csi 1340 introduction to computer science ii
DESCRIPTION
CSI 1340 Introduction to Computer Science II. Chapter 3 ADTs Unsorted List and Sorted List. Self-test. Create a class called SalesPerson that includes 2 public member functions: void SetSales(int month, float amount); float GetSales(int month) const; And 1 private member variable: - PowerPoint PPT PresentationTRANSCRIPT
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CSI 1340Introduction to Computer Science II
Chapter 3ADTs Unsorted List and Sorted List
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Create a class called SalesPerson that includes 2 public member functions:
void SetSales(int month, float amount);
float GetSales(int month) const;
And 1 private member variable:float sales[12];
Self-test
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// FILE: salesperson.h// CLASS PROVIDED: SalesPerson (an ADT for a SalesPerson)// Modification member function// void SetSales(int month, float amount);// Precondition: 1 <= month <= 12; amount has been // assigned a floating point value.// Postcondition: The sales figure for the month indicated // by month has been assigned amount.// Constant member function// float GetSales(int month) const;// Precondition: 1 <= month <= 12// Postcondition: The sales figure for the month indicated // by month has been returned. // Private member variable// float sales[12];
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class SalesPerson
{
public:
void SetSales(int month, float amount);
float GetSales(int month) const;
private:
float sales[12];
};
C++ Class - salesperson.h
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Create a correct C++ implementation file (.cpp) for the SalesPerson class
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C++ Implementation - salesperson.cpp
#include “salesperson.h” void SalesPerson::SetSales(int month, float amount){
sales[month - 1] = amount;}float SalesPerson::GetSales(int month) const{
return sales[month - 1];}
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Show how the SalesPerson class can be utilized in a program (Main.cpp) to:
(1) set the sales figure for month 1 to $1500.00(2) set the sales figure for month 2 to $1000.00(3) display the following:
Sales for month 1 = $1500.00
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C++ Program- main.cpp
#include <iostream>#include “salesperson.h”using namespace std;int main( ) {
SalesPerson s;s.SetSales(1, 1500.00);s.SetSales(2, 1000.00);cout << “Sales for month 1 = $“ << s.GetSales(1)
<< endl;return 0;
}
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Class Constructors
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You may declare as many constructors as you like--one for each different way of initializing an object.
Each constructor must have a distinct parameter list so that the compiler can tell them apart.
Only one default constructor is allowed.
Rules for Constructors
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Do we still need a public member function that assigns values to the
private member variables if we include a constructor?
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Public member functions can be called at any time by the user.
A constructor (either the default or an alternative) is utilized only once, when an object is declared. It cannot be called by the user.
Yes!!
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Show the implementation for a default constructor for the SalesPerson class
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SalesPerson::SalesPerson( )
{
for (i = 0; i < 12; i++)
sales[i] = 0.0;
}
Default Constructor for SalesPerson
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Function Overloading: Creating several variants of the same function, distinguishing only by parameter types
Operator Overloading: Gives a new definition for an existing operator (i.e., =, = =, +, +=, . . .)
Often used to define new meanings for operators of a class.
Overloading
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Determines how values are copied from one object to another.
Consists of two operators:Assignment operatorCopy constructor
Determining Class Value
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y = x copies the value of x to y.For a class, assignment should be carried out by
copying the value of each private member variable from class x to class y.
Assignment Operator
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Initializes a new object as an exact copy of an existing object.
The copy constructor is a constructor with exactly one parameter, and the data type of the parameter is the same as the constructor class, e.g., Time(const Time& w);
Examples of its useTime y(x);
Time y = x; // Not assignment because y is created
Time y = Time(x);
Copy Constructor
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Assignment operatorAssigns the values of one object to another object.
Copy ConstructorUsed whenever a new object is created and initialized to
an existing object of the same type.
Assignment vs. Copy Constructor
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C++ provides an automatic assignment operator and an automatic copy constructor.
For some classes, the automatic versions fail and programmers must either write their own or indicate that the value semantics are not safe to use.
Assignment Operator & Copy Constructor in C++
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Testing the Copy Constructor
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#include <iostream>#include “time.h”using namespace std;int main( ){
Time t;t.setTime(13,37,6);Time s(t); // May generate a fatal errort.printStandard( );s.printStandard( );return 0;
}
Testing the Copy Constructor
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Creating Your Own Copy Constructor
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class Time{public:
Time( );Time(int hr,int min,int sec);Time(const Time& w);. . .
private:int hour;int minute;int second;
}
Copy Constructor Header File (time.h)
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#include “time.h”
Time::Time(const Time& w)
{
hour = w.hour;
minute = w.minute;
second = w.second;
}
Copy Constructor Implementation File (time.cpp)
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Testing the Assignment Operator (=)
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#include <iostream>#include “time.h”using namespace std;int main( ){
Time t;t.setTime(13,37,6);Time s;s = t; // May generate a fatal errort.printStandard( );s.printStandard( );return 0;
}
Assignment Operator (=) Use in Main.cpp
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Overloading theAssignment Operator (=)
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class Time{public:
Time( );. . .void operator=(const Time& w);
private:int hour;int minute;int second;
}
Assignment Operator (=) Header File (time.h)
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#include “time.h”
void Time::operator=(const Time& w)
{
hour = w.hour;
minute = w.minute;
second = w.second;
}
Assignment Operator (=) Implementation File (time.cpp)
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What is a List?
A list is a homogeneous collection of elements, with a linear relationship between elements.
That is, each list element (except the first) has a unique predecessor, and each element (except the last) has a unique successor.
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Sorted and Unsorted Lists
UNSORTED LIST
Elements are placed into the list in no particular order.
SORTED LIST
List elements are in an order that is sorted in some way -- either numerically or alphabetically by the elements themselves, or by a component of the element (called a KEY member) .
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ADT Unsorted List OperationsTransformers
– MakeEmpty – InsertItem – DeleteItem
Observers – IsFull– LengthIs– RetrieveItem
Iterators – ResetList – GetNextItem
change state
observe state
process all
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// SPECIFICATION FILE ( unsorted.h )#include “ItemType.h”
class UnsortedType // declares a class data type{public : // 8 public member functions
void MakeEmpty ( ) ;bool IsFull ( ) const ; int LengthIs ( ) const ; // returns length of listvoid RetrieveItem ( ItemType& item, bool& found ) ;void InsertItem ( ItemType item ) ; void DeleteItem ( ItemType item ) ; void ResetList ( );void GetNextItem ( ItemType& item ) ;
private : // 3 private data members
int length ; ItemType info[MAX_ITEMS] ; int currentPos ;
} ;
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Class Interface Diagram
UnsortedType class
IsFull
LengthIs
ResetList
DeleteItem
InsertItem
MakeEmpty
RetrieveItem
GetNextItem
Private data:
length
info [ 0 ] [ 1 ] [ 2 ]
[MAX_ITEMS-1]
currentPos
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// IMPLEMENTATION FILE ARRAY-BASED LIST ( unsorted.cpp )#include “itemtype.h”
void UnsortedType::MakeEmpty ( ) // Pre: None.// Post: List is empty.{
length = 0 ;}
void UnsortedType::InsertItem ( ItemType item )// Pre: List has been initialized. List is not full. Item is not in list.// Post: item is in the list.{
info[length] = item ;length++ ;
}
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Before Inserting Hsing into anUnsorted List
length 3
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] .
. .
[MAX_ITEMS-1]
The item willbe placed intothe length location,and length will beincremented.
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After Inserting Hsing into anUnsorted List
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
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void UnsortedType::LengthIs ( ) const// Pre: List has been inititalized.// Post: Function value == ( number of elements in list ).{
return length ;}
bool UnsortedType::IsFull ( ) const// Pre: List has been initialized.// Post: Function value == ( list is full ).{
return ( length == MAX_ITEMS ) ;}
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void UnsortedType::RetrieveItem ( ItemType& item, bool& found ) { bool moreToSearch ;
int location = 0 ;
found = false ;moreToSearch = ( location < length ) ;while ( moreToSearch && !found ){
switch ( item.ComparedTo( info[location] ) ) { case LESS :
case GREATER : location++ ; moreToSearch = ( location < length ) ;
break; case EQUAL : found = true ;
item = info[ location ] ;break ;
} }}
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Retrieving Ivan from anUnsorted List
moreToSearch: true
found: false
location: 0
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
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Retrieving Ivan from anUnsorted List
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
moreToSearch: true
found: false
location: 1
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Retrieving Ivan from anUnsorted List
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
moreToSearch: true
found: false
location: 2
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Retrieving Ivan from anUnsorted List
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
moreToSearch: true
found: false
location: 3
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Retrieving Ivan from anUnsorted List
length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
moreToSearch: false
found: false
location: 4
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void UnsortedType::DeleteItem ( ItemType item ) // Pre: item’s key has been inititalized.// An element in the list has a key that matches item’s.// Post: No element in the list has a key that matches item’s.{
int location = 0 ; while (item.ComparedTo (info [location] ) != EQUAL )
location++;
// move last element into position where item was located
info [location] = info [length - 1 ] ;length-- ;
}
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Deleting Bradley from anUnsorted List
location: 0 length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
Key Bradley hasnot been matched.
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Deleting Bradley from anUnsorted List
location: 1 length 4
info [ 0 ] Maxwell
[ 1 ] Bradley
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
Key Bradley hasbeen matched.
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Deleting Bradley from anUnsorted List
location: 1 length 4
info [ 0 ] Maxwell
[ 1 ] Hsing
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
Placed copy oflast list elementinto the position where the key Bradley was before.
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Deleting Bradley from anUnsorted List
location: 1 length 3
info [ 0 ] Maxwell
[ 1 ] Hsing
[ 2 ] Asad
[ 3 ] Hsing .
. .
[MAX_ITEMS-1]
Decremented length.
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void UnsortedType::ResetList ( ) // Pre: List has been inititalized.// Post: Current position is prior to first element in list.{
currentPos = -1 ;}
void UnsortedType::GetNextItem ( ItemType& item ) // Pre: List has been initialized. Current position is defined.// Element at current position is not last in list.// Post: Current position is updated to next position.// item is a copy of element at current position.{
currentPos++ ;item = info [currentPos] ;
}
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// SPECIFICATION FILE ( itemtype.h )
const int MAX_ITEM = 5 ;enum RelationType { LESS, EQUAL, GREATER } ;
class ItemType // declares class data type{public : // 3 public member functions
RelationType ComparedTo ( ItemType ) const ; void Print ( ) const ;
void Initialize ( int number ) ;
private : // 1 private data memberint value ; // could be any different type
} ;
Specifying class ItemType
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// IMPLEMENTATION FILE ( itemtype.cpp )// Implementation depends on the data type of value.
#include “itemtype.h”#include <iostream.h>
RelationType ComparedTo ( ItemType otherItem ) const {
if ( value < otherItem.value )return LESS ;
else if ( value > otherItem.value )return GREATER ;
else return EQUAL ;}
void Print ( ) const {
cout << value << endl ;}
void Initialize ( int number ){
value = number ; }
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Private data
value
ComparedTo
Initialize
class ItemType
ItemType Class Interface Diagram
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SortedType Class Interface Diagram
SortedType class
IsFull
LengthIs
ResetList
DeleteItem
InsertItem
MakeEmpty
RetrieveItem
Private data:
length
info [ 0 ] [ 1 ] [ 2 ]
[MAX_ITEMS-1]
currentPos
GetNextItem
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Member functions
Which member function specifications and implementations must change to ensure that any instance of the Sorted List ADT remains sorted at all times?
– InsertItem
– DeleteItem
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InsertItem algorithm for SortedList ADT
Find proper location for the new element in the sorted list.
Create space for the new element by moving down all the list elements that will follow it.
Put the new element in the list.
Increment length.
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Implementing SortedType member function InsertItem
// IMPLEMENTATION FILE (sorted.cpp)
#include “itemtype.h” // also must appear in client code
void SortedType :: InsertItem ( ItemType item )
// Pre: List has been initialized. List is not full. item is not in list.
// List is sorted by key member using function ComparedTo.
// Post: item is in the list. List is still sorted.{
.
.
.
}
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void SortedType :: InsertItem ( ItemType item ){ bool moreToSearch ; int location = 0 ;
// find proper location for new elementmoreToSearch = ( location < length ) ;while ( moreToSearch ){ switch ( item.ComparedTo( info[location] ) )
{ case LESS : moreToSearch = false ; break ;
case GREATER : location++ ; moreToSearch = ( location < length ) ; break ;
} } // make room for new element in sorted list
for ( int index = length ; index > location ; index-- )info [ index ] = info [ index - 1 ] ;
info [ location ] = item ; length++ ;}
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DeleteItem algorithm for SortedList ADT
Find the location of the element to be deleted from the sorted list.
Eliminate space occupied by the item being deleted by moving up all the list elements that follow it.
Decrement length.
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Implementing SortedType member function DeleteItem
// IMPLEMENTATION FILE continued (sorted.cpp)
void SortedType :: DeleteItem ( ItemType item )
// Pre: List has been initialized. Key member of item is initialized.
// Exactly one element in list has a key matching item’s key.
// List is sorted by key member using function ComparedTo.
// Post: No item in list has key matching item’s key.
// List is still sorted.{
.
.
.
}
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void SortedType :: DeleteItem ( ItemType item ){ int location = 0 ;
// find location of element to be deleted
while ( item.ComparedTo ( info[location] ) != EQUAL )location++ ;
// move up elements that follow deleted item in sorted list
for ( int index = location + 1 ; index < location ; index++ )info [ index - 1 ] = info [ index ] ;
length-- ;}
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Improving member function RetrieveItem
Recall that with the Unsorted List ADT
we examined each list element beginning
with info[ 0 ], until we either found a
matching key, or we had examined all
the elements in the Unsorted List.
How can the searching algorithm be improved for Sorted List ADT?
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Retrieving Eliot from aSorted List
The sequential search for Eliot can stop when Hsing has beenexamined.
length 4
info [ 0 ] Asad
[ 1 ] Bradley
[ 2 ] Hsing
[ 3 ] Maxwell .
. .
[MAX_ITEMS-1]
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Binary Seach in a Sorted ListExamines the element in the middle of the array. Is it
the sought item? If so, stop searching. Is the middle element too small? Then start looking in second half of array. Is the middle element too large? Then begin looking in first half of the array.
Repeat the process in the half of the list that should be examined next.
Stop when item is found, or when there is nowhere else to look and item has not been found.
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void SortedType::RetrieveItem ( ItemType& item, bool& found ) // Pre: Key member of item is initialized.// Post: If found, item’s key matches an element’s key in the list and a copy // of that element has been stored in item; otherwise, item is unchanged.{ int midPoint ;
int first = 0; int last = length - 1 ;
bool moreToSearch = ( first <= last ) ;
found = false ;while ( moreToSearch && !found ){ midPoint = ( first + last ) / 2 ; // INDEX OF MIDDLE ELEMENT
switch ( item.ComparedTo( info [ midPoint ] ) ) {
case LESS : . . . // LOOK IN FIRST HALF NEXT case GREATER : . . . // LOOK IN SECOND HALF NEXT case EQUAL : . . . // ITEM HAS BEEN FOUND
} }}
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Trace of Binary Search
info[0] [1] [2] [3] [4] [5] [6] [7] [8] [9]
15 26 38 57 62 78 84 91 108 119
item = 45
first midPoint last
info[0] [1] [2] [3] [4] [5] [6] [7] [8] [9]
15 26 38 57 62 78 84 91 108 119
first midPoint last
LESS last = midPoint - 1
GREATER first = midPoint + 1
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Trace continued
info[0] [1] [2] [3] [4] [5] [6] [7] [8] [9]
15 26 38 57 62 78 84 91 108 119
item = 45
first, midPoint, last
info[0] [1] [2] [3] [4] [5] [6] [7] [8] [9]
15 26 38 57 62 78 84 91 108 119
first, last midPoint
LESS last = midPoint - 1
GREATER first = midPoint + 1
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Trace concludes
info[0] [1] [2] [3] [4] [5] [6] [7] [8] [9]
15 26 38 57 62 78 84 91 108 119
item = 45
last first
first > last found = false
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void SortedType::RetrieveItem ( ItemType& item, bool& found ) // ASSUMES info ARRAY SORTED IN ASCENDING ORDER
{ int midPoint ;
int first = 0;
int last = length - 1 ;
bool moreToSearch = ( first <= last ) ;
found = false ;
while ( moreToSearch && !found )
{ midPoint = ( first + last ) / 2 ;
switch ( item.ComparedTo( info [ midPoint ] ) )
{ case LESS : last = midPoint - 1 ;
moreToSearch = ( first <= last ) ;
break ;
case GREATER : first = midPoint + 1 ;
moreToSearch = ( first <= last ) ;
break ;
case EQUAL : found = true ;
item = info[ midPoint ] ;
break ;
}
}
}
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Order of Magnitude of a Function
The order of magnitude, or Big-O notation, of a function expresses the computing timeof a problem as the term in a function that increases most rapidly relative to the sizeof a problem.
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Big-O of Two Functions
for (count = 1; count <= n; count++)sum += count;
sum = ((n + 1) * 2) / 2;
O(N)
O(1)
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Names of Orders of Magnitude
O(1) bounded (by a constant) time
O(log2N) logarithmic time
O(N) linear time
O(N*log2N) N*log2N time
O(N2) quadratic time
O( 2N ) exponential time
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N log2N N*log2N N2 2N
1 0 0 1 2
2 1 2 4 4
4 2 8 16 16
8 3 24 64 256
16 4 64 256 65,536
32 5 160 1024 4,294,967,296
64 6 384 4096
128 7 896 16,384
5 yearssupercomputing
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Comparison of List Operations
OPERATION UnsortedList SortedList
RetrieveItem O(N) O(N) linear search O(log2N) binary search
InsertItemFind O(1) O(N) searchPut O(1) O(N) moving downCombined O(1) O(N)
DeleteItemFind O(N) O(N) searchPut O(1) swap O(N) moving upCombined O(N) O(N)