kolibrios-gitea/programs/games/LaserTank/trunk/smalllibc/mcsmemm.cpp
ZblCoder fb06cf5f79 LaserTank game added
git-svn-id: svn://kolibrios.org@5276 a494cfbc-eb01-0410-851d-a64ba20cac60
2014-12-28 18:29:59 +00:00

373 lines
8.3 KiB
C++

// memman.cpp : Defines the entry point for the console application.
//
#include "kosSyst.h"
#include "mcsmemm.h"
void * __cdecl operator new ( size_t count, size_t element_size )
{
return allocmem( (Dword)(count * element_size) );
}
void * __cdecl operator new [] ( size_t amount )
{
return allocmem( (Dword)amount );
}
void * __cdecl operator new ( size_t amount )
{
return allocmem( (Dword)amount );
}
void __cdecl operator delete ( void *pointer )
{
if ( pointer != NULL ) freemem( pointer );
}
void __cdecl operator delete [] ( void *pointer )
{
if ( pointer != NULL ) freemem( pointer );
}
void __cdecl initHeap(void)
{
__asm
{
push 68
pop eax
push 11
pop ebx
int 0x40
}
}
#pragma data_seg(".CRT$XCB")
__declspec(allocate(".CRT$XCB")) void (__cdecl *initHeapPtr)(void) = &initHeap;
__declspec(noinline) Byte* __fastcall allocmem( Dword reqsize )
{
initHeapPtr; // force dependency
__asm
{
push 68
pop eax
push 12
pop ebx
int 0x40
}
}
__declspec(noinline) void __fastcall freemem( void *vaddress )
{
initHeapPtr; // force dependency
__asm
{
push 68
pop eax
push 13
pop ebx
int 0x40
}
}
/*
//
Dword mmMutex = FALSE;
MemBlock *rootfree = NULL;
MemBlock *rootuser = NULL;
bool mmInitialized = false;
Byte *mmHeapTop = NULL;
//
Byte * AllocMemFromSystem( Dword reqSize )
{
Byte *result;
sProcessInfo pInfo;
//
if ( mmInitialized )
{
result = mmHeapTop;
}
else
{
//
kos_ProcessInfo( &pInfo );
//
result = (Byte *)(pInfo.processInfo.used_memory + 1);
//
mmInitialized = true;
}
//
if ( ! kos_ApplicationMemoryResize( ((Dword)result) + reqSize ) )
{
result = NULL;
}
//
mmHeapTop = result + reqSize;
//
return result;
}
//
Byte *allocmem( Dword reqsize )
{
MemBlock *BlockForCheck;
MemBlock *LastKnownGood;
Dword tail;
Byte *address;
//ïîäðîâíÿåì ðàçìåð
if( ( tail = reqsize % SIZE_ALIGN ) != 0 )
{
reqsize += SIZE_ALIGN - tail;
}
LastKnownGood = NULL;
// æä¸ì îñâîáîæäåíèÿ ìüþòåêñà
while ( rtlInterlockedExchange( &mmMutex, TRUE ) )
{
//
kos_Pause( 1 );
}
//èùåì ïîäõîäÿùèé ñâîáîäíûé áëîê
if( rootfree != NULL )
{
for ( BlockForCheck = rootfree; ; BlockForCheck = BlockForCheck->Next )
{
if ( BlockForCheck->Size >= reqsize )
{
//íàøëè
if ( LastKnownGood != NULL )
{
if ( LastKnownGood->Size >= BlockForCheck->Size )
LastKnownGood = BlockForCheck;
}
else
LastKnownGood = BlockForCheck;
if ( LastKnownGood->Size == reqsize )
break;
}
if ( BlockForCheck->Next == NULL )
break;
}
}
if ( LastKnownGood != NULL )
{
//ïðîâåðèì íàéäåííûé áëîê íà âîçìîæíîñòü äåëåíèÿ
tail = LastKnownGood->Size - reqsize;
if ( tail >= ( sizeof(MemBlock) + SIZE_ALIGN ) )
{
//áóäåì ðàçáèâàòü
BlockForCheck = (MemBlock *)( ( (Byte *)LastKnownGood ) + tail );
BlockForCheck->Size = reqsize;
//âñòàâèì çàíÿòûé áëîê â íà÷àëî ñïèñêà çàíàòûõ áëîêîâ
if( rootuser != NULL )
{
BlockForCheck->Next = rootuser;
rootuser->Previous = BlockForCheck;
BlockForCheck->Previous = NULL;
rootuser = BlockForCheck;
}
else
{
rootuser = BlockForCheck;
BlockForCheck->Next = NULL;
BlockForCheck->Previous = NULL;
}
//èçìåíèì ðàçìåð îñòàâøåéñÿ ÷àñòè
LastKnownGood->Size = tail - sizeof(MemBlock);
address = ( (Byte *)BlockForCheck ) + sizeof(MemBlock);
// îòïóñòèì ìüþòåêñ
rtlInterlockedExchange( &mmMutex, FALSE );
return address;
}
else
{
//ïåðåìåñòè áëîê èç î÷åðåäè ñâîáîäíûõ â íà÷àëî î÷åðåäè çàíÿòûõ
//ñíà÷àëà âûêèíåì åãî èç î÷åðåäè ñâîáîäíûõ
if ( LastKnownGood->Previous != NULL )
{
LastKnownGood->Previous->Next = LastKnownGood->Next;
}
else
{
//áëîê ñòîèò â íà÷àëå î÷åðåäè
rootfree = LastKnownGood->Next;
}
if( LastKnownGood->Next != NULL )
{
LastKnownGood->Next->Previous = LastKnownGood->Previous;
}
//òåïåðü âñòàâèì åãî â î÷åðåäü çàíÿòûõ
if( rootuser != NULL )
{
LastKnownGood->Next = rootuser;
rootuser->Previous = LastKnownGood;
LastKnownGood->Previous = NULL;
rootuser = LastKnownGood;
}
else
{
rootuser = LastKnownGood;
LastKnownGood->Next = NULL;
LastKnownGood->Previous = NULL;
}
//
address = ( (Byte *)LastKnownGood ) + sizeof(MemBlock);
// îòïóñòèì ìüþòåêñ
rtlInterlockedExchange( &mmMutex, FALSE );
return address;
}
}
else
{
//íàäî ïîëó÷èòü åù¸ êóñî÷åê ïàìÿòè
LastKnownGood = (MemBlock *)AllocMemFromSystem( reqsize + sizeof(MemBlock) );
//
if( LastKnownGood != NULL )
{
LastKnownGood->Size = reqsize;
//òåïåðü âñòàâèì åãî â î÷åðåäü çàíÿòûõ
if( rootuser != NULL )
{
LastKnownGood->Next = rootuser;
rootuser->Previous = LastKnownGood;
LastKnownGood->Previous = NULL;
rootuser = LastKnownGood;
}
else
{
rootuser = LastKnownGood;
LastKnownGood->Next = NULL;
LastKnownGood->Previous = NULL;
}
address = ( (Byte *)LastKnownGood ) + sizeof(MemBlock);
// îòïóñòèì ìüþòåêñ
rtlInterlockedExchange( &mmMutex, FALSE );
return address;
}
}
// îòïóñòèì ìüþòåêñ
rtlInterlockedExchange( &mmMutex, FALSE );
//
rtlDebugOutString( "allocmem failed." );
kos_ExitApp();
//
return NULL;
}
//
Dword freemem( void *vaddress )
{
Dword result;
Byte *checknext, *address = (Byte *)vaddress;
// æä¸ì îñâîáîæäåíèÿ ìüþòåêñà
while ( rtlInterlockedExchange( &mmMutex, TRUE ) )
{
//
kos_Pause( 1 );
}
MemBlock *released = (MemBlock *)( address - sizeof(MemBlock) );
result = released->Size;
//óáèðàåì áëîê èç ñïèñêà çàíÿòûõ
if ( released->Previous != NULL )
{
released->Previous->Next = released->Next;
}
else
{
rootuser = released->Next;
}
if ( released->Next != NULL )
{
released->Next->Previous = released->Previous;
}
//çàêèíåì òåïåðü ýòîò áëîê â ñïèñîê ñâîáîäíûõ
released->Next = rootfree;
released->Previous = NULL;
rootfree = released;
if ( released->Next != NULL )
{
released->Next->Previous = released;
}
//òåïåðü ïîèùåì ñìåæíûå ñâîáîäíûå áëîêè
checknext = (Byte *)(rootfree) + ( rootfree->Size + sizeof(MemBlock) );
//
for ( released = rootfree->Next; released != NULL; released = released->Next )
{
if ( checknext == (Byte *)released )
{
//ñîáèðàåì áëîêè âìåñòå
//ñíà÷àëà âûêèíåì èç î÷åðåäè ñâîáîäíûõ
released->Previous->Next = released->Next;
if( released->Next != NULL )
{
released->Next->Previous = released->Previous;
}
//òåïåðü óâåëè÷èì ðàçìåð êîðíåâîãî áëîêà
rootfree->Size += released->Size + sizeof(MemBlock);
break;
}
}
//åñëè íàäî, ïîèùåì áëîêè ïåðåä òåêùèì.
checknext = (Byte *)(rootfree);
//
if ( released == NULL )
{
for ( released = rootfree->Next; released != NULL; released = released->Next )
{
if ( checknext == (Byte *)released + ( released->Size + sizeof(MemBlock) ) )
{
//ñîáèðàåì áëîêè âìåñòå
//óâåëè÷èì ðàçìåð áëîêà
released->Size += rootfree->Size + sizeof(MemBlock);
//òåïåðü âûêèíåì èç î÷åðåäè ñâîáîäíûõ
released->Previous->Next = released->Next;
if ( released->Next != NULL )
{
released->Next->Previous = released->Previous;
}
//è çàêèíåì åãî â íà÷àëî î÷åðåäè âìåñòî ïðèñîåäèí¸ííîãî áëîêà èç êîðíÿ ñïèñêà
if ( rootfree->Next != NULL )
{
rootfree->Next->Previous = released;
}
released->Next = rootfree->Next;
released->Previous = NULL;
rootfree = released;
break;
}
}
}
// îòïóñòèì ìüþòåêñ
rtlInterlockedExchange( &mmMutex, FALSE );
return result;
}
*/