## Idea

A greedy approach is the way to go:

- If the current text is empty, you're done.
- Take the first N characters. If any of them is a digit then this is a new substring. Chop it off and go to beginning.
- Otherwise, extend the digitless segment to at most M characters. This is a new substring. Chop it off and go to beginning.

## Proof

Here's a reductio-ad-absurdum proof that the above yields an optimal solution.
Assume there is a better split than the greedy split. Let's skip to the point where the two splits start to differ and remove everything before this point.

**Case 1) A digit among the first N characters.**

Assume that there is an input for which chopping off the first N characters cannot yield an optimal solution.

```
Greedy split: |--N--|...
A better split: |---|--...
^
+---- this segment can be shortened from the left side
```

However, the second segment of the putative better solution can be always shortened from the left side, and the first one extended to N characters, without altering the number of segments. Therefore, a contradiction: this split is not better than the greedy split.

**Case 2) No digit among the first K (N < K <= M) characters.**

Assume that there is an input for which chopping off the first K characters cannot yield an optimal solution.

```
Greedy split: |--K--|...
A better split: |---|--...
^
+---- this segment can be shortened from the left side
```

Again, the the "better" split can be transformed, without altering the number of segments, to the greedy split, which contradicts the initial assumption that there is a better split than the greedy split.

Therefore, the greedy split is optimal. Q.E.D.

## Implementation (Python)

```
import sys
m, n, text = int(sys.argv[1]), int(sys.argv[2]), sys.argv[3]
textLen, isDigit = len(text), [c in '0123456789' for c in text]
chunks, i, j = [], 0, 0
while j < textLen:
i, j = j, min(textLen, j + n)
if not any(isDigit[i:j]):
while j < textLen and j - i < m and not isDigit[j]:
j += 1
chunks += [text[i:j]]
print chunks
```

## Implementation (Java)

```
public class SO {
public List<String> go(int m, int n, String text) {
if (text == null)
return Collections.emptyList();
List<String> chunks = new ArrayList<String>();
int i = 0;
int j = 0;
while (j < text.length()) {
i = j;
j = Math.min(text.length(), j + n);
boolean ok = true;
for (int k = i; k < j; k++)
if (Character.isDigit(text.charAt(k))) {
ok = false;
break;
}
if (ok)
while (j < text.length() && j - i < m && !Character.isDigit(text.charAt(j)))
j++;
chunks.add(text.substring(i, j));
}
return chunks;
}
@Test
public void testIt() {
Assert.assertEquals(
Arrays.asList("asdas", "d332", "4asd", "fsdxf", "23"),
go(5, 4, "asdasd3324asdfsdxf23"));
}
}
```