1
0
mirror of https://github.com/moparisthebest/Simba synced 2024-11-11 03:45:06 -05:00
Simba/Units/PascalScript/uPSCompiler.pas
Wizzup? 9d6c4ee850 eol-style: native
git-svn-id: http://www.villavu.com/repositories/merlijn/mufasa@58 3f818213-9676-44b0-a9b4-5e4c4e03d09d
2009-09-13 19:47:09 +00:00

15398 lines
437 KiB
ObjectPascal

unit uPSCompiler;
{$I PascalScript.inc}
interface
uses
{$IFNDEF DELPHI3UP}{$IFNDEF PS_NOINTERFACES}{$IFNDEF LINUX}Windows, Ole2,{$ENDIF}
{$ENDIF}{$ENDIF}SysUtils, uPSUtils;
type
{$IFNDEF PS_NOINTERFACES}
TPSInterface = class;
{$ENDIF}
TPSParameterMode = (pmIn, pmOut, pmInOut);
TPSPascalCompiler = class;
TPSType = class;
TPSValue = class;
TPSParameters = class;
TPSSubOptType = (tMainBegin, tProcBegin, tSubBegin, tOneLiner, tifOneliner, tRepeat, tTry, tTryEnd
{$IFDEF PS_USESSUPPORT},tUnitInit, tUnitFinish {$ENDIF}); //nvds
{TPSExternalClass is used when external classes need to be called}
TPSCompileTimeClass = class;
TPSAttributes = class;
TPSAttribute = class;
EPSCompilerException = class(Exception) end;
TPSParameterDecl = class(TObject)
private
FName: tbtString;
FOrgName: tbtString;
FMode: TPSParameterMode;
FType: TPSType;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos: Cardinal;
FDeclareRow: Cardinal;
FDeclareCol: Cardinal;
procedure SetName(const s: tbtString);
public
property Name: tbtString read FName;
property OrgName: tbtString read FOrgName write SetName;
property aType: TPSType read FType write FType;
property Mode: TPSParameterMode read FMode write FMode;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
end;
TPSParametersDecl = class(TObject)
private
FParams: TPSList;
FResult: TPSType;
function GetParam(I: Longint): TPSParameterDecl;
function GetParamCount: Longint;
public
property Params[I: Longint]: TPSParameterDecl read GetParam;
property ParamCount: Longint read GetParamCount;
function AddParam: TPSParameterDecl;
procedure DeleteParam(I: Longint);
property Result : TPSType read FResult write FResult;
procedure Assign(Params: TPSParametersDecl);
function Same(d: TPSParametersDecl): boolean;
constructor Create;
destructor Destroy; override;
end;
TPSRegProc = class(TObject)
private
FNameHash: Longint;
FName: tbtString;
FDecl: TPSParametersDecl;
FExportName: Boolean;
FImportDecl: tbtString;
FOrgName: tbtString;
procedure SetName(const Value: tbtString);
public
property OrgName: tbtString read FOrgName write FOrgName;
property Name: tbtString read FName write SetName;
property NameHash: Longint read FNameHash;
property Decl: TPSParametersDecl read FDecl;
property ExportName: Boolean read FExportName write FExportName;
property ImportDecl: tbtString read FImportDecl write FImportDecl;
constructor Create;
destructor Destroy; override;
end;
PIFPSRegProc = TPSRegProc;
PIfRVariant = ^TIfRVariant;
TIfRVariant = record
FType: TPSType;
case Byte of
1: (tu8: TbtU8);
2: (tS8: TbtS8);
3: (tu16: TbtU16);
4: (ts16: TbtS16);
5: (tu32: TbtU32);
6: (ts32: TbtS32);
7: (tsingle: TbtSingle);
8: (tdouble: TbtDouble);
9: (textended: TbtExtended);
11: (tcurrency: tbtCurrency);
10: (tstring: Pointer);
{$IFNDEF PS_NOINT64}
17: (ts64: Tbts64);
{$ENDIF}
19: (tchar: tbtChar);
{$IFNDEF PS_NOWIDESTRING}
18: (twidestring: Pointer);
20: (twidechar: tbtwidechar);
{$ENDIF}
21: (ttype: TPSType);
22: (tunistring: Pointer);
end;
TPSRecordFieldTypeDef = class(TObject)
private
FFieldOrgName: tbtString;
FFieldName: tbtString;
FFieldNameHash: Longint;
FType: TPSType;
procedure SetFieldOrgName(const Value: tbtString);
public
property FieldOrgName: tbtString read FFieldOrgName write SetFieldOrgName;
property FieldName: tbtString read FFieldName;
property FieldNameHash: Longint read FFieldNameHash;
property aType: TPSType read FType write FType;
end;
PIFPSRecordFieldTypeDef = TPSRecordFieldTypeDef;
TPSType = class(TObject)
private
FNameHash: Longint;
FName: tbtString;
FBaseType: TPSBaseType;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos: Cardinal;
FDeclareRow: Cardinal;
FDeclareCol: Cardinal;
FUsed: Boolean;
FExportName: Boolean;
FOriginalName: tbtString;
FAttributes: TPSAttributes;
FFinalTypeNo: cardinal;
procedure SetName(const Value: tbtString);
public
constructor Create;
destructor Destroy; override;
property Attributes: TPSAttributes read FAttributes;
property FinalTypeNo: cardinal read FFinalTypeNo;
property OriginalName: tbtString read FOriginalName write FOriginalName;
property Name: tbtString read FName write SetName;
property NameHash: Longint read FNameHash;
property BaseType: TPSBaseType read FBaseType write FBaseType;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
property Used: Boolean read FUsed;
property ExportName: Boolean read FExportName write FExportName;
procedure Use;
end;
PIFPSType = TPSType;
TPSVariantType = class(TPSType)
private
public
function GetDynInvokeProcNo(Owner: TPSPascalCompiler; const Name: tbtString; Params: TPSParameters): Cardinal; virtual;
function GetDynIvokeSelfType(Owner: TPSPascalCompiler): TPSType; virtual;
function GetDynInvokeParamType(Owner: TPSPascalCompiler): TPSType; virtual;
function GetDynIvokeResulType(Owner: TPSPascalCompiler): TPSType; virtual;
end;
TPSRecordType = class(TPSType)
private
FRecordSubVals: TPSList;
public
constructor Create;
destructor Destroy; override;
function RecValCount: Longint;
function RecVal(I: Longint): PIFPSRecordFieldTypeDef;
function AddRecVal: PIFPSRecordFieldTypeDef;
end;
TPSClassType = class(TPSType)
private
FCL: TPSCompiletimeClass;
public
property Cl: TPSCompileTimeClass read FCL write FCL;
end;
TPSExternalClass = class;
TPSUndefinedClassType = class(TPSType)
private
FExtClass: TPSExternalClass;
public
property ExtClass: TPSExternalClass read FExtClass write FExtClass;
end;
{$IFNDEF PS_NOINTERFACES}
TPSInterfaceType = class(TPSType)
private
FIntf: TPSInterface;
public
property Intf: TPSInterface read FIntf write FIntf;
end;
{$ENDIF}
TPSProceduralType = class(TPSType)
private
FProcDef: TPSParametersDecl;
public
property ProcDef: TPSParametersDecl read FProcDef;
constructor Create;
destructor Destroy; override;
end;
TPSArrayType = class(TPSType)
private
FArrayTypeNo: TPSType;
public
property ArrayTypeNo: TPSType read FArrayTypeNo write FArrayTypeNo;
end;
TPSStaticArrayType = class(TPSArrayType)
private
FStartOffset: Longint;
FLength: Cardinal;
public
property StartOffset: Longint read FStartOffset write FStartOffset;
property Length: Cardinal read FLength write FLength;
end;
TPSSetType = class(TPSType)
private
FSetType: TPSType;
function GetByteSize: Longint;
function GetBitSize: Longint;
public
property SetType: TPSType read FSetType write FSetType;
property ByteSize: Longint read GetByteSize;
property BitSize: Longint read GetBitSize;
end;
TPSTypeLink = class(TPSType)
private
FLinkTypeNo: TPSType;
public
property LinkTypeNo: TPSType read FLinkTypeNo write FLinkTypeNo;
end;
TPSEnumType = class(TPSType)
private
FHighValue: Cardinal;
public
property HighValue: Cardinal read FHighValue write FHighValue;
end;
TPSProcedure = class(TObject)
private
FAttributes: TPSAttributes;
public
property Attributes: TPSAttributes read FAttributes;
constructor Create;
destructor Destroy; override;
end;
TPSAttributeType = class;
TPSAttributeTypeField = class(TObject)
private
FOwner: TPSAttributeType;
FFieldOrgName: tbtString;
FFieldName: tbtString;
FFieldNameHash: Longint;
FFieldType: TPSType;
FHidden: Boolean;
procedure SetFieldOrgName(const Value: tbtString);
public
constructor Create(AOwner: TPSAttributeType);
property Owner: TPSAttributeType read FOwner;
property FieldOrgName: tbtString read FFieldOrgName write SetFieldOrgName;
property FieldName: tbtString read FFieldName;
property FieldNameHash: Longint read FFieldNameHash;
property FieldType: TPSType read FFieldType write FFieldType;
property Hidden: Boolean read FHidden write FHidden;
end;
TPSApplyAttributeToType = function (Sender: TPSPascalCompiler; aType: TPSType; Attr: TPSAttribute): Boolean;
TPSApplyAttributeToProc = function (Sender: TPSPascalCompiler; aProc: TPSProcedure; Attr: TPSAttribute): Boolean;
{ An attribute type }
TPSAttributeType = class(TPSType)
private
FFields: TPSList;
FName: tbtString;
FOrgname: tbtString;
FNameHash: Longint;
FAAProc: TPSApplyAttributeToProc;
FAAType: TPSApplyAttributeToType;
function GetField(I: Longint): TPSAttributeTypeField;
function GetFieldCount: Longint;
procedure SetName(const s: tbtString);
public
property OnApplyAttributeToType: TPSApplyAttributeToType read FAAType write FAAType;
property OnApplyAttributeToProc: TPSApplyAttributeToProc read FAAProc write FAAProc;
property Fields[i: Longint]: TPSAttributeTypeField read GetField;
property FieldCount: Longint read GetFieldCount;
procedure DeleteField(I: Longint);
function AddField: TPSAttributeTypeField;
property Name: tbtString read FName;
property OrgName: tbtString read FOrgName write SetName;
property NameHash: Longint read FNameHash;
constructor Create;
destructor Destroy; override;
end;
TPSAttribute = class(TObject)
private
FAttribType: TPSAttributeType;
FValues: TPSList;
function GetValueCount: Longint;
function GetValue(I: Longint): PIfRVariant;
public
constructor Create(AttribType: TPSAttributeType);
procedure Assign(Item: TPSAttribute);
property AType: TPSAttributeType read FAttribType;
property Count: Longint read GetValueCount;
property Values[i: Longint]: PIfRVariant read GetValue; default;
procedure DeleteValue(i: Longint);
function AddValue(v: PIFRVariant): Longint;
destructor Destroy; override;
end;
TPSAttributes = class(TObject)
private
FItems: TPSList;
function GetCount: Longint;
function GetItem(I: Longint): TPSAttribute;
public
procedure Assign(attr: TPSAttributes; Move: Boolean);
property Count: Longint read GetCount;
property Items[i: Longint]: TPSAttribute read GetItem; default;
procedure Delete(i: Longint);
function Add(AttribType: TPSAttributeType): TPSAttribute;
function FindAttribute(const Name: tbtString): TPSAttribute;
constructor Create;
destructor Destroy; override;
end;
TPSProcVar = class(TObject)
private
FNameHash: Longint;
FName: tbtString;
FOrgName: tbtString;
FType: TPSType;
FUsed: Boolean;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos, FDeclareRow, FDeclareCol: Cardinal;
procedure SetName(const Value: tbtString);
public
property OrgName: tbtString read FOrgName write FOrgname;
property NameHash: Longint read FNameHash;
property Name: tbtString read FName write SetName;
property AType: TPSType read FType write FType;
property Used: Boolean read FUsed;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
procedure Use;
end;
PIFPSProcVar = TPSProcVar;
TPSExternalProcedure = class(TPSProcedure)
private
FRegProc: TPSRegProc;
public
property RegProc: TPSRegProc read FRegProc write FRegProc;
end;
TPSInternalProcedure = class(TPSProcedure)
private
FForwarded: Boolean;
FData: tbtString;
FNameHash: Longint;
FName: tbtString;
FDecl: TPSParametersDecl;
FProcVars: TPSList;
FUsed: Boolean;
FOutputDeclPosition: Cardinal;
FResultUsed: Boolean;
FLabels: TIfStringList;
FGotos: TIfStringList;
FDeclareRow: Cardinal;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos: Cardinal;
FDeclareCol: Cardinal;
FOriginalName: tbtString;
procedure SetName(const Value: tbtString);
public
constructor Create;
destructor Destroy; override;
{Attributes}
property Forwarded: Boolean read FForwarded write FForwarded;
property Data: tbtString read FData write FData;
property Decl: TPSParametersDecl read FDecl;
property OriginalName: tbtString read FOriginalName write FOriginalName;
property Name: tbtString read FName write SetName;
property NameHash: Longint read FNameHash;
property ProcVars: TPSList read FProcVars;
property Used: Boolean read FUsed;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
property OutputDeclPosition: Cardinal read FOutputDeclPosition write FOutputDeclPosition;
property ResultUsed: Boolean read FResultUsed;
property Labels: TIfStringList read FLabels;
property Gotos: TIfStringList read FGotos;
procedure Use;
procedure ResultUse;
end;
TPSVar = class(TObject)
private
FNameHash: Longint;
FOrgName: tbtString;
FName: tbtString;
FType: TPSType;
FUsed: Boolean;
FExportName: tbtString;
FDeclareRow: Cardinal;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos: Cardinal;
FDeclareCol: Cardinal;
FSaveAsPointer: Boolean;
procedure SetName(const Value: tbtString);
public
property SaveAsPointer: Boolean read FSaveAsPointer write FSaveAsPointer;
property ExportName: tbtString read FExportName write FExportName;
property Used: Boolean read FUsed;
property aType: TPSType read FType write FType;
property OrgName: tbtString read FOrgName write FOrgName;
property Name: tbtString read FName write SetName;
property NameHash: Longint read FNameHash;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
procedure Use;
end;
PIFPSVar = TPSVar;
TPSConstant = class(TObject)
private
FOrgName: tbtString;
FNameHash: Longint;
FName: tbtString;
FDeclareRow: Cardinal;
{$IFDEF PS_USESSUPPORT}
FDeclareUnit: tbtString;
{$ENDIF}
FDeclarePos: Cardinal;
FDeclareCol: Cardinal;
FValue: PIfRVariant;
procedure SetName(const Value: tbtString);
public
property OrgName: tbtString read FOrgName write FOrgName;
property Name: tbtString read FName write SetName;
property NameHash: Longint read FNameHash;
property Value: PIfRVariant read FValue write FValue;
{$IFDEF PS_USESSUPPORT}
property DeclareUnit: tbtString read FDeclareUnit write FDeclareUnit;
{$ENDIF}
property DeclarePos: Cardinal read FDeclarePos write FDeclarePos;
property DeclareRow: Cardinal read FDeclareRow write FDeclareRow;
property DeclareCol: Cardinal read FDeclareCol write FDeclareCol;
procedure SetSet(const val);
procedure SetInt(const Val: Longint);
procedure SetUInt(const Val: Cardinal);
{$IFNDEF PS_NOINT64}
procedure SetInt64(const Val: Int64);
{$ENDIF}
procedure SetString(const Val: tbtString);
procedure SetChar(c: tbtChar);
{$IFNDEF PS_NOWIDESTRING}
procedure SetWideChar(const val: WideChar);
procedure SetWideString(const val: tbtwidestring);
procedure SetUnicodeString(const val: tbtunicodestring);
{$ENDIF}
procedure SetExtended(const Val: Extended);
destructor Destroy; override;
end;
PIFPSConstant = TPSConstant;
TPSPascalCompilerErrorType = (
ecUnknownIdentifier,
ecIdentifierExpected,
ecCommentError,
ecStringError,
ecCharError,
ecSyntaxError,
ecUnexpectedEndOfFile,
ecSemicolonExpected,
ecBeginExpected,
ecPeriodExpected,
ecDuplicateIdentifier,
ecColonExpected,
ecUnknownType,
ecCloseRoundExpected,
ecTypeMismatch,
ecInternalError,
ecAssignmentExpected,
ecThenExpected,
ecDoExpected,
ecNoResult,
ecOpenRoundExpected,
ecCommaExpected,
ecToExpected,
ecIsExpected,
ecOfExpected,
ecCloseBlockExpected,
ecVariableExpected,
ecStringExpected,
ecEndExpected,
ecUnSetLabel,
ecNotInLoop,
ecInvalidJump,
ecOpenBlockExpected,
ecWriteOnlyProperty,
ecReadOnlyProperty,
ecClassTypeExpected,
ecCustomError,
ecDivideByZero,
ecMathError,
ecUnsatisfiedForward,
ecForwardParameterMismatch,
ecInvalidnumberOfParameters
{$IFDEF PS_USESSUPPORT}
, ecNotAllowed,
ecUnitNotFoundOrContainsErrors
{$ENDIF}
);
TPSPascalCompilerHintType = (
ehVariableNotUsed,
ehFunctionNotUsed,
ehCustomHint
);
TPSPascalCompilerWarningType = (
ewCalculationAlwaysEvaluatesTo,
ewIsNotNeeded,
ewAbstractClass,
ewCustomWarning
);
TPSPascalCompilerMessage = class(TObject)
protected
FRow: Cardinal;
FCol: Cardinal;
FModuleName: tbtString;
FParam: tbtString;
FPosition: Cardinal;
procedure SetParserPos(Parser: TPSPascalParser);
public
property ModuleName: tbtString read FModuleName write FModuleName;
property Param: tbtString read FParam write FParam;
property Pos: Cardinal read FPosition write FPosition;
property Row: Cardinal read FRow write FRow;
property Col: Cardinal read FCol write FCol;
function ErrorType: tbtString; virtual; abstract;
procedure SetCustomPos(Pos, Row, Col: Cardinal);
function MessageToString: tbtString; virtual;
function ShortMessageToString: tbtString; virtual; abstract;
end;
TPSPascalCompilerError = class(TPSPascalCompilerMessage)
protected
FError: TPSPascalCompilerErrorType;
public
property Error: TPSPascalCompilerErrorType read FError;
function ErrorType: tbtString; override;
function ShortMessageToString: tbtString; override;
end;
TPSPascalCompilerHint = class(TPSPascalCompilerMessage)
protected
FHint: TPSPascalCompilerHintType;
public
property Hint: TPSPascalCompilerHintType read FHint;
function ErrorType: tbtString; override;
function ShortMessageToString: tbtString; override;
end;
TPSPascalCompilerWarning = class(TPSPascalCompilerMessage)
protected
FWarning: TPSPascalCompilerWarningType;
public
property Warning: TPSPascalCompilerWarningType read FWarning;
function ErrorType: tbtString; override;
function ShortMessageToString: tbtString; override;
end;
TPSDuplicCheck = set of (dcTypes, dcProcs, dcVars, dcConsts);
TPSBlockInfo = class(TObject)
private
FOwner: TPSBlockInfo;
FWithList: TPSList;
FProcNo: Cardinal;
FProc: TPSInternalProcedure;
FSubType: TPSSubOptType;
public
property WithList: TPSList read FWithList;
property ProcNo: Cardinal read FProcNo write FProcNo;
property Proc: TPSInternalProcedure read FProc write FProc;
property SubType: TPSSubOptType read FSubType write FSubType;
procedure Clear;
constructor Create(Owner: TPSBlockInfo);
destructor Destroy; override;
end;
TPSBinOperatorType = (otAdd, otSub, otMul, otDiv, otMod, otShl, otShr, otAnd, otOr, otXor, otAs,
otGreaterEqual, otLessEqual, otGreater, otLess, otEqual,
otNotEqual, otIs, otIn);
TPSUnOperatorType = (otNot, otMinus, otCast);
TPSOnUseVariable = procedure (Sender: TPSPascalCompiler; VarType: TPSVariableType; VarNo: Longint; ProcNo, Position: Cardinal; const PropData: tbtString);
TPSOnUses = function(Sender: TPSPascalCompiler; const Name: tbtString): Boolean;
TPSOnExportCheck = function(Sender: TPSPascalCompiler; Proc: TPSInternalProcedure; const ProcDecl: tbtString): Boolean;
{$IFNDEF PS_USESSUPPORT}
TPSOnWriteLineEvent = function (Sender: TPSPascalCompiler; Position: Cardinal): Boolean;
{$ELSE}
TPSOnWriteLineEvent = function (Sender: TPSPascalCompiler; FileName: tbtString; Position: Cardinal): Boolean;
{$ENDIF}
TPSOnExternalProc = function (Sender: TPSPascalCompiler; Decl: TPSParametersDecl; const Name, FExternal: tbtString): TPSRegProc;
TPSOnTranslateLineInfoProc = procedure (Sender: TPSPascalCompiler; var Pos, Row, Col: Cardinal; var Name: tbtString);
TPSOnNotify = function (Sender: TPSPascalCompiler): Boolean;
TPSOnFunction = procedure(name: tbtString; Pos, Row, Col: Integer) of object;
TPSPascalCompiler = class
protected
FAnyString: TPSType;
FUnitName: tbtString;
FID: Pointer;
FOnExportCheck: TPSOnExportCheck;
FDefaultBoolType: TPSType;
FRegProcs: TPSList;
FConstants: TPSList;
FProcs: TPSList;
FTypes: TPSList;
FAttributeTypes: TPSList;
FVars: TPSList;
FOutput: tbtString;
FParser: TPSPascalParser;
FParserHadError: Boolean;
FMessages: TPSList;
FOnUses: TPSOnUses;
FUtf8Decode: Boolean;
FIsUnit: Boolean;
FAllowNoBegin: Boolean;
FAllowNoEnd: Boolean;
FAllowUnit: Boolean;
FBooleanShortCircuit: Boolean;
FDebugOutput: tbtString;
FOnExternalProc: TPSOnExternalProc;
FOnUseVariable: TPSOnUseVariable;
FOnBeforeOutput: TPSOnNotify;
FOnBeforeCleanup: TPSOnNotify;
FOnWriteLine: TPSOnWriteLineEvent;
FContinueOffsets, FBreakOffsets: TPSList;
FOnTranslateLineInfo: TPSOnTranslateLineInfoProc;
FAutoFreeList: TPSList;
FClasses: TPSList;
FOnFunctionStart: TPSOnFunction;
FOnFunctionEnd: TPSOnFunction;
FWithCount: Integer;
FTryCount: Integer;
FExceptFinallyCount: Integer;
{$IFDEF PS_USESSUPPORT}
FUnitInits : TPSList; //nvds
FUnitFinits: TPSList; //nvds
FUses : TIFStringList;
fModule : tbtString;
{$ENDIF}
fInCompile : Integer;
{$IFNDEF PS_NOINTERFACES}
FInterfaces: TPSList;
{$ENDIF}
FCurrUsedTypeNo: Cardinal;
FGlobalBlock: TPSBlockInfo;
function IsBoolean(aType: TPSType): Boolean;
{$IFNDEF PS_NOWIDESTRING}
function GetWideString(Src: PIfRVariant; var s: Boolean): tbtwidestring;
function GetUnicodeString(Src: PIfRVariant; var s: Boolean): tbtunicodestring;
{$ENDIF}
function PreCalc(FUseUsedTypes: Boolean; Var1Mod: Byte; var1: PIFRVariant; Var2Mod: Byte;
Var2: PIfRVariant; Cmd: TPSBinOperatorType; Pos, Row, Col: Cardinal): Boolean;
function FindBaseType(BaseType: TPSBaseType): TPSType;
function IsIntBoolType(aType: TPSType): Boolean;
function GetTypeCopyLink(p: TPSType): TPSType;
function at2ut(p: TPSType): TPSType;
procedure UseProc(procdecl: TPSParametersDecl);
function GetMsgCount: Longint;
function GetMsg(l: Longint): TPSPascalCompilerMessage;
function MakeExportDecl(decl: TPSParametersDecl): tbtString;
procedure DefineStandardTypes;
procedure DefineStandardProcedures;
function ReadReal(const s: tbtString): PIfRVariant;
function ReadString: PIfRVariant;
function ReadInteger(const s: tbtString): PIfRVariant;
function ReadAttributes(Dest: TPSAttributes): Boolean;
function ReadConstant(FParser: TPSPascalParser; StopOn: TPSPasToken): PIfRVariant;
function ApplyAttribsToFunction(func: TPSProcedure): boolean;
function ProcessFunction(AlwaysForward: Boolean; Att: TPSAttributes): Boolean;
function ValidateParameters(BlockInfo: TPSBlockInfo; Params: TPSParameters; ParamTypes: TPSParametersDecl): boolean;
function IsVarInCompatible(ft1, ft2: TPSType): Boolean;
function GetTypeNo(BlockInfo: TPSBlockInfo; p: TPSValue): TPSType;
function DoVarBlock(proc: TPSInternalProcedure): Boolean;
function DoTypeBlock(FParser: TPSPascalParser): Boolean;
function ReadType(const Name: tbtString; FParser: TPSPascalParser): TPSType;
function ProcessLabel(Proc: TPSInternalProcedure): Boolean;
function ProcessSub(BlockInfo: TPSBlockInfo): Boolean;
function ProcessLabelForwards(Proc: TPSInternalProcedure): Boolean;
procedure WriteDebugData(const s: tbtString);
procedure Debug_SavePosition(ProcNo: Cardinal; Proc: TPSInternalProcedure);
procedure Debug_WriteParams(ProcNo: Cardinal; Proc: TPSInternalProcedure);
procedure Debug_WriteLine(BlockInfo: TPSBlockInfo);
function IsCompatibleType(p1, p2: TPSType; Cast: Boolean): Boolean;
function IsDuplicate(const s: tbtString; const check: TPSDuplicCheck): Boolean;
function NewProc(const OriginalName, Name: tbtString): TPSInternalProcedure;
function AddUsedFunction(var Proc: TPSInternalProcedure): Cardinal;
function AddUsedFunction2(var Proc: TPSExternalProcedure): Cardinal;
function CheckCompatProc(P: TPSType; ProcNo: Cardinal): Boolean;
procedure ParserError(Parser: TObject; Kind: TPSParserErrorKind);
function ReadTypeAddProcedure(const Name: tbtString; FParser: TPSPascalParser): TPSType;
function VarIsDuplicate(Proc: TPSInternalProcedure; const VarNames, s: tbtString): Boolean;
function IsProcDuplicLabel(Proc: TPSInternalProcedure; const s: tbtString): Boolean;
procedure CheckForUnusedVars(Func: TPSInternalProcedure);
function ProcIsDuplic(Decl: TPSParametersDecl; const FunctionName, FunctionParamNames: tbtString; const s: tbtString; Func: TPSInternalProcedure): Boolean;
public
function GetConstant(const Name: tbtString): TPSConstant;
function UseExternalProc(const Name: tbtString): TPSParametersDecl;
function FindProc(const aName: tbtString): Cardinal;
function GetTypeCount: Longint;
function GetType(I: Longint): TPSType;
function GetVarCount: Longint;
function GetVar(I: Longint): TPSVar;
function GetProcCount: Longint;
function GetProc(I: Longint): TPSProcedure;
function GetConstCount: Longint;
function GetConst(I: Longint): TPSConstant;
function GetRegProcCount: Longint;
function GetRegProc(I: Longint): TPSRegProc;
function AddAttributeType: TPSAttributeType;
function FindAttributeType(const Name: tbtString): TPSAttributeType;
procedure AddToFreeList(Obj: TObject);
property ID: Pointer read FID write FID;
function MakeError(const Module: tbtString; E: TPSPascalCompilerErrorType; const
Param: tbtString): TPSPascalCompilerMessage;
function MakeWarning(const Module: tbtString; E: TPSPascalCompilerWarningType;
const Param: tbtString): TPSPascalCompilerMessage;
function MakeHint(const Module: tbtString; E: TPSPascalCompilerHintType;
const Param: tbtString): TPSPascalCompilerMessage;
{$IFNDEF PS_NOINTERFACES}
function AddInterface(InheritedFrom: TPSInterface; Guid: TGuid; const Name: tbtString): TPSInterface;
function FindInterface(const Name: tbtString): TPSInterface;
{$ENDIF}
function AddClass(InheritsFrom: TPSCompileTimeClass; aClass: TClass): TPSCompileTimeClass;
function AddClassN(InheritsFrom: TPSCompileTimeClass; const aClass: tbtString): TPSCompileTimeClass;
function FindClass(const aClass: tbtString): TPSCompileTimeClass;
function AddFunction(const Header: tbtString): TPSRegProc;
function AddDelphiFunction(const Decl: tbtString): TPSRegProc;
function AddType(const Name: tbtString; const BaseType: TPSBaseType): TPSType;
function AddTypeS(const Name, Decl: tbtString): TPSType;
function AddTypeCopy(const Name: tbtString; TypeNo: TPSType): TPSType;
function AddTypeCopyN(const Name, FType: tbtString): TPSType;
function AddConstant(const Name: tbtString; FType: TPSType): TPSConstant;
function AddConstantN(const Name, FType: tbtString): TPSConstant;
function AddVariable(const Name: tbtString; FType: TPSType): TPSVar;
function AddVariableN(const Name, FType: tbtString): TPSVar;
function AddUsedVariable(const Name: tbtString; FType: TPSType): TPSVar;
function AddUsedVariableN(const Name, FType: tbtString): TPSVar;
function AddUsedPtrVariable(const Name: tbtString; FType: TPSType): TPSVar;
function AddUsedPtrVariableN(const Name, FType: tbtString): TPSVar;
function FindType(const Name: tbtString): TPSType;
function MakeDecl(decl: TPSParametersDecl): tbtString;
function Compile(const s: tbtString): Boolean;
function GetOutput(var s: tbtString): Boolean;
function GetDebugOutput(var s: tbtString): Boolean;
procedure Clear;
constructor Create;
destructor Destroy; override;
property MsgCount: Longint read GetMsgCount;
property Msg[l: Longint]: TPSPascalCompilerMessage read GetMsg;
property OnTranslateLineInfo: TPSOnTranslateLineInfoProc read FOnTranslateLineInfo write FOnTranslateLineInfo;
property OnUses: TPSOnUses read FOnUses write FOnUses;
property OnExportCheck: TPSOnExportCheck read FOnExportCheck write FOnExportCheck;
property OnWriteLine: TPSOnWriteLineEvent read FOnWriteLine write FOnWriteLine;
property OnExternalProc: TPSOnExternalProc read FOnExternalProc write FOnExternalProc;
property OnUseVariable: TPSOnUseVariable read FOnUseVariable write FOnUseVariable;
property OnBeforeOutput: TPSOnNotify read FOnBeforeOutput write FOnBeforeOutput;
property OnBeforeCleanup: TPSOnNotify read FOnBeforeCleanup write FOnBeforeCleanup;
property OnFunctionStart: TPSOnFunction read FOnFunctionStart write FOnFunctionStart;
property OnFunctionEnd: TPSOnFunction read FOnFunctionEnd write FOnFunctionEnd;
property IsUnit: Boolean read FIsUnit;
property AllowNoBegin: Boolean read FAllowNoBegin write FAllowNoBegin;
property AllowUnit: Boolean read FAllowUnit write FAllowUnit;
property AllowNoEnd: Boolean read FAllowNoEnd write FAllowNoEnd;
property BooleanShortCircuit: Boolean read FBooleanShortCircuit write FBooleanShortCircuit;
property UTF8Decode: Boolean read FUtf8Decode write FUtf8Decode;
property UnitName: tbtString read FUnitName;
end;
TIFPSPascalCompiler = TPSPascalCompiler;
TPSValue = class(TObject)
private
FPos, FRow, FCol: Cardinal;
public
property Pos: Cardinal read FPos write FPos;
property Row: Cardinal read FRow write FRow;
property Col: Cardinal read FCol write FCol;
procedure SetParserPos(P: TPSPascalParser);
end;
TPSParameter = class(TObject)
private
FValue: TPSValue;
FTempVar: TPSValue;
FParamMode: TPSParameterMode;
FExpectedType: TPSType;
public
property Val: TPSValue read FValue write FValue;
property ExpectedType: TPSType read FExpectedType write FExpectedType;
property TempVar: TPSValue read FTempVar write FTempVar;
property ParamMode: TPSParameterMode read FParamMode write FParamMode;
destructor Destroy; override;
end;
TPSParameters = class(TObject)
private
FItems: TPSList;
function GetCount: Cardinal;
function GetItem(I: Longint): TPSParameter;
public
constructor Create;
destructor Destroy; override;
property Count: Cardinal read GetCount;
property Item[I: Longint]: TPSParameter read GetItem; default;
procedure Delete(I: Cardinal);
function Add: TPSParameter;
end;
TPSSubItem = class(TObject)
private
FType: TPSType;
public
property aType: TPSType read FType write FType;
end;
TPSSubNumber = class(TPSSubItem)
private
FSubNo: Cardinal;
public
property SubNo: Cardinal read FSubNo write FSubNo;
end;
TPSSubValue = class(TPSSubItem)
private
FSubNo: TPSValue;
public
property SubNo: TPSValue read FSubNo write FSubNo;
destructor Destroy; override;
end;
TPSValueVar = class(TPSValue)
private
FRecItems: TPSList;
function GetRecCount: Cardinal;
function GetRecItem(I: Cardinal): TPSSubItem;
public
constructor Create;
destructor Destroy; override;
function RecAdd(Val: TPSSubItem): Cardinal;
procedure RecDelete(I: Cardinal);
property RecItem[I: Cardinal]: TPSSubItem read GetRecItem;
property RecCount: Cardinal read GetRecCount;
end;
TPSValueGlobalVar = class(TPSValueVar)
private
FAddress: Cardinal;
public
property GlobalVarNo: Cardinal read FAddress write FAddress;
end;
TPSValueLocalVar = class(TPSValueVar)
private
FLocalVarNo: Longint;
public
property LocalVarNo: Longint read FLocalVarNo write FLocalVarNo;
end;
TPSValueParamVar = class(TPSValueVar)
private
FParamNo: Longint;
public
property ParamNo: Longint read FParamNo write FParamNo;
end;
TPSValueAllocatedStackVar = class(TPSValueLocalVar)
private
FProc: TPSInternalProcedure;
public
property Proc: TPSInternalProcedure read FProc write FProc;
destructor Destroy; override;
end;
TPSValueData = class(TPSValue)
private
FData: PIfRVariant;
public
property Data: PIfRVariant read FData write FData;
destructor Destroy; override;
end;
TPSValueReplace = class(TPSValue)
private
FPreWriteAllocated: Boolean;
FFreeOldValue: Boolean;
FFreeNewValue: Boolean;
FOldValue: TPSValue;
FNewValue: TPSValue;
FReplaceTimes: Longint;
public
property OldValue: TPSValue read FOldValue write FOldValue;
property NewValue: TPSValue read FNewValue write FNewValue;
{Should it free the old value when destroyed?}
property FreeOldValue: Boolean read FFreeOldValue write FFreeOldValue;
property FreeNewValue: Boolean read FFreeNewValue write FFreeNewValue;
property PreWriteAllocated: Boolean read FPreWriteAllocated write FPreWriteAllocated;
property ReplaceTimes: Longint read FReplaceTimes write FReplaceTimes;
constructor Create;
destructor Destroy; override;
end;
TPSUnValueOp = class(TPSValue)
private
FVal1: TPSValue;
FOperator: TPSUnOperatorType;
FType: TPSType;
public
property Val1: TPSValue read FVal1 write FVal1;
{The operator}
property Operator: TPSUnOperatorType read FOperator write FOperator;
property aType: TPSType read FType write FType;
destructor Destroy; override;
end;
TPSBinValueOp = class(TPSValue)
private
FVal1,
FVal2: TPSValue;
FOperator: TPSBinOperatorType;
FType: TPSType;
public
property Val1: TPSValue read FVal1 write FVal1;
property Val2: TPSValue read FVal2 write FVal2;
{The operator for this value}
property Operator: TPSBinOperatorType read FOperator write FOperator;
property aType: TPSType read FType write FType;
destructor Destroy; override;
end;
TPSValueNil = class(TPSValue)
end;
TPSValueProcPtr = class(TPSValue)
private
FProcNo: Cardinal;
public
property ProcPtr: Cardinal read FProcNo write FProcNo;
end;
TPSValueProc = class(TPSValue)
private
FSelfPtr: TPSValue;
FParameters: TPSParameters;
FResultType: TPSType;
public
property ResultType: TPSType read FResultType write FResultType;
property SelfPtr: TPSValue read FSelfPtr write FSelfPtr;
property Parameters: TPSParameters read FParameters write FParameters;
destructor Destroy; override;
end;
TPSValueProcNo = class(TPSValueProc)
private
FProcNo: Cardinal;
public
property ProcNo: Cardinal read FProcNo write FProcNo;
end;
TPSValueProcVal = class(TPSValueProc)
private
FProcNo: TPSValue;
public
property ProcNo: TPSValue read FProcNo write FProcNo;
destructor Destroy; override;
end;
TPSValueArray = class(TPSValue)
private
FItems: TPSList;
function GetCount: Cardinal;
function GetItem(I: Cardinal): TPSValue;
public
function Add(Item: TPSValue): Cardinal;
procedure Delete(I: Cardinal);
property Item[I: Cardinal]: TPSValue read GetItem;
property Count: Cardinal read GetCount;
constructor Create;
destructor Destroy; override;
end;
TPSDelphiClassItem = class;
TPSPropType = (iptRW, iptR, iptW);
TPSCompileTimeClass = class
private
FInheritsFrom: TPSCompileTimeClass;
FClass: TClass;
FClassName: tbtString;
FClassNameHash: Longint;
FClassItems: TPSList;
FDefaultProperty: Cardinal;
FIsAbstract: Boolean;
FCastProc,
FNilProc: Cardinal;
FType: TPSType;
FOwner: TPSPascalCompiler;
function GetCount: Longint;
function GetItem(i: Longint): TPSDelphiClassItem;
public
property aType: TPSType read FType;
property Items[i: Longint]: TPSDelphiClassItem read GetItem;
property Count: Longint read GetCount;
property IsAbstract: Boolean read FIsAbstract write FIsAbstract;
property ClassInheritsFrom: TPSCompileTimeClass read FInheritsFrom write FInheritsFrom;
function RegisterMethod(const Decl: tbtString): Boolean;
procedure RegisterProperty(const PropertyName, PropertyType: tbtString; PropAC: TPSPropType);
procedure RegisterPublishedProperties;
function RegisterPublishedProperty(const Name: tbtString): Boolean;
procedure SetDefaultPropery(const Name: tbtString);
constructor Create(ClassName: tbtString; aOwner: TPSPascalCompiler; aType: TPSType);
class function CreateC(FClass: TClass; aOwner: TPSPascalCompiler; aType: TPSType): TPSCompileTimeClass;
destructor Destroy; override;
function IsCompatibleWith(aType: TPSType): Boolean;
function SetNil(var ProcNo: Cardinal): Boolean;
function CastToType(IntoType: TPSType; var ProcNo: Cardinal): Boolean;
function Property_Find(const Name: tbtString; var Index: IPointer): Boolean;
function Property_Get(Index: IPointer; var ProcNo: Cardinal): Boolean;
function Property_Set(Index: IPointer; var ProcNo: Cardinal): Boolean;
function Property_GetHeader(Index: IPointer; Dest: TPSParametersDecl): Boolean;
function Func_Find(const Name: tbtString; var Index: IPointer): Boolean;
function Func_Call(Index: IPointer; var ProcNo: Cardinal): Boolean;
function ClassFunc_Find(const Name: tbtString; var Index: IPointer): Boolean;
function ClassFunc_Call(Index: IPointer; var ProcNo: Cardinal): Boolean;
end;
TPSDelphiClassItem = class(TObject)
private
FOwner: TPSCompileTimeClass;
FOrgName: tbtString;
FName: tbtString;
FNameHash: Longint;
FDecl: TPSParametersDecl;
procedure SetName(const s: tbtString);
public
constructor Create(Owner: TPSCompileTimeClass);
destructor Destroy; override;
property Decl: TPSParametersDecl read FDecl;
property Name: tbtString read FName;
property OrgName: tbtString read FOrgName write SetName;
property NameHash: Longint read FNameHash;
property Owner: TPSCompileTimeClass read FOwner;
end;
TPSDelphiClassItemMethod = class(TPSDelphiClassItem)
private
FMethodNo: Cardinal;
public
property MethodNo: Cardinal read FMethodNo write FMethodNo;
end;
TPSDelphiClassItemProperty = class(TPSDelphiClassItem)
private
FReadProcNo: Cardinal;
FWriteProcNo: Cardinal;
FAccessType: TPSPropType;
public
property AccessType: TPSPropType read FAccessType write FAccessType;
property ReadProcNo: Cardinal read FReadProcNo write FReadProcNo;
property WriteProcNo: Cardinal read FWriteProcNo write FWriteProcNo;
end;
TPSDelphiClassItemConstructor = class(TPSDelphiClassItemMethod)
end;
{$IFNDEF PS_NOINTERFACES}
TPSInterface = class(TObject)
private
FOwner: TPSPascalCompiler;
FType: TPSType;
FInheritedFrom: TPSInterface;
FGuid: TGuid;
FCastProc,
FNilProc: Cardinal;
FItems: TPSList;
FName: tbtString;
FNameHash: Longint;
procedure SetInheritedFrom(p: TPSInterface);
public
constructor Create(Owner: TPSPascalCompiler; InheritedFrom: TPSInterface; Guid: TGuid; const Name: tbtString; aType: TPSType);
destructor Destroy; override;
property aType: TPSType read FType;
property InheritedFrom: TPSInterface read FInheritedFrom write SetInheritedFrom;
property Guid: TGuid read FGuid write FGuid;
property Name: tbtString read FName write FName;
property NameHash: Longint read FNameHash;
function RegisterMethod(const Declaration: tbtString; const cc: TPSCallingConvention): Boolean;
procedure RegisterDummyMethod;
function IsCompatibleWith(aType: TPSType): Boolean;
function SetNil(var ProcNo: Cardinal): Boolean;
function CastToType(IntoType: TPSType; var ProcNo: Cardinal): Boolean;
function Func_Find(const Name: tbtString; var Index: Cardinal): Boolean;
function Func_Call(Index: Cardinal; var ProcNo: Cardinal): Boolean;
end;
TPSInterfaceMethod = class(TObject)
private
FName: tbtString;
FDecl: TPSParametersDecl;
FNameHash: Longint;
FCC: TPSCallingConvention;
FScriptProcNo: Cardinal;
FOrgName: tbtString;
FOwner: TPSInterface;
FOffsetCache: Cardinal;
function GetAbsoluteProcOffset: Cardinal;
public
property AbsoluteProcOffset: Cardinal read GetAbsoluteProcOffset;
property ScriptProcNo: Cardinal read FScriptProcNo;
property OrgName: tbtString read FOrgName;
property Name: tbtString read FName;
property NameHash: Longint read FNameHash;
property Decl: TPSParametersDecl read FDecl;
property CC: TPSCallingConvention read FCC;
constructor Create(Owner: TPSInterface);
destructor Destroy; override;
end;
{$ENDIF}
TPSExternalClass = class(TObject)
protected
SE: TPSPascalCompiler;
FTypeNo: TPSType;
public
function SelfType: TPSType; virtual;
constructor Create(Se: TPSPascalCompiler; TypeNo: TPSType);
function ClassFunc_Find(const Name: tbtString; var Index: Cardinal): Boolean; virtual;
function ClassFunc_Call(Index: Cardinal; var ProcNo: Cardinal): Boolean; virtual;
function Func_Find(const Name: tbtString; var Index: Cardinal): Boolean; virtual;
function Func_Call(Index: Cardinal; var ProcNo: Cardinal): Boolean; virtual;
function IsCompatibleWith(Cl: TPSExternalClass): Boolean; virtual;
function SetNil(var ProcNo: Cardinal): Boolean; virtual;
function CastToType(IntoType: TPSType; var ProcNo: Cardinal): Boolean; virtual;
function CompareClass(OtherTypeNo: TPSType; var ProcNo: Cardinal): Boolean; virtual;
end;
function ExportCheck(Sender: TPSPascalCompiler; Proc: TPSInternalProcedure;
Types: array of TPSBaseType; Modes: array of TPSParameterMode): Boolean;
procedure SetVarExportName(P: TPSVar; const ExpName: tbtString);
function AddImportedClassVariable(Sender: TPSPascalCompiler; const VarName, VarType: tbtString): Boolean;
const
{Invalid value, this is returned by most functions of pascal script that return a cardinal, when they fail}
InvalidVal = Cardinal(-1);
type
TIFPSCompileTimeClass = TPSCompileTimeClass;
TIFPSInternalProcedure = TPSInternalProcedure;
TIFPSPascalCompilerError = TPSPascalCompilerError;
TPMFuncType = (mftProc
, mftConstructor
);
function PS_mi2s(i: Cardinal): tbtString;
function ParseMethod(Owner: TPSPascalCompiler; const FClassName: tbtString; Decl: tbtString; var OrgName: tbtString; DestDecl: TPSParametersDecl; var Func: TPMFuncType): Boolean;
function DeclToBits(const Decl: TPSParametersDecl): tbtString;
function NewVariant(FType: TPSType): PIfRVariant;
procedure DisposeVariant(p: PIfRVariant);
implementation
uses Classes, typInfo;
{$IFDEF DELPHI3UP}
resourceString
{$ELSE}
const
{$ENDIF}
RPS_OnUseEventOnly = 'This function can only be called from within the OnUses event';
RPS_UnableToRegisterFunction = 'Unable to register function %s';
RPS_UnableToRegisterConst = 'Unable to register constant %s';
RPS_InvalidTypeForVar = 'Invalid type for variable %s';
RPS_InvalidType = 'Invalid Type';
RPS_UnableToRegisterType = 'Unable to register type %s';
RPS_UnknownInterface = 'Unknown interface: %s';
RPS_ConstantValueMismatch = 'Constant Value Type Mismatch';
RPS_ConstantValueNotAssigned = 'Constant Value is not assigned';
RPS_Error = 'Error';
RPS_UnknownIdentifier = 'Unknown identifier ''%s''';
RPS_IdentifierExpected = 'Identifier expected';
RPS_CommentError = 'Comment error';
RPS_StringError = 'String error';
RPS_CharError = 'Char error';
RPS_SyntaxError = 'Syntax error';
RPS_EOF = 'Unexpected end of file';
RPS_SemiColonExpected = 'Semicolon ('';'') expected';
RPS_BeginExpected = '''BEGIN'' expected';
RPS_PeriodExpected = 'period (''.'') expected';
RPS_DuplicateIdent = 'Duplicate identifier ''%s''';
RPS_ColonExpected = 'colon ('':'') expected';
RPS_UnknownType = 'Unknown type ''%s''';
RPS_CloseRoundExpected = 'Closing parenthesis expected';
RPS_TypeMismatch = 'Type mismatch';
RPS_InternalError = 'Internal error (%s)';
RPS_AssignmentExpected = 'Assignment expected';
RPS_ThenExpected = '''THEN'' expected';
RPS_DoExpected = '''DO'' expected';
RPS_NoResult = 'No result';
RPS_OpenRoundExpected = 'opening parenthesis (''('')expected';
RPS_CommaExpected = 'comma ('','') expected';
RPS_ToExpected = '''TO'' expected';
RPS_IsExpected = 'is (''='') expected';
RPS_OfExpected = '''OF'' expected';
RPS_CloseBlockExpected = 'Closing square bracket ('']'') expected';
RPS_VariableExpected = 'Variable Expected';
RPS_StringExpected = 'String Expected';
RPS_EndExpected = '''END'' expected';
RPS_UnSetLabel = 'Label ''%s'' not set';
RPS_NotInLoop = 'Not in a loop';
RPS_InvalidJump = 'Invalid jump';
RPS_OpenBlockExpected = 'Opening square brackets (''['') expected';
RPS_WriteOnlyProperty = 'Write-only property';
RPS_ReadOnlyProperty = 'Read-only property';
RPS_ClassTypeExpected = 'Class type expected';
RPS_DivideByZero = 'Divide by Zero';
RPS_MathError = 'Math Error';
RPS_UnsatisfiedForward = 'Unsatisfied Forward %s';
RPS_ForwardParameterMismatch = 'Forward Parameter Mismatch';
RPS_InvalidNumberOfParameter = 'Invalid number of parameters';
RPS_UnknownError = 'Unknown error';
{$IFDEF PS_USESSUPPORT}
RPS_NotAllowed = '%s is not allowed at this position';
RPS_UnitNotFound = 'Unit ''%s'' not found or contains errors';
{$ENDIF}
RPS_Hint = 'Hint';
RPS_VariableNotUsed = 'Variable ''%s'' never used';
RPS_FunctionNotUsed = 'Function ''%s'' never used';
RPS_UnknownHint = 'Unknown hint';
RPS_Warning = 'Warning';
RPS_CalculationAlwaysEvaluatesTo = 'Calculation always evaluates to %s';
RPS_IsNotNeeded = '%s is not needed';
RPS_AbstractClass = 'Abstract Class Construction';
RPS_UnknownWarning = 'Unknown warning';
{$IFDEF DEBUG }
RPS_UnableToRegister = 'Unable to register %s';
{$ENDIF}
RPS_NotArrayProperty = 'Not an array property';
RPS_NotProperty = 'Not a property';
RPS_UnknownProperty = 'Unknown Property';
function DeclToBits(const Decl: TPSParametersDecl): tbtString;
var
i: longint;
begin
Result := '';
if Decl.Result = nil then
begin
Result := Result + #0;
end else
Result := Result + #1;
for i := 0 to Decl.ParamCount -1 do
begin
if Decl.Params[i].Mode <> pmIn then
Result := Result + #1
else
Result := Result + #0;
end;
end;
procedure BlockWriteByte(BlockInfo: TPSBlockInfo; b: Byte);
begin
BlockInfo.Proc.Data := BlockInfo.Proc.Data + tbtChar(b);
end;
procedure BlockWriteData(BlockInfo: TPSBlockInfo; const Data; Len: Longint);
begin
SetLength(BlockInfo.Proc.FData, Length(BlockInfo.Proc.FData) + Len);
Move(Data, BlockInfo.Proc.FData[Length(BlockInfo.Proc.FData) - Len + 1], Len);
end;
procedure BlockWriteLong(BlockInfo: TPSBlockInfo; l: Cardinal);
begin
BlockWriteData(BlockInfo, l, 4);
end;
procedure BlockWriteVariant(BlockInfo: TPSBlockInfo; p: PIfRVariant);
var
du8: tbtu8;
du16: tbtu16;
begin
BlockWriteLong(BlockInfo, p^.FType.FinalTypeNo);
case p.FType.BaseType of
btType: BlockWriteData(BlockInfo, p^.ttype.FinalTypeno, 4);
{$IFNDEF PS_NOWIDESTRING}
btWideString:
begin
BlockWriteLong(BlockInfo, Length(tbtWideString(p^.twidestring)));
BlockWriteData(BlockInfo, tbtwidestring(p^.twidestring)[1], 2*Length(tbtWideString(p^.twidestring)));
end;
btUnicodeString:
begin
BlockWriteLong(BlockInfo, Length(tbtUnicodeString(p^.twidestring)));
BlockWriteData(BlockInfo, tbtUnicodeString(p^.twidestring)[1], 2*Length(tbtUnicodeString(p^.twidestring)));
end;
btWideChar: BlockWriteData(BlockInfo, p^.twidechar, 2);
{$ENDIF}
btSingle: BlockWriteData(BlockInfo, p^.tsingle, sizeof(tbtSingle));
btDouble: BlockWriteData(BlockInfo, p^.tdouble, sizeof(tbtDouble));
btExtended: BlockWriteData(BlockInfo, p^.textended, sizeof(tbtExtended));
btCurrency: BlockWriteData(BlockInfo, p^.tcurrency, sizeof(tbtCurrency));
btChar: BlockWriteData(BlockInfo, p^.tchar, 1);
btSet:
begin
BlockWriteData(BlockInfo, tbtString(p^.tstring)[1], Length(tbtString(p^.tstring)));
end;
btString:
begin
BlockWriteLong(BlockInfo, Length(tbtString(p^.tstring)));
BlockWriteData(BlockInfo, tbtString(p^.tstring)[1], Length(tbtString(p^.tstring)));
end;
btenum:
begin
if TPSEnumType(p^.FType).HighValue <=256 then
begin
du8 := tbtu8(p^.tu32);
BlockWriteData(BlockInfo, du8, 1)
end
else if TPSEnumType(p^.FType).HighValue <=65536 then
begin
du16 := tbtu16(p^.tu32);
BlockWriteData(BlockInfo, du16, 2)
end;
end;
bts8,btu8: BlockWriteData(BlockInfo, p^.tu8, 1);
bts16,btu16: BlockWriteData(BlockInfo, p^.tu16, 2);
bts32,btu32: BlockWriteData(BlockInfo, p^.tu32, 4);
{$IFNDEF PS_NOINT64}
bts64: BlockWriteData(BlockInfo, p^.ts64, 8);
{$ENDIF}
btProcPtr: BlockWriteData(BlockInfo, p^.tu32, 4);
{$IFDEF DEBUG}
{$IFNDEF FPC}
else
asm int 3; end;
{$ENDIF}
{$ENDIF}
end;
end;
function ExportCheck(Sender: TPSPascalCompiler; Proc: TPSInternalProcedure; Types: array of TPSBaseType; Modes: array of TPSParameterMode): Boolean;
var
i: Longint;
ttype: TPSType;
begin
if High(Types) <> High(Modes)+1 then
begin
Result := False;
exit;
end;
if High(Types) <> Proc.Decl.ParamCount then
begin
Result := False;
exit;
end;
TType := Proc.Decl.Result;
if TType = nil then
begin
if Types[0] <> btReturnAddress then
begin
Result := False;
exit;
end;
end else
begin
if TType.BaseType <> Types[0] then
begin
Result := False;
exit;
end;
end;
for i := 0 to High(Modes) do
begin
TType := Proc.Decl.Params[i].aType;
if Modes[i] <> Proc.Decl.Params[i].Mode then
begin
Result := False;
exit;
end;
if TType.BaseType <> Types[i+1] then
begin
Result := False;
exit;
end;
end;
Result := True;
end;
procedure SetVarExportName(P: TPSVar; const ExpName: tbtString);
begin
if p <> nil then
p.exportname := ExpName;
end;
function FindAndAddType(Owner: TPSPascalCompiler; const Name, Decl: tbtString): TPSType;
var
tt: TPSType;
begin
Result := Owner.FindType(Name);
if Result = nil then
begin
tt := Owner.AddTypeS(Name, Decl);
tt.ExportName := True;
Result := tt;
end;
end;
function ParseMethod(Owner: TPSPascalCompiler; const FClassName: tbtString; Decl: tbtString; var OrgName: tbtString; DestDecl: TPSParametersDecl; var Func: TPMFuncType): Boolean;
var
Parser: TPSPascalParser;
FuncType: Byte;
VNames: tbtString;
modifier: TPSParameterMode;
VCType: TPSType;
ERow, EPos, ECol: Integer;
begin
Parser := TPSPascalParser.Create;
Parser.SetText(Decl);
if Parser.CurrTokenId = CSTII_Function then
FuncType:= 0
else if Parser.CurrTokenId = CSTII_Procedure then
FuncType := 1
else if (Parser.CurrTokenId = CSTII_Constructor) and (FClassName <> '') then
FuncType := 2
else
begin
Parser.Free;
Result := False;
exit;
end;
Parser.Next;
if Parser.CurrTokenId <> CSTI_Identifier then
begin
Parser.Free;
Result := False;
exit;
end; {if}
OrgName := Parser.OriginalToken;
Parser.Next;
if Parser.CurrTokenId = CSTI_OpenRound then
begin
Parser.Next;
if Parser.CurrTokenId <> CSTI_CloseRound then
begin
while True do
begin
if Parser.CurrTokenId = CSTII_Const then
begin
modifier := pmIn;
Parser.Next;
end
else
if Parser.CurrTokenId = CSTII_Var then
begin
modifier := pmInOut;
Parser.Next;
end
else
if Parser.CurrTokenId = CSTII_Out then
begin
modifier := pmOut;
Parser.Next;
end
else
modifier := pmIn;
if Parser.CurrTokenId <> CSTI_Identifier then
begin
Parser.Free;
Result := False;
exit;
end;
EPos:=Parser.CurrTokenPos;
ERow:=Parser.Row;
ECol:=Parser.Col;
VNames := Parser.OriginalToken + '|';
Parser.Next;
while Parser.CurrTokenId = CSTI_Comma do
begin
Parser.Next;
if Parser.CurrTokenId <> CSTI_Identifier then
begin
Parser.Free;
Result := False;
exit;
end;
VNames := VNames + Parser.OriginalToken + '|';
Parser.Next;
end;
if Parser.CurrTokenId <> CSTI_Colon then
begin
Parser.Free;
Result := False;
exit;
end;
Parser.Next;
if Parser.CurrTokenID = CSTII_Array then
begin
Parser.nExt;
if Parser.CurrTokenId <> CSTII_Of then
begin
Parser.Free;
Result := False;
exit;
end;
Parser.Next;
if Parser.CurrTokenId = CSTII_Const then
begin
VCType := FindAndAddType(Owner, '!OPENARRAYOFCONST', 'array of ___Pointer')
end
else begin
VCType := Owner.GetTypeCopyLink(Owner.FindType(Parser.GetToken));
if VCType = nil then
begin
Parser.Free;
Result := False;
exit;
end;
case VCType.BaseType of
btU8: VCType := FindAndAddType(Owner, '!OPENARRAYOFU8', 'array of byte');
btS8: VCType := FindAndAddType(Owner, '!OPENARRAYOFS8', 'array of ShortInt');
btU16: VCType := FindAndAddType(Owner, '!OPENARRAYOFU16', 'array of SmallInt');
btS16: VCType := FindAndAddType(Owner, '!OPENARRAYOFS16', 'array of Word');
btU32: VCType := FindAndAddType(Owner, '!OPENARRAYOFU32', 'array of Cardinal');
btS32: VCType := FindAndAddType(Owner, '!OPENARRAYOFS32', 'array of Longint');
btSingle: VCType := FindAndAddType(Owner, '!OPENARRAYOFSINGLE', 'array of Single');
btDouble: VCType := FindAndAddType(Owner, '!OPENARRAYOFDOUBLE', 'array of Double');
btExtended: VCType := FindAndAddType(Owner, '!OPENARRAYOFEXTENDED', 'array of Extended');
btString: VCType := FindAndAddType(Owner, '!OPENARRAYOFSTRING', 'array of String');
btPChar: VCType := FindAndAddType(Owner, '!OPENARRAYOFPCHAR', {$IFDEF PS_PANSICHAR}'array of PAnsiChar'{$ELSE}'array of PChar'{$ENDIF});
btNotificationVariant, btVariant: VCType := FindAndAddType(Owner, '!OPENARRAYOFVARIANT', 'array of variant');
{$IFNDEF PS_NOINT64}btS64: VCType := FindAndAddType(Owner, '!OPENARRAYOFS64', 'array of Int64');{$ENDIF}
btChar: VCType := FindAndAddType(Owner, '!OPENARRAYOFCHAR', 'array of Char');
{$IFNDEF PS_NOWIDESTRING}
btWideString: VCType := FindAndAddType(Owner, '!OPENARRAYOFWIDESTRING', 'array of WideString');
btUnicodeString: VCType := FindAndAddType(Owner, '!OPENARRAYOFUNICODESTRING', 'array of UnicodeString');
btWideChar: VCType := FindAndAddType(Owner, '!OPENARRAYOFWIDECHAR', 'array of WideChar');
{$ENDIF}
btClass: VCType := FindAndAddType(Owner, '!OPENARRAYOFTOBJECT', 'array of TObject');
btRecord: VCType := FindAndAddType(Owner, '!OPENARRAYOFRECORD_'+FastUpperCase(Parser.OriginalToken), 'array of ' +FastUpperCase(Parser.OriginalToken));
else
begin
Parser.Free;
Result := False;
exit;
end;
end;
end;
end else if Parser.CurrTokenID = CSTII_Const then
VCType := nil // any type
else begin
VCType := Owner.FindType(Parser.GetToken);
if VCType = nil then
begin
Parser.Free;
Result := False;
exit;
end;
end;
while Pos(tbtchar('|'), VNames) > 0 do
begin
with DestDecl.AddParam do
begin
{$IFDEF PS_USESSUPPORT}
DeclareUnit:=Owner.fModule;
{$ENDIF}
DeclarePos := EPos;
DeclareRow := ERow;
DeclareCol := ECol;
Mode := modifier;
OrgName := copy(VNames, 1, Pos(tbtchar('|'), VNames) - 1);
aType := VCType;
end;
Delete(VNames, 1, Pos(tbtchar('|'), VNames));
end;
Parser.Next;
if Parser.CurrTokenId = CSTI_CloseRound then
break;
if Parser.CurrTokenId <> CSTI_Semicolon then
begin
Parser.Free;
Result := False;
exit;
end;
Parser.Next;
end; {while}
end; {if}
Parser.Next;
end; {if}
if FuncType = 0 then
begin
if Parser.CurrTokenId <> CSTI_Colon then
begin
Parser.Free;
Result := False;
exit;
end;
Parser.Next;
VCType := Owner.FindType(Parser.GetToken);
if VCType = nil then
begin
Parser.Free;
Result := False;
exit;
end;
end
else if FuncType = 2 then {constructor}
begin
VCType := Owner.FindType(FClassName)
end else
VCType := nil;
DestDecl.Result := VCType;
Parser.Free;
if FuncType = 2 then
Func := mftConstructor
else
Func := mftProc;
Result := True;
end;
function TPSPascalCompiler.FindProc(const aName: tbtString): Cardinal;
var
l, h: Longint;
x: TPSProcedure;
xr: TPSRegProc;
name: tbtString;
begin
name := FastUpperCase(aName);
h := MakeHash(Name);
if FProcs = nil then
begin
result := InvalidVal;
Exit;
end;
for l := FProcs.Count - 1 downto 0 do
begin
x := FProcs.Data^[l];
if x.ClassType = TPSInternalProcedure then
begin
if (TPSInternalProcedure(x).NameHash = h) and
(TPSInternalProcedure(x).Name = Name) then
begin
Result := l;
exit;
end;
end
else
begin
if (TPSExternalProcedure(x).RegProc.NameHash = h) and
(TPSExternalProcedure(x).RegProc.Name = Name) then
begin
Result := l;
exit;
end;
end;
end;
for l := FRegProcs.Count - 1 downto 0 do
begin
xr := FRegProcs[l];
if (xr.NameHash = h) and (xr.Name = Name) then
begin
x := TPSExternalProcedure.Create;
TPSExternalProcedure(x).RegProc := xr;
FProcs.Add(x);
Result := FProcs.Count - 1;
exit;
end;
end;
Result := InvalidVal;
end; {findfunc}
function TPSPascalCompiler.UseExternalProc(const Name: tbtString): TPSParametersDecl;
var
ProcNo: cardinal;
proc: TPSProcedure;
begin
ProcNo := FindProc(FastUppercase(Name));
if ProcNo = InvalidVal then Result := nil
else
begin
proc := TPSProcedure(FProcs[ProcNo]);
if Proc is TPSExternalProcedure then
begin
Result := TPSExternalProcedure(Proc).RegProc.Decl;
end else result := nil;
end;
end;
function TPSPascalCompiler.FindBaseType(BaseType: TPSBaseType): TPSType;
var
l: Longint;
x: TPSType;
begin
for l := 0 to FTypes.Count -1 do
begin
X := FTypes[l];
if (x.BaseType = BaseType) and (x.ClassType = TPSType) then
begin
Result := at2ut(x);
exit;
end;
end;
X := TPSType.Create;
x.Name := '';
x.BaseType := BaseType;
{$IFDEF PS_USESSUPPORT}
x.DeclareUnit:=fModule;
{$ENDIF}
x.DeclarePos := InvalidVal;
x.DeclareCol := 0;
x.DeclareRow := 0;
FTypes.Add(x);
Result := at2ut(x);
end;
function TPSPascalCompiler.MakeDecl(decl: TPSParametersDecl): tbtString;
var
i: Longint;
begin
if Decl.Result = nil then result := '0' else
result := Decl.Result.Name;
for i := 0 to decl.ParamCount -1 do
begin
if decl.GetParam(i).Mode = pmIn then
Result := Result + ' @'
else
Result := Result + ' !';
Result := Result + decl.GetParam(i).aType.Name;
end;
end;
{ TPSPascalCompiler }
const
BtTypeCopy = 255;
type
TFuncType = (ftProc, ftFunc);
function PS_mi2s(i: Cardinal): tbtString;
begin
SetLength(Result, 4);
Cardinal((@Result[1])^) := i;
end;
function TPSPascalCompiler.AddType(const Name: tbtString; const BaseType: TPSBaseType): TPSType;
begin
if FProcs = nil then
begin
raise EPSCompilerException.Create(RPS_OnUseEventOnly);
end;
case BaseType of
btProcPtr: Result := TPSProceduralType.Create;
BtTypeCopy: Result := TPSTypeLink.Create;
btRecord: Result := TPSRecordType.Create;
btArray: Result := TPSArrayType.Create;
btStaticArray: Result := TPSStaticArrayType.Create;
btEnum: Result := TPSEnumType.Create;
btClass: Result := TPSClassType.Create;
btExtClass: REsult := TPSUndefinedClassType.Create;
btNotificationVariant, btVariant: Result := TPSVariantType.Create;
{$IFNDEF PS_NOINTERFACES}
btInterface: Result := TPSInterfaceType.Create;
{$ENDIF}
else
Result := TPSType.Create;
end;
Result.Name := FastUppercase(Name);
Result.OriginalName := Name;
Result.BaseType := BaseType;
{$IFDEF PS_USESSUPPORT}
Result.DeclareUnit:=fModule;
{$ENDIF}
Result.DeclarePos := InvalidVal;
Result.DeclareCol := 0;
Result.DeclareRow := 0;
FTypes.Add(Result);
end;
function TPSPascalCompiler.AddFunction(const Header: tbtString): TPSRegProc;
var
Parser: TPSPascalParser;
i: Integer;
IsFunction: Boolean;
VNames, Name: tbtString;
Decl: TPSParametersDecl;
modifier: TPSParameterMode;
VCType: TPSType;
x: TPSRegProc;
begin
if FProcs = nil then
raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Parser := TPSPascalParser.Create;
Parser.SetText(Header);
Decl := TPSParametersDecl.Create;
x := nil;
try
if Parser.CurrTokenId = CSTII_Function then
IsFunction := True
else if Parser.CurrTokenId = CSTII_Procedure then
IsFunction := False
else
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, ['']);
Parser.Next;
if Parser.CurrTokenId <> CSTI_Identifier then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, ['']);
Name := Parser.OriginalToken;
Parser.Next;
if Parser.CurrTokenId = CSTI_OpenRound then
begin
Parser.Next;
if Parser.CurrTokenId <> CSTI_CloseRound then
begin
while True do
begin
if Parser.CurrTokenId = CSTII_Out then
begin
Modifier := pmOut;
Parser.Next;
end else
if Parser.CurrTokenId = CSTII_Const then
begin
Modifier := pmIn;
Parser.Next;
end else
if Parser.CurrTokenId = CSTII_Var then
begin
modifier := pmInOut;
Parser.Next;
end
else
modifier := pmIn;
if Parser.CurrTokenId <> CSTI_Identifier then
raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
VNames := Parser.OriginalToken + '|';
Parser.Next;
while Parser.CurrTokenId = CSTI_Comma do
begin
Parser.Next;
if Parser.CurrTokenId <> CSTI_Identifier then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
VNames := VNames + Parser.OriginalToken + '|';
Parser.Next;
end;
if Parser.CurrTokenId <> CSTI_Colon then
begin
Parser.Free;
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
end;
Parser.Next;
VCType := FindType(Parser.GetToken);
if VCType = nil then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
while Pos(tbtchar('|'), VNames) > 0 do
begin
with Decl.AddParam do
begin
Mode := modifier;
OrgName := copy(VNames, 1, Pos(tbtchar('|'), VNames) - 1);
aType := VCType;
end;
Delete(VNames, 1, Pos(tbtchar('|'), VNames));
end;
Parser.Next;
if Parser.CurrTokenId = CSTI_CloseRound then
break;
if Parser.CurrTokenId <> CSTI_Semicolon then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
Parser.Next;
end; {while}
end; {if}
Parser.Next;
end; {if}
if IsFunction then
begin
if Parser.CurrTokenId <> CSTI_Colon then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
Parser.Next;
VCType := FindType(Parser.GetToken);
if VCType = nil then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Name]);
end
else
VCType := nil;
Decl.Result := VCType;
X := TPSRegProc.Create;
x.OrgName := Name;
x.Name := FastUpperCase(Name);
x.ExportName := True;
x.Decl.Assign(decl);
if Decl.Result = nil then
begin
x.ImportDecl := x.ImportDecl + #0;
end else
x.ImportDecl := x.ImportDecl + #1;
for i := 0 to Decl.ParamCount -1 do
begin
if Decl.Params[i].Mode <> pmIn then
x.ImportDecl := x.ImportDecl + #1
else
x.ImportDecl := x.ImportDecl + #0;
end;
FRegProcs.Add(x);
finally
Decl.Free;
Parser.Free;
end;
Result := x;
end;
function TPSPascalCompiler.MakeHint(const Module: tbtString; E: TPSPascalCompilerHintType; const Param: tbtString): TPSPascalCompilerMessage;
var
n: TPSPascalCompilerHint;
begin
N := TPSPascalCompilerHint.Create;
n.FHint := e;
n.SetParserPos(FParser);
n.FModuleName := Module;
n.FParam := Param;
FMessages.Add(n);
Result := n;
end;
function TPSPascalCompiler.MakeError(const Module: tbtString; E:
TPSPascalCompilerErrorType; const Param: tbtString): TPSPascalCompilerMessage;
var
n: TPSPascalCompilerError;
begin
N := TPSPascalCompilerError.Create;
n.FError := e;
n.SetParserPos(FParser);
{$IFNDEF PS_USESSUPPORT}
n.FModuleName := Module;
{$ELSE}
if Module <> '' then
n.FModuleName := Module
else
n.FModuleName := fModule;
{$ENDIF}
n.FParam := Param;
FMessages.Add(n);
Result := n;
end;
function TPSPascalCompiler.MakeWarning(const Module: tbtString; E:
TPSPascalCompilerWarningType; const Param: tbtString): TPSPascalCompilerMessage;
var
n: TPSPascalCompilerWarning;
begin
N := TPSPascalCompilerWarning.Create;
n.FWarning := e;
n.SetParserPos(FParser);
n.FModuleName := Module;
n.FParam := Param;
FMessages.Add(n);
Result := n;
end;
procedure TPSPascalCompiler.Clear;
var
l: Longint;
begin
FDebugOutput := '';
FOutput := '';
for l := 0 to FMessages.Count - 1 do
TPSPascalCompilerMessage(FMessages[l]).Free;
FMessages.Clear;
for L := FAutoFreeList.Count -1 downto 0 do
begin
TObject(FAutoFreeList[l]).Free;
end;
FAutoFreeList.Clear;
end;
procedure CopyVariantContents(Src, Dest: PIfRVariant);
begin
case src.FType.BaseType of
btu8, bts8: dest^.tu8 := src^.tu8;
btu16, bts16: dest^.tu16 := src^.tu16;
btenum, btu32, bts32: dest^.tu32 := src^.tu32;
btsingle: Dest^.tsingle := src^.tsingle;
btdouble: Dest^.tdouble := src^.tdouble;
btextended: Dest^.textended := src^.textended;
btCurrency: Dest^.tcurrency := Src^.tcurrency;
btchar: Dest^.tchar := src^.tchar;
{$IFNDEF PS_NOINT64}bts64: dest^.ts64 := src^.ts64;{$ENDIF}
btset, btstring: tbtstring(dest^.tstring) := tbtstring(src^.tstring);
{$IFNDEF PS_NOWIDESTRING}
btunicodestring: tbtunicodestring(dest^.tunistring) := tbtunicodestring(src^.tunistring);
btwidestring: tbtwidestring(dest^.twidestring) := tbtwidestring(src^.twidestring);
btwidechar: Dest^.tchar := src^.tchar;
{$ENDIF}
end;
end;
function DuplicateVariant(Src: PIfRVariant): PIfRVariant;
begin
New(Result);
FillChar(Result^, SizeOf(TIfRVariant), 0);
CopyVariantContents(Src, Result);
end;
procedure InitializeVariant(Vari: PIfRVariant; FType: TPSType);
begin
FillChar(vari^, SizeOf(TIfRVariant), 0);
if FType.BaseType = btSet then
begin
SetLength(tbtstring(vari^.tstring), TPSSetType(FType).ByteSize);
fillchar(tbtstring(vari^.tstring)[1], length(tbtstring(vari^.tstring)), 0);
end;
vari^.FType := FType;
end;
function NewVariant(FType: TPSType): PIfRVariant;
begin
New(Result);
InitializeVariant(Result, FType);
end;
procedure FinalizeA(var s: tbtString); overload; begin s := ''; end;
procedure FinalizeW(var s: tbtwidestring); overload; begin s := ''; end;
procedure FinalizeU(var s: tbtunicodestring); overload; begin s := ''; end;
procedure FinalizeVariant(var p: TIfRVariant);
begin
if (p.FType.BaseType = btString) or (p.FType.basetype = btSet) then
finalizeA(tbtstring(p.tstring))
{$IFNDEF PS_NOWIDESTRING}
else if p.FType.BaseType = btWideString then
finalizeW(tbtWideString(p.twidestring)) // tbtwidestring
else if p.FType.BaseType = btUnicodeString then
finalizeU(tbtUnicodeString(p.tunistring)); // tbtwidestring
{$ENDIF}
end;
procedure DisposeVariant(p: PIfRVariant);
begin
if p <> nil then
begin
FinalizeVariant(p^);
Dispose(p);
end;
end;
function TPSPascalCompiler.GetTypeCopyLink(p: TPSType): TPSType;
begin
if p = nil then
Result := nil
else
if p.BaseType = BtTypeCopy then
begin
Result := TPSTypeLink(p).LinkTypeNo;
end else Result := p;
end;
function IsIntType(b: TPSBaseType): Boolean;
begin
case b of
btU8, btS8, btU16, btS16, btU32, btS32{$IFNDEF PS_NOINT64}, btS64{$ENDIF}: Result := True;
else
Result := False;
end;
end;
function IsRealType(b: TPSBaseType): Boolean;
begin
case b of
btSingle, btDouble, btCurrency, btExtended: Result := True;
else
Result := False;
end;
end;
function IsIntRealType(b: TPSBaseType): Boolean;
begin
case b of
btSingle, btDouble, btCurrency, btExtended, btU8, btS8, btU16, btS16, btU32, btS32{$IFNDEF PS_NOINT64}, btS64{$ENDIF}:
Result := True;
else
Result := False;
end;
end;
function DiffRec(p1, p2: TPSSubItem): Boolean;
begin
if p1.ClassType = p2.ClassType then
begin
if P1.ClassType = TPSSubNumber then
Result := TPSSubNumber(p1).SubNo <> TPSSubNumber(p2).SubNo
else if P1.ClassType = TPSSubValue then
Result := TPSSubValue(p1).SubNo <> TPSSubValue(p2).SubNo
else
Result := False;
end else Result := True;
end;
function SameReg(x1, x2: TPSValue): Boolean;
var
I: Longint;
begin
if (x1.ClassType = x2.ClassType) and (X1 is TPSValueVar) then
begin
if
((x1.ClassType = TPSValueGlobalVar) and (TPSValueGlobalVar(x1).GlobalVarNo = TPSValueGlobalVar(x2).GlobalVarNo)) or
((x1.ClassType = TPSValueLocalVar) and (TPSValueLocalVar(x1).LocalVarNo = TPSValueLocalVar(x2).LocalVarNo)) or
((x1.ClassType = TPSValueParamVar) and (TPSValueParamVar(x1).ParamNo = TPSValueParamVar(x2).ParamNo)) or
((x1.ClassType = TPSValueAllocatedStackVar) and (TPSValueAllocatedStackVar(x1).LocalVarNo = TPSValueAllocatedStackVar(x2).LocalVarNo)) then
begin
if TPSValueVar(x1).GetRecCount <> TPSValueVar(x2).GetRecCount then
begin
Result := False;
exit;
end;
for i := 0 to TPSValueVar(x1).GetRecCount -1 do
begin
if DiffRec(TPSValueVar(x1).RecItem[i], TPSValueVar(x2).RecItem[i]) then
begin
Result := False;
exit;
end;
end;
Result := True;
end else Result := False;
end
else
Result := False;
end;
function GetUInt(Src: PIfRVariant; var s: Boolean): Cardinal;
begin
case Src.FType.BaseType of
btU8: Result := Src^.tu8;
btS8: Result := Src^.ts8;
btU16: Result := Src^.tu16;
btS16: Result := Src^.ts16;
btU32: Result := Src^.tu32;
btS32: Result := Src^.ts32;
{$IFNDEF PS_NOINT64}
bts64: Result := src^.ts64;
{$ENDIF}
btChar: Result := ord(Src^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := ord(tbtwidechar(src^.twidechar));
{$ENDIF}
btEnum: Result := src^.tu32;
else
begin
s := False;
Result := 0;
end;
end;
end;
function GetInt(Src: PIfRVariant; var s: Boolean): Longint;
begin
case Src.FType.BaseType of
btU8: Result := Src^.tu8;
btS8: Result := Src^.ts8;
btU16: Result := Src^.tu16;
btS16: Result := Src^.ts16;
btU32: Result := Src^.tu32;
btS32: Result := Src^.ts32;
{$IFNDEF PS_NOINT64}
bts64: Result := src^.ts64;
{$ENDIF}
btChar: Result := ord(Src^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := ord(tbtwidechar(src^.twidechar));
{$ENDIF}
btEnum: Result := src^.tu32;
else
begin
s := False;
Result := 0;
end;
end;
end;
{$IFNDEF PS_NOINT64}
function GetInt64(Src: PIfRVariant; var s: Boolean): Int64;
begin
case Src.FType.BaseType of
btU8: Result := Src^.tu8;
btS8: Result := Src^.ts8;
btU16: Result := Src^.tu16;
btS16: Result := Src^.ts16;
btU32: Result := Src^.tu32;
btS32: Result := Src^.ts32;
bts64: Result := src^.ts64;
btChar: Result := ord(Src^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := ord(tbtwidechar(src^.twidechar));
{$ENDIF}
btEnum: Result := src^.tu32;
else
begin
s := False;
Result := 0;
end;
end;
end;
{$ENDIF}
function GetReal(Src: PIfRVariant; var s: Boolean): Extended;
begin
case Src.FType.BaseType of
btU8: Result := Src^.tu8;
btS8: Result := Src^.ts8;
btU16: Result := Src^.tu16;
btS16: Result := Src^.ts16;
btU32: Result := Src^.tu32;
btS32: Result := Src^.ts32;
{$IFNDEF PS_NOINT64}
bts64: Result := src^.ts64;
{$ENDIF}
btChar: Result := ord(Src^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := ord(tbtwidechar(src^.twidechar));
{$ENDIF}
btSingle: Result := Src^.tsingle;
btDouble: Result := Src^.tdouble;
btCurrency: Result := SRc^.tcurrency;
btExtended: Result := Src^.textended;
else
begin
s := False;
Result := 0;
end;
end;
end;
function GetString(Src: PIfRVariant; var s: Boolean): tbtString;
begin
case Src.FType.BaseType of
btChar: Result := Src^.tchar;
btString: Result := tbtstring(src^.tstring);
{$IFNDEF PS_NOWIDESTRING}
btWideChar: Result := tbtstring(src^.twidechar);
btWideString: Result := tbtstring(tbtWideString(src^.twidestring));
btUnicodeString: Result := tbtstring(tbtUnicodeString(src^.tunistring));
{$ENDIF}
else
begin
s := False;
Result := '';
end;
end;
end;
{$IFNDEF PS_NOWIDESTRING}
function TPSPascalCompiler.GetWideString(Src: PIfRVariant; var s: Boolean): tbtwidestring;
begin
case Src.FType.BaseType of
btChar: Result := tbtWidestring(Src^.tchar);
btString: Result := tbtWidestring(tbtstring(src^.tstring));
btWideChar: Result := src^.twidechar;
btWideString: Result := tbtWideString(src^.twidestring);
btUnicodeString: result := tbtUnicodeString(src^.tunistring);
else
begin
s := False;
Result := '';
end;
end;
end;
function TPSPascalCompiler.GetUnicodeString(Src: PIfRVariant; var s: Boolean): tbtunicodestring;
begin
case Src.FType.BaseType of
btChar: Result := tbtWidestring(Src^.tchar);
btString: Result := tbtWidestring(tbtstring(src^.tstring));
btWideChar: Result := src^.twidechar;
btWideString: Result := tbtWideString(src^.twidestring);
btUnicodeString: result := tbtUnicodeString(src^.tunistring);
else
begin
s := False;
Result := '';
end;
end;
end;
{$ENDIF}
function ab(b: Longint): Longint;
begin
ab := Longint(b = 0);
end;
procedure Set_Union(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] or Src^[i];
end;
procedure Set_Diff(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] and not Src^[i];
end;
procedure Set_Intersect(Dest, Src: PByteArray; ByteSize: Integer);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
Dest^[i] := Dest^[i] and Src^[i];
end;
procedure Set_Subset(Dest, Src: PByteArray; ByteSize: Integer; var Val: Boolean);
var
i: Integer;
begin
for i := ByteSize -1 downto 0 do
begin
if not (Src^[i] and Dest^[i] = Dest^[i]) then
begin
Val := False;
exit;
end;
end;
Val := True;
end;
procedure Set_Equal(Dest, Src: PByteArray; ByteSize: Integer; var Val: Boolean);
var
i: Longint;
begin
for i := ByteSize -1 downto 0 do
begin
if Dest^[i] <> Src^[i] then
begin
Val := False;
exit;
end;
end;
val := True;
end;
procedure Set_membership(Item: Longint; Src: PByteArray; var Val: Boolean);
begin
Val := (Src^[Item shr 3] and (1 shl (Item and 7))) <> 0;
end;
procedure Set_MakeMember(Item: Longint; Src: PByteArray);
begin
Src^[Item shr 3] := Src^[Item shr 3] or (1 shl (Item and 7));
end;
procedure ConvertToBoolean(SE: TPSPascalCompiler; FUseUsedTypes: Boolean; var1: PIFRVariant; b: Boolean);
begin
FinalizeVariant(var1^);
if FUseUsedTypes then
Var1^.FType := se.at2ut(se.FDefaultBoolType)
else
Var1^.FType := Se.FDefaultBoolType;
var1^.tu32 := Ord(b);
end;
procedure ConvertToString(SE: TPSPascalCompiler; FUseUsedTypes: Boolean; var1: PIFRVariant; const s: tbtString);
var
atype: TPSType;
begin
FinalizeVariant(var1^);
atype := se.FindBaseType(btString);
if FUseUsedTypes then
InitializeVariant(var1, se.at2ut(atype))
else
InitializeVariant(var1, atype);
tbtstring(var1^.tstring) := s;
end;
{$IFNDEF PS_NOWIDESTRING}
procedure ConvertToUnicodeString(SE: TPSPascalCompiler; FUseUsedTypes: Boolean; var1: PIFRVariant; const s: tbtunicodestring);
var
atype: TPSType;
begin
FinalizeVariant(var1^);
atype := se.FindBaseType(btUnicodeString);
if FUseUsedTypes then
InitializeVariant(var1, se.at2ut(atype))
else
InitializeVariant(var1, atype);
tbtunicodestring(var1^.tunistring) := s;
end;
{$ENDIF}
procedure ConvertToFloat(SE: TPSPascalCompiler; FUseUsedTypes: Boolean; var1: PIfRVariant; NewType: TPSType);
var
vartemp: PIfRVariant;
b: Boolean;
begin
New(vartemp);
b := false;
if FUseUsedTypes then
NewType := se.at2ut(NewType);
InitializeVariant(vartemp, var1.FType);
CopyVariantContents(var1, vartemp);
FinalizeVariant(var1^);
InitializeVariant(var1, newtype);
case var1.ftype.basetype of
btSingle:
begin
if (vartemp.ftype.BaseType = btu8) or (vartemp.ftype.BaseType = btu16) or (vartemp.ftype.BaseType = btu32) then
var1^.tsingle := GetUInt(vartemp, b)
else
var1^.tsingle := GetInt(vartemp, b)
end;
btDouble:
begin
if (vartemp.ftype.BaseType = btu8) or (vartemp.ftype.BaseType = btu16) or (vartemp.ftype.BaseType = btu32) then
var1^.tdouble := GetUInt(vartemp, b)
else
var1^.tdouble := GetInt(vartemp, b)
end;
btExtended:
begin
if (vartemp.ftype.BaseType = btu8) or (vartemp.ftype.BaseType = btu16) or (vartemp.ftype.BaseType = btu32) then
var1^.textended:= GetUInt(vartemp, b)
else
var1^.textended:= GetInt(vartemp, b)
end;
btCurrency:
begin
if (vartemp.ftype.BaseType = btu8) or (vartemp.ftype.BaseType = btu16) or (vartemp.ftype.BaseType = btu32) then
var1^.tcurrency:= GetUInt(vartemp, b)
else
var1^.tcurrency:= GetInt(vartemp, b)
end;
end;
DisposeVariant(vartemp);
end;
function TPSPascalCompiler.IsCompatibleType(p1, p2: TPSType; Cast: Boolean): Boolean;
begin
if
((p1.BaseType = btProcPtr) and (p2 = p1)) or
(p1.BaseType = btPointer) or
(p2.BaseType = btPointer) or
((p1.BaseType = btNotificationVariant) or (p1.BaseType = btVariant)) or
((p2.BaseType = btNotificationVariant) or (p2.BaseType = btVariant)) or
(IsIntType(p1.BaseType) and IsIntType(p2.BaseType)) or
(IsRealType(p1.BaseType) and IsIntRealType(p2.BaseType)) or
(((p1.basetype = btPchar) or (p1.BaseType = btString)) and ((p2.BaseType = btString) or (p2.BaseType = btPchar))) or
(((p1.basetype = btPchar) or (p1.BaseType = btString)) and (p2.BaseType = btChar)) or
(((p1.BaseType = btArray) or (p1.BaseType = btStaticArray)) and (
(p2.BaseType = btArray) or (p2.BaseType = btStaticArray)) and IsCompatibleType(TPSArrayType(p1).ArrayTypeNo, TPSArrayType(p2).ArrayTypeNo, False)) or
((p1.BaseType = btChar) and (p2.BaseType = btChar)) or
((p1.BaseType = btSet) and (p2.BaseType = btSet)) or
{$IFNDEF PS_NOWIDESTRING}
((p1.BaseType = btWideChar) and (p2.BaseType = btChar)) or
((p1.BaseType = btWideChar) and (p2.BaseType = btWideChar)) or
((p1.BaseType = btWidestring) and (p2.BaseType = btChar)) or
((p1.BaseType = btWidestring) and (p2.BaseType = btWideChar)) or
((p1.BaseType = btWidestring) and ((p2.BaseType = btString) or (p2.BaseType = btPchar) or (p2.BaseType = btUnicodeString))) or
((p1.BaseType = btWidestring) and ((p2.BaseType = btWidestring))) or
((p1.BaseType = btUnicodeString) and (p2.BaseType = btChar)) or
((p1.BaseType = btUnicodeString) and (p2.BaseType = btWideChar)) or
((p1.BaseType = btUnicodeString) and ((p2.BaseType = btString) or (p2.BaseType = btPchar) or (p2.BaseType = btUnicodeString))) or
((p1.BaseType = btUnicodeString) and (p2.BaseType = btWidestring)) or
(((p1.basetype = btPchar) or (p1.BaseType = btString)) and (p2.BaseType = btWideString)or (p2.BaseType = btUnicodeString)) or
(((p1.basetype = btPchar) or (p1.BaseType = btString)) and (p2.BaseType = btWidechar)) or
(((p1.basetype = btPchar) or (p1.BaseType = btString)) and (p2.BaseType = btchar)) or
{$ENDIF}
((p1.BaseType = btRecord) and (p2.BaseType = btrecord) and (not IsVarInCompatible(p1, p2))) or
((p1.BaseType = btEnum) and (p2.BaseType = btEnum)) or
(Cast and IsIntType(P1.BaseType) and (p2.baseType = btEnum)) or
(Cast and (p1.baseType = btEnum) and IsIntType(P2.BaseType))
then
Result := True
// nx change start - allow casting class -> integer and vice versa
else if p1.BaseType = btclass then
Result := TPSClassType(p1).cl.IsCompatibleWith(p2) or (p2.BaseType in [btU32, btS32])
else if (p1.BaseType in [btU32, btS32]) then
Result := (p2.BaseType = btClass)
// nx change end
{$IFNDEF PS_NOINTERFACES}
else if p1.BaseType = btInterface then
Result := TPSInterfaceType(p1).Intf.IsCompatibleWith(p2)
{$ENDIF}
else if ((p1.BaseType = btExtClass) and (p2.BaseType = btExtClass)) then
begin
Result := TPSUndefinedClassType(p1).ExtClass.IsCompatibleWith(TPSUndefinedClassType(p2).ExtClass);
end
else
Result := False;
end;
function TPSPascalCompiler.PreCalc(FUseUsedTypes: Boolean; Var1Mod: Byte; var1: PIFRVariant; Var2Mod: Byte; Var2: PIfRVariant; Cmd: TPSBinOperatorType; Pos, Row, Col: Cardinal): Boolean;
{ var1=dest, var2=src }
var
b: Boolean;
begin
Result := True;
try
if (IsRealType(var2.FType.BaseType) and IsIntType(var1.FType.BaseType)) then
ConvertToFloat(Self, FUseUsedTypes, var1, var2^.FType);
case Cmd of
otAdd:
begin { + }
case var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 + GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 + GetInt(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 + GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 + Getint(Var2, Result);
btEnum, btU32: var1^.tu32 := var1^.tu32 + GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 + Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 + GetInt64(Var2, Result); {$ENDIF}
btSingle: var1^.tsingle := var1^.tsingle + GetReal( Var2, Result);
btDouble: var1^.tdouble := var1^.tdouble + GetReal( Var2, Result);
btExtended: var1^.textended := var1^.textended + GetReal( Var2, Result);
btCurrency: var1^.tcurrency := var1^.tcurrency + GetReal( Var2, Result);
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Union(var1.tstring, var2.tstring, TPSSetType(var1.FType).ByteSize);
end else Result := False;
end;
btChar:
begin
ConvertToString(Self, FUseUsedTypes, var1, getstring(Var1, b)+getstring(Var2, b));
end;
btString: tbtstring(var1^.tstring) := tbtstring(var1^.tstring) + GetString(Var2, Result);
{$IFNDEF PS_NOWIDESTRING}
btwideString: tbtwidestring(var1^.twidestring) := tbtwidestring(var1^.twidestring) + GetWideString(Var2, Result);
btUnicodeString: tbtunicodestring(var1^.tunistring) := tbtunicodestring(var1^.tunistring) + GetUnicodeString(Var2, Result);
btWidechar:
begin
ConvertToUnicodeString(Self, FUseUsedTypes, var1, GetUnicodeString(Var1, b)+GetUnicodeString(Var2, b));
end;
{$ENDIF}
else Result := False;
end;
end;
otSub:
begin { - }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 - GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 - Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 - GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 - Getint(Var2, Result);
btEnum, btU32: var1^.tu32 := var1^.tu32 - GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 - Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 - GetInt64(Var2, Result); {$ENDIF}
btSingle: var1^.tsingle := var1^.tsingle - GetReal( Var2, Result);
btDouble: var1^.tdouble := var1^.tdouble - GetReal(Var2, Result);
btExtended: var1^.textended := var1^.textended - GetReal(Var2, Result);
btCurrency: var1^.tcurrency := var1^.tcurrency - GetReal( Var2, Result);
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Diff(var1.tstring, var2.tstring, TPSSetType(var1.FType).ByteSize);
end else Result := False;
end;
else Result := False;
end;
end;
otMul:
begin { * }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 * GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 * Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 * GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 * Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 * GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 * Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 * GetInt64(Var2, Result); {$ENDIF}
btSingle: var1^.tsingle := var1^.tsingle * GetReal(Var2, Result);
btDouble: var1^.tdouble := var1^.tdouble * GetReal(Var2, Result);
btExtended: var1^.textended := var1^.textended * GetReal( Var2, Result);
btCurrency: var1^.tcurrency := var1^.tcurrency * GetReal( Var2, Result);
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Intersect(var1.tstring, var2.tstring, TPSSetType(var1.FType).ByteSize);
end else Result := False;
end;
else Result := False;
end;
end;
otDiv:
begin { / }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 div GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 div Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 div GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 div Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 div GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 div Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 div GetInt64(Var2, Result); {$ENDIF}
btSingle: var1^.tsingle := var1^.tsingle / GetReal( Var2, Result);
btDouble: var1^.tdouble := var1^.tdouble / GetReal( Var2, Result);
btExtended: var1^.textended := var1^.textended / GetReal( Var2, Result);
btCurrency: var1^.tcurrency := var1^.tcurrency / GetReal( Var2, Result);
else Result := False;
end;
end;
otMod:
begin { MOD }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 mod GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 mod Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 mod GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 mod Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 mod GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 mod Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 mod GetInt64(Var2, Result); {$ENDIF}
else Result := False;
end;
end;
otshl:
begin { SHL }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 shl GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 shl Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 shl GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 shl Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 shl GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 shl Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 shl GetInt64(Var2, Result); {$ENDIF}
else Result := False;
end;
end;
otshr:
begin { SHR }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 shr GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 shr Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 shr GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 shr Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 shr GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 shr Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 shr GetInt64( Var2, Result); {$ENDIF}
else Result := False;
end;
end;
otAnd:
begin { AND }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 and GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 and Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 and GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 and Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 and GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 and Getint(Var2, Result);
btEnum: var1^.ts32 := var1^.ts32 and Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 and GetInt64(Var2, Result); {$ENDIF}
else Result := False;
end;
end;
otor:
begin { OR }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 or GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 or Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 or GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 or Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 or GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 or Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 or GetInt64(Var2, Result); {$ENDIF}
btEnum: var1^.ts32 := var1^.ts32 or Getint(Var2, Result);
else Result := False;
end;
end;
otxor:
begin { XOR }
case Var1.FType.BaseType of
btU8: var1^.tu8 := var1^.tu8 xor GetUint(Var2, Result);
btS8: var1^.ts8 := var1^.ts8 xor Getint(Var2, Result);
btU16: var1^.tu16 := var1^.tu16 xor GetUint(Var2, Result);
btS16: var1^.ts16 := var1^.ts16 xor Getint(Var2, Result);
btU32: var1^.tu32 := var1^.tu32 xor GetUint(Var2, Result);
btS32: var1^.ts32 := var1^.ts32 xor Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: var1^.ts64 := var1^.ts64 xor GetInt64(Var2, Result); {$ENDIF}
btEnum: var1^.ts32 := var1^.ts32 xor Getint(Var2, Result);
else Result := False;
end;
end;
otGreaterEqual:
begin { >= }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 >= GetUint(Var2, Result);
btS8: b := var1^.ts8 >= Getint(Var2, Result);
btU16: b := var1^.tu16 >= GetUint(Var2, Result);
btS16: b := var1^.ts16 >= Getint(Var2, Result);
btU32: b := var1^.tu32 >= GetUint(Var2, Result);
btS32: b := var1^.ts32 >= Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 >= GetInt64(Var2, Result); {$ENDIF}
btSingle: b := var1^.tsingle >= GetReal( Var2, Result);
btDouble: b := var1^.tdouble >= GetReal( Var2, Result);
btExtended: b := var1^.textended >= GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency >= GetReal( Var2, Result);
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Subset(var2.tstring, var1.tstring, TPSSetType(var1.FType).ByteSize, b);
end else Result := False;
end;
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otLessEqual:
begin { <= }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 <= GetUint(Var2, Result);
btS8: b := var1^.ts8 <= Getint(Var2, Result);
btU16: b := var1^.tu16 <= GetUint(Var2, Result);
btS16: b := var1^.ts16 <= Getint(Var2, Result);
btU32: b := var1^.tu32 <= GetUint(Var2, Result);
btS32: b := var1^.ts32 <= Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 <= GetInt64(Var2, Result); {$ENDIF}
btSingle: b := var1^.tsingle <= GetReal( Var2, Result);
btDouble: b := var1^.tdouble <= GetReal( Var2, Result);
btExtended: b := var1^.textended <= GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency <= GetReal( Var2, Result);
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Subset(var1.tstring, var2.tstring, TPSSetType(var1.FType).ByteSize, b);
end else Result := False;
end;
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otGreater:
begin { > }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 > GetUint(Var2, Result);
btS8: b := var1^.ts8 > Getint(Var2, Result);
btU16: b := var1^.tu16 > GetUint(Var2, Result);
btS16: b := var1^.ts16 > Getint(Var2, Result);
btU32: b := var1^.tu32 > GetUint(Var2, Result);
btS32: b := var1^.ts32 > Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 > GetInt64(Var2, Result); {$ENDIF}
btSingle: b := var1^.tsingle > GetReal( Var2, Result);
btDouble: b := var1^.tdouble > GetReal( Var2, Result);
btExtended: b := var1^.textended > GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency > GetReal( Var2, Result);
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otLess:
begin { < }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 < GetUint(Var2, Result);
btS8: b := var1^.ts8 < Getint(Var2, Result);
btU16: b := var1^.tu16 < GetUint(Var2, Result);
btS16: b := var1^.ts16 < Getint(Var2, Result);
btU32: b := var1^.tu32 < GetUint(Var2, Result);
btS32: b := var1^.ts32 < Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 < GetInt64(Var2, Result); {$ENDIF}
btSingle: b := var1^.tsingle < GetReal( Var2, Result);
btDouble: b := var1^.tdouble < GetReal( Var2, Result);
btExtended: b := var1^.textended < GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency < GetReal( Var2, Result);
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otNotEqual:
begin { <> }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 <> GetUint(Var2, Result);
btS8: b := var1^.ts8 <> Getint(Var2, Result);
btU16: b := var1^.tu16 <> GetUint(Var2, Result);
btS16: b := var1^.ts16 <> Getint(Var2, Result);
btU32: b := var1^.tu32 <> GetUint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 <> GetInt64(Var2, Result); {$ENDIF}
btS32: b := var1^.ts32 <> Getint(Var2, Result);
btSingle: b := var1^.tsingle <> GetReal( Var2, Result);
btDouble: b := var1^.tdouble <> GetReal( Var2, Result);
btExtended: b := var1^.textended <> GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency <> GetReal( Var2, Result);
btEnum: b := var1^.ts32 <> Getint(Var2, Result);
btString: b := tbtstring(var1^.tstring) <> GetString(var2, Result);
btChar: b := var1^.tchar <> GetString(var2, Result);
{$IFNDEF PS_NOWIDESTRING}
btWideString: b := tbtWideString(var1^.twidestring) <> GetWideString(var2, Result);
btUnicodeString: b := tbtUnicodeString(var1^.tunistring) <> GetUnicodeString(var2, Result);
btWideChar: b := var1^.twidechar <> GetUnicodeString(var2, Result);
{$ENDIF}
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Equal(var1.tstring, var2.tstring, TPSSetType(var1.FType).GetByteSize, b);
b := not b;
end else Result := False;
end;
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otEqual:
begin { = }
case Var1.FType.BaseType of
btU8: b := var1^.tu8 = GetUint(Var2, Result);
btS8: b := var1^.ts8 = Getint(Var2, Result);
btU16: b := var1^.tu16 = GetUint(Var2, Result);
btS16: b := var1^.ts16 = Getint(Var2, Result);
btU32: b := var1^.tu32 = GetUint(Var2, Result);
btS32: b := var1^.ts32 = Getint(Var2, Result);
{$IFNDEF PS_NOINT64}btS64: b := var1^.ts64 = GetInt64(Var2, Result); {$ENDIF}
btSingle: b := var1^.tsingle = GetReal( Var2, Result);
btDouble: b := var1^.tdouble = GetReal( Var2, Result);
btExtended: b := var1^.textended = GetReal( Var2, Result);
btCurrency: b := var1^.tcurrency = GetReal( Var2, Result);
btEnum: b := var1^.ts32 = Getint(Var2, Result);
btString: b := tbtstring(var1^.tstring) = GetString(var2, Result);
btChar: b := var1^.tchar = GetString(var2, Result);
{$IFNDEF PS_NOWIDESTRING}
btWideString: b := tbtWideString(var1^.twidestring) = GetWideString(var2, Result);
btUnicodeString: b := tbtUnicodeString(var1^.twidestring) = GetUnicodeString(var2, Result);
btWideChar: b := var1^.twidechar = GetUnicodeString(var2, Result);
{$ENDIF}
btSet:
begin
if (var1.FType = var2.FType) then
begin
Set_Equal(var1.tstring, var2.tstring, TPSSetType(var1.FType).ByteSize, b);
end else Result := False;
end;
else
Result := False;
end;
ConvertToBoolean(Self, FUseUsedTypes, Var1, b);
end;
otIn:
begin
if (var2.Ftype.BaseType = btset) and (TPSSetType(var2).SetType = Var1.FType) then
begin
Set_membership(GetUint(var1, result), var2.tstring, b);
end else Result := False;
end;
else
Result := False;
end;
except
on E: EDivByZero do
begin
Result := False;
MakeError('', ecDivideByZero, '');
Exit;
end;
on E: EZeroDivide do
begin
Result := False;
MakeError('', ecDivideByZero, '');
Exit;
end;
on E: EMathError do
begin
Result := False;
MakeError('', ecMathError, tbtstring(e.Message));
Exit;
end;
on E: Exception do
begin
Result := False;
MakeError('', ecInternalError, tbtstring(E.Message));
Exit;
end;
end;
if not Result then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := Pos;
FRow := Row;
FCol := Col;
end;
end;
end;
function TPSPascalCompiler.IsDuplicate(const s: tbtString; const check: TPSDuplicCheck): Boolean;
var
h, l: Longint;
x: TPSProcedure;
begin
h := MakeHash(s);
if (s = 'RESULT') then
begin
Result := True;
exit;
end;
if dcTypes in Check then
for l := FTypes.Count - 1 downto 0 do
begin
if (TPSType(FTypes.Data[l]).NameHash = h) and
(TPSType(FTypes.Data[l]).Name = s) then
begin
Result := True;
exit;
end;
end;
if dcProcs in Check then
for l := FProcs.Count - 1 downto 0 do
begin
x := FProcs.Data[l];
if x.ClassType = TPSInternalProcedure then
begin
if (h = TPSInternalProcedure(x).NameHash) and (s = TPSInternalProcedure(x).Name) then
begin
Result := True;
exit;
end;
end
else
begin
if (TPSExternalProcedure(x).RegProc.NameHash = h) and
(TPSExternalProcedure(x).RegProc.Name = s) then
begin
Result := True;
exit;
end;
end;
end;
if dcVars in Check then
for l := FVars.Count - 1 downto 0 do
begin
if (TPSVar(FVars.Data[l]).NameHash = h) and
(TPSVar(FVars.Data[l]).Name = s) then
begin
Result := True;
exit;
end;
end;
if dcConsts in Check then
for l := FConstants.Count -1 downto 0 do
begin
if (TPSConstant(FConstants.Data[l]).NameHash = h) and
(TPSConstant(FConstants.Data[l]).Name = s) then
begin
Result := TRue;
exit;
end;
end;
Result := False;
end;
procedure ClearRecSubVals(RecSubVals: TPSList);
var
I: Longint;
begin
for I := 0 to RecSubVals.Count - 1 do
TPSRecordFieldTypeDef(RecSubVals[I]).Free;
RecSubVals.Free;
end;
function TPSPascalCompiler.ReadTypeAddProcedure(const Name: tbtString; FParser: TPSPascalParser): TPSType;
var
IsFunction: Boolean;
VNames: tbtString;
modifier: TPSParameterMode;
Decl: TPSParametersDecl;
VCType: TPSType;
begin
if FParser.CurrTokenId = CSTII_Function then
IsFunction := True
else
IsFunction := False;
Decl := TPSParametersDecl.Create;
try
FParser.Next;
if FParser.CurrTokenId = CSTI_OpenRound then
begin
FParser.Next;
if FParser.CurrTokenId <> CSTI_CloseRound then
begin
while True do
begin
if FParser.CurrTokenId = CSTII_Const then
begin
Modifier := pmIn;
FParser.Next;
end else
if FParser.CurrTokenId = CSTII_Out then
begin
Modifier := pmOut;
FParser.Next;
end else
if FParser.CurrTokenId = CSTII_Var then
begin
modifier := pmInOut;
FParser.Next;
end
else
modifier := pmIn;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
Result := nil;
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
exit;
end;
VNames := FParser.OriginalToken + '|';
FParser.Next;
while FParser.CurrTokenId = CSTI_Comma do
begin
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
Result := nil;
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
exit;
end;
VNames := VNames + FParser.GetToken + '|';
FParser.Next;
end;
if FParser.CurrTokenId <> CSTI_Colon then
begin
Result := nil;
if FParser = Self.FParser then
MakeError('', ecColonExpected, '');
exit;
end;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
Result := nil;
if FParser = self.FParser then
MakeError('', ecIdentifierExpected, '');
exit;
end;
VCType := FindType(FParser.GetToken);
if VCType = nil then
begin
if FParser = self.FParser then
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
Result := nil;
exit;
end;
while Pos(tbtchar('|'), VNames) > 0 do
begin
with Decl.AddParam do
begin
Mode := modifier;
OrgName := copy(VNames, 1, Pos(tbtchar('|'), VNames) - 1);
FType := VCType;
end;
Delete(VNames, 1, Pos(tbtchar('|'), VNames));
end;
FParser.Next;
if FParser.CurrTokenId = CSTI_CloseRound then
break;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
if FParser = Self.FParser then
MakeError('', ecSemicolonExpected, '');
Result := nil;
exit;
end;
FParser.Next;
end; {while}
end; {if}
FParser.Next;
end; {if}
if IsFunction then
begin
if FParser.CurrTokenId <> CSTI_Colon then
begin
if FParser = Self.FParser then
MakeError('', ecColonExpected, '');
Result := nil;
exit;
end;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
Result := nil;
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
exit;
end;
VCType := self.FindType(FParser.GetToken);
if VCType = nil then
begin
if FParser = self.FParser then
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
Result := nil;
exit;
end;
FParser.Next;
end
else
VCType := nil;
Decl.Result := VcType;
VCType := TPSProceduralType.Create;
VCType.Name := FastUppercase(Name);
VCType.OriginalName := Name;
VCType.BaseType := btProcPtr;
{$IFDEF PS_USESSUPPORT}
VCType.DeclareUnit:=fModule;
{$ENDIF}
VCType.DeclarePos := FParser.CurrTokenPos;
VCType.DeclareRow := FParser.Row;
VCType.DeclareCol := FParser.Col;
TPSProceduralType(VCType).ProcDef.Assign(Decl);
FTypes.Add(VCType);
Result := VCType;
finally
Decl.Free;
end;
end; {ReadTypeAddProcedure}
function TPSPascalCompiler.ReadType(const Name: tbtString; FParser: TPSPascalParser): TPSType; // InvalidVal = Invalid
var
TypeNo: TPSType;
h, l: Longint;
FieldName,fieldorgname,s: tbtString;
RecSubVals: TPSList;
FArrayStart, FArrayLength: Longint;
rvv: PIFPSRecordFieldTypeDef;
p, p2: TPSType;
tempf: PIfRVariant;
begin
if (FParser.CurrTokenID = CSTII_Function) or (FParser.CurrTokenID = CSTII_Procedure) then
begin
Result := ReadTypeAddProcedure(Name, FParser);
Exit;
end else if FParser.CurrTokenId = CSTII_Set then
begin
FParser.Next;
if FParser.CurrTokenId <> CSTII_Of then
begin
MakeError('', ecOfExpected, '');
Result := nil;
Exit;
end;
FParser.Next;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Result := nil;
exit;
end;
TypeNo := FindType(FParser.GetToken);
if TypeNo = nil then
begin
MakeError('', ecUnknownIdentifier, '');
Result := nil;
exit;
end;
if (TypeNo.BaseType = btEnum) or (TypeNo.BaseType = btChar) or (TypeNo.BaseType = btU8) then
begin
FParser.Next;
p2 := TPSSetType.Create;
p2.Name := FastUppercase(Name);
p2.OriginalName := Name;
p2.BaseType := btSet;
{$IFDEF PS_USESSUPPORT}
p2.DeclareUnit:=fModule;
{$ENDIF}
p2.DeclarePos := FParser.CurrTokenPos;
p2.DeclareRow := FParser.Row;
p2.DeclareCol := FParser.Col;
TPSSetType(p2).SetType := TypeNo;
FTypes.Add(p2);
Result := p2;
end else
begin
MakeError('', ecTypeMismatch, '');
Result := nil;
end;
exit;
end else if FParser.CurrTokenId = CSTI_OpenRound then
begin
FParser.Next;
L := 0;
P2 := TPSEnumType.Create;
P2.Name := FastUppercase(Name);
p2.OriginalName := Name;
p2.BaseType := btEnum;
{$IFDEF PS_USESSUPPORT}
p2.DeclareUnit:=fModule;
{$ENDIF}
p2.DeclarePos := FParser.CurrTokenPos;
p2.DeclareRow := FParser.Row;
p2.DeclareCol := FParser.Col;
FTypes.Add(p2);
repeat
if FParser.CurrTokenId <> CSTI_Identifier then
begin
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
Result := nil;
exit;
end;
s := FParser.OriginalToken;
if IsDuplicate(FastUppercase(s), [dcTypes]) then
begin
if FParser = Self.FParser then
MakeError('', ecDuplicateIdentifier, s);
Result := nil;
Exit;
end;
with AddConstant(s, p2) do
begin
FValue.tu32 := L;
{$IFDEF PS_USESSUPPORT}
DeclareUnit:=fModule;
{$ENDIF}
DeclarePos:=FParser.CurrTokenPos;
DeclareRow:=FParser.Row;
DeclareCol:=FParser.Col;
end;
Inc(L);
FParser.Next;
if FParser.CurrTokenId = CSTI_CloseRound then
Break
else if FParser.CurrTokenId <> CSTI_Comma then
begin
if FParser = Self.FParser then
MakeError('', ecCloseRoundExpected, '');
Result := nil;
Exit;
end;
FParser.Next;
until False;
FParser.Next;
TPSEnumType(p2).HighValue := L-1;
Result := p2;
exit;
end else
if FParser.CurrTokenId = CSTII_Array then
begin
FParser.Next;
if FParser.CurrTokenID = CSTI_OpenBlock then
begin
FParser.Next;
tempf := ReadConstant(FParser, CSTI_TwoDots);
if tempf = nil then
begin
Result := nil;
exit;
end;
case tempf.FType.BaseType of
btU8: FArrayStart := tempf.tu8;
btS8: FArrayStart := tempf.ts8;
btU16: FArrayStart := tempf.tu16;
btS16: FArrayStart := tempf.ts16;
btU32: FArrayStart := tempf.tu32;
btS32: FArrayStart := tempf.ts32;
{$IFNDEF PS_NOINT64}
bts64: FArrayStart := tempf.ts64;
{$ENDIF}
else
begin
DisposeVariant(tempf);
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
end;
DisposeVariant(tempf);
if FParser.CurrTokenID <> CSTI_TwoDots then
begin
MakeError('', ecPeriodExpected, '');
Result := nil;
exit;
end;
FParser.Next;
tempf := ReadConstant(FParser, CSTI_CloseBlock);
if tempf = nil then
begin
Result := nil;
exit;
end;
case tempf.FType.BaseType of
btU8: FArrayLength := tempf.tu8;
btS8: FArrayLength := tempf.ts8;
btU16: FArrayLength := tempf.tu16;
btS16: FArrayLength := tempf.ts16;
btU32: FArrayLength := tempf.tu32;
btS32: FArrayLength := tempf.ts32;
{$IFNDEF PS_NOINT64}
bts64: FArrayLength := tempf.ts64;
{$ENDIF}
else
DisposeVariant(tempf);
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
DisposeVariant(tempf);
FArrayLength := FArrayLength - FArrayStart + 1;
if (FArrayLength < 0) or (FArrayLength > MaxInt div 4) then
begin
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseBlock then
begin
MakeError('', ecCloseBlockExpected, '');
Result := nil;
exit;
end;
FParser.Next;
end else
begin
FArrayStart := 0;
FArrayLength := -1;
end;
if FParser.CurrTokenId <> CSTII_Of then
begin
if FParser = Self.FParser then
MakeError('', ecOfExpected, '');
Result := nil;
exit;
end;
FParser.Next;
TypeNo := ReadType('', FParser);
if TypeNo = nil then
begin
if FParser = Self.FParser then
MakeError('', ecUnknownIdentifier, '');
Result := nil;
exit;
end;
if (Name = '') and (FArrayLength = -1) then
begin
if TypeNo.Used then
begin
for h := 0 to FTypes.Count -1 do
begin
p := FTypes[H];
if (p.BaseType = btArray) and (TPSArrayType(p).ArrayTypeNo = TypeNo) and (Copy(p.Name, 1, 1) <> '!') then
begin
Result := p;
exit;
end;
end;
end;
end;
if FArrayLength <> -1 then
begin
p := TPSStaticArrayType.Create;
TPSStaticArrayType(p).StartOffset := FArrayStart;
TPSStaticArrayType(p).Length := FArrayLength;
p.BaseType := btStaticArray;
end else
begin
p := TPSArrayType.Create;
p.BaseType := btArray;
end;
p.Name := FastUppercase(Name);
p.OriginalName := Name;
{$IFDEF PS_USESSUPPORT}
p.DeclareUnit:=fModule;
{$ENDIF}
p.DeclarePos := FParser.CurrTokenPos;
p.DeclareRow := FParser.Row;
p.DeclareCol := FParser.Col;
TPSArrayType(p).ArrayTypeNo := TypeNo;
FTypes.Add(p);
Result := p;
Exit;
end
else if FParser.CurrTokenId = CSTII_Record then
begin
FParser.Next;
RecSubVals := TPSList.Create;
repeat
repeat
if FParser.CurrTokenId <> CSTI_Identifier then
begin
ClearRecSubVals(RecSubVals);
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
Result := nil;
exit;
end;
FieldName := FParser.GetToken;
s := S+FParser.OriginalToken+'|';
FParser.Next;
h := MakeHash(FieldName);
for l := 0 to RecSubVals.Count - 1 do
begin
if (PIFPSRecordFieldTypeDef(RecSubVals[l]).FieldNameHash = h) and
(PIFPSRecordFieldTypeDef(RecSubVals[l]).FieldName = FieldName) then
begin
if FParser = Self.FParser then
MakeError('', ecDuplicateIdentifier, FParser.OriginalToken);
ClearRecSubVals(RecSubVals);
Result := nil;
exit;
end;
end;
if FParser.CurrTokenID = CSTI_Colon then Break else
if FParser.CurrTokenID <> CSTI_Comma then
begin
if FParser = Self.FParser then
MakeError('', ecColonExpected, '');
ClearRecSubVals(RecSubVals);
Result := nil;
exit;
end;
FParser.Next;
until False;
FParser.Next;
p := ReadType('', FParser);
if p = nil then
begin
ClearRecSubVals(RecSubVals);
Result := nil;
exit;
end;
p := GetTypeCopyLink(p);
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
ClearRecSubVals(RecSubVals);
if FParser = Self.FParser then
MakeError('', ecSemicolonExpected, '');
Result := nil;
exit;
end; {if}
FParser.Next;
while Pos(tbtchar('|'), s) > 0 do
begin
fieldorgname := copy(s, 1, Pos(tbtchar('|'), s)-1);
Delete(s, 1, length(FieldOrgName)+1);
rvv := TPSRecordFieldTypeDef.Create;
rvv.FieldOrgName := fieldorgname;
rvv.FType := p;
RecSubVals.Add(rvv);
end;
until FParser.CurrTokenId = CSTII_End;
FParser.Next; // skip CSTII_End
P := TPSRecordType.Create;
p.Name := FastUppercase(Name);
p.OriginalName := Name;
p.BaseType := btRecord;
{$IFDEF PS_USESSUPPORT}
p.DeclareUnit:=fModule;
{$ENDIF}
p.DeclarePos := FParser.CurrTokenPos;
p.DeclareRow := FParser.Row;
p.DeclareCol := FParser.Col;
for l := 0 to RecSubVals.Count -1 do
begin
rvv := RecSubVals[l];
with TPSRecordType(p).AddRecVal do
begin
FieldOrgName := rvv.FieldOrgName;
FType := rvv.FType;
end;
rvv.Free;
end;
RecSubVals.Free;
FTypes.Add(p);
Result := p;
Exit;
end else if FParser.CurrTokenId = CSTI_Identifier then
begin
s := FParser.GetToken;
h := MakeHash(s);
Typeno := nil;
for l := 0 to FTypes.Count - 1 do
begin
p2 := FTypes[l];
if (p2.NameHash = h) and (p2.Name = s) then
begin
FParser.Next;
Typeno := GetTypeCopyLink(p2);
Break;
end;
end;
if Typeno = nil then
begin
Result := nil;
if FParser = Self.FParser then
MakeError('', ecUnknownType, FParser.OriginalToken);
exit;
end;
if Name <> '' then
begin
p := TPSTypeLink.Create;
p.Name := FastUppercase(Name);
p.OriginalName := Name;
p.BaseType := BtTypeCopy;
{$IFDEF PS_USESSUPPORT}
p.DeclareUnit:=fModule;
{$ENDIF}
p.DeclarePos := FParser.CurrTokenPos;
p.DeclareRow := FParser.Row;
p.DeclareCol := FParser.Col;
TPSTypeLink(p).LinkTypeNo := TypeNo;
FTypes.Add(p);
Result := p;
Exit;
end else
begin
Result := TypeNo;
exit;
end;
end;
Result := nil;
if FParser = Self.FParser then
MakeError('', ecIdentifierExpected, '');
Exit;
end;
function TPSPascalCompiler.VarIsDuplicate(Proc: TPSInternalProcedure; const Varnames, s: tbtString): Boolean;
var
h, l: Longint;
x: TPSProcedure;
v: tbtString;
begin
h := MakeHash(s);
if (s = 'RESULT') then
begin
Result := True;
exit;
end;
for l := FProcs.Count - 1 downto 0 do
begin
x := FProcs.Data[l];
if x.ClassType = TPSInternalProcedure then
begin
if (h = TPSInternalProcedure(x).NameHash) and (s = TPSInternalProcedure(x).Name) then
begin
Result := True;
exit;
end;
end
else
begin
if (TPSExternalProcedure(x).RegProc.NameHash = h) and (TPSExternalProcedure(x).RegProc.Name = s) then
begin
Result := True;
exit;
end;
end;
end;
if proc <> nil then
begin
for l := proc.ProcVars.Count - 1 downto 0 do
begin
if (PIFPSProcVar(proc.ProcVars.Data[l]).NameHash = h) and
(PIFPSProcVar(proc.ProcVars.Data[l]).Name = s) then
begin
Result := True;
exit;
end;
end;
for l := Proc.FDecl.ParamCount -1 downto 0 do
begin
if (Proc.FDecl.Params[l].Name = s) then
begin
Result := True;
exit;
end;
end;
end
else
begin
for l := FVars.Count - 1 downto 0 do
begin
if (TPSVar(FVars.Data[l]).NameHash = h) and
(TPSVar(FVars.Data[l]).Name = s) then
begin
Result := True;
exit;
end;
end;
end;
v := VarNames;
while Pos(tbtchar('|'), v) > 0 do
begin
if FastUppercase(copy(v, 1, Pos(tbtchar('|'), v) - 1)) = s then
begin
Result := True;
exit;
end;
Delete(v, 1, Pos(tbtchar('|'), v));
end;
for l := FConstants.Count -1 downto 0 do
begin
if (TPSConstant(FConstants.Data[l]).NameHash = h) and
(TPSConstant(FConstants.Data[l]).Name = s) then
begin
Result := True;
exit;
end;
end;
Result := False;
end;
function TPSPascalCompiler.DoVarBlock(proc: TPSInternalProcedure): Boolean;
var
VarName, s: tbtString;
VarType: TPSType;
VarNo: Cardinal;
v: TPSVar;
vp: PIFPSProcVar;
EPos, ERow, ECol: Integer;
begin
Result := False;
FParser.Next; // skip CSTII_Var
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
repeat
VarNAme := '';
if VarIsDuplicate(proc, VarName, FParser.GetToken) then
begin
MakeError('', ecDuplicateIdentifier, FParser.OriginalToken);
exit;
end;
VarName := FParser.OriginalToken + '|';
Varno := 0;
if @FOnUseVariable <> nil then
begin
if Proc <> nil then
FOnUseVariable(Self, ivtVariable, Proc.ProcVars.Count + VarNo, FProcs.Count -1, FParser.CurrTokenPos, '')
else
FOnUseVariable(Self, ivtGlobal, FVars.Count + VarNo, InvalidVal, FParser.CurrTokenPos, '')
end;
EPos:=FParser.CurrTokenPos;
ERow:=FParser.Row;
ECol:=FParser.Col;
FParser.Next;
while FParser.CurrTokenId = CSTI_Comma do
begin
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
end;
if VarIsDuplicate(proc, VarName, FParser.GetToken) then
begin
MakeError('', ecDuplicateIdentifier, FParser.OriginalToken);
exit;
end;
VarName := VarName + FParser.OriginalToken + '|';
Inc(varno);
if @FOnUseVariable <> nil then
begin
if Proc <> nil then
FOnUseVariable(Self, ivtVariable, Proc.ProcVars.Count + VarNo, FProcs.Count -1, FParser.CurrTokenPos, '')
else
FOnUseVariable(Self, ivtGlobal, FVars.Count + VarNo, InvalidVal, FParser.CurrTokenPos, '')
end;
FParser.Next;
end;
if FParser.CurrTokenId <> CSTI_Colon then
begin
MakeError('', ecColonExpected, '');
exit;
end;
FParser.Next;
VarType := at2ut(ReadType('', FParser));
if VarType = nil then
begin
exit;
end;
while Pos(tbtchar('|'), VarName) > 0 do
begin
s := copy(VarName, 1, Pos(tbtchar('|'), VarName) - 1);
Delete(VarName, 1, Pos(tbtchar('|'), VarName));
if proc = nil then
begin
v := TPSVar.Create;
v.OrgName := s;
v.Name := FastUppercase(s);
{$IFDEF PS_USESSUPPORT}
v.DeclareUnit:=fModule;
{$ENDIF}
v.DeclarePos := EPos;
v.DeclareRow := ERow;
v.DeclareCol := ECol;
v.FType := VarType;
FVars.Add(v);
end
else
begin
vp := TPSProcVar.Create;
vp.OrgName := s;
vp.Name := FastUppercase(s);
vp.aType := VarType;
{$IFDEF PS_USESSUPPORT}
vp.DeclareUnit:=fModule;
{$ENDIF}
vp.DeclarePos := EPos;
vp.DeclareRow := ERow;
vp.DeclareCol := ECol;
proc.ProcVars.Add(vp);
end;
end;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
until FParser.CurrTokenId <> CSTI_Identifier;
Result := True;
end;
function TPSPascalCompiler.NewProc(const OriginalName, Name: tbtString): TPSInternalProcedure;
begin
Result := TPSInternalProcedure.Create;
Result.OriginalName := OriginalName;
Result.Name := Name;
{$IFDEF PS_USESSUPPORT}
Result.DeclareUnit:=fModule;
{$ENDIF}
Result.DeclarePos := FParser.CurrTokenPos;
Result.DeclareRow := FParser.Row;
Result.DeclareCol := FParser.Col;
FProcs.Add(Result);
end;
function TPSPascalCompiler.IsProcDuplicLabel(Proc: TPSInternalProcedure; const s: tbtString): Boolean;
var
i: Longint;
h: Longint;
u: tbtString;
begin
h := MakeHash(s);
if s = 'RESULT' then
Result := True
else if Proc.Name = s then
Result := True
else if IsDuplicate(s, [dcVars, dcConsts, dcProcs]) then
Result := True
else
begin
for i := 0 to Proc.Decl.ParamCount -1 do
begin
if Proc.Decl.Params[i].Name = s then
begin
Result := True;
exit;
end;
end;
for i := 0 to Proc.ProcVars.Count -1 do
begin
if (PIFPSProcVar(Proc.ProcVars[I]).NameHash = h) and (PIFPSProcVar(Proc.ProcVars[I]).Name = s) then
begin
Result := True;
exit;
end;
end;
for i := 0 to Proc.FLabels.Count -1 do
begin
u := Proc.FLabels[I];
delete(u, 1, 4);
if Longint((@u[1])^) = h then
begin
delete(u, 1, 4);
if u = s then
begin
Result := True;
exit;
end;
end;
end;
Result := False;
end;
end;
function TPSPascalCompiler.ProcessLabel(Proc: TPSInternalProcedure): Boolean;
var
CurrLabel: tbtString;
begin
FParser.Next;
while true do
begin
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Result := False;
exit;
end;
CurrLabel := FParser.GetToken;
if IsProcDuplicLabel(Proc, CurrLabel) then
begin
MakeError('', ecDuplicateIdentifier, CurrLabel);
Result := False;
exit;
end;
FParser.Next;
Proc.FLabels.Add(#$FF#$FF#$FF#$FF+PS_mi2s(MakeHash(CurrLabel))+CurrLabel);
if FParser.CurrTokenId = CSTI_Semicolon then
begin
FParser.Next;
Break;
end;
if FParser.CurrTokenId <> CSTI_Comma then
begin
MakeError('', ecCommaExpected, '');
Result := False;
exit;
end;
FParser.Next;
end;
Result := True;
end;
procedure TPSPascalCompiler.Debug_SavePosition(ProcNo: Cardinal; Proc: TPSInternalProcedure);
var
Row,
Col,
Pos: Cardinal;
s: tbtString;
begin
Row := FParser.Row;
Col := FParser.Col;
Pos := FParser.CurrTokenPos;
{$IFNDEF PS_USESSUPPORT}
s := '';
{$ELSE}
s := fModule;
{$ENDIF}
if @FOnTranslateLineInfo <> nil then
FOnTranslateLineInfo(Self, Pos, Row, Col, S);
{$IFDEF FPC}
WriteDebugData(#4 + s + #1);
WriteDebugData(Ps_mi2s(ProcNo));
WriteDebugData(Ps_mi2s(Length(Proc.Data)));
WriteDebugData(Ps_mi2s(Pos));
WriteDebugData(Ps_mi2s(Row));
WriteDebugData(Ps_mi2s(Col));
{$ELSE}
WriteDebugData(#4 + s + #1 + PS_mi2s(ProcNo) + PS_mi2s(Length(Proc.Data)) + PS_mi2s(Pos) + PS_mi2s(Row)+ PS_mi2s(Col));
{$ENDIF}
end;
procedure TPSPascalCompiler.Debug_WriteParams(ProcNo: Cardinal; Proc: TPSInternalProcedure);
var
I: Longint;
s: tbtString;
begin
s := #2 + PS_mi2s(ProcNo);
if Proc.Decl.Result <> nil then
begin
s := s + 'Result' + #1;
end;
for i := 0 to Proc.Decl.ParamCount -1 do
s := s + Proc.Decl.Params[i].OrgName + #1;
s := s + #0#3 + PS_mi2s(ProcNo);
for I := 0 to Proc.ProcVars.Count - 1 do
begin
s := s + PIFPSProcVar(Proc.ProcVars[I]).OrgName + #1;
end;
s := s + #0;
WriteDebugData(s);
end;
procedure TPSPascalCompiler.CheckForUnusedVars(Func: TPSInternalProcedure);
var
i: Integer;
p: PIFPSProcVar;
begin
for i := 0 to Func.ProcVars.Count -1 do
begin
p := Func.ProcVars[I];
if not p.Used then
begin
with MakeHint({$IFDEF PS_USESSUPPORT}p.DeclareUnit{$ELSE}''{$ENDIF}, ehVariableNotUsed, p.Name) do
begin
FRow := p.DeclareRow;
FCol := p.DeclareCol;
FPosition := p.DeclarePos;
end;
end;
end;
if (not Func.ResultUsed) and (Func.Decl.Result <> nil) then
begin
with MakeHint({$IFDEF PS_USESSUPPORT}Func.DeclareUnit{$ELSE}''{$ENDIF}, ehVariableNotUsed, 'Result') do
begin
FRow := Func.DeclareRow;
FCol := Func.DeclareCol;
FPosition := Func.DeclarePos;
end;
end;
end;
function TPSPascalCompiler.ProcIsDuplic(Decl: TPSParametersDecl; const FunctionName, FunctionParamNames: tbtString; const s: tbtString; Func: TPSInternalProcedure): Boolean;
var
i: Longint;
u: tbtString;
begin
if s = 'RESULT' then
Result := True
else if FunctionName = s then
Result := True
else
begin
for i := 0 to Decl.ParamCount -1 do
begin
if Decl.Params[i].Name = s then
begin
Result := True;
exit;
end;
GRFW(u);
end;
u := FunctionParamNames;
while Pos(tbtchar('|'), u) > 0 do
begin
if copy(u, 1, Pos(tbtchar('|'), u) - 1) = s then
begin
Result := True;
exit;
end;
Delete(u, 1, Pos(tbtchar('|'), u));
end;
if Func = nil then
begin
result := False;
exit;
end;
for i := 0 to Func.ProcVars.Count -1 do
begin
if s = PIFPSProcVar(Func.ProcVars[I]).Name then
begin
Result := True;
exit;
end;
end;
for i := 0 to Func.FLabels.Count -1 do
begin
u := Func.FLabels[I];
delete(u, 1, 4);
if u = s then
begin
Result := True;
exit;
end;
end;
Result := False;
end;
end;
procedure WriteProcVars(Func:TPSInternalProcedure; t: TPSList);
var
l: Longint;
v: PIFPSProcVar;
begin
for l := 0 to t.Count - 1 do
begin
v := t[l];
Func.Data := Func.Data + chr(cm_pt)+ PS_mi2s(v.AType.FinalTypeNo);
end;
end;
function TPSPascalCompiler.ApplyAttribsToFunction(func: TPSProcedure): boolean;
var
i: Longint;
begin
for i := 0 to Func.Attributes.Count -1 do
begin
if @Func.Attributes.Items[i].AType.OnApplyAttributeToProc <> nil then
begin
if not Func.Attributes.Items[i].AType.OnApplyAttributeToProc(Self, Func, Func.Attributes.Items[i]) then
begin
Result := false;
exit;
end;
end;
end;
result := true;
end;
function TPSPascalCompiler.ProcessFunction(AlwaysForward: Boolean; Att: TPSAttributes): Boolean;
var
FunctionType: TFuncType;
OriginalName, FunctionName: tbtString;
FunctionParamNames: tbtString;
FunctionTempType: TPSType;
ParamNo: Cardinal;
FunctionDecl: TPSParametersDecl;
modifier: TPSParameterMode;
Func: TPSInternalProcedure;
F2: TPSProcedure;
EPos, ECol, ERow: Cardinal;
E2Pos, E2Col, E2Row: Cardinal;
pp: TPSRegProc;
pp2: TPSExternalProcedure;
FuncNo, I: Longint;
Block: TPSBlockInfo;
begin
if att = nil then
begin
Att := TPSAttributes.Create;
if not ReadAttributes(Att) then
begin
att.free;
Result := false;
exit;
end;
end;
if FParser.CurrTokenId = CSTII_Procedure then
FunctionType := ftProc
else
FunctionType := ftFunc;
Func := nil;
EPos := FParser.CurrTokenPos;
ERow := FParser.Row;
ECol := FParser.Col;
FParser.Next;
Result := False;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
att.free;
exit;
end;
if assigned(FOnFunctionStart) then
{$IFDEF PS_USESSUPPORT}
FOnFunctionStart(fModule + '.' + FParser.OriginalToken, EPos, ERow, ECol);
{$ELSE}
FOnFunctionStart(FParser.OriginalToken, EPos, ERow, ECol);
{$ENDIF}
EPos := FParser.CurrTokenPos;
ERow := FParser.Row;
ECol := FParser.Col;
OriginalName := FParser.OriginalToken;
FunctionName := FParser.GetToken;
FuncNo := -1;
for i := 0 to FProcs.Count -1 do
begin
f2 := FProcs[I];
if (f2.ClassType = TPSInternalProcedure) and (TPSInternalProcedure(f2).Name = FunctionName) and (TPSInternalProcedure(f2).Forwarded) then
begin
Func := FProcs[I];
FuncNo := i;
Break;
end;
end;
if (Func = nil) and IsDuplicate(FunctionName, [dcTypes, dcProcs, dcVars, dcConsts]) then
begin
att.free;
MakeError('', ecDuplicateIdentifier, FunctionName);
exit;
end;
FParser.Next;
FunctionDecl := TPSParametersDecl.Create;
try
if FParser.CurrTokenId = CSTI_OpenRound then
begin
FParser.Next;
if FParser.CurrTokenId = CSTI_CloseRound then
begin
FParser.Next;
end
else
begin
if FunctionType = ftFunc then
ParamNo := 1
else
ParamNo := 0;
while True do
begin
if FParser.CurrTokenId = CSTII_Const then
begin
modifier := pmIn;
FParser.Next;
end
else
if FParser.CurrTokenId = CSTII_Out then
begin
modifier := pmOut;
FParser.Next;
end
else
if FParser.CurrTokenId = CSTII_Var then
begin
modifier := pmInOut;
FParser.Next;
end
else
modifier := pmIn;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
E2Pos := FParser.CurrTokenPos;
E2Row := FParser.Row;
E2Col := FParser.Col;
FunctionParamNames := '';
if ProcIsDuplic(FunctionDecl, FunctionName, FunctionParamNames, FParser.GetToken, Func) then
begin
MakeError('', ecDuplicateIdentifier, FParser.OriginalToken);
exit;
end;
FunctionParamNames := FParser.OriginalToken + '|';
if @FOnUseVariable <> nil then
begin
FOnUseVariable(Self, ivtParam, ParamNo, FProcs.Count, FParser.CurrTokenPos, '');
end;
inc(ParamNo);
FParser.Next;
while FParser.CurrTokenId = CSTI_Comma do
begin
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
if ProcIsDuplic(FunctionDecl, FunctionName, FunctionParamNames, FParser.GetToken, Func) then
begin
MakeError('', ecDuplicateIdentifier, '');
exit;
end;
if @FOnUseVariable <> nil then
begin
FOnUseVariable(Self, ivtParam, ParamNo, FProcs.Count, FParser.CurrTokenPos, '');
end;
inc(ParamNo);
FunctionParamNames := FunctionParamNames + FParser.OriginalToken +
'|';
FParser.Next;
end;
if FParser.CurrTokenId <> CSTI_Colon then
begin
MakeError('', ecColonExpected, '');
exit;
end;
FParser.Next;
FunctionTempType := at2ut(ReadType('', FParser));
if FunctionTempType = nil then
begin
exit;
end;
while Pos(tbtchar('|'), FunctionParamNames) > 0 do
begin
with FunctionDecl.AddParam do
begin
OrgName := copy(FunctionParamNames, 1, Pos(tbtchar('|'), FunctionParamNames) - 1);
Mode := modifier;
aType := FunctionTempType;
{$IFDEF PS_USESSUPPORT}
DeclareUnit:=fModule;
{$ENDIF}
DeclarePos:=E2Pos;
DeclareRow:=E2Row;
DeclareCol:=E2Col;
end;
Delete(FunctionParamNames, 1, Pos(tbtchar('|'), FunctionParamNames));
end;
if FParser.CurrTokenId = CSTI_CloseRound then
break;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
end;
FParser.Next;
end;
end;
if FunctionType = ftFunc then
begin
if FParser.CurrTokenId <> CSTI_Colon then
begin
MakeError('', ecColonExpected, '');
exit;
end;
FParser.Next;
FunctionTempType := at2ut(ReadType('', FParser));
if FunctionTempType = nil then
exit;
FunctionDecl.Result := FunctionTempType;
end;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
if (Func = nil) and (FParser.CurrTokenID = CSTII_External) then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_String then
begin
MakeError('', ecStringExpected, '');
exit;
end;
FunctionParamNames := FParser.GetToken;
FunctionParamNames := copy(FunctionParamNames, 2, length(FunctionParamNames) - 2);
FParser.Next;
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
if @FOnExternalProc = nil then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
pp := FOnExternalProc(Self, FunctionDecl, OriginalName, FunctionParamNames);
if pp = nil then
begin
MakeError('', ecCustomError, '');
exit;
end;
pp2 := TPSExternalProcedure.Create;
pp2.Attributes.Assign(att, true);
pp2.RegProc := pp;
FProcs.Add(pp2);
FRegProcs.Add(pp);
Result := ApplyAttribsToFunction(pp2);
Exit;
end else if (FParser.CurrTokenID = CSTII_Forward) or AlwaysForward then
begin
if Func <> nil then
begin
MakeError('', ecBeginExpected, '');
exit;
end;
if not AlwaysForward then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
Exit;
end;
FParser.Next;
end;
Func := NewProc(OriginalName, FunctionName);
Func.Attributes.Assign(Att, True);
Func.Forwarded := True;
{$IFDEF PS_USESSUPPORT}
Func.FDeclareUnit := fModule;
{$ENDIF}
Func.FDeclarePos := EPos;
Func.FDeclareRow := ERow;
Func.FDeclarePos := ECol;
Func.Decl.Assign(FunctionDecl);
Result := ApplyAttribsToFunction(Func);
exit;
end;
if (Func = nil) then
begin
Func := NewProc(OriginalName, FunctionName);
Func.Attributes.Assign(att, True);
Func.Decl.Assign(FunctionDecl);
{$IFDEF PS_USESSUPPORT}
Func.FDeclareUnit := fModule;
{$ENDIF}
Func.FDeclarePos := EPos;
Func.FDeclareRow := ERow;
Func.FDeclareCol := ECol;
FuncNo := FProcs.Count -1;
if not ApplyAttribsToFunction(Func) then
begin
result := false;
exit;
end;
end else begin
if not FunctionDecl.Same(Func.Decl) then
begin
MakeError('', ecForwardParameterMismatch, '');
Result := false;
exit;
end;
Func.Forwarded := False;
end;
if FParser.CurrTokenID = CSTII_Export then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
end;
while FParser.CurrTokenId <> CSTII_Begin do
begin
if FParser.CurrTokenId = CSTII_Var then
begin
if not DoVarBlock(Func) then
exit;
end else if FParser.CurrTokenId = CSTII_Label then
begin
if not ProcessLabel(Func) then
Exit;
end else
begin
MakeError('', ecBeginExpected, '');
exit;
end;
end;
Debug_WriteParams(FuncNo, Func);
WriteProcVars(Func, Func.ProcVars);
Block := TPSBlockInfo.Create(FGlobalBlock);
Block.SubType := tProcBegin;
Block.ProcNo := FuncNo;
Block.Proc := Func;
if not ProcessSub(Block) then
begin
Block.Free;
exit;
end;
Block.Free;
CheckForUnusedVars(Func);
Result := ProcessLabelForwards(Func);
if assigned(FOnFunctionEnd) then
{$IFDEF PS_USESSUPPORT}
OnFunctionEnd(fModule + '.' + OriginalName, FParser.CurrTokenPos, FParser.Row, FParser.Col);
{$ELSE}
OnFunctionEnd(OriginalName, FParser.CurrTokenPos, FParser.Row, FParser.Col);
{$ENDIF}
finally
FunctionDecl.Free;
att.Free;
end;
end;
function GetParamType(BlockInfo: TPSBlockInfo; I: Longint): TPSType;
begin
if BlockInfo.Proc.Decl.Result <> nil then dec(i);
if i = -1 then
Result := BlockInfo.Proc.Decl.Result
else
begin
Result := BlockInfo.Proc.Decl.Params[i].aType;
end;
end;
function TPSPascalCompiler.GetTypeNo(BlockInfo: TPSBlockInfo; p: TPSValue): TPSType;
begin
if p.ClassType = TPSUnValueOp then
Result := TPSUnValueOp(p).aType
else if p.ClassType = TPSBinValueOp then
Result := TPSBinValueOp(p).aType
else if p.ClassType = TPSValueArray then
Result := at2ut(FindType('TVariantArray'))
else if p.ClassType = TPSValueData then
Result := TPSValueData(p).Data.FType
else if p is TPSValueProc then
Result := TPSValueProc(p).ResultType
else if (p is TPSValueVar) and (TPSValueVar(p).RecCount > 0) then
Result := TPSValueVar(p).RecItem[TPSValueVar(p).RecCount - 1].aType
else if p.ClassType = TPSValueGlobalVar then
Result := TPSVar(FVars[TPSValueGlobalVar(p).GlobalVarNo]).FType
else if p.ClassType = TPSValueParamVar then
Result := GetParamType(BlockInfo, TPSValueParamVar(p).ParamNo)
else if p is TPSValueLocalVar then
Result := TPSProcVar(BlockInfo.Proc.ProcVars[TPSValueLocalVar(p).LocalVarNo]).AType
else if p.classtype = TPSValueReplace then
Result := GetTypeNo(BlockInfo, TPSValueReplace(p).NewValue)
else
Result := nil;
end;
function TPSPascalCompiler.IsVarInCompatible(ft1, ft2: TPSType): Boolean;
begin
ft1 := GetTypeCopyLink(ft1);
ft2 := GetTypeCopyLink(ft2);
Result := (ft1 <> ft2) and (ft2 <> nil);
end;
function TPSPascalCompiler.ValidateParameters(BlockInfo: TPSBlockInfo; Params: TPSParameters; ParamTypes: TPSParametersDecl): boolean;
var
i, c: Longint;
pType: TPSType;
begin
UseProc(ParamTypes);
c := 0;
for i := 0 to ParamTypes.ParamCount -1 do
begin
while (c < Longint(Params.Count)) and (Params[c].Val = nil) do
Inc(c);
if c >= Longint(Params.Count) then
begin
MakeError('', ecInvalidnumberOfParameters, '');
Result := False;
exit;
end;
Params[c].ExpectedType := ParamTypes.Params[i].aType;
Params[c].ParamMode := ParamTypes.Params[i].Mode;
if ParamTypes.Params[i].Mode <> pmIn then
begin
if not (Params[c].Val is TPSValueVar) then
begin
with MakeError('', ecVariableExpected, '') do
begin
Row := Params[c].Val.Row;
Col := Params[c].Val.Col;
Pos := Params[c].Val.Pos;
end;
result := false;
exit;
end;
PType := Params[c].ExpectedType;
if (PType = nil) or ((PType.BaseType = btArray) and (TPSArrayType(PType).ArrayTypeNo = nil) and (GetTypeNo(BlockInfo, Params[c].Val).BaseType = btArray)) or
(PType = FAnyString) then
begin
Params[c].ExpectedType := GetTypeNo(BlockInfo, Params[c].Val);
if PType <> nil then
if (Params[c].ExpectedType = nil) or not (Params[c].ExpectedType.BaseType in [btString, btWideString, btUnicodeString, btChar, btWideChar]) then begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
if Params[c].ExpectedType.BaseType = btChar then
Params[c].ExpectedType := FindBaseType(btString) else
if Params[c].ExpectedType.BaseType = btWideChar then
Params[c].ExpectedType := FindBaseType(btUnicodeString);
end else if (PType.BaseType = btArray) and (GetTypeNo(BlockInfo, Params[c].Val).BaseType = btArray) then
begin
if TPSArrayType(GetTypeNo(BlockInfo, Params[c].Val)).ArrayTypeNo <> TPSArrayType(PType).ArrayTypeNo then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end else if IsVarInCompatible(PType, GetTypeNo(BlockInfo, Params[c].Val)) then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end;
Inc(c);
end;
for i := c to Params.Count -1 do
begin
if Params[i].Val <> nil then
begin
MakeError('', ecInvalidnumberOfParameters, '');
Result := False;
exit;
end;
end;
Result := true;
end;
function TPSPascalCompiler.DoTypeBlock(FParser: TPSPascalParser): Boolean;
var
VOrg,VName: tbtString;
Attr: TPSAttributes;
FType: TPSType;
i: Longint;
begin
Result := False;
FParser.Next;
repeat
Attr := TPSAttributes.Create;
if not ReadAttributes(Attr) then
begin
Attr.Free;
exit;
end;
if (FParser.CurrTokenID = CSTII_Procedure) or (FParser.CurrTokenID = CSTII_Function) then
begin
Result := ProcessFunction(false, Attr);
exit;
end;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Attr.Free;
exit;
end;
VName := FParser.GetToken;
VOrg := FParser.OriginalToken;
if IsDuplicate(VName, [dcTypes, dcProcs, dcVars]) then
begin
MakeError('', ecDuplicateIdentifier, FParser.OriginalToken);
Attr.Free;
exit;
end;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Equal then
begin
MakeError('', ecIsExpected, '');
Attr.Free;
exit;
end;
FParser.Next;
FType := ReadType(VOrg, FParser);
if Ftype = nil then
begin
Attr.Free;
Exit;
end;
FType.Attributes.Assign(Attr, True);
for i := 0 to FType.Attributes.Count -1 do
begin
if @FType.Attributes[i].FAttribType.FAAType <> nil then
FType.Attributes[i].FAttribType.FAAType(Self, FType, Attr[i]);
end;
Attr.Free;
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
Exit;
end;
FParser.Next;
until (FParser.CurrTokenId <> CSTI_Identifier) and (FParser.CurrTokenID <> CSTI_OpenBlock);
Result := True;
end;
procedure TPSPascalCompiler.Debug_WriteLine(BlockInfo: TPSBlockInfo);
var
b: Boolean;
begin
if @FOnWriteLine <> nil then begin
{$IFNDEF PS_USESSUPPORT}
b := FOnWriteLine(Self, FParser.CurrTokenPos);
{$ELSE}
b := FOnWriteLine(Self, FModule, FParser.CurrTokenPos);
{$ENDIF}
end else
b := true;
if b then Debug_SavePosition(BlockInfo.ProcNo, BlockInfo.Proc);
end;
function TPSPascalCompiler.ReadReal(const s: tbtString): PIfRVariant;
var
C: Integer;
begin
New(Result);
InitializeVariant(Result, FindBaseType(btExtended));
Val(string(s), Result^.textended, C);
end;
function TPSPascalCompiler.ReadString: PIfRVariant;
{$IFNDEF PS_NOWIDESTRING}var wchar: Boolean;{$ENDIF}
function ParseString({$IFNDEF PS_NOWIDESTRING}var res: tbtunicodestring{$ELSE}var res: tbtString{$ENDIF}): Boolean;
var
temp3: {$IFNDEF PS_NOWIDESTRING}tbtunicodestring{$ELSE}tbtString{$ENDIF};
function ChrToStr(s: tbtString): {$IFNDEF PS_NOWIDESTRING}widechar{$ELSE}tbtchar{$ENDIF};
var
w: Longint;
begin
Delete(s, 1, 1); {First char : #}
w := StrToInt(s);
Result := {$IFNDEF PS_NOWIDESTRING}widechar{$ELSE}tbtchar{$ENDIF}(w);
{$IFNDEF PS_NOWIDESTRING}if w > $FF then wchar := true;{$ENDIF}
end;
function PString(s: tbtString): tbtString;
var
i: Longint;
begin
s := copy(s, 2, Length(s) - 2);
i := length(s);
while i > 0 do
begin
if (i < length(s)) and (s[i] = #39) and (s[i + 1] = #39) then
begin
Delete(s, i, 1);
dec(i);
end;
dec(i);
end;
PString := s;
end;
var
lastwasstring: Boolean;
begin
temp3 := '';
while (FParser.CurrTokenId = CSTI_String) or (FParser.CurrTokenId = CSTI_Char) do
begin
lastwasstring := FParser.CurrTokenId = CSTI_String;
if FParser.CurrTokenId = CSTI_String then
begin
if UTF8Decode then
begin
temp3 := temp3 + {$IFNDEF PS_NOWIDESTRING}{$IFDEF DELPHI6UP}System.{$IFDEF DELPHI2009UP}UTF8ToWidestring{$ELSE}UTF8Decode{$ENDIF}{$ENDIF}{$ENDIF}(PString(FParser.GetToken));
{$IFNDEF PS_NOWIDESTRING}wchar:=true;{$ENDIF}
end else
temp3 := temp3 + tbtUnicodestring(PString(FParser.GetToken));
FParser.Next;
if FParser.CurrTokenId = CSTI_String then
temp3 := temp3 + #39;
end {if}
else
begin
temp3 := temp3 + ChrToStr(FParser.GetToken);
FParser.Next;
end; {else if}
if lastwasstring and (FParser.CurrTokenId = CSTI_String) then
begin
MakeError('', ecSyntaxError, '');
result := false;
exit;
end;
end; {while}
res := temp3;
result := true;
end;
var
{$IFNDEF PS_NOWIDESTRING}
w: tbtunicodestring;
{$ENDIF}
s: tbtString;
begin
{$IFNDEF PS_NOWIDESTRING}wchar:=false;{$ENDIF}
if not ParseString({$IFDEF PS_NOWIDESTRING} s {$ELSE} w {$ENDIF}) then
begin
result := nil;
exit;
end;
{$IFNDEF PS_NOWIDESTRING}
if wchar then
begin
New(Result);
if Length(w) = 1 then
begin
InitializeVariant(Result, at2ut(FindBaseType(btwidechar)));
Result^.twidechar := w[1];
end else begin
InitializeVariant(Result, at2ut(FindBaseType(btUnicodeString)));
tbtunicodestring(Result^.tunistring) := w;
end;
end else begin
s := tbtstring(w);
{$ENDIF}
New(Result);
if Length(s) = 1 then
begin
InitializeVariant(Result, at2ut(FindBaseType(btchar)));
Result^.tchar := s[1];
end else begin
InitializeVariant(Result, at2ut(FindBaseType(btstring)));
tbtstring(Result^.tstring) := s;
end;
{$IFNDEF PS_NOWIDESTRING}
end;
{$ENDIF}
end;
function TPSPascalCompiler.ReadInteger(const s: tbtString): PIfRVariant;
var
R: {$IFNDEF PS_NOINT64}Int64;{$ELSE}Longint;{$ENDIF}
begin
New(Result);
{$IFNDEF PS_NOINT64}
r := StrToInt64Def(string(s), 0);
if (r >= Low(Integer)) and (r <= High(Integer)) then
begin
InitializeVariant(Result, at2ut(FindBaseType(bts32)));
Result^.ts32 := r;
end else if (r <= $FFFFFFFF) then
begin
InitializeVariant(Result, at2ut(FindBaseType(btu32)));
Result^.tu32 := r;
end else
begin
InitializeVariant(Result, at2ut(FindBaseType(bts64)));
Result^.ts64 := r;
end;
{$ELSE}
r := StrToIntDef(s, 0);
InitializeVariant(Result, at2ut(FindBaseType(bts32)));
Result^.ts32 := r;
{$ENDIF}
end;
function TPSPascalCompiler.ProcessSub(BlockInfo: TPSBlockInfo): Boolean;
function AllocStackReg2(MType: TPSType): TPSValue;
var
x: TPSProcVar;
begin
{$IFDEF DEBUG}
if (mtype = nil) or (not mtype.Used) then asm int 3; end;
{$ENDIF}
x := TPSProcVar.Create;
{$IFDEF PS_USESSUPPORT}
x.DeclareUnit:=fModule;
{$ENDIF}
x.DeclarePos := FParser.CurrTokenPos;
x.DeclareRow := FParser.Row;
x.DeclareCol := FParser.Col;
x.Name := '';
x.AType := MType;
x.Use;
BlockInfo.Proc.ProcVars.Add(x);
Result := TPSValueAllocatedStackVar.Create;
Result.SetParserPos(FParser);
TPSValueAllocatedStackVar(Result).Proc := BlockInfo.Proc;
with TPSValueAllocatedStackVar(Result) do
begin
LocalVarNo := proc.ProcVars.Count -1;
end;
end;
function AllocStackReg(MType: TPSType): TPSValue;
begin
Result := AllocStackReg2(MType);
BlockWriteByte(BlockInfo, Cm_Pt);
BlockWriteLong(BlockInfo, MType.FinalTypeNo);
end;
function AllocPointer(MDestType: TPSType): TPSValue;
begin
Result := AllocStackReg(at2ut(FindBaseType(btPointer)));
TPSProcVar(BlockInfo.Proc.ProcVars[TPSValueAllocatedStackVar(Result).LocalVarNo]).AType := MDestType;
end;
function WriteCalculation(InData, OutReg: TPSValue): Boolean; forward;
function PreWriteOutRec(var X: TPSValue; FArrType: TPSType): Boolean; forward;
function WriteOutRec(x: TPSValue; AllowData: Boolean): Boolean; forward;
procedure AfterWriteOutRec(var x: TPSValue); forward;
function CheckCompatType(V1, v2: TPSValue): Boolean;
var
p1, P2: TPSType;
begin
p1 := GetTypeNo(BlockInfo, V1);
P2 := GetTypeNo(BlockInfo, v2);
if (p1 = nil) or (p2 = nil) then
begin
if ((p1 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p1.ClassType = TPSInterfaceType) or {$ENDIF}(p1.BaseType = btProcPtr)) and (v2.ClassType = TPSValueNil)) or
((p2 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p2.ClassType = TPSInterfaceType) or {$ENDIF}(p2.BaseType = btProcPtr)) and (v1.ClassType = TPSValueNil)) then
begin
Result := True;
exit;
end else
if ((p1 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p1.ClassType = TPSInterfaceType) or {$ENDIF}(p1.ClassType = TPSClassType)) and (v2.ClassType = TPSValueNil)) or
((p2 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p2.ClassType = TPSInterfaceType) or {$ENDIF}(p2.ClassType = TPSClassType)) and (v1.ClassType = TPSValueNil)) then
begin
Result := True;
exit;
end else
if ((p1 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p1.ClassType = TPSInterfaceType) or {$ENDIF}(p1.ClassType = TPSUndefinedClassType)) and (v2.ClassType = TPSValueNil)) or
((p2 <> nil) and ({$IFNDEF PS_NOINTERFACES}(p2.ClassType = TPSInterfaceType) or {$ENDIF}(p2.ClassType = TPSUndefinedClassType)) and (v1.ClassType = TPSValueNil)) then
begin
Result := True;
exit;
end else
if (v1.ClassType = TPSValueProcPtr) and (p2 <> nil) and (p2.BaseType = btProcPtr) then
begin
Result := CheckCompatProc(p2, TPSValueProcPtr(v1).ProcPtr);
exit;
end else if (v2.ClassType = TPSValueProcPtr) and (p1 <> nil) and (p1.BaseType = btProcPtr) then
begin
Result := CheckCompatProc(p1, TPSValueProcPtr(v2).ProcPtr);
exit;
end;
Result := False;
end else
if (p1 <> nil) and (p1.BaseType = btSet) and (v2 is TPSValueArray) then
begin
Result := True;
end else
Result := IsCompatibleType(p1, p2, False);
end;
function _ProcessFunction(ProcCall: TPSValueProc; ResultRegister: TPSValue): Boolean; forward;
function ProcessFunction2(ProcNo: Cardinal; Par: TPSParameters; ResultReg: TPSValue): Boolean;
var
Temp: TPSValueProcNo;
i: Integer;
begin
Temp := TPSValueProcNo.Create;
Temp.Parameters := Par;
Temp.ProcNo := ProcNo;
if TObject(FProcs[ProcNo]).ClassType = TPSInternalProcedure then
Temp.ResultType := TPSInternalProcedure(FProcs[ProcNo]).Decl.Result
else
Temp.ResultType := TPSExternalProcedure(FProcs[ProcNo]).RegProc.Decl.Result;
if (Temp.ResultType <> nil) and (Temp.ResultType = FAnyString) then begin // workaround to make the result type match
for i := 0 to Par.Count -1 do begin
if Par[i].ExpectedType.BaseType in [btString, btWideString] then
Temp.ResultType := Par[i].ExpectedType;
end;
end;
Result := _ProcessFunction(Temp, ResultReg);
Temp.Parameters := nil;
Temp.Free;
end;
function MakeNil(NilPos, NilRow, nilCol: Cardinal;ivar: TPSValue): Boolean;
var
Procno: Cardinal;
PF: TPSType;
Par: TPSParameters;
begin
Pf := GetTypeNo(BlockInfo, IVar);
if not (Ivar is TPSValueVar) then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := nilPos;
FRow := NilRow;
FCol := nilCol;
end;
Result := False;
exit;
end;
if (pf.BaseType = btProcPtr) then
begin
Result := True;
end else
if (pf.BaseType = btString) or (pf.BaseType = btPChar) then
begin
if not PreWriteOutRec(iVar, nil) then
begin
Result := false;
exit;
end;
BlockWriteByte(BlockInfo, CM_A);
WriteOutRec(ivar, False);
BlockWriteByte(BlockInfo, 1);
BlockWriteLong(BlockInfo, GetTypeNo(BlockInfo, IVar).FinalTypeNo);
BlockWriteLong(BlockInfo, 0); //empty tbtString
AfterWriteOutRec(ivar);
Result := True;
end else if (pf.BaseType = btClass) {$IFNDEF PS_NOINTERFACES}or (pf.BaseType = btInterface){$ENDIF} then
begin
{$IFNDEF PS_NOINTERFACES}
if (pf.BaseType = btClass) then
begin
{$ENDIF}
if not TPSClassType(pf).Cl.SetNil(ProcNo) then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := nilPos;
FRow := NilRow;
FCol := nilCol;
end;
Result := False;
exit;
end;
{$IFNDEF PS_NOINTERFACES}
end else
begin
if not TPSInterfaceType(pf).Intf.SetNil(ProcNo) then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := nilPos;
FRow := NilRow;
FCol := nilCol;
end;
Result := False;
exit;
end;
end;
{$ENDIF}
Par := TPSParameters.Create;
with par.Add do
begin
Val := IVar;
ExpectedType := GetTypeNo(BlockInfo, ivar);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
ParamMode := pmInOut;
end;
Result := ProcessFunction2(ProcNo, Par, nil);
Par[0].Val := nil; // don't free IVAR
Par.Free;
end else if pf.BaseType = btExtClass then
begin
if not TPSUndefinedClassType(pf).ExtClass.SetNil(ProcNo) then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := nilPos;
FRow := NilRow;
FCol := nilCol;
end;
Result := False;
exit;
end;
Par := TPSParameters.Create;
with par.Add do
begin
Val := IVar;
ExpectedType := GetTypeNo(BlockInfo, ivar);
ParamMode := pmInOut;
end;
Result := ProcessFunction2(ProcNo, Par, nil);
Par[0].Val := nil; // don't free IVAR
Par.Free;
end else begin
with MakeError('', ecTypeMismatch, '') do
begin
FPosition := nilPos;
FRow := NilRow;
FCol := nilCol;
end;
Result := False;
end;
end;
function DoBinCalc(BVal: TPSBinValueOp; Output: TPSValue): Boolean;
var
tmpp, tmpc: TPSValue;
jend, jover: Cardinal;
procno: Cardinal;
begin
if BVal.Operator >= otGreaterEqual then
begin
if BVal.FVal1.ClassType = TPSValueNil then
begin
tmpp := AllocStackReg(GetTypeNo(BlockInfo, BVal.FVal2));
if not MakeNil(BVal.FVal1.Pos, BVal.FVal1.Row, BVal.FVal1.Col, tmpp) then
begin
tmpp.Free;
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
OldValue := BVal.FVal1;
NewValue := tmpp;
end;
BVal.FVal1 := tmpc;
end;
if BVal.FVal2.ClassType = TPSValueNil then
begin
tmpp := AllocStackReg(GetTypeNo(BlockInfo, BVal.FVal1));
if not MakeNil(BVal.FVal2.Pos, BVal.FVal2.Row, BVal.FVal2.Col, tmpp) then
begin
tmpp.Free;;
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
OldValue := BVal.FVal2;
NewValue := tmpp;
end;
BVal.FVal2 := tmpc;
end;
if GetTypeNo(BlockInfo, BVal.FVal1).BaseType = btExtClass then
begin
if not TPSUndefinedClassType(GetTypeNo(BlockInfo, BVal.FVal1)).ExtClass.CompareClass(GetTypeNo(BlockInfo, Bval.FVal2), ProcNo) then
begin
Result := False;
exit;
end;
tmpp := TPSValueProcNo.Create;
with TPSValueProcNo(tmpp) do
begin
ResultType := at2ut(FDefaultBoolType);
Parameters := TPSParameters.Create;
ProcNo := procno;
Pos := BVal.Pos;
Col := BVal.Col;
Row := BVal.Row;
with parameters.Add do
begin
Val := BVal.FVal1;
ExpectedType := GetTypeNo(BlockInfo, Val);
end;
with parameters.Add do
begin
Val := BVal.FVal2;
ExpectedType := GetTypeNo(BlockInfo, Val);
end;
end;
if Bval.Operator = otNotEqual then
begin
tmpc := TPSUnValueOp.Create;
TPSUnValueOp(tmpc).Operator := otNot;
TPSUnValueOp(tmpc).Val1 := tmpp;
TPSUnValueOp(tmpc).aType := GetTypeNo(BlockInfo, tmpp);
end else tmpc := tmpp;
Result := WriteCalculation(tmpc, Output);
with TPSValueProcNo(tmpp) do
begin
Parameters[0].Val := nil;
Parameters[1].Val := nil;
end;
tmpc.Free;
if BVal.Val1.ClassType = TPSValueReplace then
begin
tmpp := TPSValueReplace(BVal.Val1).OldValue;
BVal.Val1.Free;
BVal.Val1 := tmpp;
end;
if BVal.Val2.ClassType = TPSValueReplace then
begin
tmpp := TPSValueReplace(BVal.Val2).OldValue;
BVal.Val2.Free;
BVal.Val2 := tmpp;
end;
exit;
end;
if not (PreWriteOutRec(Output, nil) and PreWriteOutRec(BVal.FVal1, GetTypeNo(BlockInfo, BVal.FVal2)) and PreWriteOutRec(BVal.FVal2, GetTypeNo(BlockInfo, BVal.FVal1))) then
begin
Result := False;
exit;
end;
BlockWriteByte(BlockInfo, CM_CO);
case BVal.Operator of
otGreaterEqual: BlockWriteByte(BlockInfo, 0);
otLessEqual: BlockWriteByte(BlockInfo, 1);
otGreater: BlockWriteByte(BlockInfo, 2);
otLess: BlockWriteByte(BlockInfo, 3);
otEqual: BlockWriteByte(BlockInfo, 5);
otNotEqual: BlockWriteByte(BlockInfo, 4);
otIn: BlockWriteByte(BlockInfo, 6);
otIs: BlockWriteByte(BlockInfo, 7);
end;
if not (WriteOutRec(Output, False) and writeOutRec(BVal.FVal1, True) and writeOutRec(BVal.FVal2, True)) then
begin
Result := False;
exit;
end;
AfterWriteOutrec(BVal.FVal1);
AfterWriteOutrec(BVal.FVal2);
AfterWriteOutrec(Output);
if BVal.Val1.ClassType = TPSValueReplace then
begin
tmpp := TPSValueReplace(BVal.Val1).OldValue;
BVal.Val1.Free;
BVal.Val1 := tmpp;
end;
if BVal.Val2.ClassType = TPSValueReplace then
begin
tmpp := TPSValueReplace(BVal.Val2).OldValue;
BVal.Val2.Free;
BVal.Val2 := tmpp;
end;
end else begin
if not PreWriteOutRec(Output, nil) then
begin
Result := False;
exit;
end;
if not SameReg(Output, BVal.Val1) then
begin
if not WriteCalculation(BVal.FVal1, Output) then
begin
Result := False;
exit;
end;
end;
if (FBooleanShortCircuit) and (IsBoolean(BVal.aType)) then
begin
if BVal.Operator = otAnd then
begin
BlockWriteByte(BlockInfo, Cm_CNG);
jover := Length(BlockInfo.Proc.FData);
BlockWriteLong(BlockInfo, 0);
WriteOutRec(Output, True);
jend := Length(BlockInfo.Proc.FData);
end else if BVal.Operator = otOr then
begin
BlockWriteByte(BlockInfo, Cm_CG);
jover := Length(BlockInfo.Proc.FData);
BlockWriteLong(BlockInfo, 0);
WriteOutRec(Output, True);
jend := Length(BlockInfo.Proc.FData);
end else
begin
jover := 0;
jend := 0;
end;
end else
begin
jover := 0;
jend := 0;
end;
if not PreWriteOutrec(BVal.FVal2, GetTypeNo(BlockInfo, Output)) then
begin
Result := False;
exit;
end;
BlockWriteByte(BlockInfo, Cm_CA);
BlockWriteByte(BlockInfo, Ord(BVal.Operator));
if not (WriteOutRec(Output, False) and WriteOutRec(BVal.FVal2, True)) then
begin
Result := False;
exit;
end;
AfterWriteOutRec(BVal.FVal2);
if FBooleanShortCircuit and (IsBoolean(BVal.aType)) and (JOver <> JEnd) then
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Cardinal((@BlockInfo.Proc.FData[jover+1])^)) := Cardinal(Length(BlockInfo.Proc.FData)) - jend;
{$else}
Cardinal((@BlockInfo.Proc.FData[jover+1])^) := Cardinal(Length(BlockInfo.Proc.FData)) - jend;
{$endif}
end;
AfterWriteOutRec(Output);
end;
Result := True;
end;
function DoUnCalc(Val: TPSUnValueOp; Output: TPSValue): Boolean;
var
Tmp: TPSValue;
begin
if not PreWriteOutRec(Output, nil) then
begin
Result := False;
exit;
end;
case Val.Operator of
otNot:
begin
if not SameReg(Val.FVal1, Output) then
begin
if not WriteCalculation(Val.FVal1, Output) then
begin
Result := False;
exit;
end;
end;
if IsBoolean(GetTypeNo(BlockInfo, Val)) then
BlockWriteByte(BlockInfo, cm_bn)
else
BlockWriteByte(BlockInfo, cm_in);
if not WriteOutRec(Output, True) then
begin
Result := False;
exit;
end;
end;
otMinus:
begin
if not SameReg(Val.FVal1, Output) then
begin
if not WriteCalculation(Val.FVal1, Output) then
begin
Result := False;
exit;
end;
end;
BlockWriteByte(BlockInfo, cm_vm);
if not WriteOutRec(Output, True) then
begin
Result := False;
exit;
end;
end;
otCast:
begin
if ((Val.aType.BaseType = btChar) and (Val.aType.BaseType <> btU8)) {$IFNDEF PS_NOWIDESTRING}or
((Val.aType.BaseType = btWideChar) and (Val.aType.BaseType <> btU16)){$ENDIF} then
begin
Tmp := AllocStackReg(Val.aType);
end else
Tmp := Output;
if not (PreWriteOutRec(Val.FVal1, GetTypeNo(BlockInfo, Tmp)) and PreWriteOutRec(Tmp, GetTypeNo(BlockInfo, Tmp))) then
begin
Result := False;
if tmp <> Output then Tmp.Free;
exit;
end;
BlockWriteByte(BlockInfo, CM_A);
if not (WriteOutRec(Tmp, False) and WriteOutRec(Val.FVal1, True)) then
begin
Result := false;
if tmp <> Output then Tmp.Free;
exit;
end;
AfterWriteOutRec(val.Fval1);
if Tmp <> Output then
begin
if not WriteCalculation(Tmp, Output) then
begin
Result := false;
Tmp.Free;
exit;
end;
end;
AfterWriteOutRec(Tmp);
if Tmp <> Output then
Tmp.Free;
end;
{else donothing}
end;
AfterWriteOutRec(Output);
Result := True;
end;
function GetAddress(Val: TPSValue): Cardinal;
begin
if Val.ClassType = TPSValueGlobalVar then
Result := TPSValueGlobalVar(val).GlobalVarNo
else if Val.ClassType = TPSValueLocalVar then
Result := PSAddrStackStart + TPSValueLocalVar(val).LocalVarNo + 1
else if Val.ClassType = TPSValueParamVar then
Result := PSAddrStackStart - TPSValueParamVar(val).ParamNo -1
else if Val.ClassType = TPSValueAllocatedStackVar then
Result := PSAddrStackStart + TPSValueAllocatedStackVar(val).LocalVarNo + 1
else
Result := InvalidVal;
end;
function PreWriteOutRec(var X: TPSValue; FArrType: TPSType): Boolean;
var
rr: TPSSubItem;
tmpp,
tmpc: TPSValue;
i: Longint;
function MakeSet(SetType: TPSSetType; arr: TPSValueArray): Boolean;
var
c, i: Longint;
dataval: TPSValueData;
mType: TPSType;
begin
Result := True;
dataval := TPSValueData.Create;
dataval.Data := NewVariant(FarrType);
for i := 0 to arr.count -1 do
begin
mType := GetTypeNo(BlockInfo, arr.Item[i]);
if mType <> SetType.SetType then
begin
with MakeError('', ecTypeMismatch, '') do
begin
FCol := arr.item[i].Col;
FRow := arr.item[i].Row;
FPosition := arr.item[i].Pos;
end;
DataVal.Free;
Result := False;
exit;
end;
if arr.Item[i] is TPSValueData then
begin
c := GetInt(TPSValueData(arr.Item[i]).Data, Result);
if not Result then
begin
dataval.Free;
exit;
end;
Set_MakeMember(c, dataval.Data.tstring);
end else
begin
DataVal.Free;
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
OldValue := x;
NewValue := dataval;
PreWriteAllocated := True;
end;
x := tmpc;
end;
begin
Result := True;
if x.ClassType = TPSValueReplace then
begin
if TPSValueReplace(x).PreWriteAllocated then
begin
inc(TPSValueReplace(x).FReplaceTimes);
end;
end else
if x.ClassType = TPSValueProcPtr then
begin
if FArrType = nil then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
Exit;
end;
tmpp := TPSValueData.Create;
TPSValueData(tmpp).Data := NewVariant(FArrType);
TPSValueData(tmpp).Data.tu32 := TPSValueProcPtr(x).ProcPtr;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else
if x.ClassType = TPSValueNil then
begin
if FArrType = nil then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
Exit;
end;
tmpp := AllocStackReg(FArrType);
if not MakeNil(x.Pos, x.Row, x.Col, tmpp) then
begin
tmpp.Free;
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else
if x.ClassType = TPSValueArray then
begin
if FArrType = nil then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
Exit;
end;
if TPSType(FArrType).BaseType = btSet then
begin
Result := MakeSet(TPSSetType(FArrType), TPSValueArray(x));
exit;
end;
if TPSType(FarrType).BaseType = btVariant then
FArrType := FindAndAddType(self, '', 'array of variant');
if TPSType(FarrType).BaseType <> btArray then
FArrType := FindAndAddType(self, '', 'array of variant');
tmpp := AllocStackReg(FArrType);
tmpc := AllocStackReg(FindBaseType(bts32));
BlockWriteByte(BlockInfo, CM_A);
WriteOutrec(tmpc, False);
BlockWriteByte(BlockInfo, 1);
BlockWriteLong(BlockInfo, FindBaseType(bts32).FinalTypeNo);
BlockWriteLong(BlockInfo, TPSValueArray(x).Count);
BlockWriteByte(BlockInfo, CM_PV);
WriteOutrec(tmpp, False);
BlockWriteByte(BlockInfo, CM_C);
BlockWriteLong(BlockInfo, FindProc('SETARRAYLENGTH'));
BlockWriteByte(BlockInfo, CM_PO);
tmpc.Free;
rr := TPSSubNumber.Create;
rr.aType := TPSArrayType(FArrType).ArrayTypeNo;
TPSValueVar(tmpp).RecAdd(rr);
for i := 0 to TPSValueArray(x).Count -1 do
begin
TPSSubNumber(rr).SubNo := i;
tmpc := TPSValueArray(x).Item[i];
if not PreWriteOutRec(tmpc, GetTypeNo(BlockInfo, tmpc)) then
begin
tmpp.Free;
Result := false;
exit;
end;
if TPSArrayType(FArrType).ArrayTypeNo.BaseType = btPointer then
BlockWriteByte(BlockInfo, cm_spc)
else
BlockWriteByte(BlockInfo, cm_a);
if not (WriteOutrec(tmpp, False) and WriteOutRec(tmpc, True)) then
begin
Tmpp.Free;
Result := false;
exit;
end;
AfterWriteOutRec(tmpc);
end;
TPSValueVar(tmpp).RecDelete(0);
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else if (x.ClassType = TPSUnValueOp) then
begin
tmpp := AllocStackReg(GetTypeNo(BlockInfo, x));
if not DoUnCalc(TPSUnValueOp(x), tmpp) then
begin
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else if (x.ClassType = TPSBinValueOp) then
begin
tmpp := AllocStackReg(GetTypeNo(BlockInfo, x));
if not DoBinCalc(TPSBinValueOp(x), tmpp) then
begin
tmpp.Free;
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else if x is TPSValueProc then
begin
tmpp := AllocStackReg(TPSValueProc(x).ResultType);
if not WriteCalculation(x, tmpp) then
begin
tmpp.Free;
Result := False;
exit;
end;
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
PreWriteAllocated := True;
OldValue := x;
NewValue := tmpp;
end;
x := tmpc;
end else if (x is TPSValueVar) and (TPSValueVar(x).RecCount <> 0) then
begin
if TPSValueVar(x).RecCount = 1 then
begin
rr := TPSValueVar(x).RecItem[0];
if rr.ClassType <> TPSSubValue then
exit; // there is no need pre-calculate anything
if (TPSSubValue(rr).SubNo is TPSValueVar) and (TPSValueVar(TPSSubValue(rr).SubNo).RecCount = 0) then
exit;
end; //if
tmpp := AllocPointer(GetTypeNo(BlockInfo, x));
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmpp, True);
BlockWriteByte(BlockInfo, 0);
BlockWriteLong(BlockInfo, GetAddress(x));
for i := 0 to TPSValueVar(x).RecCount - 1 do
begin
rr := TPSValueVar(x).RecItem[I];
if rr.ClassType = TPSSubNumber then
begin
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmpp, false);
BlockWriteByte(BlockInfo, 2);
BlockWriteLong(BlockInfo, GetAddress(tmpp));
BlockWriteLong(BlockInfo, TPSSubNumber(rr).SubNo);
end else begin // if rr.classtype = TPSSubValue then begin
tmpc := AllocStackReg(FindBaseType(btU32));
if not WriteCalculation(TPSSubValue(rr).SubNo, tmpc) then
begin
tmpc.Free;
tmpp.Free;
Result := False;
exit;
end; //if
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmpp, false);
BlockWriteByte(BlockInfo, 3);
BlockWriteLong(BlockInfo, GetAddress(tmpp));
BlockWriteLong(BlockInfo, GetAddress(tmpc));
tmpc.Free;
end;
end; // for
tmpc := TPSValueReplace.Create;
with TPSValueReplace(tmpc) do
begin
OldValue := x;
NewValue := tmpp;
PreWriteAllocated := True;
end;
x := tmpc;
end;
end;
procedure AfterWriteOutRec(var x: TPSValue);
var
tmp: TPSValue;
begin
if (x.ClassType = TPSValueReplace) and (TPSValueReplace(x).PreWriteAllocated) then
begin
Dec(TPSValueReplace(x).FReplaceTimes);
if TPSValueReplace(x).ReplaceTimes = 0 then
begin
tmp := TPSValueReplace(x).OldValue;
x.Free;
x := tmp;
end;
end;
end; //afterwriteoutrec
function WriteOutRec(x: TPSValue; AllowData: Boolean): Boolean;
var
rr: TPSSubItem;
begin
Result := True;
if x.ClassType = TPSValueReplace then
Result := WriteOutRec(TPSValueReplace(x).NewValue, AllowData)
else if x is TPSValueVar then
begin
if TPSValueVar(x).RecCount = 0 then
begin
BlockWriteByte(BlockInfo, 0);
BlockWriteLong(BlockInfo, GetAddress(x));
end
else
begin
rr := TPSValueVar(x).RecItem[0];
if rr.ClassType = TPSSubNumber then
begin
BlockWriteByte(BlockInfo, 2);
BlockWriteLong(BlockInfo, GetAddress(x));
BlockWriteLong(BlockInfo, TPSSubNumber(rr).SubNo);
end
else
begin
BlockWriteByte(BlockInfo, 3);
BlockWriteLong(BlockInfo, GetAddress(x));
BlockWriteLong(BlockInfo, GetAddress(TPSSubValue(rr).SubNo));
end;
end;
end else if x.ClassType = TPSValueData then
begin
if AllowData then
begin
BlockWriteByte(BlockInfo, 1);
BlockWriteVariant(BlockInfo, TPSValueData(x).Data)
end
else
begin
Result := False;
exit;
end;
end else
Result := False;
end;
function ReadParameters(IsProperty: Boolean; Dest: TPSParameters): Boolean; forward;
{$IFNDEF PS_NOIDISPATCH}
function ReadIDispatchParameters(const ProcName: tbtString; aVariantType: TPSVariantType; FSelf: TPSValue): TPSValue; forward;
{$ENDIF}
function ReadProcParameters(ProcNo: Cardinal; FSelf: TPSValue): TPSValue; forward;
function ReadVarParameters(ProcNoVar: TPSValue): TPSValue; forward;
function calc(endOn: TPSPasToken): TPSValue; forward;
procedure CheckNotificationVariant(var Val: TPSValue);
var
aType: TPSType;
Call: TPSValueProcNo;
tmp: TPSValue;
begin
if not (Val is TPSValueGlobalVar) then exit;
aType := GetTypeNo(BlockInfo, Val);
if (AType = nil) or (AType.BaseType <> btNotificationVariant) then exit;
if FParser.CurrTokenId = CSTI_Assignment then
begin
Call := TPSValueProcNo.Create;
Call.ResultType := nil;
Call.SetParserPos(FParser);
Call.ProcNo := FindProc('!NOTIFICATIONVARIANTSET');;
Call.SetParserPos(FParser);
Call.Parameters := TPSParameters.Create;
Tmp := TPSValueData.Create;
TPSVAlueData(tmp).Data := NewVariant(at2ut(FindBaseType(btString)));
tbtString(TPSValueData(tmp).Data.tstring) := TPSVar(FVars[TPSValueGlobalVar(Val).GlobalVarNo]).OrgName;
with call.Parameters.Add do
begin
Val := tmp;
ExpectedType := TPSValueData(tmp).Data.FType;
end;
FParser.Next;
tmp := Calc(CSTI_SemiColon);
if tmp = nil then
begin
Val.Free;
Val := nil;
exit;
end;
with Call.Parameters.Add do
begin
Val := tmp;
ExpectedType := at2ut(FindBaseType(btVariant));
end;
Val.Free;
Val := Call;
end else begin
Call := TPSValueProcNo.Create;
Call.ResultType := AT2UT(FindBaseType(btVariant));
Call.SetParserPos(FParser);
Call.ProcNo := FindProc('!NOTIFICATIONVARIANTGET');
Call.SetParserPos(FParser);
Call.Parameters := TPSParameters.Create;
Tmp := TPSValueData.Create;
TPSVAlueData(tmp).Data := NewVariant(at2ut(FindBaseType(btString)));
tbtString(TPSValueData(tmp).Data.tstring) := TPSVar(FVars[TPSValueGlobalVar(Val).GlobalVarNo]).OrgName;
with call.Parameters.Add do
begin
Val := tmp;
ExpectedType := TPSValueData(tmp).Data.FType;
end;
Val.Free;
Val := Call;
end;
end;
function GetIdentifier(const FType: Byte): TPSValue;
{
FType:
0 = Anything
1 = Only variables
2 = Not constants
}
procedure CheckProcCall(var x: TPSValue);
var
aType: TPSType;
begin
if FParser.CurrTokenId in [CSTI_Dereference, CSTI_OpenRound] then
begin
aType := GetTypeNo(BlockInfo, x);
if (aType = nil) or (aType.BaseType <> btProcPtr) then
begin
MakeError('', ecTypeMismatch, '');
x.Free;
x := nil;
Exit;
end;
if FParser.CurrTokenId = CSTI_Dereference then
FParser.Next;
x := ReadVarParameters(x);
end;
end;
procedure CheckFurther(var x: TPSValue; ImplicitPeriod: Boolean);
var
t: Cardinal;
rr: TPSSubItem;
L: Longint;
u: TPSType;
Param: TPSParameter;
tmp, tmpn: TPSValue;
tmp3: TPSValueProcNo;
tmp2: Boolean;
function FindSubR(const n: tbtString; FType: TPSType): Cardinal;
var
h, I: Longint;
rvv: PIFPSRecordFieldTypeDef;
begin
h := MakeHash(n);
for I := 0 to TPSRecordType(FType).RecValCount - 1 do
begin
rvv := TPSRecordType(FType).RecVal(I);
if (rvv.FieldNameHash = h) and (rvv.FieldName = n) then
begin
Result := I;
exit;
end;
end;
Result := InvalidVal;
end;
begin
(* if not (x is TPSValueVar) then
Exit;*)
u := GetTypeNo(BlockInfo, x);
if u = nil then exit;
while True do
begin
if (u.BaseType = btClass) {$IFNDEF PS_NOINTERFACES}or (u.BaseType = btInterface){$ENDIF}
{$IFNDEF PS_NOIDISPATCH}or ((u.BaseType = btVariant) or (u.BaseType = btNotificationVariant)){$ENDIF} or (u.BaseType = btExtClass) then exit;
if FParser.CurrTokenId = CSTI_OpenBlock then
begin
if (u.BaseType = btString) {$IFNDEF PS_NOWIDESTRING} or (u.BaseType = btWideString) or (u.BaseType = btUnicodeString) {$ENDIF} then
begin
FParser.Next;
tmp := Calc(CSTI_CloseBlock);
if tmp = nil then
begin
x.Free;
x := nil;
exit;
end;
if not IsIntType(GetTypeNo(BlockInfo, tmp).BaseType) then
begin
MakeError('', ecTypeMismatch, '');
tmp.Free;
x.Free;
x := nil;
exit;
end;
FParser.Next;
if FParser.CurrTokenId = CSTI_Assignment then
begin
if not (x is TPSValueVar) then begin
MakeError('', ecVariableExpected, '');
tmp.Free;
x.Free;
x := nil;
exit;
end;
{$IFNDEF PS_NOWIDESTRING}
if (u.BaseType = btWideString) or (u.BaseType = btUnicodeString) then
l := FindProc('WSTRSET')
else
{$ENDIF}
l := FindProc('STRSET');
if l = -1 then
begin
MakeError('', ecUnknownIdentifier, 'StrSet');
tmp.Free;
x.Free;
x := nil;
exit;
end;
tmp3 := TPSValueProcNo.Create;
tmp3.ResultType := nil;
tmp3.SetParserPos(FParser);
tmp3.ProcNo := L;
tmp3.SetParserPos(FParser);
tmp3.Parameters := TPSParameters.Create;
param := tmp3.Parameters.Add;
with tmp3.Parameters.Add do
begin
Val := tmp;
ExpectedType := GetTypeNo(BlockInfo, tmp);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
end;
with tmp3.Parameters.Add do
begin
Val := x;
ExpectedType := GetTypeNo(BlockInfo, x);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
ParamMode := pmInOut;
end;
x := tmp3;
FParser.Next;
tmp := Calc(CSTI_SemiColon);
if tmp = nil then
begin
x.Free;
x := nil;
exit;
end;
if (GetTypeNo(BlockInfo, Tmp).BaseType <> btChar)
{$IFNDEF PS_NOWIDESTRING} and (GetTypeno(BlockInfo, Tmp).BaseType <> btWideChar) {$ENDIF} then
begin
x.Free;
x := nil;
Tmp.Free;
MakeError('', ecTypeMismatch, '');
exit;
end;
param.Val := tmp;
Param.ExpectedType := GetTypeNo(BlockInfo, tmp);
{$IFDEF DEBUG}
if not Param.ExpectedType.Used then asm int 3; end;
{$ENDIF}
end else begin
{$IFNDEF PS_NOWIDESTRING}
if (u.BaseType = btWideString) or (u.BaseType = btUnicodeString) then
l := FindProc('WSTRGET')
else
{$ENDIF}
l := FindProc('STRGET');
if l = -1 then
begin
MakeError('', ecUnknownIdentifier, 'StrGet');
tmp.Free;
x.Free;
x := nil;
exit;
end;
tmp3 := TPSValueProcNo.Create;
{$IFNDEF PS_NOWIDESTRING}
if (u.BaseType = btWideString) or (u.BaseType = btUnicodeString) then
tmp3.ResultType := FindBaseType(btWideChar)
else
{$ENDIF}
tmp3.ResultType := FindBaseType(btChar);
tmp3.ProcNo := L;
tmp3.SetParserPos(FParser);
tmp3.Parameters := TPSParameters.Create;
with tmp3.Parameters.Add do
begin
Val := x;
ExpectedType := GetTypeNo(BlockInfo, x);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
if x is TPSValueVar then
ParamMode := pmInOut
else
parammode := pmIn;
end;
with tmp3.Parameters.Add do
begin
Val := tmp;
ExpectedType := GetTypeNo(BlockInfo, tmp);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
end;
x := tmp3;
end;
Break;
end else if ((u.BaseType = btArray) or (u.BaseType = btStaticArray)) and (x is TPSValueVar) then
begin
FParser.Next;
tmp := calc(CSTI_CloseBlock);
if tmp = nil then
begin
x.Free;
x := nil;
exit;
end;
if not IsIntType(GetTypeNo(BlockInfo, tmp).BaseType) then
begin
MakeError('', ecTypeMismatch, '');
tmp.Free;
x.Free;
x := nil;
exit;
end;
if (tmp.ClassType = TPSValueData) then
begin
rr := TPSSubNumber.Create;
TPSValueVar(x).RecAdd(rr);
if (u.BaseType = btStaticArray) then
TPSSubNumber(rr).SubNo := Cardinal(GetInt(TPSValueData(tmp).Data, tmp2) - TPSStaticArrayType(u).StartOffset)
else
TPSSubNumber(rr).SubNo := GetUInt(TPSValueData(tmp).Data, tmp2);
tmp.Free;
rr.aType := TPSArrayType(u).ArrayTypeNo;
u := rr.aType;
end
else
begin
if (u.BaseType = btStaticArray) then
begin
tmpn := TPSBinValueOp.Create;
TPSBinValueOp(tmpn).Operator := otSub;
TPSBinValueOp(tmpn).Val1 := tmp;
tmp := TPSValueData.Create;
TPSValueData(tmp).Data := NewVariant(FindBaseType(btS32));
TPSValueData(tmp).Data.ts32 := TPSStaticArrayType(u).StartOffset;
TPSBinValueOp(tmpn).Val2 := tmp;
TPSBinValueOp(tmpn).aType := FindBaseType(btS32);
tmp := tmpn;
end;
rr := TPSSubValue.Create;
TPSValueVar(x).recAdd(rr);
TPSSubValue(rr).SubNo := tmp;
rr.aType := TPSArrayType(u).ArrayTypeNo;
u := rr.aType;
end;
if FParser.CurrTokenId <> CSTI_CloseBlock then
begin
MakeError('', ecCloseBlockExpected, '');
x.Free;
x := nil;
exit;
end;
Fparser.Next;
end else begin
MakeError('', ecSemicolonExpected, '');
x.Free;
x := nil;
exit;
end;
end
else if (FParser.CurrTokenId = CSTI_Period) or (ImplicitPeriod) then
begin
if not ImplicitPeriod then
FParser.Next;
if u.BaseType = btRecord then
begin
t := FindSubR(FParser.GetToken, u);
if t = InvalidVal then
begin
if ImplicitPeriod then exit;
MakeError('', ecUnknownIdentifier, FParser.GetToken);
x.Free;
x := nil;
exit;
end;
if (x is TPSValueProcNo) then
begin
ImplicitPeriod := False;
FParser.Next;
tmp := AllocStackReg(u);
WriteCalculation(x,tmp);
TPSVar(BlockInfo.Proc.FProcVars[TPSValueAllocatedStackVar(tmp).LocalVarNo]).Use;
rr := TPSSubNumber.Create;
TPSValueVar(tmp).RecAdd(rr);
TPSSubNumber(rr).SubNo := t;
rr.aType := TPSRecordType(u).RecVal(t).FType;
u := rr.aType;
tmpn := TPSValueReplace.Create;
with TPSValueReplace(tmpn) do
begin
FreeOldValue := true;
FreeNewValue := true;
OldValue := tmp;
NewValue := AllocStackReg(u);
PreWriteAllocated := true;
end;
if not WriteCalculation(tmp,TPSValueReplace(tmpn).NewValue) then
begin
{MakeError('',ecInternalError,'');}
x.Free;
x := nil;
exit;
end;
x.Free;
x := tmpn;
end else
begin
if not (x is TPSValueVar) then begin
MakeError('', ecVariableExpected, FParser.GetToken);
x.Free;
x := nil;
exit;
end;
ImplicitPeriod := False;
FParser.Next;
rr := TPSSubNumber.Create;
TPSValueVar(x).RecAdd(rr);
TPSSubNumber(rr).SubNo := t;
rr.aType := TPSRecordType(u).RecVal(t).FType;
u := rr.aType;
end;
end
else
begin
x.Free;
MakeError('', ecSemicolonExpected, '');
x := nil;
exit;
end;
end
else
break;
end;
end;
procedure CheckClassArrayProperty(var P: TPSValue; const VarType: TPSVariableType; VarNo: Cardinal);
var
Tempp: TPSValue;
aType: TPSClassType;
procno: Cardinal;
Idx: IPointer;
Decl: TPSParametersDecl;
begin
if p = nil then exit;
if (GetTypeNo(BlockInfo, p) = nil) or (GetTypeNo(BlockInfo, p).BaseType <> btClass) then exit;
aType := TPSClassType(GetTypeNo(BlockInfo, p));
if FParser.CurrTokenID = CSTI_OpenBlock then
begin
if not TPSClassType(aType).Cl.Property_Find('', Idx) then
begin
MakeError('', ecPeriodExpected, '');
p.Free;
p := nil;
exit;
end;
if VarNo <> InvalidVal then
begin
if @FOnUseVariable <> nil then
FOnUseVariable(Self, VarType, VarNo, BlockInfo.ProcNo, FParser.CurrTokenPos, '[Default]');
end;
Decl := TPSParametersDecl.Create;
TPSClassType(aType).Cl.Property_GetHeader(Idx, Decl);
tempp := p;
P := TPSValueProcNo.Create;
with TPSValueProcNo(P) do
begin
Parameters := TPSParameters.Create;
Parameters.Add;
end;
if not (ReadParameters(True, TPSValueProc(P).Parameters) and
ValidateParameters(BlockInfo, TPSValueProc(P).Parameters, Decl)) then
begin
tempp.Free;
Decl.Free;
p.Free;
p := nil;
exit;
end;
with TPSValueProcNo(p).Parameters[0] do
begin
Val := tempp;
ExpectedType := GetTypeNo(BlockInfo, tempp);
end;
if FParser.CurrTokenId = CSTI_Assignment then
begin
FParser.Next;
TempP := Calc(CSTI_SemiColon);
if TempP = nil then
begin
Decl.Free;
P.Free;
p := nil;
exit;
end;
with TPSValueProc(p).Parameters.Add do
begin
Val := Tempp;
ExpectedType := at2ut(Decl.Result);
end;
if not TPSClassType(aType).Cl.Property_Set(Idx, procno) then
begin
Decl.Free;
MakeError('', ecReadOnlyProperty, '');
p.Free;
p := nil;
exit;
end;
TPSValueProcNo(p).ProcNo := procno;
TPSValueProcNo(p).ResultType := nil;
end
else
begin
if not TPSClassType(aType).Cl.Property_Get(Idx, procno) then
begin
Decl.Free;
MakeError('', ecWriteOnlyProperty, '');
p.Free;
p := nil;
exit;
end;
TPSValueProcNo(p).ProcNo := procno;
TPSValueProcNo(p).ResultType := TPSExternalProcedure(FProcs[procno]).RegProc.Decl.Result;
end; // if FParser.CurrTokenId = CSTI_Assign
Decl.Free;
end;
end;
procedure CheckExtClass(var P: TPSValue; const VarType: TPSVariableType; VarNo: Cardinal; ImplicitPeriod: Boolean);
var
Temp, Idx: Cardinal;
FType: TPSType;
s: tbtString;
begin
FType := GetTypeNo(BlockInfo, p);
if FType = nil then Exit;
if FType.BaseType <> btExtClass then Exit;
while (FParser.CurrTokenID = CSTI_Period) or (ImplicitPeriod) do
begin
if not ImplicitPeriod then
FParser.Next;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
if ImplicitPeriod then exit;
MakeError('', ecIdentifierExpected, '');
p.Free;
P := nil;
Exit;
end;
s := FParser.GetToken;
if TPSUndefinedClassType(FType).ExtClass.Func_Find(s, Idx) then
begin
FParser.Next;
TPSUndefinedClassType(FType).ExtClass.Func_Call(Idx, Temp);
P := ReadProcParameters(Temp, P);
if p = nil then
begin
Exit;
end;
end else
begin
if ImplicitPeriod then exit;
MakeError('', ecUnknownIdentifier, s);
p.Free;
P := nil;
Exit;
end;
ImplicitPeriod := False;
FType := GetTypeNo(BlockInfo, p);
if (FType = nil) or (FType.BaseType <> btExtClass) then Exit;
end; {while}
end;
procedure CheckClass(var P: TPSValue; const VarType: TPSVariableType; VarNo: Cardinal; ImplicitPeriod: Boolean);
var
Procno: Cardinal;
Idx: IPointer;
FType: TPSType;
TempP: TPSValue;
Decl: TPSParametersDecl;
s: tbtString;
pinfo, pinfonew: tbtString;
ppos: Cardinal;
begin
FType := GetTypeNo(BlockInfo, p);
if FType = nil then exit;
pinfo := '';
if (FType.BaseType <> btClass) then Exit;
while (FParser.CurrTokenID = CSTI_Period) or (ImplicitPeriod) do
begin
if not ImplicitPeriod then
FParser.Next;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
if ImplicitPeriod then exit;
MakeError('', ecIdentifierExpected, '');
p.Free;
P := nil;
Exit;
end;
s := FParser.GetToken;
if TPSClassType(FType).Cl.Func_Find(s, Idx) then
begin
FParser.Next;
VarNo := InvalidVal;
TPSClassType(FType).cl.Func_Call(Idx, Procno);
P := ReadProcParameters(Procno, P);
if p = nil then
begin
Exit;
end;
end else if TPSClassType(FType).cl.Property_Find(s, Idx) then
begin
ppos := FParser.CurrTokenPos;
pinfonew := FParser.OriginalToken;
FParser.Next;
if VarNo <> InvalidVal then
begin
if pinfo = '' then
pinfo := pinfonew
else
pinfo := pinfo + '.' + pinfonew;
if @FOnUseVariable <> nil then
FOnUseVariable(Self, VarType, VarNo, BlockInfo.ProcNo, ppos, pinfo);
end;
Decl := TPSParametersDecl.Create;
TPSClassType(FType).cl.Property_GetHeader(Idx, Decl);
TempP := P;
p := TPSValueProcNo.Create;
with TPSValueProcNo(p) do
begin
Parameters := TPSParameters.Create;
Parameters.Add;
Pos := FParser.CurrTokenPos;
row := FParser.Row;
Col := FParser.Col;
end;
if Decl.ParamCount <> 0 then
begin
if not (ReadParameters(True, TPSValueProc(P).Parameters) and
ValidateParameters(BlockInfo, TPSValueProc(P).Parameters, Decl)) then
begin
Tempp.Free;
Decl.Free;
p.Free;
P := nil;
exit;
end;
end; // if
with TPSValueProcNo(p).Parameters[0] do
begin
Val := TempP;
ExpectedType := at2ut(GetTypeNo(BlockInfo, TempP));
end;
if FParser.CurrTokenId = CSTI_Assignment then
begin
FParser.Next;
TempP := Calc(CSTI_SemiColon);
if TempP = nil then
begin
Decl.Free;
P.Free;
p := nil;
exit;
end;
with TPSValueProc(p).Parameters.Add do
begin
Val := Tempp;
ExpectedType := at2ut(Decl.Result);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
end;
if not TPSClassType(FType).cl.Property_Set(Idx, Procno) then
begin
MakeError('', ecReadOnlyProperty, '');
Decl.Free;
p.Free;
p := nil;
exit;
end;
TPSValueProcNo(p).ProcNo := Procno;
TPSValueProcNo(p).ResultType := nil;
Decl.Free;
Exit;
end else begin
if not TPSClassType(FType).cl.Property_Get(Idx, Procno) then
begin
MakeError('', ecWriteOnlyProperty, '');
Decl.Free;
p.Free;
p := nil;
exit;
end;
TPSValueProcNo(p).ProcNo := ProcNo;
TPSValueProcNo(p).ResultType := TPSExternalProcedure(FProcs[ProcNo]).RegProc.Decl.Result;
end; // if FParser.CurrTokenId = CSTI_Assign
Decl.Free;
end else
begin
if ImplicitPeriod then exit;
MakeError('', ecUnknownIdentifier, s);
p.Free;
P := nil;
Exit;
end;
ImplicitPeriod := False;
FType := GetTypeNo(BlockInfo, p);
if (FType = nil) or (FType.BaseType <> btClass) then Exit;
end; {while}
end;
{$IFNDEF PS_NOIDISPATCH}
procedure CheckIntf(var P: TPSValue; const VarType: TPSVariableType; VarNo: Cardinal; ImplicitPeriod: Boolean);
var
Procno, Idx: Cardinal;
FType: TPSType;
s: tbtString;
CheckArrayProperty,HasArrayProperty:boolean;
begin
FType := GetTypeNo(BlockInfo, p);
if FType = nil then exit;
if (FType.BaseType <> btInterface) and (Ftype.BaseType <> BtVariant) and (FType.BaseType = btNotificationVariant) then Exit;
CheckArrayProperty:=(FParser.CurrTokenID=CSTI_OpenBlock)and
(Ftype.BaseType = BtVariant);
while (FParser.CurrTokenID = CSTI_Period)
or (ImplicitPeriod)or (CheckArrayProperty) do begin
HasArrayProperty:=CheckArrayProperty;
if CheckArrayProperty then begin
CheckArrayProperty:=false;
end else begin
if not ImplicitPeriod then
FParser.Next;
end;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
if ImplicitPeriod then exit;
if not HasArrayProperty then begin
MakeError('', ecIdentifierExpected, '');
p.Free;
P := nil;
Exit;
end;
end;
if (FType.BaseType = btVariant) or (FType.BaseType = btNotificationVariant) then
begin
if HasArrayProperty then begin
s:='';
end else begin
s := FParser.OriginalToken;
FParser.Next;
end;
ImplicitPeriod := False;
FType := GetTypeNo(BlockInfo, p);
p := ReadIDispatchParameters(s, TPSVariantType(FType), p);
if (FType = nil) or (FType.BaseType <> btInterface) then Exit;
end else
begin
s := FParser.GetToken;
if (FType is TPSInterfaceType) and (TPSInterfaceType(FType).Intf.Func_Find(s, Idx)) then
begin
FParser.Next;
TPSInterfaceType(FType).Intf.Func_Call(Idx, Procno);
P := ReadProcParameters(Procno, P);
if p = nil then
begin
Exit;
end;
end else
begin
if ImplicitPeriod then exit;
MakeError('', ecUnknownIdentifier, s);
p.Free;
P := nil;
Exit;
end;
ImplicitPeriod := False;
FType := GetTypeNo(BlockInfo, p);
if (FType = nil) or ((FType.BaseType <> btInterface) and (Ftype.BaseType <> btVariant) and (Ftype.BaseType <> btNotificationVariant)) then Exit;
end;
end; {while}
end;
{$ENDIF}
function ExtCheckClassType(FType: TPSType; const ParserPos: Cardinal): TPSValue;
var
FType2: TPSType;
ProcNo, Idx: Cardinal;
Temp, ResV: TPSValue;
begin
if FParser.CurrTokenID = CSTI_OpenRound then
begin
FParser.Next;
Temp := Calc(CSTI_CloseRound);
if Temp = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
temp.Free;
MakeError('', ecCloseRoundExpected, '');
Result := nil;
exit;
end;
FType2 := GetTypeNo(BlockInfo, Temp);
if (FType.basetype = BtClass) and (ftype2.BaseType = btClass) and (ftype <> ftype2) then
begin
if not TPSUndefinedClassType(FType2).ExtClass.CastToType(AT2UT(FType), ProcNo) then
begin
temp.Free;
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
Result := TPSValueProcNo.Create;
TPSValueProcNo(Result).Parameters := TPSParameters.Create;
TPSValueProcNo(Result).ResultType := at2ut(FType);
TPSValueProcNo(Result).ProcNo := ProcNo;
with TPSValueProcNo(Result).Parameters.Add do
begin
Val := Temp;
ExpectedType := GetTypeNo(BlockInfo, temp);
end;
with TPSValueProcNo(Result).Parameters.Add do
begin
ExpectedType := at2ut(FindBaseType(btu32));
Val := TPSValueData.Create;
with TPSValueData(val) do
begin
SetParserPos(FParser);
Data := NewVariant(ExpectedType);
Data.tu32 := at2ut(FType).FinalTypeNo;
end;
end;
FParser.Next;
Exit;
end;
if not IsCompatibleType(FType, FType2, True) then
begin
temp.Free;
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
FParser.Next;
Result := TPSUnValueOp.Create;
with TPSUnValueOp(Result) do
begin
Operator := otCast;
Val1 := Temp;
SetParserPos(FParser);
aType := AT2UT(FType);
end;
exit;
end;
if FParser.CurrTokenId <> CSTI_Period then
begin
Result := nil;
MakeError('', ecPeriodExpected, '');
Exit;
end;
if FType.BaseType <> btExtClass then
begin
Result := nil;
MakeError('', ecClassTypeExpected, '');
Exit;
end;
FParser.Next;
if not TPSUndefinedClassType(FType).ExtClass.ClassFunc_Find(FParser.GetToken, Idx) then
begin
Result := nil;
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
Exit;
end;
FParser.Next;
TPSUndefinedClassType(FType).ExtClass.ClassFunc_Call(Idx, ProcNo);
Temp := TPSValueData.Create;
with TPSValueData(Temp) do
begin
Data := NewVariant(at2ut(FindBaseType(btu32)));
Data.tu32 := at2ut(FType).FinalTypeNo;
end;
ResV := ReadProcParameters(ProcNo, Temp);
if ResV <> nil then
begin
TPSValueProc(Resv).ResultType := at2ut(FType);
Result := Resv;
end else begin
Result := nil;
end;
end;
function CheckClassType(TypeNo: TPSType; const ParserPos: Cardinal): TPSValue;
var
FType2: TPSType;
ProcNo: Cardinal;
Idx: IPointer;
Temp, ResV: TPSValue;
dta: PIfRVariant;
begin
if typeno.BaseType = btExtClass then
begin
Result := ExtCheckClassType(TypeNo, PArserPos);
exit;
end;
if FParser.CurrTokenID = CSTI_OpenRound then
begin
FParser.Next;
Temp := Calc(CSTI_CloseRound);
if Temp = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
temp.Free;
MakeError('', ecCloseRoundExpected, '');
Result := nil;
exit;
end;
FType2 := GetTypeNo(BlockInfo, Temp);
if ((typeno.BaseType = btClass){$IFNDEF PS_NOINTERFACES} or (TypeNo.basetype = btInterface){$ENDIF}) and
((ftype2.BaseType = btClass){$IFNDEF PS_NOINTERFACES} or (ftype2.BaseType = btInterface){$ENDIF}) and (TypeNo <> ftype2) then
begin
{$IFNDEF PS_NOINTERFACES}
if FType2.basetype = btClass then
begin
{$ENDIF}
if not TPSClassType(FType2).Cl.CastToType(AT2UT(TypeNo), ProcNo) then
begin
temp.Free;
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
{$IFNDEF PS_NOINTERFACES}
end else begin
if not TPSInterfaceType(FType2).Intf.CastToType(AT2UT(TypeNo), ProcNo) then
begin
temp.Free;
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
end;
{$ENDIF}
Result := TPSValueProcNo.Create;
TPSValueProcNo(Result).Parameters := TPSParameters.Create;
TPSValueProcNo(Result).ResultType := at2ut(TypeNo);
TPSValueProcNo(Result).ProcNo := ProcNo;
with TPSValueProcNo(Result).Parameters.Add do
begin
Val := Temp;
ExpectedType := GetTypeNo(BlockInfo, temp);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
end;
with TPSValueProcNo(Result).Parameters.Add do
begin
ExpectedType := at2ut(FindBaseType(btu32));
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
Val := TPSValueData.Create;
with TPSValueData(val) do
begin
SetParserPos(FParser);
Data := NewVariant(ExpectedType);
Data.tu32 := at2ut(TypeNo).FinalTypeNo;
end;
end;
FParser.Next;
Exit;
end;
if not IsCompatibleType(TypeNo, FType2, True) then
begin
temp.Free;
MakeError('', ecTypeMismatch, '');
Result := nil;
exit;
end;
FParser.Next;
Result := TPSUnValueOp.Create;
with TPSUnValueOp(Result) do
begin
Operator := otCast;
Val1 := Temp;
SetParserPos(FParser);
aType := AT2UT(TypeNo);
end;
exit;
end else
if FParser.CurrTokenId <> CSTI_Period then
begin
Result := TPSValueData.Create;
Result.SetParserPos(FParser);
New(dta);
TPSValueData(Result).Data := dta;
InitializeVariant(dta, at2ut(FindBaseType(btType)));
dta.ttype := at2ut(TypeNo);
Exit;
end;
if TypeNo.BaseType <> btClass then
begin
Result := nil;
MakeError('', ecClassTypeExpected, '');
Exit;
end;
FParser.Next;
if not TPSClassType(TypeNo).Cl.ClassFunc_Find(FParser.GetToken, Idx) then
begin
Result := nil;
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
Exit;
end;
FParser.Next;
TPSClassType(TypeNo).Cl.ClassFunc_Call(Idx, ProcNo);
Temp := TPSValueData.Create;
with TPSValueData(Temp) do
begin
Data := NewVariant(at2ut(FindBaseType(btu32)));
Data.tu32 := at2ut(TypeNo).FinalTypeNo;
end;
ResV := ReadProcParameters(ProcNo, Temp);
if ResV <> nil then
begin
TPSValueProc(Resv).ResultType := at2ut(TypeNo);
Result := Resv;
end else begin
Result := nil;
end;
end;
var
vt: TPSVariableType;
vno: Cardinal;
TWith, Temp: TPSValue;
l, h: Longint;
s, u: tbtString;
t: TPSConstant;
Temp1: TPSType;
temp2: CArdinal;
bi: TPSBlockInfo;
lOldRecCount: Integer;
begin
s := FParser.GetToken;
if FType <> 1 then
begin
bi := BlockInfo;
while bi <> nil do
begin
for l := bi.WithList.Count -1 downto 0 do
begin
TWith := TPSValueAllocatedStackVar.Create;
TPSValueAllocatedStackVar(TWith).LocalVarNo := TPSValueAllocatedStackVar(TPSValueReplace(bi.WithList[l]).NewValue).LocalVarNo;
Temp := TWith;
VNo := TPSValueAllocatedStackVar(Temp).LocalVarNo;
lOldRecCount := TPSValueVar(TWith).GetRecCount;
vt := ivtVariable;
if Temp = TWith then CheckFurther(TWith, True);
if Temp = TWith then CheckClass(TWith, vt, vno, True);
if Temp = TWith then CheckExtClass(TWith, vt, vno, True);
if (Temp <> TWith) or (Cardinal(lOldRecCount) <> TPSValueVar(TWith).GetRecCount) then
begin
repeat
Temp := TWith;
if TWith <> nil then CheckFurther(TWith, False);
if TWith <> nil then CheckClass(TWith, vt, vno, False);
if TWith <> nil then CheckExtClass(TWith, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if TWith <> nil then CheckIntf(TWith, vt, vno, False);{$ENDIF}
if TWith <> nil then CheckProcCall(TWith);
if TWith <> nil then CheckClassArrayProperty(TWith, vt, vno);
vno := InvalidVal;
until (TWith = nil) or (Temp = TWith);
Result := TWith;
Exit;
end;
TWith.Free;
end;
bi := bi.FOwner;
end;
end;
if s = 'RESULT' then
begin
if BlockInfo.proc.Decl.Result = nil then
begin
Result := nil;
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
end
else
begin
BlockInfo.Proc.ResultUse;
Result := TPSValueParamVar.Create;
with TPSValueParamVar(Result) do
begin
SetParserPos(FParser);
ParamNo := 0;
end;
vno := 0;
vt := ivtParam;
if @FOnUseVariable <> nil then
FOnUseVariable(Self, vt, vno, BlockInfo.ProcNo, FParser.CurrTokenPos, '');
FParser.Next;
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
end;
exit;
end;
if BlockInfo.Proc.Decl.Result = nil then
l := 0
else
l := 1;
for h := 0 to BlockInfo.proc.Decl.ParamCount -1 do
begin
if BlockInfo.proc.Decl.Params[h].Name = s then
begin
Result := TPSValueParamVar.Create;
with TPSValueParamVar(Result) do
begin
SetParserPos(FParser);
ParamNo := l;
end;
vt := ivtParam;
vno := L;
if @FOnUseVariable <> nil then
FOnUseVariable(Self, vt, vno, BlockInfo.ProcNo, FParser.CurrTokenPos, '');
FParser.Next;
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
Inc(l);
GRFW(u);
end;
h := MakeHash(s);
for l := 0 to BlockInfo.Proc.ProcVars.Count - 1 do
begin
if (PIFPSProcVar(BlockInfo.Proc.ProcVars[l]).NameHash = h) and
(PIFPSProcVar(BlockInfo.Proc.ProcVars[l]).Name = s) then
begin
PIFPSProcVar(BlockInfo.Proc.ProcVars[l]).Use;
vno := l;
vt := ivtVariable;
if @FOnUseVariable <> nil then
FOnUseVariable(Self, vt, vno, BlockInfo.ProcNo, FParser.CurrTokenPos, '');
Result := TPSValueLocalVar.Create;
with TPSValueLocalVar(Result) do
begin
LocalVarNo := l;
SetParserPos(FParser);
end;
FParser.Next;
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
end;
for l := 0 to FVars.Count - 1 do
begin
if (TPSVar(FVars[l]).NameHash = h) and
(TPSVar(FVars[l]).Name = s) then
begin
TPSVar(FVars[l]).Use;
Result := TPSValueGlobalVar.Create;
with TPSValueGlobalVar(Result) do
begin
SetParserPos(FParser);
GlobalVarNo := l;
end;
vt := ivtGlobal;
vno := l;
if @FOnUseVariable <> nil then
FOnUseVariable(Self, vt, vno, BlockInfo.ProcNo, FParser.CurrTokenPos, '');
FParser.Next;
repeat
Temp := Result;
if Result <> nil then CheckNotificationVariant(Result);
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
end;
Temp1 := FindType(FParser.GetToken);
if Temp1 <> nil then
begin
l := FParser.CurrTokenPos;
if FType = 1 then
begin
Result := nil;
MakeError('', ecVariableExpected, FParser.OriginalToken);
exit;
end;
vt := ivtGlobal;
vno := InvalidVal;
FParser.Next;
Result := CheckClassType(Temp1, l);
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
Temp2 := FindProc(FParser.GetToken);
if Temp2 <> InvalidVal then
begin
if FType = 1 then
begin
Result := nil;
MakeError('', ecVariableExpected, FParser.OriginalToken);
exit;
end;
FParser.Next;
Result := ReadProcParameters(Temp2, nil);
if Result = nil then
exit;
Result.SetParserPos(FParser);
vt := ivtGlobal;
vno := InvalidVal;
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
for l := 0 to FConstants.Count -1 do
begin
t := TPSConstant(FConstants[l]);
if (t.NameHash = h) and (t.Name = s) then
begin
if FType <> 0 then
begin
Result := nil;
MakeError('', ecVariableExpected, FParser.OriginalToken);
exit;
end;
fparser.next;
Result := TPSValueData.Create;
with TPSValueData(Result) do
begin
SetParserPos(FParser);
Data := NewVariant(at2ut(t.Value.FType));
CopyVariantContents(t.Value, Data);
end;
vt := ivtGlobal;
vno := InvalidVal;
repeat
Temp := Result;
if Result <> nil then CheckFurther(Result, False);
if Result <> nil then CheckClass(Result, vt, vno, False);
if Result <> nil then CheckExtClass(Result, vt, vno, False);
{$IFNDEF PS_NOIDISPATCH}if Result <> nil then CheckIntf(Result, vt, vno, False);{$ENDIF}
if Result <> nil then CheckProcCall(Result);
if Result <> nil then CheckClassArrayProperty(Result, vt, vno);
vno := InvalidVal;
until (Result = nil) or (Temp = Result);
exit;
end;
end;
Result := nil;
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
end;
function calc(endOn: TPSPasToken): TPSValue;
function TryEvalConst(var P: TPSValue): Boolean; forward;
function ReadExpression: TPSValue; forward;
function ReadTerm: TPSValue; forward;
function ReadFactor: TPSValue;
var
NewVar: TPSValue;
NewVarU: TPSUnValueOp;
Proc: TPSProcedure;
function ReadArray: Boolean;
var
tmp: TPSValue;
begin
FParser.Next;
NewVar := TPSValueArray.Create;
NewVar.SetParserPos(FParser);
if FParser.CurrTokenID <> CSTI_CloseBlock then
begin
while True do
begin
tmp := nil;
Tmp := ReadExpression();
if Tmp = nil then
begin
Result := False;
NewVar.Free;
exit;
end;
if not TryEvalConst(tmp) then
begin
tmp.Free;
NewVar.Free;
Result := False;
exit;
end;
TPSValueArray(NewVar).Add(tmp);
if FParser.CurrTokenID = CSTI_CloseBlock then Break;
if FParser.CurrTokenID <> CSTI_Comma then
begin
MakeError('', ecCloseBlockExpected, '');
NewVar.Free;
Result := False;
exit;
end;
FParser.Next;
end;
end;
FParser.Next;
Result := True;
end;
function CallAssigned(P: TPSValue): TPSValue;
var
temp: TPSValueProcNo;
begin
temp := TPSValueProcNo.Create;
temp.ProcNo := FindProc('!ASSIGNED');
temp.ResultType := at2ut(FDefaultBoolType);
temp.Parameters := TPSParameters.Create;
with Temp.Parameters.Add do
begin
Val := p;
ExpectedType := GetTypeNo(BlockInfo, p);
{$IFDEF DEBUG}
if not ExpectedType.Used then asm int 3; end;
{$ENDIF}
FParamMode := pmIn;
end;
Result := Temp;
end;
function CallSucc(P: TPSValue): TPSValue;
var
temp: TPSBinValueOp;
begin
temp := TPSBinValueOp.Create;
temp.SetParserPos(FParser);
temp.FOperator := otAdd;
temp.FVal2 := TPSValueData.Create;
TPSValueData(Temp.FVal2).Data := NewVariant(FindBaseType(bts32));
TPSValueData(Temp.FVal2).Data.ts32 := 1;
temp.FVal1 := p;
Temp.FType := GetTypeNo(BlockInfo, P);
result := temp;
end;
function CallPred(P: TPSValue): TPSValue;
var
temp: TPSBinValueOp;
begin
temp := TPSBinValueOp.Create;
temp.SetParserPos(FParser);
temp.FOperator := otSub;
temp.FVal2 := TPSValueData.Create;
TPSValueData(Temp.FVal2).Data := NewVariant(FindBaseType(bts32));
TPSValueData(Temp.FVal2).Data.ts32 := 1;
temp.FVal1 := p;
Temp.FType := GetTypeNo(BlockInfo, P);
result := temp;
end;
begin
case fParser.CurrTokenID of
CSTI_OpenBlock:
begin
if not ReadArray then
begin
Result := nil;
exit;
end;
end;
CSTII_Not:
begin
FParser.Next;
NewVar := ReadFactor;
if NewVar = nil then
begin
Result := nil;
exit;
end;
NewVarU := TPSUnValueOp.Create;
NewVarU.SetParserPos(FParser);
NewVarU.aType := GetTypeNo(BlockInfo, NewVar);
NewVarU.Operator := otNot;
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
end;
CSTI_Plus:
begin
FParser.Next;
NewVar := ReadTerm;
if NewVar = nil then
begin
Result := nil;
exit;
end;
end;
CSTI_Minus:
begin
FParser.Next;
NewVar := ReadTerm;
if NewVar = nil then
begin
Result := nil;
exit;
end;
NewVarU := TPSUnValueOp.Create;
NewVarU.SetParserPos(FParser);
NewVarU.aType := GetTypeNo(BlockInfo, NewVar);
NewVarU.Operator := otMinus;
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
end;
CSTII_Nil:
begin
FParser.Next;
NewVar := TPSValueNil.Create;
NewVar.SetParserPos(FParser);
end;
CSTI_AddressOf:
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Result := nil;
exit;
end;
NewVar := TPSValueProcPtr.Create;
NewVar.SetParserPos(FParser);
TPSValueProcPtr(NewVar).ProcPtr := FindProc(FParser.GetToken);
if TPSValueProcPtr(NewVar).ProcPtr = InvalidVal then
begin
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
NewVar.Free;
Result := nil;
exit;
end;
Proc := FProcs[TPSValueProcPtr(NewVar).ProcPtr];
if Proc.ClassType <> TPSInternalProcedure then
begin
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
NewVar.Free;
Result := nil;
exit;
end;
FParser.Next;
end;
CSTI_OpenRound:
begin
FParser.Next;
NewVar := ReadExpression();
if NewVar = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenId <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', ecCloseRoundExpected, '');
exit;
end;
FParser.Next;
end;
CSTI_Char, CSTI_String:
begin
NewVar := TPSValueData.Create;
NewVar.SetParserPos(FParser);
TPSValueData(NewVar).Data := ReadString;
if TPSValueData(NewVar).Data = nil then
begin
NewVar.Free;
Result := nil;
exit;
end;
end;
CSTI_HexInt, CSTI_Integer:
begin
NewVar := TPSValueData.Create;
NewVar.SetParserPos(FParser);
TPSValueData(NewVar).Data := ReadInteger(FParser.GetToken);
FParser.Next;
end;
CSTI_Real:
begin
NewVar := TPSValueData.Create;
NewVar.SetParserPos(FParser);
TPSValueData(NewVar).Data := ReadReal(FParser.GetToken);
FParser.Next;
end;
CSTII_Ord:
begin
FParser.Next;
if fParser.Currtokenid <> CSTI_OpenRound then
begin
Result := nil;
MakeError('', ecOpenRoundExpected, '');
exit;
end;
FParser.Next;
NewVar := ReadExpression();
if NewVar = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenId <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', ecCloseRoundExpected, '');
exit;
end;
if not ((GetTypeNo(BlockInfo, NewVar).BaseType = btChar) or
{$IFNDEF PS_NOWIDESTRING} (GetTypeNo(BlockInfo, NewVar).BaseType = btWideChar) or{$ENDIF}
(GetTypeNo(BlockInfo, NewVar).BaseType = btEnum) or (IsIntType(GetTypeNo(BlockInfo, NewVar).BaseType))) then
begin
NewVar.Free;
Result := nil;
MakeError('', ecTypeMismatch, '');
exit;
end;
NewVarU := TPSUnValueOp.Create;
NewVarU.SetParserPos(FParser);
NewVarU.Operator := otCast;
NewVarU.FType := at2ut(FindBaseType(btu32));
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
FParser.Next;
end;
CSTII_Chr:
begin
FParser.Next;
if fParser.Currtokenid <> CSTI_OpenRound then
begin
Result := nil;
MakeError('', ecOpenRoundExpected, '');
exit;
end;
FParser.Next;
NewVar := ReadExpression();
if NewVar = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenId <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', ecCloseRoundExpected, '');
exit;
end;
if not (IsIntType(GetTypeNo(BlockInfo, NewVar).BaseType)) then
begin
NewVar.Free;
Result := nil;
MakeError('', ecTypeMismatch, '');
exit;
end;
NewVarU := TPSUnValueOp.Create;
NewVarU.SetParserPos(FParser);
NewVarU.Operator := otCast;
NewVarU.FType := at2ut(FindBaseType(btChar));
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
FParser.Next;
end;
CSTI_Identifier:
begin
if FParser.GetToken = 'SUCC' then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_OpenRound then
begin
Result := nil;
MakeError('', ecOpenRoundExpected, '');
exit;
end;
FParser.Next;
NewVar := ReadExpression;
if NewVar = nil then
begin
result := nil;
exit;
end;
if (GetTypeNo(BlockInfo, NewVar) = nil) or (not IsIntType(GetTypeNo(BlockInfo, NewVar).BaseType) and
(GetTypeNo(BlockInfo, NewVar).BaseType <> btEnum)) then
begin
NewVar.Free;
Result := nil;
MakeError('', ecTypeMismatch, '');
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', eccloseRoundExpected, '');
exit;
end;
NewVar := CallSucc(NewVar);
FParser.Next;
end else
if FParser.GetToken = 'PRED' then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_OpenRound then
begin
Result := nil;
MakeError('', ecOpenRoundExpected, '');
exit;
end;
FParser.Next;
NewVar := ReadExpression;
if NewVar = nil then
begin
result := nil;
exit;
end;
if (GetTypeNo(BlockInfo, NewVar) = nil) or (not IsIntType(GetTypeNo(BlockInfo, NewVar).BaseType) and
(GetTypeNo(BlockInfo, NewVar).BaseType <> btEnum)) then
begin
NewVar.Free;
Result := nil;
MakeError('', ecTypeMismatch, '');
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', eccloseRoundExpected, '');
exit;
end;
NewVar := CallPred(NewVar);
FParser.Next;
end else
if FParser.GetToken = 'ASSIGNED' then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_OpenRound then
begin
Result := nil;
MakeError('', ecOpenRoundExpected, '');
exit;
end;
FParser.Next;
NewVar := GetIdentifier(0);
if NewVar = nil then
begin
result := nil;
exit;
end;
if (GetTypeNo(BlockInfo, NewVar) = nil) or ((GetTypeNo(BlockInfo, NewVar).BaseType <> btClass) and
(GetTypeNo(BlockInfo, NewVar).BaseType <> btPChar) and
(GetTypeNo(BlockInfo, NewVar).BaseType <> btString)) then
begin
NewVar.Free;
Result := nil;
MakeError('', ecTypeMismatch, '');
exit;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', eccloseRoundExpected, '');
exit;
end;
NewVar := CallAssigned(NewVar);
FParser.Next;
end else
begin
NewVar := GetIdentifier(0);
if NewVar = nil then
begin
Result := nil;
exit;
end;
end;
end;
else
begin
MakeError('', ecSyntaxError, '');
Result := nil;
exit;
end;
end; {case}
Result := NewVar;
end; // ReadFactor
function GetResultType(p1, P2: TPSValue; Cmd: TPSBinOperatorType): TPSType;
var
pp, t1, t2: PIFPSType;
begin
t1 := GetTypeNo(BlockInfo, p1);
t2 := GetTypeNo(BlockInfo, P2);
if (t1 = nil) or (t2 = nil) then
begin
if ((p1.ClassType = TPSValueNil) or (p2.ClassType = TPSValueNil)) and ((t1 <> nil) or (t2 <> nil)) then
begin
if p1.ClassType = TPSValueNil then
pp := t2
else
pp := t1;
if (pp.BaseType = btPchar) or (pp.BaseType = btString) or (pp.BaseType = btClass) {$IFNDEF PS_NOINTERFACES}or (pp.BaseType =btInterface){$ENDIF} or (pp.BaseType = btProcPtr) then
Result := AT2UT(FDefaultBoolType)
else
Result := nil;
exit;
end;
Result := nil;
exit;
end;
case Cmd of
otAdd: {plus}
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(t2.BaseType = btString) or
{$IFNDEF PS_NOWIDESTRING}
(t2.BaseType = btwideString) or
(t2.BaseType = btUnicodestring) or
(t2.BaseType = btwidechar) or
{$ENDIF}
(t2.BaseType = btPchar) or
(t2.BaseType = btChar) or
(isIntRealType(t2.BaseType))) then
Result := t1
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(t1.BaseType = btString) or
{$IFNDEF PS_NOWIDESTRING}
(t1.BaseType = btUnicodestring) or
(t1.BaseType = btwideString) or
(t1.BaseType = btwidechar) or
{$ENDIF}
(t1.BaseType = btPchar) or
(t1.BaseType = btChar) or
(isIntRealType(t1.BaseType))) then
Result := t2
else if ((t1.BaseType = btSet) and (t2.BaseType = btSet)) and (t1 = t2) then
Result := t1
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := t1
else if IsIntRealType(t1.BaseType) and
IsIntRealType(t2.BaseType) then
begin
if IsRealType(t1.BaseType) then
Result := t1
else
Result := t2;
end
else if (t1.basetype = btSet) and (t2.Name = 'TVARIANTARRAY') then
Result := t1
else if (t2.basetype = btSet) and (t1.Name = 'TVARIANTARRAY') then
Result := t2
else if ((t1.BaseType = btPchar) or(t1.BaseType = btString) or (t1.BaseType = btChar)) and ((t2.BaseType = btPchar) or(t2.BaseType = btString) or (t2.BaseType = btChar)) then
Result := at2ut(FindBaseType(btString))
{$IFNDEF PS_NOWIDESTRING}
else if ((t1.BaseType = btString) or (t1.BaseType = btChar) or (t1.BaseType = btPchar)or (t1.BaseType = btWideString) or (t1.BaseType = btWideChar) or (t1.BaseType = btUnicodeString)) and
((t2.BaseType = btString) or (t2.BaseType = btChar) or (t2.BaseType = btPchar) or (t2.BaseType = btWideString) or (t2.BaseType = btWideChar) or (t2.BaseType = btUnicodeString)) then
Result := at2ut(FindBaseType(btWideString))
{$ENDIF}
else
Result := nil;
end;
otSub, otMul, otDiv: { - * / }
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(isIntRealType(t2.BaseType))) then
Result := t1
else if ((t1.BaseType = btSet) and (t2.BaseType = btSet)) and (t1 = t2) and ((cmd = otSub) or (cmd = otMul)) then
Result := t1
else if (t1.basetype = btSet) and (t2.Name = 'TVARIANTARRAY') and ((cmd = otSub) or (cmd = otMul)) then
Result := t1
else if (t2.basetype = btSet) and (t1.Name = 'TVARIANTARRAY') and ((cmd = otSub) or (cmd = otMul)) then
Result := t2
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(isIntRealType(t1.BaseType))) then
Result := t2
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := t1
else if IsIntRealType(t1.BaseType) and
IsIntRealType(t2.BaseType) then
begin
if IsRealType(t1.BaseType) then
Result := t1
else
Result := t2;
end
else
Result := nil;
end;
otAnd, otOr, otXor: {and,or,xor}
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(isIntType(t2.BaseType))) then
Result := t1
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(isIntType(t1.BaseType))) then
Result := t2
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := t1
else if (IsBoolean(t1)) and ((t2 = t1) or ((t2.BaseType = btVariant)
or (t2.BaseType = btNotificationVariant))) then
begin
Result := t1;
if ((p1.ClassType = TPSValueData) or (p2.ClassType = TPSValueData)) then
begin
if cmd = otAnd then {and}
begin
if p1.ClassType = TPSValueData then
begin
if (TPSValueData(p1).FData^.tu8 <> 0) then
begin
with MakeWarning('', ewIsNotNeeded, '"True and"') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end else
begin
with MakeWarning('', ewCalculationAlwaysEvaluatesTo, 'False') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end;
end else begin
if (TPSValueData(p2).Data.tu8 <> 0) then
begin
with MakeWarning('', ewIsNotNeeded, '"and True"') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end
else
begin
with MakeWarning('', ewCalculationAlwaysEvaluatesTo, 'False') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end;
end;
end else if cmd = otOr then {or}
begin
if p1.ClassType = TPSValueData then
begin
if (TPSValueData(p1).Data.tu8 <> 0) then
begin
with MakeWarning('', ewCalculationAlwaysEvaluatesTo, 'True') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end
else
begin
with MakeWarning('', ewIsNotNeeded, '"False or"') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end
end else begin
if (TPSValueData(p2).Data.tu8 <> 0) then
begin
with MakeWarning('', ewCalculationAlwaysEvaluatesTo, 'True') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end
else
begin
with MakeWarning('', ewIsNotNeeded, '"or False"') do
begin
FRow := p1.Row;
FCol := p1.Col;
FPosition := p1.Pos;
end;
end
end;
end;
end;
end else
Result := nil;
end;
otMod, otShl, otShr: {mod,shl,shr}
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(isIntType(t2.BaseType))) then
Result := t1
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(isIntType(t1.BaseType))) then
Result := t2
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := t1
else
Result := nil;
end;
otGreater, otLess, otGreaterEqual, otLessEqual: { >=, <=, >, <}
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(t2.BaseType = btString) or
(t2.BaseType = btPchar) or
(t2.BaseType = btChar) or
(isIntRealType(t2.BaseType))) then
Result := FDefaultBoolType
else if ((t1.BaseType = btSet) and (t2.BaseType = btSet)) and (t1 = t2) and ((cmd = otGreaterEqual) or (cmd = otLessEqual)) then
Result := FDefaultBoolType
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(t1.BaseType = btString) or
(t1.BaseType = btPchar) or
(t1.BaseType = btChar) or
(isIntRealType(t1.BaseType))) then
Result := FDefaultBoolType
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := FDefaultBoolType
else if IsIntRealType(t1.BaseType) and
IsIntRealType(t2.BaseType) then
Result := FDefaultBoolType
else if
((t1.BaseType = btString) or (t1.BaseType = btChar) {$IFNDEF PS_NOWIDESTRING} or (t1.BaseType = btWideString) or (t1.BaseType = btWideChar) or (t1.BaseType = btUnicodestring){$ENDIF}) and
((t2.BaseType = btString) or (t2.BaseType = btChar) {$IFNDEF PS_NOWIDESTRING} or (t2.BaseType = btWideString) or (t2.BaseType = btWideChar) or (t2.BaseType = btUnicodestring){$ENDIF}) then
Result := FDefaultBoolType
else if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) then
Result := FDefaultBoolType
else
Result := nil;
end;
otEqual, otNotEqual: {=, <>}
begin
if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) and (
((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) or
(t2.BaseType = btString) or
(t2.BaseType = btPchar) or
(t2.BaseType = btChar) or
(isIntRealType(t2.BaseType))) then
Result := FDefaultBoolType
else if ((t1.BaseType = btSet) and (t2.BaseType = btSet)) and (t1 = t2) then
Result := FDefaultBoolType
else
if ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) and (
((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or
(t1.BaseType = btString) or
(t1.BaseType = btPchar) or
(t1.BaseType = btChar) or
(isIntRealType(t1.BaseType))) then
Result := FDefaultBoolType
else if IsIntType(t1.BaseType) and IsIntType(t2.BaseType) then
Result := FDefaultBoolType
else if IsIntRealType(t1.BaseType) and
IsIntRealType(t2.BaseType) then
Result := FDefaultBoolType
else if
((t1.BaseType = btString) or (t1.BaseType = btChar) {$IFNDEF PS_NOWIDESTRING} or (t1.BaseType = btWideString) or (t1.BaseType = btWideChar) or (t1.BaseType = btUnicodestring){$ENDIF}) and
((t2.BaseType = btString) or (t2.BaseType = btChar) {$IFNDEF PS_NOWIDESTRING} or (t2.BaseType = btWideString) or (t2.BaseType = btWideChar) or (t2.BaseType = btUnicodestring){$ENDIF}) then
Result := FDefaultBoolType
else if (t1.basetype = btSet) and (t2.Name = 'TVARIANTARRAY') then
Result := FDefaultBoolType
else if (t2.basetype = btSet) and (t1.Name = 'TVARIANTARRAY') then
Result := FDefaultBoolType
else if (t1.BaseType = btEnum) and (t1 = t2) then
Result := FDefaultBoolType
else if (t1.BaseType = btClass) and (t2.BaseType = btClass) then
Result := FDefaultBoolType
else if ((t1.BaseType = btVariant) or (t1.BaseType = btNotificationVariant)) or ((t2.BaseType = btVariant) or (t2.BaseType = btNotificationVariant)) then
Result := FDefaultBoolType
else Result := nil;
end;
otIn:
begin
if (t2.Name = 'TVARIANTARRAY') then
Result := FDefaultBoolType
else
if (t2.BaseType = btSet) and (TPSSetType(t2).SetType = t1) then
Result := FDefaultBoolType
else
Result := nil;
end;
otIs:
begin
if t2.BaseType = btType then
begin
Result := FDefaultBoolType
end else
Result := nil;
end;
otAs:
begin
if t2.BaseType = btType then
begin
Result := at2ut(TPSValueData(p2).Data.ttype);
end else
Result := nil;
end;
else
Result := nil;
end;
end;
function ReadTerm: TPSValue;
var
F1, F2: TPSValue;
F: TPSBinValueOp;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadFactor;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [CSTI_Multiply, CSTI_Divide, CSTII_Div, CSTII_Mod, CSTII_And, CSTII_Shl, CSTII_Shr, CSTII_As] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadFactor;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_Multiply: Op := otMul;
CSTII_div, CSTI_Divide: Op := otDiv;
CSTII_mod: Op := otMod;
CSTII_and: Op := otAnd;
CSTII_shl: Op := otShl;
CSTII_shr: Op := otShr;
CSTII_As: Op := otAs;
else
Op := otAdd;
end;
F := TPSBinValueOp.Create;
f.Val1 := F1;
f.Val2 := F2;
f.Operator := Op;
f.aType := GetResultType(F1, F2, Op);
if f.aType = nil then
begin
MakeError('', ecTypeMismatch, '');
f.Free;
Result := nil;
exit;
end;
f1 := f;
end;
Result := F1;
end; // ReadTerm
function ReadSimpleExpression: TPSValue;
var
F1, F2: TPSValue;
F: TPSBinValueOp;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadTerm;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [CSTI_Plus, CSTI_Minus, CSTII_Or, CSTII_Xor] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadTerm;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_Plus: Op := otAdd;
CSTI_Minus: Op := otSub;
CSTII_or: Op := otOr;
CSTII_xor: Op := otXor;
else
Op := otAdd;
end;
F := TPSBinValueOp.Create;
f.Val1 := F1;
f.Val2 := F2;
f.Operator := Op;
f.aType := GetResultType(F1, F2, Op);
if f.aType = nil then
begin
MakeError('', ecTypeMismatch, '');
f.Free;
Result := nil;
exit;
end;
f1 := f;
end;
Result := F1;
end; // ReadSimpleExpression
function ReadExpression: TPSValue;
var
F1, F2: TPSValue;
F: TPSBinValueOp;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadSimpleExpression;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [ CSTI_GreaterEqual, CSTI_LessEqual, CSTI_Greater, CSTI_Less, CSTI_Equal, CSTI_NotEqual, CSTII_in, CSTII_is] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadSimpleExpression;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_GreaterEqual: Op := otGreaterEqual;
CSTI_LessEqual: Op := otLessEqual;
CSTI_Greater: Op := otGreater;
CSTI_Less: Op := otLess;
CSTI_Equal: Op := otEqual;
CSTI_NotEqual: Op := otNotEqual;
CSTII_in: Op := otIn;
CSTII_is: Op := otIs;
else
Op := otAdd;
end;
F := TPSBinValueOp.Create;
f.Val1 := F1;
f.Val2 := F2;
f.Operator := Op;
f.aType := GetResultType(F1, F2, Op);
if f.aType = nil then
begin
MakeError('', ecTypeMismatch, '');
f.Free;
Result := nil;
exit;
end;
f1 := f;
end;
Result := F1;
end; // ReadExpression
function TryEvalConst(var P: TPSValue): Boolean;
var
preplace: TPSValue;
begin
if p is TPSBinValueOp then
begin
if not (TryEvalConst(TPSBinValueOp(p).FVal1) and TryEvalConst(TPSBinValueOp(p).FVal2)) then
begin
Result := False;
exit;
end;
if (TPSBinValueOp(p).FVal1.ClassType = TPSValueData) and (TPSBinValueOp(p).FVal2.ClassType = TPSValueData) then
begin
if not PreCalc(True, 0, TPSValueData(TPSBinValueOp(p).Val1).Data, 0, TPSValueData(TPSBinValueOp(p).Val2).Data, TPSBinValueOp(p).Operator, p.Pos, p.Row, p.Col) then
begin
Result := False;
exit;
end;
preplace := TPSValueData.Create;
preplace.Pos := p.Pos;
preplace.Row := p.Row;
preplace.Col := p.Col;
TPSValueData(preplace).Data := TPSValueData(TPSBinValueOp(p).Val1).Data;
TPSValueData(TPSBinValueOp(p).Val1).Data := nil;
p.Free;
p := preplace;
end;
end else if p is TPSUnValueOp then
begin
if not TryEvalConst(TPSUnValueOp(p).FVal1) then
begin
Result := False;
exit;
end;
if TPSUnValueOp(p).FVal1.ClassType = TPSValueData then
begin
//
case TPSUnValueOp(p).Operator of
otNot:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data^.FType.BaseType of
btEnum:
begin
if IsBoolean(TPSValueData(TPSUnValueOp(p).FVal1).Data^.FType) then
begin
TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8 := (not TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8) and 1;
end else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end;
btU8: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btU16: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btU32: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu32 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu32;
bts8: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts8 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts8;
bts16: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts16 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts16;
bts32: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts32 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts32;
{$IFNDEF PS_NOINT64}
bts64: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64 := not TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end;
preplace := TPSUnValueOp(p).Val1;
TPSUnValueOp(p).Val1 := nil;
p.Free;
p := preplace;
end;
otMinus:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data^.FType.BaseType of
btU8: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btU16: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btU32: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu32 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu32;
bts8: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts8 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts8;
bts16: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts16 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts16;
bts32: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts32 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts32;
{$IFNDEF PS_NOINT64}
bts64: TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64 := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
btSingle: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tsingle := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tsingle;
btDouble: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tdouble := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tdouble;
btExtended: TPSValueData(TPSUnValueOp(p).FVal1).Data^.textended := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.textended;
btCurrency: TPSValueData(TPSUnValueOp(p).FVal1).Data^.tcurrency := -TPSValueData(TPSUnValueOp(p).FVal1).Data^.tcurrency;
else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end;
preplace := TPSUnValueOp(p).Val1;
TPSUnValueOp(p).Val1 := nil;
p.Free;
p := preplace;
end;
otCast:
begin
preplace := TPSValueData.Create;
TPSValueData(preplace).Data := NewVariant(TPSUnValueOp(p).FType);
case TPSUnValueOp(p).FType.BaseType of
btU8:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.tu8 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.tu8 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.tu8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
btS8:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.ts8 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.ts8 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.ts8 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
btU16:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.tu16 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.tu16 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.tu16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
bts16:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.ts16 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.ts16 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.ts16 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
btU32:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.tu32 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.tu32 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
btS32:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.ts32 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.ts32 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.ts32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.tu32 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
{$IFNDEF PS_NOINT64}
btS64:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.ts64 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar);
{$IFNDEF PS_NOWIDESTRING}
btwidechar: TPSValueData(preplace).Data.ts64 := ord(TPSValueData(TPSUnValueOp(p).FVal1).Data^.twidechar);
{$ENDIF}
btU8: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8;
btS8: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8;
btU16: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16;
btS16: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16;
btU32: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32;
btS32: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32;
btS64: TPSValueData(preplace).Data.ts64 := TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64;
else
begin
MakeError('', ecTypeMismatch, '');
preplace.Free;
Result := False;
exit;
end;
end;
end;
{$ENDIF}
btChar:
begin
case TPSValueData(TPSUnValueOp(p).FVal1).Data.Ftype.basetype of
btchar: TPSValueData(preplace).Data.tchar := TPSValueData(TPSUnValueOp(p).FVal1).Data^.tchar;
btU8: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu8);
btS8: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS8);
btU16: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tu16);
btS16: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS16);
btU32: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tU32);
btS32: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.tS32);
{$IFNDEF PS_NOINT64}
btS64: TPSValueData(preplace).Data.tchar := tbtchar(TPSValueData(TPSUnValueOp(p).FVal1).Data^.ts64);
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
preplace.Free;
exit;
end;
end;
end;
else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
preplace.Free;
exit;
end;
end;
p.Free;
p := preplace;
end;
else
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
end; // case
end; // if
end;
Result := True;
end;
var
Val: TPSValue;
begin
Val := ReadExpression;
if Val = nil then
begin
Result := nil;
exit;
end;
if not TryEvalConst(Val) then
begin
Val.Free;
Result := nil;
exit;
end;
Result := Val;
end;
function ReadParameters(IsProperty: Boolean; Dest: TPSParameters): Boolean;
var
sr,cr: TPSPasToken;
begin
if IsProperty then
begin
sr := CSTI_OpenBlock;
cr := CSTI_CloseBlock;
end else begin
sr := CSTI_OpenRound;
cr := CSTI_CloseRound;
end;
if FParser.CurrTokenId = sr then
begin
FParser.Next;
if FParser.CurrTokenId = cr then
begin
FParser.Next;
Result := True;
exit;
end;
end else
begin
result := True;
exit;
end;
repeat
with Dest.Add do
begin
Val := calc(CSTI_CloseRound);
if Val = nil then
begin
result := false;
exit;
end;
end;
if FParser.CurrTokenId = cr then
begin
FParser.Next;
Break;
end;
if FParser.CurrTokenId <> CSTI_Comma then
begin
MakeError('', ecCommaExpected, '');
Result := false;
exit;
end; {if}
FParser.Next;
until False;
Result := true;
end;
function ReadProcParameters(ProcNo: Cardinal; FSelf: TPSValue): TPSValue;
var
Decl: TPSParametersDecl;
begin
if TPSProcedure(FProcs[ProcNo]).ClassType = TPSInternalProcedure then
Decl := TPSInternalProcedure(FProcs[ProcNo]).Decl
else
Decl := TPSExternalProcedure(FProcs[ProcNo]).RegProc.Decl;
UseProc(Decl);
Result := TPSValueProcNo.Create;
TPSValueProcNo(Result).ProcNo := ProcNo;
TPSValueProcNo(Result).ResultType := Decl.Result;
with TPSValueProcNo(Result) do
begin
SetParserPos(FParser);
Parameters := TPSParameters.Create;
if FSelf <> nil then
begin
Parameters.Add;
end;
end;
if not ReadParameters(False, TPSValueProc(Result).Parameters) then
begin
FSelf.Free;
Result.Free;
Result := nil;
exit;
end;
if not ValidateParameters(BlockInfo, TPSValueProc(Result).Parameters, Decl) then
begin
FSelf.Free;
Result.Free;
Result := nil;
exit;
end;
if FSelf <> nil then
begin
with TPSValueProcNo(Result).Parameters[0] do
begin
Val := FSelf;
ExpectedType := GetTypeNo(BlockInfo, FSelf);
end;
end;
end;
{$IFNDEF PS_NOIDISPATCH}
function ReadIDispatchParameters(const ProcName: tbtString; aVariantType: TPSVariantType; FSelf: TPSValue): TPSValue;
var
Par: TPSParameters;
PropSet: Boolean;
i: Longint;
Temp: TPSValue;
begin
Par := TPSParameters.Create;
try
if not ReadParameters(FParser.CurrTokenID = CSTI_OpenBlock, Par) then
begin
FSelf.Free;
Result := nil;
exit;
end;
if FParser.CurrTokenID = CSTI_Assignment then
begin
FParser.Next;
PropSet := True;
Temp := calc(CSTI_SemiColon);
if temp = nil then
begin
FSelf.Free;
Result := nil;
exit;
end;
with par.Add do
begin
FValue := Temp;
end;
end else
begin
PropSet := False;
end;
Result := TPSValueProcNo.Create;
TPSValueProcNo(Result).ResultType := aVariantType;
with TPSValueProcNo(Result) do
begin
SetParserPos(FParser);
Parameters := TPSParameters.Create;
if FSelf <> nil then
begin
with Parameters.Add do
begin
Val := FSelf;
ExpectedType := aVariantType.GetDynIvokeSelfType(Self);
end;
with Parameters.Add do
begin
Val := TPSValueData.Create;
TPSValueData(Val).Data := NewVariant(FDefaultBoolType);
TPSValueData(Val).Data.tu8 := Ord(PropSet);
ExpectedType := FDefaultBoolType;
end;
with Parameters.Add do
begin
Val := TPSValueData.Create;
TPSValueData(Val).Data := NewVariant(FindBaseType(btString));
tbtString(TPSValueData(Val).data.tString) := Procname;
ExpectedType := FindBaseType(btString);
end;
with Parameters.Add do
begin
val := TPSValueArray.Create;
ExpectedType := aVariantType.GetDynInvokeParamType(Self);
temp := Val;
end;
for i := 0 to Par.Count -1 do
begin
TPSValueArray(Temp).Add(par.Item[i].Val);
par.Item[i].val := nil;
end;
end;
end;
TPSValueProcNo(Result).ProcNo := aVariantType.GetDynInvokeProcNo(Self, ProcName, TPSValueProcNo(Result).Parameters);
finally
Par.Free;
end;
end;
{$ENDIF}
function ReadVarParameters(ProcNoVar: TPSValue): TPSValue;
var
Decl: TPSParametersDecl;
begin
Decl := TPSProceduralType(GetTypeNo(BlockInfo, ProcnoVar)).ProcDef;
UseProc(Decl);
Result := TPSValueProcVal.Create;
with TPSValueProcVal(Result) do
begin
ResultType := Decl.Result;
ProcNo := ProcNoVar;
Parameters := TPSParameters.Create;
end;
if not ReadParameters(False, TPSValueProc(Result).Parameters) then
begin
Result.Free;
Result := nil;
exit;
end;
if not ValidateParameters(BlockInfo, TPSValueProc(Result).Parameters, Decl) then
begin
Result.Free;
Result := nil;
exit;
end;
end;
function WriteCalculation(InData, OutReg: TPSValue): Boolean;
function CheckOutreg(Where, Outreg: TPSValue; aRoot: Boolean): Boolean;
var
i: Longint;
begin
Result := False;
if Outreg is TPSValueReplace
then Outreg:=TPSValueReplace(Outreg).OldValue;
if Where is TPSValueVar then begin
if TPSValueVar(Where).GetRecCount > 0 then result := true;
if SAmeReg(Where, OutReg) and not aRoot then
result := true;
end else
if Where.ClassType = TPSUnValueOp then
begin
if CheckOutReg(TPSUnValueOp(Where).Val1, OutReg, aRoot) then
Result := True;
end else if Where.ClassType = TPSBinValueOp then
begin
if CheckOutreg(TPSBinValueOp(Where).Val1, OutReg, aRoot) or CheckOutreg(TPSBinValueOp(Where).Val2, OutReg, False) then
Result := True;
end else if Where is TPSValueVar then
begin
if SameReg(Where, OutReg) then
Result := True;
end else if Where is TPSValueProc then
begin
for i := 0 to TPSValueProc(Where).Parameters.Count -1 do
begin
if Checkoutreg(TPSValueProc(Where).Parameters[i].Val, Outreg, false) then
begin
Result := True;
break;
end;
end;
end;
end;
begin
if not CheckCompatType(Outreg, InData) then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
if SameReg(OutReg, InData) then
begin
Result := True;
exit;
end;
if InData is TPSValueProc then
begin
Result := _ProcessFunction(TPSValueProc(indata), OutReg)
end else begin
if not PreWriteOutRec(OutReg, nil) then
begin
Result := False;
exit;
end;
if (not CheckOutReg(InData, OutReg, true)) and (InData is TPSBinValueOp) or (InData is TPSUnValueOp) then
begin
if InData is TPSBinValueOp then
begin
if not DoBinCalc(TPSBinValueOp(InData), OutReg) then
begin
AfterWriteOutRec(OutReg);
Result := False;
exit;
end;
end else
begin
if not DoUnCalc(TPSUnValueOp(InData), OutReg) then
begin
AfterWriteOutRec(OutReg);
Result := False;
exit;
end;
end;
end else if (InData is TPSBinValueOp) and (not CheckOutReg(TPSBinValueOp(InData).Val2, OutReg, false)) then
begin
if not DoBinCalc(TPSBinValueOp(InData), OutReg) then
begin
AfterWriteOutRec(OutReg);
Result := False;
exit;
end;
end else begin
if not PreWriteOutRec(InData, GetTypeNo(BlockInfo, OutReg)) then
begin
Result := False;
exit;
end;
BlockWriteByte(BlockInfo, CM_A);
if not (WriteOutRec(OutReg, False) and WriteOutRec(InData, True)) then
begin
Result := False;
exit;
end;
AfterWriteOutRec(InData);
end;
AfterWriteOutRec(OutReg);
Result := True;
end;
end; {WriteCalculation}
function _ProcessFunction(ProcCall: TPSValueProc; ResultRegister: TPSValue): Boolean;
var
res: TPSType;
tmp: TPSParameter;
lTv: TPSValue;
resreg: TPSValue;
l: Longint;
function Cleanup: Boolean;
var
i: Longint;
begin
for i := 0 to ProcCall.Parameters.Count -1 do
begin
if ProcCall.Parameters[i].TempVar <> nil then
ProcCall.Parameters[i].TempVar.Free;
ProcCall.Parameters[i].TempVar := nil;
end;
if ProcCall is TPSValueProcVal then
AfterWriteOutRec(TPSValueProcVal(ProcCall).fProcNo);
if ResReg <> nil then
AfterWriteOutRec(resreg);
if ResReg <> nil then
begin
if ResReg <> ResultRegister then
begin
if ResultRegister <> nil then
begin
if not WriteCalculation(ResReg, ResultRegister) then
begin
Result := False;
resreg.Free;
exit;
end;
end;
resreg.Free;
end;
end;
Result := True;
end;
begin
Res := ProcCall.ResultType;
Result := False;
if (res = nil) and (ResultRegister <> nil) then
begin
MakeError('', ecNoResult, '');
exit;
end
else if (res <> nil) then
begin
if (ResultRegister = nil) or (Res <> GetTypeNo(BlockInfo, ResultRegister)) then
begin
resreg := AllocStackReg(res);
end else resreg := ResultRegister;
end
else
resreg := nil;
if ResReg <> nil then
begin
if not PreWriteOutRec(resreg, nil) then
begin
Cleanup;
exit;
end;
end;
if Proccall is TPSValueProcVal then
begin
if not PreWriteOutRec(TPSValueProcVal(ProcCall).fProcNo, nil) then
begin
Cleanup;
exit;
end;
end;
for l := ProcCall.Parameters.Count - 1 downto 0 do
begin
Tmp := ProcCall.Parameters[l];
if (Tmp.ParamMode <> pmIn) then
begin
if IsVarInCompatible(GetTypeNo(BlockInfo, tmp.Val), tmp.ExpectedType) then
begin
with MakeError('', ecTypeMismatch, '') do
begin
pos := tmp.Val.Pos;
row := tmp.Val.row;
col := tmp.Val.col;
end;
Cleanup;
exit;
end;
if Copy(tmp.ExpectedType.Name, 1, 10) = '!OPENARRAY' then begin
tmp.TempVar := AllocPointer(tmp.ExpectedType);
lTv := AllocStackReg(tmp.ExpectedType);
if not PreWriteOutRec(Tmp.FValue, nil) then
begin
cleanup;
exit;
end;
BlockWriteByte(BlockInfo, CM_A);
WriteOutRec(lTv, False);
WriteOutRec(Tmp.FValue, False);
AfterWriteOutRec(Tmp.FValue);
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmp.TempVar, False);
WriteOutRec(lTv, False);
lTv.Free;
// BlockWriteByte(BlockInfo, CM_PO); // pop the temp var
end else begin
tmp.TempVar := AllocPointer(GetTypeNo(BlockInfo, Tmp.FValue));
if not PreWriteOutRec(Tmp.FValue, nil) then
begin
cleanup;
exit;
end;
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmp.TempVar, False);
WriteOutRec(Tmp.FValue, False);
AfterWriteOutRec(Tmp.FValue);
end;
end
else
begin
if Tmp.ExpectedType = nil then
Tmp.ExpectedType := GetTypeNo(BlockInfo, tmp.Val);
if Tmp.ExpectedType.BaseType = btPChar then
begin
Tmp.TempVar := AllocStackReg(at2ut(FindBaseType(btstring)))
end else
begin
Tmp.TempVar := AllocStackReg(Tmp.ExpectedType);
end;
if not WriteCalculation(Tmp.Val, Tmp.TempVar) then
begin
Cleanup;
exit;
end;
end;
end; {for}
if res <> nil then
begin
BlockWriteByte(BlockInfo, CM_PV);
if not WriteOutRec(resreg, False) then
begin
Cleanup;
MakeError('', ecInternalError, '00015');
exit;
end;
end;
if ProcCall is TPSValueProcVal then
begin
BlockWriteByte(BlockInfo, Cm_cv);
WriteOutRec(TPSValueProcVal(ProcCall).ProcNo, True);
end else begin
BlockWriteByte(BlockInfo, CM_C);
BlockWriteLong(BlockInfo, TPSValueProcNo(ProcCall).ProcNo);
end;
if res <> nil then
BlockWriteByte(BlockInfo, CM_PO);
if not Cleanup then
begin
Result := False;
exit;
end;
Result := True;
end; {ProcessVarFunction}
function HasInvalidJumps(StartPos, EndPos: Cardinal): Boolean;
var
I, J: Longint;
Ok: LongBool;
FLabelsInBlock: TIfStringList;
s: tbtString;
begin
FLabelsInBlock := TIfStringList.Create;
for i := 0 to BlockInfo.Proc.FLabels.Count -1 do
begin
s := BlockInfo.Proc.FLabels[I];
if (Cardinal((@s[1])^) >= StartPos) and (Cardinal((@s[1])^) <= EndPos) then
begin
Delete(s, 1, 8);
FLabelsInBlock.Add(s);
end;
end;
for i := 0 to BlockInfo.Proc.FGotos.Count -1 do
begin
s := BlockInfo.Proc.FGotos[I];
if (Cardinal((@s[1])^) >= StartPos) and (Cardinal((@s[1])^) <= EndPos) then
begin
Delete(s, 1, 4);
s := BlockInfo.Proc.FLabels[Cardinal((@s[1])^)];
Delete(s,1,8);
OK := False;
for J := 0 to FLabelsInBlock.Count -1 do
begin
if FLabelsInBlock[J] = s then
begin
Ok := True;
Break;
end;
end;
if not Ok then
begin
MakeError('', ecInvalidJump, '');
Result := True;
FLabelsInBlock.Free;
exit;
end;
end else begin
Delete(s, 1, 4);
s := BlockInfo.Proc.FLabels[Cardinal((@s[1])^)];
Delete(s,1,8);
OK := True;
for J := 0 to FLabelsInBlock.Count -1 do
begin
if FLabelsInBlock[J] = s then
begin
Ok := False;
Break;
end;
end;
if not Ok then
begin
MakeError('', ecInvalidJump, '');
Result := True;
FLabelsInBlock.Free;
exit;
end;
end;
end;
FLabelsInBlock.Free;
Result := False;
end;
function ProcessFor: Boolean;
{ Process a for x := y to z do }
var
VariableVar: TPSValue;
TempBool,
InitVal,
finVal: TPSValue;
Block: TPSBlockInfo;
Backwards: Boolean;
FPos, NPos, EPos, RPos: Longint;
OldCO, OldBO: TPSList;
I: Longint;
iOldWithCount: Integer;
iOldTryCount: Integer;
iOldExFnlCount: Integer;
lType: TPSType;
begin
Debug_WriteLine(BlockInfo);
Result := False;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
VariableVar := GetIdentifier(1);
if VariableVar = nil then
exit;
lType := GetTypeNo(BlockInfo, VariableVar);
if lType = nil then begin
MakeError('', ecTypeMismatch, '');
VariableVar.Free;
exit;
end;
case lType.BaseType of
btU8, btS8, btU16, btS16, btU32, btS32, {$IFNDEF PS_NOINT64} btS64, {$ENDIF} btVariant: ;
else
begin
MakeError('', ecTypeMismatch, '');
VariableVar.Free;
exit;
end;
end;
if FParser.CurrTokenId <> CSTI_Assignment then
begin
MakeError('', ecAssignmentExpected, '');
VariableVar.Free;
exit;
end;
FParser.Next;
InitVal := calc(CSTII_DownTo);
if InitVal = nil then
begin
VariableVar.Free;
exit;
end;
if FParser.CurrTokenId = CSTII_To then
Backwards := False
else if FParser.CurrTokenId = CSTII_DownTo then
Backwards := True
else
begin
MakeError('', ecToExpected, '');
VariableVar.Free;
InitVal.Free;
exit;
end;
FParser.Next;
finVal := calc(CSTII_do);
if finVal = nil then
begin
VariableVar.Free;
InitVal.Free;
exit;
end;
lType := GetTypeNo(BlockInfo, finVal);
if lType = nil then begin
MakeError('', ecTypeMismatch, '');
VariableVar.Free;
InitVal.Free;
exit;
end;
case lType.BaseType of
btVariant, btU8, btS8, btU16, btS16, btU32, btS32: ;
else
begin
MakeError('', ecTypeMismatch, '');
VariableVar.Free;
InitVal.Free;
exit;
end;
end;
if FParser.CurrTokenId <> CSTII_do then
begin
MakeError('', ecDoExpected, '');
finVal.Free;
InitVal.Free;
VariableVar.Free;
exit;
end;
FParser.Next;
if not WriteCalculation(InitVal, VariableVar) then
begin
VariableVar.Free;
InitVal.Free;
finVal.Free;
exit;
end;
InitVal.Free;
TempBool := AllocStackReg(at2ut(FDefaultBoolType));
NPos := Length(BlockInfo.Proc.Data);
if not (PreWriteOutRec(VariableVar, nil) and PreWriteOutRec(finVal, nil)) then
begin
TempBool.Free;
VariableVar.Free;
finVal.Free;
exit;
end;
BlockWriteByte(BlockInfo, CM_CO);
if Backwards then
begin
BlockWriteByte(BlockInfo, 0); { >= }
end
else
begin
BlockWriteByte(BlockInfo, 1); { <= }
end;
if not (WriteOutRec(TempBool, False) and WriteOutRec(VariableVar, True) and WriteOutRec(finVal, True)) then
begin
TempBool.Free;
VariableVar.Free;
finVal.Free;
exit;
end;
AfterWriteOutRec(finVal);
AfterWriteOutRec(VariableVar);
finVal.Free;
BlockWriteByte(BlockInfo, Cm_CNG);
EPos := Length(BlockInfo.Proc.Data);
BlockWriteLong(BlockInfo, $12345678);
WriteOutRec(TempBool, False);
RPos := Length(BlockInfo.Proc.Data);
OldCO := FContinueOffsets;
FContinueOffsets := TPSList.Create;
OldBO := FBreakOffsets;
FBreakOffsets := TPSList.Create;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tOneLiner;
iOldWithCount := FWithCount;
FWithCount := 0;
iOldTryCount := FTryCount;
FTryCount := 0;
iOldExFnlCount := FExceptFinallyCount;
FExceptFinallyCount := 0;
if not ProcessSub(Block) then
begin
Block.Free;
TempBool.Free;
VariableVar.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
Block.Free;
FPos := Length(BlockInfo.Proc.Data);
if not PreWriteOutRec(VariableVar, nil) then
begin
TempBool.Free;
VariableVar.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
if Backwards then
BlockWriteByte(BlockInfo, cm_dec)
else
BlockWriteByte(BlockInfo, cm_inc);
if not WriteOutRec(VariableVar, False) then
begin
TempBool.Free;
VariableVar.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
AfterWriteOutRec(VariableVar);
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, Longint(NPos - Length(BlockInfo.Proc.Data) - 4));
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos + 1])^)) := Length(BlockInfo.Proc.Data) - RPos;
{$else}
Longint((@BlockInfo.Proc.Data[EPos + 1])^) := Length(BlockInfo.Proc.Data) - RPos;
{$endif}
for i := 0 to FBreakOffsets.Count -1 do
begin
EPos := IPointer(FBreakOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$endif}
end;
for i := 0 to FContinueOffsets.Count -1 do
begin
EPos := IPointer(FContinueOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Longint(FPos) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Longint(FPos) - Longint(EPos);
{$endif}
end;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
TempBool.Free;
VariableVar.Free;
if HasInvalidJumps(RPos, Length(BlockInfo.Proc.Data)) then
begin
Result := False;
exit;
end;
Result := True;
end; {ProcessFor}
function ProcessWhile: Boolean;
var
vin, vout: TPSValue;
SPos, EPos: Cardinal;
OldCo, OldBO: TPSList;
I: Longint;
Block: TPSBlockInfo;
iOldWithCount: Integer;
iOldTryCount: Integer;
iOldExFnlCount: Integer;
begin
Result := False;
Debug_WriteLine(BlockInfo);
FParser.Next;
vout := calc(CSTII_do);
if vout = nil then
exit;
if FParser.CurrTokenId <> CSTII_do then
begin
vout.Free;
MakeError('', ecDoExpected, '');
exit;
end;
vin := AllocStackReg(at2ut(FDefaultBoolType));
SPos := Length(BlockInfo.Proc.Data); // start position
OldCo := FContinueOffsets;
FContinueOffsets := TPSList.Create;
OldBO := FBreakOffsets;
FBreakOffsets := TPSList.Create;
if not WriteCalculation(vout, vin) then
begin
vout.Free;
vin.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
exit;
end;
vout.Free;
FParser.Next; // skip DO
BlockWriteByte(BlockInfo, Cm_CNG); // only goto if expression is false
BlockWriteLong(BlockInfo, $12345678);
EPos := Length(BlockInfo.Proc.Data);
if not WriteOutRec(vin, False) then
begin
MakeError('', ecInternalError, '00017');
vin.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
exit;
end;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tOneLiner;
iOldWithCount := FWithCount;
FWithCount := 0;
iOldTryCount := FTryCount;
FTryCount := 0;
iOldExFnlCount := FExceptFinallyCount;
FExceptFinallyCount := 0;
if not ProcessSub(Block) then
begin
Block.Free;
vin.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
Block.Free;
Debug_WriteLine(BlockInfo);
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, Longint(SPos) - Length(BlockInfo.Proc.Data) - 4);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(EPos) - 5;
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(EPos) - 5;
{$endif}
for i := 0 to FBreakOffsets.Count -1 do
begin
EPos := Cardinal(FBreakOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$endif}
end;
for i := 0 to FContinueOffsets.Count -1 do
begin
EPos := Cardinal(FContinueOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Longint(SPos) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Longint(SPos) - Longint(EPos);
{$endif}
end;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
vin.Free;
if HasInvalidJumps(EPos, Length(BlockInfo.Proc.Data)) then
begin
Result := False;
exit;
end;
Result := True;
end;
function ProcessRepeat: Boolean;
var
vin, vout: TPSValue;
CPos, SPos, EPos: Cardinal;
I: Longint;
OldCo, OldBO: TPSList;
Block: TPSBlockInfo;
iOldWithCount: Integer;
iOldTryCount: Integer;
iOldExFnlCount: Integer;
begin
Result := False;
Debug_WriteLine(BlockInfo);
FParser.Next;
OldCo := FContinueOffsets;
FContinueOffsets := TPSList.Create;
OldBO := FBreakOffsets;
FBreakOffsets := TPSList.Create;
vin := AllocStackReg(at2ut(FDefaultBoolType));
SPos := Length(BlockInfo.Proc.Data);
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tRepeat;
iOldWithCount := FWithCount;
FWithCount := 0;
iOldTryCount := FTryCount;
FTryCount := 0;
iOldExFnlCount := FExceptFinallyCount;
FExceptFinallyCount := 0;
if not ProcessSub(Block) then
begin
Block.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
vin.Free;
exit;
end;
Block.Free;
FParser.Next; //cstii_until
vout := calc(CSTI_Semicolon);
if vout = nil then
begin
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
vin.Free;
exit;
end;
CPos := Length(BlockInfo.Proc.Data);
if not WriteCalculation(vout, vin) then
begin
vout.Free;
vin.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
vout.Free;
BlockWriteByte(BlockInfo, Cm_CNG);
BlockWriteLong(BlockInfo, $12345678);
EPos := Length(BlockInfo. Proc.Data);
if not WriteOutRec(vin, False) then
begin
MakeError('', ecInternalError, '00016');
vin.Free;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
exit;
end;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Longint(SPos) -
Length(BlockInfo.Proc.Data);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Longint(SPos) -
Length(BlockInfo.Proc.Data);
{$endif}
for i := 0 to FBreakOffsets.Count -1 do
begin
EPos := Cardinal(FBreakOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Length(BlockInfo. Proc.Data) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Length(BlockInfo. Proc.Data) - Longint(EPos);
{$endif}
end;
for i := 0 to FContinueOffsets.Count -1 do
begin
EPos := Cardinal(FContinueOffsets[I]);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Longint(CPos) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Longint(CPos) - Longint(EPos);
{$endif}
end;
FBreakOffsets.Free;
FContinueOffsets.Free;
FContinueOffsets := OldCO;
FBreakOffsets := OldBo;
FWithCount := iOldWithCount;
FTryCount := iOldTryCount;
FExceptFinallyCount := iOldExFnlCount;
vin.Free;
if HasInvalidJumps(SPos, Length(BlockInfo. Proc.Data)) then
begin
Result := False;
exit;
end;
Result := True;
end; {ProcessRepeat}
function ProcessIf: Boolean;
var
vout, vin: TPSValue;
SPos, EPos: Cardinal;
Block: TPSBlockInfo;
begin
Result := False;
Debug_WriteLine(BlockInfo);
FParser.Next;
vout := calc(CSTII_Then);
if vout = nil then
exit;
if FParser.CurrTokenId <> CSTII_Then then
begin
vout.Free;
MakeError('', ecThenExpected, '');
exit;
end;
vin := AllocStackReg(at2ut(FDefaultBoolType));
if not WriteCalculation(vout, vin) then
begin
vout.Free;
vin.Free;
exit;
end;
vout.Free;
BlockWriteByte(BlockInfo, cm_sf);
if not WriteOutRec(vin, False) then
begin
MakeError('', ecInternalError, '00018');
vin.Free;
exit;
end;
BlockWriteByte(BlockInfo, 1);
vin.Free;
BlockWriteByte(BlockInfo, cm_fg);
BlockWriteLong(BlockInfo, $12345678);
SPos := Length(BlockInfo.Proc.Data);
FParser.Next; // skip then
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tifOneliner;
if not ProcessSub(Block) then
begin
Block.Free;
exit;
end;
Block.Free;
if FParser.CurrTokenId = CSTII_Else then
begin
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, $12345678);
EPos := Length(BlockInfo.Proc.Data);
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[SPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(SPos);
{$else}
Longint((@BlockInfo.Proc.Data[SPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(SPos);
{$endif}
FParser.Next;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tOneLiner;
if not ProcessSub(Block) then
begin
Block.Free;
exit;
end;
Block.Free;
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[EPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$else}
Longint((@BlockInfo.Proc.Data[EPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(EPos);
{$endif}
end
else
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Longint((@BlockInfo.Proc.Data[SPos - 3])^)) := Length(BlockInfo.Proc.Data) - Longint(SPos) + 5 - 5;
{$else}
Longint((@BlockInfo.Proc.Data[SPos - 3])^) := Length(BlockInfo.Proc.Data) - Longint(SPos) + 5 - 5;
{$endif}
end;
Result := True;
end; {ProcessIf}
function _ProcessLabel: Longint; {0 = failed; 1 = successful; 2 = no label}
var
I, H: Longint;
s: tbtString;
begin
h := MakeHash(FParser.GetToken);
for i := 0 to BlockInfo.Proc.FLabels.Count -1 do
begin
s := BlockInfo.Proc.FLabels[I];
delete(s, 1, 4);
if Longint((@s[1])^) = h then
begin
delete(s, 1, 4);
if s = FParser.GetToken then
begin
s := BlockInfo.Proc.FLabels[I];
Cardinal((@s[1])^) := Length(BlockInfo.Proc.Data);
BlockInfo.Proc.FLabels[i] := s;
FParser.Next;
if fParser.CurrTokenId = CSTI_Colon then
begin
Result := 1;
FParser.Next;
exit;
end else begin
MakeError('', ecColonExpected, '');
Result := 0;
Exit;
end;
end;
end;
end;
result := 2;
end;
function ProcessIdentifier: Boolean;
var
vin, vout: TPSValue;
begin
Result := False;
Debug_WriteLine(BlockInfo);
vin := GetIdentifier(2);
if vin <> nil then
begin
if vin is TPSValueVar then
begin // assignment needed
if FParser.CurrTokenId <> CSTI_Assignment then
begin
MakeError('', ecAssignmentExpected, '');
vin.Free;
exit;
end;
FParser.Next;
vout := calc(CSTI_Semicolon);
if vout = nil then
begin
vin.Free;
exit;
end;
if not WriteCalculation(vout, vin) then
begin
vin.Free;
vout.Free;
exit;
end;
vin.Free;
vout.Free;
end else if vin is TPSValueProc then
begin
Result := _ProcessFunction(TPSValueProc(vin), nil);
vin.Free;
Exit;
end else
begin
MakeError('', ecInternalError, '20');
vin.Free;
REsult := False;
exit;
end;
end
else
begin
Result := False;
exit;
end;
Result := True;
end; {ProcessIdentifier}
function ProcessCase: Boolean;
var
V1, V2, TempRec, Val, CalcItem: TPSValue;
p: TPSBinValueOp;
SPos, CurrP: Cardinal;
I: Longint;
EndReloc: TPSList;
Block: TPSBlockInfo;
function NewRec(val: TPSValue): TPSValueReplace;
begin
Result := TPSValueReplace.Create;
Result.SetParserPos(FParser);
Result.FNewValue := Val;
Result.FreeNewValue := False;
end;
function Combine(v1, v2: TPSValue; Op: TPSBinOperatorType): TPSValue;
begin
if V1 = nil then
begin
Result := v2;
end else if v2 = nil then
begin
Result := V1;
end else
begin
Result := TPSBinValueOp.Create;
TPSBinValueOp(Result).FType := FDefaultBoolType;
TPSBinValueOp(Result).Operator := Op;
Result.SetParserPos(FParser);
TPSBinValueOp(Result).FVal1 := V1;
TPSBinValueOp(Result).FVal2 := V2;
end;
end;
begin
Debug_WriteLine(BlockInfo);
FParser.Next;
Val := calc(CSTII_of);
if Val = nil then
begin
ProcessCase := False;
exit;
end; {if}
if FParser.CurrTokenId <> CSTII_Of then
begin
MakeError('', ecOfExpected, '');
val.Free;
ProcessCase := False;
exit;
end; {if}
FParser.Next;
TempRec := AllocStackReg(GetTypeNo(BlockInfo, Val));
if not WriteCalculation(Val, TempRec) then
begin
TempRec.Free;
val.Free;
ProcessCase := False;
exit;
end; {if}
val.Free;
EndReloc := TPSList.Create;
CalcItem := AllocStackReg(at2ut(FDefaultBoolType));
SPos := Length(BlockInfo.Proc.Data);
repeat
V1 := nil;
while true do
begin
Val := calc(CSTI_Colon);
if (Val = nil) then
begin
V1.Free;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end; {if}
if fParser.CurrTokenID = CSTI_TwoDots then begin
FParser.Next;
V2 := Calc(CSTI_colon);
if V2 = nil then begin
V1.Free;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
Val.Free;
exit;
end;
p := TPSBinValueOp.Create;
p.SetParserPos(FParser);
p.Operator := otGreaterEqual;
p.aType := at2ut(FDefaultBoolType);
p.Val2 := Val;
p.Val1 := NewRec(TempRec);
Val := p;
p := TPSBinValueOp.Create;
p.SetParserPos(FParser);
p.Operator := otLessEqual;
p.aType := at2ut(FDefaultBoolType);
p.Val2 := V2;
p.Val1 := NewRec(TempRec);
P := TPSBinValueOp(Combine(Val,P, otAnd));
end else begin
p := TPSBinValueOp.Create;
p.SetParserPos(FParser);
p.Operator := otEqual;
p.aType := at2ut(FDefaultBoolType);
p.Val1 := Val;
p.Val2 := NewRec(TempRec);
end;
V1 := Combine(V1, P, otOr);
if FParser.CurrTokenId = CSTI_Colon then Break;
if FParser.CurrTokenID <> CSTI_Comma then
begin
MakeError('', ecColonExpected, '');
V1.Free;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end;
FParser.Next;
end;
FParser.Next;
if not WriteCalculation(V1, CalcItem) then
begin
CalcItem.Free;
v1.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end;
v1.Free;
BlockWriteByte(BlockInfo, Cm_CNG);
BlockWriteLong(BlockInfo, $12345678);
CurrP := Length(BlockInfo.Proc.Data);
WriteOutRec(CalcItem, False);
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tifOneliner;
if not ProcessSub(Block) then
begin
Block.Free;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end;
Block.Free;
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, $12345678);
EndReloc.Add(Pointer(Length(BlockInfo.Proc.Data)));
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Cardinal((@BlockInfo.Proc.Data[CurrP - 3])^)) := Cardinal(Length(BlockInfo.Proc.Data)) - CurrP - 5;
{$else}
Cardinal((@BlockInfo.Proc.Data[CurrP - 3])^) := Cardinal(Length(BlockInfo.Proc.Data)) - CurrP - 5;
{$endif}
if FParser.CurrTokenID = CSTI_Semicolon then FParser.Next;
if FParser.CurrTokenID = CSTII_Else then
begin
FParser.Next;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tOneliner;
if not ProcessSub(Block) then
begin
Block.Free;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end;
Block.Free;
if FParser.CurrTokenID = CSTI_Semicolon then FParser.Next;
if FParser.CurrtokenId <> CSTII_End then
begin
MakeError('', ecEndExpected, '');
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
ProcessCase := False;
exit;
end;
end;
until FParser.CurrTokenID = CSTII_End;
FParser.Next;
for i := 0 to EndReloc.Count -1 do
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Cardinal((@BlockInfo.Proc.Data[Cardinal(EndReloc[I])- 3])^)) := Cardinal(Length(BlockInfo.Proc.Data)) - Cardinal(EndReloc[I]);
{$else}
Cardinal((@BlockInfo.Proc.Data[Cardinal(EndReloc[I])- 3])^) := Cardinal(Length(BlockInfo.Proc.Data)) - Cardinal(EndReloc[I]);
{$endif}
end;
CalcItem.Free;
TempRec.Free;
EndReloc.Free;
if FContinueOffsets <> nil then
begin
for i := 0 to FContinueOffsets.Count -1 do
begin
if Cardinal(FContinueOffsets[i]) >= SPos then
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Byte((@BlockInfo.Proc.Data[Longint(FContinueOffsets[i]) - 4])^)) := Cm_P2G;
{$else}
Byte((@BlockInfo.Proc.Data[Longint(FContinueOffsets[i]) - 4])^) := Cm_P2G;
{$endif}
end;
end;
end;
if FBreakOffsets <> nil then
begin
for i := 0 to FBreakOffsets.Count -1 do
begin
if Cardinal(FBreakOffsets[i]) >= SPos then
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
unaligned(Byte((@BlockInfo.Proc.Data[Longint(FBreakOffsets[i]) - 4])^)) := Cm_P2G;
{$else}
Byte((@BlockInfo.Proc.Data[Longint(FBreakOffsets[i]) - 4])^) := Cm_P2G;
{$endif}
end;
end;
end;
if HasInvalidJumps(SPos, Length(BlockInfo.Proc.Data)) then
begin
Result := False;
exit;
end;
Result := True;
end; {ProcessCase}
function ProcessGoto: Boolean;
var
I, H: Longint;
s: tbtString;
begin
Debug_WriteLine(BlockInfo);
FParser.Next;
h := MakeHash(FParser.GetToken);
for i := 0 to BlockInfo.Proc.FLabels.Count -1 do
begin
s := BlockInfo.Proc.FLabels[I];
delete(s, 1, 4);
if Longint((@s[1])^) = h then
begin
delete(s, 1, 4);
if s = FParser.GetToken then
begin
FParser.Next;
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, $12345678);
BlockInfo.Proc.FGotos.Add(PS_mi2s(length(BlockInfo.Proc.Data))+PS_mi2s(i));
Result := True;
exit;
end;
end;
end;
MakeError('', ecUnknownIdentifier, FParser.OriginalToken);
Result := False;
end; {ProcessGoto}
function ProcessWith: Boolean;
var
Block: TPSBlockInfo;
aVar, aReplace: TPSValue;
aType: TPSType;
iStartOffset: Integer;
tmp: TPSValue;
begin
Debug_WriteLine(BlockInfo);
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tOneLiner;
FParser.Next;
repeat
aVar := GetIdentifier(0);
if aVar = nil then
begin
block.Free;
Result := False;
exit;
end;
AType := GetTypeNo(BlockInfo, aVar);
if (AType = nil) or ((aType.BaseType <> btRecord) and (aType.BaseType <> btClass)) then
begin
MakeError('', ecClassTypeExpected, '');
Block.Free;
Result := False;
exit;
end;
aReplace := TPSValueReplace.Create;
aReplace.SetParserPos(FParser);
TPSValueReplace(aReplace).FreeOldValue := True;
TPSValueReplace(aReplace).FreeNewValue := True;
TPSValueReplace(aReplace).OldValue := aVar;
//if aVar.InheritsFrom(TPSVar) then TPSVar(aVar).Use;
tmp := AllocPointer(GetTypeNo(BlockInfo, aVar));
TPSProcVar(BlockInfo.Proc.ProcVars[TPSValueAllocatedStackVar(tmp).LocalVarNo]).Use;
PreWriteOutRec(tmp,GetTypeNo(BlockInfo, tmp));
PreWriteOutRec(aVar,GetTypeNo(BlockInfo, aVar));
BlockWriteByte(BlockInfo, cm_sp);
WriteOutRec(tmp, false);
WriteOutRec(aVar, false);
TPSValueReplace(aReplace).NewValue := tmp;
Block.WithList.Add(aReplace);
if FParser.CurrTokenID = CSTII_do then
begin
FParser.Next;
Break;
end else
if FParser.CurrTokenId <> CSTI_Comma then
begin
MakeError('', ecDoExpected, '');
Block.Free;
Result := False;
exit;
end;
FParser.Next;
until False;
inc(FWithCount);
iStartOffset := Length(Block.Proc.Data);
if not (ProcessSub(Block) and (not HasInvalidJumps(iStartOffset,Length(BlockInfo.Proc.Data) + 1)) ) then
begin
dec(FWithCount);
Block.Free;
Result := False;
exit;
end;
dec(FWithCount);
AfterWriteOutRec(aVar);
AfterWriteOutRec(tmp);
Block.Free;
Result := True;
end;
function ProcessTry: Boolean;
var
FStartOffset: Cardinal;
iBlockStartOffset: Integer;
Block: TPSBlockInfo;
begin
FParser.Next;
BlockWriteByte(BlockInfo, cm_puexh);
FStartOffset := Length(BlockInfo.Proc.Data) + 1;
BlockWriteLong(BlockInfo, InvalidVal);
BlockWriteLong(BlockInfo, InvalidVal);
BlockWriteLong(BlockInfo, InvalidVal);
BlockWriteLong(BlockInfo, InvalidVal);
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tTry;
inc(FTryCount);
if ProcessSub(Block) and (not HasInvalidJumps(FStartOffset,Length(BlockInfo.Proc.Data) + 1)) then
begin
dec(FTryCount);
Block.Free;
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 0);
if FParser.CurrTokenID = CSTII_Except then
begin
FParser.Next;
Cardinal((@BlockInfo.Proc.Data[FStartOffset + 4])^) := Cardinal(Length(BlockInfo.Proc.Data)) - FStartOffset - 15;
iBlockStartOffset := Length(BlockInfo.Proc.Data) ;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tTryEnd;
inc(FExceptFinallyCount);
if ProcessSub(Block) and (not HasInvalidJumps(iBlockStartOffset,Length(BlockInfo.Proc.Data) + 1)) then
begin
dec(FExceptFinallyCount);
Block.Free;
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 2);
if FParser.CurrTokenId = CSTII_Finally then
begin
Cardinal((@BlockInfo.Proc.Data[FStartOffset + 8])^) := Cardinal(Length(BlockInfo.Proc.Data)) - FStartOffset - 15;
iBlockStartOffset := Length(BlockInfo.Proc.Data) ;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tTryEnd;
FParser.Next;
inc(FExceptFinallyCount);
if ProcessSub(Block) and (not HasInvalidJumps(iBlockStartOffset,Length(BlockInfo.Proc.Data) + 1)) then
begin
dec(FExceptFinallyCount);
Block.Free;
if FParser.CurrTokenId = CSTII_End then
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 3);
end else begin
MakeError('', ecEndExpected, '');
Result := False;
exit;
end;
end else
begin
Block.Free;
Result := False;
dec(FExceptFinallyCount);
exit;
end;
end else if FParser.CurrTokenID <> CSTII_End then
begin
MakeError('', ecEndExpected, '');
Result := False;
exit;
end;
FParser.Next;
end else
begin
Block.Free;
Result := False;
dec(FExceptFinallyCount);
exit;
end;
end else if FParser.CurrTokenId = CSTII_Finally then
begin
FParser.Next;
Cardinal((@BlockInfo.Proc.Data[FStartOffset])^) := Cardinal(Length(BlockInfo.Proc.Data)) - FStartOffset - 15;
iBlockStartOffset := Length(BlockInfo.Proc.Data) ;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tTryEnd;
inc(FExceptFinallyCount);
if ProcessSub(Block) and (not HasInvalidJumps(iBlockStartOffset,Length(BlockInfo.Proc.Data) + 1)) then
begin
dec(FExceptFinallyCount);
Block.Free;
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 1);
if FParser.CurrTokenId = CSTII_Except then
begin
Cardinal((@BlockInfo.Proc.Data[FStartOffset + 4])^) := Cardinal(Length(BlockInfo.Proc.Data)) - FStartOffset - 15;
iBlockStartOffset := Length(BlockInfo.Proc.Data) ;
FParser.Next;
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tTryEnd;
inc(FExceptFinallyCount);
if ProcessSub(Block) and (not HasInvalidJumps(iBlockStartOffset,Length(BlockInfo.Proc.Data) + 1)) then
begin
dec(FExceptFinallyCount);
Block.Free;
if FParser.CurrTokenId = CSTII_End then
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 2);
end else begin
MakeError('', ecEndExpected, '');
Result := False;
exit;
end;
end else
begin
Block.Free;
Result := False;
dec(FExceptFinallyCount);
exit;
end;
end else if FParser.CurrTokenID <> CSTII_End then
begin
MakeError('', ecEndExpected, '');
Result := False;
exit;
end;
FParser.Next;
end else
begin
Block.Free;
Result := False;
dec(FExceptFinallyCount);
exit;
end;
end;
end else
begin
Block.Free;
Result := False;
dec(FTryCount);
exit;
end;
Cardinal((@BlockInfo.Proc.Data[FStartOffset + 12])^) := Cardinal(Length(BlockInfo.Proc.Data)) - FStartOffset - 15;
Result := True;
end; {ProcessTry}
var
i: Integer;
Block: TPSBlockInfo;
begin
ProcessSub := False;
if (BlockInfo.SubType = tProcBegin) or (BlockInfo.SubType= tMainBegin) or
{$IFDEF PS_USESSUPPORT}
(BlockInfo.SubType = tUnitInit) or (BlockInfo.SubType= tUnitFinish) or // NvdS
{$endif}
(BlockInfo.SubType= tSubBegin) then
begin
FParser.Next; // skip CSTII_Begin
end;
while True do
begin
case FParser.CurrTokenId of
CSTII_Goto:
begin
if not ProcessGoto then
Exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_With:
begin
if not ProcessWith then
Exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_Try:
begin
if not ProcessTry then
Exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_Finally, CSTII_Except:
begin
if (BlockInfo.SubType = tTry) or (BlockInfo.SubType = tTryEnd) then
Break
else
begin
MakeError('', ecEndExpected, '');
Exit;
end;
end;
CSTII_Begin:
begin
Block := TPSBlockInfo.Create(BlockInfo);
Block.SubType := tSubBegin;
if not ProcessSub(Block) then
begin
Block.Free;
Exit;
end;
Block.Free;
FParser.Next; // skip END
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTI_Semicolon:
begin
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break
else FParser.Next;
end;
CSTII_until:
begin
Debug_WriteLine(BlockInfo);
if BlockInfo.SubType = tRepeat then
begin
break;
end
else
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_Else:
begin
if BlockInfo.SubType = tifOneliner then
break
else
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
end;
CSTII_repeat:
begin
if not ProcessRepeat then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_For:
begin
if not ProcessFor then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_While:
begin
if not ProcessWhile then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_Exit:
begin
Debug_WriteLine(BlockInfo);
BlockWriteByte(BlockInfo, Cm_R);
FParser.Next;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_Case:
begin
if not ProcessCase then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTII_If:
begin
if not ProcessIf then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
CSTI_Identifier:
begin
case _ProcessLabel of
0: Exit;
1: ;
else
begin
if FParser.GetToken = 'BREAK' then
begin
if FBreakOffsets = nil then
begin
MakeError('', ecNotInLoop, '');
exit;
end;
for i := 0 to FExceptFinallyCount - 1 do
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 1);
end;
for i := 0 to FTryCount - 1 do
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 0);
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 1);
end;
for i := 0 to FWithCount - 1 do
BlockWriteByte(BlockInfo,cm_po);
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, $12345678);
FBreakOffsets.Add(Pointer(Length(BlockInfo.Proc.Data)));
FParser.Next;
if (BlockInfo.SubType= tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end else if FParser.GetToken = 'CONTINUE' then
begin
if FBreakOffsets = nil then
begin
MakeError('', ecNotInLoop, '');
exit;
end;
for i := 0 to FExceptFinallyCount - 1 do
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 1);
end;
for i := 0 to FTryCount - 1 do
begin
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 0);
BlockWriteByte(BlockInfo, cm_poexh);
BlockWriteByte(BlockInfo, 1);
end;
for i := 0 to FWithCount - 1 do
BlockWriteByte(BlockInfo,cm_po);
BlockWriteByte(BlockInfo, Cm_G);
BlockWriteLong(BlockInfo, $12345678);
FContinueOffsets.Add(Pointer(Length(BlockInfo.Proc.Data)));
FParser.Next;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end else
if not ProcessIdentifier then
exit;
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
end; {case}
if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
break;
end;
{$IFDEF PS_USESSUPPORT}
CSTII_Finalization: //NvdS
begin //
if (BlockInfo.SubType = tUnitInit) then //
begin //
break; //
end //
else //
begin //
MakeError('', ecIdentifierExpected, ''); //
exit; //
end; //
end; //nvds
{$endif}
CSTII_End:
begin
if (BlockInfo.SubType = tTryEnd) or (BlockInfo.SubType = tMainBegin) or
(BlockInfo.SubType = tSubBegin) or (BlockInfo.SubType = tifOneliner) or
(BlockInfo.SubType = tProcBegin) or (BlockInfo.SubType = TOneLiner)
{$IFDEF PS_USESSUPPORT} or (BlockInfo.SubType = tUnitInit) or (BlockInfo.SubType = tUnitFinish) {$endif} then //nvds
begin
break;
end
else
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
end;
CSTI_EOF:
begin
MakeError('', ecUnexpectedEndOfFile, '');
exit;
end;
else
begin
MakeError('', ecIdentifierExpected, '');
exit;
end;
end;
end;
if (BlockInfo.SubType = tMainBegin) or (BlockInfo.SubType = tProcBegin)
{$IFDEF PS_USESSUPPORT} or (BlockInfo.SubType = tUnitInit) or (BlockInfo.SubType = tUnitFinish) {$endif} then //nvds
begin
Debug_WriteLine(BlockInfo);
BlockWriteByte(BlockInfo, Cm_R);
{$IFDEF PS_USESSUPPORT}
if FParser.CurrTokenId = CSTII_End then //nvds
begin
{$endif}
FParser.Next; // skip end
if ((BlockInfo.SubType = tMainBegin)
{$IFDEF PS_USESSUPPORT} or (BlockInfo.SubType = tUnitInit) or (BlockInfo.SubType = tUnitFinish){$endif}) //nvds
and (FParser.CurrTokenId <> CSTI_Period) then
begin
MakeError('', ecPeriodExpected, '');
exit;
end;
if (BlockInfo.SubType = tProcBegin) and (FParser.CurrTokenId <> CSTI_Semicolon) then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
FParser.Next;
{$IFDEF PS_USESSUPPORT}
end; //nvds
{$endif}
end
else if (BlockInfo.SubType = tifOneliner) or (BlockInfo.SubType = TOneLiner) then
begin
if (FParser.CurrTokenID <> CSTII_Else) and (FParser.CurrTokenID <> CSTII_End) then
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
exit;
end;
end;
ProcessSub := True;
end;
procedure TPSPascalCompiler.UseProc(procdecl: TPSParametersDecl);
var
i: Longint;
begin
if procdecl.Result <> nil then
procdecl.Result := at2ut(procdecl.Result);
for i := 0 to procdecl.ParamCount -1 do
begin
procdecl.Params[i].aType := at2ut(procdecl.Params[i].aType);
end;
end;
function TPSPascalCompiler.at2ut(p: TPSType): TPSType;
var
i: Longint;
begin
p := GetTypeCopyLink(p);
if p = nil then
begin
Result := nil;
exit;
end;
if not p.Used then
begin
p.Use;
case p.BaseType of
btStaticArray, btArray: TPSArrayType(p).ArrayTypeNo := at2ut(TPSArrayType(p).ArrayTypeNo);
btRecord:
begin
for i := 0 to TPSRecordType(p).RecValCount -1 do
begin
TPSRecordType(p).RecVal(i).aType := at2ut(TPSRecordType(p).RecVal(i).aType);
end;
end;
btSet: TPSSetType(p).SetType := at2ut(TPSSetType(p).SetType);
btProcPtr:
begin
UseProc(TPSProceduralType(p).ProcDef);
end;
end;
p.FFinalTypeNo := FCurrUsedTypeNo;
inc(FCurrUsedTypeNo);
end;
Result := p;
end;
function TPSPascalCompiler.ProcessLabelForwards(Proc: TPSInternalProcedure): Boolean;
var
i: Longint;
s, s2: tbtString;
begin
for i := 0 to Proc.FLabels.Count -1 do
begin
s := Proc.FLabels[I];
if Longint((@s[1])^) = -1 then
begin
delete(s, 1, 8);
MakeError('', ecUnSetLabel, s);
Result := False;
exit;
end;
end;
for i := Proc.FGotos.Count -1 downto 0 do
begin
s := Proc.FGotos[I];
s2 := Proc.FLabels[Cardinal((@s[5])^)];
Cardinal((@Proc.Data[Cardinal((@s[1])^)-3])^) := Cardinal((@s2[1])^) - Cardinal((@s[1])^) ;
end;
Result := True;
end;
type
TCompilerState = (csStart, csProgram, csUnit, csUses, csInterface, csInterfaceUses, csImplementation);
function TPSPascalCompiler.Compile(const s: tbtString): Boolean;
var
Position: TCompilerState;
i: Longint;
{$IFDEF PS_USESSUPPORT}
OldFileName: tbtString;
OldParser : TPSPascalParser;
OldIsUnit : Boolean;
{$ENDIF}
procedure Cleanup;
var
I: Longint;
PT: TPSType;
begin
{$IFDEF PS_USESSUPPORT}
if fInCompile>1 then
begin
dec(fInCompile);
exit;
end;
{$ENDIF}
if @FOnBeforeCleanup <> nil then
FOnBeforeCleanup(Self); // no reason it actually read the result of this call
FGlobalBlock.Free;
FGlobalBlock := nil;
for I := 0 to FRegProcs.Count - 1 do
TObject(FRegProcs[I]).Free;
FRegProcs.Free;
for i := 0 to FConstants.Count -1 do
begin
TPSConstant(FConstants[I]).Free;
end;
Fconstants.Free;
for I := 0 to FVars.Count - 1 do
begin
TPSVar(FVars[I]).Free;
end;
FVars.Free;
FVars := nil;
for I := 0 to FProcs.Count - 1 do
TPSProcedure(FProcs[I]).Free;
FProcs.Free;
FProcs := nil;
for I := 0 to FTypes.Count - 1 do
begin
PT := FTypes[I];
pt.Free;
end;
FTypes.Free;
{$IFNDEF PS_NOINTERFACES}
for i := FInterfaces.Count -1 downto 0 do
TPSInterface(FInterfaces[i]).Free;
FInterfaces.Free;
{$ENDIF}
for i := FClasses.Count -1 downto 0 do
begin
TPSCompileTimeClass(FClasses[I]).Free;
end;
FClasses.Free;
for i := FAttributeTypes.Count -1 downto 0 do
begin
TPSAttributeType(FAttributeTypes[i]).Free;
end;
FAttributeTypes.Free;
FAttributeTypes := nil;
{$IFDEF PS_USESSUPPORT}
for I := 0 to FUnitInits.Count - 1 do //nvds
begin //nvds
TPSBlockInfo(FUnitInits[I]).free; //nvds
end; //nvds
FUnitInits.Free; //nvds
FUnitInits := nil; //
for I := 0 to FUnitFinits.Count - 1 do //nvds
begin //nvds
TPSBlockInfo(FUnitFinits[I]).free; //nvds
end; //nvds
FUnitFinits.Free; //
FUnitFinits := nil; //
FUses.Free;
FUses:=nil;
fInCompile:=0;
{$ENDIF}
end;
function MakeOutput: Boolean;
procedure WriteByte(b: Byte);
begin
FOutput := FOutput + tbtChar(b);
end;
procedure WriteData(const Data; Len: Longint);
var
l: Longint;
begin
if Len < 0 then Len := 0;
l := Length(FOutput);
SetLength(FOutput, l + Len);
Move(Data, FOutput[l + 1], Len);
end;
procedure WriteLong(l: Cardinal);
begin
WriteData(l, 4);
end;
procedure WriteVariant(p: PIfRVariant);
begin
WriteLong(p^.FType.FinalTypeNo);
case p.FType.BaseType of
btType: WriteLong(p^.ttype.FinalTypeNo);
{$IFNDEF PS_NOWIDESTRING}
btWideString:
begin
WriteLong(Length(tbtWideString(p^.twidestring)));
WriteData(tbtwidestring(p^.twidestring)[1], 2*Length(tbtWideString(p^.twidestring)));
end;
btUnicodeString:
begin
WriteLong(Length(tbtUnicodestring(p^.twidestring)));
WriteData(tbtUnicodestring(p^.twidestring)[1], 2*Length(tbtUnicodestring(p^.twidestring)));
end;
btWideChar: WriteData(p^.twidechar, 2);
{$ENDIF}
btSingle: WriteData(p^.tsingle, sizeof(tbtSingle));
btDouble: WriteData(p^.tsingle, sizeof(tbtDouble));
btExtended: WriteData(p^.tsingle, sizeof(tbtExtended));
btCurrency: WriteData(p^.tsingle, sizeof(tbtCurrency));
btChar: WriteData(p^.tchar, 1);
btSet:
begin
WriteData(tbtString(p^.tstring)[1], Length(tbtString(p^.tstring)));
end;
btString:
begin
WriteLong(Length(tbtString(p^.tstring)));
WriteData(tbtString(p^.tstring)[1], Length(tbtString(p^.tstring)));
end;
btenum:
begin
if TPSEnumType(p^.FType).HighValue <=256 then
WriteData( p^.tu32, 1)
else if TPSEnumType(p^.FType).HighValue <=65536 then
WriteData(p^.tu32, 2)
else
WriteData(p^.tu32, 4);
end;
bts8,btu8: WriteData(p^.tu8, 1);
bts16,btu16: WriteData(p^.tu16, 2);
bts32,btu32: WriteData(p^.tu32, 4);
{$IFNDEF PS_NOINT64}
bts64: WriteData(p^.ts64, 8);
{$ENDIF}
btProcPtr: WriteData(p^.tu32, 4);
{$IFDEF DEBUG}
else
asm int 3; end;
{$ENDIF}
end;
end;
procedure WriteAttributes(attr: TPSAttributes);
var
i, j: Longint;
begin
WriteLong(attr.Count);
for i := 0 to Attr.Count -1 do
begin
j := Length(attr[i].FAttribType.Name);
WriteLong(j);
WriteData(Attr[i].FAttribType.Name[1], j);
WriteLong(Attr[i].Count);
for j := 0 to Attr[i].Count -1 do
begin
WriteVariant(Attr[i][j]);
end;
end;
end;
procedure WriteTypes;
var
l, n: Longint;
bt: TPSBaseType;
x: TPSType;
s: tbtString;
FExportName: tbtString;
Items: TPSList;
procedure WriteTypeNo(TypeNo: Cardinal);
begin
WriteData(TypeNo, 4);
end;
begin
Items := TPSList.Create;
try
for l := 0 to FCurrUsedTypeNo -1 do
Items.Add(nil);
for l := 0 to FTypes.Count -1 do
begin
x := FTypes[l];
if x.Used then
Items[x.FinalTypeNo] := x;
end;
for l := 0 to Items.Count - 1 do
begin
x := Items[l];
if x.FExportName then
FExportName := x.Name
else
FExportName := '';
if (x.BaseType = btExtClass) and (x is TPSUndefinedClassType) then
begin
x := GetTypeCopyLink(TPSUndefinedClassType(x).ExtClass.SelfType);
end;
bt := x.BaseType;
if (x.BaseType = btType) or (x.BaseType = btNotificationVariant) then
begin
bt := btU32;
end else
if (x.BaseType = btEnum) then begin
if TPSEnumType(x).HighValue <= 256 then
bt := btU8
else if TPSEnumType(x).HighValue <= 65536 then
bt := btU16
else
bt := btU32;
end;
if FExportName <> '' then
begin
WriteByte(bt + 128);
end
else
WriteByte(bt);
{$IFNDEF PS_NOINTERFACES} if x.BaseType = btInterface then
begin
WriteData(TPSInterfaceType(x).Intf.Guid, Sizeof(TGuid));
end else {$ENDIF} if x.BaseType = btClass then
begin
WriteLong(Length(TPSClassType(X).Cl.FClassName));
WriteData(TPSClassType(X).Cl.FClassName[1], Length(TPSClassType(X).Cl.FClassName));
end else
if (x.BaseType = btProcPtr) then
begin
s := DeclToBits(TPSProceduralType(x).ProcDef);
WriteLong(Length(s));
WriteData(s[1], Length(s));
end else
if (x.BaseType = btSet) then
begin
WriteLong(TPSSetType(x).BitSize);
end else
if (x.BaseType = btArray) or (x.basetype = btStaticArray) then
begin
WriteLong(TPSArrayType(x).ArrayTypeNo.FinalTypeNo);
if (x.baseType = btstaticarray) then begin
WriteLong(TPSStaticArrayType(x).Length);
WriteLong(TPSStaticArrayType(x).StartOffset); //<-additional StartOffset
end;
end else if x.BaseType = btRecord then
begin
n := TPSRecordType(x).RecValCount;
WriteData( n, 4);
for n := 0 to TPSRecordType(x).RecValCount - 1 do
WriteTypeNo(TPSRecordType(x).RecVal(n).FType.FinalTypeNo);
end;
if FExportName <> '' then
begin
WriteLong(Length(FExportName));
WriteData(FExportName[1], length(FExportName));
end;
WriteAttributes(x.Attributes);
end;
finally
Items.Free;
end;
end;
procedure WriteVars;
var
l,j : Longint;
x: TPSVar;
begin
for l := 0 to FVars.Count - 1 do
begin
x := FVars[l];
if x.SaveAsPointer then
begin
for j := FTypes.count -1 downto 0 do
begin
if TPSType(FTypes[j]).BaseType = btPointer then
begin
WriteLong(TPSType(FTypes[j]).FinalTypeNo);
break;
end;
end;
end else
WriteLong(x.FType.FinalTypeNo);
if x.exportname <> '' then
begin
WriteByte( 1);
WriteLong(Length(X.ExportName));
WriteData( X.ExportName[1], length(X.ExportName));
end else
WriteByte( 0);
end;
end;
procedure WriteProcs;
var
l: Longint;
xp: TPSProcedure;
xo: TPSInternalProcedure;
xe: TPSExternalProcedure;
s: tbtString;
att: Byte;
begin
for l := 0 to FProcs.Count - 1 do
begin
xp := FProcs[l];
if xp.Attributes.Count <> 0 then att := 4 else att := 0;
if xp.ClassType = TPSInternalProcedure then
begin
xo := TPSInternalProcedure(xp);
xo.OutputDeclPosition := Length(FOutput);
WriteByte(att or 2); // exported
WriteLong(0); // offset is unknown at this time
WriteLong(0); // length is also unknown at this time
WriteLong(Length(xo.Name));
WriteData( xo.Name[1], length(xo.Name));
s := MakeExportDecl(xo.Decl);
WriteLong(Length(s));
WriteData( s[1], length(S));
end
else
begin
xe := TPSExternalProcedure(xp);
if xe.RegProc.ImportDecl <> '' then
begin
WriteByte( att or 3); // imported
if xe.RegProc.FExportName then
begin
WriteByte(Length(xe.RegProc.Name));
WriteData(xe.RegProc.Name[1], Length(xe.RegProc.Name) and $FF);
end else begin
WriteByte(0);
end;
WriteLong(Length(xe.RegProc.ImportDecl));
WriteData(xe.RegProc.ImportDecl[1], Length(xe.RegProc.ImportDecl));
end else begin
WriteByte(att or 1); // imported
WriteByte(Length(xe.RegProc.Name));
WriteData(xe.RegProc.Name[1], Length(xe.RegProc.Name) and $FF);
end;
end;
if xp.Attributes.Count <> 0 then
WriteAttributes(xp.Attributes);
end;
end;
procedure WriteProcs2;
var
l: Longint;
L2: Cardinal;
x: TPSProcedure;
begin
for l := 0 to FProcs.Count - 1 do
begin
x := FProcs[l];
if x.ClassType = TPSInternalProcedure then
begin
if TPSInternalProcedure(x).Data = '' then
TPSInternalProcedure(x).Data := Chr(Cm_R);
L2 := Length(FOutput);
Move(L2, FOutput[TPSInternalProcedure(x).OutputDeclPosition + 2], 4);
// write position
WriteData(TPSInternalProcedure(x).Data[1], Length(TPSInternalProcedure(x).Data));
L2 := Cardinal(Length(FOutput)) - L2;
Move(L2, FOutput[TPSInternalProcedure(x).OutputDeclPosition + 6], 4); // write length
end;
end;
end;
{$IFDEF PS_USESSUPPORT}
function FindMainProc: Cardinal;
var
l: Longint;
Proc : TPSInternalProcedure;
ProcData : tbtString;
Calls : Integer;
procedure WriteProc(const aData: Longint);
var
l: Longint;
begin
ProcData := ProcData + Chr(cm_c);
l := Length(ProcData);
SetLength(ProcData, l + 4);
Move(aData, ProcData[l + 1], 4);
inc(Calls);
end;
begin
ProcData := ''; Calls := 1;
for l := 0 to FUnitInits.Count-1 do
if (FUnitInits[l] <> nil) and
(TPSBlockInfo(FUnitInits[l]).Proc.Data<>'') then
WriteProc(TPSBlockInfo(FUnitInits[l]).FProcNo);
WriteProc(FGlobalBlock.FProcNo);
for l := FUnitFinits.Count-1 downto 0 do
if (FUnitFinits[l] <> nil) and
(TPSBlockInfo(FUnitFinits[l]).Proc.Data<>'') then
WriteProc(TPSBlockInfo(FUnitFinits[l]).FProcNo);
if Calls = 1 then begin
Result := FGlobalBlock.FProcNo;
end else
begin
Proc := NewProc('Master proc', '!MASTERPROC');
Result := FindProc('!MASTERPROC');
Proc.data := Procdata + Chr(cm_R);
end;
end;
{$ELSE}
function FindMainProc: Cardinal;
var
l: Longint;
begin
for l := 0 to FProcs.Count - 1 do
begin
if (TPSProcedure(FProcs[l]).ClassType = TPSInternalProcedure) and
(TPSInternalProcedure(FProcs[l]).Name = PSMainProcName) then
begin
Result := l;
exit;
end;
end;
Result := InvalidVal;
end;
{$ENDIF}
procedure CreateDebugData;
var
I: Longint;
p: TPSProcedure;
pv: TPSVar;
s: tbtString;
begin
s := #0;
for I := 0 to FProcs.Count - 1 do
begin
p := FProcs[I];
if p.ClassType = TPSInternalProcedure then
begin
if TPSInternalProcedure(p).Name = PSMainProcName then
s := s + #1
else
s := s + TPSInternalProcedure(p).OriginalName + #1;
end
else
begin
s := s+ TPSExternalProcedure(p).RegProc.OrgName + #1;
end;
end;
s := s + #0#1;
for I := 0 to FVars.Count - 1 do
begin
pv := FVars[I];
s := s + pv.OrgName + #1;
end;
s := s + #0;
WriteDebugData(s);
end;
var //nvds
MainProc : Cardinal; //nvds
begin
if @FOnBeforeOutput <> nil then
begin
if not FOnBeforeOutput(Self) then
begin
Result := false;
exit;
end;
end;
MainProc := FindMainProc; //NvdS (need it here becose FindMainProc can create a New proc.
CreateDebugData;
WriteLong(PSValidHeader);
WriteLong(PSCurrentBuildNo);
WriteLong(FCurrUsedTypeNo);
WriteLong(FProcs.Count);
WriteLong(FVars.Count);
WriteLong(MainProc); //nvds
WriteLong(0);
WriteTypes;
WriteProcs;
WriteVars;
WriteProcs2;
Result := true;
end;
function CheckExports: Boolean;
var
i: Longint;
p: TPSProcedure;
begin
if @FOnExportCheck = nil then
begin
result := true;
exit;
end;
for i := 0 to FProcs.Count -1 do
begin
p := FProcs[I];
if p.ClassType = TPSInternalProcedure then
begin
if not FOnExportCheck(Self, TPSInternalProcedure(p), MakeDecl(TPSInternalProcedure(p).Decl)) then
begin
Result := false;
exit;
end;
end;
end;
Result := True;
end;
function DoConstBlock: Boolean;
var
COrgName: tbtString;
CTemp, CValue: PIFRVariant;
Cp: TPSConstant;
TokenPos, TokenRow, TokenCol: Integer;
begin
FParser.Next;
repeat
if FParser.CurrTokenID <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Result := False;
Exit;
end;
TokenPos := FParser.CurrTokenPos;
TokenRow := FParser.Row;
TokenCol := FParser.Col;
COrgName := FParser.OriginalToken;
if IsDuplicate(FastUpperCase(COrgName), [dcVars, dcProcs, dcConsts]) then
begin
MakeError('', ecDuplicateIdentifier, COrgName);
Result := False;
exit;
end;
FParser.Next;
if FParser.CurrTokenID <> CSTI_Equal then
begin
MakeError('', ecIsExpected, '');
Result := False;
Exit;
end;
FParser.Next;
CValue := ReadConstant(FParser, CSTI_SemiColon);
if CValue = nil then
begin
Result := False;
Exit;
end;
if FParser.CurrTokenID <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
Result := False;
exit;
end;
cp := TPSConstant.Create;
cp.Orgname := COrgName;
cp.Name := FastUpperCase(COrgName);
{$IFDEF PS_USESSUPPORT}
cp.DeclareUnit:=fModule;
{$ENDIF}
cp.DeclarePos := TokenPos;
cp.DeclareRow := TokenRow;
cp.DeclareCol := TokenCol;
New(CTemp);
InitializeVariant(CTemp, CValue.FType);
CopyVariantContents(cvalue, CTemp);
cp.Value := CTemp;
FConstants.Add(cp);
DisposeVariant(CValue);
FParser.Next;
until FParser.CurrTokenId <> CSTI_Identifier;
Result := True;
end;
function ProcessUses: Boolean;
var
{$IFNDEF PS_USESSUPPORT}
FUses: TIfStringList;
{$ENDIF}
I: Longint;
s: tbtString;
{$IFDEF PS_USESSUPPORT}
Parse: Boolean;
ParseUnit: tbtString;
ParserPos: TPSPascalParser;
{$ENDIF}
begin
FParser.Next;
{$IFNDEF PS_USESSUPPORT}
FUses := TIfStringList.Create;
FUses.Add('SYSTEM');
{$ENDIF}
repeat
if FParser.CurrTokenID <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
{$IFNDEF PS_USESSUPPORT}
FUses.Free;
{$ENDIF}
Result := False;
exit;
end;
s := FParser.GetToken;
{$IFDEF PS_USESSUPPORT}
Parse:=true;
{$ENDIF}
for i := 0 to FUses.Count -1 do
begin
if FUses[I] = s then
begin
{$IFNDEF PS_USESSUPPORT}
MakeError('', ecDuplicateIdentifier, s);
FUses.Free;
Result := False;
exit;
{$ELSE}
Parse:=false;
{$ENDIF}
end;
end;
{$IFDEF PS_USESSUPPORT}
if Parse then
begin
{$ENDIF}
FUses.Add(s);
if @FOnUses <> nil then
begin
try
{$IFDEF PS_USESSUPPORT}
OldFileName:=fModule;
fModule:=FParser.OriginalToken;
ParseUnit:=FParser.OriginalToken;
ParserPos:=FParser;
{$ENDIF}
if not OnUses(Self, FParser.GetToken) then
begin
{$IFNDEF PS_USESSUPPORT}
FUses.Free;
{$ELSE}
FParser:=ParserPos;
fModule:=OldFileName;
MakeError(OldFileName, ecUnitNotFoundOrContainsErrors, ParseUnit);
{$ENDIF}
Result := False;
exit;
end;
{$IFDEF PS_USESSUPPORT}
fModule:=OldFileName;
{$ENDIF}
except
on e: Exception do
begin
MakeError('', ecCustomError, tbtstring(e.Message));
{$IFNDEF PS_USESSUPPORT}
FUses.Free;
{$ENDIF}
Result := False;
exit;
end;
end;
end;
{$IFDEF PS_USESSUPPORT}
end;
{$ENDIF}
FParser.Next;
if FParser.CurrTokenID = CSTI_Semicolon then break
else if FParser.CurrTokenId <> CSTI_Comma then
begin
MakeError('', ecSemicolonExpected, '');
Result := False;
{$IFNDEF PS_USESSUPPORT}
FUses.Free;
{$ENDIF}
exit;
end;
FParser.Next;
until False;
{$IFNDEF PS_USESSUPPORT}
FUses.Free;
{$ENDIF}
FParser.next;
Result := True;
end;
var
Proc: TPSProcedure;
{$IFDEF PS_USESSUPPORT}
Block : TPSBlockInfo; //nvds
{$ENDIF}
begin
Result := False;
FWithCount := -1;
{$IFDEF PS_USESSUPPORT}
if fInCompile=0 then
begin
{$ENDIF}
FUnitName := '';
FCurrUsedTypeNo := 0;
FIsUnit := False;
Clear;
FParserHadError := False;
FParser.SetText(s);
FAttributeTypes := TPSList.Create;
FProcs := TPSList.Create;
FConstants := TPSList.Create;
FVars := TPSList.Create;
FTypes := TPSList.Create;
FRegProcs := TPSList.Create;
FClasses := TPSList.Create;
{$IFDEF PS_USESSUPPORT}
FUnitInits := TPSList.Create; //nvds
FUnitFinits:= TPSList.Create; //nvds
FUses:=TIFStringList.Create;
{$ENDIF}
{$IFNDEF PS_NOINTERFACES} FInterfaces := TPSList.Create;{$ENDIF}
FGlobalBlock := TPSBlockInfo.Create(nil);
FGlobalBlock.SubType := tMainBegin;
FGlobalBlock.Proc := NewProc(PSMainProcNameOrg, PSMainProcName);
FGlobalBlock.ProcNo := FindProc(PSMainProcName);
{$IFDEF PS_USESSUPPORT}
OldFileName:=fModule;
fModule:='System';
FUses.Add('SYSTEM');
{$ENDIF}
{$IFNDEF PS_NOSTANDARDTYPES}
DefineStandardTypes;
DefineStandardProcedures;
{$ENDIF}
if @FOnUses <> nil then
begin
try
if not OnUses(Self, 'SYSTEM') then
begin
Cleanup;
exit;
end;
except
on e: Exception do
begin
MakeError('', ecCustomError, tbtstring(e.Message));
Cleanup;
exit;
end;
end;
end;
{$IFDEF PS_USESSUPPORT}
fModule:=OldFileName;
OldParser:=nil;
OldIsUnit:=false; // defaults
end
else
begin
OldParser:=FParser;
OldIsUnit:=FIsUnit;
FParser:=TPSPascalParser.Create;
FParser.SetText(s);
end;
inc(fInCompile);
{$ENDIF}
Position := csStart;
repeat
if FParser.CurrTokenId = CSTI_EOF then
begin
if FParserHadError then
begin
Cleanup;
exit;
end;
if FAllowNoEnd then
Break
else
begin
MakeError('', ecUnexpectedEndOfFile, '');
Cleanup;
exit;
end;
end;
if (FParser.CurrTokenId = CSTII_Program) and (Position = csStart) then
begin
{$IFDEF PS_USESSUPPORT}
if fInCompile>1 then
begin
MakeError('', ecNotAllowed, 'program');
Cleanup;
exit;
end;
{$ENDIF}
Position := csProgram;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Cleanup;
exit;
end;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
Cleanup;
exit;
end;
FParser.Next;
end else
if (Fparser.CurrTokenID = CSTII_Implementation) and ((Position = csinterface) or (position = csInterfaceUses)) then
begin
Position := csImplementation;
FParser.Next;
end else
if (Fparser.CurrTokenID = CSTII_Interface) and (Position = csUnit) then
begin
Position := csInterface;
FParser.Next;
end else
if (FParser.CurrTokenId = CSTII_Unit) and (Position = csStart) and (FAllowUnit) then
begin
Position := csUnit;
FIsUnit := True;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Cleanup;
exit;
end;
if fInCompile = 1 then
FUnitName := FParser.OriginalToken;
FParser.Next;
if FParser.CurrTokenId <> CSTI_Semicolon then
begin
MakeError('', ecSemicolonExpected, '');
Cleanup;
exit;
end;
FParser.Next;
end
else if (FParser.CurrTokenID = CSTII_Uses) and ((Position < csuses) or (Position = csInterface)) then
begin
if (Position = csInterface) or (Position =csInterfaceUses)
then Position := csInterfaceUses
else Position := csUses;
if not ProcessUses then
begin
Cleanup;
exit;
end;
end else if (FParser.CurrTokenId = CSTII_Procedure) or
(FParser.CurrTokenId = CSTII_Function) or (FParser.CurrTokenID = CSTI_OpenBlock) then
begin
if (Position = csInterface) or (position = csInterfaceUses) then
begin
if not ProcessFunction(True, nil) then
begin
Cleanup;
exit;
end;
end else begin
Position := csUses;
if not ProcessFunction(False, nil) then
begin
Cleanup;
exit;
end;
end;
end
else if (FParser.CurrTokenId = CSTII_Label) then
begin
if (Position = csInterface) or (Position =csInterfaceUses)
then Position := csInterfaceUses
else Position := csUses;
if not ProcessLabel(FGlobalBlock.Proc) then
begin
Cleanup;
exit;
end;
end
else if (FParser.CurrTokenId = CSTII_Var) then
begin
if (Position = csInterface) or (Position =csInterfaceUses)
then Position := csInterfaceUses
else Position := csUses;
if not DoVarBlock(nil) then
begin
Cleanup;
exit;
end;
end
else if (FParser.CurrTokenId = CSTII_Const) then
begin
if (Position = csInterface) or (Position =csInterfaceUses)
then Position := csInterfaceUses
else Position := csUses;
if not DoConstBlock then
begin
Cleanup;
exit;
end;
end
else if (FParser.CurrTokenId = CSTII_Type) then
begin
if (Position = csInterface) or (Position =csInterfaceUses)
then Position := csInterfaceUses
else Position := csUses;
if not DoTypeBlock(FParser) then
begin
Cleanup;
exit;
end;
end
else if (FParser.CurrTokenId = CSTII_Begin)
{$IFDEF PS_USESSUPPORT}
or ((FParser.CurrTokenID = CSTII_initialization) and FIsUnit) {$ENDIF} then //nvds
begin
{$IFDEF PS_USESSUPPORT}
if FIsUnit then
begin
Block := TPSBlockInfo.Create(nil); //nvds
Block.SubType := tUnitInit; //nvds
Block.Proc := NewProc(PSMainProcNameOrg+'_'+fModule, FastUpperCase(PSMainProcName+'_'+fModule)); //nvds
Block.ProcNo := FindProc(PSMainProcName+'_'+fModule); //nvds
Block.Proc.DeclareUnit:= fModule;
Block.Proc.DeclarePos := FParser.CurrTokenPos;
Block.Proc.DeclareRow := FParser.Row;
Block.Proc.DeclareCol := FParser.Col;
Block.Proc.Use;
FUnitInits.Add(Block);
if ProcessSub(Block) then
begin
if (Fparser.CurrTokenId = CSTI_EOF) THEN break;
end
else
begin
Cleanup;
exit;
end;
end
else
begin
FGlobalBlock.Proc.DeclareUnit:= fModule;
{$ENDIF}
FGlobalBlock.Proc.DeclarePos := FParser.CurrTokenPos;
FGlobalBlock.Proc.DeclareRow := FParser.Row;
FGlobalBlock.Proc.DeclareCol := FParser.Col;
if ProcessSub(FGlobalBlock) then
begin
break;
end
else
begin
Cleanup;
exit;
end;
{$IFDEF PS_USESSUPPORT}
end;
{$ENDIF}
end
{$IFDEF PS_USESSUPPORT}
else if ((FParser.CurrTokenID = CSTII_finalization) and FIsUnit) then //NvdS
begin
Block := TPSBlockInfo.Create(nil);
Block.SubType := tUnitFinish;
Block.Proc := NewProc('!Finish_'+fModule, '!FINISH_'+FastUppercase(fModule));
Block.ProcNo := FindProc('!FINISH_'+FastUppercase(fModule));
Block.Proc.DeclareUnit:= fModule;
Block.Proc.DeclarePos := FParser.CurrTokenPos;
Block.Proc.DeclareRow := FParser.Row;
Block.Proc.DeclareCol := FParser.Col;
Block.Proc.use;
FUnitFinits.Add(Block);
if ProcessSub(Block) then
begin
break;
end else begin
Cleanup;
Result := False; //Cleanup;
exit;
end;
end
{$endif}
else if (Fparser.CurrTokenId = CSTII_End) and (FAllowNoBegin or FIsUnit) then
begin
FParser.Next;
if FParser.CurrTokenID <> CSTI_Period then
begin
MakeError('', ecPeriodExpected, '');
Cleanup;
exit;
end;
break;
end else
begin
MakeError('', ecBeginExpected, '');
Cleanup;
exit;
end;
until False;
{$IFDEF PS_USESSUPPORT}
dec(fInCompile);
if fInCompile=0 then
begin
{$ENDIF}
if not ProcessLabelForwards(FGlobalBlock.Proc) then
begin
Cleanup;
exit;
end;
// NVDS: Do we need to check here also do a ProcessLabelForwards() for each Initialisation/finalization block?
for i := 0 to FProcs.Count -1 do
begin
Proc := FProcs[I];
if (Proc.ClassType = TPSInternalProcedure) and (TPSInternalProcedure(Proc).Forwarded) then
begin
with MakeError('', ecUnsatisfiedForward, TPSInternalProcedure(Proc).Name) do
begin
FPosition := TPSInternalProcedure(Proc).DeclarePos;
FRow := TPSInternalProcedure(Proc).DeclareRow;
FCol := TPSInternalProcedure(Proc).DeclareCol;
end;
Cleanup;
Exit;
end;
end;
if not CheckExports then
begin
Cleanup;
exit;
end;
for i := 0 to FVars.Count -1 do
begin
if not TPSVar(FVars[I]).Used then
begin
with MakeHint({$IFDEF PS_USESSUPPORT}TPSVar(FVars[I]).DeclareUnit{$ELSE}''{$ENDIF}, ehVariableNotUsed, TPSVar(FVars[I]).Name) do
begin
FPosition := TPSVar(FVars[I]).DeclarePos;
FRow := TPSVar(FVars[I]).DeclareRow;
FCol := TPSVar(FVars[I]).DeclareCol;
end;
end;
end;
Result := MakeOutput;
Cleanup;
{$IFDEF PS_USESSUPPORT}
end
else
begin
fParser.Free;
fParser:=OldParser;
fIsUnit:=OldIsUnit;
result:=true;
end;
{$ENDIF}
end;
constructor TPSPascalCompiler.Create;
begin
inherited Create;
FParser := TPSPascalParser.Create;
FParser.OnParserError := ParserError;
FAutoFreeList := TPSList.Create;
FOutput := '';
{$IFDEF PS_USESSUPPORT}
FAllowUnit := true;
{$ENDIF}
FMessages := TPSList.Create;
end;
destructor TPSPascalCompiler.Destroy;
begin
Clear;
FAutoFreeList.Free;
FMessages.Free;
FParser.Free;
inherited Destroy;
end;
function TPSPascalCompiler.GetOutput(var s: tbtString): Boolean;
begin
if Length(FOutput) <> 0 then
begin
s := FOutput;
Result := True;
end
else
Result := False;
end;
function TPSPascalCompiler.GetMsg(l: Longint): TPSPascalCompilerMessage;
begin
Result := FMessages[l];
end;
function TPSPascalCompiler.GetMsgCount: Longint;
begin
Result := FMessages.Count;
end;
procedure TPSPascalCompiler.DefineStandardTypes;
var
i: Longint;
begin
AddType('Byte', btU8);
FDefaultBoolType := AddTypeS('Boolean', '(False, True)');
FDefaultBoolType.ExportName := True;
with TPSEnumType(AddType('LongBool', btEnum)) do
begin
HighValue := 2147483647; // make sure it's gonna be a 4 byte var
end;
with TPSEnumType(AddType('WordBool', btEnum)) do
begin
HighValue := 65535; // make sure it's gonna be a 2 byte var
end;
with TPSEnumType(AddType('ByteBool', btEnum)) do
begin
HighValue := 255; // make sure it's gonna be a 1 byte var
end;
//following 2 IFDEFs should actually be UNICODE IFDEFs...
AddType({$IFDEF PS_PANSICHAR}'AnsiChar'{$ELSE}'Char'{$ENDIF}, btChar);
{$IFDEF PS_PANSICHAR}
AddType('Char', btWideChar);
{$ENDIF}
{$IFNDEF PS_NOWIDESTRING}
AddType('WideChar', btWideChar);
AddType('WideString', btWideString);
AddType('UnicodeString', btUnicodeString);
{$ENDIF}
AddType('AnsiString', btString);
{$IFDEF DELPHI2009UP}
AddType('String', btUnicodeString);
ADdType('NativeString', btUnicodeString);
{$ELSE}
AddType('String', btString);
AddType('NativeString', btString);
{$ENDIF}
FAnyString := AddType('AnyString', btString);
AddType('ShortInt', btS8);
AddType('Word', btU16);
AddType('SmallInt', btS16);
AddType('LongInt', btS32);
at2ut(AddType('___Pointer', btPointer));
AddType('LongWord', btU32);
AddTypeCopyN('Integer', 'LONGINT');
AddTypeCopyN('Cardinal', 'LONGWORD');
AddType('tbtString', btString);
{$IFNDEF PS_NOINT64}
AddType('Int64', btS64);
{$ENDIF}
AddType('Single', btSingle);
AddType('Double', btDouble);
AddType('Extended', btExtended);
AddType('Currency', btCurrency);
AddType({$IFDEF PS_PANSICHAR}'PAnsiChar'{$ELSE}'PChar'{$ENDIF}, btPChar);
AddType('Variant', btVariant);
AddType('!NotificationVariant', btNotificationVariant);
for i := FTypes.Count -1 downto 0 do AT2UT(FTypes[i]);
TPSArrayType(AddType('TVariantArray', btArray)).ArrayTypeNo := FindType('VARIANT');
with AddFunction('function Assigned(I: Longint): Boolean;') do
begin
Name := '!ASSIGNED';
end;
with AddFunction('procedure _T(Name: tbtString; v: Variant);') do
begin
Name := '!NOTIFICATIONVARIANTSET';
end;
with AddFunction('function _T(Name: tbtString): Variant;') do
begin
Name := '!NOTIFICATIONVARIANTGET';
end;
end;
function TPSPascalCompiler.FindType(const Name: tbtString): TPSType;
var
i, n: Longint;
RName: tbtString;
begin
if FProcs = nil then begin Result := nil; exit;end;
RName := Fastuppercase(Name);
n := makehash(rname);
for i := FTypes.Count - 1 downto 0 do
begin
Result := FTypes.Data[I];
if (Result.NameHash = n) and (Result.name = rname) then
begin
Result := GetTypeCopyLink(Result);
exit;
end;
end;
result := nil;
end;
function TPSPascalCompiler.AddConstant(const Name: tbtString; FType: TPSType): TPSConstant;
var
pc: TPSConstant;
val: PIfRVariant;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
FType := GetTypeCopyLink(FType);
if FType = nil then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterConst, [name]);
pc := TPSConstant.Create;
pc.OrgName := name;
pc.Name := FastUppercase(name);
pc.DeclarePos:=InvalidVal;
{$IFDEF PS_USESSUPPORT}
pc.DeclareUnit:=fModule;
{$ENDIF}
New(Val);
InitializeVariant(Val, FType);
pc.Value := Val;
FConstants.Add(pc);
result := pc;
end;
function TPSPascalCompiler.ReadAttributes(Dest: TPSAttributes): Boolean;
var
Att: TPSAttributeType;
at: TPSAttribute;
varp: PIfRVariant;
h, i: Longint;
s: tbtString;
begin
if FParser.CurrTokenID <> CSTI_OpenBlock then begin Result := true; exit; end;
FParser.Next;
if FParser.CurrTokenID <> CSTI_Identifier then
begin
MakeError('', ecIdentifierExpected, '');
Result := False;
exit;
end;
s := FParser.GetToken;
h := MakeHash(s);
att := nil;
for i := FAttributeTypes.count -1 downto 0 do
begin
att := FAttributeTypes[i];
if (att.FNameHash = h) and (att.FName = s) then
Break;
att := nil;
end;
if att = nil then
begin
MakeError('', ecUnknownIdentifier, '');
Result := False;
exit;
end;
FParser.Next;
i := 0;
at := Dest.Add(att);
while att.Fields[i].Hidden do
begin
at.AddValue(NewVariant(at2ut(att.Fields[i].FieldType)));
inc(i);
end;
if FParser.CurrTokenId <> CSTI_OpenRound then
begin
MakeError('', ecOpenRoundExpected, '');
Result := False;
exit;
end;
FParser.Next;
if i < Att.FieldCount then
begin
while i < att.FieldCount do
begin
varp := ReadConstant(FParser, CSTI_CloseRound);
if varp = nil then
begin
Result := False;
exit;
end;
at.AddValue(varp);
if not IsCompatibleType(varp.FType, Att.Fields[i].FieldType, False) then
begin
MakeError('', ecTypeMismatch, '');
Result := False;
exit;
end;
Inc(i);
while (i < Att.FieldCount) and (att.Fields[i].Hidden) do
begin
at.AddValue(NewVariant(at2ut(att.Fields[i].FieldType)));
inc(i);
end;
if i >= Att.FieldCount then
begin
break;
end else
begin
if FParser.CurrTokenID <> CSTI_Comma then
begin
MakeError('', ecCommaExpected, '');
Result := False;
exit;
end;
end;
FParser.Next;
end;
end;
if FParser.CurrTokenID <> CSTI_CloseRound then
begin
MakeError('', ecCloseRoundExpected, '');
Result := False;
exit;
end;
FParser.Next;
if FParser.CurrTokenID <> CSTI_CloseBlock then
begin
MakeError('', ecCloseBlockExpected, '');
Result := False;
exit;
end;
FParser.Next;
Result := True;
end;
type
TConstOperation = class(TObject)
private
FDeclPosition, FDeclRow, FDeclCol: Cardinal;
public
property DeclPosition: Cardinal read FDeclPosition write FDeclPosition;
property DeclRow: Cardinal read FDeclRow write FDeclRow;
property DeclCol: Cardinal read FDeclCol write FDeclCol;
procedure SetPos(Parser: TPSPascalParser);
end;
TUnConstOperation = class(TConstOperation)
private
FOpType: TPSUnOperatorType;
FVal1: TConstOperation;
public
property OpType: TPSUnOperatorType read FOpType write FOpType;
property Val1: TConstOperation read FVal1 write FVal1;
destructor Destroy; override;
end;
TBinConstOperation = class(TConstOperation)
private
FOpType: TPSBinOperatorType;
FVal2: TConstOperation;
FVal1: TConstOperation;
public
property OpType: TPSBinOperatorType read FOpType write FOpType;
property Val1: TConstOperation read FVal1 write FVal1;
property Val2: TConstOperation read FVal2 write FVal2;
destructor Destroy; override;
end;
TConstData = class(TConstOperation)
private
FData: PIfRVariant;
public
property Data: PIfRVariant read FData write FData;
destructor Destroy; override;
end;
function TPSPascalCompiler.IsBoolean(aType: TPSType): Boolean;
begin
Result := (AType = FDefaultBoolType)
or (AType.Name = 'LONGBOOL')
or (AType.Name = 'WORDBOOL')
or (AType.Name = 'BYTEBOOL');
end;
function TPSPascalCompiler.ReadConstant(FParser: TPSPascalParser; StopOn: TPSPasToken): PIfRVariant;
function ReadExpression: TConstOperation; forward;
function ReadTerm: TConstOperation; forward;
function ReadFactor: TConstOperation;
var
NewVar: TConstOperation;
NewVarU: TUnConstOperation;
function GetConstantIdentifier: PIfRVariant;
var
s: tbtString;
sh: Longint;
i: Longint;
p: TPSConstant;
begin
s := FParser.GetToken;
sh := MakeHash(s);
for i := FConstants.Count -1 downto 0 do
begin
p := FConstants[I];
if (p.NameHash = sh) and (p.Name = s) then
begin
New(Result);
InitializeVariant(Result, p.Value.FType);
CopyVariantContents(P.Value, Result);
FParser.Next;
exit;
end;
end;
MakeError('', ecUnknownIdentifier, '');
Result := nil;
end;
begin
case fParser.CurrTokenID of
CSTII_Not:
begin
FParser.Next;
NewVar := ReadFactor;
if NewVar = nil then
begin
Result := nil;
exit;
end;
NewVarU := TUnConstOperation.Create;
NewVarU.OpType := otNot;
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
end;
CSTI_Minus:
begin
FParser.Next;
NewVar := ReadTerm;
if NewVar = nil then
begin
Result := nil;
exit;
end;
NewVarU := TUnConstOperation.Create;
NewVarU.OpType := otMinus;
NewVarU.Val1 := NewVar;
NewVar := NewVarU;
end;
CSTI_OpenRound:
begin
FParser.Next;
NewVar := ReadExpression;
if NewVar = nil then
begin
Result := nil;
exit;
end;
if FParser.CurrTokenId <> CSTI_CloseRound then
begin
NewVar.Free;
Result := nil;
MakeError('', ecCloseRoundExpected, '');
exit;
end;
FParser.Next;
end;
CSTI_Char, CSTI_String:
begin
NewVar := TConstData.Create;
NewVar.SetPos(FParser);
TConstData(NewVar).Data := ReadString;
end;
CSTI_HexInt, CSTI_Integer:
begin
NewVar := TConstData.Create;
NewVar.SetPos(FParser);
TConstData(NewVar).Data := ReadInteger(FParser.GetToken);
FParser.Next;
end;
CSTI_Real:
begin
NewVar := TConstData.Create;
NewVar.SetPos(FParser);
TConstData(NewVar).Data := ReadReal(FParser.GetToken);
FParser.Next;
end;
CSTI_Identifier:
begin
NewVar := TConstData.Create;
NewVar.SetPos(FParser);
TConstData(NewVar).Data := GetConstantIdentifier;
if TConstData(NewVar).Data = nil then
begin
NewVar.Free;
Result := nil;
exit;
end
end;
else
begin
MakeError('', ecSyntaxError, '');
Result := nil;
exit;
end;
end; {case}
Result := NewVar;
end; // ReadFactor
function ReadTerm: TConstOperation;
var
F1, F2: TConstOperation;
F: TBinConstOperation;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadFactor;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [CSTI_Multiply, CSTI_Divide, CSTII_Div, CSTII_Mod, CSTII_And, CSTII_Shl, CSTII_Shr] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadFactor;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_Multiply: Op := otMul;
CSTII_div, CSTI_Divide: Op := otDiv;
CSTII_mod: Op := otMod;
CSTII_and: Op := otAnd;
CSTII_shl: Op := otShl;
CSTII_shr: Op := otShr;
else
Op := otAdd;
end;
F := TBinConstOperation.Create;
f.Val1 := F1;
f.Val2 := F2;
f.OpType := Op;
f1 := f;
end;
Result := F1;
end; // ReadTerm
function ReadSimpleExpression: TConstOperation;
var
F1, F2: TConstOperation;
F: TBinConstOperation;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadTerm;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [CSTI_Plus, CSTI_Minus, CSTII_Or, CSTII_Xor] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadTerm;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_Plus: Op := otAdd;
CSTI_Minus: Op := otSub;
CSTII_or: Op := otOr;
CSTII_xor: Op := otXor;
else
Op := otAdd;
end;
F := TBinConstOperation.Create;
f.Val1 := F1;
f.Val2 := F2;
f.OpType := Op;
f1 := f;
end;
Result := F1;
end; // ReadSimpleExpression
function ReadExpression: TConstOperation;
var
F1, F2: TConstOperation;
F: TBinConstOperation;
Token: TPSPasToken;
Op: TPSBinOperatorType;
begin
F1 := ReadSimpleExpression;
if F1 = nil then
begin
Result := nil;
exit;
end;
while FParser.CurrTokenID in [ CSTI_GreaterEqual, CSTI_LessEqual, CSTI_Greater, CSTI_Less, CSTI_Equal, CSTI_NotEqual] do
begin
Token := FParser.CurrTokenID;
FParser.Next;
F2 := ReadSimpleExpression;
if f2 = nil then
begin
f1.Free;
Result := nil;
exit;
end;
case Token of
CSTI_GreaterEqual: Op := otGreaterEqual;
CSTI_LessEqual: Op := otLessEqual;
CSTI_Greater: Op := otGreater;
CSTI_Less: Op := otLess;
CSTI_Equal: Op := otEqual;
CSTI_NotEqual: Op := otNotEqual;
else
Op := otAdd;
end;
F := TBinConstOperation.Create;
f.Val1 := F1;
f.Val2 := F2;
f.OpType := Op;
f1 := f;
end;
Result := F1;
end; // ReadExpression
function EvalConst(P: TConstOperation): PIfRVariant;
var
p1, p2: PIfRVariant;
begin
if p is TBinConstOperation then
begin
p1 := EvalConst(TBinConstOperation(p).Val1);
if p1 = nil then begin Result := nil; exit; end;
p2 := EvalConst(TBinConstOperation(p).Val2);
if p2 = nil then begin DisposeVariant(p1); Result := nil; exit; end;
if not PreCalc(False, 0, p1, 0, p2, TBinConstOperation(p).OpType, p.DeclPosition, p.DeclRow, p.DeclCol) then
begin
DisposeVariant(p1);
DisposeVariant(p2);
// MakeError('', ecTypeMismatch, '');
result := nil;
exit;
end;
DisposeVariant(p2);
Result := p1;
end else if p is TUnConstOperation then
begin
with TUnConstOperation(P) do
begin
p1 := EvalConst(Val1);
case OpType of
otNot:
case p1.FType.BaseType of
btU8: p1.tu8 := not p1.tu8;
btU16: p1.tu16 := not p1.tu16;
btU32: p1.tu32 := not p1.tu32;
bts8: p1.ts8 := not p1.ts8;
bts16: p1.ts16 := not p1.ts16;
bts32: p1.ts32 := not p1.ts32;
{$IFNDEF PS_NOINT64}
bts64: p1.ts64 := not p1.ts64;
{$ENDIF}
else
begin
MakeError('', ecTypeMismatch, '');
DisposeVariant(p1);
Result := nil;
exit;
end;
end;
otMinus:
case p1.FType.BaseType of
btU8: p1.tu8 := -p1.tu8;
btU16: p1.tu16 := -p1.tu16;
btU32: p1.tu32 := -p1.tu32;
bts8: p1.ts8 := -p1.ts8;
bts16: p1.ts16 := -p1.ts16;
bts32: p1.ts32 := -p1.ts32;
{$IFNDEF PS_NOINT64}
bts64: p1.ts64 := -p1.ts64;
{$ENDIF}
btDouble: p1.tdouble := - p1.tDouble;
btSingle: p1.tsingle := - p1.tsingle;
btCurrency: p1.tcurrency := - p1.tcurrency;
btExtended: p1.textended := - p1.textended;
else
begin
MakeError('', ecTypeMismatch, '');
DisposeVariant(p1);
Result := nil;
exit;
end;
end;
else
begin
DisposeVariant(p1);
Result := nil;
exit;
end;
end;
end;
Result := p1;
end else
begin
if ((p as TConstData).Data.FType.BaseType = btString)
and (length(tbtstring((p as TConstData).Data.tstring)) =1) then
begin
New(p1);
InitializeVariant(p1, FindBaseType(btChar));
p1.tchar := tbtstring((p as TConstData).Data.tstring)[1];
Result := p1;
end else begin
New(p1);
InitializeVariant(p1, (p as TConstData).Data.FType);
CopyVariantContents((p as TConstData).Data, p1);
Result := p1;
end;
end;
end;
var
Val: TConstOperation;
begin
Val := ReadExpression;
if val = nil then
begin
Result := nil;
exit;
end;
Result := EvalConst(Val);
Val.Free;
end;
procedure TPSPascalCompiler.WriteDebugData(const s: tbtString);
begin
FDebugOutput := FDebugOutput + s;
end;
function TPSPascalCompiler.GetDebugOutput(var s: tbtString): Boolean;
begin
if Length(FDebugOutput) <> 0 then
begin
s := FDebugOutput;
Result := True;
end
else
Result := False;
end;
function TPSPascalCompiler.AddUsedFunction(var Proc: TPSInternalProcedure): Cardinal;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Proc := TPSInternalProcedure.Create;
FProcs.Add(Proc);
Result := FProcs.Count - 1;
end;
{$IFNDEF PS_NOINTERFACES}
const
IUnknown_Guid: TGuid = (D1: 0; d2: 0; d3: 0; d4: ($c0,00,00,00,00,00,00,$46));
IDispatch_Guid: Tguid = (D1: $20400; D2: $0; D3: $0; D4:($C0, $0, $0, $0, $0, $0, $0, $46));
{$ENDIF}
procedure TPSPascalCompiler.DefineStandardProcedures;
var
p: TPSRegProc;
begin
{$IFNDEF PS_NOINT64}
AddFunction('function IntToStr(i: Int64): String;');
{$ELSE}
AddFunction('function IntTostr(i: Integer): String;');
{$ENDIF}
AddFunction('function StrToInt(s: String): Longint;');
AddFunction('function StrToIntDef(s: String; def: Longint): Longint;');
AddFunction('function Copy(s: AnyString; iFrom, iCount: Longint): AnyString;');
AddFunction('function Pos(SubStr, S: AnyString): Longint;');
AddFunction('procedure Delete(var s: AnyString; ifrom, icount: Longint);');
AddFunction('procedure Insert(s: AnyString; var s2: AnyString; iPos: Longint);');
p := AddFunction('function GetArrayLength: integer;');
with P.Decl.AddParam do
begin
OrgName := 'arr';
Mode := pmInOut;
end;
p := AddFunction('procedure SetArrayLength;');
with P.Decl.AddParam do
begin
OrgName := 'arr';
Mode := pmInOut;
end;
with P.Decl.AddParam do
begin
OrgName := 'count';
aType := FindBaseType(btS32);
end;
AddFunction('Function StrGet(var S : String; I : Integer) : Char;');
AddFunction('Function StrGet2(S : String; I : Integer) : Char;');
AddFunction('procedure StrSet(c : Char; I : Integer; var s : String);');
{$IFNDEF PS_NOWIDESTRING}
AddFunction('Function WStrGet(var S : AnyString; I : Integer) : WideChar;');
AddFunction('procedure WStrSet(c : AnyString; I : Integer; var s : AnyString);');
{$ENDIF}
AddFunction('Function AnsiUppercase(s : String) : String;');
AddFunction('Function AnsiLowercase(s : String) : String;');
AddFunction('Function Uppercase(s : AnyString) : AnyString;');
AddFunction('Function Lowercase(s : AnyString) : AnyString;');
AddFunction('Function Trim(s : AnyString) : AnyString;');
AddFunction('function Length: Integer;').Decl.AddParam.OrgName:='s';
with AddFunction('procedure SetLength;').Decl do
begin
with AddParam do
begin
OrgName:='s';
Mode:=pmInOut;
end;
with AddParam do
begin
OrgName:='NewLength';
aType:=FindBaseType(btS32); //Integer
end;
end;
{$IFNDEF PS_NOINT64}
AddFunction('function Low: Int64;').Decl.AddParam.OrgName:='x';
AddFunction('function High: Int64;').Decl.AddParam.OrgName:='x';
{$ELSE}
AddFunction('function Low: Integer;').Decl.AddParam.OrgName:='x';
AddFunction('function High: Integer;').Decl.AddParam.OrgName:='x';
{$ENDIF}
with AddFunction('procedure Dec;').Decl do begin
with AddParam do
begin
OrgName:='x';
Mode:=pmInOut;
end;
end;
with AddFunction('procedure Inc;').Decl do begin
with AddParam do
begin
OrgName:='x';
Mode:=pmInOut;
end;
end;
AddFunction('Function Sin(e : Extended) : Extended;');
AddFunction('Function Cos(e : Extended) : Extended;');
AddFunction('Function Sqrt(e : Extended) : Extended;');
AddFunction('Function Round(e : Extended) : Longint;');
AddFunction('Function Trunc(e : Extended) : Longint;');
AddFunction('Function Int(e : Extended) : Extended;');
AddFunction('Function Pi : Extended;');
AddFunction('Function Abs(e : Extended) : Extended;');
AddFunction('function StrToFloat(s: String): Extended;');
AddFunction('Function FloatToStr(e : Extended) : String;');
AddFunction('Function Padl(s : AnyString;I : longInt) : AnyString;');
AddFunction('Function Padr(s : AnyString;I : longInt) : AnyString;');
AddFunction('Function Padz(s : AnyString;I : longInt) : AnyString;');
AddFunction('Function Replicate(c : char;I : longInt) : String;');
AddFunction('Function StringOfChar(c : char;I : longInt) : String;');
AddTypeS('TVarType', 'Word');
AddConstantN('varEmpty', 'Word').Value.tu16 := varempty;
AddConstantN('varNull', 'Word').Value.tu16 := varnull;
AddConstantN('varSmallInt', 'Word').Value.tu16 := varsmallint;
AddConstantN('varInteger', 'Word').Value.tu16 := varinteger;
AddConstantN('varSingle', 'Word').Value.tu16 := varsingle;
AddConstantN('varDouble', 'Word').Value.tu16 := vardouble;
AddConstantN('varCurrency', 'Word').Value.tu16 := varcurrency;
AddConstantN('varDate', 'Word').Value.tu16 := vardate;
AddConstantN('varOleStr', 'Word').Value.tu16 := varolestr;
AddConstantN('varDispatch', 'Word').Value.tu16 := vardispatch;
AddConstantN('varError', 'Word').Value.tu16 := varerror;
AddConstantN('varBoolean', 'Word').Value.tu16 := varboolean;
AddConstantN('varVariant', 'Word').Value.tu16 := varvariant;
AddConstantN('varUnknown', 'Word').Value.tu16 := varunknown;
{$IFDEF DELPHI6UP}
AddConstantN('varShortInt', 'Word').Value.tu16 := varshortint;
AddConstantN('varByte', 'Word').Value.tu16 := varbyte;
AddConstantN('varWord', 'Word').Value.tu16 := varword;
AddConstantN('varLongWord', 'Word').Value.tu16 := varlongword;
AddConstantN('varInt64', 'Word').Value.tu16 := varint64;
{$ENDIF}
{$IFDEF DELPHI5UP}
AddConstantN('varStrArg', 'Word').Value.tu16 := varstrarg;
AddConstantN('varAny', 'Word').Value.tu16 := varany;
{$ENDIF}
AddConstantN('varString', 'Word').Value.tu16 := varstring;
AddConstantN('varTypeMask', 'Word').Value.tu16 := vartypemask;
AddConstantN('varArray', 'Word').Value.tu16 := vararray;
AddConstantN('varByRef', 'Word').Value.tu16 := varByRef;
{$IFDEF UNICODE}
AddConstantN('varUString', 'Word').Value.tu16 := varUString;
{$ENDIF}
AddDelphiFunction('function Unassigned: Variant;');
AddDelphiFunction('function VarIsEmpty(const V: Variant): Boolean;');
AddDelphiFunction('function Null: Variant;');
AddDelphiFunction('function VarIsNull(const V: Variant): Boolean;');
AddDelphiFunction('function VarType(const V: Variant): TVarType;');
addTypeS('TIFException', '(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)');
AddFunction('procedure RaiseLastException;');
AddFunction('procedure RaiseException(Ex: TIFException; Param: String);');
AddFunction('function ExceptionType: TIFException;');
AddFunction('function ExceptionParam: String;');
AddFunction('function ExceptionProc: Cardinal;');
AddFunction('function ExceptionPos: Cardinal;');
AddFunction('function ExceptionToString(er: TIFException; Param: String): String;');
{$IFNDEF PS_NOINT64}
AddFunction('function StrToInt64(s: String): int64;');
AddFunction('function Int64ToStr(i: Int64): String;');
{$ENDIF}
with AddFunction('function SizeOf: Longint;').Decl.AddParam do
begin
OrgName := 'Data';
end;
{$IFNDEF PS_NOINTERFACES}
with AddInterface(nil, IUnknown_Guid, 'IUnknown') do
begin
RegisterDummyMethod; // Query Interface
RegisterDummyMethod; // _AddRef
RegisterDummyMethod; // _Release
end;
with AddInterface(nil, IUnknown_Guid, 'IInterface') do
begin
RegisterDummyMethod; // Query Interface
RegisterDummyMethod; // _AddRef
RegisterDummyMethod; // _Release
end;
{$IFNDEF PS_NOIDISPATCH}
with AddInterface(FindInterface('IUnknown'), IDispatch_Guid, 'IDispatch') do
begin
RegisterDummyMethod; // GetTypeCount
RegisterDummyMethod; // GetTypeInfo
RegisterDummyMethod; // GetIdsOfName
RegisterDummyMethod; // Invoke
end;
with TPSInterfaceType(FindType('IDispatch')) do
begin
ExportName := True;
end;
AddDelphiFunction('function IDispatchInvoke(Self: IDispatch; PropertySet: Boolean; const Name: String; Par: array of variant): variant;');
{$ENDIF}
{$ENDIF}
end;
function TPSPascalCompiler.GetTypeCount: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FTypes.Count;
end;
function TPSPascalCompiler.GetType(I: Longint): TPSType;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FTypes[I];
end;
function TPSPascalCompiler.GetVarCount: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FVars.Count;
end;
function TPSPascalCompiler.GetVar(I: Longint): TPSVar;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FVars[i];
end;
function TPSPascalCompiler.GetProcCount: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FProcs.Count;
end;
function TPSPascalCompiler.GetProc(I: Longint): TPSProcedure;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FProcs[i];
end;
function TPSPascalCompiler.AddUsedFunction2(var Proc: TPSExternalProcedure): Cardinal;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Proc := TPSExternalProcedure.Create;
FProcs.Add(Proc);
Result := FProcs.Count -1;
end;
function TPSPascalCompiler.AddVariable(const Name: tbtString; FType: TPSType): TPSVar;
var
P: TPSVar;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
if FType = nil then raise EPSCompilerException.CreateFmt(RPS_InvalidTypeForVar, [Name]);
p := TPSVar.Create;
p.OrgName := Name;
p.Name := Fastuppercase(Name);
p.FType := AT2UT(FType);
p.exportname := p.Name;
FVars.Add(p);
Result := P;
end;
function TPSPascalCompiler.AddAttributeType: TPSAttributeType;
begin
if FAttributeTypes = nil then Raise Exception.Create(RPS_OnUseEventOnly);
Result := TPSAttributeType.Create;
FAttributeTypes.Add(Result);
end;
function TPSPascalCompiler.FindAttributeType(const Name: tbtString): TPSAttributeType;
var
h, i: Integer;
n: tbtString;
begin
if FAttributeTypes = nil then Raise Exception.Create(RPS_OnUseEventOnly);
n := FastUpperCase(Name);
h := MakeHash(n);
for i := FAttributeTypes.Count -1 downto 0 do
begin
result := TPSAttributeType(FAttributeTypes[i]);
if (Result.NameHash = h) and (Result.Name = n) then
exit;
end;
result := nil;
end;
function TPSPascalCompiler.GetConstCount: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
result := FConstants.Count;
end;
function TPSPascalCompiler.GetConst(I: Longint): TPSConstant;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := TPSConstant(FConstants[i]);
end;
function TPSPascalCompiler.GetRegProcCount: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FRegProcs.Count;
end;
function TPSPascalCompiler.GetRegProc(I: Longint): TPSRegProc;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := TPSRegProc(FRegProcs[i]);
end;
procedure TPSPascalCompiler.AddToFreeList(Obj: TObject);
begin
FAutoFreeList.Add(Obj);
end;
function TPSPascalCompiler.AddConstantN(const Name,
FType: tbtString): TPSConstant;
begin
Result := AddConstant(Name, FindType(FType));
end;
function TPSPascalCompiler.AddTypeCopy(const Name: tbtString;
TypeNo: TPSType): TPSType;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
TypeNo := GetTypeCopyLink(TypeNo);
if Typeno = nil then raise EPSCompilerException.Create(RPS_InvalidType);
Result := AddType(Name, BtTypeCopy);
TPSTypeLink(Result).LinkTypeNo := TypeNo;
end;
function TPSPascalCompiler.AddTypeCopyN(const Name,
FType: tbtString): TPSType;
begin
Result := AddTypeCopy(Name, FindType(FType));
end;
function TPSPascalCompiler.AddUsedVariable(const Name: tbtString;
FType: TPSType): TPSVar;
begin
Result := AddVariable(Name, FType);
if Result <> nil then
Result.Use;
end;
function TPSPascalCompiler.AddUsedVariableN(const Name,
FType: tbtString): TPSVar;
begin
Result := AddVariable(Name, FindType(FType));
if Result <> nil then
Result.Use;
end;
function TPSPascalCompiler.AddVariableN(const Name,
FType: tbtString): TPSVar;
begin
Result := AddVariable(Name, FindType(FType));
end;
function TPSPascalCompiler.AddUsedPtrVariable(const Name: tbtString; FType: TPSType): TPSVar;
begin
Result := AddVariable(Name, FType);
if Result <> nil then
begin
result.SaveAsPointer := True;
Result.Use;
end;
end;
function TPSPascalCompiler.AddUsedPtrVariableN(const Name, FType: tbtString): TPSVar;
begin
Result := AddVariable(Name, FindType(FType));
if Result <> nil then
begin
result.SaveAsPointer := True;
Result.Use;
end;
end;
function TPSPascalCompiler.AddTypeS(const Name, Decl: tbtString): TPSType;
var
Parser: TPSPascalParser;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Parser := TPSPascalParser.Create;
Parser.SetText(Decl);
Result := ReadType(Name, Parser);
if Result<>nil then
begin
Result.DeclarePos:=InvalidVal;
{$IFDEF PS_USESSUPPORT}
Result.DeclareUnit:=fModule;
{$ENDIF}
Result.DeclareRow:=0;
Result.DeclareCol:=0;
end;
Parser.Free;
if result = nil then Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterType, [name]);
end;
function TPSPascalCompiler.CheckCompatProc(P: TPSType; ProcNo: Cardinal): Boolean;
var
i: Longint;
s1, s2: TPSParametersDecl;
begin
if p.BaseType <> btProcPtr then begin
Result := False;
Exit;
end;
S1 := TPSProceduralType(p).ProcDef;
if TPSProcedure(FProcs[ProcNo]).ClassType = TPSInternalProcedure then
s2 := TPSInternalProcedure(FProcs[ProcNo]).Decl
else
s2 := TPSExternalProcedure(FProcs[ProcNo]).RegProc.Decl;
if (s1.Result <> s2.Result) or (s1.ParamCount <> s2.ParamCount) then
begin
Result := False;
Exit;
end;
for i := 0 to s1.ParamCount -1 do
begin
if (s1.Params[i].Mode <> s2.Params[i].Mode) or (s1.Params[i].aType <> s2.Params[i].aType) then
begin
Result := False;
Exit;
end;
end;
Result := True;
end;
function TPSPascalCompiler.MakeExportDecl(decl: TPSParametersDecl): tbtString;
var
i: Longint;
begin
if Decl.Result = nil then result := '-1' else
result := IntToStr(Decl.Result.FinalTypeNo);
for i := 0 to decl.ParamCount -1 do
begin
if decl.GetParam(i).Mode = pmIn then
Result := Result + ' @'
else
Result := Result + ' !';
Result := Result + inttostr(decl.GetParam(i).aType.FinalTypeNo);
end;
end;
function TPSPascalCompiler.IsIntBoolType(aType: TPSType): Boolean;
begin
if Isboolean(aType) then begin Result := True; exit;end;
case aType.BaseType of
btU8, btS8, btU16, btS16, btU32, btS32{$IFNDEF PS_NOINT64}, btS64{$ENDIF}: Result := True;
else
Result := False;
end;
end;
procedure TPSPascalCompiler.ParserError(Parser: TObject;
Kind: TPSParserErrorKind);
begin
FParserHadError := True;
case Kind of
ICOMMENTERROR: MakeError('', ecCommentError, '');
ISTRINGERROR: MakeError('', ecStringError, '');
ICHARERROR: MakeError('', ecCharError, '');
else
MakeError('', ecSyntaxError, '');
end;
end;
function TPSPascalCompiler.AddDelphiFunction(const Decl: tbtString): TPSRegProc;
var
p: TPSRegProc;
pDecl: TPSParametersDecl;
DOrgName: tbtString;
FT: TPMFuncType;
i: Longint;
begin
pDecl := TPSParametersDecl.Create;
p := nil;
try
if not ParseMethod(Self, '', Decl, DOrgName, pDecl, FT) then
Raise EPSCompilerException.CreateFmt(RPS_UnableToRegisterFunction, [Decl]);
p := TPSRegProc.Create;
P.Name := FastUppercase(DOrgName);
p.OrgName := DOrgName;
p.ExportName := True;
p.Decl.Assign(pDecl);
FRegProcs.Add(p);
if pDecl.Result = nil then
begin
p.ImportDecl := p.ImportDecl + #0;
end else
p.ImportDecl := p.ImportDecl + #1;
for i := 0 to pDecl.ParamCount -1 do
begin
if pDecl.Params[i].Mode <> pmIn then
p.ImportDecl := p.ImportDecl + #1
else
p.ImportDecl := p.ImportDecl + #0;
end;
finally
pDecl.Free;
end;
Result := p;
end;
{$IFNDEF PS_NOINTERFACES}
function TPSPascalCompiler.AddInterface(InheritedFrom: TPSInterface; Guid: TGuid; const Name: tbtString): TPSInterface;
var
f: TPSType;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
f := FindType(Name);
if (f <> nil) and (f is TPSInterfaceType) then
begin
result := TPSInterfaceType(f).Intf;
Result.Guid := Guid;
Result.InheritedFrom := InheritedFrom;
exit;
end;
f := AddType(Name, btInterface);
Result := TPSInterface.Create(Self, InheritedFrom, GUID, FastUppercase(Name), f);
FInterfaces.Add(Result);
TPSInterfaceType(f).Intf := Result;
end;
function TPSPascalCompiler.FindInterface(const Name: tbtString): TPSInterface;
var
n: tbtString;
i, nh: Longint;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
n := FastUpperCase(Name);
nh := MakeHash(n);
for i := FInterfaces.Count -1 downto 0 do
begin
Result := FInterfaces[i];
if (Result.NameHash = nh) and (Result.Name = N) then
exit;
end;
raise EPSCompilerException.CreateFmt(RPS_UnknownInterface, [Name]);
end;
{$ENDIF}
function TPSPascalCompiler.AddClass(InheritsFrom: TPSCompileTimeClass; aClass: TClass): TPSCompileTimeClass;
var
f: TPSType;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FindClass(tbtstring(aClass.ClassName));
if Result <> nil then exit;
f := AddType(tbtstring(aClass.ClassName), btClass);
Result := TPSCompileTimeClass.CreateC(aClass, Self, f);
Result.FInheritsFrom := InheritsFrom;
FClasses.Add(Result);
TPSClassType(f).Cl := Result;
f.ExportName := True;
end;
function TPSPascalCompiler.AddClassN(InheritsFrom: TPSCompileTimeClass; const aClass: tbtString): TPSCompileTimeClass;
var
f: TPSType;
begin
if FProcs = nil then raise EPSCompilerException.Create(RPS_OnUseEventOnly);
Result := FindClass(aClass);
if Result <> nil then
begin
if InheritsFrom <> nil then
Result.FInheritsFrom := InheritsFrom;
exit;
end;
f := AddType(aClass, btClass);
Result := TPSCompileTimeClass.Create(FastUppercase(aClass), Self, f);
TPSClassType(f).Cl := Result;
Result.FInheritsFrom := InheritsFrom;
FClasses.Add(Result);
TPSClassType(f).Cl := Result;
f.ExportName := True;
end;
function TPSPascalCompiler.FindClass(const aClass: tbtString): TPSCompileTimeClass;
var
i: Longint;
Cl: tbtString;
H: Longint;
x: TPSCompileTimeClass;
begin
cl := FastUpperCase(aClass);
H := MakeHash(Cl);
for i :=0 to FClasses.Count -1 do
begin
x := FClasses[I];
if (X.FClassNameHash = H) and (X.FClassName = Cl) then
begin
Result := X;
Exit;
end;
end;
Result := nil;
end;
{ }
function TransDoubleToStr(D: Double): tbtString;
begin
SetLength(Result, SizeOf(Double));
Double((@Result[1])^) := D;
end;
function TransSingleToStr(D: Single): tbtString;
begin
SetLength(Result, SizeOf(Single));
Single((@Result[1])^) := D;
end;
function TransExtendedToStr(D: Extended): tbtString;
begin
SetLength(Result, SizeOf(Extended));
Extended((@Result[1])^) := D;
end;
function TransLongintToStr(D: Longint): tbtString;
begin
SetLength(Result, SizeOf(Longint));
Longint((@Result[1])^) := D;
end;
function TransCardinalToStr(D: Cardinal): tbtString;
begin
SetLength(Result, SizeOf(Cardinal));
Cardinal((@Result[1])^) := D;
end;
function TransWordToStr(D: Word): tbtString;
begin
SetLength(Result, SizeOf(Word));
Word((@Result[1])^) := D;
end;
function TransSmallIntToStr(D: SmallInt): tbtString;
begin
SetLength(Result, SizeOf(SmallInt));
SmallInt((@Result[1])^) := D;
end;
function TransByteToStr(D: Byte): tbtString;
begin
SetLength(Result, SizeOf(Byte));
Byte((@Result[1])^) := D;
end;
function TransShortIntToStr(D: ShortInt): tbtString;
begin
SetLength(Result, SizeOf(ShortInt));
ShortInt((@Result[1])^) := D;
end;
function TPSPascalCompiler.GetConstant(const Name: tbtString): TPSConstant;
var
h, i: Longint;
n: tbtString;
begin
n := FastUppercase(name);
h := MakeHash(n);
for i := 0 to FConstants.Count -1 do
begin
result := TPSConstant(FConstants[i]);
if (Result.NameHash = h) and (Result.Name = n) then exit;
end;
result := nil;
end;
{ TPSType }
constructor TPSType.Create;
begin
inherited Create;
FAttributes := TPSAttributes.Create;
FFinalTypeNo := InvalidVal;
end;
destructor TPSType.Destroy;
begin
FAttributes.Free;
inherited Destroy;
end;
procedure TPSType.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(Value);
end;
procedure TPSType.Use;
begin
FUsed := True;
end;
{ TPSRecordType }
function TPSRecordType.AddRecVal: PIFPSRecordFieldTypeDef;
begin
Result := TPSRecordFieldTypeDef.Create;
FRecordSubVals.Add(Result);
end;
constructor TPSRecordType.Create;
begin
inherited Create;
FRecordSubVals := TPSList.Create;
end;
destructor TPSRecordType.Destroy;
var
i: Longint;
begin
for i := FRecordSubVals.Count -1 downto 0 do
TPSRecordFieldTypeDef(FRecordSubVals[I]).Free;
FRecordSubVals.Free;
inherited Destroy;
end;
function TPSRecordType.RecVal(I: Longint): PIFPSRecordFieldTypeDef;
begin
Result := FRecordSubVals[I]
end;
function TPSRecordType.RecValCount: Longint;
begin
Result := FRecordSubVals.Count;
end;
{ TPSRegProc }
constructor TPSRegProc.Create;
begin
inherited Create;
FDecl := TPSParametersDecl.Create;
end;
destructor TPSRegProc.Destroy;
begin
FDecl.Free;
inherited Destroy;
end;
procedure TPSRegProc.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(FName);
end;
{ TPSRecordFieldTypeDef }
procedure TPSRecordFieldTypeDef.SetFieldOrgName(const Value: tbtString);
begin
FFieldOrgName := Value;
FFieldName := FastUppercase(Value);
FFieldNameHash := MakeHash(FFieldName);
end;
{ TPSProcVar }
procedure TPSProcVar.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(FName);
end;
procedure TPSProcVar.Use;
begin
FUsed := True;
end;
{ TPSInternalProcedure }
constructor TPSInternalProcedure.Create;
begin
inherited Create;
FProcVars := TPSList.Create;
FLabels := TIfStringList.Create;
FGotos := TIfStringList.Create;
FDecl := TPSParametersDecl.Create;
end;
destructor TPSInternalProcedure.Destroy;
var
i: Longint;
begin
FDecl.Free;
for i := FProcVars.Count -1 downto 0 do
TPSProcVar(FProcVars[I]).Free;
FProcVars.Free;
FGotos.Free;
FLabels.Free;
inherited Destroy;
end;
procedure TPSInternalProcedure.ResultUse;
begin
FResultUsed := True;
end;
procedure TPSInternalProcedure.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(FName);
end;
procedure TPSInternalProcedure.Use;
begin
FUsed := True;
end;
{ TPSProcedure }
constructor TPSProcedure.Create;
begin
inherited Create;
FAttributes := TPSAttributes.Create;
end;
destructor TPSProcedure.Destroy;
begin
FAttributes.Free;
inherited Destroy;
end;
{ TPSVar }
procedure TPSVar.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(Value);
end;
procedure TPSVar.Use;
begin
FUsed := True;
end;
{ TPSConstant }
destructor TPSConstant.Destroy;
begin
DisposeVariant(Value);
inherited Destroy;
end;
procedure TPSConstant.SetChar(c: tbtChar);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btChar: FValue.tchar := c;
btString: tbtString(FValue.tstring) := c;
{$IFNDEF PS_NOWIDESTRING}
btWideString: tbtwidestring(FValue.twidestring) := tbtWidestring(c);
btUnicodeString: tbtUnicodestring(FValue.twidestring) := tbtUnicodestring(c);
{$ENDIF}
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetExtended(const Val: Extended);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btSingle: FValue.tsingle := Val;
btDouble: FValue.tdouble := Val;
btExtended: FValue.textended := Val;
btCurrency: FValue.tcurrency := Val;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetInt(const Val: Longint);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btEnum: FValue.tu32 := Val;
btU32, btS32: FValue.ts32 := Val;
btU16, btS16: FValue.ts16 := Val;
btU8, btS8: FValue.ts8 := Val;
btSingle: FValue.tsingle := Val;
btDouble: FValue.tdouble := Val;
btExtended: FValue.textended := Val;
btCurrency: FValue.tcurrency := Val;
{$IFNDEF PS_NOINT64}
bts64: FValue.ts64 := Val;
{$ENDIF}
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
{$IFNDEF PS_NOINT64}
procedure TPSConstant.SetInt64(const Val: Int64);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btEnum: FValue.tu32 := Val;
btU32, btS32: FValue.ts32 := Val;
btU16, btS16: FValue.ts16 := Val;
btU8, btS8: FValue.ts8 := Val;
btSingle: FValue.tsingle := Val;
btDouble: FValue.tdouble := Val;
btExtended: FValue.textended := Val;
btCurrency: FValue.tcurrency := Val;
bts64: FValue.ts64 := Val;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
{$ENDIF}
procedure TPSConstant.SetName(const Value: tbtString);
begin
FName := Value;
FNameHash := MakeHash(Value);
end;
procedure TPSConstant.SetSet(const val);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btSet:
begin
if length(tbtstring(FValue.tstring)) <> TPSSetType(FValue.FType).ByteSize then
SetLength(tbtstring(FValue.tstring), TPSSetType(FValue.FType).ByteSize);
Move(Val, FValue.tstring^, TPSSetType(FValue.FType).ByteSize);
end;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetString(const Val: tbtString);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btChar: FValue.tchar := (Val+#0)[1];
btWideChar: FValue.twidechar := WideChar((Val+#0)[1]);
btString: tbtString(FValue.tstring) := val;
{$IFNDEF PS_NOWIDESTRING}
btWideString: tbtwidestring(FValue.twidestring) := tbtwidestring(val);
btUnicodeString: tbtunicodestring(FValue.tunistring) := tbtunicodestring(val);
{$ENDIF}
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetUInt(const Val: Cardinal);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btEnum: FValue.tu32 := Val;
btU32, btS32: FValue.tu32 := Val;
btU16, btS16: FValue.tu16 := Val;
btU8, btS8: FValue.tu8 := Val;
btSingle: FValue.tsingle := Val;
btDouble: FValue.tdouble := Val;
btExtended: FValue.textended := Val;
btCurrency: FValue.tcurrency := Val;
{$IFNDEF PS_NOINT64}
bts64: FValue.ts64 := Val;
{$ENDIF}
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
{$IFNDEF PS_NOWIDESTRING}
procedure TPSConstant.SetWideChar(const val: WideChar);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btString: tbtString(FValue.tstring) := tbtstring(val);
btWideChar: FValue.twidechar := val;
btWideString: tbtwidestring(FValue.twidestring) := val;
btUnicodeString: tbtUnicodestring(FValue.tUniString) := val;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetWideString(const val: tbtwidestring);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btString: tbtString(FValue.tstring) := tbtstring(val);
btWideString: tbtwidestring(FValue.twidestring) := val;
btUnicodeString: tbtunicodestring(FValue.tunistring) := val;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
procedure TPSConstant.SetUnicodeString(const val: tbtunicodestring);
begin
if (FValue <> nil) then
begin
case FValue.FType.BaseType of
btString: tbtString(FValue.tstring) := tbtstring(val);
btWideString: tbtwidestring(FValue.twidestring) := val;
btUnicodeString: tbtunicodestring(FValue.tunistring) := val;
else
raise EPSCompilerException.Create(RPS_ConstantValueMismatch);
end;
end else
raise EPSCompilerException.Create(RPS_ConstantValueNotAssigned)
end;
{$ENDIF}
{ TPSPascalCompilerError }
function TPSPascalCompilerError.ErrorType: tbtString;
begin
Result := tbtstring(RPS_Error);
end;
function TPSPascalCompilerError.ShortMessageToString: tbtString;
begin
case Error of
ecUnknownIdentifier: Result := tbtstring(Format (RPS_UnknownIdentifier, [Param]));
ecIdentifierExpected: Result := tbtstring(RPS_IdentifierExpected);
ecCommentError: Result := tbtstring(RPS_CommentError);
ecStringError: Result := tbtstring(RPS_StringError);
ecCharError: Result := tbtstring(RPS_CharError);
ecSyntaxError: Result := tbtstring(RPS_SyntaxError);
ecUnexpectedEndOfFile: Result := tbtstring(RPS_EOF);
ecSemicolonExpected: Result := tbtstring(RPS_SemiColonExpected);
ecBeginExpected: Result := tbtstring(RPS_BeginExpected);
ecPeriodExpected: Result := tbtstring(RPS_PeriodExpected);
ecDuplicateIdentifier: Result := tbtstring(Format (RPS_DuplicateIdent, [Param]));
ecColonExpected: Result := tbtstring(RPS_ColonExpected);
ecUnknownType: Result := tbtstring(Format (RPS_UnknownType, [Param]));
ecCloseRoundExpected: Result := tbtstring(RPS_CloseRoundExpected);
ecTypeMismatch: Result := tbtstring(RPS_TypeMismatch);
ecInternalError: Result := tbtstring(Format (RPS_InternalError, [Param]));
ecAssignmentExpected: Result := tbtstring(RPS_AssignmentExpected);
ecThenExpected: Result := tbtstring(RPS_ThenExpected);
ecDoExpected: Result := tbtstring(RPS_DoExpected);
ecNoResult: Result := tbtstring(RPS_NoResult);
ecOpenRoundExpected: Result := tbtstring(RPS_OpenRoundExpected);
ecCommaExpected: Result := tbtstring(RPS_CommaExpected);
ecToExpected: Result := tbtstring(RPS_ToExpected);
ecIsExpected: Result := tbtstring(RPS_IsExpected);
ecOfExpected: Result := tbtstring(RPS_OfExpected);
ecCloseBlockExpected: Result := tbtstring(RPS_CloseBlockExpected);
ecVariableExpected: Result := tbtstring(RPS_VariableExpected);
ecStringExpected: result := tbtstring(RPS_StringExpected);
ecEndExpected: Result := tbtstring(RPS_EndExpected);
ecUnSetLabel: Result := tbtstring(Format (RPS_UnSetLabel, [Param]));
ecNotInLoop: Result := tbtstring(RPS_NotInLoop);
ecInvalidJump: Result := tbtstring(RPS_InvalidJump);
ecOpenBlockExpected: Result := tbtstring(RPS_OpenBlockExpected);
ecWriteOnlyProperty: Result := tbtstring(RPS_WriteOnlyProperty);
ecReadOnlyProperty: Result := tbtstring(RPS_ReadOnlyProperty);
ecClassTypeExpected: Result := tbtstring(RPS_ClassTypeExpected);
ecCustomError: Result := Param;
ecDivideByZero: Result := tbtstring(RPS_DivideByZero);
ecMathError: Result := tbtstring(RPS_MathError);
ecUnsatisfiedForward: Result := tbtstring(Format (RPS_UnsatisfiedForward, [Param]));
ecForwardParameterMismatch: Result := tbtstring(RPS_ForwardParameterMismatch);
ecInvalidnumberOfParameters: Result := tbtstring(RPS_InvalidNumberOfParameter);
{$IFDEF PS_USESSUPPORT}
ecNotAllowed : Result:=tbtstring(Format(RPS_NotAllowed,[Param]));
ecUnitNotFoundOrContainsErrors: Result:=tbtstring(Format(RPS_UnitNotFound,[Param]));
{$ENDIF}
else
Result := tbtstring(RPS_UnknownError);
end;
Result := Result;
end;
{ TPSPascalCompilerHint }
function TPSPascalCompilerHint.ErrorType: tbtString;
begin
Result := tbtstring(RPS_Hint);
end;
function TPSPascalCompilerHint.ShortMessageToString: tbtString;
begin
case Hint of
ehVariableNotUsed: Result := tbtstring(Format (RPS_VariableNotUsed, [Param]));
ehFunctionNotUsed: Result := tbtstring(Format (RPS_FunctionNotUsed, [Param]));
ehCustomHint: Result := Param;
else
Result := tbtstring(RPS_UnknownHint);
end;
end;
{ TPSPascalCompilerWarning }
function TPSPascalCompilerWarning.ErrorType: tbtString;
begin
Result := tbtstring(RPS_Warning);
end;
function TPSPascalCompilerWarning.ShortMessageToString: tbtString;
begin
case Warning of
ewCustomWarning: Result := Param;
ewCalculationAlwaysEvaluatesTo: Result := tbtstring(Format (RPS_CalculationAlwaysEvaluatesTo, [Param]));
ewIsNotNeeded: Result := tbtstring(Format (RPS_IsNotNeeded, [Param]));
ewAbstractClass: Result := tbtstring(RPS_AbstractClass);
else
Result := tbtstring(RPS_UnknownWarning);
end;
end;
{ TPSPascalCompilerMessage }
function TPSPascalCompilerMessage.MessageToString: tbtString;
begin
Result := '['+ErrorType+'] '+FModuleName+'('+IntToStr(FRow)+':'+IntToStr(FCol)+'): '+ShortMessageToString;
end;
procedure TPSPascalCompilerMessage.SetParserPos(Parser: TPSPascalParser);
begin
FPosition := Parser.CurrTokenPos;
FRow := Parser.Row;
FCol := Parser.Col;
end;
procedure TPSPascalCompilerMessage.SetCustomPos(Pos, Row, Col: Cardinal);
begin
FPosition := Pos;
FRow := Row;
FCol := Col;
end;
{ TUnConstOperation }
destructor TUnConstOperation.Destroy;
begin
FVal1.Free;
inherited Destroy;
end;
{ TBinConstOperation }
destructor TBinConstOperation.Destroy;
begin
FVal1.Free;
FVal2.Free;
inherited Destroy;
end;
{ TConstData }
destructor TConstData.Destroy;
begin
DisposeVariant(FData);
inherited Destroy;
end;
{ TConstOperation }
procedure TConstOperation.SetPos(Parser: TPSPascalParser);
begin
FDeclPosition := Parser.CurrTokenPos;
FDeclRow := Parser.Row;
FDeclCol := Parser.Col;
end;
{ TPSValue }
procedure TPSValue.SetParserPos(P: TPSPascalParser);
begin
FPos := P.CurrTokenPos;
FRow := P.Row;
FCol := P.Col;
end;
{ TPSValueData }
destructor TPSValueData.Destroy;
begin
DisposeVariant(FData);
inherited Destroy;
end;
{ TPSValueReplace }
constructor TPSValueReplace.Create;
begin
FFreeNewValue := True;
FReplaceTimes := 1;
end;
destructor TPSValueReplace.Destroy;
begin
if FFreeOldValue then
FOldValue.Free;
if FFreeNewValue then
FNewValue.Free;
inherited Destroy;
end;
{ TPSUnValueOp }
destructor TPSUnValueOp.Destroy;
begin
FVal1.Free;
inherited Destroy;
end;
{ TPSBinValueOp }
destructor TPSBinValueOp.Destroy;
begin
FVal1.Free;
FVal2.Free;
inherited Destroy;
end;
{ TPSSubValue }
destructor TPSSubValue.Destroy;
begin
FSubNo.Free;
inherited Destroy;
end;
{ TPSValueVar }
constructor TPSValueVar.Create;
begin
inherited Create;
FRecItems := TPSList.Create;
end;
destructor TPSValueVar.Destroy;
var
i: Longint;
begin
for i := 0 to FRecItems.Count -1 do
begin
TPSSubItem(FRecItems[I]).Free;
end;
FRecItems.Free;
inherited Destroy;
end;
function TPSValueVar.GetRecCount: Cardinal;
begin
Result := FRecItems.Count;
end;
function TPSValueVar.GetRecItem(I: Cardinal): TPSSubItem;
begin
Result := FRecItems[I];
end;
function TPSValueVar.RecAdd(Val: TPSSubItem): Cardinal;
begin
Result := FRecItems.Add(Val);
end;
procedure TPSValueVar.RecDelete(I: Cardinal);
var
rr :TPSSubItem;
begin
rr := FRecItems[i];
FRecItems.Delete(I);
rr.Free;
end;
{ TPSValueProc }
destructor TPSValueProc.Destroy;
begin
FSelfPtr.Free;
FParameters.Free;
end;
{ TPSParameter }
destructor TPSParameter.Destroy;
begin
FTempVar.Free;
FValue.Free;
inherited Destroy;
end;
{ TPSParameters }
function TPSParameters.Add: TPSParameter;
begin
Result := TPSParameter.Create;
FItems.Add(Result);
end;
constructor TPSParameters.Create;
begin
inherited Create;
FItems := TPSList.Create;
end;
procedure TPSParameters.Delete(I: Cardinal);
var
p: TPSParameter;
begin
p := FItems[I];
FItems.Delete(i);
p.Free;
end;
destructor TPSParameters.Destroy;
var
i: Longint;
begin
for i := FItems.Count -1 downto 0 do
begin
TPSParameter(FItems[I]).Free;
end;
FItems.Free;
inherited Destroy;
end;
function TPSParameters.GetCount: Cardinal;
begin
Result := FItems.Count;
end;
function TPSParameters.GetItem(I: Longint): TPSParameter;
begin
Result := FItems[I];
end;
{ TPSValueArray }
function TPSValueArray.Add(Item: TPSValue): Cardinal;
begin
Result := FItems.Add(Item);
end;
constructor TPSValueArray.Create;
begin
inherited Create;
FItems := TPSList.Create;
end;
procedure TPSValueArray.Delete(I: Cardinal);
begin
FItems.Delete(i);
end;
destructor TPSValueArray.Destroy;
var
i: Longint;
begin
for i := FItems.Count -1 downto 0 do
TPSValue(FItems[I]).Free;
FItems.Free;
inherited Destroy;
end;
function TPSValueArray.GetCount: Cardinal;
begin
Result := FItems.Count;
end;
function TPSValueArray.GetItem(I: Cardinal): TPSValue;
begin
Result := FItems[I];
end;
{ TPSValueAllocatedStackVar }
destructor TPSValueAllocatedStackVar.Destroy;
var
pv: TPSProcVar;
begin
{$IFDEF DEBUG}
if Cardinal(LocalVarNo +1) <> proc.ProcVars.Count then
begin
Abort;
exit;
end;
{$ENDIF}
if Proc <> nil then
begin
pv := Proc.ProcVars[Proc.ProcVars.Count -1];
Proc.ProcVars.Delete(Proc.ProcVars.Count -1);
pv.Free;
Proc.Data := Proc.Data + tbtChar(CM_PO);
end;
inherited Destroy;
end;
function AddImportedClassVariable(Sender: TPSPascalCompiler; const VarName, VarType: tbtString): Boolean;
var
P: TPSVar;
begin
P := Sender.AddVariableN(VarName, VarType);
if p = nil then
begin
Result := False;
Exit;
end;
SetVarExportName(P, FastUppercase(VarName));
p.Use;
Result := True;
end;
{'class:'+CLASSNAME+'|'+FUNCNAME+'|'+chr(CallingConv)+chr(hasresult)+params
For property write functions there is an '@' after the funcname.
}
const
ProcHDR = 'procedure a;';
{ TPSCompileTimeClass }
function TPSCompileTimeClass.CastToType(IntoType: TPSType;
var ProcNo: Cardinal): Boolean;
var
P: TPSExternalProcedure;
begin
if (IntoType <> nil) and (IntoType.BaseType <> btClass) and (IntoType.BaseType <> btInterface) then
begin
Result := False;
exit;
end;
if FCastProc <> InvalidVal then
begin
Procno := FCastProc;
Result := True;
exit;
end;
ProcNo := FOwner. AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
with P.RegProc.Decl.AddParam do
begin
OrgName := 'Org';
aType := Self.FType;
end;
with P.RegProc.Decl.AddParam do
begin
OrgName := 'TypeNo';
aType := FOwner.at2ut(FOwner.FindBaseType(btU32));
end;
P.RegProc.Decl.Result := IntoType;
P.RegProc.ImportDecl := 'class:+';
FCastProc := ProcNo;
Result := True;
end;
function TPSCompileTimeClass.ClassFunc_Call(Index: IPointer;
var ProcNo: Cardinal): Boolean;
var
C: TPSDelphiClassItemConstructor;
P: TPSExternalProcedure;
s: tbtString;
i: Longint;
begin
if FIsAbstract then
FOwner.MakeWarning('', ewAbstractClass, '');
C := Pointer(Index);
if c.MethodNo = InvalidVal then
begin
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
P.RegProc.Decl.Assign(c.Decl);
s := 'class:' + C.Owner.FClassName + '|' + C.Name + '|'+ chr(0);
if c.Decl.Result = nil then
s := s + #0
else
s := s + #1;
for i := 0 to C.Decl.ParamCount -1 do
begin
if c.Decl.Params[i].Mode <> pmIn then
s := s + #1
else
s := s + #0;
end;
P.RegProc.ImportDecl := s;
C.MethodNo := ProcNo;
end else begin
ProcNo := c.MethodNo;
end;
Result := True;
end;
function TPSCompileTimeClass.ClassFunc_Find(const Name: tbtString;
var Index: IPointer): Boolean;
var
H: Longint;
I: Longint;
CurrClass: TPSCompileTimeClass;
C: TPSDelphiClassItem;
begin
H := MakeHash(Name);
CurrClass := Self;
while CurrClass <> nil do
begin
for i := CurrClass.FClassItems.Count -1 downto 0 do
begin
C := CurrClass.FClassItems[I];
if (c is TPSDelphiClassItemConstructor) and (C.NameHash = H) and (C.Name = Name) then
begin
Index := Cardinal(C);
Result := True;
exit;
end;
end;
CurrClass := CurrClass.FInheritsFrom;
end;
Result := False;
end;
class function TPSCompileTimeClass.CreateC(FClass: TClass; aOwner: TPSPascalCompiler; aType: TPSType): TPSCompileTimeClass;
begin
Result := TPSCompileTimeClass.Create(FastUpperCase(tbtstring(FClass.ClassName)), aOwner, aType);
Result.FClass := FClass;
end;
constructor TPSCompileTimeClass.Create(ClassName: tbtString; aOwner: TPSPascalCompiler; aType: TPSType);
begin
inherited Create;
FType := aType;
FCastProc := InvalidVal;
FNilProc := InvalidVal;
FDefaultProperty := InvalidVal;
FClassName := Classname;
FClassNameHash := MakeHash(FClassName);
FClassItems := TPSList.Create;
FOwner := aOwner;
end;
destructor TPSCompileTimeClass.Destroy;
var
I: Longint;
begin
for i := FClassItems.Count -1 downto 0 do
TPSDelphiClassItem(FClassItems[I]).Free;
FClassItems.Free;
inherited Destroy;
end;
function TPSCompileTimeClass.Func_Call(Index: IPointer;
var ProcNo: Cardinal): Boolean;
var
C: TPSDelphiClassItemMethod;
P: TPSExternalProcedure;
i: Longint;
s: tbtString;
begin
C := Pointer(Index);
if c.MethodNo = InvalidVal then
begin
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
p.RegProc.Decl.Assign(c.Decl);
s := 'class:' + C.Owner.FClassName + '|' + C.Name + '|'+ chr(0);
if c.Decl.Result = nil then
s := s + #0
else
s := s + #1;
for i := 0 to c.Decl.ParamCount -1 do
begin
if c.Decl.Params[i].Mode <> pmIn then
s := s + #1
else
s := s + #0;
end;
P.RegProc.ImportDecl := s;
C.MethodNo := ProcNo;
end else begin
ProcNo := c.MethodNo;
end;
Result := True;
end;
function TPSCompileTimeClass.Func_Find(const Name: tbtString;
var Index: IPointer): Boolean;
var
H: Longint;
I: Longint;
CurrClass: TPSCompileTimeClass;
C: TPSDelphiClassItem;
begin
H := MakeHash(Name);
CurrClass := Self;
while CurrClass <> nil do
begin
for i := CurrClass.FClassItems.Count -1 downto 0 do
begin
C := CurrClass.FClassItems[I];
if (c is TPSDelphiClassItemMethod) and (C.NameHash = H) and (C.Name = Name) then
begin
Index := Cardinal(C);
Result := True;
exit;
end;
end;
CurrClass := CurrClass.FInheritsFrom;
end;
Result := False;
end;
function TPSCompileTimeClass.GetCount: Longint;
begin
Result := FClassItems.Count;
end;
function TPSCompileTimeClass.GetItem(i: Longint): TPSDelphiClassItem;
begin
Result := FClassItems[i];
end;
function TPSCompileTimeClass.IsCompatibleWith(aType: TPSType): Boolean;
var
Temp: TPSCompileTimeClass;
begin
if (atype.BaseType <> btClass) then
begin
Result := False;
exit;
end;
temp := TPSClassType(aType).Cl;
while Temp <> nil do
begin
if Temp = Self then
begin
Result := True;
exit;
end;
Temp := Temp.FInheritsFrom;
end;
Result := False;
end;
function TPSCompileTimeClass.Property_Find(const Name: tbtString;
var Index: IPointer): Boolean;
var
H: Longint;
I: Longint;
CurrClass: TPSCompileTimeClass;
C: TPSDelphiClassItem;
begin
if Name = '' then
begin
CurrClass := Self;
while CurrClass <> nil do
begin
if CurrClass.FDefaultProperty <> InvalidVal then
begin
Index := Cardinal(CurrClass.FClassItems[Currclass.FDefaultProperty]);
result := True;
exit;
end;
CurrClass := CurrClass.FInheritsFrom;
end;
Result := False;
exit;
end;
H := MakeHash(Name);
CurrClass := Self;
while CurrClass <> nil do
begin
for i := CurrClass.FClassItems.Count -1 downto 0 do
begin
C := CurrClass.FClassItems[I];
if (c is TPSDelphiClassItemProperty) and (C.NameHash = H) and (C.Name = Name) then
begin
Index := Cardinal(C);
Result := True;
exit;
end;
end;
CurrClass := CurrClass.FInheritsFrom;
end;
Result := False;
end;
function TPSCompileTimeClass.Property_Get(Index: IPointer;
var ProcNo: Cardinal): Boolean;
var
C: TPSDelphiClassItemProperty;
P: TPSExternalProcedure;
s: tbtString;
begin
C := Pointer(Index);
if c.AccessType = iptW then
begin
Result := False;
exit;
end;
if c.ReadProcNo = InvalidVal then
begin
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
P.RegProc.Decl.Result := C.Decl.Result;
s := 'class:' + C.Owner.FClassName + '|' + C.Name + '|'+#0#0#0#0;
Longint((@(s[length(s)-3]))^) := c.Decl.ParamCount +1;
P.RegProc.ImportDecl := s;
C.ReadProcNo := ProcNo;
end else begin
ProcNo := c.ReadProcNo;
end;
Result := True;
end;
function TPSCompileTimeClass.Property_GetHeader(Index: IPointer;
Dest: TPSParametersDecl): Boolean;
var
c: TPSDelphiClassItemProperty;
begin
C := Pointer(Index);
FOwner.UseProc(c.Decl);
Dest.Assign(c.Decl);
Result := True;
end;
function TPSCompileTimeClass.Property_Set(Index: IPointer;
var ProcNo: Cardinal): Boolean;
var
C: TPSDelphiClassItemProperty;
P: TPSExternalProcedure;
s: tbtString;
begin
C := Pointer(Index);
if c.AccessType = iptR then
begin
Result := False;
exit;
end;
if c.WriteProcNo = InvalidVal then
begin
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
s := 'class:' + C.Owner.FClassName + '|' + C.Name + '@|'#0#0#0#0;
Longint((@(s[length(s)-3]))^) := C.Decl.ParamCount+1;
P.RegProc.ImportDecl := s;
C.WriteProcNo := ProcNo;
end else begin
ProcNo := c.WriteProcNo;
end;
Result := True;
end;
function TPSCompileTimeClass.RegisterMethod(const Decl: tbtString): Boolean;
var
DOrgName: tbtString;
DDecl: TPSParametersDecl;
FT: TPMFuncType;
p: TPSDelphiClassItemMethod;
begin
DDecl := TPSParametersDecl.Create;
try
if not ParseMethod(FOwner, FClassName, Decl, DOrgName, DDecl, FT) then
begin
Result := False;
{$IFDEF DEBUG} raise EPSCompilerException.CreateFmt(RPS_UnableToRegister, [Decl]); {$ENDIF}
exit;
end;
if ft = mftConstructor then
p := TPSDelphiClassItemConstructor.Create(Self)
else
p := TPSDelphiClassItemMethod.Create(self);
p.OrgName := DOrgName;
p.Decl.Assign(DDecl);
p.MethodNo := InvalidVal;
FClassItems.Add(p);
Result := True;
finally
DDecl.Free;
end;
end;
procedure TPSCompileTimeClass.RegisterProperty(const PropertyName,
PropertyType: tbtString; PropAC: TPSPropType);
var
FType: TPSType;
Param: TPSParameterDecl;
p: TPSDelphiClassItemProperty;
PT: tbtString;
begin
pt := PropertyType;
p := TPSDelphiClassItemProperty.Create(Self);
p.AccessType := PropAC;
p.ReadProcNo := InvalidVal;
p.WriteProcNo := InvalidVal;
p.OrgName := PropertyName;
repeat
FType := FOwner.FindType(FastUpperCase(grfw(pt)));
if FType = nil then
begin
p.Free;
Exit;
end;
if p.Decl.Result = nil then p.Decl.Result := FType else
begin
param := p.Decl.AddParam;
Param.OrgName := 'param'+IntToStr(p.Decl.ParamCount);
Param.aType := FType;
end;
until pt = '';
FClassItems.Add(p);
end;
procedure TPSCompileTimeClass.RegisterPublishedProperties;
var
p: PPropList;
i, Count: Longint;
a: TPSPropType;
begin
if (Fclass = nil) or (Fclass.ClassInfo = nil) then exit;
Count := GetTypeData(fclass.ClassInfo)^.PropCount;
GetMem(p, Count * SizeOf(Pointer));
GetPropInfos(fclass.ClassInfo, p);
for i := Count -1 downto 0 do
begin
if p^[i]^.PropType^.Kind in [tkLString, tkInteger, tkChar, tkEnumeration, tkFloat, tkString, tkSet, tkClass, tkMethod{$IFNDEF PS_NOWIDESTRING}, tkWString{$ENDIF}] then
begin
if (p^[i]^.GetProc <> nil) then
begin
if p^[i]^.SetProc = nil then
a := iptr
else
a := iptrw;
end else
begin
a := iptW;
if p^[i]^.SetProc = nil then continue;
end;
RegisterProperty(p^[i]^.Name, p^[i]^.PropType^.Name, a);
end;
end;
FreeMem(p);
end;
function TPSCompileTimeClass.RegisterPublishedProperty(const Name: tbtString): Boolean;
var
p: PPropInfo;
a: TPSPropType;
begin
if (Fclass = nil) or (Fclass.ClassInfo = nil) then begin Result := False; exit; end;
p := GetPropInfo(fclass.ClassInfo, string(Name));
if p = nil then begin Result := False; exit; end;
if (p^.GetProc <> nil) then
begin
if p^.SetProc = nil then
a := iptr
else
a := iptrw;
end else
begin
a := iptW;
if p^.SetProc = nil then begin result := False; exit; end;
end;
RegisterProperty(p^.Name, p^.PropType^.Name, a);
Result := True;
end;
procedure TPSCompileTimeClass.SetDefaultPropery(const Name: tbtString);
var
i,h: Longint;
p: TPSDelphiClassItem;
s: tbtString;
begin
s := FastUppercase(name);
h := MakeHash(s);
for i := FClassItems.Count -1 downto 0 do
begin
p := FClassItems[i];
if (p.NameHash = h) and (p.Name = s) then
begin
if p is TPSDelphiClassItemProperty then
begin
if p.Decl.ParamCount = 0 then
Raise EPSCompilerException.Create(RPS_NotArrayProperty);
FDefaultProperty := I;
exit;
end else Raise EPSCompilerException.Create(RPS_NotProperty);
end;
end;
raise EPSCompilerException.Create(RPS_UnknownProperty);
end;
function TPSCompileTimeClass.SetNil(var ProcNo: Cardinal): Boolean;
var
P: TPSExternalProcedure;
begin
if FNilProc <> InvalidVal then
begin
Procno := FNilProc;
Result := True;
exit;
end;
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
with P.RegProc.Decl.AddParam do
begin
OrgName := 'VarNo';
aType := FOwner.at2ut(FType);
end;
P.RegProc.ImportDecl := 'class:-';
FNilProc := Procno;
Result := True;
end;
{ TPSSetType }
function TPSSetType.GetBitSize: Longint;
begin
case SetType.BaseType of
btEnum: begin Result := TPSEnumType(setType).HighValue+1; end;
btChar, btU8: Result := 256;
else
Result := 0;
end;
end;
function TPSSetType.GetByteSize: Longint;
var
r: Longint;
begin
r := BitSize;
if r mod 8 <> 0 then inc(r, 7);
Result := r div 8;
end;
{ TPSBlockInfo }
procedure TPSBlockInfo.Clear;
var
i: Longint;
begin
for i := WithList.Count -1 downto 0 do
begin
TPSValue(WithList[i]).Free;
WithList.Delete(i);
end;
end;
constructor TPSBlockInfo.Create(Owner: TPSBlockInfo);
begin
inherited Create;
FOwner := Owner;
FWithList := TPSList.Create;
if FOwner <> nil then
begin
FProcNo := FOwner.ProcNo;
FProc := FOwner.Proc;
end;
end;
destructor TPSBlockInfo.Destroy;
begin
Clear;
FWithList.Free;
inherited Destroy;
end;
{ TPSAttributeTypeField }
procedure TPSAttributeTypeField.SetFieldOrgName(const Value: tbtString);
begin
FFieldOrgName := Value;
FFieldName := FastUpperCase(Value);
FFieldNameHash := MakeHash(FFieldName);
end;
constructor TPSAttributeTypeField.Create(AOwner: TPSAttributeType);
begin
inherited Create;
FOwner := AOwner;
end;
{ TPSAttributeType }
function TPSAttributeType.GetField(I: Longint): TPSAttributeTypeField;
begin
Result := TPSAttributeTypeField(FFields[i]);
end;
function TPSAttributeType.GetFieldCount: Longint;
begin
Result := FFields.Count;
end;
procedure TPSAttributeType.SetName(const s: tbtString);
begin
FOrgname := s;
FName := FastUppercase(s);
FNameHash := MakeHash(FName);
end;
constructor TPSAttributeType.Create;
begin
inherited Create;
FFields := TPSList.Create;
end;
destructor TPSAttributeType.Destroy;
var
i: Longint;
begin
for i := FFields.Count -1 downto 0 do
begin
TPSAttributeTypeField(FFields[i]).Free;
end;
FFields.Free;
inherited Destroy;
end;
function TPSAttributeType.AddField: TPSAttributeTypeField;
begin
Result := TPSAttributeTypeField.Create(self);
FFields.Add(Result);
end;
procedure TPSAttributeType.DeleteField(I: Longint);
var
Fld: TPSAttributeTypeField;
begin
Fld := FFields[i];
FFields.Delete(i);
Fld.Free;
end;
{ TPSAttribute }
function TPSAttribute.GetValueCount: Longint;
begin
Result := FValues.Count;
end;
function TPSAttribute.GetValue(I: Longint): PIfRVariant;
begin
Result := FValues[i];
end;
constructor TPSAttribute.Create(AttribType: TPSAttributeType);
begin
inherited Create;
FValues := TPSList.Create;
FAttribType := AttribType;
end;
procedure TPSAttribute.DeleteValue(i: Longint);
var
Val: PIfRVariant;
begin
Val := FValues[i];
FValues.Delete(i);
DisposeVariant(Val);
end;
function TPSAttribute.AddValue(v: PIFRVariant): Longint;
begin
Result := FValues.Add(v);
end;
destructor TPSAttribute.Destroy;
var
i: Longint;
begin
for i := FValues.Count -1 downto 0 do
begin
DisposeVariant(FValues[i]);
end;
FValues.Free;
inherited Destroy;
end;
procedure TPSAttribute.Assign(Item: TPSAttribute);
var
i: Longint;
p: PIfRVariant;
begin
for i := FValues.Count -1 downto 0 do
begin
DisposeVariant(FValues[i]);
end;
FValues.Clear;
FAttribType := Item.FAttribType;
for i := 0 to Item.FValues.Count -1 do
begin
p := DuplicateVariant(Item.FValues[i]);
FValues.Add(p);
end;
end;
{ TPSAttributes }
function TPSAttributes.GetCount: Longint;
begin
Result := FItems.Count;
end;
function TPSAttributes.GetItem(I: Longint): TPSAttribute;
begin
Result := TPSAttribute(FItems[i]);
end;
procedure TPSAttributes.Delete(i: Longint);
var
item: TPSAttribute;
begin
item := TPSAttribute(FItems[i]);
FItems.Delete(i);
Item.Free;
end;
function TPSAttributes.Add(AttribType: TPSAttributeType): TPSAttribute;
begin
Result := TPSAttribute.Create(AttribType);
FItems.Add(Result);
end;
constructor TPSAttributes.Create;
begin
inherited Create;
FItems := TPSList.Create;
end;
destructor TPSAttributes.Destroy;
var
i: Longint;
begin
for i := FItems.Count -1 downto 0 do
begin
TPSAttribute(FItems[i]).Free;
end;
FItems.Free;
inherited Destroy;
end;
procedure TPSAttributes.Assign(attr: TPSAttributes; Move: Boolean);
var
newitem, item: TPSAttribute;
i: Longint;
begin
for i := ATtr.FItems.Count -1 downto 0 do
begin
Item := Attr.Fitems[i];
if Move then
begin
FItems.Add(Item);
Attr.FItems.Delete(i);
end else
begin
newitem := TPSAttribute.Create(Item.FAttribType );
newitem.Assign(item);
FItems.Add(NewItem);
end;
end;
end;
function TPSAttributes.FindAttribute(
const Name: tbtString): TPSAttribute;
var
h, i: Longint;
begin
h := MakeHash(name);
for i := FItems.Count -1 downto 0 do
begin
Result := FItems[i];
if (Result.FAttribType.NameHash = h) and (Result.FAttribType.Name = Name) then
exit;
end;
result := nil;
end;
{ TPSParameterDecl }
procedure TPSParameterDecl.SetName(const s: tbtString);
begin
FOrgName := s;
FName := FastUppercase(s);
end;
{ TPSParametersDecl }
procedure TPSParametersDecl.Assign(Params: TPSParametersDecl);
var
i: Longint;
np, orgp: TPSParameterDecl;
begin
for i := FParams.Count -1 downto 0 do
begin
TPSParameterDecl(Fparams[i]).Free;
end;
FParams.Clear;
FResult := Params.Result;
for i := 0 to Params.FParams.count -1 do
begin
orgp := Params.FParams[i];
np := AddParam;
np.OrgName := orgp.OrgName;
np.Mode := orgp.Mode;
np.aType := orgp.aType;
np.DeclarePos:=orgp.DeclarePos;
np.DeclareRow:=orgp.DeclareRow;
np.DeclareCol:=orgp.DeclareCol;
end;
end;
function TPSParametersDecl.GetParam(I: Longint): TPSParameterDecl;
begin
Result := FParams[i];
end;
function TPSParametersDecl.GetParamCount: Longint;
begin
Result := FParams.Count;
end;
function TPSParametersDecl.AddParam: TPSParameterDecl;
begin
Result := TPSParameterDecl.Create;
FParams.Add(Result);
end;
procedure TPSParametersDecl.DeleteParam(I: Longint);
var
param: TPSParameterDecl;
begin
param := FParams[i];
FParams.Delete(i);
Param.Free;
end;
constructor TPSParametersDecl.Create;
begin
inherited Create;
FParams := TPSList.Create;
end;
destructor TPSParametersDecl.Destroy;
var
i: Longint;
begin
for i := FParams.Count -1 downto 0 do
begin
TPSParameterDecl(Fparams[i]).Free;
end;
FParams.Free;
inherited Destroy;
end;
function TPSParametersDecl.Same(d: TPSParametersDecl): boolean;
var
i: Longint;
begin
if (d = nil) or (d.ParamCount <> ParamCount) or (d.Result <> Self.Result) then
Result := False
else begin
for i := 0 to d.ParamCount -1 do
begin
if (d.Params[i].Mode <> Params[i].Mode) or (d.Params[i].aType <> Params[i].aType) then
begin
Result := False;
exit;
end;
end;
Result := True;
end;
end;
{ TPSProceduralType }
constructor TPSProceduralType.Create;
begin
inherited Create;
FProcDef := TPSParametersDecl.Create;
end;
destructor TPSProceduralType.Destroy;
begin
FProcDef.Free;
inherited Destroy;
end;
{ TPSDelphiClassItem }
procedure TPSDelphiClassItem.SetName(const s: tbtString);
begin
FOrgName := s;
FName := FastUpperCase(s);
FNameHash := MakeHash(FName);
end;
constructor TPSDelphiClassItem.Create(Owner: TPSCompileTimeClass);
begin
inherited Create;
FOwner := Owner;
FDecl := TPSParametersDecl.Create;
end;
destructor TPSDelphiClassItem.Destroy;
begin
FDecl.Free;
inherited Destroy;
end;
{$IFNDEF PS_NOINTERFACES}
{ TPSInterface }
function TPSInterface.CastToType(IntoType: TPSType;
var ProcNo: Cardinal): Boolean;
var
P: TPSExternalProcedure;
begin
if (IntoType <> nil) and (IntoType.BaseType <> btInterface) then
begin
Result := False;
exit;
end;
if FCastProc <> InvalidVal then
begin
ProcNo := FCastProc;
Result := True;
exit;
end;
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
with P.RegProc.Decl.AddParam do
begin
OrgName := 'Org';
aType := Self.FType;
end;
with P.RegProc.Decl.AddParam do
begin
OrgName := 'TypeNo';
aType := FOwner.at2ut(FOwner.FindBaseType(btU32));
end;
P.RegProc.Decl.Result := FOwner.at2ut(IntoType);
P.RegProc.ImportDecl := 'class:+';
FCastProc := ProcNo;
Result := True;
end;
constructor TPSInterface.Create(Owner: TPSPascalCompiler; InheritedFrom: TPSInterface; Guid: TGuid; const Name: tbtString; aType: TPSType);
begin
inherited Create;
FCastProc := InvalidVal;
FNilProc := InvalidVal;
FType := aType;
FOWner := Owner;
FGuid := GUID;
Self.InheritedFrom := InheritedFrom;
FItems := TPSList.Create;
FName := Name;
FNameHash := MakeHash(Name);
end;
procedure TPSInterface.SetInheritedFrom(p: TPSInterface);
begin
FInheritedFrom := p;
end;
destructor TPSInterface.Destroy;
var
i: Longint;
begin
for i := FItems.Count -1 downto 0 do
begin
TPSInterfaceMethod(FItems[i]).Free;
end;
FItems.Free;
inherited Destroy;
end;
function TPSInterface.Func_Call(Index: Cardinal;
var ProcNo: Cardinal): Boolean;
var
c: TPSInterfaceMethod;
P: TPSExternalProcedure;
s: tbtString;
i: Longint;
begin
c := TPSInterfaceMethod(Index);
if c.FScriptProcNo <> InvalidVal then
begin
Procno := c.FScriptProcNo;
Result := True;
exit;
end;
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
FOwner.UseProc(C.Decl);
P.RegProc.Decl.Assign(c.Decl);
s := tbtstring('intf:.') + PS_mi2s(c.AbsoluteProcOffset) + tbtchar(ord(c.CC));
if c.Decl.Result = nil then
s := s + #0
else
s := s + #1;
for i := 0 to C.Decl.ParamCount -1 do
begin
if c.Decl.Params[i].Mode <> pmIn then
s := s + #1
else
s := s + #0;
end;
P.RegProc.ImportDecl := s;
C.FScriptProcNo := ProcNo;
Result := True;
end;
function TPSInterface.Func_Find(const Name: tbtString;
var Index: Cardinal): Boolean;
var
H: Longint;
I: Longint;
CurrClass: TPSInterface;
C: TPSInterfaceMethod;
begin
H := MakeHash(Name);
CurrClass := Self;
while CurrClass <> nil do
begin
for i := CurrClass.FItems.Count -1 downto 0 do
begin
C := CurrClass.FItems[I];
if (C.NameHash = H) and (C.Name = Name) then
begin
Index := Cardinal(c);
Result := True;
exit;
end;
end;
CurrClass := CurrClass.FInheritedFrom;
end;
Result := False;
end;
function TPSInterface.IsCompatibleWith(aType: TPSType): Boolean;
var
Temp: TPSInterface;
begin
if (atype.BaseType = btClass) then // just support it, we'll see what happens
begin
Result := true;
exit;
end;
if atype.BaseType <> btInterface then
begin
Result := False;
exit;
end;
temp := TPSInterfaceType(atype).FIntf;
while Temp <> nil do
begin
if Temp = Self then
begin
Result := True;
exit;
end;
Temp := Temp.FInheritedFrom;
end;
Result := False;
end;
procedure TPSInterface.RegisterDummyMethod;
begin
FItems.Add(TPSInterfaceMethod.Create(self));
end;
function TPSInterface.RegisterMethod(const Declaration: tbtString;
const cc: TPSCallingConvention): Boolean;
var
M: TPSInterfaceMethod;
DOrgName: tbtString;
Func: TPMFuncType;
begin
M := TPSInterfaceMethod.Create(Self);
if not ParseMethod(FOwner, '', Declaration, DOrgname, m.Decl, Func) then
begin
FItems.Add(m); // in any case, add a dummy item
Result := False;
exit;
end;
m.FName := FastUppercase(DOrgName);
m.FOrgName := DOrgName;
m.FNameHash := MakeHash(m.FName);
m.FCC := CC;
m.FScriptProcNo := InvalidVal;
FItems.Add(M);
Result := True;
end;
function TPSInterface.SetNil(var ProcNo: Cardinal): Boolean;
var
P: TPSExternalProcedure;
begin
if FNilProc <> InvalidVal then
begin
Procno := FNilProc;
Result := True;
exit;
end;
ProcNo := FOwner.AddUsedFunction2(P);
P.RegProc := FOwner.AddFunction(ProcHDR);
P.RegProc.Name := '';
with p.RegProc.Decl.AddParam do
begin
Mode := pmInOut;
OrgName := 'VarNo';
aType := FOwner.at2ut(Self.FType);
end;
P.RegProc.ImportDecl := 'class:-';
FNilProc := Procno;
Result := True;
end;
{ TPSInterfaceMethod }
constructor TPSInterfaceMethod.Create(Owner: TPSInterface);
begin
inherited Create;
FDecl := TPSParametersDecl.Create;
FOwner := Owner;
FOffsetCache := InvalidVal;
end;
function TPSInterfaceMethod.GetAbsoluteProcOffset: Cardinal;
var
ps: TPSInterface;
begin
if FOffsetCache = InvalidVal then
begin
FOffsetCache := FOwner.FItems.IndexOf(Self);
ps := FOwner.FInheritedFrom;
while ps <> nil do
begin
FOffsetCache := FOffsetCache + ps.FItems.Count;
ps := ps.FInheritedFrom;
end;
end;
result := FOffsetCache;
end;
destructor TPSInterfaceMethod.Destroy;
begin
FDecl.Free;
inherited Destroy;
end;
{$ENDIF}
{ TPSVariantType }
function TPSVariantType.GetDynInvokeParamType(Owner: TPSPascalCompiler) : TPSType;
begin
Result := Owner.at2ut(FindAndAddType(owner, '!OPENARRAYOFVARIANT', 'array of variant'));
end;
function TPSVariantType.GetDynInvokeProcNo(Owner: TPSPascalCompiler; const Name: tbtString;
Params: TPSParameters): Cardinal;
begin
Result := Owner.FindProc('IDISPATCHINVOKE');
end;
function TPSVariantType.GetDynIvokeResulType(
Owner: TPSPascalCompiler): TPSType;
begin
Result := Owner.FindType('VARIANT');
end;
function TPSVariantType.GetDynIvokeSelfType(Owner: TPSPascalCompiler): TPSType;
begin
Result := Owner.at2ut(Owner.FindType('IDISPATCH'));
end;
{ TPSExternalClass }
function TPSExternalClass.SetNil(var ProcNo: Cardinal): Boolean;
begin
Result := False;
end;
constructor TPSExternalClass.Create(Se: TIFPSPascalCompiler; TypeNo: TPSType);
begin
inherited Create;
Self.SE := se;
Self.FTypeNo := TypeNo;
end;
function TPSExternalClass.Func_Call(Index: Cardinal;
var ProcNo: Cardinal): Boolean;
begin
Result := False;
end;
function TPSExternalClass.Func_Find(const Name: tbtString;
var Index: Cardinal): Boolean;
begin
Result := False;
end;
function TPSExternalClass.IsCompatibleWith(
Cl: TPSExternalClass): Boolean;
begin
Result := False;
end;
function TPSExternalClass.SelfType: TPSType;
begin
Result := nil;
end;
function TPSExternalClass.CastToType(IntoType: TPSType;
var ProcNo: Cardinal): Boolean;
begin
Result := False;
end;
function TPSExternalClass.CompareClass(OtherTypeNo: TPSType;
var ProcNo: Cardinal): Boolean;
begin
Result := false;
end;
function TPSExternalClass.ClassFunc_Find(const Name: tbtString; var Index: Cardinal): Boolean;
begin
result := false;
end;
function TPSExternalClass.ClassFunc_Call(Index: Cardinal; var ProcNo: Cardinal): Boolean;
begin
result := false;
end;
{ TPSValueProcVal }
destructor TPSValueProcVal.Destroy;
begin
FProcNo.Free;
inherited;
end;
{
Internal error counter: 00020 (increase and then use)
}
end.