SectorC
SectorC is a C compiler written in x86-16 assembly that fits within the 512 byte boot sector of an x86 machine. It supports a subset of C that is large enough to write real and interesting programs. It is quite likely the smallest C compiler ever written.
In a base64 encoding, it looks like this: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=
Supported language
A fairly large subset is supported: global variables, functions, if statements, while statements, lots of operators, pointer dereference, inline machine-code, comments, etc. All of these features make it quite capable.
For example, the following program animates a moving sine-wave:
int y;
int x;
int x_0;
void sin_positive_approx()
{
y = ( x_0 * ( 157 - x_0 ) ) >> 7;
}
void sin()
{
x_0 = x;
while( x_0 > 314 ){
x_0 = x_0 - 314;
}
if( x_0 <= 157 ){
sin_positive_approx();
}
if( x_0 > 157 ){
x_0 = x_0 - 157;
sin_positive_approx();
y = 0 - y;
}
y = 100 + y;
}
int offset;
int x_end;
void draw_sine_wave()
{
x = offset;
x_end = x + 314;
while( x <= x_end ){
sin();
pixel_x = x - offset;
pixel_y = y;
vga_set_pixel();
x = x + 1;
}
}
int v_1;
int v_2;
void delay()
{
v_1 = 0;
while( v_1 < 50 ){
v_2 = 0;
while( v_2 < 10000 ){
v_2 = v_2 + 1;
}
v_1 = v_1 + 1;
}
}
void main()
{
vga_init();
offset = 0;
while( 1 ){
vga_clear();
draw_sine_wave();
delay();
offset = offset + 1;
if( offset >= 314 ){ // mod the value to avoid 2^16 integer overflow
offset = offset - 314;
}
}
}
Screenshot
Provided Example Code
A few examples are provided that leverage the unique hardware aspects of the x86-16 IBM PC:
examples/hello.c:
Print a text greeting on the screen writing to memory at 0xB8000examples/sinwave.c:
Draw a moving sine wave animation with VGA Mode 0x13 using an appropriately bad approximation of sin(x)examples/twinkle.c:
Play βTwinkle Twinkle Little Starβ through the PC Speaker (Warning: LOUD)
Grammar
The following grammar is accepted and compiled by sectorc:
program = (var_decl | func_decl)+
var_decl = "int" identifier ";"
func_decl = "void" func_name "{" statement* "}"
func_name = <identifier that ends in "()" with no space>
statement = "if(" expr "){" statement* "}"
| "while(" expr "){" statement* "}"
| "asm" integer ";"
| func_name ";"
| assign_expr ";"
assign_expr = deref? identifier "=" expr
deref = "*(int*)"
expr = unary (op unary)?
unary = deref identifier
| "&" identifier
| "(" expr ")"
| indentifier
| integer
op = "+" | "-" | "&" | "|" | "^" | "<<" | ">>"
| "==" | "!=" | "<" | ">" | "<=" | ">="
In addition, both // comment
and /* multi-line comment */
styles are supported.
(NOTE: This grammar is 704 bytes in ascii, 38% larger than it's implementation!)
How?
See blog post: SectorC: A C Compiler in 512 bytes
Why?
In 2020, cesarblum wrote a Forth that fits in a bootsector: (sectorforth)
In 2021, jart et. al. wrote a Lisp that fits in the bootsector: (sectorlisp)
Naturally, C always needs to come and crash (literally) every low-level systems party regaurdless of whether it was even invited.
Running
Dependencies:
nasm
for assembling (I used v2.16.01)qemu-system-i386
for emulating x86-16 (I used v8.0.0)
Build: ./build.sh
Run: ./run.sh your_source.c
NOTE: Tested only on a MacBook M1
What is this useful for?
Probably Nothing.
Or at least that's what I thought when starting out. But, I didn't think I'd get such a feature set. Now, I'd say that it might be useful for someone that wants to explore x86-16 bios functions and machine model w/o having to learn lots of x86 assembly first. But, then again, you should just use a proper C compiler and write a tiny bootloader to execute it.