Here is the mashup link (the problems are from Codeforces' problem set).

#### A. Anti-codeforces

**Solution**

Given that the length of the provided string is 10, the approach involves iterating through the string and comparing each character at position i with the corresponding character at position i in "codeforces."

**Code**

```
t = int(input())
c = "codeforces"
for _ in range(t):
s = input()
res = 0
for i in range(10):
if s[i] != c[i]:
res += 1
print(res)
```

#### B. Alice and Bob Again

**Hint**

Consider the first character in each pair.

**Solution**

Take every other character starting from the first one. Since the last character can not be a starting letter for a pair, add it to 'a' last.

**Code**

```
t = int(input())
for _ in range(t):
b = input()
a = [] # Storing the characters in a list and appending gives a better time complexity compared to string concatenation
for index in range(0, len(b), 2):
a.append(b[index])
a.append(b[-1])
a = "".join(a)
print(a)
```

#### C. Palindrome-emordnilaP

**Hint**

Any palindrome subsequence with **length ≥ 3** also contains a palindrome with **length = 3** as its subsequence.

**Solution**

The first observation is that we can always try to find the palindrome of length **3** (otherwise, we can remove some numbers from the middle until its length becomes **3**).

The second observation is that the palindrome of length **3** is two equal numbers and some other (maybe, the same) number between them. For each number, we only need to consider its left and right occurrences (if there is any number between them).

**Code**

```
t = int(input())
for _ in range(t):
N = int(input())
nums = list(map(int, input().split()))
left_occurrence = {}
found = False
for i, n in enumerate(nums):
if n in left_occurrence:
if i - left_occurrence[n] >= 2:
found = True
break
else:
left_occurrence[n] = i
if found:
print("YES")
else:
print("NO")
```

#### D. Counting Equal Differences

**Hint**

Can you rewrite the formula?

**Solution**

The equation $$$a_j - a_i = j - i$$$ can be transformed into $$$a_j - j = a_i - i$$$, and let $$$b_i = a_i - i$$$. Then we need to count the number of pairs $$$(i, j)$$$ where $$$b_i = b_j$$$. We can use a dictionary(hash map) to count occurrences of each difference $$$(b_i)$$$.

**Code**

```
T = int(input())
for _ in range(T):
N = int(input())
a = list(map(int,input().split()))
difference_count = {}
pair_count = 0
for i in range(N):
difference = a[i] - i
pair_count += difference_count.get(difference, 0)
difference_count[difference] = difference_count.get(difference, 0) + 1
print(pair_count)
```

#### E. Pivot Sorting

**Solution**

What does it mean for an array $$$a_1, a_2, \ldots, a_n$$$ to be sorted? It means $$$a_1 \leq a_2$$$ and $$$a_2 \leq a_3$$$, and so on. For each pair of adjacent elements, let's deduce which values of $$$x$$$ put them in the correct order. Any value of $$$x$$$ that satisfies all pairs will be the answer.

Consider any $$$a_i$$$ and $$$a_{i+1}$$$ and solve the inequality $$$|a_i - x| \leq |a_{i+1} - x|$$$. If $$$a_i = a_{i+1}$$$, then any value of $$$x$$$ works. Let $$$a_i$$$ be smaller than $$$a_{i+1}$$$. If $$$x$$$ is smaller than or equal to $$$a_i$$$, then the inequality becomes $$$a_i - x \leq a_{i+1} - x$$$ implies $$$a_i \leq a_{i+1}$$$. Thus, they don't change their order, and any $$$x \leq a_i$$$ works.

If $$$a_i > a_{i+1}$$$ and we want to change their order, $$$x$$$ should be $$$\geq \lceil \frac{a_i + a_{i+1}}{2} \rceil$$$. For this pair, we want $$$x$$$ to be the minimum, which is $$$\lceil \frac{a_i + a_{i+1}}{2} \rceil$$$. This number doesn't have to change the pairs that are already in the correct order. For all pairs $$$i$$$ and $$$i+1$$$ where $$$a_i > a_{i+1}$$$, to satisfy all pairs, we have to take the maximum. To check if that maximum number satisfies all the conditions, we can construct the array using this number and check if it's non-decreasing. If it is, then it's valid; otherwise, return -1.

**Code**

```
from math import ceil
t = int(input())
for _ in range(t):
n = int(input())
nums = list(map(int, input().split()))
maximum = 0
for i in range(n - 1):
if nums[i] > nums[i + 1]:
maximum = max(maximum, ceil((nums[i] + nums[i + 1]) / 2))
for i, num in enumerate(nums):
nums[i] = abs(num - maximum)
flag = True
for i in range(1, len(nums)):
if nums[i] < nums[i - 1]:
flag = False
break
if flag:
print(maximum)
else:
print(-1)
```