2

In R2018b, consider the following toy class:

classdef MyObj < handle

    properties
        use_parallel = true
        test_value   = NaN
    end

    methods
        function myMethod(obj)

            % Call one of the nested functions below:
            if all([obj.use_parallel])
                parallel();                
                disp('Parallel (inside myMethod):')
                [obj.test_value]
            else
                sequential();
                disp('Sequential (inside myMethod):')
                [obj.test_value]
            end

            % Sequentially assign some values
            function sequential()                
                for ii = 1:numel(obj)
                    obj(ii).test_value = ii; end
            end

            % Assign some values in parallel
            function parallel()
                parfor ii = 1:numel(obj)
                    set_value(obj(ii),labindex());
                    obj_copy(ii) = obj(ii);
                end
                obj = obj_copy;
            end

        end
    end
end

% parfor requires subfunction (and not nested function):
function set_value(obj,index)
    obj.test_value = index;
end

Though this question closely resembles this and this question, their underlying problem was essentially some variant of the limitation outlined in the documentation:

You can send handle objects as inputs to the body of a parfor-loop. However, any changes made to handle objects on the workers during loop iterations are not automatically propagated back to the client. That is, changes made inside the loop are not automatically reflected after the loop

However, as far as I can see, the toy class above is compliant with the parfor slicing rules as well as these particulars regarding handle classes. In my understanding, it should therefore correctly copy the modified obj back to myMethod's workspace.

However, running the following:

clc

% Assign sequentially
M(3) = MyObj();
[M.use_parallel] = deal(false);
M.myMethod();
disp('Sequential (outside class):')
[M.test_value]

disp(' ')

% Assign in parallel 
N(3) = MyObj();
[N.use_parallel] = deal(true);
N.myMethod();
disp('Parallel (outside class):')
[N.test_value]

gives on my parpool of 6 workers:

Sequential (inside myMethod):
ans =
     1     2     3   % <- OK
Sequential (outside class):
ans =
     1     2     3   % <- OK. Nothing unexpected

Parallel (inside myMethod):
ans =
     1     1     1   % <- OK, apparently, lab 1 did everything
Parallel (outside class):
ans =
   NaN   NaN   NaN   % <- hmmm...changes did not propagate

This means the obj.test_value gets correctly assigned, and the modified obj is indeed correctly copied into myMethod's workspace. Yet somehow, this modified obj is a different entity than the obj before modification, because the changes do not propagate higher up the stack...

Changing the parallel() function to a subfunction (instead of a nested function) and explicitly passing the obj parameter around, does not affect this outcome.

Sooooo...what's going on here?

  • 1
    I might be wrong, I don't use handle classes all that much, but when you do obj = obj_copy inside the class method, you are overwriting the obj variable with a new value. At this point you no longer have access to the original object inside the class method. Try obj(:) = obj_copy, or create a copy method (that copies over individual members) and do obj.copy(obj_copy). One of those should be able to assign the new values to the existing handle class object. – Cris Luengo Feb 18 at 7:06
  • @CrisLuengo nope, no dice. I also tried subclassing matlab.mixin.Copyable (giving me that copy method) and then doing an explicit copy, but no luck either...Normally you can happily overwrite the obj with modified copies and it all magically works, but this is starting to feel like a bug...of course, if I change the class into a value class, it all works. But that's not quite what I'm after – Rody Oldenhuis Feb 18 at 19:10
  • @CrisLuengo see my answer below. Seems I was wrong about the overwriting bit; apparently, that's limited to constructors. This is kind of awkward, because if that's true, then parfor is allowed to copy things but we're not allowed to copy any changes back... – Rody Oldenhuis Feb 18 at 19:34
  • I meant writing a copy method so that you can do obj.copy(obj_copy), where this copy method takes the values of the members of obj_copy and sets its own members to those values. This way, you modify the existing object, instead of overwriting it. – Cris Luengo Feb 18 at 19:57
  • @CrisLuengo thanks, I guess that's indeed the only way. – Rody Oldenhuis Feb 18 at 19:57
1

I can reduce the problem to this:

classdef MyObj < matlab.mixin.Copyable

    properties
        test_value = NaN
    end

    methods
        function myMethod(obj)
            obj = obj.copy();
            obj.test_value = rand;
            disp('Inside method:')
            obj.test_value
        end
    end
end

Removing nested functions, subfunctions and parfor from the equation. Running the code (after obvious changes) above results in:

Inside method:
ans =
     4.8089e-01   % <- obj re-initialized OK
Outside class:
ans =
     NaN          % <- but this does NOT modify the handle class!

That means it's a language "feature" I wasn't aware of! Apparently, methods can modify existing objects, but not redefine them completely. I'll try digging in the documentation to find out some more about this, but this poses a whole new problem: how to copy the changes made by parfor back into the object?

TL;DR:

function myMethod(obj)
%   ↓ new object   ↓ old object
    obj       =    obj.copy();

Cris was right; though the new and old objects have identical names, they are different things—they shadow each other. Any changes made to the new obj will not modify the old obj.

  • Yes, this makes sense to me. m=zeros(2); m=1 causes m to be 1, and no longer a 2x2 array. You overwrite the old m with the new value. I don't see why this would be different for a handle class. – Cris Luengo Feb 18 at 19:55
  • @CrisLuengo well, in a constructor you can do things like obj(30) = MyObj(). So I guess I just tripped over that. Indeed, a constructor must return obj, so ... – Rody Oldenhuis Feb 18 at 23:21
  • I see what you mean. I think the whole handle class thing fits very poorly in the MATLAB syntax (or at least they don't fit in my intuitive understanding of what happens to objects), and so I often get confused trying to use them. :) – Cris Luengo Feb 18 at 23:37

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