Libraries are prebuilt Python modules that give added features to GladeVCP. In this way you can select what features you want - yet don’t have to build common ones yourself.
1. Info
Info is a library to collect and filters data from the INI file.
The available data and defaults:
LINUXCNC_IS_RUNNING LINUXCNC_VERSION INIPATH INI = linuxcnc.ini(INIPATH) MDI_HISTORY_PATH = '~/.axis_mdi_history' QTVCP_LOG_HISTORY_PATH = '~/qtvcp.log' MACHINE_LOG_HISTORY_PATH = '~/.machine_log_history' PREFERENCE_PATH = '~/.Preferences' SUB_PATH = None SUB_PATH_LIST = [] self.MACRO_PATH = None MACRO_PATH_LIST = [] INI_MACROS = self.INI.findall("DISPLAY", "MACRO") IMAGE_PATH = IMAGEDIR LIB_PATH = os.path.join(HOME, "share","qtvcp") PROGRAM_FILTERS = None PARAMETER_FILE = None MACHINE_IS_LATHE = False MACHINE_IS_METRIC = False MACHINE_UNIT_CONVERSION = 1 MACHINE_UNIT_CONVERSION_9 = [1]*9 TRAJ_COORDINATES = JOINT_COUNT = int(self.INI.find("KINS","JOINTS")or 0) AVAILABLE_AXES = ['X','Y','Z'] AVAILABLE_JOINTS = [0,1,2] GET_NAME_FROM_JOINT = {0:'X',1:'Y',2:'Z'} GET_JOG_FROM_NAME = {'X':0,'Y':1,'Z':2} NO_HOME_REQUIRED = False HOME_ALL_FLAG JOINT_TYPE = self.INI.find(section, "TYPE") or "LINEAR" JOINT_SEQUENCE_LIST JOINT_SYNC_LIST JOG_INCREMENTS = None ANGULAR_INCREMENTS = None GRID_INCREMENTS DEFAULT_LINEAR_JOG_VEL = 15 units per minute MIN_LINEAR_JOG_VEL = 60 units per minute MAX_LINEAR_JOG_VEL = 300 units per minute DEFAULT_ANGULAR_JOG_VEL = MIN_ANGULAR_JOG_VEL = MAX_ANGULAR_JOG_VEL = MAX_FEED_OVERRIDE = MAX_TRAJ_VELOCITY = AVAILABLE_SPINDLES = int(self.INI.find("TRAJ", "SPINDLES") or 1) DEFAULT_SPINDLE_0_SPEED = 200 MAX_SPINDLE_0_SPEED = 2500 MAX_SPINDLE_0_OVERRIDE = 100 MIN_SPINDLE_0_OVERRIDE = 50 MAX_FEED_OVERRIDE = 1.5 MAX_TRAJ_VELOCITY # user message dialog info USRMESS_BOLDTEXT = self.INI.findall("DISPLAY", "MESSAGE_BOLDTEXT") USRMESS_TEXT = self.INI.findall("DISPLAY", "MESSAGE_TEXT") USRMESS_TYPE = self.INI.findall("DISPLAY", "MESSAGE_TYPE") USRMESS_PINNAME = self.INI.findall("DISPLAY", "MESSAGE_PINNAME") USRMESS_DETAILS = self.INI.findall("DISPLAY", "MESSAGE_DETAILS") USRMESS_ICON = self.INI.findall("DISPLAY", "MESSAGE_ICON") ZIPPED_USRMESS = self.GLADEVCP = (self.INI.find("DISPLAY", "GLADEVCP")) or None # embedded program info TAB_NAMES = (self.INI.findall("DISPLAY", "EMBED_TAB_NAME")) or None TAB_LOCATION = (self.INI.findall("DISPLAY", "EMBED_TAB_LOCATION")) or [] TAB_CMD = (self.INI.findall("DISPLAY", "EMBED_TAB_COMMAND")) or None ZIPPED_TABS = MDI_COMMAND_LIST = (heading: [MDI_COMMAND_LIST], title: MDI_COMMAND") TOOL_FILE_PATH = (heading: [EMCIO], title:TOOL_TABLE) POSTGUI_HALFILE_PATH = (heading: [HAL], title: POSTGUI_HALFILE)
Det er noen hjelpefunksjoner - hovedsaklig brukt for skjermelementstøtte
get_error_safe_setting(self, heading, detail, default=None)
convert_metric_to_machine(data)
convert_imperial_to_machine(data)
convert_9_metric_to_machine(data)
convert_9_imperial_to_machine(data)
convert_units(data)
convert_units_9(data)
get_filter_program(fname)
To import this modules add this Python code to your import section:
############################ # **** IMPORT SECTION **** # ############################ from gladevcp.core import Info
To instantiate the module so you can use it in a handler file add this Python code to your instantiate section:
########################################### # **** INSTANTIATE LIBRARIES SECTION **** # ########################################### INFO = Info()
To access INFO data use this general syntax:
home_state = INFO.NO_HOME_REQUIRED if INFO.MACHINE_IS_METRIC is True: print('Metric based')
2. Action
This library is used to command LinuxCNC’s motion controller. It tries to hide incidental details and add convenience methods for developers.
To import this modules add this Python code to your import section:
############################ # **** IMPORT SECTION **** # ############################ from gladevcp.core import Action
To instantiate the module so you can use it add this Python code to your instantiate section:
########################################### # **** INSTANTIATE LIBRARIES SECTION **** # ########################################### ACTION = Action()
To access Action commands use general syntax such as these:
ACTION.SET_ESTOP_STATE(state) ACTION.SET_MACHINE_STATE(state) ACTION.SET_MACHINE_HOMING(joint) ACTION.SET_MACHINE_UNHOMED(joint) ACTION.SET_LIMITS_OVERRIDE() ACTION.SET_MDI_MODE() ACTION.SET_MANUAL_MODE() ACTION.SET_AUTO_MODE() ACTION.SET_LIMITS_OVERRIDE() ACTION.CALL_MDI(code) ACTION.CALL_MDI_WAIT(code) ACTION.CALL_INI_MDI(number) ACTION.CALL_OWORD() ACTION.OPEN_PROGRAM(filename) ACTION.SAVE_PROGRAM(text_source, fname): ACTION.SET_AXIS_ORIGIN(axis,value) ACTION.SET_TOOL_OFFSET(axis,value,fixture = False) ACTION.RUN() ACTION.ABORT() ACTION.PAUSE() ACTION.SET_MAX_VELOCITY_RATE(rate) ACTION.SET_RAPID_RATE(rate) ACTION.SET_FEED_RATE(rate) ACTION.SET_SPINDLE_RATE(rate) ACTION.SET_JOG_RATE(rate) ACTION.SET_JOG_INCR(incr) ACTION.SET_JOG_RATE_ANGULAR(rate) ACTION.SET_JOG_INCR_ANGULAR(incr, text) ACTION.SET_SPINDLE_ROTATION(direction = 1, rpm = 100, number = 0) ACTION.SET_SPINDLE_FASTER(number = 0) ACTION.SET_SPINDLE_SLOWER(number = 0) ACTION.SET_SPINDLE_STOP(number = 0) ACTION.SET_USER_SYSTEM(system) ACTION.ZERO_G92_OFFSET() ACTION.ZERO_ROTATIONAL_OFFSET() ACTION.ZERO_G5X_OFFSET(num) ACTION.RECORD_CURRENT_MODE() ACTION.RESTORE_RECORDED_MODE() ACTION.SET_SELECTED_AXIS(jointnum) ACTION.DO_JOG(jointnum, direction) ACTION.JOG(jointnum, direction, rate, distance=0) ACTION.TOGGLE_FLOOD() ACTION.SET_FLOOD_ON() ACTION.SET_FLOOD_OFF() ACTION.TOGGLE_MIST() ACTION.SET_MIST_ON() ACTION.SET_MIST_OFF() ACTION.RELOAD_TOOLTABLE() ACTION.UPDATE_VAR_FILE() ACTION.TOGGLE_OPTIONAL_STOP() ACTION.SET_OPTIONAL_STOP_ON() ACTION.SET_OPTIONAL_STOP_OFF() ACTION.TOGGLE_BLOCK_DELETE() ACTION.SET_BLOCK_DELETE_ON() ACTION.SET_BLOCK_DELETE_OFF() ACTION.RELOAD_DISPLAY() ACTION.SET_GRAPHICS_VIEW(view) ACTION.UPDATE_MACHINE_LOG(text, option=None): ACTION.SET_DISPLAY_MESSAGE(string) ACTION.SET_ERROR_MESSAGE(string)
There are some helper functions - mostly used for this library’s support
get_jog_info (num) jnum_check(num) ensure_mode(modes) open_filter_program(filename, filter)