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hello i have an struct like this:

struct Student
{
string name,lettergrade;
int stdnumber,*examgrades;
double  avarege;
};

I have to make a programme which it calculates student's avarege and letter grades.

I have to use this functions:

void getdata();
double calcgrades();
void show();
void erase();

I have to ask user the total number of students and total number of exams. then i have to allocate the necessary memory spaces. (with dynamic allocation)

The output screen must be like this:

Enter the number of students: 2
Enter the number of exams: 2
1. student's name: michael
1. student's school number: 5000
1. student's 1. exam grade: 50
1. student's 2. exam grade: 40
The avarege of this student is: 45 Letter grade: F
2. student's name: [b]mary[/b]
2. student's school number: 6000
2. student's 1. exam grade: 70
2. student's 2. exam grade: 80
The avarege of this student is: 75 Letter grade: B

My problem is, i cant allocate it for the string variables, like student name and letter grade... (in the getdata function)

Letter grades are A: 85-100, B:75-84, C:65-74, D:50-64,F:0-49 over 100 points.

Can anyone has any idea about this problem?

EDIT:

void getdata()
{
    int i,j;
    i=0;j=0;
    int stdnumber;
    int examnumber;
    cout<<"How many students..."<<endl;
    cin>>stdnumber;
    Student k[stdnumber];
    cout<<"How many exams...."<<endl;
    cin>>examnumber;
    for (i=0;i<stdnumber;i++)
    {
        cout<<i+1<<". student's name: "<<endl;
        cin>>k[i].name;
        cout<<i+1<<". student's school number: "<<endl;
        cin>>k[i].stdnumber;
        for (j=0;j<examnumber;j++)
        {
            cout<<i+1<<". student's "<<j+1<<". exam grade: "<<endl;
            cin>>k[i]->examgrades; //The error is here: base operand of '->' has non-pointer type 'Student'|

        }
    }

}

What I'm trying to tell you is my problem is with the pointers. I dont know how can I allocate the enough memory space for the exam grades?

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What is your code so far? Where are you encountering problems? –  Luchian Grigore Oct 12 '11 at 11:27
1  
"I have to make" is this homework? Haven't they told you then a few tools already from which you could chose? –  PlasmaHH Oct 12 '11 at 11:30
    
Sure let's close this as not constructive. </sarcasm> @WhoCares Can you use std::vector? –  R. Martinho Fernandes Oct 12 '11 at 11:59
    
Also, how is getdata supposed to return the data? –  R. Martinho Fernandes Oct 12 '11 at 12:07
    
C++ does not have variable length arrays and so Student k[stdnumber]; is not valid C++. This is a common newbie mistake. –  user195488 Oct 12 '11 at 12:10

2 Answers 2

up vote 2 down vote accepted

In your code k is an array of Student, not an array of Student*. So you need to use . instead of ->. That's why you get that error. Another issue with that code is that you're using a non-constant value for the array size, which is not allowed in C++.

For dynamic allocation, the easiest solution would be to use std::vector. That takes care of both allocation and the deallocation, without extra care.

Given that this is homework, if for some reason you are not allowed to use std::vector you will need to use new[] and delete[].

If for some incredibly stupid reason you cannot use new[] and delete[] you'll need to use malloc and free.

share|improve this answer
    
should also add that C++ does not allow variable length arrays yet. –  user195488 Oct 12 '11 at 12:10
    
I think it is not in the standard but supported by most compilers. It is there in C99 –  balki Oct 12 '11 at 12:50
    
@balki: it isn't there in C++. Try compiling it in C++ mode. –  R. Martinho Fernandes Oct 12 '11 at 12:53
    
It is in GCC but not other major compilers, such as Visual Studio. –  Puppy Oct 12 '11 at 13:05
    
Even in GCC, it gives "ISO C++ forbids variable length array 'v' [-Wvla]" if you compile in C++ mode. –  R. Martinho Fernandes Oct 12 '11 at 13:11

You don't have to allocate any string (although there would be no problems doing so if you did). You have to allocate Student. In C++, the normal way of allocating an array of Student would be:

std::vector <Student> students( studentCount );

Similarly, the normal way of allocating an array of int would be:

std::vector <int> examgrades( examCount );

This would require changing the structure of Student to something like:

struct Student
{
    std::string         name;
    std::string         letterGrade;
    int                 studentNumber;
    std::vector <int>   examGrades;
    double              average;

    Student( int examCount ) : examGrades( examCount ) {}
};

If you use a pointer for Student::examGrades, there is no way to write the code correctly in C++ without providing both a constructor and a destructor for Student. If you do the above, once you've entered the number of students and the number of exams, all that you have to do is:

std::vector <Student> students( studentCount, Student( examCount ) );

and everything necessary will have been allocated. Alternatively, you initialize the vector empty, and loop over the input, using push_back to add the fully initialized students. (This is actually a much better solution, since it prevents any student from ever existing without being correctly initialized.)

If your professor is trying to teach some other solution, using pointers (there should be no pointers in this program), then I'd recommend you change professors (and if possible, get this one fired for incompetence). Until then, however, you can always do

Student* students = new Student[studentCount];
for ( int i = 0; i != studentCount; ++ i )
    students[i].examGrades = new int[examCount];

Of course, getData will have to return some sort of a struct, since it has to return the pointer to the Students, plus the studentCount and the examCount. And somewhere, you'll have to write code to delete all of this memory. (And if you really want to do it correctly, you'll have to wrap most code in a lot of try ... catch blocks, to correctly free the memory if there is an exception. std::vector takes care of the allocation, the deletes, and all of the exception handling for you.)

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