176

I have a file f1:

line1
line2
line3
line4
..
..

I want to delete all the lines which are in another file f2:

line2
line8
..
..

I tried something with cat and sed, which wasn't even close to what I intended. How can I do this?

2

11 Answers 11

225

grep -v -x -f f2 f1 should do the trick.

Explanation:

  • -v to select non-matching lines
  • -x to match whole lines only
  • -f f2 to get patterns from f2

One can instead use grep -F or fgrep to match fixed strings from f2 rather than patterns (in case you want remove the lines in a "what you see if what you get" manner rather than treating the lines in f2 as regex patterns).

14
  • 29
    This has O(n²) complexity and will start to take hours to complete once the files contain more than a few K lines. Jan 24, 2011 at 10:59
  • 18
    Figuring out which SO suggested algorythms have O(n^2) complexity only has O(n) complexity, but can still take hours to compete.
    – Dave
    Jul 18, 2012 at 13:45
  • 2
    I just tried this on 2 files of ~2k lines each, and it got killed by the OS (granted, this is a not-so-powerful VM, but still). Feb 18, 2014 at 1:45
  • 2
    I love the elegance of this; I prefer the speed of Jona Christopher Sahnwal's answer.
    – Alex Hall
    Nov 8, 2015 at 21:15
  • 1
    @arnaud576875: Are you sure? It depends on the implementation of grep. If it preprocesses f2 properly before it starts searching the search will only take O(n) time. Aug 9, 2017 at 16:27
83

Try comm instead (assuming f1 and f2 are "already sorted")

comm -2 -3 f1 f2
6
  • 5
    I'm not sure comm is the solution has the question does not indicates that the lines in f1 are sorted which is a prerequisite to use comm
    – gabuzo
    Jan 24, 2011 at 9:54
  • 1
    This worked for me, as my files were sorted and had 250,000+ lines in one of them, only 28,000 in the other. Thanks!
    – Winter
    May 26, 2014 at 22:22
  • 3
    When this works (input files are sorted), this is extremely fast! Sep 4, 2015 at 22:09
  • As in arnaud576875's solution, for me using cygwin, this eliminated duplicate lines in the second file which may want to be kept.
    – Alex Hall
    Nov 8, 2015 at 21:04
  • 17
    You can use process substitution to sort the files first, of course: comm -2 -3 <(sort f1) <(sort f2)
    – davemyron
    Mar 25, 2016 at 16:01
19

For exclude files that aren't too huge, you can use AWK's associative arrays.

awk 'NR == FNR { list[tolower($0)]=1; next } { if (! list[tolower($0)]) print }' exclude-these.txt from-this.txt 

The output will be in the same order as the "from-this.txt" file. The tolower() function makes it case-insensitive, if you need that.

The algorithmic complexity will probably be O(n) (exclude-these.txt size) + O(n) (from-this.txt size)

6
  • Why do you say files that aren't too huge? The fear here is (I assume) awk running the system out of system memory to create the hash, or is there some other limitation?
    – rogerdpack
    Oct 16, 2015 at 16:58
  • for followers, there are even other more aggressive option to "sanitize" the lines (since the comparison has to be exact to use the associative array), ex unix.stackexchange.com/a/145132/8337
    – rogerdpack
    Oct 16, 2015 at 17:36
  • @rogerdpack: A large exclude file will require a large hash array (and a long processing time). A large "from-this.txt" will only require a long processing time. Oct 16, 2015 at 17:51
  • 1
    This fails (i.e. doesn't produce any output) if exclude-these.txt is empty. @jona-christopher-sahnwaldt 's answer below works in this case. You can also specify multiple files e.g. awk '{if (f==1) { r[$0] } else if (! ($0 in r)) { print $0 } } ' f=1 done.out failed.out f=2 all-files.out Jun 24, 2017 at 9:55
  • 1
    @Digger: Here Jun 28, 2022 at 14:03
16

Similar to Dennis Williamson's answer (mostly syntactic changes, e.g. setting the file number explicitly instead of the NR == FNR trick):

awk '{if (f==1) { r[$0] } else if (! ($0 in r)) { print $0 } } ' f=1 exclude-these.txt f=2 from-this.txt

Accessing r[$0] creates the entry for that line, no need to set a value.

Assuming awk uses a hash table with constant lookup and (on average) constant update time, the time complexity of this will be O(n + m), where n and m are the lengths of the files. In my case, n was ~25 million and m ~14000. The awk solution was much faster than sort, and I also preferred keeping the original order.

6
  • How does this differ from the Dennis Williamson answer? Is the only difference that it doesn't do an assignment into the hash, so slightly faster than this? Algorithmic complexity is the same as his?
    – rogerdpack
    Oct 16, 2015 at 16:48
  • The difference is mostly syntactic. I find the variable f clearer than NR == FNR, but that's a matter of taste. Assignment into the hash should be so fast that there's no measurable speed difference between the two versions. I think I was wrong about complexity - if lookup is constant, update should be constant as well (on average). I don't know why I thought update would be logarithmic. I'll edit my answer. Oct 17, 2015 at 11:05
  • 1
    This is my preferred solution. It works with multiple files and also empty exclude files e.g. awk '{if (f==1) { r[$0] } else if (! ($0 in r)) { print $0 } } ' f=1 empty.file done.out failed.out f=2 all-files.out. Whereas the other awk solution fails with empty exclude file and can only take one. Jun 30, 2017 at 21:09
  • 1
    I found that the memory usage needed is roughly 3x of the exclude-these.txt file. For example, my exclude file is 6 GB (in 90M lines), and awk seems to need 19 GB resident memory for the associative array.
    – nh2
    Aug 8, 2022 at 18:03
  • 1
    Regarding throughput: After the associative array is built, awk outputs lines at 50 MB/s on an AMD Ryzen 7 3700X backed by a Samsung MZQL2960HCJR NVMe SSD -- not great but not bad.
    – nh2
    Aug 8, 2022 at 18:09
5

if you have Ruby (1.9+)

#!/usr/bin/env ruby 
b=File.read("file2").split
open("file1").each do |x|
  x.chomp!
  puts x if !b.include?(x)
end

Which has O(N^2) complexity. If you want to care about performance, here's another version

b=File.read("file2").split
a=File.read("file1").split
(a-b).each {|x| puts x}

which uses a hash to effect the subtraction, so is complexity O(n) (size of a) + O(n) (size of b)

here's a little benchmark, courtesy of user576875, but with 100K lines, of the above:

$ for i in $(seq 1 100000); do echo "$i"; done|sort --random-sort > file1
$ for i in $(seq 1 2 100000); do echo "$i"; done|sort --random-sort > file2
$ time ruby test.rb > ruby.test

real    0m0.639s
user    0m0.554s
sys     0m0.021s

$time sort file1 file2|uniq -u  > sort.test

real    0m2.311s
user    0m1.959s
sys     0m0.040s

$ diff <(sort -n ruby.test) <(sort -n sort.test)
$

diff was used to show there are no differences between the 2 files generated.

4
  • 1
    This has O(n²) complexity and will start to take hours to complete once the files contain more than a few K lines. Jan 24, 2011 at 11:00
  • i don't really care at this juncture, because he did not mention any big files.
    – kurumi
    Jan 24, 2011 at 11:18
  • 3
    There's no need to be so defensive, it's not as if @user576875 downvoted your answer or anything. :-) Jan 24, 2011 at 11:33
  • very nice second version, ruby wins :) Jan 24, 2011 at 12:27
4

Some timing comparisons between various other answers:

$ for n in {1..10000}; do echo $RANDOM; done > f1
$ for n in {1..10000}; do echo $RANDOM; done > f2
$ time comm -23 <(sort f1) <(sort f2) > /dev/null

real    0m0.019s
user    0m0.023s
sys     0m0.012s
$ time ruby -e 'puts File.readlines("f1") - File.readlines("f2")' > /dev/null

real    0m0.026s
user    0m0.018s
sys     0m0.007s
$ time grep -xvf f2 f1 > /dev/null

real    0m43.197s
user    0m43.155s
sys     0m0.040s

sort f1 f2 | uniq -u isn't even a symmetrical difference, because it removes lines that appear multiple times in either file.

comm can also be used with stdin and here strings:

echo $'a\nb' | comm -23 <(sort) <(sort <<< $'c\nb') # a
3

Seems to be a job suitable for the SQLite shell:

create table file1(line text);
create index if1 on file1(line ASC);
create table file2(line text);
create index if2 on file2(line ASC);
-- comment: if you have | in your files then specify “ .separator ××any_improbable_string×× ”
.import 'file1.txt' file1
.import 'file2.txt' file2
.output result.txt
select * from file2 where line not in (select line from file1);
.q
1
  • Awesome! Took like 1 sek or so for my 70k vs 10k file! Thanks!!!
    – Georg
    May 21, 2021 at 9:43
1

Did you try this with sed?

sed 's#^#sed -i '"'"'s%#g' f2 > f2.sh

sed -i 's#$#%%g'"'"' f1#g' f2.sh

sed -i '1i#!/bin/bash' f2.sh

sh f2.sh
0
0

Not a 'programming' answer but here's a quick and dirty solution: just go to http://www.listdiff.com/compare-2-lists-difference-tool.

Obviously won't work for huge files but it did the trick for me. A few notes:

  • I'm not affiliated with the website in any way (if you still don't believe me, then you can just search for a different tool online; I used the search term "set difference list online")
  • The linked website seems to make network calls on every list comparison, so don't feed it any sensitive data
0
$ cat values.txt
apple
banana
car
taxi

$ cat source.txt
fruits
mango
king
queen
number
23
43
sentence is long
so what
...
...

I made a small shell scrip to "weed" out the values in source file which are present in values.txt file.

$cat weed_out.sh
from=$1
cp -p $from $from.final
for x in `cat values.txt`;
do
 grep -v $x $from.final > $from.final.tmp
 mv $from.final.tmp $from.final
done

executing...

$ ./weed_out source.txt

and you get a nicely cleaned up file....

2
-1

A Python way of filtering one list using another list.

Load files:

>>> f1 = open('f1').readlines()
>>> f2 = open('f2.txt').readlines()

Remove '\n' string at the end of each line:

>>> f1 = [i.replace('\n', '') for i in f1]
>>> f2 = [i.replace('\n', '') for i in f2]

Print only the f1 lines that are also in the f2 file:

>>> [a for a in f1 if all(b not in a for b in f2)]
1
  • This is not correct because it will match substrings. 'b not in a' says: if substring b is not contained in the whole string a. Mar 1 at 8:33

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