emu48plus-mirror/source/DISMEM.C
Gwenhael Le Moine d048b845e4
2017-08-18: Updated to version 57
Signed-off-by: Gwenhael Le Moine <gwenhael.le.moine@gmail.com>
2024-03-20 07:46:28 +01:00

245 lines
5.9 KiB
C

/*
* dismem.c
*
* This file is part of Emu48
*
* Copyright (C) 2012 Christoph Gießelink
*
*/
#include "pch.h"
#include "Emu48.h"
typedef struct // type of model memory mapping
{
BYTE byType; // calculator type
CONST LPBYTE *ppbyNCE1; // NCE1 data
CONST DWORD *pdwNCE1Size; // NCE1 size
CONST LPBYTE *ppbyNCE2; // NCE2 data
CONST DWORD *pdwNCE2Size; // NCE2 size
CONST LPBYTE *ppbyCE1; // CE1 data
CONST DWORD *pdwCE1Size; // CE1 size
CONST LPBYTE *ppbyCE2; // CE2 data
CONST DWORD *pdwCE2Size; // CE2 size
CONST LPBYTE *ppbyNCE3; // NCE3 data
CONST DWORD *pdwNCE3Size; // NCE3 size
} MODEL_MAP_T;
static CONST LPBYTE pbyNoMEM = NULL; // no memory module
static CONST MODEL_MAP_T MemMap[] =
{
{
0, // default
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL // nc.
},
{
'6', // HP38G (64K)
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL // nc.
},
{
'A', // HP38G
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL, // nc.
&pbyNoMEM, NULL // nc.
},
{
'E', // HP39/40G
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM part 1
&pbyNoMEM, NULL, // BS
&pbyNoMEM, NULL, // nc.
&Port2, &Chipset.Port2Size // RAM part 2
},
{
'G', // HP48GX
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // BS
&Port1, &Chipset.Port1Size, // Card slot 1
&pbyPort2, &dwPort2Size // Card slot 2
},
{
'S', // HP48SX
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&Port1, &Chipset.Port1Size, // Card slot 1
&pbyPort2, &dwPort2Size, // Card slot 2
&pbyNoMEM, NULL // nc.
},
{
'X', // HP49G
&pbyRom, &dwRomSize, // Flash
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // BS
&Port1, &Chipset.Port1Size, // Port 1 part 1
&Port2, &Chipset.Port2Size // Port 1 part 2
},
{ // CdB for HP: add Q type
'Q', // HP49g+
&pbyRom, &dwRomSize, // Flash
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // BS
&Port1, &Chipset.Port1Size, // Port 1 part 1
&Port2, &Chipset.Port2Size // Port 1 part 2
},
{ // CdB for HP: add 2 type
'2', // HP48gII
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // BS
&pbyNoMEM, NULL, // Port 1 part 1
&pbyNoMEM, NULL, // Port 1 part 2
},
{ // CdB for HP: add P type
'P', // HP39g+/gs
&pbyRom, &dwRomSize, // ROM
&Port0, &Chipset.Port0Size, // RAM
&pbyNoMEM, NULL, // BS
&pbyNoMEM, NULL, // nc.
&Port2, &Chipset.Port2Size // RAM part 2
}
};
static MODEL_MAP_T CONST *pMapping = MemMap; // model specific memory mapping
static enum MEM_MAPPING eMapType = MEM_MMU; // MMU memory mapping
static LPBYTE pbyMapData = NULL;
static DWORD dwMapDataSize = 0;
static DWORD dwMapDataMask = 0;
BOOL SetMemRomType(BYTE cCurrentRomType)
{
UINT i;
pMapping = MemMap; // init default mapping
// scan for all table entries
for (i = 0; i < ARRAYSIZEOF(MemMap); ++i)
{
if (MemMap[i].byType == cCurrentRomType)
{
pMapping = &MemMap[i]; // found entry
return TRUE;
}
}
return FALSE;
}
BOOL SetMemMapType(enum MEM_MAPPING eType)
{
BOOL bSucc = TRUE;
eMapType = eType;
switch (eMapType)
{
case MEM_MMU:
pbyMapData = NULL; // data
dwMapDataSize = 512 * 1024 * 2; // data size
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
case MEM_NCE1:
pbyMapData = *pMapping->ppbyNCE1;
dwMapDataSize = *pMapping->pdwNCE1Size; // ROM size is always in nibbles
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
case MEM_NCE2:
pbyMapData = *pMapping->ppbyNCE2;
dwMapDataSize = *pMapping->pdwNCE2Size * 1024 * 2;
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
case MEM_CE1:
pbyMapData = *pMapping->ppbyCE1;
dwMapDataSize = *pMapping->pdwCE1Size * 1024 * 2;
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
case MEM_CE2:
pbyMapData = *pMapping->ppbyCE2;
dwMapDataSize = *pMapping->pdwCE2Size * 1024 * 2;
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
case MEM_NCE3:
pbyMapData = *pMapping->ppbyNCE3;
dwMapDataSize = *pMapping->pdwNCE3Size * 1024 * 2;
dwMapDataMask = dwMapDataSize - 1; // size mask
break;
default: _ASSERT(FALSE);
pbyMapData = NULL;
dwMapDataSize = 0;
dwMapDataMask = 0;
bSucc = FALSE;
}
return bSucc;
}
enum MEM_MAPPING GetMemMapType(VOID)
{
return eMapType;
}
BOOL GetMemAvail(enum MEM_MAPPING eType)
{
switch (eType)
{
case MEM_MMU: return TRUE;
case MEM_NCE1: return *pMapping->ppbyNCE1 != NULL;
case MEM_NCE2: return *pMapping->ppbyNCE2 != NULL;
case MEM_CE1: return *pMapping->ppbyCE1 != NULL;
case MEM_CE2: return *pMapping->ppbyCE2 != NULL;
case MEM_NCE3: return *pMapping->ppbyNCE3 != NULL;
default: _ASSERT(FALSE);
}
return FALSE;
}
DWORD GetMemDataSize(VOID)
{
return dwMapDataSize;
}
DWORD GetMemDataMask(VOID)
{
return dwMapDataMask;
}
BYTE GetMemNib(DWORD *p)
{
BYTE byVal;
if (pbyMapData == NULL)
{
Npeek(&byVal, *p, 1);
}
else
{
byVal = pbyMapData[*p];
}
*p = (*p + 1) & dwMapDataMask;
return byVal;
}
VOID GetMemPeek(BYTE *a, DWORD d, UINT s)
{
if (pbyMapData == NULL)
{
Npeek(a, d, s);
}
else
{
for (; s > 0; --s, ++d)
{
*a++ = pbyMapData[d & dwMapDataMask];
}
}
return;
}