Limitations
Packaging MATLAB and Toolboxes
MATLAB® Compiler™ supports the full MATLAB language and almost all toolboxes based on MATLAB except:
Most of the prebuilt graphical user interfaces included in MATLAB and its companion toolboxes.
Functionality that cannot be called directly from the command line.
Compiled applications can run only on operating systems that run MATLAB. However, components generated by the MATLAB Compiler cannot be used in MATLAB. Also, since MATLAB Runtime is approximately the same size as MATLAB, applications built with MATLAB Compiler need specific storage memory and RAM to operate. For the most up-to-date information about system requirements, go to the bat365 website.
Compiled applications can run only on the same platform on which they were developed, with the following exceptions:
Web apps, which can be deployed to MATLAB Web App Server™ running on any compatible platform.
C++ libraries compiled using the MATLAB Data API that do not contain platform-specific files.
.NET Assemblies compiled using .NET Core that do not contain platform-specific files.
Java® packages that do not contain platform-specific files.
Python® packages that do not contain platform-specific files.
To see the full list of
MATLAB
Compiler
limitations, visit: /products/compiler/compiler_support.html.
Note
For a list of functions not supported by the MATLAB Compiler See Functions Not Supported for Compilation by MATLAB Compiler and MATLAB Compiler SDK.
Fixing Callback Problems: Missing Functions
When MATLAB Compiler creates a standalone application, it packages the MATLAB files that you specify on the command line. In addition, it includes any other MATLAB files that your packaged MATLAB files call. MATLAB Compiler uses a dependency analysis, which determines all the functions on which the supplied MATLAB files, MEX-files, and P-files depend.
Note
If the MATLAB file associated with a p-file is unavailable, the dependency analysis cannot discover the p-file dependencies.
The dependency analysis cannot locate a function if the only place the function is called in your MATLAB file is a call to the function in either of the following:
Callback string
Character array passed as an argument to the
fevalfunction or an ODE solverTip
Dependent functions can also be hidden from the dependency analyzer in
.matfiles that are loaded by compiled applications. Use themcc -aargument or the%#functionpragma to identify.matfile classes or functions that are supported by theloadcommand.
MATLAB Compiler does not look in these text character arrays for the names of functions to package.
Symptom
Your application runs, but an interactive user interface element, such as a push button, does not work. The compiled application issues this error message:
An error occurred in the callback: change_colormap
The error message caught was : Reference to unknown function
change_colormap from FEVAL in stand-alone mode. Workaround
There are several ways to eliminate this error:
Using the
%#functionpragmaand specifying callbacks as character arraysSpecifying callbacks with function handles
Using the
-aoption
Specifying Callbacks as Character Arrays. Create a list of all the functions that are specified only in callback character arrays
and pass these functions using separate %#function pragma statements. This
overrides the product dependency analysis and instructs it to explicitly include the functions
listed in the %#function pragmas.
For example, the call to the change_colormap function in the sample
application my_test illustrates this problem. To make sure
MATLAB
Compiler
processes the change_colormap
MATLAB file, list the function name in the %#function pragma.
function my_test()
% Graphics library callback test application
%#function change_colormap
peaks;
p_btn = uicontrol(gcf,...
'Style', 'pushbutton',...
'Position',[10 10 133 25 ],...
'String', 'Make Black & White',...
'CallBack','change_colormap');
Specifying Callbacks with Function Handles. To specify the callbacks with function handles, use the same code as in the example above, and replace the last line with:
'CallBack',@change_colormap);
For more information on specifying the value of a callback, see the MATLAB Programming Fundamentals documentation.
Using the -a Option. Instead of using the %#function pragma, you can specify the name of
the missing MATLAB file on the
MATLAB
Compiler
command line using the -a option.
Finding Missing Functions in a MATLAB File
To find functions in your application that need to be listed in a
%#function pragma, search your MATLAB file source code for text specified as callback character arrays or as arguments
to the feval, fminbnd, fminsearch,
funm, and fzero functions or any ODE solvers.
To find text used as callback character array, search for the characters
“Callback” or “fcn” in your MATLAB file. This search finds all the Callback properties defined by
graphics objects, such as uicontrol and uimenu. In
addition, it finds the properties of figures and axes that end in Fcn, such
as CloseRequestFcn, that also support callbacks.
Suppressing Warnings on the UNIX System
Several warnings might appear when you run a standalone application on the UNIX® system.
To suppress the libjvm.so warning, set the dynamic library path properly
for your platform. See Set MATLAB Runtime Path for Deployment.
You can also use the compiler option -R -nojvm to set your application's
nojvm run-time option, if the application is capable of running without
Java.
Cannot Use Graphics with the -nojvm Option
If your program uses graphics and you compile with the -nojvm option,
you get a run-time error.
Cannot Create the Output File
If you receive this error, there are several possible causes to consider.
Can't create the output file filename
Possible causes include:
Lack of write permission for the folder where MATLAB Compiler is attempting to write the file (most likely the current working folder).
Lack of free disk space in the folder where MATLAB Compiler is attempting to write the file (most likely the current working folder).
If you are creating a standalone application and have been testing it, it is possible that a process is running and is blocking MATLAB Compiler from overwriting it with a new version.
No MATLAB File Help for Packaged Functions
If you create a MATLAB file with self-documenting online help and package it, the results of following command are unintelligible:
help filename
Note
For performance reasons, MATLAB file comments are stripped out before MATLAB Runtime encryption.
No MATLAB Runtime Versioning on Mac OS X
The feature that allows you to install multiple versions of MATLAB Runtime on the same machine is not supported on Mac OS X. When you receive a new version of MATLAB, you must recompile and redeploy all your applications and components. Also, when you install a new version of MATLAB Runtime on a target machine, you must delete the old version of MATLAB Runtime before installing the new one. You can have only one version of MATLAB Runtime on the target machine.
Older Neural Networks Not Deployable with MATLAB Compiler
Loading networks saved from older Deep Learning Toolbox™ versions requires some initialization routines that are not deployable. Therefore, these networks cannot be deployed without first being updated.
For example, deploying with Deep Learning Toolbox Version 5.0.1 (2006b) and MATLAB Compiler Version 4.5 (R2006b) yields the following errors at run time:
??? Error using ==> network.subsasgn
"layers{1}.initFcn" cannot be set to non-existing
function "initwb".
Error in ==> updatenet at 40
Error in ==> network.loadobj at 10
??? Undefined function or method 'sim' for input
arguments of type 'struct'.
Error in ==> mynetworkapp at 30Restrictions on Calling PRINTDLG with Multiple Arguments in Packaged Mode
In compiled mode, only one argument can be present in a call to the MATLAB
printdlg function (for example, printdlg(gcf)).
You cannot receive an error when making at call to printdlg with
multiple arguments. However, when an application containing the multiple-argument call is
packaged, the action fails with the following error message:
Error using = => printdlg at 11 PRINTDLG requires exactly one argument
Packaging a Function with which Does Not Search Current Working Folder
Using which, as in this example, does not cause the current working
folder to be searched in deployed applications. In addition, it may cause unpredictable behavior
of the open
function.
function pathtest
which myFile.mat
open('myFile.mat') Use one of the following solutions as an alternative:
Use the
pwdfunction to explicitly point to the file in the current folder, as follows:open([pwd '/myFile.mat'])
Rather than using the general
openfunction, useloador other specialized functions for your particular file type, asloadexplicitly checks for the file in the current folder. For example:load myFile.mat
Include your file in the Files required for your application to run area of the Compiler app, the
AdditionalFilesoption using acompiler.buildfunction, or the-aflag usingmcc.
Restrictions on Using C++ SetData to Dynamically Resize an mwArray
You cannot use the C++ SetData method to dynamically resize
mwArrays.
For instance, if you are working with the following array:
[1 2 3 4]
you cannot use SetData to increase the size of the array to a length of
five elements.
Accepted File Types for Packaging
The valid and invalid file types for packaging using deployment apps are as follows:
| Target Application | Valid File Types | Invalid File Types |
|---|---|---|
Standalone Application | MATLAB MEX files, MATLAB scripts, MATLAB functions, and MATLAB class files. These files must have a single entry point. | Protected function files ( |
Library Compiler | MATLAB MEX files, MATLAB functions, and MATLAB class files. These files must have a single entry point. | MATLAB scripts, protected function files ( |
MATLAB Production Server | MATLAB MEX files and MATLAB functions. These files must have a single entry point. | MATLAB scripts, MATLAB class files, protected function files ( |
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