test with polling for new data (not working well)

This commit is contained in:
Simon Pirkelmann 2019-06-14 08:45:00 +02:00
parent c31bb9cb11
commit 05d80fa6ed

View File

@ -4,8 +4,9 @@ from machine import I2C, Pin
import d1motor
import time
import utime
import usocket
import uselect
import esp
class Robot:
@ -32,6 +33,10 @@ class Robot:
# setup socket for remote control
self.addr = usocket.getaddrinfo(ip, 1234)[0][-1]
self.poller = uselect.poll()
self.poller_timeout = 2 # timeout in ms
def remote_control(self):
while True:
print("setting up socket communication ...")
@ -45,73 +50,125 @@ class Robot:
socket_setup_complete = True
except Exception as e:
print("could not create socket. error msg: {}\nwaiting 1 sec and retrying...".format(e))
time.sleep(1.0)
utime.sleep(1.0)
print("waiting for connections on {} ...".format(self.addr))
socket.listen(1)
res = socket.accept() # this blocks until someone connects to the socket
comm_socket = res[0]
self.poller.register(comm_socket, uselect.POLLIN)
print("connected!")
listening = True
duration_current = 0
t_current = utime.ticks_ms()
duration_next = None
u1_next = None
u2_next = None
stopped = True
timeouts = 0
while listening:
elapsed = utime.ticks_ms()
remaining = duration_current - (elapsed-t_current)
if remaining >= 0:
timeouts = 0
print("start of loop\n I have {} ms until next control needs to be applied".format(remaining))
elif timeouts < 10:
print("start of loop\n I have {} ms until next control needs to be applied, timeouts = {}".format(remaining, timeouts))
timeouts = timeouts + 1
trecv_start = utime.ticks_ms()
# expected data: '(t, u1, u2)'\n"
# where ui = control for motor i
# ui \in [-1.0, 1.0]
try:
data = comm_socket.readline()
data_str = data.decode()
print("Data received: {}".format(data_str))
print("processing data = {}".format(data_str))
l = data_str.strip('()\n').split(',')
print("l = {}".format(l))
t = float(l[0])
print("t = {}".format(t))
u1 = int(float(l[1])*100)
print("u1 = {}".format(u1))
u2 = int(float(l[2])*100)
print("u2 = {}".format(u2))
except ValueError:
print("ValueError: Data has wrong format.")
print("Data received: {}".format(data_str))
print("Shutting down ...")
u1 = u2 = 0
t = 0.0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
except IndexError:
print("IndexError: Data has wrong format.")
print("Data received: {}".format(data_str))
print("Shutting down ...")
u1 = u2 = 0
t = 0.0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
except Exception as e:
print("Some other error occured")
print("Exception: {}".format(e))
print("Shutting down ...")
u1 = u2 = 0
t = 0.0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
finally:
self.m1.speed(u1)
self.m2.speed(u2)
time.sleep(t)
self.m1.speed(0)
self.m2.speed(0)
#print("poller waiting..")
poll_res = self.poller.poll(self.poller_timeout) # wait 100 milliseconds for socket data
if poll_res:
print("new data available")
try:
data = comm_socket.readline()
data_str = data.decode()
#print("Data received: {}".format(data_str))
#print("processing data = {}".format(data_str))
l = data_str.strip('()\n').split(',')
#print("l = {}".format(l))
duration_next = int(float(l[0])*1000)
#print("duration = {}".format(duration_next))
u1_next = int(float(l[1])*100)
#print("u1 = {}".format(u1_next))
u2_next = int(float(l[2])*100)
#print("u2 = {}".format(u2_next))
except ValueError:
print("ValueError: Data has wrong format.")
print("Data received: {}".format(data_str))
print("Shutting down ...")
u1_next = u2_next = 0
duration_current = 0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
except IndexError:
print("IndexError: Data has wrong format.")
print("Data received: {}".format(data_str))
print("Shutting down ...")
u1_next = u2_next = 0
duration_current = 0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
except Exception as e:
print("Some other error occured")
print("Exception: {}".format(e))
print("Shutting down ...")
u1_next = u2_next = 0
duration_current = 0
listening = False
comm_socket.close()
socket.close()
del comm_socket
del socket
print("disconnected!")
trecv_end = utime.ticks_ms()
print("communication (incl. polling) took {} ms".format(trecv_end - trecv_start))
elapsed = utime.ticks_ms()
if elapsed - t_current >= duration_current: # check if duration of current control has timed out
if u1_next is not None: # check if new control is available
print("previous control applied for {} ms too long".format(elapsed - t_current - duration_current))
#print("duration of previous control = {}".format((elapsed - t_current)/1000.0))
#print("applying new control (duration, u1, u2) = ({}, {}, {})".format(duration_next, u1_next, u2_next))
# if so, apply it
self.m1.speed(u1_next)
self.m2.speed(u2_next)
t_current = utime.ticks_ms()
duration_current = duration_next
# reset next control
u1_next = None
u2_next = None
duration_next = None
stopped = False
elif not stopped:
#print("previous control applied for {} ms too long".format(elapsed - t_current - duration_current))
#print("duration of previous control = {}".format((elapsed - t_current)/1000.0))
# no new control available -> shutdown
#print("no new control available -> stopping")
#self.m1.speed(0)
#self.m2.speed(0)
t_current = utime.ticks_ms()
duration_current = 0 # as soon as new control will become available we directly want to apply it immediately
stopped = True
wall_e = Robot()
wall_e.remote_control()