I want to find duplicate files on the file system in C++. Is there any algorithm to do that as fast as possible? And do I need to create a multi-threaded application, or I can just use one thread to do it?
I concur with Kerrek SB that there are better tools for this than C++, however, assuming you really need to do this in C++, here are some suggestions and things to consider in your implementation:
use boost::filesystem for portable filesystem traversal
the hash every file suggestion is very reasonable, but it might be more efficient to first make a multimap where the file size is the key. Then only apply the hash when there are files of duplicate size.
decide how you want to treat empty files and symbolic links/short cuts
decied how you want to treat special files, e.g. on unix you have directories fifos, sockets etc
account for the fact that files or directory structure may change, disappear or move while your algorithm is running
account for the fact that some files or directories may be inaccessible or broken (e.g. recursive directory links)
Make the number of threads configurable as the amount of parallelization that makes sense depends on the underlying disk hardware and configuration. It will be different if you are on a simple hard drive vs an expensive san. Don't make assumptions, though; Test it out. For instance, Linux is very good about caching files so many of your reads will come from memory, and thus not block on i/o.
1) Don't use C++. All the tools you need already exist.
2) Hash every file (e.g. with
md5sum) and build an index of filenames, file sizes and hash values.*
3) Sort by hash value and look for duplicate pairs of hash value and size (e.g. with
4) Do an ordinary
diff on the candidate duplicates.
You can parallelize step 2) with a bit of work, but you'll be limited by the I/O speed of your storage. You can parallelize step 3) by splitting your large index file into bits, sorting them separately and then merging them (
*) As @frankc says, don't actually hash every file, but only those whose sizes aren't unique. Start with the size-based index. You'll have to hash a lot of small files, but only very few large files.
I would do this:
- scan the directories you are interested in, looking at each file's size; store the pair file size/path in a
multimap, with the file size as index;
- then, scan the
multimapfor buckets with just one element per key, i.e. files whose size is unique; those surely cannot be duplicates.
- hash the content of the remaining files, and do the same stuff as before (
multimapwith hashes as keys and paths as values).
- then perform a real (byte per byte) comparison only of the files that have the same hash.
This process should be much faster than blindly hashing all the files, since most files have different sizes and can be told apart just by looking at that; and checking the file size is much cheaper than hashing files, since it's just a filesystem attribute lookup instead of reading the whole content of the file.
The final step is needed because there's the possibility of different files with the same hash; but with good hashing functions the most of the work has already been done, since hash collisions for unrelated files should be really rare.
Notice that there's no need for your hash function to be cryptographically secure, neither particularly fast (I suppose that the time of this process would be dominated by IO).
Also, since you don't actually need to have a sorted container, instead of the
multimap you could use an
unordered_multimap, since it should have faster lookup times and, once you know how many files you have to deal with, you may call
reserve with a definite maximum number of elements, avoiding reallocations.