By far, the hardest thing about learning a programming language is the fact that no element exists in isolation. Instead, the components of the language work together. This interrelatedness makes it difficult to discuss one aspect of C# without involving another. To help overcome this problem, this chapter provides a brief overview of several C# features, including the general form of a C# program, some basic control statements, and operators. It does not go into too many details, but rather concentrates on the general concepts common to any C# program. Most of the topics discussed here are examined in greater detail in the remaining chapters of Part I.
Object-Oriented Programming
At the center of C# is object-oriented programming (OOP). The object-oriented methodology is inseparable from C#, and all C# programs are to at least some extent object oriented. Because of its importance to C#, it is useful to understand OOP’s basic principles before you write even a simple C# program.
OOP is a powerful way to approach the job of programming. Programming methodologies have changed dramatically since the invention of the computer, primarily to accommodate the increasing complexity of programs. For example, when computers were first invented, programming was done by toggling in the binary machine instructions using the computer’s front panel. As long as programs were just a few hundred instructions long, this approach worked. As programs grew, assembly language was invented so that a programmer could deal with larger, increasingly complex programs, using symbolic representations of the machine instructions. As programs continued to grow, high-level languages such as FORTRAN and COBOL were introduced that gave the programmer more tools with which to handle complexity. When these early languages began to reach their breaking point, structured programming languages, such as C, were invented.
At each milestone in the history of programming,
techniques and tools were created to allow the programmer to deal with increasingly greater complexity. Each step of the way, the new approach took the best elements of the previous methods and moved forward. The same is true of object-oriented programming. Prior to OOP, many projects were nearing (or exceeding) the point where the structured approach no longer worked. A better way to handle complexity was needed, and object-oriented programming was the solution.
Object-oriented programming took the best ideas of structured programming and combined them with several new concepts. The result was a different and better way of organizing a program. In the most general sense, a program can be organized in one of two ways: around its code (what is happening) or around its data (what is being affected). Using only structured programming techniques, programs are typically organized around code. This approach can be thought of as “code acting on data.”
Object-oriented programs work the other way around. They are organized around data, with the key principle being “data controlling access to code.” In an object-oriented language, you define the data and the code that is permitted to act on that data. Thus, a data type defines precisely the operations that can be applied to that data.
To support the principles of object-oriented programming, all OOP languages, including C#, have three traits in common: encapsulation, polymorphism, and inheritance. Let’s examine each.
Encapsulation
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