Polycarp wrote on the board a string $$$s$$$ containing only lowercase Latin letters ('a'-'z'). This string is known for you and given in the input.

After that, he erased some letters from the string $$$s$$$, and he rewrote the remaining letters in any order. As a result, he got some new string $$$t$$$. You have to find it with some additional information.

Suppose that the string $$$t$$$ has length $$$m$$$ and the characters are numbered from left to right from $$$1$$$ to $$$m$$$. You are given a sequence of $$$m$$$ integers: $$$b_1, b_2, \ldots, b_m$$$, where $$$b_i$$$ is the sum of the distances $$$|i-j|$$$ from the index $$$i$$$ to all such indices $$$j$$$ that $$$t_j > t_i$$$ (consider that 'a'<'b'<...<'z'). In other words, to calculate $$$b_i$$$, Polycarp finds all such indices $$$j$$$ that the index $$$j$$$ contains a letter that is later in the alphabet than $$$t_i$$$ and sums all the values $$$|i-j|$$$.

For example, if $$$t$$$ = "abzb", then:

• since $$$t_1$$$='a', all other indices contain letters which are later in the alphabet, that is: $$$b_1=|1-2|+|1-3|+|1-4|=1+2+3=6$$$;
• since $$$t_2$$$='b', only the index $$$j=3$$$ contains the letter, which is later in the alphabet, that is: $$$b_2=|2-3|=1$$$;
• since $$$t_3$$$='z', then there are no indexes $$$j$$$ such that $$$t_j>t_i$$$, thus $$$b_3=0$$$;
• since $$$t_4$$$='b', only the index $$$j=3$$$ contains the letter, which is later in the alphabet, that is: $$$b_4=|4-3|=1$$$.

Thus, if $$$t$$$ = "abzb", then $$$b=[6,1,0,1]$$$.

Given the string $$$s$$$ and the array $$$b$$$, find any possible string $$$t$$$ for which the following two requirements are fulfilled simultaneously:

• $$$t$$$ is obtained from $$$s$$$ by erasing some letters (possibly zero) and then writing the rest in any order;
• the array, constructed from the string $$$t$$$ according to the rules above, equals to the array $$$b$$$ specified in the input data.