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So, this is basically what I want to do:

#define RS03(obj, a1, a2, a3) {if (_str1 == #a1) _file >> _##a1; if (_str1 == #a2) _file >> _##a2;if (_str1 == #a3) _file >> _##a3; obj (_##a1, _##a2, _##a3);}

This is the case of three arguments, but I also need:

#define RS04(obj, a1, a2, a3, a4)
#define RS05(obj, a1, a2, a3, a4, a5)
#define RS06(obj, a1, a2, a3, a4, a5, a6)

So a variadic macro.

There are a number of questions on Stackoverflow on such topic, but they do not apply to my case.

In the code above, the three parameters a1, a2 and a3 are used both as string (in the "if" condition) and as variable (in the assignments and in the constructor), while obj is a class (so the last command in the macro is a constructor call).

The point is that: suppose I have twenty different classes, requiring each of them a different number of input to construct.

The macro receive the name of the class and the names of the arguments required to build an object of this class.

The point is that (see "reason of the design" below) I need to use the name of the argument also like string in a "if" condition. This is the reason why I use a macro (which have the nice feature of the # and ## special characters) instead of a template function.

Basically, I need a plain text conversions (so a macro, not a function), but with a variable name of arguments.

Reason of this design

Let us suppose I have twenty different classes, each of one is very different from the other (for example, class 1 can be constructed with two double, class 2 requires a double and two integer, class 3 can be constructed with two bool, etc...).

All these classe have a "run" member function which produce an output of the same format.

My program should do the following:

1 - read a text file

2 - launch the run for each model described in the file

The file should be something like that:

car {
    name = model1
    speed = 0.05

man {
    name = model2
    speed = 0.03
    male = true
    ageclass = 3


So I need to read such file and initialize each class described in the file.

Parameters should be written in whatever order the user like.

Also, they may appear more than one time, for example:

car {
    name = pippo
    speed = 0.05
    speed = 0.06
    speed = 0.07

(in this case, the last will overwrite the other)

If the user forget some parameters the program should stop with a clear error message.

There may be different model of the same type (for example, 4 different flat model).

For example, in such situation:

car {
    name = pippo
    speed = 0.05

car {
    name = pluto

The program should say that the second model is incomplete.

There are of course a number of ways to do that.

I do in this ways:

1 - create a template class (let's call it "field") with a T member (which store a value) and a bool member (which tell me if the variable is present or not)

2 - create an object (the reader, the object which read the file) with a number of "fields", one for each possible model attribute (_name, _speed, _male, etc..)

3 - then, while reading the file, for the portion within the brackets, I first read a string (the "label"), then I read the "=", and finally I read the value. The value will be stored in the variable with the same name of the string

(if I found the line "speed = 0.03", the I'll save 0.03 in the field _name of the reader).

This should be the pseudo-code (there may be erros; it's just for illustrating purpose):

if (car) {
    while (str != "}") {
        if (str == "speed")    { _file >> _speed;     _file >> _str; }
        if (str == "male")     { _file >> _male;      _file >> _str; }
        if (str == "ageclass") { _file >> _ageclass;  _file >> _str; }
    car (_speed.get (), _male.get (), _ageclass.get ());

get () is a member function of the "field" class, which raise an exception if not available (i.e., not present in the file), or return the value (read from file) otherwise.

Class "field" also has an overloaded operator >>, which apply the standard operator >> on the value, and set to true the boolean attribute.

As the models are so many, I'd like to trasform that code in a macro :-)

share|improve this question
Boost.Preprocessor has tools for this. –  chris Feb 6 '14 at 15:54
Can't this be resolved using (variadic) templates? Those should always be preferred over macros when dealing with C++. –  JorenHeit Feb 6 '14 at 16:04
@JorenHeit Not really (in this case), notice the use of the preprocessor token concatenation operator. –  Angew Feb 6 '14 at 16:05
Can't use Boost. –  Richter Bernadell Feb 6 '14 at 16:10
@Angew All those macro's could be a sign of bad (i.e. not pure C++) design ;-) –  JorenHeit Feb 6 '14 at 16:18

1 Answer 1

I'm not sure if you have the freedom to change your implementation as drastically as I'm about to propose, but here's what I would do. It does not require any exotic template techniques whatsoever.

First, you create a structure called Properies (for example), that contains all properties that any class can inhibit.

struct Properties
    enum Types
        // and more                                                                              

    enum Gender
        MALE, FEMALE

    Types type;
    string name;
    double speed;
    Gender gender;
    int ageClass;

As you can see, it also contains an enum that describes every existing type.

Next, you define a Base-type, from which you derive all other types like Man, Car etc.

class Base

class Man: public Base
    string d_name;
    Properties::Gender d_gender;
    int d_ageClass;
    double speed;

    Man(Properties const &properties)
        // Set properties that apply to the "Man"-class                                          

class Car: public Base
    string d_name;
    double d_speed;

    Car(Properties const &properties)
        // Set properties that apply to the "Car"-class                                          

The constructors of every class expect a Properties object, from which they extract the fields that are appropriate to them. For example, the Car constructor won't be inspecting the gender field, whereas the Man constructor will.

Now, you define a Loader class which will handle the parsing. It contains a member readFile that returns a vector of Base*, such that you have pointers to all initialized objects in one container. I've chosen for shared_ptr to handle the ownership problem, but you should decide what's best for your application.

class Loader
    static vector<shared_ptr<Base>> readFile(string const &fileName)
        vector< shared_ptr<Base> > result;
        ifstream file(fileName);
        // Parse the file, creating a "Properties" object, called                                
        // "props" here                                                                          

        while (file) // while EOF not reached.                                                   
            Properties props = parse(file); // implement your parse                              
                                            // routine, returning Properties.                    
            switch (props.type)
            case Properties::CAR:
                result.push_back(shared_ptr<Base>(new Car(props)));
            case Properties::MAN:
                result.push_back(shared_ptr<Base>(new Man(props)));
            // etc for all classes derived from Base                                             
                throw string("error: unknown type");

Hope this helps.

share|improve this answer
Ok. It's not so drastic. In fact, I think I do not need to build any new class at all. Basically, correct me if I'm wrong, you are suggesting me to read all the possible fields (in the "parse" function I need as many "if" condition as all possible fields of all possible object) and pass all of them to the objects, which in turn will use only the fields they really need. –  Richter Bernadell Feb 7 '14 at 9:48
@RichterBernadell Exactly. The functions that the classes have in common should of course be virtual, in order to do vec[i]->speed() for example (you'll have to provide an implementation in the Base class as well, or make it an abstract class with pure virtuals). To call functions that are specific to a certain class, the Base pointer should be cast first. In general you won't know in advance what it points to, so there dynamic_cast is in order. –  JorenHeit Feb 7 '14 at 10:38

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