Data export (or output) in MATLAB means to write into files. MATLAB
allows you to use your data in another application that reads ASCII
files. For this, MATLAB provides several data export options.
You can create the following type of files:
There are two ways to export a numeric array as a delimited ASCII data file −
Syntax for using the dlmwrite function is:
For example, let us write the word 'hello' to a file −
To turn on the diary function, type −
As in low-level I/O file activities, before exporting, you need to open or create a file with the fopen function and get the file identifier. By default, fopen opens a file for read-only access. You should specify the permission to write or append, such as 'w' or 'a'.
After processing the file, you need to close it with fclose(fid) function.
The following example demonstrates the concept −
You can create the following type of files:
- Rectangular, delimited ASCII data file from an array.
- Diary (or log) file of keystrokes and the resulting text output.
- Specialized ASCII file using low-level functions such as fprintf.
- MEX-file to access your C/C++ or Fortran routine that writes to a particular text file format.
There are two ways to export a numeric array as a delimited ASCII data file −
- Using the save function and specifying the -ascii qualifier
- Using the dlmwrite function
save my_data.out num_array -asciiwhere, my_data.out is the delimited ASCII data file created, num_array is a numeric array and −ascii is the specifier.
Syntax for using the dlmwrite function is:
dlmwrite('my_data.out', num_array, 'dlm_char')where, my_data.out is the delimited ASCII data file created, num_array is a numeric array and dlm_char is the delimiter character.
Example
The following example demonstrates the concept. Create a script file and type the following code −num_array = [ 1 2 3 4 ; 4 5 6 7; 7 8 9 0]; save array_data1.out num_array -ascii; type array_data1.out dlmwrite('array_data2.out', num_array, ' '); type array_data2.outWhen you run the file, it displays the following result −
1.0000000e+00 2.0000000e+00 3.0000000e+00 4.0000000e+00 4.0000000e+00 5.0000000e+00 6.0000000e+00 7.0000000e+00 7.0000000e+00 8.0000000e+00 9.0000000e+00 0.0000000e+00 1 2 3 4 4 5 6 7 7 8 9 0Please note that the save -ascii command and the dlmwrite function does not work with cell arrays as input. To create a delimited ASCII file from the contents of a cell array, you can
- Either, convert the cell array to a matrix using the cell2mat function
- Or export the cell array using low-level file I/O functions.
For example, let us write the word 'hello' to a file −
h = 'hello'; save textdata.out h -ascii type textdata.outMATLAB executes the above statements and displays the following result. which is the characters of the string 'hello' in 8-digit ASCII format.
1.0400000e+02 1.0100000e+02 1.0800000e+02 1.0800000e+02 1.1100000e+02
Writing to Diary Files
Diary files are activity logs of your MATLAB session. The diary function creates an exact copy of your session in a disk file, excluding graphics.To turn on the diary function, type −
diary
Optionally, you can give the name of the log file, say −diary logdata.outTo turn off the diary function −
diary offYou can open the diary file in a text editor.
Exporting Data to Text Data Files with Low-Level I/O
So far, we have exported numeric arrays. However, you may need to create other text files, including combinations of numeric and character data, nonrectangular output files, or files with non-ASCII encoding schemes. For these purposes, MATLAB provides the low-level fprintf function.As in low-level I/O file activities, before exporting, you need to open or create a file with the fopen function and get the file identifier. By default, fopen opens a file for read-only access. You should specify the permission to write or append, such as 'w' or 'a'.
After processing the file, you need to close it with fclose(fid) function.
The following example demonstrates the concept −
Example
Create a script file and type the following code in it −% create a matrix y, with two rows x = 0:10:100; y = [x; log(x)]; % open a file for writing fid = fopen('logtable.txt', 'w'); % Table Header fprintf(fid, 'Log Function\n\n'); % print values in column order % two values appear on each row of the file fprintf(fid, '%f %f\n', y); fclose(fid); % display the file created type logtable.txtWhen you run the file, it displays the following result −
Log Function 0.000000 -Inf 10.000000 2.302585 20.000000 2.995732 30.000000 3.401197 40.000000 3.688879 50.000000 3.912023 60.000000 4.094345 70.000000 4.248495 80.000000 4.382027 90.000000 4.499810 100.000000 4.605170
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