caojiawei
/
BambuStudio
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
BambuStudio/slic3r/GUI/GUI_Preview.cpp

871 lines
28 KiB
C++
Raw Normal View History

初始化
2024-12-20 06:44:50 +00:00
//#include "stdlib.h"
#include "libslic3r/libslic3r.h"
#include "libslic3r/Layer.hpp"
#include "IMSlider.hpp"
#include "IMSlider_Utils.hpp"
#include "GUI_Preview.hpp"
#include "GUI_App.hpp"
#include "GUI.hpp"
#include "I18N.hpp"
#include "3DScene.hpp"
#include "BackgroundSlicingProcess.hpp"
#include "OpenGLManager.hpp"
#include "GLCanvas3D.hpp"
#include "libslic3r/PresetBundle.hpp"
#include "Plater.hpp"
#include "MainFrame.hpp"
#include "format.hpp"
#include <wx/listbook.h>
#include <wx/notebook.h>
#include <wx/glcanvas.h>
#include <wx/sizer.h>
#include <wx/stattext.h>
#include <wx/choice.h>
#include <wx/combo.h>
#include <wx/combobox.h>
#include <wx/checkbox.h>
// this include must follow the wxWidgets ones or it won't compile on Windows -> see http://trac.wxwidgets.org/ticket/2421
#include "libslic3r/Print.hpp"
#include "libslic3r/SLAPrint.hpp"
#include "NotificationManager.hpp"
#ifdef _WIN32
#include "BitmapComboBox.hpp"
#endif
namespace Slic3r {
namespace GUI {
View3D::View3D(wxWindow* parent, Bed3D& bed, Model* model, DynamicPrintConfig* config, BackgroundSlicingProcess* process)
: m_canvas_widget(nullptr)
, m_canvas(nullptr)
{
init(parent, bed, model, config, process);
}
View3D::~View3D()
{
delete m_canvas;
delete m_canvas_widget;
}
bool View3D::init(wxWindow* parent, Bed3D& bed, Model* model, DynamicPrintConfig* config, BackgroundSlicingProcess* process)
{
if (!Create(parent, wxID_ANY, wxDefaultPosition, wxDefaultSize, 0 /* disable wxTAB_TRAVERSAL */))
return false;
m_canvas_widget = OpenGLManager::create_wxglcanvas(*this);
if (m_canvas_widget == nullptr)
return false;
m_canvas = new GLCanvas3D(m_canvas_widget, bed);
m_canvas->set_context(wxGetApp().init_glcontext(*m_canvas_widget));
m_canvas->allow_multisample(OpenGLManager::can_multisample());
// XXX: If have OpenGL
m_canvas->enable_picking(true);
m_canvas->enable_moving(true);
// XXX: more config from 3D.pm
m_canvas->set_model(model);
m_canvas->set_process(process);
m_canvas->set_type(GLCanvas3D::ECanvasType::CanvasView3D);
m_canvas->set_config(config);
m_canvas->enable_gizmos(true);
m_canvas->enable_selection(true);
m_canvas->enable_main_toolbar(true);
m_canvas->enable_return_toolbar(true);
//BBS: GUI refactor: GLToolbar
m_canvas->enable_select_plate_toolbar(false);
m_canvas->enable_assemble_view_toolbar(true);
m_canvas->enable_separator_toolbar(true);
m_canvas->enable_labels(true);
m_canvas->enable_slope(true);
wxBoxSizer* main_sizer = new wxBoxSizer(wxVERTICAL);
main_sizer->Add(m_canvas_widget, 1, wxALL | wxEXPAND, 0);
SetSizer(main_sizer);
SetMinSize(GetSize());
GetSizer()->SetSizeHints(this);
return true;
}
void View3D::set_as_dirty()
{
if (m_canvas != nullptr) {
m_canvas->set_as_dirty();
}
}
void View3D::bed_shape_changed()
{
if (m_canvas != nullptr)
m_canvas->bed_shape_changed();
}
void View3D::plates_count_changed()
{
if (m_canvas != nullptr)
m_canvas->plates_count_changed();
}
void View3D::select_view(const std::string& direction)
{
if (m_canvas != nullptr)
m_canvas->select_view(direction);
}
//BBS
void View3D::select_curr_plate_all()
{
if (m_canvas != nullptr)
m_canvas->select_curr_plate_all();
}
void View3D::select_object_from_idx(std::vector<int>& object_idxs) {
if (m_canvas != nullptr)
m_canvas->select_object_from_idx(object_idxs);
}
//BBS
void View3D::remove_curr_plate_all()
{
if (m_canvas != nullptr)
m_canvas->remove_curr_plate_all();
}
void View3D::select_all()
{
if (m_canvas != nullptr)
m_canvas->select_all();
}
void View3D::deselect_all()
{
if (m_canvas != nullptr)
m_canvas->deselect_all();
}
void View3D::exit_gizmo()
{
if (m_canvas != nullptr)
m_canvas->exit_gizmo();
}
void View3D::delete_selected()
{
if (m_canvas != nullptr)
m_canvas->delete_selected();
}
void View3D::center_selected()
{
if (m_canvas != nullptr)
m_canvas->do_center();
}
void View3D::center_selected_plate(const int plate_idx) {
if (m_canvas != nullptr)
m_canvas->do_center_plate(plate_idx);
}
void View3D::mirror_selection(Axis axis)
{
if (m_canvas != nullptr)
m_canvas->mirror_selection(axis);
}
bool View3D::is_layers_editing_enabled() const
{
return (m_canvas != nullptr) ? m_canvas->is_layers_editing_enabled() : false;
}
bool View3D::is_layers_editing_allowed() const
{
return (m_canvas != nullptr) ? m_canvas->is_layers_editing_allowed() : false;
}
void View3D::enable_layers_editing(bool enable)
{
if (m_canvas != nullptr)
m_canvas->enable_layers_editing(enable);
}
bool View3D::is_dragging() const
{
return (m_canvas != nullptr) ? m_canvas->is_dragging() : false;
}
bool View3D::is_reload_delayed() const
{
return (m_canvas != nullptr) ? m_canvas->is_reload_delayed() : false;
}
void View3D::reload_scene(bool refresh_immediately, bool force_full_scene_refresh)
{
if (m_canvas != nullptr)
m_canvas->reload_scene(refresh_immediately, force_full_scene_refresh);
}
void View3D::render()
{
if (m_canvas != nullptr)
//m_canvas->render();
m_canvas->set_as_dirty();
}
Preview::Preview(
wxWindow* parent, Bed3D& bed, Model* model, DynamicPrintConfig* config,
BackgroundSlicingProcess* process, GCodeProcessorResult* gcode_result, std::function<void()> schedule_background_process_func)
: m_config(config)
, m_process(process)
, m_gcode_result(gcode_result)
, m_schedule_background_process(schedule_background_process_func)
{
if (init(parent, bed, model))
load_print();
}
void Preview::update_gcode_result(GCodeProcessorResult* gcode_result)
{
m_gcode_result = gcode_result;
return;
}
bool Preview::init(wxWindow* parent, Bed3D& bed, Model* model)
{
if (!Create(parent, wxID_ANY, wxDefaultPosition, wxDefaultSize, 0 /* disable wxTAB_TRAVERSAL */))
return false;
// to match the background of the sliders
#ifdef _WIN32
wxGetApp().UpdateDarkUI(this);
#else
SetBackgroundColour(GetParent()->GetBackgroundColour());
#endif // _WIN32
m_canvas_widget = OpenGLManager::create_wxglcanvas(*this);
if (m_canvas_widget == nullptr)
return false;
m_canvas = new GLCanvas3D(m_canvas_widget, bed);
m_canvas->set_context(wxGetApp().init_glcontext(*m_canvas_widget));
m_canvas->allow_multisample(OpenGLManager::can_multisample());
m_canvas->set_config(m_config);
m_canvas->set_model(model);
m_canvas->set_process(m_process);
m_canvas->set_type(GLCanvas3D::ECanvasType::CanvasPreview);
m_canvas->enable_legend_texture(true);
m_canvas->enable_dynamic_background(true);
//BBS: GUI refactor: GLToolbar
if (wxGetApp().is_editor()) {
m_canvas->enable_select_plate_toolbar(true);
}
m_canvas->enable_assemble_view_toolbar(false);
// sizer, m_canvas_widget
m_canvas_widget->Bind(wxEVT_KEY_DOWN, &Preview::update_layers_slider_from_canvas, this);
wxBoxSizer *main_sizer = new wxBoxSizer(wxVERTICAL);
main_sizer->Add(m_canvas_widget, 1, wxALL | wxEXPAND, 0);
SetSizer(main_sizer);
SetMinSize(GetSize());
GetSizer()->SetSizeHints(this);
bind_event_handlers();
return true;
}
Preview::~Preview()
{
unbind_event_handlers();
if (m_canvas != nullptr)
delete m_canvas;
if (m_canvas_widget != nullptr)
delete m_canvas_widget;
}
void Preview::set_as_dirty()
{
if (m_canvas != nullptr)
m_canvas->set_as_dirty();
}
void Preview::bed_shape_changed()
{
if (m_canvas != nullptr)
m_canvas->bed_shape_changed();
}
void Preview::select_view(const std::string& direction)
{
m_canvas->select_view(direction);
}
void Preview::set_drop_target(wxDropTarget* target)
{
if (target != nullptr)
SetDropTarget(target);
}
//BBS: add only gcode mode
void Preview::load_print(bool keep_z_range, bool only_gcode)
{
PrinterTechnology tech = m_process->current_printer_technology();
if (tech == ptFFF)
load_print_as_fff(keep_z_range, only_gcode);
Layout();
}
//BBS: add only gcode mode
void Preview::reload_print(bool keep_volumes, bool only_gcode)
{
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: enter, keep_volumes %2%")%__LINE__ %keep_volumes;
#ifdef __linux__
// We are getting mysterious crashes on Linux in gtk due to OpenGL context activation GH #1874 #1955.
// So we are applying a workaround here: a delayed release of OpenGL vertex buffers.
if (!IsShown())
{
m_volumes_cleanup_required = !keep_volumes;
return;
}
#endif /* __linux__ */
if (
#ifdef __linux__
m_volumes_cleanup_required ||
#endif /* __linux__ */
!keep_volumes)
{
m_canvas->reset_volumes();
//BBS: add m_loaded_print logic
//m_loaded = false;
m_loaded_print = nullptr;
#ifdef __linux__
m_volumes_cleanup_required = false;
#endif /* __linux__ */
}
load_print(false, only_gcode);
m_only_gcode = only_gcode;
}
//BBS: add only gcode mode
void Preview::refresh_print()
{
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: enter, current m_loaded_print %2%")%__LINE__ %m_loaded_print;
//BBS: add m_loaded_print logic
//m_loaded = false;
m_loaded_print = nullptr;
if (!IsShown())
return;
load_print(true, m_only_gcode);
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: exit")%__LINE__;
}
//BBS: always load shell at preview
void Preview::load_shells(const Print& print, bool force_previewing)
{
m_canvas->load_shells(print, force_previewing);
}
//BBS: always load shell at preview
void Preview::reset_shells()
{
m_canvas->reset_shells();
}
void Preview::msw_rescale()
{
// rescale warning legend on the canvas
get_canvas3d()->msw_rescale();
// rescale legend
refresh_print();
}
void Preview::sys_color_changed()
{
//TODO
// m_layers_slider->sys_color_changed();
}
void Preview::on_tick_changed(Type type)
{
//if (type == Type::PausePrint) {
// m_schedule_background_process();
//}
m_keep_current_preview_type = false;
reload_print(false);
}
void Preview::bind_event_handlers()
{
this->Bind(wxEVT_SIZE, &Preview::on_size, this);
}
void Preview::unbind_event_handlers()
{
this->Unbind(wxEVT_SIZE, &Preview::on_size, this);
}
void Preview::show_sliders(bool show)
{
show_moves_sliders(show);
show_layers_sliders(show);
}
void Preview::show_moves_sliders(bool show)
{
;//TODO
}
void Preview::show_layers_sliders(bool show)
{
;//TODO
}
void Preview::on_size(wxSizeEvent& evt)
{
evt.Skip();
Refresh();
}
void Preview::check_layers_slider_values(std::vector<CustomGCode::Item>& ticks_from_model, const std::vector<double>& layers_z)
{
// All ticks that would end up outside the slider range should be erased.
// TODO: this should be placed into more appropriate part of code,
// this function is e.g. not called when the last object is deleted
unsigned int old_size = ticks_from_model.size();
ticks_from_model.erase(std::remove_if(ticks_from_model.begin(), ticks_from_model.end(),
[layers_z](CustomGCode::Item val)
{
auto it = std::lower_bound(layers_z.begin(), layers_z.end(), val.print_z - epsilon());
return it == layers_z.end();
}),
ticks_from_model.end());
if (ticks_from_model.size() != old_size)
m_schedule_background_process();
}
// Find an index of a value in a sorted vector, which is in <z-eps, z+eps>.
// Returns -1 if there is no such member.
static int find_close_layer_idx(const std::vector<double> &zs, double &z, double eps)
{
if (zs.empty()) return -1;
auto it_h = std::lower_bound(zs.begin(), zs.end(), z);
if (it_h == zs.end()) {
auto it_l = it_h;
--it_l;
if (z - *it_l < eps) return int(zs.size() - 1);
} else if (it_h == zs.begin()) {
if (*it_h - z < eps) return 0;
} else {
auto it_l = it_h;
--it_l;
double dist_l = z - *it_l;
double dist_h = *it_h - z;
if (std::min(dist_l, dist_h) < eps) { return (dist_l < dist_h) ? int(it_l - zs.begin()) : int(it_h - zs.begin()); }
}
return -1;
}
void Preview::update_layers_slider_mode()
{
// true -> single-extruder printer profile OR
// multi-extruder printer profile , but whole model is printed by only one extruder
// false -> multi-extruder printer profile , and model is printed by several extruders
bool one_extruder_printed_model = true;
bool can_change_color = true;
// extruder used for whole model for multi-extruder printer profile
int only_extruder = -1;
// BBS
if (wxGetApp().filaments_cnt() > 1) {
//const ModelObjectPtrs& objects = wxGetApp().plater()->model().objects;
auto plate_extruders = wxGetApp().plater()->get_partplate_list().get_curr_plate()->get_extruders_without_support();
for (auto extruder : plate_extruders) {
if (extruder != plate_extruders[0])
can_change_color = false;
}
// check if whole model uses just only one extruder
if (!plate_extruders.empty()) {
//const int extruder = objects[0]->config.has("extruder") ? objects[0]->config.option("extruder")->getInt() : 0;
only_extruder = plate_extruders[0];
// auto is_one_extruder_printed_model = [objects, extruder]() {
// for (ModelObject *object : objects) {
// if (object->config.has("extruder") && object->config.option("extruder")->getInt() != extruder) /*return false*/;
// for (ModelVolume *volume : object->volumes)
// if ((volume->config.has("extruder") && volume->config.option("extruder")->getInt() != extruder) || !volume->mmu_segmentation_facets.empty()) return false;
// for (const auto &range : object->layer_config_ranges)
// if (range.second.has("extruder") && range.second.option("extruder")->getInt() != extruder) return false;
// }
// return true;
// };
// if (is_one_extruder_printed_model())
// only_extruder = extruder;
// else
// one_extruder_printed_model = false;
}
}
IMSlider *m_layers_slider = m_canvas->get_gcode_viewer().get_layers_slider();
m_layers_slider->SetModeAndOnlyExtruder(one_extruder_printed_model, only_extruder, can_change_color);
}
void Preview::update_layers_slider_from_canvas(wxKeyEvent &event)
{
if (event.HasModifiers()) {
event.Skip();
return;
}
const auto key = event.GetKeyCode();
IMSlider *m_layers_slider = m_canvas->get_gcode_viewer().get_layers_slider();
IMSlider *m_moves_slider = m_canvas->get_gcode_viewer().get_moves_slider();
if (key == 'L') {
if(!m_layers_slider->switch_one_layer_mode())
event.Skip();
m_canvas->set_as_dirty();
}
/*else if (key == WXK_SHIFT)
m_layers_slider->UseDefaultColors(false);*/
else
event.Skip();
}
void Preview::update_layers_slider(const std::vector<double>& layers_z, bool keep_z_range)
{
IMSlider *m_layers_slider = m_canvas->get_gcode_viewer().get_layers_slider();
// Save the initial slider span.
double z_low = m_layers_slider->GetLowerValueD();
double z_high = m_layers_slider->GetHigherValueD();
bool was_empty = m_layers_slider->GetMaxValue() == 0;
bool force_sliders_full_range = was_empty;
if (!keep_z_range) {
bool span_changed = layers_z.empty() || std::abs(layers_z.back() - m_layers_slider->GetMaxValueD()) > epsilon() /*1e-6*/;
force_sliders_full_range |= span_changed;
}
bool snap_to_min = force_sliders_full_range || m_layers_slider->is_lower_at_min();
bool snap_to_max = force_sliders_full_range || m_layers_slider->is_higher_at_max();
// Detect and set manipulation mode for double slider
update_layers_slider_mode();
Plater* plater = wxGetApp().plater();
//BBS: replace model custom gcode with current plate custom gcode
CustomGCode::Info ticks_info_from_curr_plate;
if (wxGetApp().is_editor())
ticks_info_from_curr_plate = plater->model().get_curr_plate_custom_gcodes();
else {
ticks_info_from_curr_plate.mode = CustomGCode::Mode::SingleExtruder;
ticks_info_from_curr_plate.gcodes = m_canvas->get_custom_gcode_per_print_z();
}
check_layers_slider_values(ticks_info_from_curr_plate.gcodes, layers_z);
// first of all update extruder colors to avoid crash, when we are switching printer preset from MM to SM
m_layers_slider->SetExtruderColors(plater->get_extruder_colors_from_plater_config(wxGetApp().is_editor() ? nullptr : m_gcode_result));
m_layers_slider->SetSliderValues(layers_z);
assert(m_layers_slider->GetMinValue() == 0);
m_layers_slider->SetMaxValue(layers_z.empty() ? 0 : layers_z.size() - 1);
int idx_low = 0;
int idx_high = m_layers_slider->GetMaxValue();
if (!layers_z.empty()) {
if (!snap_to_min) {
int idx_new = find_close_layer_idx(layers_z, z_low, epsilon() /*1e-6*/);
if (idx_new != -1) idx_low = idx_new;
}
if (!snap_to_max) {
int idx_new = find_close_layer_idx(layers_z, z_high, epsilon() /*1e-6*/);
if (idx_new != -1) idx_high = idx_new;
}
}
m_layers_slider->SetSelectionSpan(idx_low, idx_high);
auto curr_plate = wxGetApp().plater()->get_partplate_list().get_curr_plate();
auto curr_print_seq = curr_plate->get_real_print_seq();
bool sequential_print = (curr_print_seq == PrintSequence::ByObject);
m_layers_slider->SetDrawMode(sequential_print);
m_layers_slider->SetTicksValues(ticks_info_from_curr_plate);
auto print_mode_stat = m_gcode_result->print_statistics.modes.front();
m_layers_slider->SetLayersTimes(print_mode_stat.layers_times, print_mode_stat.time);
// Suggest the auto color change, if model looks like sign
if (m_layers_slider->IsNewPrint()) {
const Print &print = wxGetApp().plater()->fff_print();
// bool is_possible_auto_color_change = false;
for (auto object : print.objects()) {
double object_x = double(object->size().x());
double object_y = double(object->size().y());
// if it's sign, than object have not to be a too height
double height = object->height();
coord_t longer_side = std::max(object_x, object_y);
auto num_layers = int(object->layers().size());
if (height / longer_side > 0.3 || num_layers < 2) continue;
const ExPolygons &bottom = object->get_layer(0)->lslices;
double bottom_area = area(bottom);
// at least 25% of object's height have to be a solid
int i, min_solid_height = int(0.25 * num_layers);
for (i = 1; i <= min_solid_height; ++i) {
double cur_area = area(object->get_layer(i)->lslices);
if (!equivalent_areas(bottom_area, cur_area)) {
// but due to the elephant foot compensation, the first layer may be slightly smaller than the others
if (i == 1 && fabs(cur_area - bottom_area) / bottom_area < 0.1) {
// So, let process this case and use second layer as a bottom
bottom_area = cur_area;
continue;
}
break;
}
}
if (i < min_solid_height) continue;
}
}
}
//BBS: add only gcode mode
void Preview::load_print_as_fff(bool keep_z_range, bool only_gcode)
{
if (wxGetApp().mainframe == nullptr || wxGetApp().is_recreating_gui())
// avoid processing while mainframe is being constructed
return;
//BBS: add m_loaded_print logic
const Print *print = m_process->fff_print();
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: previous print %2%, new print %3%")%__LINE__ %m_loaded_print %print;
if ((m_loaded_print&&(m_loaded_print == print)) || m_process->current_printer_technology() != ptFFF) {
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: already loaded before, return directly")%__LINE__;
return;
}
// we require that there's at least one object and the posSlice step
// is performed on all of them(this ensures that _shifted_copies was
// populated and we know the number of layers)
bool has_layers = false;
//BBS: always load shell at preview
load_shells(*print, true);
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(" %1%: print: %2%, gcode_result %3%, check started")%__LINE__ %print %m_gcode_result;
BOOST_LOG_TRIVIAL(info) << __FUNCTION__ << boost::format(" %1%: print is step done, posSlice %2%, posSupportMaterial %3%, psGCodeExport %4%") % __LINE__ % print->is_step_done(posSlice) %print->is_step_done(posSupportMaterial) % print->is_step_done(psGCodeExport);
if (print->is_step_done(posSlice)) {
for (const PrintObject* print_object : print->objects())
if (! print_object->layers().empty()) {
has_layers = true;
break;
}
}
if (print->is_step_done(posSupportMaterial)) {
for (const PrintObject* print_object : print->objects())
if (! print_object->support_layers().empty()) {
has_layers = true;
break;
}
}
//BBS: support preview gcode directly even if no slicing
bool directly_preview = print->is_step_done(psGCodeExport) && !m_gcode_result->moves.empty();
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(": directly_preview: %1%, gcode_result moves %2%, has_layers %3%") % directly_preview % m_gcode_result->moves.size() %has_layers;
if (wxGetApp().is_editor() && !has_layers && !directly_preview) {
show_sliders(false);
m_canvas_widget->Refresh();
return;
}
//BBS: for direct preview, don't keep z range
else if (directly_preview && !has_layers)
keep_z_range = false;
GCodeViewer::EViewType gcode_view_type = m_canvas->get_gcode_view_preview_type();
bool gcode_preview_data_valid = !m_gcode_result->moves.empty();
// Collect colors per extruder.
std::vector<std::string> colors;
std::vector<CustomGCode::Item> color_print_values = {};
// set color print values, if it si selected "ColorPrint" view type
if (gcode_view_type == GCodeViewer::EViewType::ColorPrint) {
colors = wxGetApp().plater()->get_colors_for_color_print(m_gcode_result);
if (!gcode_preview_data_valid) {
if (wxGetApp().is_editor())
//BBS
color_print_values = wxGetApp().plater()->model().get_curr_plate_custom_gcodes().gcodes;
else
color_print_values = m_canvas->get_custom_gcode_per_print_z();
colors.push_back("#808080"); // gray color for pause print or custom G-code
}
}
else if (gcode_preview_data_valid || gcode_view_type == GCodeViewer::EViewType::Tool) {
colors = wxGetApp().plater()->get_extruder_colors_from_plater_config(m_gcode_result);
color_print_values.clear();
}
std::vector<double> zs;
if (IsShown()) {
m_canvas->set_selected_extruder(0);
bool is_slice_result_valid = wxGetApp().plater()->get_partplate_list().get_curr_plate()->is_slice_result_valid();
if (gcode_preview_data_valid && (is_slice_result_valid || m_only_gcode)) {
// Load the real G-code preview.
//BBS: add more log
BOOST_LOG_TRIVIAL(debug) << __FUNCTION__ << boost::format(": will load gcode_preview from result, moves count %1%") % m_gcode_result->moves.size();
//BBS: add only gcode mode
m_canvas->load_gcode_preview(*m_gcode_result, colors, only_gcode);
//BBS show sliders
show_moves_sliders();
//BBS: turn off shells for preview
m_canvas->set_shells_on_previewing(false);
Refresh();
zs = m_canvas->get_gcode_layers_zs();
//BBS: add m_loaded_print logic
//m_loaded = true;
m_loaded_print = print;
}
else if (wxGetApp().is_editor()) {
// Load the initial preview based on slices, not the final G-code.
//BBS: only display shell before slicing result out
//m_canvas->load_preview(colors, color_print_values);
show_moves_sliders(false);
Refresh();
//zs = m_canvas->get_volumes_print_zs(true);
}
if (!zs.empty() && !m_keep_current_preview_type) {
unsigned int number_extruders = wxGetApp().is_editor() ?
(unsigned int)print->extruders().size() :
m_canvas->get_gcode_extruders_count();
std::vector<CustomGCode::Item> gcodes = wxGetApp().is_editor() ?
//BBS
wxGetApp().plater()->model().get_curr_plate_custom_gcodes().gcodes :
m_canvas->get_custom_gcode_per_print_z();
const wxString choice = !gcodes.empty() ?
_L("Multicolor Print") :
(number_extruders > 1) ? _L("Filaments") : _L("Line Type");
}
if (zs.empty()) {
// all layers filtered out
//BBS
show_layers_sliders(false);
m_canvas_widget->Refresh();
} else
update_layers_slider(zs, keep_z_range);
}
}
AssembleView::AssembleView(wxWindow* parent, Bed3D& bed, Model* model, DynamicPrintConfig* config, BackgroundSlicingProcess* process)
: m_canvas_widget(nullptr)
, m_canvas(nullptr)
{
init(parent, bed, model, config, process);
}
AssembleView::~AssembleView()
{
delete m_canvas;
delete m_canvas_widget;
}
bool AssembleView::init(wxWindow* parent, Bed3D& bed, Model* model, DynamicPrintConfig* config, BackgroundSlicingProcess* process)
{
if (!Create(parent, wxID_ANY, wxDefaultPosition, wxDefaultSize, 0 /* disable wxTAB_TRAVERSAL */))
return false;
m_canvas_widget = OpenGLManager::create_wxglcanvas(*this);
if (m_canvas_widget == nullptr)
return false;
m_canvas = new GLCanvas3D(m_canvas_widget, bed);
m_canvas->set_context(wxGetApp().init_glcontext(*m_canvas_widget));
m_canvas->allow_multisample(OpenGLManager::can_multisample());
// XXX: If have OpenGL
m_canvas->enable_picking(true);
m_canvas->enable_moving(true);
// XXX: more config from 3D.pm
m_canvas->set_model(model);
m_canvas->set_process(process);
m_canvas->set_type(GLCanvas3D::ECanvasType::CanvasAssembleView);
m_canvas->set_config(config);
m_canvas->enable_gizmos(true);
m_canvas->enable_selection(true);
m_canvas->enable_main_toolbar(false);
m_canvas->enable_labels(false);
m_canvas->enable_slope(false);
//BBS: GUI refactor: GLToolbar
m_canvas->enable_assemble_view_toolbar(false);
m_canvas->enable_return_toolbar(true);
m_canvas->enable_separator_toolbar(false);
//m_canvas->set_show_world_axes(true);//wait for GitHub users to see if they have this requirement
// BBS: set volume_selection_mode to Volume
//same to 3d //m_canvas->get_selection().set_volume_selection_mode(Selection::Instance);
//m_canvas->get_selection().lock_volume_selection_mode();
wxBoxSizer* main_sizer = new wxBoxSizer(wxVERTICAL);
main_sizer->Add(m_canvas_widget, 1, wxALL | wxEXPAND, 0);
SetSizer(main_sizer);
SetMinSize(GetSize());
GetSizer()->SetSizeHints(this);
return true;
}
void AssembleView::set_as_dirty()
{
if (m_canvas != nullptr)
m_canvas->set_as_dirty();
}
void AssembleView::render()
{
if (m_canvas != nullptr)
m_canvas->set_as_dirty();
}
bool AssembleView::is_reload_delayed() const
{
return (m_canvas != nullptr) ? m_canvas->is_reload_delayed() : false;
}
void AssembleView::reload_scene(bool refresh_immediately, bool force_full_scene_refresh)
{
if (m_canvas != nullptr) {
if (!m_canvas->is_initialized()) {
m_canvas->render(true);
}
m_canvas->reload_scene(refresh_immediately, force_full_scene_refresh);
}
}
void AssembleView::select_view(const std::string& direction)
{
if (m_canvas != nullptr)
m_canvas->select_view(direction);
}
} // namespace GUI
} // namespace Slic3r