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Chapter 6
Lists Plus
Goals
• Use the C++ template mechanism fr
defining generic data types
• Implement a circular linked list
• Implement a linked list with a header node
or a trailer node or both
• Implement a doubly linked list
• Distinguish between shallow copying and
deep copying
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Goals
• Overload C++ operators
• Implement a linked list as an array of
records
• Implement dynamic binding with virtual
functions
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C++ Templates
Generic Data Type
A data type for which the operations are
defined but the types of the items being
manipulated are not
Template
A C++ construct that allows the computer to
generate multiple versions of a class type or a
function by allowing parameterized types
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Templates implement generic types
C++ Templates
template <class
ItemType>
class StackType
{ ... }
// client code
StackType<int>;
StackType<float>;
StackType<NameType>;
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Formal parameter
Actual parameters
C++ Templates
Summary
• The formal parameters are in the class
template definition
• The actual parameters are in the client code
• Both formal and actual parameters are
enclosed in angle brackets <...>
• The actual parameter can be any type, builtin or user-defined
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C++ Templates
What about function templates?
Formal parameter precedes function definition
and follows class name before scope resolution
operator
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C++ Templates
template<class ItemType>
Formal parameters
void StackType<ItemType>::Push(ItemType
newItem)
{
if (IsFull()) throw FullStack();
else
{
top++;
items[top] = newItem;
}
}
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Circular Linked Lists
Circular linked list
A list in which each node has a successor;
the “last” element is succeeded by the
“first” element
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Circular Linked List
Why is it
better
to have
the
external
pointer
point
to the
last
element
?
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Circular Linked List
Initialization for search
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Circular Linked List
FindItem
cases
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Circular Linked List
Insert
an
item
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Circular Linked List
Delete
an
Item
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Doubly Linked List
Doubly linked list
A is in which each node is linked to both its
successor and its predecessor
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Doubly Linked List
Insert
an
item
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Doubly Linked List
Does
it
matter
in
which
order
we
change
the
pointers
?
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Doubly Linked List
Delete an item
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Header and Trailer Nodes
Header Node
A placeholder node at the beginning of a list that
contains a key value smaller than any possible key
Trailer Node
A placeholder node at the end of a list that contains a
key larger than any possible key
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How do
header/trailer
nodes
simplify
processing
?
Copy Structures
void CopyStack(StackType
oldStack),
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StackType& copy)
{
StackType tempStack;
ItemType item;
while (!oldStack.IsEmpty())
{
item = oldStack.Top();
oldStack.Pop();
temptStack.Push(item);
}
while (!tempStack.IsEmpty())
{
item = tempStack.Top();
copy.Pop();
}
}
What is
the status
of
oldStack?
copy?
Does the
implementation
structure
matter?
Copy Structures
oldStack is a value parameter; doesn’t that
protect it from change?
Yes, but only in the array-based implementation
private:
int top;
ItemType items[MAX_ITEMS];
top and items are enclosed within the stack
object
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Copy Structures
In a linked structure, the external pointer is
enclosed within the stack object, but the
linked structure to which it points is not
What
causes
this
problem
?
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Copy Structures
Shallow copy
An operation that copies one class object to
another without copying pointed-to data
Deep copy
An operation that not only copies one class
object to another but also makes copies of
any pointed-to data
See the difference?
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Copy Structures
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Copy Structures
In summary
 A shallow copy shares the pointed to data
with the original class object
 A deep copy stores its own copy of the
pointed to data at different locations than the
data in the original class object
How do we make a deep copy?
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Copy Structures
MyStack
Private data:
7000
6000
topPtr 7000
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30
Yes, but how?
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SomeStack
Private data:
5000
2000
topPtr 5000
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deep copy
Copy Structures
Deep Copy
if anotherStack.topPtr is NULL
Set topPtr to NULL
else
Set topPtr to the address of a newly allocated node
Set Info(topPtr) to Info(anotherStack.topPtr)
Set ptr1 to Next(anotherStack.topPtr)
Set ptr2 to topPtr
while ptr1 is not NULL
Set Next(ptr2) to the address of a newly allocated node
Set ptr2 to next(ptr2)
Set Info(ptr2) to Info(ptr1)
Set ptr1 to Next(ptr1)
Set Next(ptr2) to NULL
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Copy Structures
Relative
position
of
pointers
at the
beginning
of each
iteration
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Copy Structures
Copy constructor
A special member function of a class that is
implicitly invoked when passing a parameter by
value, initializing a variable in a declaration,
and returning an object as the value of function
StackType(const StackType&
anotherStack);
Of course, the code should implement a
deep copy!
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Copy Structures
That about the assignment operator?


The assignment operator does a shallow copy!
We can overload the assignment operator
class StackType
{
public:
...
void operator=(StackType);
private:
...
void StackType::operator=(StackType
anotherStack)
// code for a deep copy
}30
Can
we
overload
other
operators
?
Copy Structrres
Al relational operators can be overloaded
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bool operator<(ItemType other) const;
// Returns true if self is less than
other
bool operator>(ItemType other) const;
// Returns true if self is greater than
other
bool operator==(ItemType other) const;
// Returns true if self is equal to
other
Of course, you must write the code as for
...
any other function
Array-of-Records Implementation
Array in
static
storage
Array in
dynamic
storage
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Array-of-Records Implementation
Linked list
in
static
storage
Linked list
in
dynamic
storage
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Array-of-Records Implementation
Sorted list
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Array-of-Records Implementation
A sorted
list
of values
and
a list of
free space
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Array-of-Records Implementation
Two
linked
lists
plus
free
list
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Array-of-Records Implementation
One
structure
for
each
list
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Polymorphism
Polymorphism
The ability to determine which of several operations
with the same name to apply to a particular object; a
combination of static and dynamic binding
Binding
The time at which a name or symbol is bound to the
appropriate
static binding: bound at compile time
dynamic binding: bound at run time
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Polymorphism
NewItemType is derived from ItemType
void PrintResult(ItemType& first, ItemType&
second);
How can this be?
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Polymorphism
C++ relaxes scope rules to allow dynamic
binding
The type of the actual parameter may be an
object of a derived class of the formal parameter
virtual void PrintResult(ItemType& first,
ItemType& second);
Word virtual in base class (ItemType),
definition forces dynamic binding
Note: Parameters must be reference
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Circular Doubly Linked List
What are the advantages of this structure?
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Circular Doubly Linked List
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C++ Tips
1. Operators :: . sizeof, and ?: may not be
overloaded
2. At least one operand must be a class instance
3. Precedence, operator symbols, or number of
operands cannot be changed
4. Overloading ++ and -- requires prefix form use by
client
5. To overload these operators = ( ) [ ], member
functions must be used
6. An operator can be given multiple meanings if the
data types of operands differ
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