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Consider the following Matlab (2009a) classes:

classdef BigDeal < handle
    properties
        hugeness = magic(2000);
    end
    methods
        function self = BigDeal()
        end
    end
end


classdef BigProxy < handle
    properties(Dependent)
        hugeness
    end
    properties(Access = private)
        bigDeal
    end
    methods
        function self = BigProxy(bigDeal)
            self.bigDeal = bigDeal;
        end
        function value = get.hugeness(self)
            value = self.bigDeal.hugeness;
        end
    end
end

Now consider the following use of them:

Setup:

>> b = BigDeal

b = 

  BigDeal handle

  Properties:
    hugeness: [10x10 double]

  Methods, Events, Superclasses

OneLayer:

>> pb = BigProxy(b)

pb = 

  BigProxy handle

  Properties:
    hugeness: [10x10 double]

  Methods, Events, Superclasses

TwoLayers:

>> ppb = BigProxy(pb)

ppb = 

  BigProxy handle with no properties.
  Methods, Events, Superclasses

Question: Why is my double layered proxy unable to see the hugeness when the single layer can? Dependent properties can be calculated - but does this go only one layer deep for some reason?


Update: See my answer below for workaround.

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2 Answers 2

up vote 3 down vote accepted

The problem here is two-fold:

  1. The BigProxy object constructor is designed to accept an input object that has a (non-dependent) hugeness property (like a BigDeal object), which the BigProxy object can then access to compute the value for its own dependent hugeness property.

  2. You are passing a BigProxy object to the BigProxy constructor when you create ppb, and you apparently can't compute a dependent property from another dependent property. For example, this is the error that is thrown when I try to access ppb.hugeness:

    ??? In class 'BigProxy', the get method for Dependent property 'hugeness'
    attempts to access the stored property value.  Dependent properties don't
    store a value and can't be accessed from their get method.
    

    In other words, the outer BigProxy object tries to compute the value for its dependent hugeness property by accessing the stored value of hugeness for the inner BigProxy object, but there is no stored value since it's a dependent property.

I think the fix for a situation like this would be for the BigProxy constructor to check the type of its input argument to make sure it is a BigDeal object, and throw an error otherwise.

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I think I agree with your analysis... although I find it annoying that I should be artificially blocked from creating a proxy to a proxy. –  JnBrymn Mar 3 '11 at 13:45
    
This is reminiscent to how Matlab won't call the overloaded subsref method from within other class methods. This seems like a similar restriction that's in place for similar reasons, I imagine. –  Matt B. Aug 15 '13 at 18:37

Gnovice provided a good answer to the question "why," thus I awarded him the green check of glory. However, for those wanting a work around, you can do something like this:

classdef BigDeal < handle
    properties
        hugeness = magic(10000);
    end
    methods
        function self = BigDeal()
        end
    end
end


classdef BigProxy < handle
    properties(Dependent)
        hugeness
    end
    properties(Access = private)
        bigDeal
    end
    methods
        function self = BigProxy(bigDeal)
            self.bigDeal = bigDeal;
        end
        function value = get.hugeness(self)
            value = self.getHugeness;
        end
    end
    methods(Access = private)
        function value = getHugeness(self)
            if isa(self.bigDeal,'BigProxy')
                value = self.bigDeal.getHugeness;
            else
                value = self.bigDeal.hugeness;
            end
        end
    end
end

which will allow you to do the following

>> b = BigDeal;
>> pb = BigProxy(b);
>> ppb = BigProxy(pb);

And each of {b,pb,ppb} will all have the same public methods and properties. The only drawback is that I have had to (unnecessarily IMHO) clutter up BigProxy with a new private getter.

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2  
Actually, you don't need the isa() test in getHugeness. It can simply be "function value = getHugeness(self); value = self.bigDeal.hugeness;". Once you're outside the get.hugeness Dependent property getter, it seems like the .-reference syntax no longer bypasses the getter. I agree - this extra clutter is a bummer. It might be tricky for Matlab to do otherwise, though, since avoiding it would need some special magic in the getters that treated . differently when applied to the input parameters vs any other variable of the same type. –  Andrew Janke Mar 3 '11 at 17:47
    
No, wait - it should be easy. Matlab could just treat .-reference of a dependent property in the getter the same as everywhere else instaed of raising this special error. If called on self, then you'll get infinite recursion and blow the stack, and Matlab could slap the "dependent property called from its own getter" message on the end of the infinite-recursion error as a diagnostic aid. If called on another object of the same type, its getter would be called in turn, and in the case of something like BigProxy, eventually get a real value. –  Andrew Janke Mar 3 '11 at 17:54

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