// Scan ram
static int DrvScan(int nAction, int *pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x020902;
}
EEPROMScan(nAction, pnMin); // Scan EEPROM
if (nAction & ACB_VOLATILE) { // Scan volatile ram
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd - RamStart;
ba.szName = "RAM";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
MSM6295Scan(0, nAction);
MSM6295Scan(1, nAction);
SCAN_VAR(nVideoIRQ);
SCAN_VAR(nSoundIRQ);
SCAN_VAR(nUnknownIRQ);
SCAN_VAR(bVBlank);
CaveScanGraphics();
SCAN_VAR(DrvInput);
}
return 0;
}
// Scan ram
static INT32 DrvScan(INT32 nAction,INT32 *pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x020997;
}
if (nAction & ACB_VOLATILE) { // Scan volatile ram
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd-RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
MSM6295Scan(0, nAction);
MSM6295Scan(1, nAction);
ToaScanGP9001(nAction, pnMin);
SCAN_VAR(nPreviousOkiBank);
}
if (nAction & ACB_WRITE) {
INT32 nBank = nPreviousOkiBank;
nPreviousOkiBank = -1;
oki_set_bank(nBank);
}
return 0;
}
static INT32 DrvScan(INT32 nAction, INT32 *pnMin)
{
struct BurnArea ba;
if (pnMin != NULL) {
*pnMin = 0x029707;
}
if (nAction & ACB_MEMORY_RAM) {
memset(&ba, 0, sizeof(ba));
ba.Data = AllRam;
ba.nLen = RamEnd-AllRam;
ba.szName = "All Ram";
BurnAcb(&ba);
}
if (nAction & ACB_DRIVER_DATA) {
ZetScan(nAction);
MSM6295Scan(0, nAction);
}
if (nAction & ACB_WRITE) {
ZetOpen(0);
bankswitch(banks[0]);
vidram_bankswitch(banks[1]);
ZetClose();
oki_bankswitch(banks[2]);
DrvRecalc = 1;
}
return 0;
}
// Scan ram
static INT32 DrvScan(INT32 nAction, INT32* pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x029497;
}
if (nAction & ACB_VOLATILE) { // Scan volatile ram
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd-RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
ZetScan(nAction); // Scan Z80
MSM6295Scan(0, nAction);
BurnYM2151Scan(nAction);
ToaScanGP9001(nAction, pnMin);
SCAN_VAR(DrvInput);
}
return 0;
}
// Scan ram
static INT32 drvScan(INT32 nAction, INT32* pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x029496;
}
if (nAction & ACB_VOLATILE) { // Scan volatile ram
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd - RamStart;
ba.szName = "RAM";
BurnAcb(&ba);
SekScan(nAction); // Scan 68000
ZetScan(nAction); // Scan Z80
SCAN_VAR(nCurrentBank);
MSM6295Scan(0, nAction);
MSM6295Scan(1, nAction);
BurnYM2151Scan(nAction);
ToaScanGP9001(nAction, pnMin);
SCAN_VAR(nIRQPending);
SCAN_VAR(nTextROMStatus);
SCAN_VAR(drvInput);
if (nAction & ACB_WRITE) {
INT32 n = nTextROMStatus;
nTextROMStatus = -1;
SekOpen(0);
Map68KTextROM(n);
SekClose();
n = nCurrentBank;
nCurrentBank = -1;
ZetOpen(0);
drvZ80Bankswitch(n);
ZetClose();
}
}
return 0;
}
static int DrvScan(int nAction,int *pnMin)
{
if (pnMin) *pnMin = 0x029671;
struct BurnArea ba;
if (nAction & ACB_MEMORY_RAM) { // Scan all memory, devices & variables
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd-RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
if (nAction & ACB_WRITE)
bRecalcPalette = 1;
}
if (nAction & ACB_DRIVER_DATA) {
SekScan(nAction); // Scan 68000 state
SCAN_VAR(DrvInput);
SCAN_VAR(scrollx);
SCAN_VAR(scrolly);
SCAN_VAR(m6295bank);
MSM6295Scan(0, nAction);
MSM6295Scan(1, nAction);
if (nAction & ACB_WRITE) {
}
}
return 0;
}
// Scan ram
static INT32 DrvScan(INT32 nAction,INT32 *pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x029497;
}
if (nAction & ACB_VOLATILE) { // Scan volatile data
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd-RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
ZetScan(nAction); // Scan Z80
SCAN_VAR(nCurrentBank);
MSM6295Scan(0, nAction);
BurnYM2151Scan(nAction);
ToaScanGP9001(nAction, pnMin);
SCAN_VAR(DrvInput);
SCAN_VAR(nSoundCommand);
SCAN_VAR(nIRQPending);
if (nAction & ACB_WRITE) {
INT32 nBank = nCurrentBank;
nCurrentBank = -1;
ZetOpen(0); // March 28, 2014: Fix for crash on savestate load - dink
drvZ80Bankswitch(nBank);
ZetClose();
}
}
return 0;
}
// Scan ram
static int DrvScan(int nAction,int *pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x029497;
}
if (nAction & ACB_VOLATILE) { // Scan volatile data
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd-RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
ZetScan(nAction); // Scan Z80
SCAN_VAR(nCurrentBank);
MSM6295Scan(0, nAction);
BurnYM2151Scan(nAction);
ToaScanGP9001(nAction, pnMin);
SCAN_VAR(DrvInput);
SCAN_VAR(nSoundCommand);
SCAN_VAR(nIRQPending);
if (nAction & ACB_WRITE) {
int nBank = nCurrentBank;
nCurrentBank = -1;
drvZ80Bankswitch(nBank);
}
}
return 0;
}
// Scan ram
static int DrvScan(int nAction, int *pnMin)
{
struct BurnArea ba;
if (pnMin) { // Return minimum compatible version
*pnMin = 0x020997;
}
if (nAction & ACB_VOLATILE) { // Scan volatile ram
memset(&ba, 0, sizeof(ba));
ba.Data = RamStart;
ba.nLen = RamEnd - RamStart;
ba.szName = "All Ram";
BurnAcb(&ba);
SekScan(nAction); // scan 68000 states
VezScan(nAction);
BurnYM2151Scan(nAction);
MSM6295Scan(0, nAction);
ToaScanGP9001(nAction, pnMin);
}
return 0;
}
