ECEN5458/Software/python/hwtest.py

import time
import numpy as np

import board
import busio
import digitalio
from adafruit_servokit import ServoKit
import adafruit_ads1x15.ads1015 as ADS
from adafruit_ads1x15.analog_in import AnalogIn

from bokeh.io import curdoc
from bokeh.layouts import column, row
from bokeh.models import ColumnDataSource, Slider, TextInput, Button
from bokeh.plotting import figure

if __name__ == "__main__":
    mux_io = [None] * 4
    mux_io[0] = digitalio.DigitalInOut(board.D17)
    mux_io[1] = digitalio.DigitalInOut(board.D27)
    mux_io[2] = digitalio.DigitalInOut(board.D22)
    mux_io[3] = digitalio.DigitalInOut(board.D23)

    print("a")

    for ii, io in enumerate(mux_io):
        io.switch_to_output()

    print("b")

    i2c = busio.I2C(board.SCL, board.SDA)
    adc = ADS.ADS1015(i2c)
    adc_mux = AnalogIn(adc, ADS.P0)
    white_cal = [0]*8
    black_cal = [5]*8

    print("c")

    def get_reflectivity(chan):
        chan = int(chan)
        global mux_io
        global adc_mux
        mux = 1-np.array(list(f"{chan:04b}"), dtype=int)
        for ii, io in enumerate(mux_io):
            io.value = mux[ii]
        return adc_mux.voltage

    print("d")

    def get_normalized_reflectivity(chan):
        global white_cal
        global black_cal
        
        return (get_reflectivity(chan) - black_cal[chan]) / (white_cal[chan] - black_cal[chan])

    print("e")

    brightness_idx = np.arange(8)
    brightness = [get_normalized_reflectivity(c) for c in range(8)]

    print("f")

    plt_source = ColumnDataSource(data=dict(x=brightness_idx, y=brightness))

    print("g")

    # Set up plot
    plot = figure(plot_height=400, plot_width=400, title="my sine wave",
                tools="save",
                x_range=[0, 7], y_range=[0, 5])

    print("h")

    plot.line('x', 'y', source=plt_source, line_width=3, line_alpha=0.6)

    print("i")

    def update_data(*args, **kwargs):
        brightness = [get_normalized_reflectivity(c) for c in range(8)]
        plt_source.data = dict(x=brightness_idx, y=brightness)

    print("j")

    def cal_white(*args, **kwargs):
        global white_cal
        white_cal = [get_reflectivity(c) for c in range(8)]
        update_data()

    print("k")

    def cal_black(*args, **kwargs):
        global black_cal
        black_cal = [get_reflectivity(c) for c in range(8)]
        update_data()

    print("l")

    cal_white_button = Button(label="Cal White")
    
    print("m")

    cal_white_button.on_click(cal_white)

    print("n")

    cal_black_button = Button(label="Cal Black")
    cal_black_button.on_click(cal_black)
    
    print("o")

    controls = column(cal_white_button, cal_black_button)

    print("p")

    curdoc().add_root(row(controls, plot, width=800))

    print("r")

    curdoc().title = "test"

    print("s")


    # while True:
    #     time.sleep(0.1)
    #     update_data()


    # servos = ServoKit(channels=16).continuous_servo
    # servos[0].throttle = 0
    # servos[1].throttle = 0
    # servos[2].throttle = 0
    # time.sleep(1)
    # servos[0].throttle = 20
    # servos[1].throttle = 20
    # servos[2].throttle = 20
    # time.sleep(1)
    # servos[0].throttle = 0
    # servos[1].throttle = 0
    # servos[2].throttle = 0