OrcaSlicer/src/slic3r/GUI/GLCanvas3D.hpp
bubnikv 086f11df98 Handling of left hand oriented coordinate systems:
is_left_handed() method on transformations and volumes
rendering of GLVolumes in left handed coordinate systems by glFrontFace(GL_CW);
SLA slicing on left hand oriented instances by flipping the mesh for SLAPrintObject in X.
rendering of the SLA cutting plane in left handed systems
resetting the SLA clipping planes on 3D preview invalidation
2019-04-02 13:47:49 +02:00

833 lines
26 KiB
C++

#ifndef slic3r_GLCanvas3D_hpp_
#define slic3r_GLCanvas3D_hpp_
#include <stddef.h>
#include <memory>
#include "3DScene.hpp"
#include "GLToolbar.hpp"
#include "Event.hpp"
#include "3DBed.hpp"
#include "Camera.hpp"
#include "Selection.hpp"
#include <float.h>
#include <wx/timer.h>
class wxWindow;
class wxSizeEvent;
class wxIdleEvent;
class wxKeyEvent;
class wxMouseEvent;
class wxTimerEvent;
class wxPaintEvent;
class wxGLCanvas;
// Support for Retina OpenGL on Mac OS
#define ENABLE_RETINA_GL __APPLE__
namespace Slic3r {
class GLShader;
class ExPolygon;
class BackgroundSlicingProcess;
class GCodePreviewData;
struct SlicingParameters;
enum LayerHeightEditActionType : unsigned int;
namespace GUI {
class GLGizmoBase;
#if ENABLE_RETINA_GL
class RetinaHelper;
#endif
class Size
{
int m_width;
int m_height;
float m_scale_factor;
public:
Size();
Size(int width, int height, float scale_factor = 1.0);
int get_width() const;
void set_width(int width);
int get_height() const;
void set_height(int height);
int get_scale_factor() const;
void set_scale_factor(int height);
};
class Rect
{
float m_left;
float m_top;
float m_right;
float m_bottom;
public:
Rect();
Rect(float left, float top, float right, float bottom);
float get_left() const;
void set_left(float left);
float get_top() const;
void set_top(float top);
float get_right() const;
void set_right(float right);
float get_bottom() const;
void set_bottom(float bottom);
float get_width() const { return m_right - m_left; }
float get_height() const { return m_top - m_bottom; }
};
wxDECLARE_EVENT(EVT_GLCANVAS_OBJECT_SELECT, SimpleEvent);
using Vec2dEvent = Event<Vec2d>;
template <size_t N> using Vec2dsEvent = ArrayEvent<Vec2d, N>;
using Vec3dEvent = Event<Vec3d>;
template <size_t N> using Vec3dsEvent = ArrayEvent<Vec3d, N>;
wxDECLARE_EVENT(EVT_GLCANVAS_INIT, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_SCHEDULE_BACKGROUND_PROCESS, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_RIGHT_CLICK, Vec2dEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_REMOVE_OBJECT, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_ARRANGE, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_SELECT_ALL, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_QUESTION_MARK, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_INCREASE_INSTANCES, Event<int>); // data: +1 => increase, -1 => decrease
wxDECLARE_EVENT(EVT_GLCANVAS_INSTANCE_MOVED, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_WIPETOWER_MOVED, Vec3dEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_INSTANCE_ROTATED, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_INSTANCE_SCALED, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_ENABLE_ACTION_BUTTONS, Event<bool>);
wxDECLARE_EVENT(EVT_GLCANVAS_UPDATE_GEOMETRY, Vec3dsEvent<2>);
wxDECLARE_EVENT(EVT_GLCANVAS_MOUSE_DRAGGING_FINISHED, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_UPDATE_BED_SHAPE, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_TAB, SimpleEvent);
wxDECLARE_EVENT(EVT_GLCANVAS_RESETGIZMOS, SimpleEvent);
// this describes events being passed from GLCanvas3D to SlaSupport gizmo
enum class SLAGizmoEventType {
LeftDown = 1,
LeftUp,
RightDown,
Dragging,
Delete,
SelectAll,
ShiftUp,
ApplyChanges,
DiscardChanges,
AutomaticGeneration,
ManualEditing
};
class GLCanvas3D
{
struct GCodePreviewVolumeIndex
{
enum EType
{
Extrusion,
Travel,
Retraction,
Unretraction,
Shell,
Num_Geometry_Types
};
struct FirstVolume
{
EType type;
unsigned int flag;
// Index of the first volume in a GLVolumeCollection.
unsigned int id;
FirstVolume(EType type, unsigned int flag, unsigned int id) : type(type), flag(flag), id(id) {}
};
std::vector<FirstVolume> first_volumes;
void reset() { first_volumes.clear(); }
};
#if !ENABLE_TEXTURES_FROM_SVG
class Shader
{
GLShader* m_shader;
public:
Shader();
~Shader();
bool init(const std::string& vertex_shader_filename, const std::string& fragment_shader_filename);
bool is_initialized() const;
bool start_using() const;
void stop_using() const;
void set_uniform(const std::string& name, float value) const;
void set_uniform(const std::string& name, const float* matrix) const;
const GLShader* get_shader() const;
private:
void _reset();
};
#endif // !ENABLE_TEXTURES_FROM_SVG
class LayersEditing
{
public:
enum EState : unsigned char
{
Unknown,
Editing,
Completed,
Num_States
};
private:
static const float THICKNESS_BAR_WIDTH;
static const float THICKNESS_RESET_BUTTON_HEIGHT;
bool m_use_legacy_opengl;
bool m_enabled;
Shader m_shader;
unsigned int m_z_texture_id;
mutable GLTexture m_tooltip_texture;
mutable GLTexture m_reset_texture;
// Not owned by LayersEditing.
const DynamicPrintConfig *m_config;
// ModelObject for the currently selected object (Model::objects[last_object_id]).
const ModelObject *m_model_object;
// Maximum z of the currently selected object (Model::objects[last_object_id]).
float m_object_max_z;
// Owned by LayersEditing.
SlicingParameters *m_slicing_parameters;
std::vector<coordf_t> m_layer_height_profile;
bool m_layer_height_profile_modified;
class LayersTexture
{
public:
LayersTexture() : width(0), height(0), levels(0), cells(0), valid(false) {}
// Texture data
std::vector<char> data;
// Width of the texture, top level.
size_t width;
// Height of the texture, top level.
size_t height;
// For how many levels of detail is the data allocated?
size_t levels;
// Number of texture cells allocated for the height texture.
size_t cells;
// Does it need to be refreshed?
bool valid;
};
LayersTexture m_layers_texture;
public:
EState state;
float band_width;
float strength;
int last_object_id;
float last_z;
LayerHeightEditActionType last_action;
LayersEditing();
~LayersEditing();
bool init(const std::string& vertex_shader_filename, const std::string& fragment_shader_filename);
void set_config(const DynamicPrintConfig* config);
void select_object(const Model &model, int object_id);
bool is_allowed() const;
void set_use_legacy_opengl(bool use_legacy_opengl);
bool is_enabled() const;
void set_enabled(bool enabled);
void render_overlay(const GLCanvas3D& canvas) const;
void render_volumes(const GLCanvas3D& canvas, const GLVolumeCollection& volumes) const;
void adjust_layer_height_profile();
void accept_changes(GLCanvas3D& canvas);
void reset_layer_height_profile(GLCanvas3D& canvas);
static float get_cursor_z_relative(const GLCanvas3D& canvas);
static bool bar_rect_contains(const GLCanvas3D& canvas, float x, float y);
static bool reset_rect_contains(const GLCanvas3D& canvas, float x, float y);
static Rect get_bar_rect_screen(const GLCanvas3D& canvas);
static Rect get_reset_rect_screen(const GLCanvas3D& canvas);
static Rect get_bar_rect_viewport(const GLCanvas3D& canvas);
static Rect get_reset_rect_viewport(const GLCanvas3D& canvas);
float object_max_z() const { return m_object_max_z; }
private:
bool _is_initialized() const;
void generate_layer_height_texture();
void _render_tooltip_texture(const GLCanvas3D& canvas, const Rect& bar_rect, const Rect& reset_rect) const;
void _render_reset_texture(const Rect& reset_rect) const;
void _render_active_object_annotations(const GLCanvas3D& canvas, const Rect& bar_rect) const;
void _render_profile(const Rect& bar_rect) const;
void update_slicing_parameters();
static float thickness_bar_width(const GLCanvas3D &canvas);
static float reset_button_height(const GLCanvas3D &canvas);
};
struct Mouse
{
struct Drag
{
static const Point Invalid_2D_Point;
static const Vec3d Invalid_3D_Point;
static const int MoveThresholdPx;
Point start_position_2D;
Vec3d start_position_3D;
int move_volume_idx;
bool move_requires_threshold;
Point move_start_threshold_position_2D;
public:
Drag();
};
bool dragging;
Vec2d position;
Vec3d scene_position;
Drag drag;
bool ignore_up_event;
Mouse();
void set_start_position_2D_as_invalid() { drag.start_position_2D = Drag::Invalid_2D_Point; }
void set_start_position_3D_as_invalid() { drag.start_position_3D = Drag::Invalid_3D_Point; }
void set_move_start_threshold_position_2D_as_invalid() { drag.move_start_threshold_position_2D = Drag::Invalid_2D_Point; }
bool is_start_position_2D_defined() const { return (drag.start_position_2D != Drag::Invalid_2D_Point); }
bool is_start_position_3D_defined() const { return (drag.start_position_3D != Drag::Invalid_3D_Point); }
bool is_move_start_threshold_position_2D_defined() const { return (drag.move_start_threshold_position_2D != Drag::Invalid_2D_Point); }
bool is_move_threshold_met(const Point& mouse_pos) const {
return (std::abs(mouse_pos(0) - drag.move_start_threshold_position_2D(0)) > Drag::MoveThresholdPx)
|| (std::abs(mouse_pos(1) - drag.move_start_threshold_position_2D(1)) > Drag::MoveThresholdPx);
}
};
public:
class ClippingPlane
{
double m_data[4];
public:
ClippingPlane()
{
m_data[0] = 0.0;
m_data[1] = 0.0;
m_data[2] = 1.0;
m_data[3] = 0.0;
}
ClippingPlane(const Vec3d& direction, double offset)
{
Vec3d norm_dir = direction.normalized();
m_data[0] = norm_dir(0);
m_data[1] = norm_dir(1);
m_data[2] = norm_dir(2);
m_data[3] = offset;
}
const double* get_data() const { return m_data; }
};
private:
class Gizmos
{
public:
#if ENABLE_SVG_ICONS
static const float Default_Icons_Size;
#endif // ENABLE_SVG_ICONS
enum EType : unsigned char
{
Undefined,
Move,
Scale,
Rotate,
Flatten,
Cut,
SlaSupports,
Num_Types
};
private:
bool m_enabled;
typedef std::map<EType, GLGizmoBase*> GizmosMap;
GizmosMap m_gizmos;
#if ENABLE_SVG_ICONS
mutable GLTexture m_icons_texture;
mutable bool m_icons_texture_dirty;
#else
ItemsIconsTexture m_icons_texture;
#endif // ENABLE_SVG_ICONS
BackgroundTexture m_background_texture;
EType m_current;
#if ENABLE_SVG_ICONS
float m_overlay_icons_size;
float m_overlay_scale;
#else
float m_overlay_icons_scale;
#endif // ENABLE_SVG_ICONS
float m_overlay_border;
float m_overlay_gap_y;
public:
Gizmos();
~Gizmos();
bool init(GLCanvas3D& parent);
bool is_enabled() const;
void set_enabled(bool enable);
#if ENABLE_SVG_ICONS
void set_overlay_icon_size(float size);
#endif // ENABLE_SVG_ICONS
void set_overlay_scale(float scale);
std::string update_hover_state(const GLCanvas3D& canvas, const Vec2d& mouse_pos, const Selection& selection);
void update_on_off_state(const GLCanvas3D& canvas, const Vec2d& mouse_pos, const Selection& selection);
void update_on_off_state(const Selection& selection);
void reset_all_states();
void set_hover_id(int id);
void enable_grabber(EType type, unsigned int id, bool enable);
bool overlay_contains_mouse(const GLCanvas3D& canvas, const Vec2d& mouse_pos) const;
bool grabber_contains_mouse() const;
void update(const Linef3& mouse_ray, const Selection& selection, bool shift_down, const Point* mouse_pos = nullptr);
Rect get_reset_rect_viewport(const GLCanvas3D& canvas) const;
EType get_current_type() const;
bool is_running() const;
bool handle_shortcut(int key, const Selection& selection);
bool is_dragging() const;
void start_dragging(const Selection& selection);
void stop_dragging();
Vec3d get_displacement() const;
Vec3d get_scale() const;
void set_scale(const Vec3d& scale);
Vec3d get_rotation() const;
void set_rotation(const Vec3d& rotation);
Vec3d get_flattening_normal() const;
void set_flattening_data(const ModelObject* model_object);
void set_sla_support_data(ModelObject* model_object, const Selection& selection);
bool gizmo_event(SLAGizmoEventType action, const Vec2d& mouse_position = Vec2d::Zero(), bool shift_down = false);
void render_current_gizmo(const Selection& selection) const;
void render_current_gizmo_for_picking_pass(const Selection& selection) const;
void render_overlay(const GLCanvas3D& canvas, const Selection& selection) const;
private:
void reset();
void do_render_overlay(const GLCanvas3D& canvas, const Selection& selection) const;
void do_render_current_gizmo(const Selection& selection) const;
float get_total_overlay_height() const;
float get_total_overlay_width() const;
GLGizmoBase* get_current() const;
#if ENABLE_SVG_ICONS
bool generate_icons_texture() const;
#endif // ENABLE_SVG_ICONS
};
struct SlaCap
{
struct Triangles
{
Pointf3s object;
Pointf3s supports;
};
typedef std::map<unsigned int, Triangles> ObjectIdToTrianglesMap;
double z;
ObjectIdToTrianglesMap triangles;
SlaCap() { reset(); }
void reset() { z = DBL_MAX; triangles.clear(); }
bool matches(double z) const { return this->z == z; }
};
class WarningTexture : public GUI::GLTexture
{
public:
WarningTexture();
enum Warning {
ObjectOutside,
ToolpathOutside,
SomethingNotShown,
ObjectClashed
};
// Sets a warning of the given type to be active/inactive. If several warnings are active simultaneously,
// only the last one is shown (decided by the order in the enum above).
void activate(WarningTexture::Warning warning, bool state, const GLCanvas3D& canvas);
void render(const GLCanvas3D& canvas) const;
private:
static const unsigned char Background_Color[3];
static const unsigned char Opacity;
int m_original_width;
int m_original_height;
// Information about which warnings are currently active.
std::vector<Warning> m_warnings;
// Generates the texture with given text.
bool _generate(const std::string& msg, const GLCanvas3D& canvas, const bool red_colored = false);
};
class LegendTexture : public GUI::GLTexture
{
static const int Px_Title_Offset = 5;
static const int Px_Text_Offset = 5;
static const int Px_Square = 20;
static const int Px_Square_Contour = 1;
static const int Px_Border = Px_Square / 2;
static const unsigned char Squares_Border_Color[3];
static const unsigned char Default_Background_Color[3];
static const unsigned char Error_Background_Color[3];
static const unsigned char Opacity;
int m_original_width;
int m_original_height;
public:
LegendTexture();
void fill_color_print_legend_values(const GCodePreviewData& preview_data, const GLCanvas3D& canvas,
std::vector<std::pair<double, double>>& cp_legend_values);
bool generate(const GCodePreviewData& preview_data, const std::vector<float>& tool_colors, const GLCanvas3D& canvas);
void render(const GLCanvas3D& canvas) const;
};
wxGLCanvas* m_canvas;
wxGLContext* m_context;
#if ENABLE_RETINA_GL
std::unique_ptr<RetinaHelper> m_retina_helper;
#endif
bool m_in_render;
LegendTexture m_legend_texture;
WarningTexture m_warning_texture;
wxTimer m_timer;
Bed3D& m_bed;
Camera& m_camera;
GLToolbar& m_view_toolbar;
LayersEditing m_layers_editing;
Shader m_shader;
Mouse m_mouse;
mutable Gizmos m_gizmos;
mutable GLToolbar m_toolbar;
ClippingPlane m_clipping_planes[2];
bool m_use_clipping_planes;
mutable SlaCap m_sla_caps[2];
std::string m_sidebar_field;
mutable GLVolumeCollection m_volumes;
Selection m_selection;
const DynamicPrintConfig* m_config;
Model* m_model;
BackgroundSlicingProcess *m_process;
// Screen is only refreshed from the OnIdle handler if it is dirty.
bool m_dirty;
bool m_initialized;
bool m_use_VBOs;
bool m_apply_zoom_to_volumes_filter;
mutable int m_hover_volume_id;
bool m_warning_texture_enabled;
bool m_legend_texture_enabled;
bool m_picking_enabled;
bool m_moving_enabled;
bool m_dynamic_background_enabled;
bool m_multisample_allowed;
bool m_regenerate_volumes;
bool m_moving;
bool m_tab_down;
// Following variable is obsolete and it should be safe to remove it.
// I just don't want to do it now before a release (Lukas Matena 24.3.2019)
bool m_render_sla_auxiliaries;
std::string m_color_by;
bool m_reload_delayed;
GCodePreviewVolumeIndex m_gcode_preview_volume_index;
public:
GLCanvas3D(wxGLCanvas* canvas, Bed3D& bed, Camera& camera, GLToolbar& view_toolbar);
~GLCanvas3D();
void set_context(wxGLContext* context) { m_context = context; }
wxGLCanvas* get_wxglcanvas() { return m_canvas; }
const wxGLCanvas* get_wxglcanvas() const { return m_canvas; }
bool init(bool useVBOs, bool use_legacy_opengl);
void post_event(wxEvent &&event);
void set_as_dirty();
unsigned int get_volumes_count() const;
void reset_volumes();
int check_volumes_outside_state() const;
void toggle_sla_auxiliaries_visibility(bool visible, const ModelObject* mo = nullptr, int instance_idx = -1);
void toggle_model_objects_visibility(bool visible, const ModelObject* mo = nullptr, int instance_idx = -1);
void set_config(const DynamicPrintConfig* config);
void set_process(BackgroundSlicingProcess* process);
void set_model(Model* model);
const Selection& get_selection() const { return m_selection; }
Selection& get_selection() { return m_selection; }
void bed_shape_changed();
void set_clipping_plane(unsigned int id, const ClippingPlane& plane)
{
if (id < 2)
{
m_clipping_planes[id] = plane;
m_sla_caps[id].reset();
}
}
void reset_clipping_planes_cache() { m_sla_caps[0].triangles.clear(); m_sla_caps[1].triangles.clear(); }
void set_use_clipping_planes(bool use) { m_use_clipping_planes = use; }
void set_color_by(const std::string& value);
float get_camera_zoom() const;
BoundingBoxf3 volumes_bounding_box() const;
BoundingBoxf3 scene_bounding_box() const;
bool is_layers_editing_enabled() const;
bool is_layers_editing_allowed() const;
bool is_reload_delayed() const;
void enable_layers_editing(bool enable);
void enable_legend_texture(bool enable);
void enable_picking(bool enable);
void enable_moving(bool enable);
void enable_gizmos(bool enable);
void enable_selection(bool enable);
void enable_toolbar(bool enable);
void enable_dynamic_background(bool enable);
void allow_multisample(bool allow);
void zoom_to_bed();
void zoom_to_volumes();
void zoom_to_selection();
void select_view(const std::string& direction);
void update_volumes_colors_by_extruder();
bool is_dragging() const { return m_gizmos.is_dragging() || m_moving; }
void render();
void select_all();
void delete_selected();
void ensure_on_bed(unsigned int object_idx);
std::vector<double> get_current_print_zs(bool active_only) const;
void set_toolpaths_range(double low, double high);
std::vector<int> load_object(const ModelObject& model_object, int obj_idx, std::vector<int> instance_idxs);
std::vector<int> load_object(const Model& model, int obj_idx);
void mirror_selection(Axis axis);
void reload_scene(bool refresh_immediately, bool force_full_scene_refresh = false);
void load_gcode_preview(const GCodePreviewData& preview_data, const std::vector<std::string>& str_tool_colors);
void load_sla_preview();
void load_preview(const std::vector<std::string>& str_tool_colors, const std::vector<double>& color_print_values);
void bind_event_handlers();
void unbind_event_handlers();
void on_size(wxSizeEvent& evt);
void on_idle(wxIdleEvent& evt);
void on_char(wxKeyEvent& evt);
void on_key(wxKeyEvent& evt);
void on_mouse_wheel(wxMouseEvent& evt);
void on_timer(wxTimerEvent& evt);
void on_mouse(wxMouseEvent& evt);
void on_paint(wxPaintEvent& evt);
Size get_canvas_size() const;
Vec2d get_local_mouse_position() const;
void reset_legend_texture();
void set_tooltip(const std::string& tooltip) const;
void do_move();
void do_rotate();
void do_scale();
void do_flatten();
void do_mirror();
void set_camera_zoom(float zoom);
void update_gizmos_on_off_state();
void reset_all_gizmos() { m_gizmos.reset_all_states(); }
void handle_sidebar_focus_event(const std::string& opt_key, bool focus_on);
void update_ui_from_settings();
private:
bool _is_shown_on_screen() const;
bool _init_toolbar();
bool _set_current();
void _resize(unsigned int w, unsigned int h);
BoundingBoxf3 _max_bounding_box() const;
void _zoom_to_bounding_box(const BoundingBoxf3& bbox);
float _get_zoom_to_bounding_box_factor(const BoundingBoxf3& bbox) const;
void _refresh_if_shown_on_screen();
void _camera_tranform() const;
void _picking_pass() const;
void _render_background() const;
void _render_bed(float theta) const;
void _render_axes() const;
void _render_objects() const;
void _render_selection() const;
#if ENABLE_RENDER_SELECTION_CENTER
void _render_selection_center() const;
#endif // ENABLE_RENDER_SELECTION_CENTER
void _render_warning_texture() const;
void _render_legend_texture() const;
void _render_volumes(bool fake_colors) const;
void _render_current_gizmo() const;
void _render_gizmos_overlay() const;
void _render_toolbar() const;
void _render_view_toolbar() const;
#if ENABLE_SHOW_CAMERA_TARGET
void _render_camera_target() const;
#endif // ENABLE_SHOW_CAMERA_TARGET
void _render_sla_slices() const;
void _render_selection_sidebar_hints() const;
void _update_volumes_hover_state() const;
void _update_gizmos_data();
void _perform_layer_editing_action(wxMouseEvent* evt = nullptr);
// Convert the screen space coordinate to an object space coordinate.
// If the Z screen space coordinate is not provided, a depth buffer value is substituted.
Vec3d _mouse_to_3d(const Point& mouse_pos, float* z = nullptr);
// Convert the screen space coordinate to world coordinate on the bed.
Vec3d _mouse_to_bed_3d(const Point& mouse_pos);
// Returns the view ray line, in world coordinate, at the given mouse position.
Linef3 mouse_ray(const Point& mouse_pos);
void _start_timer();
void _stop_timer();
// Create 3D thick extrusion lines for a skirt and brim.
// Adds a new Slic3r::GUI::3DScene::Volume to volumes.
void _load_print_toolpaths();
// Create 3D thick extrusion lines for object forming extrusions.
// Adds a new Slic3r::GUI::3DScene::Volume to $self->volumes,
// one for perimeters, one for infill and one for supports.
void _load_print_object_toolpaths(const PrintObject& print_object, const std::vector<std::string>& str_tool_colors,
const std::vector<double>& color_print_values);
// Create 3D thick extrusion lines for wipe tower extrusions
void _load_wipe_tower_toolpaths(const std::vector<std::string>& str_tool_colors);
// generates gcode extrusion paths geometry
void _load_gcode_extrusion_paths(const GCodePreviewData& preview_data, const std::vector<float>& tool_colors);
// generates gcode travel paths geometry
void _load_gcode_travel_paths(const GCodePreviewData& preview_data, const std::vector<float>& tool_colors);
bool _travel_paths_by_type(const GCodePreviewData& preview_data);
bool _travel_paths_by_feedrate(const GCodePreviewData& preview_data);
bool _travel_paths_by_tool(const GCodePreviewData& preview_data, const std::vector<float>& tool_colors);
// generates gcode retractions geometry
void _load_gcode_retractions(const GCodePreviewData& preview_data);
// generates gcode unretractions geometry
void _load_gcode_unretractions(const GCodePreviewData& preview_data);
// generates objects and wipe tower geometry
void _load_shells_fff();
// generates objects geometry for sla
void _load_shells_sla();
// sets gcode geometry visibility according to user selection
void _update_gcode_volumes_visibility(const GCodePreviewData& preview_data);
void _update_toolpath_volumes_outside_state();
void _show_warning_texture_if_needed();
// generates the legend texture in dependence of the current shown view type
void _generate_legend_texture(const GCodePreviewData& preview_data, const std::vector<float>& tool_colors);
// generates a warning texture containing the given message
void _set_warning_texture(WarningTexture::Warning warning, bool state);
bool _is_any_volume_outside() const;
#if !ENABLE_SVG_ICONS
void _resize_toolbars() const;
#endif // !ENABLE_SVG_ICONS
static std::vector<float> _parse_colors(const std::vector<std::string>& colors);
public:
const Print* fff_print() const;
const SLAPrint* sla_print() const;
};
} // namespace GUI
} // namespace Slic3r
#endif // slic3r_GLCanvas3D_hpp_