# Most efficient way to find a continuous sequence of 3 elements in an array?

I have a 2D array:

      winning moves = [
["a1","a2", "a3"],
["b1","b2", "b3"],
["c1","c2", "c3"],
["a1","b1", "c1"],
["a2","b2", "c2"],
["a3","b3", "c3"],
["a1","b2", "c3"],
["a3","b2", "c1"],
]


Then I have 2 other arrays of variable arbitrary lengths

 Player X = ["c3", "b3", "a2", "a1", "c2" ]

Player Y = ["b1", "c1", "a3", "b2"]


In the above scenario, Y is a sequence that exists in wm.

I have the following way that works but is this the best way?

wm.each_with_index do |arr, index|

puts "wm[#{index}]=#{arr}"
winner = nil
matchx = 0
matchy = 0

arr.each do|el|
if(X.include?(el))
matchx = matchx + 1
end
if(Y.include?(el))
matchy = matchy + 1
end
end

puts "matchx = #{matchx}"
puts "matchy = #{matchy}"

if(matchx == 3)
puts "winner = X"
end

if(matchy == 3)
puts "winner = Y"
end

end


OUTPUT of the above code is this:

 wm[0]=["a1", "a2", "a3"]
matchx = 2
matchy = 1
wm[1]=["b1", "b2", "b3"]
matchx = 1
matchy = 2
wm[2]=["c1", "c2", "c3"]
matchx = 2
matchy = 1
wm[3]=["a1", "b1", "c1"]
matchx = 1
matchy = 2
wm[4]=["a2", "b2", "c2"]
matchx = 2
matchy = 1
wm[5]=["a3", "b3", "c3"]
matchx = 2
matchy = 1
wm[6]=["a1", "b2", "c3"]
matchx = 2
matchy = 1
wm[7]=["a3", "b2", "c1"]
matchx = 0
matchy = 3
winner =Y

-
Y is a sequence that exists in wm. - What is the functional logic of this.. I am not getting the connection of it. –  Arup Rakshit Jan 18 at 22:09
This is how I determine the winners in a TicTacToe game. X and Y are players. The arrays are the positions they have chosen. wm is a 2D array of all the possible winning moves one can have on a TicTacToe board. After each move, I need to check if any player has won or not. Winning means a match of any 3 positions from the players array and any array in the 2D array. –  banditKing Jan 18 at 22:12
if TicTacToe, better approach will be to save per column/row/diagonal per player, than after each move check is any of the above is 3 –  Mzf Jan 18 at 22:24

If you are playing TicTacToe you can do the next which is more effective

For each row/column/diagonal(only 2) save 2 values: the number of mark each played did on that row/column/diagonal

Each move you update the values, if one of the value reach 3 , the player won the game. if player i play on (x,y) cell, the pseudo code code look like this

row[x][i]++
column[y][i]++
if (x == y) then diagonalA[i]++
if ((x + y) == 2) then diagonalB[i]++

if (row[x][i] == 3 || column[y][i] == 3 ||
diagonalA[i] == 3 || diagonalB[i] == 3)
then 'player i has won'


EDIT

update the code to handle both diagonal

-

I originally approached this using sets, but after seeing @vidaica's answer, it was obvious that using array intersections would be more straightforward. The latter is equivalent to using sets (with Set#subset?, for example), but avoids the need to convert between arrays and sets.

   WM = [
["a1","a2", "a3"], ["b1","b2", "b3"], ["c1","c2", "c3"],
["a1","b1", "c1"], ["a2","b2", "c2"], ["a3","b3", "c3"],
["a1","b2", "c3"], ["a3","b2", "c1"],
]

def find_winner(x_moves, y_moves)
return "No winner" if x_moves.size < 3
3.upto(x_moves.size) do |i|
if (w = win?(x_moves.first(i)))
return "X wins with #{w}"
elsif i <= y_moves.size && (w = win?(y_moves.first(i)))
return "Y wins with #{w}"
end
end
return "No winner"
end

def win?(moves)
WM.find { |m| (m & moves).size == 3 }
end

puts find_winner([], [])
# => No winner
puts find_winner(["b1"], ["c3"])
# => No winner
puts find_winner(["b1", "c1", "a3", "b2"], ["c3", "b3", "a2", "a1"])
# => X wins with ["a3", "b2", "c1"]
puts find_winner(["b1", "c1", "a3", "b2"], ["c3", "b3", "a2"])
# => X wins with ["a3", "b2", "c1"]
puts find_winner(["b1", "a2", "a3", "c2", "c1"], ["c3", "b3", "a1", "b2"])
# => Y wins with ["a1", "b2", "c3"]
puts find_winner(["b1", "a2", "b2", "c3", "c1"], ["a1", "b3", "c2", "a3"])
# => No winner

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