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- #!/usr/bin/env python3
-
- # For the Pimoroni Interstate75 Raspberry Pi Pico RGB LED Matrix interface:
- # https://github.com/pimoroni/pimoroni-pico
- #
- # ----------------------------------------------------------------------------
- # "THE BEER-WARE LICENSE" (Revision 42):
- # <xythobuz@xythobuz.de> wrote this file. As long as you retain this notice
- # you can do whatever you want with this stuff. If we meet some day, and you
- # think this stuff is worth it, you can buy me a beer in return. Thomas Buck
- # ----------------------------------------------------------------------------
-
- import interstate75
- import hub75
- from mapper import MapperReduceBrightness
- import time
- from machine import Pin, ADC
- import math
-
- # https://github.com/pimoroni/pimoroni-pico/blob/main/micropython/examples/interstate75/75W/clock.py
- @micropython.native # noqa: F821
- def from_hsv(h, s, v):
- i = math.floor(h * 6.0)
- f = h * 6.0 - i
- v *= 255.0
- p = v * (1.0 - s)
- q = v * (1.0 - f * s)
- t = v * (1.0 - (1.0 - f) * s)
-
- i = int(i) % 6
- if i == 0:
- return int(v), int(t), int(p)
- if i == 1:
- return int(q), int(v), int(p)
- if i == 2:
- return int(p), int(v), int(t)
- if i == 3:
- return int(p), int(q), int(v)
- if i == 4:
- return int(t), int(p), int(v)
- if i == 5:
- return int(v), int(p), int(q)
-
- def batt_to_color(batt):
- h = batt[0] / 100.0 * 0.3333
- r, g, b = from_hsv(h, 1.0, 1.0)
- return r, g, b
-
- class PicoMatrix:
- def __init__(self, w = 32, h = 32):
- self.width = w # x-axis
- self.height = h # y-axis
-
- self.panelW = w # x-axis
- self.panelH = h # y-axis
-
- # compatibility to TestGUI
- self.multiplier = 1.0
-
- if (w != 32) or (h != 32):
- raise RuntimeError("TODO not yet supported")
-
- mode = interstate75.DISPLAY_INTERSTATE75_32X32
- self.matrix = interstate75.Interstate75(display = mode, panel_type = hub75.PANEL_FM6126A)
-
- self.black = self.matrix.display.create_pen(0, 0, 0)
- self.white = self.matrix.display.create_pen(255, 255, 255)
-
- self.ledTime = time.time()
- self.led = Pin("LED", Pin.OUT)
- self.ledRefresh = 0.5
-
- self.adc = ADC(26)
- self.battState = None
- self.battTime = time.time()
- self.battRefresh = 10
-
- self.loop_start() # initialize with blank image for ScrollText constructor
-
- def exit(self):
- self.matrix.stop()
-
- def battery(self):
- n = const(10)
- bits = const(10)
- raw = 0
- for i in range(0, n):
- raw += self.adc.read_u16() >> (16 - bits)
- time.sleep(0.1 / n)
- raw /= n
-
- v_adc_ref = const(3.3) # V
- v_adc = (raw / ((1 << bits) - 1)) * v_adc_ref
-
- r1 = const(27.0) # kOhm
- r2 = const(5.6) # kOhm
- v_bat_uncal = (v_adc * (r1 + r2)) / r2
-
- # Calibration
- # TODO supports only 2 points
- cal_pts = [
- # adc, bat
- #(13.65, 15.46),
- #(13.60, 15.34),
- (13.625, 15.4), # avg of above
-
- (14.30, 16.13),
- ]
-
- # https://www.ti.com/europe/downloads/f2810_12_calibration_10.pdf
- gain = (cal_pts[0][1] - cal_pts[1][1]) / (cal_pts[0][0] - cal_pts[1][0])
- offset = cal_pts[1][1] - cal_pts[1][0] * gain
- v_bat = v_bat_uncal * gain + offset
-
- # Use this to gather calibration data
- #v_bat = v_bat_uncal
- #print(v_bat)
-
- # TODO auto-detect cell count
- n_lipo = const(4) # 4S
- v_cell = v_bat / n_lipo
-
- v_cell_min = const(3.25)
- v_cell_max = const(4.2)
- p_cell = (v_cell - v_cell_min) / (v_cell_max - v_cell_min) * 100.0
- p_cell = max(min(p_cell, 100.0), 0.0)
-
- ret = (p_cell, v_cell, v_bat)
-
- r, g, b = batt_to_color(ret)
- self.matrix.set_led(r, g, b)
-
- return ret
-
- def batteryCache(self, refresh = False):
- now = time.time()
- if (self.battState == None) or ((now - self.battTime) >= self.battRefresh) or (now < self.battTime) or refresh:
- self.battTime = now
- self.battState = self.battery()
- return self.battState
-
- def heartbeat(self):
- now = time.time()
- if ((now - self.ledTime) >= self.ledRefresh) or (now < self.ledTime):
- self.ledTime = now
- self.led.toggle()
-
- def loop_start(self):
- self.matrix.display.set_pen(self.black)
- self.matrix.display.clear()
- self.matrix.display.set_pen(self.white)
-
- return False # no input, never quit on our own
-
- def loop_end(self):
- self.matrix.update()
-
- # LED heartbeat blink
- self.heartbeat()
-
- # update battery if necessary
- self.batteryCache(False)
-
- def set_pixel(self, x, y, color):
- if (x < 0) or (y < 0) or (x >= self.width) or (y >= self.height):
- return
-
- pen = self.matrix.display.create_pen(color[0], color[1], color[2])
- self.matrix.display.set_pen(pen)
-
- self.matrix.display.pixel(int(x), int(y))
-
- class PicoText:
- def __init__(self, g, fg = (255, 255, 255), bg = (0, 0, 0), c = (0, 255, 0)):
- self.gui = g
- self.fg = fg
- self.bg = bg
- self.color = c
-
- def text(self, s, f, offset = 0, earlyAbort = True, yOff = 0, compat = True):
- if not earlyAbort:
- self.gui.matrix.display.set_font(f)
- return self.gui.matrix.display.measure_text(s, scale=1)
-
- color = self.fg
- if isinstance(self.gui, MapperReduceBrightness):
- color = self.gui.adjust(color)
-
- pen = self.gui.matrix.display.create_pen(color[0], color[1], color[2])
- self.gui.matrix.display.set_pen(pen)
-
- self.gui.matrix.display.set_font(f)
-
- if not compat:
- # absolute positioning
- x = offset
- y = yOff
- else:
- # centered, like BDF DrawText implementation
- fontOff = 0
- if f == "bitmap6":
- fontOff = 3
- elif f == "bitmap8":
- fontOff = 4
- elif f == "bitmap14_outline":
- fontOff = 7
-
- x = -offset
- y = int(self.gui.height / 2 - fontOff + yOff)
-
- self.gui.matrix.display.text(s, x, y, scale=1)
-
- class PicoBatt:
- def __init__(self, g, ti = 5.0, tt = 5.0):
- self.gui = g
- self.timeImage = ti
- self.timeText = tt
- self.text = PicoText(self.gui)
- self.restart()
-
- def restart(self):
- self.start = time.time()
-
- def finished(self):
- now = time.time()
- return ((now - self.start) >= (self.timeText + self.timeImage)) or (now < self.start)
-
- def drawText(self, refresh = False):
- batt = self.gui.batteryCache(refresh)
- c = batt_to_color(batt)
-
- self.text.fg = (255, 255, 255)
- self.text.text( "Batt:", "bitmap8", 0, True, 8 * 0, False)
-
- self.text.fg = c
- self.text.text("{:.2f}%".format(batt[0]), "bitmap8", 0, True, 8 * 1, False)
- self.text.text("{:.2f}V".format(batt[1]), "bitmap8", 0, True, 8 * 2, False)
- self.text.text("{:.2f}V".format(batt[2]), "bitmap8", 0, True, 8 * 3, False)
-
- def drawImage(self, refresh = False):
- x_off = const(1)
- y_off = const(16)
- nub_w = const(3)
- nub_h = const(6)
-
- w = self.gui.width - x_off * 2
- h = self.gui.height - y_off
-
- batt = self.gui.batteryCache(refresh)
- c = batt_to_color(batt)
- fill_w = int(batt[0] / 100.0 * (w - nub_w))
-
- s = "{:.0f}%".format(batt[0])
- s_w = self.text.text(s, "bitmap14_outline", 0, False)
- self.text.fg = (255, 255, 255)
- self.text.text(s, "bitmap14_outline", int((self.gui.width - s_w) / 2), True, 1, False)
-
- for x in range(0, w - nub_w):
- for y in range(0, h):
- if (x == 0) or (x == (w - nub_w - 1)) or (y == 0) or (y == (h - 1)) or (x < fill_w):
- self.gui.set_pixel(x + x_off, y + y_off, c)
-
- for x in range(0, nub_w):
- for y in range(0, nub_h):
- self.gui.set_pixel(x + x_off + w - nub_w, y + y_off + int((h - nub_h) / 2), c)
-
- def draw(self, refresh = False):
- now = time.time()
- if (now - self.start) < self.timeImage:
- self.drawImage(refresh)
- else:
- self.drawText(refresh)
-
- if __name__ == "__main__":
- import time
-
- t = PicoMatrix(32, 32)
- s = PicoText(t)
- b = PicoBatt(t, 10.0, 10.0)
-
- start = time.time()
- i = 0
- def helper():
- global s, start, i, b
-
- now = time.time()
- if ((now - start) > 5.0) or (now < start):
- start = now
- i = (i + 1) % 6
- if i == 0:
- b.restart()
-
- if i < 4:
- b.draw(True)
- time.sleep(1.0)
- elif i == 4:
- s.text("Abgj6", "bitmap6", 0, True, 0, False)
- s.text("Abdgj8", "bitmap8", 0, True, 6 + 2, False)
- s.text("Ag14", "bitmap14_outline", 0, True, 6 + 2 + 8 + 1, False)
- else:
- s.text("Drinks:", "bitmap8", 0)
-
- util.loop(t, helper)
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