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I am to convert some custom data structures into float** and pass them as arguments of a method that is dealing with float** only.

In my first version, method takes only 2 float** as arguments, so that i easily have

MyClass::MyMethod(float** data1, float** data2){}

In a second version, I would like to vehicle a list of float** with length varying from one execution to the next.

I only have float*** as a solution, which is not nice at all.

MyMethod is C-stylish, I don't want any vector, etc...

Other ideas?

Thanks

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If you won't use the standard library, what's the point in using C++? –  Cogwheel Dec 8 '12 at 20:02
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If you want a dynamic array that holds float**, you're going to be a three star programmer and use float***. I'd suggest rethinking your API or your avoidance of the tools C++ provides you with. –  Cornstalks Dec 8 '12 at 20:03
    
@Cornstalks tell the 200 others working this way on that project –  octoback Dec 8 '12 at 20:11
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@antitrust: I would love to :) But really, as I said, if you want a dynamic array that holds float**, you really are going to have to use float***. The only other alternative to having a dynamic array of float** is to use some kind of container (like vector) (which just hides the float***-ness), but apparently that's not an option. –  Cornstalks Dec 8 '12 at 20:18
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I have issues believing that 200 people in a C++ project would like float*** over a higher level container... Are you working in C? (I am also a bit amused that 200 people are working in the same project in a way that a change to one function interface would affect all those users, and if that is the case simplifying the interface is even more of an advantage... Are you sure of what your real requirements are?) –  David Rodríguez - dribeas Dec 8 '12 at 20:39

2 Answers 2

up vote 2 down vote accepted

Return a struct containing some float**. You could even pass in an instance of the struct.

It means that the called function doesn't directly manipulate the caller's float** which I think is cleaner.

We're solving this as C programmers, I understand that sometimes we're constrained not to use true C++ techniques.

If you have (apologies for any syntax errors it's years since I wrote C)

 struct floatCarrier { float **ppFloat1, float **ppFloat2 } 
 typdef FloatCarrier struct floatCarrier

Your interface now can be

 FloatCarrier myMethod (FloatCarrier in)  /* passed by value, as an example */

the implementation of myMethod can work with the float** from the input FloatCarrier. If it needs to modify the arrays then it creates a new FloatCarrier with new float** instances and when it has finished it returns the new FloatCarrier. This does put some responsibility with the caller to grab the new float** from the returned struct, but somehow I like that, feels cleaner.

As to whether you should have a known number of members or an array ... well your example had exactly 2 parameters, so the struct would have two members, but you can have an array or anything you like.

How does it solve your problem: you no longer need to change your caller's float** hence no float***. We use a struct as a function can return only one value, so we package up the results into a single object.

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very constructive, thanks –  octoback Dec 8 '12 at 20:12
    
but... my struct should have a known number of float** members, ... or a list of float** which is a float**... how does this fix the problem i mention ? –  octoback Dec 8 '12 at 20:14
    
@antitrust: I think what djna meant was to have some struct MyStruct { float** data; }; (or perhaps something with a proper interface) and instead have an array of MyStructs instead of an array of raw float**s. –  Cornstalks Dec 8 '12 at 20:36

The problem is not float*** (or float**&) but how do you come to that: what do that float** represent? If they are representing something, give that something a "name" and a "scope" to live in in. In other word, create a "class" and let the class to manage the * one at time. Otherwise whatever code you can do will look arcane.

There is no point in using C++ if all the code reduces to manipulate single variables through a number of explicit indirection.

Although solutions in the "two star word" can be found, try thinking if it is not he case to restructure the code to make it more scalable.

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