def platform_Teensy3(): return ce.Compound('Teensy3', disable_collapse=True, attrs=[ ce.Compound('Mk20Clock', key='clock', title='Clock', collapsed=True, attrs=[ ce.Integer(key='prescaler', title='Prescaler'), ce.String(key='primary_timer', title='Primary timer'), ce.Constant(key='avail_oc_units', value=[ { 'value': 'FTM{}_{}'.format(i, j) } for i in range(2) for j in range({0: 8, 1: 2}[i]) ]) ]), ce.Compound('Mk20Adc', key='adc', title='ADC', collapsed=True, attrs=[ ce.Integer(key='AdcADiv', title='AdcADiv'), ]), ce.Compound('Mk20Watchdog', key='watchdog', title='Watchdog', collapsed=True, attrs=[ ce.Integer(key='Toval', title='Timeout value'), ce.Integer(key='Prescval', title='Prescaler value'), ]), ce.Compound('Mk20Pins', key='pins', title='Pins', collapsed=True, attrs=[ ce.Constant(key='input_modes', value=[ { 'ident': 'Mk20PinInputModeNormal', 'name': 'Normal' }, { 'ident': 'Mk20PinInputModePullUp', 'name': 'Pull-up' }, { 'ident': 'Mk20PinInputModePullDown', 'name': 'Pull-down' }, ]) ]), ])
def hard_pwm_choice(**kwargs): return ce.OneOf(title='Hard-PWM driver', choices=[ ce.Compound('AvrClockPwm', ident='id_pwm_output', disable_collapse=True, attrs=[ oc_unit_choice(key='oc_unit'), pin_choice(key='OutputPin', title='Output pin (determined by OC unit)'), ]), ce.Compound('At91Sam3xPwmChannel', disable_collapse=True, attrs=[ ce.Integer(key='ChannelPrescaler', title='Channel prescaler'), ce.Integer(key='ChannelPeriod', title='Channel period value'), ce.Integer(key='ChannelNumber', title='Channel number'), pin_choice(key='OutputPin', title='Output pin (constrained by choice of channel/signal)'), ce.String(key='Signal', title='Connection type (L/H)'), ]), ], **kwargs)
def at91sam_adc(): return ce.Compound('At91SamAdc', key='adc', title='ADC', collapsed=True, attrs=[ ce.Float(key='freq', title='Frequency'), ce.Float(key='avg_interval', title='Averaging interval'), ce.Float(key='smoothing', title='Smoothing factor'), ce.Integer(key='startup', title='Startup time'), ce.Integer(key='settling', title='Settling time'), ce.Integer(key='tracking', title='Tracking time'), ce.Integer(key='transfer', title='Transfer time') ])
def i2c_choice(**kwargs): return ce.OneOf(choices=[ ce.Compound('At91SamI2c', disable_collapse=True, attrs=[ ce.String(key='Device'), ce.Integer(key='Ckdiv'), ce.Float(key='I2cFreq') ]) ], **kwargs)
def spi_choice(**kwargs): return ce.OneOf(choices=[ ce.Compound('At91SamSpi', disable_collapse=True, attrs=[ ce.String(key='Device') ]), ce.Compound('AvrSpi', disable_collapse=True, attrs=[ ce.Integer(key='SpeedDiv') ]), ], **kwargs)
def platform_At91Sam3x8e(): return ce.Compound('At91Sam3x8e', disable_collapse=True, attrs=[ ce.Compound('At91Sam3xClock', key='clock', title='Clock', collapsed=True, attrs=[ ce.Integer(key='prescaler', title='Prescaler'), ce.String(key='primary_timer', title='Primary timer'), ce.Constant(key='avail_oc_units', value=[ { 'value': 'TC{}{}'.format(n, l) } for n in range(9) for l in ('A', 'B', 'C') ]) ]), ce.Compound('At91SamAdc', key='adc', title='ADC', collapsed=True, attrs=[ ce.Float(key='freq', title='Frequency'), ce.Float(key='avg_interval', title='Averaging interval'), ce.Float(key='smoothing', title='Smoothing factor'), ce.Integer(key='startup', title='Startup time'), ce.Integer(key='settling', title='Settling time'), ce.Integer(key='tracking', title='Tracking time'), ce.Integer(key='transfer', title='Transfer time') ]), ce.Compound('At91SamWatchdog', key='watchdog', title='Watchdog', collapsed=True, attrs=[ ce.Integer(key='Wdv', title='Wdv') ]), ce.Compound('At91SamPins', key='pins', title='Pins', collapsed=True, attrs=[ ce.Constant(key='input_modes', value=[ { 'ident': 'At91SamPinInputModeNormal', 'name': 'Normal' }, { 'ident': 'At91SamPinInputModePullUp', 'name': 'Pull-up' } ]) ]), ce.OneOf(key='pwm', title='PWM module', choices=[ ce.Compound('Disabled', title='Disabled', disable_collapse=True, attrs=[]), ce.Compound('At91Sam3xPwm', title='Enabled', disable_collapse=True, attrs=[ ce.Integer(key='PreA', title='Prescaler A'), ce.Integer(key='DivA', title='Divisor A'), ce.Integer(key='PreB', title='Prescaler B'), ce.Integer(key='DivB', title='Divisor B'), ]), ]), ])
def at91sam3x_clock(): return ce.Compound('At91Sam3xClock', key='clock', title='Clock', collapsed=True, attrs=[ ce.Integer(key='prescaler', title='Prescaler'), ce.String(key='primary_timer', title='Primary timer'), ce.Constant(key='avail_oc_units', value=[{ 'value': 'TC{}{}'.format(n, l) } for n in range(9) for l in ('A', 'B', 'C')]) ])
def platform_Avr(variant): if variant == 'ATmega2560': timers = (range(6), lambda i: ('A', 'B') + (() if i in (0, 2) else ('C',))) elif variant == 'ATmega1284p': timers = (range(4), lambda i: ('A', 'B')) else: assert False return ce.Compound('AVR {}'.format(variant), disable_collapse=True, attrs=[ ce.Compound('AvrClock', key='clock', title='Clock', collapsed=True, attrs=[ ce.Integer(key='PrescaleDivide', title='Prescaler (as division factor)'), ce.String(key='primary_timer', title='Primary timer'), ce.Constant(key='avail_oc_units', value=[ { 'value': 'TC{}_{}'.format(i, j) } for i in timers[0] for j in timers[1](i) ]), ce.Array(key='timers', title='Timer configuration', disable_collapse=True, elem=ce.Compound('Timer', title_key='Timer', collapsed=True, attrs=[ ce.String(key='Timer'), ce.OneOf(key='Mode', title='Mode', choices=[ ce.Compound('AvrClockTcModeClock', title='Normal (for interrupt-timers)', disable_collapse=True, attrs=[]), ce.Compound('AvrClockTcMode8BitPwm', title='PWM 8-bit (for Hard-PWM)', disable_collapse=True, attrs=[ ce.Integer(key='PrescaleDivide'), ]), ce.Compound('AvrClockTcMode16BitPwm', title='PWM 16-bit (for Hard-PWM)', disable_collapse=True, attrs=[ ce.Integer(key='PrescaleDivide'), ce.Integer(key='TopVal'), ]), ]), ])) ]), ce.Compound('AvrAdc', key='adc', title='ADC', collapsed=True, attrs=[ ce.Integer(key='RefSel'), ce.Integer(key='Prescaler'), ]), ce.Compound('AvrWatchdog', key='watchdog', title='Watchdog', collapsed=True, attrs=[ ce.String(key='Timeout', title='Timeout (WDTO_*)'), ]), ce.Compound('AvrPins', key='pins', title='Pins', collapsed=True, attrs=[ ce.Constant(key='input_modes', value=[ { 'ident': 'AvrPinInputModeNormal', 'name': 'Normal' }, { 'ident': 'AvrPinInputModePullUp', 'name': 'Pull-up' }, ]) ]), ])
def editor(): return ce.Compound('editor', title='Configuration editor', disable_collapse=True, no_header=True, ident='id_editor', attrs=[ ce.Constant(key='version', value=1), ce.Reference(key='selected_config', title='Selected configuration (to compile)', ref_array={'base': 'id_editor.configurations', 'descend': []}, ref_id_key='name', ref_name_key='name'), ce.Array(key='configurations', title='Configurations', processing_order=-1, copy_name_key='name', elem=ce.Compound('config', key='config', ident='id_configuration', title='Configuration', title_key='name', collapsed=True, attrs=[ ce.String(key='name', title='Configuration name', default='New Configuration'), ce.Reference(key='board', ref_array={'base': 'id_editor.boards', 'descend': []}, ref_id_key='name', ref_name_key='name', deref_key='board_data', title='Board', processing_order=-1), ce.Float(key='InactiveTime', title='Disable steppers after [s]', default=480), ce.Compound('advanced', key='advanced', title='Advanced parameters', collapsed=True, attrs=[ ce.Float(key='LedBlinkInterval', title='LED blink interval [s]', default=0.5), ce.Float(key='ForceTimeout', title='Force motion timeout [s]', default=0.1), ]), ce.Array(key='steppers', title='Steppers', disable_collapse=True, copy_name_key='Name', copy_name_suffix='?', elem=ce.Compound('stepper', title='Stepper', title_key='Name', collapsed=True, ident='id_configuration_stepper', attrs=[ ce.String(key='Name', title='Name (cartesian X/Y/Z, extruders E/U/V, delta A/B/C)'), ce.Reference(key='stepper_port', title='Stepper port', ref_array={'base': 'id_configuration.board_data', 'descend': ['stepper_ports']}, ref_id_key='Name', ref_name_key='Name'), ce.Boolean(key='InvertDir', title='Invert direction', false_title='No (high StepPin is positive motion)', true_title='Yes (high StepPin is negative motion)', default=False), ce.Float(key='StepsPerUnit', title='Steps per unit [1/mm]', default=80), ce.Float(key='MinPos', title='Minimum position [mm] (~-40000 for extruders)', default=0), ce.Float(key='MaxPos', title='Maximum position [mm] (~40000 for extruders)', default=200), ce.Float(key='MaxSpeed', title='Maximum speed [mm/s]', default=300), ce.Float(key='MaxAccel', title='Maximum acceleration [mm/s^2]', default=1500), ce.Float(key='DistanceFactor', title='Distance factor [1]', default=1), ce.Float(key='CorneringDistance', title='Cornering distance [step]', default=40), ce.Boolean(key='EnableCartesianSpeedLimit', title='Is cartesian (Yes for X/Y/Z, No for extruders)', default=True), homing_params(key='homing'), ])), ce.OneOf(key='transform', title='Coordinate transformation', choices=[ ce.Compound('NoTransform', title='None (cartesian)', disable_collapse=True, attrs=[]), make_transform_type(transform_type='CoreXY', transform_title='CoreXY/H-bot', segments_per_sec_relevant=False, stepper_defs=[ {'default_name': 'A', 'title': 'First stepper'}, {'default_name': 'B', 'title': 'Second stepper'}, ], axis_defs=[ {'axis_name': 'X', 'homing_allowed': True}, {'axis_name': 'Y', 'homing_allowed': True}, ], specific_params=[] ), make_transform_type(transform_type='Delta', transform_title='Delta', segments_per_sec_relevant=True, stepper_defs=[ {'default_name': 'A', 'title': 'Tower-1 stepper (bottom-left)'}, {'default_name': 'B', 'title': 'Tower-2 stepper (bottom-right)'}, {'default_name': 'C', 'title': 'Tower-3 stepper (top)'}, ], axis_defs=[ {'axis_name': 'X', 'homing_allowed': False}, {'axis_name': 'Y', 'homing_allowed': False}, {'axis_name': 'Z', 'homing_allowed': False}, ], specific_params=[ ce.Float(key='DiagnalRod', title='Diagonal rod length [mm]', default=214), ce.Float(key='SmoothRodOffset', title='Smooth rod offset [mm]', default=145), ce.Float(key='EffectorOffset', title='Effector offset [mm]', default=19.9), ce.Float(key='CarriageOffset', title='Carriage offset [mm]', default=19.5), ce.Float(key='MinSplitLength', title='Minimum segment length for splitting [mm]', default=0.1), ce.Float(key='MaxSplitLength', title='Maximum segment length for splitting [mm]', default=4.0), ] ), ]), ce.Array(key='heaters', title='Heaters', disable_collapse=True, copy_name_key='Name', copy_name_suffix='?', elem=ce.Compound('heater', title='Heater', title_key='Name', collapsed=True, ident='id_configuration_heater', attrs=[ ce.String(key='Name', title='Name (single character, T=extruder, B=bed)'), pwm_output_choice(configuration_context, key='pwm_output', title='PWM output'), ce.Integer(key='SetMCommand', title='Set command M-number (extruder 104, bed 140)', default=104), ce.Integer(key='WaitMCommand', title='Wait command M-number (extruder 109, bed 190)', default=109), analog_input_choice(key='ThermistorInput', title='Thermistor analog input'), ce.Float(key='MinSafeTemp', title='Turn off if temperature is below [C]', default=10), ce.Float(key='MaxSafeTemp', title='Turn off if temperature is above [C]', default=280), ce.Compound('conversion', key='conversion', title='Conversion parameters', disable_collapse=True, attrs=[ ce.Float(key='ResistorR', title='Series-resistor resistance [ohm]', default=4700), ce.Float(key='R0', title='Thermistor resistance @25C [ohm]', default=100000), ce.Float(key='Beta', title='Thermistor beta value [K]', default=3960), ce.Float(key='MinTemp', title='Reliable measurements are above [C]', default=10), ce.Float(key='MaxTemp', title='Reliable measurements are below [C]', default=300) ]), ce.Compound('control', key='control', title='PID control parameters', disable_collapse=True, attrs=[ ce.Float(key='ControlInterval', title='Invoke the PID control algorithm every [s]', default=0.2), ce.Float(key='PidP', title='Proportional factor [1/K]', default=0.05), ce.Float(key='PidI', title='Integral factor [1/(Ks)]', default=0.0005), ce.Float(key='PidD', title='Derivative factor [s/K]', default=0.2), ce.Float(key='PidIStateMin', title='Lower bound of the integral value [1]', default=0.0), ce.Float(key='PidIStateMax', title='Upper bound of the integral value [1]', default=0.6), ce.Float(key='PidDHistory', title='Smoothing factor for derivative estimation [1]', default=0.7) ]), ce.Compound('observer', key='observer', title='Temperature-reached semantics', disable_collapse=True, attrs=[ ce.Float(key='ObserverTolerance', title='The temperature must be within [K]', default=3), ce.Float(key='ObserverMinTime', title='For at least this long [s]', default=3), ce.Float(key='ObserverInterval', title='With a measurement taken each [s]', default=0.5), ]) ])), ce.Array(key='fans', title='Fans', disable_collapse=True, copy_name_key='Name', copy_name_suffix='?', elem=ce.Compound('fan', title='Fan', title_key='Name', collapsed=True, ident='id_configuration_fan', attrs=[ ce.String(key='Name', title='Name (single character, e.g. the same as corresponding extruder)'), pwm_output_choice(configuration_context, key='pwm_output', title='PWM output'), ce.Integer(key='SetMCommand', title='Set-command M-number (106 for first fan)'), ce.Integer(key='OffMCommand', title='Off-command M-number (107 for first fan)'), ])), ce.Compound('ProbeConfig', key='probe_config', title='Bed probing configuration', collapsed=True, attrs=[ ce.OneOf(key='probe', title='Bed probing', choices=[ ce.Compound('NoProbe', title='Disabled', disable_collapse=True, attrs=[]), ce.Compound('Probe', title='Enabled', ident='id_configuration_probe_probe', disable_collapse=True, attrs=[ digital_input_choice(key='ProbePin', title='Probe switch pin'), ce.Boolean(key='InvertInput', title='Invert switch input', false_title='No (high signal is pressed)', true_title='Yes (low signal is pressed)'), ce.Float(key='OffsetX', title='X-offset of probe from logical position [mm]', default=0), ce.Float(key='OffsetY', title='Y-offset of probe from logical position [mm]', default=0), ce.Float(key='StartHeight', title='Starting Z for probing a point [mm]', default=10), ce.Float(key='LowHeight', title='Minimum Z to move down to [mm]', default=2), ce.Float(key='RetractDist', title='Retraction distance [mm]', default=1), ce.Float(key='MoveSpeed', title='Speed for moving to probe points [mm/s]', default=200), ce.Float(key='FastSpeed', title='Fast probing speed [mm/s]', default=2), ce.Float(key='RetractSpeed', title='Retraction speed [mm/s]', default=10), ce.Float(key='SlowSpeed', title='Slow probing speed [mm/s]', default=0.5), ce.Array(key='ProbePoints', title='Coordinates of probing points', disable_collapse=True, table=True, elem=ce.Compound('ProbePoint', title='Point', attrs=[ ce.Float(key='X'), ce.Float(key='Y'), ])) ]) ]) ]), ce.Array(key='lasers', title='Lasers', disable_collapse=True, copy_name_key='Name', copy_name_suffix='?', elem=ce.Compound('laser', title='Laser', title_key='Name', collapsed=True, ident='id_configuration_laser', attrs=[ ce.String(key='Name', title='Name (single letter)', default='L'), ce.Reference(key='laser_port', title='Laser port', ref_array={'base': 'id_configuration.board_data', 'descend': ['laser_ports']}, ref_id_key='Name', ref_name_key='Name'), ce.String(key='DensityName', title='Density-control name (single letter)', default='M'), ce.Float(key='LaserPower', title='Laser power [Energy/s]', default=100), ce.Float(key='MaxPower', title='Maximum power [Energy/s] (values <LaserPower limit laser output)', default=100), ce.Float(key='AdjustmentInterval', title='Output adjustment interval [s]', default=0.005), ])), ])), ce.Array(key='boards', title='Boards', processing_order=-2, copy_name_key='name', elem=ce.Compound('board', title='Board', title_key='name', collapsed=True, ident='id_board', attrs=[ ce.String(key='name', title='Name (modifying will break references from configurations and lose data)'), ce.Compound('PlatformConfig', key='platform_config', title='Platform configuration', collapsed=True, processing_order=-10, attrs=[ ce.String(key='board_for_build', title='Board for building (see nix/boards.nix)'), ce.String(key='output_type', title='Build output type', enum=['hex', 'bin']), ce.Array(key='board_helper_includes', title='Board helper includes', disable_collapse=True, table=True, elem=ce.String(title='Name')), ce.OneOf(key='platform', title='Platform', processing_order=-1, choices=[ platform_At91Sam3x8e(), platform_Teensy3(), platform_Avr('ATmega2560'), platform_Avr('ATmega1284p'), ]), ]), pin_choice(key='LedPin', title='LED pin'), interrupt_timer_choice(key='EventChannelTimer', title='Event channel timer', disable_collapse=True), ce.Compound('RuntimeConfig', key='runtime_config', title='Runtime configuration', collapsed=True, attrs=[ ce.OneOf(key='config_manager', title='Runtime configuration', choices=[ ce.Compound('ConstantConfigManager', title='Disabled', disable_collapse=True, attrs=[]), ce.Compound('RuntimeConfigManager', title='Enabled', disable_collapse=True, attrs=[ ce.OneOf(key='ConfigStore', title='Configuration storage', choices=[ ce.Compound('NoStore', title='None', disable_collapse=True, attrs=[]), ce.Compound('EepromConfigStore', disable_collapse=True, attrs=[ ce.Integer(key='StartBlock'), ce.Integer(key='EndBlock'), ce.OneOf(key='Eeprom', title='EEPROM backend', choices=[ ce.Compound('I2cEeprom', disable_collapse=True, attrs=[ i2c_choice(key='I2c', title='I2C backend'), ce.Integer(key='I2cAddr'), ce.Integer(key='Size'), ce.Integer(key='BlockSize'), ce.Float(key='WriteTimeout') ]), ce.Compound('TeensyEeprom', disable_collapse=True, attrs=[ ce.Integer(key='Size'), ce.Integer(key='FakeBlockSize'), ]), ce.Compound('AvrEeprom', disable_collapse=True, attrs=[ ce.Integer(key='FakeBlockSize'), ]), ]), ]) ]) ]), ]), ]), ce.Compound('serial', key='serial', title='Serial parameters', collapsed=True, attrs=[ ce.Integer(key='BaudRate', title='Baud rate'), ce.Integer(key='RecvBufferSizeExp', title='Receive buffer size (power of two exponent)'), ce.Integer(key='SendBufferSizeExp', title='Send buffer size (power of two exponent)'), ce.Integer(key='GcodeMaxParts', title='Max parts in GCode command'), ce.OneOf(key='Service', title='Backend', choices=[ ce.Compound('AsfUsbSerial', title='AT91 USB', disable_collapse=True, attrs=[]), ce.Compound('At91Sam3xSerial', title='AT91 UART', disable_collapse=True, attrs=[]), ce.Compound('TeensyUsbSerial', title='Teensy3 USB', disable_collapse=True, attrs=[]), ce.Compound('AvrSerial', title='AVR UART', disable_collapse=True, attrs=[ ce.Boolean(key='DoubleSpeed'), ]), ]) ]), ce.Compound('SdCardConfig', key='sdcard_config', title='SD card configuration', collapsed=True, attrs=[ ce.OneOf(key='sdcard', title='SD card', choices=[ ce.Compound('NoSdCard', title='Disabled', disable_collapse=True,attrs=[]), ce.Compound('SdCard', title='Enabled', disable_collapse=True, attrs=[ ce.Integer(key='BufferBaseSize', title='Buffer size'), ce.Integer(key='MaxCommandSize', title='Maximum command size'), ce.OneOf(key='GcodeParser', title='G-code parser', choices=[ ce.Compound('TextGcodeParser', title='Text G-code parser', disable_collapse=True, attrs=[ ce.Integer(key='MaxParts', title='Maximum number of command parts') ]), ce.Compound('BinaryGcodeParser', title='Binary G-code parser', disable_collapse=True, attrs=[ ce.Integer(key='MaxParts', title='Maximum number of command parts') ]) ]), ce.OneOf(key='SdCardService', title='Driver', choices=[ ce.Compound('SpiSdCard', title='SPI', disable_collapse=True, attrs=[ pin_choice(key='SsPin', title='SS pin'), spi_choice(key='SpiService', title='SPI driver') ]) ]) ]) ]), ]), ce.Compound('performance', key='performance', title='Performance parameters', collapsed=True, attrs=[ ce.Float(key='MaxStepsPerCycle', title='Max steps per cycle'), ce.Integer(key='StepperSegmentBufferSize', title='Stepper segment buffer size'), ce.Integer(key='EventChannelBufferSize', title='Event channel buffer size'), ce.Integer(key='LookaheadBufferSize', title='Lookahead buffer size'), ce.Integer(key='LookaheadCommitCount', title='Lookahead commit count'), ce.String(key='FpType', enum=['float', 'double']), ce.String(key='AxisDriverPrecisionParams', title='Stepping precision parameters', enum=['AxisDriverAvrPrecisionParams', 'AxisDriverDuePrecisionParams']), ce.Float(key='EventChannelTimerClearance', title='Event channel timer clearance') ]), ce.Array(key='stepper_ports', title='Stepper ports', disable_collapse=True, copy_name_key='Name', elem=ce.Compound('stepper_port', title='Stepper port', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='DirPin', title='Direction pin'), pin_choice(key='StepPin', title='Step pin'), pin_choice(key='EnablePin', title='Enable pin'), interrupt_timer_choice(key='StepperTimer', title='Stepper timer', disable_collapse=True), ])), ce.Array(key='digital_inputs', title='Digital inputs', disable_collapse=True, copy_name_key='Name', processing_order=-8, elem=ce.Compound('digital_input', title='Digital input', title_key='Name', collapsed=True, ident='id_board_digital_inputs', attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='Pin', title='Pin'), ce.Reference(key='InputMode', title='Input mode', ref_array={'base': 'id_board.platform_config.platform', 'descend': ['pins', 'input_modes']}, ref_id_key='ident', ref_name_key='name') ])), ce.Array(key='analog_inputs', title='Analog inputs', disable_collapse=True, copy_name_key='Name', processing_order=-7, elem=ce.Compound('analog_input', title='Analog input', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='Pin', title='Pin'), ])), ce.Array(key='pwm_outputs', title='PWM outputs', disable_collapse=True, copy_name_key='Name', processing_order=-6, elem=ce.Compound('pwm_output', title='PWM output', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), ce.OneOf(key='Backend', title='Backend', choices=[ ce.Compound('SoftPwm', disable_collapse=True, attrs=[ pin_choice(key='OutputPin', title='Output pin'), ce.Boolean(key='OutputInvert', title='Output logic', false_title='Normal (On=High)', true_title='Inverted (On=Low)'), ce.Float(key='PulseInterval', title='PWM pulse duration'), interrupt_timer_choice(key='Timer', title='Soft PWM Timer', disable_collapse=True), ]), ce.Compound('HardPwm', disable_collapse=True, attrs=[ hard_pwm_choice(key='HardPwmDriver'), ]), ]) ])), ce.Array(key='laser_ports', title='Laser ports', disable_collapse=True, copy_name_key='Name', elem=ce.Compound('laser_port', title='Laser port', title_key='Name', collapsed=True, ident='id_laser_port', attrs=[ ce.String(key='Name', title='Name', default='Laser'), pwm_output_choice(board_context, key='pwm_output', title='PWM output (must be hard-PWM)'), interrupt_timer_choice(key='LaserTimer', title='Output adjustment timer', disable_collapse=True), ])), ])) ])
def editor(): return ce.Compound( 'editor', title='Configuration editor', disable_collapse=True, no_header=True, attrs=[ ce.Array( key='configurations', title='Configurations', elem=ce.Compound( 'config', key='config', ident='id_configuration', title='Configuration', title_key='name', collapsed=True, attrs=[ ce.String(key='name', title='Name'), ce.Reference(key='board_id', ref_array='boards', ref_id_key='identifier', ref_name_key='name', deref_key='board_data', title='Board'), ce.Float(key='InactiveTime', title='Inactive time'), ce.Compound('advanced', key='advanced', title='Advanced parameters', collapsed=True, attrs=[ ce.Float(key='LedBlinkInterval', title='LED blink interval'), ce.Float(key='ForceTimeout', title='Force timeout'), ]), ce.Array( key='steppers', title='Steppers', disable_collapse=True, elem=ce.Compound( 'stepper', title='Stepper', title_key='Name', collapsed=True, ident='id_configuration_stepper', attrs=[ ce.String(key='Name', title='Name'), ce.Reference( key='stepper_port', title='Stepper port', ref_array='id_configuration.board_data', ref_array_descend=['stepper_ports'], ref_id_key='Name', ref_name_key='Name'), ce.Boolean(key='InvertDir', title='Invert direction'), ce.Float(key='StepsPerUnit', title='Steps per unit'), ce.Float(key='MinPos', title='Minimum position'), ce.Float(key='MaxPos', title='Maximum position'), ce.Float(key='MaxSpeed', title='Maximum speed'), ce.Float(key='MaxAccel', title='Maximum acceleration'), ce.Float(key='DistanceFactor', title='Distance factor'), ce.Float(key='CorneringDistance', title='Cornering distance'), ce.Boolean(key='EnableCartesianSpeedLimit', title='Is cartesian'), ce.OneOf( key='homing', title='Homing', collapsed=True, choices=[ ce.Compound('no_homing', title='Disabled', attrs=[]), ce.Compound( 'homing', title='Enabled', ident= 'id_board_steppers_homing', attrs=[ ce.Boolean( key='HomeDir', title= 'Homing direction', false_title='Negative', true_title='Positive'), digital_input_choice( key='HomeEndstopInput', title= 'Endstop digital input' ), ce.Boolean( key='HomeEndInvert', title='Invert endstop' ), ce.Float( key='HomeFastMaxDist', title= 'Maximum fast (initial) travel' ), ce.Float( key='HomeRetractDist', title= 'Retraction travel'), ce.Float( key='HomeSlowMaxDist', title= 'Maximum slow (after retraction) travel' ), ce.Float( key='HomeFastSpeed', title='Fast speed'), ce.Float( key='HomeRetractSpeed', title='Retraction speed' ), ce.Float( key='HomeSlowSpeed', title='Slow speed') ]) ]) ])), ce.Array( key='heaters', title='Heaters', disable_collapse=True, elem=ce.Compound( 'heater', title='Heater', title_key='Name', collapsed=True, ident='id_configuration_heater', attrs=[ ce.String(key='Name', title='Name'), pwm_output_choice(key='pwm_output', title='PWM output'), ce.Integer(key='SetMCommand', title='Set command M-number'), ce.Integer(key='WaitMCommand', title='Wait command M-number'), analog_input_choice( key='ThermistorInput', title='Thermistor analog input'), ce.Float( key='MinSafeTemp', title='Minimum safe temperature [C]'), ce.Float( key='MaxSafeTemp', title='Maximum safe temperature [C]'), ce.Compound( 'conversion', key='conversion', title='Conversion parameters', collapsed=True, attrs=[ ce.Float( key='ResistorR', title= 'Resistor resistance [ohm]'), ce.Float( key='R0', title= 'Thermistor resistance @25C [ohm]' ), ce.Float( key='Beta', title= 'Thermistor beta value [K]'), ce.Float( key='MinTemp', title='Minimum temperature [C]' ), ce.Float( key='MaxTemp', title='Maximum temperature [C]' ) ]), ce.Compound( 'control', key='control', title='Control parameters', collapsed=True, attrs=[ ce.Float( key='ControlInterval', title='Control interval [s]'), ce.Float( key='PidP', title= 'PID proportional factor [1/K]' ), ce.Float( key='PidI', title= 'PID integral factor [1/(Ks)]' ), ce.Float( key='PidD', title= 'PID derivative factor [s/K]'), ce.Float( key='PidIStateMin', title= 'PID integral state min [1]'), ce.Float( key='PidIStateMax', title= 'PID integral state max [1]'), ce.Float( key='PidDHistory', title= 'PID derivative smoothing factor [1]' ) ]), ce.Compound( 'observer', key='observer', title='Observation parameters', collapsed=True, attrs=[ ce.Float( key='ObserverInterval', title='Observation interval [s]' ), ce.Float( key='ObserverTolerance', title= 'Observation tolerance [K]'), ce.Float( key='ObserverMinTime', title= 'Observation minimum time [s]') ]) ])), ce.Array( key='fans', title='Fans', disable_collapse=True, elem=ce.Compound( 'fan', title='Fan', title_key='Name', collapsed=True, ident='id_configuration_fan', attrs=[ ce.String(key='Name', title='Name'), pwm_output_choice(key='pwm_output', title='PWM output'), ce.Integer(key='SetMCommand', title='Set command M-number'), ce.Integer(key='OffMCommand', title='Off command M-number'), ])), ce.OneOf( key='probe', title='Bed probing', collapsed=True, choices=[ ce.Compound('NoProbe', title='Disabled', attrs=[]), ce.Compound( 'Probe', title='Enabled', ident='id_configuration_probe_probe', attrs=[ digital_input_choice( key='ProbePin', title='Probe pin'), ce.Boolean(key='InvertInput', title='Invert input'), ce.Float( key='OffsetX', title='Probe offset (X)'), ce.Float( key='OffsetY', title='Probe offset (Y)'), ce.Float( key='StartHeight', title= 'Starting Z for probing a point'), ce.Float( key='LowHeight', title='Minimum Z to move down to'), ce.Float(key='RetractDist', title='Retraction distance'), ce.Float( key='MoveSpeed', title= 'Speed for moving to probe points' ), ce.Float( key='FastSpeed', title='Fast (first) probing speed' ), ce.Float(key='RetractSpeed', title='Retraction speed'), ce.Float( key='SlowSpeed', title='Slow (second) probing speed' ), ce.Array(key='ProbePoints', title='Probe points', elem=ce.Compound( 'ProbePoint', title='Probe point', attrs=[ ce.Float(key='X'), ce.Float(key='Y') ])) ]) ]) ])), ce.Array( key='boards', title='Boards', elem=ce.Compound( 'board', title='Board', title_key='name', collapsed=True, ident='id_board', attrs=[ ce.String(key='identifier', title='Identifier'), ce.String(key='name', title='Name'), pin_choice(key='LedPin', title='LED pin'), ce.OneOf( key='config_manager', title='Runtime configuration', collapsed=True, choices=[ ce.Compound('ConstantConfigManager', title='Disabled', attrs=[]), ce.Compound( 'RuntimeConfigManager', title='Enabled', attrs=[ ce.OneOf( key='ConfigStore', title='Configuration storage', disable_collapse=True, choices=[ ce.Compound('NoStore', title='None', attrs=[]), ce.Compound( 'EepromConfigStore', attrs=[ ce.OneOf( key='Eeprom', title= 'EEPROM backend', disable_collapse= True, choices=[ ce.Compound( 'I2cEeprom', attrs=[ i2c_choice( key= 'I2c', title ='I2C backend' ), ce. Integer( key= 'I2cAddr' ), ce. Integer( key= 'Size' ), ce. Integer( key= 'BlockSize' ), ce. Float( key= 'WriteTimeout' ) ]) ]), ce.Integer( key='StartBlock'), ce.Integer( key='EndBlock'), ]) ]) ]), ]), ce.Compound( 'serial', key='serial', title='Serial parameters', collapsed=True, attrs=[ ce.Integer(key='BaudRate', title='Baud rate'), ce.Integer( key='RecvBufferSizeExp', title= 'Receive buffer size (power of two exponent)' ), ce.Integer( key='SendBufferSizeExp', title= 'Send buffer size (power of two exponent)' ), ce.Integer(key='GcodeMaxParts', title='Max parts in GCode command'), ce.OneOf(key='Service', title='Backend', disable_collapse=True, choices=[ ce.Compound('AsfUsbSerial', title='AT91 USB', attrs=[]), ce.Compound('At91Sam3xSerial', title='AT91 UART', attrs=[]) ]) ]), ce.OneOf( key='sdcard', title='SD card', collapsed=True, choices=[ ce.Compound('NoSdCard', title='Disabled', attrs=[]), ce.Compound( 'SdCard', title='Enabled', attrs=[ ce.Integer(key='BufferBaseSize', title='Buffer size'), ce.Integer( key='MaxCommandSize', title='Maximum command size'), ce.OneOf( key='GcodeParser', title='G-code parser', choices=[ ce.Compound( 'TextGcodeParser', title='Text G-code parser', attrs=[ ce.Integer( key='MaxParts', title= 'Maximum number of command parts' ) ]), ce.Compound( 'BinaryGcodeParser', title= 'Binary G-code parser', attrs=[ ce.Integer( key='MaxParts', title= 'Maximum number of command parts' ) ]) ]), ce.OneOf( key='SdCardService', title='Driver', collapsed=True, choices=[ ce.Compound( 'SpiSdCard', title='SPI', attrs=[ pin_choice( key='SsPin', title='SS pin'), spi_choice( key='SpiService', title='SPI driver') ]) ]) ]) ]), ce.Compound( 'performance', key='performance', title='Performance parameters', collapsed=True, attrs=[ ce.Float(key='MaxStepsPerCycle', title='Max steps per cycle'), ce.Integer( key='StepperSegmentBufferSize', title='Stepper segment buffer size'), ce.Integer(key='EventChannelBufferSize', title='Event channel buffer size'), ce.Integer(key='LookaheadBufferSize', title='Lookahead buffer size'), ce.Integer(key='LookaheadCommitCount', title='Lookahead commit count'), ce.String(key='FpType', enum=['float', 'double']), ce.String( key='AxisDriverPrecisionParams', title='Stepping precision parameters', enum=[ 'AxisDriverAvrPrecisionParams', 'AxisDriverDuePrecisionParams' ]), ce.Float(key='EventChannelTimerClearance', title='Event channel timer clearance') ]), interrupt_timer_choice(key='EventChannelTimer', title='Event channel timer'), ce.Array(key='stepper_ports', title='Stepper ports', disable_collapse=True, elem=ce.Compound( 'stepper_port', title='Stepper port', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='DirPin', title='Direction pin'), pin_choice(key='StepPin', title='Step pin'), pin_choice(key='EnablePin', title='Enable pin'), interrupt_timer_choice( key='StepperTimer', title='Stepper timer'), ])), ce.Array(key='digital_inputs', title='Digital inputs', disable_collapse=True, elem=ce.Compound( 'digital_input', title='Digital input', title_key='Name', collapsed=True, ident='id_board_digital_inputs', attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='Pin', title='Pin'), ce.Reference( key='InputMode', title='Input mode', ref_array='id_board.platform', ref_array_descend=[ 'pins', 'input_modes' ], ref_id_key='ident', ref_name_key='name') ])), ce.Array(key='analog_inputs', title='Analog inputs', disable_collapse=True, elem=ce.Compound('analog_input', title='Analog input', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), pin_choice(key='Pin', title='Pin'), ])), ce.Array( key='pwm_outputs', title='PWM outputs', disable_collapse=True, elem=ce.Compound( 'pwm_output', title='PWM output', title_key='Name', collapsed=True, attrs=[ ce.String(key='Name', title='Name'), ce.OneOf( key='Backend', title='Backend', disable_collapse=True, choices=[ ce.Compound( 'SoftPwm', attrs=[ pin_choice( key='OutputPin', title='Output pin'), ce.Boolean( key='OutputInvert', title='Output logic', false_title= 'Normal (On=High)', true_title= 'Inverted (On=Low)'), ce.Float( key='PulseInterval', title= 'PWM pulse duration'), interrupt_timer_choice( key='Timer', title='Soft PWM Timer') ]) ]) ])), ce.OneOf(key='platform', title='Platform', disable_collapse=True, choices=[ ce.Compound('At91Sam3x8e', attrs=[ at91sam3x_clock(), at91sam_adc(), at91sam_watchdog(), at91sam_pins() ]) ]), ce.Array(key='board_helper_includes', title='Board helper includes', disable_collapse=True, table=True, elem=ce.String(title='Name')) ])) ])
def at91sam_watchdog(): return ce.Compound('At91SamWatchdog', key='watchdog', title='Watchdog', collapsed=True, attrs=[ce.Integer(key='Wdv', title='Wdv')])