C ++ Online Training

++ is an object oriented programming languages and is a superset of ‘C’ Language. C++ comprises of all the applications of C language with object oriented contents. Apart from object oriented concepts it has many applications like operating systems. Almost 90% of te applications running in the worlds are composed either in ‘C’ language or in ‘C++’ language.

C++ Training Course Objective

The major motive behind the course is to make the students capable of implementing the applications can develop the Programs with classes and objects. All the developed application of C languages then alters into with classes using Object Oriented Concepts. Developing any application  in C++ language makes the application more optimized and efficient than C.

C++ Training Course Duration

  • Normal Track 45 Working days, daily 1.30 hours.
  • Fast Track 35 Working days, daily 2.0 hours.

C++ Training Content

Basics             

  • Introduction to C++
  • Different paradigms of problem solving
  • POP vs OOP
  • Features of Object Oriented Programming Languages
  • Object
  • Class
  • Abstraction
  • Encapsulation
  • Inheritance
  • Polymorphism
  • Dynamic Binding
  • Message Communication
  • Constants
  • Variables
  • Keywords
  • Data types
  • Declaration of Variables
  • Output Stream (cout) & Manipulators
  • Input Stream (cin)
  • Comments
  • Operators
    • Arithmetic operators
    • Relational operators
    • Logical operators
    • Assignment operators & compound assessment operations
    • Increment & decrement operators
    • Conditional operators
    • Bitwise operators
    • Shift operators
    • Type casting
    • Compound assignment operators
    • Address operators
    • Comma operator
    • Pointer operator
    • Sizeof operator
    • new operator
    • delete operator
    • .*
    • *::
    • ::
  • Control Statements
  • Conditional Control Statements
    • If, if-else
    • nested if-else, if-else-if ladder
  • Multiple Branching Control Structure
    • switch-case
  • Loop Control statements
    • while
    • do-while
    • for
  • Nested Loops
  • Jump Control structures
  • break
  • continue
  • goto
  • return
  • Arrays
  • Strings
  • Structures
  • Pointers
  • Dynamic memory allocation using new and delete

Functions

  • Defining a Function
  • Calling a Function
  • Return statement
  • Function Prototype
  • Basic Function Designs
  • Scope
  • Reference variables
  • Recursion
  • Parameter Passing Methods
  • Call by value
  • Call by address
  • Call by reference
  • Function Overloading
  • Default Arguments
  • Inline Functions

Classes and Objects

  • Defining a Class
  • Creating Objects
  • Access specifiers
  • Accessing Class Members
  • Scope Resolution Operator ( :: )
  • Defining Member Functions
  • Outside the class
  • Inside the class
  • Member function with argument
  • This pointer
  • Passing Objects as Arguments
  • Returning Objects
  • Array of objects
  • Pointer to object
  • Dynamic objects
  • Friend Functions
  • Friend Class
    • Composition
      • Container class
      • Contained class
    • Programs
    • Student Class
    • Employee Class
    • Complex Class
    • Matrix Class
    • Rational Class
    • Circle Class
    • Rectangle Class

Constructors & Destructors               

  • Constructors
  • Properties of constructors
  • Types of constructors
  • Default Constructors
  • Parameterized Constructors
  • Copy Constructors
  • Constructor Overloading
  • Constructors with Default Arguments
  • Destructors
  • Differences between Member functions & Constructors
  • Differences between Constructors & Destructors
  • Static Data Members
  • Static member functions
  • Constant data members
  • Constant Member Functions

Operator Overloading

  • Defining Operator Overloading Function
  • Overloading Unary Operators
  • Overloading Binary Operators
  • Overloading Unary Operators using Friend Functions
  • Overloading Binary Operators using Friend Functions
  • Overloading << & >>
  • Programs

Inheritance

  • Class hierarchies
  • Base classes
  • Derived Classes
  • Derived Class Definition
  • Access specifier : protected
  • Types of Inheritance & Programs
  • Single inheritance
  • Multiple inheritance
  • Hierarchical inheritance
  • Multi-level inheritance
  • Hybrid inheritance
  • Multi-path inheritance
  • Constructors in Derived Classes
  • Destructors in Derived Classes

Polymorphism and Virtual Functions              

  • Static Binding
  • Dynamic Binding
  • Virtual Destructor
  • Function Overriding
  • Accessing Members using Pointers
  • Virtual Functions
  • Pure Virtual Functions
  • Abstract Classes
  • Virtual Destructors

Templates               

  • Introduction
  • Advantages
  • Function Templates
  • Over loading function template
  • Class Templates
  • Inheritance Class Templates

Exception Handling

  • Types of Errors
  • Benefits of exception handling
  • try, catch, throw keywords
  • Throwing an exception
  • ‘try’ block
  • Catching an exception
  • Exception objects
  • Rethrowing an exception
  • Exception Handling Mechanism
  • Catching all exceptions
  • Nested try blocks

Files

  • File Streams Classes
  • Opening & Closing a File
  • Detection End of File
  • File Pointers & Their Manipulation
  • Sequential Files
  • Random Access Files

I-O Streams

  • I-O stream Class hierarchies
  • Unformatted I-O Operation
  • get(), put(), getline()
  • write()
  • in cout
  • cin
  • Formatted I-O Operations
    • width(), precision()
    • fill(), setf()
    • unsetf()
  • Manipulators
    • Manipulator operators
      • Endl, ends
    • manipulator functions
      • setw(), setfill()
      • setprecision()
      • setiosflags()
      • setbase()
      • resetiosflags()
    • User defined manipulators
    • Operator and Overloading

Standard Template Libraries

  • Containers
  • vector
  • list, deque
  • arrays
  • forward_list
  • queue
  • priority_queue
  • stack
  • set, multiset
  • map, multimap
  • Algorithms
  • Sorting, Searching
  • Important STL Algorithms
  • Useful Array algorithms
  • Partition Operations
  • Iterators

 

Course Duration: 35 – 40 hrs
Timing Week Days: 1 hrs per day (OR) 3 Times a week or Weekends: 3 hrs per day
Method: Instructor led, with exercises.
Breaks: As Required, but limited to 2 of 10 min. In weekend batch
Email ID Info@rhsofttech.com
Study Material C ++ Online Training
Phone +91 9356913849
Fees Structure 50% After introduction lectures balance  After 50% Lecture
Server access Throughout the course 24/7
Timings Flexible