1

I am new to C++, so please, take it easy on me, so I have the following class:

class DATA
{
    private:
        char* Name;
        char* Address;
        int Id;
        void initData(int size=200)
        {
            (this->Name)=(char*)malloc(sizeof(char)*size);
            (this->Address)=(char*)malloc(sizeof(char)*size);
        }
    public:
        void readData(void)
        {
            this->initData();
            printf("Enter Name: "); scanf("%s\n",this->Name);
            printf("Enter Address: "); scanf("%s\n",this->Address);
            printf("Enter Id: "); scanf("%d\n",&(this->Name));
        }
        void printData(void)
        {
            printf("Name: %s",this->Name);
            printf("Address: %s",this->Address);
            printf("Id: %d",this->Id);
        }
};

But when I initialise an object and then call the public methods, the following happens:

Enter Name: John Doe
Enter Address: 53 Olive, St.
Segmentation fault (core dumped)

So, if anyone can tell me why (I know what is segmentation fault, but don't get it why is it here).

3
  • are you coming from C or ObjectC? Few things.. this-> is unnecessary in context of well-defined class. name lookup resolves them using context most-nested namespace or class, looking "up" only if such identifier isn't found. It's not a mistake and you CAN see such code in C++ because there are template parameter-dependent context where such construct is required. malloc\free aren't used in C++. stdlib formatted input is unsafe like your program had illustrated. – Swift - Friday Pie Jan 31 '20 at 9:08
  • 1
    I learned C, then cast my Python OOP on the C++, I thought this->something is equivalent of self.something , so if u can, tell me the difference. Very much thanks for reply and sorry for that stupid question. – AGawish Jan 31 '20 at 9:23
  • 1
    In short, yes, it is an equivalent of self, though it's not a random choice of designer that this is a pointer. By default it can be omitted.this-> can be used in a template derived from an incomplete class and access that the parent method might be not obvious to compiler, or even dubious if there is global function with same name. this->foo equals to ThisClass::operator->(this, &ThisClass::foo). In C++ operator-> can be overridden! ThisClass might be a template and expression is dependent on template's parameters, it might have affect on choice of operator and on deduction. – Swift - Friday Pie Jan 31 '20 at 9:30
0

In the method readData

     printf("Enter Id: "); scanf("%d\n",&(this->Name));

You are supposed to take read Id which is an integer, but reading into string this->Name instead. Either

scanf("%d\n",&(this->Id));

As you are using C++, it's convenient and easier to use cin and cout than C-style scanf and printf and running into these kind of issues.

cin >> Id;
0
0

As you are writing C++ code don't use char* and malloc. At least use new or even better use std::string, which also works fine with std::cin and std::cout. Your example leaks memory as you are never freeing Name and Address.

The segmentation fault is caused by scanf("%d\n",&(this->Name)), which should be &(this->Id) as already pointed out.

1
  • I don't know how to use new yet, a reference to learn from it would be cool, thanks for reply & sorry for the stupid question. – AGawish Jan 31 '20 at 9:20

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