#ifndef WipeTowerPrusaMM_hpp_ #define WipeTowerPrusaMM_hpp_ #include #include #include #include #include "WipeTower.hpp" namespace Slic3r { namespace PrusaMultiMaterial { class Writer; }; class WipeTowerPrusaMM : public WipeTower { public: enum material_type { INVALID = -1, PLA = 0, // E:210C B:55C ABS = 1, // E:255C B:100C PET = 2, // E:240C B:90C HIPS = 3, // E:220C B:100C FLEX = 4, // E:245C B:80C SCAFF = 5, // E:215C B:55C EDGE = 6, // E:240C B:80C NGEN = 7, // E:230C B:80C PVA = 8 // E:210C B:80C }; // Parse material name into material_type. static material_type parse_material(const char *name); // x -- x coordinates of wipe tower in mm ( left bottom corner ) // y -- y coordinates of wipe tower in mm ( left bottom corner ) // width -- width of wipe tower in mm ( default 60 mm - leave as it is ) // wipe_area -- space available for one toolchange in mm WipeTowerPrusaMM(float x, float y, float width, float wipe_area, unsigned int initial_tool) : m_wipe_tower_pos(x, y), m_wipe_tower_width(width), m_wipe_area(wipe_area), m_z_pos(0.f), m_current_tool(initial_tool) { for (size_t i = 0; i < 4; ++ i) { // Extruder specific parameters. m_material[i] = PLA; m_temperature[i] = 0; m_first_layer_temperature[i] = 0; } } virtual ~WipeTowerPrusaMM() {} // _retract - retract value in mm void set_retract(float retract) { m_retract = retract; } // _zHop - z hop value in mm void set_zhop(float zhop) { m_zhop = zhop; } // Set the extruder properties. void set_extruder(size_t idx, material_type material, int temp, int first_layer_temp) { m_material[idx] = material; m_temperature[idx] = temp; m_first_layer_temperature[idx] = first_layer_temp; } // Switch to a next layer. virtual void set_layer( // Print height of this layer. float print_z, // Layer height, used to calculate extrusion the rate. float layer_height, // Maximum number of tool changes on this layer or the layers below. size_t max_tool_changes, // Is this the first layer of the print? In that case print the brim first. bool is_first_layer, // Is this the last layer of the waste tower? bool is_last_layer) { m_z_pos = print_z; m_layer_height = layer_height; m_max_color_changes = max_tool_changes; m_is_first_layer = is_first_layer; m_is_last_layer = is_last_layer; // Start counting the color changes from zero. Special case: -1 - extrude a brim first. m_idx_tool_change_in_layer = is_first_layer ? (unsigned int)(-1) : 0; m_current_wipe_start_y = 0.f; m_current_shape = (! is_first_layer && m_current_shape == SHAPE_NORMAL) ? SHAPE_REVERSED : SHAPE_NORMAL; ++ m_num_layer_changes; // Extrusion rate for an extrusion aka perimeter width 0.35mm. // Clamp the extrusion height to a 0.2mm layer height, independent of the nozzle diameter. // m_extrusion_flow = std::min(0.2f, layer_height) * 0.145f; // Use a strictly m_extrusion_flow = layer_height * 0.145f; } // Return the wipe tower position. virtual const xy& position() const { return m_wipe_tower_pos; } // Return the wipe tower width. virtual float width() const { return m_wipe_tower_width; } // The wipe tower is finished, there should be no more tool changes or wipe tower prints. virtual bool finished() const { return m_max_color_changes == 0; } // Returns gcode to prime the nozzles at the front edge of the print bed. virtual ToolChangeResult prime(float first_layer_height, std::vector tools, Purpose purpose = PURPOSE_MOVE_TO_TOWER_AND_EXTRUDE); // Returns gcode for a toolchange and a final print head position. // On the first layer, extrude a brim around the future wipe tower first. virtual ToolChangeResult tool_change(unsigned int new_tool, bool last_in_layer, Purpose purpose); // Close the current wipe tower layer with a perimeter and possibly fill the unfilled space with a zig-zag. // Call this method only if layer_finished() is false. virtual ToolChangeResult finish_layer(Purpose purpose); // Is the current layer finished? A layer is finished if either the wipe tower is finished, or // the wipe tower has been completely covered by the tool change extrusions, // or the rest of the tower has been filled by a sparse infill with the finish_layer() method. virtual bool layer_finished() const { return m_idx_tool_change_in_layer == m_max_color_changes; } private: WipeTowerPrusaMM(); // A fill-in direction (positive Y, negative Y) alternates with each layer. enum wipe_shape { SHAPE_NORMAL = 1, SHAPE_REVERSED = -1 }; // Left front corner of the wipe tower in mm. xy m_wipe_tower_pos; // Width of the wipe tower. float m_wipe_tower_width; // Per color Y span. float m_wipe_area; // Current Z position. float m_z_pos = 0.f; // Current layer height. float m_layer_height = 0.f; // Maximum number of color changes per layer. size_t m_max_color_changes = 0; // Is this the 1st layer of the print? If so, print the brim around the waste tower. bool m_is_first_layer = false; // Is this the last layer of this waste tower? bool m_is_last_layer = false; // G-code generator parameters. float m_zhop = 0.5f; float m_retract = 4.f; // Width of an extrusion line, also a perimeter spacing for 100% infill. float m_perimeter_width = 0.5f; // Extrusion flow is derived from m_perimeter_width, layer height and filament diameter. float m_extrusion_flow = 0.029f; // Extruder specific parameters. material_type m_material[4]; int m_temperature[4]; int m_first_layer_temperature[4]; // State of the wiper tower generator. // Layer change counter for the output statistics. unsigned int m_num_layer_changes = 0; // Tool change change counter for the output statistics. unsigned int m_num_tool_changes = 0; // Layer change counter in this layer. Counting up to m_max_color_changes. unsigned int m_idx_tool_change_in_layer = 0; // A fill-in direction (positive Y, negative Y) alternates with each layer. wipe_shape m_current_shape = SHAPE_NORMAL; unsigned int m_current_tool = 0; // Current y position at the wipe tower. float m_current_wipe_start_y = 0.f; struct box_coordinates { box_coordinates(float left, float bottom, float width, float height) : ld(left , bottom ), lu(left , bottom + height), rd(left + width, bottom ), ru(left + width, bottom + height) {} box_coordinates(const xy &pos, float width, float height) : box_coordinates(pos.x, pos.y, width, height) {} void translate(const xy &shift) { ld += shift; lu += shift; rd += shift; ru += shift; } void translate(const float dx, const float dy) { translate(xy(dx, dy)); } void expand(const float offset) { ld += xy(- offset, - offset); lu += xy(- offset, offset); rd += xy( offset, - offset); ru += xy( offset, offset); } void expand(const float offset_x, const float offset_y) { ld += xy(- offset_x, - offset_y); lu += xy(- offset_x, offset_y); rd += xy( offset_x, - offset_y); ru += xy( offset_x, offset_y); } xy ld; // left down xy lu; // left upper xy ru; // right upper xy rd; // right lower }; // Returns gcode for wipe tower brim // sideOnly -- set to false -- experimental, draw brim on sides of wipe tower // offset -- set to 0 -- experimental, offset to replace brim in front / rear of wipe tower ToolChangeResult toolchange_Brim(Purpose purpose, bool sideOnly = false, float y_offset = 0.f); void toolchange_Unload( PrusaMultiMaterial::Writer &writer, const box_coordinates &cleaning_box, const material_type current_material, const int new_temperature); void toolchange_Change( PrusaMultiMaterial::Writer &writer, const unsigned int new_tool, material_type new_material); void toolchange_Load( PrusaMultiMaterial::Writer &writer, const box_coordinates &cleaning_box); void toolchange_Wipe( PrusaMultiMaterial::Writer &writer, const box_coordinates &cleaning_box); void toolchange_Perimeter(); }; }; // namespace Slic3r #endif /* WipeTowerPrusaMM_hpp_ */