BerSoft is the biggest IT corporation in Berland, and Monocarp is the head of its security department. This time, he faced the most difficult task ever.
Basically, there are $$$n$$$ developers working at BerSoft, numbered from $$$1$$$ to $$$n$$$. There are $$$m$$$ documents shared on the internal network, numbered from $$$1$$$ to $$$m$$$. There is a table of access requirements $$$a$$$ such that $$$a_{i,j}$$$ (the $$$j$$$-th element of the $$$i$$$-th row) is $$$1$$$ if the $$$i$$$-th developer should have access to the $$$j$$$-th document, and $$$0$$$ if they should have no access to it.
In order to restrict the access, Monocarp is going to perform the following actions:
The developer $$$i$$$ has access to the document $$$j$$$ if their access level for the access group of the document is greater than or equal to the required access level of the document.
What's the smallest number of access groups Monocarp can choose so that it's possible to assign access groups and access levels in order to satisfy the table of access requirements?
The first line contains two integers $$$n$$$ and $$$m$$$ ($$$1 \le n, m \le 500$$$) — the number of developers and the number of documents.
Each of the next $$$n$$$ lines contains a binary string of length $$$m$$$ — the table of access requirements. The $$$j$$$-th element of the $$$i$$$-th row is $$$1$$$ if the $$$i$$$-th developer should have access to the $$$j$$$-th document, and $$$0$$$ if they should have no access to it.
The first line should contain a single integer $$$k$$$ — the smallest number of access groups Monocarp can choose so that it's possible to assign access groups and access levels in order to satisfy the table of access requirements.
The second line should contain $$$m$$$ integers from $$$1$$$ to $$$k$$$ — the access groups of the documents.
The third line should contain $$$m$$$ integers from $$$1$$$ to $$$10^9$$$ — the required access levels of the documents.
The $$$i$$$-th of the next $$$n$$$ lines should contain $$$k$$$ integers from $$$1$$$ to $$$10^9$$$ — the access level of the $$$i$$$-th developer on each of the access groups.
If there are multiple solutions, print any of them.
3 2 01 11 10
2 1 2 2 2 1 2 2 2 2 1
2 3 101 100
1 1 1 1 1 10 5 8 3
In the first example, we assign the documents to different access groups. Both documents have level $$$2$$$ in their access group. This way, we can assign the developers, who need the access, level $$$2$$$, and the developers, who have to have no access, level $$$1$$$.
If they had the same access group, it would be impossible to assign access levels to developers $$$1$$$ and $$$3$$$. Developer $$$1$$$ should've had a lower level than developer $$$3$$$ in this group to not be able to access document $$$1$$$. At the same time, developer $$$3$$$ should've had a lower level than developer $$$1$$$ in this group to not be able to access document $$$2$$$. Since they can't both have lower level than each other, it's impossible to have only one access group.
In the second example, it's possible to assign all documents to the same access group.
Name |
---|