#ifndef slic3r_Utils_UndoRedo_hpp_ #define slic3r_Utils_UndoRedo_hpp_ #include #include #include #include #include #include typedef double coordf_t; typedef std::pair t_layer_height_range; namespace Slic3r { class Model; enum PrinterTechnology : unsigned char; namespace GUI { class Selection; class GLGizmosManager; } // namespace GUI namespace UndoRedo { // Data structure to be stored with each snapshot. // Storing short data (bit masks, ints) with each snapshot instead of being serialized into the Undo / Redo stack // is likely cheaper in term of both the runtime and memory allocation. // Also the SnapshotData is available without having to deserialize the snapshot from the Undo / Redo stack, // which may be handy sometimes. struct SnapshotData { // Constructor is defined in .cpp due to the forward declaration of enum PrinterTechnology. SnapshotData(); PrinterTechnology printer_technology; // Bitmap of Flags (see the Flags enum). unsigned int flags; int layer_range_idx; // Bitmask of various binary flags to be stored with the snapshot. enum Flags { VARIABLE_LAYER_EDITING_ACTIVE = 1, SELECTED_SETTINGS_ON_SIDEBAR = 2, SELECTED_LAYERROOT_ON_SIDEBAR = 4, SELECTED_LAYER_ON_SIDEBAR = 8, RECALCULATE_SLA_SUPPORTS = 16 }; }; struct Snapshot { Snapshot(size_t timestamp) : timestamp(timestamp) {} Snapshot(const std::string &name, size_t timestamp, size_t model_id, const SnapshotData &snapshot_data) : name(name), timestamp(timestamp), model_id(model_id), snapshot_data(snapshot_data) {} std::string name; size_t timestamp; size_t model_id; SnapshotData snapshot_data; bool operator< (const Snapshot &rhs) const { return this->timestamp < rhs.timestamp; } bool operator==(const Snapshot &rhs) const { return this->timestamp == rhs.timestamp; } // The topmost snapshot represents the current state when going forward. bool is_topmost() const; // The topmost snapshot is not being serialized to the Undo / Redo stack until going back in time, // when the top most state is being serialized, so we can redo back to the top most state. bool is_topmost_captured() const { assert(this->is_topmost()); return model_id > 0; } }; // Excerpt of Slic3r::GUI::Selection for serialization onto the Undo / Redo stack. struct Selection : public Slic3r::ObjectBase { void clear() { mode = 0; volumes_and_instances.clear(); } unsigned char mode = 0; std::vector> volumes_and_instances; template void serialize(Archive &ar) { ar(mode, volumes_and_instances); } }; class StackImpl; class Stack { public: // Stack needs to be initialized. An empty stack is not valid, there must be a "New Project" status stored at the beginning. // The first "New Project" snapshot shall not be removed. Stack(); ~Stack(); void clear(); bool empty() const; // Set maximum memory threshold. If the threshold is exceeded, least recently used snapshots are released. void set_memory_limit(size_t memsize); size_t get_memory_limit() const; // Estimate size of the RAM consumed by the Undo / Redo stack. size_t memsize() const; // Release least recently used snapshots up to the memory limit set above. void release_least_recently_used(); // Store the current application state onto the Undo / Redo stack, remove all snapshots after m_active_snapshot_time. void take_snapshot(const std::string& snapshot_name, const Slic3r::Model& model, const Slic3r::GUI::Selection& selection, const Slic3r::GUI::GLGizmosManager& gizmos, const SnapshotData &snapshot_data); // To be queried to enable / disable the Undo / Redo buttons at the UI. bool has_undo_snapshot() const; bool has_redo_snapshot() const; // To query whether one can undo to a snapshot. Useful for notifications, that want to Undo a specific operation. bool has_undo_snapshot(size_t time_to_load) const; // Roll back the time. If time_to_load is SIZE_MAX, the previous snapshot is activated. // Undoing an action may need to take a snapshot of the current application state, so that redo to the current state is possible. bool undo(Slic3r::Model& model, const Slic3r::GUI::Selection& selection, Slic3r::GUI::GLGizmosManager& gizmos, const SnapshotData &snapshot_data, size_t time_to_load = SIZE_MAX); // Jump forward in time. If time_to_load is SIZE_MAX, the next snapshot is activated. bool redo(Slic3r::Model& model, Slic3r::GUI::GLGizmosManager& gizmos, size_t time_to_load = SIZE_MAX); // Snapshot history (names with timestamps). // Each snapshot indicates start of an interval in which this operation is performed. // There is one additional snapshot taken at the very end, which indicates the current unnamed state. const std::vector& snapshots() const; // Timestamp of the active snapshot. One of the snapshots of this->snapshots() shall have Snapshot::timestamp equal to this->active_snapshot_time(). // The snapshot time indicates start of an operation, which is finished at the time of the following snapshot, therefore // the active snapshot is the successive snapshot. The same logic applies to the time_to_load parameter of undo() and redo() operations. size_t active_snapshot_time() const; // Temporary snapshot is active if the topmost snapshot is active and it has not been captured yet. // In that case the Undo action will capture the last snapshot. bool temp_snapshot_active() const; // After load_snapshot() / undo() / redo() the selection is deserialized into a list of ObjectIDs, which needs to be converted // into the list of GLVolume pointers once the 3D scene is updated. const Selection& selection_deserialized() const; private: friend class StackImpl; std::unique_ptr pimpl; }; }; // namespace UndoRedo }; // namespace Slic3r #endif /* slic3r_Utils_UndoRedo_hpp_ */