2124 Intro to C# Programming for the .NET Platform

Overview

TCCIT Solutions provides high quality, affordably priced, training classes in Microsoft Course 2124 Intro to C# Programming for the .NET Platform. With experienced instructors and a convenient midtown NYC location, we offer MS 2124 for the corporate community. TCCIT Solutions offers group classes and private tutoring to beginner and more advanced corporate clients in Microsoft Course 2124 Intro to C# Programming for the .NET Platform. We offer onsite training or classes at our facility on 34th Street and Madison in New York City.

Description

The goal of this course is to provide students with the knowledge and skills they need to develop C# applications for the Microsoft .NET Platform. The course focuses on C# program structure, language syntax, and implementation details. C# was created to be the programming language best suited for writing enterprise applications for .NET. C# combines the high productivity of Microsoft Visual Basic with the raw power of C++. It is a simple, object-oriented, and type-safe programming language that is based on the C and C++ family of languages.

Course Objectives

After completing this workshop, students will be able to:

  • List the major elements of the .NET Framework and explain how C# fits into the .NET Platform.
  • Analyze the basic structure of a C# application and be able to document, debug, compile, and run a simple application.
  • Create, name, and assign values to variables.
  • Use common statements to implement flow control, looping, and exception handling.
  • Create methods (functions and subroutines) that can return values and take parameters.
  • Create, initialize, and use arrays.
  • Explain the basic concepts and terminology of object-oriented programming.
  • Use common objects and reference types. Create, initialize, and destroy objects in a C# application. Build new C# classes from existing classes.
  • Create self-contained classes and frameworks in a C# application.
  • Define operators, use delegates, and add event specifications.
  • Implement properties and indexers.
  • Use predefined and custom attributes.

Audience

Before attending this course, students must have:

  • Experience with programming in C#, C++, Visual Basic, Java, or another programming language.
  • Familiarity with the Microsoft .NET strategy as described on the Microsoft .NET
  • Familiarity with the .NET Framework as described on the MSDN Magazine

Prerequisites

Before attending this workshop, students must have working knowledge of the following:

Course Outline

Module 1: Overview of the Microsoft .NET Platform

The following topics are covered in this module:

  • Description to the .NET Platform
  • Overview of the .NET Framework
  • Benefits of the .NET Framework
  • The .NET Framework Components
  • Languages in the .NET Framework

After completing this module, you will be able to list the major elements of the .NET Framework and explain how the C# language fits into the .NET Platform. This includes:

  • Describing the .NET Platform.
  • Listing the main elements of the .NET Platform.
  • Explaining the language support in the .NET Framework.
  • Describing the .NET Framework and its components.

Module 2: Overview of C#

The following topics are covered in this module:

  • Structure of a C# Program
  • Basic Input/Output Operations
  • Recommended Practices
  • Compiling, Running, and Debugging

After completing this module, you will be able to analyze the basic structure of a C# application and be able to document, debug, compile, and run a simple application. This includes:

  • Explaining the structure of a simple C# program.
  • Using the Console class of the System namespace to perform basic input/output operations.
  • Handling exceptions in a C# program.
  • Generating Extensible Markup Language (XML) documentation for a C# application.
  • Compiling and executing a C# program.
  • Using the Microsoft Visual Studio Debugger to trace program execution.

Module 3: Using Value-Type Variables

The following topics are covered in this module:

  • Common Type System
  • Naming Variables
  • Using Built-In Data Types
  • Creating User-Defined Data Types
  • Converting Data Types

After completing this module, you will be able to create, name, and assign values to variables. This includes:

  • Describing the types of variables that you can use in C# applications.
  • Naming your variables according to standard C# naming conventions.
  • Declaring variables by using built-in data types.
  • Assigning values to variables.
  • Converting existing variables from one data type to another.
  • Creating and using your own data types

Module 4: Statements and Exceptions

The following topics are covered in this module:

  • Description to Statements
  • Using Selection Statements
  • Using Iteration Statements
  • Using Jump Statements
  • Handling Basic Exceptions
  • Raising Exceptions

After completing this module, you will be able to use common statements to implement flow control, looping, and exception handling. This includes:

  • Describing the different types of control statements.
  • Using jump statements.
  • Using selection statements.
  • Using iteration statements.
  • Handling and raising exceptions.

Module 5: Methods and Parameters

The following topics are covered in this module:

  • Using Methods
  • Using Parameters
  • Using Overloaded Methods

After completing this module, you will be able to create methods (functions and subroutines) that can return values and take parameters. This includes:

  • Creating static methods that accept parameters and return values.
  • Passing parameters to methods in different ways.
  • Declaring and using overloaded methods.

Module 6: Arrays

The following topics are covered in this module:

  • Overview of Arrays
  • Creating Arrays
  • Using Arrays

After completing this module, you will be able to create, initialize, and use arrays. This includes:

  • Creating, initializing, and using arrays of varying rank.
  • Using command-line arguments in a C# program.
  • Describing the relationship between an array variable and an array instance.
  • Using arrays as parameters for methods.
  • Returning arrays from methods.

Module 7: Essentials of Object-Oriented Programming

The following topics are covered in this module:

  • Classes and Objects
  • Using Encapsulation
  • C# and Object Orientation
  • Defining Object-Oriented Systems

After completing this module, you will be able to explain the basic concepts and terminology of object-oriented programming. This includes:

  • Defining the terms object and class in the context of object-oriented programming.
  • Describing the three core aspects of an object: identity, state, and behavior.
  • Describing abstraction and how it helps you to create reusable classes that are easy to maintain.
  • Using encapsulation to combine methods and data in a single class and enforce abstraction.
  • Explaining the concepts of inheritance and polymorphism.
  • Creating and using classes in C#.

Module 8: Using Reference-Type Variables

  • The following topics are covered in this module:
  • Using Reference-Type Variables
  • Using Common Reference Types
  • The Object Hierarchy
  • Namespaces in the .NET Framework
  • DataConversions

After completing this module, you will be able to use common objects and reference types. This includes:

  • Describing the key differences between reference types and value types.
  • Using common reference types such as string.
  • Explaining how the object type works and becoming familiar with the methods it supplies.
  • Describing common namespaces in the .NET Framework.
  • Determining whether different types and objects are compatible.
  • Explicitly and implicitly converting data types between reference types.
  • Performing boxing and unboxing conversions between reference and value data.

Module 9: Creating and Destroying Objects

The following topics are covered in this module:

  • Using Constructors
  • Initializing Data
  • Objects and Memory
  • Resource Managements

After completing this module, you will be able to create, initialize, and destroy objects in a C# application. This includes:

  • Using constructors to initialize objects.
  • Creating overloaded constructors that can accept varying parameters.
  • Describing the lifetime of an object and what happens when it is destroyed.
  • Creating destructors and using Finalizemethods.

Module 10: Inheritance in C#

The following topics are covered in this module:

  • Deriving Classes
  • Implementing Methods
  • Using Sealed Classes
  • Using Interfaces
  • Using Abstract Classes

After completing this module, you will be able to build new C# classes from existing classes. This includes:

  • Deriving a new class from a base class and calling members and constructors of the base class from the derived class.
  • Declaring methods as virtual and override or hiding them as required.
  • Sealing a class so that it cannot be derived from.
  • Implementing interfaces by using both the implicit and explicit methods.
  • Describing the use of abstract classes and their implementation of interfaces

Module 11: Aggregation, Namespaces, and Advanced Scope

The following topics are covered in this module:

  • Using Internal Classes, Methods, and Data
  • Using Aggregation
  • Using Namespaces
  • Using Modules and Assemblies

After completing this module, you will be able to create self-contained classes and frameworks in a C# application. This includes:

  • Using internal access to allow classes to have privileged access to each other.
  • Using aggregation to implement powerful patterns such as Factories.
  • Using namespaces to organize classes.
  • Creating simple modules and assemblies.

Module 12: Operators and Events

The following topics are covered in this module:

  • Description to Operators
  • Operator Overloading
  • Creating and Using Delegates
  • Defining and Using Events

After completing this module, you will be able to define operators, use delegates, and add event specifications. This includes:

  • Defining operators to make a class or struct easier to use.
  • Using delegates to decouple a method call from a method implementation.
  • Adding event specifications to a class to allow subscribing classes to be notified of changes in object state.

Module 13: Properties and Indexers

The following topics are covered in this module:

  • Using Properties
  • Using Indexers

After completing this module, you will be able to implement properties and indexers. This includes:

  • Creating properties to encapsulate data within a class.
  • Defining indexers to gain access to classes by using array-like notation.

Module 14: Attributes

The following topics are covered in this module:

  • Overview of Attributes
  • Defining Custom Attributes
  • Retrieving Attribute Values

After completing this module, you will be able to use predefined and custom attributes. This includes:

  • Using common predefined attributes.
  • Creating simple custom attributes.
  • Querying attribute information at run time.

 

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