Assuming the matrix

```
Matrix = [
[1, 2,3],
[3, 4,5],
[5,6,7]
]
```

Split into 3 function:

```
def ContinSubSeq(lst):
size=len(lst)
for start in range(size):
for end in range(start+1,size+1):
yield (start,end)
def getsubmat(mat,start_row,end_row,start_col,end_col):
return [i[start_col:end_col] for i in mat[start_row:end_row] ]
def get_all_sub_mat(mat):
rows = len(mat)
cols = len(mat[0])
for start_row,end_row in ContinSubSeq(list(range(rows))):
for start_col,end_col in ContinSubSeq(list(range(cols))):
yield getsubmat(mat,start_row,end_row,start_col,end_col)
```

Run this

```
for i in get_all_sub_mat(Matrix):
print i
```

Or simpler, put into one function:

```
def get_all_sub_mat(mat):
rows = len(mat)
cols = len(mat[0])
def ContinSubSeq(lst):
size=len(lst)
for start in range(size):
for end in range(start+1,size+1):
yield (start,end)
for start_row,end_row in ContinSubSeq(list(range(rows))):
for start_col,end_col in ContinSubSeq(list(range(cols))):
yield [i[start_col:end_col] for i in mat[start_row:end_row] ]
```

`Combination(x,n)`

and`SubMatrix(x_start,x_end,y_start,y_end)`

. And it should be solved