92 lines
3.4 KiB
Python
92 lines
3.4 KiB
Python
import numpy
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from AStarState import AStarState
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class AStar:
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def returnPath(self, currentNode, grid):
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path = []
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noRows, noColumns = numpy.shape(grid)
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result = [[-1 for i in range(noColumns)] for j in range(noRows)]
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current = currentNode
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while current is not None:
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path.append(current.position)
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current = current.parent
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path = path[::-1]
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startValue = 0
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for i in range(len(path)):
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result[path[i][0]][path[i][1]] = startValue
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startValue+=1
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return result
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######################################################### w current jest koszt do przebycia
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def search(self, start, end, grid, cost, flaga): #start to kordy wózka, end miejsce podjęcia paczki
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noRows, noColumns = numpy.shape(grid)
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startNode = AStarState(None, tuple(start))
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endNode = AStarState(None, tuple(end))
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startNode.g = 0
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startNode.h = 0
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startNode.f = 0
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endNode.g = 0
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endNode.h = 0
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endNode.f = 0
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toVisit = []
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visited = []
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toVisit.append(startNode)
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iterations = 0
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max = (len(grid) // 2) ** 10
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moves = [[-1, 0], [1, 0], [0, 1], [0, -1]]
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while len(toVisit)>0:
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iterations=iterations+1
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current = toVisit[0]
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currentIndeks = 0
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for indeks, item in enumerate(toVisit):
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if item.g<current.g:
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current = item
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currentIndeks = indeks
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if iterations>max and flaga == 0: #podprojekt genetyczne
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return current.g
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if iterations>max:
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return self.returnPath(current, grid)
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visited.append(current)
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toVisit.pop(currentIndeks)
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if current==endNode and flaga == 0:
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return current.g
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if current==endNode:
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return self.returnPath(current, grid) #zwracanie wagi przejscia
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children = []
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for new in moves:
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positions = (current.position[0]+new[0], current.position[1]+new[1])
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if (positions[0] > (noRows - 1) or
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positions[0] < 0 or
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positions[1] > (noColumns - 1) or
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positions[1] < 0):
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continue
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""" podprojekt genetyczne"""
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if grid[positions[0]][positions[1]] == 2 and flaga == 0:
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children.append(AStarState(current, positions))
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continue
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if grid[positions[0]][positions[1]]!=0:
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continue
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children.append(AStarState(current, positions))
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for child in children:
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if len([visitedChild for visitedChild in visited if visitedChild==child])>0:
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continue
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if child.position[0]<=(len(grid)-4) and child.position[0]>=3 and child.position[1]>=4 and child.position[1]<=(len(grid[0])-1):
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child.g = current.g + (10 * cost)
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else:
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child.g = current.g + cost
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child.h = (((child.position[0]-endNode.position[0]) ** 2) + ((child.position[1]-endNode.position[1]) ** 2))
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child.f = child.g + child.h
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if len([i for i in toVisit if child==i and child.g>i.g])>0:
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continue
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toVisit.append(child)
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