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I allocated a large chunk of continuous bytes in the RAM using a Vector of type unsigned short.

vector<unsigned short> testDump(204800000);

for(int k = 0; k<204800000; k++)
    testDump[k] = 9; \\this is different in my real program

Now I want to save this Vector into my Hard Disk. My question is How and what's the fastest way to do that? The size of the data is fairly large (~1/2 GB). I tried the following:

ofstream outfile("allMyNumbers.txt", ios::out | ios::binary);
outfile.write(&testDump[0], testDump.size());

But I'm getting the following error:

cannot convert parameter 1 from 'unsigned short *' to 'const char *'

Any thoughts about what's the fastest way to accomplish my task, which is to save the vector to a file using the fastest approach.

*The platform is Windows 7

share|improve this question
    
This surely must depend on the platform you're targeting. –  John Dibling Nov 28 '11 at 17:55
    
Memory mapped files may fit here, depending on the platform. –  OSH Nov 28 '11 at 17:58
    
My platform is Windows 7. Edited –  Roronoa Zoro Nov 28 '11 at 18:03
2  
The size of your data isn't ~1/2 GB, it's closer to 3.81 GB. –  Blastfurnace Nov 28 '11 at 18:08
    
Oh sorry. I had an extra 0. Edited. Thanks –  Roronoa Zoro Nov 28 '11 at 18:11

3 Answers 3

You could just cast the pointer.

outfile.write(reinterpret_cast<char*>(&testDump[0]), testDump.size() * sizeof(unsigned short));

Be aware that the resulting file is formatted in a way that's specific to your particular platform/implementation. So you can't necessarily read it back in the obvious way on an incompatible machine.

On Windows, that will give you a 400MB-ish file, with each of the 204800000 pairs of bytes representing a little-endian unsigned short.

This should be reasonably fast. I find it difficult to believe that your task really is to save the data "using the fastest approach". How would anyone know that your code really is optimal, that there doesn't exist other code that would do it one nanosecond faster? And what would be the point of going to any extra effort to shave off a nanosecond? And so on.

Certainly it might be faster to use a quick streaming compression algorithm to reduce the disk space required, since the operation is likely to be bound by disk I/O. But the code would be much more complex, and whether it helps or not depends how compressible the data is.

share|improve this answer
    
I think the OP has only about 400MB of data. –  Kerrek SB Nov 28 '11 at 18:29
    
@Kerrek: you're right, the question has been edited to that effect. I believed the number in the example code, instead of the text. –  Steve Jessop Nov 28 '11 at 18:30
    
@SteveJessop: Your method is super fast (less than one second). However, I'm getting weird symbols when I open the output file. Do you have any advice? I would also like to add separators between data points, is there an easy way to do that? –  Roronoa Zoro Nov 28 '11 at 22:16
    
@Roronoa: open the output file in what? A text editor? Then of course it has weird symbols in, since my code doesn't write the values as text. I think you need to ask another question, specifying what this file is actually for, and asking what format you should therefore save it in. –  Steve Jessop Nov 29 '11 at 10:38
    
@SteveJessop: Sorry about the confusion/vagueness. The values that I'm trying to store to my hard disk are pixel values (from 0 to 255). I want to later on convert them to images using Matlab. I saved the file as .txt and tried to open it in a text editor. –  Roronoa Zoro Nov 29 '11 at 20:42

One platform-independent technique would be to use an ostream_iterator for the type your vector-class holds. Since the type your vector contains is already overloaded for operator<< for an ostream class-type, you shouldn't have any issues instantiating the template for the ostream_iterator class for your vector-type. You would then combined the ostream_iterator with the copy algorithm from the STL to iterate through your vector, and serialize the raw bytes to the file. Using operator<< will use up a lot more data than using ofstream::write, which writes the raw binary data to disk, but has the advantage of serializing the data, making it independently readable on any platform.

So for instance:

vector<unsigned short> testDump(2048000000);
//...fill in your vector

ofstream outfile("allMyNumbers.txt", ios::out | ios::binary);

//tab-delinate the data
ostream_iterator<unsigned short> o_iter(outfile, "\t");
copy(testDump.begin(), testDump.end(), o_iter);
share|improve this answer
2  
Maybe a separator between the values is in order. Granted, the questioner didn't specify that it be possible to read the data back in future, but I think that can be assumed. –  Steve Jessop Nov 28 '11 at 18:06
    
Definitely a good idea ... although for a binary file, it would have to be some type of "magic" number rather than simply a char-delimiter, unless that character was not going to be part of the actual output itself to begin with. Typically a binary file would have a header with pointers to the raw data portion and specifications on the size of each readable section of data in order to avoid delimiter ambiguity. –  Jason Nov 28 '11 at 18:12
    
Thanks for the suggestion. How would I do that if I may ask (it doesn't need to stay in binary, I can use dec). By the way, it's taking forever to finish. It still hasn't finished (3 mins so far) –  Roronoa Zoro Nov 28 '11 at 18:18
    
@Jason: in your code, the numbers are all written to the stream as base-10 ASCII. The fact that the file is opened in binary mode is nothing to do with it. So any character other than the digits 0-9 would serve as a separator. If the values were saved in binary format, then it could be arranged that no separator is required, the values can be written as fixed width. –  Steve Jessop Nov 28 '11 at 18:19
1  
@RoronoaZoro : Per Steve's comments, since you're actually writing out decimal numbers in ASCII rather than the raw two-byte binary data stored in your vector, you're writing a lot more than 400MB if most of you numbers are larger than two decimal digits in length. Secondly, you can add any ASCII delimiter by simply adding a second argument to the constructor of the ostream_iterator ... and just make the delimiter any non-numerical character. The downside of this approach is that you get data-bloat ... the upside is the serialization process is platform independent. –  Jason Nov 28 '11 at 18:37

A cross platform way of serializing this would be to just fixate on little endian representation for short and dump all the shorts. This would avoid the ASCII data-bloat in Jason's solution and at the same time be cross platform.

So, I would just do

ofstream outfile("allMyNumbers.data", ios::out | ios::binary);
for(int k = 0; k < testDump.size(); k++)
{
    unsigned short leData = htole16(testDump[k]);    
    outfile.write(&leData, sizeof(leData));
}

The implementation of htole16 (host to little endian for 16 bit integers) is the following:

For x86, x64:

unsigned short htole16(unsigned short x)
{
    return x;
}

For big endian machines such as Sparc / PowerPC (though none of this would run Windows 7)

unsigned short htole16(unsigned short x)
{
    return _byteswap_ushort(x);
}
share|improve this answer
    
This is only "cross-platform" because you've pre-defined how the binary data will be formatted ... if the reader has no idea what the agreed-upon formatting of the data is, then it's not "cross-platform". –  Jason Nov 28 '11 at 20:06
    
The reader (program) would also need to know that the data is in ASCII tab delimited notation before it attempts to read it. Besides, a similar technique using big endian formatting is used in networking protocols to achieve cross platform data representation. The byte order is called "network byte order" and the C functions commonly used are htons() and ntohs(). The above is a variant of this (popular) technique. –  ritesh Nov 28 '11 at 20:12
    
I realize you are using a variation of a networking technique where network-byte-order is standardized on a big-endian representation for multi-byte data blocks. I'll give you a +1 then since otherwise we'll just be talking in circles for whose standard is more "standardized" than the other's :-) –  Jason Nov 28 '11 at 20:18
    
@Jason: if you want a "standard" representation, then JSON might not be a bad idea. It's a small tweak to your code to output a JSON array of numbers, and it's only 2 bytes bigger. –  Steve Jessop Nov 29 '11 at 10:49
    
I did some work sometime back where I had to store a large number of doubles and integers in a file and process them numerically in different ways. I saw that keeping them represented in ASCII incurred a huge computational overhead in printf / scanf routines. Later I just "standardized" on a binary format and had tools to print them in human form if I needed that. That made my processing tools much faster because of lack of repeated binary <-> ASCII conversions. The format really depends on usage characteristics IMHO. –  ritesh Nov 30 '11 at 23:31

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