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-rw-r--r--main.py8
-rw-r--r--pathfinding.py115
2 files changed, 119 insertions, 4 deletions
diff --git a/main.py b/main.py
index ee053ea..5221ea1 100644
--- a/main.py
+++ b/main.py
@@ -11,7 +11,7 @@ import gui
import stats
from subscriber import DummySubscriber
from interval_utils import *
-from strategy import *
+from pathfinding import PathfindingTesterStrategy
# global vars
sub = DummySubscriber()
@@ -37,7 +37,7 @@ c.player.nick="test cell pls ignore"
gui.set_client(c)
# initialize strategy
-strategy = Strategy(c)
+strategy = PathfindingTesterStrategy(c)
# main loop
while True:
@@ -48,9 +48,9 @@ while True:
if len(list(c.player.own_cells)) > 0:
target = strategy.process_frame()
- if gui.bot_input:
+ if gui.bot_input and target != None:
c.send_target(target[0], target[1])
stats.log_pos(c.player.center)
stats.log_mass(c.player.total_mass)
- gui.update() \ No newline at end of file
+ gui.update()
diff --git a/pathfinding.py b/pathfinding.py
new file mode 100644
index 0000000..72de22d
--- /dev/null
+++ b/pathfinding.py
@@ -0,0 +1,115 @@
+from gui import marker, marker_updated
+import gui
+
+
+# A* code taken and adapted from https://gist.github.com/jamiees2/5531924
+
+class Node:
+ def __init__(self,value,point,point_in_grid):
+ self.value = value
+ self.point = point
+ self.point_in_grid = point_in_grid
+ self.parent = None
+ self.H = 0
+ self.G = 0
+
+ def move_cost(self,other):
+ # assert other in siblings(self,grid). otherwise this makes no sense
+ # assert that siblings are only in horizontal or vertical directions. otherwise
+ # someone must replace the number "1" by appropriate distances
+ return manhattan(self, other) + (self.value + other.value)/2
+
+def siblings(point,grid):
+ x,y = point.point_in_grid
+ links = [grid[d[0]][d[1]] for d in [(x-1, y),(x,y - 1),(x,y + 1),(x+1,y)]]
+ return [link for link in links if link.value != None]
+
+def manhattan(point,point2):
+ return abs(point.point[0] - point2.point[0]) + abs(point.point[1]-point2.point[1])
+
+def aStar(start, goal, grid):
+ print("aStar("+str(start.point)+"="+str(start.point_in_grid)+", "+str(goal.point)+"="+str(goal.point_in_grid)+")")
+ openset = set()
+ closedset = set()
+
+ current = start
+ openset.add(current)
+
+ while openset:
+ #Find the item in the open set with the lowest G + H score
+ current = min(openset, key=lambda o:o.G + o.H)
+
+ #If it is the item we want, retrace the path and return it
+ if current == goal:
+ path = []
+ while current.parent:
+ path.append(current)
+ current = current.parent
+ path.append(current)
+ return path[::-1]
+
+ openset.remove(current)
+ closedset.add(current)
+
+ for node in siblings(current,grid):
+ if node in closedset:
+ continue
+
+ if node in openset:
+ #Check if we beat the G score
+ new_g = current.G + current.move_cost(node)
+ if node.G > new_g:
+ #If so, update the node to have a new parent
+ node.G = new_g
+ node.parent = current
+ else:
+ #If it isn't in the open set, calculate the G and H score for the node
+ node.G = current.G + current.move_cost(node)
+ node.H = manhattan(node, goal)
+
+ node.parent = current
+ openset.add(node)
+
+ raise ValueError('No Path Found')
+
+path = None
+grid_radius=1200
+grid_density=20
+
+class PathfindingTesterStrategy:
+ def __init__(self, c):
+ self.c = c
+
+ def process_frame(self):
+ global path
+
+ if marker_updated[0]:
+ marker_updated[0]=False
+
+ goalx = int((marker[0][0] - self.c.player.center[0] + grid_radius)/grid_density)
+ goaly = int((marker[0][1] - self.c.player.center[1] + grid_radius)/grid_density)
+
+ grid = []
+ for x in range(-grid_radius,grid_radius+1,grid_density):
+ gridline = []
+ for y in range(-grid_radius,grid_radius+1,grid_density):
+ val = 0
+
+ for cell in self.c.player.world.cells.values():
+ relpos = (cell.pos.x - (x+self.c.player.center.x), cell.pos.y - (y+self.c.player.center.y))
+ dist_sq = relpos[0]**2 + relpos[1]**2
+ if dist_sq < cell.size**2 *3:
+ val += 100000000
+
+ gridline.append(Node(None if (x in [-grid_radius,grid_radius] or y in [-grid_radius,grid_radius]) else val, (self.c.player.center[0]+x,self.c.player.center[1]+y), (int((x+grid_radius)/grid_density), int((y+grid_radius)/grid_density))))
+ grid.append(gridline)
+
+ path = aStar(grid[int(grid_radius/grid_density)][int(grid_radius/grid_density)], grid[goalx][goaly], grid)
+ for node in path:
+ print (node.point_in_grid)
+ print("="*10)
+
+
+ for (node1,node2) in zip(path,path[1:]):
+ gui.draw_line(node1.point, node2.point, (0,0,0))
+ return marker[0]