mirror of https://github.com/ARMmbed/mbed-os.git
Merge pull request #1133 from sarahmarshy/mbedrpc_python_update
Updated to mbedrpc python scriptpull/1140/head
Martin Kojtal
commit
03fff9249b
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@ -18,270 +18,170 @@ limitations under the License.
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Example:
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> from mbedRPC import*
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> mbed = SerialRPC("COM5",9600);
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> myled = DigitalOut(mbed, LED1);
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> myled = DigitalOut(mbed, "myled"); <--- Where the text in quotations matches your
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RPC pin definition's second parameter, in
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this case it could be RpcDigitalOut myled(LED1,"myled");
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> myled.write(1)
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>
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"""
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import serial, urllib2, time
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class pin():
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def __init__(self, id):
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self.name = id
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LED1 = pin("LED1")
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LED2 = pin("LED2")
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LED3 = pin("LED3")
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LED4 = pin("LED4")
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p5 = pin("p5")
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p6 = pin("p6")
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p7 = pin("p7")
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p8 = pin("p8")
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p9 = pin("p9")
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p10 = pin("p10")
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p11 = pin("p11")
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p12 = pin("p12")
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p13 = pin("p13")
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p14 = pin("p14")
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p15 = pin("p15")
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p16 = pin("p16")
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p17 = pin("p17")
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p18 = pin("p18")
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p19 = pin("p19")
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p20 = pin("p20")
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p21 = pin("p21")
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p22 = pin("p22")
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p23 = pin("p23")
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p24 = pin("p24")
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p25 = pin("p25")
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p26 = pin("p26")
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p27 = pin("p27")
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p28 = pin("p28")
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p29 = pin("p29")
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p30 = pin("p30")
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#mbed super class
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class mbed:
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def __init__(self):
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print("This will work as a demo but no transport mechanism has been selected")
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def rpc(self, name, method, args):
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print("Superclass method not overridden")
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def __init__(self):
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print("This will work as a demo but no transport mechanism has been selected")
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def rpc(self, name, method, args):
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print("Superclass method not overridden")
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#Transport mechanisms, derived from mbed
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class SerialRPC(mbed):
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def __init__(self, port, baud=9600, reset=True, debug=False):
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self.ser = serial.Serial(port)
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self.ser.setBaudrate(baud)
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self.ser.flushInput()
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self.ser.flushOutput()
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self.debug = debug
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if reset:
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if debug:
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print "Reset mbed"
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self.ser.sendBreak()
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time.sleep(2)
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def rpc(self, name, method, args):
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request = "/" + name + "/" + method + " " + " ".join(args)
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if self.debug:
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print "[RPC::TX] %s" % request
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self.ser.write(request + "\n")
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while True:
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response = self.ser.readline().strip()
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if self.debug:
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print "[RPC::RX] %s" % response
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# Ignore comments
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if not response.startswith('#'): break
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return response
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def __init__(self,port, baud):
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self.ser = serial.Serial(port)
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self.ser.setBaudrate(baud)
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def rpc(self, name, method, args):
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#creates the command to be sent serially - /name/method arg1 arg2 arg3 ... argN
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str = "/" + name + "/" + method + " " + " ".join(args) + "\n"
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#prints the command being executed
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print str
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#writes the command to serial
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self.ser.write(str)
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#strips trailing characters from the line just written
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ret_val = self.ser.readline().strip()
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return ret_val
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class HTTPRPC(mbed):
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def __init__(self, ip):
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self.host = "http://" + ip
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def rpc(self, name, method, args):
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response = urllib2.urlopen(self.host + "/rpc/" + name + "/" + method + "," + ",".join(args))
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return response.read().strip()
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def __init__(self, ip):
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self.host = "http://" + ip
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def rpc(self, name, method, args):
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response = urllib2.urlopen(self.host + "/rpc/" + name + "/" + method + "," + ",".join(args))
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return response.read().strip()
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#mbed Interfaces
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#generic mbed interface super class
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class mbed_interface():
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#initialize an mbed interface with a transport mechanism and pin name
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin,str):
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self.name = mpin
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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#generic read
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return int(r)
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#for classes that need write functionality - inherits from the generic reading interface
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class mbed_interface_write(mbed_interface):
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def __init__(self, this_mbed , mpin):
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mbed_interface.__init__(self,this_mbed,mpin)
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#generic write
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def write(self, value):
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r = self.mbed.rpc(self.name, "write", [str(value)])
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class DigitalOut():
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("DigitalOut", "new", [mpin.name])
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#mbed interfaces
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class DigitalOut(mbed_interface_write):
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def __init__(self, this_mbed , mpin):
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mbed_interface_write.__init__(self,this_mbed,mpin)
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class AnalogIn(mbed_interface):
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def write(self, value):
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r = self.mbed.rpc(self.name, "write", [str(value)])
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def __init__(self, this_mbed , mpin):
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mbed_interface.__init__(self,this_mbed,mpin)
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return int(r)
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def read_u16(self):
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r = self.mbed.rpc(self.name, "read_u16", [])
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return int(r)
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class AnalogOut(mbed_interface_write):
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class AnalogIn():
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("AnalogIn", "new", [mpin.name])
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def __init__(self, this_mbed , mpin):
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mbed_interface_write.__init__(self,this_mbed,mpin)
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def write_u16(self, value):
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self.mbed.rpc(self.name, "write_u16", [str(value)])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return float(r)
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return float(r)
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def read_u16(self):
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r = self.mbed.rpc(self.name, "read_u16", [])
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return int(r)
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class DigitalIn(mbed_interface):
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def __init__(self, this_mbed , mpin):
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mbed_interface.__init__(self,this_mbed,mpin)
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class AnalogOut():
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("AnalogOut", "new", [mpin.name])
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class PwmOut(mbed_interface_write):
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def __init__(self, this_mbed , mpin):
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mbed_interface_write.__init__(self,this_mbed,mpin)
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return r
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def write(self, value):
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r = self.mbed.rpc(self.name, "write", [str(value)])
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def period(self, value):
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self.mbed.rpc(self.name, "period", [str(value)])
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def period_ms(self, value):
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self.mbed.rpc(self.name, "period_ms", [str(value)])
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def write_u16(self, value):
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r = self.mbed.rpc(self.name, "write_u16", [str(value)])
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def period_us(self, value):
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self.mbed.rpc(self.name, "period_us", [str(value)])
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def pulsewidth(self, value):
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self.mbed.rpc(self.name, "pulsewidth", [str(value)])
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def pulsewidth_ms(self, value):
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self.mbed.rpc(self.name, "pulsewidth_ms", [str(value)])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return float(r)
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def pulsewidth_us(self, value):
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self.mbed.rpc(self.name, "pulsewidth_us", [str(value)])
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class RPCFunction(mbed_interface):
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class DigitalIn():
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("DigitalIn", "new", [mpin.name])
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def __init__(self, this_mbed , name):
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mbed_interface.__init__(self,this_mbed,name)
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def run(self, input):
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r = self.mbed.rpc(self.name, "run", [input])
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return r
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return int(r)
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class PwmOut():
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def __init__(self, this_mbed , mpin):
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self.mbed = this_mbed
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if isinstance(mpin, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("PwmOut", "new", [mpin.name])
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def write(self, value):
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r = self.mbed.rpc(self.name, "write", [str(value)])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return float(r)
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def period(self, value):
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r = self.mbed.rpc(self.name, "period", [str(value)])
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def period_ms(self, value):
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r = self.mbed.rpc(self.name, "period_ms", [str(value)])
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def period_us(self, value):
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r = self.mbed.rpc(self.name, "period_us", [str(value)])
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def puslewidth(self, value):
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r = self.mbed.rpc(self.name, "pulsewidth", [str(value)])
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def puslewidth_ms(self, value):
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r = self.mbed.rpc(self.name, "pulsewidth_ms", [str(value)])
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def puslewidth_us(self, value):
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r = self.mbed.rpc(self.name, "pulsewidth_us", [str(value)])
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class RPCVariable(mbed_interface_write):
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def __init__(self, this_mbed , name):
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mbed_interface_write.__init__(self,this_mbed,name)
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return r
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#Serial
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class Serial():
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def __init__(self, this_mbed , tx, rx = ""):
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self.mbed = this_mbed
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if isinstance(tx, str):
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self.name = mpin
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elif isinstance(mpin, pin):
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self.name = self.mbed.rpc("Serial", "new", [tx.name, rx.name])
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def __init__(self, this_mbed , tx, rx = ""):
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self.mbed = this_mbed
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if isinstance(tx, str):
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self.name = tx
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def putc(self, value):
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r = self.mbed.rpc(self.name, "putc", [str(value)])
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def putc(self, value):
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r = self.mbed.rpc(self.name, "putc", [str(value)])
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def puts(self, value):
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r = self.mbed.rpc(self.name, "puts", [ "\"" + str(value) + "\""])
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def puts(self, value):
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r = self.mbed.rpc(self.name, "puts", [ "\"" + str(value) + "\""])
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def getc(self):
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r = self.mbed.rpc(self.name, "getc", [])
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return int(r)
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class RPCFunction():
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def __init__(self, this_mbed , name):
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self.mbed = this_mbed
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if isinstance(name, str):
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self.name = name
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return int(r)
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def run(self, input):
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r = self.mbed.rpc(self.name, "run", [input])
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return r
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class RPCVariable():
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def __init__(self, this_mbed , name):
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self.mbed = this_mbed
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if isinstance(name, str):
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self.name = name
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def __del__(self):
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r = self.mbed.rpc(self.name, "delete", [])
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def write(self, value):
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self.mbed.rpc(self.name, "write", [str(value)])
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def read(self):
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r = self.mbed.rpc(self.name, "read", [])
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return r
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def getc(self):
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r = self.mbed.rpc(self.name, "getc", [])
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return int(r)
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def wait(s):
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time.sleep(s)
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time.sleep(s)
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