Example #1
0
def main():

    for a in pinz:
        io.setup(a, mcp.IN)
        io.pullup(a, True)

    omraad = field(display)

    omraad.initfield()

    display.erase()
    display.set_pos(0,0)
    display.width = 240
    display.height = 320

    display.fill_rectangle(0, 0, 239, 319, color565(0,0,30))

    ex = 22
    ey = 22

    mx = 0
    my = 0

    bgcol = color565(0,0,30)


    wid = omraad.blockwidth

    plr = player(display, omraad, wid)

    omraad.render()

    while True:

        if not io.input(PIN_LEFT):
            plr.changedir(DIR_LEFT)

        if not io.input(PIN_RIGHT):
            plr.changedir(DIR_RIGHT)

        if not io.input(PIN_UP):
            plr.changedir(DIR_UP)

        if not io.input(PIN_DOWN):
            plr.changedir(DIR_DOWN)

        plr.move()

        plr.render()

        plr.renderscore()

        if omraad.dots == 0:
            break


        if not io.input(BUTTON_UP):
            break
Example #2
0
    def __init__(self, disp):
        self.omraad = []

        self.height = 24
        self.width = 24

        self.dots = 0

        self.display = disp

        self.blockwidth = 240 // self.width

        self.colors = [color565(0,0,30), color565(50,50,200), color565(0,0,30)]

        for a in range(0, self.height*self.width):
            self.omraad.append(0)
Example #3
0
    def __init__(self, disp, fild, scale):
        self.field = fild
        self.display = disp

        self.scale = scale

        self.ex = 22
        self.ey = 22

        self.progress = 0

        self.speed = 2

        self.dudecol = color565(250, 250, 0)

        self.direction = DIR_STOPPED
        self.nextdir = DIR_STOPPED

        self.score = 0

        self.bgcol = color565(0,0,30)
Example #4
0
def draw_circle(xpos0, ypos0, rad, col=color565(255, 255, 255)):
    x = rad - 1
    y = 0
    dx = 1
    dy = 1
    err = dx - (rad << 1)
    while x >= y:
        display.pixel(xpos0 + x, ypos0 + y, col)
        display.pixel(xpos0 + y, ypos0 + x, col)
        display.pixel(xpos0 - y, ypos0 + x, col)
        display.pixel(xpos0 - x, ypos0 + y, col)
        display.pixel(xpos0 - x, ypos0 - y, col)
        display.pixel(xpos0 - y, ypos0 - x, col)
        display.pixel(xpos0 + y, ypos0 - x, col)
        display.pixel(xpos0 + x, ypos0 - y, col)
        if err <= 0:
            y += 1
            err += dy
            dy += 2
        if err > 0:
            x -= 1
            dx += 2
            err += dx - (rad << 1)
Example #5
0
                  rst=TFT_RST_PIN,
                  w=SCR_WIDTH,
                  h=SCR_HEIGHT,
                  r=SCR_ROT)

print(dir(display))
display.reset()
display.erase()
display.set_pos(0, 0)

for ff in fonts:
    display.set_font(ff)
    display.print(text)

display.set_font(tt24)
display.set_color(color565(255, 255, 0), color565(150, 150, 150))
display.print("\nThanks:")
display.print("https://github.com/jeffmer/micropython-ili9341")
print("\nThanks:")
print("https://github.com/jeffmer/micropython-ili9341")
time.sleep(1)

for i in range(170):
    display.scroll(1)
    time.sleep(0.01)

time.sleep(1)
for i in range(170):
    display.scroll(-1)
    time.sleep(0.01)
Example #6
0
 def renderdot(self, x, y):
     self.display.fill_rectangle((x*self.blockwidth)+4, (y*self.blockwidth)+4, self.blockwidth-8, self.blockwidth-8, color565(200, 200, 200))
Example #7
0
def Screen_write(t, p, t1, hr1, t2, hr2, text, t_res, vit_vent, icon_vent,
                 icon_meteo):
    if icon_vent == None:
        icon_vent = 'interrogation.txt'
    if icon_meteo == None:
        icon_meteo = 'interrogation'
    icon_vent = "ICONS/" + icon_vent
    icon_meteo = "ICONS/" + icon_meteo + ".txt"
    clock = rtc.datetime()
    display.erase()
    #Date
    display.set_pos(85, 5)
    display.set_font(tt14)
    display.print(
        str(clock[2]) + " / " + str(clock[1]) + " / " + str(clock[0]))
    # heure
    display.set_pos(100, 30)
    display.set_font(tt24)
    display.print(str(clock[4]) + ":" + str(clock[5]))
    display.fill_rectangle(0, 60, 340, 2, color=color565(0, 255, 255))
    display.fill_rectangle(0, 200, 340, 2, color=color565(0, 255, 255))
    #icone_vent
    X0 = 150
    Y0 = 90
    data = text_to_list(icon_vent)
    for y in range(len(data)):
        for x in range(len(data[0])):
            if data[y][x] == 1:
                display.pixel(X0 + x, Y0 + y, color=color565(0, 255, 255))
    data = []
    X0 = 15  #icone_meteo
    Y0 = 70
    data = text_to_list(icon_meteo)
    for y in range(len(data)):
        for x in range(len(data[0])):
            if data[y][x] == 1:
                display.pixel(X0 + x, Y0 + y, color=color565(0, 255, 255))
    data = []
    display.set_pos(185, 110)  #vitesse vent
    display.set_font(tt14)
    display.print(vit_vent + ' km/h')
    display.set_pos(90, 205)  #Affichage T,P
    display.set_font(tt14)
    display.print(" STATION")
    display.set_pos(30, 220)
    display.set_font(tt24)
    display.print(str(t) + " C")
    display.set_pos(130, 220)
    display.print(str(p) + " hPa")
    display.fill_rectangle(0, 250, 340, 2, color=color565(0, 255, 255))
    display.fill_rectangle(115, 250, 2, 70, color=color565(0, 255, 255))
    display.set_pos(130, 160)  #t_res
    display.set_font(tt14)
    display.print("T RESSENTIE: ")
    display.set_pos(170, 175)
    display.set_font(tt24)
    display.print(t_res)
    display.set_pos(5, 160)  #Text
    display.set_font(tt14)
    display.print("T EXTERIEURE:")
    display.set_pos(45, 175)
    display.set_font(tt24)
    display.print(text)
    display.set_pos(5, 255)  #Affichage T1,HR1,T2,HR2
    display.set_font(tt14)
    display.print("SONDE 1:")
    display.set_pos(30, 270)
    display.set_font(tt24)
    display.print(str(t1) + " C")
    display.set_pos(30, 295)
    display.print(str(hr1) + " %")
    display.set_pos(127, 255)
    display.set_font(tt14)
    display.print("SONDE 2:")
    display.set_font(tt24)
    display.set_pos(150, 270)
    display.print(str(t2) + " C")
    display.set_pos(150, 295)
    display.print(str(hr2) + " %")
Example #8
0
from ili934xnew import color565

WHITE = color565(255, 255, 255)
RED = color565(255, 0, 0)
GREEN = color565(0, 255, 0)
BLUE = color565(0, 0, 255)
YELLOW = color565(255, 255, 0)
CYAN = color565(0, 255, 255)
MAGENTA = color565(255, 0, 255)
GRAY = color565(90, 90, 90)


class Scope():
    def __init__(self, tft, gfx):
        self.tft = tft
        self.gfx = gfx

    def draw_axis(self):
        # x axis
        # self.gfx.line(0, 230, 320, 230, color565(255, 255, 255))
        self.tft.fill_rectangle(0, 230, 320, 2, GRAY)
        # y axis
        # self.gfx.line(10, 5, 10, 240, color565(255, 255, 255))
        self.tft.fill_rectangle(30, 0, 2, 230, GRAY)
        # x ticks
        for i in range(9):
            # self.gfx.line(10 + 31*i, 0, 10 + 31*i, 235, color565(255, 255, 255))
            self.tft.fill_rectangle(30 + 37 * i, 230, 2, 5, GRAY)

        # y ticks
        v = 0.0
Example #9
0
from ili934xnew import ILI9341, color565
from machine import Pin, ADC, SPI
import utime
import glcdfont
import tt14
from gfx import GFX
import urandom
from scope import Scope

BACKGROUND = color565(0, 0, 60)

led = Pin(25, Pin.OUT)
adc = ADC(28)

power = Pin(15, Pin.OUT)
power.value(0)

spi = SPI(0,
          baudrate=40000000,
          polarity=0,
          phase=0,
          sck=Pin(18),
          mosi=Pin(19),
          miso=Pin(16))

tft = ILI9341(spi, cs=Pin(12), rst=Pin(13), dc=Pin(14), w=320, h=240, r=3)


def fast_hline(x, y, width, color):
    tft.fill_rectangle(x, y, width, 1, color)
Example #10
0
        n += 1
    return n

xOffset = -0.8
RE_START = -2 + xOffset
RE_END = 2 + xOffset
IM_START = -1
IM_END = 1

ZOOM_IM = 1.2 #1=100% 0.5=200%
ZOOM_RE = 0.8 #1=100% 0.5=200%
OFFSET_IM = 0
OFFSET_RE = 0


BLACK = color565(0,0,0)   
WHITE = color565(255,255,255)
RED = color565(255,0,0)
GREEN = color565(0,255,0)
BLUE = color565(0,255,0)
YELLOW = color565(255,255,0)
CIAN = color565(0,255,255)
MAGENTA = color565(255,9,255)
colors = (WHITE,YELLOW,RED,GREEN,BLUE,CIAN,BLACK,MAGENTA)

building = False 
def buildFractal():
    global building
    global buf
    if building==True:
        return
Example #11
0
# test of printing multiple fonts to the ILI9341 on an M5Stack using H/W SP
# MIT License; Copyright (c) 2017 Jeffrey N. Magee
#
# Adapted for Sensemakers. Changed pins for the TTGO T4-V1.3 board
from ili934xnew import ILI9341, color565
from machine import Pin, SPI, PWM
import glcdfont
import tt14
import tt24
import tt32
from time import sleep

fonts = [glcdfont,tt14,tt24,tt32]
colors = [color565(255,0,0), color565(0,255,0),color565(0,0,255),color565(150,150,0)]

text = 'Now is the time for all Sensemakers to come to the aid of the party.'

spi = SPI(
    2,
    baudrate=30000000,
    miso=Pin(12),
    mosi=Pin(23),
    sck=Pin(18))

display = ILI9341(
    spi,
    cs=Pin(27),
    dc=Pin(32),
    rst=Pin(5),
    w=320,
    h=240,
Example #12
0
          baudrate=40000000,
          miso=TFT_MISO_PIN,
          mosi=TFT_MOSI_PIN,
          sck=TFT_CLK_PIN)
print(spi)

display = ILI9341(spi,
                  cs=TFT_CS_PIN,
                  dc=TFT_DC_PIN,
                  rst=TFT_RST_PIN,
                  w=SCR_WIDTH,
                  h=SCR_HEIGHT,
                  r=SCR_ROT)

print(dir(display))
display.reset()
display.erase()
display.set_pos(0, 0)

for ff in fonts:
    display.set_font(ff)
    display.print(text)

display.set_font(tt24)
display.set_color(color565(255, 255, 0), color565(150, 150, 150))
display.print("\nThanks:")
display.print("https://github.com/jeffmer/micropython-ili9341")
print("\nThanks:")
print("https://github.com/jeffmer/micropython-ili9341")
time.sleep(1)