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Should C++ eliminate header files?

In languages like C# and Java there is no need to declare (for example) a class before using it. If I understand it correctly this is because the compiler does two passes on the code. In the first it just "collects the information available" and in the second one it checks that the code is correct.

In C and C++ the compiler does only one pass so everything needs to be available at that time.

So my question basically is why isn't it done this way in C and C++. Wouldn't it eliminate the needs for header files?

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marked as duplicate by GManNickG, Billy ONeal, ShuggyCoUk, Matthieu M., jitter Apr 14 '10 at 11:37

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The C++ compiler will read sequentially [that is, it will read top to bottom...] Thats just how the language works. Your suggestion of "passing" through twice and looking at the function prototypes then would work, but unfortunately thats not how the language works. –  Warty Apr 13 '10 at 19:34
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Duplicate: stackoverflow.com/questions/752793 –  Firas Assaad Apr 13 '10 at 19:36
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C as a language was standardised more than 30 years ago, when the underlying technology was both far less capable and far more expensive than things are today. A gentle suggestion: Try to learn a little about the history of things, and understand that the world has changed tremendously since those decisions were made and will continue to change after you make choices in your development efforts. Someone, someday, will wonder "WTF?!" about your decisions.... ;-) –  DaveE Apr 13 '10 at 19:45
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It is not entirely true for C++, it has a partially 2-pass compiler. Class methods written inline within the class declarations may refer to class members that appear below it. Not sure why they didn't make it consistent. –  Hans Passant Apr 13 '10 at 19:48
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Pascal, which was popular on small computers before C was, was explicitly designed to be compilable in one pass with a recursive-descent parser. –  David Thornley Apr 13 '10 at 20:23

6 Answers 6

up vote 27 down vote accepted

The short answer is that computing power and resources advanced exponentially between the time that C was defined and the time that Java came along 25 years later.

The longer answer...

The maximum size of a compilation unit -- the block of code that a compiler processes in a single chunk -- is going to be limited by the amount of memory that the compiling computer has. In order to process the symbols that you type into machine code, the compiler needs to hold all the symbols in a lookup table and reference them as it comes across them in your code.

When C was created in 1972, computing resources were much more scarce and at a high premium -- the memory required to store a complex program's entire symbolic table at once simply wasn't available in most systems. Fixed storage was also expensive, and extremely slow, so ideas like virtual memory or storing parts of the symbolic table on disk simply wouldn't have allowed compilation in a reasonable timeframe.

The best solution to the problem was to chunk the code into smaller pieces by having a human sort out which portions of the symbol table would be needed in which compilation units ahead of time. Imposing a fairly small task on the programmer of declaring what he would use saved the tremendous effort of having the computer search the entire program for anything the programmer could use.

It also saved the compiler from having to make two passes on every source file: the first one to index all the symbols inside, and the second to parse the references and look them up. When you're dealing with magnetic tape where seek times were measured in seconds and read throughput was measured in bytes per second (not kilobytes or megabytes), that was pretty meaningful.

C++, while created almost 17 years later, was defined as a superset of C, and therefore had to use the same mechanism.

By the time Java rolled around in 1995, average computers had enough memory that holding a symbolic table, even for a complex project, was no longer a substantial burden. And Java wasn't designed to be backwards-compatible with C, so it had no need to adopt a legacy mechanism. C# was similarly unencumbered.

As a result, their designers chose to shift the burden of compartmentalizing symbolic declaration back off the programmer and put it on the computer again, since its cost in proportion to the total effort of compilation was minimal.

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Excellent summary. Reminded me of the "good old days" compiling a C program on a 2 floppy drive 640K PC - Took about 10 minutes with a half dozen or more floppy changes. All that for a program containing no more than a couple hundred statements! And thought I was in heaven with all that power. –  NealB Apr 13 '10 at 20:52
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Great answer, it's always nice to get some historical perspective for us younger people! –  Ian Link Sep 12 '12 at 16:14

Bottom line: there have been advances in compiler technology that make forward declarations unnecessary. Plus computers are thousands of times faster, and so can make the extra calculations necessary to handle the lack of forward declarations.

C and C++ are older and were standardized at a time when it was necessary to save every CPU cycle.

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:-) In other words - C# is better than C++. –  Franci Penov Apr 13 '10 at 19:37
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You're missing the key words here: backwards compatibility. Your last line makes it sound like C and C++ have only one version of the standard from the stone ages. It should read "and were first standardized...and to maintain backwards compatibility, the method remains the same." @Franci: When you're done writing an OS in C#, come get me. –  GManNickG Apr 13 '10 at 19:38
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@Franci: No... in other words, modern language compilers have made forward declarations obsolete because they do not have to worry about backwards compatibility. It could be done in C++. Have fun writing hardware drivers in C# bud. –  Ed S. Apr 13 '10 at 19:39
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@GMan - Save the Unicorns: You have excellent points about "first standardized" and "backwards compatibility". Regarding an OS in C#: I give you Singularity. Now, granted, some performance-critical portions of the kernel were written in C, but given that some portions of the kernel are frequently written in assembly, I'd say they've stepped up a bit. –  Randolpho Apr 13 '10 at 19:41
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@Vlad: Who cares? As a programmer I don't care how it is done, I care that I don't have to write forward declarations. When this becomes a performance issue let me know. –  Ed S. Apr 13 '10 at 19:43

This is because of smaller compilation modules in C/C++. In C/C++, each .c/.cpp file is compiled separately, creating an .obj module. Thus the compiler needs the information about types and variables, declared in other compilation modules. This information is supplied in form of forward declarations, usually in header files.

C#, on the other side, compiles several .cs files into one big compilation module at once.

In fact, when referencing different compiled modules from a C# program, the compiler needs to know the declarations (type names etc.) the same way as C++ compiler does. This information is obtained from the compiled module directly. In C++ the same information is explicitly separated (that's why you cannot find out the variable names from C++-compiled DLL, but can determine it from .NET assembly).

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Unfortunately, that doesn't explain how C# manages our 100-assembly Solution containing thousands of source files and millions of lines of code better than C++ manages a single .h file (which may still need a forward declaration even though all the information it needs is in the one file). –  Jason Williams Apr 13 '10 at 19:42
    
@Jason: the benefits of separate compilation are different: when you change only implementation, your recompilation will be almost instant. (Of course this make the very first compilation slower.) I don't know why your C++ cannot manage a single header file, I did never encounter any problems with mine. –  Vlad Apr 13 '10 at 19:48
    
@Vlad: You said "...compiler needs information about types ... declared in other compilation modules", but in fact, even a single C++ class in a single header can require predeclaration - i.e even within one compilation module. That is, C++ parses in a linear way through the code (thus requiring predeclaration of future types when they are referenced), while C# effectively builds a database for the codebase that allows it to have random access to all the types. –  Jason Williams Apr 13 '10 at 22:17
    
@Jason: you are right. This is sometimes an advantage, and sometimes not. For example, C# needs to recompile all the .cs files as soon as any of them changes, because it cannot see in advance which module requires which information. With C++, if no header is changed, only recompilation of the changed .cpp files is needed. From the other side, C++ requires the developer to understand which headers he needs to include. –  Vlad Apr 14 '10 at 8:25
    
@Jason: predeclaration is needed sometimes, because C++ reads the input in 1 pass. So in order to reference something declared later on in the same file, you need to make a forward declaration. However I don't see this as a complicated problem for a decent developer. –  Vlad Apr 14 '10 at 8:27

The forward declarations in C++ are a way to provide metadata about the other pieces of code that might be used by the currently compiled source to the compiler, so it can generate the correct code.

That metadata can come from the author of the linked library/component. However, it can also be automatically generated (for example there are tools that generate C++ header files for COM objects). In any case, the C++ way of expressing that metadata is through the header files you need to include in your source code.

The C#/.Net also consume similar metadata at compile time. However, that metadata is automatically generated when the assembly it applies to is built and is usually embedded into it. Thus, when you reference in your C# project an assembly, you are essentially telling the compiler "look for the metadata you need in this assembly as well, please".

In other words, the metadata generation and consumption in C# is more transparent to the developers, allowing them to focus on what really matters - writing their own code.

There are also other benefits to having the metadata about the code bundled with the assembly as well. Reflection, code emitting, on-the-fly serialization - they all depend on the metadata to be able to generate the proper code at run-time.

The C++ analogue to this would be RTTI, although it's not widely-adopted due ot incompatible implementations.

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From Eric Lippert, blogger of all things internal to C#: http://blogs.msdn.com/ericlippert/archive/2010/02/04/how-many-passes.aspx:

The C# language does not require that declarations occur before usages, which has two impacts, again, on the user and on the compiler writer. [...]

The impact on the compiler writer is that we have to have a “two pass” compiler. In the first pass, we look for declarations and ignore bodies. Once we have gleaned all the information from the declarations that we would have got from the headers in C++, we take a second pass over the code and generate the IL for the bodies.

To sum up, using something does not require declaring it in C#, whereas it does in C++. That means that in C++, you need to explicitly declare things, and it's more convenient and safe to do that with header files so you don't violate the One Definition Rule.

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No, it would not obviate header files. It would eliminate the requirement to use a header to declare classes/functions in the same file. The major reason for headers is not to declare things in the same file though. The primary reason for headers is to declare things that are defined in other files.

For better or worse, the rules for the semantics of C (and C++) mandate the "single pass" style behavior. Just for example, consider code like this:

int i;

int f() { 
     i = 1;
     int i = 2;
}

The i=1 assigns to the global, not the one defined inside of f(). This is because at the point of the assignment, the local definition of i hasn't been seen yet so it isn't taken into account. You could still follow these rules with a two-pass compiler, but doing so could be non-trivial. I haven't checked their specs to know with certainty, but my immediate guess would be that Java and C# differ from C and C++ in this respect.

Edit: Since a comment said my guess was incorrect, I did a bit of checking. According to the Java Language Reference, §14.4.2, Java seems to follow pretty close to the same rules as C++ (a little different, but not a whole lot.

At least as I read the C# language specification, (warning: Word file) however, it is different. It (§3.7.1) says: "The scope of a local variable declared in a local-variable-declaration (§8.5.1) is the block in which the declaration occurs."

This appears to say that in C#, the local variable should be visible throughout the entire block in which it is declared, so with code similar to the example I gave, the assignment would be to the local variable, not the global.

So, my guess was half right: Java follows (pretty much0 the same rule as C++ in this respect, but C# does not.

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Your guess would be incorrect. –  Dennis Zickefoose Apr 13 '10 at 22:46

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