# Distinct Initial Matrices

For a A * B matrix of all distinct numbers from 1 to A * B, we first sort each column and then concatenate all columns in increasing order of indices to form an array of size A * B. Columns are numbered in increasing order from left to right.

For example, if matrix is

[1 5 6] [3 2 4]

We first sort all columns to get

[1 2 4] [3 5 6]

Now, we concatenate columns in increasing order of indices to get an array

[1, 3, 2, 5, 4, 6]

Given this final array, you have to count how many distinct initial matrices are possible. Return the required answer modulo 10^9+7.

Two matrices are distinct if: - Either their dimensions are different. - Or if any of the corresponding row in two matrices are different.

Example:

If input array is [1, 3, 2, 4], distinct initial matrices possible are:

[1 3 2 4]

============

[1 2]

[3 4]

=============

[1 4]

[3 2]

===========

[3 2]

[1 4]

===========

[3 4]

[1 2]

===========

that is, a total of 5 matrices.

Here is what is did: I found the ways we can arrange values in every subarray of size(len/2). So if an array is [1,2,3,4] we have two subarrays [1,2]&[3,4].So the answer will be 2!*2!.Thing is we have to get the unique rows as well.That's where my code failed. Can you enlighten me in the right direction. Here's my code;

`````` public int cntMatrix(ArrayList<Integer> a) {
if(a.size()==1){
return 1;
}

int n=a.size();
int len=n/2;
int i=0;
long ans=1;
if(n%2!=0){  //n is odd

ans=fact(n); //factorial function

}else{

while(i<n){

int x=i;
int y=i+len;

HashMap<Integer,Integer> map=new HashMap<>(); //frequency of each element in subarray[x..y]

for(int m=i;m<y;m++){

if(map.containsKey(a.get(m))){
map.put(a.get(m),map.get(a.get(m))+1);
}else{
map.put(a.get(m),1);
}
}

long p=fact(len);
long q=1;
for(Map.Entry<Integer,Integer> set:map.entrySet()){
int key=set.getKey();
int value=set.getValue();
q*=fact(value);
}

ans*=p/q;   //ncr

map.clear();
i+=len;
}
}
ans%=1000000007;
return ((int)ans+1);
}
``````

How to deal with unique rows

• ok but neither computer nor anyone will know how you failed, unless you show your code – emotionlessbananas Aug 13 '17 at 11:21
• @I_Am_Innocent:Sorry. I am new here,didn't notice that code isn't there.Anyways happily edited. – Akash_Triv3di Aug 13 '17 at 11:38

One thing that I noticed is that you check if the length is odd or not.

This is not right, if for example, the length is 9 you can arrange a 3x3 matrix that will suffice the conditions.

I think that you should try to "cut" the array into columns with the sizes 1 - n and for each size check if it can be an initial matrix. The complexity of my algorithm is O(n^2), though I feel like there is a better one.

This is my python code -

``````class Solution:
# @param A : list of integers
# @return an integer
def cntMatrix(self, A):
count = 0
n = len(A)
# i = number of rows
for i in range(1, n + 1):
if n % i == 0:
can_cut = True
start = 0
while start < len(A) and can_cut:
prev = 0
for j in range(start, start + i):
if prev > A[j]:
can_cut = False
prev = A[j]
start += i

if can_cut:
count = (count + pow(math.factorial(i), n / i)) % (pow(10, 9) + 7)

return count
``````

I didn't check it on their site because the question page couldn't be found anymore, I saw it only on the ninja test.

After running -

``````s = Solution()
print(s.cntMatrix([1, 2, 3, 1, 2, 3, 1, 2, 3]))
``````

We get - 217 = 3! * 3! * 3! + 1

• Thanks for clarification @Daniel.Succesfully implemented. :) – Akash_Triv3di Aug 27 '17 at 12:08
``````class Solution:
# @param A : list of integers
# @return an integer
def cntMatrix(self, A):
self.factCache = {}
bucket = 1
buckets = []
while bucket <= len(A):
if len(A) % bucket == 0:
buckets.append(bucket)
bucket += 1
valid_buckets = []
for bucket in buckets:
counter = 1
invalid = False
for i in range(1, len(A)):
if counter == bucket:
counter = 1
continue
if A[i] > A[i - 1]:
counter += 1
else:
invalid = True
break
if not invalid:
valid_buckets.append(bucket)
combs = 0
for bucket in valid_buckets:
rows = bucket
columns = int(len(A)/rows)
combs += (self.fact(rows) ** columns)
return combs % 1000000007
def fact(self, number):
if number == 0 or number == 1:
return 1
fact = 1
for i in range(1, number + 1):
fact = fact * i
return fact
``````