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March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 1 Structure Pointer Operator For accessing members in structures and classes we have.

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Presentation on theme: "March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 1 Structure Pointer Operator For accessing members in structures and classes we have."— Presentation transcript:

1 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 1 Structure Pointer Operator For accessing members in structures and classes we have used the member operator ‘.’.For accessing members in structures and classes we have used the member operator ‘.’. Now we introduce the structure pointer operator ‘->’, which provides access to the members of a structure via a pointer.Now we introduce the structure pointer operator ‘->’, which provides access to the members of a structure via a pointer. If a pointer variable is assigned the address of a structure or class object, a member of the object can be accessed by the ‘->’ operator.If a pointer variable is assigned the address of a structure or class object, a member of the object can be accessed by the ‘->’ operator.

2 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 2 Structure Pointer Operator Example: int main() { MyClass a, *b; a.SetValue(9);b->SetValue(5);(*b).SetValue(7);} Member access is correct in all three cases.

3 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 3 Constructors and Destructors Now we are going to talk about two examples for classes with constructors and destructors:two examples for classes with constructors and destructors: a singly linked lista singly linked list a two-dimensional arraya two-dimensional array overloaded operators and user-defined conversionsoverloaded operators and user-defined conversions

4 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 4 A Singly Linked List We are going to develop a singly linked list datatype.We are going to develop a singly linked list datatype. This is the prototype of many useful dynamic abstract data types (ADTs) called self-referential structures.This is the prototype of many useful dynamic abstract data types (ADTs) called self-referential structures. Self-referential structures have pointer members that refer to objects of their own type.Self-referential structures have pointer members that refer to objects of their own type. Such structures are the basis of many useful container classes.Such structures are the basis of many useful container classes.

5 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 5 A Singly Linked List We want to be able to perform the following list operations: Prepend: adds an element to the front of the list Prepend: adds an element to the front of the list First: returns the first element in the list First: returns the first element in the list Print: prints the list contents Print: prints the list contents Del: deletes the first element in the list Del: deletes the first element in the list Release: destroys the list Release: destroys the list

6 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 6 A Singly Linked List struct SListElem { char data; SListElem *next; }; class SList { public: SList(): h(0) {}// 0 denotes empty list ~SList() { Release(); } void Prepend(char c); void Del(); SListElem *First() const { return h; } void Print() const; void Release(); private: SListElem *h;// head of SList };

7 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 7 A Singly Linked List void SList::Prepend(char c) { SListElem *temp = new SListElem; // create new element assert( temp != 0); temp->next = h;// link to SList temp->data = c; h = temp;// update head of SList }

8 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 8 A Singly Linked List void SList::Del() { SListElem *temp = h; if (temp != 0) { h = h->next;// let head point to 2nd element delete temp;// delete 1st element }

9 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 9 A Singly Linked List void SList::Print() const { SListElem *temp = h; while (temp != 0)// detect end of Slist { cout data "; temp = temp->next;// temp proceeds to next element } cout << "NULL\n"; }

10 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 10 A Singly Linked List void SList::Release() { while (h != 0)// as long as there are elements... Del();//... delete them. }

11 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 11 A Singly Linked List int main() { SList MyList; MyList.Prepend('S'); MyList.Prepend('T'); MyList.Prepend('A'); MyList.Prepend('R'); MyList.Prepend('T'); MyList.Del(); MyList.Print(); } Output: R -> A -> T -> S -> NULL

12 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 12 A Two-Dimensional Array We are now going to implement a dynamic and safe two-dimensional array. We will use a pointer-to-pointer-to-base type structure for this implementation.

13 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 13 A Two-Dimensional Array class Matrix { public: Matrix(int sizeX, int sizeY); ~Matrix(); int GetSizeX() const { return dx; } int GetSizeY() const { return dy; } long &Element(int x, int y);// return reference to an element void Print() const; private: long **p;// pointer to a pointer to a long integer int dx, dy; };

14 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 14 A Two-Dimensional Array Matrix::Matrix(int sizeX, int sizeY) : dx(sizeX), dy(sizeY) { assert(sizeX > 0 && sizeY > 0); p = new long*[dx];// create array of pointers to long integers assert(p != 0); for (int i = 0; i < dx; i++) { p[i] = new long[dy]; // for each pointer, create array of long integers assert(p[i] != 0); for (int j = 0; j < dy; j++) p[i][j] = 0; }

15 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 15 A Two-Dimensional Array Matrix::~Matrix() { for (int i = 0; i < dx; i++) delete [] p[i];// delete arrays of long integers delete [] p;// delete array of pointers to long integers } long &Matrix::Element(int x, int y) { assert(x >= 0 && x = 0 && y < dy); return p[x][y]; }

16 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 16 A Two-Dimensional Array void Matrix::Print() const { cout << endl; for (int y = 0; y < dy; y++) { for (int x = 0; x < dx; x++) cout << p[x][y] << "\t"; cout << endl; }

17 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 17 A Two-Dimensional Array int main() { Matrix MyMatrix(3, 5); MyMatrix.Element(1, 1) = 88; MyMatrix.Element(2, 2) = 11; MyMatrix.Element(2, 4) = MyMatrix.Element(1, 1) + MyMatrix.Element(2, 2); cout << MyMatrix.Element(2, 4) << endl; MyMatrix.Print(); }

18 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 18 A Two-Dimensional Array Output: 99 000 0880 0011 000 0099

19 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 19 ADT Conversions Previously we talked about constructors as conversions. For example, in our class ModInt we provided the following constructor: ModInt(int i = 0): v(i % modulus) {} It is used automatically to convert values of type int into values of type ModInt: int i = 39; ModInt m; m = i; // legal operation

20 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 20 ADT Conversions However, this constructor does not tell the compiler how to convert a ModInt value into an int value: int i = 39; ModInt m; i = m; // illegal operation It is not possible for the user to add a constructor to a built-in type such as int or double. How can we solve this problem?

21 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 21 ADT Conversions The solution is to provide a special conversion function inside the user-defined class. The general form of such a member function is: operator type() { … } Such a member function must be nonstatic, have no parameters, have no declared return type, return an expression of the designated type.

22 March 6, 2014CS410 – Software Engineering Lecture #10: C++ Basics IV 22 ADT Conversions For example, we could add such a special conversion function to the ModInt class: ModInt::operator int() { return v; } Then the following code is correct: int i = 39; ModInt m; i = m; Here, I receives the value 0.

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