More work towards a working main loop...

This commit is contained in:
d3rped 2018-03-25 15:09:13 +02:00
parent 1dc4f5a2d7
commit 678c94532e
6 changed files with 72 additions and 24 deletions

View file

@ -103,8 +103,14 @@ class Communication:
def status(self):
return self._status
def update(self, edges): # TODO: FINISH
def update(self, odometry, edges): # TODO: FINISH
if(odometry != None):
self.planet.setcurnode(self.planet.getcurnode() + odometry[0])
if(edges is None and self._status is Mode.EXPLORE):
if(self.planet.unexedge == []):
self.encode_message(Command.COMPLETE, None)
else:
self.navto = next(filter(lambda x: x is not None, map(lambda edge: self.planet.shortest_path(self.planet.getcurnode(), edge), self.planet.unexedge)))
self._status = Mode.GOTOSTATION
elif(edges is None):
pass
@ -145,8 +151,9 @@ class Communication:
elif message.startswith(Command.PATH):
self.stringtopath(*message[5:].rsplit(' '))
elif message.startswith(Command.TARGET):
self._status = Mode.TARGET
self.navto = self.planet.shortest_path(self.planet.getcurnode(), str2tuple(*message[7:].rsplit(',')))
if(self.navto != None):
self._status = Mode.TARGET
elif message.startswith(Command.NOTICE):
print(message)

View file

@ -27,13 +27,14 @@ def run():
while(communication.status() is Mode.GOTOSTATION or communication.status() is Mode.TARGET): # should be triggered if current station has no unexplored edges
for instructions in communication.navto:
for instructions in communication.navto:
communication.update(None)
communication.update(None, None)
move.turnto(instructions[1])
move.traversetonextstation(True)
communication.update(move.getstationedges()) # TODO: Register in map
communication.update(move._odometry.coordinates_get(), move.getstationedges()) # TODO: Register in map
move.updatevars()
move.turnto(communication.navto[0][1]) # TODO: add control mechanism to communication class
if(communication.check(move.traversetonextstation(False)) is False): # TODO: let same control mechanism decide if station is known, also traversetonextstation needs a return value
if(communication.check(move.traversetonextstation(False)) is False):
move.setcurdir(communication.getdir())

View file

@ -3,6 +3,8 @@
from wheel import Wheel
from sensor import Sensor
from odometry import Odometry
from planet import Direction
from time import sleep
def capat100(value):
@ -35,14 +37,22 @@ class Move:
self._sensor.calibrateBrightness()
# pass
'''
Function to correct errors should the robot wander astray
'''
def _aligntoedge(self):
pass
self._wheel_l.speed_set(20)
self._wheel_r.speed_set(-20)
self._wheel_l.run()
self._wheel_r.run()
self._sensor.refresh()
while(self._sensor.getbrightness() > self._sensor.edgebrightness):
self._sensor.refresh()
self._wheel_l.stop()
self._wheel_r.stop()
self._wheel_l.turnbyamount(20, 20)
self._wheel_r.turnbyamount(-20, 20)
'''
uses odometry and the planet object to map edges that are connected to
@ -52,12 +62,25 @@ class Move:
Next turn around and detect edges through drops in _sensor.getbrightness()
'''
def getstationedges(self):
pass
found_edges = []
self._odometry.reset()
while(True):
self._aligntoedge()
self._odometry.pos_update((self._wheel_l.getmovement(), self._wheel_r.getmovement()))
if(self._odometry.angle_get() in found_edges):
break
else:
found_edges.append(self._odometry.angle_get())
self._wheel_l.turnbyamount(20, 20)
self._wheel_r.turnbyamount(-20, 20)
sleep(2)
return found_edges
def turnto(self, direction):
turnval = self._odometry.dir2ticks(direction)
self._wheel_l.turnbyamount(turnval, self.defaultspeed)
self._wheel_r.turnbyamount(-turnval, self.defaultspeed)
self._wheel_l.turnbyamount(turnval, 90)
self._wheel_r.turnbyamount(-turnval, 90)
def traversetonextstation(self, isknownstation):
self._wheel_l.speed_set(self._sensor.edgebrightness//2)
@ -72,6 +95,5 @@ class Move:
self._sensor.getcolor()
if(not isknownstation):
self._odometry.pos_update((self._wheel_l.getmovement(), self._wheel_r.getmovement()))
self._wheel_l.stop()
self._wheel_r.stop()

View file

@ -61,6 +61,9 @@ class Odometry:
def angle_set(self, newangle):
self._v_angle = newangle
def angle_get(self):
return angle2dir(self._v_angle)
def coordinates_get(self):
return ((posround(self._posxy[0]), posround(self._posxy[1])), angle2dir(self._v_angle))
@ -69,8 +72,8 @@ class Odometry:
self._distance[1] = ticks_wheel[1] * self._distance_per_tick
self._v_length = self._v_length + (self._distance[0] + self._distance[1])/2
self._v_angle = self._v_angle + (self._distance[0] - self._distance[1])/self._wheel_axis
self.coordinates_update()
self._wheel_center = (self._distance[0] + self._distance[1])/2
self.coordinates_update()
print((self._v_length, angle2dir(self._v_angle)))
def coordinates_update(self): # worked as function outside the class
@ -79,10 +82,6 @@ class Odometry:
print((self._posxy[0], self._posxy[1]))
def dir2ticks(self, destdir): # return amount of ticks to turn to a given direction (current direction should be _v_angle)
self._ticksperwheel = 0
self._current_Direc = (self._v_angle /self._pi) * 180
self._ticks_def = self._current_Direc - destdir
self._ticksperwheel = self._ticks_def / 2
if self._ticksperwheel < 0:
self._ticksperwheel = - self._ticksperwheel
return ticksperwheel
turnval = (destdir - self._v_angle) * 2
self._v_angle = destdir
return turnval

19
src/odomtest.py Normal file
View file

@ -0,0 +1,19 @@
from move import Move
mymove = Move()
mymove._sensor.refresh()
mymove.maxbrightness = mymove._sensor.getbrightness()
mymove.maxbrightness = 50
mymove._wheel_l.getmovement()
mymove._wheel_r.getmovement()
try:
mymove.traversetonextstation(False)
except:
mymove._wheel_l.stop()
mymove._wheel_r.stop()
mymove._wheel_l.getmovement()
mymove._wheel_r.getmovement()

View file

@ -50,7 +50,7 @@ class Planet:
def __init__(self):
""" Initializes the data structure """
self._planetmap = {}
self._unexedge = []
self.unexedge = []
self._curnode = None
self._curdir = Direction.NORTH
self.target = None
@ -79,10 +79,10 @@ class Planet:
return self._curdir
def addtounexedge(self, node_edge_list):
self._unexedge = self._unexedge + node_edge_list
self.unexedge = self.unexedge + node_edge_list
def exploreedge(self, node_edge):
self._unexedge.remove(node_edge)
self.unexedge.remove(node_edge)
'''
Returns a shortest path between two nodes.