本文探讨了一个线性代数练习题,即证明四个关于矩阵的陈述是等价的,并提供了一种算法来确定为了证明所有陈述等价所需最少的额外推导次数。
Proving Equivalences
Time Limit: 4000/2000 MS (Java/Others) Memory Limit: 32768/32768 K (Java/Others)
Total Submission(s): 9208 Accepted Submission(s): 3257
Problem Description
Consider the following exercise, found in a generic linear algebra textbook.
Let A be an n × n matrix. Prove that the following statements are equivalent:
1. A is invertible.
2. Ax = b has exactly one solution for every n × 1 matrix b.
3. Ax = b is consistent for every n × 1 matrix b.
4. Ax = 0 has only the trivial solution x = 0.
The typical way to solve such an exercise is to show a series of implications. For instance, one can proceed by showing that (a) implies (b), that (b) implies (c), that (c) implies (d), and finally that (d) implies (a). These four implications show that the four statements are equivalent.
Another way would be to show that (a) is equivalent to (b) (by proving that (a) implies (b) and that (b) implies (a)), that (b) is equivalent to (c), and that (c) is equivalent to (d). However, this way requires proving six implications, which is clearly a lot more work than just proving four implications!
I have been given some similar tasks, and have already started proving some implications. Now I wonder, how many more implications do I have to prove? Can you help me determine this?
Let A be an n × n matrix. Prove that the following statements are equivalent:
1. A is invertible.
2. Ax = b has exactly one solution for every n × 1 matrix b.
3. Ax = b is consistent for every n × 1 matrix b.
4. Ax = 0 has only the trivial solution x = 0.
The typical way to solve such an exercise is to show a series of implications. For instance, one can proceed by showing that (a) implies (b), that (b) implies (c), that (c) implies (d), and finally that (d) implies (a). These four implications show that the four statements are equivalent.
Another way would be to show that (a) is equivalent to (b) (by proving that (a) implies (b) and that (b) implies (a)), that (b) is equivalent to (c), and that (c) is equivalent to (d). However, this way requires proving six implications, which is clearly a lot more work than just proving four implications!
I have been given some similar tasks, and have already started proving some implications. Now I wonder, how many more implications do I have to prove? Can you help me determine this?
Input
On the first line one positive number: the number of testcases, at most 100. After that per testcase:
* One line containing two integers n (1 ≤ n ≤ 20000) and m (0 ≤ m ≤ 50000): the number of statements and the number of implications that have already been proved.
* m lines with two integers s1 and s2 (1 ≤ s1, s2 ≤ n and s1 ≠ s2) each, indicating that it has been proved that statement s1 implies statement s2.
* One line containing two integers n (1 ≤ n ≤ 20000) and m (0 ≤ m ≤ 50000): the number of statements and the number of implications that have already been proved.
* m lines with two integers s1 and s2 (1 ≤ s1, s2 ≤ n and s1 ≠ s2) each, indicating that it has been proved that statement s1 implies statement s2.
Output
Per testcase:
* One line with the minimum number of additional implications that need to be proved in order to prove that all statements are equivalent.
* One line with the minimum number of additional implications that need to be proved in order to prove that all statements are equivalent.
Sample Input
2 4 0 3 2 1 2 1 3
Sample Output
4 2
Source
代码:
1 #include<bits/stdc++.h> 2 using namespace std; 3 const int N=1e5+10; 4 int head[N],dfn[N],low[N],belong[N],stak[N],instack[N]; 5 int in[N],out[N]; 6 int incnt,outcnt; 7 int cnt,indexx,top,ans; 8 struct node{ 9 int u,v,next; 10 }edge[N*3]; 11 12 void add(int u,int v) 13 { 14 edge[cnt].v=v; 15 edge[cnt].next=head[u]; 16 head[u]=cnt++; 17 } 18 19 void Init() 20 { 21 memset(head,-1,sizeof(head)); 22 memset(dfn,0,sizeof(dfn)); 23 memset(instack,0,sizeof(instack)); 24 cnt=indexx=top=ans=0; 25 memset(in,0,sizeof(in)); 26 memset(out,0,sizeof(out)); 27 incnt=outcnt=0; 28 } 29 30 void tarjan(int u) 31 { 32 dfn[u]=low[u]=++indexx; 33 stak[++top]=u; 34 instack[u]=1; 35 for(int i=head[u]; i!=-1; i=edge[i].next){ 36 int v=edge[i].v; 37 if(!dfn[v]){ 38 tarjan(v); 39 low[u]=min(low[u],low[v]); 40 } 41 else if(instack[v]) 42 low[u]=min(low[u],dfn[v]); 43 } 44 if(dfn[u]==low[u]){ 45 ans++; 46 while(1){ 47 int v=stak[top--]; 48 instack[v]=0; 49 belong[v]=ans; 50 if(u==v) 51 break; 52 } 53 } 54 } 55 56 int main() 57 { 58 int T,n,m; 59 int u,v; 60 scanf("%d",&T); 61 while(T--){ 62 scanf("%d%d",&n,&m); 63 Init(); 64 while(m--){ 65 scanf("%d%d",&u,&v); 66 add(u,v); 67 } 68 for(int i=1; i<=n; i++){ 69 if(!dfn[i]) 70 tarjan(i); 71 } 72 if(ans==1){ 73 printf("0\n"); 74 continue; 75 } 76 for(int i=1; i<=n; i++){ 77 for(int j=head[i]; j!=-1; j=edge[j].next){ 78 int v=edge[j].v; 79 if(belong[v]!=belong[i]){ 80 in[belong[v]]++; 81 out[belong[i]]++; 82 } 83 } 84 } 85 for(int i=1; i<=ans; i++){ 86 if(!in[i]) 87 incnt++; 88 if(!out[i]) 89 outcnt++; 90 } 91 printf("%d\n",max(incnt,outcnt)); 92 } 93 return 0; 94 }
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