/* gcode.h - rs274/ngc parser. Part of Grbl Copyright (c) 2011-2014 Sungeun K. Jeon Copyright (c) 2009-2011 Simen Svale Skogsrud Grbl is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Grbl is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Grbl. If not, see . */ #ifndef gcode_h #define gcode_h #include "system.h" // Define modal group internal numbers for checking multiple command violations and tracking the // type of command that is called in the block. A modal group is a group of g-code commands that are // mutually exclusive, or cannot exist on the same line, because they each toggle a state or execute // a unique motion. These are defined in the NIST RS274-NGC v3 g-code standard, available online, // and are similar/identical to other g-code interpreters by manufacturers (Haas,Fanuc,Mazak,etc). #define MODAL_GROUP_NONE 0 #define MODAL_GROUP_0 1 // [G4,G10,G28,G30,G53,G92,G92.1] Non-modal #define MODAL_GROUP_1 2 // [G0,G1,G2,G3,G80] Motion #define MODAL_GROUP_2 3 // [G17,G18,G19] Plane selection #define MODAL_GROUP_3 4 // [G90,G91] Distance mode #define MODAL_GROUP_4 5 // [M0,M1,M2,M30] Stopping #define MODAL_GROUP_5 6 // [G93,G94] Feed rate mode #define MODAL_GROUP_6 7 // [G20,G21] Units #define MODAL_GROUP_7 8 // [M3,M4,M5] Spindle turning #define MODAL_GROUP_8 9 // [M7,M8,M9] Coolant control #define MODAL_GROUP_12 10 // [G54,G55,G56,G57,G58,G59] Coordinate system selection // Define command actions for within execution-type modal groups (motion, stopping, non-modal). Used // internally by the parser to know which command to execute. #define MOTION_MODE_SEEK 0 // G0 #define MOTION_MODE_LINEAR 1 // G1 #define MOTION_MODE_CW_ARC 2 // G2 #define MOTION_MODE_CCW_ARC 3 // G3 #define MOTION_MODE_CANCEL 4 // G80 #define PROGRAM_FLOW_RUNNING 0 #define PROGRAM_FLOW_PAUSED 1 // M0, M1 #define PROGRAM_FLOW_COMPLETED 2 // M2, M30 #define NON_MODAL_NONE 0 #define NON_MODAL_DWELL 1 // G4 #define NON_MODAL_SET_COORDINATE_DATA 2 // G10 #define NON_MODAL_GO_HOME_0 3 // G28 #define NON_MODAL_SET_HOME_0 4 // G28.1 #define NON_MODAL_GO_HOME_1 5 // G30 #define NON_MODAL_SET_HOME_1 6 // G30.1 #define NON_MODAL_SET_COORDINATE_OFFSET 7 // G92 #define NON_MODAL_RESET_COORDINATE_OFFSET 8 //G92.1 typedef struct { uint8_t status_code; // Parser status for current block uint8_t motion_mode; // {G0, G1, G2, G3, G80} uint8_t inverse_feed_rate_mode; // {G93, G94} uint8_t inches_mode; // 0 = millimeter mode, 1 = inches mode {G20, G21} uint8_t absolute_mode; // 0 = relative motion, 1 = absolute motion {G90, G91} uint8_t program_flow; // {M0, M1, M2, M30} uint8_t coolant_mode; // 0 = Disable, 1 = Flood Enable, 2 = Mist Enable {M8, M9} uint8_t spindle_direction; // 1 = CW, 2 = CCW, 0 = Stop {M3, M4, M5} float spindle_speed; // RPM float feed_rate; // Millimeters/min float position[N_AXIS]; // Where the interpreter considers the tool to be at this point in the code uint8_t tool; uint8_t plane_axis_0, plane_axis_1, plane_axis_2; // The axes of the selected plane uint8_t coord_select; // Active work coordinate system number. Default: 0=G54. float coord_system[N_AXIS]; // Current work coordinate system (G54+). Stores offset from absolute machine // position in mm. Loaded from EEPROM when called. float coord_offset[N_AXIS]; // Retains the G92 coordinate offset (work coordinates) relative to // machine zero in mm. Non-persistent. Cleared upon reset and boot. float arc_radius; float arc_offset[N_AXIS]; } parser_state_t; extern parser_state_t gc; // Initialize the parser void gc_init(); // Execute one block of rs275/ngc/g-code uint8_t gc_execute_line(char *line); // Set g-code parser position. Input in steps. void gc_sync_position(); #endif