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16
CPUCore.pas
16
CPUCore.pas
@ -60,14 +60,13 @@ type //Models for RAM memory
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function Getvalue: byte;
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procedure Setvalue(AValue: byte);
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public
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addr : word; //dirección física de memoria, en donde está la celda.
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name : string; //Name of the register (for variables)
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used : boolean; //Indicates if have been written
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shared : boolean; //Used to share this register
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state : TCPUCellState; //Status of the cell
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property value: byte read Getvalue write Setvalue;
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property dvalue: byte read Fvalue write Fvalue; //Direct access to "Fvalue".
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function AvailGPR: boolean;
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function Avail: boolean;
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public //Campos para deputación
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breakPnt : boolean; //Indicates if this cell have a Breakpoint
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{Be careful on the size of this record, because it's going to be multiplied by 64K}
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@ -94,7 +93,7 @@ type
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TCPUCore = class
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public //Limits
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{This variables are set just one time. So they work as constant.}
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CPUMAXRAM : word; //Max virtual RAM used by the CPU
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CPUMAXRAM: dword; //Max virtual RAM used by the CPU
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public //General fields
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Model : string; //modelo de PIC
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frequen : integer; //frecuencia del reloj
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@ -106,8 +105,8 @@ type
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CommStop: boolean; //Bandera para detener la ejecución
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OnExecutionMsg: procedure(message: string) of object; //Genera mensaje en ejecución
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protected //Generation of HEX files
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minUsed : word; //Dirección menor de la ROM usada
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maxUsed : word; //Dirección mayor de la ROM usdas
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minUsed : dword; //Dirección menor de la ROM usada
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maxUsed : dword; //Dirección mayor de la ROM usdas
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hexLines : TStringList; //Uusado para crear archivo *.hex
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public //Memories
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ram : TCPURam; //memoria RAM
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@ -144,7 +143,7 @@ type
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procedure ExecTo(endAdd: word); virtual; abstract; //Ejecuta hasta cierta dirección
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procedure ExecStep; virtual; abstract; //Execute one instruction considering CALL as one instruction
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procedure ExecNCycles(nCyc: integer; out stopped: boolean); virtual; abstract; //Ejecuta hasta cierta dirección
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procedure Reset; virtual; abstract;
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procedure Reset(hard: boolean); virtual; abstract;
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function ReadPC: dword; virtual; abstract; //Defined DWORD to cover the 18F PC register
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procedure WritePC(AValue: dword); virtual; abstract;
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public //Others
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@ -168,7 +167,7 @@ procedure TCPURamCell.Setvalue(AValue: byte);
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begin
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Fvalue := AValue;
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end;
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function TCPURamCell.AvailGPR: boolean;
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function TCPURamCell.Avail: boolean;
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{Indica si el registro es una dirección disponible en la memoria RAM.}
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begin
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Result := (state = cs_impleGPR);
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@ -211,7 +210,6 @@ var
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i: word;
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begin
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for i:=0 to high(ram) do begin
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ram[i].addr := i;
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ram[i].state := cs_unimplem;
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end;
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//Inicia estado de pines
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@ -542,7 +540,7 @@ end;
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constructor TCPUCore.Create;
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begin
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hexLines := TStringList.Create;
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frequen := 4000000; //4MHz
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frequen := 1000000; //4MHz
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end;
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destructor TCPUCore.Destroy;
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begin
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291
P6502utils.pas
291
P6502utils.pas
@ -167,8 +167,7 @@ type
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W : byte; //Registro de trabajo
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PC : TWordRec; //PC as record to fast access for bytes
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PCLATH : byte; //Contador de Programa H
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STKPTR : 0..7; //Puntero de pila
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STACK : array[0..7] of word;
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SP : byte; //Puntero de pila
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property STATUS: byte read GetSTATUS;
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property STATUS_Z: boolean read GetSTATUS_Z write SetSTATUS_Z;
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property STATUS_C: boolean read GetSTATUS_C write SetSTATUS_C;
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@ -184,32 +183,31 @@ type
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procedure ExecTo(endAdd: word); override; //Ejecuta hasta cierta dirección
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procedure ExecStep; override; //Execute one instruction considering CALL as one instruction
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procedure ExecNCycles(nCyc: integer; out stopped: boolean); override; //Ejecuta hasta cierta dirección
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procedure Reset; override;
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procedure Reset(hard: boolean); override;
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function ReadPC: dword; override;
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procedure WritePC(AValue: dword); override;
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public //Memories
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procedure Decode(const opCode: word); //decodifica instrucción
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function Disassembler(const opCode, par1, par2: byte; out nBytesProc: byte;
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useVarName: boolean=false): string; //Desensambla la instrucción actual
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procedure Decode(const opCode: word); //Decode instruction.
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function DisassemblerAt(addr: word; out nBytesProc: byte; useVarName: boolean
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): string; override;
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public //Funciones para la memoria RAM
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public //RAM memory functions
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function GetFreeByte(out addr: word; shared: boolean): boolean;
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function GetFreeBytes(const size: integer; var addr: word): boolean; //obtiene una dirección libre
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function TotalMemRAM: word; //devuelve el total de memoria RAM
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function TotalMemRAM: integer; //devuelve el total de memoria RAM
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function UsedMemRAM: word; //devuelve el total de memoria RAM usada
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procedure ExploreUsed(rutExplorRAM: TCPURutExplorRAM); //devuelve un reporte del uso de la RAM
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function ValidRAMaddr(addr: word): boolean; //indica si una posición de memoria es válida
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public //Métodos para codificar instrucciones de acuerdo a la sintaxis
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public //Métthods to code instructions according to syntax
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procedure useRAM;
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procedure codAsmFD(const inst: TP6502Inst; addMode: TP6502AddMode; param: word);
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procedure codAsm(const inst: TP6502Inst; addMode: TP6502AddMode; param: word);
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procedure codGotoAt(iRam0: integer; const k: word);
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procedure codCallAt(iRam0: integer; const k: word);
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function codInsert(iRam0, nInsert, nWords: integer): boolean;
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public //Métodos adicionales
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public //Adicional methods
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function FindOpcode(Op: string): TP6502Inst; //busca Opcode
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procedure GenHex(hexFile: string; ConfigWord: integer = - 1); //genera un archivo hex
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procedure DumpCode(lOut: TStrings; incAdrr, incCom, incVarNam: boolean); //vuelva en código que contiene
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procedure GenHex(hexFile: string); //genera un archivo hex
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procedure DumpCodeAsm(lOut: TStrings; incAdrr, incValues, incCom,
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incVarNam: boolean);
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public //Initialization
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constructor Create; override;
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destructor Destroy; override;
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@ -254,20 +252,20 @@ procedure TP6502.useRAM;
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{Marca la posición actual, como usada, e incrementa el puntero iRam. Si hay error,
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actualiza el campo "MsjError"}
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begin
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//Protección de desborde
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if iRam >= CPUMAXRAM then begin
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MsjError := 'RAM Memory limit exceeded.';
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exit;
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end;
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ram[iRam].used := true; //marca como usado
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inc(iRam);
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end;
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procedure TP6502.codAsmFD(const inst: TP6502Inst; addMode: TP6502AddMode; param: word);
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{Codifica las instrucciones orientadas a registro, con sintAxis: NEMÓNICO f,d}
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procedure TP6502.codAsm(const inst: TP6502Inst; addMode: TP6502AddMode; param: word);
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{Rutina general para codificar instrucciones en ensamblador}
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var
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rInst: TP6502Instruct;
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begin
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rInst := PIC16InstName[inst];
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//Overflow protection
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if iRam >= CPUMAXRAM then begin
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MsjError := 'RAM Memory limit exceeded.';
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exit;
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end;
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//Write OpCode
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ram[iRam].value := rInst.instrInform[addMode].Opcode;
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useRAM; //marca como usado e incrementa puntero.
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@ -350,7 +348,6 @@ begin
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raise Exception.Create('Implementation Error.');
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end;
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end;
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procedure TP6502.codGotoAt(iRam0: integer; const k: word);
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{Codifica una instrucción GOTO, en una posición específica y sin alterar el puntero "iFlash"
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actual. Se usa para completar saltos indefinidos}
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@ -362,7 +359,6 @@ begin
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ram[iRam0+1].value := lo(k);
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ram[iRam0+2].value := hi(k);
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end;
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procedure TP6502.codCallAt(iRam0: integer; const k: word);
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{Codifica una instrucción i_CALL, en una posición específica y sin alterar el puntero "iFlash"
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actual. Se usa para completar llamadas indefinidas}
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@ -372,7 +368,6 @@ begin
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rInst := PIC16InstName[i_JSR];
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ram[iRam0].value := rInst.instrInform[aAbsolute].Opcode;
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end;
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function TP6502.codInsert(iRam0, nInsert, nWords: integer): boolean;
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{Inserta en la posición iRam0, "nInsert" palabras, desplazando "nWords" palabras.
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Al final debe quedar "nInsert" palabras de espacio libre en iRam0.
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@ -482,6 +477,7 @@ procedure TP6502.Decode(const opCode: word);
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{Decode the value of "opCode" and update:
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* "idIns" -> Instruction ID
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* "modIns" -> Address Mode
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If not found, returns "i_Inval" in "idIns".
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}
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var
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i : TP6502Inst;
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@ -497,91 +493,103 @@ begin
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if iInfom.Opcode = opCode then begin
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idIns := i;
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modIns := j;
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exit;
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end;
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end;
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end;
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//Not found
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idIns := i_Inval;
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end;
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function TP6502.Disassembler(const opCode, par1, par2: byte;
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out nBytesProc: byte;
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useVarName: boolean = false): string;
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{Disassemble the instruction indicated in "Opcode". If the instruction is multibyte
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it will be used "par1" and "par2" according to the intruction length, which is returned
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in "nBytesProc".
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function TP6502.DisassemblerAt(addr: word; out nBytesProc: byte;
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useVarName: boolean): string;
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{Disassembler the instruction located at "addr". If the instruction is multibyte
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the intruction length, will be returned in "nBytesProc".
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Global variables used: "idIns", "modIns".
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"useVarName" -> Flag to use the name of the variable instead of only the address.
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Valid only when a variAble name exists in his address.
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}
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var
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nemo: String;
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f: word;
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opCode, par1, par2: Byte;
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begin
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if addr>CPUMAXRAM-1 then exit('');
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opCode := ram[addr].value;
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//"par1" and "par2" will be used according to the instruction length.
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if addr+1>CPUMAXRAM-1 then exit('');
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par1 := ram[addr+1].value;
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Decode(opCode); //Decode instruction. Update: "idIns", "modIns".
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nemo := trim(PIC16InstName[idIns].name) + ' ';
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case modIns of
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aImplicit: begin
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nBytesProc := 1; //No parameters needed
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Result := nemo;
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end;
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aAcumulat: begin
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nBytesProc := 1; //No parameters needed
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Result := nemo;
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end;
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aImmediat: begin
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Result := nemo + '#$'+IntToHex(par1,2);
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nBytesProc := 2;
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end;
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aAbsolute: begin
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4);
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nBytesProc := 3;
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if addr+2>CPUMAXRAM-1 then exit('');
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par2 := ram[addr+2].value;
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4);
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end;
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aZeroPage: begin
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Result := nemo + '$'+IntToHex(par1, 2);
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nBytesProc := 2;
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end;
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aRelative: begin
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Result := nemo + '$'+IntToHex(par1, 2);
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nBytesProc := 2;
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if par1<128 then begin //Positive
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Result := nemo + '$'+IntToHex((addr + par1+2) and $FFFF, 4);
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end else begin
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Result := nemo + '$'+IntToHex((addr + par1-254) and $FFFF, 4);
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end;
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//Result := nemo + '$'+IntToHex(par1, 2);
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end;
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aIndirect: begin
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Result := nemo + '$('+IntToHex(par1 + par2*256, 4)+')';
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nBytesProc := 3;
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if addr+2>CPUMAXRAM-1 then exit('');
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par2 := ram[addr+2].value;
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Result := nemo + '$('+IntToHex(par1 + par2*256, 4)+')';
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end;
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aAbsolutX: begin
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4)+',X';
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nBytesProc := 3;
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if addr+2>CPUMAXRAM-1 then exit('');
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par2 := ram[addr+2].value;
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4)+',X';
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end;
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aAbsolutY: begin
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4)+',Y';
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nBytesProc := 3;
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if addr+2>CPUMAXRAM-1 then exit('');
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par2 := ram[addr+2].value;
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Result := nemo + '$'+IntToHex(par1 + par2*256, 4)+',Y';
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end;
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aZeroPagX: begin
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nBytesProc := 2;
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Result := nemo + '$'+IntToHex(par1, 2)+',X';
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nBytesProc := 3;
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end;
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aZeroPagY: begin
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nBytesProc := 2;
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Result := nemo + '$'+IntToHex(par1, 2)+',Y';
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nBytesProc := 3;
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end;
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aIdxIndir: begin
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Result := nemo + '$('+IntToHex(par1, 2)+',X)';
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nBytesProc := 2;
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Result := nemo + '$('+IntToHex(par1, 2)+',X)';
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end;
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aIndirIdx: begin
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nBytesProc := 2;
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Result := nemo + '$('+IntToHex(par1, 2)+'),Y';
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nBytesProc := 3;
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end;
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end;
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end;
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function TP6502.DisassemblerAt(addr: word; out nBytesProc: byte;
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useVarName: boolean): string;
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{Disassembler the instruction located at "addr"}
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var
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valOp: Word;
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begin
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Result := Disassembler(ram[addr].value,
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ram[addr+1].value,
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ram[addr+2].value, nBytesProc, useVarName);
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end;
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function TP6502.CurInstruction: TP6502Inst;
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{Resturn the instruction pointed by PC, in this moment.}
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{Return the instruction pointed by PC, in this moment.}
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begin
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Decode(ram[PC.W].value); //decode instruction
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Result := idIns;
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@ -597,11 +605,11 @@ Falta implementar las operaciones, cuando acceden al registro INDF, el Watchdog
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los contadores, las interrupciones}
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var
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opc: byte;
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msk, resNib: byte;
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nCycles, nBytes: byte;
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resInt : integer;
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target : word;
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begin
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//Decodifica instrucción
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aPC := PC.W;
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opc := ram[aPC].value;
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Decode(opc); //Decode instruction
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nCycles := PIC16InstName[idIns].instrInform[modIns].Cycles;
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@ -635,24 +643,67 @@ begin
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i_INC:; //increment
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i_INX:; //increment X
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i_INY:; //increment Y
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i_JMP:; //jump
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i_JSR:; //jump subroutine
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i_JMP: begin //jump
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case modIns of
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aAbsolute : begin
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PC.L := ram[aPC+1].value;
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PC.H := ram[aPC+2].value;
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end;
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aIndirect: begin
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target := ram[aPC+1].value + 256* ram[aPC+2].value;
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PC.L := ram[target+1].value;
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PC.H := ram[target+2].value;
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end;
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end;
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//Inc(PC.W, nBytes); //No apply
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Inc(nClck, nCycles);
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exit;
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end;
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i_JSR: begin
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inc(PC.W, 3); //Next psoition
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//Save return
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ram[$100 + SP].value := PC.H;
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if SP = $00 then SP := $FF else dec(SP);
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ram[$100 + SP].value := PC.L;
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if SP = $00 then SP := $FF else dec(SP);
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PC.L := ram[aPC+1].value;
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PC.H := ram[aPC+2].value;
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//Inc(PC.W, nBytes); //No apply
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Inc(nClck, nCycles);
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exit;
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end; //jump subroutine
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i_LDA:; //load accumulator
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i_LDX:; //load X
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i_LDY:; //load Y
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i_LSR:; //logical shift right
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i_NOP:; //no operation
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i_ORA:; //or with accumulator
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i_PHA:; //push accumulator
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i_PHA: begin //push accumulator
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ram[$100 + SP].value := W;
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if SP = $00 then SP := $FF else dec(SP);
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end;
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i_PHP:; //push processor status (SR)
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i_PLA:; //pull accumulator
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i_PLA: begin //pull accumulator
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if SP = $FF then SP := $00 else inc(SP);
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W := ram[$100 + SP].value;
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end;
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i_PLP:; //pull processor status (SR)
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i_ROL:; //rotate left
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i_ROR:; //rotate right
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i_RTI:; //return from interrupt
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i_RTS:; //return from subroutine
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i_RTS: begin //return from subroutine
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if SP = $FF then SP := $00 else inc(SP);
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PC.L := ram[$100 + SP].value;
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if SP = $FF then SP := $00 else inc(SP);
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PC.H := ram[$100 + SP].value;
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//Inc(PC.W, nBytes); //No apply
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Inc(nClck, nCycles);
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exit;
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end;
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i_SBC:; //subtract with carry
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i_SEC:; //set carry
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i_SEC: begin //set carry
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STATUS_C := true;
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end;
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i_SED:; //set decimal
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i_SEI:; //set interrupt disable
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i_STA:; //store accumulator
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@ -889,13 +940,13 @@ begin
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end;
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i_CALL: begin
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//Guarda dirección en Pila
|
||||
STACK[STKPTR] := PC.W;
|
||||
if STKPTR = 7 then begin
|
||||
STACK[SP] := PC.W;
|
||||
if SP = 7 then begin
|
||||
//Desborde de pila
|
||||
STKPTR := 0;
|
||||
SP := 0;
|
||||
if OnExecutionMsg<>nil then OnExecutionMsg('Stack Overflow on CALL OpCode at $' + IntToHex(aPC,4));
|
||||
end else begin
|
||||
STKPTR := STKPTR +1;
|
||||
SP := SP +1;
|
||||
end;
|
||||
PC.W := k_; //Takes the 11 bits from k
|
||||
PC.H := PC.H or (PCLATH and %00011000); //And complete with bits 3 and 4 of PCLATH
|
||||
@ -920,42 +971,42 @@ begin
|
||||
end;
|
||||
i_RETFIE: begin
|
||||
//Saca dirección en Pila
|
||||
if STKPTR = 0 then begin
|
||||
if SP = 0 then begin
|
||||
//Desborde de pila
|
||||
STKPTR := 7;
|
||||
SP := 7;
|
||||
if OnExecutionMsg<>nil then OnExecutionMsg('Stack Overflow on RETFIE OpCode at $' + IntToHex(aPC,4));
|
||||
end else begin
|
||||
STKPTR := STKPTR - 1;
|
||||
SP := SP - 1;
|
||||
end;
|
||||
PC.W := STACK[STKPTR]; //Should be 13 bits
|
||||
PC.W := STACK[SP]; //Should be 13 bits
|
||||
Inc(nClck); //Esta instrucción toma un ciclo más
|
||||
//Activa GIE
|
||||
INTCON_GIE := true;
|
||||
end;
|
||||
i_RETLW: begin
|
||||
//Saca dirección en Pila
|
||||
if STKPTR = 0 then begin
|
||||
if SP = 0 then begin
|
||||
//Desborde de pila
|
||||
STKPTR := 7;
|
||||
SP := 7;
|
||||
if OnExecutionMsg<>nil then OnExecutionMsg('Stack Overflow on RETLW OpCode at $' + IntToHex(aPC,4));
|
||||
end else begin
|
||||
STKPTR := STKPTR - 1;
|
||||
SP := SP - 1;
|
||||
end;
|
||||
PC.W := STACK[STKPTR]; //Should be 13 bits
|
||||
PC.W := STACK[SP]; //Should be 13 bits
|
||||
Inc(nClck); //Esta instrucción toma un ciclo más
|
||||
//Fija valor en W
|
||||
W := k_;
|
||||
end;
|
||||
i_RETURN: begin
|
||||
//Saca dirección en Pila
|
||||
if STKPTR = 0 then begin
|
||||
if SP = 0 then begin
|
||||
//Desborde de pila
|
||||
STKPTR := 7;
|
||||
SP := 7;
|
||||
if OnExecutionMsg<>nil then OnExecutionMsg('Stack Overflow on RETURN OpCode at $' + IntToHex(aPC,4));
|
||||
end else begin
|
||||
STKPTR := STKPTR - 1;
|
||||
SP := SP - 1;
|
||||
end;
|
||||
PC.W := STACK[STKPTR]; //Should be 13 bits
|
||||
PC.W := STACK[SP]; //Should be 13 bits
|
||||
Inc(nClck); //Esta instrucción toma un ciclo más
|
||||
end;
|
||||
i_SLEEP: begin
|
||||
@ -1053,7 +1104,7 @@ begin
|
||||
end;
|
||||
stopped := false;
|
||||
end;
|
||||
procedure TP6502.Reset;
|
||||
procedure TP6502.Reset(hard: boolean);
|
||||
//Reinicia el dipsoitivo
|
||||
var
|
||||
i: Integer;
|
||||
@ -1061,13 +1112,15 @@ begin
|
||||
PC.W := 0;
|
||||
PCLATH := 0;
|
||||
W := 0;
|
||||
STKPTR := 0; //Posición inicial del puntero de pila
|
||||
SP := $FF; //Posición inicial del puntero de pila
|
||||
nClck := 0; //Inicia contador de ciclos
|
||||
CommStop := false; //Limpia bandera
|
||||
if hard then begin
|
||||
//Limpia solamente el valor inicial, no toca los otros campos
|
||||
for i:=0 to high(ram) do begin
|
||||
ram[i].dvalue := $00;
|
||||
end;
|
||||
end;
|
||||
ram[_STATUS].dvalue := %00011000; //STATUS
|
||||
end;
|
||||
function TP6502.ReadPC: dword;
|
||||
@ -1080,18 +1133,18 @@ begin
|
||||
end;
|
||||
//Funciones para la memoria RAM
|
||||
function TP6502.GetFreeByte(out addr: word; shared: boolean): boolean;
|
||||
{Devuelve una dirección libre de la memoria RAM.
|
||||
{Devuelve una dirección libre de la memoria RAM, a partir de la dirección iRam.
|
||||
"Shared" indica que se marcará el bit como de tipo "Compartido", y se usa para el
|
||||
caso en que se quiera comaprtir la misma posición para diversos variables.
|
||||
Si encuentra espacio, devuelve TRUE.}
|
||||
var
|
||||
i: Integer;
|
||||
maxRam: word;
|
||||
maxRam: dword;
|
||||
begin
|
||||
Result := false; //valor inicial
|
||||
maxRam := CPUMAXRAM; //posición máxima
|
||||
//Realmente debería explorar solo hasta la dirección implementada, por eficiencia
|
||||
for i:=0 to maxRam-1 do begin
|
||||
for i:=iRam to maxRam-1 do begin
|
||||
if (ram[i].state = cs_impleGPR) and (not ram[i].used) then begin
|
||||
//Esta dirección está libre
|
||||
ram[i].used := true; //marca como usado
|
||||
@ -1126,14 +1179,14 @@ begin
|
||||
end;
|
||||
end;
|
||||
end;
|
||||
function TP6502.TotalMemRAM: word;
|
||||
function TP6502.TotalMemRAM: integer;
|
||||
{Devuelve el total de memoria RAM disponible}
|
||||
var
|
||||
i: Integer;
|
||||
begin
|
||||
Result := 0;
|
||||
for i := 0 to CPUMAXRAM - 1 do begin
|
||||
if ram[i].AvailGPR then begin
|
||||
if ram[i].Avail then begin
|
||||
Result := Result + 1;
|
||||
end;
|
||||
end;
|
||||
@ -1145,7 +1198,7 @@ var
|
||||
begin
|
||||
Result := 0;
|
||||
for i := 0 to CPUMAXRAM - 1 do begin
|
||||
if ram[i].AvailGPR and (ram[i].used) then begin
|
||||
if ram[i].Avail and (ram[i].used) then begin
|
||||
//Notar que "AvailGPR" asegura que no se consideran registros maepados
|
||||
Result := Result + 1;
|
||||
end;
|
||||
@ -1157,7 +1210,7 @@ var
|
||||
i: Integer;
|
||||
begin
|
||||
for i := 0 to CPUMAXRAM - 1 do begin
|
||||
if ram[i].AvailGPR and (ram[i].used) then begin
|
||||
if ram[i].Avail and (ram[i].used) then begin
|
||||
rutExplorRAM(i, @ram[i]);
|
||||
end;
|
||||
end;
|
||||
@ -1168,37 +1221,13 @@ begin
|
||||
if addr > CPUMAXRAM then exit(false); //excede límite
|
||||
exit(true);
|
||||
end;
|
||||
procedure TP6502.GenHex(hexFile: string; ConfigWord: integer = -1);
|
||||
{Genera el archivo *.hex, a partir de los datos almacenados en la memoria RAM.
|
||||
Actualiza los campos, minUsed y maxUsed.}
|
||||
var
|
||||
iHex: word; //Índice para explorar
|
||||
addr: word; //Dirección de inicio
|
||||
i: Integer;
|
||||
|
||||
begin
|
||||
hexLines.Clear; //Se usará la lista hexLines
|
||||
//Prepara extracción de datos
|
||||
minUsed := CPUMAXRAM;
|
||||
maxUsed := 0;
|
||||
iHex := 0;
|
||||
//Busca dirección de inicio usada
|
||||
for i := 0 to CPUMAXRAM-1 do begin
|
||||
if ram[i].used then begin
|
||||
if i<minUsed then minUsed := i;
|
||||
if i>maxUsed then maxUsed := i;
|
||||
hexLines.Add('poke ' + IntToStr(i) + ',' + IntToStr(ram[i].value));
|
||||
end;
|
||||
end;
|
||||
//hexLines.Add('Comentario');
|
||||
hexLines.SaveToFile(hexFile); //Genera archivo
|
||||
end;
|
||||
procedure TP6502.DumpCode(lOut: TStrings; incAdrr, incCom, incVarNam: boolean);
|
||||
procedure TP6502.DumpCodeAsm(lOut: TStrings;
|
||||
incAdrr, incValues, incCom, incVarNam: boolean);
|
||||
{Desensambla las instrucciones grabadas en el PIC.
|
||||
Se debe llamar despues de llamar a GenHex(), para que se actualicen las variables}
|
||||
var
|
||||
i: Word;
|
||||
lblLin, comLat, comLin, lin: String;
|
||||
lblLin, comLat, comLin, lin, opCode: String;
|
||||
nBytes: byte;
|
||||
const
|
||||
SPACEPAD = ' ';
|
||||
@ -1233,11 +1262,27 @@ begin
|
||||
lOut.Add(comLin);
|
||||
end;
|
||||
//Decodifica instrucción
|
||||
lin := DisassemblerAt(i, nBytes, incVarNam); //Instrucción
|
||||
opCode := DisassemblerAt(i, nBytes, incVarNam); //Instrucción
|
||||
//Verificas si incluye dirección física
|
||||
lin := '';
|
||||
if incAdrr then begin
|
||||
lin := '$'+IntToHex(i,4) + ' ' + lin;
|
||||
//Agrega dirección al inicio
|
||||
lin := '$'+IntToHex(i,4) + ' ';
|
||||
end;
|
||||
if incValues then begin
|
||||
//Agrega bytes después
|
||||
if nBytes = 1 then begin
|
||||
lin := lin + IntToHex(ram[i].value, 2) + ' ' ;
|
||||
end else if nBytes = 2 then begin
|
||||
lin := lin + IntToHex(ram[i].value, 2) + ' ' +
|
||||
IntToHex(ram[i+1].value, 2) + ' ';
|
||||
end else if nBytes = 3 then begin
|
||||
lin := lin + IntToHex(ram[i].value, 2) + ' ' +
|
||||
IntToHex(ram[i+1].value, 2) + ' ' +
|
||||
IntToHex(ram[i+2].value, 2) + ' ';
|
||||
end;
|
||||
end;
|
||||
lin := lin + opCode;
|
||||
//Verifica si incluye comentario lateral
|
||||
if incCom then begin
|
||||
lin := lin + ' ' + comLat;
|
||||
@ -1246,12 +1291,32 @@ begin
|
||||
i := i + nBytes; //Incrementa a siguiente instrucción
|
||||
end;
|
||||
end;
|
||||
procedure TP6502.GenHex(hexFile: string);
|
||||
{Genera el archivo *.hex, a partir de los datos almacenados en la memoria RAM.
|
||||
Actualiza los campos, minUsed y maxUsed.}
|
||||
var
|
||||
i: Integer;
|
||||
begin
|
||||
hexLines.Clear; //Se usará la lista hexLines
|
||||
//Prepara extracción de datos
|
||||
minUsed := CPUMAXRAM;
|
||||
maxUsed := 0;
|
||||
//Busca dirección de inicio usada
|
||||
for i := 0 to CPUMAXRAM-1 do begin
|
||||
if ram[i].used then begin
|
||||
if i<minUsed then minUsed := i;
|
||||
if i>maxUsed then maxUsed := i;
|
||||
hexLines.Add('poke ' + IntToStr(i) + ',' + IntToStr(ram[i].value));
|
||||
end;
|
||||
end;
|
||||
hexLines.SaveToFile(hexFile); //Genera archivo
|
||||
end;
|
||||
constructor TP6502.Create;
|
||||
begin
|
||||
inherited Create;
|
||||
//Default hardware settings
|
||||
Model := '6502';
|
||||
CPUMAXRAM := 4096; //Máx RAM memory
|
||||
CPUMAXRAM := $10000; //Máx RAM memory
|
||||
SetLength(ram, CPUMAXRAM);
|
||||
//inicia una configuración común
|
||||
ClearMemRAM;
|
||||
|
Loading…
Reference in New Issue
Block a user