Пример #1
0
def plot(datos):
    import framebuf
    spi = SPI(1, baudrate=328125, polarity=0, phase=0)
    cs = Pin(2) #D4
    dc = Pin(15) #D8
    rst = Pin(0) #D3
    #bl = Pin(12, Pin.OUT, value=1) #D6
    print("Variables:OK")
    lcd = pcd8544.PCD8544(spi, cs, dc, rst)
    print("lcd ok")
    buffer = bytearray((lcd.height // 8) * lcd.width)
    framebuf = framebuf.FrameBuffer1(buffer, lcd.width, lcd.height)
    framebuf.fill(1)
    lcd.data(buffer)
    time.sleep(1)
    framebuf.fill(0)
    lcd.data(buffer)

    for i,y in zip(range(84),datos):
        print(i, " {" ,round(y), "} ")
        time.sleep_ms(40)
        framebuf.pixel(i,round(y),1)
    #eje y
    #print(save)
    framebuf.vline(0, 0, 96, 0xffff)
    #eje x
    framebuf.hline(0, 24, 96, 0xffff)
    #escribiendo datas
    lcd.data(buffer)
Пример #2
0
def plotseno(w, phi, amplitud):
    import framebuf
    spi = SPI(1, baudrate=328125, polarity=0, phase=0)
    cs = Pin(2)  #D4
    dc = Pin(15)  #D8
    rst = Pin(0)  #D3
    #bl = Pin(12, Pin.OUT, value=1) #D6
    print("Variables:OK")
    lcd = pcd8544.PCD8544(spi, cs, dc, rst)
    print("lcd ok")
    buffer = bytearray((lcd.height // 8) * lcd.width)
    framebuf = framebuf.FrameBuffer1(buffer, lcd.width, lcd.height)
    framebuf.fill(1)
    lcd.data(buffer)
    time.sleep(1)
    framebuf.fill(0)
    lcd.data(buffer)
    save = []
    for i in range(84):
        y = 24 - amplitud * math.sin((i * w) + phi)
        save.append(y)
        print(i, " {", round(y), "} ", y)
        time.sleep_ms(40)
        framebuf.pixel(i, round(y), 1)
    #eje y
    print(save)
    framebuf.vline(0, 0, 96, 0xffff)
    #eje x
    framebuf.hline(0, 24, 96, 0xffff)
    #escribiendo datas
    lcd.data(buffer)
Пример #3
0
lcd.init()
#
#termox

#framebuf.pixel(8,47,1)
#framebuf.pixel(7,46,1)
#framebuf.pixel(6,45,1)
#framebuf.pixel(5,44,1)
#framebuf.pixel(4,43,1)
#framebuf.pixel(3,42,1)
#framebuf.pixel(2,41,1)
#framebuf.pixel(1,40,1)
#framebuf.pixel(0,39,1)
#
#w=0.09 #nice baja frecuencia
w = 0.09
phi = 0
amplitud = 16
#Amplitud maxima 22. Aplitud minima 2. Sin DC.
#Frecuencia minima 0.05. Frecuencia maxima 0.6
for i in range(84):
    y = 24 - amplitud * math.sin((i * w) + phi)
    print(i, round(y), y)
    time.sleep_ms(40)
    framebuf.pixel(i, round(y), 1)

#framebuf.vline(5, 0, 96, 0xffff)
framebuf.vline(0, 0, 96, 0xffff)
framebuf.hline(0, 24, 96, 0xffff)
lcd.data(buffer)
Пример #4
0
def urectangular(max, puntos, K, amplitud, w0, phi):
    print("urectangular")

    import framebuf
    spi = SPI(1, baudrate=328125, polarity=0, phase=0)
    cs = Pin(2)  #D4
    dc = Pin(15)  #D8
    rst = Pin(0)  #D3
    #bl = Pin(12, Pin.OUT, value=1) #D6
    print("Variables:OK")
    lcd = pcd8544.PCD8544(spi, cs, dc, rst)
    print("lcd ok")
    buffer = bytearray((lcd.height // 8) * lcd.width)
    framebuf = framebuf.FrameBuffer1(buffer, lcd.width, lcd.height)
    framebuf.fill(1)
    lcd.data(buffer)
    time.sleep(1)
    framebuf.fill(0)
    lcd.data(buffer)

    print("Iniciando...")
    count = 0
    y_record = []  #
    y_res = []
    T = calculadora.ulinspace(max, puntos)

    #print(T)
    for k in range(1, K + 1):
        #print("k -> ",k)
        for t in T:
            #print("Operacion: ", "k -> ",k, ", t -> ",t)
            y = amplitud * (4 / math.pi) * (math.sin(
                ((2 * k - 1) * (w0 * t + phi))) / (2 * k - 1))
            y_record.append(y)  #Lista de puntos de la funcion.
            time.sleep_ms(10)
        count = count + 1
        gc.collect()
        #diseno: esta agregando a la lista ambas funciones.

    #
    print(count, "ok")
    time.sleep(1)
    print("Puntos: ", len(T), ", tamano del arreglo ", len(y_record),
          " presicion: ", K)
    for i in range(puntos):
        #print("Suma: ", i, " con ", i+(K-1)*puntos )
        #time.sleep(0.2)
        y_res.append(y_record[i] + y_record[i + (K - 1) * puntos])
        time.sleep_ms(10)
    K = K - 1

    while K != 1:
        for i in range(puntos):
            #print("Suma while: ", i, " con ", i+(K-1)*puntos )
            #time.sleep(0.2)
            y_res[i] = y_res[i] + y_record[i + (K - 1) * puntos]
            time.sleep_ms(10)
        print("Tamano del arreglo res", len(y_res), "presicion: ", K)
        K = K - 1
    print(len(y_res))

    count = 1
    for y in y_res:
        print(y, round(y))
        time.sleep_ms(10)
        framebuf.pixel(count, 24 - round(y), 1)
        count = count + 1
    #eje y
    framebuf.vline(0, 0, 96, 0xffff)
    #eje x
    framebuf.hline(0, 24, 96, 0xffff)
    #escribiendo datas
    lcd.data(buffer)
Пример #5
0
framebuf.fill(0)
framebuf.line(0, 47, 83, 0, 1)
framebuf.line(83, 47, 0, 0, 1)
lcd.data(buffer)

# hline(x, y, w, color)
framebuf.fill(0)
framebuf.hline(0, 10, 20, 1)
framebuf.hline(0, 20, 41, 1)
framebuf.hline(0, 30, 62, 1)
framebuf.hline(0, 40, 83, 1)
lcd.data(buffer)

# vline(x, y, h, color)
framebuf.fill(0)
framebuf.vline(10, 0, 11, 1)
framebuf.vline(20, 0, 23, 1)
framebuf.vline(30, 0, 35, 1)
framebuf.vline(40, 0, 47, 1)
lcd.data(buffer)

# rect(x, y, w, h, c)
framebuf.fill(0)
framebuf.rect(0, 0, 20, 20, 1)
framebuf.rect(10, 10, 20, 20, 1)
framebuf.rect(20, 20, 20, 20, 1)
lcd.data(buffer)

# fill_rect(x, y, w, h, c)
framebuf.fill(0)
framebuf.fill_rect(0, 0, 20, 20, 1)