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I am writing a Python program to find and remove duplicate files from a folder.

I have multiple copies of mp3 files, and some other files. I am using the sh1 algorithm.

How can I find these duplicate files and remove them?

share|improve this question

Recursive folders version:

This version uses the file size and a hash of the contents to find duplicates. You can pass it multiple paths, it will scan all paths recursively and report all duplicates found.

import sys
import os
import hashlib

def chunk_reader(fobj, chunk_size=1024):
    """Generator that reads a file in chunks of bytes"""
    while True:
        chunk = fobj.read(chunk_size)
        if not chunk:
            return
        yield chunk

def check_for_duplicates(paths, hash=hashlib.sha1):
    hashes = {}
    for path in paths:
        for dirpath, dirnames, filenames in os.walk(path):
            for filename in filenames:
                full_path = os.path.join(dirpath, filename)
                hashobj = hash()
                for chunk in chunk_reader(open(full_path, 'rb')):
                    hashobj.update(chunk)
                file_id = (hashobj.digest(), os.path.getsize(full_path))
                duplicate = hashes.get(file_id, None)
                if duplicate:
                    print "Duplicate found: %s and %s" % (full_path, duplicate)
                else:
                    hashes[file_id] = full_path

if sys.argv[1:]:
    check_for_duplicates(sys.argv[1:])
else:
    print "Please pass the paths to check as parameters to the script"
share|improve this answer
    
That's iterative surely? – Jakob Bowyer Jun 29 '11 at 22:45
    
@Jakob Bowyer: Sure, the implementation is iterative. By "Recursive folders" I mean that it recurses the entire folder tree. – nosklo Aug 3 '11 at 21:54
def remove_duplicates(dir):
    unique = []
    for filename in os.listdir(dir):
        if os.path.isfile(filename):
            filehash = md5.md5(file(filename).read()).hexdigest()
        if filehash not in unique: 
            unique.append(filehash)
        else: 
            os.remove(filename)

//edit:

for mp3 you may be also interested in this topic Detect duplicate MP3 files with different bitrates and/or different ID3 tags?

share|improve this answer
    
of course you can replace the md5 hashing with sha1 – zalew Apr 14 '09 at 18:57
    
For performance, you should probably change unique to be a set (though it probably won't be a big factor unless there are lots of small files). Also, your code will fail if there is a directory in the dir. Check os.path.isfile() before you process them. – Brian Apr 14 '09 at 19:31
    
yep, this code it's more like a basis. I added isfile as you suggested. – zalew Apr 14 '09 at 20:07

I wrote one in Python some time ago -- you're welcome to use it.

import sys
import os
import hashlib

check_path = (lambda filepath, hashes, p = sys.stdout.write:
        (lambda hash = hashlib.sha1 (file (filepath).read ()).hexdigest ():
                ((hash in hashes) and (p ('DUPLICATE FILE\n'
                                          '   %s\n'
                                          'of %s\n' % (filepath, hashes[hash])))
                 or hashes.setdefault (hash, filepath)))())

scan = (lambda dirpath, hashes = {}: 
                map (lambda (root, dirs, files):
                        map (lambda filename: check_path (os.path.join (root, filename), hashes), files), os.walk (dirpath)))

((len (sys.argv) > 1) and scan (sys.argv[1]))
share|improve this answer
    
+1 Ok, that's pretty neat. – altCognito Apr 14 '09 at 17:56
1  
I can't follow what's happening there. If you get a chance, could you maybe explain a little of what's going on? – tgray Apr 14 '09 at 18:11
3  
-1: unreadable code – nosklo Apr 14 '09 at 18:32
2  
-1: Lambdas (ToT) – S.Lott Apr 14 '09 at 18:54
3  
Anon -- I posted this just to be silly. It's a rather difficult-to-read solution to an easy problem. The original question could probably be solved in a few lines of idiomatic Python, if the original poster bothered to spend a few minutes of quality time with Google. – John Millikin Apr 14 '09 at 20:12

Faster algorithm

In case many files of 'big size' should be analyzed (images, mp3, pdf documents), it would be interesting/faster to have the following comparison algorithm:

  1. a first fast hash is performed on the first N bytes of the file (say 1KB). This hash would say if files are different without doubt, but will not say if two files are exactly the same (accuracy of the hash, limited data read from disk)

  2. a second, slower, hash, which is more accurate and performed on the whole content of the file, if a collision occurs in the first stage

Here is an implementation of this algorithm:

import hashlib
def Checksum(current_file_name, check_type = 'sha512', first_block = False):
  """Computes the hash for the given file. If first_block is True,
  only the first block of size size_block is hashed."""
  size_block = 1024 * 1024 # The first N bytes (1KB)

  d = {'sha1' : hashlib.sha1, 'md5': hashlib.md5, 'sha512': hashlib.sha512}

  if(not d.has_key(check_type)):
    raise Exception("Unknown checksum method")

  file_size = os.stat(current_file_name)[stat.ST_SIZE]
  with file(current_file_name, 'rb') as f:
    key = d[check_type].__call__()
    while True:
      s = f.read(size_block)
      key.update(s)
      file_size -= size_block
      if(len(s) < size_block or first_block):
        break
  return key.hexdigest().upper()

def find_duplicates(files):
  """Find duplicates among a set of files.
  The implementation uses two types of hashes:
  - A small and fast one one the first block of the file (first 1KB), 
  - and in case of collision a complete hash on the file. The complete hash 
  is not computed twice.
  It flushes the files that seems to have the same content 
  (according to the hash method) at the end.
  """

  print 'Analyzing', len(files), 'files'

  # this dictionary will receive small hashes
  d = {}
  # this dictionary will receive full hashes. It is filled
  # only in case of collision on the small hash (contains at least two 
  # elements)
  duplicates = {}

  for f in files:

    # small hash to be fast
    check = Checksum(f, first_block = True, check_type = 'sha1')

    if(not d.has_key(check)):
      # d[check] is a list of files that have the same small hash
      d[check] = [(f, None)]
    else:
      l = d[check]
      l.append((f, None))

      for index, (ff, checkfull) in enumerate(l):

        if(checkfull is None):
          # computes the full hash in case of collision
          checkfull = Checksum(ff, first_block = False)
          l[index] = (ff, checkfull)

          # for each new full hash computed, check if their is 
          # a collision in the duplicate dictionary. 
          if(not duplicates.has_key(checkfull)):
            duplicates[checkfull] = [ff]
          else:
            duplicates[checkfull].append(ff)

  # prints the detected duplicates
  if(len(duplicates) != 0):
    print
    print "The following files have the same sha512 hash"

    for h, lf in duplicates.items():
      if(len(lf)==1):
        continue
      print 'Hash value', h
      for f in lf:
        print '\t', f.encode('unicode_escape') if \
          type(f) is types.UnicodeType else f
  return duplicates

The find_duplicates function takes a list of files. This way, it is also possible to compare two directories (for instance, to better synchronize their content.) An example of function creating a list of files, with specified extension, and avoiding entering in some directories, is below:

def getFiles(_path, extensions = ['.png'], 
             subdirs = False, avoid_directories = None):
  """Returns the list of files in the path :'_path', 
     of extension in 'extensions'. 'subdir' indicates if 
     the search should also be performed in the subdirectories. 
     If extensions = [] or None, all files are returned.
     avoid_directories: if set, do not parse subdirectories that 
     match any element of avoid_directories."""

  l = []
  extensions = [p.lower() for p in extensions] if not extensions is None \
    else None
  for root, dirs, files in os.walk(_path, topdown=True):

    for name in files:
      if(extensions is None or len(extensions) == 0 or \
         os.path.splitext(name)[1].lower() in extensions):
        l.append(os.path.join(root, name))

    if(not subdirs):
      while(len(dirs) > 0):
        dirs.pop()
    elif(not avoid_directories is None):
      for d in avoid_directories:
        if(d in dirs): dirs.remove(d)

  return l    

This method is convenient for not parsing .svn paths for instance, which surely will trigger colliding files in find_duplicates.

Feedbacks are welcome.

share|improve this answer
    import hashlib
    import os
    import sys
    from sets import Set

    def read_chunk(fobj, chunk_size = 2048):
        """ Files can be huge so read them in chunks of bytes. """
        while True:
            chunk = fobj.read(chunk_size)
            if not chunk:
                return
            yield chunk

    def remove_duplicates(dir, hashfun = hashlib.sha512):
        unique = Set()
        for filename in os.listdir(dir):
            filepath = os.path.join(dir, filename)
            if os.path.isfile(filepath):
                hashobj = hashfun()
                for chunk in read_chunk(open(filepath,'rb')):
                    hashobj.update(chunk)
                    # the size of the hashobj is constant
                    # print "hashfun: ", hashfun.__sizeof__()
                hashfile = hashobj.hexdigest()
                if hashfile not in unique:
                    unique.add(hashfile)
                else: 
                    os.remove(filepath)

    try:
        hashfun = hashlib.sha256
        remove_duplicates(sys.argv[1], hashfun)
    except IndexError:
        print """Please pass a path to a directory with 
        duplicate files as a parameter to the script."""
share|improve this answer

Fastest algorithm - 100x performance increase compared to the accepted answer (really :))

The approaches in the other solutions are very cool, but they forget about an important property of duplicate files - they have the same file size. Calculating the expensive hash only on files with the same size will save tremendous amount of CPU; performance comparisons at the end, here's the explanation.

Iterating on the solid answers given by @nosklo and borrowing the idea of @Raffi to have a fast hash of just the beginning of each file, and calculating the full one only on collisions in the fast hash, here are the steps:

  1. Buildup a hash table of the files, where the filesize is the key.
  2. For files with the same size, create a hash table with the hash of their first 1024 bytes; non-colliding elements are unique
  3. For files with the same hash on the first 1k bytes, calculate the hash on the full contents - files with matching ones are unique.

The code:

#!/usr/bin/env python
import sys
import os
import hashlib


def chunk_reader(fobj, chunk_size=1024):
    """Generator that reads a file in chunks of bytes"""
    while True:
        chunk = fobj.read(chunk_size)
        if not chunk:
            return
        yield chunk


def get_hash(filename, first_chunk_only=False, hash=hashlib.sha1):
    hashobj = hash()
    file_object = open(filename, 'rb')

    if first_chunk_only:
        hashobj.update(file_object.read(1024))
    else:
        for chunk in chunk_reader(file_object):
            hashobj.update(chunk)
    hashed = hashobj.digest()

    file_object.close()
    return hashed


def check_for_duplicates(paths, hash=hashlib.sha1):
    hashes_by_size = {}
    hashes_on_1k = {}
    hashes_full = {}

    for path in paths:
        for dirpath, dirnames, filenames in os.walk(path):
            for filename in filenames:
                full_path = os.path.join(dirpath, filename)
                try:
                    file_size = os.path.getsize(full_path)
                except (OSError,):
                    # not accessible (permissions, etc) - pass on
                    pass

                duplicate = hashes_by_size.get(file_size)

                if duplicate:
                    hashes_by_size[file_size].append(full_path)
                else:
                    hashes_by_size[file_size] = []  # create the list for this file size
                    hashes_by_size[file_size].append(full_path)

    # For all files with the same file size, get their hash on the 1st 1024 bytes
    for __, files in hashes_by_size.items():
        if len(files) < 2:
            continue    # this file size is unique, no need to spend cpy cycles on it

        for filename in files:
            small_hash = get_hash(filename, first_chunk_only=True)

            duplicate = hashes_on_1k.get(small_hash)
            if duplicate:
                hashes_on_1k[small_hash].append(filename)
            else:
                hashes_on_1k[small_hash] = []          # create the list for this 1k hash
                hashes_on_1k[small_hash].append(filename)

    # For all files with the hash on the 1st 1024 bytes, get their hash on the full file - collisions will be duplicates
    for __, files in hashes_on_1k.items():
        if len(files) < 2:
            continue    # this hash of fist 1k file bytes is unique, no need to spend cpy cycles on it

        for filename in files:
            full_hash = get_hash(filename, first_chunk_only=False)

            duplicate = hashes_full.get(full_hash)
            if duplicate:
                print "Duplicate found: %s and %s" % (filename, duplicate)
            else:
                hashes_full[full_hash] = filename

if sys.argv[1:]:
    check_for_duplicates(sys.argv[1:])
else:
    print "Please pass the paths to check as parameters to the script"

And, here's the fun part - performance comparisons.

Baseline -

  • a directory with 1047 files, 32 mp4, 1015 - jpg, total size - 5445.998 GiB - i.e. my phone's camera auto upload directory :)
  • small (but fully functional processor) - 1600 BogoMIPS, 1.2 GHz 32L1 + 256L2 Kbs cache, /proc/cpuinfo:

    Processor : Feroceon 88FR131 rev 1 (v5l) BogoMIPS : 1599.07

(i.e. my low-end NAS :), running Python 2.7.11)

So, the output of @nosklo's very handy solution:

root@NAS:InstantUpload# time ~/scripts/checkDuplicates.py 
Duplicate found: ./IMG_20151231_143053 (2).jpg and ./IMG_20151231_143053.jpg
Duplicate found: ./IMG_20151125_233019 (2).jpg and ./IMG_20151125_233019.jpg
Duplicate found: ./IMG_20160204_150311.jpg and ./IMG_20160204_150311 (2).jpg
Duplicate found: ./IMG_20160216_074620 (2).jpg and ./IMG_20160216_074620.jpg

real    5m44.198s
user    4m44.550s
sys     0m33.530s

And, here's the version with filter on size check, then small hashes, and finally full hash if collisions are found:

root@NAS:InstantUpload# time ~/scripts/checkDuplicatesSmallHash.py . "/i-data/51608399/photo/Todor phone"
Duplicate found: ./IMG_20160216_074620 (2).jpg and ./IMG_20160216_074620.jpg
Duplicate found: ./IMG_20160204_150311.jpg and ./IMG_20160204_150311 (2).jpg
Duplicate found: ./IMG_20151231_143053 (2).jpg and ./IMG_20151231_143053.jpg
Duplicate found: ./IMG_20151125_233019 (2).jpg and ./IMG_20151125_233019.jpg

real    0m1.398s
user    0m1.200s
sys     0m0.080s

Both versions were ran 3 times each, to get the avg of the time needed.

So v1 is (user+sys) 284s, the other - 2s; quite a diff, huh :) With this increase, one could go to SHA512, or even fancier - the perf penalty will be mitigated by the less calculations needed.

Negatives:

  • More disk access than the other versions - every file is accessed once for size stats (that's cheap, but still is disk IO), and every duplicate is opened twice (for the small first 1k bytes hash, and for the full contents hash)
  • Will consume more memory due to storing the hash tables runtime
share|improve this answer

@IanLee1521 has a nice solution here. It is very efficient because it checks the duplicate based on the file size first.

#! /usr/bin/env python

# Originally taken from:
# http://www.pythoncentral.io/finding-duplicate-files-with-python/
# Original Auther: Andres Torres

# Adapted to only compute the md5sum of files with the same size

import argparse
import os
import sys
import hashlib


def find_duplicates(folders):
    """
    Takes in an iterable of folders and prints & returns the duplicate files
    """
    dup_size = {}
    for i in folders:
        # Iterate the folders given
        if os.path.exists(i):
            # Find the duplicated files and append them to dup_size
            join_dicts(dup_size, find_duplicate_size(i))
        else:
            print('%s is not a valid path, please verify' % i)
            return {}

    print('Comparing files with the same size...')
    dups = {}
    for dup_list in dup_size.values():
        if len(dup_list) > 1:
            join_dicts(dups, find_duplicate_hash(dup_list))
    print_results(dups)
    return dups


def find_duplicate_size(parent_dir):
    # Dups in format {hash:[names]}
    dups = {}
    for dirName, subdirs, fileList in os.walk(parent_dir):
        print('Scanning %s...' % dirName)
        for filename in fileList:
            # Get the path to the file
            path = os.path.join(dirName, filename)
            # Check to make sure the path is valid.
            if not os.path.exists(path):
                continue
            # Calculate sizes
            file_size = os.path.getsize(path)
            # Add or append the file path
            if file_size in dups:
                dups[file_size].append(path)
            else:
                dups[file_size] = [path]
    return dups


def find_duplicate_hash(file_list):
    print('Comparing: ')
    for filename in file_list:
        print('    {}'.format(filename))
    dups = {}
    for path in file_list:
        file_hash = hashfile(path)
        if file_hash in dups:
            dups[file_hash].append(path)
        else:
            dups[file_hash] = [path]
    return dups


# Joins two dictionaries
def join_dicts(dict1, dict2):
    for key in dict2.keys():
        if key in dict1:
            dict1[key] = dict1[key] + dict2[key]
        else:
            dict1[key] = dict2[key]


def hashfile(path, blocksize=65536):
    afile = open(path, 'rb')
    hasher = hashlib.md5()
    buf = afile.read(blocksize)
    while len(buf) > 0:
        hasher.update(buf)
        buf = afile.read(blocksize)
    afile.close()
    return hasher.hexdigest()


def print_results(dict1):
    results = list(filter(lambda x: len(x) > 1, dict1.values()))
    if len(results) > 0:
        print('Duplicates Found:')
        print(
            'The following files are identical. The name could differ, but the'
            ' content is identical'
            )
        print('___________________')
        for result in results:
            for subresult in result:
                print('\t\t%s' % subresult)
            print('___________________')

    else:
        print('No duplicate files found.')


def main():
    parser = argparse.ArgumentParser(description='Find duplicate files')
    parser.add_argument(
        'folders', metavar='dir', type=str, nargs='+',
        help='A directory to parse for duplicates',
        )
    args = parser.parse_args()

    find_duplicates(args.folders)


if __name__ == '__main__':
    sys.exit(main())
share|improve this answer

protected by Community Feb 1 '13 at 17:59

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