pascalscript/Source/uPSRuntime.pas
Carlo Kok bfe6ebdfbe Merge pull request #75 from velter/patch-5
x64 fix + warnings remove
2014-05-04 09:44:59 +02:00

12698 lines
413 KiB
ObjectPascal

unit uPSRuntime;
{$I PascalScript.inc}
{
RemObjects Pascal Script III
Copyright (C) 2000-2009 by Carlo Kok (ck@carlo-kok.com)
}
interface
uses
SysUtils, uPSUtils{$IFDEF DELPHI6UP}, variants{$ENDIF}{$IFDEF MACOS},uPSCMac{$ELSE}{$IFNDEF PS_NOIDISPATCH}{$IFDEF DELPHI3UP}, ActiveX, Windows{$ELSE}, Ole2{$ENDIF}{$ENDIF}{$ENDIF};
type
TPSExec = class;
TPSStack = class;
TPSRuntimeAttributes = class;
TPSRuntimeAttribute = class;
TPSError = (ErNoError, erCannotImport, erInvalidType, ErInternalError,
erInvalidHeader, erInvalidOpcode, erInvalidOpcodeParameter, erNoMainProc,
erOutOfGlobalVarsRange, erOutOfProcRange, ErOutOfRange, erOutOfStackRange,
ErTypeMismatch, erUnexpectedEof, erVersionError, ErDivideByZero, ErMathError,
erCouldNotCallProc, erOutofRecordRange, erOutOfMemory, erException,
erNullPointerException, erNullVariantError, erInterfaceNotSupported, erCustomError);
TPSStatus = (isNotLoaded, isLoaded, isRunning, isPaused);
PByteArray = ^TByteArray;
TByteArray = array[0..1023] of Byte;
PDWordArray = ^TDWordArray;
TDWordArray = array[0..1023] of Cardinal;
{@link(TPSProcRec)
PIFProcRec is a pointer to a TIProcRec record}
TPSProcRec = class;
TIFProcRec = TPSProcRec;
TPSExternalProcRec = class;
TIFPSExternalProcRec = TPSExternalProcRec;
TIFExternalProcRec = TPSExternalProcRec;
PIFProcRec = TPSProcRec;
PProcRec = ^TProcRec;
TPSProcPtr = function(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
TPSFreeProc = procedure (Caller: TPSExec; p: PProcRec);
TPSProcRec = class
private
FAttributes: TPSRuntimeAttributes;
public
constructor Create(Owner: TPSExec);
destructor Destroy; override;
property Attributes: TPSRuntimeAttributes read FAttributes;
end;
TPSExternalProcRec = class(TPSProcRec)
private
FExt1: Pointer;
FExt2: Pointer;
FName: tbtstring;
FProcPtr: TPSProcPtr;
FDecl: tbtstring;
public
property Name: tbtstring read FName write FName;
property Decl: tbtstring read FDecl write FDecl;
property Ext1: Pointer read FExt1 write FExt1;
property Ext2: Pointer read FExt2 write FExt2;
property ProcPtr: TPSProcPtr read FProcPtr write FProcPtr;
end;
TPSInternalProcRec = class(TPSProcRec)
private
FData: PByteArray;
FLength: Cardinal;
FExportNameHash: Longint;
FExportDecl: tbtstring;
FExportName: tbtstring;
public
property Data: PByteArray read FData;
property Length: Cardinal read FLength;
property ExportNameHash: Longint read FExportNameHash;
property ExportName: tbtstring read FExportName write FExportName;
property ExportDecl: tbtstring read FExportDecl write FExportDecl;
destructor Destroy; override;
end;
TProcRec = record
Name: ShortString;
Hash: Longint;
ProcPtr: TPSProcPtr;
FreeProc: TPSFreeProc;
Ext1, Ext2: Pointer;
end;
PBTReturnAddress = ^TBTReturnAddress;
TBTReturnAddress = packed record
ProcNo: TPSInternalProcRec;
Position, StackBase: Cardinal;
end;
TPSTypeRec = class
private
FExportNameHash: Longint;
FExportName: tbtstring;
FBaseType: TPSBaseType;
FAttributes: TPSRuntimeAttributes;
protected
FRealSize: Cardinal;
public
property RealSize: Cardinal read FRealSize;
property BaseType: TPSBaseType read FBaseType write FBaseType;
property ExportName: tbtstring read FExportName write FExportName;
property ExportNameHash: Longint read FExportNameHash write FExportNameHash;
property Attributes: TPSRuntimeAttributes read FAttributes write FAttributes;
procedure CalcSize; virtual;
constructor Create(Owner: TPSExec);
destructor Destroy; override;
end;
TPSTypeRec_ProcPtr = class(TPSTypeRec)
private
FParamInfo: tbtstring;
public
property ParamInfo: tbtstring read FParamInfo write FParamInfo;
procedure CalcSize; override;
end;
PIFTypeRec = TPSTypeRec;
TPSTypeRec_Class = class(TPSTypeRec)
private
FCN: tbtstring;
public
property CN: tbtstring read FCN write FCN;
end;
{$IFNDEF PS_NOINTERFACES}
TPSTypeRec_Interface = class(TPSTypeRec)
private
FGuid: TGUID;
public
property Guid: TGUID read FGuid write FGuid;
end;
{$ENDIF}
TPSTypeRec_Array = class(TPSTypeRec)
private
FArrayType: TPSTypeRec;
public
property ArrayType: TPSTypeRec read FArrayType write FArrayType;
procedure CalcSize; override;
end;
TPSTypeRec_StaticArray = class(TPSTypeRec_Array)
private
FSize: Longint;
FStartOffset: LongInt;
public
property Size: Longint read FSize write FSize;
property StartOffset: LongInt read FStartOffset write FStartOffset;
procedure CalcSize; override;
end;
TPSTypeRec_Set = class(TPSTypeRec)
private
FBitSize: Longint;
FByteSize: Longint;
public
{The number of bytes this would require (same as realsize)}
property aByteSize: Longint read FByteSize write FByteSize;
property aBitSize: Longint read FBitSize write FBitSize;
procedure CalcSize; override;
end;
TPSTypeRec_Record = class(TPSTypeRec)
private
FFieldTypes: TPSList;
FRealFieldOffsets: TPSList;
public
property FieldTypes: TPSList read FFieldTypes;
property RealFieldOffsets: TPSList read FRealFieldOffsets;
procedure CalcSize; override;
constructor Create(Owner: TPSExec);
destructor Destroy; override;
end;
PPSVariant = ^TPSVariant;
PIFVariant = PPSVariant;
TPSVariant = packed record
FType: TPSTypeRec;
end;
PPSVariantData = ^TPSVariantData;
TPSVariantData = packed record
VI: TPSVariant;
Data: array[0..0] of Byte;
end;
PPSVariantU8 = ^TPSVariantU8;
TPSVariantU8 = packed record
VI: TPSVariant;
Data: tbtU8;
end;
PPSVariantS8 = ^TPSVariantS8;
TPSVariantS8 = packed record
VI: TPSVariant;
Data: tbts8;
end;
PPSVariantU16 = ^TPSVariantU16;
TPSVariantU16 = packed record
VI: TPSVariant;
Data: tbtU16;
end;
PPSVariantS16 = ^TPSVariantS16;
TPSVariantS16 = packed record
VI: TPSVariant;
Data: tbts16;
end;
PPSVariantU32 = ^TPSVariantU32;
TPSVariantU32 = packed record
VI: TPSVariant;
Data: tbtU32;
end;
PPSVariantS32 = ^TPSVariantS32;
TPSVariantS32 = packed record
VI: TPSVariant;
Data: tbts32;
end;
{$IFNDEF PS_NOINT64}
PPSVariantS64 = ^TPSVariantS64;
TPSVariantS64 = packed record
VI: TPSVariant;
Data: tbts64;
end;
{$ENDIF}
PPSVariantAChar = ^TPSVariantAChar;
TPSVariantAChar = packed record
VI: TPSVariant;
Data: tbtChar;
end;
{$IFNDEF PS_NOWIDESTRING}
PPSVariantWChar = ^TPSVariantWChar;
TPSVariantWChar = packed record
VI: TPSVariant;
Data: tbtWideChar;
end;
{$ENDIF}
PPSVariantAString = ^TPSVariantAString;
TPSVariantAString = packed record
VI: TPSVariant;
Data: tbtString;
end;
{$IFNDEF PS_NOWIDESTRING}
PPSVariantWString = ^TPSVariantWString;
TPSVariantWString = {$IFNDEF DELPHI2009UP}packed {$ENDIF}record
VI: TPSVariant;
Data: tbtWideString;
end;
PPSVariantUString = ^TPSVariantUString;
TPSVariantUString = {$IFNDEF DELPHI2009UP}packed {$ENDIF}record
VI: TPSVariant;
Data: tbtunicodestring;
end;
{$ENDIF}
PPSVariantSingle = ^TPSVariantSingle;
TPSVariantSingle = packed record
VI: TPSVariant;
Data: tbtsingle;
end;
PPSVariantDouble = ^TPSVariantDouble;
TPSVariantDouble = packed record
VI: TPSVariant;
Data: tbtDouble;
end;
PPSVariantExtended = ^TPSVariantExtended;
TPSVariantExtended = packed record
VI: TPSVariant;
Data: tbtExtended;
end;
PPSVariantCurrency = ^TPSVariantCurrency;
TPSVariantCurrency = packed record
VI: TPSVariant;
Data: tbtCurrency;
end;
PPSVariantSet = ^TPSVariantSet;
TPSVariantSet = packed record
VI: TPSVariant;
Data: array[0..0] of Byte;
end;
{$IFNDEF PS_NOINTERFACES}
PPSVariantInterface = ^TPSVariantInterface;
TPSVariantInterface = packed record
VI: TPSVariant;
Data: IUnknown;
end;
{$ENDIF}
PPSVariantClass = ^TPSVariantClass;
TPSVariantClass = packed record
VI: TPSVariant;
Data: TObject;
end;
PPSVariantRecord = ^TPSVariantRecord;
TPSVariantRecord = packed record
VI: TPSVariant;
data: array[0..0] of byte;
end;
PPSVariantDynamicArray = ^TPSVariantDynamicArray;
TPSVariantDynamicArray = packed record
VI: TPSVariant;
Data: Pointer;
end;
PPSVariantStaticArray = ^TPSVariantStaticArray;
TPSVariantStaticArray = packed record
VI: TPSVariant;
data: array[0..0] of byte;
end;
PPSVariantPointer = ^TPSVariantPointer;
TPSVariantPointer = packed record
VI: TPSVariant;
DataDest: Pointer;
DestType: TPSTypeRec;
FreeIt: LongBool;
end;
PPSVariantReturnAddress = ^TPSVariantReturnAddress;
TPSVariantReturnAddress = packed record
VI: TPSVariant;
Addr: TBTReturnAddress;
end;
PPSVariantVariant = ^TPSVariantVariant;
TPSVariantVariant = packed record
VI: TPSVariant;
Data: Variant;
end;
PPSVariantProcPtr = ^TPSVariantProcPtr;
TPSVariantProcPtr = packed record
VI: TPSVariant;
ProcNo: Cardinal;
Self: Pointer;
Ptr: Pointer;
{
ProcNo = 0 means Self/Ptr become active (Ptr = nil means it's nil)
}
end;
TPSVarFreeType = (
vtNone,
vtTempVar
);
TPSResultData = packed record
P: Pointer;
aType: TPSTypeRec;
FreeType: TPSVarFreeType;
end;
PPSResource = ^TPSResource;
TPSResource = record
Proc: Pointer;
P: Pointer;
end;
TPSAttributeUseProc = function (Sender: TPSExec; const AttribType: tbtstring; Attr: TPSRuntimeAttribute): Boolean;
TPSAttributeType = class
private
FTypeName: tbtstring;
FUseProc: TPSAttributeUseProc;
FTypeNameHash: Longint;
public
property UseProc: TPSAttributeUseProc read FUseProc write FUseProc;
property TypeName: tbtstring read FTypeName write FTypeName;
property TypeNameHash: Longint read FTypeNameHash write FTypeNameHash;
end;
PClassItem = ^TClassItem;
TClassItem = record
FName: tbtstring;
FNameHash: Longint;
b: byte;
case byte of
0: (Ptr: Pointer);
1: (PointerInList: Pointer);
3: (FReadFunc, FWriteFunc: Pointer); {Property Helper}
4: (Ptr2: Pointer);
5: (PointerInList2: Pointer);
6: (); {Property helper, like 3}
7: (); {Property helper that will pass it's name}
end;
PPSVariantIFC = ^TPSVariantIFC;
{Temporary variant into record}
TPSVariantIFC = packed record
Dta: Pointer;
aType: TPSTypeRec;
VarParam: Boolean;
end;
PIFPSVariantIFC = PPSVariantIFC;
TIFPSVariantIFC = TPSVariantIFC;
TPSRuntimeAttribute = class(TObject)
private
FValues: TPSStack;
FAttribType: tbtstring;
FOwner: TPSRuntimeAttributes;
FAttribTypeHash: Longint;
function GetValue(I: Longint): PIFVariant;
function GetValueCount: Longint;
public
property Owner: TPSRuntimeAttributes read FOwner;
property AttribType: tbtstring read FAttribType write FAttribType;
property AttribTypeHash: Longint read FAttribTypeHash write FAttribTypeHash;
property ValueCount: Longint read GetValueCount;
property Value[I: Longint]: PIFVariant read GetValue;
function AddValue(aType: TPSTypeRec): PPSVariant;
procedure DeleteValue(i: Longint);
procedure AdjustSize;
constructor Create(Owner: TPSRuntimeAttributes);
destructor Destroy; override;
end;
TPSRuntimeAttributes = class(TObject)
private
FAttributes: TPSList;
FOwner: TPSExec;
function GetCount: Longint;
function GetItem(I: Longint): TPSRuntimeAttribute;
public
property Owner: TPSExec read FOwner;
property Count: Longint read GetCount;
property Items[I: Longint]: TPSRuntimeAttribute read GetItem; default;
procedure Delete(I: Longint);
function Add: TPSRuntimeAttribute;
function FindAttribute(const Name: tbtstring): TPSRuntimeAttribute;
constructor Create(AOwner: TPSExec);
destructor Destroy; override;
end;
TPSOnGetNVariant = function (Sender: TPSExec; const Name: tbtstring): Variant;
TPSOnSetNVariant = procedure (Sender: TPSExec; const Name: tbtstring; V: Variant);
TPSOnLineEvent = procedure(Sender: TPSExec);
TPSOnSpecialProcImport = function (Sender: TPSExec; p: TPSExternalProcRec; Tag: Pointer): Boolean;
TPSOnException = procedure (Sender: TPSExec; ExError: TPSError; const ExParam: tbtstring; ExObject: TObject; ProcNo, Position: Cardinal);
TPSExec = class(TObject)
Private
FOnGetNVariant: TPSOnGetNVariant;
FOnSetNVariant: TPSOnSetNVariant;
FId: Pointer;
FJumpFlag: Boolean;
FCallCleanup: Boolean;
FOnException: TPSOnException;
function ReadData(var Data; Len: Cardinal): Boolean;
function ReadLong(var b: Cardinal): Boolean;
function DoCalc(var1, Var2: Pointer; var1Type, var2type: TPSTypeRec; CalcType: Cardinal): Boolean;
function DoBooleanCalc(var1, Var2, into: Pointer; var1Type, var2type, intotype: TPSTypeRec; Cmd: Cardinal): Boolean;
function SetVariantValue(dest, Src: Pointer; desttype, srctype: TPSTypeRec): Boolean;
function ReadVariable(var Dest: TPSResultData; UsePointer: Boolean): Boolean;
function DoBooleanNot(Dta: Pointer; aType: TPSTypeRec): Boolean;
function DoMinus(Dta: Pointer; aType: TPSTypeRec): Boolean;
function DoIntegerNot(Dta: Pointer; aType: TPSTypeRec): Boolean;
procedure RegisterStandardProcs;
Protected
FReturnAddressType: TPSTypeRec;
FVariantType: TPSTypeRec;
FVariantArrayType: TPSTypeRec;
FAttributeTypes: TPSList;
FExceptionStack: TPSList;
FResources: TPSList;
FExportedVars: TPSList;
FTypes: TPSList;
FProcs: TPSList;
FGlobalVars: TPSStack;
FTempVars: TPSStack;
FStack: TPSStack;
FMainProc: Cardinal;
FStatus: TPSStatus;
FCurrProc: TPSInternalProcRec;
FData: PByteArray;
FDataLength: Cardinal;
FCurrentPosition: Cardinal;
FCurrStackBase: Cardinal;
FOnRunLine: TPSOnLineEvent;
FSpecialProcList: TPSList;
FRegProcs: TPSList;
ExObject: TObject;
ExProc: Cardinal;
ExPos: Cardinal;
ExEx: TPSError;
ExParam: tbtstring;
function InvokeExternalMethod(At: TPSTypeRec_ProcPtr; Slf, Ptr: Pointer): Boolean;
function InnerfuseCall(_Self, Address: Pointer; CallingConv: TPSCallingConvention; Params: TPSList; res: PPSVariantIFC): Boolean;
procedure RunLine; virtual;
function ImportProc(const Name: ShortString; proc: TPSExternalProcRec): Boolean; Virtual;
procedure ExceptionProc(proc, Position: Cardinal; Ex: TPSError; const s: tbtstring; NewObject: TObject); Virtual;
function FindSpecialProcImport(P: TPSOnSpecialProcImport): pointer;
Public
function LastEx: TPSError;
function LastExParam: tbtstring;
function LastExProc: Integer;
function LastExPos: Integer;
function LastExObject: TObject;
procedure CMD_Err(EC: TPSError);
procedure CMD_Err2(EC: TPSError; const Param: tbtstring);
procedure CMD_Err3(EC: TPSError; const Param: tbtstring; ExObject: TObject);
property Id: Pointer read FID write FID;
class function About: tbtstring;
function RunProc(Params: TPSList; ProcNo: Cardinal): Boolean;
function RunProcP(const Params: array of Variant; const Procno: Cardinal): Variant;
function RunProcPVar(var Params: array of Variant; const Procno: Cardinal): Variant;
function RunProcPN(const Params: array of Variant; const ProcName: tbtstring): Variant;
function FindType(StartAt: Cardinal; BaseType: TPSBaseType; var l: Cardinal): PIFTypeRec;
function FindType2(BaseType: TPSBaseType): PIFTypeRec;
function GetTypeNo(l: Cardinal): PIFTypeRec;
function GetType(const Name: tbtstring): Cardinal;
function GetProc(const Name: tbtstring): Cardinal;
function GetVar(const Name: tbtstring): Cardinal;
function GetVar2(const Name: tbtstring): PIFVariant;
function GetVarNo(C: Cardinal): PIFVariant;
function GetProcNo(C: Cardinal): PIFProcRec;
function GetProcCount: Cardinal;
function GetVarCount: Longint;
function GetTypeCount: Longint;
constructor Create;
destructor Destroy; Override;
function RunScript: Boolean;
function LoadData(const s: tbtstring): Boolean; virtual;
procedure Clear; Virtual;
procedure Cleanup; Virtual;
procedure Stop; Virtual;
procedure Pause; Virtual;
property CallCleanup: Boolean read FCallCleanup write FCallCleanup;
property Status: TPSStatus Read FStatus;
property OnRunLine: TPSOnLineEvent Read FOnRunLine Write FOnRunLine;
procedure ClearspecialProcImports;
procedure AddSpecialProcImport(const FName: tbtstring; P: TPSOnSpecialProcImport; Tag: Pointer);
function RegisterFunctionName(const Name: tbtstring; ProcPtr: TPSProcPtr;
Ext1, Ext2: Pointer): PProcRec;
procedure RegisterDelphiFunction(ProcPtr: Pointer; const Name: tbtstring; CC: TPSCallingConvention);
procedure RegisterDelphiMethod(Slf, ProcPtr: Pointer; const Name: tbtstring; CC: TPSCallingConvention);
function GetProcAsMethod(const ProcNo: Cardinal): TMethod;
function GetProcAsMethodN(const ProcName: tbtstring): TMethod;
procedure RegisterAttributeType(useproc: TPSAttributeUseProc; const TypeName: tbtstring);
procedure ClearFunctionList;
property ExceptionProcNo: Cardinal Read ExProc;
property ExceptionPos: Cardinal Read ExPos;
property ExceptionCode: TPSError Read ExEx;
property ExceptionString: tbtstring read ExParam;
property ExceptionObject: TObject read ExObject write ExObject;
procedure AddResource(Proc, P: Pointer);
function IsValidResource(Proc, P: Pointer): Boolean;
procedure DeleteResource(P: Pointer);
function FindProcResource(Proc: Pointer): Pointer;
function FindProcResource2(Proc: Pointer; var StartAt: Longint): Pointer;
procedure RaiseCurrentException;
property OnException: TPSOnException read FOnException write FOnException;
property OnGetNVariant: TPSOnGetNVariant read FOnGetNVariant write FOnGetNVariant;
property OnSetNVariant: TPSOnSetNVariant read FOnSetNVariant write FOnSetNVariant;
end;
TPSStack = class(TPSList)
private
FDataPtr: Pointer;
FCapacity,
FLength: Longint;
function GetItem(I: Longint): PPSVariant;
procedure SetCapacity(const Value: Longint);
procedure AdjustLength;
public
property DataPtr: Pointer read FDataPtr;
property Capacity: Longint read FCapacity write SetCapacity;
property Length: Longint read FLength;
constructor Create;
destructor Destroy; override;
procedure Clear; {$IFDEF DELPHI5UP} reintroduce;{$ELSE} override; {$ENDIF}
function Push(TotalSize: Longint): PPSVariant;
function PushType(aType: TPSTypeRec): PPSVariant;
procedure Pop;
function GetInt(ItemNo: Longint): Longint;
function GetUInt(ItemNo: Longint): Cardinal;
{$IFNDEF PS_NOINT64}
function GetInt64(ItemNo: Longint): Int64;
{$ENDIF}
function GetString(ItemNo: Longint): string; // calls the native method
function GetAnsiString(ItemNo: Longint): tbtstring;
{$IFNDEF PS_NOWIDESTRING}
function GetWideString(ItemNo: Longint): tbtWideString;
function GetUnicodeString(ItemNo: Longint): tbtunicodestring;
{$ENDIF}
function GetReal(ItemNo: Longint): Extended;
function GetCurrency(ItemNo: Longint): Currency;
function GetBool(ItemNo: Longint): Boolean;
function GetClass(ItemNo: Longint): TObject;
procedure SetInt(ItemNo: Longint; const Data: Longint);
procedure SetUInt(ItemNo: Longint; const Data: Cardinal);
{$IFNDEF PS_NOINT64}
procedure SetInt64(ItemNo: Longint; const Data: Int64);
{$ENDIF}
procedure SetString(ItemNo: Longint; const Data: string);
procedure SetAnsiString(ItemNo: Longint; const Data: tbtstring);
{$IFNDEF PS_NOWIDESTRING}
procedure SetWideString(ItemNo: Longint; const Data: tbtWideString);
procedure SetUnicodeString(ItemNo: Longint; const Data: tbtunicodestring);
{$ENDIF}
procedure SetReal(ItemNo: Longint; const Data: Extended);
procedure SetCurrency(ItemNo: Longint; const Data: Currency);
procedure SetBool(ItemNo: Longint; const Data: Boolean);
procedure SetClass(ItemNo: Longint; const Data: TObject);
property Items[I: Longint]: PPSVariant read GetItem; default;
end;
function PSErrorToString(x: TPSError; const Param: tbtstring): tbtstring;
function TIFErrorToString(x: TPSError; const Param: tbtstring): tbtstring;
function CreateHeapVariant(aType: TPSTypeRec): PPSVariant;
procedure DestroyHeapVariant(v: PPSVariant);
procedure FreePIFVariantList(l: TPSList);
procedure FreePSVariantList(l: TPSList);
const
ENoError = ERNoError;
function PIFVariantToVariant(Src: PIFVariant; var Dest: Variant): Boolean;
function VariantToPIFVariant(Exec: TPSExec; const Src: Variant; Dest: PIFVariant): Boolean;
function PSGetRecField(const avar: TPSVariantIFC; Fieldno: Longint): TPSVariantIFC;
function PSGetArrayField(const avar: TPSVariantIFC; Fieldno: Longint): TPSVariantIFC;
function NewTPSVariantRecordIFC(avar: PPSVariant; Fieldno: Longint): TPSVariantIFC;
function NewTPSVariantIFC(avar: PPSVariant; varparam: boolean): TPSVariantIFC;
function NewPPSVariantIFC(avar: PPSVariant; varparam: boolean): PPSVariantIFC;
procedure DisposePPSVariantIFC(aVar: PPSVariantIFC);
procedure DisposePPSVariantIFCList(list: TPSList);
function PSGetObject(Src: Pointer; aType: TPSTypeRec): TObject;
function PSGetUInt(Src: Pointer; aType: TPSTypeRec): Cardinal;
{$IFNDEF PS_NOINT64}
function PSGetInt64(Src: Pointer; aType: TPSTypeRec): Int64;
{$ENDIF}
function PSGetReal(Src: Pointer; aType: TPSTypeRec): Extended;
function PSGetCurrency(Src: Pointer; aType: TPSTypeRec): Currency;
function PSGetInt(Src: Pointer; aType: TPSTypeRec): Longint;
function PSGetString(Src: Pointer; aType: TPSTypeRec): string;
function PSGetAnsiString(Src: Pointer; aType: TPSTypeRec): tbtString;
{$IFNDEF PS_NOWIDESTRING}
function PSGetWideString(Src: Pointer; aType: TPSTypeRec): tbtWideString;
function PSGetUnicodeString(Src: Pointer; aType: TPSTypeRec): tbtunicodestring;
{$ENDIF}
procedure PSSetObject(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; Const val: TObject);
procedure PSSetUInt(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Cardinal);
{$IFNDEF PS_NOINT64}
procedure PSSetInt64(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Int64);
{$ENDIF}
procedure PSSetReal(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Extended);
procedure PSSetCurrency(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Currency);
procedure PSSetInt(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Longint);
procedure PSSetString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: String);
procedure PSSetAnsiString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtString);
{$IFNDEF PS_NOWIDESTRING}
procedure PSSetWideString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtWideString);
procedure PSSetUnicodeString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtunicodestring);
{$ENDIF}
procedure VNSetPointerTo(const Src: TPSVariantIFC; Data: Pointer; aType: TPSTypeRec);
function VNGetUInt(const Src: TPSVariantIFC): Cardinal;
{$IFNDEF PS_NOINT64}
function VNGetInt64(const Src: TPSVariantIFC): Int64;
{$ENDIF}
function VNGetReal(const Src: TPSVariantIFC): Extended;
function VNGetCurrency(const Src: TPSVariantIFC): Currency;
function VNGetInt(const Src: TPSVariantIFC): Longint;
function VNGetString(const Src: TPSVariantIFC): String;
function VNGetAnsiString(const Src: TPSVariantIFC): tbtString;
{$IFNDEF PS_NOWIDESTRING}
function VNGetWideString(const Src: TPSVariantIFC): tbtWideString;
function VNGetUnicodeString(const Src: TPSVariantIFC): tbtunicodestring;
{$ENDIF}
procedure VNSetUInt(const Src: TPSVariantIFC; const Val: Cardinal);
{$IFNDEF PS_NOINT64}
procedure VNSetInt64(const Src: TPSVariantIFC; const Val: Int64);
{$ENDIF}
procedure VNSetReal(const Src: TPSVariantIFC; const Val: Extended);
procedure VNSetCurrency(const Src: TPSVariantIFC; const Val: Currency);
procedure VNSetInt(const Src: TPSVariantIFC; const Val: Longint);
procedure VNSetString(const Src: TPSVariantIFC; const Val: String);
procedure VNSetAnsiString(const Src: TPSVariantIFC; const Val: tbtString);
{$IFNDEF PS_NOWIDESTRING}
procedure VNSetWideString(const Src: TPSVariantIFC; const Val: tbtWideString);
procedure VNSetUnicodeString(const Src: TPSVariantIFC; const Val: tbtunicodestring);
{$ENDIF}
function VGetUInt(const Src: PIFVariant): Cardinal;
{$IFNDEF PS_NOINT64}
function VGetInt64(const Src: PIFVariant): Int64;
{$ENDIF}
function VGetReal(const Src: PIFVariant): Extended;
function VGetCurrency(const Src: PIFVariant): Currency;
function VGetInt(const Src: PIFVariant): Longint;
function VGetString(const Src: PIFVariant): String;
function VGetAnsiString(const Src: PIFVariant): tbtString;
{$IFNDEF PS_NOWIDESTRING}
function VGetWideString(const Src: PIFVariant): tbtWideString;
function VGetUnicodeString(const Src: PIFVariant): tbtunicodestring;
{$ENDIF}
procedure VSetPointerTo(const Src: PIFVariant; Data: Pointer; aType: TPSTypeRec);
procedure VSetUInt(const Src: PIFVariant; const Val: Cardinal);
{$IFNDEF PS_NOINT64}
procedure VSetInt64(const Src: PIFVariant; const Val: Int64);
{$ENDIF}
procedure VSetReal(const Src: PIFVariant; const Val: Extended);
procedure VSetCurrency(const Src: PIFVariant; const Val: Currency);
procedure VSetInt(const Src: PIFVariant; const Val: Longint);
procedure VSetString(const Src: PIFVariant; const Val: string);
procedure VSetAnsiString(const Src: PIFVariant; const Val: tbtString);
{$IFNDEF PS_NOWIDESTRING}
procedure VSetWideString(const Src: PIFVariant; const Val: tbtWideString);
procedure VSetUnicodeString(const Src: PIFVariant; const Val: tbtunicodestring);
{$ENDIF}
type
EPSException = class(Exception)
private
FProcPos: Cardinal;
FProcNo: Cardinal;
FExec: TPSExec;
public
constructor Create(const Error: tbtstring; Exec: TPSExec; Procno, ProcPos: Cardinal);
property ProcNo: Cardinal read FProcNo;
property ProcPos: Cardinal read FProcPos;
property Exec: TPSExec read FExec;
end;
TPSRuntimeClass = class
protected
FClassName: tbtstring;
FClassNameHash: Longint;
FClassItems: TPSList;
FClass: TClass;
FEndOfVmt: Longint;
public
procedure RegisterConstructor(ProcPtr: Pointer; const Name: tbtstring);
procedure RegisterVirtualConstructor(ProcPtr: Pointer; const Name: tbtstring);
procedure RegisterMethod(ProcPtr: Pointer; const Name: tbtstring);
procedure RegisterVirtualMethod(ProcPtr: Pointer; const Name: tbtstring);
procedure RegisterVirtualAbstractMethod(ClassDef: TClass; ProcPtr: Pointer; const Name: tbtstring);
procedure RegisterPropertyHelper(ReadFunc, WriteFunc: Pointer; const Name: tbtstring);
procedure RegisterPropertyHelperName(ReadFunc, WriteFunc: Pointer; const Name: tbtstring);
procedure RegisterEventPropertyHelper(ReadFunc, WriteFunc: Pointer; const Name: tbtstring);
constructor Create(aClass: TClass; const AName: tbtstring);
destructor Destroy; override;
end;
TPSRuntimeClassImporter = class
private
FClasses: TPSList;
public
constructor Create;
constructor CreateAndRegister(Exec: TPSExec; AutoFree: Boolean);
destructor Destroy; override;
function Add(aClass: TClass): TPSRuntimeClass;
function Add2(aClass: TClass; const Name: tbtstring): TPSRuntimeClass;
procedure Clear;
function FindClass(const Name: tbtstring): TPSRuntimeClass;
end;
TIFPSRuntimeClassImporter = TPSRuntimeClassImporter;
TPSResourceFreeProc = procedure (Sender: TPSExec; P: TPSRuntimeClassImporter);
procedure RegisterClassLibraryRuntime(SE: TPSExec; Importer: TPSRuntimeClassImporter);
procedure SetVariantToClass(V: PIFVariant; Cl: TObject);
{$IFNDEF PS_NOINTERFACES}
procedure SetVariantToInterface(V: PIFVariant; Cl: IUnknown);
{$ENDIF}
procedure MyAllMethodsHandler;
function GetMethodInfoRec(SE: TPSExec; ProcNo: Cardinal): Pointer;
function MkMethod(FSE: TPSExec; No: Cardinal): TMethod;
type
TIFInternalProcRec = TPSInternalProcRec;
TIFError = TPSError;
TIFStatus = TPSStatus;
TIFPSExec = TPSExec;
TIFPSStack = TPSStack;
TIFTypeRec = TPSTypeRec;
TPSCallingConvention = uPSUtils.TPSCallingConvention;
const
cdRegister = uPSUtils.cdRegister;
cdPascal = uPSUtils.cdPascal;
cdCdecl = uPSUtils.cdCdecl;
cdStdCall = uPSUtils.cdStdCall;
InvalidVal = Cardinal(-1);
function PSDynArrayGetLength(arr: Pointer; aType: TPSTypeRec): Longint;
procedure PSDynArraySetLength(var arr: Pointer; aType: TPSTypeRec; NewLength: Longint);
function GetPSArrayLength(Arr: PIFVariant): Longint;
procedure SetPSArrayLength(Arr: PIFVariant; NewLength: Longint);
function PSVariantToString(const p: TPSVariantIFC; const ClassProperties: tbtstring): tbtstring;
function MakeString(const s: tbtstring): tbtstring;
{$IFNDEF PS_NOWIDESTRING}
function MakeWString(const s: tbtunicodestring): tbtstring;
{$ENDIF}
{$IFNDEF PS_NOIDISPATCH}
function IDispatchInvoke(Self: IDispatch; PropertySet: Boolean; const Name: tbtString; const Par: array of Variant): Variant;
{$ENDIF}
implementation
uses
TypInfo {$IFDEF DELPHI3UP}{$IFNDEF FPC}{$IFNDEF KYLIX} , ComObj {$ENDIF}{$ENDIF}{$ENDIF};
{$IFDEF DELPHI3UP }
resourceString
{$ELSE }
const
{$ENDIF }
RPS_UnknownIdentifier = 'Unknown Identifier';
RPS_Exception = 'Exception: %s';
RPS_Invalid = '[Invalid]';
//- PSErrorToString
RPS_NoError = 'No Error';
RPS_CannotImport = 'Cannot Import %s';
RPS_InvalidType = 'Invalid Type';
RPS_InternalError = 'Internal error';
RPS_InvalidHeader = 'Invalid Header';
RPS_InvalidOpcode = 'Invalid Opcode';
RPS_InvalidOpcodeParameter = 'Invalid Opcode Parameter';
RPS_NoMainProc = 'no Main Proc';
RPS_OutOfGlobalVarsRange = 'Out of Global Vars range';
RPS_OutOfProcRange = 'Out of Proc Range';
RPS_OutOfRange = 'Out Of Range';
RPS_OutOfStackRange = 'Out Of Stack Range';
RPS_TypeMismatch = 'Type Mismatch';
RPS_UnexpectedEof = 'Unexpected End Of File';
RPS_VersionError = 'Version error';
RPS_DivideByZero = 'divide by Zero';
RPS_MathError = 'Math error';
RPS_CouldNotCallProc = 'Could not call proc';
RPS_OutofRecordRange = 'Out of Record Fields Range';
RPS_NullPointerException = 'Null Pointer Exception';
RPS_NullVariantError = 'Null variant error';
RPS_OutOfMemory = 'Out Of Memory';
RPS_InterfaceNotSupported = 'Interface not supported';
RPS_UnknownError = 'Unknown error';
RPS_InvalidVariable = 'Invalid variable';
RPS_InvalidArray = 'Invalid array';
RPS_OLEError = 'OLE error %.8x';
RPS_UnknownProcedure = 'Unknown procedure';
RPS_NotEnoughParameters = 'Not enough parameters';
RPS_InvalidParameter = 'Invalid parameter';
RPS_TooManyParameters = 'Too many parameters';
RPS_OutOfStringRange = 'Out of string range';
RPS_CannotCastInterface = 'Cannot cast an interface';
RPS_CannotCastObject = 'Cannot cast an object';
RPS_CapacityLength = 'Capacity < Length';
RPS_CanOnlySendLastItem = 'Can only remove last item from stack';
RPS_NILInterfaceException = 'Nil interface';
RPS_UnknownMethod = 'Unknown method';
type
PPSExportedVar = ^TPSExportedVar;
TPSExportedVar = record
FName: tbtstring;
FNameHash: Longint;
FVarNo: Cardinal;
end;
PRaiseFrame = ^TRaiseFrame;
TRaiseFrame = record
NextRaise: PRaiseFrame;
ExceptAddr: Pointer;
ExceptObject: TObject;
ExceptionRecord: Pointer;
end;
TPSExceptionHandler = class
CurrProc: TPSInternalProcRec;
BasePtr, StackSize: Cardinal;
FinallyOffset, ExceptOffset, Finally2Offset, EndOfBlock: Cardinal;
ExceptionData: TPSError;
ExceptionObject: TObject;
ExceptionParam: tbtString;
destructor Destroy; override;
end;
TPSHeader = packed record
HDR: Cardinal;
PSBuildNo: Cardinal;
TypeCount: Cardinal;
ProcCount: Cardinal;
VarCount: Cardinal;
MainProcNo: Cardinal;
ImportTableSize: Cardinal;
end;
TPSExportItem = packed record
ProcNo: Cardinal;
NameLength: Cardinal;
DeclLength: Cardinal;
end;
TPSType = packed record
BaseType: TPSBaseType;
end;
TPSProc = packed record
Flags: Byte;
end;
TPSVar = packed record
TypeNo: Cardinal;
Flags: Byte;
end;
PSpecialProc = ^TSpecialProc;
TSpecialProc = record
P: TPSOnSpecialProcImport;
namehash: Longint;
Name: tbtstring;
tag: pointer;
end;
destructor TPSExceptionHandler.Destroy;
begin
ExceptionObject.Free;
inherited;
end;
procedure P_CM_A; begin end;
procedure P_CM_CA; begin end;
procedure P_CM_P; begin end;
procedure P_CM_PV; begin end;
procedure P_CM_PO; begin end;
procedure P_CM_C; begin end;
procedure P_CM_G; begin end;
procedure P_CM_CG; begin end;
procedure P_CM_CNG; begin end;
procedure P_CM_R; begin end;
procedure P_CM_ST; begin end;
procedure P_CM_PT; begin end;
procedure P_CM_CO; begin end;
procedure P_CM_CV; begin end;
procedure P_CM_SP; begin end;
procedure P_CM_BN; begin end;
procedure P_CM_VM; begin end;
procedure P_CM_SF; begin end;
procedure P_CM_FG; begin end;
procedure P_CM_PUEXH; begin end;
procedure P_CM_POEXH; begin end;
procedure P_CM_IN; begin end;
procedure P_CM_SPB; begin end;
procedure P_CM_INC; begin end;
procedure P_CM_DEC; begin end;
function IntPIFVariantToVariant(Src: pointer; aType: TPSTypeRec; var Dest: Variant): Boolean; forward;
procedure Set_Union(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] or Src^[i];
end;
procedure Set_Diff(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] and not Src^[i];
end;
procedure Set_Intersect(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] and Src^[i];
end;
procedure Set_Subset(Dest, Src: PByteArray; ByteSize: Integer; var Val: Boolean);
var
i: Integer;
begin
for i := ByteSize -1 downto 0 do
begin
if not (Src^[i] and Dest^[i] = Dest^[i]) then
begin
Val := False;
exit;
end;
end;
Val := True;
end;
procedure Set_Equal(Dest, Src: PByteArray; ByteSize: Integer; var Val: Boolean);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
begin
if Dest^[i] <> Src^[i] then
begin
Val := False;
exit;
end;
end;
val := True;
end;
procedure Set_membership(Item: Longint; Src: PByteArray; var Val: Boolean);
begin
Val := (Src^[Item shr 3] and (1 shl (Item and 7))) <> 0;
end;
procedure RCIFreeProc(Sender: TPSExec; P: TPSRuntimeClassImporter);
begin
p.Free;
end;
function Trim(const s: tbtstring): tbtstring;
begin
Result := s;
while (Length(result) > 0) and (Result[1] = #32) do Delete(Result, 1, 1);
while (Length(result) > 0) and (Result[Length(Result)] = #32) do Delete(Result, Length(Result), 1);
end;
(*function FloatToStr(E: Extended): tbtstring;
begin
Result := Sysutils.FloatToStr(e);
end;*)
//-------------------------------------------------------------------
function Padl(s: tbtstring; i: longInt): tbtstring;
begin
result := StringOfChar(tbtchar(' '), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function Padz(s: tbtString; i: longInt): tbtString;
begin
result := StringOfChar(tbtchar('0'), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function Padr(s: tbtString; i: longInt): tbtString;
begin
result := s + StringOfChar(tbtchar(' '), i - Length(s));
end;
//-------------------------------------------------------------------
{$IFNDEF PS_NOWIDESTRING}
function wPadl(s: tbtwidestring; i: longInt): tbtwidestring;
begin
result := StringOfChar(tbtwidechar(' '), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function wPadz(s: tbtwidestring; i: longInt): tbtwidestring;
begin
result := StringOfChar(tbtwidechar('0'), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function wPadr(s: tbtwidestring; i: longInt): tbtwidestring;
begin
result := s + StringOfChar(tbtwidechar(' '), i - Length(s));
end;
function uPadl(s: tbtunicodestring; i: longInt): tbtunicodestring;
begin
result := StringOfChar(tbtwidechar(' '), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function uPadz(s: tbtunicodestring; i: longInt): tbtunicodestring;
begin
result := StringOfChar(tbtwidechar('0'), i - length(s)) + s;
end;
//-------------------------------------------------------------------
function uPadr(s: tbtunicodestring; i: longInt): tbtunicodestring;
begin
result := s + StringOfChar(tbtwidechar(' '), i - Length(s));
end;
{$ENDIF}
{$IFNDEF PS_NOWIDESTRING}
function MakeWString(const s: tbtunicodestring): tbtString;
var
i: Longint;
e: tbtString;
b: boolean;
begin
Result := tbtString(s);
i := 1;
b := false;
while i <= length(result) do
begin
if Result[i] = '''' then
begin
if not b then
begin
b := true;
Insert('''', Result, i);
inc(i);
end;
Insert('''', Result, i);
inc(i, 2);
end else if (Result[i] < #32) or (Result[i] > #255) then
begin
e := '#'+inttostr(ord(Result[i]));
Delete(Result, i, 1);
if b then
begin
b := false;
Insert('''', Result, i);
inc(i);
end;
Insert(e, Result, i);
inc(i, length(e));
end else begin
if not b then
begin
b := true;
Insert('''', Result, i);
inc(i, 2);
end else
inc(i);
end;
end;
if b then
begin
Result := Result + '''';
end;
if Result = '' then
Result := '''''';
end;
{$ENDIF}
function MakeString(const s: tbtString): tbtString;
var
i: Longint;
e: tbtString;
b: boolean;
begin
Result := s;
i := 1;
b := false;
while i <= length(result) do
begin
if Result[i] = '''' then
begin
if not b then
begin
b := true;
Insert('''', Result, i);
inc(i);
end;
Insert('''', Result, i);
inc(i, 2);
end else if (Result[i] < #32) then
begin
e := '#'+inttostr(ord(Result[i]));
Delete(Result, i, 1);
if b then
begin
b := false;
Insert('''', Result, i);
inc(i);
end;
Insert(e, Result, i);
inc(i, length(e));
end else begin
if not b then
begin
b := true;
Insert('''', Result, i);
inc(i, 2);
end else
inc(i);
end;
end;
if b then
begin
Result := Result + '''';
end;
if Result = '' then
Result := '''''';
end;
function SafeStr(const s: tbtString): tbtString;
var
i : Longint;
begin
Result := s;
for i := 1 to length(s) do
begin
if s[i] in [#0..#31] then
begin
Result := Copy(s, 1, i-1);
exit;
end;
end;
end;
function PropertyToString(Instance: TObject; PName: tbtString): tbtString;
var
s: tbtString;
i: Longint;
PP: PPropInfo;
begin
if PName = '' then
begin
Result := tbtString(Instance.ClassName);
exit;
end;
while Length(PName) > 0 do
begin
i := pos(tbtChar('.'), pname);
if i = 0 then
begin
s := Trim(PNAme);
pname := '';
end else begin
s := trim(Copy(PName, 1, i-1));
Delete(PName, 1, i);
end;
pp := GetPropInfo(PTypeInfo(Instance.ClassInfo), string(s));
if pp = nil then begin Result := tbtstring(RPS_UnknownIdentifier); exit; end;
case pp^.PropType^.Kind of
tkInteger: begin Result := IntToStr(GetOrdProp(Instance, pp)); exit; end;
tkChar: begin Result := '#'+IntToStr(GetOrdProp(Instance, pp)); exit; end;
tkEnumeration: begin Result := tbtstring(GetEnumName(pp^.PropType{$IFNDEF FPC}{$IFDEF DELPHI3UP}^{$ENDIF}{$ENDIF}, GetOrdProp(Instance, pp))); exit; end;
tkFloat: begin Result := FloatToStr(GetFloatProp(Instance, PP)); exit; end;
tkString, tkLString: begin Result := ''''+tbtString(GetStrProp(Instance, PP))+''''; exit; end;
tkSet: begin Result := '[Set]'; exit; end;
tkClass: begin Instance := TObject(GetOrdProp(Instance, pp)); end;
tkMethod: begin Result := '[Method]'; exit; end;
tkVariant: begin Result := '[Variant]'; exit; end;
{$IFDEF DELPHI6UP}
{$IFNDEF PS_NOWIDESTRING}
tkWString: begin Result := ''''+tbtString(GetWideStrProp(Instance, pp))+''; end;
{$IFDEF DELPHI2009UP}
tkUString: begin Result := ''''+tbtString(GetUnicodeStrProp(Instance, pp))+''; end;
{$ENDIF}
{$ENDIF}
{$ENDIF}
else begin Result := '[Unknown]'; exit; end;
end;
if Instance = nil then begin result := 'nil'; exit; end;
end;
Result := tbtstring(Instance.ClassName);
end;
function ClassVariantInfo(const pvar: TPSVariantIFC; const PropertyName: tbtString): tbtString;
begin
if pvar.aType.BaseType = btClass then
begin
if TObject(pvar.Dta^) = nil then
Result := 'nil'
else
Result := PropertyToString(TObject(pvar.Dta^), PropertyName);
end else if pvar.atype.basetype = btInterface then
Result := 'Interface'
else Result := tbtstring(RPS_InvalidType);
end;
function PSVariantToString(const p: TPSVariantIFC; const ClassProperties: tbtString): tbtString;
var
i, n: Longint;
begin
if p.Dta = nil then
begin
Result := 'nil';
exit;
end;
if (p.aType.BaseType = btVariant) then
begin
try
if TVarData(p.Dta^).VType = varDispatch then
Result := 'Variant(IDispatch)'
else if TVarData(p.Dta^).VType = varNull then
REsult := 'Null'
else if (TVarData(p.Dta^).VType = varOleStr) then
{$IFDEF PS_NOWIDESTRING}
Result := MakeString(Variant(p.Dta^))
{$ELSE}
Result := MakeWString(variant(p.dta^))
{$ENDIF}
else if TVarData(p.Dta^).VType = varString then
Result := MakeString(tbtstring(variant(p.Dta^)))
else
Result := tbtstring(Variant(p.Dta^));
except
on e: Exception do
Result := tbtstring(Format (RPS_Exception, [e.Message]));
end;
exit;
end;
case p.aType.BaseType of
btProcptr: begin Result := 'Proc: '+inttostr(tbtu32(p.Dta^)); end;
btU8: str(tbtu8(p.dta^), Result);
btS8: str(tbts8(p.dta^), Result);
btU16: str(tbtu16(p.dta^), Result);
btS16: str(tbts16(p.dta^), Result);
btU32: str(tbtu32(p.dta^), Result);
btS32: str(tbts32(p.dta^), Result);
btSingle: str(tbtsingle(p.dta^), Result);
btDouble: str(tbtdouble(p.dta^), Result);
btExtended: str(tbtextended(p.dta^), Result);
btString: Result := makestring(tbtString(p.dta^));
btPChar:
begin
if PansiChar(p.dta^) = nil then
Result := 'nil'
else
Result := MakeString(PAnsiChar(p.dta^));
end;
btchar: Result := MakeString(tbtchar(p.dta^));
{$IFNDEF PS_NOWIDESTRING}
btwidechar: Result := MakeWString(tbtwidechar(p.dta^));
btWideString: Result := MakeWString(tbtwidestring(p.dta^));
btUnicodeString: Result := MakeWString(tbtUnicodeString(p.dta^));
{$ENDIF}
{$IFNDEF PS_NOINT64}btS64: str(tbts64(p.dta^), Result);{$ENDIF}
btStaticArray, btArray:
begin
Result := '';
if p.aType.BaseType = btStaticArray then
n := TPSTypeRec_StaticArray(p.aType).Size
else
n := PSDynArrayGetLength(Pointer(p.dta^), p.aType);
for i := 0 to n-1 do begin
if Result <> '' then
Result := Result + ', ';
Result := Result + PSVariantToString(PSGetArrayField(p, i), '');
end;
Result := '[' + Result + ']';
end;
btRecord:
begin
Result := '';
n := TPSTypeRec_Record(p.aType).FFieldTypes.Count;
for i := 0 to n-1 do begin
if Result <> '' then
Result := Result + ', ';
Result := Result + PSVariantToString(PSGetRecField(p, i), '');
end;
Result := '(' + Result + ')';
end;
btPointer: Result := 'Nil';
btClass, btInterface:
begin
Result := ClassVariantInfo(p, ClassProperties)
end;
else
Result := tbtString(RPS_Invalid);
end;
end;
function TIFErrorToString(x: TPSError; const Param: tbtString): tbtString;
begin
Result := PSErrorToString(x,param);
end;
function PSErrorToString(x: TPSError; const Param: tbtString): tbtString;
begin
case x of
ErNoError: Result := tbtString(RPS_NoError);
erCannotImport: Result := tbtString(Format (RPS_CannotImport, [Safestr(Param)]));
erInvalidType: Result := tbtString(RPS_InvalidType);
ErInternalError: Result := tbtString(RPS_InternalError);
erInvalidHeader: Result := tbtString(RPS_InvalidHeader);
erInvalidOpcode: Result := tbtString(RPS_InvalidOpcode);
erInvalidOpcodeParameter: Result := tbtString(RPS_InvalidOpcodeParameter);
erNoMainProc: Result := tbtString(RPS_NoMainProc);
erOutOfGlobalVarsRange: Result := tbtString(RPS_OutOfGlobalVarsRange);
erOutOfProcRange: Result := tbtString(RPS_OutOfProcRange);
ErOutOfRange: Result := tbtString(RPS_OutOfRange);
erOutOfStackRange: Result := tbtString(RPS_OutOfStackRange);
ErTypeMismatch: Result := tbtString(RPS_TypeMismatch);
erUnexpectedEof: Result := tbtString(RPS_UnexpectedEof);
erVersionError: Result := tbtString(RPS_VersionError);
ErDivideByZero: Result := tbtString(RPS_DivideByZero);
erMathError: Result := tbtString(RPS_MathError);
erCouldNotCallProc: begin Result := tbtString(RPS_CouldNotCallProc); if (Param <> '') then Result := result +' ('+Param+')'; end;
erOutofRecordRange: Result := tbtString(RPS_OutofRecordRange);
erNullPointerException: Result := tbtString(RPS_NullPointerException);
erNullVariantError: Result := tbtString(RPS_NullVariantError);
erOutOfMemory: Result := tbtString(RPS_OutOfMemory);
erException: Result := tbtString(Format (RPS_Exception, [Param]));
erInterfaceNotSupported: Result := tbtString(RPS_InterfaceNotSupported);
erCustomError: Result := Param;
else
Result := tbtString(RPS_UnknownError);
end;
//
end;
procedure TPSTypeRec.CalcSize;
begin
case BaseType of
btVariant: FRealSize := sizeof(Variant);
btChar, bts8, btU8: FrealSize := 1 ;
{$IFNDEF PS_NOWIDESTRING}btWideChar, {$ENDIF}bts16, btU16: FrealSize := 2;
{$IFNDEF PS_NOWIDESTRING}btWideString,
btUnicodeString,
{$ENDIF}{$IFNDEF PS_NOINTERFACES}btInterface, {$ENDIF}
btclass, btPChar, btString: FrealSize := PointerSize;
btSingle, bts32, btU32: FRealSize := 4;
btProcPtr: FRealSize := 2 * sizeof(Pointer) + sizeof(Cardinal);
btCurrency: FrealSize := Sizeof(Currency);
btPointer: FRealSize := 2 * sizeof(Pointer) + sizeof(LongBool); // ptr, type, freewhendone
btDouble{$IFNDEF PS_NOINT64}, bts64{$ENDIF}: FrealSize := 8;
btExtended: FrealSize := SizeOf(Extended);
btReturnAddress: FrealSize := Sizeof(TBTReturnAddress);
else
FrealSize := 0;
end;
end;
constructor TPSTypeRec.Create(Owner: TPSExec);
begin
inherited Create;
FAttributes := TPSRuntimeAttributes.Create(Owner);
end;
destructor TPSTypeRec.Destroy;
begin
FAttributes.Free;
inherited destroy;
end;
{ TPSTypeRec_Record }
procedure TPSTypeRec_Record.CalcSize;
begin
inherited;
FrealSize := TPSTypeRec(FFieldTypes[FFieldTypes.Count-1]).RealSize +
IPointer(RealFieldOffsets[RealFieldOffsets.Count -1]);
end;
constructor TPSTypeRec_Record.Create(Owner: TPSExec);
begin
inherited Create(Owner);
FRealFieldOffsets := TPSList.Create;
FFieldTypes := TPSList.Create;
end;
destructor TPSTypeRec_Record.Destroy;
begin
FFieldTypes.Free;
FRealFieldOffsets.Free;
inherited Destroy;
end;
const
RTTISize = sizeof(TPSVariant);
procedure InitializeVariant(p: Pointer; aType: TPSTypeRec);
var
t: TPSTypeRec;
i: Longint;
begin
case aType.BaseType of
btChar, bts8, btU8: tbtu8(p^) := 0;
{$IFNDEF PS_NOWIDESTRING}btWideChar, {$ENDIF}bts16, btU16: tbtu16(p^) := 0;
btSingle: TbtSingle(P^) := 0;
bts32, btU32: TbtU32(P^) := 0;
btPChar, btString, {$IFNDEF PS_NOWIDESTRING}btUnicodeString, btWideString, {$ENDIF}btClass,
btInterface, btArray: Pointer(P^) := nil;
btPointer:
begin
Pointer(p^) := nil;
Pointer(Pointer(IPointer(p)+PointerSize)^) := nil;
Pointer(Pointer(IPointer(p)+(2*PointerSize))^) := nil;
end;
btProcPtr:
begin
Longint(p^) := 0;
Pointer(Pointer(IPointer(p)+PointerSize)^) := nil;
Pointer(Pointer(IPointer(p)+(2*PointerSize))^) := nil;
end;
btCurrency: tbtCurrency(P^) := 0;
btDouble{$IFNDEF PS_NOINT64}, bts64{$ENDIF}: {$IFNDEF PS_NOINT64}tbtS64(P^) := 0{$ELSE}tbtdouble(p^) := 0 {$ENDIF};
btExtended: tbtExtended(p^) := 0;
btVariant: Initialize(Variant(p^));
btReturnAddress:; // there is no point in initializing a return address
btRecord:
begin
for i := 0 to TPSTypeRec_Record(aType).FFieldTypes.Count -1 do
begin
t := TPSTypeRec_Record(aType).FieldTypes[i];
InitializeVariant(P, t);
p := Pointer(IPointer(p) + t.FrealSize);
end;
end;
btStaticArray:
begin
t := TPSTypeRec_Array(aType).ArrayType;
for i := 0 to TPSTypeRec_StaticArray(aType).Size -1 do
begin
InitializeVariant(p, t);
p := Pointer(IPointer(p) + t.RealSize);
end;
end;
btSet:
begin
FillChar(p^, TPSTypeRec_Set(aType).RealSize, 0);
end;
end;
end;
procedure DestroyHeapVariant2(v: Pointer; aType: TPSTypeRec); forward;
const
NeedFinalization = [btStaticArray, btRecord, btArray, btPointer, btVariant {$IFNDEF PS_NOINTERFACES}, btInterface{$ENDIF}, btString {$IFNDEF PS_NOWIDESTRING}, btUnicodestring,btWideString{$ENDIF}];
type
TDynArrayRecHeader = packed record
{$ifdef FPC}
refCnt : ptrint;
high : tdynarrayindex;
{$else}
{$ifdef CPUX64}
_Padding: LongInt; // Delphi XE2+ expects 16 byte align
{$endif}
/// dynamic array reference count (basic garbage memory mechanism)
refCnt: Longint;
/// length in element count
// - size in bytes = length*ElemSize
length: NativeInt;
{$endif}
end;
TDynArrayRec = packed record
header : TDynArrayRecHeader;
datas : pointer;
end;
PDynArrayRec = ^TDynArrayRec;
procedure FinalizeVariant(p: Pointer; aType: TPSTypeRec);
var
t: TPSTypeRec;
elsize: Cardinal;
i, l: Longint;
darr: PDynArrayRec;
begin
case aType.BaseType of
btString: tbtString(p^) := '';
{$IFNDEF PS_NOWIDESTRING}
btWideString: tbtwidestring(p^) := '';
btUnicodeString: tbtunicodestring(p^) := '';
{$ENDIF}
{$IFNDEF PS_NOINTERFACES}btInterface:
begin
{$IFNDEF DELPHI3UP}
if IUnknown(p^) <> nil then
IUnknown(p^).Release;
{$ENDIF}
IUnknown(p^) := nil;
end; {$ENDIF}
btVariant:
begin
try
Finalize(Variant(p^));
except
end;
end;
btPointer:
if Pointer(Pointer(IPointer(p)+PointerSize2)^) <> nil then
begin
DestroyHeapVariant2(Pointer(p^), Pointer(Pointer(IPointer(p)+PointerSize)^));
Pointer(p^) := nil;
end;
btArray:
begin
if IPointer(P^) = 0 then exit;
darr := PDynArrayRec(IPointer(p^) - sizeof(TDynArrayRecHeader));
if darr^.header.refCnt < 0 then exit;// refcount < 0 means don't free
Dec(darr^.header.refCnt);
if darr^.header.refCnt <> 0 then exit;
t := TPSTypeRec_Array(aType).ArrayType;
elsize := t.RealSize;
{$IFDEF FPC}
l := darr^.header.high + 1;
{$ELSE}
l := darr^.header.length;
{$ENDIF FPC}
darr := @darr^.datas;
case t.BaseType of
btString, {$IFNDEF PS_NOWIDESTRING}
btUnicodeString, btWideString, {$ENDIF}{$IFNDEF PS_NOINTERFACES}btInterface, {$ENDIF}btArray, btStaticArray,
btRecord, btPointer, btVariant:
begin
for i := 0 to l -1 do
begin
FinalizeVariant(darr, t);
darr := Pointer(IPointer(darr) + elsize);
end;
end;
end;
FreeMem(Pointer(IPointer(p^) - SizeOf(TDynArrayRecHeader)), IPointer(Cardinal(l) * elsize) + SizeOf(TDynArrayRecHeader));
Pointer(P^) := nil;
end;
btRecord:
begin
for i := 0 to TPSTypeRec_Record(aType).FFieldTypes.Count -1 do
begin
t := TPSTypeRec_Record(aType).FieldTypes[i];
case t.BaseType of
btString, {$IFNDEF PS_NOWIDESTRING}btUnicodeString, btWideString, {$ENDIF}{$IFNDEF PS_NOINTERFACES}btInterface, {$ENDIF}btArray, btStaticArray,
btRecord: FinalizeVariant(p, t);
end;
p := Pointer(IPointer(p) + t.FrealSize);
end;
end;
btStaticArray:
begin
t := TPSTypeRec_Array(aType).ArrayType;
case t.BaseType of
btString, {$IFNDEF PS_NOWIDESTRING}btUnicodeString, btWideString, {$ENDIF}{$IFNDEF PS_NOINTERFACES}btInterface, {$ENDIF}btArray, btStaticArray,
btRecord: ;
else Exit;
end;
for i := 0 to TPSTypeRec_StaticArray(aType).Size -1 do
begin
FinalizeVariant(p, t);
p := Pointer(IPointer(p) + t.RealSize);
end;
end;
end;
end;
function CreateHeapVariant2(aType: TPSTypeRec): Pointer;
begin
GetMem(Result, aType.RealSize);
InitializeVariant(Result, aType);
end;
procedure DestroyHeapVariant2(v: Pointer; aType: TPSTypeRec);
begin
if v = nil then exit;
if atype.BaseType in NeedFinalization then
FinalizeVariant(v, aType);
FreeMem(v, aType.RealSize);
end;
function CreateHeapVariant(aType: TPSTypeRec): PPSVariant;
var
aSize: Longint;
begin
aSize := aType.RealSize + RTTISize;
GetMem(Result, aSize);
Result.FType := aType;
InitializeVariant(Pointer(IPointer(Result)+PointerSize), aType);
end;
procedure DestroyHeapVariant(v: PPSVariant);
begin
if v = nil then exit;
if v.FType.BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(v)+PointerSize), v.FType);
FreeMem(v, v.FType.RealSize + RTTISize);
end;
procedure FreePSVariantList(l: TPSList);
var
i: Longint;
begin
for i:= l.count -1 downto 0 do
DestroyHeapVariant(l[i]);
l.free;
end;
procedure FreePIFVariantList(l: TPSList);
begin
FreePsVariantList(l);
end;
{ TPSExec }
procedure TPSExec.ClearFunctionList;
var
x: PProcRec;
l: Longint;
begin
for l := FAttributeTypes.Count -1 downto 0 do
begin
TPSAttributeType(FAttributeTypes.Data^[l]).Free;
end;
FAttributeTypes.Clear;
for l := 0 to FRegProcs.Count - 1 do
begin
x := FRegProcs.Data^[l];
if @x^.FreeProc <> nil then x^.FreeProc(Self, x);
Dispose(x);
end;
FRegProcs.Clear;
RegisterStandardProcs;
end;
class function TPSExec.About: tbtString;
begin
Result := 'RemObjects Pascal Script. Copyright (c) 2004-2010 by RemObjects Software';
end;
procedure TPSExec.Cleanup;
var
I: Longint;
p: Pointer;
begin
if FStatus <> isLoaded then
exit;
FStack.Clear;
FTempVars.Clear;
for I := Longint(FGlobalVars.Count) - 1 downto 0 do
begin
p := FGlobalVars.Items[i];
if PIFTypeRec(P^).BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(p)+PointerSize), Pointer(P^));
InitializeVariant(Pointer(IPointer(p)+PointerSize), Pointer(P^));
end;
end;
procedure TPSExec.Clear;
var
I: Longint;
temp: PPSResource;
Proc: TPSResourceFreeProc;
pp: TPSExceptionHandler;
begin
for i := Longint(FExceptionStack.Count) -1 downto 0 do
begin
pp := FExceptionStack.Data^[i];
pp.Free;
end;
for i := Longint(FResources.Count) -1 downto 0 do
begin
Temp := FResources.Data^[i];
Proc := Temp^.Proc;
Proc(Self, Temp^.P);
Dispose(Temp);
end;
for i := Longint(FExportedVars.Count) -1 downto 0 do
Dispose(PPSExportedVar(FExportedVars.Data^[I]));
for I := Longint(FProcs.Count) - 1downto 0 do
TPSProcRec(FProcs.Data^[i]).Destroy;
FProcs.Clear;
FGlobalVars.Clear;
FStack.Clear;
for I := Longint(FTypes.Count) - 1downto 0 do
TPSTypeRec(FTypes.Data^[i]).Free;
FTypes.Clear;
FStatus := isNotLoaded;
FResources.Clear;
FExportedVars.Clear;
FExceptionStack.Clear;
FCurrStackBase := InvalidVal;
end;
constructor TPSExec.Create;
begin
inherited Create;
FAttributeTypes := TPSList.Create;
FExceptionStack := TPSList.Create;
FCallCleanup := False;
FResources := TPSList.Create;
FTypes := TPSList.Create;
FProcs := TPSList.Create;
FGlobalVars := TPSStack.Create;
FTempVars := TPSStack.Create;
FMainProc := 0;
FStatus := isNotLoaded;
FRegProcs := TPSList.Create;
FExportedVars := TPSList.create;
FSpecialProcList := TPSList.Create;
RegisterStandardProcs;
FReturnAddressType := TPSTypeRec.Create(self);
FReturnAddressType.BaseType := btReturnAddress;
FReturnAddressType.CalcSize;
FVariantType := TPSTypeRec.Create(self);
FVariantType.BaseType := btVariant;
FVariantType.CalcSize;
FVariantArrayType := TPSTypeRec_Array.Create(self);
FVariantArrayType.BaseType := btArray;
FVariantArrayType.CalcSize;
TPSTypeRec_Array(FVariantArrayType).ArrayType := FVariantType;
FStack := TPSStack.Create;
end;
destructor TPSExec.Destroy;
var
I: Longint;
x: PProcRec;
P: PSpecialProc;
begin
Clear;
FReturnAddressType.Free;
FVariantType.Free;
FVariantArrayType.Free;
if ExObject <> nil then ExObject.Free;
for I := FSpecialProcList.Count -1 downto 0 do
begin
P := FSpecialProcList.Data^[I];
Dispose(p);
end;
FResources.Free;
FExportedVars.Free;
FTempVars.Free;
FStack.Free;
FGlobalVars.Free;
FProcs.Free;
FTypes.Free;
FSpecialProcList.Free;
for i := FRegProcs.Count - 1 downto 0 do
begin
x := FRegProcs.Data^[i];
if @x^.FreeProc <> nil then x^.FreeProc(Self, x);
Dispose(x);
end;
FRegProcs.Free;
FExceptionStack.Free;
for i := FAttributeTypes.Count -1 downto 0 do
begin
TPSAttributeType(FAttributeTypes[i]).Free;
end;
FAttributeTypes.Free;
inherited Destroy;
end;
procedure TPSExec.ExceptionProc(proc, Position: Cardinal; Ex: TPSError; const s: tbtString; NewObject: TObject);
var
d, l: Longint;
pp: TPSExceptionHandler;
begin
ExProc := proc;
ExPos := Position;
ExEx := Ex;
ExParam := s;
if ExObject <> nil then
ExObject.Free;
ExObject := NewObject;
if Ex = eNoError then Exit;
for d := FExceptionStack.Count -1 downto 0 do
begin
pp := FExceptionStack[d];
if Cardinal(FStack.Count) > pp.StackSize then
begin
for l := Longint(FStack.count) -1 downto Longint(pp.StackSize) do
FStack.Pop;
end;
if pp.CurrProc = nil then // no point in continuing
begin
pp.Free;
FExceptionStack.DeleteLast;
FCurrStackBase := InvalidVal;
FStatus := isPaused;
exit;
end;
FCurrProc := pp.CurrProc;
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
FCurrStackBase := pp.BasePtr;
if pp.FinallyOffset <> InvalidVal then
begin
FCurrentPosition := pp.FinallyOffset;
pp.FinallyOffset := InvalidVal;
Exit;
end else if (pp.ExceptOffset <> InvalidVal) and (pp.ExceptOffset <> Cardinal(InvalidVal -1)) then
begin
FCurrentPosition := pp.ExceptOffset;
pp.ExceptOffset := Cardinal(InvalidVal -1);
pp.ExceptionObject := ExObject;
pp.ExceptionData := ExEx;
pp.ExceptionParam := ExParam;
ExObject := nil;
ExEx := ENoError;
Exit;
end else if pp.Finally2Offset <> InvalidVal then
begin
FCurrentPosition := pp.Finally2Offset;
pp.Finally2Offset := InvalidVal;
Exit;
end;
pp.Free;
FExceptionStack.DeleteLast;
end;
if FStatus <> isNotLoaded then
FStatus := isPaused;
end;
function LookupProc(List: TPSList; const Name: ShortString): PProcRec;
var
h, l: Longint;
p: PProcRec;
begin
h := MakeHash(Name);
for l := List.Count - 1 downto 0 do
begin
p := List.Data^[l];
if (p^.Hash = h) and (p^.Name = Name) then
begin
Result := List[l];
exit;
end;
end;
Result := nil;
end;
function TPSExec.ImportProc(const Name: ShortString; proc: TPSExternalProcRec): Boolean;
var
u: PProcRec;
fname: tbtString;
I, fnh: Longint;
P: PSpecialProc;
begin
if name = '' then
begin
fname := proc.Decl;
fname := copy(fname, 1, pos(tbtchar(':'), fname)-1);
fnh := MakeHash(fname);
for I := FSpecialProcList.Count -1 downto 0 do
begin
p := FSpecialProcList[I];
IF (p^.name = '') or ((p^.namehash = fnh) and (p^.name = fname)) then
begin
if p^.P(Self, Proc, p^.tag) then
begin
Result := True;
exit;
end;
end;
end;
Result := FAlse;
exit;
end;
u := LookupProc(FRegProcs, Name);
if u = nil then begin
Result := False;
exit;
end;
proc.ProcPtr := u^.ProcPtr;
proc.Ext1 := u^.Ext1;
proc.Ext2 := u^.Ext2;
Result := True;
end;
function TPSExec.RegisterFunctionName(const Name: tbtString; ProcPtr: TPSProcPtr; Ext1, Ext2: Pointer): PProcRec;
var
p: PProcRec;
s: tbtString;
begin
s := FastUppercase(Name);
New(p);
p^.Name := s;
p^.Hash := MakeHash(s);
p^.ProcPtr := ProcPtr;
p^.FreeProc := nil;
p.Ext1 := Ext1;
p^.Ext2 := Ext2;
FRegProcs.Add(p);
Result := P;
end;
function TPSExec.LoadData(const s: tbtString): Boolean;
var
HDR: TPSHeader;
Pos: Cardinal;
function read(var Data; Len: Cardinal): Boolean;
begin
if Longint(Pos + Len) <= Length(s) then begin
Move(s[Pos + 1], Data, Len);
Pos := Pos + Len;
read := True;
end
else
read := False;
end;
function ReadAttributes(Dest: TPSRuntimeAttributes): Boolean;
var
Count: Cardinal;
i: Integer;
function ReadAttrib: Boolean;
var
NameLen: Longint;
Name: tbtString;
TypeNo: Cardinal;
i, h, FieldCount: Longint;
att: TPSRuntimeAttribute;
varp: PIFVariant;
begin
if (not Read(NameLen, 4)) or (NameLen > Length(s) - Longint(Pos)) then
begin
CMD_Err(ErOutOfRange);
Result := false;
exit;
end;
SetLength(Name, NameLen);
if not Read(Name[1], NameLen) then
begin
CMD_Err(ErOutOfRange);
Result := false;
exit;
end;
if not Read(FieldCount, 4) then
begin
CMD_Err(ErOutOfRange);
Result := false;
exit;
end;
att := Dest.Add;
att.AttribType := Name;
att.AttribTypeHash := MakeHash(att.AttribType);
for i := 0 to FieldCount -1 do
begin
if (not Read(TypeNo, 4)) or (TypeNo >= Cardinal(FTypes.Count)) then
begin
CMD_Err(ErOutOfRange);
Result := false;
exit;
end;
varp := att.AddValue(FTypes[TypeNo]);
case VarP^.FType.BaseType of
btSet:
begin
if not read(PPSVariantSet(varp).Data, TPSTypeRec_Set(varp.FType).aByteSize) then
begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
end;
bts8, btchar, btU8: if not read(PPSVariantU8(VarP)^.data, 1) then
begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
bts16, {$IFNDEF PS_NOWIDESTRING}btwidechar,{$ENDIF} btU16: if not read(PPSVariantU16(Varp)^.Data, SizeOf(TbtU16)) then begin
CMD_Err(ErOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
bts32, btU32:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
PPSVariantU32(varp)^.Data := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
PPSVariantU32(varp)^.Data := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
end;
btProcPtr:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
PPSVariantU32(varp)^.Data := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
PPSVariantU32(varp)^.Data := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
if PPSVariantU32(varp)^.Data = 0 then
begin
PPSVariantProcPtr(varp)^.Ptr := nil;
PPSVariantProcPtr(varp)^.Self := nil;
end;
Inc(FCurrentPosition, 4);
end;
{$IFNDEF PS_NOINT64}
bts64: if not read(PPSVariantS64(VarP)^.Data, sizeof(tbts64)) then
begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
{$ENDIF}
btSingle: if not read(PPSVariantSingle(VarP)^.Data, SizeOf(TbtSingle))
then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
btDouble: if not read(PPSVariantDouble(varp)^.Data, SizeOf(TbtDouble))
then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
btExtended: if not read(PPSVariantExtended(varp)^.Data, SizeOf(TbtExtended))
then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
btCurrency: if not read(PPSVariantExtended(varp)^.Data, SizeOf(tbtCurrency))
then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
btPchar, btString:
begin
if not read(NameLen, 4) then
begin
Cmd_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
Inc(FCurrentPosition, 4);
SetLength(PPSVariantAString(varp)^.Data, NameLen);
if not read(PPSVariantAString(varp)^.Data[1], NameLen) then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
end;
{$IFNDEF PS_NOWIDESTRING}
btWidestring:
begin
if not read(NameLen, 4) then
begin
Cmd_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
Inc(FCurrentPosition, 4);
SetLength(PPSVariantWString(varp).Data, NameLen);
if not read(PPSVariantWString(varp).Data[1], NameLen*2) then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
end;
btUnicodeString:
begin
if not read(NameLen, 4) then
begin
Cmd_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
Inc(FCurrentPosition, 4);
SetLength(PPSVariantUString(varp).Data, NameLen);
if not read(PPSVariantUString(varp).Data[1], NameLen*2) then begin
CMD_Err(erOutOfRange);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
end;
{$ENDIF}
else begin
CMD_Err(erInvalidType);
DestroyHeapVariant(VarP);
Result := False;
exit;
end;
end;
end;
h := MakeHash(att.AttribType);
for i := FAttributeTypes.Count -1 downto 0 do
begin
if (TPSAttributeType(FAttributeTypes.Data^[i]).TypeNameHash = h) and
(TPSAttributeType(FAttributeTypes.Data^[i]).TypeName = att.AttribType) then
begin
if not TPSAttributeType(FAttributeTypes.Data^[i]).UseProc(Self, att.AttribType, Att) then
begin
Result := False;
exit;
end;
end;
end;
Result := True;
end;
begin
if not Read(Count, 4) then
begin
CMD_Err(erOutofRange);
Result := false;
exit;
end;
for i := 0 to Count -1 do
begin
if not ReadAttrib then
begin
Result := false;
exit;
end;
end;
Result := True;
end;
{$WARNINGS OFF}
function LoadTypes: Boolean;
var
currf: TPSType;
Curr: PIFTypeRec;
fe: Boolean;
l2, l: Longint;
d: Cardinal;
function resolve(Dta: TPSTypeRec_Record): Boolean;
var
offs, l: Longint;
begin
offs := 0;
for l := 0 to Dta.FieldTypes.Count -1 do
begin
Dta.RealFieldOffsets.Add(Pointer(offs));
offs := offs + TPSTypeRec(Dta.FieldTypes[l]).RealSize;
end;
Result := True;
end;
begin
LoadTypes := True;
for l := 0 to HDR.TypeCount - 1 do begin
if not read(currf, SizeOf(currf)) then begin
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if (currf.BaseType and 128) <> 0 then begin
fe := True;
currf.BaseType := currf.BaseType - 128;
end else
fe := False;
case currf.BaseType of
{$IFNDEF PS_NOINT64}bts64, {$ENDIF}
btU8, btS8, btU16, btS16, btU32, btS32, btSingle, btDouble, btCurrency,
btExtended, btString, btPointer, btPChar,
btVariant, btChar{$IFNDEF PS_NOWIDESTRING}, btUnicodeString, btWideString, btWideChar{$ENDIF}: begin
curr := TPSTypeRec.Create(self);
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
btClass:
begin
Curr := TPSTypeRec_Class.Create(self);
if (not Read(d, 4)) or (d > 255) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
setlength(TPSTypeRec_Class(Curr).FCN, d);
if not Read(TPSTypeRec_Class(Curr).FCN[1], d) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
btProcPtr:
begin
Curr := TPSTypeRec_ProcPtr.Create(self);
if (not Read(d, 4)) or (d > 255) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
setlength(TPSTypeRec_ProcPtr(Curr).FParamInfo, d);
if not Read(TPSTypeRec_ProcPtr(Curr).FParamInfo[1], d) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
{$IFNDEF PS_NOINTERFACES}
btInterface:
begin
Curr := TPSTypeRec_Interface.Create(self);
if not Read(TPSTypeRec_Interface(Curr).FGUID, Sizeof(TGuid)) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
{$ENDIF}
btSet:
begin
Curr := TPSTypeRec_Set.Create(self);
if not Read(d, 4) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if (d > 256) then
begin
curr.Free;
cmd_err(erTypeMismatch);
LoadTypes := False;
exit;
end;
TPSTypeRec_Set(curr).aBitSize := d;
TPSTypeRec_Set(curr).aByteSize := TPSTypeRec_Set(curr).aBitSize shr 3;
if (TPSTypeRec_Set(curr).aBitSize and 7) <> 0 then inc(TPSTypeRec_Set(curr).fbytesize);
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
btStaticArray:
begin
curr := TPSTypeRec_StaticArray.Create(self);
if not Read(d, 4) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if (d >= FTypes.Count) then
begin
curr.Free;
cmd_err(erTypeMismatch);
LoadTypes := False;
exit;
end;
TPSTypeRec_StaticArray(curr).ArrayType := FTypes[d];
if not Read(d, 4) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if d > (MaxInt div 4) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
TPSTypeRec_StaticArray(curr).Size := d;
if not Read(d,4) then //<-additional StartOffset
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes:=false;
Exit;
end;
TPSTypeRec_StaticArray(curr).StartOffset:=d;
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
btArray: begin
Curr := TPSTypeRec_Array.Create(self);
if not read(d, 4) then
begin // Read type
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if (d >= FTypes.Count) then
begin
curr.Free;
cmd_err(erTypeMismatch);
LoadTypes := False;
exit;
end;
Curr.BaseType := currf.BaseType;
TPSTypeRec_Array(curr).ArrayType := FTypes[d];
FTypes.Add(Curr);
end;
btRecord:
begin
curr := TPSTypeRec_Record.Create(self);
if not read(d, 4) or (d = 0) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := false;
exit;
end;
while d > 0 do
begin
if not Read(l2, 4) then
begin
curr.Free;
cmd_err(erUnexpectedEof);
LoadTypes := false;
exit;
end;
if Cardinal(l2) >= FTypes.Count then
begin
curr.Free;
cmd_err(ErOutOfRange);
LoadTypes := false;
exit;
end;
TPSTypeRec_Record(curR).FFieldTypes.Add(FTypes[l2]);
Dec(D);
end;
if not resolve(TPSTypeRec_Record(curr)) then
begin
curr.Free;
cmd_err(erInvalidType);
LoadTypes := False;
exit;
end;
Curr.BaseType := currf.BaseType;
FTypes.Add(Curr);
end;
else begin
LoadTypes := False;
CMD_Err(erInvalidType);
exit;
end;
end;
if fe then begin
if not read(d, 4) then begin
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
if d > PSAddrNegativeStackStart then
begin
cmd_err(erInvalidType);
LoadTypes := False;
exit;
end;
SetLength(Curr.FExportName, d);
if not read(Curr.fExportName[1], d) then
begin
cmd_err(erUnexpectedEof);
LoadTypes := False;
exit;
end;
Curr.ExportNameHash := MakeHash(Curr.ExportName);
end;
curr.CalcSize;
if HDR.PSBuildNo >= 21 then // since build 21 we support attributes
begin
if not ReadAttributes(Curr.Attributes) then
begin
LoadTypes := False;
exit;
end;
end;
end;
end;
function LoadProcs: Boolean;
var
Rec: TPSProc;
n: tbtString;
b: Byte;
l, L2, L3: Longint;
Curr: TPSProcRec;
begin
LoadProcs := True;
for l := 0 to HDR.ProcCount - 1 do begin
if not read(Rec, SizeOf(Rec)) then begin
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if (Rec.Flags and 1) <> 0 then
begin
Curr := TPSExternalProcRec.Create(Self);
if not read(b, 1) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
SetLength(n, b);
if not read(n[1], b) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
TPSExternalProcRec(Curr).Name := n;
if (Rec.Flags and 3 = 3) then
begin
if (not Read(L2, 4)) or (L2 > Length(s) - Pos) then
begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
SetLength(n, L2);
Read(n[1], L2); // no check is needed
TPSExternalProcRec(Curr).FDecl := n;
end;
if not ImportProc(TPSExternalProcRec(Curr).Name, TPSExternalProcRec(Curr)) then begin
if TPSExternalProcRec(Curr).Name <> '' then
CMD_Err2(erCannotImport, TPSExternalProcRec(Curr).Name)
else
CMD_Err2(erCannotImport, TPSExternalProcRec(curr).Decl);
Curr.Free;
LoadProcs := False;
exit;
end;
end else begin
Curr := TPSInternalProcRec.Create(Self);
if not read(L2, 4) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if not read(L3, 4) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if (L2 < 0) or (L2 >= Length(s)) or (L2 + L3 > Length(s)) or (L3 = 0) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
GetMem(TPSInternalProcRec(Curr).FData, L3);
Move(s[L2 + 1], TPSInternalProcRec(Curr).FData^, L3);
TPSInternalProcRec(Curr).FLength := L3;
if (Rec.Flags and 2) <> 0 then begin // exported
if not read(L3, 4) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if L3 > PSAddrNegativeStackStart then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
SetLength(TPSInternalProcRec(Curr).FExportName, L3);
if not read(TPSInternalProcRec(Curr).FExportName[1], L3) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if not read(L3, 4) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
if L3 > PSAddrNegativeStackStart then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
SetLength(TPSInternalProcRec(Curr).FExportDecl, L3);
if not read(TPSInternalProcRec(Curr).FExportDecl[1], L3) then begin
Curr.Free;
cmd_err(erUnexpectedEof);
LoadProcs := False;
exit;
end;
TPSInternalProcRec(Curr).FExportNameHash := MakeHash(TPSInternalProcRec(Curr).ExportName);
end;
end;
if (Rec.Flags and 4) <> 0 then
begin
if not ReadAttributes(Curr.Attributes) then
begin
Curr.Free;
LoadProcs := False;
exit;
end;
end;
FProcs.Add(Curr);
end;
end;
{$WARNINGS ON}
function LoadVars: Boolean;
var
l, n: Longint;
e: PPSExportedVar;
Rec: TPSVar;
Curr: PIfVariant;
begin
LoadVars := True;
for l := 0 to HDR.VarCount - 1 do begin
if not read(Rec, SizeOf(Rec)) then begin
cmd_err(erUnexpectedEof);
LoadVars := False;
exit;
end;
if Rec.TypeNo >= HDR.TypeCount then begin
cmd_err(erInvalidType);
LoadVars := False;
exit;
end;
Curr := FGlobalVars.PushType(FTypes.Data^[Rec.TypeNo]);
if Curr = nil then begin
cmd_err(erInvalidType);
LoadVars := False;
exit;
end;
if (Rec.Flags and 1) <> 0 then
begin
if not read(n, 4) then begin
cmd_err(erUnexpectedEof);
LoadVars := False;
exit;
end;
new(e);
try
SetLength(e^.FName, n);
if not Read(e^.FName[1], n) then
begin
dispose(e);
cmd_err(erUnexpectedEof);
LoadVars := False;
exit;
end;
e^.FNameHash := MakeHash(e^.FName);
e^.FVarNo := FGlobalVars.Count;
FExportedVars.Add(E);
except
dispose(e);
cmd_err(erInvalidType);
LoadVars := False;
exit;
end;
end;
end;
end;
begin
Clear;
Pos := 0;
LoadData := False;
if not read(HDR, SizeOf(HDR)) then
begin
CMD_Err(erInvalidHeader);
exit;
end;
if HDR.HDR <> PSValidHeader then
begin
CMD_Err(erInvalidHeader);
exit;
end;
if (HDR.PSBuildNo > PSCurrentBuildNo) or (HDR.PSBuildNo < PSLowBuildSupport) then begin
CMD_Err(erInvalidHeader);
exit;
end;
if not LoadTypes then
begin
Clear;
exit;
end;
if not LoadProcs then
begin
Clear;
exit;
end;
if not LoadVars then
begin
Clear;
exit;
end;
if (HDR.MainProcNo >= FProcs.Count) and (HDR.MainProcNo <> InvalidVal)then begin
CMD_Err(erNoMainProc);
Clear;
exit;
end;
// Load Import Table
FMainProc := HDR.MainProcNo;
FStatus := isLoaded;
Result := True;
end;
procedure TPSExec.Pause;
begin
if FStatus = isRunning then
FStatus := isPaused;
end;
function TPSExec.ReadData(var Data; Len: Cardinal): Boolean;
begin
if FCurrentPosition + Len <= FDataLength then begin
Move(FData^[FCurrentPosition], Data, Len);
FCurrentPosition := FCurrentPosition + Len;
Result := True;
end
else
Result := False;
end;
procedure TPSExec.CMD_Err(EC: TPSError); // Error
begin
CMD_Err3(ec, '', nil);
end;
procedure VNSetPointerTo(const Src: TPSVariantIFC; Data: Pointer; aType: TPSTypeRec);
begin
if Src.aType.BaseType = btPointer then
begin
if atype.BaseType in NeedFinalization then
FinalizeVariant(src.Dta, Src.aType);
Pointer(Src.Dta^) := Data;
Pointer(Pointer(IPointer(Src.Dta)+PointerSize)^) := aType;
Pointer(Pointer(IPointer(Src.Dta)+(2*PointerSize))^) := nil;
end;
end;
function VNGetUInt(const Src: TPSVariantIFC): Cardinal;
begin
Result := PSGetUInt(Src.Dta, Src.aType);
end;
{$IFNDEF PS_NOINT64}
function VNGetInt64(const Src: TPSVariantIFC): Int64;
begin
Result := PSGetInt64(Src.Dta, Src.aType);
end;
{$ENDIF}
function VNGetReal(const Src: TPSVariantIFC): Extended;
begin
Result := PSGetReal(Src.Dta, Src.aType);
end;
function VNGetCurrency(const Src: TPSVariantIFC): Currency;
begin
Result := PSGetCurrency(Src.Dta, Src.aType);
end;
function VNGetInt(const Src: TPSVariantIFC): Longint;
begin
Result := PSGetInt(Src.Dta, Src.aType);
end;
function VNGetAnsiString(const Src: TPSVariantIFC): tbtString;
begin
Result := PSGetAnsiString(Src.Dta, Src.aType);
end;
{$IFNDEF PS_NOWIDESTRING}
function VNGetWideString(const Src: TPSVariantIFC): tbtWideString;
begin
Result := PSGetWideString(Src.Dta, Src.aType);
end;
function VNGetUnicodeString(const Src: TPSVariantIFC): tbtunicodestring;
begin
Result := PSGetUnicodeString(Src.Dta, Src.aType);
end;
{$ENDIF}
procedure VNSetUInt(const Src: TPSVariantIFC; const Val: Cardinal);
var
Dummy: Boolean;
begin
PSSetUInt(Src.Dta, Src.aType, Dummy, Val);
end;
{$IFNDEF PS_NOINT64}
procedure VNSetInt64(const Src: TPSVariantIFC; const Val: Int64);
var
Dummy: Boolean;
begin
PSSetInt64(Src.Dta, Src.aType, Dummy, Val);
end;
{$ENDIF}
procedure VNSetReal(const Src: TPSVariantIFC; const Val: Extended);
var
Dummy: Boolean;
begin
PSSetReal(Src.Dta, Src.aType, Dummy, Val);
end;
procedure VNSetCurrency(const Src: TPSVariantIFC; const Val: Currency);
var
Dummy: Boolean;
begin
PSSetCurrency(Src.Dta, Src.aType, Dummy, Val);
end;
procedure VNSetInt(const Src: TPSVariantIFC; const Val: Longint);
var
Dummy: Boolean;
begin
PSSetInt(Src.Dta, Src.aType, Dummy, Val);
end;
procedure VNSetAnsiString(const Src: TPSVariantIFC; const Val: tbtString);
var
Dummy: Boolean;
begin
PSSetAnsiString(Src.Dta, Src.aType, Dummy, Val);
end;
function VNGetString(const Src: TPSVariantIFC): String;
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
Result := VNGetUnicodeString(Src);
{$ELSE}
Result := VNGetAnsiString(Src);
{$ENDIF}
{$ELSE}
Result := VNGetAnsiString(Src);
{$ENDIF}
end;
procedure VNSetString(const Src: TPSVariantIFC; const Val: String);
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
VNSetUnicodeString(Src, Val);
{$ELSE}
VNSetAnsiString(Src, Val);
{$ENDIF}
{$ELSE}
VNSetAnsiString(Src, Val);
{$ENDIF}
end;
{$IFNDEF PS_NOWIDESTRING}
procedure VNSetWideString(const Src: TPSVariantIFC; const Val: tbtWideString);
var
Dummy: Boolean;
begin
PSSetWideString(Src.Dta, Src.aType, Dummy, Val);
end;
procedure VNSetUnicodeString(const Src: TPSVariantIFC; const Val: tbtunicodestring);
var
Dummy: Boolean;
begin
PSSetUnicodeString(Src.Dta, Src.aType, Dummy, Val);
end;
{$ENDIF}
function VGetUInt(const Src: PIFVariant): Cardinal;
begin
Result := PSGetUInt(@PPSVariantData(src).Data, src.FType);
end;
{$IFNDEF PS_NOINT64}
function VGetInt64(const Src: PIFVariant): Int64;
begin
Result := PSGetInt64(@PPSVariantData(src).Data, src.FType);
end;
{$ENDIF}
function VGetReal(const Src: PIFVariant): Extended;
begin
Result := PSGetReal(@PPSVariantData(src).Data, src.FType);
end;
function VGetCurrency(const Src: PIFVariant): Currency;
begin
Result := PSGetCurrency(@PPSVariantData(src).Data, src.FType);
end;
function VGetInt(const Src: PIFVariant): Longint;
begin
Result := PSGetInt(@PPSVariantData(src).Data, src.FType);
end;
function VGetAnsiString(const Src: PIFVariant): tbtString;
begin
Result := PSGetAnsiString(@PPSVariantData(src).Data, src.FType);
end;
{$IFNDEF PS_NOWIDESTRING}
function VGetWideString(const Src: PIFVariant): tbtWideString;
begin
Result := PSGetWideString(@PPSVariantData(src).Data, src.FType);
end;
function VGetUnicodeString(const Src: PIFVariant): tbtunicodestring;
begin
Result := PSGetUnicodeString(@PPSVariantData(src).Data, src.FType);
end;
{$ENDIF}
procedure VSetPointerTo(const Src: PIFVariant; Data: Pointer; aType: TPSTypeRec);
var
temp: TPSVariantIFC;
begin
if (Atype = nil) or (Data = nil) or (Src = nil) then raise Exception.Create(RPS_InvalidVariable);
temp.Dta := @PPSVariantData(Src).Data;
temp.aType := Src.FType;
temp.VarParam := false;
VNSetPointerTo(temp, Data, AType);
end;
procedure VSetUInt(const Src: PIFVariant; const Val: Cardinal);
var
Dummy: Boolean;
begin
PSSetUInt(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
{$IFNDEF PS_NOINT64}
procedure VSetInt64(const Src: PIFVariant; const Val: Int64);
var
Dummy: Boolean;
begin
PSSetInt64(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
{$ENDIF}
procedure VSetReal(const Src: PIFVariant; const Val: Extended);
var
Dummy: Boolean;
begin
PSSetReal(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
procedure VSetCurrency(const Src: PIFVariant; const Val: Currency);
var
Dummy: Boolean;
begin
PSSetCurrency(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
procedure VSetInt(const Src: PIFVariant; const Val: Longint);
var
Dummy: Boolean;
begin
PSSetInt(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
procedure VSetAnsiString(const Src: PIFVariant; const Val: tbtString);
var
Dummy: Boolean;
begin
PSSetAnsiString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
function VGetString(const Src: PIFVariant): String;
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
Result := PSGetUnicodeString(@PPSVariantData(src).Data, src.FType);
{$ELSE}
Result := PSGetAnsiString(@PPSVariantData(src).Data, src.FType);
{$ENDIF}
{$ELSE}
Result := PSGetAnsiString(@PPSVariantData(src).Data, src.FType);
{$ENDIF}
end;
procedure VSetString(const Src: PIFVariant; const Val: string);
var
Dummy: Boolean;
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
PSSetUnicodeString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
{$ELSE}
PSSetAnsiString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
{$ENDIF}
{$ELSE}
PSSetAnsiString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
{$ENDIF}
end;
{$IFNDEF PS_NOWIDESTRING}
procedure VSetWideString(const Src: PIFVariant; const Val: tbtWideString);
var
Dummy: Boolean;
begin
PSSetWideString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
procedure VSetUnicodeString(const Src: PIFVariant; const Val: tbtunicodestring);
var
Dummy: Boolean;
begin
PSSetUnicodeString(@PPSVariantData(src).Data, src.FType, Dummy, Val);
end;
{$ENDIF}
{$IFNDEF PS_NOWIDESTRING}
function VarToWideStr(const Data: Variant): tbtunicodestring;
begin
if not VarIsNull(Data) then
Result := Data
else
Result := '';
end;
{$ENDIF}
function PSGetUInt(Src: Pointer; aType: TPSTypeRec): Cardinal;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtu8(src^);
btS8: Result := tbts8(src^);
btU16: Result := tbtu16(src^);
btS16: Result := tbts16(src^);
btU32: Result := tbtu32(src^);
btS32: Result := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: Result := tbts64(src^);
{$ENDIF}
btChar: Result := Ord(tbtchar(Src^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: Result := Ord(tbtwidechar(Src^));{$ENDIF}
btVariant:
case VarType(Variant(Src^)) of
varString:
if Length(VarToStr(Variant(Src^))) = 1 then
Result := Ord(VarToStr(Variant(Src^))[1])
else
raise Exception.Create(RPS_TypeMismatch);
{$IFNDEF PS_NOWIDESTRING}
varOleStr:
if Length(VarToWideStr(Variant(Src^))) = 1 then
Result := Ord(VarToWideStr(Variant(Src^))[1])
else
raise Exception.Create(RPS_TypeMismatch);
{$ENDIF}
else
Result := Variant(src^);
end;
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
function PSGetObject(Src: Pointer; aType: TPSTypeRec): TObject;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btClass: Result := TObject(Src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
procedure PSSetObject(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; Const val: TObject);
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btClass: TObject(Src^) := Val;
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
function PSGetInt64(Src: Pointer; aType: TPSTypeRec): Int64;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtu8(src^);
btS8: Result := tbts8(src^);
btU16: Result := tbtu16(src^);
btS16: Result := tbts16(src^);
btU32: Result := tbtu32(src^);
btS32: Result := tbts32(src^);
btS64: Result := tbts64(src^);
btChar: Result := Ord(tbtchar(Src^));
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := Ord(tbtwidechar(Src^));
{$ENDIF}
{$IFDEF DELPHI6UP}
btVariant: Result := Variant(src^);
{$ENDIF}
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$ENDIF}
function PSGetReal(Src: Pointer; aType: TPSTypeRec): Extended;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtu8(src^);
btS8: Result := tbts8(src^);
btU16: Result := tbtu16(src^);
btS16: Result := tbts16(src^);
btU32: Result := tbtu32(src^);
btS32: Result := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: Result := tbts64(src^);{$ENDIF}
btSingle: Result := tbtsingle(Src^);
btDouble: Result := tbtdouble(Src^);
btExtended: Result := tbtextended(Src^);
btCurrency: Result := tbtcurrency(Src^);
btVariant: Result := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
function PSGetCurrency(Src: Pointer; aType: TPSTypeRec): Currency;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtu8(src^);
btS8: Result := tbts8(src^);
btU16: Result := tbtu16(src^);
btS16: Result := tbts16(src^);
btU32: Result := tbtu32(src^);
btS32: Result := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: Result := tbts64(src^);{$ENDIF}
btSingle: Result := tbtsingle(Src^);
btDouble: Result := tbtdouble(Src^);
btExtended: Result := tbtextended(Src^);
btCurrency: Result := tbtcurrency(Src^);
btVariant: Result := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
function PSGetInt(Src: Pointer; aType: TPSTypeRec): Longint;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtu8(src^);
btS8: Result := tbts8(src^);
btU16: Result := tbtu16(src^);
btS16: Result := tbts16(src^);
btU32: Result := tbtu32(src^);
btS32: Result := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: Result := tbts64(src^);{$ENDIF}
btChar: Result := Ord(tbtchar(Src^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: Result := Ord(tbtwidechar(Src^));{$ENDIF}
btVariant: Result := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
function PSGetAnsiString(Src: Pointer; aType: TPSTypeRec): tbtString;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := tbtchar(tbtu8(src^));
btChar: Result := tbtchar(Src^);
btPchar: Result := pansichar(src^);
{$IFNDEF PS_NOWIDESTRING} btWideChar: Result := tbtString(tbtwidechar(Src^));{$ENDIF}
btString: Result := tbtstring(src^);
{$IFNDEF PS_NOWIDESTRING}
btUnicodeString: result := tbtString(tbtUnicodestring(src^));
btWideString: Result := tbtString(tbtwidestring(src^));{$ENDIF}
btVariant: Result := tbtString(Variant(src^));
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOWIDESTRING}
function PSGetWideString(Src: Pointer; aType: TPSTypeRec): tbtWideString;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := chr(tbtu8(src^));
btU16: Result := widechar(src^);
btChar: Result := tbtwidestring(tbtchar(Src^));
btPchar: Result := tbtwidestring(pansichar(src^));
btWideChar: Result := tbtwidechar(Src^);
btString: Result := tbtwidestring(tbtstring(src^));
btWideString: Result := tbtwidestring(src^);
btVariant: Result := Variant(src^);
btUnicodeString: result := tbtUnicodeString(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
function PSGetUnicodeString(Src: Pointer; aType: TPSTypeRec): tbtunicodestring;
begin
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case aType.BaseType of
btU8: Result := chr(tbtu8(src^));
btU16: Result := widechar(src^);
btChar: Result := tbtunicodestring(tbtchar(Src^));
btPchar: Result := tbtunicodestring(pansichar(src^));
btWideChar: Result := tbtwidechar(Src^);
btString: Result := tbtunicodestring(tbtstring(src^));
btWideString: Result := tbtwidestring(src^);
btVariant: Result := Variant(src^);
btUnicodeString: result := tbtUnicodeString(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$ENDIF}
procedure PSSetUInt(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Cardinal);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btU8: tbtu8(src^) := Val;
btS8: tbts8(src^) := Val;
btU16: tbtu16(src^) := Val;
btS16: tbts16(src^) := Val;
btProcPtr:
begin
tbtu32(src^) := Val;
Pointer(Pointer(IPointer(Src)+PointerSize)^) := nil;
Pointer(Pointer(IPointer(Src)+PointerSize2)^) := nil;
end;
btU32: tbtu32(src^) := Val;
btS32: tbts32(src^) := Val;
{$IFNDEF PS_NOINT64} btS64: tbts64(src^) := Val;{$ENDIF}
btChar: tbtchar(Src^) := tbtChar(Val);
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtwidechar(Src^) := tbtwidechar(Val);{$ENDIF}
btSingle: tbtSingle(src^) := Val;
btDouble: tbtDouble(src^) := Val;
btCurrency: tbtCurrency(src^) := Val;
btExtended: tbtExtended(src^) := Val;
btVariant:
begin
try
Variant(src^) := {$IFDEF DELPHI6UP}val{$ELSE}tbts32(val){$ENDIF};
except
Ok := false;
end;
end;
else ok := false;
end;
end;
{$IFNDEF PS_NOINT64}
procedure PSSetInt64(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Int64);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btU8: tbtu8(src^) := Val;
btS8: tbts8(src^) := Val;
btU16: tbtu16(src^) := Val;
btS16: tbts16(src^) := Val;
btU32: tbtu32(src^) := Val;
btS32: tbts32(src^) := Val;
btS64: tbts64(src^) := Val;
btChar: tbtchar(Src^) := tbtChar(Val);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: tbtwidechar(Src^) := tbtwidechar(Val);
{$ENDIF}
btSingle: tbtSingle(src^) := Val;
btDouble: tbtDouble(src^) := Val;
btCurrency: tbtCurrency(src^) := Val;
btExtended: tbtExtended(src^) := Val;
{$IFDEF DELPHI6UP}
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
{$ENDIF}
else ok := false;
end;
end;
{$ENDIF}
procedure PSSetReal(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Extended);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btSingle: tbtSingle(src^) := Val;
btDouble: tbtDouble(src^) := Val;
btCurrency: tbtCurrency(src^) := Val;
btExtended: tbtExtended(src^) := Val;
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
procedure PSSetCurrency(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Currency);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btSingle: tbtSingle(src^) := Val;
btDouble: tbtDouble(src^) := Val;
btCurrency: tbtCurrency(src^) := Val;
btExtended: tbtExtended(src^) := Val;
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
procedure PSSetInt(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: Longint);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btU8: tbtu8(src^) := Val;
btS8: tbts8(src^) := Val;
btU16: tbtu16(src^) := Val;
btS16: tbts16(src^) := Val;
btProcPtr:
begin
tbtu32(src^) := Val;
Pointer(Pointer(IPointer(Src)+PointerSize)^) := nil;
Pointer(Pointer(IPointer(Src)+PointerSize2)^) := nil;
end;
btU32: tbtu32(src^) := Val;
btS32: tbts32(src^) := Val;
{$IFNDEF PS_NOINT64} btS64: tbts64(src^) := Val;{$ENDIF}
btChar: tbtchar(Src^) := tbtChar(Val);
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtwidechar(Src^) := tbtwidechar(Val);{$ENDIF}
btSingle: tbtSingle(src^) := Val;
btDouble: tbtDouble(src^) := Val;
btCurrency: tbtCurrency(src^) := Val;
btExtended: tbtExtended(src^) := Val;
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
procedure PSSetAnsiString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtString);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btString: tbtstring(src^) := val;
btChar: if AnsiString(val) <> '' then tbtchar(src^) := AnsiString(val)[1];
{$IFNDEF PS_NOWIDESTRING}
btUnicodeString: tbtunicodestring(src^) := tbtUnicodeString(AnsiString(val));
btWideString: tbtwidestring(src^) := tbtwidestring(AnsiString(val));
btWideChar: if AnsiString(val) <> '' then tbtwidechar(src^) := tbtwidechar(AnsiString(val)[1]);
{$ENDIF}
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
{$IFNDEF PS_NOWIDESTRING}
procedure PSSetWideString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtWideString);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btChar: if val <> '' then tbtchar(src^) := tbtChar(val[1]);
btWideChar: if val <> '' then tbtwidechar(src^) := val[1];
btString: tbtstring(src^) := tbtString(val);
btWideString: tbtwidestring(src^) := val;
btUnicodeString: tbtunicodestring(src^) := val;
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
procedure PSSetUnicodeString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: tbtunicodestring);
begin
if (Src = nil) or (aType = nil) then begin Ok := false; exit; end;
if aType.BaseType = btPointer then
begin
atype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (aType = nil) then begin Ok := false; exit; end;
end;
case aType.BaseType of
btString: tbtstring(src^) := tbtString(val);
btWideString: tbtwidestring(src^) := val;
btUnicodeString: tbtunicodestring(src^) := val;
btVariant:
begin
try
Variant(src^) := Val;
except
Ok := false;
end;
end;
else ok := false;
end;
end;
{$ENDIF}
function PSGetString(Src: Pointer; aType: TPSTypeRec): string;
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
result := PSGetUnicodeString(Src, aType);
{$ELSE}
result := PSGetAnsiString(Src, aType);
{$ENDIF}
{$ELSE}
result := PSGetAnsiString(Src, aType);
{$ENDIF}
end;
procedure PSSetString(Src: Pointer; aType: TPSTypeRec; var Ok: Boolean; const Val: String);
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
PSSetUnicodeString(Src, aType, Ok, Val);
{$ELSE}
PSSetAnsiString(Src, aType, Ok, Val);
{$ENDIF}
{$ELSE}
PSSetAnsiString(Src, aType, Ok, Val);
{$ENDIF}
end;
function CopyArrayContents(dest, src: Pointer; Len: Longint; aType: TPSTypeRec): Boolean; forward;
function CopyRecordContents(dest, src: Pointer; aType: TPSTypeRec_Record): Boolean;
var
o, i: Longint;
begin
for i := 0 to aType.FieldTypes.Count -1 do
begin
o := Longint(atype.RealFieldOffsets[i]);
CopyArrayContents(Pointer(IPointer(Dest)+Cardinal(o)), Pointer(IPointer(Src)+Cardinal(o)), 1, aType.FieldTypes[i]);
end;
Result := true;
end;
function CreateArrayFromVariant(Exec: TPSExec; dest: Pointer; src: Variant; DestType: TPSTypeRec): Boolean;
var
i: Integer;
r: Pointer;
lVarType: TPSTypeRec;
v: variant;
begin
lVarType := Exec.FindType2(btVariant);
if lVarType = nil then begin result := false; exit; end;
PSDynArraySetLength(Pointer(dest^), desttype, VarArrayHighBound(src, 1) - VarArrayLowBound(src, 1) + 1);
r := Pointer(Dest^);
DestType := TPSTypeRec_Array(DestType).ArrayType;
for i := 0 to VarArrayHighBound(src, 1) - VarArrayLowBound(src, 1) do begin
v := src[i + VarArrayLowBound(src, 1)];
if not Exec.SetVariantValue(r, @v, desttype, lVarType) then begin result := false; exit; end;
//r := Pointer(IPointer(r) + Longint(DestType.RealSize));
r := Pointer(IPointer(r) + DestType.RealSize);
end;
Result := true;
end;
function CopyArrayContents(dest, src: Pointer; Len: Longint; aType: TPSTypeRec): Boolean;
var
elsize: Cardinal;
i: Longint;
begin
try
case aType.BaseType of
btU8, btS8, btChar:
for i := 0 to Len -1 do
begin
tbtU8(Dest^) := tbtU8(Src^);
Dest := Pointer(IPointer(Dest) + 1);
Src := Pointer(IPointer(Src) + 1);
end;
btU16, btS16{$IFNDEF PS_NOWIDESTRING}, btWideChar{$ENDIF}:
for i := 0 to Len -1 do
begin
tbtU16(Dest^) := tbtU16(Src^);
Dest := Pointer(IPointer(Dest) + 2);
Src := Pointer(IPointer(Src) + 2);
end;
btProcPtr:
for i := 0 to Len -1 do
begin
tbtU32(Dest^) := tbtU32(Src^);
Dest := Pointer(IPointer(Dest) + 4);
Src := Pointer(IPointer(Src) + 4);
Pointer(Dest^) := Pointer(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
Pointer(Dest^) := Pointer(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
btClass, btpchar:
for i := 0 to Len -1 do
begin
Pointer(Dest^) := Pointer(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
btU32, btS32, btSingle:
for i := 0 to Len -1 do
begin
tbtU32(Dest^) := tbtU32(Src^);
Dest := Pointer(IPointer(Dest) + 4);
Src := Pointer(IPointer(Src) + 4);
end;
btDouble:
for i := 0 to Len -1 do
begin
tbtDouble(Dest^) := tbtDouble(Src^);
Dest := Pointer(IPointer(Dest) + 8);
Src := Pointer(IPointer(Src) + 8);
end;
{$IFNDEF PS_NOINT64}bts64:
for i := 0 to Len -1 do
begin
tbts64(Dest^) := tbts64(Src^);
Dest := Pointer(IPointer(Dest) + 8);
Src := Pointer(IPointer(Src) + 8);
end;{$ENDIF}
btExtended:
for i := 0 to Len -1 do
begin
tbtExtended(Dest^) := tbtExtended(Src^);
Dest := Pointer(IPointer(Dest) + SizeOf(Extended));
Src := Pointer(IPointer(Src) + SizeOf(Extended));
end;
btCurrency:
for i := 0 to Len -1 do
begin
tbtCurrency(Dest^) := tbtCurrency(Src^);
Dest := Pointer(IPointer(Dest) + SizeOf(Currency));
Src := Pointer(IPointer(Src) + SizeOf(Currency));
end;
btVariant:
for i := 0 to Len -1 do
begin
variant(Dest^) := variant(Src^);
Dest := Pointer(IPointer(Dest) + Sizeof(Variant));
Src := Pointer(IPointer(Src) + Sizeof(Variant));
end;
btString:
for i := 0 to Len -1 do
begin
tbtString(Dest^) := tbtString(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
{$IFNDEF PS_NOWIDESTRING}
btUnicodeString:
for i := 0 to Len -1 do
begin
tbtunicodestring(Dest^) := tbtunicodestring(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
btWideString:
for i := 0 to Len -1 do
begin
tbtWideString(Dest^) := tbtWideString(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
{$ENDIF}
btStaticArray:
begin
elSize := aType.RealSize;
for i := 0 to Len -1 do
begin
if not CopyArrayContents(Dest, Src, TPSTypeRec_StaticArray(aType).Size, TPSTypeRec_StaticArray(aType).ArrayType) then
begin
result := false;
exit;
end;
Dest := Pointer(IPointer(Dest) + elsize);
Src := Pointer(IPointer(Src) + elsize);
end;
end;
btArray:
begin
for i := 0 to Len -1 do
begin
if Pointer(Dest^) <> nil then
begin
PSDynArraySetLength(Pointer(Dest^), aType, 0);
end;
Pointer(Dest^) := Pointer(Src^);
if Pointer(Dest^) <> nil then
begin
Inc(PDynArrayRec(PAnsiChar(Dest^) - SizeOf(TDynArrayRecHeader))^.header.refCnt);
end;
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
end;
btRecord:
begin
elSize := aType.RealSize;
for i := 0 to Len -1 do
begin
if not CopyRecordContents(Dest, Src, TPSTypeRec_Record(aType)) then
begin
result := false;
exit;
end;
Dest := Pointer(IPointer(Dest) + elsize);
Src := Pointer(IPointer(Src) + elsize);
end;
end;
btSet:
begin
elSize := aType.RealSize;
for i := 0 to Len -1 do
begin
Move(Src^, Dest^, elSize);
Dest := Pointer(IPointer(Dest) + elsize);
Src := Pointer(IPointer(Src) + elsize);
end;
end;
{$IFNDEF PS_NOINTERFACES}
btInterface:
begin
for i := 0 to Len -1 do
begin
{$IFNDEF DELPHI3UP}
if IUnknown(Dest^) <> nil then
begin
IUnknown(Dest^).Release;
IUnknown(Dest^) := nil;
end;
{$ENDIF}
IUnknown(Dest^) := IUnknown(Src^);
{$IFNDEF DELPHI3UP}
if IUnknown(Dest^) <> nil then
IUnknown(Dest^).AddRef;
{$ENDIF}
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
end;
end;
{$ENDIF}
btPointer:
begin
if (Pointer(Pointer(IPointer(Dest)+PointerSize2)^) = nil) and (Pointer(Pointer(IPointer(Src)+PointerSize2)^) = nil) then
begin
for i := 0 to Len -1 do
begin
Pointer(Dest^) := Pointer(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
Pointer(Dest^) := Pointer(Src^);
Dest := Pointer(IPointer(Dest) + PointerSize);
Src := Pointer(IPointer(Src) + PointerSize);
LongBool(Dest^) := false;
Dest := Pointer(IPointer(Dest) + sizeof(LongBool));
Src := Pointer(IPointer(Src) + sizeof(LongBool));
end;
end else begin
for i := 0 to Len -1 do
begin
if Pointer(Pointer(IPointer(Dest)+PointerSize2)^) <> nil then
DestroyHeapVariant2(Pointer(Dest^), Pointer(Pointer(IPointer(Dest)+PointerSize)^));
if Pointer(Src^) <> nil then
begin
if not LongBool(Pointer(IPointer(Src) + PointerSize2)^) then
begin
Pointer(Dest^) := Pointer(Src^);
Pointer(Pointer(IPointer(Dest) + PointerSize)^) := Pointer(Pointer(IPointer(Src) + PointerSize)^);
Pointer(Pointer(IPointer(Dest) + PointerSize2)^) := Pointer(Pointer(IPointer(Src) + PointerSize2)^);
end else
begin
Pointer(Dest^) := CreateHeapVariant2(Pointer(Pointer(IPointer(Src) + PointerSize)^));
Pointer(Pointer(IPointer(Dest) + PointerSize)^) := Pointer(Pointer(IPointer(Src) + PointerSize)^);
LongBool(Pointer(IPointer(Dest) + PointerSize2)^) := true;
if not CopyArrayContents(Pointer(Dest^), Pointer(Src^), 1, Pointer(Pointer(IPointer(Dest) + PointerSize)^)) then
begin
Result := false;
exit;
end;
end;
end else
begin
Pointer(Dest^) := nil;
Pointer(Pointer(IPointer(Dest) + PointerSize)^) := nil;
Pointer(Pointer(IPointer(Dest) + PointerSize2)^) := nil;
end;
Dest := Pointer(IPointer(Dest) + PointerSize*2+sizeof(LongBool));
Src := Pointer(IPointer(Src) + PointerSize*2+sizeof(LongBool));
end;
end;
end;
// btResourcePointer = 15;
// btVariant = 16;
else
Result := False;
exit;
end;
except
Result := False;
exit;
end;
Result := true;
end;
function GetPSArrayLength(Arr: PIFVariant): Longint;
begin
result := PSDynArrayGetLength(PPSVariantDynamicArray(arr).Data, arr.FType);
end;
procedure SetPSArrayLength(Arr: PIFVariant; NewLength: Longint);
begin
PSDynArraySetLength(PPSVariantDynamicArray(arr).Data, arr.FType, NewLength);
end;
function PSDynArrayGetLength(arr: Pointer; aType: TPSTypeRec): Longint;
begin
if aType.BaseType <> btArray then raise Exception.Create(RPS_InvalidArray);
if arr = nil then Result := 0 else result:=PDynArrayRec(PAnsiChar(arr) - SizeOf(TDynArrayRecHeader))^.header.{$IFDEF FPC}high + 1{$ELSE}length{$ENDIF FPC};
end;
procedure PSDynArraySetLength(var arr: Pointer; aType: TPSTypeRec; NewLength: Longint);
var
elSize, i, OldLen: Longint;
darr : PDynArrayRec;
begin
if aType.BaseType <> btArray then raise Exception.Create(RPS_InvalidArray);
OldLen := PSDynArrayGetLength(arr, aType);
elSize := TPSTypeRec_Array(aType).ArrayType.RealSize;
if NewLength<0 then
NewLength:=0;
if (OldLen = 0) and (NewLength = 0) then exit; // already are both 0
if (OldLen = NewLength) then exit; // already same size, noop
darr := PDynArrayRec(PAnsiChar(Arr) - SizeOf(TDynArrayRecHeader));
if (OldLen <> 0) and (darr^.header.refCnt = 1) then // unique copy of this dynamic array
begin
for i := NewLength to OldLen -1 do
begin
if TPSTypeRec_Array(aType).ArrayType.BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(arr) + Cardinal(elsize * i)), TPSTypeRec_Array(aType).ArrayType);
end;
if NewLength <= 0 then
begin
FreeMem(darr);
arr := nil;
exit;
end;
ReallocMem(darr, Longint(NewLength * elSize) + SizeOf(TDynArrayRecHeader));
{$IFDEF FPC}
darr^.header.high := NewLength -1;
{$ELSE}
darr^.header.length := NewLength;
{$ENDIF}
arr := @darr^.datas;
for i := OldLen to NewLength -1 do
begin
InitializeVariant(Pointer(IPointer(arr) + Cardinal(elsize * i)), TPSTypeRec_Array(aType).ArrayType);
end;
end else
begin
if NewLength = 0 then
begin
FinalizeVariant(@arr, aType);
arr := nil;
exit;
end;
GetMem(darr, Longint(NewLength * elSize) + SizeOf(TDynArrayRecHeader));
{$IFDEF CPUX64}
darr^.header._Padding:=0;
{$ENDIF CPUX64}
darr^.header.refCnt:=1;
{$IFDEF FPC}
darr^.header.high := NewLength - 1;
{$ELSE}
darr^.header.length := NewLength;
{$ENDIF FPC}
for i := 0 to NewLength -1 do
begin
InitializeVariant(Pointer(IPointer(@darr^.datas) + Cardinal(elsize * i)), TPSTypeRec_Array(aType).ArrayType);
end;
if OldLen <> 0 then
begin
if OldLen > NewLength then
CopyArrayContents(@darr^.datas, arr, NewLength, TPSTypeRec_Array(aType).ArrayType)
else
CopyArrayContents(@darr^.datas, arr, OldLen, TPSTypeRec_Array(aType).ArrayType);
FinalizeVariant(@arr, aType);
end;
arr := @darr^.datas;
end;
end;
{$IFDEF FPC}
{$DEFINE FPC_OR_KYLIX}
{$ENDIF}
{$IFDEF KYLIX}
{$DEFINE FPC_OR_KYLIX}
{$ENDIF}
{$IFDEF FPC_OR_KYLIX}
function OleErrorMessage(ErrorCode: HResult): tbtString;
begin
Result := SysErrorMessage(ErrorCode);
if Result = '' then
Result := Format(RPS_OLEError, [ErrorCode]);
end;
procedure OleError(ErrorCode: HResult);
begin
raise Exception.Create(OleErrorMessage(ErrorCode));
end;
procedure OleCheck(Result: HResult);
begin
if Result < 0 then OleError(Result);
end;
{$ENDIF}
{$IFNDEF DELPHI3UP}
function OleErrorMessage(ErrorCode: HResult): tbtString;
begin
Result := SysErrorMessage(ErrorCode);
if Result = '' then
Result := Format(RPS_OLEError, [ErrorCode]);
end;
procedure OleError(ErrorCode: HResult);
begin
raise Exception.Create(OleErrorMessage(ErrorCode));
end;
procedure OleCheck(Result: HResult);
begin
if Result < 0 then OleError(Result);
end;
procedure AssignInterface(var Dest: IUnknown; const Src: IUnknown);
var
OldDest: IUnknown;
begin
{ Like Delphi 3+'s _IntfCopy, reference source before releasing old dest.
so that self assignment (I := I) works right }
OldDest := Dest;
Dest := Src;
if Src <> nil then
Src.AddRef;
if OldDest <> nil then
OldDest.Release;
end;
procedure AssignVariantFromIDispatch(var Dest: Variant; const Src: IDispatch);
begin
VarClear(Dest);
TVarData(Dest).VDispatch := Src;
TVarData(Dest).VType := varDispatch;
if Src <> nil then
Src.AddRef;
end;
procedure AssignIDispatchFromVariant(var Dest: IDispatch; const Src: Variant);
const
RPS_InvalidVariantRef = 'Invalid variant ref';
var
NewDest: IDispatch;
begin
case TVarData(Src).VType of
varEmpty: NewDest := nil;
varDispatch: NewDest := TVarData(Src).VDispatch;
varDispatch or varByRef: NewDest := Pointer(TVarData(Src).VPointer^);
else
raise Exception.Create(RPS_InvalidVariantRef);
end;
AssignInterface(IUnknown(Dest), NewDest);
end;
{$ENDIF}
function TPSExec.SetVariantValue(dest, Src: Pointer; desttype, srctype: TPSTypeRec): Boolean;
var
Tmp: TObject;
tt: TPSVariantPointer;
begin
Result := True;
try
case desttype.BaseType of
btSet:
begin
if desttype = srctype then
Move(Src^, Dest^, TPSTypeRec_Set(desttype).aByteSize)
else
Result := False;
end;
btU8: tbtu8(Dest^) := PSGetUInt(Src, srctype);
btS8: tbts8(Dest^) := PSGetInt(Src, srctype);
btU16: tbtu16(Dest^) := PSGetUInt(Src, srctype);
btS16: tbts16(Dest^) := PSGetInt(Src, srctype);
btProcPtr:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btu32:
begin
Pointer(Dest^) := Pointer(Src^);
end;
btProcPtr:
begin
Pointer(Dest^) := Pointer(Src^);
Pointer(Pointer(IPointer(Dest)+PointerSize)^) := Pointer(Pointer(IPointer(Src)+PointerSize)^);
Pointer(Pointer(IPointer(Dest)+PointerSize2)^) := Pointer(Pointer(IPointer(Src)+PointerSize2)^);
end;
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btU32:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btU8: tbtu32(Dest^) := tbtu8(src^);
btS8: tbtu32(Dest^) := tbts8(src^);
btU16: tbtu32(Dest^) := tbtu16(src^);
btS16: tbtu32(Dest^) := tbts16(src^);
btU32: tbtu32(Dest^) := tbtu32(src^);
btS32: tbtu32(Dest^) := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: tbtu32(Dest^) := tbts64(src^);{$ENDIF}
btChar: tbtu32(Dest^) := Ord(tbtchar(Src^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtu32(Dest^) := Ord(tbtwidechar(Src^));{$ENDIF}
btVariant: tbtu32(Dest^) := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btU8: tbts32(Dest^) := tbtu8(src^);
btS8: tbts32(Dest^) := tbts8(src^);
btU16: tbts32(Dest^) := tbtu16(src^);
btS16: tbts32(Dest^) := tbts16(src^);
btU32: tbts32(Dest^) := tbtu32(src^);
btS32: tbts32(Dest^) := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: tbts32(Dest^) := tbts64(src^);{$ENDIF}
btChar: tbts32(Dest^) := Ord(tbtchar(Src^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(Dest^) := Ord(tbtwidechar(Src^));{$ENDIF}
btVariant: tbts32(Dest^) := Variant(src^);
// nx change start - allow assignment of class
btClass: tbtu32(Dest^) := tbtu32(src^);
// nx change start
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(Dest^) := PSGetInt64(Src, srctype);
{$ENDIF}
btSingle:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btU8: tbtsingle(Dest^) := tbtu8(src^);
btS8: tbtsingle(Dest^) := tbts8(src^);
btU16: tbtsingle(Dest^) := tbtu16(src^);
btS16: tbtsingle(Dest^) := tbts16(src^);
btU32: tbtsingle(Dest^) := tbtu32(src^);
btS32: tbtsingle(Dest^) := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: tbtsingle(Dest^) := tbts64(src^);{$ENDIF}
btSingle: tbtsingle(Dest^) := tbtsingle(Src^);
btDouble: tbtsingle(Dest^) := tbtdouble(Src^);
btExtended: tbtsingle(Dest^) := tbtextended(Src^);
btCurrency: tbtsingle(Dest^) := tbtcurrency(Src^);
btVariant: tbtsingle(Dest^) := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btDouble:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btU8: tbtdouble(Dest^) := tbtu8(src^);
btS8: tbtdouble(Dest^) := tbts8(src^);
btU16: tbtdouble(Dest^) := tbtu16(src^);
btS16: tbtdouble(Dest^) := tbts16(src^);
btU32: tbtdouble(Dest^) := tbtu32(src^);
btS32: tbtdouble(Dest^) := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: tbtdouble(Dest^) := tbts64(src^);{$ENDIF}
btSingle: tbtdouble(Dest^) := tbtsingle(Src^);
btDouble: tbtdouble(Dest^) := tbtdouble(Src^);
btExtended: tbtdouble(Dest^) := tbtextended(Src^);
btCurrency: tbtdouble(Dest^) := tbtcurrency(Src^);
btVariant: tbtdouble(Dest^) := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btExtended:
begin
if srctype.BaseType = btPointer then
begin
srctype := PIFTypeRec(Pointer(IPointer(Src)+PointerSize)^);
Src := Pointer(Src^);
if (src = nil) or (srctype = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case srctype.BaseType of
btU8: tbtextended(Dest^) := tbtu8(src^);
btS8: tbtextended(Dest^) := tbts8(src^);
btU16: tbtextended(Dest^) := tbtu16(src^);
btS16: tbtextended(Dest^) := tbts16(src^);
btU32: tbtextended(Dest^) := tbtu32(src^);
btS32: tbtextended(Dest^) := tbts32(src^);
{$IFNDEF PS_NOINT64} btS64: tbtextended(Dest^) := tbts64(src^);{$ENDIF}
btSingle: tbtextended(Dest^) := tbtsingle(Src^);
btDouble: tbtextended(Dest^) := tbtdouble(Src^);
btExtended: tbtextended(Dest^) := tbtextended(Src^);
btCurrency: tbtextended(Dest^) := tbtcurrency(Src^);
btVariant: tbtextended(Dest^) := Variant(src^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btCurrency: tbtcurrency(Dest^) := PSGetCurrency(Src, srctype);
btPChar: pansichar(dest^) := pansichar(PSGetAnsiString(Src, srctype));
btString:
tbtstring(dest^) := PSGetAnsiString(Src, srctype);
btChar: tbtchar(dest^) := tbtchar(PSGetUInt(Src, srctype));
{$IFNDEF PS_NOWIDESTRING}
btWideString: tbtwidestring(dest^) := PSGetWideString(Src, srctype);
btUnicodeString: tbtUnicodeString(dest^) := PSGetUnicodeString(Src, srctype);
btWideChar: tbtwidechar(dest^) := widechar(PSGetUInt(Src, srctype));
{$ENDIF}
btStaticArray:
begin
if desttype <> srctype then
Result := False
else
CopyArrayContents(dest, Src, TPSTypeRec_StaticArray(desttype).Size, TPSTypeRec_StaticArray(desttype).ArrayType);
end;
btArray:
begin
if (srctype.BaseType = btStaticArray) and (TPSTypeRec_Array(desttype).ArrayType = TPSTypeRec_Array(srctype).ArrayType) then
begin
PSDynArraySetLength(Pointer(Dest^), desttype, TPSTypeRec_StaticArray(srctype).Size);
CopyArrayContents(Pointer(dest^), Src, TPSTypeRec_StaticArray(srctype).Size, TPSTypeRec_StaticArray(srctype).ArrayType);
end else if (srctype.BaseType = btvariant) and VarIsArray(Variant(src^)) then
Result := CreateArrayFromVariant(Self, dest, Variant(src^), desttype)
else if (desttype <> srctype) and not ((desttype.BaseType = btarray) and (srctype.BaseType = btArray)
and (TPSTypeRec_Array(desttype).ArrayType = TPSTypeRec_Array(srctype).ArrayType)) then
Result := False
else
CopyArrayContents(dest, src, 1, desttype);
end;
btRecord:
begin
if desttype <> srctype then
Result := False
else
CopyArrayContents(dest, Src, 1, desttype);
end;
btVariant:
begin
{$IFNDEF PS_NOINTERFACES}
if srctype.ExportName = 'IDISPATCH' then
begin
{$IFDEF DELPHI3UP}
Variant(Dest^) := IDispatch(Src^);
{$ELSE}
AssignVariantFromIDispatch(Variant(Dest^), IDispatch(Src^));
{$ENDIF}
end else
{$ENDIF}
if srctype.BaseType = btVariant then
variant(Dest^) := variant(src^)
else
begin
tt.VI.FType := FindType2(btPointer);
tt.DestType := srctype;
tt.DataDest := src;
tt.FreeIt := False;
Result := PIFVariantToVariant(@tt, variant(dest^));
end;
end;
btClass:
begin
if srctype.BaseType = btClass then
TObject(Dest^) := TObject(Src^)
else
// nx change start
if (srctype.BaseType in [btS32, btU32]) then
TbtU32(Dest^) := TbtU32(Src^)
else
// nx change end
Result := False;
end;
{$IFNDEF PS_NOINTERFACES}
btInterface:
begin
if Srctype.BaseType = btVariant then
begin
if desttype.ExportName = 'IDISPATCH' then
begin
{$IFDEF Delphi3UP}
IDispatch(Dest^) := IDispatch(Variant(Src^));
{$ELSE}
AssignIDispatchFromVariant(IDispatch(Dest^), Variant(Src^));
{$ENDIF}
end else
Result := False;
{$IFDEF Delphi3UP}
end else
if srctype.BaseType = btClass then
begin
if (TObject(Src^) = nil) or not TObject(Src^).GetInterface(TPSTypeRec_Interface(desttype).Guid, IUnknown(Dest^)) then
begin
Result := false;
Cmd_Err(erInterfaceNotSupported);
exit;
end;
{$ENDIF}
end else if srctype.BaseType = btInterface then
begin
{$IFNDEF Delphi3UP}
if IUnknown(Dest^) <> nil then
begin
IUnknown(Dest^).Release;
IUnknown(Dest^) := nil;
end;
{$ENDIF}
IUnknown(Dest^) := IUnknown(Src^);
{$IFNDEF Delphi3UP}
if IUnknown(Dest^) <> nil then
IUnknown(Dest^).AddRef;
{$ENDIF}
end else
Result := False;
end;
{$ENDIF}
else begin
Result := False;
end;
end;
if Result = False then
CMD_Err(ErTypeMismatch);
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
Result := False;
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
exit;
end else
if Tmp is EDivByZero then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EZeroDivide then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EMathError then
begin
Result := False;
CMD_Err3(erMathError, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
end;
if (tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp)
else
CMD_Err3(erException, '', Tmp);
Result := False;
end;
end;
function SpecImport(Sender: TPSExec; p: TPSExternalProcRec; Tag: Pointer): Boolean; forward;
function Class_IS(Self: TPSExec; Obj: TObject; var2type: TPSTypeRec): Boolean;
var
R: TPSRuntimeClassImporter;
cc: TPSRuntimeClass;
begin
if Obj = nil then
begin
Result := false;
exit;
end;
r := Self.FindSpecialProcImport(SpecImport);
if R = nil then
begin
Result := false;
exit;
end;
cc := r.FindClass(var2type.ExportName);
if cc = nil then
begin
result := false;
exit;
end;
try
Result := Obj is cc.FClass;
except
Result := false;
end;
end;
type
TVariantArray = array of Variant;
PVariantArray = ^TVariantArray;
function VariantInArray(var1: Pointer; var1Type: TPSTypeRec; var2: PVariantArray): Boolean;
var
lDest: Variant;
i: Integer;
begin
IntPIFVariantToVariant(var1, var1Type, lDest);
result := false;
for i := 0 to Length(var2^) -1 do begin
if var2^[i] = lDest then begin
result := true;
break;
end;
end;
end;
function TPSExec.DoBooleanCalc(var1, Var2, into: Pointer; var1Type, var2type, intotype: TPSTypeRec; Cmd: Cardinal): Boolean;
var
b: Boolean;
Tmp: TObject;
tvar: Variant;
procedure SetBoolean(b: Boolean; var Ok: Boolean);
begin
Ok := True;
case IntoType.BaseType of
btU8: tbtu8(Into^):= Cardinal(b);
btS8: tbts8(Into^) := Longint(b);
btU16: tbtu16(Into^) := Cardinal(b);
btS16: tbts16(Into^) := Longint(b);
btU32: tbtu32(Into^) := Cardinal(b);
btS32: tbts32(Into^) := Longint(b);
btVariant: Variant(Into^) := b;
else begin
CMD_Err(ErTypeMismatch);
Ok := False;
end;
end;
end;
begin
Result := true;
try
case Cmd of
0: begin { >= }
case var1Type.BaseType of
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) >= PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) >= PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) >= PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) >= PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) >= PSGetInt(Var2, var2type);
btU32: b := tbtu32(var1^) >= PSGetUInt(Var2, var2type);
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) >= tbtu8(Var2^);
btS8: b := tbts32(var1^) >= tbts8(Var2^);
btU16: b := tbts32(var1^) >= tbtu16(Var2^);
btS16: b := tbts32(var1^) >= tbts16(Var2^);
btU32: b := tbts32(var1^) >= Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) >= tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) >= tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) >= tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) >= tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) >= tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) >= Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) >= Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) >= Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btSingle: b := tbtsingle(var1^) >= PSGetReal(Var2, var2type);
btDouble: b := tbtdouble(var1^) >= PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) >= PSGetCurrency(Var2, var2type);
btExtended: b := tbtextended(var1^) >= PSGetReal(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) >= PSGetInt64(Var2, var2type);
{$ENDIF}
btPChar,btString: b := tbtstring(var1^) >= PSGetAnsiString(Var2, var2type);
btChar: b := tbtchar(var1^) >= PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) >= PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) >= PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodestring(var1^) >= PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) >= tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Subset(var2, var1, TPSTypeRec_Set(var1Type).aByteSize, b);
end else result := False;
end;
else begin
CMD_Err(ErTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(ErTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
1: begin { <= }
case var1Type.BaseType of
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) <= PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) <= PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) <= PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) <= PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) <= PSGetInt(Var2, var2type);
btU32: b := tbtu32(var1^) <= PSGetUInt(Var2, var2type);
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) <= tbtu8(Var2^);
btS8: b := tbts32(var1^) <= tbts8(Var2^);
btU16: b := tbts32(var1^) <= tbtu16(Var2^);
btS16: b := tbts32(var1^) <= tbts16(Var2^);
btU32: b := tbts32(var1^) <= Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) <= tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) <= tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) <= tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) <= tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) <= tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) <= Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) <= Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) <= Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end; btSingle: b := tbtsingle(var1^) <= PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) <= PSGetCurrency(Var2, var2type);
btDouble: b := tbtdouble(var1^) <= PSGetReal(Var2, var2type);
btExtended: b := tbtextended(var1^) <= PSGetReal(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) <= PSGetInt64(Var2, var2type);
{$ENDIF}
btPChar,btString: b := tbtstring(var1^) <= PSGetAnsiString(Var2, var2type);
btChar: b := tbtchar(var1^) <= PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) <= PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) <= PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodestring(var1^) <= PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) <= tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Subset(var1, var2, TPSTypeRec_Set(var1Type).aByteSize, b);
end else result := False;
end;
else begin
CMD_Err(ErTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
2: begin { > }
case var1Type.BaseType of
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) > PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) > PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) > PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) > PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) > PSGetInt(Var2, var2type);
btU32: b := tbtu32(var1^) > PSGetUInt(Var2, var2type);
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) > tbtu8(Var2^);
btS8: b := tbts32(var1^) > tbts8(Var2^);
btU16: b := tbts32(var1^) > tbtu16(Var2^);
btS16: b := tbts32(var1^) > tbts16(Var2^);
btU32: b := tbts32(var1^) > Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) > tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) > tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) > tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) > tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) > tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) > Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) = Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) > Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end; btSingle: b := tbtsingle(var1^) > PSGetReal(Var2, var2type);
btDouble: b := tbtdouble(var1^) > PSGetReal(Var2, var2type);
btExtended: b := tbtextended(var1^) > PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) > PSGetCurrency(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) > PSGetInt64(Var2, var2type);
{$ENDIF}
btPChar,btString: b := tbtstring(var1^) > PSGetAnsiString(Var2, var2type);
btChar: b := tbtchar(var1^) > PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) > PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) > PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodestring(var1^) > PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) > tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
3: begin { < }
case var1Type.BaseType of
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) < PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) < PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) < PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) < PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) < PSGetInt(Var2, var2type);
btU32: b := tbtu32(var1^) < PSGetUInt(Var2, var2type);
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) < tbtu8(Var2^);
btS8: b := tbts32(var1^) < tbts8(Var2^);
btU16: b := tbts32(var1^) < tbtu16(Var2^);
btS16: b := tbts32(var1^) < tbts16(Var2^);
btU32: b := tbts32(var1^) < Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) < tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) < tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) < tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) < tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) < tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) < Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) < Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) < Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end; btSingle: b := tbtsingle(var1^) < PSGetReal(Var2, var2type);
btDouble: b := tbtdouble(var1^) < PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) < PSGetCurrency(Var2, var2type);
btExtended: b := tbtextended(var1^) < PSGetReal(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) < PSGetInt64(Var2, var2type);
{$ENDIF}
btPChar,btString: b := tbtstring(var1^) < PSGetAnsiString(Var2, var2type);
btChar: b := tbtchar(var1^) < PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) < PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) < PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodestring(var1^) < PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) < tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
4: begin { <> }
case var1Type.BaseType of
btInterface:
begin
if var2Type.BaseType = btInterface then
b := Pointer(var1^) <> Pointer(var2^) // no need to cast it to IUnknown
else
Result := false;
end;
btClass:
begin
if var2Type.BaseType = btclass then
b := TObject(var1^) <> TObject(var2^)
else
Result := false;
end;
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) <> PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) <> PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) <> PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) <> PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) <> PSGetInt(Var2, var2type);
btProcPtr:
begin
if Pointer(Var1^) = Pointer(Var2^) then
begin
if Longint(Var1^) = 0 then
b := ((Pointer(Pointer(IPointer(Var1)+PointerSize2)^) <> Pointer(Pointer(IPointer(Var2)+PointerSize2)^)) or
(Pointer(Pointer(IPointer(Var1)+PointerSize2)^) <> Pointer(Pointer(IPointer(Var2)+PointerSize2)^)))
else
b := False;
end else b := True;
end;
btU32: b := tbtu32(var1^) <> PSGetUInt(Var2, var2type);
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) <> tbtu8(Var2^);
btS8: b := tbts32(var1^) <> tbts8(Var2^);
btU16: b := tbts32(var1^) <> tbtu16(Var2^);
btS16: b := tbts32(var1^) <> tbts16(Var2^);
btProcPtr, btU32: b := tbts32(var1^)<> Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) <> tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) <> tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) <> tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) <> tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) <> tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) <> Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) <> Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) <> Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end; btSingle: b := tbtsingle(var1^) <> PSGetReal(Var2, var2type);
btDouble: b := tbtdouble(var1^) <> PSGetReal(Var2, var2type);
btExtended: b := tbtextended(var1^) <> PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) <> PSGetCurrency(Var2, var2type);
btPChar,btString: b := tbtstring(var1^) <> PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) <> PSGetInt64(Var2, var2type);
{$ENDIF}
btChar: b := tbtchar(var1^) <> PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) <> PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) <> PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodeString(var1^) <> PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) <> tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Equal(var1, var2, TPSTypeRec_Set(var1Type).aByteSize, b);
b := not b;
end else result := False;
end;
btRecord:
begin
if var1Type = var2Type then
begin
Set_Equal(var1, var2, TPSTypeRec_Record(var1Type).RealSize, b);
b := not b;
end else result := False;
end
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
5: begin { = }
case var1Type.BaseType of
btInterface:
begin
if var2Type.BaseType = btInterface then
b := Pointer(var1^) = Pointer(var2^) // no need to cast it to IUnknown
else
Result := false;
end;
btClass:
begin
if var2Type.BaseType = btclass then
b := TObject(var1^) = TObject(var2^)
else
Result := false;
end;
btU8:
if (var2Type.BaseType = btString) or (Var2Type.BaseType = btPChar) then
b := tbtchar(tbtu8(var1^)) = PSGetAnsiString(Var2, var2type)
else
b := tbtu8(var1^) = PSGetUInt(Var2, var2type);
btS8: b := tbts8(var1^) = PSGetInt(Var2, var2type);
btU16: b := tbtu16(var1^) = PSGetUInt(Var2, var2type);
btS16: b := tbts16(var1^) = PSGetInt(Var2, var2type);
btU32: b := tbtu32(var1^) = PSGetUInt(Var2, var2type);
btProcPtr:
begin
if Pointer(Var1^) = Pointer(Var2^) then
begin
if Longint(Var1^) = 0 then
b := ((Pointer(Pointer(IPointer(Var1)+PointerSize2)^) = Pointer(Pointer(IPointer(Var2)+PointerSize2)^)) and
(Pointer(Pointer(IPointer(Var1)+PointerSize2)^) = Pointer(Pointer(IPointer(Var2)+PointerSize2)^)))
else
b := True;
end else b := False;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: b := tbts32(var1^) = tbtu8(Var2^);
btS8: b := tbts32(var1^) = tbts8(Var2^);
btU16: b := tbts32(var1^) = tbtu16(Var2^);
btS16: b := tbts32(var1^) = tbts16(Var2^);
btProcPtr, btU32: b := tbts32(var1^) = Longint(tbtu32(Var2^));
btS32: b := tbts32(var1^) = tbts32(Var2^);
btDouble: b := PSGetReal(Var1, var1type) = tbtdouble(var2^);
btSingle: B := psGetReal(Var1, var1Type) = tbtsingle(var2^);
btExtended: B := psGetReal(Var1, var1Type) = tbtExtended(var2^);
{$IFNDEF PS_NOINT64} btS64: b := tbts32(var1^) = tbts64(Var2^);{$ENDIF}
btChar: b := tbts32(var1^) = Ord(tbtchar(Var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: b := tbts32(var1^) = Ord(tbtwidechar(Var2^));{$ENDIF}
btVariant: b := tbts32(var1^) = Variant(Var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end; btSingle: b := tbtsingle(var1^) = PSGetReal(Var2, var2type);
btDouble: b := tbtdouble(var1^) = PSGetReal(Var2, var2type);
btExtended: b := tbtextended(var1^) = PSGetReal(Var2, var2type);
btCurrency: b := tbtcurrency(var1^) = PSGetCurrency(Var2, var2type);
btPchar, btString: b := tbtstring(var1^) = PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: b := tbts64(var1^) = PSGetInt64(Var2, var2type);
{$ENDIF}
btChar: b := tbtchar(var1^) = PSGetAnsiString(Var2, var2type);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: b := tbtwidechar(var1^) = PSGetWideString(Var2, var2type);
btWideString: b := tbtwidestring(var1^) = PSGetWideString(Var2, var2type);
btUnicodeString: b := tbtUnicodestring(var1^) = PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
b := Variant(var1^) = tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Equal(var1, var2, TPSTypeRec_Set(var1Type).aByteSize, b);
end else result := False;
end;
btRecord:
begin
if var1Type = var2Type then
begin
Set_Equal(var1, var2, TPSTypeRec_Record(var1Type).RealSize, b);
end else result := False;
end
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
SetBoolean(b, Result);
end;
6: begin { in }
if (var2Type.BaseType = btArray) and (TPSTypeRec_Array(var2type).ArrayType.BaseType = btVariant) then
begin
b := VariantInArray(var1, var1Type, var2);
SetBoolean(b, Result);
end else
if var2Type.BaseType = btSet then
begin
Cmd := PSGetUInt(var1, var1type);
if not Result then
begin
CMD_Err(erTypeMismatch);
exit;
end;
if Cmd >= Cardinal(TPSTypeRec_Set(var2Type).aBitSize) then
begin
cmd_Err(erOutofRecordRange);
Result := False;
Exit;
end;
Set_membership(Cmd, var2, b);
SetBoolean(b, Result);
end else
begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
7:
begin // is
case var1Type.BaseType of
btClass:
begin
if var2type.BaseType <> btU32 then
Result := False
else
begin
var2type := FTypes[tbtu32(var2^)];
if (var2type = nil) or (var2type.BaseType <> btClass) then
Result := false
else
begin
Setboolean(Class_IS(Self, TObject(var1^), var2type), Result);
end;
end;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
else begin
Result := False;
CMD_Err(erInvalidOpcodeParameter);
exit;
end;
end;
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
Result := False;
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
exit;
end else
if Tmp is EDivByZero then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EZeroDivide then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EMathError then
begin
Result := False;
CMD_Err3(erMathError, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
end;
if (tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp)
else
CMD_Err3(erException, '', Tmp);
Result := False;
end;
end;
function VarIsFloat(const V: Variant): Boolean;
begin
Result := VarType(V) in [varSingle, varDouble, varCurrency];
end;
function TPSExec.DoCalc(var1, Var2: Pointer; var1Type, var2type: TPSTypeRec; CalcType: Cardinal): Boolean;
{ var1=dest, var2=src }
var
Tmp: TObject;
tvar: Variant;
begin
try
Result := True;
case CalcType of
0: begin { + }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) + PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) + PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) + PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) + PSGetInt(Var2, var2type);
btU32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtU32(var1^) := tbtU32(var1^) + tbtu8(var2^);
btS8: tbtU32(var1^) := tbtU32(var1^) + cardinal(longint(tbts8(var2^)));
btU16: tbtU32(var1^) := tbtU32(var1^) + tbtu16(var2^);
btS16: tbtU32(var1^) := tbtU32(var1^) + cardinal(longint(tbts16(var2^)));
btU32: tbtU32(var1^) := tbtU32(var1^) + tbtu32(var2^);
btS32: tbtU32(var1^) := tbtU32(var1^) + cardinal(tbts32(var2^));
{$IFNDEF PS_NOINT64} btS64: tbtU32(var1^) := tbtU32(var1^) + tbts64(var2^);{$ENDIF}
btChar: tbtU32(var1^) := tbtU32(var1^) + Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtU32(var1^) := tbtU32(var1^) + Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbtU32(var1^) := tbtU32(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbts32(var1^) := tbts32(var1^) + tbtu8(var2^);
btS8: tbts32(var1^) := tbts32(var1^) + tbts8(var2^);
btU16: tbts32(var1^) := tbts32(var1^) + tbtu16(var2^);
btS16: tbts32(var1^) := tbts32(var1^) + tbts16(var2^);
btU32: tbts32(var1^) := tbts32(var1^) + Longint(tbtu32(var2^));
btS32: tbts32(var1^) := tbts32(var1^) + tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbts32(var1^) := tbts32(var1^) + tbts64(var2^);{$ENDIF}
btChar: tbts32(var1^) := tbts32(var1^) + Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(var1^) := tbts32(var1^) + Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbts32(var1^) := tbts32(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) + PSGetInt64(var2, var2type);
{$ENDIF}
btSingle:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtsingle(var1^) := tbtsingle(var1^) + tbtu8(var2^);
btS8: tbtsingle(var1^) := tbtsingle(var1^) + tbts8(var2^);
btU16: tbtsingle(var1^) := tbtsingle(var1^) + tbtu16(var2^);
btS16: tbtsingle(var1^) := tbtsingle(var1^) + tbts16(var2^);
btU32: tbtsingle(var1^) := tbtsingle(var1^) + tbtu32(var2^);
btS32: tbtsingle(var1^) := tbtsingle(var1^) + tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtsingle(var1^) := tbtsingle(var1^) + tbts64(var2^);{$ENDIF}
btSingle: tbtsingle(var1^) := tbtsingle(var1^) + tbtsingle(var2^);
btDouble: tbtsingle(var1^) := tbtsingle(var1^) + tbtdouble(var2^);
btExtended: tbtsingle(var1^) := tbtsingle(var1^) + tbtextended(var2^);
btCurrency: tbtsingle(var1^) := tbtsingle(var1^) + tbtcurrency(var2^);
btVariant: tbtsingle(var1^) := tbtsingle(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btDouble:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtdouble(var1^) := tbtdouble(var1^) + tbtu8(var2^);
btS8: tbtdouble(var1^) := tbtdouble(var1^) + tbts8(var2^);
btU16: tbtdouble(var1^) := tbtdouble(var1^) + tbtu16(var2^);
btS16: tbtdouble(var1^) := tbtdouble(var1^) + tbts16(var2^);
btU32: tbtdouble(var1^) := tbtdouble(var1^) + tbtu32(var2^);
btS32: tbtdouble(var1^) := tbtdouble(var1^) + tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtdouble(var1^) := tbtdouble(var1^) + tbts64(var2^);{$ENDIF}
btSingle: tbtdouble(var1^) := tbtdouble(var1^) + tbtsingle(var2^);
btDouble: tbtdouble(var1^) := tbtdouble(var1^) + tbtdouble(var2^);
btExtended: tbtdouble(var1^) := tbtdouble(var1^) + tbtextended(var2^);
btCurrency: tbtdouble(var1^) := tbtdouble(var1^) + tbtcurrency(var2^);
btVariant: tbtdouble(var1^) := tbtdouble(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btCurrency:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtu8(var2^);
btS8: tbtcurrency(var1^) := tbtcurrency(var1^) + tbts8(var2^);
btU16: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtu16(var2^);
btS16: tbtcurrency(var1^) := tbtcurrency(var1^) + tbts16(var2^);
btU32: tbtcurrency(var1^) := tbtdouble(var1^) + tbtu32(var2^);
btS32: tbtcurrency(var1^) := tbtcurrency(var1^) + tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtcurrency(var1^) := tbtdouble(var1^) + tbts64(var2^);{$ENDIF}
btSingle: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtsingle(var2^);
btDouble: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtdouble(var2^);
btExtended: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtextended(var2^);
btCurrency: tbtcurrency(var1^) := tbtcurrency(var1^) + tbtcurrency(var2^);
btVariant: tbtcurrency(var1^) := tbtcurrency(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btExtended:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtextended(var1^) := tbtextended(var1^) + tbtu8(var2^);
btS8: tbtextended(var1^) := tbtextended(var1^) + tbts8(var2^);
btU16: tbtextended(var1^) := tbtextended(var1^) + tbtu16(var2^);
btS16: tbtextended(var1^) := tbtextended(var1^) + tbts16(var2^);
btU32: tbtextended(var1^) := tbtextended(var1^) + tbtu32(var2^);
btS32: tbtextended(var1^) := tbtextended(var1^) + tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtextended(var1^) := tbtextended(var1^) + tbts64(var2^);{$ENDIF}
btSingle: tbtextended(var1^) := tbtextended(var1^) + tbtsingle(var2^);
btDouble: tbtextended(var1^) := tbtextended(var1^) + tbtdouble(var2^);
btExtended: tbtextended(var1^) := tbtextended(var1^) + tbtextended(var2^);
btCurrency: tbtextended(var1^) := tbtextended(var1^) + tbtcurrency(var2^);
btVariant: tbtextended(var1^) := tbtextended(var1^) + Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btPchar, btString: tbtstring(var1^) := tbtstring(var1^) + PSGetAnsiString(Var2, var2type);
btChar: tbtchar(var1^) := tbtchar(ord(tbtchar(var1^)) + PSGetUInt(Var2, var2type));
{$IFNDEF PS_NOWIDESTRING}
btWideChar: tbtwidechar(var1^) := widechar(ord(tbtwidechar(var1^)) + PSGetUInt(Var2, var2type));
btWideString: tbtwidestring(var1^) := tbtwidestring(var1^) + PSGetWideString(Var2, var2type);
btUnicodeString: tbtUnicodestring(var1^) := tbtUnicodestring(var1^) + PSGetUnicodeString(Var2, var2type);
{$ENDIF}
btVariant:
begin
tvar := null;
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) + tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Union(var1, var2, TPSTypeRec_Set(var1Type).aByteSize);
end else result := False;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
1: begin { - }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) - PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) - PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) - PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) - PSGetInt(Var2, var2type);
btU32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtU32(var1^) := tbtU32(var1^) - tbtu8(var2^);
btS8: tbtU32(var1^) := tbtU32(var1^) - cardinal(longint(tbts8(var2^)));
btU16: tbtU32(var1^) := tbtU32(var1^) - tbtu16(var2^);
btS16: tbtU32(var1^) := tbtU32(var1^) - cardinal(longint(tbts16(var2^)));
btU32: tbtU32(var1^) := tbtU32(var1^) - tbtu32(var2^);
btS32: tbtU32(var1^) := tbtU32(var1^) - cardinal(tbts32(var2^));
{$IFNDEF PS_NOINT64} btS64: tbtU32(var1^) := tbtU32(var1^) - tbts64(var2^);{$ENDIF}
btChar: tbtU32(var1^) := tbtU32(var1^) - Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtU32(var1^) := tbtU32(var1^) - Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbtU32(var1^) := tbtU32(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbts32(var1^) := tbts32(var1^) - tbtu8(var2^);
btS8: tbts32(var1^) := tbts32(var1^) - tbts8(var2^);
btU16: tbts32(var1^) := tbts32(var1^) - tbtu16(var2^);
btS16: tbts32(var1^) := tbts32(var1^) - tbts16(var2^);
btU32: tbts32(var1^) := tbts32(var1^) - Longint(tbtu32(var2^));
btS32: tbts32(var1^) := tbts32(var1^) - tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbts32(var1^) := tbts32(var1^) - tbts64(var2^);{$ENDIF}
btChar: tbts32(var1^) := tbts32(var1^) - Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(var1^) := tbts32(var1^) - Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbts32(var1^) := tbts32(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) - PSGetInt64(var2, var2type);
{$ENDIF}
btSingle:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtsingle(var1^) := tbtsingle(var1^) - tbtu8(var2^);
btS8: tbtsingle(var1^) := tbtsingle(var1^) - tbts8(var2^);
btU16: tbtsingle(var1^) := tbtsingle(var1^) - tbtu16(var2^);
btS16: tbtsingle(var1^) := tbtsingle(var1^) - tbts16(var2^);
btU32: tbtsingle(var1^) := tbtsingle(var1^) - tbtu32(var2^);
btS32: tbtsingle(var1^) := tbtsingle(var1^) - tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtsingle(var1^) := tbtsingle(var1^) - tbts64(var2^);{$ENDIF}
btSingle: tbtsingle(var1^) := tbtsingle(var1^) - tbtsingle(var2^);
btDouble: tbtsingle(var1^) := tbtsingle(var1^) - tbtdouble(var2^);
btExtended: tbtsingle(var1^) := tbtsingle(var1^) - tbtextended(var2^);
btCurrency: tbtsingle(var1^) := tbtsingle(var1^) - tbtcurrency(var2^);
btVariant: tbtsingle(var1^) := tbtsingle(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btCurrency:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtu8(var2^);
btS8: tbtcurrency(var1^) := tbtcurrency(var1^) - tbts8(var2^);
btU16: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtu16(var2^);
btS16: tbtcurrency(var1^) := tbtcurrency(var1^) - tbts16(var2^);
btU32: tbtcurrency(var1^) := tbtdouble(var1^) - tbtu32(var2^);
btS32: tbtcurrency(var1^) := tbtcurrency(var1^) - tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtcurrency(var1^) := tbtdouble(var1^) - tbts64(var2^);{$ENDIF}
btSingle: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtsingle(var2^);
btDouble: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtdouble(var2^);
btExtended: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtextended(var2^);
btCurrency: tbtcurrency(var1^) := tbtcurrency(var1^) - tbtcurrency(var2^);
btVariant: tbtcurrency(var1^) := tbtcurrency(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btDouble:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtdouble(var1^) := tbtdouble(var1^) - tbtu8(var2^);
btS8: tbtdouble(var1^) := tbtdouble(var1^) - tbts8(var2^);
btU16: tbtdouble(var1^) := tbtdouble(var1^) - tbtu16(var2^);
btS16: tbtdouble(var1^) := tbtdouble(var1^) - tbts16(var2^);
btU32: tbtdouble(var1^) := tbtdouble(var1^) - tbtu32(var2^);
btS32: tbtdouble(var1^) := tbtdouble(var1^) - tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtdouble(var1^) := tbtdouble(var1^) - tbts64(var2^);{$ENDIF}
btSingle: tbtdouble(var1^) := tbtdouble(var1^) - tbtsingle(var2^);
btDouble: tbtdouble(var1^) := tbtdouble(var1^) - tbtdouble(var2^);
btExtended: tbtdouble(var1^) := tbtdouble(var1^) - tbtextended(var2^);
btCurrency: tbtdouble(var1^) := tbtdouble(var1^) - tbtcurrency(var2^);
btVariant: tbtdouble(var1^) := tbtdouble(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btExtended:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtextended(var1^) := tbtextended(var1^) - tbtu8(var2^);
btS8: tbtextended(var1^) := tbtextended(var1^) - tbts8(var2^);
btU16: tbtextended(var1^) := tbtextended(var1^) - tbtu16(var2^);
btS16: tbtextended(var1^) := tbtextended(var1^) - tbts16(var2^);
btU32: tbtextended(var1^) := tbtextended(var1^) - tbtu32(var2^);
btS32: tbtextended(var1^) := tbtextended(var1^) - tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtextended(var1^) := tbtextended(var1^) -+tbts64(var2^);{$ENDIF}
btSingle: tbtextended(var1^) := tbtextended(var1^) - tbtsingle(var2^);
btDouble: tbtextended(var1^) := tbtextended(var1^) - tbtdouble(var2^);
btExtended: tbtextended(var1^) := tbtextended(var1^) - tbtextended(var2^);
btCurrency: tbtextended(var1^) := tbtextended(var1^) - tbtcurrency(var2^);
btVariant: tbtextended(var1^) := tbtextended(var1^) - Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btChar: tbtchar(var1^):= tbtchar(ord(tbtchar(var1^)) - PSGetUInt(Var2, var2type));
{$IFNDEF PS_NOWIDESTRING}
btWideChar: tbtwidechar(var1^) := widechar(ord(tbtwidechar(var1^)) - PSGetUInt(Var2, var2type));
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) - tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Diff(var1, var2, TPSTypeRec_Set(var1Type).aByteSize);
end else result := False;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
2: begin { * }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) * PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) * PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) * PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) * PSGetInt(Var2, var2type);
btU32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtU32(var1^) := tbtU32(var1^) * tbtu8(var2^);
btS8: tbtU32(var1^) := tbtU32(var1^) * cardinal(longint(tbts8(var2^)));
btU16: tbtU32(var1^) := tbtU32(var1^) * tbtu16(var2^);
btS16: tbtU32(var1^) := tbtU32(var1^) * cardinal(longint(tbts16(var2^)));
btU32: tbtU32(var1^) := tbtU32(var1^) * tbtu32(var2^);
btS32: tbtU32(var1^) := tbtU32(var1^) * cardinal(tbts32(var2^));
{$IFNDEF PS_NOINT64} btS64: tbtU32(var1^) := tbtU32(var1^) * tbts64(var2^);{$ENDIF}
btChar: tbtU32(var1^) := tbtU32(var1^) * Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtU32(var1^) := tbtU32(var1^) * Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbtU32(var1^) := tbtU32(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbts32(var1^) := tbts32(var1^) * tbtu8(var2^);
btS8: tbts32(var1^) := tbts32(var1^) * tbts8(var2^);
btU16: tbts32(var1^) := tbts32(var1^) * tbtu16(var2^);
btS16: tbts32(var1^) := tbts32(var1^) * tbts16(var2^);
btU32: tbts32(var1^) := tbts32(var1^) * Longint(tbtu32(var2^));
btS32: tbts32(var1^) := tbts32(var1^) * tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbts32(var1^) := tbts32(var1^) * tbts64(var2^);{$ENDIF}
btChar: tbts32(var1^) := tbts32(var1^) * Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(var1^) := tbts32(var1^) * Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbts32(var1^) := tbts32(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) * PSGetInt64(var2, var2type);
{$ENDIF}
btCurrency:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtu8(var2^);
btS8: tbtcurrency(var1^) := tbtcurrency(var1^) * tbts8(var2^);
btU16: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtu16(var2^);
btS16: tbtcurrency(var1^) := tbtcurrency(var1^) * tbts16(var2^);
btU32: tbtcurrency(var1^) := tbtdouble(var1^) * tbtu32(var2^);
btS32: tbtcurrency(var1^) := tbtcurrency(var1^) * tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtcurrency(var1^) := tbtdouble(var1^) * tbts64(var2^);{$ENDIF}
btSingle: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtsingle(var2^);
btDouble: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtdouble(var2^);
btExtended: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtextended(var2^);
btCurrency: tbtcurrency(var1^) := tbtcurrency(var1^) * tbtcurrency(var2^);
btVariant: tbtcurrency(var1^) := tbtcurrency(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btSingle:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtsingle(var1^) := tbtsingle(var1^) *tbtu8(var2^);
btS8: tbtsingle(var1^) := tbtsingle(var1^) *tbts8(var2^);
btU16: tbtsingle(var1^) := tbtsingle(var1^) *tbtu16(var2^);
btS16: tbtsingle(var1^) := tbtsingle(var1^) *tbts16(var2^);
btU32: tbtsingle(var1^) := tbtsingle(var1^) *tbtu32(var2^);
btS32: tbtsingle(var1^) := tbtsingle(var1^) *tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtsingle(var1^) := tbtsingle(var1^) *tbts64(var2^);{$ENDIF}
btSingle: tbtsingle(var1^) := tbtsingle(var1^) *tbtsingle(var2^);
btDouble: tbtsingle(var1^) := tbtsingle(var1^) *tbtdouble(var2^);
btExtended: tbtsingle(var1^) := tbtsingle(var1^) *tbtextended(var2^);
btCurrency: tbtsingle(var1^) := tbtsingle(var1^) *tbtcurrency(var2^);
btVariant: tbtsingle(var1^) := tbtsingle(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btDouble:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtdouble(var1^) := tbtdouble(var1^) *tbtu8(var2^);
btS8: tbtdouble(var1^) := tbtdouble(var1^) *tbts8(var2^);
btU16: tbtdouble(var1^) := tbtdouble(var1^) *tbtu16(var2^);
btS16: tbtdouble(var1^) := tbtdouble(var1^) *tbts16(var2^);
btU32: tbtdouble(var1^) := tbtdouble(var1^) *tbtu32(var2^);
btS32: tbtdouble(var1^) := tbtdouble(var1^) *tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtdouble(var1^) := tbtdouble(var1^) *tbts64(var2^);{$ENDIF}
btSingle: tbtdouble(var1^) := tbtdouble(var1^) *tbtsingle(var2^);
btDouble: tbtdouble(var1^) := tbtdouble(var1^) *tbtdouble(var2^);
btExtended: tbtdouble(var1^) := tbtdouble(var1^) *tbtextended(var2^);
btCurrency: tbtdouble(var1^) := tbtdouble(var1^) *tbtcurrency(var2^);
btVariant: tbtdouble(var1^) := tbtdouble(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btExtended:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtextended(var1^) := tbtextended(var1^) *tbtu8(var2^);
btS8: tbtextended(var1^) := tbtextended(var1^) *tbts8(var2^);
btU16: tbtextended(var1^) := tbtextended(var1^) *tbtu16(var2^);
btS16: tbtextended(var1^) := tbtextended(var1^) *tbts16(var2^);
btU32: tbtextended(var1^) := tbtextended(var1^) *tbtu32(var2^);
btS32: tbtextended(var1^) := tbtextended(var1^) *tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtextended(var1^) := tbtextended(var1^) *tbts64(var2^);{$ENDIF}
btSingle: tbtextended(var1^) := tbtextended(var1^) *tbtsingle(var2^);
btDouble: tbtextended(var1^) := tbtextended(var1^) *tbtdouble(var2^);
btExtended: tbtextended(var1^) := tbtextended(var1^) *tbtextended(var2^);
btCurrency: tbtextended(var1^) := tbtextended(var1^) *tbtcurrency(var2^);
btVariant: tbtextended(var1^) := tbtextended(var1^) * Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) * tvar;
end;
btSet:
begin
if var1Type = var2Type then
begin
Set_Intersect(var1, var2, TPSTypeRec_Set(var1Type).aByteSize);
end else result := False;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
3: begin { / }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) div PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) div PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) div PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) div PSGetInt(Var2, var2type);
btU32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtU32(var1^) := tbtU32(var1^) div tbtu8(var2^);
btS8: tbtU32(var1^) := tbtU32(var1^) div cardinal(longint(tbts8(var2^)));
btU16: tbtU32(var1^) := tbtU32(var1^) div tbtu16(var2^);
btS16: tbtU32(var1^) := tbtU32(var1^) div cardinal(longint(tbts16(var2^)));
btU32: tbtU32(var1^) := tbtU32(var1^) div tbtu32(var2^);
btS32: tbtU32(var1^) := tbtU32(var1^) div cardinal(tbts32(var2^));
{$IFNDEF PS_NOINT64} btS64: tbtU32(var1^) := tbtU32(var1^) div tbts64(var2^);{$ENDIF}
btChar: tbtU32(var1^) := tbtU32(var1^) div Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtU32(var1^) := tbtU32(var1^) div Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbtU32(var1^) := tbtU32(var1^) div Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbts32(var1^) := tbts32(var1^) div tbtu8(var2^);
btS8: tbts32(var1^) := tbts32(var1^) div tbts8(var2^);
btU16: tbts32(var1^) := tbts32(var1^) div tbtu16(var2^);
btS16: tbts32(var1^) := tbts32(var1^) div tbts16(var2^);
btU32: tbts32(var1^) := tbts32(var1^) div Longint(tbtu32(var2^));
btS32: tbts32(var1^) := tbts32(var1^) div tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbts32(var1^) := tbts32(var1^) div tbts64(var2^);{$ENDIF}
btChar: tbts32(var1^) := tbts32(var1^) div Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(var1^) := tbts32(var1^) div Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbts32(var1^) := tbts32(var1^) div Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) div PSGetInt64(var2, var2type);
{$ENDIF}
btSingle:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtsingle(var1^) := tbtsingle(var1^) / tbtu8(var2^);
btS8: tbtsingle(var1^) := tbtsingle(var1^) / tbts8(var2^);
btU16: tbtsingle(var1^) := tbtsingle(var1^) / tbtu16(var2^);
btS16: tbtsingle(var1^) := tbtsingle(var1^) / tbts16(var2^);
btU32: tbtsingle(var1^) := tbtsingle(var1^) / tbtu32(var2^);
btS32: tbtsingle(var1^) := tbtsingle(var1^) / tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtsingle(var1^) := tbtsingle(var1^) / tbts64(var2^);{$ENDIF}
btSingle: tbtsingle(var1^) := tbtsingle(var1^) / tbtsingle(var2^);
btDouble: tbtsingle(var1^) := tbtsingle(var1^) / tbtdouble(var2^);
btExtended: tbtsingle(var1^) := tbtsingle(var1^) / tbtextended(var2^);
btCurrency: tbtsingle(var1^) := tbtsingle(var1^) / tbtcurrency(var2^);
btVariant: tbtsingle(var1^) := tbtsingle(var1^) / Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btCurrency:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtu8(var2^);
btS8: tbtcurrency(var1^) := tbtcurrency(var1^) / tbts8(var2^);
btU16: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtu16(var2^);
btS16: tbtcurrency(var1^) := tbtcurrency(var1^) / tbts16(var2^);
btU32: tbtcurrency(var1^) := tbtdouble(var1^) / tbtu32(var2^);
btS32: tbtcurrency(var1^) := tbtcurrency(var1^) / tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtcurrency(var1^) := tbtdouble(var1^) / tbts64(var2^);{$ENDIF}
btSingle: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtsingle(var2^);
btDouble: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtdouble(var2^);
btExtended: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtextended(var2^);
btCurrency: tbtcurrency(var1^) := tbtcurrency(var1^) / tbtcurrency(var2^);
btVariant: tbtcurrency(var1^) := tbtcurrency(var1^) / Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btDouble:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtdouble(var1^) := tbtdouble(var1^) / tbtu8(var2^);
btS8: tbtdouble(var1^) := tbtdouble(var1^) / tbts8(var2^);
btU16: tbtdouble(var1^) := tbtdouble(var1^) / tbtu16(var2^);
btS16: tbtdouble(var1^) := tbtdouble(var1^) / tbts16(var2^);
btU32: tbtdouble(var1^) := tbtdouble(var1^) / tbtu32(var2^);
btS32: tbtdouble(var1^) := tbtdouble(var1^) / tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtdouble(var1^) := tbtdouble(var1^) / tbts64(var2^);{$ENDIF}
btSingle: tbtdouble(var1^) := tbtdouble(var1^) / tbtsingle(var2^);
btDouble: tbtdouble(var1^) := tbtdouble(var1^) / tbtdouble(var2^);
btExtended: tbtdouble(var1^) := tbtdouble(var1^) / tbtextended(var2^);
btCurrency: tbtdouble(var1^) := tbtdouble(var1^) / tbtcurrency(var2^);
btVariant: tbtdouble(var1^) := tbtdouble(var1^) / Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btExtended:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtextended(var1^) := tbtextended(var1^) / tbtu8(var2^);
btS8: tbtextended(var1^) := tbtextended(var1^) / tbts8(var2^);
btU16: tbtextended(var1^) := tbtextended(var1^) / tbtu16(var2^);
btS16: tbtextended(var1^) := tbtextended(var1^) / tbts16(var2^);
btU32: tbtextended(var1^) := tbtextended(var1^) / tbtu32(var2^);
btS32: tbtextended(var1^) := tbtextended(var1^) / tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbtextended(var1^) := tbtextended(var1^) / tbts64(var2^);{$ENDIF}
btSingle: tbtextended(var1^) := tbtextended(var1^) / tbtsingle(var2^);
btDouble: tbtextended(var1^) := tbtextended(var1^) / tbtdouble(var2^);
btExtended: tbtextended(var1^) := tbtextended(var1^) / tbtextended(var2^);
btCurrency: tbtextended(var1^) := tbtextended(var1^) / tbtcurrency(var2^);
btVariant: tbtextended(var1^) := tbtextended(var1^) / Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
begin
if VarIsFloat(variant(var1^)) then
Variant(var1^) := Variant(var1^) / tvar
else
Variant(var1^) := Variant(var1^) div tvar;
end;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
4: begin { MOD }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) mod PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) mod PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) mod PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) mod PSGetInt(Var2, var2type);
btU32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbtU32(var1^) := tbtU32(var1^) mod tbtu8(var2^);
btS8: tbtU32(var1^) := tbtU32(var1^) mod cardinal(longint(tbts8(var2^)));
btU16: tbtU32(var1^) := tbtU32(var1^) mod tbtu16(var2^);
btS16: tbtU32(var1^) := tbtU32(var1^) mod cardinal(longint(tbts16(var2^)));
btU32: tbtU32(var1^) := tbtU32(var1^) mod tbtu32(var2^);
btS32: tbtU32(var1^) := tbtU32(var1^) mod cardinal(tbts32(var2^));
{$IFNDEF PS_NOINT64} btS64: tbtU32(var1^) := tbtU32(var1^) mod tbts64(var2^);{$ENDIF}
btChar: tbtU32(var1^) := tbtU32(var1^) mod Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbtU32(var1^) := tbtU32(var1^) mod Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbtU32(var1^) := tbtU32(var1^) mod Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
btS32:
begin
if var2type.BaseType = btPointer then
begin
var2type := PIFTypeRec(Pointer(IPointer(var2)+PointerSize)^);
var2 := Pointer(var2^);
if (var2 = nil) or (var2type = nil) then raise Exception.Create(RPS_TypeMismatch);
end;
case var2type.BaseType of
btU8: tbts32(var1^) := tbts32(var1^) mod tbtu8(var2^);
btS8: tbts32(var1^) := tbts32(var1^) mod tbts8(var2^);
btU16: tbts32(var1^) := tbts32(var1^) mod tbtu16(var2^);
btS16: tbts32(var1^) := tbts32(var1^) mod tbts16(var2^);
btU32: tbts32(var1^) := tbts32(var1^) mod Longint(tbtu32(var2^));
btS32: tbts32(var1^) := tbts32(var1^) mod tbts32(var2^);
{$IFNDEF PS_NOINT64} btS64: tbts32(var1^) := tbts32(var1^) mod tbts64(var2^);{$ENDIF}
btChar: tbts32(var1^) := tbts32(var1^) mod Ord(tbtchar(var2^));
{$IFNDEF PS_NOWIDESTRING} btWideChar: tbts32(var1^) := tbts32(var1^) mod Ord(tbtwidechar(var2^));{$ENDIF}
btVariant: tbts32(var1^) := tbts32(var1^) mod Variant(var2^);
else raise Exception.Create(RPS_TypeMismatch);
end;
end;
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) mod PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) mod tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
5: begin { SHL }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) shl PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) shl PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) shl PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) shl PSGetInt(Var2, var2type);
btU32: tbtU32(var1^) := tbtU32(var1^) shl PSGetUInt(Var2, var2type);
btS32: tbts32(var1^) := tbts32(var1^) shl PSGetInt(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) shl PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) shl tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
6: begin { SHR }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) shr PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) shr PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) shr PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) shr PSGetInt(Var2, var2type);
btU32: tbtU32(var1^) := tbtU32(var1^) shr PSGetUInt(Var2, var2type);
btS32: tbts32(var1^) := tbts32(var1^) shr PSGetInt(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) shr PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) shr tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
7: begin { AND }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) and PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) and PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) and PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) and PSGetInt(Var2, var2type);
btU32: tbtU32(var1^) := tbtU32(var1^) and PSGetUInt(Var2, var2type);
btS32: tbts32(var1^) := tbts32(var1^) and PSGetInt(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) and PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) and tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
8: begin { OR }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) or PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) or PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) or PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) or PSGetInt(Var2, var2type);
btU32: tbtU32(var1^) := tbtU32(var1^) or PSGetUInt(Var2, var2type);
btS32: tbts32(var1^) := tbts32(var1^) or PSGetInt(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) or PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) or tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
9: begin { XOR }
case var1Type.BaseType of
btU8: tbtU8(var1^) := tbtU8(var1^) xor PSGetUInt(Var2, var2type);
btS8: tbts8(var1^) := tbts8(var1^) xor PSGetInt(Var2, var2type);
btU16: tbtU16(var1^) := tbtU16(var1^) xor PSGetUInt(Var2, var2type);
btS16: tbts16(var1^) := tbts16(var1^) xor PSGetInt(Var2, var2type);
btU32: tbtU32(var1^) := tbtU32(var1^) xor PSGetUInt(Var2, var2type);
btS32: tbts32(var1^) := tbts32(var1^) xor PSGetInt(Var2, var2type);
{$IFNDEF PS_NOINT64}
btS64: tbts64(var1^) := tbts64(var1^) xor PSGetInt64(var2, var2type);
{$ENDIF}
btVariant:
begin
if not IntPIFVariantToVariant(var2, var2type, tvar) then
begin
Result := false;
end else
Variant(var1^) := Variant(var1^) xor tvar;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
10:
begin // as
case var1Type.BaseType of
btClass:
begin
if var2type.BaseType <> btU32 then
Result := False
else
begin
var2type := FTypes[tbtu32(var2^)];
if (var2type = nil) or (var2type.BaseType <> btClass) then
Result := false
else
begin
if not Class_IS(Self, TObject(var1^), var2type) then
Result := false
end;
end;
end;
else begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
if not Result then begin
CMD_Err(erTypeMismatch);
exit;
end;
end;
else begin
Result := False;
CMD_Err(erInvalidOpcodeParameter);
exit;
end;
end;
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
Result := False;
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
exit;
end else
if Tmp is EDivByZero then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EZeroDivide then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EMathError then
begin
Result := False;
CMD_Err3(erMathError,tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
end;
if (tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp)
else
CMD_Err3(erException, '', Tmp);
Result := False;
end;
end;
function TPSExec.ReadVariable(var Dest: TPSResultData; UsePointer: Boolean): Boolean;
var
VarType: Cardinal;
Param: Cardinal;
Tmp: PIfVariant;
at: TPSTypeRec;
begin
if FCurrentPosition + 4 >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
Result := False;
exit;
end;
VarType := FData^[FCurrentPosition];
Inc(FCurrentPosition);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
case VarType of
0:
begin
Dest.FreeType := vtNone;
if Param < PSAddrNegativeStackStart then
begin
if Param >= Cardinal(FGlobalVars.Count) then
begin
CMD_Err(erOutOfGlobalVarsRange);
Result := False;
exit;
end;
Tmp := FGlobalVars.Data[param];
end else
begin
Param := Cardinal(Longint(-PSAddrStackStart) +
Longint(FCurrStackBase) + Longint(Param));
if Param >= Cardinal(FStack.Count) then
begin
CMD_Err(erOutOfStackRange);
Result := False;
exit;
end;
Tmp := FStack.Data[param];
end;
if (UsePointer) and (Tmp.FType.BaseType = btPointer) then
begin
Dest.aType := PPSVariantPointer(Tmp).DestType;
Dest.P := PPSVariantPointer(Tmp).DataDest;
if Dest.P = nil then
begin
Cmd_Err(erNullPointerException);
Result := False;
exit;
end;
end else
begin
Dest.aType := PPSVariantData(Tmp).vi.FType;
Dest.P := @PPSVariantData(Tmp).Data;
end;
end;
1: begin
if Param >= FTypes.Count then
begin
CMD_Err(erInvalidType);
Result := False;
exit;
end;
at := FTypes.Data^[Param];
Param := FTempVars.FLength;
FTempVars.FLength := Cardinal(Longint(Param) + Longint(at.RealSize) + Longint(RTTISize + 3)) and not 3;
if FTempVars.FLength > FTempVars.FCapacity then FtempVars.AdjustLength;
Tmp := Pointer(IPointer(FtempVars.FDataPtr) + IPointer(Param));
if Cardinal(FTempVars.FCount) >= Cardinal(FTempVars.FCapacity) then
begin
Inc(FTempVars.FCapacity, FCapacityInc);// := FCount + 1;
ReAllocMem(FTempVars.FData, FTempVars.FCapacity shl 2);
end;
FTempVars.FData[FTempVars.FCount] := Tmp; // Instead of SetItem
Inc(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
Tmp.FType := at;
Dest.P := @PPSVariantData(Tmp).Data;
Dest.aType := tmp.FType;
dest.FreeType := vtTempVar;
case Dest.aType.BaseType of
btSet:
begin
if not ReadData(Dest.P^, TPSTypeRec_Set(Dest.aType).aByteSize) then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
end;
bts8, btchar, btU8:
begin
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
tbtu8(dest.p^) := FData^[FCurrentPosition];
Inc(FCurrentPosition);
end;
bts16, {$IFNDEF PS_NOWIDESTRING}btwidechar,{$ENDIF} btU16:
begin
if FCurrentPosition + 1>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtu16(dest.p^) := unaligned(tbtu16((@FData^[FCurrentPosition])^));
{$else}
tbtu16(dest.p^) := tbtu16((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 2);
end;
bts32, btU32:
begin
if FCurrentPosition + 3>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtu32(dest.p^) := unaligned(tbtu32((@FData^[FCurrentPosition])^));
{$else}
tbtu32(dest.p^) := tbtu32((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
end;
btProcPtr:
begin
if FCurrentPosition + 3>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtu32(dest.p^) := unaligned(tbtu32((@FData^[FCurrentPosition])^));
{$else}
tbtu32(dest.p^) := tbtu32((@FData^[FCurrentPosition])^);
{$endif}
tbtu32(Pointer(IPointer(dest.p)+PointerSize)^) := 0;
tbtu32(Pointer(IPointer(dest.p)+PointerSize)^) := 0;
Inc(FCurrentPosition, 4);
end;
{$IFNDEF PS_NOINT64}
bts64:
begin
if FCurrentPosition + 7>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbts64(dest.p^) := unaligned(tbts64((@FData^[FCurrentPosition])^));
{$else}
tbts64(dest.p^) := tbts64((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 8);
end;
{$ENDIF}
btSingle:
begin
if FCurrentPosition + (Sizeof(Single)-1)>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtsingle(dest.p^) := unaligned(tbtsingle((@FData^[FCurrentPosition])^));
{$else}
tbtsingle(dest.p^) := tbtsingle((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, Sizeof(Single));
end;
btDouble:
begin
if FCurrentPosition + (Sizeof(Double)-1)>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtdouble(dest.p^) := unaligned(tbtdouble((@FData^[FCurrentPosition])^));
{$else}
tbtdouble(dest.p^) := tbtdouble((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, Sizeof(double));
end;
btExtended:
begin
if FCurrentPosition + (sizeof(Extended)-1)>= FDataLength then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
tbtextended(dest.p^) := unaligned(tbtextended((@FData^[FCurrentPosition])^));
{$else}
tbtextended(dest.p^) := tbtextended((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, sizeof(Extended));
end;
btPchar, btString:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
Pointer(Dest.P^) := nil;
SetLength(tbtstring(Dest.P^), Param);
if Param <> 0 then begin
if not ReadData(tbtstring(Dest.P^)[1], Param) then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
pansichar(dest.p^)[Param] := #0;
end;
end;
{$IFNDEF PS_NOWIDESTRING}
btWidestring:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
Pointer(Dest.P^) := nil;
SetLength(tbtwidestring(Dest.P^), Param);
if not ReadData(tbtwidestring(Dest.P^)[1], Param*2) then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
end;
btUnicodeString:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
Pointer(Dest.P^) := nil;
SetLength(tbtUnicodestring(Dest.P^), Param);
if not ReadData(tbtUnicodestring(Dest.P^)[1], Param*2) then
begin
CMD_Err(erOutOfRange);
FTempVars.Pop;
Result := False;
exit;
end;
end;
{$ENDIF}
else begin
CMD_Err(erInvalidType);
FTempVars.Pop;
Result := False;
exit;
end;
end;
end;
2:
begin
Dest.FreeType := vtNone;
if Param < PSAddrNegativeStackStart then begin
if Param >= Cardinal(FGlobalVars.Count) then
begin
CMD_Err(erOutOfGlobalVarsRange);
Result := False;
exit;
end;
Tmp := FGlobalVars.Data[param];
end
else begin
Param := Cardinal(Longint(-PSAddrStackStart) + Longint(FCurrStackBase) + Longint(Param));
if Param >= Cardinal(FStack.Count) then
begin
CMD_Err(erOutOfStackRange);
Result := False;
exit;
end;
Tmp := FStack.Data[param];
end;
if Tmp.FType.BaseType = btPointer then
begin
Dest.aType := PPSVariantPointer(Tmp).DestType;
Dest.P := PPSVariantPointer(Tmp).DataDest;
if Dest.P = nil then
begin
Cmd_Err(erNullPointerException);
Result := False;
exit;
end;
end else
begin
Dest.aType := PPSVariantData(Tmp).vi.FType;
Dest.P := @PPSVariantData(Tmp).Data;
end;
if FCurrentPosition + 3 >= FDataLength then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
case Dest.aType.BaseType of
btRecord:
begin
if Param > Cardinal(TPSTypeRec_Record(Dest.aType).FFieldTypes.Count) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P) + IPointer(TPSTypeRec_Record(Dest.aType).RealFieldOffsets[Param]));
Dest.aType := TPSTypeRec_Record(Dest.aType).FieldTypes[Param];
end;
btArray:
begin
if Param >= Cardinal(PSDynArrayGetLength(Pointer(Dest.P^), dest.aType)) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P^) + (Param * TPSTypeRec_Array(Dest.aType).FArrayType.RealSize));
Dest.aType := TPSTypeRec_Array(dest.aType).ArrayType;
end;
btStaticArray:
begin
if Param >= Cardinal(TPSTypeRec_StaticArray(Dest.aType).Size) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P) + (Param * TPSTypeRec_Array(Dest.aType).FArrayType.RealSize));
Dest.aType := TPSTypeRec_Array(dest.aType).ArrayType;
end;
else
CMD_Err(erInvalidType);
Result := False;
exit;
end;
if UsePointer and (Dest.aType.BaseType = btPointer) then
begin
Dest.aType := TPSTypeRec(Pointer(IPointer(Dest.p)+PointerSize)^);
Dest.P := Pointer(Dest.p^);
if Dest.P = nil then
begin
Cmd_Err(erNullPointerException);
Result := False;
exit;
end;
end;
end;
3:
begin
Dest.FreeType := vtNone;
if Param < PSAddrNegativeStackStart then begin
if Param >= Cardinal(FGlobalVars.Count) then
begin
CMD_Err(erOutOfGlobalVarsRange);
Result := False;
exit;
end;
Tmp := FGlobalVars.Data[param];
end
else begin
Param := Cardinal(Longint(-PSAddrStackStart) + Longint(FCurrStackBase) + Longint(Param));
if Param >= Cardinal(FStack.Count) then
begin
CMD_Err(erOutOfStackRange);
Result := False;
exit;
end;
Tmp := FStack.Data[param];
end;
if (Tmp.FType.BaseType = btPointer) then
begin
Dest.aType := PPSVariantPointer(Tmp).DestType;
Dest.P := PPSVariantPointer(Tmp).DataDest;
if Dest.P = nil then
begin
Cmd_Err(erNullPointerException);
Result := False;
exit;
end;
end else
begin
Dest.aType := PPSVariantData(Tmp).vi.FType;
Dest.P := @PPSVariantData(Tmp).Data;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
Param := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
Param := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
if Param < PSAddrNegativeStackStart then
begin
if Param >= Cardinal(FGlobalVars.Count) then
begin
CMD_Err(erOutOfGlobalVarsRange);
Result := false;
exit;
end;
Tmp := FGlobalVars[Param];
end
else begin
Param := Cardinal(Longint(-PSAddrStackStart) + Longint(FCurrStackBase) + Longint(Param));
if Cardinal(Param) >= Cardinal(FStack.Count) then
begin
CMD_Err(erOutOfStackRange);
Result := false;
exit;
end;
Tmp := FStack[Param];
end;
case Tmp.FType.BaseType of
btu8: Param := PPSVariantU8(Tmp).Data;
bts8: Param := PPSVariants8(Tmp).Data;
btu16: Param := PPSVariantU16(Tmp).Data;
bts16: Param := PPSVariants16(Tmp).Data;
btu32: Param := PPSVariantU32(Tmp).Data;
bts32: Param := PPSVariants32(Tmp).Data;
btPointer:
begin
if PPSVariantPointer(tmp).DestType <> nil then
begin
case PPSVariantPointer(tmp).DestType.BaseType of
btu8: Param := tbtu8(PPSVariantPointer(tmp).DataDest^);
bts8: Param := tbts8(PPSVariantPointer(tmp).DataDest^);
btu16: Param := tbtu16(PPSVariantPointer(tmp).DataDest^);
bts16: Param := tbts16(PPSVariantPointer(tmp).DataDest^);
btu32, btProcPtr: Param := tbtu32(PPSVariantPointer(tmp).DataDest^);
bts32: Param := tbts32(PPSVariantPointer(tmp).DataDest^);
else
begin
CMD_Err(ErTypeMismatch);
Result := false;
exit;
end;
end;
end else
begin
CMD_Err(ErTypeMismatch);
Result := false;
exit;
end;
end;
else
CMD_Err(ErTypeMismatch);
Result := false;
exit;
end;
case Dest.aType.BaseType of
btRecord:
begin
if Param > Cardinal(TPSTypeRec_Record(Dest.aType).FFieldTypes.Count) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P) + IPointer(TPSTypeRec_Record(Dest.aType).RealFieldOffsets[Param]));
Dest.aType := TPSTypeRec_Record(Dest.aType).FieldTypes[Param];
end;
btArray:
begin
if Cardinal(Param) >= Cardinal(PSDynArrayGetLength(Pointer(Dest.P^), dest.aType)) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P^) + (Param * TPSTypeRec_Array(Dest.aType).FArrayType.RealSize));
Dest.aType := TPSTypeRec_Array(dest.aType).ArrayType;
end;
btStaticArray:
begin
if Param >= Cardinal(TPSTypeRec_StaticArray(Dest.aType).Size) then
begin
CMD_Err(erOutOfRange);
Result := False;
exit;
end;
Dest.P := Pointer(IPointer(Dest.P) + (Param * TPSTypeRec_Array(Dest.aType).FArrayType.RealSize));
Dest.aType := TPSTypeRec_Array(dest.aType).ArrayType;
end;
else
CMD_Err(erInvalidType);
Result := False;
exit;
end;
if UsePointer and (Dest.aType.BaseType = btPointer) then
begin
Dest.aType := TPSTypeRec(Pointer(IPointer(Dest.p)+PointerSize)^);
Dest.P := Pointer(Dest.p^);
if Dest.P = nil then
begin
Cmd_Err(erNullPointerException);
Result := False;
exit;
end;
end;
end;
else
begin
Result := False;
exit;
end;
end;
Result := true;
end;
function TPSExec.DoMinus(Dta: Pointer; aType: TPSTypeRec): Boolean;
begin
case atype.BaseType of
btU8: tbtu8(dta^) := -tbtu8(dta^);
btU16: tbtu16(dta^) := -tbtu16(dta^);
btU32: tbtu32(dta^) := -tbtu32(dta^);
btS8: tbts8(dta^) := -tbts8(dta^);
btS16: tbts16(dta^) := -tbts16(dta^);
btS32: tbts32(dta^) := -tbts32(dta^);
{$IFNDEF PS_NOINT64}
bts64: tbts64(dta^) := -tbts64(dta^);
{$ENDIF}
btSingle: tbtsingle(dta^) := -tbtsingle(dta^);
btDouble: tbtdouble(dta^) := -tbtdouble(dta^);
btExtended: tbtextended(dta^) := -tbtextended(dta^);
btCurrency: tbtcurrency(dta^) := -tbtcurrency(dta^);
btVariant:
begin
try
Variant(dta^) := - Variant(dta^);
except
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
else
begin
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
Result := True;
end;
function TPSExec.DoBooleanNot(Dta: Pointer; aType: TPSTypeRec): Boolean;
begin
case aType.BaseType of
btU8: tbtu8(dta^) := tbtu8(tbtu8(dta^) = 0);
btU16: tbtu16(dta^) := tbtu16(tbtu16(dta^) = 0);
btU32: tbtu32(dta^) := tbtu32(tbtu32(dta^) = 0);
btS8: tbts8(dta^) := tbts8(tbts8(dta^) = 0);
btS16: tbts16(dta^) := tbts16(tbts16(dta^) = 0);
btS32: tbts32(dta^) := tbts32(tbts32(dta^) = 0);
{$IFNDEF PS_NOINT64}
bts64: tbts64(dta^) := tbts64(tbts64(dta^) = 0);
{$ENDIF}
btVariant:
begin
try
Variant(dta^) := Variant(dta^) = 0;
except
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
else
begin
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
Result := True;
end;
procedure TPSExec.Stop;
begin
if FStatus = isRunning then
FStatus := isLoaded
else if FStatus = isPaused then begin
FStatus := isLoaded;
FStack.Clear;
FTempVars.Clear;
end;
end;
function TPSExec.ReadLong(var b: Cardinal): Boolean;
begin
if FCurrentPosition + 3 < FDataLength then begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
b := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
b := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
Result := True;
end
else
Result := False;
end;
function TPSExec.RunProcP(const Params: array of Variant; const Procno: Cardinal): Variant;
var
ParamList: TPSList;
ct: PIFTypeRec;
pvar: PPSVariant;
res, s: tbtString;
Proc: TPSInternalProcRec;
i: Longint;
begin
if ProcNo >= FProcs.Count then raise Exception.Create(RPS_UnknownProcedure);
Proc := GetProcNo(ProcNo) as TPSInternalProcRec;
ParamList := TPSList.Create;
try
s := Proc.ExportDecl;
res := grfw(s);
i := High(Params);
while s <> '' do
begin
if i < 0 then raise Exception.Create(RPS_NotEnoughParameters);
ct := FTypes[StrToInt(copy(GRLW(s), 2, MaxInt))];
if ct = nil then raise Exception.Create(RPS_InvalidParameter);
pvar := CreateHeapVariant(ct);
ParamList.Add(pvar);
if not VariantToPIFVariant(Self, Params[i], pvar) then raise Exception.Create(RPS_InvalidParameter);
Dec(i);
end;
if I > -1 then raise Exception.Create(RPS_TooManyParameters);
if res <> '-1' then
begin
pvar := CreateHeapVariant(FTypes[StrToInt(res)]);
ParamList.Add(pvar);
end else
pvar := nil;
RunProc(ParamList, ProcNo);
RaiseCurrentException;
if pvar <> nil then
begin
PIFVariantToVariant(PVar, Result);
end else
Result := Null;
finally
FreePIFVariantList(ParamList);
end;
end;
function TPSExec.RunProcPVar(var Params: array of Variant; const Procno: Cardinal): Variant;
var
ParamList: TPSList;
ct: PIFTypeRec;
pvar: PPSVariant;
res, s: tbtString;
Proc: TPSInternalProcRec;
i: Longint;
begin
if ProcNo >= FProcs.Count then raise Exception.Create(RPS_UnknownProcedure);
Proc := GetProcNo(ProcNo) as TPSInternalProcRec;
ParamList := TPSList.Create;
try
s := Proc.ExportDecl;
res := grfw(s);
i := High(Params);
while s <> '' do
begin
if i < 0 then raise Exception.Create(RPS_NotEnoughParameters);
ct := FTypes[StrToInt(copy(GRLW(s), 2, MaxInt))];
if ct = nil then raise Exception.Create(RPS_InvalidParameter);
pvar := CreateHeapVariant(ct);
ParamList.Add(pvar);
if not VariantToPIFVariant(Self, Params[i], pvar) then raise Exception.Create(RPS_InvalidParameter);
Dec(i);
end;
if I > -1 then raise Exception.Create(RPS_TooManyParameters);
if res <> '-1' then
begin
pvar := CreateHeapVariant(FTypes[StrToInt(res)]);
ParamList.Add(pvar);
end else
pvar := nil;
RunProc(ParamList, ProcNo);
RaiseCurrentException;
for i := 0 to Length(Params) - 1 do
PIFVariantToVariant(ParamList[i],
Params[(Length(Params) - 1) - i]);
if pvar <> nil then
begin
PIFVariantToVariant(PVar, Result);
end else
Result := Null;
finally
FreePIFVariantList(ParamList);
end;
end;
function TPSExec.RunProcPN(const Params: array of Variant; const ProcName: tbtString): Variant;
var
ProcNo: Cardinal;
begin
ProcNo := GetProc(ProcName);
if ProcNo = InvalidVal then
raise Exception.Create(RPS_UnknownProcedure);
Result := RunProcP(Params, ProcNo);
end;
function TPSExec.RunProc(Params: TPSList; ProcNo: Cardinal): Boolean;
var
I, I2: Integer;
vnew, Vd: PIfVariant;
Cp: TPSInternalProcRec;
oldStatus: TPSStatus;
tmp: TObject;
begin
if FStatus <> isNotLoaded then begin
if ProcNo >= FProcs.Count then begin
CMD_Err(erOutOfProcRange);
Result := False;
exit;
end;
if Params <> nil then
begin
for I := 0 to Params.Count - 1 do
begin
vd := Params[I];
if vd = nil then
begin
Result := False;
exit;
end;
vnew := FStack.PushType(FindType2(btPointer));
if vd.FType.BaseType = btPointer then
begin
PPSVariantPointer(vnew).DestType := PPSVariantPointer(vd).DestType;
PPSVariantPointer(vnew).DataDest := PPSVariantPointer(vd).DataDest;
end else begin
PPSVariantPointer(vnew).DestType := vd.FType;
PPSVariantPointer(vnew).DataDest := @PPSVariantData(vd).Data;
end;
end;
end;
I := FStack.Count;
Cp := FCurrProc;
oldStatus := FStatus;
if TPSProcRec(FProcs.Data^[ProcNo]).ClassType <> TPSExternalProcRec then
begin
vd := FStack.PushType(FReturnAddressType);
PPSVariantReturnAddress(vd).Addr.ProcNo := nil;
PPSVariantReturnAddress(vd).Addr.Position := FCurrentPosition;
PPSVariantReturnAddress(vd).Addr.StackBase := FCurrStackBase;
FCurrStackBase := FStack.Count - 1;
FCurrProc := FProcs.Data^[ProcNo];
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
FCurrentPosition := 0;
FStatus := isPaused;
Result := RunScript;
end else
begin
try
Result := TPSExternalProcRec(FProcs.Data^[ProcNo]).ProcPtr(Self, TPSExternalProcRec(FProcs.Data^[ProcNo]), FGlobalVars, FStack);
if not Result then
begin
if ExEx = erNoError then
CMD_Err(erCouldNotCallProc);
end;
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
Result := False;
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
exit;
end else
if Tmp is EDivByZero then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EZeroDivide then
begin
Result := False;
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
if Tmp is EMathError then
begin
Result := False;
CMD_Err3(erMathError, tbtString(Exception(Tmp).Message), Tmp);
Exit;
end;
end;
if (Tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp) else
CMD_Err3(erException, '', Tmp);
Result := false;
exit;
end;
end;
if Cardinal(FStack.Count) > Cardinal(I) then
begin
vd := FStack[I];
if (vd <> nil) and (vd.FType = FReturnAddressType) then
begin
for i2 := FStack.Count - 1 downto I + 1 do
FStack.Pop;
FCurrentPosition := PPSVariantReturnAddress(vd).Addr.Position;
FCurrStackBase := PPSVariantReturnAddress(vd).Addr.StackBase;
FStack.Pop;
end;
end;
if Params <> nil then
begin
for I := Params.Count - 1 downto 0 do
begin
if FStack.Count = 0 then
Break
else
FStack.Pop;
end;
end;
FStatus := oldStatus;
FCurrProc := Cp;
if FCurrProc <> nil then
begin
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
end;
end else begin
Result := False;
end;
end;
function TPSExec.FindType2(BaseType: TPSBaseType): PIFTypeRec;
var
l: Cardinal;
begin
FindType2 := FindType(0, BaseType, l);
end;
function TPSExec.FindType(StartAt: Cardinal; BaseType: TPSBaseType; var l: Cardinal): PIFTypeRec;
var
I: Integer;
n: PIFTypeRec;
begin
for I := StartAt to FTypes.Count - 1 do begin
n := FTypes[I];
if n.BaseType = BaseType then begin
l := I;
Result := n;
exit;
end;
end;
Result := nil;
end;
function TPSExec.GetTypeNo(l: Cardinal): PIFTypeRec;
begin
Result := FTypes[l];
end;
function TPSExec.GetProc(const Name: tbtString): Cardinal;
var
MM,
I: Longint;
n: PIFProcRec;
s: tbtString;
begin
s := FastUpperCase(name);
MM := MakeHash(s);
for I := FProcs.Count - 1 downto 0 do begin
n := FProcs.Data^[I];
if (n.ClassType = TPSInternalProcRec) and (TPSInternalProcRec(n).ExportNameHash = MM) and (TPSInternalProcRec(n).ExportName = s) then begin
Result := I;
exit;
end else if (n.ClassType = TPSExternalProcRec) and (TPSExternalProcRec(n).Name = s) then
begin
Result := I;
exit;
end;
end;
Result := InvalidVal;
end;
function TPSExec.GetType(const Name: tbtString): Cardinal;
var
MM,
I: Longint;
n: PIFTypeRec;
s: tbtString;
begin
s := FastUpperCase(name);
MM := MakeHash(s);
for I := 0 to FTypes.Count - 1 do begin
n := FTypes.Data^[I];
if (Length(n.ExportName) <> 0) and (n.ExportNameHash = MM) and (n.ExportName = s) then begin
Result := I;
exit;
end;
end;
Result := InvalidVal;
end;
procedure TPSExec.AddResource(Proc, P: Pointer);
var
Temp: PPSResource;
begin
New(Temp);
Temp^.Proc := Proc;
Temp^.P := p;
FResources.Add(temp);
end;
procedure TPSExec.DeleteResource(P: Pointer);
var
i: Longint;
begin
for i := Longint(FResources.Count) -1 downto 0 do
begin
if PPSResource(FResources[I])^.P = P then
begin
FResources.Delete(I);
exit;
end;
end;
end;
function TPSExec.FindProcResource(Proc: Pointer): Pointer;
var
I: Longint;
temp: PPSResource;
begin
for i := Longint(FResources.Count) -1 downto 0 do
begin
temp := FResources[I];
if temp^.Proc = proc then
begin
Result := Temp^.P;
exit;
end;
end;
Result := nil;
end;
function TPSExec.IsValidResource(Proc, P: Pointer): Boolean;
var
i: Longint;
temp: PPSResource;
begin
for i := 0 to Longint(FResources.Count) -1 do
begin
temp := FResources[i];
if temp^.p = p then begin
result := temp^.Proc = Proc;
exit;
end;
end;
result := false;
end;
function TPSExec.FindProcResource2(Proc: Pointer;
var StartAt: Longint): Pointer;
var
I: Longint;
temp: PPSResource;
begin
if StartAt > longint(FResources.Count) -1 then
StartAt := longint(FResources.Count) -1;
for i := StartAt downto 0 do
begin
temp := FResources[I];
if temp^.Proc = proc then
begin
Result := Temp^.P;
StartAt := i -1;
exit;
end;
end;
StartAt := -1;
Result := nil;
end;
procedure TPSExec.RunLine;
begin
if @FOnRunLine <> nil then
FOnRunLine(Self);
end;
procedure TPSExec.CMD_Err3(EC: TPSError; const Param: tbtString; ExObject: TObject);
var
l: Longint;
C: Cardinal;
begin
C := InvalidVal;
for l := FProcs.Count - 1 downto 0 do begin
if FProcs.Data^[l] = FCurrProc then begin
C := l;
break;
end;
end;
if @FOnException <> nil then
FOnException(Self, Ec, Param, ExObject, C, FCurrentPosition);
ExceptionProc(C, FCurrentPosition, EC, Param, ExObject);
end;
procedure TPSExec.AddSpecialProcImport(const FName: tbtString;
P: TPSOnSpecialProcImport; Tag: Pointer);
var
N: PSpecialProc;
begin
New(n);
n^.P := P;
N^.Name := FName;
n^.namehash := MakeHash(N^.Name);
n^.Tag := Tag;
FSpecialProcList.Add(n);
end;
function TPSExec.GetVar(const Name: tbtString): Cardinal;
var
l: Longint;
h: longint;
s: tbtString;
p: PPSExportedVar;
begin
s := FastUpperCase(name);
h := MakeHash(s);
for l := FExportedVars.Count - 1 downto 0 do
begin
p := FexportedVars.Data^[L];
if (p^.FNameHash = h) and(p^.FName=s) then
begin
Result := L;
exit;
end;
end;
Result := InvalidVal;
end;
function TPSExec.GetVarNo(C: Cardinal): PIFVariant;
begin
Result := FGlobalVars[c];
end;
function TPSExec.GetVar2(const Name: tbtString): PIFVariant;
begin
Result := GetVarNo(GetVar(Name));
end;
function TPSExec.GetProcNo(C: Cardinal): PIFProcRec;
begin
Result := FProcs[c];
end;
function TPSExec.DoIntegerNot(Dta: Pointer; aType: TPSTypeRec): Boolean;
begin
case aType.BaseType of
btU8: tbtu8(dta^) := not tbtu8(dta^);
btU16: tbtu16(dta^) := not tbtu16(dta^);
btU32: tbtu32(dta^) := not tbtu32(dta^);
btS8: tbts8(dta^) := not tbts8(dta^);
btS16: tbts16(dta^) := not tbts16(dta^);
btS32: tbts32(dta^) := not tbts32(dta^);
{$IFNDEF PS_NOINT64}
bts64: tbts64(dta^) := not tbts64(dta^);
{$ENDIF}
btVariant:
begin
try
Variant(dta^) := not Variant(dta^);
except
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
else
begin
CMD_Err(erTypeMismatch);
Result := False;
exit;
end;
end;
Result := True;
end;
type
TMyRunLine = procedure(Self: TPSExec);
TPSRunLine = procedure of object;
function GetRunLine(FOnRunLine: TPSOnLineEvent; meth: TPSRunLine): TMyRunLine;
begin
if (TMethod(Meth).Code = @TPSExec.RunLine) and (@FOnRunLine = nil) then
Result := nil
else
Result := TMethod(Meth).Code;
end;
function TPSExec.RunScript: Boolean;
var
CalcType: Cardinal;
vd, vs, v3: TPSResultData;
vtemp: PIFVariant;
p: Cardinal;
P2: Longint;
u: PIFProcRec;
Cmd: Cardinal;
I: Longint;
pp: TPSExceptionHandler;
FExitPoint: Cardinal;
FOldStatus: TPSStatus;
Tmp: TObject;
btemp: Boolean;
CallRunline: TMyRunLine;
begin
FExitPoint := InvalidVal;
if FStatus = isLoaded then
begin
for i := FExceptionStack.Count -1 downto 0 do
begin
pp := FExceptionStack.Data[i];
pp.Free;
end;
FExceptionStack.Clear;
end;
ExceptionProc(InvalidVal, InvalidVal, erNoError, '', nil);
RunScript := True;
FOldStatus := FStatus;
case FStatus of
isLoaded: begin
if FMainProc = InvalidVal then
begin
RunScript := False;
exit;
end;
FStatus := isRunning;
FCurrProc := FProcs.Data^[FMainProc];
if FCurrProc.ClassType = TPSExternalProcRec then begin
CMD_Err(erNoMainProc);
FStatus := isLoaded;
exit;
end;
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
FCurrStackBase := InvalidVal;
FCurrentPosition := 0;
end;
isPaused: begin
FStatus := isRunning;
end;
else begin
RunScript := False;
exit;
end;
end;
CallRunLine := GetRunLine(FOnRunLine, Self.RunLine);
repeat
FStatus := isRunning;
// Cmd := InvalidVal;
while FStatus = isRunning do
begin
if @CallRunLine <> nil then CallRunLine(Self);
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
break;
end;
// if cmd <> invalidval then ProfilerExitProc(Cmd+1);
cmd := FData^[FCurrentPosition];
// ProfilerEnterProc(Cmd+1);
Inc(FCurrentPosition);
case Cmd of
CM_A:
begin
if not ReadVariable(vd, True) then
break;
if vd.FreeType <> vtNone then
begin
if vd.aType.BaseType in NeedFinalization then
FinalizeVariant(vd.P, vd.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if not ReadVariable(vs, True) then
Break;
// nx change end
{ if (vd.aType.BaseType = btClass) and (vs.aType.BaseType in [btS32]) then
DWord(vd.P^):=Dword(vs.P^)
else
if (vd.aType.BaseType in [btS32]) and (vs.aType.BaseType = btClass) then
DWord(vd.P^):=Dword(vs.P^)
else}
// nx change start
if not SetVariantValue(vd.P, vs.P, vd.aType, vs.aType) then
begin
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
Break;
end;
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
end;
CM_CA:
begin
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
break;
end;
calctype := FData^[FCurrentPosition];
Inc(FCurrentPosition);
if not ReadVariable(vd, True) then
break;
if vd.FreeType <> vtNone then
begin
if vd.aType.BaseType in NeedFinalization then
FinalizeVariant(vd.P, vd.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if not ReadVariable(vs, True) then
Break;
if not DoCalc(vd.P, vs.p, vd.aType, vs.aType, CalcType) then
begin
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
Break;
end;
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
end;
CM_P:
begin
if not ReadVariable(vs, True) then
Break;
vtemp := FStack.PushType(vs.aType);
vd.P := Pointer(IPointer(vtemp)+PointerSize);
vd.aType := Pointer(vtemp^);
vd.FreeType := vtNone;
if not SetVariantValue(Vd.P, vs.P, vd.aType, vs.aType) then
begin
if vs.FreeType <> vtnone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
break;
end;
if vs.FreeType <> vtnone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
end;
CM_PV:
begin
if not ReadVariable(vs, True) then
Break;
if vs.FreeType <> vtnone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
vtemp := FStack.PushType(FindType2(btPointer));
if vs.aType.BaseType = btPointer then
begin
PPSVariantPointer(vtemp).DataDest := Pointer(vs.p^);
PPSVariantPointer(vtemp).DestType := Pointer(Pointer(IPointer(vs.P)+PointerSize)^);
PPSVariantPointer(vtemp).FreeIt := False;
end
else
begin
PPSVariantPointer(vtemp).DataDest := vs.p;
PPSVariantPointer(vtemp).DestType := vs.aType;
PPSVariantPointer(vtemp).FreeIt := False;
end;
end;
CM_PO: begin
if FStack.Count = 0 then
begin
CMD_Err(erOutOfStackRange);
break;
end;
vtemp := FStack.Data^[FStack.Count -1];
if (vtemp = nil) or (vtemp.FType.BaseType = btReturnAddress) then
begin
CMD_Err(erOutOfStackRange);
break;
end;
FStack.Pop;
(* Dec(FStack.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FStack.FCheckCount);
if FStack.FCheckCount > FMaxCheckCount then FStack.Recreate;
{$ENDIF}
FStack.FLength := Longint(IPointer(vtemp) - IPointer(FStack.DataPtr));
if TPSTypeRec(vtemp^).BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(vtemp)+PointerSize), Pointer(vtemp^));
if ((FStack.FCapacity - FStack.FLength) shr 12) > 2 then FStack.AdjustLength;*)
end;
Cm_C: begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
if p >= FProcs.Count then begin
CMD_Err(erOutOfProcRange);
break;
end;
u := FProcs.Data^[p];
if u.ClassType = TPSExternalProcRec then begin
try
if not TPSExternalProcRec(u).ProcPtr(Self, TPSExternalProcRec(u), FGlobalVars, FStack) then begin
if ExEx = erNoError then
CMD_Err(erCouldNotCallProc);
Break;
end;
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
Break;
end else
if Tmp is EDivByZero then
begin
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Break;
end;
if Tmp is EZeroDivide then
begin
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
Break;
end;
if Tmp is EMathError then
begin
CMD_Err3(erMathError, tbtString(Exception(Tmp).Message), Tmp);
Break;
end;
end;
if (Tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp) else
CMD_Err3(erException, '', Tmp);
Break;
end;
end
else begin
Vtemp := Fstack.PushType(FReturnAddressType);
vd.P := Pointer(IPointer(VTemp)+PointerSize);
vd.aType := pointer(vtemp^);
vd.FreeType := vtNone;
PPSVariantReturnAddress(vtemp).Addr.ProcNo := FCurrProc;
PPSVariantReturnAddress(vtemp).Addr.Position := FCurrentPosition;
PPSVariantReturnAddress(vtemp).Addr.StackBase := FCurrStackBase;
FCurrStackBase := FStack.Count - 1;
FCurrProc := TPSInternalProcRec(u);
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
FCurrentPosition := 0;
end;
end;
CM_PG:
begin
FStack.Pop;
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
FCurrentPosition := FCurrentPosition + p;
end;
CM_P2G:
begin
FStack.Pop;
FStack.Pop;
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
FCurrentPosition := FCurrentPosition + p;
end;
Cm_G:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
FCurrentPosition := FCurrentPosition + p;
end;
Cm_CG:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
btemp := true;
if not ReadVariable(vs, btemp) then
Break;
case Vs.aType.BaseType of
btU8: btemp := tbtu8(vs.p^) <> 0;
btS8: btemp := tbts8(vs.p^) <> 0;
btU16: btemp := tbtu16(vs.p^) <> 0;
btS16: btemp := tbts16(vs.p^) <> 0;
btU32: btemp := tbtu32(vs.p^) <> 0;
btS32: btemp := tbts32(vs.p^) <> 0;
else begin
CMD_Err(erInvalidType);
if vs.FreeType <> vtNone then
FTempVars.Pop;
break;
end;
end;
if vs.FreeType <> vtNone then
FTempVars.Pop;
if btemp then
FCurrentPosition := FCurrentPosition + p;
end;
Cm_CNG:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
btemp := true;
if not ReadVariable(vs, BTemp) then
Break;
case Vs.aType.BaseType of
btU8: btemp := tbtu8(vs.p^) = 0;
btS8: btemp := tbts8(vs.p^) = 0;
btU16: btemp := tbtu16(vs.p^) = 0;
btS16: btemp := tbts16(vs.p^) = 0;
btU32: btemp := tbtu32(vs.p^) = 0;
btS32: btemp := tbts32(vs.p^) = 0;
else begin
CMD_Err(erInvalidType);
if vs.FreeType <> vtNone then
FTempVars.Pop;
break;
end;
end;
if vs.FreeType <> vtNone then
FTempVars.Pop;
if btemp then
FCurrentPosition := FCurrentPosition + p;
end;
Cm_R: begin
FExitPoint := FCurrentPosition -1;
P2 := 0;
if FExceptionStack.Count > 0 then
begin
pp := FExceptionStack.Data[FExceptionStack.Count -1];
while (pp.BasePtr = FCurrStackBase) or ((pp.BasePtr > FCurrStackBase) and (pp.BasePtr <> InvalidVal)) do
begin
if pp.StackSize < Cardinal(FStack.Count) then
begin
for p := Longint(FStack.count) -1 downto Longint(pp.StackSize) do
FStack.Pop
end;
FCurrStackBase := pp.BasePtr;
if pp.FinallyOffset <> InvalidVal then
begin
FCurrentPosition := pp.FinallyOffset;
pp.FinallyOffset := InvalidVal;
p2 := 1;
break;
end else if pp.Finally2Offset <> InvalidVal then
begin
FCurrentPosition := pp.Finally2Offset;
pp.Finally2Offset := InvalidVal;
p2 := 1;
break;
end else
begin
pp.Free;
FExceptionStack.DeleteLast;
if FExceptionStack.Count = 0 then break;
pp := FExceptionStack.Data[FExceptionStack.Count -1];
end;
end;
end;
if p2 = 0 then
begin
FExitPoint := InvalidVal;
if FCurrStackBase = InvalidVal then
begin
FStatus := FOldStatus;
break;
end;
for P2 := FStack.Count - 1 downto FCurrStackBase + 1 do
FStack.Pop;
if FCurrStackBase >= FStack.Count then
begin
FStatus := FOldStatus;
break;
end;
vtemp := FStack.Data[FCurrStackBase];
FCurrProc := PPSVariantReturnAddress(vtemp).Addr.ProcNo;
FCurrentPosition := PPSVariantReturnAddress(vtemp).Addr.Position;
FCurrStackBase := PPSVariantReturnAddress(vtemp).Addr.StackBase;
FStack.Pop;
if FCurrProc = nil then begin
FStatus := FOldStatus;
break;
end;
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
end;
end;
Cm_Pt: begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
if p > FTypes.Count then
begin
CMD_Err(erInvalidType);
break;
end;
FStack.PushType(FTypes.Data^[p]);
end;
cm_bn:
begin
if not ReadVariable(vd, True) then
Break;
if vd.FreeType <> vtNone then
FTempVars.Pop;
if not DoBooleanNot(Vd.P, vd.aType) then
break;
end;
cm_in:
begin
if not ReadVariable(vd, True) then
Break;
if vd.FreeType <> vtNone then
FTempVars.Pop;
if not DoIntegerNot(Vd.P, vd.aType) then
break;
end;
cm_vm:
begin
if not ReadVariable(vd, True) then
Break;
if vd.FreeType <> vtNone then
FTempVars.Pop;
if not DoMinus(Vd.P, vd.aType) then
break;
end;
cm_sf:
begin
if not ReadVariable(vd, True) then
Break;
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
if vd.FreeType <> vtNone then
FTempVars.Pop;
break;
end;
p := FData^[FCurrentPosition];
Inc(FCurrentPosition);
case Vd.aType.BaseType of
btU8: FJumpFlag := tbtu8(Vd.p^) <> 0;
btS8: FJumpFlag := tbts8(Vd.p^) <> 0;
btU16: FJumpFlag := tbtu16(Vd.p^) <> 0;
btS16: FJumpFlag := tbts16(Vd.p^) <> 0;
btU32: FJumpFlag := tbtu32(Vd.p^) <> 0;
btS32: FJumpFlag := tbts32(Vd.p^) <> 0;
else begin
CMD_Err(erInvalidType);
if vd.FreeType <> vtNone then
FTempVars.Pop;
break;
end;
end;
if p <> 0 then
FJumpFlag := not FJumpFlag;
if vd.FreeType <> vtNone then
FTempVars.Pop;
end;
cm_fg:
begin
if FCurrentPosition + 3 >= FDataLength then
begin
Cmd_Err(erOutOfRange);
Break;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
p := unaligned(Cardinal((@FData^[FCurrentPosition])^));
{$else}
p := Cardinal((@FData^[FCurrentPosition])^);
{$endif}
Inc(FCurrentPosition, 4);
if FJumpFlag then
FCurrentPosition := FCurrentPosition + p;
end;
cm_puexh:
begin
pp := TPSExceptionHandler.Create;
pp.CurrProc := FCurrProc;
pp.BasePtr :=FCurrStackBase;
pp.StackSize := FStack.Count;
if not ReadLong(pp.FinallyOffset) then begin
CMD_Err(erOutOfRange);
pp.Free;
Break;
end;
if not ReadLong(pp.ExceptOffset) then begin
CMD_Err(erOutOfRange);
pp.Free;
Break;
end;
if not ReadLong(pp.Finally2Offset) then begin
CMD_Err(erOutOfRange);
pp.Free;
Break;
end;
if not ReadLong(pp.EndOfBlock) then begin
CMD_Err(erOutOfRange);
pp.Free;
Break;
end;
if pp.FinallyOffset <> InvalidVal then
pp.FinallyOffset := pp.FinallyOffset + FCurrentPosition;
if pp.ExceptOffset <> InvalidVal then
pp.ExceptOffset := pp.ExceptOffset + FCurrentPosition;
if pp.Finally2Offset <> InvalidVal then
pp.Finally2Offset := pp.Finally2Offset + FCurrentPosition;
if pp.EndOfBlock <> InvalidVal then
pp.EndOfBlock := pp.EndOfBlock + FCurrentPosition;
if ((pp.FinallyOffset <> InvalidVal) and (pp.FinallyOffset >= FDataLength)) or
((pp.ExceptOffset <> InvalidVal) and (pp.ExceptOffset >= FDataLength)) or
((pp.Finally2Offset <> InvalidVal) and (pp.Finally2Offset >= FDataLength)) or
((pp.EndOfBlock <> InvalidVal) and (pp.EndOfBlock >= FDataLength)) then
begin
CMD_Err(ErOutOfRange);
pp.Free;
Break;
end;
FExceptionStack.Add(pp);
end;
cm_poexh:
begin
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
break;
end;
p := FData^[FCurrentPosition];
Inc(FCurrentPosition);
case p of
2:
begin
if (FExceptionStack.Count = 0) then
begin
cmd_err(ErOutOfRange);
Break;
end;
pp := FExceptionStack.Data^[FExceptionStack.Count -1];
if pp = nil then begin
cmd_err(ErOutOfRange);
Break;
end;
pp.ExceptOffset := InvalidVal;
if pp.Finally2Offset <> InvalidVal then
begin
FCurrentPosition := pp.Finally2Offset;
pp.Finally2Offset := InvalidVal;
end else begin
p := pp.EndOfBlock;
pp.Free;
FExceptionStack.DeleteLast;
if FExitPoint <> InvalidVal then
begin
FCurrentPosition := FExitPoint;
end else begin
FCurrentPosition := p;
end;
end;
end;
0:
begin
pp := FExceptionStack.Data^[FExceptionStack.Count -1];
if pp = nil then begin
cmd_err(ErOutOfRange);
Break;
end;
if pp.FinallyOffset <> InvalidVal then
begin
FCurrentPosition := pp.FinallyOffset;
pp.FinallyOffset := InvalidVal;
end else if pp.Finally2Offset <> InvalidVal then
begin
FCurrentPosition := pp.Finally2Offset;
pp.ExceptOffset := InvalidVal;
end else begin
p := pp.EndOfBlock;
pp.Free;
FExceptionStack.DeleteLast;
if ExEx <> eNoError then
begin
Tmp := ExObject;
ExObject := nil;
ExceptionProc(ExProc, ExPos, ExEx, ExParam, Tmp);
end else
if FExitPoint <> InvalidVal then
begin
FCurrentPosition := FExitPoint;
end else begin
FCurrentPosition := p;
end;
end;
end;
1:
begin
pp := FExceptionStack.Data^[FExceptionStack.Count -1];
if pp = nil then begin
cmd_err(ErOutOfRange);
Break;
end;
if (ExEx <> ENoError) and (pp.ExceptOffset <> InvalidVal) and (pp.ExceptOffset <> InvalidVal -1) then
begin
FCurrentPosition := pp.ExceptOffset;
pp.ExceptOffset := Cardinal(InvalidVal -1);
pp.ExceptionData := ExEx;
pp.ExceptionObject := ExObject;
pp.ExceptionParam := ExParam;
ExEx := ErNoError;
ExObject := nil;
end else if (pp.Finally2Offset <> InvalidVal) then
begin
FCurrentPosition := pp.Finally2Offset;
pp.Finally2Offset := InvalidVal;
end else begin
p := pp.EndOfBlock;
pp.Free;
FExceptionStack.DeleteLast;
if (ExEx <> eNoError) and (p <> InvalidVal) then
begin
Tmp := ExObject;
ExObject := nil;
ExceptionProc(ExProc, ExPos, ExEx, ExParam, Tmp);
end else
if FExitPoint <> InvalidVal then
begin
FCurrentPosition := FExitPoint;
end else begin
FCurrentPosition := p;
end;
end;
end;
3:
begin
pp := FExceptionStack.Data^[FExceptionStack.Count -1];
if pp = nil then begin
cmd_err(ErOutOfRange);
Break;
end;
p := pp.EndOfBlock;
pp.Free;
FExceptionStack.DeleteLast;
if ExEx <> eNoError then
begin
Tmp := ExObject;
ExObject := nil;
ExceptionProc(ExProc, ExPos, ExEx, ExParam, Tmp);
end else
if FExitPoint <> InvalidVal then
begin
FCurrentPosition := FExitPoint;
end else begin
FCurrentPosition := p;
end;
end;
end;
end;
cm_spc:
begin
if not ReadVariable(vd, False) then
Break;
if vd.FreeType <> vtNone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if (Vd.aType.BaseType <> btPointer) then
begin
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if not ReadVariable(vs, False) then
Break;
if Pointer(Pointer(IPointer(vD.P)+PointerSize2)^) <> nil then
DestroyHeapVariant2(Pointer(vD.P^), Pointer(Pointer(IPointer(vd.P)+PointerSize)^));
if vs.aType.BaseType = btPointer then
begin
if Pointer(vs.P^) <> nil then
begin
Pointer(vd.P^) := CreateHeapVariant2(Pointer(Pointer(IPointer(vs.P) + PointerSize)^));
Pointer(Pointer(IPointer(vd.P) + PointerSize)^) := Pointer(Pointer(IPointer(vs.P) + PointerSize)^);
Pointer(Pointer(IPointer(vd.P) + PointerSize2)^) := Pointer(1);
if not CopyArrayContents(Pointer(vd.P^), Pointer(vs.P^), 1, Pointer(Pointer(IPointer(vd.P) + PointerSize)^)) then
begin
if vs.FreeType <> vtNone then
FTempVars.Pop;
CMD_Err(ErTypeMismatch);
break;
end;
end else
begin
Pointer(vd.P^) := nil;
Pointer(Pointer(IPointer(vd.P) + PointerSize)^) := nil;
Pointer(Pointer(IPointer(vd.P) + PointerSize2)^) := nil;
end;
end else begin
Pointer(vd.P^) := CreateHeapVariant2(vs.aType);
Pointer(Pointer(IPointer(vd.P) + PointerSize)^) := vs.aType;
LongBool(Pointer(IPointer(vd.P) + PointerSize2)^) := true;
if not CopyArrayContents(Pointer(vd.P^), vs.P, 1, vs.aType) then
begin
if vs.FreeType <> vtNone then
FTempVars.Pop;
CMD_Err(ErTypeMismatch);
break;
end;
end;
if vs.FreeType <> vtNone then
FTempVars.Pop;
end;
cm_nop:;
cm_dec:
begin
if not ReadVariable(vd, True) then
Break;
if vd.FreeType <> vtNone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
case vd.aType.BaseType of
btu8: dec(tbtu8(vd.P^));
bts8: dec(tbts8(vd.P^));
btu16: dec(tbtu16(vd.P^));
bts16: dec(tbts16(vd.P^));
btu32: dec(tbtu32(vd.P^));
bts32: dec(tbts32(vd.P^));
{$IFNDEF PS_NOINT64}
bts64: dec(tbts64(vd.P^));
{$ENDIF}
else
begin
CMD_Err(ErTypeMismatch);
Break;
end;
end;
end;
cm_inc:
begin
if not ReadVariable(vd, True) then
Break;
if vd.FreeType <> vtNone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
case vd.aType.BaseType of
btu8: Inc(tbtu8(vd.P^));
bts8: Inc(tbts8(vd.P^));
btu16: Inc(tbtu16(vd.P^));
bts16: Inc(tbts16(vd.P^));
btu32: Inc(tbtu32(vd.P^));
bts32: Inc(tbts32(vd.P^));
{$IFNDEF PS_NOINT64}
bts64: Inc(tbts64(vd.P^));
{$ENDIF}
else
begin
CMD_Err(ErTypeMismatch);
Break;
end;
end;
end;
cm_sp:
begin
if not ReadVariable(vd, False) then
Break;
if vd.FreeType <> vtNone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if (Vd.aType.BaseType <> btPointer) then
begin
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if not ReadVariable(vs, False) then
Break;
if vs.FreeType <> vtNone then
begin
FTempVars.Pop;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if vs.aType.BaseType = btPointer then
begin
Pointer(vd.P^) := Pointer(vs.p^);
Pointer(Pointer(IPointer(vd.P)+PointerSize)^) := Pointer(Pointer(IPointer(vs.P)+PointerSize)^);
end
else
begin
Pointer(vd.P^) := vs.P;
Pointer(Pointer(IPointer(vd.P)+PointerSize)^) := vs.aType;
end;
end;
Cm_cv:
begin
if not ReadVariable(vd, True) then
Break;
if vd.aType.BaseType <> btProcPtr then
begin
if vd.FreeType <> vtNone then
FTempVars.Pop;
CMD_Err(ErTypeMismatch);
break;
end;
p := tbtu32(vd.P^);
if vd.FreeType <> vtNone then
FTempVars.Pop;
if (p = 0) and (Pointer(Pointer(IPointer(vd.p)+PointerSize2)^) <> nil) then
begin
if not InvokeExternalMethod(TPSTypeRec_ProcPtr(vd.aType), Pointer(Pointer(IPointer(vd.p)+PointerSize)^), Pointer(Pointer(IPointer(vd.p)+PointerSize2)^)) then
Break;
end else begin
if (p >= FProcs.Count) or (p = FMainProc) then begin
CMD_Err(erOutOfProcRange);
break;
end;
u := FProcs.Data^[p];
if u.ClassType = TPSExternalProcRec then begin
try
if not TPSExternalProcRec(u).ProcPtr(Self, TPSExternalProcRec(u), FGlobalVars, FStack) then begin
if ExEx = erNoError then
CMD_Err(erCouldNotCallProc);
Break;
end;
except
{$IFDEF DELPHI6UP}
Tmp := AcquireExceptionObject;
{$ELSE}
if RaiseList <> nil then
begin
Tmp := Exception(PRaiseFrame(RaiseList)^.ExceptObject);
PRaiseFrame(RaiseList)^.ExceptObject := nil;
end else
Tmp := nil;
{$ENDIF}
if Tmp <> nil then
begin
if Tmp is EPSException then
begin
ExceptionProc(EPSException(tmp).ProcNo, EPSException(tmp).ProcPos, erCustomError, tbtString(EPSException(tmp).Message), nil);
break;
end else
if Tmp is EDivByZero then
begin
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
break;
end;
if Tmp is EZeroDivide then
begin
CMD_Err3(erDivideByZero, tbtString(Exception(Tmp).Message), Tmp);
break;
end;
if Tmp is EMathError then
begin
CMD_Err3(erMathError, tbtString(Exception(Tmp).Message), Tmp);
break;
end;
end;
if (Tmp <> nil) and (Tmp is Exception) then
CMD_Err3(erException, tbtString(Exception(Tmp).Message), Tmp) else
CMD_Err3(erException, '', Tmp);
Break;
end;
end
else begin
vtemp := FStack.PushType(FReturnAddressType);
PPSVariantReturnAddress(vtemp).Addr.ProcNo := FCurrProc;
PPSVariantReturnAddress(vtemp).Addr.Position := FCurrentPosition;
PPSVariantReturnAddress(vtemp).Addr.StackBase := FCurrStackBase;
FCurrStackBase := FStack.Count - 1;
FCurrProc := TPSInternalProcRec(u);
FData := FCurrProc.Data;
FDataLength := FCurrProc.Length;
FCurrentPosition := 0;
end;
end;
end;
CM_CO:
begin
if FCurrentPosition >= FDataLength then
begin
CMD_Err(erOutOfRange); // Error
break;
end;
calctype := FData^[FCurrentPosition];
Inc(FCurrentPosition);
if not ReadVariable(v3, True) then
Break;
if v3.FreeType <> vtNone then
begin
if v3.aType.BaseType in NeedFinalization then
FinalizeVariant(v3.P, v3.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
CMD_Err(erInvalidOpcodeParameter);
break;
end;
if not ReadVariable(vs, True) then
Break;
if not ReadVariable(vd, True) then
begin
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
Break;
end;
DoBooleanCalc(Vs.P, Vd.P, v3.P, vs.aType, vd.aType, v3.aType, CalcType);
if vd.FreeType <> vtNone then
begin
if vd.aType.BaseType in NeedFinalization then
FinalizeVariant(vd.P, vd.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
if vs.FreeType <> vtNone then
begin
if vs.aType.BaseType in NeedFinalization then
FinalizeVariant(vs.P, vs.aType);
p := IPointer(FTempVars.Data^[FtempVars.Count-1]) - IPointer(FtempVars.DataPtr);
Dec(FTempVars.FCount);
{$IFNDEF PS_NOSMARTLIST}
Inc(FTempVars.FCheckCount);
if FTempVars.FCheckCount > FMaxCheckCount then FTempVars.Recreate;
{$ENDIF}
FTempVars.FLength := P;
if ((FTempVars.FCapacity - FTempVars.FLength) shr 12) > 2 then FTempVars.AdjustLength;
end;
end;
else
CMD_Err(erInvalidOpcode); // Error
end;
end;
// if cmd <> invalidval then ProfilerExitProc(Cmd+1);
// if ExEx <> erNoError then FStatus := FOldStatus;
until (FExceptionStack.Count = 0) or (Fstatus <> IsRunning);
if FStatus = isLoaded then begin
for I := Longint(FStack.Count) - 1 downto 0 do
FStack.Pop;
FStack.Clear;
if FCallCleanup then Cleanup;
end;
Result := ExEx = erNoError;
end;
function NVarProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
tmp: TPSVariantIFC;
begin
case Longint(p.Ext1) of
0:
begin
if @Caller.FOnSetNVariant = nil then begin Result := False; exit; end;
tmp := NewTPSVariantIFC(Stack.Items[Stack.Count - 2], True);
if (Tmp.Dta = nil) or (tmp.aType.BaseType <> btVariant) then begin Result := False; exit; end;
Caller.FOnSetNVariant(Caller, Stack.GetAnsiString(-1), Variant(tmp.Dta^));
Result := true;
end;
1:
begin
if @Caller.FOnGetNVariant = nil then begin Result := False; exit; end;
tmp := NewTPSVariantIFC(Stack.Items[Stack.Count - 1], False);
if (Tmp.Dta = nil) or (tmp.aType.BaseType <> btVariant) then begin Result := False; exit; end;
Variant(tmp.Dta^) := Caller.FOnGetNVariant(Caller, Stack.GetAnsiString(-2));
Result := true;
end;
else
Result := False;
end;
end;
function DefProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
temp: TPSVariantIFC;
I: Longint;
b: Boolean;
pex: TPSExceptionHandler;
Tmp: TObject;
begin
{ The following needs to be in synch in these 3 functions:
-UPSCompiler.TPSPascalCompiler.DefineStandardProcedures
-UPSRuntime.DefProc
-UPSRuntime.TPSExec.RegisterStandardProcs
}
case Longint(p.Ext1) of
0: Stack.SetAnsiString(-1, tbtstring(SysUtils.IntToStr(Stack.{$IFNDEF PS_NOINT64}GetInt64{$ELSE}GetInt{$ENDIF}(-2)))); // inttostr
1: Stack.SetInt(-1, StrToInt(Stack.GetAnsiString(-2))); // strtoint
2: Stack.SetInt(-1, StrToIntDef(Stack.GetAnsiString(-2), Stack.GetInt(-3))); // strtointdef
3:
{$IFNDEF PS_NOWIDESTRING}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetInt(-1, Pos(Stack.GetUnicodeString(-2), Stack.GetUnicodeString(-3)))// pos
else
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetInt(-1, Pos(Stack.GetWideString(-2), Stack.GetWideString(-3)))// pos
else{$ENDIF}
Stack.SetInt(-1, Pos(Stack.GetAnsiString(-2), Stack.GetAnsiString(-3)));// pos
4:
{$IFNDEF PS_NOWIDESTRING} if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetWideString(-1, Copy(Stack.GetWideString(-2), Stack.GetInt(-3), Stack.GetInt(-4))) // copy
else
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, Copy(Stack.GetUnicodeString(-2), Stack.GetInt(-3), Stack.GetInt(-4))) // copy
else{$ENDIF}
Stack.SetAnsiString(-1, Copy(Stack.GetAnsiString(-2), Stack.GetInt(-3), Stack.GetInt(-4))); // copy
5: //delete
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -1], True);
{$IFNDEF PS_NOWIDESTRING}
if (temp.Dta <> nil) and (temp.aType.BaseType = btUnicodeString) then
begin
Delete(tbtUnicodeString(temp.Dta^), Stack.GetInt(-2), Stack.GetInt(-3));
end else
if (temp.Dta <> nil) and (temp.aType.BaseType = btWideString) then
begin
Delete(tbtwidestring(temp.Dta^), Stack.GetInt(-2), Stack.GetInt(-3));
end else {$ENDIF} begin
if (temp.Dta = nil) or (temp.aType.BaseType <> btString) then
begin
Result := False;
exit;
end;
Delete(tbtstring(temp.Dta^), Stack.GetInt(-2), Stack.GetInt(-3));
end;
end;
6: // insert
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -2], True);
{$IFNDEF PS_NOWIDESTRING}
if (temp.Dta <> nil) and (temp.aType.BaseType = btUnicodeString) then begin
Insert(Stack.GetUnicodeString(-1), tbtUnicodeString(temp.Dta^), Stack.GetInt(-3));
end else if (temp.Dta <> nil) and (temp.aType.BaseType = btWideString) then begin
Insert(Stack.GetWideString(-1), tbtwidestring(temp.Dta^), Stack.GetInt(-3));
end else {$ENDIF} begin
if (temp.Dta = nil) or (temp.aType.BaseType <> btString) then
begin
Result := False;
exit;
end;
Insert(Stack.GetAnsiString(-1), tbtstring(temp.Dta^), Stack.GetInt(-3));
end;
end;
7: // StrGet
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -2], True);
if (temp.Dta = nil) or not (temp.aType.BaseType in [btString, btUnicodeString]) then
begin
Result := False;
exit;
end;
I := Stack.GetInt(-3);
if (i<1) or (i>length(tbtstring(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := False;
exit;
end;
Stack.SetInt(-1,Ord(tbtstring(temp.Dta^)[i]));
end;
8: // StrSet
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -3], True);
if (temp.Dta = nil) or not (temp.aType.BaseType in [btString, btUnicodeString]) then
begin
Result := False;
exit;
end;
I := Stack.GetInt(-2);
if (i<1) or (i>length(tbtstring(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := True;
exit;
end;
tbtstring(temp.Dta^)[i] := tbtchar(Stack.GetInt(-1));
end;
10:
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, UpperCase(Stack.GetUnicodeString(-2))) // Uppercase
else
{$ENDIF}
if (Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString) or
(Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString) then
Stack.SetWideString(-1, WideUpperCase(Stack.GetWideString(-2))) // Uppercase
else
{$ENDIF}
Stack.SetAnsiString(-1, FastUppercase(Stack.GetAnsiString(-2))); // Uppercase
11:
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, LowerCase(Stack.GetUnicodeString(-2))) // Uppercase
else
{$ENDIF}
if (Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString) or
(Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString) then
Stack.SetWideString(-1, WideLowerCase(Stack.GetWideString(-2))) // Uppercase
else
{$ENDIF}
Stack.SetAnsiString(-1, FastLowercase(Stack.GetAnsiString(-2)));// LowerCase
12:
{$IFNDEF PS_NOWIDESTRING}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, SysUtils.Trim(Stack.GetUnicodestring(-2))) // Trim
else if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetWideString(-1, SysUtils.Trim(Stack.GetWideString(-2))) // Trim
else
{$ENDIF}
Stack.SetAnsiString(-1, AnsiString(SysUtils.Trim(String(Stack.GetAnsiString(-2)))));// Trim
13: Stack.SetInt(-1, Length(Stack.GetAnsiString(-2))); // Length
14: // SetLength
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -1], True);
if (temp.Dta = nil) or (temp.aType.BaseType <> btString) then
begin
Result := False;
exit;
end;
SetLength(tbtstring(temp.Dta^), STack.GetInt(-2));
end;
15: Stack.SetReal(-1, Sin(Stack.GetReal(-2))); // Sin
16: Stack.SetReal(-1, Cos(Stack.GetReal(-2))); // Cos
17: Stack.SetReal(-1, SQRT(Stack.GetReal(-2))); // Sqrt
18: Stack.SetInt(-1, Round(Stack.GetReal(-2))); // Round
19: Stack.SetInt(-1, Trunc(Stack.GetReal(-2))); // Trunc
20: Stack.SetReal(-1, Int(Stack.GetReal(-2))); // Int
21: Stack.SetReal(-1, Pi); // Pi
22: Stack.SetReal(-1, Abs(Stack.GetReal(-2))); // Abs
23: Stack.SetReal(-1, StrToFloat(Stack.GetAnsiString(-2))); // StrToFloat
24: Stack.SetAnsiString(-1, FloatToStr(Stack.GetReal(-2)));// FloatToStr
25:
{$IFNDEF PS_NOWIDESTRING}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, upadL(Stack.GetUnicodeString(-2), Stack.GetInt(-3))) // PadL
else
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetWideString(-1, wPadL(Stack.GetWideString(-2), Stack.GetInt(-3))) // PadL
else{$ENDIF}
Stack.SetAnsiString(-1, PadL(Stack.GetAnsiString(-2), Stack.GetInt(-3))); // PadL
26:
{$IFNDEF PS_NOWIDESTRING}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, uPadR(Stack.GetUnicodeString(-2), Stack.GetInt(-3))) // PadR
else
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetWideString(-1, wPadR(Stack.GetWideString(-2), Stack.GetInt(-3))) // PadR
else{$ENDIF}
Stack.SetAnsiString(-1, PadR(Stack.GetAnsiString(-2), Stack.GetInt(-3))); // PadR
27:
{$IFNDEF PS_NOWIDESTRING}
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btUnicodeString then
Stack.SetUnicodeString(-1, uPadZ(Stack.GetUnicodeString(-2), Stack.GetInt(-3)))// PadZ
else
if Stack.GetItem(Stack.Count -2)^.FType.BaseType = btWideString then
Stack.SetWideString(-1, wPadZ(Stack.GetWideString(-2), Stack.GetInt(-3)))// PadZ
else{$ENDIF}
Stack.SetAnsiString(-1, PadZ(Stack.GetAnsiString(-2), Stack.GetInt(-3)));// PadZ
28: Stack.SetAnsiString(-1, StringOfChar(tbtChar(Stack.GetInt(-2)), Stack.GetInt(-3))); // Replicate/StrOfChar
29: // Assigned
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -2], True);
if Temp.dta = nil then
begin
Result := False;
exit;
end;
case temp.aType.BaseType of
btU8, btS8: b := tbtu8(temp.dta^) <> 0;
btU16, btS16: b := tbtu16(temp.dta^) <> 0;
btU32, btS32: b := tbtu32(temp.dta^) <> 0;
btString, btPChar: b := tbtstring(temp.dta^) <> '';
{$IFNDEF PS_NOWIDESTRING}
btWideString: b := tbtwidestring(temp.dta^)<> '';
btUnicodeString: b := tbtUnicodeString(temp.dta^)<> '';
{$ENDIF}
btArray, btClass{$IFNDEF PS_NOINTERFACES}, btInterface{$ENDIF}: b := Pointer(temp.dta^) <> nil;
else
Result := False;
Exit;
end;
if b then
Stack.SetInt(-1, 1)
else
Stack.SetInt(-1, 0);
end;
30:
begin {RaiseLastException}
if (Caller.FExceptionStack.Count > 0) then begin
pex := Caller.FExceptionStack.Data[Caller.fExceptionStack.Count -1];
if pex.ExceptOffset = Cardinal(InvalidVal -1) then begin
Tmp := pex.ExceptionObject;
pex.ExceptionObject := nil;
Caller.ExceptionProc(Caller.ExProc, pex.ExceptOffset, pex.ExceptionData, pex.ExceptionParam, tmp);
end;
end;
end;
31: Caller.CMD_Err2(TPSError(Stack.GetInt(-1)), Stack.GetAnsiString(-2)); {RaiseExeption}
32: Stack.SetInt(-1, Ord(Caller.LastEx)); {ExceptionType}
33: Stack.SetAnsiString(-1, Caller.LastExParam); {ExceptionParam}
34: Stack.SetInt(-1, Caller.LastExProc); {ExceptionProc}
35: Stack.SetInt(-1, Caller.LastExPos); {ExceptionPos}
36: Stack.SetAnsiString(-1, PSErrorToString(TPSError(Stack.GetInt(-2)), Stack.GetAnsiString(-3))); {ExceptionToString}
37: Stack.SetAnsiString(-1, tbtString(AnsiUpperCase(string(Stack.GetAnsiString(-2))))); // AnsiUppercase
38: Stack.SetAnsiString(-1, tbtString(AnsiLowercase(string(Stack.GetAnsiString(-2))))); // AnsiLowerCase
{$IFNDEF PS_NOINT64}
39: Stack.SetInt64(-1, StrToInt64(string(Stack.GetAnsiString(-2)))); // StrToInt64
40: Stack.SetAnsiString(-1, tbtstring(SysUtils.IntToStr(Stack.GetInt64(-2))));// Int64ToStr
41: Stack.SetInt64(-1, StrToInt64Def(string(Stack.GetAnsiString(-2)), Stack.GetInt64(-3))); // StrToInt64Def
{$ENDIF}
42: // sizeof
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -2], False);
if Temp.aType = nil then
Stack.SetInt(-1, 0)
else
Stack.SetInt(-1, Temp.aType.RealSize)
end;
{$IFNDEF PS_NOWIDESTRING}
43: // WStrGet
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -2], True);
if temp.dta = nil then begin
result := false;
exit;
end;
case temp.aType.BaseType of
btWideString:
begin
I := Stack.GetInt(-3);
if (i<1) or (i>length(tbtwidestring(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := False;
exit;
end;
Stack.SetInt(-1,Ord(tbtwidestring(temp.Dta^)[i]));
end;
btUnicodeString:
begin
I := Stack.GetInt(-3);
if (i<1) or (i>length(tbtUnicodeString(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := False;
exit;
end;
Stack.SetInt(-1,Ord(tbtUnicodeString(temp.Dta^)[i]));
end;
else
begin
Result := False;
exit;
end;
end;
end;
44: // WStrSet
begin
temp := NewTPSVariantIFC(Stack[Stack.Count -3], True);
if (temp.Dta = nil) then
begin
Result := False;
exit;
end;
case temp.aType.BaseType of
btWideString:
begin
I := Stack.GetInt(-2);
if (i<1) or (i>length(tbtWidestring(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := True;
exit;
end;
tbtWidestring(temp.Dta^)[i] := WideChar(Stack.GetInt(-1));
end;
btUnicodeString:
begin
I := Stack.GetInt(-2);
if (i<1) or (i>length(tbtunicodestring(temp.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_OutOfStringRange));
Result := True;
exit;
end;
tbtunicodestring(temp.Dta^)[i] := WideChar(Stack.GetInt(-1));
end;
else
begin
Result := False;
exit;
end;
end;
end;
{$ENDIF}
else
begin
Result := False;
exit;
end;
end;
Result := True;
end;
function GetArrayLength(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Arr := NewTPSVariantIFC(Stack[Stack.Count-2], True);
if (arr.Dta = nil) or (arr.aType.BaseType <> btArray) then
begin
Result := false;
exit;
end;
Stack.SetInt(-1, PSDynArrayGetLength(Pointer(arr.Dta^), arr.aType));
Result := True;
end;
function SetArrayLength(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Arr := NewTPSVariantIFC(Stack[Stack.Count-1], True);
if (arr.Dta = nil) or (arr.aType.BaseType <> btArray) then
begin
Result := false;
exit;
end;
PSDynArraySetLength(Pointer(arr.Dta^), arr.aType, Stack.GetInt(-2));
Result := True;
end;
function InterfaceProc(Sender: TPSExec; p: TPSExternalProcRec; Tag: Pointer): Boolean; forward;
procedure RegisterInterfaceLibraryRuntime(Se: TPSExec);
begin
SE.AddSpecialProcImport('intf', InterfaceProc, nil);
end;
{$IFNDEF DELPHI6UP}
function Null: Variant;
begin
Result := System.Null;
end;
function Unassigned: Variant;
begin
Result := System.Unassigned;
end;
{$ENDIF}
function Length_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
arr:=NewTPSVariantIFC(Stack[Stack.Count-2],false);
case arr.aType.BaseType of
btArray:
begin
Stack.SetInt(-1,PSDynArrayGetLength(Pointer(arr.Dta^),arr.aType));
Result:=true;
end;
btStaticArray:
begin
Stack.SetInt(-1,TPSTypeRec_StaticArray(arr.aType).Size);
Result:=true;
end;
btString:
begin
Stack.SetInt(-1,length(tbtstring(arr.Dta^)));
Result:=true;
end;
{$IFNDEF PS_NOWIDESTRING}
btWideString:
begin
Stack.SetInt(-1,length(tbtWidestring(arr.Dta^)));
Result:=true;
end;
btUnicodeString:
begin
Stack.SetInt(-1,length(tbtUnicodeString(arr.Dta^)));
Result:=true;
end;
{$ENDIF}
btvariant:
begin
Stack.SetInt(-1,length(Variant(arr.Dta^)));
Result:=true;
end;
else
begin
Caller.CMD_Err(ErTypeMismatch);
result := true;
end;
end;
end;
function SetLength_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Result:=false;
arr:=NewTPSVariantIFC(Stack[Stack.Count-1],true);
if arr.aType.BaseType=btArray then
begin
PSDynArraySetLength(Pointer(arr.Dta^),arr.aType,Stack.GetInt(-2));
Result:=true;
end else
if arr.aType.BaseType=btString then
begin
SetLength(tbtstring(arr.Dta^),STack.GetInt(-2));
Result:=true;
{$IFNDEF PS_NOWIDESTRING}
end else
if arr.aType.BaseType=btWideString then
begin
SetLength(tbtwidestring(arr.Dta^),STack.GetInt(-2));
Result:=true;
end else
if arr.aType.BaseType=btUnicodeString then
begin
SetLength(tbtUnicodeString(arr.Dta^),STack.GetInt(-2));
Result:=true;
{$ENDIF}
end;
end;
function Low_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Result:=true;
arr:=NewTPSVariantIFC(Stack[Stack.Count-2],false);
case arr.aType.BaseType of
btArray : Stack.SetInt(-1,0);
btStaticArray: Stack.SetInt(-1,TPSTypeRec_StaticArray(arr.aType).StartOffset);
btString : Stack.SetInt(-1,1);
btU8 : Stack.SetInt(-1,Low(Byte)); //Byte: 0
btS8 : Stack.SetInt(-1,Low(ShortInt)); //ShortInt: -128
btU16 : Stack.SetInt(-1,Low(Word)); //Word: 0
btS16 : Stack.SetInt(-1,Low(SmallInt)); //SmallInt: -32768
btU32 : Stack.SetInt(-1,Low(Cardinal)); //Cardinal/LongWord: 0
btS32 : Stack.SetInt(-1,Low(Integer)); //Integer/LongInt: -2147483648
{$IFNDEF PS_NOINT64}
btS64 : Stack.SetInt64(-1,Low(Int64)); //Int64: -9223372036854775808
{$ENDIF}
else Result:=false;
end;
end;
function High_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Result:=true;
arr:=NewTPSVariantIFC(Stack[Stack.Count-2],false);
case arr.aType.BaseType of
btArray : Stack.SetInt(-1,PSDynArrayGetLength(Pointer(arr.Dta^),arr.aType)-1);
btStaticArray: Stack.SetInt(-1,TPSTypeRec_StaticArray(arr.aType).StartOffset+TPSTypeRec_StaticArray(arr.aType).Size-1);
btString : Stack.SetInt(-1,Length(tbtstring(arr.Dta^)));
btU8 : Stack.SetInt(-1,High(Byte)); //Byte: 255
btS8 : Stack.SetInt(-1,High(ShortInt)); //ShortInt: 127
btU16 : Stack.SetInt(-1,High(Word)); //Word: 65535
btS16 : Stack.SetInt(-1,High(SmallInt)); //SmallInt: 32767
btU32 : Stack.SetUInt(-1,High(Cardinal)); //Cardinal/LongWord: 4294967295
btS32 : Stack.SetInt(-1,High(Integer)); //Integer/LongInt: 2147483647
{$IFNDEF PS_NOINT64}
btS64 : Stack.SetInt64(-1,High(Int64)); //Int64: 9223372036854775807
{$ENDIF}
else Result:=false;
end;
end;
function Dec_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Result:=true;
arr:=NewTPSVariantIFC(Stack[Stack.Count-1],true);
case arr.aType.BaseType of
btU8 : Stack.SetInt(-1,Tbtu8(arr.dta^)-1); //Byte
btS8 : Stack.SetInt(-1,Tbts8(arr.dta^)-1); //ShortInt
btU16 : Stack.SetInt(-1,Tbtu16(arr.dta^)-1); //Word
btS16 : Stack.SetInt(-1,Tbts16(arr.dta^)-1); //SmallInt
btU32 : Stack.SetInt(-1,Tbtu32(arr.dta^)-1); //Cardinal/LongWord
btS32 : Stack.SetInt(-1,Tbts32(arr.dta^)-1); //Integer/LongInt
{$IFNDEF PS_NOINT64}
btS64 : Stack.SetInt64(-1,Tbts64(arr.dta^)-1);
{$ENDIF}
else Result:=false;
end;
end;
function Inc_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
arr: TPSVariantIFC;
begin
Result:=true;
arr:=NewTPSVariantIFC(Stack[Stack.Count-1],true);
case arr.aType.BaseType of
btU8 : Stack.SetInt(-1,Tbtu8(arr.dta^)+1); //Byte
btS8 : Stack.SetInt(-1,Tbts8(arr.dta^)+1); //ShortInt
btU16 : Stack.SetInt(-1,Tbtu16(arr.dta^)+1); //Word
btS16 : Stack.SetInt(-1,Tbts16(arr.dta^)+1); //SmallInt
btU32 : Stack.SetInt(-1,Tbtu32(arr.dta^)+1); //Cardinal/LongWord
btS32 : Stack.SetInt(-1,Tbts32(arr.dta^)+1); //Integer/LongInt
{$IFNDEF PS_NOINT64}
btS64 : Stack.SetInt64(-1,Tbts64(arr.dta^)+1);
{$ENDIF}
else Result:=false;
end;
end;
function Include_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
TheSet, NewMember: TPSVariantIFC;
SetData: PByteArray;
Val: Tbtu8;
begin
TheSet:=NewTPSVariantIFC(Stack[Stack.Count-1],true);
NewMember:=NewTPSVariantIFC(Stack[Stack.Count-2],false);
Result := (TheSet.aType.BaseType = btSet) and (NewMember.aType.BaseType = btU8);
if not Result then Exit;
SetData := TheSet.Dta;
Val := Tbtu8(NewMember.dta^);
SetData^[Val shr 3] := SetData^[Val shr 3] or (1 shl (Val and 7));
end;
function Exclude_(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
TheSet, NewMember: TPSVariantIFC;
SetData: PByteArray;
Val: Tbtu8;
begin
TheSet:=NewTPSVariantIFC(Stack[Stack.Count-1],true);
NewMember:=NewTPSVariantIFC(Stack[Stack.Count-2],false);
Result := (TheSet.aType.BaseType = btSet) and (NewMember.aType.BaseType = btU8);
if not Result then Exit;
SetData := TheSet.Dta;
Val := Tbtu8(NewMember.dta^);
SetData^[Val shr 3] := SetData^[Val shr 3] and not (1 shl (Val and 7));
end;
{$IFNDEF DELPHI6UP}
function _VarArrayGet(var S : Variant; I : Integer) : Variant;
begin
result := VarArrayGet(S, [I]);
end;
procedure _VarArraySet(const c : Variant; I : Integer; var s : Variant);
begin
VarArrayPut(s, c, [i]);
end;
{$ENDIF}
procedure TPSExec.RegisterStandardProcs;
begin
{ The following needs to be in synch in these 3 functions:
-UPSCompiler.TPSPascalCompiler.DefineStandardProcedures
-UPSRuntime.DefProc
-UPSRuntime.TPSExec.RegisterStandardProcs
}
RegisterFunctionName('!NOTIFICATIONVARIANTSET', NVarProc, Pointer(0), nil);
RegisterFunctionName('!NOTIFICATIONVARIANTGET', NVarProc, Pointer(1), nil);
RegisterFunctionName('INTTOSTR', DefProc, Pointer(0), nil);
RegisterFunctionName('STRTOINT', DefProc, Pointer(1), nil);
RegisterFunctionName('STRTOINTDEF', DefProc, Pointer(2), nil);
RegisterFunctionName('POS', DefProc, Pointer(3), nil);
RegisterFunctionName('COPY', DefProc, Pointer(4), nil);
RegisterFunctionName('DELETE', DefProc, Pointer(5), nil);
RegisterFunctionName('INSERT', DefProc, Pointer(6), nil);
RegisterFunctionName('STRGET', DefProc, Pointer(7), nil);
RegisterFunctionName('STRSET', DefProc, Pointer(8), nil);
RegisterFunctionName('UPPERCASE', DefProc, Pointer(10), nil);
RegisterFunctionName('LOWERCASE', DefProc, Pointer(11), nil);
RegisterFunctionName('TRIM', DefProc, Pointer(12), nil);
RegisterFunctionName('LENGTH',Length_,nil,nil);
RegisterFunctionName('SETLENGTH',SetLength_,nil,nil);
RegisterFunctionName('LOW',Low_,nil,nil);
RegisterFunctionName('HIGH',High_,nil,nil);
RegisterFunctionName('DEC',Dec_,nil,nil);
RegisterFunctionName('INC',Inc_,nil,nil);
RegisterFunctionName('INCLUDE',Include_,nil,nil);
RegisterFunctionName('EXCLUDE',Exclude_,nil,nil);
RegisterFunctionName('SIN', DefProc, Pointer(15), nil);
RegisterFunctionName('COS', DefProc, Pointer(16), nil);
RegisterFunctionName('SQRT', DefProc, Pointer(17), nil);
RegisterFunctionName('ROUND', DefProc, Pointer(18), nil);
RegisterFunctionName('TRUNC', DefProc, Pointer(19), nil);
RegisterFunctionName('INT', DefProc, Pointer(20), nil);
RegisterFunctionName('PI', DefProc, Pointer(21), nil);
RegisterFunctionName('ABS', DefProc, Pointer(22), nil);
RegisterFunctionName('STRTOFLOAT', DefProc, Pointer(23), nil);
RegisterFunctionName('FLOATTOSTR', DefProc, Pointer(24), nil);
RegisterFunctionName('PADL', DefProc, Pointer(25), nil);
RegisterFunctionName('PADR', DefProc, Pointer(26), nil);
RegisterFunctionName('PADZ', DefProc, Pointer(27), nil);
RegisterFunctionName('REPLICATE', DefProc, Pointer(28), nil);
RegisterFunctionName('STRINGOFCHAR', DefProc, Pointer(28), nil);
RegisterFunctionName('!ASSIGNED', DefProc, Pointer(29), nil);
RegisterDelphiFunction(@Unassigned, 'UNASSIGNED', cdRegister);
RegisterDelphiFunction(@VarIsEmpty, 'VARISEMPTY', cdRegister);
RegisterDelphiFunction(@Null, 'NULL', cdRegister);
RegisterDelphiFunction(@VarIsNull, 'VARISNULL', cdRegister);
RegisterDelphiFunction(@VarType, 'VARTYPE', cdRegister);
{$IFNDEF PS_NOIDISPATCH}
RegisterDelphiFunction(@IDispatchInvoke, 'IDISPATCHINVOKE', cdregister);
{$ENDIF}
RegisterFunctionName('GETARRAYLENGTH', GetArrayLength, nil, nil);
RegisterFunctionName('SETARRAYLENGTH', SetArrayLength, nil, nil);
RegisterFunctionName('RAISELASTEXCEPTION', DefPRoc, Pointer(30), nil);
RegisterFunctionName('RAISEEXCEPTION', DefPRoc, Pointer(31), nil);
RegisterFunctionName('EXCEPTIONTYPE', DefPRoc, Pointer(32), nil);
RegisterFunctionName('EXCEPTIONPARAM', DefPRoc, Pointer(33), nil);
RegisterFunctionName('EXCEPTIONPROC', DefPRoc, Pointer(34), nil);
RegisterFunctionName('EXCEPTIONPOS', DefPRoc, Pointer(35), nil);
RegisterFunctionName('EXCEPTIONTOSTRING', DefProc, Pointer(36), nil);
RegisterFunctionName('ANSIUPPERCASE', DefProc, Pointer(37), nil);
RegisterFunctionName('ANSILOWERCASE', DefProc, Pointer(38), nil);
{$IFNDEF PS_NOINT64}
RegisterFunctionName('STRTOINT64', DefProc, Pointer(39), nil);
RegisterFunctionName('INT64TOSTR', DefProc, Pointer(40), nil);
RegisterFunctionName('STRTOINT64DEF', DefProc, Pointer(41), nil);
{$ENDIF}
RegisterFunctionName('SIZEOF', DefProc, Pointer(42), nil);
{$IFNDEF PS_NOWIDESTRING}
RegisterFunctionName('WSTRGET', DefProc, Pointer(43), nil);
RegisterFunctionName('WSTRSET', DefProc, Pointer(44), nil);
{$ENDIF}
{$IFNDEF DELPHI6UP}
RegisterDelphiFunction(@_VarArrayGet, 'VARARRAYGET', cdRegister);
RegisterDelphiFunction(@_VarArraySet, 'VARARRAYSET', cdRegister);
{$ENDIF}
RegisterInterfaceLibraryRuntime(Self);
end;
function ToString(p: PansiChar): tbtString;
begin
SetString(Result, p, StrLen(p));
end;
function IntPIFVariantToVariant(Src: pointer; aType: TPSTypeRec; var Dest: Variant): Boolean;
function BuildArray(P: Pointer; aType: TPSTypeRec; Len: Longint): Boolean;
var
i, elsize: Longint;
v: variant;
begin
elsize := aType.RealSize;
Dest := VarArrayCreate([0, Len-1], varVariant);
for i := 0 to Len -1 do
begin
if not IntPIFVariantToVariant(p, aType, v) then
begin
result := false;
exit;
end;
Dest[i] := v;
p := Pointer(IPointer(p) + Cardinal(elSize));
end;
result := true;
end;
begin
if aType = nil then
begin
Dest := null;
Result := True;
exit;
end;
if aType.BaseType = btPointer then
begin
aType := TPSTypeRec(Pointer(IPointer(src)+PointerSize)^);
Src := Pointer(Pointer(Src)^);
end;
case aType.BaseType of
btVariant: Dest := variant(src^);
btArray: if not BuildArray(Pointer(Src^), TPSTypeRec_Array(aType).ArrayType, PSDynArrayGetLength(Pointer(src^), aType)) then begin result := false; exit; end;
btStaticArray: if not BuildArray(Pointer(Src), TPSTypeRec_StaticArray(aType).ArrayType, PSDynArrayGetLength(Pointer(src^), aType)) then begin result := false; exit; end;
btU8:
if aType.ExportName = 'BOOLEAN' then
Dest := boolean(tbtu8(Src^) <> 0)
else
Dest := tbtu8(Src^);
btS8: Dest := tbts8(Src^);
btU16: Dest := tbtu16(Src^);
btS16: Dest := tbts16(Src^);
btU32: Dest := {$IFDEF DELPHI6UP}tbtu32{$ELSE}tbts32{$ENDIF}(Src^);
btS32: Dest := tbts32(Src^);
btSingle: Dest := tbtsingle(Src^);
btCurrency: Dest:=tbtCurrency(Src^);
btDouble:
begin
if aType.ExportName = 'TDATETIME' then
Dest := TDateTime(tbtDouble(Src^))
else
Dest := tbtDouble(Src^);
end;
btExtended: Dest := tbtExtended(Src^);
btString: Dest := tbtString(Src^);
btPChar: Dest := ToString(PansiChar(Src^));
{$IFNDEF PS_NOINT64}
{$IFDEF DELPHI6UP} btS64: Dest := tbts64(Src^); {$ELSE} bts64: begin Result := False; exit; end; {$ENDIF}
{$ENDIF}
btChar: Dest := tbtString(tbtchar(src^));
{$IFNDEF PS_NOWIDESTRING}
btWideString: Dest := tbtWideString(src^);
btWideChar: Dest := tbtwidestring(tbtwidechar(src^));
btUnicodeString: Dest := tbtUnicodeString(src^);
{$ENDIF}
else
begin
Result := False;
exit;
end;
end;
Result := True;
end;
function PIFVariantToVariant(Src: PIFVariant; var Dest: Variant): Boolean;
begin
Result := IntPIFVariantToVariant(@PPSVariantData(src).Data, Src.FType, Dest);
end;
function VariantToPIFVariant(Exec: TPSExec; const Src: Variant; Dest: PIFVariant): Boolean;
var
TT: PIFTypeRec;
begin
if Dest = nil then begin Result := false; exit; end;
tt := Exec.FindType2(btVariant);
if tt = nil then begin Result := false; exit; end;
if Dest.FType.BaseType = btPointer then
Result := Exec.SetVariantValue(PPSVariantPointer(Dest).DataDest, @Src, PPSVariantPointer(Dest).DestType, tt)
else
Result := Exec.SetVariantValue(@PPSVariantData(Dest).Data, @Src, Dest.FType, tt);
end;
type
POpenArray = ^TOpenArray;
TOpenArray = record
AType: Byte; {0}
OrgVar: PPSVariantIFC;
FreeIt: Boolean;
ElementSize,
ItemCount: Longint;
Data: Pointer;
VarParam: Boolean;
end;
function CreateOpenArray(VarParam: Boolean; Sender: TPSExec; val: PPSVariantIFC): POpenArray;
var
datap, p: Pointer;
ctype: TPSTypeRec;
cp: Pointer;
i: Longint;
begin
if (Val.aType.BaseType <> btArray) and (val.aType.BaseType <> btStaticArray) then
begin
Result := nil;
exit;
end;
New(Result);
Result.AType := 0;
Result.OrgVar := Val;
Result.VarParam := VarParam;
if val.aType.BaseType = btStaticArray then
begin
Result^.ItemCount := TPSTypeRec_StaticArray(val.aType).Size;
datap := Val.Dta;
end else
begin
Result^.ItemCount := PSDynArrayGetLength(Pointer(Val.Dta^), val.aType);
datap := Pointer(Val.Dta^);
end;
if TPSTypeRec_Array(Val.aType).ArrayType.BaseType <> btPointer then
begin
Result.FreeIt := False;
result.ElementSize := 0;
Result.Data := datap;
exit;
end;
Result.FreeIt := True;
Result.ElementSize := sizeof(TVarRec);
GetMem(Result.Data, Result.ItemCount * Result.ElementSize);
P := Result.Data;
FillChar(p^, Result^.ItemCount * Result^.ElementSize, 0);
for i := 0 to Result^.ItemCount -1 do
begin
ctype := Pointer(Pointer(IPointer(datap)+PointerSize)^);
cp := Pointer(Datap^);
if cp = nil then
begin
tvarrec(p^).VType := vtPointer;
tvarrec(p^).VPointer := nil;
end else begin
case ctype.BaseType of
btVariant: begin
tvarrec(p^).VType := vtVariant;
tvarrec(p^).VVariant := cp;
end;
btchar: begin
tvarrec(p^).VType := vtChar;
tvarrec(p^).VChar := tbtChar(tbtchar(cp^));
end;
btSingle:
begin
tvarrec(p^).VType := vtExtended;
New(tvarrec(p^).VExtended);
tvarrec(p^).VExtended^ := tbtsingle(cp^);
end;
btExtended:
begin
tvarrec(p^).VType := vtExtended;
New(tvarrec(p^).VExtended);
tvarrec(p^).VExtended^ := tbtextended(cp^);;
end;
btDouble:
begin
tvarrec(p^).VType := vtExtended;
New(tvarrec(p^).VExtended);
tvarrec(p^).VExtended^ := tbtdouble(cp^);
end;
{$IFNDEF PS_NOWIDESTRING}
btwidechar: begin
tvarrec(p^).VType := vtWideChar;
tvarrec(p^).VWideChar := tbtwidechar(cp^);
end;
{$IFDEF DELPHI2009UP}
btUnicodeString: begin
tvarrec(p^).VType := vtUnicodeString;
tbtunicodestring(TVarRec(p^).VUnicodeString) := tbtunicodestring(cp^);
end;
{$ELSE}
btUnicodeString,
{$ENDIF}
btwideString: begin
tvarrec(p^).VType := vtWideString;
tbtwidestring(TVarRec(p^).VWideString) := tbtwidestring(cp^);
end;
{$ENDIF}
btU8: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbtu8(cp^);
end;
btS8: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbts8(cp^);
end;
btU16: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbtu16(cp^);
end;
btS16: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbts16(cp^);
end;
btU32: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbtu32(cp^);
end;
btS32: begin
tvarrec(p^).VType := vtInteger;
tvarrec(p^).VInteger := tbts32(cp^);
end;
{$IFNDEF PS_NOINT64}
btS64: begin
tvarrec(p^).VType := vtInt64;
New(tvarrec(p^).VInt64);
tvarrec(p^).VInt64^ := tbts64(cp^);
end;
{$ENDIF}
btString: begin
tvarrec(p^).VType := vtAnsiString;
tbtString(TVarRec(p^).VAnsiString) := tbtstring(cp^);
end;
btPChar:
begin
tvarrec(p^).VType := vtPchar;
TVarRec(p^).VPChar := pointer(cp^);
end;
btClass:
begin
tvarrec(p^).VType := vtObject;
tvarrec(p^).VObject := Pointer(cp^);
end;
{$IFNDEF PS_NOINTERFACES}
{$IFDEF Delphi3UP}
btInterface:
begin
tvarrec(p^).VType := vtInterface;
IUnknown(tvarrec(p^).VInterface) := IUnknown(cp^);
end;
{$ENDIF}
{$ENDIF}
end;
end;
datap := Pointer(IPointer(datap)+ (2*sizeof(Pointer)+sizeof(Longbool)));
p := PansiChar(p) + Result^.ElementSize;
end;
end;
procedure DestroyOpenArray(Sender: TPSExec; V: POpenArray);
var
cp, datap: pointer;
ctype: TPSTypeRec;
p: PVarRec;
i: Longint;
begin
if v.FreeIt then // basetype = btPointer
begin
p := v^.Data;
if v.OrgVar.aType.BaseType = btStaticArray then
datap := v.OrgVar.Dta
else
datap := Pointer(v.OrgVar.Dta^);
for i := 0 to v^.ItemCount -1 do
begin
ctype := Pointer(Pointer(IPointer(datap)+PointerSize)^);
cp := Pointer(Datap^);
case ctype.BaseType of
btU8:
begin
if v^.varParam then
tbtu8(cp^) := tvarrec(p^).VInteger
end;
btS8: begin
if v^.varParam then
tbts8(cp^) := tvarrec(p^).VInteger
end;
btU16: begin
if v^.varParam then
tbtu16(cp^) := tvarrec(p^).VInteger
end;
btS16: begin
if v^.varParam then
tbts16(cp^) := tvarrec(p^).VInteger
end;
btU32: begin
if v^.varParam then
tbtu32(cp^) := tvarrec(p^).VInteger
end;
btS32: begin
if v^.varParam then
tbts32(cp^) := tvarrec(p^).VInteger
end;
btChar: begin
if v^.VarParam then
tbtchar(cp^) := tbtChar(tvarrec(p^).VChar)
end;
btSingle: begin
if v^.VarParam then
tbtsingle(cp^) := tvarrec(p^).vextended^;
dispose(tvarrec(p^).vextended);
end;
btDouble: begin
if v^.VarParam then
tbtdouble(cp^) := tvarrec(p^).vextended^;
dispose(tvarrec(p^).vextended);
end;
btExtended: begin
if v^.VarParam then
tbtextended(cp^) := tvarrec(p^).vextended^;
dispose(tvarrec(p^).vextended);
end;
{$IFNDEF PS_NOINT64}
btS64: begin
if v^.VarParam then
tbts64(cp^) := tvarrec(p^).vInt64^;
dispose(tvarrec(p^).VInt64);
end;
{$ENDIF}
{$IFNDEF PS_NOWIDESTRING}
btWideChar: begin
if v^.varParam then
tbtwidechar(cp^) := tvarrec(p^).VWideChar;
end;
{$IFDEF DELPHI2009UP}
btUnicodeString:
begin
if v^.VarParam then
tbtunicodestring(cp^) := tbtunicodestring(TVarRec(p^).VUnicodeString);
finalize(tbtunicodestring(TVarRec(p^).VUnicodeString));
end;
{$ELSE}
btUnicodeString,
{$ENDIF}
btWideString:
begin
if v^.VarParam then
tbtwidestring(cp^) := tbtwidestring(TVarRec(p^).VWideString);
finalize(widestring(TVarRec(p^).VWideString));
end;
{$ENDIF}
btString: begin
if v^.VarParam then
tbtstring(cp^) := tbtstring(TVarRec(p^).VString);
finalize(tbtString(TVarRec(p^).VAnsiString));
end;
btClass: begin
if v^.VarParam then
Pointer(cp^) := TVarRec(p^).VObject;
end;
{$IFNDEF PS_NOINTERFACES}
{$IFDEF Delphi3UP}
btInterface: begin
if v^.VarParam then
IUnknown(cp^) := IUnknown(TVarRec(p^).VInterface);
finalize(tbtString(TVarRec(p^).VAnsiString));
end;
{$ENDIF}
{$ENDIF}
end;
datap := Pointer(IPointer(datap)+ (2*sizeof(Pointer)+sizeof(LongBool)));
p := Pointer(IPointer(p) + Cardinal(v^.ElementSize));
end;
FreeMem(v.Data, v.ElementSize * v.ItemCount);
end;
Dispose(V);
end;
{$ifndef FPC}
{$IFDEF Delphi6UP}
{$IFDEF CPUX64}
{$include x64.inc}
{$ELSE}
{$include x86.inc}
{$ENDIF}
{$ELSE}
{$include x86.inc}
{$ENDIF}
{$else}
{$IFDEF Delphi6UP}
{$if defined(cpu86)}
{$include x86.inc}
{$elseif defined(cpupowerpc)}
{$include powerpc.inc}
{$elseif defined(cpuarm)}
{$include arm.inc}
{$elseif defined(CPUX86_64)}
{$include x64.inc}
{$else}
{$fatal Pascal Script is not supported for your architecture at the moment!}
{$ifend}
{$ELSE}
{$include x86.inc}
{$ENDIF}
{$endif}
type
PScriptMethodInfo = ^TScriptMethodInfo;
TScriptMethodInfo = record
Se: TPSExec;
ProcNo: Cardinal;
end;
function MkMethod(FSE: TPSExec; No: Cardinal): TMethod;
begin
if (no = 0) or (no = InvalidVal) then
begin
Result.Code := nil;
Result.Data := nil;
end else begin
Result.Code := @MyAllMethodsHandler;
Result.Data := GetMethodInfoRec(FSE, No);
end;
end;
procedure PFree(Sender: TPSExec; P: PScriptMethodInfo);
begin
Dispose(p);
end;
function GetMethodInfoRec(SE: TPSExec; ProcNo: Cardinal): Pointer;
var
I: Longint;
pp: PScriptMethodInfo;
begin
if (ProcNo = 0) or (ProcNo = InvalidVal) then
begin
Result := nil;
exit;
end;
I := 2147483647;
repeat
pp := Se.FindProcResource2(@PFree, I);
if (i <> -1) and (pp^.ProcNo = ProcNo) then
begin
Result := Pp;
exit;
end;
until i = -1;
New(pp);
pp^.Se := TPSExec(Se);
pp^.ProcNo := Procno;
Se.AddResource(@PFree, pp);
Result := pp;
end;
type
TPtrArr = array[0..1000] of Pointer;
PPtrArr = ^TPtrArr;
TByteArr = array[0..1000] of byte;
PByteArr = ^TByteArr;
PPointer = ^Pointer;
function VirtualMethodPtrToPtr(Ptr, FSelf: Pointer): Pointer;
{$IFDEF FPC}
var
x : PPtrArr;
{$ENDIF}
begin
{$IFDEF FPC}
x := Pointer(TObject(FSelf).ClassType) + vmtMethodStart;
Result := x^[Longint(Ptr)];
{$ELSE}
Result := PPtrArr(PPointer(FSelf)^)^[Longint(Ptr)];
{$ENDIF}
end;
function VirtualClassMethodPtrToPtr(Ptr, FSelf: Pointer): Pointer;
{$IFDEF FPC}
var
x : PPtrArr;
{$ENDIF}
begin
{$IFDEF FPC}
x := Pointer(FSelf) + vmtMethodStart;
Result := x^[Longint(Ptr)];
{$ELSE}
Result := PPtrArr(FSelf)^[Longint(Ptr)];
{$ENDIF}
end;
procedure CheckPackagePtr(var P: PByteArr);
begin
if (word((@p[0])^) = $25FF) and (word((@p[6])^)=$C08B)then
begin
p := PPointer((@p[2])^)^;
end;
end;
{$IFDEF VER90}{$DEFINE NO_vmtSelfPtr}{$ENDIF}
{$IFDEF FPC}{$DEFINE NO_vmtSelfPtr}{$ENDIF}
{$IFNDEF FPC}
function FindVirtualMethodPtr(Ret: TPSRuntimeClass; FClass: TClass; Ptr: Pointer): Pointer;
// Idea of getting the number of VMT items from GExperts
var
p: PPtrArr;
I: Longint;
begin
p := Pointer(FClass);
CheckPackagePtr(PByteArr(Ptr));
if Ret.FEndOfVMT = MaxInt then
begin
I := {$IFDEF NO_vmtSelfPtr}-48{$ELSE}vmtSelfPtr{$ENDIF} div SizeOf(Pointer) + 1;
while I < 0 do
begin
if I < 0 then
begin
if I <> ({$IFDEF VER90}-44{$ELSE}vmtTypeInfo{$ENDIF} div SizeOf(Pointer)) then
begin // from GExperts code
if (IPointer(p^[I]) > IPointer(p)) and ((IPointer(p^[I]) - IPointer(p))
div
//PointerSize < Ret.FEndOfVMT) then
PointerSize < Cardinal(Ret.FEndOfVMT)) then
begin
Ret.FEndOfVMT := (IPointer(p^[I]) - IPointer(p)) div SizeOf(Pointer);
end;
end;
end;
Inc(I);
end;
if Ret.FEndOfVMT = MaxInt then
begin
Ret.FEndOfVMT := 0; // cound not find EndOfVMT
Result := nil;
exit;
end;
end;
I := 0;
while I < Ret.FEndOfVMT do
begin
if p^[I] = Ptr then
begin
Result := Pointer(I);
exit;
end;
I := I + 1;
end;
Result := nil;
end;
{$ELSE}
function FindVirtualMethodPtr(Ret: TPSRuntimeClass; FClass: TClass; Ptr: Pointer): Pointer;
var
x,p: PPtrArr;
I: Longint;
t : Pointer;
begin
p := Pointer(FClass) + vmtMethodStart;
I := 0;
while (p^[I]<>nil) and (I < 10000) do
begin
if p^[I] = Ptr then
begin
Result := Pointer(I);
x := Pointer(FClass) + vmtMethodStart;
t := x^[I];
Assert(t=Ptr,'Computation of virtual method pointer fail : t<>Ptr');
exit;
end;
I := I + 1;
end;
Result := nil;
end;
{$ENDIF}
function NewTPSVariantIFC(avar: PPSVariant; varparam: boolean): TPSVariantIFC;
begin
Result.VarParam := varparam;
if avar = nil then
begin
Result.aType := nil;
result.Dta := nil;
end else
begin
Result.aType := avar.FType;
result.Dta := @PPSVariantData(avar).Data;
if Result.aType.BaseType = btPointer then
begin
Result.aType := Pointer(Pointer(IPointer(result.dta)+ PointerSize)^);
Result.Dta := Pointer(Result.dta^);
end;
end;
end;
function NewTPSVariantRecordIFC(avar: PPSVariant; Fieldno: Longint): TPSVariantIFC;
var
offs: Cardinal;
begin
Result := NewTPSVariantIFC(avar, false);
if Result.aType.BaseType = btRecord then
begin
Offs := Cardinal(TPSTypeRec_Record(Result.aType).RealFieldOffsets[FieldNo]);
Result.Dta := Pointer(IPointer(Result.dta) + Offs);
Result.aType := TPSTypeRec_Record(Result.aType).FieldTypes[FieldNo];
end else
begin
Result.Dta := nil;
Result.aType := nil;
end;
end;
function PSGetArrayField(const avar: TPSVariantIFC; Fieldno: Longint): TPSVariantIFC;
var
offs: Cardinal;
n: Longint;
begin
Result := aVar;
case Result.aType.BaseType of
btStaticArray, btArray:
begin
if Result.aType.BaseType = btStaticArray then
n := TPSTypeRec_StaticArray(Result.aType).Size
else
n := PSDynArrayGetLength(Pointer(Result.Dta^), Result.aType);
if (FieldNo <0) or (FieldNo >= n) then
begin
Result.Dta := nil;
Result.aType := nil;
exit;
end;
Offs := TPSTypeRec_Array(Result.aType).ArrayType.RealSize * Cardinal(FieldNo);
if Result.aType.BaseType = btStaticArray then
Result.Dta := Pointer(IPointer(Result.dta) + Offs)
else
Result.Dta := Pointer(IPointer(Result.dta^) + Offs);
Result.aType := TPSTypeRec_Array(Result.aType).ArrayType;
end
else
Result.Dta := nil;
Result.aType := nil;
end;
end;
function PSGetRecField(const avar: TPSVariantIFC; Fieldno: Longint): TPSVariantIFC;
var
offs: Cardinal;
begin
Result := aVar;
if Result.aType.BaseType = btRecord then
begin
Offs := Cardinal(TPSTypeRec_Record(Result.aType).RealFieldOffsets[FieldNo]);
Result.aType := TPSTypeRec_Record(Result.aType).FieldTypes[FieldNo];
Result.Dta := Pointer(IPointer(Result.dta) + Offs);
end else
begin
Result.Dta := nil;
Result.aType := nil;
end;
end;
function NewPPSVariantIFC(avar: PPSVariant; varparam: boolean): PPSVariantIFC;
begin
New(Result);
Result^ := NewTPSVariantIFC(avar, varparam);
end;
procedure DisposePPSVariantIFC(aVar: PPSVariantIFC);
begin
if avar <> nil then
Dispose(avar);
end;
procedure DisposePPSVariantIFCList(list: TPSList);
var
i: Longint;
begin
for i := list.Count -1 downto 0 do
DisposePPSVariantIFC(list[i]);
list.free;
end;
function ClassCallProcMethod(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
i: Integer;
MyList: TPSList;
n: PIFVariant;
v: PPSVariantIFC;
FSelf: Pointer;
CurrStack: Cardinal;
cc: TPSCallingConvention;
s: tbtString;
begin
s := p.Decl;
if length(S) < 2 then
begin
Result := False;
exit;
end;
cc := TPSCallingConvention(s[1]);
Delete(s, 1, 1);
if s[1] = #0 then
n := Stack[Stack.Count -1]
else
n := Stack[Stack.Count -2];
if (n = nil) or (n^.FType.BaseType <> btClass)or (PPSVariantClass(n).Data = nil) then
begin
Caller.CMD_Err(erNullPointerException);
result := false;
exit;
end;
FSelf := PPSVariantClass(n).Data;
CurrStack := Cardinal(Stack.Count) - Cardinal(length(s)) -1;
if s[1] = #0 then inc(CurrStack);
MyList := TPSList.Create;
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
n := Stack[CurrStack];
MyList[i - 2] := NewPPSVariantIFC(n, s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
v := NewPPSVariantIFC(Stack[CurrStack + 1], True);
end else v := nil;
try
if p.Ext2 = nil then
Result := Caller.InnerfuseCall(FSelf, p.Ext1, cc, MyList, v)
else
Result := Caller.InnerfuseCall(FSelf, VirtualMethodPtrToPtr(p.Ext1, FSelf), cc, MyList, v);
finally
DisposePPSVariantIFC(v);
DisposePPSVariantIFCList(mylist);
end;
end;
function ClassCallProcConstructor(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
i, h: Longint;
v: PPSVariantIFC;
MyList: TPSList;
n: PIFVariant;
FSelf: Pointer;
CurrStack: Cardinal;
cc: TPSCallingConvention;
s: tbtString;
FType: PIFTypeRec;
x: TPSRuntimeClass;
IntVal: PIFVariant;
begin
n := Stack[Stack.Count -2];
if (n = nil) or (n^.FType.BaseType <> btU32) then
begin
result := false;
exit;
end;
FType := Caller.GetTypeNo(PPSVariantU32(N).Data);
if (FType = nil) then
begin
Result := False;
exit;
end;
h := MakeHash(FType.ExportName);
FSelf := nil;
for i := 0 to TPSRuntimeClassImporter(p.Ext2).FClasses.Count -1 do
begin
x:= TPSRuntimeClassImporter(p.Ext2).FClasses[i];
if (x.FClassNameHash = h) and (x.FClassName = FType.ExportName) then
begin
FSelf := x.FClass;
end;
end;
if FSelf = nil then begin
Result := False;
exit;
end;
s := p.Decl;
if length(S) < 2 then
begin
Result := False;
exit;
end;
cc := TPSCallingConvention(s[1]);
Delete(s, 1, 1);
CurrStack := Cardinal(Stack.Count) - Cardinal(length(s)) -1;
if s[1] = #0 then inc(CurrStack);
IntVal := CreateHeapVariant(Caller.FindType2(btU32));
if IntVal = nil then
begin
Result := False;
exit;
end;
{$IFDEF FPC}
// under FPC a constructor it's called with self=0 (EAX) and
// the VMT class pointer in EDX so they are effectively swaped
// using register calling convention
PPSVariantU32(IntVal).Data := Cardinal(FSelf);
FSelf := pointer(1);
{$ELSE}
PPSVariantU32(IntVal).Data := 1;
{$ENDIF}
MyList := TPSList.Create;
MyList.Add(NewPPSVariantIFC(intval, false));
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
n :=Stack[CurrStack];
// if s[i] <> #0 then
// begin
// MyList[i - 2] := NewPPSVariantIFC(n, s[i] <> #0);
// end;
MyList[i - 1] := NewPPSVariantIFC(n, s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
v := NewPPSVariantIFC(Stack[CurrStack + 1], True);
end else v := nil;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext1, {$IFDEF FPC}TPSCallingConvention(Integer(cc) or 64){$ELSE}cc{$ENDIF}, MyList, v);
finally
DisposePPSVariantIFC(v);
DisposePPSVariantIFCList(mylist);
DestroyHeapVariant(intval);
end;
end;
function ClassCallProcVirtualConstructor(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
i, h: Longint;
v: PPSVariantIFC;
MyList: TPSList;
n: PIFVariant;
FSelf: Pointer;
CurrStack: Cardinal;
cc: TPSCallingConvention;
s: tbtString;
FType: PIFTypeRec;
x: TPSRuntimeClass;
IntVal: PIFVariant;
begin
n := Stack[Stack.Count -2];
if (n = nil) or (n^.FType.BaseType <> btU32) then
begin
Caller.CMD_Err(erNullPointerException);
result := false;
exit;
end;
FType := Caller.GetTypeNo(PPSVariantU32(N).Data);
if (FType = nil) then
begin
Caller.CMD_Err(erNullPointerException);
Result := False;
exit;
end;
h := MakeHash(FType.ExportName);
FSelf := nil;
for i := 0 to TPSRuntimeClassImporter(p.Ext2).FClasses.Count -1 do
begin
x:= TPSRuntimeClassImporter(p.Ext2).FClasses[i];
if (x.FClassNameHash = h) and (x.FClassName = FType.ExportName) then
begin
FSelf := x.FClass;
end;
end;
if FSelf = nil then begin
Result := False;
exit;
end;
s := p.Decl;
if length(S) < 2 then
begin
Result := False;
exit;
end;
cc := TPSCallingConvention(s[1]);
delete(s, 1, 1);
CurrStack := Cardinal(Stack.Count) - Cardinal(length(s)) -1;
if s[1] = #0 then inc(CurrStack);
IntVal := CreateHeapVariant(Caller.FindType2(btU32));
if IntVal = nil then
begin
Result := False;
exit;
end;
PPSVariantU32(IntVal).Data := 1;
MyList := TPSList.Create;
MyList.Add(NewPPSVariantIFC(intval, false));
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
n :=Stack[CurrStack];
MyList[i - 1] := NewPPSVariantIFC(n, s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
v := NewPPSVariantIFC(Stack[CurrStack + 1], True);
end else v := nil;
try
Result := Caller.InnerfuseCall(FSelf, VirtualClassMethodPtrToPtr(p.Ext1, FSelf), {$IFDEF FPC}TPSCallingConvention(Integer(cc) or 128){$ELSE}cc{$ENDIF}, MyList, v);
finally
DisposePPSVariantIFC(v);
DisposePPSVariantIFCList(mylist);
DestroyHeapVariant(intval);
end;
end;
function CastProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
TypeNo, InVar, ResVar: TPSVariantIFC;
FSelf: TClass;
FType: PIFTypeRec;
H, I: Longint;
x: TPSRuntimeClass;
begin
TypeNo := NewTPSVariantIFC(Stack[Stack.Count-3], false);
InVar := NewTPSVariantIFC(Stack[Stack.Count-2], false);
ResVar := NewTPSVariantIFC(Stack[Stack.Count-1], true);
if (TypeNo.Dta = nil) or (InVar.Dta = nil) or (ResVar.Dta = nil) or
(TypeNo.aType.BaseType <> btu32) or (resvar.aType <> Caller.FTypes[tbtu32(Typeno.dta^)])
then
begin
Result := False;
Exit;
end;
{$IFNDEF PS_NOINTERFACES}
if (invar.atype.BaseType = btInterface) and (resvar.aType.BaseType = btInterface) then
begin
{$IFNDEF Delphi3UP}
if IUnknown(resvar.Dta^) <> nil then
IUnknown(resvar.Dta^).Release;
{$ENDIF}
IUnknown(resvar.Dta^) := nil;
if (IUnknown(invar.Dta^) = nil) or (IUnknown(invar.Dta^).QueryInterface(TPSTypeRec_Interface(ResVar.aType).Guid, IUnknown(resvar.Dta^)) <> 0) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_CannotCastInterface));
Result := False;
exit;
end;
{$IFDEF Delphi3UP}
end else if (Invar.aType.BaseType = btclass) and (resvar.aType.BaseType = btInterface) then
begin
{$IFNDEF Delphi3UP}
if IUnknown(resvar.Dta^) <> nil then
IUnknown(resvar.Dta^).Release;
{$ENDIF}
IUnknown(resvar.Dta^) := nil;
if (TObject(invar.Dta^)= nil) or (not TObject(invar.dta^).GetInterface(TPSTypeRec_Interface(ResVar.aType).Guid, IUnknown(resvar.Dta^))) then
begin
Caller.CMD_Err2(erCustomError, tbtString(RPS_CannotCastInterface));
Result := False;
exit;
end;
{$ENDIF}
end else {$ENDIF}if (invar.aType.BaseType = btclass) and (resvar.aType.BaseType = btclass ) then
begin
FType := Caller.GetTypeNo(tbtu32(TypeNo.Dta^));
if (FType = nil) then
begin
Result := False;
exit;
end;
h := MakeHash(FType.ExportName);
FSelf := nil;
for i := 0 to TPSRuntimeClassImporter(p.Ext2).FClasses.Count -1 do
begin
x:= TPSRuntimeClassImporter(p.Ext2).FClasses[i];
if (x.FClassNameHash = h) and (x.FClassName = FType.ExportName) then
begin
FSelf := x.FClass;
end;
end;
if FSelf = nil then begin
Result := False;
exit;
end;
try
TObject(ResVar.Dta^) := TObject(InVar.Dta^) as FSelf;
except
Result := False;
Caller.CMD_Err2(erCustomError, tbtString(RPS_CannotCastObject));
exit;
end;
end else
begin
Result := False;
exit;
end;
result := True;
end;
function NilProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
n: TPSVariantIFC;
begin
n := NewTPSVariantIFC(Stack[Stack.Count-1], True);
if (n.Dta = nil) or ((n.aType.BaseType <> btClass) and (n.aType.BaseType <> btInterface)) then
begin
Result := False;
Caller.CMD_Err(erNullPointerException);
Exit;
end;
{$IFNDEF PS_NOINTERFACES}
if n.aType.BaseType = btInterface then
begin
{$IFNDEF Delphi3UP}
if IUnknown(n.Dta^) <> nil then
IUnknown(n.Dta^).Release;
{$ENDIF}
IUnknown(n.Dta^) := nil;
end else
{$ENDIF}
Pointer(n.Dta^) := nil;
result := True;
end;
function IntfCallProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
i: Integer;
MyList: TPSList;
n: TPSVariantIFC;
n2: PPSVariantIFC;
FSelf: Pointer;
CurrStack: Cardinal;
cc: TPSCallingConvention;
s: tbtString;
begin
s := p.Decl;
if length(S) < 2 then
begin
Result := False;
exit;
end;
cc := TPSCallingConvention(s[1]);
Delete(s, 1, 1);
if s[1] = #0 then
n := NewTPSVariantIFC(Stack[Stack.Count -1], false)
else
n := NewTPSVariantIFC(Stack[Stack.Count -2], false);
if (n.dta = nil) or (n.atype.BaseType <> btInterface) or (Pointer(n.Dta^) = nil) then
begin
Caller.CMD_Err(erNullPointerException);
result := false;
exit;
end;
FSelf := Pointer(n.dta^);
CurrStack := Cardinal(Stack.Count) - Cardinal(length(s)) -1;
if s[1] = #0 then inc(CurrStack);
MyList := TPSList.Create;
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
MyList[i - 2] := NewPPSVariantIFC(Stack[CurrStack], s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
n2 := NewPPSVariantIFC(Stack[CurrStack + 1], True);
end else n2 := nil;
try
Caller.InnerfuseCall(FSelf, Pointer(Pointer(IPointer(FSelf^) + (Cardinal(p.Ext1) * Sizeof(Pointer)))^), cc, MyList, n2);
result := true;
finally
DisposePPSVariantIFC(n2);
DisposePPSVariantIFCList(MyList);
end;
end;
function InterfaceProc(Sender: TPSExec; p: TPSExternalProcRec; Tag: Pointer): Boolean;
var
s: tbtString;
begin
s := p.Decl;
delete(s,1,5); // delete 'intf:'
if s = '' then
begin
Result := False;
exit;
end;
if s[1] = '.'then
begin
Delete(s,1,1);
if length(S) < 6 then
begin
Result := False;
exit;
end;
p.ProcPtr := IntfCallProc;
p.Ext1 := Pointer((@s[1])^); // Proc Offset
Delete(s,1,4);
P.Decl := s;
Result := True;
end else Result := False;
end;
function getMethodNo(P: TMethod; SE: TPSExec): Cardinal;
begin
if (p.Code <> @MyAllMethodsHandler) or (p.Data = nil)or (PScriptMethodInfo(p.Data)^.Se <> se) then
Result := 0
else
begin
Result := PScriptMethodInfo(p.Data)^.ProcNo;
end;
end;
function ClassCallProcProperty(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
n: TPSVariantIFC;
ltemp: Longint;
FSelf: Pointer;
m: TMethod;
begin
try
if p.Ext2 = Pointer(0) then
begin
n := NewTPSVariantIFC(Stack[Stack.Count -1], False);
if (n.Dta = nil) or (n.aType.BaseType <> btclass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Pointer(n.dta^);
if FSelf = nil then
begin
Caller.CMD_Err(erCouldNotCallProc);
Result := False;
exit;
end;
n := NewTPSVariantIFC(Stack[Stack.Count -2], false);
if (PPropInfo(p.Ext1)^.PropType^.Kind = tkMethod) and ((n.aType.BaseType = btu32) or (n.aType.BaseType = btProcPtr))then
begin
SetMethodProp(TObject(FSelf), PPropInfo(p.Ext1), MkMethod(Caller, tbtu32(n.dta^)));
end else
case n.aType.BaseType of
btSet:
begin
ltemp := 0;
move(Byte(n.Dta^), ltemp, TPSTypeRec_Set(n.aType).aByteSize);
SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), ltemp);
end;
btChar, btU8: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbtu8(n.Dta^));
btS8: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbts8(n.Dta^));
{$IFNDEF PS_NOWIDESTRING}btwidechar, {$ENDIF}btU16: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbtu16(n.Dta^));
btS16: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbts16(n.Dta^));
btU32: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbtu32(n.Dta^));
btS32: SetOrdProp(TObject(FSelf), PPropInfo(p.Ext1), tbts32(n.Dta^));
btSingle: SetFloatProp(TObject(FSelf), p.Ext1, tbtsingle(n.Dta^));
btDouble: SetFloatProp(TObject(FSelf), p.Ext1, tbtdouble(n.Dta^));
btExtended: SetFloatProp(TObject(FSelf), p.Ext1, tbtextended(n.Dta^));
btString: SetStrProp(TObject(FSelf), p.Ext1, string(tbtString(n.Dta^)));
btPChar: SetStrProp(TObject(FSelf), p.Ext1, string(pansichar(n.Dta^)));
btClass: SetOrdProp(TObject(FSelf), P.Ext1, Longint(n.Dta^));
{$IFDEF DELPHI6UP}
{$IFNDEF PS_NOWIDESTRING}
{$IFNDEF DELPHI2009UP}btUnicodeString,{$ENDIF}
btWideString: SetWideStrProp(TObject(FSelf), P.Ext1, tbtWidestring(n.dta^));
{$IFDEF DELPHI2009UP}
btUnicodeString: SetUnicodeStrProp(TObject(FSelf), P.Ext1, tbtUnicodestring(n.dta^));
{$ENDIF}
{$ENDIF}
{$ENDIF}
else
begin
Result := False;
exit;
end;
end;
Result := true;
end else begin
n := NewTPSVariantIFC(Stack[Stack.Count -2], False);
if (n.dta = nil) or (n.aType.BaseType <> btClass)then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Pointer(n.dta^);
if FSelf = nil then
begin
Caller.CMD_Err(erCouldNotCallProc);
Result := False;
exit;
end;
n := NewTPSVariantIFC(Stack[Stack.Count -1], false);
if (PPropInfo(p.Ext1)^.PropType^.Kind = tkMethod) and ((n.aType.BaseType = btu32) or (n.aType.BaseType = btprocptr)) then
begin
m := GetMethodProp(TObject(FSelf), PPropInfo(p.Ext1));
Cardinal(n.Dta^) := GetMethodNo(m, Caller);
if Cardinal(n.dta^) = 0 then
begin
Pointer(Pointer((IPointer(n.dta)+PointerSize))^) := m.Data;
Pointer(Pointer((IPointer(n.dta)+PointerSize2))^) := m.Code;
end;
end else
case n.aType.BaseType of
btSet:
begin
ltemp := GetOrdProp(TObject(FSelf), PPropInfo(p.Ext1));
move(ltemp, Byte(n.Dta^), TPSTypeRec_Set(n.aType).aByteSize);
end;
btU8: tbtu8(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btS8: tbts8(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btU16: tbtu16(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btS16: tbts16(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btU32: tbtu32(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btS32: tbts32(n.Dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
btSingle: tbtsingle(n.Dta^) := GetFloatProp(TObject(FSelf), p.Ext1);
btDouble: tbtdouble(n.Dta^) := GetFloatProp(TObject(FSelf), p.Ext1);
btExtended: tbtextended(n.Dta^) := GetFloatProp(TObject(FSelf), p.Ext1);
btString: tbtString(n.Dta^) := tbtString(GetStrProp(TObject(FSelf), p.Ext1));
btClass: Longint(n.dta^) := GetOrdProp(TObject(FSelf), p.Ext1);
{$IFDEF DELPHI6UP}
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
btUnicodeString: tbtUnicodeString(n.dta^) := GetUnicodeStrProp(TObject(FSelf), P.Ext1);
{$ELSE}
btUnicodeString,
{$ENDIF}
btWideString: tbtWidestring(n.dta^) := GetWideStrProp(TObject(FSelf), P.Ext1);
{$ENDIF}
{$ENDIF}
else
begin
Result := False;
exit;
end;
end;
Result := True;
end;
finally
end;
end;
function ClassCallProcPropertyHelper(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
I, ParamCount: Longint;
Params: TPSList;
n: TPSVariantIFC;
FSelf: Pointer;
begin
if Length(P.Decl) < 4 then begin
Result := False;
exit;
end;
ParamCount := Longint((@P.Decl[1])^);
if Longint(Stack.Count) < ParamCount +1 then begin
Result := False;
exit;
end;
Dec(ParamCount);
if p.Ext1 <> nil then // read
begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 2], False);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := pointer(n.Dta^);
if FSelf = nil then
begin
Caller.CMD_Err(erCouldNotCallProc);
Result := False;
exit;
end;
Params := TPSList.Create;
Params.Add(NewPPSVariantIFC(Stack[Longint(Stack.Count) - 1], True));
for i := Stack.Count -3 downto Longint(Stack.Count) - ParamCount -2 do
begin
Params.Add(NewPPSVariantIFC(Stack[I], False));
end;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext1, cdRegister, Params, nil);
finally
DisposePPSVariantIFCList(Params);
end;
end else begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 1], False);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := pointer(n.Dta^);
if FSelf = nil then
begin
Caller.CMD_Err(erCouldNotCallProc);
Result := False;
exit;
end;
Params := TPSList.Create;
Params.Add(NewPPSVariantIFC(Stack[Longint(Stack.Count) - ParamCount - 2], False));
for i := Stack.Count -2 downto Longint(Stack.Count) - ParamCount -1 do
begin
Params.Add(NewPPSVariantIFC(Stack[I], False));
end;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext2, cdregister, Params, nil);
finally
DisposePPSVariantIFCList(Params);
end;
end;
end;
function ClassCallProcPropertyHelperName(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
var
I, ParamCount: Longint;
Params: TPSList;
tt: PIFVariant;
n: TPSVariantIFC;
FSelf: Pointer;
begin
if Length(P.Decl) < 4 then begin
Result := False;
exit;
end;
ParamCount := Longint((@P.Decl[1])^);
if Longint(Stack.Count) < ParamCount +1 then begin
Result := False;
exit;
end;
Dec(ParamCount);
if p.Ext1 <> nil then // read
begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 2], false);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Tobject(n.dta^);
Params := TPSList.Create;
Params.Add(NewPPSVariantIFC(Stack[Longint(Stack.Count) - 1], True));
for i := Stack.Count -3 downto Longint(Stack.Count) - ParamCount -2 do
Params.Add(NewPPSVariantIFC(Stack[I], False));
tt := CreateHeapVariant(Caller.FindType2(btString));
if tt <> nil then
begin
PPSVariantAString(tt).Data := p.Name;
Params.Add(NewPPSVariantIFC(tt, false));
end;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext1, cdRegister, Params, nil);
finally
DestroyHeapVariant(tt);
DisposePPSVariantIFCList(Params);
end;
end else begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 1], false);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Tobject(n.dta^);
Params := TPSList.Create;
Params.Add(NewPPSVariantIFC(Stack[Longint(Stack.Count) - 2], True));
for i := Stack.Count -2 downto Longint(Stack.Count) - ParamCount -1 do
begin
Params.Add(NewPPSVariantIFC(Stack[I], false));
end;
tt := CreateHeapVariant(Caller.FindType2(btString));
if tt <> nil then
begin
PPSVariantAString(tt).Data := p.Name;
Params.Add(NewPPSVariantIFC(tt, false));
end;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext2, cdregister, Params, nil);
finally
DestroyHeapVariant(tt);
DisposePPSVariantIFCList(Params);
end;
end;
end;
function ClassCallProcEventPropertyHelper(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
{Event property helper}
var
I, ParamCount: Longint;
Params: TPSList;
n: TPSVariantIFC;
data: TMethod;
n2: PIFVariant;
FSelf: Pointer;
begin
if Length(P.Decl) < 4 then begin
Result := False;
exit;
end;
ParamCount := Longint((@P.Decl[1])^);
if Longint(Stack.Count) < ParamCount +1 then begin
Result := False;
exit;
end;
Dec(ParamCount);
if p.Ext1 <> nil then // read
begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 2], false);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Tobject(n.dta^);
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 1], True); // Result
if (n.aType.BaseType <> btU32) and (n.aType.BaseType <> btProcPtr) then
begin
Result := False;
Caller.CMD_Err(erNullPointerException);
exit;
end;
n2 := CreateHeapVariant(Caller.FindType2(btPChar));
if n2 = nil then
begin
Result := False;
exit;
end;
Params := TPSList.Create;
//{$IFDEF CPU64}
//{$ELSE}
data.Code := nil;
data.Data := nil;
//{$ENDIF}
PPSVariantDynamicArray(n2)^.Data:= @data;
Params.Add(NewPPSVariantIFC(n2, false));
for i := Stack.Count -3 downto Longint(Stack.Count) - ParamCount -2 do
Params.Add(NewPPSVariantIFC(Stack[i], False));
try
Result := Caller.InnerfuseCall(FSelf, p.Ext1, cdRegister, Params, nil);
finally
Cardinal(n.Dta^) := getMethodNo(data, Caller);
if Cardinal(n.Dta^) = 0 then
begin
Pointer(Pointer((IPointer(n.dta)+PointerSize))^) := data.Data;
Pointer(Pointer((IPointer(n.dta)+PointerSize2))^) := data.Code;
end;
DestroyHeapVariant(n2);
DisposePPSVariantIFCList(Params);
end;
end else begin
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 1], false);
if (n.Dta = nil) or (n.aType.BaseType <> btClass) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
FSelf := Tobject(n.dta^);
n := NewTPSVariantIFC(Stack[Longint(Stack.Count) - 2], false);
if (n.Dta = nil) or ((n.aType.BaseType <> btu32) and (n.aType.BaseType <> btProcPtr)) then
begin
result := false;
Caller.CMD_Err(erNullPointerException);
exit;
end;
(*n2 := CreateHeapVariant(Caller.FindType2(btPchar));
if n2 = nil then
begin
Result := False;
exit;
end; *)
//if (n.aType.BaseType = btProcPtr) and (cardinal(n.dta^) = 0) then
// data := TMethod(Pointer(IPointer(n.dta^)+4)^)
//else
// data := MkMethod(Caller, cardinal(n.dta^));
Params := TPSList.Create;
Params.Add(@n);
// for i := Stack.Count -2 downto Longint(Stack.Count) - ParamCount -1 do
// begin
// Params.Add(NewPPSVariantIFC(Stack[I], False));
// end;
try
Result := Caller.InnerfuseCall(FSelf, p.Ext2, cdregister, Params, nil);
finally
Params.Clear;
//DestroyHeapVariant(n2);
DisposePPSVariantIFCList(Params);
end;
end;
end;
{'class:'+CLASSNAME+'|'+FUNCNAME+'|'+chr(CallingConv)+chr(hasresult)+params
For property write functions there is an '@' after the funcname.
}
function SpecImport(Sender: TPSExec; p: TPSExternalProcRec; Tag: Pointer): Boolean;
var
H, I: Longint;
S, s2: tbtString;
CL: TPSRuntimeClass;
Px: PClassItem;
pp: PPropInfo;
IsRead: Boolean;
begin
s := p.Decl;
delete(s, 1, 6);
if s = '-' then {nil function}
begin
p.ProcPtr := NilProc;
Result := True;
exit;
end;
if s = '+' then {cast function}
begin
p.ProcPtr := CastProc;
p.Ext2 := Tag;
Result := True;
exit;
end;
s2 := copy(S, 1, pos(tbtchar('|'), s)-1);
delete(s, 1, length(s2) + 1);
H := MakeHash(s2);
ISRead := False;
cl := nil;
for I := TPSRuntimeClassImporter(Tag).FClasses.Count -1 downto 0 do
begin
Cl := TPSRuntimeClassImporter(Tag).FClasses[I];
if (Cl.FClassNameHash = h) and (cl.FClassName = s2) then
begin
IsRead := True;
break;
end;
end;
if not isRead then begin
Result := False;
exit;
end;
s2 := copy(S, 1, pos(tbtchar('|'), s)-1);
delete(s, 1, length(s2) + 1);
if (s2 <> '') and (s2[length(s2)] = '@') then
begin
IsRead := False;
Delete(S2, length(s2), 1);
end else
isRead := True;
p.Name := s2;
H := MakeHash(s2);
for i := cl.FClassItems.Count -1 downto 0 do
begin
px := cl.FClassItems[I];
if (px^.FNameHash = h) and (px^.FName = s2) then
begin
p.Decl := s;
case px^.b of
{0: ext1=ptr}
{1: ext1=pointerinlist}
{2: ext1=propertyinfo}
{3: ext1=readfunc; ext2=writefunc}
4:
begin
p.ProcPtr := ClassCallProcConstructor;
p.Ext1 := px^.Ptr;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := Tag;
end;
5:
begin
p.ProcPtr := ClassCallProcVirtualConstructor;
p.Ext1 := px^.Ptr;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := Tag;
end;
6:
begin
p.ProcPtr := ClassCallProcEventPropertyHelper;
if IsRead then
begin
p.Ext1 := px^.FReadFunc;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := nil;
end else
begin
p.Ext1 := nil;
p.Ext2 := px^.FWriteFunc;
if p.Ext2 = nil then begin result := false; exit; end;
end;
end;
0:
begin
p.ProcPtr := ClassCallProcMethod;
p.Ext1 := px^.Ptr;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := nil;
end;
1:
begin
p.ProcPtr := ClassCallProcMethod;
p.Ext1 := px^.PointerInList;
//if p.Ext1 = nil then begin result := false; exit; end;
p.ext2 := pointer(1);
end;
3:
begin
p.ProcPtr := ClassCallProcPropertyHelper;
if IsRead then
begin
p.Ext1 := px^.FReadFunc;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := nil;
end else
begin
p.Ext1 := nil;
p.Ext2 := px^.FWriteFunc;
if p.Ext2 = nil then begin result := false; exit; end;
end;
end;
7:
begin
p.ProcPtr := ClassCallProcPropertyHelperName;
if IsRead then
begin
p.Ext1 := px^.FReadFunc;
if p.Ext1 = nil then begin result := false; exit; end;
p.Ext2 := nil;
end else
begin
p.Ext1 := nil;
p.Ext2 := px^.FWriteFunc;
if p.Ext2 = nil then begin result := false; exit; end;
end;
end;
else
begin
result := false;
exit;
end;
end;
Result := true;
exit;
end;
end;
if cl.FClass.ClassInfo <> nil then
begin
pp := GetPropInfo(cl.FClass.ClassInfo, string(s2));
if pp <> nil then
begin
p.ProcPtr := ClassCallProcProperty;
p.Ext1 := pp;
if IsRead then
p.Ext2 := Pointer(1)
else
p.Ext2 := Pointer(0);
Result := True;
end else
result := false;
end else
Result := False;
end;
procedure RegisterClassLibraryRuntime(SE: TPSExec; Importer: TPSRuntimeClassImporter);
begin
SE.AddSpecialProcImport('class', SpecImport, Importer);
end;
procedure TPSExec.ClearspecialProcImports;
var
I: Longint;
P: PSpecialProc;
begin
for I := FSpecialProcList.Count -1 downto 0 do
begin
P := FSpecialProcList[I];
Dispose(p);
end;
FSpecialProcList.Clear;
end;
procedure TPSExec.RaiseCurrentException;
var
ExObj: TObject;
begin
if ExEx = erNoError then exit; // do nothing
ExObj := Self.ExObject;
if ExObj <> nil then
begin
Self.ExObject := nil;
raise ExObj;
end;
raise EPSException.Create(PSErrorToString(ExceptionCode, ExceptionString), Self, ExProc, ExPos);
end;
procedure TPSExec.CMD_Err2(EC: TPSError; const Param: tbtString);
begin
CMD_Err3(EC, Param, Nil);
end;
function TPSExec.GetProcAsMethod(const ProcNo: Cardinal): TMethod;
begin
Result := MkMethod(Self, ProcNo);
end;
function TPSExec.GetProcAsMethodN(const ProcName: tbtString): TMethod;
var
procno: Cardinal;
begin
Procno := GetProc(ProcName);
if Procno = InvalidVal then
begin
Result.Code := nil;
Result.Data := nil;
end
else
Result := MkMethod(Self, procno)
end;
procedure TPSExec.RegisterAttributeType(useproc: TPSAttributeUseProc;
const TypeName: tbtString);
var
att: TPSAttributeType;
begin
att := TPSAttributeType.Create;
att.TypeName := TypeName;
att.TypeNameHash := MakeHash(TypeName);
att.UseProc := UseProc;
FAttributeTypes.Add(att);
end;
function TPSExec.GetProcCount: Cardinal;
begin
Result := FProcs.Count;
end;
function TPSExec.GetTypeCount: Longint;
begin
Result := FTypes.Count;
end;
function TPSExec.GetVarCount: Longint;
begin
Result := FGlobalVars.Count;
end;
function TPSExec.FindSpecialProcImport(
P: TPSOnSpecialProcImport): pointer;
var
i: Longint;
pr: PSpecialProc;
begin
for i := FSpecialProcList.Count -1 downto 0 do
begin
pr := FSpecialProcList[i];
if @pr.P = @p then
begin
Result := pr.tag;
exit;
end;
end;
result := nil;
end;
function TPSExec.InvokeExternalMethod(At: TPSTypeRec_ProcPtr; Slf,
Ptr: Pointer): Boolean;
var
res: PPSVariantIFC;
s: tbtString;
CurrStack, i: Longint;
n: PPSVariant;
MyList: TPSList;
begin
s := TPSTypeRec_ProcPtr(at).ParamInfo;
CurrStack := Cardinal(FStack.Count) - Cardinal(length(s));
if s[1] = #0 then inc(CurrStack);
MyList := TPSList.Create;
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
n := FStack[CurrStack];
MyList[i - 2] := NewPPSVariantIFC(n, s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
res := NewPPSVariantIFC(FStack[CurrStack + 1], True);
end else res := nil;
Result := InnerfuseCall(Slf, Ptr, cdRegister, MyList, Res);
DisposePPSVariantIFC(res);
DisposePPSVariantIFCList(mylist);
end;
function TPSExec.LastEx: TPSError;
var
pp: TPSExceptionHandler;
begin
if FExceptionStack.Count = 0 then begin
result := ExEx;
exit;
end;
pp := fExceptionStack[fExceptionStack.Count-1];
result := pp.ExceptionData;
end;
function TPSExec.LastExParam: tbtString;
var
pp: TPSExceptionHandler;
begin
if FExceptionStack.Count = 0 then begin
result := ExParam;
exit;
end;
pp := fExceptionStack[fExceptionStack.Count-1];
result := pp.ExceptionParam;
end;
function TPSExec.LastExPos: Integer;
var
pp: TPSExceptionHandler;
begin
if FExceptionStack.Count = 0 then begin
result := ExPos;
exit;
end;
pp := fExceptionStack[fExceptionStack.Count-1];
result := pp.ExceptOffset;
end;
function TPSExec.LastExProc: Integer;
var
pp: TPSExceptionHandler;
begin
if FExceptionStack.Count = 0 then begin
result := ExProc;
exit;
end;
pp := fExceptionStack[fExceptionStack.Count-1];
result := FProcs.IndexOf(pp.CurrProc);
end;
function TPSExec.LastExObject: TObject;
var
pp: TPSExceptionHandler;
begin
if FExceptionStack.Count = 0 then begin
result := ExObject;
exit;
end;
pp := fExceptionStack[fExceptionStack.Count-1];
result := pp.ExceptionObject;
end;
{ TPSRuntimeClass }
constructor TPSRuntimeClass.Create(aClass: TClass; const AName: tbtString);
begin
inherited Create;
FClass := AClass;
if AName = '' then
begin
FClassName := FastUpperCase(tbtString(aClass.ClassName));
FClassNameHash := MakeHash(FClassName);
end else begin
FClassName := FastUppercase(AName);
FClassNameHash := MakeHash(FClassName);
end;
FClassItems:= TPSList.Create;
FEndOfVmt := MaxInt;
end;
destructor TPSRuntimeClass.Destroy;
var
I: Longint;
P: PClassItem;
begin
for i:= FClassItems.Count -1 downto 0 do
begin
P := FClassItems[I];
Dispose(p);
end;
FClassItems.Free;
inherited Destroy;
end;
procedure TPSRuntimeClass.RegisterVirtualAbstractMethod(ClassDef: TClass;
ProcPtr: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 1;
p^.PointerInList := FindVirtualMethodPtr(Self, ClassDef, ProcPtr);
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterConstructor(ProcPtr: Pointer;
const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 4;
p^.Ptr := ProcPtr;
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterMethod(ProcPtr: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 0;
p^.Ptr := ProcPtr;
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterPropertyHelper(ReadFunc,
WriteFunc: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 3;
p^.FReadFunc := ReadFunc;
p^.FWriteFunc := WriteFunc;
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterVirtualConstructor(ProcPtr: Pointer;
const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 5;
p^.PointerInList := FindVirtualMethodPtr(Self, FClass, ProcPtr);
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterVirtualMethod(ProcPtr: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 1;
p^.PointerInList := FindVirtualMethodPtr(Self, FClass, ProcPtr);
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterEventPropertyHelper(ReadFunc,
WriteFunc: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 6;
p^.FReadFunc := ReadFunc;
p^.FWriteFunc := WriteFunc;
FClassItems.Add(p);
end;
procedure TPSRuntimeClass.RegisterPropertyHelperName(ReadFunc,
WriteFunc: Pointer; const Name: tbtString);
var
P: PClassItem;
begin
New(P);
p^.FName := FastUppercase(Name);
p^.FNameHash := MakeHash(p^.FName);
p^.b := 7;
p^.FReadFunc := ReadFunc;
p^.FWriteFunc := WriteFunc;
FClassItems.Add(p);
end;
{ TPSRuntimeClassImporter }
function TPSRuntimeClassImporter.Add(aClass: TClass): TPSRuntimeClass;
begin
Result := FindClass(tbtstring(aClass.ClassName));
if Result <> nil then exit;
Result := TPSRuntimeClass.Create(aClass, '');
FClasses.Add(Result);
end;
function TPSRuntimeClassImporter.Add2(aClass: TClass;
const Name: tbtString): TPSRuntimeClass;
begin
Result := FindClass(Name);
if Result <> nil then exit;
Result := TPSRuntimeClass.Create(aClass, Name);
FClasses.Add(Result);
end;
procedure TPSRuntimeClassImporter.Clear;
var
I: Longint;
begin
for i := 0 to FClasses.Count -1 do
begin
TPSRuntimeClass(FClasses[I]).Free;
end;
FClasses.Clear;
end;
constructor TPSRuntimeClassImporter.Create;
begin
inherited Create;
FClasses := TPSList.Create;
end;
constructor TPSRuntimeClassImporter.CreateAndRegister(Exec: TPSExec;
AutoFree: Boolean);
begin
inherited Create;
FClasses := TPSList.Create;
RegisterClassLibraryRuntime(Exec, Self);
if AutoFree then
Exec.AddResource(@RCIFreeProc, Self);
end;
destructor TPSRuntimeClassImporter.Destroy;
begin
Clear;
FClasses.Free;
inherited Destroy;
end;
{$IFNDEF PS_NOINTERFACES}
procedure SetVariantToInterface(V: PIFVariant; Cl: IUnknown);
begin
if (v <> nil) and (v.FType.BaseType = btInterface) then
begin
PPSVariantinterface(v).Data := cl;
{$IFNDEF Delphi3UP}
if PPSVariantinterface(v).Data <> nil then
PPSVariantinterface(v).Data.AddRef;
{$ENDIF}
end;
end;
{$ENDIF}
procedure SetVariantToClass(V: PIFVariant; Cl: TObject);
begin
if (v <> nil) and (v.FType.BaseType = btClass) then
begin
PPSVariantclass(v).Data := cl;
end;
end;
function BGRFW(var s: tbtString): tbtString;
var
l: Longint;
begin
l := Length(s);
while l >0 do
begin
if s[l] = ' ' then
begin
Result := copy(s, l + 1, Length(s) - l);
Delete(s, l, Length(s) - l + 1);
exit;
end;
Dec(l);
end;
Result := s;
s := '';
end;
{$ifdef CPUX64}
{$DEFINE empty_methods_handler}
{$ENDIF}
{$ifdef fpc}
{$if defined(cpupowerpc) or defined(cpuarm) or defined(cpu64)}
{$define empty_methods_handler}
{$ifend}
{$endif}
{$ifdef empty_methods_handler}
procedure MyAllMethodsHandler;
begin
end;
{$else}
function MyAllMethodsHandler2(Self: PScriptMethodInfo; const Stack: PPointer; _EDX, _ECX: Pointer): Integer; forward;
procedure MyAllMethodsHandler;
// On entry:
// EAX = Self pointer
// EDX, ECX = param1 and param2
// STACK = param3... paramcount
asm
push 0
push ecx
push edx
mov edx, esp
add edx, 16 // was 12
pop ecx
call MyAllMethodsHandler2
pop ecx
mov edx, [esp]
add esp, eax
mov [esp], edx
mov eax, ecx
end;
function ResultAsRegister(b: TPSTypeRec): Boolean;
begin
case b.BaseType of
btSingle,
btDouble,
btExtended,
btU8,
bts8,
bts16,
btu16,
bts32,
btu32,
{$IFDEF PS_FPCSTRINGWORKAROUND}
btString,
{$ENDIF}
{$IFNDEF PS_NOINT64}
bts64,
{$ENDIF}
btPChar,
{$IFNDEF PS_NOWIDESTRING}
btWideChar,
{$ENDIF}
btChar,
btclass,
btEnum: Result := true;
btSet: Result := b.RealSize <= PointerSize;
btStaticArray: Result := b.RealSize <= PointerSize;
else
Result := false;
end;
end;
function SupportsRegister(b: TPSTypeRec): Boolean;
begin
case b.BaseType of
btU8,
bts8,
bts16,
btu16,
bts32,
btu32,
btstring,
btclass,
{$IFNDEF PS_NOINTERFACES}
btinterface,
{$ENDIF}
btPChar,
{$IFNDEF PS_NOWIDESTRING}
btwidestring,
btUnicodeString,
btWideChar,
{$ENDIF}
btChar,
btArray,
btEnum: Result := true;
btSet: Result := b.RealSize <= PointerSize;
btStaticArray: Result := b.RealSize <= PointerSize;
else
Result := false;
end;
end;
function AlwaysAsVariable(aType: TPSTypeRec): Boolean;
begin
case atype.BaseType of
btVariant: Result := true;
btSet: Result := atype.RealSize > PointerSize;
btRecord: Result := atype.RealSize > PointerSize;
btStaticArray: Result := atype.RealSize > PointerSize;
else
Result := false;
end;
end;
procedure PutOnFPUStackExtended(ft: extended);
asm
// fstp tbyte ptr [ft]
fld tbyte ptr [ft]
end;
function MyAllMethodsHandler2(Self: PScriptMethodInfo; const Stack: PPointer; _EDX, _ECX: Pointer): Integer;
var
Decl: tbtString;
I, C, regno: Integer;
Params: TPSList;
Res, Tmp: PIFVariant;
cpt: PIFTypeRec;
fmod: tbtchar;
s,e: tbtString;
FStack: pointer;
ex: TPSExceptionHandler;
begin
Decl := TPSInternalProcRec(Self^.Se.FProcs[Self^.ProcNo]).ExportDecl;
FStack := Stack;
Params := TPSList.Create;
s := decl;
grfw(s);
while s <> '' do
begin
Params.Add(nil);
grfw(s);
end;
c := Params.Count;
regno := 0;
Result := 0;
s := decl;
grfw(s);
for i := c-1 downto 0 do
begin
e := grfw(s);
fmod := e[1];
delete(e, 1, 1);
cpt := Self.Se.GetTypeNo(StrToInt(e));
if ((fmod = '%') or (fmod = '!') or (AlwaysAsVariable(cpt))) and (RegNo < 2) then
begin
tmp := CreateHeapVariant(self.Se.FindType2(btPointer));
PPSVariantPointer(tmp).DestType := cpt;
Params[i] := tmp;
case regno of
0: begin
PPSVariantPointer(tmp).DataDest := Pointer(_EDX);
inc(regno);
end;
1: begin
PPSVariantPointer(tmp).DataDest := Pointer(_ECX);
inc(regno);
end;
(* else begin
PPSVariantPointer(tmp).DataDest := Pointer(FStack^);
FStack := Pointer(IPointer(FStack) + 4);
end;*)
end;
end
else if SupportsRegister(cpt) and (RegNo < 2) then
begin
tmp := CreateHeapVariant(cpt);
Params[i] := tmp;
case regno of
0: begin
CopyArrayContents(@PPSVariantData(tmp)^.Data, @_EDX, 1, cpt);
inc(regno);
end;
1: begin
CopyArrayContents(@PPSVariantData(tmp)^.Data, @_ECX, 1, cpt);
inc(regno);
end;
(* else begin
CopyArrayContents(@PPSVariantData(tmp)^.Data, Pointer(FStack), 1, cpt);
FStack := Pointer(IPointer(FStack) + 4);
end;*)
end;
(* end else
begin
tmp := CreateHeapVariant(cpt);
Params[i] := tmp;
CopyArrayContents(@PPSVariantData(tmp)^.Data, Pointer(FStack), 1, cpt);
FStack := Pointer(IPointer(FStack) + cpt.RealSize + 3 and not 3);*)
end;
end;
s := decl;
e := grfw(s);
if e <> '-1' then
begin
cpt := Self.Se.GetTypeNo(StrToInt(e));
if not ResultAsRegister(cpt) then
begin
Res := CreateHeapVariant(Self.Se.FindType2(btPointer));
PPSVariantPointer(Res).DestType := cpt;
Params.Add(Res);
case regno of
0: begin
PPSVariantPointer(Res).DataDest := Pointer(_EDX);
end;
1: begin
PPSVariantPointer(Res).DataDest := Pointer(_ECX);
end;
else begin
PPSVariantPointer(Res).DataDest := Pointer(FStack^);
Inc(Result, PointerSize);
end;
end;
end else
begin
Res := CreateHeapVariant(cpt);
Params.Add(Res);
end;
end else Res := nil;
s := decl;
grfw(s);
for i := 0 to c -1 do
begin
e := grlw(s);
fmod := e[1];
delete(e, 1, 1);
if Params[i] <> nil then Continue;
cpt := Self.Se.GetTypeNo(StrToInt(e));
if (fmod = '%') or (fmod = '!') or (AlwaysAsVariable(cpt)) then
begin
tmp := CreateHeapVariant(self.Se.FindType2(btPointer));
PPSVariantPointer(tmp).DestType := cpt;
Params[i] := tmp;
PPSVariantPointer(tmp).DataDest := Pointer(FStack^);
FStack := Pointer(IPointer(FStack) + PointerSize);
Inc(Result, PointerSize);
end
(* else if SupportsRegister(cpt) then
begin
tmp := CreateHeapVariant(cpt);
Params[i] := tmp;
CopyArrayContents(@PPSVariantData(tmp)^.Data, Pointer(FStack), 1, cpt);
FStack := Pointer(IPointer(FStack) + 4);
end;
end *)else
begin
tmp := CreateHeapVariant(cpt);
Params[i] := tmp;
CopyArrayContents(@PPSVariantData(tmp)^.Data, Pointer(FStack), 1, cpt);
FStack := Pointer((IPointer(FStack) + cpt.RealSize + 3) and not 3);
Inc(Result, (cpt.RealSize + 3) and not 3);
end;
end;
ex := TPSExceptionHandler.Create;
ex.FinallyOffset := InvalidVal;
ex.ExceptOffset := InvalidVal;
ex.Finally2Offset := InvalidVal;
ex.EndOfBlock := InvalidVal;
ex.CurrProc := nil;
ex.BasePtr := Self.Se.FCurrStackBase;
Ex.StackSize := Self.Se.FStack.Count;
i := Self.Se.FExceptionStack.Add(ex);
Self.Se.RunProc(Params, Self.ProcNo);
if Self.Se.FExceptionStack[i] = ex then
begin
Self.Se.FExceptionStack.Remove(ex);
ex.Free;
end;
if (Res <> nil) then
begin
Params.DeleteLast;
if (ResultAsRegister(Res.FType)) then
begin
if (res^.FType.BaseType = btSingle) or (res^.FType.BaseType = btDouble) or
(res^.FType.BaseType = btCurrency) or (res^.Ftype.BaseType = btExtended) then
begin
case Res^.FType.BaseType of
btSingle: PutOnFPUStackExtended(PPSVariantSingle(res).Data);
btDouble: PutOnFPUStackExtended(PPSVariantDouble(res).Data);
btExtended: PutOnFPUStackExtended(PPSVariantExtended(res).Data);
btCurrency: PutOnFPUStackExtended(PPSVariantCurrency(res).Data);
end;
DestroyHeapVariant(Res);
Res := nil;
end else
begin
{$IFNDEF PS_NOINT64}
if res^.FType.BaseType <> btS64 then
{$ENDIF}
//CopyArrayContents(Pointer(Longint(Stack)-PointerSize2), @PPSVariantData(res)^.Data, 1, Res^.FType);
CopyArrayContents(Pointer(Longint(Stack)-Longint(PointerSize2)), @PPSVariantData(res)^.Data, 1, Res^.FType);
end;
end;
DestroyHeapVariant(res);
end;
for i := 0 to Params.Count -1 do
DestroyHeapVariant(Params[i]);
Params.Free;
if Self.Se.ExEx <> erNoError then
begin
if Self.Se.ExObject <> nil then
begin
FStack := Self.Se.ExObject;
Self.Se.ExObject := nil;
raise TObject(FStack);
end else
raise EPSException.Create(PSErrorToString(Self.SE.ExceptionCode, Self.Se.ExceptionString), Self.Se, Self.Se.ExProc, Self.Se.ExPos);
end;
end;
{$endif}
function TPSRuntimeClassImporter.FindClass(const Name: tbtString): TPSRuntimeClass;
var
h, i: Longint;
lName: tbtstring;
p: TPSRuntimeClass;
begin
lName := FastUpperCase(Name);
h := MakeHash(lName);
for i := FClasses.Count -1 downto 0 do
begin
p := FClasses[i];
if (p.FClassNameHash = h) and (p.FClassName = lName) then
begin
Result := P;
exit;
end;
end;
Result := nil;
end;
function DelphiFunctionProc(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack; CC: TPSCallingConvention): Boolean;
var
i: Integer;
MyList: TPSList;
n: PPSVariantIFC;
CurrStack: Cardinal;
s: tbtString;
begin
s := P.Decl;
if length(s) = 0 then begin Result := False; exit; end;
CurrStack := Cardinal(Stack.Count) - Cardinal(length(s));
if s[1] = #0 then inc(CurrStack);
MyList := TPSList.Create;
for i := 2 to length(s) do
begin
MyList.Add(nil);
end;
for i := length(s) downto 2 do
begin
MyList[i - 2] := NewPPSVariantIFC(Stack[CurrStack], s[i] <> #0);
inc(CurrStack);
end;
if s[1] <> #0 then
begin
n := NewPPSVariantIFC(Stack[CurrStack], True);
end else n := nil;
try
result := Caller.InnerfuseCall(p.Ext2, p.Ext1, cc, MyList, n);
finally
DisposePPSVariantIFC(n);
DisposePPSVariantIFCList(mylist);
end;
end;
function DelphiFunctionProc_CDECL(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
begin
Result := DelphiFunctionProc(Caller, p, Global, Stack, cdCdecl);
end;
function DelphiFunctionProc_Register(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
begin
Result := DelphiFunctionProc(Caller, p, Global, Stack, cdRegister);
end;
function DelphiFunctionProc_Pascal(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
begin
Result := DelphiFunctionProc(Caller, p, Global, Stack, cdPascal);
end;
function DelphiFunctionProc_Stdcall(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
begin
Result := DelphiFunctionProc(Caller, p, Global, Stack, cdStdCall);
end;
function DelphiFunctionProc_Safecall(Caller: TPSExec; p: TPSExternalProcRec; Global, Stack: TPSStack): Boolean;
begin
Result := DelphiFunctionProc(Caller, p, Global, Stack, cdSafeCall);
end;
procedure TPSExec.RegisterDelphiFunction(ProcPtr: Pointer;
const Name: tbtString; CC: TPSCallingConvention);
begin
RegisterDelphiMethod(nil, ProcPtr, FastUppercase(Name), CC);
end;
procedure TPSExec.RegisterDelphiMethod(Slf, ProcPtr: Pointer;
const Name: tbtString; CC: TPSCallingConvention);
begin
case cc of
cdRegister: RegisterFunctionName(FastUppercase(Name), DelphiFunctionProc_Register, ProcPtr, Slf);
cdPascal: RegisterFunctionName(FastUppercase(Name), DelphiFunctionProc_Pascal, ProcPtr, Slf);
cdStdCall: RegisterFunctionName(FastUppercase(Name), DelphiFunctionProc_Stdcall, ProcPtr, Slf);
cdSafeCall: RegisterFunctionName(FastUppercase(Name), DelphiFunctionProc_Safecall, ProcPtr, Slf);
cdCdecl: RegisterFunctionName(FastUppercase(Name), DelphiFunctionProc_CDECL, ProcPtr, Slf);
end;
end;
{ EPSException }
constructor EPSException.Create(const Error: tbtString; Exec: TPSExec;
Procno, ProcPos: Cardinal);
begin
inherited Create(string(Error));
FExec := Exec;
FProcNo := Procno;
FProcPos := ProcPos;
end;
{ TPSRuntimeAttribute }
function TPSRuntimeAttribute.AddValue(aType: TPSTypeRec): PPSVariant;
begin
Result := FValues.PushType(aType);
end;
procedure TPSRuntimeAttribute.AdjustSize;
begin
FValues.Capacity := FValues.Length;
end;
constructor TPSRuntimeAttribute.Create(Owner: TPSRuntimeAttributes);
begin
inherited Create;
FOwner := Owner;
FValues := TPSStack.Create;
end;
procedure TPSRuntimeAttribute.DeleteValue(i: Longint);
begin
if Cardinal(i) <> Cardinal(FValues.Count -1) then
raise Exception.Create(RPS_CanOnlySendLastItem);
FValues.Pop;
end;
destructor TPSRuntimeAttribute.Destroy;
begin
FValues.Free;
inherited Destroy;
end;
function TPSRuntimeAttribute.GetValue(I: Longint): PIFVariant;
begin
Result := FValues[i];
end;
function TPSRuntimeAttribute.GetValueCount: Longint;
begin
Result := FValues.Count;
end;
{ TPSRuntimeAttributes }
function TPSRuntimeAttributes.Add: TPSRuntimeAttribute;
begin
Result := TPSRuntimeAttribute.Create(Self);
FAttributes.Add(Result);
end;
constructor TPSRuntimeAttributes.Create(AOwner: TPSExec);
begin
inherited Create;
FAttributes := TPSList.Create;
FOwner := AOwner;
end;
procedure TPSRuntimeAttributes.Delete(I: Longint);
begin
TPSRuntimeAttribute(FAttributes[i]).Free;
FAttributes.Delete(i);
end;
destructor TPSRuntimeAttributes.Destroy;
var
i: Longint;
begin
for i := FAttributes.Count -1 downto 0 do
TPSRuntimeAttribute(FAttributes[i]).Free;
FAttributes.Free;
inherited Destroy;
end;
function TPSRuntimeAttributes.FindAttribute(
const Name: tbtString): TPSRuntimeAttribute;
var
n: tbtString;
i, h: Longint;
begin
n := FastUpperCase(Name);
h := MakeHash(n);
for i := 0 to FAttributes.Count -1 do
begin
Result := FAttributes[i];
if (Result.AttribTypeHash = h) and (Result.AttribType = n) then
exit;
end;
Result := nil;
end;
function TPSRuntimeAttributes.GetCount: Longint;
begin
Result := FAttributes.Count;
end;
function TPSRuntimeAttributes.GetItem(I: Longint): TPSRuntimeAttribute;
begin
Result := FAttributes[i];
end;
{ TPSInternalProcRec }
destructor TPSInternalProcRec.Destroy;
begin
if FData <> nil then
Freemem(Fdata, FLength);
inherited Destroy;
end;
{ TPsProcRec }
constructor TPSProcRec.Create(Owner: TPSExec);
begin
inherited Create;
FAttributes := TPSRuntimeAttributes.Create(Owner);
end;
destructor TPSProcRec.Destroy;
begin
FAttributes.Free;
inherited Destroy;
end;
{ TPSTypeRec_Array }
procedure TPSTypeRec_Array.CalcSize;
begin
FrealSize := PointerSize;
end;
{ TPSTypeRec_StaticArray }
procedure TPSTypeRec_StaticArray.CalcSize;
begin
FrealSize := Cardinal(FArrayType.RealSize) * Cardinal(Size);
end;
{ TPSTypeRec_Set }
procedure TPSTypeRec_Set.CalcSize;
begin
FrealSize := FByteSize;
end;
const
MemDelta = 4096;
{ TPSStack }
procedure TPSStack.AdjustLength;
var
MyLen: Longint;
begin
MyLen := ((FLength shr 12) + 1) shl 12;
SetCapacity(MyLen);
end;
procedure TPSStack.Clear;
var
v: Pointer;
i: Longint;
begin
for i := Count -1 downto 0 do
begin
v := Data[i];
if TPSTypeRec(v^).BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(v)+PointerSize), TPSTypeRec(v^));
end;
inherited Clear;
FLength := 0;
SetCapacity(0);
end;
constructor TPSStack.Create;
begin
inherited Create;
GetMem(FDataPtr, MemDelta);
FCapacity := MemDelta;
FLength := 0;
end;
destructor TPSStack.Destroy;
var
v: Pointer;
i: Longint;
begin
for i := Count -1 downto 0 do
begin
v := Data[i];
if TPSTypeRec(v^).BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(v)+PointerSize), Pointer(v^));
end;
FreeMem(FDataPtr, FCapacity);
inherited Destroy;
end;
function TPSStack.GetBool(ItemNo: Longint): Boolean;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := Items[Longint(ItemNo) + Longint(Count)]
else
val := Items[ItemNo];
Result := PSGetUInt(@PPSVariantData(val).Data, val.FType) <> 0;
end;
function TPSStack.GetClass(ItemNo: Longint): TObject;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := Items[Longint(ItemNo) + Longint(Count)]
else
val := Items[ItemNo];
Result := PSGetObject(@PPSVariantData(val).Data, val.FType);
end;
function TPSStack.GetCurrency(ItemNo: Longint): Currency;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := Items[Longint(ItemNo) + Longint(Count)]
else
val := Items[ItemNo];
Result := PSGetCurrency(@PPSVariantData(val).Data, val.FType);
end;
function TPSStack.GetInt(ItemNo: Longint): Longint;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetInt(@PPSVariantData(val).Data, val.FType);
end;
{$IFNDEF PS_NOINT64}
function TPSStack.GetInt64(ItemNo: Longint): Int64;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetInt64(@PPSVariantData(val).Data, val.FType);
end;
{$ENDIF}
function TPSStack.GetItem(I: Longint): PPSVariant;
begin
if Cardinal(I) >= Cardinal(Count) then
Result := nil
else
Result := Data[i];
end;
function TPSStack.GetReal(ItemNo: Longint): Extended;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetreal(@PPSVariantData(val).Data, val.FType);
end;
function TPSStack.GetAnsiString(ItemNo: Longint): tbtString;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetAnsiString(@PPSVariantData(val).Data, val.FType);
end;
function TPSStack.GetString(ItemNo: Longint): string; // calls the native method
begin
result := {$IFNDEF PS_NOWIDESTRING}{$IFDEF DELPHI2009UP}GetUnicodeString(ItemNo){$ELSE}GetAnsiString(ItemNo){$ENDIF}{$ELSE}GetAnsiString(ItemNo){$ENDIF};
end;
function TPSStack.GetUInt(ItemNo: Longint): Cardinal;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetUInt(@PPSVariantData(val).Data, val.FType);
end;
{$IFNDEF PS_NOWIDESTRING}
function TPSStack.GetUnicodeString(ItemNo: Integer): tbtunicodestring;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetUnicodeString(@PPSVariantData(val).Data, val.FType);
end;
function TPSStack.GetWideString(ItemNo: Longint): tbtWideString;
var
val: PPSVariant;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
Result := PSGetWideString(@PPSVariantData(val).Data, val.FType);
end;
{$ENDIF}
procedure TPSStack.Pop;
var
p1: Pointer;
c: Longint;
begin
c := count -1;
p1 := Data[c];
DeleteLast;
FLength := IPointer(p1) - IPointer(FDataPtr);
if TPSTypeRec(p1^).BaseType in NeedFinalization then
FinalizeVariant(Pointer(IPointer(p1)+PointerSize), Pointer(p1^));
if ((FCapacity - FLength) shr 12) > 2 then AdjustLength;
end;
function TPSStack.Push(TotalSize: Longint): PPSVariant;
var
o: Cardinal;
p: Pointer;
begin
o := FLength;
FLength := (FLength + TotalSize);
//if FLength mod PointerSize <> 0 then
if FLength mod Longint(PointerSize) <> 0 then
//FLength := FLength + (PointerSize - (FLength mod PointerSize));
FLength := FLength + (Longint(PointerSize) - Longint((FLength mod Longint(PointerSize))));
if FLength > FCapacity then AdjustLength;
p := Pointer(IPointer(FDataPtr) + IPointer(o));
Add(p);
Result := P;
end;
function TPSStack.PushType(aType: TPSTypeRec): PPSVariant;
begin
Result := Push(aType.RealSize + Sizeof(Pointer));
Result.FType := aType;
InitializeVariant(Pointer(IPointer(Result)+PointerSize), aType);
end;
procedure TPSStack.SetBool(ItemNo: Longint; const Data: Boolean);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
if Data then
PSSetUInt(@PPSVariantData(val).Data, val.FType, ok, 1)
else
PSSetUInt(@PPSVariantData(val).Data, val.FType, ok, 0);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
procedure TPSStack.SetCapacity(const Value: Longint);
var
p: Pointer;
OOFS: IPointer;
I: Longint;
begin
if Value < FLength then raise Exception.Create(RPS_CapacityLength);
if Value = 0 then
begin
if FDataPtr <> nil then
begin
FreeMem(FDataPtr, FCapacity);
FDataPtr := nil;
end;
FCapacity := 0;
end;
GetMem(p, Value);
if FDataPtr <> nil then
begin
if FLength > FCapacity then
OOFS := FCapacity
else
OOFS := FLength;
Move(FDataPtr^, p^, OOFS);
OOFS := IPointer(P) - IPointer(FDataPtr);
for i := Count -1 downto 0 do begin
Data[i] := Pointer(IPointer(Data[i]) + OOFS);
if Items[i].FType.FBaseType = btPointer then begin // check if pointer points to moved stack data
if (IPointer(PPSVariantPointer(Data[i]).DataDest) >= IPointer(FDataPtr)) and
(IPointer(PPSVariantPointer(Data[i]).DataDest) < IPointer(FDataPtr)+IPointer(FLength)) then
PPSVariantPointer(Data[i]).DataDest := Pointer(IPointer(PPSVariantPointer(Data[i]).DataDest) + OOFS);
end;
end;
FreeMem(FDataPtr, FCapacity);
end;
FDataPtr := p;
FCapacity := Value;
end;
procedure TPSStack.SetClass(ItemNo: Longint; const Data: TObject);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetObject(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
procedure TPSStack.SetCurrency(ItemNo: Longint; const Data: Currency);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetCurrency(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
procedure TPSStack.SetInt(ItemNo: Longint; const Data: Longint);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetInt(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
{$IFNDEF PS_NOINT64}
procedure TPSStack.SetInt64(ItemNo: Longint; const Data: Int64);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetInt64(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
{$ENDIF}
procedure TPSStack.SetReal(ItemNo: Longint; const Data: Extended);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetReal(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
procedure TPSStack.SetAnsiString(ItemNo: Longint; const Data: tbtString);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetAnsiString(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
procedure TPSStack.SetString(ItemNo: Longint; const Data: string);
begin
{$IFNDEF PS_NOWIDESTRING}
{$IFDEF DELPHI2009UP}
SetUnicodeString(ItemNo, Data);
{$ELSE}
SetAnsiString(ItemNo, Data);
{$ENDIF}
{$ELSE}
SetAnsiString(ItemNo, Data);
{$ENDIF}
end;
procedure TPSStack.SetUInt(ItemNo: Longint; const Data: Cardinal);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetUInt(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
{$IFNDEF PS_NOWIDESTRING}
procedure TPSStack.SetUnicodeString(ItemNo: Integer;
const Data: tbtunicodestring);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetUnicodeString(@PPSVariantData(val).Data, val.FType, ok, Data);
end;
procedure TPSStack.SetWideString(ItemNo: Longint;
const Data: tbtWideString);
var
val: PPSVariant;
ok: Boolean;
begin
if ItemNo < 0 then
val := items[Longint(ItemNo) + Longint(Count)]
else
val := items[ItemNo];
ok := true;
PSSetWideString(@PPSVariantData(val).Data, val.FType, ok, Data);
if not ok then raise Exception.Create(RPS_TypeMismatch);
end;
{$ENDIF}
{$IFNDEF PS_NOIDISPATCH}
var
DispPropertyPut: Integer = DISPID_PROPERTYPUT;
const
LOCALE_SYSTEM_DEFAULT = 2 shl 10; // Delphi 2 doesn't define this
function IDispatchInvoke(Self: IDispatch; PropertySet: Boolean; const Name: tbtString; const Par: array of Variant): Variant;
var
Param: Word;
i, ArgErr: Longint;
DispatchId: Longint;
DispParam: TDispParams;
ExceptInfo: TExcepInfo;
aName: PWideChar;
WSFreeList: TPSList;
begin
if Self = nil then begin
raise EPSException.Create('Variant is null, cannot invoke', nil, 0, 0);
end;
FillChar(ExceptInfo, SizeOf(ExceptInfo), 0);
if Name='' then begin
DispatchId:=0;
end else begin
aName := StringToOleStr(Name);
try
if Self = nil then
raise Exception.Create(RPS_NILInterfaceException);
if Self.GetIDsOfNames(GUID_NULL, @aName, 1, LOCALE_SYSTEM_DEFAULT, @DispatchId) <> S_OK then
raise Exception.Create(RPS_UnknownMethod);
finally
SysFreeString(aName);
end;
end;
DispParam.cNamedArgs := 0;
DispParam.rgdispidNamedArgs := nil;
DispParam.cArgs := (High(Par) + 1);
if PropertySet then
begin
Param := DISPATCH_PROPERTYPUT;
DispParam.cNamedArgs := 1;
DispParam.rgdispidNamedArgs := @DispPropertyPut;
end else
Param := DISPATCH_METHOD or DISPATCH_PROPERTYGET;
WSFreeList := TPSList.Create;
try
GetMem(DispParam.rgvarg, sizeof(TVariantArg) * (High(Par) + 1));
FillCHar(DispParam.rgvarg^, sizeof(TVariantArg) * (High(Par) + 1), 0);
try
for i := 0 to High(Par) do
begin
if PVarData(@Par[High(Par)-i]).VType = varString then
begin
DispParam.rgvarg[i].vt := VT_BSTR;
DispParam.rgvarg[i].bstrVal := StringToOleStr(AnsiString(Par[High(Par)-i]));
WSFreeList.Add(DispParam.rgvarg[i].bstrVal);
{$IFDEF UNICODE}
end else if (PVarData(@Par[High(Par)-i]).VType = varOleStr) or (PVarData(@Par[High(Par)-i]).VType = varUString) then
begin
DispParam.rgvarg[i].vt := VT_BSTR;
DispParam.rgvarg[i].bstrVal := StringToOleStr(UnicodeString(Par[High(Par)-i]));
WSFreeList.Add(DispParam.rgvarg[i].bstrVal);
{$ENDIF}
end else
begin
DispParam.rgvarg[i].vt := VT_VARIANT or VT_BYREF;
New(
{$IFDEF DELPHI4UP}
POleVariant
{$ELSE}
PVariant{$ENDIF}
(DispParam.rgvarg[i].pvarVal));
(*
{$IFDEF DELPHI4UP}
POleVariant
{$ELSE}
PVariant
{$ENDIF}
(DispParam.rgvarg[i].pvarVal)^ := Par[High(Par)-i];
*)
Move(Par[High(Par)-i],Pointer(DispParam.rgvarg[i].pvarVal)^,
Sizeof({$IFDEF DELPHI4UP}OleVariant{$ELSE}Variant{$ENDIF}));
end;
end;
i :=Self.Invoke(DispatchId, GUID_NULL, LOCALE_SYSTEM_DEFAULT, Param, DispParam, @Result, @ExceptInfo, @ArgErr);
{$IFNDEF Delphi3UP}
try
if not Succeeded(i) then
begin
if i = DISP_E_EXCEPTION then
raise Exception.Create(OleStrToString(ExceptInfo.bstrSource)+': '+OleStrToString(ExceptInfo.bstrDescription))
else
raise Exception.Create(SysErrorMessage(i));
end;
finally
SysFreeString(ExceptInfo.bstrSource);
SysFreeString(ExceptInfo.bstrDescription);
SysFreeString(ExceptInfo.bstrHelpFile);
end;
{$ELSE}
if not Succeeded(i) then
begin
if i = DISP_E_EXCEPTION then
raise Exception.Create(ExceptInfo.bstrSource+': '+ExceptInfo.bstrDescription)
else
raise Exception.Create(SysErrorMessage(i));
end;
{$ENDIF}
finally
for i := 0 to High(Par) do
begin
if DispParam.rgvarg[i].vt = (VT_VARIANT or VT_BYREF) then
begin
if{$IFDEF DELPHI4UP}POleVariant{$ELSE}PVariant{$ENDIF}
(DispParam.rgvarg[i].pvarVal) <> nil then
Dispose(
{$IFDEF DELPHI4UP}
POleVariant
{$ELSE}
PVariant
{$ENDIF}
(DispParam.rgvarg[i].pvarVal));
end;
end;
FreeMem(DispParam.rgvarg, sizeof(TVariantArg) * (High(Par) + 1));
end;
finally
for i := WSFreeList.Count -1 downto 0 do
SysFreeString(WSFreeList[i]);
WSFreeList.Free;
end;
end;
{$ENDIF}
{ TPSTypeRec_ProcPtr }
procedure TPSTypeRec_ProcPtr.CalcSize;
begin
FRealSize := 2 * sizeof(Pointer) + Sizeof(Cardinal);
end;
end.