//DS QT 找一段最靠前的长度为QT的空间
//NS QT 找一段最靠前的长度为QT的空间。假设没找到能够将DS占领的空间当做空暇空间,找一段最靠前的空间
//STUDY!! L R 清空L ,R的空间
//用两个线段树,一个处理DS的情况。一个处理NS的情况
//线段树维护,ma_l , ma_r , ma 区间[l,r]的左边的空暇区间,右边的以及最大的空暇区间
#include<cstdio>
#include<cstring>
#include<iostream>
#include<algorithm>
using namespace std ;
const int maxn = 1e5 + 10;
#define left v<<1
#define right v<<1|1
struct node
{
int l , r ;
int ma_l ;
int ma_r ;
int ma ;
int lazy ;
}tree[2][maxn<<2] ;
void build(int l , int r , int v)
{
for(int i = 0;i < 2;i++)
{
tree[i][v].l = l ;
tree[i][v].r = r;
tree[i][v].lazy = -1;
tree[i][v].ma_l = tree[i][v].ma = tree[i][v].ma_r = (r - l + 1) ;
}
if(l == r)return ;
int mid = (l + r)>>1 ;
build(l , mid , left) ;
build(mid+1 , r , right) ;
}
void push_down(int v)
{
for(int i = 0 ;i < 2;i++)
if(tree[i][v].lazy != -1)
{
tree[i][left].ma_l = tree[i][left].ma_r = tree[i][left].ma = (tree[i][left].r - tree[i][left].l + 1)*tree[i][v].lazy ;
tree[i][right].ma_l = tree[i][right].ma_r = tree[i][right].ma = (tree[i][right].r - tree[i][right].l + 1)*tree[i][v].lazy ;
tree[i][left].lazy = tree[i][right].lazy = tree[i][v].lazy ;
tree[i][v].lazy = -1;
}
}
void push_up(int v)
{
for(int i = 0 ;i < 2;i++)
{
tree[i][v].ma_l = tree[i][left].ma_l ;
tree[i][v].ma_r = tree[i][right].ma_r ;
tree[i][v].ma = max(max(tree[i][left].ma ,tree[i][right].ma) ,tree[i][left].ma_r+tree[i][right].ma_l) ;
if(tree[i][v].ma_l == (tree[i][left].r - tree[i][left].l + 1))
tree[i][v].ma_l += tree[i][right].ma_l ;
if(tree[i][v].ma_r == (tree[i][right].r - tree[i][right].l + 1))
tree[i][v].ma_r += tree[i][left].ma_r ;
}
}
int query(int v , const int flag , const int num)
{
if(tree[flag][v].l == tree[flag][v].r)
return tree[flag][v].l ;
push_down(v) ;
if(tree[flag][left].ma >= num)
return query(left , flag ,num) ;
else if(tree[flag][left].ma_r + tree[flag][right].ma_l >= num)
return tree[flag][left].r - tree[flag][left].ma_r + 1 ;
else return query(right , flag , num) ;
}
void update(int a , int b , int v , const int flag , const int tag)
{
if(tree[flag][v].l >= a && tree[flag][v].r <= b)
{
tree[flag][v].lazy = tag;
tree[flag][v].ma_l = tree[flag][v].ma = tree[flag][v].ma_r = (tree[flag][v].r - tree[flag][v].l + 1)*tag ;
return ;
}
push_down(v) ;
int mid = (tree[flag][v].l + tree[flag][v].r) >> 1 ;
if(a <= mid)update(a , b , left , flag , tag) ;
if(b > mid)update(a , b , right , flag , tag) ;
push_up(v) ;
}
int main()
{
// freopen("in.txt" ,"r" , stdin) ;
int T ;
scanf("%d" , &T) ;
int cas = 0 ;
while(T--)
{
int N , Q ;
scanf("%d%d" ,&N , &Q) ;
build(1 , N , 1) ;
char ch[10] ;
int L , R , qt ;
printf("Case %d:\n" , ++cas) ;
while(Q--)
{
scanf("%s" , ch) ;
if(ch[0] == 'D')
{
scanf("%d" , &qt) ;
if(tree[1][1].ma < qt)
{
puts("fly with yourself");
continue ;
}
int pos = query(1 , 1 , qt) ;
update(pos , pos + qt - 1 , 1 , 1 , 0) ;
printf("%d,let's fly\n" , pos) ;
}
else if(ch[0] == 'N')
{
scanf("%d" , &qt) ;
int pos ;
if(tree[1][1].ma < qt && tree[0][1].ma < qt)
{puts("wait for me"); continue ;}
else if(tree[1][1].ma >= qt)
pos = query(1 , 1 , qt) ;
else pos = query(1 , 0 , qt) ;
printf("%d,don't put my gezi\n" , pos) ;
update(pos , pos + qt - 1 , 1 , 0 ,0) ;
update(pos , pos + qt - 1 , 1 , 1 , 0) ;
}
else if(ch[0] == 'S')
{
scanf("%d%d" , &L , &R) ;
update(L , R , 1 , 0 , 1) ;
update(L , R , 1 , 1 , 1) ;
puts("I am the hope of chinese chengxuyuan!!") ;
}
}
}
return 0 ;
}