| % floatread() - Read matrix from float file ssuming four byte floating point number | |
| % Can use fseek() to read an arbitary (continguous) submatrix. | |
| % | |
| % Usage: >> a = floatread(filename,size,'format',offset) | |
| % | |
| % Inputs: | |
| % filename - name of the file | |
| % size - determine the number of float elements to be read and | |
| % the dimensions of the resulting matrix. If the last element | |
| % of 'size' is Inf, the size of the last dimension is determined | |
| % by the file length. If size is 'square,' floatread() attempts | |
| % to read a square 2-D matrix. | |
| % | |
| % Optional inputs: | |
| % 'format' - the option FORMAT argument specifies the storage format as | |
| % defined by fopen(). Default format ([]) is 'native'. | |
| % offset - either the number of first floats to skip from the beginning of the | |
| % float file, OR a cell array containing the dimensions of the original | |
| % data matrix and a starting position vector in that data matrix. | |
| % | |
| % Example: % Read a [3 10] submatrix of a four-dimensional float matrix | |
| % >> a = floatread('mydata.fdt',[3 10],'native',{[[3 10 4 5],[1,1,3,4]}); | |
| % % Note: The 'size' and 'offset' arguments must be compatible both | |
| % % with each other and with the size and ordering of the float file. | |
| % | |
| % Author: Sigurd Enghoff, CNL / Salk Institute, La Jolla, 7/1998 | |
| % | |
| % See also: floatwrite(), fopen() | |
| % Copyright (C) Sigurd Enghoff, CNL / Salk Institute, La Jolla, 7/1998 | |
| % | |
| % This program is free software; you can redistribute it and/or modify | |
| % it under the terms of the GNU General Public License as published by | |
| % the Free Software Foundation; either version 2 of the License, or | |
| % (at your option) any later version. | |
| % | |
| % This program is distributed in the hope that it will be useful, | |
| % but WITHOUT ANY WARRANTY; without even the implied warranty of | |
| % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
| % GNU General Public License for more details. | |
| % | |
| % You should have received a copy of the GNU General Public License | |
| % along with this program; if not, write to the Free Software | |
| % Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |
| % 04-26-99 modified by Sigurd Enghoff to handle variable-sized and | |
| % multi-dimensional data. | |
| % 07-08-99 modified by Sigurd Enghoff, FORMAT argument added. | |
| % 02-08-00 help updated for toolbox inclusion -sm | |
| % 02-14-00 added segment arg -sm | |
| % 08-14-00 added size 'square' option -sm | |
| % 01-25-02 reformated help & license, added links -ad | |
| function A = floatread(fname,Asize,fform,offset) | |
| if nargin<2 | |
| help floatread | |
| return | |
| end | |
| if ~exist('fform') | isempty(fform)|fform==0 | |
| fform = 'native'; | |
| end | |
| if ~exist('offset') | |
| offset = 0; | |
| end | |
| fid = fopen(fname,'rb',fform); | |
| if fid>0 | |
| if exist('offset') | |
| if iscell(offset) | |
| if length(offset) ~= 2 | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| datasize = offset{1}; | |
| startpos = offset{2}; | |
| if length(datasize) ~= length(startpos) | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| for k=1:length(datasize) | |
| if startpos(k) < 1 | startpos(k) > datasize(k) | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| end | |
| if length(Asize)> length(datasize) | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| for k=1:length(Asize)-1 | |
| if startpos(k) ~= 1 | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| end | |
| sizedim = length(Asize); | |
| if Asize(sizedim) + startpos(sizedim) - 1 > datasize(sizedim) | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| for k=1:length(Asize)-1 | |
| if Asize(k) ~= datasize(k) | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| end | |
| offset = 0; | |
| jumpfac = 1; | |
| for k=1:length(startpos) | |
| offset = offset + jumpfac * (startpos(k)-1); | |
| jumpfac = jumpfac * datasize(k); | |
| end | |
| elseif length(offset) > 1 | |
| error('offset must be a positive integer or a 2-item cell array'); | |
| end | |
| % perform the fseek() operation | |
| % ----------------------------- | |
| stts = fseek(fid,4*offset,'bof'); | |
| if stts ~= 0 | |
| error('floatread(): fseek() error.'); | |
| return | |
| end | |
| end | |
| % determine what 'square' means | |
| % ----------------------------- | |
| if ischar('Asize') | |
| if iscell(offset) | |
| if length(datasize) ~= 2 | datasize(1) ~= datasize(2) | |
| error('size ''square'' must refer to a square 2-D matrix'); | |
| end | |
| Asize = [datsize(1) datasize(2)]; | |
| elseif strcmp(Asize,'square') | |
| fseek(fid,0,'eof'); % go to end of file | |
| bytes = ftell(fid); % get byte position | |
| fseek(fid,0,'bof'); % rewind | |
| bytes = bytes/4; % nfloats | |
| froot = sqrt(bytes); | |
| if round(froot)*round(froot) ~= bytes | |
| error('floatread(): filelength is not square.') | |
| else | |
| Asize = [round(froot) round(froot)]; | |
| end | |
| end | |
| end | |
| A = fread(fid,prod(Asize),'float'); | |
| else | |
| error('floatread() fopen() error.'); | |
| return | |
| end | |
| % fprintf(' %d floats read\n',prod(size(A))); | |
| % interpret last element of Asize if 'Inf' | |
| % ---------------------------------------- | |
| if Asize(end) == Inf | |
| Asize = Asize(1:end-1); | |
| A = reshape(A,[Asize length(A)/prod(Asize)]); | |
| else | |
| A = reshape(A,Asize); | |
| end | |
| fclose(fid); | |