BambuStudio/slic3r/GUI/Jobs/ArrangeJob.hpp

#ifndef ARRANGEJOB_HPP
#define ARRANGEJOB_HPP

#include "PlaterJob.hpp"
#include "slic3r/GUI/Plater.hpp"
#include "libslic3r/Arrange.hpp"
#include "libslic3r/Model.hpp"

namespace Slic3r {

class ModelInstance;

namespace GUI {

class ArrangeJob : public PlaterJob
{
    using ArrangePolygon = arrangement::ArrangePolygon;
    using ArrangePolygons = arrangement::ArrangePolygons;

    //BBS: add locked logic
    ArrangePolygons m_selected, m_unselected, m_unprintable, m_locked;
    std::vector<ModelInstance*> m_unarranged;
    std::map<int, ArrangePolygons> m_selected_groups;   // groups of selected items for sequential printing
    std::vector<int> m_uncompatible_plates;  // plate indices with different printing sequence than global

    arrangement::ArrangeParams params;
    int current_plate_index = 0;
    Polygon bed_poly;

    // clear m_selected and m_unselected, reserve space for next usage
    void clear_input();

    // Prepare the selected and unselected items separately. If nothing is
    // selected, behaves as if everything would be selected.
    void prepare_selected();

    void prepare_all();

    //BBS:prepare the items from current selected partplate
    void prepare_partplate();
    void prepare_wipe_tower();

    ArrangePolygon prepare_arrange_polygon(void* instance);

protected:

    void prepare() override;

    void check_unprintable();

    void on_exception(const std::exception_ptr &) override;

    void process() override;

public:
    ArrangeJob(std::shared_ptr<ProgressIndicator> pri, Plater *plater)
        : PlaterJob{std::move(pri), plater}
    {}

    int status_range() const override
    {
        // ensure finalize() is called after all operations in process() is finished.
        return int(m_selected.size() + m_unprintable.size() + 1);
    }

    void finalize() override;
};

std::optional<arrangement::ArrangePolygon> get_wipe_tower_arrangepoly(const Plater &);

// The gap between logical beds in the x axis expressed in ratio of
// the current bed width.
static const constexpr double LOGICAL_BED_GAP = 1. / 5.;

//BBS: add sudoku-style strides for x and y
// Stride between logical beds
double bed_stride_x(const Plater* plater);
double bed_stride_y(const Plater* plater);

arrangement::ArrangeParams init_arrange_params(Plater *p);

}} // namespace Slic3r::GUI

#endif // ARRANGEJOB_HPP
初始化 2024-12-20 06:44:50 +00:00			`#ifndef ARRANGEJOB_HPP`
			`#define ARRANGEJOB_HPP`

			`#include "PlaterJob.hpp"`
			`#include "slic3r/GUI/Plater.hpp"`
			`#include "libslic3r/Arrange.hpp"`
			`#include "libslic3r/Model.hpp"`

			`namespace Slic3r {`

			`class ModelInstance;`

			`namespace GUI {`

			`class ArrangeJob : public PlaterJob`
			`{`
			`using ArrangePolygon = arrangement::ArrangePolygon;`
			`using ArrangePolygons = arrangement::ArrangePolygons;`

			`//BBS: add locked logic`
			`ArrangePolygons m_selected, m_unselected, m_unprintable, m_locked;`
			`std::vector<ModelInstance*> m_unarranged;`
			`std::map<int, ArrangePolygons> m_selected_groups; // groups of selected items for sequential printing`
			`std::vector<int> m_uncompatible_plates; // plate indices with different printing sequence than global`

			`arrangement::ArrangeParams params;`
			`int current_plate_index = 0;`
			`Polygon bed_poly;`

			`// clear m_selected and m_unselected, reserve space for next usage`
			`void clear_input();`

			`// Prepare the selected and unselected items separately. If nothing is`
			`// selected, behaves as if everything would be selected.`
			`void prepare_selected();`

			`void prepare_all();`

			`//BBS:prepare the items from current selected partplate`
			`void prepare_partplate();`
			`void prepare_wipe_tower();`

			`ArrangePolygon prepare_arrange_polygon(void* instance);`

			`protected:`

			`void prepare() override;`

			`void check_unprintable();`

			`void on_exception(const std::exception_ptr &) override;`

			`void process() override;`

			`public:`
			`ArrangeJob(std::shared_ptr<ProgressIndicator> pri, Plater *plater)`
			`: PlaterJob{std::move(pri), plater}`
			`{}`

			`int status_range() const override`
			`{`
			`// ensure finalize() is called after all operations in process() is finished.`
			`return int(m_selected.size() + m_unprintable.size() + 1);`
			`}`

			`void finalize() override;`
			`};`

			`std::optional<arrangement::ArrangePolygon> get_wipe_tower_arrangepoly(const Plater &);`

			`// The gap between logical beds in the x axis expressed in ratio of`
			`// the current bed width.`
			`static const constexpr double LOGICAL_BED_GAP = 1. / 5.;`

			`//BBS: add sudoku-style strides for x and y`
			`// Stride between logical beds`
			`double bed_stride_x(const Plater* plater);`
			`double bed_stride_y(const Plater* plater);`

			`arrangement::ArrangeParams init_arrange_params(Plater *p);`

			`}} // namespace Slic3r::GUI`

			`#endif // ARRANGEJOB_HPP`