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scriptmachine.cpp
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scriptmachine.cpp
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#include "scriptmachine.h"
ScriptMachine::ScriptMachine()
{
AbortRequest = false;
}
ScriptMachine::~ScriptMachine()
{
DELARR(uchar, MemData);
if ((MemMode != 0) && (MemMode != 2))
{
DELARR(uchar, MemProg);
}
}
void ScriptMachine::PrepareMem(int Mode)
{
MemData = NEWARR(uchar, uchar[65536]);
MemMode = Mode;
if (MemMode == 0)
{
MemProg = MemData;
}
else
{
MemProg = NEWARR(uchar, uchar[65536]);
}
}
void ScriptMachine::LoadProgram(int Mode_, string &ProgCode, int CodeLoc_, int CodeSize_, int DataLoc_, int DataSize_)
{
CodeLoc = CodeLoc_;
CodeSize = CodeSize_;
DataLoc = DataLoc_;
DataSize = DataSize_;
// Preparing memory
PrepareMem(Mode_);
// Clearing memory
int I;
for (I = 0; I < 65536; I++)
{
MemProg[I] = 0;
MemData[I] = 0;
MemMapP[I] = 0;
MemMapR[I] = 0;
MemMapW[I] = 0;
MemMapC[I] = 0;
}
// Loading compiled code
int ProgCodeI = 0;
int ProgCodeL = ProgCode.size();
for (ProgCodeI = 0; ProgCodeI <= ProgCodeL; ProgCodeI++)
{
if (ProgCode[ProgCodeI] == ':')
{
// Get binary code line
int ProgCodeII = ProgCodeI + 1;
while ((ProgCodeII < ProgCodeL) && (ProgCode[ProgCodeII] != ':'))
{
ProgCodeII++;
}
string Buf = ProgCode.substr(ProgCodeI, ProgCodeII - ProgCodeI);
if (Buf.size() > 11)
{
if (Buf.substr(7, 2) == "00")
{
// Number of bytes
int DataLength = Eden::HexToInt(Buf.substr(1, 2));
// First byte address
int DataAddr = Eden::HexToInt(Buf.substr(3, 4));
// Writing bytes into CODE memory
for (I = 0; I < DataLength; I++)
{
MemMapP[DataAddr + I] = 1;
MemProg[DataAddr + I] = Eden::HexToInt(Buf.substr(I * 2 + 9, 2));
}
}
}
}
}
// Saving memory dump to file
/*cout << ">>>>" << FileName << endl;
fstream FXXX(FileName + ".bin", ios::out | ios::binary);
FXXX.write((char*)MemProg, 65536);
FXXX.close();*/
// Resetting
ProgReset();
}
void ScriptMachine::MemSet(ushort Addr, uchar Val)
{
MemMapW[Addr] = 1;
MemData[Addr] = Val;
}
void ScriptMachine::MemSet(ushort AddrH, ushort AddrL, uchar Val)
{
MemMapW[(AddrH << 8) + AddrL] = 1;
MemData[(AddrH << 8) + AddrL] = Val;
}
uchar ScriptMachine::MemPrg(ushort Addr)
{
MemMapC[Addr] = 1;
return MemProg[Addr];
}
uchar ScriptMachine::MemGet(ushort Addr)
{
MemMapR[Addr] = 1;
return MemData[Addr];
}
uchar ScriptMachine::MemGet(ushort AddrH, ushort AddrL)
{
MemMapR[(AddrH << 8) + AddrL] = 1;
return MemData[(AddrH << 8) + AddrL];
}
bool ScriptMachine::ProgWorking()
{
if (MemData[SwapPage] != 0)
{
IOBuffer.Raw[0] = MemData[SwapPage + 0x08];
IOBuffer.Raw[1] = MemData[SwapPage + 0x09];
IOBuffer.Raw[2] = MemData[SwapPage + 0x0A];
IOBuffer.Raw[3] = MemData[SwapPage + 0x0B];
IOBuffer.Raw[4] = MemData[SwapPage + 0x0C];
IOBuffer.Raw[5] = MemData[SwapPage + 0x0D];
IOBuffer.Raw[6] = MemData[SwapPage + 0x0E];
IOBuffer.Raw[7] = MemData[SwapPage + 0x0F];
if (MemData[SwapPage] < 200)
{
int IONum = MemData[SwapPage] & b00000011;
switch(MemData[SwapPage] & b11111100)
{
default:
ErrorStatus = "Unsupported command " + Eden::ToStr(MemData[SwapPage]);
MemData[SwapPage] = 255;
StatusC = 5;
return false;
case IOConsoleCmd + 0:
IOConsole_[IONum]->Clear();
break;
case IOConsoleCmd + 4:
{
uchar CmdX = MemData[SwapPage + 1];
switch(CmdX)
{
case 0: IOConsole_[IONum]->Print((int)IOBuffer.BufS1); break;
case 1: IOConsole_[IONum]->Print((int)IOBuffer.BufU1); break;
case 2: IOConsole_[IONum]->Print(IOBuffer.BufS1); break;
case 3: IOConsole_[IONum]->Print(IOBuffer.BufU1); break;
case 4: IOConsole_[IONum]->Print(IOBuffer.BufS2); break;
case 5: IOConsole_[IONum]->Print(IOBuffer.BufU2); break;
case 6: IOConsole_[IONum]->Print(IOBuffer.BufS2); break;
case 7: IOConsole_[IONum]->Print(IOBuffer.BufU2); break;
case 8: IOConsole_[IONum]->Print(IOBuffer.BufS4); break;
case 9: IOConsole_[IONum]->Print(IOBuffer.BufU4); break;
case 10: IOConsole_[IONum]->Print(IOBuffer.BufF); break;
}
}
break;
case IOConsoleCmd + 8:
if ((IOBuffer.BufS1 <= 120) && (IOBuffer.BufS1 >= -120))
{
if (IOBuffer.BufS1 >= 0)
{
IOConsole_[IONum]->SetFloadFixed(IOBuffer.BufS1);
}
else
{
IOConsole_[IONum]->SetFloatScientific(0 - IOBuffer.BufS1);
}
}
break;
case IOConsoleCmd + 12:
IOBuffer.BufU1 = IOConsole_[IONum]->InputCharGet();
break;
case IOConsoleCmd + 16:
IOBuffer.BufS1 = IOConsole_[IONum]->InputCharGet();
break;
case IOConsoleCmd + 20:
IOConsole_[IONum]->InputClear();
break;
case IOSpreadsheetCmd + 0:
{
uchar CmdX = MemData[SwapPage + 1];
string Raw = IOSpreadsheet_[IONum]->CellGet(MemData[SwapPage + 2], MemData[SwapPage + 3]);
switch(CmdX)
{
case 0: IOBuffer.BufS1 = Eden::ToLong(Raw); break;
case 1: IOBuffer.BufU1 = Eden::ToLong(Raw); break;
case 2: if (Raw.length() > 0) { IOBuffer.BufS1 = Raw[0]; } else { IOBuffer.BufS1 = 0; } break;
case 3: if (Raw.length() > 0) { IOBuffer.BufU1 = Raw[0]; } else { IOBuffer.BufU1 = 0; } break;
case 4: IOBuffer.BufS2 = Eden::ToLong(Raw); break;
case 5: IOBuffer.BufU2 = Eden::ToLong(Raw); break;
case 6: IOBuffer.BufS2 = Eden::ToLong(Raw); break;
case 7: IOBuffer.BufU2 = Eden::ToLong(Raw); break;
case 8: IOBuffer.BufS4 = Eden::ToLong(Raw); break;
case 9: IOBuffer.BufU4 = Eden::ToLong(Raw); break;
case 10: IOBuffer.BufF = Eden::ToFloat(Raw); break;
}
}
break;
case IOSpreadsheetCmd + 4:
TextBuff.str(IOSpreadsheet_[IONum]->CellGet(MemData[SwapPage + 1], MemData[SwapPage + 2]));
break;
case IOSpreadsheetCmd + 8:
{
uchar CmdX = MemData[SwapPage + 1];
string Raw = "";
switch(CmdX)
{
case 0: Raw = Eden::ToStr((int)IOBuffer.BufS1); break;
case 1: Raw = Eden::ToStr((int)IOBuffer.BufU1); break;
case 2: Raw = IOBuffer.BufS1; break;
case 3: Raw = IOBuffer.BufU1; break;
case 4: Raw = Eden::ToStr(IOBuffer.BufS2); break;
case 5: Raw = Eden::ToStr(IOBuffer.BufU2); break;
case 6: Raw = Eden::ToStr(IOBuffer.BufS2); break;
case 7: Raw = Eden::ToStr(IOBuffer.BufU2); break;
case 8: Raw = Eden::ToStr(IOBuffer.BufS4); break;
case 9: Raw = Eden::ToStr(IOBuffer.BufU4); break;
case 10: Raw = Eden::ToStr(IOBuffer.BufF); break;
}
IOSpreadsheet_[IONum]->CellSet(MemData[SwapPage + 2], MemData[SwapPage + 3], Raw);
}
break;
case IOSpreadsheetCmd + 12:
IOSpreadsheet_[IONum]->CellSet(MemData[SwapPage + 1], MemData[SwapPage + 2], TextBuff.str());
break;
case IOSpreadsheetCmd + 16:
{
uchar CmdX = MemData[SwapPage + 1];
uchar R1 = MemData[SwapPage + 2];
uchar C1 = MemData[SwapPage + 3];
uchar R2 = MemData[SwapPage + 4];
uchar C2 = MemData[SwapPage + 5];
if ((R1 <= R2) && (C1 <= C2))
{
switch(CmdX)
{
case 0: IOSpreadsheet_[IONum]->SheetClear(R1, C1, R2, C2); break;
case 1: IOSpreadsheet_[IONum]->SheetRowAdd(R1, C1, R2, C2); break;
case 2: IOSpreadsheet_[IONum]->SheetRowRem(R1, C1, R2, C2); break;
case 3: IOSpreadsheet_[IONum]->SheetColAdd(R1, C1, R2, C2); break;
case 4: IOSpreadsheet_[IONum]->SheetColRem(R1, C1, R2, C2); break;
}
}
}
break;
case IOGraphCmd + 0:
IOGraph_[IONum]->Clear();
break;
case IOGraphCmd + 4:
IOGraph_[IONum]->ThreadSet(MemData[SwapPage + 1]);
break;
case IOGraphCmd + 8:
IOGraph_[IONum]->ThreadReset();
break;
case IOGraphCmd + 12:
{
uchar CmdX = MemData[SwapPage + 1];
double ValX = 0;
double ValY = 0;
double ValZ = 0;
switch(CmdX)
{
case 0: ValX = ValGetSC(0x10); ValY = ValGetSC(0x18); ValZ = ValGetSC(0x20); break;
case 1: ValX = ValGetUC(0x10); ValY = ValGetUC(0x18); ValZ = ValGetUC(0x20); break;
case 4: ValX = ValGetSS(0x10); ValY = ValGetSS(0x18); ValZ = ValGetSS(0x20); break;
case 5: ValX = ValGetUS(0x10); ValY = ValGetUS(0x18); ValZ = ValGetUS(0x20); break;
case 6: ValX = ValGetSI(0x10); ValY = ValGetSI(0x18); ValZ = ValGetSI(0x20); break;
case 7: ValX = ValGetUI(0x10); ValY = ValGetUI(0x18); ValZ = ValGetUI(0x20); break;
case 8: ValX = ValGetSL(0x10); ValY = ValGetSL(0x18); ValZ = ValGetSL(0x20); break;
case 9: ValX = ValGetUL(0x10); ValY = ValGetUL(0x18); ValZ = ValGetUL(0x20); break;
case 10: ValX = ValGetF(0x10); ValY = ValGetF(0x18); ValZ = ValGetF(0x20); break;
}
IOGraph_[IONum]->Plot(ValX, ValY, ValZ, MemData[SwapPage + 2], MemData[SwapPage + 3], MemData[SwapPage + 4]);
}
break;
case IOGraphCmd + 16:
if (MemData[SwapPage + 1] == 0)
{
IOGraph_[IONum]->Triangle();
}
else
{
IOGraph_[IONum]->Line(MemData[SwapPage + 1]);
}
break;
case IOGraphTextCmd + 0:
{
IOGraph_[IONum]->TextBack = ((MemData[SwapPage + 1] & 2) > 0) ? true : false;
IOGraph_[IONum]->TextFore = ((MemData[SwapPage + 1] & 1) > 0) ? true : false;
IOGraph_[IONum]->TextColorR0 = MemData[SwapPage + 2];
IOGraph_[IONum]->TextColorG0 = MemData[SwapPage + 3];
IOGraph_[IONum]->TextColorB0 = MemData[SwapPage + 4];
IOGraph_[IONum]->TextColorR = MemData[SwapPage + 5];
IOGraph_[IONum]->TextColorG = MemData[SwapPage + 6];
IOGraph_[IONum]->TextColorB = MemData[SwapPage + 7];
}
break;
case IOGraphTextCmd + 4:
{
uchar CmdX = MemData[SwapPage + 1];
double ValX = 0;
double ValY = 0;
double ValZ = 0;
switch(CmdX)
{
case 0: ValX = ValGetSC(0x10); ValY = ValGetSC(0x18); ValZ = ValGetSC(0x20); break;
case 1: ValX = ValGetUC(0x10); ValY = ValGetUC(0x18); ValZ = ValGetUC(0x20); break;
case 4: ValX = ValGetSS(0x10); ValY = ValGetSS(0x18); ValZ = ValGetSS(0x20); break;
case 5: ValX = ValGetUS(0x10); ValY = ValGetUS(0x18); ValZ = ValGetUS(0x20); break;
case 6: ValX = ValGetSI(0x10); ValY = ValGetSI(0x18); ValZ = ValGetSI(0x20); break;
case 7: ValX = ValGetUI(0x10); ValY = ValGetUI(0x18); ValZ = ValGetUI(0x20); break;
case 8: ValX = ValGetSL(0x10); ValY = ValGetSL(0x18); ValZ = ValGetSL(0x20); break;
case 9: ValX = ValGetUL(0x10); ValY = ValGetUL(0x18); ValZ = ValGetUL(0x20); break;
case 10: ValX = ValGetF(0x10); ValY = ValGetF(0x18); ValZ = ValGetF(0x20); break;
}
int X0 = ValGetSS(0x28);
int Y0 = ValGetSS(0x30);
IOGraph_[IONum]->TextSet(ValX, ValY, ValZ, X0, Y0);
}
break;
case IOGraphTextCmd + 8:
{
uchar CmdX = MemData[SwapPage + 1];
string Raw = "";
switch(CmdX)
{
case 0: Raw = Eden::ToStr((int)IOBuffer.BufS1); break;
case 1: Raw = Eden::ToStr((int)IOBuffer.BufU1); break;
case 2: Raw = IOBuffer.BufS1; break;
case 3: Raw = IOBuffer.BufU1; break;
case 4: Raw = Eden::ToStr(IOBuffer.BufS2); break;
case 5: Raw = Eden::ToStr(IOBuffer.BufU2); break;
case 6: Raw = Eden::ToStr(IOBuffer.BufS2); break;
case 7: Raw = Eden::ToStr(IOBuffer.BufU2); break;
case 8: Raw = Eden::ToStr(IOBuffer.BufS4); break;
case 9: Raw = Eden::ToStr(IOBuffer.BufU4); break;
case 10: Raw = Eden::ToStr(IOBuffer.BufF); break;
}
IOGraph_[IONum]->TextPrint(Raw);
}
break;
case IOGraphTextCmd + 12:
{
IOGraph_[IONum]->TextPrint(TextBuff.str());
}
break;
}
}
else
{
switch (MemData[SwapPage])
{
default:
ErrorStatus = "Unsupported command " + Eden::ToStr(MemData[SwapPage]);
MemData[SwapPage] = 255;
StatusC = 5;
return false;
case 236:
{
MemData[SwapPage + 1] = FileHandle_->FileOpen(MemData[SwapPage + 1], TextBuff.str(), MemData[SwapPage + 2]);
}
break;
case 237:
{
MemData[SwapPage + 1] = FileHandle_->FileClose(MemData[SwapPage + 1]);
}
break;
case 238:
{
IOBuffer.BufU4 = FileHandle_->FileSize((MemData[SwapPage + 1]));
}
break;
case 239:
{
MemData[SwapPage + 1] = FileHandle_->FileSetPos(MemData[SwapPage + 1], IOBuffer.BufU4);
}
break;
case 240:
{
IOBuffer.BufU4 = FileHandle_->FileGetPos((MemData[SwapPage + 1]));
}
break;
case 241:
{
uint Addr = (((uint)(MemData[SwapPage + 3])) << 8) + ((uint)(MemData[SwapPage + 4]));
uint Size = (((uint)(MemData[SwapPage + 5])) << 8) + ((uint)(MemData[SwapPage + 6]));
MemBuffer_->PrepareBuf(MemData[SwapPage + 2]);
MemData[SwapPage + 1] = FileHandle_->DataGet(MemData[SwapPage + 1], MemBuffer_->BufRaw[MemData[SwapPage + 2]], MemBuffer_->BufOpW[MemData[SwapPage + 2]], Addr, Size);
}
break;
case 242:
{
uint Addr = (((uint)(MemData[SwapPage + 3])) << 8) + ((uint)(MemData[SwapPage + 4]));
uint Size = (((uint)(MemData[SwapPage + 5])) << 8) + ((uint)(MemData[SwapPage + 6]));
MemBuffer_->PrepareBuf(MemData[SwapPage + 2]);
MemData[SwapPage + 1] = FileHandle_->DataPut(MemData[SwapPage + 1], MemBuffer_->BufRaw[MemData[SwapPage + 2]], MemBuffer_->BufOpR[MemData[SwapPage + 2]], Addr, Size);
}
break;
case 243:
{
uchar BufN = MemData[SwapPage + 1];
MemBuffer_->Clear(BufN);
}
break;
case 244:
{
uchar BufN = MemData[SwapPage + 1];
int BufAddr = ValGetUS(0x10);
int ProgAddr = ValGetUS(0x18);
int Size = ValGetUS(0x20);
if (MemBuffer_->Get(BufN, BufAddr, ProgAddr, Size, MemData, MemMapW))
{
MemData[SwapPage + 1] = 1;
}
else
{
MemData[SwapPage + 1] = 0;
}
}
break;
case 245:
{
uchar BufN = MemData[SwapPage + 1];
int BufAddr = ValGetUS(0x10);
int ProgAddr = ValGetUS(0x18);
int Size = ValGetUS(0x20);
if (MemBuffer_->Set(BufN, BufAddr, ProgAddr, Size, MemData, MemMapR))
{
MemData[SwapPage + 1] = 1;
}
else
{
MemData[SwapPage + 1] = 0;
}
}
break;
case 246:
{
uchar CmdX = MemData[SwapPage + 1];
CoreInvokeWait = 255;
emit CoreInvoke(BundleIndex, 0, CmdX);
while (CoreInvokeWait == 255)
{
}
MemData[SwapPage + 1] = CoreInvokeWait;
}
break;
case 247:
{
uchar CmdX = MemData[SwapPage + 1];
CoreInvokeWait = 255;
emit CoreInvoke(BundleIndex, 1, CmdX);
while (CoreInvokeWait == 255)
{
}
MemData[SwapPage + 1] = CoreInvokeWait;
}
break;
case 248:
TextBuffS = TextBuff.str();
TextBuffI = 0;
IOBuffer.BufU2 = Min(TextBuffS.size(), 65535);
break;
case 249:
if (TextBuffI < TextBuffS.size())
{
IOBuffer.BufS1 = TextBuffS[TextBuffI];
TextBuffI++;
}
else
{
IOBuffer.BufS1 = 0;
}
break;
case 250:
TextBuff.str(string());
break;
case 251:
TextBuff << IOBuffer.BufS1;
break;
case 252:
{
llong AllM_ = CommandCounter;
llong AllP_ = AllM_ - CommandCounterX;
CommandCounterX = CommandCounter;
uchar Div_ = IOBuffer.BufU1;
while (Div_ > 0)
{
AllP_ = AllP_ / 10;
Div_--;
}
IOBuffer.BufU4 = AllP_;
}
break;
case 253:
StatusC = 4;
return false;
case 254:
StatusC = 3;
MemData[SwapPage] = 0;
return false;
case 255:
StatusC = 5;
return false;
}
}
MemData[SwapPage + 0x08] = IOBuffer.Raw[0];
MemData[SwapPage + 0x09] = IOBuffer.Raw[1];
MemData[SwapPage + 0x0A] = IOBuffer.Raw[2];
MemData[SwapPage + 0x0B] = IOBuffer.Raw[3];
MemData[SwapPage + 0x0C] = IOBuffer.Raw[4];
MemData[SwapPage + 0x0D] = IOBuffer.Raw[5];
MemData[SwapPage + 0x0E] = IOBuffer.Raw[6];
MemData[SwapPage + 0x0F] = IOBuffer.Raw[7];
MemData[SwapPage] = 0;
}
if (AbortRequest)
{
StatusC = 2;
return false;
}
else
{
return true;
}
}
void ScriptMachine::ProgWork()
{
StatusC = 1;
AbortRequest = false;
while (ProgWorking())
{
DoCommand();
CommandCounter++;
}
}
void ScriptMachine::ProgAbort()
{
AbortRequest = true;
}
void ScriptMachine::ProgReset()
{
StatusC = 0;
CommandCounter = 0;
CommandCounterX = 0;
MemData[SwapPage + 0] = 0;
MemData[SwapPage + 1] = 0;
MemData[SwapPage + 2] = 0;
MemData[SwapPage + 3] = 0;
MemData[SwapPage + 4] = 0;
MemData[SwapPage + 5] = 0;
MemData[SwapPage + 6] = 0;
MemData[SwapPage + 7] = 0;
MemData[SwapPage + 8] = 0;
MemData[SwapPage + 9] = 0;
MemData[SwapPage + 10] = 0;
MemData[SwapPage + 11] = 0;
MemData[SwapPage + 12] = 0;
MemData[SwapPage + 13] = 0;
MemData[SwapPage + 14] = 0;
MemData[SwapPage + 15] = 0;
DoReset();
}
char ScriptMachine::ValGetSC(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
return IOBuffer.BufS1;
}
uchar ScriptMachine::ValGetUC(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
return IOBuffer.BufU1;
}
short ScriptMachine::ValGetSS(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
return IOBuffer.BufS2;
}
ushort ScriptMachine::ValGetUS(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
return IOBuffer.BufU2;
}
int ScriptMachine::ValGetSI(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
//IOBuffer.Raw[2] = MemData[SwapPage + Addr + 2];
//IOBuffer.Raw[3] = MemData[SwapPage + Addr + 3];
return IOBuffer.BufS2;
}
uint ScriptMachine::ValGetUI(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
//IOBuffer.Raw[2] = MemData[SwapPage + Addr + 2];
//IOBuffer.Raw[3] = MemData[SwapPage + Addr + 3];
return IOBuffer.BufU2;
}
long ScriptMachine::ValGetSL(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
IOBuffer.Raw[2] = MemData[SwapPage + Addr + 2];
IOBuffer.Raw[3] = MemData[SwapPage + Addr + 3];
IOBuffer.Raw[4] = MemData[SwapPage + Addr + 4];
IOBuffer.Raw[5] = MemData[SwapPage + Addr + 5];
IOBuffer.Raw[6] = MemData[SwapPage + Addr + 6];
IOBuffer.Raw[7] = MemData[SwapPage + Addr + 7];
return IOBuffer.BufS4;
}
ulong ScriptMachine::ValGetUL(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
IOBuffer.Raw[2] = MemData[SwapPage + Addr + 2];
IOBuffer.Raw[3] = MemData[SwapPage + Addr + 3];
IOBuffer.Raw[4] = MemData[SwapPage + Addr + 4];
IOBuffer.Raw[5] = MemData[SwapPage + Addr + 5];
IOBuffer.Raw[6] = MemData[SwapPage + Addr + 6];
IOBuffer.Raw[7] = MemData[SwapPage + Addr + 7];
return IOBuffer.BufU4;
}
double ScriptMachine::ValGetF(int Addr)
{
IOBuffer.Raw[0] = MemData[SwapPage + Addr + 0];
IOBuffer.Raw[1] = MemData[SwapPage + Addr + 1];
IOBuffer.Raw[2] = MemData[SwapPage + Addr + 2];
IOBuffer.Raw[3] = MemData[SwapPage + Addr + 3];
IOBuffer.Raw[4] = MemData[SwapPage + Addr + 4];
IOBuffer.Raw[5] = MemData[SwapPage + Addr + 5];
IOBuffer.Raw[6] = MemData[SwapPage + Addr + 6];
IOBuffer.Raw[7] = MemData[SwapPage + Addr + 7];
return IOBuffer.BufF;
}
void ScriptMachine::ValPut(int Addr, double Val)
{
IOBuffer.BufF = Val;
MemData[SwapPage + Addr + 0] = IOBuffer.Raw[0];
MemData[SwapPage + Addr + 1] = IOBuffer.Raw[1];
MemData[SwapPage + Addr + 2] = IOBuffer.Raw[2];
MemData[SwapPage + Addr + 3] = IOBuffer.Raw[3];
MemData[SwapPage + Addr + 4] = IOBuffer.Raw[4];
MemData[SwapPage + Addr + 5] = IOBuffer.Raw[5];
MemData[SwapPage + Addr + 6] = IOBuffer.Raw[6];
MemData[SwapPage + Addr + 7] = IOBuffer.Raw[7];
}
string ScriptMachine::GetStatus()
{
switch (StatusC)
{
case 0: return "Reset";
case 1: return "Running";
case 2: return "Stopped by user";
case 3: return "Stopped by command";
case 4: return "End";
case 5: return "Halted: " + ErrorStatus;
default: return "Unknown or not created";
}
}