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187 lines
5.1 KiB
187 lines
5.1 KiB
# Driver test for official MicroPython LCD160CR display
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# MIT license; Copyright (c) 2017 Damien P. George
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import time, math, framebuf, lcd160cr
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def get_lcd(lcd):
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if type(lcd) is str:
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lcd = lcd160cr.LCD160CR(lcd)
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return lcd
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def show_adc(lcd, adc):
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data = [adc.read_core_temp(), adc.read_core_vbat(), 3.3]
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try:
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data[2] = adc.read_vref()
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except:
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pass
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for i in range(3):
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lcd.set_text_color((825, 1625, 1600)[i], 0)
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if lcd.h == 160:
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lcd.set_font(2)
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lcd.set_pos(0, 100 + i * 16)
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else:
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lcd.set_font(2, trans=1)
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lcd.set_pos(0, lcd.h - 60 + i * 16)
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lcd.write("%4s: " % ("TEMP", "VBAT", "VREF")[i])
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if i > 0:
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s = "%6.3fV" % data[i]
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else:
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s = "%5.1f°C" % data[i]
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if lcd.h == 160:
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lcd.set_font(1, bold=0, scale=1)
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else:
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lcd.set_font(1, bold=0, scale=1, trans=1)
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lcd.set_pos(45, lcd.h - 60 + i * 16)
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lcd.write(s)
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def test_features(lcd, orient=lcd160cr.PORTRAIT):
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# if we run on pyboard then use ADC and RTC features
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try:
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import pyb
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adc = pyb.ADCAll(12, 0xF0000)
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rtc = pyb.RTC()
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except:
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adc = None
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rtc = None
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# set orientation and clear screen
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lcd = get_lcd(lcd)
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lcd.set_orient(orient)
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lcd.set_pen(0, 0)
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lcd.erase()
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# create M-logo
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mlogo = framebuf.FrameBuffer(bytearray(17 * 17 * 2), 17, 17, framebuf.RGB565)
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mlogo.fill(0)
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mlogo.fill_rect(1, 1, 15, 15, 0xFFFFFF)
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mlogo.vline(4, 4, 12, 0)
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mlogo.vline(8, 1, 12, 0)
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mlogo.vline(12, 4, 12, 0)
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mlogo.vline(14, 13, 2, 0)
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# create inline framebuf
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offx = 14
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offy = 19
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w = 100
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h = 75
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fbuf = framebuf.FrameBuffer(bytearray(w * h * 2), w, h, framebuf.RGB565)
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lcd.set_spi_win(offx, offy, w, h)
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# initialise loop parameters
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tx = ty = 0
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t0 = time.ticks_us()
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for i in range(300):
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# update position of cross-hair
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t, tx2, ty2 = lcd.get_touch()
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if t:
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tx2 -= offx
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ty2 -= offy
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if tx2 >= 0 and ty2 >= 0 and tx2 < w and ty2 < h:
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tx, ty = tx2, ty2
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else:
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tx = (tx + 1) % w
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ty = (ty + 1) % h
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# create and show the inline framebuf
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fbuf.fill(lcd.rgb(128 + int(64 * math.cos(0.1 * i)), 128, 192))
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fbuf.line(
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w // 2,
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h // 2,
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w // 2 + int(40 * math.cos(0.2 * i)),
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h // 2 + int(40 * math.sin(0.2 * i)),
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lcd.rgb(128, 255, 64),
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)
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fbuf.hline(0, ty, w, lcd.rgb(64, 64, 64))
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fbuf.vline(tx, 0, h, lcd.rgb(64, 64, 64))
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fbuf.rect(tx - 3, ty - 3, 7, 7, lcd.rgb(64, 64, 64))
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for phase in (-0.2, 0, 0.2):
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x = w // 2 - 8 + int(50 * math.cos(0.05 * i + phase))
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y = h // 2 - 8 + int(32 * math.sin(0.05 * i + phase))
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fbuf.blit(mlogo, x, y)
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for j in range(-3, 3):
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fbuf.text(
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"MicroPython",
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5,
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h // 2 + 9 * j + int(20 * math.sin(0.1 * (i + j))),
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lcd.rgb(128 + 10 * j, 0, 128 - 10 * j),
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)
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lcd.show_framebuf(fbuf)
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# show results from the ADC
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if adc:
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show_adc(lcd, adc)
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# show the time
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if rtc:
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lcd.set_pos(2, 0)
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lcd.set_font(1)
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t = rtc.datetime()
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lcd.write(
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"%4d-%02d-%02d %2d:%02d:%02d.%01d"
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% (t[0], t[1], t[2], t[4], t[5], t[6], t[7] // 100000)
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)
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# compute the frame rate
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t1 = time.ticks_us()
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dt = time.ticks_diff(t1, t0)
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t0 = t1
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# show the frame rate
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lcd.set_pos(2, 9)
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lcd.write("%.2f fps" % (1000000 / dt))
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def test_mandel(lcd, orient=lcd160cr.PORTRAIT):
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# set orientation and clear screen
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lcd = get_lcd(lcd)
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lcd.set_orient(orient)
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lcd.set_pen(0, 0xFFFF)
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lcd.erase()
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# function to compute Mandelbrot pixels
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def in_set(c):
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z = 0
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for i in range(32):
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z = z * z + c
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if abs(z) > 100:
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return i
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return 0
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# cache width and height of LCD
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w = lcd.w
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h = lcd.h
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# create the buffer for each line and set SPI parameters
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line = bytearray(w * 2)
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lcd.set_spi_win(0, 0, w, h)
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spi = lcd.fast_spi()
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# draw the Mandelbrot set line-by-line
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hh = (h - 1) / 3.2
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ww = (w - 1) / 2.4
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for v in range(h):
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for u in range(w):
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c = in_set((v / hh - 2.3) + (u / ww - 1.2) * 1j)
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if c < 16:
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rgb = c << 12 | c << 6
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else:
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rgb = 0xF800 | c << 6
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line[2 * u] = rgb
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line[2 * u + 1] = rgb >> 8
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spi.write(line)
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def test_all(lcd, orient=lcd160cr.PORTRAIT):
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lcd = get_lcd(lcd)
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test_features(lcd, orient)
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test_mandel(lcd, orient)
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print("To run all tests: test_all(<lcd>)")
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print("Individual tests are: test_features, test_mandel")
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print('<lcd> argument should be a connection, eg "X", or an LCD160CR object')
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