local mfl, mce = math.floor, math.ceil local mmi, mma = math.min, math.max local bls, brs = bit.lshift, bit.rshift local SparseTable = {} SparseTable.create = function(self, n, ary, func) self.n = n self.func = func local spt = {{}} for i = 1, n do spt[1][i] = ary[i] end do local len = 1 for i = 2, 25 do if n < len then break end spt[i] = {} for j = 1, n do if j + len <= n then spt[i][j] = func(spt[i - 1][j], spt[i - 1][j + len]) else spt[i][j] = spt[i - 1][j] end end len = len * 2 end end local sptpos = {} local sptlen = {} do local tmp = 1 local pos = 1 for len = 1, n do if tmp * 2 < len then tmp = tmp * 2 pos = pos + 1 end sptpos[len] = pos sptlen[len] = tmp end end self.spt = spt self.sptpos = sptpos self.sptlen = sptlen end SparseTable.query = function(self, l, r) local len = r - l + 1 local tbl = self.spt[self.sptpos[len]] return self.func(tbl[l], tbl[ r + 1 - self.sptlen[len] ]) end SparseTable.new = function(n, ary, func) local obj = {} setmetatable(obj, {__index = SparseTable}) obj:create(n, ary, func) return obj end local function SA_IS(data, data_size, word_size) local suffix_array = {} local type_tag = {} -- -2: L, -1: S, 1~: i-th LMS for i = 1, data_size do suffix_array[i] = -1 type_tag[i] = -2 end local word_count = {} local word_count_sum = {} local word_pushback_count = {} local word_pushfront_count = {} for i = 1, word_size do word_count[i] = 0 word_count_sum[i] = 0 word_pushback_count[i] = 0 word_pushfront_count[i] = 0 end local lms_count = 0 local lms_data_indexes = {} local sorted_lms_data_indexes = {} local lms_compressed_data = {} for i = 1, data_size do word_count[data[i]] = word_count[data[i]] + 1 end word_count_sum[1] = word_count[1] for i = 2, word_size do word_count_sum[i] = word_count_sum[i - 1] + word_count[i] end local prev_type = -2 for i = data_size - 1, 1, -1 do if data[i] == data[i + 1] then type_tag[i] = prev_type else type_tag[i] = data[i] < data[i + 1] and -1 or -2 prev_type = type_tag[i] end end for i = 2, data_size do if type_tag[i - 1] == -2 and type_tag[i] == -1 then lms_count = lms_count + 1 type_tag[i] = lms_count lms_data_indexes[lms_count] = i sorted_lms_data_indexes[lms_count] = -1 lms_compressed_data[lms_count] = -1 end end -- put LMS for i = 1, lms_count do local idx = lms_data_indexes[i] local w = data[idx] suffix_array[word_count_sum[w] - word_pushback_count[w]] = idx word_pushback_count[w] = word_pushback_count[w] + 1 end -- put L do local w = data[data_size] local offset = w == 1 and 0 or word_count_sum[w - 1] suffix_array[offset + 1] = data_size word_pushfront_count[w] = word_pushfront_count[w] + 1 end for sufa_idx = 1, data_size - 1 do local data_idx = suffix_array[sufa_idx] if 1 < data_idx then data_idx = data_idx - 1 if type_tag[data_idx] == -2 then local w = data[data_idx] local offset = w == 1 and 0 or word_count_sum[w - 1] word_pushfront_count[w] = word_pushfront_count[w] + 1 suffix_array[offset + word_pushfront_count[w]] = data_idx end end end -- remove LMS for w = 1, word_size do word_pushback_count[w] = 0 end -- put S for sufa_idx = data_size, 1, -1 do local data_idx = suffix_array[sufa_idx] if 1 < data_idx then data_idx = data_idx - 1 if -1 <= type_tag[data_idx] then local w = data[data_idx] suffix_array[word_count_sum[w] - word_pushback_count[w]] = data_idx word_pushback_count[w] = word_pushback_count[w] + 1 end end end local lms_data_value = 0 local prev_lms_index = 0 local prev_lms_data_index = 0 for sufa_idx = 1, data_size do local data_idx = suffix_array[sufa_idx] local lms_idx = type_tag[data_idx] if 1 <= lms_idx then local is_same = false if 0 < prev_lms_data_index and prev_lms_index ~= lms_count and lms_idx ~= lms_count then local len1 = lms_data_indexes[lms_idx + 1] - data_idx local len2 = lms_data_indexes[prev_lms_index + 1] - prev_lms_data_index if len1 == len2 then is_same = true for i = 0, len1 do if data[i + data_idx] ~= data[i + prev_lms_data_index] then is_same = false break end end end end if not is_same then lms_data_value = lms_data_value + 1 end lms_compressed_data[lms_idx] = lms_data_value prev_lms_index = lms_idx prev_lms_data_index = data_idx end end if lms_data_value == lms_count then for i = 1, lms_count do sorted_lms_data_indexes[lms_compressed_data[i]] = lms_data_indexes[i] end else local lms_sa = SA_IS(lms_compressed_data, lms_count, lms_data_value) for i = 1, lms_count do sorted_lms_data_indexes[i] = lms_data_indexes[lms_sa[i]] end end for i = 1, lms_count do local inv = lms_count + 1 - i if inv <= i then break end sorted_lms_data_indexes[i], sorted_lms_data_indexes[inv] = sorted_lms_data_indexes[inv], sorted_lms_data_indexes[i] end -- Second Induced Sort for i = 1, data_size do suffix_array[i] = -1 end for i = 1, word_size do word_pushback_count[i] = 0 word_pushfront_count[i] = 0 end -- put LMS for i = 1, lms_count do local idx = sorted_lms_data_indexes[i] local w = data[idx] suffix_array[word_count_sum[w] - word_pushback_count[w]] = idx word_pushback_count[w] = word_pushback_count[w] + 1 end -- put L do local w = data[data_size] local offset = w == 1 and 0 or word_count_sum[w - 1] suffix_array[offset + 1] = data_size word_pushfront_count[w] = word_pushfront_count[w] + 1 end for sufa_idx = 1, data_size - 1 do local data_idx = suffix_array[sufa_idx] if 1 < data_idx then data_idx = data_idx - 1 if type_tag[data_idx] == -2 then local w = data[data_idx] local offset = w == 1 and 0 or word_count_sum[w - 1] word_pushfront_count[w] = word_pushfront_count[w] + 1 suffix_array[offset + word_pushfront_count[w]] = data_idx end end end -- remove LMS for w = 1, word_size do word_pushback_count[w] = 0 end -- put S for sufa_idx = data_size, 1, -1 do local data_idx = suffix_array[sufa_idx] if 1 < data_idx then data_idx = data_idx - 1 if -1 <= type_tag[data_idx] then local w = data[data_idx] suffix_array[word_count_sum[w] - word_pushback_count[w]] = data_idx word_pushback_count[w] = word_pushback_count[w] + 1 end end end return suffix_array end local SAIS = {} SAIS.create = function(self, data, data_size, word_size) local sufa = SA_IS(data, data_size, word_size) local sufa_inv = {} for i = 1, data_size do sufa_inv[i] = 0 end for i = 1, data_size do sufa_inv[sufa[i]] = i end self.sufa = sufa self.sufa_inv = sufa_inv -- LCPA local n = data_size local lcpa = {} for i = 1, n - 1 do lcpa[i] = 0 end local spos = 0 for i = 1, n do local lcppos = sufa_inv[i] if lcppos < n then local len = spos local p1, p2 = sufa[lcppos], sufa[lcppos + 1] p1, p2 = p1 + spos, p2 + spos while p1 <= n and p2 <= n do if data[p1] == data[p2] then len = len + 1 p1, p2 = p1 + 1, p2 + 1 else break end end lcpa[lcppos] = len spos = 1 < len and len - 1 or 0 end end self.lcpa = lcpa self.data = data self.n = n end local n, k = io.read("*n", "*n") local a = {} for i = 1, n do a[i] = io.read("*n") end SAIS:create(a, n, n) local sufa = SAIS.sufa local sufa_inv = SAIS.sufa_inv local lcpa = SAIS.lcpa local spt = SparseTable.new(n - 1, lcpa, mmi) local function getlen(x, y) if y < x then x, y = y, x end return spt:query(x, y - 1) end local t = {} for i = 1, n do t[i] = i end -- 123456789 -- 23456789 -- 12 456789 -- 1234 6789 -- 12345678 local function compare(x, y) if x < y then local p1 = sufa_inv[x + 1] local p2 = sufa_inv[x] local len = getlen(p1, p2) if y - x <= len then return false else return p1 < p2 end else local p1 = sufa_inv[y + 1] local p2 = sufa_inv[y] local len = getlen(p1, p2) if x - y <= len then return false else return p2 < p1 end end end table.sort(t, compare) local b = {} for i = 1, n do if i ~= t[k] then table.insert(b, a[i]) end end print(table.concat(b, " "))