local mma = math.max local mfl, mce, mmi = math.floor, math.ceil, math.min local AvlTree = {} AvlTree.makenode = function(self, val, parent) local i = self.box[#self.box] if not i then i = #self.v + 1 else table.remove(self.box) end self.v[i], self.p[i] = val, parent self.lc[i], self.rc[i], self.l[i], self.r[i] = 0, 0, 1, 1 return i end AvlTree.create = function(self, lessthan, n) self.lessthan = lessthan self.root = 1 self.box = {} for i = n + 1, 2, -1 do table.insert(self.box, i) end -- value, leftCount, rightCount, left, right, parent self.v, self.lc, self.rc, self.l, self.r, self.p = {}, {}, {}, {}, {}, {} for i = 1, n + 1 do self.v[i], self.p[i] = 0, 1 self.lc[i], self.rc[i], self.l[i], self.r[i] = 0, 0, 1, 1 end end AvlTree.clear = function(self) self.root = 1 local np1 = #self.v for i = np1, 2, -1 do self.box[np1 - i + 1] = i end end AvlTree.recalc = function(self, i) local kl, kr = self.l[i], self.r[i] if 1 < kl then self.lc[i] = 1 + mma(self.lc[kl], self.rc[kl]) else self.lc[i] = 0 end if 1 < kr then self.rc[i] = 1 + mma(self.lc[kr], self.rc[kr]) else self.rc[i] = 0 end end AvlTree.recalcAll = function(self, i) while 1 < i do self:recalc(i) i = self.p[i] end end AvlTree.rotR = function(self, parent) local granp, child = self.p[parent], self.l[parent] self.r[child], self.l[parent] = parent, self.r[child] self.p[child], self.p[parent] = granp, child self.p[self.l[parent]] = parent if 1 < granp then if self.l[granp] == parent then self.l[granp] = child else self.r[granp] = child end else self.root = child end end AvlTree.rotL = function(self, parent) local granp, child = self.p[parent], self.r[parent] self.l[child], self.r[parent] = parent, self.l[child] self.p[child], self.p[parent] = granp, child self.p[self.r[parent]] = parent if 1 < granp then if self.r[granp] == parent then self.r[granp] = child else self.l[granp] = child end else self.root = child end end AvlTree.rotLR = function(self, lparent, rparent) local sp, sl, sr = self.p, self.l, self.r local granp, d = sp[rparent], sr[lparent] sp[lparent], sr[lparent] = d, sl[d] sp[rparent], sl[rparent] = d, sr[d] sp[sl[d]], sp[sr[d]] = lparent, rparent sp[d], sl[d], sr[d] = granp, lparent, rparent if 1 < granp then if sr[granp] == rparent then sr[granp] = d else sl[granp] = d end else self.root = d end end AvlTree.rotRL = function(self, rparent, lparent) local sp, sl, sr = self.p, self.l, self.r local granp, d = sp[lparent], sl[rparent] sp[rparent], sl[rparent] = d, sr[d] sp[lparent], sr[lparent] = d, sl[d] sp[sr[d]], sp[sl[d]] = rparent, lparent sp[d], sr[d], sl[d] = granp, rparent, lparent if 1 < granp then if sl[granp] == lparent then sl[granp] = d else sr[granp] = d end else self.root = d end end AvlTree.empty = function(self) return self.root <= 1 end AvlTree.push = function(self, val) if self.root <= 1 then self.root = self:makenode(val, 1) return end local pos = self.root while true do if self.lessthan(val, self.v[pos]) then if 1 < self.l[pos] then pos = self.l[pos] else self.l[pos] = self:makenode(val, pos) pos = self.l[pos] break end else if 1 < self.r[pos] then pos = self.r[pos] else self.r[pos] = self:makenode(val, pos) pos = self.r[pos] break end end end while 1 < pos do local child, parent = pos, self.p[pos] if parent <= 1 then break end self:recalc(parent) local lcp_m_rcp = self.lc[parent] - self.rc[parent] if lcp_m_rcp % 2 ~= 0 then -- 1 or -1 pos = parent elseif lcp_m_rcp == 2 then if self.lc[child] - 1 == self.rc[child] then self:rotR(parent) self:recalcAll(parent) else self:rotLR(child, parent) self:recalc(child) self:recalcAll(parent) end break elseif lcp_m_rcp == -2 then if self.rc[child] - 1 == self.lc[child] then self:rotL(parent) self:recalcAll(parent) else self:rotRL(child, parent) self:recalc(child) self:recalcAll(parent) end break else break end end end AvlTree.rmsub = function(self, node) while 1 < node do self:recalc(node) if self.lc[node] == self.rc[node] then node = self.p[node] elseif self.lc[node] + 1 == self.rc[node] then self:recalcAll(self.p[node]) break else if self.lc[self.r[node]] == self.rc[self.r[node]] then self:rotL(node) self:recalcAll(node) break elseif self.lc[self.r[node]] + 1 == self.rc[self.r[node]] then local nr = self.r[node] self:rotL(node) self:recalc(node) node = nr else local nr = self.r[node] local nrl = self.l[nr] self:rotRL(nr, node) self:recalc(nr) self:recalc(node) node = nrl end end end end AvlTree.pop = function(self) local node = self.root while 1 < self.l[node] do node = self.l[node] end local v = self.v[node] local kp = self.p[node] self.p[self.r[node]] = kp if 1 < kp then self.l[kp] = self.r[node] self:rmsub(kp) else self.root = self.r[node] end table.insert(self.box, node) return v end AvlTree.new = function(lessthan, n) local obj = {} setmetatable(obj, {__index = AvlTree}) obj:create(lessthan, n) return obj end local n = io.read("*n") local x, y = {}, {} for i = 1, n do x[i], y[i] = io.read("*n", "*n") end if n == 1 then print(0) os.exit() end local function lensq(i, j) return (1LL * x[i] - x[j]) * (1LL * x[i] - x[j]) + (1LL * y[i] - y[j]) * (1LL * y[i] - y[j]) end local e1, e2 = {}, {} local v = {} local alive = {} for i = 1, n do alive[i] = true end local c = 0 local function lt(a, b) return v[a] < v[b] end local avl = AvlTree.new(lt, 1) for i = 1, n - 1 do for j = i + 1, n do c = c + 1 e1[c], e2[c] = i, j v[c] = lensq(i, j) avl:push(c) end end local ret = 0 for i = 1, c do local idx = avl:pop() local z1, z2 = e1[idx], e2[idx] if z1 == 1 then if alive[z2] then ret = ret + 1 alive[z2] = false end else if alive[z1] and alive[z2] then alive[z1], alive[z2] = false, false end end end print(ret)