P10276 [USACO24OPEN] Farmer John's Favorite Permutation B

Farmer John has a permutation $p$ of length $N$ ($2 \leq N \leq 10^5)$, containing each positive integer from $1$ to $N$ exactly once. However, Farmer Nhoj has broken into FJ's barn and disassembled $p$. To not be too cruel, FN has written some hints that will help FJ reconstruct $p$. While there is more than one element remaining in $p$, FN does the following: Let the remaining elements of $p$ be $p'_1, p'_2, \dots , p'_n$, - If $p'_1 > p'_n$, he writes down $p'_2$ and removes $p'_1$ from the permutation. - Otherwise, he writes down $p'_{n-1}$ and removes $p'_n$ from the permutation. At the end, Farmer Nhoj will have written down $N - 1$ integers $h_1, h_2, \dots, h_{N-1}$, in that order. Given $h$, Farmer John wants to enlist your help to reconstruct the lexicographically minimum $p$ consistent with Farmer Nhoj's hints, or determine that Farmer Nhoj must have made a mistake. Recall that if you are given two permutations $p$ and $p'$, $p$ is lexicographically smaller than $p'$ if $p_i < p'_i$ at the first position $i$ where the two differ.

Each input consists of $T$ independent test cases ($1\le T\le 10$). Each test case is described as follows: The first line contains $N$. The second line contains $N - 1$ integers $h_1, h_2, \dots, h_{N-1}$ ($1\le h_i\le N$).

Output $T$ lines, one for each test case. If there is a permutation $p$ of $1\dots N$ consistent with $h$, output the lexicographically smallest such $p$. If no such $p$ exists, output $-1$.

For the fourth test case, if $p=[3,1,2,4]$ then FN will have written down $h=[2,1,1]$. ```text p' = [3,1,2,4] p_1' < p_n' -> h_1 = 2 p' = [3,1,2] p_1' > p_n' -> h_2 = 1 p' = [1,2] p_1' < p_n' -> h_3 = 1 p' = [1] ``` Note that the permutation $p=[4,2,1,3]$ would also produce the same $h$, but $[3,1,2,4]$ is lexiocgraphically smaller. For the second test case, there is no $p$ consistent with $h$; both $p=[1,2]$ and $p=[2,1]$ would produce $h=[1]$, not $h=[2]$. #### SCORING: - Input 2: $N\le 8$ - Inputs 3-6: $N\le 100$ - Inputs 7-11: No additional constraints.