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# include "alloc.h"
# include "vsprintf.h"
u8 * RAM ; //[_AHEAP_SIZE_TOTAL];
HeapInfoEntry * HeapInfoEntries = ( HeapInfoEntry * ) NULL ;
extern u32 DRAMRead ( u32 a ) ;
extern void DRAMWrite ( u32 a , u32 b ) ;
void HeapInit ( u8 * Offset )
{
//RAM = (u8*)0xFFFE4000;
//RAM = (u8*)0x13600000;
//RAM = (u8*)0x00600000;
RAM = Offset ;
HeapInfoEntries = ( HeapInfoEntry * ) ( RAM + _AHEAP_SIZE ) ;
memset32 ( HeapInfoEntries , 0 , _AHEAP_INFO_SIZE ) ;
while ( HeapInfoEntries [ 0 ] . Offset ! = 0 )
{
EXIControl ( 1 ) ;
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dbgprintf ( " Alloc:Failed to clear memory!:%08X " , HeapInfoEntries [ 0 ] . Offset ) ;
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Shutdown ( ) ;
}
// dbgprintf("Cleared 0x%04X bytes Space for %d allocs\n", _AHEAP_INFO_SIZE, _AHEAP_INFO_SIZE / 8 );
}
void * malloc ( u32 _size )
{
if ( _size = = 0 )
return NULL ;
if ( _size > _AHEAP_SIZE )
return NULL ;
//align size to 32, easy cheat toallow all allocs to be aligned easily
u32 size = ( _size + 0x1F ) & ( ~ 0x1F ) ;
//find a free entry to be used
u32 entry = 0xdeadbeef ;
u32 i ;
for ( i = 0 ; i < _AHEAP_INFO_SIZE / sizeof ( HeapInfoEntry ) ; + + i )
{
if ( HeapInfoEntries [ i ] . Offset = = 0 )
{
entry = i ;
break ;
}
}
if ( entry = = 0xdeadbeef )
{
EXIControl ( 1 ) ;
dbgprintf ( " Alloc: run out of entries! \n " ) ;
while ( 1 ) ;
}
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//dbgprintf("Alloc:Using entry:%d to alloc %u(%u) bytes...\n", entry, size, _size );
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//Now we search a used entry
u32 used_entry = 0xdeadbeef ;
for ( i = 0 ; i < _AHEAP_INFO_SIZE / sizeof ( HeapInfoEntry ) ; + + i )
{
if ( HeapInfoEntries [ i ] . Offset = = 0 )
continue ;
used_entry = i ;
break ;
}
if ( used_entry = = 0xdeadbeef )
{
//dbgprintf("There are no other entries used atm\n");
HeapInfoEntries [ entry ] . Offset = RAM ;
HeapInfoEntries [ entry ] . Size = size ;
//dbgprintf("alloc1: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[entry].Offset, HeapInfoEntries[entry].Size, entry );
return HeapInfoEntries [ entry ] . Offset ;
}
find_space :
;
//dbgprintf("[%02d]Offset:%08X Size:%08X\n", used_entry, HeapInfoEntries[used_entry].Offset, HeapInfoEntries[used_entry].Size );
//now we search for the next closest and the previous closest entry
u32 next = 0xdeadbeef ;
u32 prev = 0xdeadbeef ;
for ( i = 0 ; i < _AHEAP_INFO_SIZE / sizeof ( HeapInfoEntry ) ; + + i )
{
if ( HeapInfoEntries [ i ] . Offset = = 0 )
continue ;
if ( used_entry = = i )
continue ;
if ( next = = 0xdeadbeef )
{
if ( HeapInfoEntries [ i ] . Offset > HeapInfoEntries [ used_entry ] . Offset )
next = i ;
} else {
if ( HeapInfoEntries [ i ] . Offset < HeapInfoEntries [ next ] . Offset & & HeapInfoEntries [ i ] . Offset > HeapInfoEntries [ used_entry ] . Offset )
next = i ;
}
if ( prev = = 0xdeadbeef )
{
if ( HeapInfoEntries [ i ] . Offset < HeapInfoEntries [ used_entry ] . Offset )
prev = i ;
} else {
if ( HeapInfoEntries [ i ] . Offset > HeapInfoEntries [ prev ] . Offset & & HeapInfoEntries [ i ] . Offset < HeapInfoEntries [ used_entry ] . Offset )
prev = i ;
}
}
if ( next = = 0xdeadbeef )
{
//dbgprintf("This is the last entry\n");
//check if there is engough space left for our alloc
if ( ( u32 ) ( HeapInfoEntries [ used_entry ] . Offset - RAM ) + HeapInfoEntries [ used_entry ] . Size + size < = _AHEAP_SIZE )
{
HeapInfoEntries [ entry ] . Offset = HeapInfoEntries [ used_entry ] . Offset + HeapInfoEntries [ used_entry ] . Size ;
HeapInfoEntries [ entry ] . Size = size ;
//dbgprintf("alloc2: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[entry].Offset, HeapInfoEntries[entry].Size, entry );
return HeapInfoEntries [ entry ] . Offset ;
}
; //dbgprintf("2Not enough space left only had:%d\n", HEAP_SIZE - ((u32)(HeapInfoEntries[used_entry].Offset-RAM) + HeapInfoEntries[used_entry].Size) );
} else if ( ( u32 ) ( HeapInfoEntries [ used_entry ] . Offset ) + HeapInfoEntries [ used_entry ] . Size + size < ( u32 ) ( HeapInfoEntries [ next ] . Offset ) )
{
HeapInfoEntries [ entry ] . Offset = HeapInfoEntries [ used_entry ] . Offset + HeapInfoEntries [ used_entry ] . Size ;
HeapInfoEntries [ entry ] . Size = size ;
//dbgprintf("alloc4: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[entry].Offset, HeapInfoEntries[entry].Size, entry );
return HeapInfoEntries [ entry ] . Offset ;
} else {
; //dbgprintf("4Not enough space left only had:%d %d:%d\n", (u32)( HeapInfoEntries[next].Offset - HeapInfoEntries[used_entry].Offset ) - HeapInfoEntries[used_entry].Size, next, used_entry );
}
if ( prev = = 0xdeadbeef )
{
//dbgprintf("This is the first entry\n");
if ( ( u32 ) ( HeapInfoEntries [ used_entry ] . Offset - RAM ) > = size )
{
HeapInfoEntries [ entry ] . Offset = HeapInfoEntries [ used_entry ] . Offset - size ;
HeapInfoEntries [ entry ] . Size = size ;
//dbgprintf("alloc3: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[entry].Offset, HeapInfoEntries[entry].Size, entry );
return HeapInfoEntries [ entry ] . Offset ;
}
; //dbgprintf("3Not enough space left only had:%d\n", (u32)(HeapInfoEntries[used_entry].Offset-RAM) );
} else if ( ( u32 ) ( HeapInfoEntries [ prev ] . Offset ) + HeapInfoEntries [ prev ] . Size + size < ( u32 ) ( HeapInfoEntries [ used_entry ] . Offset ) )
{
HeapInfoEntries [ entry ] . Offset = HeapInfoEntries [ prev ] . Offset + HeapInfoEntries [ prev ] . Size ;
HeapInfoEntries [ entry ] . Size = size ;
//dbgprintf("alloc5: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[entry].Offset, HeapInfoEntries[entry].Size, entry );
return HeapInfoEntries [ entry ] . Offset ;
} else {
; //dbgprintf("5Not enough space left only had:%d\n", (u32)(HeapInfoEntries[used_entry].Offset-HeapInfoEntries[prev].Offset) - HeapInfoEntries[prev].Size );
}
//if we land here we have to go to the next entry
u32 temp = used_entry + 1 ;
used_entry = 0xdeadbeef ;
for ( i = temp ; i < _AHEAP_INFO_SIZE / sizeof ( HeapInfoEntry ) ; + + i )
{
if ( HeapInfoEntries [ i ] . Offset = = 0 )
continue ;
used_entry = i ;
break ;
}
if ( used_entry ! = 0xdeadbeef )
goto find_space ;
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dbgprintf ( " Alloc:failed to alloc %d bytes \n " , size ) ;
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return NULL ;
}
void * malloca ( u32 size , u32 align )
{
return malloc ( size ) ;
}
void free ( void * ptr )
{
if ( ptr = = NULL )
return ;
u32 i ;
for ( i = 0 ; i < _AHEAP_INFO_SIZE / sizeof ( HeapInfoEntry ) ; + + i )
{
if ( HeapInfoEntries [ i ] . Offset = = ptr )
{
//dbgprintf("free: ptr:%p size:%08X Entry:%d\n", HeapInfoEntries[i].Offset, HeapInfoEntries[i].Size, i );
HeapInfoEntries [ i ] . Offset = NULL ;
HeapInfoEntries [ i ] . Size = 0 ;
ptr = NULL ;
return ;
}
}
}