Post on 02-Jan-2016
description
Do you know the syntax for each of these, used to read and write to data files?
Pointers: think of it as the memory address of the file
fopen()
fclose()
fscanf()
fprintf()
fopen() returns a FILE pointer back to the pRead variable
#include <cstdio>
Main(){
FILE *pRead;pRead = fopen(“file1.dat”, “r”);
if(pRead == NULL) printf(“\nFile cannot be opened\n”);else printf(“\nFile opened for reading\n”);fclose(pRead);
}
int main (){ FILE * pFile; char c; pFile=fopen("alphabet.txt","wt"); for (c = 'A' ; c <= 'Z' ; c++) { putc (c , pFile);//works like fprintf } fclose (pFile); return 0;}
Pretty basic. Always close files when you use fopen.
Reads a single field from a data file
“%s” will read a series of characters until a white
space is found
can do fscanf(pRead, “%s%s”, name, hobby);
#include <stdio.h>Main(){ FILE *pRead;
char name[10]; pRead = fopen(“names.dat”, “r”);
if( pRead == NULL ) printf( “\nFile cannot be opened\n”); else printf(“\nContents of names.dat\n”); fscanf( pRead, “%s”, name );
while( !feof(pRead) ) { printf( “%s\n”, name ); fscanf( pRead, “%s”, name ); }
fclose(pRead);}
Kelly 11/12/86 6 LouisvilleAllen 04/05/77 49 AtlantaChelsea 03/30/90 12Charleston
Can you write a program that prints out the contents of this information.dat file?
#include <stdio.h>
Main(){ FILE *pRead;
char name[10]; char birthdate[9]; float number; char hometown[20];
pRead = fopen(“information.dat”, “r”);
if( pRead == NULL ) printf( “\nFile cannot be opened\n”); else fscanf( pRead, “%s%s%f%s”, name, birthdate, &number, hometown );
while( !feof(pRead) ) { printf( “%s \t %s \t %f \t %s\n”, name, birthdate, number,
hometown ); fscanf( pRead, “%s%s%f%s”, name, birthdate, &number,
hometown ); }
fclose(pRead);}
The fprintf() function sends information (the arguments) according to the specified format to the file indicated by stream. fprintf() works just like printf() as far as the format goes.
#include <stdio.h>
Main(){
FILE *pWrite;
char fName[20];char lName [20];float gpa;
pWrite = fopen(“students.dat”,”w”);
if( pWrite == NULL )printf(“\nFile not opened\n”);
elseprintf(“\nEnter first name, last name, and GPA separated”printf(“Enter data separated by spaces:”);
scanf(“%s%s%f”, fName, lName, &gpa);fprintf(pWrite, “%s \t %s \t % .2f \n”, fName, lName, gpa);fclose(pWrite);
}
Can you write a program that asks the user for their Name Phone Number Bank account balanceAnd then prints this information to a data file called accounts.dat ?
Summary Include #include <iostream> directive
at beginning of program Use cin to take data from user Use cout to display data on screen▪ Display multiple strings and integers in the
same cout statement by separating items with <<
#include <iostream>#include<string>using namespace std;
string name = “”;
int main(void){
cout<<“What is your name?”;cin>>name;cout<<endl<<“Hello”<<name.c_str();return 0;
}
#include <iostream>using namespace std;int x = 25;string str2 = “This is a test”;
int main( void ){
cout<<“Test”<<1<<2<<“3”;cout<<25 %7<<endl<<str2.c_str();return 0;
}
Test 1234This is a test
How a computer stores data in its internal memory RAM (Random-Access Memory) -
temporary ROM (Read-Only Memory) – non volatile Store data in bytes
How you store data temporarily Create variables based on fundamental
types (bool, char, int, float) constants: #define CONSTNAME value sizeof()
TYPE SIZE VALUES
bool 1 byte true (1) or false (0)
char 1 byte ‘a’ to‘z’ , ‘A’ to ‘Z’, ‘0’ to ‘9’, space, tab, and so on
int 4 bytes -2,147,483,648 to 2,147,483,647
short 2 bytes -32,768 to 32,767
long 4 bytes -2,147,483,648 to 2,147,483,647
float 4 bytes + - (1.2 x 10^-38 to 3.4 x 10^38)
double 8 bytes +- (2.3 x 10^-308 to -1.7 x 10^308)
What do each of the following evaluate to?
1. long elves = 8;int dwarves = 8;if(elves==dwarves) //true or false?if(elves!=0) //true or false?
2. int elves = 4;int dwarves = 5;if(dwarves > (2/3)) //true or false?
3. if(0 < x < 99) //true or false?4. if(0<= (0<1))//true or false?
What do each of the following evaluate to?1. long elves = 8;
int dwarves = 8;if(elves==dwarves) //trueif(elves!=0) //true
2. int elves = 4;int dwarves = 5;if(dwarves > (2/3)) //true
3. if(0 < x < 99) //true …TRUE (1) and FALSE (0) < 99
4. if(0<= (0<1))//true
if(condition)statement;
else if (condition)statement;
condition ? expr1 : expr2 ex. z = ( x > y ) ? y : x ; Can we do next statement?
(x>y) ? cout << “x is greater than y.” : cout << “x isn’t greater than y.”
switch(expression){case expr1:
statement;break;
case expr2:statement;break;
case expr3:statement;break;
default:statementsbreak;
}
while (condition){
statements;}
do{
statements;}while(condition);
for (initialization; condition; expression){
statements;} Incrementing: Prefix and Postfixint x = 5;int y = 6;int z = y++ //z=6, y=7 postfix
operator int z = ++x //z=6, x=6 prefix
operator
Keyword Purpose
break Exits the nearest enclosing “switch” statement or iteration statement
continue Starts the next loop of the nearest enclosing iteration statement
goto Jumps to a particular place in your code
return Ends a function and returns a value
Can you write a program that prints out the following?
0 1 2 3 4 5 6 7 8 9
for ( int count = 0; count < 10; count ++)
{cout <<count<<“”;
}
1. Write a conditional statement that will assign x/y to x if y doesn’t equal 0.
2. Write a while loop that calculates the summative of positive integers from 1 to some number n.
3. Write a conditional statement that assigns x*y if x is even; otherwise , if x is odd and y doesn’t equal 0, assign x to x/y; if neither of the preceding cases is true, output to the screen that y is equal to 0.
Function declarationFunction definitionFunction call
#include <iostream>using namespace std;
int add(int a, int b);
int main(void){
int number1, number2;cout << “Enter the first value to be summed:”;cin >> number1;cout << “\nEnter the second:”;
cin >> number2;cout << “\n The sum is: “ << add (number1, number2) <<endl;
}
int add(int a, int b){
return a+b;}
Write a function, called multiply that multiplies two numbers and returns the result
Declare classes Create objects
3 MAIN PRINCIPLES OF OOP Data abstraction – hiding data members and
implementation of a class behind an interface so that the user of the class corrupt that data
Encapsulation – each class represents a specific thing or concept. Multiple classes combine to produce the whole
Polymorphism-objects can be used in more than one program
Classes are general models from which you can create objects
Classes have data members either data types or methods
Classes should contain a constructor method and a destructor method
See handout for example of a program that utilizes a class
class ClassName{
memberList};
memberList can be either data member declarations or method declarations
Class Bow{
//data member declarationsstring color;bool drawn;int numOfArrows;
Bow(string aColor); //constructor~Bow(); //destructor
//methodsvoid draw();int fire();
};
Return_type ClassName::methodName(argumentList)
{methodImplementation
}
//draws the bowVoid Bow::draw(){
drawn = true;cout<< “The “<<color<<“bow has been drawn.”<<endl;
}
ArraysPointers
data_type array_name [number-of-elements];
Two Dimensional Arrayarray_type array_name [number_ofelements1]
[number_of_elements2];
type* pointer_name;
ex. int my_int;int* my_int_pointer =
&my_int;
Assigns the address of my_int to the pointer
Copying strings from one to another char* strcpy(char* p, const char* q); char s[6];
strcpy(s, “Hello”);
To combine strings char* strcat(char* p, const char* q); char s[12] = “Hello”
strcat(s, “World”);
To copy n characters from q to the of p.
char* strncpy(char* p, const char* q, int n); char s [7] = “Say “;
char t[] = “Hi”;strncpy (s, t, 2)
Can you write a program using C++ that uses a FOR loop to initialize a 2D array that looks like the following {0,5,10,15}{0,2,4,6}
#include<iostream>using namespace std;int main(){ int array[2][4], , row, column; for(row=0;row<2;row++) for(column=0;column<4;column++){ if(row==0) array[row][column]=column*5; else if(row==1) array[row][column]=column*2; } for(row=0; row<2; row++){ for(column =0; column <4; column ++) cout<<array[row][column]<<" "; cout<<endl; }system("pause");return 0;}
Basic framework for a programHow to CommentHow to PrintHow to store variablesHow to Print stored variablesHow to find the size of a variableHow to convert from one data type
to anotherHow to Declare Constants
If statements Conventional Using conditional operator
Switch-case statementsLoops
While Do-While For
Branching statements
How to declare and implement functions
How to create arraysHow to create pointersUseful string functionsClasses
//this is how you comment /*this is how
you comment */ Use for Multiple lines
Used to create functions, classes, and variables of the same name
Ex.
Namespace combat{
void fire()}Namespace exploration{
void fire()}
To call a namespace combat::fire()
Say (to avoid having to put combat:: every time
using namespace combat;
fire()
class aClass// Base class{
public:int anInt;
}
class aDerivedClass : public aClass//Derived class
{protected:
float aFloat;};
#include <iostream.h>enum BREED { YORKIE, CAIRN, DANDIE, SHETLAND, DOBERMAN, LAB };class Mammal{public: Mammal(); // constructors ~Mammal();//destructor //accessorsint GetAge()const;void SetAge(int);int GetWeight() const;void SetWeight();//Other methodsvoid Speak();void Sleep();protected:int itsAge;int itsWeight;};class Dog : public Mammal {public: Dog(); // Constructors~Dog(); // AccessorsBREED GetBreed() const; void SetBreed(BREED); // Other methods // WagTail(); // BegForFood(); protected: BREED itsBreed;};
Animals
Mammals
Reptiles
Horse Dog
HoundTerrie
r
Yorkie Cairn
Private members are not available to derived classes. You could make itsAge and itsWeight public, but that is not desirable. You don't want other classes accessing these data members directly.
What you want is a designation that says, "Make these visible to this class and to classes that derive from this class." That designation is protected. Protected data members and functions are fully visible to derived classes, but are otherwise private.
When do we need to override functions? If you are a programmer example. If we consider “Woof” of the dog as speak.
When a derived class creates a function with the same return type and signature as a member function in the base class, but with a new implementation, it is said to be overriding that method.
#include <iostream.h> enum BREED { YORKIE, CAIRN, DANDIE, SHETLAND, DOBERMAN, LAB }; class Mammal { public: // constructors Mammal() { cout << "Mammal constructor...\n"; } ~Mammal() { cout << "Mammal destructor...\n"; } //Other methods void Speak()const { cout << "Mammal sound!\n"; } void Sleep()const { cout << "shhh. I'm sleeping.\n"; } protected: int itsAge; int itsWeight; };
class Dog : public Mammal { public: // Constructors Dog(){ cout << "Dog constructor...\n"; } ~Dog(){ cout << "Dog destructor...\n"; } // Other methods void WagTail() { cout << "Tail wagging...\n"; } void BegForFood() { cout << "Begging for food...\n"; } void Speak()const { cout << "Woof!\n"; } private: BREED itsBreed; }; int main() { Mammal bigAnimal; Dog fido; bigAnimal.Speak(); fido.Speak(); getchar(); return 0; }
When you overload a method, you create more than one method with the same name, but with a different signature. When you override a method, you create a method in a derived class with the same name as a method in the base class and the same signature.
#include<iostream.h>
int area(int x); // square areaint area(int x,int y); //triangle areafloat area(int x,int y, int radius); //circle area
int main(){ int x=4, y=5, rad=3; cout<<"The Square area is :"<<area(x); cout<<"\nThe Triangle area is :"<<area(x,y); cout<<"\nThe Circle area is :"<<area(x,y,rad); getchar(); return 0;}
int area(int x) // square area{ return x*x; }
int area(int x,int y ) //triangle area{ return x*y; }float area(int x,int y, int radius) //circle area{ return radius*radius*3.14; }
Output:The Square area is: 16The Triangle area is :20The Circle area is: 28.26
#include <iostream.h>class Mammal {public:void Move() const { cout << "Mammal move one step\n"; }void Move(int distance) const { cout << "Mammal move ";cout << distance <<" _steps.\n"; }protected:int itsAge;int itsWeight;};class Dog : public Mammal {public:// You may receive a warning that you are hiding a function!void Move() const { cout << "Dog move 5 steps.\n"; }}; int main() {Mammal bigAnimal;Dog fido;bigAnimal.Move();bigAnimal.Move(2);fido.Move(8);// can I do this?fido.Move();return 0;}
Output:Mammal move one stepMammal move 2 steps.Dog move 5 steps
To call a function you’ve overridden in a derived class you need to use virtual functions.
Example:struct Base { virtual void do_something() = 0; }; struct Derived1 : public Base { void do_something() { cout << "I'm doing something"; } }; struct Derived2 : public Base { void do_something() { cout << "I'm doing something else"; } }; int main() { Base *pBase = new Derived1; pBase->do_something();//does something delete pBase; pBase = new Derived2; pBase->do_something();//does something else delete pBase; return 0; }
Output: (1)dog (2)cat (3)horse (4)pig: 1(1)dog (2)cat (3)horse (4)pig: 2(1)dog (2)cat (3)horse (4)pig: 3(1)dog (2)cat (3)horse (4)pig: 4(1)dog (2)cat (3)horse (4)pig: 5Woof!Meow!Winnie!Oink!Mammal speak!
#include<stdlib.h>#include <iostream.h> class Mammal { public: Mammal():itsAge(1) { } ~Mammal() { } virtual void Speak() const { cout << "Mammal speak!\n"; } protected: int itsAge; };
class Dog : public Mammal { public: void Speak()const { cout << "Woof!\n"; } };
class Cat : public Mammal { public: void Speak()const { cout << "Meow!\n"; } };
class Horse : public Mammal { public: void Speak()const { cout << "Winnie!\n"; } };
class Pig : public Mammal { public: void Speak()const { cout << "Oink!\n"; } };
int main() { Mammal* theArray[5]; Mammal* ptr; int choice, i; for ( i = 0; i<5; i++) { cout << "(1)dog (2)cat (3)horse (4)pig: "; cin >> choice; switch (choice) { case 1: ptr = new Dog; break; case 2: ptr = new Cat; break; case 3: ptr = new Horse; break; case 4: ptr = new Pig; break; default: ptr = new Mammal; break; } theArray[i] = ptr; } for (i=0;i<5;i++) theArray[i]->Speak(); system("pause");return 0; }
Only if you have to redefine a function in a Derived class that is already defined in Base Class, otherwise, it’s just extra resources when executed.
#include <iostream>using namespace std;
class CPolygon { protected: int width, height; public: void set_values (int a, int b) { width=a; height=b; } };
class CRectangle: public CPolygon { public: int area () { return (width * height); } };
class CTriangle: public CPolygon { public: int area () { return (width * height / 2); } };
int main () { CRectangle rect; CTriangle trgl; CPolygon * ppoly1 = ▭ CPolygon * ppoly2 = &trgl; ppoly1->set_values (4,5); ppoly2->set_values (4,5); cout << rect.area() << endl; cout << trgl.area() << endl; getchar(); return 0;}
Output:2010
Used in place of a specific data type. For example, use a template to add data types together, whichever data type the user wishes (i.e. integers, floats)
#include <iostream>using namespace std;
template <class T>T GetMax (T a, T b) { T result; result = (a>b)? a : b; return (result);}
int main () { int i=5, j=6, k; float l=10.5, m=5.6, n; k=GetMax<int>(i,j); n=GetMax<float>(l,m); cout << k << endl; cout << n << endl; getchar(); return 0;}
Output:610.5
int i;long l;k = GetMax (i,l); This would not be correct, since our GetMax function template expects two arguments of the same type.But if we did the following:template <class T, class U> T GetMin (T a, U b) { return (a<b?a:b); }Then we could call the function like this:int i,j;long l;i = GetMin<int,long> (j,l); Or simply:i = GetMin (j,l);
#include <iostream> using namespace std; template <class T> class mypair { T a, b; public: mypair (T first, T second) {a=first; b=second;} T getmax (); }; template <class T> T mypair<T>::getmax () { T retval; retval = a>b? a : b; return retval; } int main () { mypair <int> myobject (100, 75); cout << myobject.getmax(); return 0; }
Output:100
mypair<int> myobject (115, 36); This same class would also be used to create an object to store any other type:mypair<double> myfloats (3.0, 2.18);
#include <iostream>using namespace std;
// class template:template <class T>class mycontainer { T element; public: mycontainer (T arg) {element=arg;} T increase () {return ++element;}};
// class template specialization:template <>class mycontainer <char> { char element; public: mycontainer (char arg) {element=arg;} char uppercase () { if ((element>='a')&&(element<='z')) element+='A'-'a'; return element; }};
int main () { mycontainer<int> myint (7); mycontainer<char> mychar ('j'); cout << myint.increase() << endl; cout << mychar.uppercase() << endl; return 0;}
Output:8J
Questions??Good Luck from REACH in your Test