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I read C++ Streams vs. C-style IO? (amongst other pages) to try to help me decide which way to implement some file IO in a project I'm working on.

Background I'm fairly new to C++ and Windows programming, I've traditionally worked in C and command line applications. Apologies ahead of time for the n00b-ness of this question.

The problem I want to read one text file, process the contents and output to another (new) text file. I am working in a Win32 environment (and this won't change for the forseeable future) and am writing the application to be Unicode aware, through _T style macros. The "processing" could include inserting/appending/deleting the lines of text, which will be at most 128 characters.

The question I would prefer to write something that is going to be robust, so I/O error handling is a consideration. I think that I need to stay away from C style file I/O if for no other reason than to simplify the code and type checking -- ie approach this in a more OO POV. What are the advantages of using Win32 API functions over the C++ stream functions (if any)? Can you recommend a good primer for either approach? (My googling has left me with a little information overload)

Thanks muchly

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I should have mentioned that while the line length will be constrained (and small), the file length will be widely variable, but generally fairly large. –  Stephen Jun 2 '11 at 18:41
Can you give some estimate of what magnitude "fairly large" means? e.g. tens of megabytes, hundreds of megabytes, gigabytes, tens of gigabytes, ... tens of terabytes? –  Ben Voigt Jun 2 '11 at 21:15
@Ben Yes, "fairly large" is entirely ambiguous, sorry, 10s of Mb, but must be processed in a real time environment so yes, performance is a consideration. –  Stephen Jun 6 '11 at 12:24

4 Answers 4

up vote 2 down vote accepted

To take a broader look, direct use of Win32 is good if you need a tiny application with no additional dependencies.

For anything that C++ iostreams does better, you probably want to look at Boost::Spirit. Seems like it has all the type-safety of iostreams, with much better performance.

You really have two problems here: File I/O, and Text Processing. Win32 does the first exceptionally well, and provides no help with the second. Boost::Spirit does the second very well. C++ iostreams are marginal at both tasks, avoid them unless portability is the most important feature.

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@Ben I don't think you understand either Spirit or the C++ iostreams. –  nbt Jun 2 '11 at 21:52
@Neil: It's possible I'm confusing Spirit with one of the other Boost libraries, such as Qi. I do know that I've seen benchmarks of one of the Boost libraries (not lexical_cast!) getting a higher throughput on text parsing than e.g. strtod. –  Ben Voigt Jun 2 '11 at 21:55
And here's the reference in question. Seems I was correct to say Boost::Spirit, as Qi is a subset of that library. –  Ben Voigt Jun 2 '11 at 21:59
@Ben Eh? lexical_cast isn't part of either iostreams or Spirit, and it doesn't do parsing. You seem to be conflating converting with parsing. –  nbt Jun 2 '11 at 22:01
@Neil: I said it is part of Boost, am I wrong? And string s = "-1.45e67"; double d = lexical_cast<double>(s); is text parsing, isn't it? But my mention of lexical_cast was only to say that not all Boost-provided facilities have high performance. –  Ben Voigt Jun 2 '11 at 22:04

What are the advantages of using Win32 API functions over the C++ stream functions (if any)?

  1. Speed
  2. Ability to use overlapped I/O to handle multiple operations at once without threads (and the complexity of synchronization)
  3. Speed
  4. More specific error codes
  5. Speed
  6. Speed
  7. Low dependency footprint (compared to MSVC++ 7.x, 8.0, 9.0, 10.0 and probably most other vendors)
  8. Speed
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And the downside is 'no chance of moving the code to anything other than Windows'. It is not clear whether that matters to the OP. –  Jonathan Leffler Jun 2 '11 at 18:28
@Jonathan: Since he didn't ask about the downsides on the Win32 API, I'm hoping the portability problems are obvious to @Stephen and he's already determined its not a overriding factor. –  Ben Voigt Jun 2 '11 at 18:30
And I don't see how windows.h can possibly be described as "Low dependency footprint". –  nbt Jun 2 '11 at 18:32
@sean: Only in degree. If you use the C or C++ standard libraries, you have to deploy them somehow. @Neil: Code using the C or C++ standard library has an indirect dependency on everything windows.h related, in addition to a dependency on the C and C++ libraries themselves. Also, there's no need to redistribute anything found in windows.h, the corresponding DLLs are already on the system. Whereas the C and/or C++ libraries have to be included with the application. This can increase an installer by orders of magnitude. –  Ben Voigt Jun 2 '11 at 18:38
@Neil: No, your users are responsible for finding and installing the dependencies. That's (1) more of a burden and (2) completely unexpected by the majority of Windows users. –  Ben Voigt Jun 2 '11 at 18:42

Use C++ stream I/O. Writing to text files is hardly going to stress the I/O library, and you gain enormous benefits in clarity of code, type safety, and the fact that you hardly have to write anything to get the job done. As a side effect, your code will probably be more portable and more understandable, so if you have to ask about it here, you will get more good answers.

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"Hardly going to stress the I/O library"... sometimes true, sometimes not, really depends on how much I/O there is. For example, I have to daily use an application which uses C++ iostreams for text-mode output, it takes > 4 hours to write 2GB of data out. My Win32-based code can read and parse that data file in about 2 minutes. –  Ben Voigt Jun 2 '11 at 18:41
@Ben Has it occurred to you that the person who wrote that application did not know what he was doing? –  nbt Jun 2 '11 at 18:46
@BenVoigt : Sounds like the std::endl fiasco in effect. ;-] –  ildjarn Jun 2 '11 at 18:59
4 hours to write 2 GB == OUCH. I would have re-written the damn thing in Ruby my first week there. –  John Dibling Jun 2 '11 at 19:05
@Neil: It's occurred to me that the developer benefits from advertising export capability, while making it painful to export the data and use another analysis package. I guess I should use ProcMon and check whether there are a lot of tiny writes (which endl flushing would cause). But really, the overhead of iostreams explains the issue, my program for reading the data was very slow with iostreams, then I got a 30x speedup by using Win32 instead. –  Ben Voigt Jun 2 '11 at 19:06

Just to provide a rough benchmark - this code, which must be about the most inefficient possible:

#include <iostream>
using namespace std;

unsigned int MB = 1024 * 1024;
unsigned int GB = MB * 1024;

int main() {
    char c = 'x';
    for ( unsigned int i = 0; i < GB; i++ ) {
        cout << c;

Took about 4 minutes to write a gig of data to a text file when invoked as:

myprog > file.txt

on my hardly state-of-the-art laptop.

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I assume this is with mingw? If you have time, would you submit an answer to my question comparing number->string conversion performance of iostream, sprintf, and tuned code? I'd love to see how mingw fares. I'd suggest that the most important cases are the iostreams and sprintf implementations in the question and the accepted answer. –  Ben Voigt Jun 4 '11 at 1:51
BTW the disk I/O time to write a gigabyte is no more than 12 seconds (assuming your disk fragmentation level isn't off the charts)... so in this case iostreams are slowing everything down by a factor of 20... and there's not even any formatting going on yet. –  Ben Voigt Jun 6 '11 at 22:24

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