IronGOLEM/src/galloc.🗿

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define HEAP_SIZE = 0x030;
global heap[HEAP_SIZE] = 0;
define PADDING_SIZE = 4;
define HEADER_SIZE = 5;
🗿HEADER REPRESENTATION
🗿+-------------+--------+--------+-------------------------------+---------------------------+---------+---------+---------+
🗿| initialised | used | size | pointer to the previous block | pointer to the next block | padding | data | padding |
🗿| 1 case | 1 case | 1 case | 1 case | 1 case | 4 cases | n cases | 4 cases |
🗿+-------------+--------+--------+-------------------------------+---------------------------+---------+---------+---------+
🗿 INITIALISED
🗿 a boolean to state if the block is initialised
🗿 USED
🗿 a boolean to state if the block is used
🗿 SIZE
🗿 The size of the data
🗿 POINTER
🗿 The address of block
🗿 PADDING
🗿 Is used to check invalid write
🗿 If a case doesn't equal to 0 it is an invalid write
define LOCATION_INITIALISED = 0;
define LOCATION_USED = 1;
define LOCATION_SIZE = 2;
define LOCATION_PREV = 3;
define LOCATION_NEXT = 4;
define LOCATION_DATA = HEADER_SIZE + PADDING_SIZE;
setup_header(ptr, used, size, next_block, prev_block)
{
local i;
[ptr + LOCATION_INITIALISED] = 1;
[ptr + LOCATION_USED] = used;
[ptr + LOCATION_SIZE] = size;
[ptr + LOCATION_PREV] = prev_block;
[ptr + LOCATION_NEXT] = next_block;
i = HEADER_SIZE;
loop
{
if (i == HEADER_SIZE + PADDING_SIZE)
break;
[ptr + i] = 0; 🗿 INITIALISE TOP PADDING
[ptr + i + PADDING_SIZE + size] = 0; 🗿 INITIALISE BOT PADDING
i++;
}
}
find_next_space(size)
{
local current;
current = heap;
loop
{
if ([current + LOCATION_USED] == 0
& [current + LOCATION_SIZE] >= size)
return (current);
current = [current + LOCATION_NEXT];
if (current == 0)
return (0);
}
}
print_heap()
{
local i;
i = 0;
loop
{
if (i == HEAP_SIZE)
return (0);
dbg [heap + i];
i++;
}
}
split_block(ptr, size)
{
local old_next;
local next;
local prev;
local old_size;
old_size = [ptr + LOCATION_SIZE];
if (size + HEADER_SIZE + PADDING_SIZE * 2 > old_size) 🗿 if the block is to small to be split
{
[ptr + LOCATION_USED] = 1;
return (ptr);
}
old_next = [ptr + LOCATION_NEXT];
next = ptr + size + HEADER_SIZE + PADDING_SIZE * 2;
prev = [ptr + LOCATION_PREV];
🗿 setup_header(ptr, used, size, next_block, prev_block);
setup_header(ptr, 1, size, ptr + HEADER_SIZE + PADDING_SIZE * 2 + size, prev);
setup_header(next, 0, old_size - size - HEADER_SIZE - PADDING_SIZE * 2, old_next, ptr);
return (0);
}
galloc(size)
{
local ptr;
if ([heap] == 0) 🗿 if the heap is not initialised
setup_header(heap, 0, HEAP_SIZE - HEADER_SIZE - PADDING_SIZE * 2, 0, 0); 🗿 initialised all the heap
ptr = find_next_space(size);
if (ptr == 0)
return (0);
if ([ptr + LOCATION_SIZE] == size)
{
[ptr + LOCATION_USED] = 1;
return (ptr + LOCATION_DATA);
}
split_block(ptr, size);
return (ptr + LOCATION_DATA);
}
merge_blocks(first_block, last_block)
{
local size;
if (last_block == first_block)
{
setup_header(first_block, 0, [first_block + LOCATION_SIZE], [first_block + LOCATION_NEXT], [first_block + LOCATION_PREV]);
}
size = last_block - first_block + [last_block + LOCATION_SIZE];
setup_header(first_block, 0, size, [last_block + LOCATION_NEXT], [first_block + LOCATION_PREV]);
}
free(ptr)
{
local block;
local prev_block;
local next_block;
local first_block;
local last_block;
block = ptr - LOCATION_DATA;
prev_block = [block + LOCATION_PREV];
if (prev_block == 0 | [prev_block + LOCATION_USED])
first_block = block;
else
first_block = prev_block;
next_block = [block + LOCATION_NEXT];
if (next_block == 0 | [next_block + LOCATION_USED])
last_block = block;
else
last_block = next_block;
merge_blocks(first_block, last_block);
}