import sys,bisect,string,math,time,functools,random,fractions from heapq import heappush,heappop,heapify from collections import deque,defaultdict,Counter from itertools import permutations,combinations,groupby def Golf():*a,=map(int,open(0)) def I():return int(input()) def S_():return input() def IS():return input().split() def LS():return [i for i in input().split()] def LI():return [int(i) for i in input().split()] def LI_():return [int(i)-1 for i in input().split()] def NI(n):return [int(input()) for i in range(n)] def NI_(n):return [int(input())-1 for i in range(n)] def StoLI():return [ord(i)-97 for i in input()] def ItoS(n):return chr(n+97) def LtoS(ls):return ''.join([chr(i+97) for i in ls]) def GI(V,E,ls=None,Directed=False,index=1): org_inp=[];g=[[] for i in range(V)] FromStdin=True if ls==None else False for i in range(E): if FromStdin: inp=LI() org_inp.append(inp) else: inp=ls[i] if len(inp)==2: a,b=inp;c=1 else: a,b,c=inp if index==1:a-=1;b-=1 aa=(a,c);bb=(b,c);g[a].append(bb) if not Directed:g[b].append(aa) return g,org_inp def GGI(h,w,search=None,replacement_of_found='.',mp_def={'#':1,'.':0},boundary=1): #h,w,g,sg=GGI(h,w,search=['S','G'],replacement_of_found='.',mp_def={'#':1,'.':0},boundary=1) # sample usage mp=[boundary]*(w+2);found={} for i in range(h): s=input() for char in search: if char in s: found[char]=((i+1)*(w+2)+s.index(char)+1) mp_def[char]=mp_def[replacement_of_found] mp+=[boundary]+[mp_def[j] for j in s]+[boundary] mp+=[boundary]*(w+2) return h+2,w+2,mp,found def TI(n):return GI(n,n-1) def bit_combination(n,base=2): rt=[] for tb in range(base**n):s=[tb//(base**bt)%base for bt in range(n)];rt+=[s] return rt def gcd(x,y): if x%y==0:return y while x%y!=0:x,y=y,x%y return y def show(*inp,end='\n'): if show_flg:print(*inp,end=end) YN=['YES','NO'];Yn=['Yes','No'] mo=10**9+7 inf=float('inf') FourNb=[(1,0),(-1,0),(0,1),(0,-1)];EightNb=[(1,0),(-1,0),(0,1),(0,-1),(1,1),(-1,-1),(1,-1),(-1,1)];compas=dict(zip('EWNS',FourNb)) l_alp=string.ascii_lowercase #sys.setrecursionlimit(10**7) input=lambda: sys.stdin.readline().rstrip() class Tree: def __init__(self,inp_size=None,ls=None,init=True,index=0): self.LCA_init_stat=False self.ETtable=[] if init: if ls==None: self.stdin(inp_size,index=index) else: self.size=len(ls)+1 self.edges,_=GI(self.size,self.size-1,ls,index=index) return def stdin(self,inp_size=None,index=1): if inp_size==None: self.size=int(input()) else: self.size=inp_size self.edges,_=GI(self.size,self.size-1,index=index) return def listin(self,ls,index=0): self.size=len(ls)+1 self.edges,_=GI(self.size,self.size-1,ls,index=index) return def __str__(self): return str(self.edges) def dfs(self,x,func=lambda prv,nx,dist:prv+dist,root_v=0): q=deque() q.append(x) v=[-1]*self.size v[x]=root_v while q: c=q.pop() for nb,d in self.edges[c]: if v[nb]==-1: q.append(nb) v[nb]=func(v[c],nb,d) return v def EulerTour(self,x): q=deque() q.append(x) self.depth=[None]*self.size self.depth[x]=0 self.ETtable=[] self.ETdepth=[] self.ETin=[-1]*self.size self.ETout=[-1]*self.size cnt=0 while q: c=q.pop() if c<0: ce=~c else: ce=c for nb,d in self.edges[ce]: if self.depth[nb]==None: q.append(~ce) q.append(nb) self.depth[nb]=self.depth[ce]+1 self.ETtable.append(ce) self.ETdepth.append(self.depth[ce]) if self.ETin[ce]==-1: self.ETin[ce]=cnt else: self.ETout[ce]=cnt cnt+=1 return def LCA_init(self,root): self.EulerTour(root) self.st=SparseTable(self.ETdepth,init_func=min,init_idl=inf) self.LCA_init_stat=True return def LCA(self,root,x,y): if self.LCA_init_stat==False: self.LCA_init(root) xin,xout=self.ETin[x],self.ETout[x] yin,yout=self.ETin[y],self.ETout[y] a=min(xin,yin) b=max(xout,yout,xin,yin) id_of_min_dep_in_et=self.st.query_id(a,b+1) return self.ETtable[id_of_min_dep_in_et] class SparseTable: # O(N log N) for init, O(1) for query(l,r) def __init__(self,ls,init_func=min,init_idl=float('inf')): self.func=init_func self.idl=init_idl self.size=len(ls) self.N0=self.size.bit_length() self.table=[ls[:]] self.index=[list(range(self.size))] self.lg=[0]*(self.size+1) for i in range(2,self.size+1): self.lg[i]=self.lg[i>>1]+1 for i in range(self.N0): tmp=[self.func(self.table[i][j],self.table[i][min(j+(1<self.size:r=self.size #N=(r-l).bit_length()-1 N=self.lg[r-l] return self.func(self.table[N][l],self.table[N][r-(1<self.size:r=self.size #N=(r-l).bit_length()-1 N=self.lg[r-l] a,b=self.index[N][l],self.index[N][r-(1<x: return 0 return self.fac[x]*self.inv[x-y]*self.inv[y]%mo show_flg=False show_flg=True ans=0 mo=998244353 n,k=LI() k=20 a=LI() p=list(range(1,n+1)) q=[] show(a) m=k.bit_length() v=[-1]*n for i in range(n): c=i if v[i]>0: continue st=c cnt=1 while True: c=c+a[(c-1)%n] if v[c%n]>0: v[i]=v[c%n] break if c==st: v[i]=cnt break cnt+=1 v[i]=cnt for j in range(k): p=[p[i]+a[(p[i]-1)%n] for i in range(n)] q+=[p[:]] for i in q: show([j for j in i]) print() for i in range(k-1): show([q[i+1][j]-q[i][j] for j in range(n)])