pimoroni-pico/micropython/modules_py/pimoroni.py

import time
from machine import Pin, PWM, ADC


BREAKOUT_GARDEN_I2C_PINS = {"sda": 4, "scl": 5}
PICO_EXPLORER_I2C_PINS = {"sda": 20, "scl": 21}


class Analog:
    def __init__(self, pin, amplifier_gain=1, resistor=0, offset=0):
        self.gain = amplifier_gain
        self.resistor = resistor
        self.offset = offset
        self.pin = ADC(pin)

    def read_voltage(self):
        return max((((self.pin.read_u16() * 3.3) / 65535) + self.offset) / self.gain, 0.0)

    def read_current(self):
        if self.resistor > 0:
            return self.read_voltage() / self.resistor
        else:
            return self.read_voltage()


class AnalogMux:
    def __init__(self, addr0, addr1=None, addr2=None, en=None, muxed_pin=None):
        self.addr0_pin = Pin(addr0, Pin.OUT)
        self.addr1_pin = Pin(addr1, Pin.OUT) if addr1 is not None else None
        self.addr2_pin = Pin(addr2, Pin.OUT) if addr2 is not None else None
        self.en_pin = Pin(en, Pin.OUT) if en is not None else None
        self.max_address = 0b001
        if addr1 is not None:
            self.max_address = 0b011
            if addr2 is not None:
                self.max_address = 0b111
        self.pulls = [None] * (self.max_address + 1)
        self.muxed_pin = muxed_pin

    def select(self, address):
        if address < 0:
            raise ValueError("address is less than zero")
        elif address > self.max_address:
            raise ValueError("address is greater than number of available addresses")
        else:
            if self.muxed_pin and self.pulls[address] is None:
                self.muxed_pin.init(Pin.IN, None)

            self.addr0_pin.value(address & 0b001)

            if self.addr1_pin is not None:
                self.addr1_pin.value(address & 0b010)

            if self.addr2_pin is not None:
                self.addr2_pin.value(address & 0b100)

            if self.en_pin is not None:
                self.en_pin.value(1)

            if self.muxed_pin and self.pulls[address] is not None:
                self.muxed_pin.init(Pin.IN, self.pulls[address])

    def disable(self):
        if self.en_pin is not None:
            self.en_pin.value(0)
        else:
            raise RuntimeError("there is no enable pin assigned to this mux")

    def configure_pull(self, address, pull=None):
        if address < 0:
            raise ValueError("address is less than zero")
        elif address > self.max_address:
            raise ValueError("address is greater than number of available addresses")
        else:
            self.pulls[address] = pull


class Button:
    def __init__(self, button, invert=True, repeat_time=200, hold_time=1000):
        self.invert = invert
        self.repeat_time = repeat_time
        self.hold_time = hold_time
        self.pin = Pin(button, pull=Pin.PULL_UP if invert else Pin.PULL_DOWN)
        self.last_state = False
        self.pressed = False
        self.pressed_time = 0

    def read(self):
        current_time = time.ticks_ms()
        state = self.raw()
        changed = state != self.last_state
        self.last_state = state

        if changed:
            if state:
                self.pressed_time = current_time
                self.pressed = True
                self.last_time = current_time
                return True
            else:
                self.pressed_time = 0
                self.pressed = False
                self.last_time = 0

        if self.repeat_time == 0:
            return False

        if self.pressed:
            repeat_rate = self.repeat_time
            if self.hold_time > 0 and current_time - self.pressed_time > self.hold_time:
                repeat_rate /= 3
            if current_time - self.last_time > repeat_rate:
                self.last_time = current_time
                return True

        return False

    def raw(self):
        if self.invert:
            return not self.pin.value()
        else:
            return self.pin.value()


class RGBLED:
    def __init__(self, r, g, b, invert=True):
        self.invert = invert
        self.led_r = PWM(Pin(r))
        self.led_r.freq(1000)
        self.led_g = PWM(Pin(g))
        self.led_g.freq(1000)
        self.led_b = PWM(Pin(b))
        self.led_b.freq(1000)

    def set_rgb(self, r, g, b):
        if self.invert:
            r = 255 - r
            g = 255 - g
            b = 255 - b
        self.led_r.duty_u16(int((r * 65535) / 255))
        self.led_g.duty_u16(int((g * 65535) / 255))
        self.led_b.duty_u16(int((b * 65535) / 255))