def putin():
return map(int, input().split())
def solve():
n = int(input())
s = input()
r = input()
pairs = []
for i in range(len(s)):
pairs.append(
tuple(sorted([s[i], r[n-1-i]]))
)
D = {}
for elem in pairs:
if elem in D:
D[elem] += 1
else:
D[elem] = 1
odd = 0
for elem in D:
if D[elem] % 2 == 1:
if elem[0] != elem[1]:
return "NO"
odd += 1
return "YES" if odd < 2 else "NO"
t = int(input())
for i in range(t):
print(solve())21. Merge Two Sorted Lists | 203. Remove Linked List Elements |
733. Flood Fill | 206. Reverse Linked List |
83. Remove Duplicates from Sorted List | 116. Populating Next Right Pointers in Each Node |
145. Binary Tree Postorder Traversal | 94. Binary Tree Inorder Traversal |
101. Symmetric Tree | 77. Combinations |
46. Permutations | 226. Invert Binary Tree |
112. Path Sum | 1556A - A Variety of Operations |
136. Single Number | 169. Majority Element |
119. Pascal's Triangle II | 409. Longest Palindrome |
1574A - Regular Bracket Sequences | 1574B - Combinatorics Homework |
1567A - Domino Disaster | 1593A - Elections |
1607A - Linear Keyboard | EQUALCOIN Equal Coins |
XOREQN Xor Equation | MAKEPAL Weird Palindrome Making |
HILLSEQ Hill Sequence | MAXBRIDGE Maximise the bridges |
WLDRPL Wildcard Replacement | 1221. Split a String in Balanced Strings |