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I have some code that I parse and extract some matrices from. Theses matrices are associated with certain tags.

What I would like to do is store these matrices with their associated tags for future access. So basically, I want to create a file/structure/array/something that gets updated, but that I can also call matrix operations from if I need to in the same run. Furthermore, the next time I run the program I should be able to call the arrays and tags that I've recoded so far. In the end, I want a database of matrices and tags.

Can anyone point me in the right direction to get started?

Some pseudocode would be much appreciated.

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What language are you working in? –  AGS Aug 14 '12 at 1:04
C sorry should have mentioned that –  user1571767 Aug 15 '12 at 4:39
@user1571767, put the languages you're using as a tag... it's what guides users and Googlers to the question. –  Ben Aug 20 '12 at 15:35
could you post some code of yours that you are parsing? –  Dirk Aug 20 '12 at 15:43

2 Answers 2

up vote 0 down vote accepted

The type of structure that you now are storing your matrices in (in memory) is relevant.

For example you could store a bidimensional matrix using a structure such as,

struct {
    size_t w;
    size_t h;
    double **values;
    size_t n;
    char **tags;

and then write it to disk like,

fwrite(&(m->w), sizeof(size_t), 1, fp);
fwrite(&(m->h), sizeof(size_t), 1, fp);
for (y = 0; y < h; y++)
    fwrite(m->values[y], sizeof(double), m->w, fp);
fwrite(&(m->n), sizeof(size_t), 1, fp);
for (y = 0; y < m->n; y++)
    size_t len = strlen(m->tags[y]);
    fwrite(&len, sizeof(size_t), 1, fp);
    fwrite(m->tags[y], sizeof(char), len, fp);

and re-read by replacing fwrites with freads:

if (1 != fread(&(m->w), sizeof(size_t), 1, fp))
    // ERROR
if (1 != fread(&(m->h), sizeof(size_t), 1, fp))
    // ERROR
if (NULL == (m->values = malloc(sizeof(double *) * m->h)))
for (y = 0; y < h; y++)
    if (NULL == (m->values[y] = malloc(sizeof(double) * m->w)))
        // OOM
    if (m->w != fread(m->values[y], sizeof(double), m->w, fp))
        // File truncated error
if (1 != fread(&(m->n), sizeof(size_t), 1, fp))
    // Truncated
for (y = 0; y < m->n; y++)
    size_t len;
    fread(&len, sizeof(size_t), 1, fp);
    if (NULL == (m->tags[y] = malloc(len + 1)))
        // OOM
    if (len != fread(m->tags[y], sizeof(char), len, fp))
        // Truncated
    m->tags[y][len] = 0x0; // C strings must be zero-terminated

...but this covers only bidimensional matrices and requires each matrix to be stored into a file of its own.

Of course you might complicate the system even further and store a single "database" with a header, a number of matrices inside and so on, then store each matrix one after the other.

Probably, in the long run, you'd be better off checking whether the FITS standard Claudix suggested allows serializing matrices into strings. If they do, you will be able to store those strings into a real database (PostgreSQL, MySQL, or even SQLite3 so you don't have to have an independent server). This will also allow you not to rewrite the whole whopper every time a tag gets changed, and have much more maintainable code, at the expense of writing two FITS-wrap functions that convert from a memory object to a SQLited field value and vice versa.

Direct use of FITS might present problems if FITS format doesn't allow for variable tags to be associated to matrices and vectors.

If you can't adapt FITS to write to string objects, you might still be able to use the code above to write a wrapper from matrix object to string (e.g. by base64-encoding the resulting buffer). Once you have the matrix as a string object, it's just SQL from there:

INSERT INTO MatrixTable (matrixId, matrixEncoding) VALUES (...);
INSERT INTO MatrixTags (matrixId, tagName, tagValue) VALUES (2418, 'Taken', '2012-08-20 at noon');
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Not sure if I'm answering your question, but if you're looking for a C API for reading/writing files for storing vectors, matrices and other rank arrays (images too) you could use FITS file format. You can tag the stored info and do other stuff. You can find the CFITSIO library and documentation here: http://heasarc.gsfc.nasa.gov/fitsio/ (yes, NASA stuff ;-) )

From the page above:

CFITSIO is a library of C and Fortran subroutines for reading and 
writing data files in FITS (Flexible Image Transport System) data format. 
CFITSIO provides simple high-level routines for reading and writing FITS files 
that insulate the programmer from the internal complexities of the FITS format. 
CFITSIO also provides many advanced features for manipulating and filtering the
information in FITS files.

I use FITS for storing multidimensional arrays (histograms, images, ...) , with elements of different data types. This library is as old as useful, and you can even select vectors/matrices by opening the file with a specific filter: don't worry about complex I/O, encoding or decoding routines.

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