Python code is as shown below: # recursive function def row_puzzle_rec(row, pos, visited): # if the element at the current position is o we have reached our goal if rowlpos] == o: possible = True else: # make a copy of the visited array visited = visited[:} # if the element at the current position has been already visited then it's a loop. # as then its not possible to reach the last element, set possible to False if visited[pos): possible = False else: # set visitied for the element as True visited[pos] = True possible = False # if its possible to move left then recurse in the left direction if pos - rowlpos] > o and row_puzzle_rec(row, pos - rowlpos), visited): # return immediately if the goal is reached return True # if its possible to move right then recurse in the right direction if pos + rowlpos] < len(row) and row_puzzle_rec(row, pos + row[pos), visited): # return immediately if the goal is reached. return True return possible def row_puzzle(row): # visited array will be used to check if a particular element was visited # initialize the array to False visited = [False for item in range(len(row))} # second argument is the token position initialized to o return row_puzzle_rec(row, o, visited) possible = row_puzzle([2, 4, 5, 3, I, 3, 1, 4, ol) print(possible) possible = row_puzzle([1, 3, 2, 1, 3, 4, o]) print(possible)

Computer Networking: A Top-Down Approach (7th Edition)
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Author:James Kurose, Keith Ross
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Chapter1: Computer Networks And The Internet
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can you please convert this python code into java?
Python code is as shown below:
# recursive function
def row_puzzle_rec(row, pos, visited):
# if the element at the current position is o we have reached
our goal
if row[pos] == o:
possible = True
else:
# make a copy of the visited array
visited = visited[:}
# if the element at the current position has been already
visited then it's a loop.
# as then its not possible to reach the last element, set
possible to False
if visited[pos]:
possible = False
else:
# set visitied for the element as True
visited[pos] = True
possible = False
# if its possible to move left then recurse in the left
direction
if pos - rowlpos} > o and row_puzzle_rec(row, pos -
row[pos], visited):
# return immediately if the goal is reached
return True
# if its possible to move right then recurse in the right
direction
if pos + rowlpos} < len(row) and row_puzzle_rec(row, pos +
row[pos], visited):
# return immediately if the goal is reached.
return True
return possible
def row_puzzle(row):
# visited array will be used to check if a particular element was
visited
# initialize the array to False
visited = [False for item in range(len(row))]
# second argument is the token position initialized to o
return row_puzzle_rec(row, o, visited)
possible = row_puzzle([2, 4, 5, 3, 1, 3, 1, 4, ol)
print(possible)
possible = row_puzzle([1, 3, 2, 1, 3, 4, ol)
print(possible)
Transcribed Image Text:can you please convert this python code into java? Python code is as shown below: # recursive function def row_puzzle_rec(row, pos, visited): # if the element at the current position is o we have reached our goal if row[pos] == o: possible = True else: # make a copy of the visited array visited = visited[:} # if the element at the current position has been already visited then it's a loop. # as then its not possible to reach the last element, set possible to False if visited[pos]: possible = False else: # set visitied for the element as True visited[pos] = True possible = False # if its possible to move left then recurse in the left direction if pos - rowlpos} > o and row_puzzle_rec(row, pos - row[pos], visited): # return immediately if the goal is reached return True # if its possible to move right then recurse in the right direction if pos + rowlpos} < len(row) and row_puzzle_rec(row, pos + row[pos], visited): # return immediately if the goal is reached. return True return possible def row_puzzle(row): # visited array will be used to check if a particular element was visited # initialize the array to False visited = [False for item in range(len(row))] # second argument is the token position initialized to o return row_puzzle_rec(row, o, visited) possible = row_puzzle([2, 4, 5, 3, 1, 3, 1, 4, ol) print(possible) possible = row_puzzle([1, 3, 2, 1, 3, 4, ol) print(possible)
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