結果

問題 No.184 たのしい排他的論理和(HARD)
ユーザー NoneNone
提出日時 2021-04-02 23:43:22
言語 PyPy3
(7.3.15)
結果
WA  
実行時間 -
コード長 11,014 bytes
コンパイル時間 189 ms
コンパイル使用メモリ 82,304 KB
実行使用メモリ 210,372 KB
最終ジャッジ日時 2024-06-06 08:47:10
合計ジャッジ時間 51,380 ms
ジャッジサーバーID
(参考情報)
judge1 / judge5
このコードへのチャレンジ
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テストケース

テストケース表示
入力 結果 実行時間
実行使用メモリ
testcase_00 AC 45 ms
54,656 KB
testcase_01 AC 45 ms
55,040 KB
testcase_02 AC 60 ms
66,176 KB
testcase_03 AC 48 ms
61,824 KB
testcase_04 AC 51 ms
64,256 KB
testcase_05 AC 50 ms
64,128 KB
testcase_06 AC 41 ms
55,040 KB
testcase_07 AC 54 ms
64,128 KB
testcase_08 AC 2,064 ms
166,968 KB
testcase_09 AC 448 ms
94,592 KB
testcase_10 AC 1,579 ms
144,928 KB
testcase_11 AC 1,191 ms
125,200 KB
testcase_12 AC 2,406 ms
182,524 KB
testcase_13 AC 2,633 ms
190,720 KB
testcase_14 AC 1,461 ms
141,328 KB
testcase_15 AC 2,924 ms
206,340 KB
testcase_16 AC 2,337 ms
179,004 KB
testcase_17 AC 2,479 ms
187,896 KB
testcase_18 WA -
testcase_19 AC 40 ms
54,656 KB
testcase_20 AC 558 ms
201,672 KB
testcase_21 AC 3,063 ms
210,248 KB
testcase_22 AC 3,119 ms
210,372 KB
testcase_23 AC 56 ms
65,792 KB
testcase_24 AC 49 ms
65,024 KB
testcase_25 AC 51 ms
65,280 KB
testcase_26 AC 47 ms
62,080 KB
testcase_27 AC 54 ms
64,768 KB
testcase_28 AC 1,780 ms
153,308 KB
testcase_29 AC 2,413 ms
185,672 KB
testcase_30 AC 2,130 ms
172,708 KB
testcase_31 AC 1,841 ms
160,004 KB
testcase_32 AC 2,176 ms
180,280 KB
testcase_33 AC 2,724 ms
206,904 KB
testcase_34 AC 2,706 ms
205,936 KB
testcase_35 AC 2,811 ms
209,228 KB
testcase_36 AC 3,043 ms
209,080 KB
権限があれば一括ダウンロードができます

ソースコード

diff #

#########################################################
"""

## 和&積(MOD無し) #######################################

def mul2(a,b): return a*b

def add2(a,b): return a+b

def mul_inv2(a): return 1/a

def add_inv2(a): return -a

def identity(n): return Matrix([[int(i==j) for i in range(n)] for j in range(n)])

###########################################################

## 和&積(MOD有り) #######################################
MOD=10**9+7

def mul2(a,b): return a*b%MOD

def add2(a,b): return (a+b)%MOD

def mul_inv2(a): return pow(a,MOD-2,MOD)

def add_inv2(a): return -a%MOD

def identity(n): return Matrix([[int(i==j) for i in range(n)] for j in range(n)])

###########################################################

## 論理和&論理積 #######################################

def mul2(a,b): return a&b

def add2(a,b): return a^b

def mul_inv2(a): return None

def add_inv2(a): return a

mask=(1<<32-1)
def identity(n): return Matrix([[int(i==j)*mask for i in range(n)] for j in range(n)])

###########################################################


"""


#########################################################

class Matrix():
    def __init__(self,A):
        self.H=len(A)
        self.W=len(A[0])
        self._matrix=A
        # for i in range(self.row):
        #     for j in range(self.column):

    def __getitem__(self,item):
        if type(item)==tuple:
            i,j=item
            return self._matrix[i][j]
        else:
            return self._matrix[item]

    def __setitem__(self,item,val):
        i,j=item
        self._matrix[i][j]=val

    def __add__(self,B):
        # assert (self.row,self.column)==(other.row,other.column), "sizes of matrices are different"
        H,W,A=self.H,self.W,self._matrix
        AB=[[0]*W for _ in range(H)]
        for h in range(H):
            for w in range(W):
                AB[h][w]=add2(A[h][w],B._matrix[h][w])
        return Matrix(AB)

    def __mul__(self,other):
        H,W,A=self.H,self.W,self._matrix
        if type(other)==int:
            n=other
            AB=[[(mul2(n,A[i][j])) for j in range(W)] for i in range(H)]
            return Matrix(AB)
        elif type(other)==Vector:
            vec=other
            res=[0]*W
            for i in range(H):
                for j in range(W):
                    res[i]=add2(res[i],mul2(A[i][j],vec[j]))
            return Vector(res)
        else:
            # assert self.column!=other.row, "sizes of matrices are different"
            AB=[[0]*other.W for _ in range(H)]
            for i in range(H):
                for j in range(other.W):
                    temp=0
                    for k in range(W):
                        temp=add2(temp,mul2(A[i][k],other._matrix[k][j]))
                    AB[i][j]=temp
            return Matrix(AB)

    def __truediv__(self,c):
        H,W,A=self.H,self.W,self._matrix
        res=A.copy()
        for h in range(H):
            for w in range(W):
                res[h][w]=mul2(res[h][w],mul_inv2(c))
        return Matrix(res)

    def __floordiv__(self,c):
        H,W,A=self.H,self.W,self._matrix
        res=A.copy()
        for h in range(H):
            for w in range(W):
                res[h][w]=res[h][w]//c
        return Matrix(res)

    def __mod__(self,c):
        H,W,A=self.H,self.W,self._matrix
        res=A.copy()
        for h in range(H):
            for w in range(W):
                res[h][w]=res[h][w]%c
        return Matrix(res)

    def map(self,func):  # act func to all elements
        H,W,A=self.H,self.W,self._matrix
        res=A.copy()
        for h in range(H):
            for w in range(W):
                res[h][w]=func(res[h][w])
        return Matrix(res)

    def __pow__(self,m):
        # assert self.column==self.row, "the size of row must be the same as that of column"
        H,W,A=self.H,self.W,self._matrix
        res=identity(H)
        while m:
            if m%2==1:
                res=res*self
            self=self*self
            m>>=1
        return res

    def det(self):
        H,W,A=self.H,self.W,self._matrix
        n=H
        res=1
        for i in range(n):
            if A[i][i]==0:
                res=add_inv2(res)
                for k in range(i+1,n):
                    if A[k][i]!=0:
                        A[i],A[k]=A[k],A[i]
                        break
                else:
                    return 0
            c=mul_inv2(A[i][i])
            for j in range(i+1,n):
                l=mul2(c,A[j][i])
                for k in range(i+1,n):
                    A[j][k]=add2(A[j][k],add_inv2(l*A[i][k]))
        for i in range(n):
            res=mul2(res,A[i][i])
        return res

    def __eq__(self,other):
        if type(other)==Matrix:
            return self._matrix==other._matrix
        return False

    def __ne__(self,other):
        if type(other)==Matrix:
            return self._matrix!=other._matrix
        return True

    def __len__(self):
        return self.H

    def __str__(self):
        res=[]
        for i in range(self.H):
            for j in range(self.W):
                res.append(str(self._matrix[i][j]))
                res.append(" ")
            res.append("\n")
        return "".join(res)

    def __hash__(self):
        res=[]
        for h in range(self.H):
            for w in range(self.W):
                res.append(self._matrix[h][w])
        return tuple(res)

    def count(self,x):
        cnt=0
        for h in range(self.H):
            for w in range(self.W):
                cnt+=(self._matrix[h][w]==x)
        return cnt

    def rank(self):
        """ = dimension"""
        H,W,A=self.H,self.W,self._matrix
        A=[self._matrix[i][:] for i in range(H)]
        rank=0
        p,q=[],[]
        for w in range(W):
            for h in range(rank,H):
                if A[h][w]!=0:
                    break
            else:
                q.append(w)
                continue
            if w==W: return -1,[],[]
            p.append(w)
            A[rank],A[h]=A[h],A[rank]
            inv=mul_inv2(A[rank][w])
            for ww in range(W):
                A[rank][ww]=mul2(A[rank][ww],inv)
            for h in range(H):
                if h==rank: continue
                c=add_inv2(A[h][w])
                for ww in range(W):
                    A[h][ww]=add2(A[h][ww],mul2(c,A[rank][ww]))
            rank+=1
        return rank



class Vector():
    def __init__(self,vec):
        self.n=len(vec)
        self._vector=vec

    def __getitem__(self,item):
        return self._vector[item]

    def __setitem__(self,item,val):
        self._vector[item]=val

    def __neg__(self):
        n,vec=self.n,self._vector
        res=[]
        for x in vec:
            res.append(add_inv2(x))
        return Vector(res)

    def __add__(self,vec2):
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=add2(res[i],vec2[i])
        return Vector(res)

    def __sub__(self,vec2):
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=add2(res[i],add_inv2(vec2[i]))
        return Vector(res)

    def __mul__(self,vec2):
        n,vec=self.n,self._vector
        if type(vec2)!=int:
            res=vec.copy()
            for i in range(n):
                res[i]=mul2(res[i],vec2[i])
            return Vector(res)
        else:
            res=[mul2(vec2,vec[i]) for i in range(n)]
            return Vector(res)

    def __truediv__(self,c):
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=mul2(res[i],mul_inv2(c))
        return Vector(res)

    def __floordiv__(self,c):
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=res[i]//c
        return Vector(res)

    def __mod__(self,c):
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=res[i]%c
        return Vector(res)

    def map(self,func):  # act func to all elements
        n,vec=self.n,self._vector
        res=vec.copy()
        for i in range(n):
            res[i]=func(res[i])
        return Vector(res)

    def __eq__(self,other):
        if type(other)==Vector:
            return self._vector==other._vector
        return False

    def __ne__(self,other):
        if type(other)==Vector:
            return self._vector!=other._vector
        return True

    def __len__(self):
        return self.n

    def __str__(self):
        res=[]
        for i in range(self.n):
            res.append(str(self._vector[i]))
            res.append(" ")
        return "".join(res)

    def __hash__(self):
        return tuple(self._vector)

    def count(self,x):
        cnt=0
        for a in self._vector:
            cnt+=(a==x)
        return cnt


def linear_equations(mat,vec):
    """
    return
        (dim, [x,y,z], [[a0,b0,c0],[a1,b1,c1],...])

    which means,

        solution = (x,y,z)+t0*(a0,b0,c0)+t1*(a1,b1,c1)+...

    Cation: float
    """
    H,W=len(mat),len(mat[0])
    # assert H == len(vec)
    aug=[mat[i]+[vec[i]] for i in range(H)]
    rank=0
    p,q=[],[]
    for w in range(W+1):
        for h in range(rank,H):
            if aug[h][w]!=0:
                break
        else:
            q.append(w)
            continue
        if w==W: return -1,[],[]
        p.append(w)
        aug[rank],aug[h]=aug[h],aug[rank]
        inv=mul_inv2(aug[rank][w])
        for ww in range(W+1):
            aug[rank][ww]=mul2(aug[rank][ww],inv)
        for h in range(H):
            if h==rank: continue
            c=add_inv2(aug[h][w])
            for ww in range(W+1):
                aug[h][ww]=add2(aug[h][ww],mul2(c,aug[rank][ww]))
        rank+=1
    dim=W-rank
    sol=[0]*W
    for h in range(rank):
        sol[p[h]]=aug[h][-1]
    vecs=[[0]*W for _ in range(dim)]
    for h in range(dim):
        vecs[h][q[h]]=1
    for h in range(dim):
        for w in range(rank):
            vecs[h][p[w]]=add_inv2(aug[w][q[h]])
    return dim,sol,vecs


###########################################################
def example():
    global input
    example=iter(
        """
3 3
1 0 0
1 0 1
0 0 1
        """
            .strip().split("\n"))
    input=lambda:next(example)


## 和&積(MOD有り) #######################################
MOD=2


def mul2(a,b): return a*b%MOD


def add2(a,b): return (a+b)%MOD


def mul_inv2(a): return pow(a,MOD-2,MOD)


def add_inv2(a): return -a%MOD


def identity(n): return Matrix([[int(i==j) for i in range(n)] for j in range(n)])

def bit_rep(bit,N):
    return format(bit, "0" + str(N) + "b")


###########################################################

import sys
input=sys.stdin.readline

# example()

N=int(input())
A=list(map(int, input().split()))
mat=[]
for a in A:
    vec=[]
    for b in bit_rep(a,60):
        vec.append(int(b))
    mat.append(vec)

mat=Matrix(mat)
rank=mat.rank()
print(pow(2,rank))
0