2023-12-03 07:19:51 -05:00
# include <stdlib.h>
2023-11-13 11:58:31 -05:00
# ifdef STATIC_SOURCE
2023-11-13 21:05:10 -05:00
# include "chapter/chapter_0.c"
# include "chapter/chapter_1.c"
# include "chapter/chapter_2.c"
# include "chapter/chapter_3.c"
# include "chapter/chapter_4.c"
2023-11-30 14:50:42 -05:00
# include "chapter/chapter_5.c"
2023-11-30 12:26:42 -05:00
//~#include "chapter/chapter_6.c"
2023-11-13 10:16:57 -05:00
# else
2023-11-13 21:05:10 -05:00
# include "chapter/chapter_0.h"
# include "chapter/chapter_1.h"
# include "chapter/chapter_2.h"
# include "chapter/chapter_3.h"
# include "chapter/chapter_4.h"
2023-11-30 14:50:42 -05:00
# include "chapter/chapter_5.h"
2023-11-30 12:26:42 -05:00
//~#include "chapter/chapter_6.h"
2023-11-13 10:16:57 -05:00
# endif
2023-11-09 09:41:53 -05:00
2023-11-07 10:14:07 -05:00
/*
About this " book " :
This is the ultimate C programming language guide , brought to you by Ognjen ' xolatile ' Milan Robovic . I ' m not a native English speaker nor a real programmer , only a hobbyist , so
this " book " will be full of grammatical mistakes , but not compiler warnings . Please be patient , C is a small language , even for the time when it was made , so if you ignore my
rambling and focus on what ' s written outside of the comments , you ' ll easily learn it . Good luck and have fun . . .
2023-11-11 07:39:09 -05:00
With that being said , I ' ll tell you the honest truth . No amount of books or source code you read ( that ' s written in C or any other language ) will make you good in programming ( in
C or any other language ) . You get good in programming by writing the programs . Knowing what some statement , expression or library function will do is just a small advantage that ' s
saving you the time in order not to read ( read yet again . . . ) some documentation or specification . Sure , you can write literal machine code for some CPU instruction set , but you
still need to know what instructions are supported and how they translate to machine code . The sad thing about programming is that you need very small subset of information to
achieve creating almost anything , and yet , you need huge set of informations to do it in more concise way . That ' s the tradeoff .
Either learn very small subset of " building materials " and " architecture " , then proceed building sewers , roads , houses , malls , factories , skyscrapers and in the end create a town ,
2023-11-12 05:37:22 -05:00
or learn huge set of " pre-made houses, pre-made factories, pre-made road blocks " , and create a same - looking town . If you use any kind of library functions , even the ones we ' ll
2023-11-11 07:39:09 -05:00
use in some parts of this program , you ' ll end up as a " interior designer " rather than an " architect " . C programming language is the minimal kind of tool that ' s widely supported
2023-11-12 05:37:22 -05:00
and lets you write " quick assembly " , we ' ll have entire chapter about assembly and machine code , so you can make your own language .
2023-11-11 07:39:09 -05:00
2023-11-10 08:31:22 -05:00
We ' re dealing with a low - level functional ( and procedural ) programming language called C . So , disengage all safety protocols , think twice , write once , enter the Great C and learn
to sail on it after some practice . This will never be a book . It has no readers . It ' s not even printed . It ' s pages are files . It ' s cover is a folder . This will never be a book . I ,
for the most part , am having fun writing this , same as I have fun while programming . You won ' t get a job after reading this " book " , only some knowledge .
2023-11-12 05:32:35 -05:00
How to read this book ?
- First of all , read the " README.md " file in base directory . Run scripts there in the order they ' re listed .
- Now , make a copy of ' xhartae ' folder somewhere , and run ' $ xhartae ' from there , or just read the source .
- Feel free to modify ( edit ) that copy , if you can ' t fix some error , just replace it with the original one .
When you read some book about a programming language , you can ' t modify it and recompile it . You can do it with this book , so it ' s not really a " book " , but at the same time it is .
If you fuck up something and don ' t know how to fix it , you ' ll easily replace that folder with the working one , which you can also download from my GitLain repository . If you ' re ,
for example , learning about switch statement , you can just write it inside this book , recompile it and run it . If compiler spits out warnings or error that you can ' t fix , just
delete that part of the code , and go on with your life . . .
2023-11-07 10:14:07 -05:00
Why should you learn or use C programming language in 2023 ?
2023-11-09 09:41:53 -05:00
2023-11-07 10:14:07 -05:00
- C was inspiration for many newer programming languages for good reasons .
- C can interface with huge variety of other distinct programming languages .
- C can be a lot more readable , faster and easier if used well .
2023-11-10 08:31:22 -05:00
Goal of this so - called book ?
- You ' ll be able to write your own compiler or interpretter , for your own language after reading this , and many more programs .
2023-11-26 06:34:52 -05:00
- You might learn something new . My target audience is people who don ' t know C language , but maybe there ' s something new for you .
2023-11-10 08:31:22 -05:00
- You won ' t ( hopefully ) buy into big ideas and paradigms about programming , you ' ll just create programs , and have fun doing so .
2023-11-10 06:24:57 -05:00
Before we get into it , there are some requirements that this book is based on . Thou shalt use GNU / systemd / Linux operating system , commonly and wrongly refered to as Linux OS or
2023-11-26 06:34:52 -05:00
just simply distro ( distribution ) . They come in many flavours , so if you ' re new to this , you could just install BunsenLabs , LXLE or Mint on some old laptop , if you want to finally
switch totally from spyware known as Windows ( niche OS made for games ) . You ' ll revive your old laptop that was useless , and you support free software by doing so , making yourself
a part of the revolution . Beside that , you ' ll need a C compiler such as TCC , GCC ( which is preinstalled on most distros ) or Clang , and lastly Valgrind and Splint , to verify the
2023-11-10 06:24:57 -05:00
quality of your C source code . Text editor or IDE is a trivial thing at the begining , but it ' ll shape your coding style in the long run . Lets talk about them .
GNU / Linux operating systems :
- LXLE : Entire distro based on motto " Revive your old PC " , so you understand everything . It ' s based on ( L ) Ubuntu and uses LX desktop environment . It comes preinstalled with a lot
of useful software , so you can work with it as soon as the installation is finished . If your old machine was struggling with XP , it ' ll fly with this .
- Mint : You can consider it as a noob Linux distro , but all that aside , it ' s good introduction to freedom , as it looks very similar to Windows , except nicer . I prefer to suggest
over Ubuntu for new users ( revolutionists ) . You can also use it out of the box , since it comes with a lot of good software .
- BunsenLabs : Easy to use distribution , and I personal use it . I like to call it " hybrid distro " , because it doesn ' t buy into big ideas like universal window manager , desktop
environment , or anything else . It just literally works , and you ' re free to modify it however you want , nothing breaks and it ' s friendly with older hardware .
C compiler and other tools ( and other compilers . . . ) :
- TCC : Tiny C compiler , imagine that you just want to compile some huge program that ' s taking forever to compile ( and it ' s not written in Pust " programming " language ) . Then just
compile it with TCC , it ' ll be around 10 times faster than GCC or Clang , but it ' ll do less optimizations and less error checking .
- GCC : GNU compiler collection ( formerly known as GNU C compiler ) is beast of a compiler , with decent optimizations and error checking , but it ' s very old and sometimes produces
errors that cause SIGILL ( Illegal instruction ) on Linux ( on Intel ' s x86 - 64 CPUs ) . Also , it was rewritten in C + + , so no wonder . . .
- Clang : LLVM C compiler , I personally dislike it , but don ' t mind my opinion too much . It has good warning messages , so sometimes I use it with flag ' - Weverything ' in order to see
that my code is absolutely correct . It also has quite good optimizations , but I couldn ' t care less about that honestly .
- Valgrind : Heavy metal program for checking memory leaks ( when using heap memory / dynamic memory management ) , I absolutely love it and use it to test all my C programs . I use it
with ' - g ' flag passed to the compiler I ' m using to use debug symbols in generated object files . Every single C programmer needs to use it .
- Splint : Careful with using this one , it ' s old and outdated C linter . It basically prints warnings about your C source code , without compiling it , it ' s called static code
analysis . In order to use it efficiently , you ' ll need to learn some flags , and we ' ll cover that in future chapters .
+ GNAT : GNU toolchain made for Ada programming language . We ' ll briefly talk about other older and newer programming languages in this book , Ada , Fortran , flat assembly mostly
positively , and C + + , Rust , Java , mostly negatively . You don ' t need this , it ' s just an extra , in case that ( Gott forbid ) you want to learn more .
+ fasm : flat assembler , not a compiler , close to interpretter , but not quite , is the most unique piece of software I ' ve ever seen . It ' s implemented in itself , which is something
you can do with C too , write your own C compiler , compile it with TCC , and then recompile it in itself . You will need assembly knowledge .
Text editors or IDEs ( integrated development environments ) :
- ed : It ' s the STANDARD text editor for UNIX - based operating systems . Nothing else can be said , it ' s literally the best tool I ' ve ever seen , and I use it sometimes .
- kilo : Terminal text editor , written in C language , less than 1000 lines of code . It ' s nice , simple and usable , and you can extend it once you learn C .
- nano : Also terminal text editor , very simple to use , but some prefer micro over it . You gotta admit , people are very creative when naming their software . . .
2023-11-26 06:34:52 -05:00
- Vim : Beast of an editor , once you learn how to exit it , you ' ll be like a Gott to other non - Vim users . I won ' t tell you how to quit Vim . I don ' t know .
- Emacs : Not a text editor , but an entire operating system , your pinky finger will be twice stronger because of it . It has many extensions and all PROs use it .
2023-11-10 06:24:57 -05:00
- Mousepad : State of the art text editor , it works same as Notepad , but it ' s more based . You really don ' t need anything more complex than this for editing a text file .
- Geany : I use it most of the time , but I switch to nano , Emacs , my own text editor whenever I feel like it , in order not to limit myself to just one tool .
Jokes aside , don ' t obesess over any distro ( as long as it ' s some kind of Linux , BSD is cucked ) , any kind of compiler and any kind of text editor ! You only want to edit text file ,
2023-11-26 06:34:52 -05:00
insert and delete few lines of code , nothing more . You don ' t need some IDE ( bloated text editor ) that uses 2 GiB or RAM , opens up after 10 s of blank window , or works slow overall .
Just don ' t use any of the following for reasons you ' ll understand once your grow up : Windows , MacOS , MSVC , ICC , VS Code , Visual Studio , Atom , Helix , Kakoune , Eclipse , Sublime .
2023-11-10 06:24:57 -05:00
2023-11-09 16:35:24 -05:00
One sane C program should have the following structure ( please keep in mind that this is a book , not a sane program , thanks . . . ) :
2023-11-09 09:41:53 -05:00
2023-11-07 10:14:07 -05:00
0 ) Optional file , author or license information in comment .
1 ) Header guards and implementation definitions .
2 ) System header files then project header files .
2023-11-10 06:24:57 -05:00
3 ) Macro definitions ( please avoid them ) .
2023-12-03 11:05:54 -05:00
4 ) Internal function declarations then variable definitions .
2023-11-07 10:14:07 -05:00
5 ) External function then variable declarations .
2023-12-03 11:05:54 -05:00
6 ) Internal function definition .
2023-11-07 10:14:07 -05:00
7 ) External function then variable definition .
8 ) Main function .
2023-11-26 06:34:52 -05:00
9 ) You can also define functions here if you want to .
2023-11-09 09:41:53 -05:00
*/
2023-11-07 10:14:07 -05:00
int main ( int argc , char * * argv ) {
( void ) argc ;
( void ) argv ;
2023-12-03 07:19:51 -05:00
program_curses_view_file ( " program/program_1.c " , 0 , 0 ) ;
2023-11-30 14:50:42 -05:00
blesses_configure ( ) ;
while ( blesses_active ) {
blesses_render_string ( " Heyo world! " , 0 XFF0000 , 0 XFF , 0 , 0 ) ;
blesses_synchronize ( ) ;
}
2023-12-03 07:19:51 -05:00
program_curses_view_file ( " example/ada.adb " , 0 , 0 ) ;
2023-11-20 09:43:12 -05:00
2023-11-07 10:14:07 -05:00
return ( EXIT_SUCCESS ) ;
}