43

Why is "slurping" a file not a good practice for normal text-file I/O, and when is it useful?

For example, why shouldn't I use these?

File.read('/path/to/text.txt').lines.each do |line|
  # do something with a line
end

or

File.readlines('/path/to/text.txt').each do |line|
  # do something with a line
end
7
  • 2
    I definitely would not consider use of read and readlines to be bad practice. Unless you're dealing with an application where you know the size of the input is unbounded, avoiding these simple, handy functions reeks of premature optimization.
    – Max
    Aug 7, 2014 at 19:11
  • 11
    It's not premature optimization to use defensive programming. If you had read my answer, you'd see in the last paragraph that they are useful, however people have to be aware of the dangers of blindly using them. When they cause problems, it's often difficult for the unwary to debug because it'll seem like a spurious error that mysteriously clears up. Aug 7, 2014 at 21:29
  • 3
    @akostadinov The question is about "normal text-file I/O". If you're running code in hundreds and thousands of concurrent requests or reading multiple gigabyte files, lots of things can break - not just read. IMO this question should really be "When is slurping a file not a good practice?", since there are definitely cases where read is appropriate.
    – Max
    Oct 21, 2014 at 19:07
  • 2
    @Max, you don't have to reach gigabytes of files. And for example with log files, sizes grow very fast. I see reading the full file being something done without thinking usually. IMO it should always be used after careful consideration. Anyway... I thnk we are on the same page. Oct 21, 2014 at 20:22
  • 3
    @max, it's not necessary to read multiple GB files to see an advantage to using line-by-line I/O. The benchmark clearly shows that at 1MB, foreach has already pulled ahead of using slurping. From that point on foreach steadily pulls away leaving read-type I/O way behind. Reading and processing a single line a million times is a lot less likely to break than reading a million lines and processing them all at once. Dec 4, 2014 at 4:35

3 Answers 3

91

Again and again we see questions asking about reading a text file to process it line-by-line, that use variations of read, or readlines, which pull the entire file into memory in one action.

The documentation for read says:

Opens the file, optionally seeks to the given offset, then returns length bytes (defaulting to the rest of the file). [...]

The documentation for readlines says:

Reads the entire file specified by name as individual lines, and returns those lines in an array. [...]

Pulling in a small file is no big deal, but there comes a point where memory has to be shuffled around as the incoming data's buffer grows, and that eats CPU time. In addition, if the data consumes too much space, the OS has to get involved just to keep the script running and starts spooling to disk, which will take a program to its knees. On a HTTPd (web-host) or something needing fast response it'll cripple the entire application.

Slurping is usually based on a misunderstanding of the speed of file I/O or thinking that it's better to read then split the buffer than it is to read it a single line at a time.

Here's some test code to demonstrate the problem caused by "slurping".

Save this as "test.sh":

echo Building test files...

yes "abcdefghijklmnopqrstuvwxyz 123456890" | head -c 1000       > kb.txt
yes "abcdefghijklmnopqrstuvwxyz 123456890" | head -c 1000000    > mb.txt
yes "abcdefghijklmnopqrstuvwxyz 123456890" | head -c 1000000000 > gb1.txt
cat gb1.txt gb1.txt > gb2.txt
cat gb1.txt gb2.txt > gb3.txt

echo Testing...

ruby -v

echo
for i in kb.txt mb.txt gb1.txt gb2.txt gb3.txt
do
  echo
  echo "Running: time ruby readlines.rb $i"
  time ruby readlines.rb $i
  echo '---------------------------------------'
  echo "Running: time ruby foreach.rb $i"
  time ruby foreach.rb $i
  echo
done

rm [km]b.txt gb[123].txt 

It creates five files of increasing sizes. 1K files are easily processed, and are very common. It used to be that 1MB files were considered big, but they're common now. 1GB is common in my environment, and files beyond 10GB are encountered periodically, so knowing what happens at 1GB and beyond is very important.

Save this as "readlines.rb". It doesn't do anything but read the entire file line-by-line internally, and append it to an array that is then returned, and seems like it'd be fast since it's all written in C:

lines = File.readlines(ARGV.shift).size
puts "#{ lines } lines read"

Save this as "foreach.rb":

lines = 0
File.foreach(ARGV.shift) { |l| lines += 1 }
puts "#{ lines } lines read"

Running sh ./test.sh on my laptop I get:

Building test files...
Testing...
ruby 2.1.2p95 (2014-05-08 revision 45877) [x86_64-darwin13.0]

Reading the 1K file:

Running: time ruby readlines.rb kb.txt
28 lines read

real    0m0.998s
user    0m0.386s
sys 0m0.594s
---------------------------------------
Running: time ruby foreach.rb kb.txt
28 lines read

real    0m1.019s
user    0m0.395s
sys 0m0.616s

Reading the 1MB file:

Running: time ruby readlines.rb mb.txt
27028 lines read

real    0m1.021s
user    0m0.398s
sys 0m0.611s
---------------------------------------
Running: time ruby foreach.rb mb.txt
27028 lines read

real    0m0.990s
user    0m0.391s
sys 0m0.591s

Reading the 1GB file:

Running: time ruby readlines.rb gb1.txt
27027028 lines read

real    0m19.407s
user    0m17.134s
sys 0m2.262s
---------------------------------------
Running: time ruby foreach.rb gb1.txt
27027028 lines read

real    0m10.378s
user    0m9.472s
sys 0m0.898s

Reading the 2GB file:

Running: time ruby readlines.rb gb2.txt
54054055 lines read

real    0m58.904s
user    0m54.718s
sys 0m4.029s
---------------------------------------
Running: time ruby foreach.rb gb2.txt
54054055 lines read

real    0m19.992s
user    0m18.765s
sys 0m1.194s

Reading the 3GB file:

Running: time ruby readlines.rb gb3.txt
81081082 lines read

real    2m7.260s
user    1m57.410s
sys 0m7.007s
---------------------------------------
Running: time ruby foreach.rb gb3.txt
81081082 lines read

real    0m33.116s
user    0m30.790s
sys 0m2.134s

Notice how readlines runs twice as slow each time the file size increases, and using foreach slows linearly. At 1MB, we can see there's something affecting the "slurping" I/O that doesn't affect reading line-by-line. And, because 1MB files are very common these days, it's easy to see they'll slow the processing of files over the lifetime of a program if we don't think ahead. A couple seconds here or there aren't much when they happen once, but if they happen multiple times a minute it adds up to a serious performance impact by the end of a year.

I ran into this problem years ago when processing large data files. The Perl code I was using would periodically stop as it reallocated memory while loading the file. Rewriting the code to not slurp the data file, and instead read and process it line-by-line, gave a huge speed improvement from over five minutes to run to less than one and taught me a big lesson.

"slurping" a file is sometimes useful, especially if you have to do something across line boundaries, however, it's worth spending some time thinking about alternate ways of reading a file if you have to do that. For instance, consider maintaining a small buffer built from the last "n" lines and scan it. That will avoid memory management issues caused by trying to read and hold the entire file. This is discussed in a Perl-related blog "Perl Slurp-Eaze" which covers the "whens" and "whys" to justify using full file-reads, and applies well to Ruby.

For other excellent reasons not to "slurp" your files, read "How to search file text for a pattern and replace it with a given value".

5
  • 3
    I see what you did here. It's a good idea and will help Ruby newbies. I recommend adding some suggestions as to what they should do. Aug 7, 2014 at 22:11
  • I'll be growing this answer over time, but in the meantime others can add additional answers. Aug 7, 2014 at 23:11
  • 1
    For 1mb, I can not see "something affecting the slurping..." the numbers are only about 3% apart. You need a better test setup to reliable measure this 3%. And if you care for these 3%, you should probably use C anyway.
    – Meier
    Aug 26, 2015 at 23:33
  • What about the file system cache? That ultimately might help foreach, making each read from the cache without the overhead of allocating memory for the whole file.
    – yeyo
    Jul 15, 2016 at 15:48
  • It might help foreach just as it will slurping, as long as the cache is bigger than the file. If the file is larger than the cache it'll force an additional read, which could affect slurping a little, but I don't think it'd affect it nearly as much as exceeding the available memory and making the system start paging. Jul 15, 2016 at 18:40
8

This is kind of old, but I'm a little surprised that no one makes a mention that slurping an input file makes the program practically useless for pipelines. In a pipeline, the input file might be small but slow. If your program is slurping that means it's not working with the data as it becomes available and rather makes you wait for however long it might take for the input to complete. How long? It could be anything, like hours or days, more or less, if I'm doing a grep or find in a big hierarchy. It could also be designed to not complete, like an infinite file. For example, journalctl -f will continue to output whatever events happen in the system without stopping; tshark will output whatever it sees going on in the network without stopping; ping will continue pinging without stopping. /dev/zero is infinite, /dev/urandom is infinite.

The only time I could see slurping as acceptable would maybe be in configuration files, since the program is probably not able to do anything anyway until it finishes reading that.

1
  • 1
    Yep, slurping in a pipeline is likely to really fool the unsuspecting, because it'll appear the program has hung, and pressing CTR+C will terminate it without results. Only if they test with a small file will they see output and big ones will either crash the code, and possibly cause processing delays as the machine allocates memory. The later is what taught me my lessons about it. Sep 20, 2019 at 6:07
3

Why is "slurping" a file not a good practice for normal text-file I/O

The Tin Man hits it right. I'd also like to add:

  • In many cases, reading the entire file into memory is not tractable (because either the file is too big, or the string manipulations have exponential O() space)

  • Often times, you cannot anticipate the file size (special case of above)

  • You should always try to be cognizant of memory usage, and reading all the file in at once (even in trivial situations) is not good practice if an alternative option exists (eg, line-by-line). I know from experience that VBS is horrible in this sense and one is forced into manipulating files through the command line.

This concept applies not just for files, but for any other process where your memory size grows quickly and you have to handle each iteration (or line) at a time. Generator functions help you out by handling the process, or line read, one by one so as to not work with all the data in memory.

As an aside/extra, Python is very smart in reading files in and its open() method is designed to read line-by-line by default. See "Improve Your Python: 'yield' and Generators Explained" which explains a good use case example for generator functions.

1
  • 1
    I like this "its open() method is designed to read line-by-line by default." It's a smarter way to go because that makes the default the safe path and people have to explicitly ask to slurp the file. If they have to think about the consequences, they'll do the wrong thing less often. Dec 11, 2014 at 22:43

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