I wanted to test the performance of writing to a file in a bash script vs a C++ program.

Here is the bash script:


while true; do
        echo "something" >> bash.txt

This added about 2-3 KB to the text file per second.

Here is the C++ code:

#include <iostream>
#include <fstream>

using namespace std;

int main() {
    ofstream myfile;

    while (true) {
        myfile << "Writing this to a file Writing this to a file \n";


This created a ~6 GB text file in less than 10 seconds.

What makes this C++ code so much faster, and/or this bash script so much slower?

  • 16
    Just guessing here but I'd say the main difference is that batch opens and closes the file each iteration while C++ doesn't. Try moving open() and close() inside the loop in C++ to have a fair performance comparison (you'll need to pass ios::app to open) – IlBeldus Jul 4 '17 at 18:34
  • 4
    Or, put the redirection on the loop in the shell script: while true; do ...; done >> bash.txt. – chepner Jul 4 '17 at 18:35
  • 12
    Confirmed using strace that my bash opens and closes the bash.txt file every time. – aschepler Jul 4 '17 at 18:40
  • 1
    @obl It is related to your question in that it is a comment on the overabundance of unnecessary code in it. Unless you get paid by lines of code, you could take it as useful information, knowledge that may help you write more concise code in the future. – juanchopanza Jul 4 '17 at 18:42
  • 3
    See how a stupid little program like this compares: #include <fstream> int main() { while (true) { std::ofstream myfile("cpp.txt", std::ios::app); myfile << "Writing this to a file Writing this to a file \n"; } } – user4581301 Jul 4 '17 at 18:51

There are several reasons to it.

First off, interpreted execution environments (like bash, perl alongside with non-JITed lua and python etc.) are generally much slower than even poorly written compiled programs (C, C++, etc.).

Secondly, note how fragmented your bash code is - it just writes a line to a file, then it writes one more, and so on. Your C++ program, on the other side, performs buffered write - even without your direct efforts to it. You might see how slower will it run if you substitute

myfile << "Writing this to a file Writing this to a file \n";


myfile << "Writing this to a file Writing this to a file" << endl;

for more information about how streams are implemented in C++, and why \n is different from endl, see any reference documentation on C++.

Thirdly, as comments prove, your bash script performs open/close of the target file for each line. This implies a significant performance overhead in itself - imagine myfile.open and myfile.close moved inside your loop body!

  • 3
    Flushing the performance down the drain is a great start. The next step is to open the file for append and close it on every loop. Should get even closer. – user4581301 Jul 4 '17 at 18:42
  • @user4581301 yeah, I though about it (see edit), but was not quite sure - not an expert in bash :) – iehrlich Jul 4 '17 at 18:43
  • 2
    IIRC, bash lines must be translated/"built" to native every time. This is not true of perl, which is compiled only once, or python, which is compiled to byte code. Bash won't build a line until it's about to run it, while perl buils everything at the beginning, etc. – code_dredd Jul 4 '17 at 19:05
  • Running it with 'endl' instead of '\n' did make it significantly slower but still faster than the bash script. Running the code posted by @user4581301, the performance was very similar to the performance of the bash script. – obl Jul 4 '17 at 19:45
  • 1
    "... interpreted execution environments (like ... python ..." - Is it though? CPython, the default Python implementation, compiles the Python source to bytecode, which is run in a VM (which some call the interpreter, and that makes things even more confusing). I'm not intimately familiar with Perl, but I wouldn't be suprised if it employed a similar construction. I think purely interpreted language implementations are quite rare nowadays. Though I'm pretty sure Unix shells still are. – marcelm Jul 4 '17 at 22:49

As others have already pointed out, this is because you are currently opening and closing the file with each line you write in your script (and shell scripts are interpreted while C++ is compiled). You might batch the writes instead and write once, for example

for i in {1..10000}; do
        echo $MSG
) >> $logfile

Which will write the message 10k times but only open the log once.

  • 1
    echo is a bash builtin – Basile Starynkevitch Jul 5 '17 at 3:37
  • @BasileStarynkevitch Fair enough. It's late here. And that was really tangential so I removed it. – Elliott Frisch Jul 5 '17 at 3:43

Compiled vs. Interpreted Languages

Bash is interpreted while C++ is compiled. Just that makes it a lot faster

  • 5
    Sometimes. And sometimes the interpreted language has nifty little instructions so tightly optimized that they blow expectations right out of the water. – user4581301 Jul 4 '17 at 18:38
  • 1
    @user4581301 Well, technically they are not interpreted at this point, but JIT/AOT-compiled ;) – iehrlich Jul 4 '17 at 18:44
  • 1
    No... Bash is interpreted, and yes they can be fast, but you still have to interpret it is always going to be somewhat slower. You could compile it, but that is not what we are talking about – Reece Ward Jul 4 '17 at 18:47
  • 1
    @iehrlich even without jitting you sometimes run across "Holy Smurf!". Old matlab is a good example. The script is slow, but the code backing the script has some serious pep in it's step. – user4581301 Jul 4 '17 at 18:48
  • 6
    Interpreted/JIT/compiled isn't especially relevant in this case, since the I/O is the bottleneck. CPU usage is going to be sitting below 1% for the entire duration of the program, so it won't really matter that the C++ version is faster during that 1%. iehrlich's answer is right; the problem is that the bash script opens the file anew every time it prints a line, while the C++ version keeps it open until it's done. – Ray Jul 4 '17 at 23:05

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