#D10862. Task On The Board
Task On The Board
Task On The Board
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, …, 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.
Input
The first line contains an integer q (1 ≤ q ≤ 100) — the number of test cases in the test. Then q test cases follow.
Each test case consists of three lines:
- the first line contains string s, which has a length from 1 to 50 and consists of lowercase English letters;
- the second line contains positive integer m (1 ≤ m ≤ |s|), where |s| is the length of the string s, and m is the length of the array b;
- the third line contains the integers b_1, b_2, ..., b_m (0 ≤ b_i ≤ 1225).
It is guaranteed that in each test case an answer exists.
Output
Output q lines: the k-th of them should contain the answer (string t) to the k-th test case. It is guaranteed that an answer to each test case exists. If there are several answers, output any.
Example
Input
4 abac 3 2 1 0 abc 1 0 abba 3 1 0 1 ecoosdcefr 10 38 13 24 14 11 5 3 24 17 0
Output
aac b aba codeforces
Note
In the first test case, such strings t are suitable: "aac', "aab".
In the second test case, such trings t are suitable: "a", "b", "c".
In the third test case, only the string t equals to "aba" is suitable, but the character 'b' can be from the second or third position.
inputFormat
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, …, 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.
Input
The first line contains an integer q (1 ≤ q ≤ 100) — the number of test cases in the test. Then q test cases follow.
Each test case consists of three lines:
- the first line contains string s, which has a length from 1 to 50 and consists of lowercase English letters;
- the second line contains positive integer m (1 ≤ m ≤ |s|), where |s| is the length of the string s, and m is the length of the array b;
- the third line contains the integers b_1, b_2, ..., b_m (0 ≤ b_i ≤ 1225).
It is guaranteed that in each test case an answer exists.
outputFormat
Output
Output q lines: the k-th of them should contain the answer (string t) to the k-th test case. It is guaranteed that an answer to each test case exists. If there are several answers, output any.
Example
Input
4 abac 3 2 1 0 abc 1 0 abba 3 1 0 1 ecoosdcefr 10 38 13 24 14 11 5 3 24 17 0
Output
aac b aba codeforces
Note
In the first test case, such strings t are suitable: "aac', "aab".
In the second test case, such trings t are suitable: "a", "b", "c".
In the third test case, only the string t equals to "aba" is suitable, but the character 'b' can be from the second or third position.
样例
4
abac
3
2 1 0
abc
1
0
abba
3
1 0 1
ecoosdcefr
10
38 13 24 14 11 5 3 24 17 0
aac
c
aba
codeforces