Did you know that C# actually does have a preprocessor? Probably the most common C# preprocessor directive that you see is the #region directive, and that doesn't even have any impact on the code. Now the preprocessor for C# is nowhere near as powerful as the ones for C and C++ (for instance, no macros), but it does let you do a couple of handy things.
C# actually has almost all the standard preprocessor directives - it just happens to be that the functionality of some of them (specifically the #define directive) is quite reduced. The one notable directive that is missing is #include - and it makes sense that C# wouldn't have it, because C# gets the same sort of functionality from the using statements (although there is the fact that #include refers to files and using refers to assemblies - so they are definitely not equivalent). So let's start at the beginning: #define and #undef. The directive #define gives you the ability to define a symbol, and #undef lets you un-define it. For instance:
C# actually has almost all the standard preprocessor directives - it just happens to be that the functionality of some of them (specifically the #define directive) is quite reduced. The one notable directive that is missing is #include - and it makes sense that C# wouldn't have it, because C# gets the same sort of functionality from the using statements (although there is the fact that #include refers to files and using refers to assemblies - so they are definitely not equivalent). So let's start at the beginning: #define and #undef. The directive #define gives you the ability to define a symbol, and #undef lets you un-define it. For instance:
#define MY_SYMBOL /* Do Stuff */ #undef MY_SYMBOL However, while you can define a symbol, you cannot assign a value to it (which is where that major difference from C/C++ comes into play): #define MY_SYMBOL 42 //Error: Single-line comment or end-of-line expectedSo what good is defining a symbol when you can't actually give it a value? Because in C/C++, giving it a value was really the whole point. Well, now that you can't give it a value, the only place to use them are in the #if and #elif directives:
#define SYMBOL_A
#define SYMBOL_B
using System;
public class Foo
{
static void Main()
{
#if (SYMBOL_A && !SYMBOL_B)
Console.WriteLine("SYMBOL_A!!");
#elif (!SYMBOL_A && SYMBOL_B)
Console.WriteLine("SYMBOL_B!!");
#elif (SYMBOL_A && SYMBOL_B)
Console.WriteLine("SYMBOL_A and SYMBOL_B!!");
#else
Console.WriteLine("Neither!!");
#endif
}
}
That code sample pretty much covers all the craziness that you can do with the conditional directives. This particular code block would end up printing out "SYMBOL_A and SYMBOL_B!!", because both symbols were defined. If, say, I had thrown an #undef in there, we might get something else:
#define SYMBOL_A
#define SYMBOL_B
#undef SYMBOL_A
using System;
public class Foo
{
static void Main()
{
#if (SYMBOL_A && !SYMBOL_B)
Console.WriteLine("SYMBOL_A!!");
#elif (!SYMBOL_A && SYMBOL_B)
Console.WriteLine("SYMBOL_B!!");
#elif (SYMBOL_A && SYMBOL_B)
Console.WriteLine("SYMBOL_A and SYMBOL_B!!");
#else
Console.WriteLine("Neither!!");
#endif
}
}
Now, this code block would end up printing "SYMBOL_B!!".
But now on to my favorite two directives: #error and #warning. They essentially allow you to inject compile errors and warnings into the code. For example:
using System;
public class Foo
{
static void Main()
{
#error My Best Error Ever!!
#warning A Little Tiny Warning
}
}
//Error: #error: 'My Best Error Ever!!'
//Warning: #warning: 'A Little Tiny Warning'
Simple, and yet quite effective. I use them as almost a to-do list - whenever I'm leaving a section of code that I know is wrong, I'll leave some #error or #warning directives so that the compiler will remind me to come back later and fix it.
Next up: #pragma. The #pragma directive is kind of a catch-all in C/C++, and it is the same here in C#. But there is one #pragma varient that is probably useful to know: #pragma warning.
using System;
public class Foo
{
static void Main()
{
int foo;
Console.WriteLine("Hi");
}
}
//Warning: The variable 'foo' is declared but never used
Generally, the code above would throw the warning that you see there. But say you want to ignore that warning - you can use the #pragma warning directive to get rid of it:
using System;
public class Foo
{
static void Main()
{
#pragma warning disable 0168
int foo;
#pragma warning restore 0168
Console.WriteLine("Hi");
}
}
Essentially, what that does is disable the warning number CS0168 between the disable and restore directives. You should be careful when using this directive, because if you don't restore the warning, it will be disabled for the rest of the file. This #pragma warningdirective is actually quite a bit more powerful than displayed here, and if you'd like to learn more, you should read about it at MSDN.
Well, that concludes a nice overview of C#'s preprocessor directives. We did not cover everything, because some things (like #line) could probably get a whole tutorial on their own. Also, if you would like to know more about what can be done with the #pragmadirective, you can check out this MSDN page (there is a lot of stuff). As always, feel free to leave any questions or comments below.
