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I show you C# and C++ code that execute the same job: to read the same text file delimited by “|” and save with “#” delimited text.

When I execute C++ program, the time elapsed is 169 seconds.

UPDATE 1: Thanks to Seth (compilation with: cl /EHsc /Ox /Ob2 /Oi) and GWW for changing the positions of string s outside the loops, the elapsed time was reduced to 53 seconds. I updated the code also.

UPDATE 2: Do you have any other suggestion to enhace the C++ code?

When I execute the C# program, the elapsed time is 34 seconds!

The question is, how can I enhance the speed of C++ comparing with the C# one?

C++ Program:

int main ()
    Timer t;
    cout << t.ShowStart() << endl;

    ifstream input("in.txt");
    ofstream output("out.txt", ios::out);
    char const row_delim = '\n';
    char const field_delim = '|';
    string s1, s2;

    while (input)
        if (!getline( input, s1, row_delim ))
        istringstream iss(s1);
        while (iss)
            if (!getline(iss, s2, field_delim ))
            output << s2 << "#";
        output << "\n";

    cout << t.ShowEnd() << endl;
    cout << "Executed in: " << t.ElapsedSeconds() << " seconds." << endl;
    return 0;

C# program:

    static void Main(string[] args)
        long i;
        Stopwatch sw = new Stopwatch();
        StreamReader sr = new StreamReader("in.txt", Encoding.Default);
        StreamWriter wr = new StreamWriter("out.txt", false, Encoding.Default);
        object[] cols = new object[0];  // allocates more elements automatically when filling
        string line;
        while (!string.Equals(line = sr.ReadLine(), null)) // Fastest way
        cols = line.Split('|');  // Faster than using a List<>
        foreach (object col in cols)
            wr.Write(col + "#");
        Console.WriteLine("Conteo tomó {0} secs", sw.Elapsed);


Well, I must say I am very happy for the help received and because the answer to my question has been satisfied.

I changed the text of the question a little to be more specific, and I tested the solutions that kindly raised Molbdlino and Bo Persson.

Keeping Seth indications for the compile command (i.e. cl /EHsc /Ox /Ob2 /Oi pgm.cpp):

Bo Persson's solution took 18 seconds on average to complete the execution, really a good one taking in account that the code is near to what I like).

Molbdlino solution took 6 seconds on average, really amazing!! (thanks to Constantine also).

Never too late to learn, and I learned valuable things with my question.

My best regards.

share|improve this question
Obligatory, regardless of code: did you compare with all optimizations enabled? –  GManNickG Aug 18 '11 at 3:40
One easy optimization is to put your string s; declaration outside of the loop to prevent constant new / delete calls. Furthermore, I would also rename the second nested string s; to string s2; or something like that and also move its definition out of the loops. –  GWW Aug 18 '11 at 3:42
char const row_delim = '\n\r' is that even legal, having a char hold two chars? –  Seth Carnegie Aug 18 '11 at 3:44
Try adding /Ox /Ob2 /Oi to your command line –  Seth Carnegie Aug 18 '11 at 4:01
@Tristan: There's no point in measuring speed if you don't optimize for speed. –  GManNickG Aug 18 '11 at 4:02

5 Answers 5

up vote 7 down vote accepted

As Constantine suggests, read large chunks at a time using read.

I cut the time from ~25s to ~3s on a 129M file with 5M "entries" (26 bytes each) in 100,000 lines.

#include <iostream>
#include <fstream>
#include <sstream>
#include <algorithm>

using namespace std;

int main ()
  ifstream input("in.txt");
  ofstream output("out.txt", ios::out);

  const size_t size = 512 * 1024;
  char buffer[size];

  while (input) {
    input.read(buffer, size);
    size_t readBytes = input.gcount();
    replace(buffer, buffer+readBytes, '|', '#');
    output.write(buffer, readBytes);

  return 0;
share|improve this answer

How about this for the central loop

while (getline( input, s1, row_delim ))
    for (string::iterator c = s1.begin(); c != s1.end(); ++c)
        if (*c == field_delim)
            *c = '#';

    output << s1 << '\n';
share|improve this answer
Your inner loop can be changed to std::replace(s1.begin(), s1.end(), field_delim, '#'); –  Blastfurnace Aug 18 '11 at 7:47
Yeah, that would make it even shorter, but probably not affect the performance. –  Bo Persson Aug 18 '11 at 8:20
Yes, it just implements the same loop in a template. I think it's worth it just to make the code clearer and more concise. –  Blastfurnace Aug 18 '11 at 8:33

It seems to me that Your slow part is within getline. I don't have precise documentation which would support my idea, but it's how it feels for me. You should try using read instead. Because getline has the delimiter, so it need to check every symbol whether it has found the delimiter symbol, so that looks like multiple in operations, so Your program accesses a symbol in a file, then write it to the memory of your program, in other words, the time consumed on disk head movement. But if You use read function, You will copy the block of symbols and then work with them within program's memory, that may reduce time consuming.

PS again, I don't have documentation about getline and how it works, but I'm sure about read, hope it is helpful.

share|improve this answer
Constantine, It's not your problem, but I'm frustrated to know that I have to work hard to improve the speed of my C++ program, approaching more to C; while I feel my C# program is laughing at the situation .. –  Tristan Aug 18 '11 at 4:12
Tristan, you need some sleep if you feel your programs are laughing. And don't blame C++ for yourself being an un-knowledgeable C++ programmer. You didn't even compile with optimisations; that speaks volumes. –  Seth Carnegie Aug 18 '11 at 4:22
I'm not talking about fread - I'm talking about fstream method read... –  Constantine Samoilenko Aug 18 '11 at 4:50
Seth, please do not get me wrong and I apologies to Constantine as well, the thing is that to get a C++ faster than C# I've always had to work hard on C++ to achieve reach and sometimes exceed the performance of C# programs, at least using the Windows operating system. I appreciate the tuning options you kindly indicated which lowered the times, but still does not exceed the speed of C# in my case and that intrigues me greatly. –  Tristan Aug 18 '11 at 4:58
Constantine, I am in the dilemma that using read, I'll lose the functionality offered by getline for the separators, and it is supposed that getline should be optimized to process large volumes of information. Don't believe so? –  Tristan Aug 18 '11 at 5:11

If you know the max line length you can your stdio+fgets and null terminated strings, it will rock.

For c# if it will fit in memory (probably not if it takes 34 sec) I'd be curious to see how IO.File.WriteAllText("out.txt",IO.File.ReadAllText("in.txt").Replace("|","#")); performs!

share|improve this answer
Although I am more interested to enhance my C++program, let me try ... –  Tristan Aug 18 '11 at 4:15
FastAI, I tested with the C# solution you kindly indicated and I get an OutOfMemoryException. The in.txt files has 6.5 million records. –  Tristan Aug 18 '11 at 4:35
DARN! I figured that would be the case. Few things are as fun as reducing a whole method to a one liner, but I guess if the one liner sucks like mine did, that kind of takes the fun away, doesn't it ;-) –  FastAl Aug 18 '11 at 14:29
Regarding C++ vs. C and null strings... It has been forever since I've tried it but can't you just use the C lib in the link right in a C++ program? I remember using null-term lib functions in MS Visual C++ 1.0... can you tell I'm rusty? So I might be wrong about that. –  FastAl Aug 18 '11 at 14:35
...Unless you just want to tune istringstream? It might just be that its implementation is lacking. In both programs, you're doing more parsing than you need to, unless you need to skip delimiters in quotes or double/escaped delimiters, but then, you'll probably need to be doing more parsing, unless isstringstrem does that for you: in which case it's not a fair test, as .net's .Split method won't do that for you. If you don't need that, I'd just implement a replace in both languages. BTW I didn't see the point of the 3 downvotes. Kind of a non-reusable question but not against the faq. –  FastAl Aug 18 '11 at 14:37

I'd be really surprised if this beat @molbdnilo's version, but it's probably the second fastest, and (I would posit) the simplest and cleanest:

#include <fstream>
#include <string>
#include <sstream>
#include <algorithm>

int main() {
    std::ifstream in("in.txt");
    std::ostringstream buffer;
    buffer << in.rdbuf();
    std::string s(buffer.str());
    std::replace(s.begin(), s.end(), '|', '#');
    std::ofstream out("out.txt");
    out << s;
    return 0;

Based on past experience with this method, I'd expect it to be no worse than half the speed of what @molbdnilo posted -- which should still be around triple the speed of your C# version, and over ten times as fast as your original version in C++. [Edit: I just wrote a file generator, and on a file a little over 100 megabytes, it's even closer than I expected -- I'm getting 4.4 seconds, versus 3.5 for @molbdnilo's code.] The combination of reasonable speed with really short, simple code is often quite a decent trade-off. Of course, that's all predicated on your having enough physical RAM to hold the entire file content in memory, but that's generally a fairly safe assumption these days.

share|improve this answer
Jerry, I tested the program and the time elapsed is 29 on average. Regards. –  Tristan Aug 18 '11 at 17:52
@Tristan: did you compile with optimization turned off again? –  Jerry Coffin Aug 18 '11 at 18:13
Jerry, I restarted my machine, recompiled again with cl /EHsc /Ox /Ob2 /Oi, and executed the program 5 times, the results in seconds were: 15, 39, 34, 36 and 39. –  Tristan Aug 18 '11 at 19:32
Jerry, by the way, I am processing more than 500MB (6.5 millions records). –  Tristan Aug 18 '11 at 20:09
@Tristan: The problem I see isn't much with the overall time as with the variation -- while some variation is inevitable, 2.5:1 (or so) seems pretty excessive. The code can clearly do the job in 15 seconds (and maybe less), so the question is whether your timing means much when the rest of the system is routinely providing the data so much more slowly than the code can do its job. –  Jerry Coffin Aug 18 '11 at 21:02

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