結果
問題 | No.749 クエリ全部盛り |
ユーザー | vwxyz |
提出日時 | 2024-04-08 10:28:54 |
言語 | PyPy3 (7.3.15) |
結果 |
TLE
|
実行時間 | - |
コード長 | 9,165 bytes |
コンパイル時間 | 181 ms |
コンパイル使用メモリ | 82,124 KB |
実行使用メモリ | 90,428 KB |
最終ジャッジ日時 | 2024-10-01 05:04:44 |
合計ジャッジ時間 | 8,225 ms |
ジャッジサーバーID (参考情報) |
judge3 / judge4 |
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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 | 39 ms
54,528 KB |
testcase_01 | AC | 39 ms
54,656 KB |
testcase_02 | AC | 41 ms
54,656 KB |
testcase_03 | AC | 40 ms
54,784 KB |
testcase_04 | AC | 40 ms
54,400 KB |
testcase_05 | AC | 171 ms
78,664 KB |
testcase_06 | AC | 168 ms
79,136 KB |
testcase_07 | AC | 171 ms
79,108 KB |
testcase_08 | AC | 167 ms
78,908 KB |
testcase_09 | AC | 166 ms
79,040 KB |
testcase_10 | AC | 421 ms
89,004 KB |
testcase_11 | AC | 404 ms
89,416 KB |
testcase_12 | AC | 444 ms
90,428 KB |
testcase_13 | AC | 424 ms
89,964 KB |
testcase_14 | AC | 435 ms
90,024 KB |
testcase_15 | TLE | - |
testcase_16 | -- | - |
testcase_17 | -- | - |
testcase_18 | -- | - |
testcase_19 | -- | - |
ソースコード
class Lazy_Segment_Tree: def __init__(self,N,f,e,f_act,e_act,operate,lst=None): self.N=N self.f=f self.e=e self.f_act=f_act self.e_act=e_act self.operate=operate self.segment_tree=[self.e]*(self.N+self.N) self.segment_tree_act=[self.e_act]*(self.N+self.N) if lst!=None: for i,x in enumerate(lst): self.segment_tree[i+self.N]=x for i in range(self.N-1,0,-1): self.segment_tree[i]=self.f(self.segment_tree[i<<1],self.segment_tree[i<<1|1]) self.segment_tree_act=[self.e_act]*(self.N+self.N) def __getitem__(self,i): if type(i) is int: if -self.N<=i<0: i+=self.N*2 elif 0<=i<self.N: i+=self.N else: raise IndexError("list index out of range") self.Propagate_Above(i) self.Recalculate_Above(i) return self.Operate_At(i) else: a,b,c=i.start,i.stop,i.step if a==None or a<-self.N: a=self.N elif self.N<=a: a=self.N*2 elif a<0: a+=self.N*2 else: a+=self.N if b==None or self.N<=b: b=self.N*2 elif b<-self.N: b=self.N elif b<0: b+=self.N*2 else: b+=self.N return self.segment_tree[slice(a,b,c)] def __setitem__(self,i,x): if -self.N<=i<0: i+=self.N*2 elif 0<=i<self.N: i+=self.N else: raise IndexError("list index out of range") self.Propagate_Above(i) self.segment_tree[i]=x self.segment_tree_act[i]=self.e_act self.Recalculate_Above(i) def Operate_At(self,i): return self.operate(self.segment_tree[i],self.segment_tree_act[i]) def Propagate_At(self,i): self.segment_tree[i]=self.Operate_At(i) self.segment_tree_act[i<<1]=self.f_act(self.segment_tree_act[i<<1],self.segment_tree_act[i]) self.segment_tree_act[i<<1|1]=self.f_act(self.segment_tree_act[i<<1|1],self.segment_tree_act[i]) self.segment_tree_act[i]=self.e_act def Propagate_Above(self,i): H=i.bit_length()-1 for h in range(H,0,-1): self.Propagate_At(i>>h) def Recalculate_Above(self,i): while i>1: i>>=1 self.segment_tree[i]=self.f(self.Operate_At(i<<1),self.Operate_At(i<<1|1)) def Build(self,lst): for i,x in enumerate(lst): self.segment_tree[i+self.N]=x for i in range(self.N-1,0,-1): self.segment_tree[i]=self.f(self.segment_tree[i<<1],self.segment_tree[i<<1|1]) self.segment_tree_act=[self.e_act]*(self.N+self.N) def Fold(self,L,R): L+=self.N R+=self.N self.Propagate_Above(L//(L&-L)) self.Propagate_Above(R//(R&-R)-1) vL=self.e vR=self.e while L<R: if L&1: vL=self.f(vL,self.Operate_At(L)) L+=1 if R&1: R-=1 vR=self.f(self.Operate_At(R),vR) L>>=1 R>>=1 return self.f(vL,vR) def Fold_Index(self,L=None,R=None): if L==None: L=self.N else: L+=self.N if R==None: R=self.N*2 else: R+=self.N if L==R: return None x=self.Fold(L-self.N,R-self.N) while L<R: if L&1: if self.segment_tree[L]==x: i=L break L+=1 if R&1: R-=1 if self.segment_tree[R]==x: i=R break L>>=1 R>>=1 while i<self.N: if self.segment_tree[i]==self.segment_tree[i<<1]: i<<=1 else: i<<=1 i|=1 i-=self.N return i def Operate_Range(self,a,L,R): L+=self.N R+=self.N L0=L//(L&-L) R0=R//(R&-R)-1 self.Propagate_Above(L0) self.Propagate_Above(R0) while L<R: if L&1: self.segment_tree_act[L]=self.f_act(self.segment_tree_act[L],a) L+=1 if R&1: R-=1 self.segment_tree_act[R]=self.f_act(self.segment_tree_act[R],a) L>>=1 R>>=1 self.Recalculate_Above(L0) self.Recalculate_Above(R0) def Update(self): for i in range(1,self.N): self.Propagate_At(i) for i in range(self.N,self.N*2): self.segment_tree[i]=self.Operate_At(i) self.segment_tree_act[i]=self.e_act for i in range(self.N-1,0,-1): self.segment_tree[i]=self.f(self.segment_tree[i<<1],self.segment_tree[i<<1|1]) def Bisect_Right(self,L=None,f=None): if L==self.N: return self.N if L==None: L=0 L+=self.N self.Propagate_Above(L//(L&-L)) self.Propagate_Above(self.N//(self.N&-self.N)-1) l,r=L,self.N*2 vl=self.e vr=self.e while l<r: if l&1: vl=self.f(vl,self.Operate_At(l)) l+=1 if r&1: r-=1 vr=self.f(self.Operate_At(r),vr) l>>=1 r>>=1 if f(self.f(vl,vr)): return self.N v=self.e self.Propagate_Above(L) while True: while L%2==0: L>>=1 vv=self.f(v,self.Operate_At(L)) if f(vv): v=vv L+=1 else: while L<self.N: self.Propagate_At(L) L<<=1 vv=self.f(v,self.Operate_At(L)) if f(vv): v=vv L+=1 return L-self.N def Bisect_Left(self,R=None,f=None): if R==0: return 0 if R==None: R=self.N R+=self.N self.Propagate_Above(self.N//(self.N&-self.N)) self.Propagate_Above(R//(R&-R)-1) vl=self.e vr=self.e l,r=self.N,R while l<r: if l&1: vl=self.f(vl,self.Operate_At(l)) l+=1 if r&1: r-=1 vr=self.f(self.Operate_At(r),vr) l>>=1 r>>=1 if f(self.f(vl,vr)): return 0 v=self.e self.Propagate_Above(R-1) while True: R-=1 while R>1 and R%2: R>>=1 vv=self.f(self.Operate_At(R),v) if f(vv): v=vv else: while R<self.N: self.Propagate_At(R) R=(R<<1)|1 vv=self.f(self.Operate_At(R),v) if f(vv): v=vv R-=1 return R+1-self.N def __str__(self): import copy segment_tree=copy.deepcopy(self.segment_tree) segment_tree_act=copy.deepcopy(self.segment_tree_act) for i in range(1,self.N): segment_tree[i]=self.operate(segment_tree[i],segment_tree_act[i]) segment_tree_act[i<<1]=self.f_act(segment_tree_act[i<<1],segment_tree_act[i]) segment_tree_act[i<<1|1]=self.f_act(segment_tree_act[i<<1|1],segment_tree_act[i]) segment_tree_act[i]=self.e_act for i in range(self.N,self.N*2): segment_tree[i]=self.operate(segment_tree[i],segment_tree_act[i]) segment_tree_act[i]=self.e_act for i in range(self.N-1,0,-1): segment_tree[i]=self.f(segment_tree[i<<1],segment_tree[i<<1|1]) return "["+", ".join(map(str,[self.operate(x,a) for x,a in zip(segment_tree[self.N:],segment_tree_act[self.N:])]))+"]" N,Q=map(int,input().split()) mod=10**9+7 fib=[0,1] for i in range(2,N): fib.append((fib[-1]+fib[-2])%mod) def f(TPL0,TPL1): return (TPL0[0]+TPL1[0])%mod,(TPL0[1]+TPL1[1])%mod,(TPL0[2]+TPL1[2])%mod e=(0,0,0) def f_act(tpl0,tpl1): a0,p0,c0,f0=tpl0 a1,p1,c1,f1=tpl1 if a1!=-1: return tpl1 if a0!=-1: return (a0*p1+c1)%mod,1,0,(f0*p1+f1)%mod return -1,p0*p1%mod,(c0*p1+c1)%mod,(f0*p1+f1)%mod e_act=(-1,1,0,0) def operate(TPL,tpl): S,C,F=TPL a,p,c,f=tpl if a!=-1: return ((a*p+c)*C+f*F)%mod,C,F return (S*p+C*c+f*F)%mod,C,F LST=Lazy_Segment_Tree(N,f,e,f_act,e_act,operate,[(0,1,fib[i]) for i in range(N)]) for q in range(Q): t,l,r,k=map(int,input().split()) r+=1 if t==0: ans=k*LST.Fold(l,r)[0]%mod print(ans) elif t==1: LST.Operate_Range((k,1,0,0),l,r) elif t==2: LST.Operate_Range((-1,1,k,0),l,r) elif t==3: LST.Operate_Range((-1,k,0,0),l,r) else: LST.Operate_Range((-1,1,0,k),l,r)