micropython-nano-gui/gui/demos/color15.py

# color15.py Test/demo program for larger displays. Cross-platform.
# Tested on Adafruit ssd1351-based OLED displays:
# Adafruit 1.5" 128*128 OLED display: https://www.adafruit.com/product/1431
# Adafruit 1.27" 128*96 display https://www.adafruit.com/product/1673
# For wiring details see drivers/ADAFRUIT.md in this repo.

# Released under the MIT License (MIT). See LICENSE.
# Copyright (c) 2018-2020 Peter Hinch

# Initialise hardware and framebuf before importing modules.
from color_setup import ssd  # Create a display instance

import cmath
import utime
import uos
from gui.core.writer import Writer, CWriter
from gui.core.nanogui import refresh
from gui.widgets.led import LED
from gui.widgets.meter import Meter
from gui.widgets.label import Label
from gui.widgets.dial import Dial, Pointer

# Fonts
import gui.fonts.arial10 as arial10
import gui.fonts.freesans20 as freesans20

from gui.core.colors import *

CWriter.set_textpos(ssd, 0, 0)  # In case previous tests have altered it
wri = CWriter(ssd, arial10, GREEN, BLACK, verbose=False)
wri.set_clip(True, True, False)

def meter():
    print('Meter test.')
    refresh(ssd, True)  # Clear any prior image
    color = lambda v : RED if v > 0.7 else YELLOW if v > 0.5 else GREEN
    txt = lambda v : 'ovr' if v > 0.7 else 'high' if v > 0.5 else 'ok'
    m0 = Meter(wri, 5, 2, divisions = 4, ptcolor=YELLOW,
              label='left', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))
    l0 = LED(wri, ssd.height - 16 - wri.height, 2, bdcolor=YELLOW, label ='over')
    m1 = Meter(wri, 5, 50, divisions = 4, ptcolor=YELLOW,
              label='right', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))
    l1 = LED(wri, ssd.height - 16 - wri.height, 50, bdcolor=YELLOW, label ='over')
    m2 = Meter(wri, 5, 98, divisions = 4, ptcolor=YELLOW,
              label='bass', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))
    l2 = LED(wri, ssd.height - 16 - wri.height, 98, bdcolor=YELLOW, label ='over')
    steps = 10
    for n in range(steps):
        v = int.from_bytes(uos.urandom(3),'little')/16777216
        m0.value(v, color(v))
        l0.color(color(v))
        l0.text(txt(v), fgcolor=color(v))
        v = n/steps
        m1.value(v, color(v))
        l1.color(color(v))
        l1.text(txt(v), fgcolor=color(v))
        v = 1 - n/steps
        m2.value(v, color(v))
        l2.color(color(v))
        l2.text(txt(v), fgcolor=color(v))
        refresh(ssd)
        utime.sleep(1)


def multi_fields(t):
    print('Dynamic labels.')
    refresh(ssd, True)  # Clear any prior image
    nfields = []
    dy = wri.height + 6
    y = 2
    col = 15
    width = wri.stringlen('99.99')
    for txt in ('X:', 'Y:', 'Z:'):
        Label(wri, y, 0, txt)  # Use wri default colors
        nfields.append(Label(wri, y, col, width, bdcolor=None))  # Specify a border, color TBD
        y += dy

    end = utime.ticks_add(utime.ticks_ms(), t * 1000)
    while utime.ticks_diff(end, utime.ticks_ms()) > 0:
        for field in nfields:
            value = int.from_bytes(uos.urandom(3),'little')/167772
            overrange =  None if value < 70 else YELLOW if value < 90 else RED
            field.value('{:5.2f}'.format(value), fgcolor = overrange, bdcolor = overrange)
        refresh(ssd)
        utime.sleep(1)
    Label(wri, 0, 64, ' OK ', True, fgcolor = RED)
    refresh(ssd)
    utime.sleep(1)

def vari_fields():
    print('Variable label styles.')
    VIOLET = create_color(12, 255, 0, 255)  # Custom color
    refresh(ssd, True)  # Clear any prior image
    wri_large = CWriter(ssd, freesans20, GREEN, BLACK, verbose=False)
    wri_large.set_clip(True, True, False)
    Label(wri_large, 0, 0, 'Text')
    Label(wri_large, 20, 0, 'Border')
    width = wri_large.stringlen('Yellow')
    lbl_text = Label(wri_large, 0, 65, width)
    lbl_bord = Label(wri_large, 20, 65, width)
    lbl_text.value('Red')
    lbl_bord.value('Red')
    lbl_var = Label(wri_large, 50, 2, '25.46', fgcolor=RED, bdcolor=RED)
    refresh(ssd)
    utime.sleep(2)
    lbl_text.value('Red')
    lbl_bord.value('Yellow')
    lbl_var.value(bdcolor=YELLOW)
    refresh(ssd)
    utime.sleep(2)
    lbl_text.value('Red')
    lbl_bord.value('None')
    lbl_var.value(bdcolor=False)
    refresh(ssd)
    utime.sleep(2)
    lbl_text.value('Yellow')
    lbl_bord.value('None')
    lbl_var.value(fgcolor=YELLOW)
    refresh(ssd)
    utime.sleep(2)
    lbl_text.value('Violet')
    lbl_bord.value('None')
    lbl_var.value(fgcolor=VIOLET)
    refresh(ssd)
    utime.sleep(2)
    lbl_text.value('Blue')
    lbl_bord.value('Green')
    lbl_var.value('18.99', fgcolor=BLUE, bdcolor=GREEN)
    Label(wri, ssd.height - wri.height - 2, 0, 'Done', fgcolor=RED)
    refresh(ssd)

def clock(x):
    print('Clock test.')
    refresh(ssd, True)  # Clear any prior image
    lbl = Label(wri, 5, 85, 'Clock')
    dial = Dial(wri, 5, 5, height = 75, ticks = 12, bdcolor=None, label=50)  # Border in fg color
    hrs = Pointer(dial)
    mins = Pointer(dial)
    hrs.value(0 + 0.7j, RED)
    mins.value(0 + 0.9j, YELLOW)
    dm = cmath.rect(1, -cmath.pi/30)  # Rotate by 1 minute (CW)
    dh = cmath.rect(1, -cmath.pi/1800)  # Rotate hours by 1 minute
    for n in range(x):
        refresh(ssd)
        utime.sleep_ms(200)
        mins.value(mins.value() * dm, YELLOW)
        hrs.value(hrs.value() * dh, RED)
        dial.text('ticks: {}'.format(n))
    lbl.value('Done')

def compass(x):
    print('Compass test.')
    refresh(ssd, True)  # Clear any prior image
    dial = Dial(wri, 5, 5, height = 75, bdcolor=None, label=50, style = Dial.COMPASS)
    bearing = Pointer(dial)
    bearing.value(0 + 1j, RED)
    dh = cmath.rect(1, -cmath.pi/30)  # Rotate by 6 degrees CW
    for n in range(x):
        utime.sleep_ms(200)
        bearing.value(bearing.value() * dh, RED)
        refresh(ssd)

print('Color display test is running.')
print('Test runs to completion: ~65 secs.')
clock(70)
compass(70)
meter()
multi_fields(t = 10)
vari_fields()
print('Test complete.')
Complete refactor as Python package. 2020-11-05 10:10:21 +00:00			`# color15.py Test/demo program for larger displays. Cross-platform.`
			`# Tested on Adafruit ssd1351-based OLED displays:`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00			`# Adafruit 1.5" 128*128 OLED display: https://www.adafruit.com/product/1431`
			`# Adafruit 1.27" 128*96 display https://www.adafruit.com/product/1673`
			`# For wiring details see drivers/ADAFRUIT.md in this repo.`

Color tests pass, prior to splitting out widgets. 2020-11-03 16:22:08 +00:00			`# Released under the MIT License (MIT). See LICENSE.`
			`# Copyright (c) 2018-2020 Peter Hinch`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00
Complete refactor as Python package. 2020-11-05 10:10:21 +00:00			`# Initialise hardware and framebuf before importing modules.`
			`from color_setup import ssd # Create a display instance`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00
			`import cmath`
			`import utime`
			`import uos`
Color tests pass, prior to splitting out widgets. 2020-11-03 16:22:08 +00:00			`from gui.core.writer import Writer, CWriter`
Scale widget added. Pass initial test. 2020-11-03 18:43:24 +00:00			`from gui.core.nanogui import refresh`
			`from gui.widgets.led import LED`
			`from gui.widgets.meter import Meter`
			`from gui.widgets.label import Label`
			`from gui.widgets.dial import Dial, Pointer`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00
			`# Fonts`
Color tests pass, prior to splitting out widgets. 2020-11-03 16:22:08 +00:00			`import gui.fonts.arial10 as arial10`
			`import gui.fonts.freesans20 as freesans20`

			`from gui.core.colors import *`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00
			`CWriter.set_textpos(ssd, 0, 0) # In case previous tests have altered it`
			`wri = CWriter(ssd, arial10, GREEN, BLACK, verbose=False)`
			`wri.set_clip(True, True, False)`

			`def meter():`
			`print('Meter test.')`
			`refresh(ssd, True) # Clear any prior image`
			`color = lambda v : RED if v > 0.7 else YELLOW if v > 0.5 else GREEN`
			`txt = lambda v : 'ovr' if v > 0.7 else 'high' if v > 0.5 else 'ok'`
			`m0 = Meter(wri, 5, 2, divisions = 4, ptcolor=YELLOW,`
			`label='left', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))`
			`l0 = LED(wri, ssd.height - 16 - wri.height, 2, bdcolor=YELLOW, label ='over')`
			`m1 = Meter(wri, 5, 50, divisions = 4, ptcolor=YELLOW,`
			`label='right', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))`
			`l1 = LED(wri, ssd.height - 16 - wri.height, 50, bdcolor=YELLOW, label ='over')`
			`m2 = Meter(wri, 5, 98, divisions = 4, ptcolor=YELLOW,`
			`label='bass', style=Meter.BAR, legends=('0.0', '0.5', '1.0'))`
			`l2 = LED(wri, ssd.height - 16 - wri.height, 98, bdcolor=YELLOW, label ='over')`
			`steps = 10`
			`for n in range(steps):`
			`v = int.from_bytes(uos.urandom(3),'little')/16777216`
			`m0.value(v, color(v))`
			`l0.color(color(v))`
			`l0.text(txt(v), fgcolor=color(v))`
			`v = n/steps`
			`m1.value(v, color(v))`
			`l1.color(color(v))`
			`l1.text(txt(v), fgcolor=color(v))`
			`v = 1 - n/steps`
			`m2.value(v, color(v))`
			`l2.color(color(v))`
			`l2.text(txt(v), fgcolor=color(v))`
			`refresh(ssd)`
			`utime.sleep(1)`


			`def multi_fields(t):`
			`print('Dynamic labels.')`
			`refresh(ssd, True) # Clear any prior image`
			`nfields = []`
			`dy = wri.height + 6`
			`y = 2`
			`col = 15`
			`width = wri.stringlen('99.99')`
			`for txt in ('X:', 'Y:', 'Z:'):`
			`Label(wri, y, 0, txt) # Use wri default colors`
			`nfields.append(Label(wri, y, col, width, bdcolor=None)) # Specify a border, color TBD`
			`y += dy`

			`end = utime.ticks_add(utime.ticks_ms(), t * 1000)`
			`while utime.ticks_diff(end, utime.ticks_ms()) > 0:`
			`for field in nfields:`
			`value = int.from_bytes(uos.urandom(3),'little')/167772`
			`overrange = None if value < 70 else YELLOW if value < 90 else RED`
			`field.value('{:5.2f}'.format(value), fgcolor = overrange, bdcolor = overrange)`
			`refresh(ssd)`
			`utime.sleep(1)`
			`Label(wri, 0, 64, ' OK ', True, fgcolor = RED)`
			`refresh(ssd)`
			`utime.sleep(1)`

			`def vari_fields():`
			`print('Variable label styles.')`
Improve colors.create_color function. 2020-12-15 16:58:42 +00:00			`VIOLET = create_color(12, 255, 0, 255) # Custom color`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00			`refresh(ssd, True) # Clear any prior image`
			`wri_large = CWriter(ssd, freesans20, GREEN, BLACK, verbose=False)`
			`wri_large.set_clip(True, True, False)`
			`Label(wri_large, 0, 0, 'Text')`
			`Label(wri_large, 20, 0, 'Border')`
			`width = wri_large.stringlen('Yellow')`
			`lbl_text = Label(wri_large, 0, 65, width)`
			`lbl_bord = Label(wri_large, 20, 65, width)`
			`lbl_text.value('Red')`
			`lbl_bord.value('Red')`
			`lbl_var = Label(wri_large, 50, 2, '25.46', fgcolor=RED, bdcolor=RED)`
			`refresh(ssd)`
			`utime.sleep(2)`
			`lbl_text.value('Red')`
			`lbl_bord.value('Yellow')`
			`lbl_var.value(bdcolor=YELLOW)`
			`refresh(ssd)`
			`utime.sleep(2)`
			`lbl_text.value('Red')`
			`lbl_bord.value('None')`
			`lbl_var.value(bdcolor=False)`
			`refresh(ssd)`
			`utime.sleep(2)`
			`lbl_text.value('Yellow')`
			`lbl_bord.value('None')`
			`lbl_var.value(fgcolor=YELLOW)`
			`refresh(ssd)`
			`utime.sleep(2)`
Improve colors.create_color function. 2020-12-15 16:58:42 +00:00			`lbl_text.value('Violet')`
			`lbl_bord.value('None')`
			`lbl_var.value(fgcolor=VIOLET)`
			`refresh(ssd)`
			`utime.sleep(2)`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00			`lbl_text.value('Blue')`
			`lbl_bord.value('Green')`
			`lbl_var.value('18.99', fgcolor=BLUE, bdcolor=GREEN)`
			`Label(wri, ssd.height - wri.height - 2, 0, 'Done', fgcolor=RED)`
			`refresh(ssd)`

			`def clock(x):`
			`print('Clock test.')`
			`refresh(ssd, True) # Clear any prior image`
			`lbl = Label(wri, 5, 85, 'Clock')`
			`dial = Dial(wri, 5, 5, height = 75, ticks = 12, bdcolor=None, label=50) # Border in fg color`
			`hrs = Pointer(dial)`
			`mins = Pointer(dial)`
			`hrs.value(0 + 0.7j, RED)`
			`mins.value(0 + 0.9j, YELLOW)`
			`dm = cmath.rect(1, -cmath.pi/30) # Rotate by 1 minute (CW)`
			`dh = cmath.rect(1, -cmath.pi/1800) # Rotate hours by 1 minute`
			`for n in range(x):`
			`refresh(ssd)`
			`utime.sleep_ms(200)`
			`mins.value(mins.value() * dm, YELLOW)`
			`hrs.value(hrs.value() * dh, RED)`
			`dial.text('ticks: {}'.format(n))`
			`lbl.value('Done')`

			`def compass(x):`
			`print('Compass test.')`
			`refresh(ssd, True) # Clear any prior image`
			`dial = Dial(wri, 5, 5, height = 75, bdcolor=None, label=50, style = Dial.COMPASS)`
			`bearing = Pointer(dial)`
			`bearing.value(0 + 1j, RED)`
			`dh = cmath.rect(1, -cmath.pi/30) # Rotate by 6 degrees CW`
			`for n in range(x):`
			`utime.sleep_ms(200)`
			`bearing.value(bearing.value() * dh, RED)`
			`refresh(ssd)`

			`print('Color display test is running.')`
Untested ili9341 driver. 4-bit drivers for other displays. 2020-12-14 10:25:42 +00:00			`print('Test runs to completion: ~65 secs.')`
Plot module added. Release 0.1 2018-08-29 17:16:13 +00:00			`clock(70)`
			`compass(70)`
			`meter()`
			`multi_fields(t = 10)`
			`vari_fields()`
			`print('Test complete.')`