#include #include #define LenOf(a) (sizeof((a))/sizeof((a)[0])) #define ForIn(i, a) for(int ___##i##_length = LenOf(a), i = 0; i < ___##i##_length; ++i) int const DIV = 1000000007; class Tree{ public: enum{ TreeSize = 2000 }; private: static Tree TreeArray[TreeSize]; static int TreeSta; int numberOfAllChild(){ int ret = pTreeLength; for(int i = 0; i < pTreeLength; ++i){ ret += pTree[i].numberOfAllChild(); } return ret; } void add(int *a, int a_id){ if(NULL != pTree){ return; } pTreeLength = 0; for(int i = 0; i < a_id; i += 2){ if(id != a[i] && id != a[i + 1]){ continue; } ++pTreeLength; } if(0 >= pTreeLength || TreeSize < pTreeLength || TreeSize - pTreeLength < TreeSta){ pTreeLength = 0; return; } pTree = TreeArray + TreeSta; TreeSta += pTreeLength; for(int k = 0; k < pTreeLength; ++k){ for(int i = 0; i < a_id; i += 2){ if(id != a[i] && id != a[i + 1]){ continue; } pTree[k].id = ((id == a[i])? a[i + 1] : a[i]); { int z = a[i ]; a[i ] = a[a_id - 1]; a[a_id - 1] = z; } { int z = a[i + 1]; a[i + 1] = a[a_id - 2]; a[a_id - 2] = z; } a_id -= 2; break; } } for(int i = 0; i < pTreeLength; ++i){ pTree[i].add(a, a_id); } } void setSize(){ size = numberOfAllChild() + 1; for(int i = 0; i < pTreeLength; ++i){ pTree[i].setSize(); } } public: int id; Tree *pTree; int pTreeLength, size; Tree(){ id = 0; pTree = NULL; pTreeLength = 0; size = 0; } bool readFrom(int &K){ int N; scanf("%d %d", &N, &K); if(TreeSize < N){ return true; } int a_id = 2 * (N - 1), a[2 * TreeSize]; for(int i = 0; i < a_id; i += 2){ scanf("%d %d", a + i, a + i + 1); } id = 0; add(a, a_id); setSize(); return false; } }; Tree Tree::TreeArray[Tree::TreeSize]; int Tree::TreeSta = 0; int const MAX = Tree::TreeSize; namespace BACK1{ int BackTrack(Tree &tree, int K); }; namespace BACK0{ int buf[ 1 << 25 ], sta, *bMap[MAX]; void Init(){ sta = 0; ForIn(i, bMap){ bMap[i] = NULL; } } int BackTrack(Tree &tree, int *pMap, int c, int index, int K){ Tree * const pTree = tree.pTree; int const indexEnd = tree.pTreeLength; if(indexEnd == index){ return ((0 == K)? 1 : 0); } int val = 0, k = index + K * indexEnd; if(NULL != pMap && -1 != (val = pMap[k])){ return val; } int M = pTree[index].size; if(M > K){ M = K; } int m = K - c; if(m < 0){ m = 0; } int sum = 0; uint64_t t = 0; for(int a = m; a <= M; ++a){ t = BACK1::BackTrack(pTree[index], a); t *= BackTrack(tree, pMap, c - ((index + 1 < indexEnd)? pTree[index + 1].size : 0), index + 1, K - a); t %= DIV; sum += int(t); sum %= DIV; } if(NULL != pMap){ pMap[k] = sum; } return sum; } int Do(Tree &tree, int K){ if(NULL == tree.pTree){ return 0; } if(0 > K || MAX < K){ return 0; } Tree * const pTree = tree.pTree; int const indexEnd = tree.pTreeLength; { int M = indexEnd * (MAX + 1); if(NULL == bMap[tree.id] && int(LenOf(buf) - sta) >= M){ int *p = bMap[tree.id] = buf + sta; sta += M; for(int i = 0; i < M; ++i){ p[i] = -1; } } } int c = 0; for(int i = 0; i < indexEnd; ++i){ c += pTree[i].size; } int ret = BackTrack(tree, bMap[tree.id], c - pTree[0].size, 0, K); return ret; } }; namespace BACK1{ int map[MAX][MAX + 10]; int BackTrack(Tree &tree, int K){ int id = tree.id; if(0 > K || MAX < K || 0 > id || MAX <= id){ return 0; } int ret = 0; if(-1 != (ret = map[id][K])){ return ret; } if(tree.size < K){ map[id][K] = 0; return 0; } ret = 0; if(tree.size == K){ ++ret; } ret += BACK0::Do(tree, K); ret %= DIV; map[id][K] = ret; return ret; } int Do(Tree &tree, int K){ BACK0::Init(); ForIn(i, map){ ForIn(j, map[i]){ map[i][j] = -1; } map[i][0] = 1; } return BackTrack(tree, K); } }; int main(int argc, char *argv[]){ Tree tree; int K = 0; tree.readFrom(K); printf("%d\n", BACK1::Do(tree, K)); return 0; }