Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm working on converter of object-oriented language into C for optimizing puproses and I've run into design issue.

Consider converter being provided with following class in pseudo-language:

class C {
    int a;
    double b;
    int c;

    constructor C(int value) {
        this.a = value;
        this.b = this.a / 10.0;
        this.c = 0;
    }

    void say() {
        print(this.b);
    }
}

When going straightforward, we can express this class in C as struct like that (skipping error checks):

typedef struct {
    int a;
    double b;
    int c;
} _class_C;

_class_C* _ctor_C(int value) {
    this = malloc(sizeof(_class_C));

    this->a = value;
    this->b = this->a / 10.0;
    this->c = 0;

    return this;
}

void _method_C_say(_class_C *this) {
    printf("%.2f", this->b);
}

void _dtor_C(_class_C *this) {
    free(this);
}

This solution suffers from the promise C compilers are bound with — do not add, remove or change order of fields in struct. So despite the fact fields a and c are not used, they will bloat the code.

How can I achieve "unordered fields" behavior? If I had only one static C, it could be written as follows:

int _staticfield_C_a;
double _staticfield_C_b;
int _staticfield_C_c;

void _ctor_C(int value) {
    _staticfield_C_a = value;
    _staticfield_C_b = _staticfield_C_a / 10.0;
    _staticfield_C_c = 0;
}

void _staticmethod_C_say() {
    printf("%.2f", _staticfield_C_b);
}

so compiler can optimize out redundant or unused fields up to sole _staticfield_C_b, but what solution should I use when C can be instantiated in dynamic, and I don't mind the order of fields, memory layout and code human-readability at all?

Update: It should be noted that I'm not trying to enforce compiler to do magic with structs, I want some replacement for them acting like struct with unordered field — much like that I've provided in static example, regardless of level of readablility.

Update: There is a popular opinion in the comments that my problem is related to design of converter itself, like if I chose wrong paradigm or language for it. Converter itself is written in Python, and it takes source of generic object-oriented program, processes it and outputs equivalent C code to be compiled, so you can think of it as cross-language compiler. I'm pleased with good intentions of explaining me where and how I should use structures, but in this case I need some help in magic to easen up optimization :)

share|improve this question
5  
Uh... how does the compiler/linker know that later on you won't link the object code it produces together with other (as yet unwritten) code that does access the "useless" fields? It doesn't know, so there is absolutely no question of removing them from the binary. Your only other option is to basically write a loose type system in its entirety. –  Jon Jul 13 '12 at 13:33
    
Indeed it does not know, but I do know. This is rewritten code, it's never going to be linked against something not known at compile time. Due to your argumentation, there is no magic --do-mess-with-structs switch, but I want to trick compiler into doing things like I've described above. In fact, I don't even need structs themselves — some alternative to them, like in my "static" example, will be just perfect. –  modchan Jul 13 '12 at 13:37
2  
The best solution I can think of for this is to utilize hashmaps, but that would only work if you have classes with lots and lots of unutilized fields (economies of scale, so to speak), would likely be much slower than just using structs, and would mean you'd have to treat everything stored in it as a custom 'object' that you come up with. The other alternative would be to have a struct with two arrays/pointers (or possibly a 2D array), one holding an array of field names, the other pointing to the data; aside from the memory usage, however, the same disadvantages as the hashmap applies. –  JAB Jul 13 '12 at 13:56
2  
Besides your problem with unused fields. I am confused by your idea that constructors and destructors do the memory allocation by themselves. Shouldn't they receive a pointer to an existing object and operate on that? –  Jens Gustedt Jul 13 '12 at 13:57
2  
Don't write structs with fields you don't need? "But how do I know that!?!" you say? Well, with C your primary design pattern is composition. (BTW, C doesn't have classes so even mentioning them is a suggestion that you might want to use a different tool or language). I would recommend granularizing your structs so that they contain exactly what they need an nothing that they don't. For example, struct IntPair{int a, int b}; You then use composition to combine these small pieces into a bigger piece (only putting in what you need and leaving out what you don't). –  Josh Petitt Jul 13 '12 at 14:03
show 8 more comments

2 Answers

up vote 4 down vote accepted

It sounds like you're trying to get the compiler (or linker -- the "remove unused objects" optimization you mention is actually done there) to automatically detect unused structure fields for you. It can't, because it's impossible. That's a global optimization -- you need to know that no code anywhere in the universe that references a given field. But what if the code will bind dynamically to something in the future (code not part of the current link) that references that field? What about compiling a library with the same header. How big should the compiler make the struct, given that it doesn't know how it will be used?

If you want to do this optimization, I'm afraid you'll have to do it yourself. The C language doesn't have the tools available.

share|improve this answer
add comment

Have you looked into Unions as an alternative to Structs?

If you're using only one field at a time and are worried about memory, this is the perfect data structure.

share|improve this answer
    
Unfortunately, as I work with foreign code, I don't know at compile time which fields are to be used, so this kind of optimization is up to compiler to decide. –  modchan Jul 13 '12 at 14:09
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.