# Compressing string with repeating chars

I have string which contains only 'U', 'D', 'L', 'R' chars (directions in labyrinth).

The string may look something like this:

• RRRRRDRRDDDRRUUUUDDRRRRUULLU
• DDLDDLDDLDDLDDLDDLDDLDDLDDLDDL
• LUUURRDRRDLUUURRDRRD

I want to compress this sequence of instructions.

For example.

1. before compression: ULULUL after compression: 3(UL)

2. before compression: DDLDDLDDLDDLDDLDDLDDLDDLDDLDDL after compression: 10(DDL)

3. before compression: LLLLDLLLLDLLLLD after compression: 3(4LD)

Does anyone know such algorithm?

Thanks.

• Data compression is modelling (distinguishing probable from improbable) and coding (considered solved). Coding repeated sequences is connected to the names of A. Lempel and J. Ziv. Especially your #3 reminds me of the "compressed pointer macro(?method?)" - dimly remember reading about it in the context of OPM(/L), EPM, … in "Combinatorial Algorithms on Words (Apostolico, A.; Galil, Z. (Eds.))" (978-3-642-82456-2) - it's been a decade, or three. – greybeard Feb 14 '15 at 21:13

No, do not use run-length encoding, the result will be awful.

Instead, do bit-packing: Encode each of your four directions in 2 bits, and then pack four 2-bit pairs into a byte.

So: U = 00b (0d), D = 01b (1d), L = 10b (2d), R = 11b (3d).

(Note: 'b' suffix means binary, 'd' suffix means decimal.)

Therefore, LLLL = 10101010b which is only 1 byte long.

EDIT

From a comment by the OP it turns out that the result of the compression needs to be a string consisting of only printable characters. So, then, I would say that the algorithm that the OP needs is called Huffman Coding (wikipedia). I am not aware of any implementations that produce printable text, (as most would find that such a thing would completely defeat the purpose of compression,) but it is theoretically possible to implement the algorithm in such a way that the output would be printable characters. Anyway, the OP is asking if anyone knows of such an algorithm, so, that's it.

• The quality of the result entirely depends on the input. I.e. 1000L is much shorter than 1010...10. – Niklas B. Feb 14 '15 at 19:55
• @Mike Nakis, I need string result after compression, not binary. – user3216905 Feb 14 '15 at 19:57
• Well, you should clearly state that in your question. And since a sequence of bytes is a string, you should further specify that you want it to be a string consisting of only printable characters. – Mike Nakis Feb 14 '15 at 19:59
• And, I amended my answer. – Mike Nakis Feb 14 '15 at 20:05
• I want to do this for exercise. Thank you. I appreciate your help. – user3216905 Feb 14 '15 at 20:18

I created and blogged a solution that uses the Python regular expression engine to extract the blocks of repeated characters here.

It doesn't give the shortest answer in all cases but comes close.

The idea is to step through the non-overlapping matches to this regular expression:

(?P<repeat>(?P<chars>.+?)(?:(?P=chars))+)

• unfortunately i can't use regular expressions i should write it with native C++ code. – user3216905 Feb 15 '15 at 15:47
• @user3216905: C++ has regexp capability: cplusplus.com/reference/regex ? – Paddy3118 Feb 15 '15 at 16:25
• it is university assignment – user3216905 Feb 15 '15 at 16:50
• @user3216905: So what have you got so far... – Paddy3118 Feb 15 '15 at 17:32

Yes, what you are looking for is classical run-length-encoding (a bit more involved than the simple approach which would just take repetitions of an individual character).

• Unfortunately run-length encoding is that simple approach described. The devil is in finding/choosing which substrings are repeated more than once. – Paddy3118 Feb 15 '15 at 9:15