Matlab Coder - How to force generated code to keep Matlab functions prototypes
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I generated the C code with Matlab Coder, but the generated code functions interfaces are not the same as the interfaces for appropriate Matlab functions, which I did not expect to happen. Typically if I pass a structure as an argument, but the function does not use all elements of the structure, the generated code passes each individual set of elements of the structure that is used in the function, rather than pointer to entire structure. The problems with that is that the number of input arguments to a C function becomes too big. Plus, more importantly, if the implementation of the function get changed, that number of used elements in the structure is different, the generated C interface changes too, which means that it is not possible keep stable interface. That is not acceptable.
I see that there are options to control the interface with Simulink Coder and Embedded Coder but I cannot find how is that possible with just Matlab Coder. I cannot see a problem for Matlab C Coder to respect simple C stile interface defined in Matlab language. There must be a way to simply control that?
5 Kommentare
Ezra Stein
am 28 Sep. 2021
Hi Dusko,
Thank you very much for this feedback. We have made an internal note of this use case and will consider supporting stable non-entry point signatures in the future.
I agree that the current workflow requires tedious data entry when specify many entry point functions. One possible way to speed up this work is to use the 'coder.getArgTypes' function described below: https://www.mathworks.com/help/coder/ref/coder.getargtypes.html
This function uses the same technology behind the Coder App's "auto-define" feature to discover argument types for entry points invoked by a test script. For instance, suppose you have a set of entry points defined in a cell string:
>> myEntryPoints = {'fcn1', 'fcn2', 'fcn3', 'fcn4'};
You can then use 'coder.getArgTypes' to get a corresponding structure which represents the types of for each entry point signatures as discovered via a test bench:
>> typeStruct = coder.getArgTypes('myTestBench', myEntryPoints)
Next, you can construct the entry point arguments to the codegen command as follows:
>> args = cellfun(@(field) {field, '-args', typeStruct.(field)}, myEntryPoints, 'UniformOutput', false); args = [args{:}]
Finally, you can pass this directly to the codegen command:
>> codegen(args{:}, '-config', myConfig, '-report')
This should help you automate some of the work of specifying entry points by leveraging the entry-point arguments auto-define feature. Now, if you would like to make a function with a stable signature, you can simply add it to the myEntryPoints cell array.
I agree that it would be helpful if this workflow were simpler and we will consider improving it in the future.
-Ezra
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