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?
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:
The code:
#!/usr/bin/env python
# if running in py3, change the shebang, drop the next import for readability (it does no harm in py3)
from __future__ import print_function # py2 compatibility
from collections import defaultdict
import hashlib
import os
import sys
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 = defaultdict(list) # dict of size_in_bytes: [full_path_to_file1, full_path_to_file2, ]
hashes_on_1k = defaultdict(list) # dict of (hash1k, size_in_bytes): [full_path_to_file1, full_path_to_file2, ]
hashes_full = {} # dict of full_file_hash: full_path_to_file_string
for path in paths:
for dirpath, dirnames, filenames in os.walk(path):
# get all files that have the same size - they are the collision candidates
for filename in filenames:
full_path = os.path.join(dirpath, filename)
try:
# if the target is a symlink (soft one), this will
# dereference it - change the value to the actual target file
full_path = os.path.realpath(full_path)
file_size = os.path.getsize(full_path)
hashes_by_size[file_size].append(full_path)
except (OSError,):
# not accessible (permissions, etc) - pass on
continue
# For all files with the same file size, get their hash on the 1st 1024 bytes only
for size_in_bytes, files in hashes_by_size.items():
if len(files) < 2:
continue # this file size is unique, no need to spend CPU cycles on it
for filename in files:
try:
small_hash = get_hash(filename, first_chunk_only=True)
# the key is the hash on the first 1024 bytes plus the size - to
# avoid collisions on equal hashes in the first part of the file
# credits to @Futal for the optimization
hashes_on_1k[(small_hash, size_in_bytes)].append(filename)
except (OSError,):
# the file access might've changed till the exec point got here
continue
# For all files with the hash on the 1st 1024 bytes, get their hash on the full file - collisions will be duplicates
for __, files_list in hashes_on_1k.items():
if len(files_list) < 2:
continue # this hash of fist 1k file bytes is unique, no need to spend cpy cycles on it
for filename in files_list:
try:
full_hash = get_hash(filename, first_chunk_only=False)
duplicate = hashes_full.get(full_hash)
if duplicate:
print("Duplicate found: {} and {}".format(filename, duplicate))
else:
hashes_full[full_hash] = filename
except (OSError,):
# the file access might've changed till the exec point got here
continue
if __name__ == "__main__":
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 -
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: