syntax = "proto3"; package cura.proto; message ObjectList { repeated Object objects = 1; repeated Setting settings = 2; // meshgroup settings (for one-at-a-time printing) } message Slice { repeated ObjectList object_lists = 1; // The meshgroups to be printed one after another SettingList global_settings = 2; // The global settings used for the whole print job repeated Extruder extruders = 3; // The settings sent to each extruder object repeated SettingExtruder limit_to_extruder = 4; // From which stack the setting would inherit if not defined per object } message Extruder { int32 id = 1; SettingList settings = 2; } message Object { int64 id = 1; bytes vertices = 2; //An array of 3 floats. bytes normals = 3; //An array of 3 floats. bytes indices = 4; //An array of ints. repeated Setting settings = 5; // Setting override per object, overruling the global settings. string name = 6; //Mesh name } message Progress { float amount = 1; } message Layer { int32 id = 1; float height = 2; // Z position float thickness = 3; // height of a single layer repeated Polygon polygons = 4; // layer data } message Polygon { enum Type { NoneType = 0; Inset0Type = 1; InsetXType = 2; SkinType = 3; SupportType = 4; SkirtType = 5; InfillType = 6; SupportInfillType = 7; MoveCombingType = 8; MoveRetractionType = 9; SupportInterfaceType = 10; PrimeTowerType = 11; } Type type = 1; // Type of move bytes points = 2; // The points of the polygon, or two points if only a line segment (Currently only line segments are used) float line_width = 3; // The width of the line being laid down float line_thickness = 4; // The thickness of the line being laid down float line_feedrate = 5; // The feedrate of the line being laid down } message LayerOptimized { int32 id = 1; float height = 2; // Z position float thickness = 3; // height of a single layer repeated PathSegment path_segment = 4; // layer data } message PathSegment { int32 extruder = 1; // The extruder used for this path segment enum PointType { Point2D = 0; Point3D = 1; } PointType point_type = 2; bytes points = 3; // The points defining the line segments, bytes of float[2/3] array of length N+1 bytes line_type = 4; // Type of line segment as an unsigned char array of length 1 or N, where N is the number of line segments in this path bytes line_width = 5; // The widths of the line segments as bytes of a float array of length 1 or N bytes line_thickness = 6; // The thickness of the line segments as bytes of a float array of length 1 or N bytes line_feedrate = 7; // The feedrate of the line segments as bytes of a float array of length 1 or N } message GCodeLayer { bytes data = 2; } message PrintTimeMaterialEstimates { // The print time for each feature and material estimates for the extruder // Time estimate in each feature float time_none = 1; float time_inset_0 = 2; float time_inset_x = 3; float time_skin = 4; float time_support = 5; float time_skirt = 6; float time_infill = 7; float time_support_infill = 8; float time_travel = 9; float time_retract = 10; float time_support_interface = 11; float time_prime_tower = 12; repeated MaterialEstimates materialEstimates = 13; // materialEstimates data } message MaterialEstimates { int64 id = 1; float material_amount = 2; // material used in the extruder } message SettingList { repeated Setting settings = 1; } message Setting { string name = 1; // Internal key to signify a setting bytes value = 2; // The value of the setting } message SettingExtruder { string name = 1; //The setting key. int32 extruder = 2; //From which extruder stack the setting should inherit. } message GCodePrefix { bytes data = 2; //Header string to be prepended before the rest of the g-code sent from the engine. } message SlicingFinished { }