klipper-dgus/klippy/extras/display/menu_keys.py

106 lines
4.2 KiB
Python

# -*- coding: utf-8 -*-
# Support for menu button press tracking
#
# Copyright (C) 2018 Janar Sööt <janar.soot@gmail.com>
# Copyright (C) 2020 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
LONG_PRESS_DURATION = 0.800
TIMER_DELAY = .200
class MenuKeys:
def __init__(self, config, callback):
self.printer = config.get_printer()
self.reactor = self.printer.get_reactor()
self.callback = callback
buttons = self.printer.load_object(config, "buttons")
# Register rotary encoder
encoder_pins = config.get('encoder_pins', None)
if encoder_pins is not None:
try:
pin1, pin2 = encoder_pins.split(',')
except:
raise config.error("Unable to parse encoder_pins")
buttons.register_rotary_encoder(pin1.strip(), pin2.strip(),
self.encoder_cw_callback,
self.encoder_ccw_callback)
self.encoder_fast_rate = config.getfloat('encoder_fast_rate',
.030, above=0.)
self.last_encoder_cw_eventtime = 0
self.last_encoder_ccw_eventtime = 0
# Register click button
self.is_short_click = False
self.click_timer = self.reactor.register_timer(self.long_click_event)
self.register_button(config, 'click_pin', self.click_callback, False)
# Register other buttons
self.register_button(config, 'back_pin', self.back_callback)
self.register_button(config, 'up_pin', self.up_callback)
self.register_button(config, 'down_pin', self.down_callback)
self.register_button(config, 'kill_pin', self.kill_callback)
def register_button(self, config, name, callback, push_only=True):
pin = config.get(name, None)
if pin is None:
return
buttons = self.printer.lookup_object("buttons")
if config.get('analog_range_' + name, None) is None:
if push_only:
buttons.register_button_push(pin, callback)
else:
buttons.register_buttons([pin], callback)
return
amin, amax = config.getfloatlist('analog_range_' + name, count=2)
pullup = config.getfloat('analog_pullup_resistor', 4700., above=0.)
if push_only:
buttons.register_adc_button_push(pin, amin, amax, pullup, callback)
else:
buttons.register_adc_button(pin, amin, amax, pullup, callback)
# Rotary encoder callbacks
def encoder_cw_callback(self, eventtime):
fast_rate = ((eventtime - self.last_encoder_cw_eventtime)
<= self.encoder_fast_rate)
self.last_encoder_cw_eventtime = eventtime
if fast_rate:
self.callback('fast_up', eventtime)
else:
self.callback('up', eventtime)
def encoder_ccw_callback(self, eventtime):
fast_rate = ((eventtime - self.last_encoder_ccw_eventtime)
<= self.encoder_fast_rate)
self.last_encoder_ccw_eventtime = eventtime
if fast_rate:
self.callback('fast_down', eventtime)
else:
self.callback('down', eventtime)
# Click handling
def long_click_event(self, eventtime):
self.is_short_click = False
self.callback('long_click', eventtime)
return self.reactor.NEVER
def click_callback(self, eventtime, state):
if state:
self.is_short_click = True
self.reactor.update_timer(self.click_timer,
eventtime + LONG_PRESS_DURATION)
elif self.is_short_click:
self.reactor.update_timer(self.click_timer, self.reactor.NEVER)
self.callback('click', eventtime)
# Other button callbacks
def back_callback(self, eventtime):
self.callback('back', eventtime)
def up_callback(self, eventtime):
self.callback('up', eventtime)
def down_callback(self, eventtime):
self.callback('down', eventtime)
def kill_callback(self, eventtime):
self.printer.invoke_shutdown("Shutdown due to kill button!")