get_volume(*selection.get_volume_idxs().begin());
if (m_objects_model->GetVolumeIdByItem(m_objects_model->GetParent(item)) == gl_vol->volume_idx())
return;
}
}
if (selection.is_single_full_object())
{
sels.Add(m_objects_model->GetItemById(selection.get_object_idx()));
}
else if (selection.is_single_volume() || selection.is_modifier() ||
selection.is_multiple_volume() || selection.is_multiple_full_object()) {
for (auto idx : selection.get_volume_idxs()) {
const auto gl_vol = selection.get_volume(idx);
if (selection.is_multiple_full_object())
sels.Add(m_objects_model->GetItemById(gl_vol->object_idx()));
else if (gl_vol->volume_idx() >= 0)
// Only add GLVolumes with non-negative volume_ids. GLVolumes with negative volume ids
// are not associated with ModelVolumes, but they are temporarily generated by the backend
// (for example, SLA supports or SLA pad).
sels.Add(m_objects_model->GetItemByVolumeId(gl_vol->object_idx(), gl_vol->volume_idx()));
}
}
else if (selection.is_single_full_instance() || selection.is_multiple_full_instance()) {
for (auto idx : selection.get_instance_idxs()) {
sels.Add(m_objects_model->GetItemByInstanceId(selection.get_object_idx(), idx));
}
}
else if (selection.is_mixed())
{
auto& objects_content_list = selection.get_content();
for (auto idx : selection.get_volume_idxs()) {
const auto gl_vol = selection.get_volume(idx);
const auto& glv_obj_idx = gl_vol->object_idx();
const auto& glv_ins_idx = gl_vol->instance_idx();
bool is_selected = false;
for (auto obj_ins : objects_content_list) {
if (obj_ins.first == glv_obj_idx) {
if (obj_ins.second.find(glv_ins_idx) != obj_ins.second.end()) {
if (glv_ins_idx == 0 && (*m_objects)[glv_obj_idx]->instances.size() == 1)
sels.Add(m_objects_model->GetItemById(glv_obj_idx));
else
sels.Add(m_objects_model->GetItemByInstanceId(glv_obj_idx, glv_ins_idx));
is_selected = true;
break;
}
}
}
if (is_selected)
continue;
const auto& glv_vol_idx = gl_vol->volume_idx();
if (glv_vol_idx == 0 && (*m_objects)[glv_obj_idx]->volumes.size() == 1)
sels.Add(m_objects_model->GetItemById(glv_obj_idx));
else
sels.Add(m_objects_model->GetItemByVolumeId(glv_obj_idx, glv_vol_idx));
}
}
select_items(sels);
/* Because of ScrollLines() and GetItemRect() functions are implemented
* only for GENERIC DataViewCtrl in current version of wxWidgets,
* use this part of code only for MSW
*/
#if defined(wxUSE_GENERICDATAVIEWCTRL)
// Scroll selected Item in the middle of an object list
if (GetSelection()) {
const wxRect& sel_rc = GetItemRect(GetSelection());
const wxRect& main_rc = GetClientRect();
if (sel_rc.GetBottom() <= main_rc.GetTop()+sel_rc.height ||
sel_rc.GetTop() >= main_rc.GetBottom() )
{
const wxRect& top_rc = GetItemRect(GetTopItem());
ScrollLines(int((sel_rc.y - top_rc.y) / top_rc.GetHeight()) - 0.5*GetCountPerPage());
}
}
#endif
}
void ObjectList::update_selections_on_canvas()
{
GLCanvas3D::Selection& selection = wxGetApp().plater()->canvas3D()->get_selection();
const int sel_cnt = GetSelectedItemsCount();
if (sel_cnt == 0) {
selection.clear();
wxGetApp().plater()->canvas3D()->update_gizmos_on_off_state();
return;
}
auto add_to_selection = [this](const wxDataViewItem& item, GLCanvas3D::Selection& selection, bool as_single_selection)
{
if (m_objects_model->GetParent(item) == wxDataViewItem(0)) {
selection.add_object(m_objects_model->GetIdByItem(item), as_single_selection);
return;
}
if (m_objects_model->GetItemType(item) == itVolume) {
const int obj_idx = m_objects_model->GetIdByItem(m_objects_model->GetParent(item));
const int vol_idx = m_objects_model->GetVolumeIdByItem(item);
selection.add_volume(obj_idx, vol_idx, 0, as_single_selection);
}
else if (m_objects_model->GetItemType(item) == itInstance) {
const int obj_idx = m_objects_model->GetIdByItem(m_objects_model->GetTopParent(item));
const int inst_idx = m_objects_model->GetInstanceIdByItem(item);
selection.add_instance(obj_idx, inst_idx, as_single_selection);
}
};
if (sel_cnt == 1) {
wxDataViewItem item = GetSelection();
if (m_objects_model->GetItemType(item) & (itSettings|itInstanceRoot))
add_to_selection(m_objects_model->GetParent(item), selection, true);
else
add_to_selection(item, selection, true);
wxGetApp().plater()->canvas3D()->update_gizmos_on_off_state();
return;
}
wxDataViewItemArray sels;
GetSelections(sels);
selection.clear();
for (auto item: sels)
add_to_selection(item, selection, false);
wxGetApp().plater()->canvas3D()->update_gizmos_on_off_state();
}
void ObjectList::select_item(const wxDataViewItem& item)
{
m_prevent_list_events = true;
UnselectAll();
Select(item);
part_selection_changed();
m_prevent_list_events = false;
}
void ObjectList::select_items(const wxDataViewItemArray& sels)
{
m_prevent_list_events = true;
UnselectAll();
SetSelections(sels);
part_selection_changed();
m_prevent_list_events = false;
}
void ObjectList::select_all()
{
SelectAll();
selection_changed();
}
void ObjectList::select_item_all_children()
{
wxDataViewItemArray sels;
// There is no selection before OR some object is selected => select all objects
if (!GetSelection() || m_objects_model->GetItemType(GetSelection()) == itObject) {
for (int i = 0; i < m_objects->size(); i++)
sels.Add(m_objects_model->GetItemById(i));
}
else {
const auto item = GetSelection();
// Some volume(instance) is selected => select all volumes(instances) inside the current object
if (m_objects_model->GetItemType(item) & (itVolume | itInstance)) {
m_objects_model->GetChildren(m_objects_model->GetParent(item), sels);
}
}
SetSelections(sels);
selection_changed();
}
void ObjectList::fix_multiselection_conflicts()
{
if (GetSelectedItemsCount() <= 1)
return;
m_prevent_list_events = true;
wxDataViewItemArray sels;
GetSelections(sels);
for (auto item : sels) {
if (m_objects_model->GetItemType(item) & (itSettings|itInstanceRoot))
Unselect(item);
else if (m_objects_model->GetParent(item) != wxDataViewItem(0))
Unselect(m_objects_model->GetParent(item));
}
m_prevent_list_events = false;
}
ModelVolume* ObjectList::get_selected_model_volume()
{
auto item = GetSelection();
if (!item || m_objects_model->GetItemType(item) != itVolume)
return nullptr;
const auto vol_idx = m_objects_model->GetVolumeIdByItem(item);
const auto obj_idx = get_selected_obj_idx();
if (vol_idx < 0 || obj_idx < 0)
return nullptr;
return (*m_objects)[obj_idx]->volumes[vol_idx];
}
void ObjectList::change_part_type()
{
ModelVolume* volume = get_selected_model_volume();
if (!volume)
return;
const ModelVolumeType type = volume->type();
if (type == ModelVolumeType::MODEL_PART)
{
const int obj_idx = get_selected_obj_idx();
if (obj_idx < 0) return;
int model_part_cnt = 0;
for (auto vol : (*m_objects)[obj_idx]->volumes) {
if (vol->type() == ModelVolumeType::MODEL_PART)
++model_part_cnt;
}
if (model_part_cnt == 1) {
Slic3r::GUI::show_error(nullptr, _(L("You can't change a type of the last solid part of the object.")));
return;
}
}
const wxString names[] = { "Part", "Modifier", "Support Enforcer", "Support Blocker" };
auto new_type = ModelVolumeType(wxGetSingleChoiceIndex("Type: ", _(L("Select type of part")), wxArrayString(4, names), int(type)));
if (new_type == type || new_type == ModelVolumeType::INVALID)
return;
const auto item = GetSelection();
volume->set_type(new_type);
m_objects_model->SetVolumeType(item, new_type);
m_parts_changed = true;
parts_changed(get_selected_obj_idx());
// Update settings showing, if we have it
//(we show additional settings for Part and Modifier and hide it for Support Blocker/Enforcer)
const auto settings_item = m_objects_model->GetSettingsItem(item);
if (settings_item &&
(new_type == ModelVolumeType::SUPPORT_ENFORCER || new_type == ModelVolumeType::SUPPORT_BLOCKER)) {
m_objects_model->Delete(settings_item);
}
else if (!settings_item &&
(new_type == ModelVolumeType::MODEL_PART || new_type == ModelVolumeType::PARAMETER_MODIFIER)) {
select_item(m_objects_model->AddSettingsChild(item));
}
}
void ObjectList::last_volume_is_deleted(const int obj_idx)
{
if (obj_idx < 0 || m_objects->empty() ||
obj_idx <= m_objects->size() ||
(*m_objects)[obj_idx]->volumes.empty())
return;
auto volume = (*m_objects)[obj_idx]->volumes[0];
// clear volume's config values
volume->config.clear();
// set a default extruder value, since user can't add it manually
volume->config.set_key_value("extruder", new ConfigOptionInt(0));
}
bool ObjectList::has_multi_part_objects()
{
if (!m_objects_model->IsEmpty()) {
wxDataViewItemArray items;
m_objects_model->GetChildren(wxDataViewItem(0), items);
for (auto& item : items)
if (m_objects_model->GetItemByType(item, itVolume))
return true;
}
return false;
}
void ObjectList::update_settings_items()
{
m_prevent_canvas_selection_update = true;
wxDataViewItemArray sel;
GetSelections(sel); // stash selection
wxDataViewItemArray items;
m_objects_model->GetChildren(wxDataViewItem(0), items);
for (auto& item : items) {
const wxDataViewItem& settings_item = m_objects_model->GetSettingsItem(item);
select_item(settings_item ? settings_item : m_objects_model->AddSettingsChild(item));
// If settings item was deleted from the list,
// it's need to be deleted from selection array, if it was there
if (settings_item != m_objects_model->GetSettingsItem(item) &&
sel.Index(settings_item) != wxNOT_FOUND) {
sel.Remove(settings_item);
}
}
// restore selection:
SetSelections(sel);
m_prevent_canvas_selection_update = false;
}
void ObjectList::update_object_menu()
{
append_menu_items_add_volume(&m_menu_object);
}
void ObjectList::instances_to_separated_object(const int obj_idx, const std::set<int>& inst_idxs)
{
// create new object from selected instance
ModelObject* model_object = (*m_objects)[obj_idx]->get_model()->add_object(*(*m_objects)[obj_idx]);
for (int inst_idx = model_object->instances.size() - 1; inst_idx >= 0; inst_idx--)
{
if (find(inst_idxs.begin(), inst_idxs.end(), inst_idx) != inst_idxs.end())
continue;
model_object->delete_instance(inst_idx);
}
// Add new object to the object_list
add_object_to_list(m_objects->size() - 1);
for (std::set<int>::const_reverse_iterator it = inst_idxs.rbegin(); it != inst_idxs.rend(); ++it)
{
// delete selected instance from the object
del_subobject_from_object(obj_idx, *it, itInstance);
delete_instance_from_list(obj_idx, *it);
}
}
void ObjectList::split_instances()
{
const GLCanvas3D::Selection& selection = wxGetApp().plater()->canvas3D()->get_selection();
const int obj_idx = selection.get_object_idx();
if (obj_idx == -1)
return;
const int inst_idx = selection.get_instance_idx();
const std::set<int> inst_idxs = inst_idx < 0 ?
selection.get_instance_idxs() :
std::set<int>{ inst_idx };
instances_to_separated_object(obj_idx, inst_idxs);
}
void ObjectList::rename_item()
{
const wxDataViewItem item = GetSelection();
if (!item || !(m_objects_model->GetItemType(item) & (itVolume | itObject)))
return ;
const wxString new_name = wxGetTextFromUser(_(L("Enter new name"))+":", _(L("Renaming")),
m_objects_model->GetName(item), this);
if (new_name.IsEmpty())
return;
bool is_unusable_symbol = false;
std::string chosen_name = Slic3r::normalize_utf8_nfc(new_name.ToUTF8());
const char* unusable_symbols = "<>:/\\|?*\"";
for (size_t i = 0; i < std::strlen(unusable_symbols); i++) {
if (chosen_name.find_first_of(unusable_symbols[i]) != std::string::npos) {
is_unusable_symbol = true;
}
}
if (is_unusable_symbol) {
show_error(this, _(L("The supplied name is not valid;")) + "\n" +
_(L("the following characters are not allowed:")) + " <>:/\\|?*\"");
return;
}
// The icon can't be edited so get its old value and reuse it.
wxVariant valueOld;
m_objects_model->GetValue(valueOld, item, 0);
PrusaDataViewBitmapText bmpText;
bmpText << valueOld;
// But replace the text with the value entered by user.
bmpText.SetText(new_name);
wxVariant value;
value << bmpText;
m_objects_model->SetValue(value, item, 0);
m_objects_model->ItemChanged(item);
update_name_in_model(item);
}
void ObjectList::fix_through_netfabb() const
{
const wxDataViewItem item = GetSelection();
if (!item)
return;
const ItemType type = m_objects_model->GetItemType(item);
const int obj_idx = type & itObject ? m_objects_model->GetIdByItem(item) :
type & itVolume ? m_objects_model->GetIdByItem(m_objects_model->GetTopParent(item)) : -1;
const int vol_idx = type & itVolume ? m_objects_model->GetVolumeIdByItem(item) : -1;
wxGetApp().plater()->fix_through_netfabb(obj_idx, vol_idx);
update_item_error_icon(obj_idx, vol_idx);
}
void ObjectList::update_item_error_icon(const int obj_idx, const int vol_idx) const
{
const wxDataViewItem item = vol_idx <0 ? m_objects_model->GetItemById(obj_idx) :
m_objects_model->GetItemByVolumeId(obj_idx, vol_idx);
if (!item)
return;
auto model_object = (*m_objects)[obj_idx];
const stl_stats& stats = model_object->volumes[vol_idx<0 ? 0 : vol_idx]->mesh.stl.stats;
const int errors = stats.degenerate_facets + stats.edges_fixed + stats.facets_removed +
stats.facets_added + stats.facets_reversed + stats.backwards_edges;
if (errors == 0) {
// delete Error_icon if all errors are fixed
wxVariant variant;
variant << PrusaDataViewBitmapText(from_u8(model_object->name), wxNullBitmap);
m_objects_model->SetValue(variant, item, 0);
}
}
void ObjectList::ItemValueChanged(wxDataViewEvent &event)
{
if (event.GetColumn() == 0)
update_name_in_model(event.GetItem());
else if (event.GetColumn() == 1)
update_extruder_in_config(event.GetItem());
}
void ObjectList::OnEditingDone(wxDataViewEvent &event)
{
if (event.GetColumn() != 0)
return;
const auto renderer = dynamic_cast<PrusaBitmapTextRenderer*>(GetColumn(0)->GetRenderer());
if (renderer->WasCanceled())
show_error(this, _(L("The supplied name is not valid;")) + "\n" +
_(L("the following characters are not allowed:")) + " <>:/\\|?*\"");
}
void ObjectList::show_extruder_selection_menu()
{
wxDataViewItemArray sels;
GetSelections(sels);
for (const wxDataViewItem& item : sels)
if (!(m_objects_model->GetItemType(item) & (itVolume | itObject)))
// show this menu only for Object(s)/Volume(s) selection
return;
wxMenu* menu = new wxMenu();
append_menu_item(menu, wxID_ANY, _(L("Set extruder for selected items")),
_(L("Select extruder number for selected objects and/or parts")),
[this](wxCommandEvent&) { extruder_selection(); }, "", menu);
PopupMenu(menu);
}
void ObjectList::extruder_selection()
{
wxArrayString choices;
choices.Add("default");
for (int i = 1; i <= extruders_count(); ++i)
choices.Add(wxString::Format("%d", i));
const wxString& selected_extruder = wxGetSingleChoice(_(L("Select extruder number:")),
_(L("This extruder will be set for selected items")),
choices, 0, this);
if (selected_extruder.IsEmpty())
return;
const int extruder_num = selected_extruder == "default" ? 0 : atoi(selected_extruder.c_str());
// /* Another variant for an extruder selection */
// extruder_num = wxGetNumberFromUser(_(L("Attention!!! \n"
// "It's a possibile to set an extruder number \n"
// "for whole Object(s) and/or object Part(s), \n"
// "not for an Instance. ")),
// _(L("Enter extruder number:")),
// _(L("This extruder will be set for selected items")),
// 1, 1, 5, this);
set_extruder_for_selected_items(extruder_num);
}
void ObjectList::set_extruder_for_selected_items(const int extruder) const
{
wxDataViewItemArray sels;
GetSelections(sels);
for (const wxDataViewItem& item : sels)
{
const ItemType type = m_objects_model->GetItemType(item);
const int obj_idx = type & itObject ? m_objects_model->GetIdByItem(item) :
m_objects_model->GetIdByItem(m_objects_model->GetTopParent(item));
const int vol_idx = type & itVolume ? m_objects_model->GetVolumeIdByItem(item) : -1;
DynamicPrintConfig& config = type & itObject ? (*m_objects)[obj_idx]->config :
(*m_objects)[obj_idx]->volumes[vol_idx]->config;
if (config.has("extruder")) {
if (extruder == 0)
config.erase("extruder");
else
config.option<ConfigOptionInt>("extruder")->value = extruder;
}
else if (extruder > 0)
config.set_key_value("extruder", new ConfigOptionInt(extruder));
const wxString extruder_str = extruder == 0 ? wxString ("default") :
wxString::Format("%d", config.option<ConfigOptionInt>("extruder")->value);
m_objects_model->SetValue(extruder_str, item, 1);
wxGetApp().plater()->canvas3D()->ensure_on_bed(obj_idx);
}
// update scene
wxGetApp().plater()->update();
}
} //namespace GUI
} //namespace Slic3r