import java.io.IOException; import java.io.InputStream; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.NoSuchElementException; import java.util.PriorityQueue; import java.util.function.BinaryOperator; import java.util.function.Predicate; public class Main { public static void main(String[] args) { new Main().solve(args); pw.close(); } /** * ASCII * 0 48 * A 65 * a 97 */ static PrintWriter pw = new PrintWriter(System.out); long MOD = 1_000_000_007; int INF = Integer.MAX_VALUE; long LINF = Long.MAX_VALUE; public void solve(String[] args) { FastScanner sc = new FastScanner(); int N = sc.nextInt(); out(N % 2 == 0 ? 2 : 1); } class Data { int a; int b; long c; Data(int x, int y, long z) { a = x; b = y; c = z; } } class SP { String a; int b; int c; SP(String x, int y, int z) { a = x; b = y; c = z; } } class IPair { int a; int b; IPair(int x, int y) { a = x; b = y; } @Override public int hashCode() { final int prime = 31; int result = 1; result = prime * result + a; result = prime * result + b; return result; } @Override public boolean equals(Object obj) { if (obj == null) return false; if (getClass() != obj.getClass()) return false; IPair other = (IPair)obj; if (a != other.a) return false; if (b != other.b) return false; return true; } } class ILPair { int a; long b; ILPair(int x, long y) { a = x; b = y; } @Override public int hashCode() { final int prime = 31; int result = 1; result = prime * result + a; result = (int)(b ^ (b >>> 32)); return result; } @Override public boolean equals(Object obj) { if (obj == null) return false; if (getClass() != obj.getClass()) return false; ILPair other = (ILPair)obj; if (a != other.a) return false; if (b != other.b) return false; return true; } } long modSub(long a, long b) { long ret = (a - Math.abs(b)) % MOD; if (ret < 0) ret = MOD + ret; return ret; } long modInv(long a, long m) { long b = m; long u = 1; long v = 0; while (b != 0) { long t = a / b; a -= t * b; u -= t * v; long tmp = a; a = b; b = tmp; tmp = u; u = v; v = tmp; } u %= m; if (u < 0) u += m; return u; } boolean inRange(int y, int x, int H, int W) { return 0 <= y && y < H && 0 <= x && x < W; } double getD(double x1, double x2, double y1, double y2) { return Math.sqrt(Math.pow(x1-x2,2) + Math.pow(y1-y2, 2)); } static int[][] d4 = new int[][] {{1,0},{0,1},{-1,0},{0,-1}}; static int[][] d8 = new int[][] {{1,0},{1,1},{0,1},{-1,1},{-1,0},{-1,-1},{0,-1},{1,-1}}; long binarySearch(long max, Predicate predicate) { long low = -1; long high = max; while (high - low > 1) { long mid = high - (high - low) / 2; if (predicate.test(mid)) high = mid; else low = mid; } return high; } // Binary Indexed Tree // http://hos.ac/slides/20140319_bit.pdf class BIT { int n; int[] bit = new int[1000010]; BIT(int n) { this.n = n; } void add(int a, int w) { for (int x = a; x <= n; x += (x & -x)) bit[x] += w; } int sum(int a) { int ret = 0; for (int x = a; x > 0; x -= (x & -x)) ret += bit[x]; return ret; } } class Dijkstra { DNode[] nodes; Dijkstra(DNode[] nodes) { this.nodes = nodes; } long[] get(int start) { long[] costs = new long[nodes.length]; Arrays.fill(costs, Long.MAX_VALUE); costs[start] = 0; var queue = new PriorityQueue(); queue.add(new Distance(start, 0)); while (!queue.isEmpty()) { var d = queue.poll(); if (d.cost > costs[d.dest]) continue; for (var neighbor : nodes[d.dest].neighbors) { long nextCost = neighbor.cost + costs[d.dest]; if (nextCost < costs[neighbor.dest]) { costs[neighbor.dest] = nextCost; queue.add(new Distance(neighbor.dest, nextCost)); } } } return costs; } } class DNode { List neighbors; DNode() { neighbors = new ArrayList(); } DNode(List neighbors) { this.neighbors = neighbors; } } class Distance implements Comparable { int dest; long cost; Distance(int dest, long cost) { this.dest = dest; this.cost = cost; } @Override public int compareTo(Distance another) { return Long.compare(cost, another.cost); } } // https://algo-logic.info/prime-fact/ class PrimeFact { int[] spf; PrimeFact(int N) { spf = new int[N+1]; for (int i = 0; i <= N; i++) spf[i] = i; for (int i = 2; i * i <= N; i++) { if (spf[i] == i) { for (int j = i * i; j <= N; j += i) { if (spf[j] == j) { spf[j] = i; } } } } } Map getMap(int num) { var map = new HashMap(); while (num != 1) { map.compute(spf[num], (k, v) -> v == null ? 1 : v+1); num /= spf[num]; } return map; } int getDivisorNum(int num) { int s = 1; while (num != 1) { int count = 1; int pf = spf[num]; while (num % pf == 0) { count++; num /= pf; } s *= count; } return s; } } @SuppressWarnings("unchecked") class SegmentTree { int n = 1; Object[] node; BinaryOperator op; T fill; SegmentTree(T[] ary, T fill, BinaryOperator op) { this.op = op; this.fill = fill; int size = ary.length; while(n < size) n *= 2; node = new Object[2*n - 1]; Arrays.fill(node, fill); for (int i = 0; i < size; i++) node[i+n-1] = ary[i]; for (int i = n-2; i >= 0; i--) node[i] = op.apply((T)node[2*i+1], (T)node[2*i+2]); } void update(int i, T value) { i += n - 1; node[i] = value; while(i > 0) { i = (i - 1) / 2; node[i] = op.apply((T)node[2*i+1], (T)node[2*i+2]); } } T get(int a, int b) { return get(a, b, 0, 0, n); } T get(int a, int b, int k, int l, int r) { if (r <= a || b <= l) return fill; if (a <= l && r <= b) return (T)node[k]; T lc = get(a, b, 2*k+1, l, (l+r)/2); T rc = get(a, b, 2*k+2, (l+r)/2, r); return op.apply(lc, rc); } } class Permutation { int[] array; Permutation(int N) { array = new int[N]; for (int i = 0; i < N; i++) { array[i] = i+1; } } boolean nextPermutation() { int i = array.length - 1; while (i > 0 && array[i - 1] >= array[i]) i--; if (i <= 0) return false; int j = array.length - 1; while (array[j] <= array[i - 1]) j--; int temp = array[i - 1]; array[i - 1] = array[j]; array[j] = temp; j = array.length - 1; while (i < j) { temp = array[i]; array[i] = array[j]; array[j] = temp; i++; j--; } return true; } } class UnionFind { int[] parents; int[] counts; public UnionFind(int size) { parents = new int[size]; counts = new int[size]; for (int i = 0; i < size; i++) { parents[i] = i; counts[i] = 1; } } public int find(int a) { if (parents[a] == a) return a; parents[a] = find(parents[a]); return parents[a]; } public void unite(int a, int b) { a = find(a); b = find(b); if (a == b) return; if (counts[a] < counts[b]) { parents[a] = b; counts[b] += counts[a]; } else { parents[b] = a; counts[a] += counts[b]; } } public boolean differ(int a, int b) { a = find(a); b = find(b); return a != b; } public int count(int a) { return counts[find(a)]; } public List> getTrees() { var map = new HashMap>(); for (int i = 0; i < parents.length; i++) { List list = map.computeIfAbsent(parents[i],k -> new ArrayList()); list.add(i); } return new ArrayList<>(map.values()); } } class Combination { final int mod; final int max; final long[] fact; final long[] inv; final long[] invfact; public Combination(int n) { this(n, 1_000_000_007); } public Combination(int n, int mod) { this.mod = mod; max = n + 1; fact = new long[max]; invfact = new long[max]; inv = new long[max]; inv[1] = 1; for (int i = 2; i < inv.length; i++) { inv[i] = inv[mod % i] * (mod - mod / i) % mod; } fact[0] = 1; invfact[0] = 1; for (int i = 1; i < inv.length; i++) { fact[i] = i * fact[i - 1] % mod; invfact[i] = inv[i] * invfact[i - 1] % mod; } } public long get(int n, int r) { return fact[n] * invfact[n - r] % mod * invfact[r] % mod; } public long gcd(long a, long b) { if (b == 0) return a; else { b %= MOD; if (b < 0) b+=MOD; return gcd(b, (b-a*inv[(int)b]%MOD*b%MOD)%MOD); } } } public long gcd(long a, long b) { if (b == 0) return a; else return gcd(b, a%b); } public long getInv(long a) { long b = MOD, u = 1, v = 0; while (b > 0) { long t = a / b; a -= t * b; long tmp = a; a = b; b = tmp; u -= t * v; tmp = u; u = v; v = tmp; } u %= MOD; if (u < 0) u += MOD; return u; } public long modPow(long base, long exponent) { return modPow(base, exponent, MOD); } // 繰り返し二乗法 public long modPow(long base, long exponent, long mod) { if (exponent == 0) return 1; long ret = 1; while (exponent > 0) { if ((exponent & 1) == 1) ret = ret * base % mod; base = base * base % mod; exponent >>= 1; } return ret; } public long choose(long n, long m) { long deno = 1; long nume = 1; m = (n - m < m ? n - m : m); for (long i = 1; i <= m; i++) { deno = deno * (n - i + 1) % MOD; nume = nume * i % MOD; } return deno * getInv(nume) % MOD; } public void reverse(int[] a) { int last = a.length-1; int n = a.length / 2; for (int i = 0; i < n; i++) { int t = a[i]; a[i] = a[last-i]; a[last-i] = t; } } public void reverse(long[] a) { int last = a.length-1; int n = a.length / 2; for (int i = 0; i < n; i++) { long t = a[i]; a[i] = a[last-i]; a[last-i] = t; } } void fout(Object... args) { StringBuilder sb = new StringBuilder(); for (Object arg : args) { sb.append(arg.toString()); sb.append(" "); } out(sb.toString()); } void out() { pw.println(); } void out(String a) { pw.println(a); } void out(boolean a) { pw.println(a); } void out(int a) { pw.println(a); } void out(long a) { pw.println(a); } void out(double a) { pw.println(a); } void out(char a) { pw.println(a); } void rout(String a) { out(a); pw.close(); System.exit(0); } void rout(int a) { out(a); pw.close(); System.exit(0); } void rout(long a) { out(a); pw.close(); System.exit(0); } void rout(double a) { out(a); pw.close(); System.exit(0); } void rout(char a) { out(a); pw.close(); System.exit(0); } } class FastScanner { private final InputStream in = System.in; private final byte[] buffer = new byte[1024]; private int ptr = 0; private int buflen = 0; private boolean hasNextByte() { if (ptr < buflen) { return true; } else { ptr = 0; try { buflen = in.read(buffer); } catch (IOException e) { e.printStackTrace(); } if (buflen <= 0) { return false; } } return true; } private int readByte() { if (hasNextByte()) return buffer[ptr++]; else return -1; } private boolean isPrintableChar(int c) { return 33 <= c && c <= 126; } public boolean hasNext() { while (hasNextByte() && !isPrintableChar(buffer[ptr])) ptr++; return hasNextByte(); } public String next() { if (!hasNext()) throw new NoSuchElementException(); StringBuilder sb = new StringBuilder(); int b = readByte(); while (isPrintableChar(b)) { sb.appendCodePoint(b); b = readByte(); } return sb.toString(); } public char[] nextCA() { return next().toCharArray(); } public long nextLong() { if (!hasNext()) throw new NoSuchElementException(); long n = 0; boolean minus = false; int b = readByte(); if (b == '-') { minus = true; b = readByte(); } if (b < '0' || '9' < b) { throw new NumberFormatException(); } while (true) { if ('0' <= b && b <= '9') { n *= 10; n += b - '0'; } else if (b == -1 || !isPrintableChar(b)) { return minus ? -n : n; } else { throw new NumberFormatException(); } b = readByte(); } } public int nextInt() { long nl = nextLong(); if (nl < Integer.MIN_VALUE || nl > Integer.MAX_VALUE) throw new NumberFormatException(); return (int) nl; } public double nextDouble() { return Double.parseDouble(next()); } public int[] ia(int N) { int[] a = new int[N]; for (int i = 0; i < N; i++) a[i] = this.nextInt(); return a; } public long[] la(int N) { long[] a = new long[N]; for (int i = 0; i < N; i++) a[i] = this.nextLong(); return a; } public double[] da(int N) { double[] a = new double[N]; for (int i = 0; i < N; i++) a[i] = this.nextDouble(); return a; } public boolean[][] bgrid(int H, int W, char c) { boolean[][] a = new boolean[H][W]; for (int i = 0; i < H; i++) { char[] s = this.nextCA(); for (int j = 0; j < W; j++) a[i][j] = s[j] == c; } return a; } }