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I'm new to templates in C++, so here is my problem.

I've a generic class ProductItem that will do all the stuff I want, but I need to specialize a part in order to use pointers (for char*).

My code :

typedef unsigned char BYTE;

template<typename T>
class TProductTableItem
{
protected:
    int             Offset;
    int             DataLength;
    T               Value;
public:
    virtual bool LoadFromBuffer(const BYTE* buffer, int count)
    {
        if(Offset + DataLength > count)
            return false;

        Value = buffer[Offset];
        return true;
    }
};

// Specialization (doesn't compile)    
class TProductTableItemString : public TProductTableItem<char*>
{
    bool LoadFromBuffer(const BYTE* buffer, int count)
    {
        if(Offset + DataLength > count)
            return false;

        memset(Value, 0, DataLength);
        memcpy(Value, (void*)&buffer[Offset], DataLength);
        return true;
    }
};

When trying to compile this code, I've the following error message:

cannot convert from 'const BYTE' to 'char*'

What I'm doing wrong?

It look like that even for char* type, it tries to use the TProductTableItem::LoadFromBuffer function and not the TProductTableItemString::LoadFromBuffer one. Thanks.

share|improve this question
    
(void*)buffer[Offset] looks evil in many (many!) ways; I suspect your problem has nothing to do with template specialization. What do you want to achieve here? –  sehe Oct 16 '11 at 20:04
    
@sehe: Fixed it. But if you have a better way to do this, I'm in ;-) –  Arnaud F. Oct 16 '11 at 20:07
2  
You didn't fix the question. What are you trying to do with the class? You are mixing classes and C-style casts. You are writing through unitialized char* (Value). It looks like you are doing a poor version of binary serialization. Make this a non XY question and you'll get quality answers –  sehe Oct 16 '11 at 20:11
    
I'm trying to extract a part of a buffer (on a given offset) to the T type specified by the template. (I restrict the code to the minimal one). –  Arnaud F. Oct 16 '11 at 20:16

4 Answers 4

up vote 2 down vote accepted

You are mixing two distinct concepts: inheritance and template specialization.

Your class is not a template specialization but it derives from a template instantiation. However that template cannot be instantiated because when T = char * the statement Value = buffer[offset]; has a type mismatch error.

If you want to write a template specialization then the syntax is

template<>
class ProductTableItem<char *> {
    ...
};

Note that two templates instantiations are in general unrelated types from an inheritance point of view...

May be a solution for what you are trying to do is something like

// Non-template base class
class ProducTableItemBase {
    protected:
        ...
    public:
        virtual bool LoadFromBuffer(const BYTE* buffer, int count) = 0;
};

// Template class for all other types
template<typename T>
class ProductTableItem : public ProductTableItemBase {
    T Value;
    bool LoadFromBuffer(const BYTE* buffer, int count) {
        ...
    }
};

// Template specialization for char*
template<>
class ProductTableItem<char *> : public ProductTableItemBase {
    char * Value;
    bool LoadFromBuffer(const BYTE* buffer, int count) {
        ...
    }
};

I said may be because indeed it's not clear to me what you are trying to accomplish.

share|improve this answer
    
When doing like this, my variables are not known anymore... How can I fix that? –  Arnaud F. Oct 16 '11 at 20:12
    
@ArnaudF.: I added some code that may be is what you are looking for –  6502 Oct 16 '11 at 20:25
    
I'm trying to load a buffer into variables of differents types, example : a buffer containing { 0xFF, 0x00 } where 0xFF are 16 bool (1 bit per bool) and 0x00 the value of a BYTE... (equals to 17 ProductTableItem) –  Arnaud F. Oct 16 '11 at 20:42

You are confusing the concepts of inheritance and specialisation. Firstly, in order to specialise a template, you don't derive from it - you use this syntax:

template <>
class TProductTableItem<char*>
{...}

The next confusion is that you are trying to use the non-specialised member variables in the specialisation. Template specialisations are are completely seperate to the non-specialised version. For this example, you have only declared the variables Offset, DataLength and Value inside the non-specialised template. You need to add these to the specialisation if you want to have them there:

template <>
class TProductTableItem<char*>
{
    int             Offset;
    int             DataLength;
    char*           Value;
    ...
}
share|improve this answer

You want your memcpy line to be more like this:

memcpy(Value, (void*)&buffer[Offset], DataLength);

And likewise when you assign Value:

    Value = (T)&buffer[Offset];
share|improve this answer
    
Yes I fixed it, but don't resolve the compile error. –  Arnaud F. Oct 16 '11 at 20:09
    
True, there were actually two problems. –  Vaughn Cato Oct 16 '11 at 20:18

TProductTableItemString, by inheriting from it, causes an instantiation of TProductTableItem<char*>. In the implementation of TProductTableItem::LoadFromBuffer, this line:

Value = buffer[Offset];

cannot be compiled because buffer[Offset] is a byte, and Value is a char*.

By the way, TProductTableItemString is not a specialization, it is simply inheriting and then hiding LoadFromBuffer. If you really want to specialize, you should write:

template<>
class TProductTableItem<char*>
{
 ...
};
share|improve this answer
    
Same remark, when modifying the code like this, I can't access all my (protected) variables anymore... –  Arnaud F. Oct 16 '11 at 20:13

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