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Joel and company expound on the virtues of learning C and how the best way to learn a language is to actually write programs using that use it. To that effect, which types of applications are most suitable to the C programming language?

Edit: I am looking for what C is good at. This likely does not coincide with the best way of learning C.

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32 Answers 32

up vote 37 down vote accepted

Code where you need absolute control over memory management. Code where you need to be utterly in control of speed versus memory trade-offs. Very low-level file manipulation (such as access to the raw devices).

Examples include OS kernel, and embedded apps.

In the late 1980s, I was head of the maintenance team on a C system that was more than a million lines of code. It did database access (Oracle), X Windows graphics, interprocess communications, all sorts of good stuff. It ran on VMS and several varieties of Unix. But if I were to recreate that system today, I sure wouldn't use C, I'd use Java. Others would probably use C#.

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Low level functions such as OS kernel and drivers. For those, C is unbeatable.

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I know, but as a good programmer I tend to answer what was asked. –  Otávio Décio Jan 12 '09 at 16:01
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@Steve: agreed. Learning C and driver architecture at the same time isn't really good advice for the questioner to actually not get frustrated or completely confused. –  ctacke Jan 12 '09 at 16:16

You can use C to write anything. It is a very general purpose language. After doing so for a little while you will understand why there are other "higher level" languages available.

"Learn C", by all means, but don't don't stick with it for too long. Other languages are far more productive.

I think the gist of the people who say you need to learn C is so that you understand the relationship between high level code and the machine internals and what exaclty happens with bits, bytes, program execution, etc.

Learn that, and then move on.

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They're higher-level in the sense that they provide more means of abstraction. –  Rob Jan 12 '09 at 22:55
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The main productivity boost is auto memory management. Therefore C++ and Objective-C do not qualify as higher-level in this case. –  J.F. Sebastian Jan 14 '09 at 1:22
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Huh? that makes no sense –  Tim Jan 14 '09 at 3:56

those 100 lines of python code that were accounting for 80% of your execution time.

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  • Number crunching (for example, libraries to be used at a higher level from some other language like Python).
  • Embedded systems programming.
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Small apps that don't have a UI, especially when you're trying to learn.

Edit: After thinking a little more on this, I'd add the following: if you already know a higher-level language and you're trying to learn more about C, a good route may be to not create a whole new C app, but instead create a C DLL and add functions to it that you can call from the higher language. In this way you can replace simple functions that your high language already has to ensure that you C function does what it should (gives you pre-built testing), lets you code mostly in what you're familiar with, uses the language in a problem you're already familiar with, and teaches you about interop.

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Anything where you think of using assembly.

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A bootloader. Some assembly also required, which is actually very nice..

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A lot of people are saying OS kernel and device drivers which are, of course, good applications for C. But C is also useful for writing any performance critical applications that need to use every bit of performance the hardware is capable of.

I'm thinking of applications like database management systems (mySQL, Oracle, SQL Server), web servers (apache, IIS), or even we browsers (look at the way chrome was written).

You can do so many optimizations in C that are just impossible in languages that run in virtual machines like Java or .NET. For instance, databases and servers support many simultaneous users and need to scale very well. A database may need to share data structures between multiple users (threads/processes), but do so in a way that efficiently uses CPU caches. In C, you can use an operating system call to determine the size of the cache, and then align a data structure appropriately to the cache line so that the line does not "ping pong" between caches when multiple threads access adjacent, but unrelated data (so called "false sharing). This is one example. There are many others.

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  1. Where you feel the need for 100% control over your program. This is often the case in lower layer OS stuff like device drivers, or real embedded devices based on MCU:s etc etc (all this and other is already mentioned above)

  2. But please note that C is a mature language that has been around for many years and will be around for many more years, it has many really good debugging tools and still a huge number off developers that use it. (It probably has lost a lot to more trendy languages, but it is still huge) All its strengths and weaknesses are well know, the language will probably not change any more. So there are not much room for surprises...

This also means that it would probably be a good choice if you have a application with a long expected life cycle.

/Johan

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Anything where you need a minimum of "magic" and need the computer to do exactly what you tell it to, no more and no less. Anything where you don't trust the "magic" of garbage collection to handle your memory because it might not be as efficient as what you can hand-code. Anything where you don't trust the "magic" of built-in arrays, strings, etc. not to waste too much space. Anything where you want to be able to reason about exactly what ASM instructions the compiler will emit for a given piece of code.

In other words, not too much in the real world. Most things would benefit more from higher level abstraction than from this kind of control. However, OS code, device drivers, and a few things that have to be near optimal in both space and speed might make sense to write in C. Higher level languages can do pretty well competing with C on speed, but not necessarily on space.

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Embedded stuff, where memory-usage and cpu-speed matters.
The interrupt handler part of an OS (and maybe two or three more functions in it).

Even if some of you will now start to bash heavily on me now:
I dont think that any decent app should be written in C - it is way too error prone. (and yes, I do know what I am talking about, having written an awful lot of code in C myself (OSes, compilers, VMs, network protocols, RT-control stuff etc.).

Using a high level language makes you so much more productive. Speed is typically gained by keeping the 10-90 rule in mind: 90% of CPU time is spent in 10% of your code (which you should optimize first). Also, using the right algorithm might give more performance than optimizing bits in C. And doing things right in C is so much more trouble.

PS: I do really mean what I wrote in the second sentence above; you can write a complete high performance OS in a high level language like Lisp or Smalltalk, with only a few minor parts in C. Think how the 70's Lisp machines would fly on todays hardware...

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Garbage collectors!

Also, simply programs whose primary job is to make operating-system calls. For example, I need to write a short C program called timeout that

  • Takes a command line as argument, with a number of seconds for that command to run
  • Forks two child processes, one to run the command and one to sleep for N seconds
  • When the first of the child processes exits, kills the other, then exits

The effect will be to run a command with a limit on wall-clock time.

I and others on this forum have tried several different solutions using shells and/or perl. All are convoluted and none quite do the right thing. In C the solution will be easy, because all the OS facilities are right where you can get at them.

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Implicit in your question is the assumption that a 'high-level' language like Python or Perl (or Java or ...) is fast enough, small enough, ... enough for most applications. This is of course true for most apps and some choice X of language. Given that, your language of choice almost certainly has a foreign function interface (FFI). Since you're looking to learn C, create a module in the FFI built in C.

For example, let's assume that your tool of choice is Python. Reimplement a subset of Numpy in C. Since C is a pretty fast language, and has, in C99, a clear numeric library interface, you'll get the opportunity to experience the power of C in an appropriate setting.

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A few kinds that I can think of:

  • Systems programming that directly uses Unix/Linux or Win32 system calls
  • Performance-critical code that doesn't have much string manipulation in it (e.g., number crunching)
  • Embedded programming or other applications that are severely resource-constrained

Basically, C gives you portable, efficient access to the native capabilities of the machine; everything else is your responsibility. In particular, string manipulation in C is tedious, error-prone, and generally nasty; the most effective way to do extensive string operations with C may be to use it to implement a language that handles strings better...

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examples are: embedded apps, kernel code, drivers, raw sockets.

However if you find yourself more productive in C then go ahead and build whatever you wish. Use the language as a tool to get your problem solved.

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Researches in maths and physics. There are probably two alternatives: C and C++, but such features of the latter as encapsulation and inheritance are not very useful there. One could prefer to use C++ "as a better C" or just stay with C.

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Well most people are suggesting system programming related things like OS Kernels , Device Drivers etc. These are difficult and Time consuming. Maybe the most fun thing to with C is console programming. Have you heard of the HAM SDK? It is a complete software development kit for the Nintendo GBA , and making games for it is fun. There is also the CC65 Compiler which supports NES Programming (Althought Not Completely). You can also make good Emulators. Trust Me , C is pretty helpful. I was originally a Python fan, and hated C because it was complex. But after yuoget used to it, you can do anything with C. Now I use CPython to embed Python in my C Programs(if needed) and code mostly in C. C is also great for portability , There is a C Compiler for like every OS and Almost Every Console And Mobile Device. Ive even seen one that supports some calculators!

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ISAPI filters for Internet Information Server.

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Before actually write C code, i would suggest first read good C code.
Choose subject you want to concentrate on, basically any application can be written in C, but i assume GUI application will be not your first choice, and find few open source projects to look into.

Not any open source project is best code to look. I assume that after you will select a subject there is a place for another question, ask for best open source project in the field.
Play with it, understand how it's working modify some functionality...
Best way to learn is learn from somebody good.

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Photoshop plugin filters. Lots and lots of interesting graphical manipulation you can do with those and you'll need pure C to do it in.

For instance that's a gateway to fractal generation, fourier transforms, fuzzy algorithms etc etc. Really anything that can manipulate image/color data and give interesting results

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Don't treat C as a beefed up assembler. I've done some serious app's in it when it was the natural language (e.g., the target machine was a Solaris box with X11).

Write something with some meat on it. Write a client server chess program, where the AI is on a server and the UI is displaying in X11; once you've done that you will really know C.

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I wonder why nobody stated the obvious:

Web applications.

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Any place where the underlying libraries are entirely in C is a good candidate for staying in C - openGL, Lua extensions, PHP extensions, old-school windows.h, etc.

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I prefer C for anything like parsing, code generation - anything that doesn't need a lot of data structure (read OOP). It's library footprint is very light, because class libraries are non-existent. I realize I'm unusual in this, but just as lots of things are "considered harmful", I try to have/use as little data structure as possible.

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Following on from what someone else said. C seems a good language to implement the language in which you write the rest of your software.

And (mutatis mutandis) the virtual machine which runs the rest of your software.

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I'd say that with the minuscule runtime environment and it's self-contained nature, you might start by creating some CLI utilities such as grep or tail (or half the commands in Unix). Anything that uses only STDOUT, STDIN and file manipulation is a good candidate.

This isn't exactly answering your question because I wouldn't actually CHOOSE to use C in such an app, but I hope it's answering the question you meant to ask--"what would be a good type of app to use learn C on?"

C isn't actually that bad a language--it's pretty easily to understand your code at an assembly language level which is quite useful, and the language constructs are few, leaving a very sparse language.

To answer your actual question, the very best use of C is the one for which it was created--porting itself (and UNIX) to other CPU architectures. This explains the lack of language features very well; it also explains the existence of Pointers which are really just a construct to make the compiler work less--any code created with pointers could be created without it (just as well optimized), but it becomes much harder to create a compiler to do so.

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digital signal processing, all Pure Data extensions are written in C, this can be done in other languages also but has had good success in C

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