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I'm trying to read similar array format as PHP uses:

"data" => array(
    "keyname1" => "string", 
    "somearraykeyname" => array(
        "keyname1" => "more strings", 
        "keyname2" => "bla bla", 
        "moar" => array(
            "first" => 1, 
            "second" => 2, 
            "third" => "3",
        ),
        "keyname3" => 25,
    ), 
    "keyname2" => 13.37, 
    "keyname3" => 1337, 
    "array without keynames" => array(
        "keke", 
        "lala", 
        "lolo",
    ),
);

But i stumbled upon on the multiple possible types problem. How can this done in C++ the best way ?

I was thinking to create a struct with all possible types for each element:

struct GeneralType {
    char WhichType; // which type we are using for this value
    int IntVal;
    float FloatVal;
    string StringVal;
};

And when i read an element, i will decide by the value which type it will get, and then convert the value to correct type and set it to the correct variable (IntVal, FloatVal or StringVal). Also i will keep track which type the value is currently using with WhichType variable, so i can easily pick the correct variable when i use the value.

Is this anywhere near a good approach?

Also, theres another problem; how can i define std::vector without knowing the depth of the array beforehand? i could type vector<vector<GeneralType> > if each element always was an array itself. But not all elements are arrays. So, i dont know how to solve this with std::vector. Is it even possible ?

First idea i had, was to simply just make the key sequence into a string that is stored in an std::map key, where the std::map value would be GeneralType type, and this way i would be able to define any dimensional easily, and also get the value i want quickly, something like this:

Mymap["data/somearraykeyname/moar"] = GeneralTypeValue; // this value not used, it will be a marker only, so i can get the first item position in the std::map easily.
Mymap["data/somearraykeyname/moar/first"] = GeneralTypeValue; // array "moar" key "first" value.

But this method prevents me from quickly looping through all the elements from a specific array. Although, the keys are sorted, so i should have the correct order always; but, it would require me to parse the key each time, and check if the array changed at next element. This could work, but not very efficiently.

What other ideas could there be for this?

Edit: I also want to be able to call an N-dimension array like: array["data"]["somearraykeyname"]["moar"]["first"] And then if the value type is array, i could be able to loop the array as if it was vector of GeneralType

share|improve this question

Use a boost::variant. It will remember the type inside it itself and is pretty easy to use.

share|improve this answer
1  
does this solve the multidimensionality problem i mentioned? also, i would like to know how this can be done without boost – Rookie Feb 8 '11 at 12:35
1  
Edit: I want to be able to call an N-dimension array like: array["data"]["somearraykeyname"]["moar"]["first"] is that possible with boost:variant? – Rookie Feb 8 '11 at 16:14

You should consider using a boost::any, which can hold any data type.

If you want your elements to contain arrays themselves, you can wrap a std::vector in a boost::any, and check when you access the elements of your array, if they are themselves arrays.

share|improve this answer
    
an example of "wrapping" could be nice, if that is what solves my multidimensionality problem – Rookie Feb 8 '11 at 12:36

use union, not struct, this is what the are intended for.

share|improve this answer
    
That's what I was going to say, but then I remembered that non-POD types (string in this case) can't be union members. – Sergey Tachenov Feb 7 '11 at 13:43
    
o, he's got strings... well, there can be made 2 decesions: 1) use boost::any 2) change string to string* and save it to union. – f0b0s Feb 7 '11 at 13:45
struct GeneralType { };

struct IntType : public GeneralType { int IntVal; };
struct FloatType : public GeneralType { float FloatVal; };
struct StringType : public GeneralType { string StringVal; };

vector<GeneralType*> vec;
vec.push_back(new IntType);
vec.push_back(new FloatType);
vec.push_back(new StringType);

for (int i=0; i<3; ++i)
{
 IntType* type = dynamic_cast<IntType>(vec[i]);
 if (type != 0)
 {
 // using type->IntVal
 }
 else
 {
  FloatType* type = dynamic_cast<FloatType>(vec[i]);
  if (type != 0)
  {
   // using type->FloatVal
  }
  else
  {
   StringType* type = dynamic_cast<StringType>(vec[i]);
   if (type != 0)
   {
   // using type->StringVal
   }
  }
 }
}
share|improve this answer
    
could you elaborate a bit what is this code doing? – Rookie Feb 7 '11 at 14:41
    
it is a really bad code -- it is the same as using void* and c-casting, but it also uses RTTI which makes your program slower. – f0b0s Feb 7 '11 at 15:57
    
The dynamic casts will fail. There is no RTTI for GeneralType, because it does not have any virtual member function. – Thomas Feb 8 '11 at 16:45

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