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How do I verify that an object being pointed by a pointer is valid

relevant code

LookupTable<Product *> table;
Product temp = *table[selection];
// if *table[selection] is not a product, program crashes...

Here is what Lookup table is:

#ifndef LOOKUPTABLE_H
#define LOOKUPTABLE_H

#include <iostream>
#include <string>

using namespace std;

#define MAXRANGE 10

template <class T>
class LookupTable
{
private:
    T *aptr[MAXRANGE];
    int rangeStart[MAXRANGE];
    int rangeEnd[MAXRANGE];
    int numRanges;

public:
    T defaultValue;
    bool failedRangeCheck;
    std::string failReason;


    // Constructor
    LookupTable() 
    {   
        numRanges = 0; 
        defaultValue = T();
    }      

    void addRange(int start, int end)
    {
        std::cout << "Created a new range...  Start: " << start << " / End: " << end << endl;
        failedRangeCheck = false;

        //lines omitted because not working anyway

        if ( !failedRangeCheck )
        {
            //set ranges
            rangeStart[numRanges] = start;
            rangeEnd[numRanges] = end;

            //build new generic array with end-start+1 positions
            //set pointer to point to it
            aptr[numRanges] = new T[ end - start + 1 ];
            numRanges++;
        }
        else
        {
            std::cout << "Range overlapped another range." << endl;
            std::cout << failReason << endl;
        }
    }

    T &operator[](int value)     // Overloaded [] operator
    {
        for ( int i = 0; i < numRanges; i++ )
        {
            if ( (value >= rangeStart[i]) && (value <= rangeEnd[i]) )
            {
                return aptr[i][value - rangeStart[i]];
            }
        }

        return defaultValue;
    }

    ~LookupTable()
    {
         delete[] aptr;
         numRanges = 0;     
    }

};
#endif
share|improve this question
2  
why would it not be a a product? C++ is statically typed, unlike python –  Anycorn Nov 3 '10 at 23:59
    
@aaa: That's a good point. I (and I guess all the other people who answered) had misread and had assumed that there was some polymorphism going on here. But apparently not... –  Oliver Charlesworth Nov 4 '10 at 0:05
    
its not that it does not contain a product, its that the product object might not yet be inserted into that position –  JustinY17 Nov 4 '10 at 0:09
    
@Justin: Then you've done it wrong. You're trying to do too much. Either make a class that implements a look-up table, or use a class that implements it. Don't both use and implement it. Give everyone the bigger picture so they can show you how. –  GManNickG Nov 4 '10 at 0:11
    
@JustinY17: You should set unused elements to NULL. –  Oliver Charlesworth Nov 4 '10 at 0:12

6 Answers 6

up vote 1 down vote accepted

Based on the code of LookupTable that you posted in a subsequent question, this question can finally be answered. (Really, I think you ought to just put that code here and remove the other question.)

table[selection] either returns a reference to an entry in the table (if the selection is found) or otherwise a reference to a default-initialized object. When LookupTable is specialized for a pointer type (such as the Product* in your code) then the default-initialized object will be a NULL pointer.

So, for the LookupTable<Product*> in your code, the expression table[selection] is either going the result in a pointer to a Product found within the table or else a NULL Product pointer.

Consequently, instead of immediately dereferencing the result of table[selection] and trying to assign it to a Product object, you should actually take the pointer value and examine it.

This would be accomplished with code similar to:

Product* result = table[selection];
if(result != NULL)
{
    Product temp = *result;
    // do something with temp, etc, etc
}
else
{
    cout << "invalid product code" << endl;
}
share|improve this answer
    
i have this implementation working in my code now, but i am still crashing when a user inputs product code that points to a null Product pointer –  JustinY17 Nov 4 '10 at 1:57
    
Is table[selection] actually returning a NULL pointer as expected in that case? What line of code is it actually crashing on? It's rather hard for me to guess what might be wrong without more information. –  TheUndeadFish Nov 4 '10 at 2:08

table is a LookupTable<Product*>. Why would it contain a pointer that isn't a Product*? That doesn't make any sense.

You shouldn't ever need to do this. The only reasons you would need to do this are if:

  • Through some convoluted cast you inserted a pointer to something that isn't a Product into table. The only solution to this is "don't do that."

  • You have a pointer to what was a Product object, but you've screwed up your object lifetime management and you destroyed the object before you were done with it. The solution to this is to use scope-bound resource management (SBRM, also called Resource Acquisition is Initialization, or RAII), which allows lifetimes to be automatically managed. Use a smart pointer container like shared_ptr/weak_ptr to facilitate this.

  • You put a null pointer into the table. In this case, you can either just not put null pointers into the lookup table, or check whether a pointer is null after you obtain it from the table.

share|improve this answer
    
i guess my question was more of how can i check to see if the pointer is null or not? –  JustinY17 Nov 4 '10 at 0:11
3  
@JustinY17: if (!p) { /* p is null */ }. May I recommend a good introductory C++ book? –  James McNellis Nov 4 '10 at 0:12

You can use dynamic_cast:

if (dynamic_cast<Product *>(table[selection])) != NULL)
{
    ...
}

But DON'T DO THIS. If you find yourself needing to take specific action based on the runtime type of an object, you're almost certainly doing something wrong. This is what virtual functions are for.

share|improve this answer

It sounds like you need dynamic_cast. But your design also sounds suspect. Why would your collection not contain the right types ? Or, if you need to make decisions based upon the type of your object, then some form of polymorphism is what you'd most likely require.

share|improve this answer

You can use RTTI. Include the <typeinfo> header, and say:

if (typeid(*table[selection]) == typeid(Product)) { ... }

But something is really fishy here... the above statement is basically tautological, and you shouldn't need to do this at all. C++ is a strongly typed language, and so any object contained in a container of Product objects is, by definition, an instance of Product - unless you did something ridiculous, like inserting an invalid object into the container using a reinterpret_cast.

share|improve this answer
    
its not that its invalid, it just might not have been initiated yet. –  JustinY17 Nov 4 '10 at 0:07
2  
You seem to have a fundamental misunderstanding of the type system. It doesn't matter whether it's "initiated" (do you mean initialized/constructed?) - it's still a pointer of type Product –  Charles Salvia Nov 4 '10 at 0:09
    
If table[selection] == NULL, then typeid will throw an exception. If it hasn't been initialised, then undefined behaviour will ensue... –  Oliver Charlesworth Nov 4 '10 at 0:10
    
i see what you are saying now, so how do i see if it has been initialised –  JustinY17 Nov 4 '10 at 0:12
    
You can't tell if a particular pointer points to an initialized object, given only the pointer itself. But why would you be inserting uninitialized pointers into a container in the first place? –  Charles Salvia Nov 4 '10 at 0:14
Product * temp = dynamic_cast<Product*>(table[selection]);
if (temp) {
   do something
}

and GO AHEAD AND DO THIS. People will tell you not to, but don't listen to them.

share|improve this answer
4  
-1 purely for the advice to "go ahead and do this". Perhaps this was meant in jest, but otherwise, this is absolutely terrible advice! –  Oliver Charlesworth Nov 4 '10 at 0:02
    
@Oli: I think it a better general policy to ask for an explanation and debate the merits rather than immediately assume you know better than the poster. In this particular case, you're own answer advocates a fat interface, which has its own problems (see TC++PL3), and any assertion of "do one and not the other" is much less valuable if it lacks justification. –  Tony D Nov 4 '10 at 0:53
    
@Tony: dynamic_cast may fix the immediate, short-term problem. But in general, it leads to issues, and indicates massive design problems. Advocating it as a reasonable solution is simply not appropriate. My answer was non-specific; other than that virtual functions are the way to do runtime polymorphism. (As it turns out, this wouldn't help the questioner either, but their question wasn't clear.) –  Oliver Charlesworth Nov 4 '10 at 8:13
    
@haters: There are plenty of examples where dynamic_cast is good: for example, some libraries take void* pointers to 'user-data', and then give it back as a void* through some callback or something. Or, maybe I want truly heterogeneous arrays. It's irritating to me when people say "you don't want to do that" - what do they know? Sometimes we do need to do that. Opinions are fine, but people just go nuts with it. –  Colin Nov 4 '10 at 18:27

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