pca9632: Update to use LEDHelper class
Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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0c425cf014
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@ -3,7 +3,9 @@
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# Copyright (C) 2022 Ricardo Alcantara <ricardo@vulcanolabs.com>
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# Copyright (C) 2022 Ricardo Alcantara <ricardo@vulcanolabs.com>
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#
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#
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# This file may be distributed under the terms of the GNU GPLv3 license.
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# This file may be distributed under the terms of the GNU GPLv3 license.
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from .mcp4018 import SoftwareI2C
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from . import mcp4018
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BACKGROUND_PRIORITY_CLOCK = 0x7fffffff00000000
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# Register addresses
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# Register addresses
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PCA9632_MODE1 = 0x00
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PCA9632_MODE1 = 0x00
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@ -22,70 +24,43 @@ PCA9632_WHT = 0x06
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class PCA9632:
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class PCA9632:
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def __init__(self, config):
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def __init__(self, config):
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self.printer = config.get_printer()
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self.printer = printer = config.get_printer()
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self.i2c = mcp4018.SoftwareI2C(config, 98)
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self.i2c = SoftwareI2C(config, 98)
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self.prev_regs = {}
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#i2c_addr = self.i2c.get_i2c_address()
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pled = printer.load_object(config, "led")
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self.led_helper = pled.setup_helper(config, self.update_leds, 1, True)
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name = config.get_name().split()[1]
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printer.register_event_handler("klippy:connect", self.handle_connect)
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self.gcode = self.printer.lookup_object('gcode')
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def reg_write(self, reg, val, minclock=0):
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self.gcode.register_mux_command("SET_LED","LED",name,self.set_led,
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if self.prev_regs.get(reg) == val:
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desc="Set the color of an LED")
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return
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self.prev_regs[reg] = val
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self.led_red = config.getfloat("initial_RED",0.,0.,1.)
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self.i2c.i2c_write([reg, val], minclock=minclock,
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self.led_green = config.getfloat("initial_GREEN",0.,0.,1.)
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reqclock=BACKGROUND_PRIORITY_CLOCK)
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self.led_blue = config.getfloat("initial_BLUE",0.,0.,1.)
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self.led_white = config.getfloat("initial_WHITE",0.,0.,1.)
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config.get_printer().register_event_handler("klippy:connect",
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self.handle_connect)
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def handle_connect(self):
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def handle_connect(self):
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self._init_PCA9632()
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def _init_PCA9632(self):
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#Configure MODE1
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#Configure MODE1
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self.i2c.i2c_write([PCA9632_MODE1,0x00])
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self.reg_write(PCA9632_MODE1, 0x00)
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#Configure MODE2 (DIMMING, INVERT, CHANGE ON STOP,TOTEM)
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#Configure MODE2 (DIMMING, INVERT, CHANGE ON STOP,TOTEM)
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self.i2c.i2c_write([PCA9632_MODE2,0x15])
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self.reg_write(PCA9632_MODE2, 0x15)
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self.led_red = int(self.led_red * 255.)
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self.update_leds(self.led_helper.get_status()['color_data'], None)
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self.led_blue = int(self.led_blue * 255.)
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def update_leds(self, led_state, print_time):
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self.led_green = int(self.led_green * 255.)
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minclock = 0
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self.led_white = int(self.led_white * 255.)
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if print_time is not None:
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minclock = self.i2c.get_mcu().print_time_to_clock(print_time)
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self.i2c.i2c_write([PCA9632_PWM0,self.led_red])
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red, green, blue, white = [int(v * 255. + .5) for v in led_state[0]]
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self.i2c.i2c_write([PCA9632_PWM1,self.led_blue])
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self.reg_write(PCA9632_PWM0, red, minclock=minclock)
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self.i2c.i2c_write([PCA9632_PWM2,self.led_green])
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self.reg_write(PCA9632_PWM1, blue, minclock=minclock)
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self.i2c.i2c_write([PCA9632_PWM3,self.led_white])
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self.reg_write(PCA9632_PWM2, green, minclock=minclock)
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self.reg_write(PCA9632_PWM3, white, minclock=minclock)
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LEDOUT = (LED_PWM << PCA9632_RED if self.led_red else 0)
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LEDOUT = (LED_PWM << PCA9632_RED if red else 0)
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LEDOUT |= (LED_PWM << PCA9632_GRN if self.led_green else 0)
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LEDOUT |= (LED_PWM << PCA9632_GRN if green else 0)
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LEDOUT |= (LED_PWM << PCA9632_BLU if self.led_blue else 0)
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LEDOUT |= (LED_PWM << PCA9632_BLU if blue else 0)
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LEDOUT |= (LED_PWM << PCA9632_WHT if self.led_white else 0)
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LEDOUT |= (LED_PWM << PCA9632_WHT if white else 0)
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self.reg_write(PCA9632_LEDOUT, LEDOUT, minclock=minclock)
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self.i2c.i2c_write([PCA9632_LEDOUT,LEDOUT])
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def get_status(self, eventtime):
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def set_led(self, gcmd):
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return self.led_helper.get_status(eventtime)
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self.led_red = gcmd.get_float("RED",self.led_red,0.,1.)
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self.led_green = gcmd.get_float("GREEN",self.led_green,0.,1.)
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self.led_blue = gcmd.get_float("BLUE",self.led_blue,0.,1.)
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self.led_white = gcmd.get_float("WHITE",self.led_white,0.,1.)
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self.led_red = int(self.led_red * 255.)
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self.led_blue = int(self.led_blue * 255.)
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self.led_green = int(self.led_green * 255.)
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self.led_white = int(self.led_white * 255.)
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self.i2c.i2c_write([PCA9632_PWM0,self.led_red])
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self.i2c.i2c_write([PCA9632_PWM1,self.led_blue])
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self.i2c.i2c_write([PCA9632_PWM2,self.led_green])
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self.i2c.i2c_write([PCA9632_PWM3,self.led_white])
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LEDOUT = (LED_PWM << PCA9632_RED if self.led_red else 0)
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LEDOUT |= (LED_PWM << PCA9632_GRN if self.led_green else 0)
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LEDOUT |= (LED_PWM << PCA9632_BLU if self.led_blue else 0)
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LEDOUT |= (LED_PWM << PCA9632_WHT if self.led_white else 0)
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self.i2c.i2c_write([PCA9632_LEDOUT,LEDOUT])
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def load_config_prefix(config):
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def load_config_prefix(config):
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return PCA9632(config)
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return PCA9632(config)
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