本文整理汇总了Python中Arduino.Arduino.Arduino.close_serial方法的典型用法代码示例。如果您正苦于以下问题:Python Arduino.close_serial方法的具体用法?Python Arduino.close_serial怎么用?Python Arduino.close_serial使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类Arduino.Arduino.Arduino的用法示例。
在下文中一共展示了Arduino.close_serial方法的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class SERVO_POT:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.pin1=9
self.pot=2
self.pos=0
self.obj_arduino.cmd_servo_attach(1,1)
sleep(1)
self.angle=18
for i in range(100):
val=self.obj_arduino.cmd_analog_in(1,self.pot)
print val
val = int(val*180/1023)
print val
self.obj_arduino.cmd_servo_move(1,1,val)
sleep(0.5)
self.obj_arduino.cmd_servo_detach(1,1)
def exit(self):
self.obj_arduino.close_serial()示例2: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class LED_ON_OFF_MULTICOLOR:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.blue=9
self.green=10
self.red=11
self.obj_arduino.cmd_digital_out(1,self.blue,self.baudrate)
self.obj_arduino.cmd_digital_out(1,self.red,self.baudrate)
sleep(5)
self.obj_arduino.cmd_digital_out(1,self.blue,0)
sleep(3)
self.obj_arduino.cmd_digital_out(1,self.red,0)
def exit(self):
self.obj_arduino.close_serial()示例3: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class LED_ON_OFF_LOOP:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.blue=9
self.green=10
self.red=11
for i in range(6):
self.obj_arduino.cmd_digital_out(1,self.green,1)
sleep(2)
self.obj_arduino.cmd_digital_out(1,self.green,0)
sleep(2)
def exit(self):
self.obj_arduino.close_serial()示例4: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class LDR:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.ldr=5
self.blue=9
self.green=10
self.red=11
for i in range(100):
val=self.obj_arduino.cmd_analog_in(1,self.ldr)
print val
if int(val) < 300:
self.obj_arduino.cmd_digital_out(1,self.blue,1)
else:
self.obj_arduino.cmd_digital_out(1,self.blue,0)
sleep(0.5)
def exit(self):
self.obj_arduino.close_serial()示例5: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class SERVO_INIT:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.pin1=9
self.obj_arduino.cmd_servo_attach(1,1)
self.obj_arduino.cmd_servo_move(1,1,30)
sleep(1)
self.obj_arduino.cmd_servo_detach(1,1)
sleep(1)
def exit(self):
self.obj_arduino.close_serial()示例6: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class SIPO_IC:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
dataPin=11
clockPin=9
latchPin=10
inPin=5
for _ in range(0,100):
self.obj_arduino.cmd_digital_out(1,latchPin,0) #So that the data is stored and not passed on to the output LEDs
self.obj_arduino.cmd_shift_out_(dataPin,clockPin,inPin)
self.obj_arduino.cmd_digital_out(1,latchPin,1) #So that the stored data is now passed on to the output LEDs
#and the output is obtained
sleep(0.5)
def exit(self):
self.obj_arduino.close_serial()示例7: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class DCMOTOR_ROTATION:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.pin1=9
self.pin2=10
self.obj_arduino.cmd_dcmotor_setup(1,3,1,self.pin1,self.pin2)
self.obj_arduino.cmd_dcmotor_run(1,1,100)
sleep(2)
self.obj_arduino.cmd_dcmotor_release(1,1)
def exit(self):
self.obj_arduino.close_serial()示例8: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class PUSHBUTTON_LED:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.blue=9
self.green=10
self.red=11
self.pushbutton=12
for i in range(20):
val=self.obj_arduino.cmd_digital_in(1,self.pushbutton)
#sleep(0.5)
print val
self.obj_arduino.cmd_digital_out(1,self.blue,val)
sleep(0.5)
def exit(self):
self.obj_arduino.close_serial()示例9: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class THERM_BUZZER:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.therm=4
self.buzzer=3
for i in range(20):
val=self.obj_arduino.cmd_analog_in(1,self.therm)
print val
if (int(val) > 550):
self.obj_arduino.cmd_digital_out(1,self.buzzer,1)
else:
self.obj_arduino.cmd_digital_out(1,self.buzzer,0)
sleep(2)
def exit(self):
self.obj_arduino.close_serial()示例10: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class T_FF:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.T='0'
self.tPin=5
#assuming initial state:
self.Q='0'
self.Qbar='1'
self.qPin=9
self.qbarPin=10
self.clockPin=2 #external clock
for _ in range(0,500):
if self.Q=='0':
self.obj_arduino.cmd_digital_out(1,self.qPin,0)
self.obj_arduino.cmd_digital_out(1,self.qbarPin,1)
sleep(0.1)
else:
self.obj_arduino.cmd_digital_out(1,self.qPin,1)
self.obj_arduino.cmd_digital_out(1,self.qbarPin,0)
sleep(0.1)
if self.obj_arduino.cmd_digital_in(1,self.clockPin)=='1': #Reads clock and executes when it is HIGH
self.T=self.obj_arduino.cmd_digital_in(1,self.tPin) #Reads input T
if self.T=='1':
temp=self.Q
self.Q=self.Qbar
self.Qbar=temp
else:
pass
def exit(self):
self.obj_arduino.close_serial()示例11: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class PISO_IC_p:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
# self.obj_icm=IC_methods(self.baudrate)
def run(self):
dataPin=9
clockPin=10
latchPin=11
ledPin=5 #LED that shows serial output
clockLed=6 #LED that shows clock pulses
p=int(raw_input("Enter no. of times parallel load is to be given: "))
self.obj_arduino.cmd_digital_out(1,latchPin,1) #parallel load mode
for _ in range(0,p):
print ("Give input, Parallel load mode:")
sleep(2)
self.obj_arduino.cmd_digital_out(1,clockPin,1) #positive edge occurs
#parallel load is stored
print("Inputs stored, Serial shift mode:")
sleep(0.5)
self.obj_arduino.cmd_digital_out(1,clockPin,0)
self.obj_arduino.cmd_digital_out(1,latchPin,0) #serial out mode
self.obj_arduino.cmd_shift_in(dataPin,clockPin,ledPin,clockLed)
self.obj_arduino.cmd_digital_out(1,latchPin,1)
self.obj_arduino.cmd_digital_out(1,ledPin,0)
def exit(self):
self.obj_arduino.close_serial()示例12: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class SIPO_IC:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
pinstate=0
n=int(raw_input("Enter no. of bits: "))
data=[0 for _ in range(0,n)] #an 8-elements list representing an 8 bit binary number
dataPin=11
clockPin=9
latchPin=10
inPin=5
for _ in range(0,50):
pinstate=self.obj_arduino.cmd_digital_in(1,inPin)
if pinstate=='1':
data[0]=1
#the msb becomes 1 when input is given
#high which is henceforth shifted
else:
data[0]=0
print data
self.obj_arduino.cmd_digital_out(1,latchPin,0)
self.obj_arduino.cmd_shift_out_n(dataPin,clockPin,'LSBFIRST',data,n)
self.obj_arduino.cmd_digital_out(1,latchPin,1)
sleep(0.5)
for k in range(0,(n-1)):
data[(n-1)-k]=data[(n-2)-k]
data[0]=0
#every element of the matrix is
#shifted one place to the right
#so effectively the 8 bit
#binary number is divided by 2
def exit(self):
self.obj_arduino.close_serial()示例13: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class PUSHBUTTON_LED:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.blue=9
self.green=10
self.red=11
self.pushbutton=12
l = 10 # length
x = range(l) # x axis
T = [0 for i in range(l)] # initial value
for i in range(20):
val=self.obj_arduino.cmd_digital_in(1,self.pushbutton)
#sleep(0.5)
print val
self.obj_arduino.cmd_digital_out(1,self.blue,val)
sleep(0.5)
plt.ion()
#plt.show()
t = int(val)
T.pop(0) # pop first value
T.append(t) # push at the end keeping list of same size
plt.title("Is Pushbutton pressed ?")
plt.grid(True)
plt.ylabel('Pushbutton')
plt.legend(loc='upper left')
plt.axis([0, l, 0, 2])
plt.scatter(x, T, linewidth=5)
plt.draw()
plt.pause(.0001)
plt.clf()
plt.close('all')
def exit(self):
self.obj_arduino.close_serial()示例14: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class LDR:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino=Arduino()
self.port=self.obj_arduino.locateport()
self.obj_arduino.open_serial(1,self.port,self.baudrate)
def run(self):
self.ldr=5
self.blue=9
self.green=10
self.red=11
l = 100 # length
x = range(l) # x axis
T = [420 for i in range(l)] # initial value
for i in range(20):
val=self.obj_arduino.cmd_analog_in(1,self.ldr)
print val
if int(val) < 300:
self.obj_arduino.cmd_digital_out(1,self.blue,1)
else:
self.obj_arduino.cmd_digital_out(1,self.blue,0)
sleep(0.5)
plt.ion()
#plt.show()
t = int(val)
T.pop(0) # pop first value
T.append(t) # push at the end keeping list of same size
plt.title("Reading LDR Data from Arduino...!")
plt.grid(True)
plt.ylabel('LDR Readings')
plt.legend(loc='upper left')
plt.axis([0, l, 0.55 * min(T), 2 * max(T)])
plt.plot(x, T ,linewidth=1)
plt.draw()
plt.pause(.0001)
plt.clf()
plt.close('all')
def exit(self):
self.obj_arduino.close_serial()示例15: __init__
# 需要导入模块: from Arduino.Arduino import Arduino [as 别名]
# 或者: from Arduino.Arduino.Arduino import close_serial [as 别名]
class LED_ON_OFF:
def __init__(self,baudrate):
self.baudrate=baudrate
self.setup()
self.run()
self.exit()
def setup(self):
self.obj_arduino = Arduino()
self.port = self.obj_arduino.locateport()
self.obj_arduino.open_serial(1, self.port,self.baudrate)
def run(self):
self.blue=9
self.obj_arduino.cmd_digital_out(1,self.blue,1)
def exit(self):
self.obj_arduino.close_serial()