Removed old file

2019-05-14 23:54:23 +02:00 · 2019-05-14 23:54:23 +02:00 · d56e137803
commit d56e137803
parent 431d130379
1 changed files with 0 additions and 131 deletions
--- a/Traversal/BestFS_nope.py
+++ b/Traversal/BestFS_nope.py
@ -1,131 +0,0 @@
-from utilities import movement,check_moves
-from DataModels.House import House
-from DataModels.Container import Container
-from config import GRID_WIDTH, GRID_HEIGHT
-from math import sqrt
-INF = float('Inf')
-
-
-def CalculateDistance(gc, object_list):
-    min_distance_goal = ['-',INF]
-    for h in object_list:
-        distance = sqrt(pow(h[1][0]-gc[0],2)+pow(h[1][1]-gc[1],2))
-        if(min_distance_goal[1] > distance):
-            min_distance_goal = [h[1], distance]
-    return min_distance_goal
-
-def BestFS(grid, gc_moveset, object_list):
-    print(gc_moveset)
-    x, y = gc_moveset[-1][0], gc_moveset[-1][1]
-    available_movement = check_moves(grid, x, y)
-
-    if(len(object_list) == 0): 
-        return gc_moveset
-
-
-    decision_stack = []
-
-    constraint = 100
-    while(len(object_list) > 0 and constraint > 0):
-
-        print("================")
-        print("iteracja: "+str(100-constraint))
-        print("GC: "+str([x,y]))
-        print(object_list)
-
-        #calculate distance to the nearest object
-        min_distance_goal = CalculateDistance([x,y], object_list)
-        print(min_distance_goal)
-
-        #check if can pick garbage
-        if(min_distance_goal[1] == 1):
-            gc_moveset.append("pick_garbage")
-            decision_stack = []
-            #remove object from goals list
-            cell = grid[min_distance_goal[0][0]][min_distance_goal[0][1]]
-            print("***"+str([cell,min_distance_goal[0]])+"***")
-            object_list.remove([cell,min_distance_goal[0]])
-            #if that was the last object, return 
-            if(len(object_list)==0):
-                break
-            #look for a new goal
-            available_movement = check_moves(grid, x, y)
-            min_distance_goal = CalculateDistance([x,y], object_list)
-            print(min_distance_goal)
-            print(min_distance_goal[0])
-        
-        #set preffered directions based on the closest object
-        preffered_directions = []
-        discouraged_directions = []
-
-        if(min_distance_goal[0][0] > x):
-            preffered_directions.append("right")
-        if(min_distance_goal[0][0] < x):
-            preffered_directions.append("left")
-        if(min_distance_goal[0][1] > y):
-            preffered_directions.append("down")
-        if(min_distance_goal[0][1] < y):
-            preffered_directions.append("up")
-
-        if(len(preffered_directions) == 1):
-            discouraged_directions.append(movement(grid, x, y)[1][preffered_directions[0]])
-
-        print("Preferred: "+str(preffered_directions))
-        print("Discouraged: "+str(discouraged_directions))
-        print("Available: "+str(available_movement))
-        
-        #if agent finds more than 1 optimal route
-        possible_routes = len([i for i in available_movement if i in preffered_directions ])
-        print("Preferred to available count: "+str(possible_routes))
-
-        #HOTFIX
-        if(possible_routes > 1):
-            if(len(decision_stack) > 0):
-                if(decision_stack[0] == [x,y]):
-                    preffered_directions.pop(1)
-            else:        
-                decision_stack = [[x,y]]
-                preffered_directions.pop(0)
-        print("Decision stack: "+str(decision_stack))
-
-        """ if(possible_routes > 1):
-            for move in available_movement:
-                if (move in preffered_directions):
-                    x_next, y_next = movement(grid, x, y)[0][move]
-                    route = BestFS(grid, [x_next,y_next], houses_list, [[x_next, y_next]], check_moves(grid, x_next, y_next, move), "House", depth + 1)
-                    print("DIRECTION: "+str(move)+", GIVEN "+str(len(houses_list))+" HOUSES, RECURSION ON DEPTH "+str(depth+1)+" returned "+str(route))
-                    if (route == None):
-                        break
-                    if (route.count("pick_garbage") - 1 == len(houses_list)):
-                        print(str(route.count("pick_garbage"))+" / "+str(len(houses_list)))
-                        print("ROUTE ADDED")
-                        gc_moveset.extend(route)
-                        break
-            break """
-
-        #if got no available moves but still has goals to visit
-        if(len(available_movement) == 0):
-            available_movement = check_moves(grid, x, y)
-
-        #selecting next move based on preferences (starting with the worst option)
-        if(len(available_movement)>0):
-            next_move = available_movement[0] #pick any
-            for move in available_movement:
-                if (move not in discouraged_directions): #pick any not discouraged move if possible
-                    next_move = move
-                    break
-            for move in preffered_directions:
-                if(move in available_movement): #pick any preferred move if possible
-                    next_move = move
-                    break
-            print("Next move: "+str(next_move))
-            x_next, y_next = movement(grid, x, y)[0][next_move]
-            print("Next moving to "+str(x_next)+" "+str(y_next))
-            gc_moveset.append([x_next,y_next])
-            x, y = x_next, y_next
-            available_movement = check_moves(grid, x, y, next_move)
-        print("------------------------------")
-                
-        constraint -= 1
-
-    return gc_moveset, [x,y]