The square-ten tree decomposition of an array is defined as follows:
- The lowest () level of the square-ten tree consists of single array elements in their natural order.
- The level (starting from ) of the square-ten tree consists of subsequent array subsegments of length in their natural order. Thus, the level contains subsegments of length , the level contains subsegments of length , the level contains subsegments of length , etc.
In other words, every level (for every ) of square-ten tree consists of array subsegments indexed as:
The image below depicts the bottom-left corner (i.e., the first array elements) of the table representing a square-ten tree. The levels are numbered from bottom to top:
Task
Given the borders of array subsegment , find its decomposition into a minimal number of nodes of a square-ten tree. In other words, you must find a subsegment sequence such as for every , , , where every belongs to any of the square-ten tree levels and is minimal amongst all such variants.
Input Format
The first line contains a single integer denoting .
The second line contains a single integer denoting .
Constraints
- The numbers in input do not contain leading zeroes.
Output Format
As soon as array indices are too large, you should find a sequence of square-ten tree level numbers, , meaning that subsegment belongs to the level of the square-ten tree.
Print this sequence in the following compressed format:
- On the first line, print the value of (i.e., the compressed sequence block count).
- For each of the subsequent lines, print space-separated integers, and (, ), meaning that the number appears consequently times in sequence . Blocks should be listed in the order they appear in the sequence. In other words, should be equal to , should be equal to , etc.
Thus must be true and must be true for every . All numbers should be printed without leading zeroes.
Sample Input 0
1
10
Sample Output 0
1
1 1
Explanation 0
Segment belongs to level of the square-ten tree.