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I have an array I've created which is of size: 256^3.

real*8, dimension(256,256,256) :: dense


What would be the best way to write this out so Matlab can read it? I have some post processing I want to use.

I am using gfortran so I can't use binary format :{ is this true? I set the form to "binary" and it doesn't recognise it. I don't have ifort installed either.

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I speak Matlab, but not Fortran. What is the most space efficient file format you can write to? We can probably get Matlab to read it. – Pursuit Dec 7 '12 at 5:58
No, it is not true that gfortran can't write 'binary', but it is true that Fortran calls this type of i/o 'unformatted' so it is not surprising (to me) that form='binary' (if that is what you tried) did not succeed. – High Performance Mark Dec 7 '12 at 9:42
up vote 3 down vote accepted

Write the array out using unformatted stream access. Stream access is the standard equivalent of binary. Stealing from IRO-bot's answer:

real(kind=kind(0.0d0)),dimension(256,256,256) :: dense

open(unit=8,file='test.dat',& ! Unformatted file, stream access
write(unit=8) dense           ! Write array

This is more than likely adequate and appropriate for your needs. Note though, that for more convoluted or complicated output requirements Matlab comes with an library of routines callable from a compiled language that allow you to write .mat files. Other libraries also exist that can facilitate this sort of data transfer - for example HDF5.

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Could you provide any code which would do this Ian? Thanks for your help. – Griff Dec 12 '12 at 6:36

Yes, you can write binary files using either stream access, as suggested by IanH, or direct access:

integer :: reclen
real(kind=kind(0.0d0)),dimension(256,256,256) :: dense

inquire(iolength=reclen)dense ! Inquire record length of the array dense
open(unit=8,file='test.dat',& ! Binary file, direct access
write(unit=8,rec=1)dense      ! Write array into first record 


Unless you specify access attribute in the open statement, the file will be opened in sequential mode, which may be inconvenient for reading because it adds a padding to each record which contains information about record length. By using direct access, you are able to specify the record length explicitly, and in this case, the size of the file written will be exactly 8*256^3, so assuming you know the array ordering and endianness, you are able to read it from your MATLAB script.

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Thanks very much IRO. The write out seems to have proceeded OK. In terms of reading it in? What would be the best fopen procedure - something like: fid = fopen(filename,'rb'); mesh = fread(fid,ndimndimndim,'double'); fclose(fid); Thanks! – Griff Dec 7 '12 at 15:49
I don't know MATLAB, but after a quick look at, your snippet looks right. I assume this would get you 1-d array of length ndim^3, so you may want to reshape it back to (ndim,ndim,ndim). – milancurcic Dec 7 '12 at 15:59
Note that there's no guarantee that you won't get padding or some sort of record markers written to a file with direct access - its processor dependent. Admittedly before stream access was introduced this was the most likely way to get things to work. – IanH Dec 7 '12 at 20:40
@IanH Section of the latest standard draft describes how this is done. The number of file storage units written is determined exactly by RECL and the number of records written. The file storage unit size however, is compiler dependent, and that is why we use the INQUIRE statement. But definitely no padding here, not by standard, nor by any major compiler implementation I've used (gfortran, Intel, PGI). Please let us know if you are aware of any. – milancurcic Dec 7 '12 at 21:17
Note we are talking here about the on-disk representation of records. 9.1p4 explicitly allows for processor dependency in how record files (direct or sequential) look if they can be opened as stream (which is how C/Matlab see the file) - basically this allows the processor to write additional book keeping information to the file not visible to Fortran programs. ifort documentation mentions one use of this if the -vms compatibility option is selected. Likely to work with current processors - yes. Guaranteed to work - no. – IanH Dec 7 '12 at 22:59

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