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{
*****************************************************************************
This file is part of the Lazarus Component Library (LCL)
See the file COPYING.modifiedLGPL.txt, included in this distribution,
for details about the license.
*****************************************************************************
Component serialisation into Pascal.
Author: Mattias Gaertner
Working:
- signature begin, end, version
- boolean, set of boolean
- char, widechar, custom char, set of custom char
- integers, custom int, set of custom int
- strings, codepage system and UTF8
- float, currency
- enum, custom enum range
- set of enum, set of custom enum range
- variant: integers, boolean, string, floats, currency
- method
- persistent
- component children, use SetParentComponent or optional Parent:=
- collection
- IInterfaceComponentReference
- with ancestor
- ancestor: change ComponentIndex -> call SetChildPos
- reference foreign root, reference foreign component
- create components before setting properties to avoid having to set references
later
- inline component, csInline, call SetInline, inherited inline, inline on inherited
- TComponent.Left/Right via DesignInfo
- DefineProperties
- RegisterDefinePropertiesPas
}
unit CompWriterPas;
{$mode objfpc}{$H+}
{off $DEFINE VerboseCompWriterPas}
interface
uses
Classes, SysUtils, typinfo, RtlConsts, contnrs, LazLoggerBase, LazUTF8;
const
// Component serialized as Pascal
CSPVersion = 1;
CSPDefaultSignature = '// Component serialized as Pascal';
CSPDefaultSignatureBegin = CSPDefaultSignature+' - Begin';
CSPDefaultSignatureEnd = CSPDefaultSignature+' - End';
CSPDefaultAccessClass = 'TPasStreamAccess';
CSPDefaultExecCustomProc = 'ExecCustomCSP';
CSPDefaultExecCustomProcUnit = 'LazPasReadUtil';
CSPDefaultMaxColumn = 80;
CSPDefaultAssignOp = ':=';
CWPSkipParentName = '-';
type
TCompWriterPas = class;
TCWPFindAncestorEvent = procedure(Writer: TCompWriterPas; Component: TComponent;
const Name: string; var Ancestor, RootAncestor: TComponent) of object;
TCWPGetMethodName = procedure(Writer: TCompWriterPas; Instance: TPersistent;
PropInfo: PPropInfo; out Name: String) of object;
TCWPGetParentPropertyEvent = procedure(Writer: TCompWriterPas;
Component: TComponent; var PropName: string) of object;
TCWPDefinePropertiesEvent = procedure(Writer: TCompWriterPas;
Instance: TPersistent; const Identifier: string; var Handled: boolean) of object;
TCWPOption = (
cwpoNoSignature, // do not write Begin, End signatures
cwpoNoSelf, // enclose in "with LookupRootname do begin"
cwpoSetParentFirst, // add "SetParentComponent" before setting properties, default: after
cwpoSrcCodepageUTF8, // target unit uses $codepage utf-8, aka do not convert UTF-8 string literals
cwpoNoWithBlocks // do not use with-do
);
TCWPOptions = set of TCWPOption;
TCWPChildrenStep = (
cwpcsCreate,
cwpcsProperties
);
{ TCompWriterPas }
TCompWriterPas = class
private
FAccessClass: string;
FAncestor: TPersistent;
FAncestorPos: Integer;
FAncestors: TStringList;
FAssignOp: String;
FCurIndent: integer;
FCurrentPos: Integer;
FDefaultDefineProperties: CodePointer;
FExecCustomProc: string;
FExecCustomProcUnit: string;
FIgnoreChildren: Boolean;
FIndentStep: integer;
FLineEnding: string;
FLookupRoot: TComponent;
FMaxColumn: integer;
FNeedAccessClass: boolean;
FNeededUnits: TStrings;
FOnDefineProperties: TCWPDefinePropertiesEvent;
FOnFindAncestor: TCWPFindAncestorEvent;
FOnGetMethodName: TCWPGetMethodName;
FOnGetParentProperty: TCWPGetParentPropertyEvent;
FOnWriteMethodProperty: TWriteMethodPropertyEvent;
FOnWriteStringProperty: TReadWriteStringPropertyEvent;
FOptions: TCWPOptions;
FParent: TComponent;
FPropPath: string;
FRoot: TComponent;
FRootAncestor: TComponent;
FSignatureBegin: String;
FSignatureEnd: String;
FStream: TStream;
procedure AddToAncestorList(Component: TComponent);
procedure DetermineAncestor(Component: TComponent);
procedure SetNeededUnits(const AValue: TStrings);
procedure SetRoot(const AValue: TComponent);
procedure WriteComponentData(Instance: TComponent);
procedure WriteChildren(Component: TComponent; Step: TCWPChildrenStep);
procedure WriteProperty(Instance: TPersistent; PropInfo: PPropInfo);
procedure WriteProperties(Instance: TPersistent);
procedure WriteDefineProperties(Instance: TPersistent);
procedure WriteCollection(PropName: string; Collection: TCollection);
function ShortenFloat(s: string): string;
public
constructor Create(AStream: TStream);
destructor Destroy; override;
// stream a component:
procedure WriteDescendant(ARoot: TComponent; AAncestor: TComponent = nil);
// utility functions:
procedure WriteComponentCreate(Component: TComponent);
procedure WriteComponent(Component: TComponent);
procedure WriteIndent;
procedure Write(const s: string);
procedure WriteLn;
procedure WriteStatement(const s: string);
procedure WriteAssign(const LHS, RHS: string);
procedure WriteWithDo(const Expr: string);
procedure WriteWithEnd;
function GetComponentPath(Component: TComponent): string;
function GetBoolLiteral(b: boolean): string;
function GetCharLiteral(c: integer): string;
function GetWideCharLiteral(c: integer): string;
function GetStringLiteral(const s: string): string;
function GetWStringLiteral(p: PWideChar; Count: integer): string;
function GetFloatLiteral(const e: Extended): string;
function GetCurrencyLiteral(const c: currency): string;
function GetEnumExpr(TypeInfo: PTypeInfo; Value: integer;
AllowOutOfRange: boolean): string;
function GetVersionStatement: string;
function CreatedByAncestor(Component: TComponent): boolean;
procedure AddNeededUnit(const AnUnitName: string);
procedure Indent;
procedure Unindent;
property Stream: TStream read FStream;
property Root: TComponent read FRoot write SetRoot;
property LookupRoot: TComponent read FLookupRoot;
property Ancestor: TPersistent read FAncestor write FAncestor;
property RootAncestor: TComponent read FRootAncestor write FRootAncestor;
property Parent: TComponent read FParent;
property OnFindAncestor: TCWPFindAncestorEvent read FOnFindAncestor write FOnFindAncestor;
property OnGetMethodName: TCWPGetMethodName read FOnGetMethodName write FOnGetMethodName;
property PropertyPath: string read FPropPath;
property CurIndent: integer read FCurIndent write FCurIndent;
property IndentStep: integer read FIndentStep write FIndentStep;
property Options: TCWPOptions read FOptions write FOptions;
property IgnoreChildren: Boolean read FIgnoreChildren write FIgnoreChildren;
property OnGetParentProperty: TCWPGetParentPropertyEvent read FOnGetParentProperty write FOnGetParentProperty;
public
// for custom DefineProperties
property OnWriteMethodProperty: TWriteMethodPropertyEvent read FOnWriteMethodProperty write FOnWriteMethodProperty;
property OnWriteStringProperty: TReadWriteStringPropertyEvent read FOnWriteStringProperty write FOnWriteStringProperty;
property OnDefineProperties: TCWPDefinePropertiesEvent read FOnDefineProperties write FOnDefineProperties;
public
// code snippets
property LineEnding: string read FLineEnding write FLineEnding; // default: system.LineEnding
property AssignOp: String read FAssignOp write FAssignOp; // default CSPDefaultAssignOp;
property SignatureBegin: String read FSignatureBegin write FSignatureBegin; // default CSPDefaultSignatureBegin
property SignatureEnd: String read FSignatureEnd write FSignatureEnd; // default CSPDefaultSignatureEnd
property AccessClass: string read FAccessClass
write FAccessClass; // classname used to access protected TComponent members like SetChildOrder
property ExecCustomProc: string read FExecCustomProc write FExecCustomProc; // default CSPDefaultExecCustomProc
property ExecCustomProcUnit: string read FExecCustomProcUnit write FExecCustomProcUnit; // default CSPDefaultExecCustomProcUnit
property MaxColumn: integer read FMaxColumn write FMaxColumn default CSPDefaultMaxColumn;
public
// set automatically when writing
property NeedAccessClass: boolean read FNeedAccessClass write FNeedAccessClass; // some property needed AccessClass
property NeededUnits: TStrings read FNeededUnits write SetNeededUnits;
end;
procedure WriteComponentToPasStream(AComponent: TComponent; AStream: TStream);
type
TCWPDefinePropertiesProc = procedure(Sender: TCompWriterPas;
Instance: TPersistent; const Identifier: string; var Handled: boolean);
procedure RegisterDefinePropertiesPas(aClass: TPersistentClass;
const OnDefineProperties: TCWPDefinePropertiesProc);
procedure UnregisterDefinePropertiesPas(
const OnDefineProperties: TCWPDefinePropertiesProc);
procedure CallDefinePropertiesPas(Writer: TCompWriterPas; Instance: TPersistent;
const Identifier: string; var Handled: boolean);
implementation
type
TDefinePropertiesPas = class
BaseClass: TPersistentClass;
Event: TCWPDefinePropertiesProc;
end;
var
DefinePropertiesEvents: TObjectList = nil;
procedure WriteComponentToPasStream(AComponent: TComponent; AStream: TStream);
var
Writer: TCompWriterPas;
begin
Writer:=TCompWriterPas.Create(AStream);
try
Writer.WriteDescendant(AComponent);
finally
Writer.Free;
end;
end;
procedure RegisterDefinePropertiesPas(aClass: TPersistentClass;
const OnDefineProperties: TCWPDefinePropertiesProc);
var
i, Cnt: Integer;
E: TDefinePropertiesPas;
begin
if not Assigned(OnDefineProperties) then
raise Exception.Create('');
if not Assigned(aClass) then
raise Exception.Create('');
if DefinePropertiesEvents=nil then
DefinePropertiesEvents:=TObjectList.Create(true);
Cnt:=DefinePropertiesEvents.Count;
i:=0;
while i<Cnt do
begin
E:=TDefinePropertiesPas(DefinePropertiesEvents[i]);
if E.BaseClass.InheritsFrom(aClass) then
break;
inc(Cnt);
end;
E:=TDefinePropertiesPas.Create;
E.BaseClass:=aClass;
E.Event:=OnDefineProperties;
DefinePropertiesEvents.Insert(i,E);
end;
procedure UnregisterDefinePropertiesPas(
const OnDefineProperties: TCWPDefinePropertiesProc);
var
i: Integer;
E: TDefinePropertiesPas;
begin
for i:=DefinePropertiesEvents.Count-1 downto 0 do
begin
E:=TDefinePropertiesPas(DefinePropertiesEvents[i]);
if E.Event=OnDefineProperties then
DefinePropertiesEvents.Delete(i);
end;
end;
procedure CallDefinePropertiesPas(Writer: TCompWriterPas;
Instance: TPersistent; const Identifier: string; var Handled: boolean);
var
i: Integer;
E: TDefinePropertiesPas;
begin
if DefinePropertiesEvents=nil then exit;
for i:=0 to DefinePropertiesEvents.Count-1 do begin
E:=TDefinePropertiesPas(DefinePropertiesEvents[i]);
if not Instance.InheritsFrom(E.BaseClass) then
continue;
E.Event(Writer,Instance,Identifier,Handled);
if Handled then exit;
end;
end;
function IsValidUTF8(p: PChar): integer;
var
c: Char;
begin
c:=p^;
if ord(c)<%10000000 then begin
// regular single byte ASCII character (#0 is a character, this is Pascal ;)
Result:=1;
end else if ord(c)<=%11000001 then begin
// single byte character, between valid UTF-8 encodings
// %11000000 and %11000001 map 2 byte to #0..#128, which is invalid and used for XSS attacks
Result:=0;
end else if ord(c)<=%11011111 then begin
// could be 2 byte character (%110xxxxx %10xxxxxx)
if ((ord(p[1]) and %11000000) = %10000000) then
Result:=2
else
Result:=0; // missing following bytes
end
else if ord(c)<=%11101111 then begin
// could be 3 byte character (%1110xxxx %10xxxxxx %10xxxxxx)
if ((ord(p[1]) and %11000000) = %10000000)
and ((ord(p[2]) and %11000000) = %10000000) then begin
if (ord(c)=%11100000) and (ord(p[1])<=%10011111) then
Result:=0; // XSS attack: 3 bytes are mapped to the 1 or 2 byte codes
Result:=3;
end else
Result:=0; // missing following bytes
end
else if ord(c)<=%11110111 then begin
// could be 4 byte character (%11110xxx %10xxxxxx %10xxxxxx %10xxxxxx)
if ((ord(p[1]) and %11000000) = %10000000)
and ((ord(p[2]) and %11000000) = %10000000)
and ((ord(p[3]) and %11000000) = %10000000) then begin
if (ord(c)=%11110000) and (ord(p[1])<=%10001111) then
Result:=0; // XSS attack: 4 bytes are mapped to the 1-3 byte codes
Result:=4;
end else
Result:=0; // missing following bytes
end
else begin
Result:=0;
end;
end;
function IsValidUTF16(p: PWideChar): integer;
var
c: WideChar;
begin
c:=p^;
if c<=#$DC7F then
exit(1)
else if c<=#$DBFF then begin
c:=p[1];
if (c>=#$DC00) and (c<=#$DFFF) then
exit(2)
else
exit(0);
end else if c<=#$Dfff then begin
exit(0);
end else
exit(1);
end;
type
TAccessComp = class(TComponent); // to access TComponent protected members
{ TPosComponent }
TPosComponent = class(TObject)
FPos: Integer;
FComponent: TComponent;
constructor Create(APos: Integer; AComponent: TComponent);
end;
{ TPosComponent }
constructor TPosComponent.Create(APos: Integer; AComponent: TComponent);
begin
FPos:=APos;
FComponent:=AComponent;
end;
{ TCompWriterPas }
procedure TCompWriterPas.AddToAncestorList(Component: TComponent);
begin
FAncestors.AddObject(Component.Name,TPosComponent.Create(FAncestors.Count,Component));
end;
procedure TCompWriterPas.DetermineAncestor(Component: TComponent);
var
i : Integer;
C: TComponent;
begin
if Assigned(FAncestors) then
begin
i:=FAncestors.IndexOf(Component.Name);
if i<0 then
begin
FAncestor:=nil;
FAncestorPos:=-1;
end
else
With TPosComponent(FAncestors.Objects[i]) do
begin
FAncestor:=FComponent;
FAncestorPos:=FPos;
end;
end;
if Assigned(FOnFindAncestor) then
if (Ancestor=Nil) or (Ancestor is TComponent) then
begin
C:=TComponent(Ancestor);
FOnFindAncestor(Self,Component,Component.Name,C,FRootAncestor);
Ancestor:=C;
end;
end;
procedure TCompWriterPas.SetNeededUnits(const AValue: TStrings);
begin
if FNeededUnits=AValue then Exit;
FNeededUnits.Assign(AValue);
end;
procedure TCompWriterPas.SetRoot(const AValue: TComponent);
begin
FRoot:=AValue;
FLookupRoot:=FRoot;
end;
procedure TCompWriterPas.WriteComponentData(Instance: TComponent);
var
HasAncestor: Boolean;
SavedPropPath: String;
procedure WriteSetParent;
var
PropName: String;
begin
if Parent=nil then exit;
if Instance.GetParentComponent=nil then exit;
if CreatedByAncestor(Instance) then begin
// ancestor creates the component
// and descendants cannot change parent
exit;
end;
PropName:='';
if Assigned(OnGetParentProperty) then
OnGetParentProperty(Self,Instance,PropName);
if PropName=CWPSkipParentName then
else if PropName<>'' then
WriteAssign(PropertyPath+PropName,GetComponentPath(Parent))
else begin
NeedAccessClass:=true;
WriteStatement(AccessClass+'(TComponent('+Instance.Name+')).SetParentComponent('+GetComponentPath(Parent)+');');
end;
end;
begin
HasAncestor := Assigned(Ancestor) and ((Instance = Root) or
(Instance.ClassType = Ancestor.ClassType));
SavedPropPath:=FPropPath;
try
if Instance=LookupRoot then begin
WriteAssign('Name',''''+Instance.Name+'''');
WriteChildren(Instance,cwpcsCreate);
end
else begin
WriteWithDo(Instance.Name);
if cwpoNoWithBlocks in Options then
FPropPath:=GetComponentPath(Instance)+'.';
if not CreatedByAncestor(Instance) then
WriteAssign(PropertyPath+'Name',''''+Instance.Name+'''');
if cwpoSetParentFirst in Options then
WriteSetParent;
end;
WriteProperties(Instance);
if not (cwpoSetParentFirst in Options) then
WriteSetParent;
if not IgnoreChildren then
WriteChildren(Instance,cwpcsProperties);
if Instance<>LookupRoot then
WriteWithEnd;
finally
FPropPath:=SavedPropPath;
end;
if HasAncestor and (Ancestor<>FRootAncestor)
and (FCurrentPos<>FAncestorPos) then
begin
if (Parent=LookupRoot) and not (cwpoNoSelf in Options) then
WriteStatement('SetChildOrder('+GetComponentPath(Instance)+','+IntToStr(FCurrentPos)+');')
else begin
NeedAccessClass:=true;
WriteStatement(AccessClass+'(TComponent('+GetComponentPath(Parent)+')).SetChildOrder('+GetComponentPath(Instance)+','+IntToStr(FCurrentPos)+');');
end;
end;
Inc(FCurrentPos);
end;
procedure TCompWriterPas.WriteChildren(Component: TComponent;
Step: TCWPChildrenStep);
var
SRoot, SRootA, SParent: TComponent;
SList: TStringList;
SPos, i, SAncestorPos: Integer;
begin
// Write children list.
// While writing children, the ancestor environment must be saved
// This is recursive...
SRoot:=FRoot;
SRootA:=FRootAncestor;
SList:=FAncestors;
SPos:=FCurrentPos;
SAncestorPos:=FAncestorPos;
SParent:=Parent;
try
FAncestors:=Nil;
FCurrentPos:=0;
FAncestorPos:=-1;
FParent:=Component;
if csInline in Component.ComponentState then
FRoot:=Component;
if (FAncestor is TComponent) then
begin
FAncestors:=TStringList.Create;
if csInline in TComponent(FAncestor).ComponentState then
FRootAncestor := TComponent(FAncestor);
TAccessComp(FAncestor).GetChildren(@AddToAncestorList,FRootAncestor);
FAncestors.Sorted:=True;
end;
try
case Step of
cwpcsCreate:
TAccessComp(Component).GetChildren(@WriteComponentCreate, FRoot);
cwpcsProperties:
TAccessComp(Component).GetChildren(@WriteComponent, FRoot);
end;
finally
if Assigned(FAncestor) then
for i:=0 to FAncestors.Count-1 do
FAncestors.Objects[i].Free;
FreeAndNil(FAncestors);
end;
finally
FParent:=SParent;
FAncestors:=SList;
FRoot:=SRoot;
FRootAncestor:=SRootA;
FCurrentPos:=SPos;
FAncestorPos:=SAncestorPos;
end;
end;
procedure TCompWriterPas.WriteProperty(Instance: TPersistent;
PropInfo: PPropInfo);
type
TSet = set of 0..31;
var
PropType, CompType: PTypeInfo;
ObjValue, AncestorObj: TObject;
HasAncestor, BoolValue, DefBoolValue: Boolean;
Int32Value, DefValue: longint;
PropName, Ident, s, StrValue, DefStrValue, Name, SavedPropPath: String;
IntToIdentFn: TIntToIdent;
i, j: Integer;
Int64Value, DefInt64Value: Int64;
FloatValue, DefFloatValue: Extended;
MethodValue, DefMethodValue: TMethod;
WStrValue, WDefStrValue: WideString;
UStrValue, UDefStrValue: UnicodeString;
VarValue, DefVarValue: tvardata;
aTypeData: PTypeData;
Component, AncestorComponent: TComponent;
SavedAncestor: TPersistent;
IntfValue, AncestorIntf: IInterface;
CompRef: IInterfaceComponentReference;
begin
// do not stream properties without getter
if not Assigned(PropInfo^.GetProc) then
exit;
// properties without setter are only allowed, if they are csSubComponent
PropType := PropInfo^.PropType;
if not Assigned(PropInfo^.SetProc) then begin
if PropType^.Kind<>tkClass then
exit;
ObjValue := TObject(GetObjectProp(Instance, PropInfo));
if not (ObjValue is TComponent) or
not (csSubComponent in TComponent(ObjValue).ComponentStyle) then
exit;
end;
{ Check if the ancestor can be used }
HasAncestor := Assigned(Ancestor) and ((Instance = Root) or
(Instance.ClassType = Ancestor.ClassType));
PropName:=FPropPath + PropInfo^.Name;
{$IFDEF VerboseCompWriterPas}
debugln(['TWriter.WriteProperty PropName="',PropName,'" TypeName=',PropType^.Name,' Kind=',GetEnumName(TypeInfo(TTypeKind),ord(PropType^.Kind)),' HasAncestor=',HasAncestor]);
{$ENDIF}
case PropType^.Kind of
tkInteger, tkChar, tkEnumeration, tkSet, tkWChar:
begin
Int32Value := GetOrdProp(Instance, PropInfo);
if HasAncestor then
DefValue := GetOrdProp(Ancestor, PropInfo)
else
DefValue := PPropInfo(PropInfo)^.Default;
//debugln([PropInfo^.Name,', HasAncestor=',HasAncestor,', Value=',Int32Value,', Default=',DefValue]);
if (Int32Value <> DefValue) or (DefValue=longint($80000000)) then
begin
case PropType^.Kind of
tkInteger:
begin
// Check if this integer has a string identifier
IntToIdentFn := FindIntToIdent(PropInfo^.PropType);
Ident:='';
if Assigned(IntToIdentFn) and IntToIdentFn(Int32Value, Ident) then
// Integer with a custom identifier
// ToDo: check if this is an actual Pascal constant and remember the unit
WriteAssign(PropName,Ident)
else begin
// Integer has to be written just as number
case PropType^.Name of
'ByteBool': WriteAssign(PropName,GetBoolLiteral(ByteBool(Int32Value)));
'WordBool': WriteAssign(PropName,GetBoolLiteral(WordBool(Int32Value)));
'LongBool': WriteAssign(PropName,GetBoolLiteral(LongBool(Int32Value)));
else
aTypeData:=GetTypeData(PropInfo^.PropType);
if aTypeData^.MinValue>=0 then
WriteAssign(PropName,IntToStr(longword(Int32Value)))
else
WriteAssign(PropName,IntToStr(Int32Value));
end;
end;
end;
tkChar:
WriteAssign(PropName,GetCharLiteral(Int32Value));
tkWChar:
WriteAssign(PropName,GetWideCharLiteral(Int32Value));
tkSet:
begin
s:='';
CompType:=GetTypeData(PropType)^.CompType;
i:=0;
while i<32 do
begin
if i in TSet(Int32Value) then
begin
if s<>'' then s:=s+',';
// ToDo: store needed unit
s:=s+GetEnumExpr(CompType, i,false);
j:=i;
while (i<31) and (byte(i+1) in TSet(Int32Value)) do
inc(i);
if i>j then
s:=s+'..'+GetEnumExpr(CompType, i,false);
end;
inc(i);
end;
WriteAssign(PropName,'['+s+']');
end;
tkEnumeration:
// ToDo: store needed unit
WriteAssign(PropName,GetEnumExpr(PropType, Int32Value,true));
end;
end;
end;
tkFloat:
begin
FloatValue := GetFloatProp(Instance, PropInfo);
if HasAncestor then
DefFloatValue := GetFloatProp(Ancestor, PropInfo)
else
begin
DefValue :=PropInfo^.Default;
DefFloatValue:=PSingle(@PropInfo^.Default)^;
end;
if (FloatValue<>DefFloatValue) or (DefValue=longint($80000000)) then
WriteAssign(PropName,GetFloatLiteral(FloatValue));
end;
tkMethod:
begin
MethodValue := GetMethodProp(Instance, PropInfo);
if HasAncestor then
DefMethodValue := GetMethodProp(Ancestor, PropInfo)
else begin
DefMethodValue.Data := nil;
DefMethodValue.Code := nil;
end;
//debugln(['TCompWriterPas.WriteProperty ',dbgs(MethodValue.Data),' ',dbgs(MethodValue.Code),' ',dbgs(DefMethodValue.Data),' ',dbgs(DefMethodValue.Code)]);
if Assigned(OnGetMethodName) then
begin
if (MethodValue.Code <> DefMethodValue.Code) or
(MethodValue.Data <> DefMethodValue.Data) then
begin
OnGetMethodName(Self,Instance,PropInfo,Ident);
s:='';
if HasAncestor then
OnGetMethodName(Self,Ancestor,PropInfo,s);
if Ident<>s then
begin
if Ident='' then
WriteAssign(PropName,'nil')
else
// ToDo: check nameclash of Ident with current with-do block
WriteAssign(PropName,'@'+Ident);
end;
end;
end else begin
if (MethodValue.Code <> DefMethodValue.Code) then
begin
if not Assigned(MethodValue.Code) then
Ident:=''
else
Ident:=FLookupRoot.MethodName(MethodValue.Code);
if Ident='' then
WriteAssign(PropName,'nil')
else
// ToDo: check nameclash of Ident with current with-do block
WriteAssign(PropName,'@'+Ident);
end;
end;
end;
tkSString, tkLString, tkAString:
begin
StrValue := GetStrProp(Instance, PropInfo);
if HasAncestor then
DefStrValue := GetStrProp(Ancestor, PropInfo)
else
SetLength(DefStrValue, 0);
if StrValue <> DefStrValue then
WriteAssign(PropName,GetStringLiteral(StrValue));
end;
tkWString:
begin
WStrValue := GetWideStrProp(Instance, PropInfo);
if HasAncestor then
WDefStrValue := GetWideStrProp(Ancestor, PropInfo)
else
WDefStrValue := '';
if WStrValue <> WDefStrValue then
WriteAssign(PropName,GetWStringLiteral(PWideChar(WStrValue),length(WStrValue)));
end;
tkUString:
begin
UStrValue := GetUnicodeStrProp(Instance, PropInfo);
if HasAncestor then
UDefStrValue := GetUnicodeStrProp(Ancestor, PropInfo)
else
SetLength(UDefStrValue, 0);
if UStrValue <> UDefStrValue then
WriteAssign(PropName,GetWStringLiteral(PWideChar(UStrValue),length(UStrValue)));
end;
tkVariant:
begin
// Ensure that a Variant manager is installed
if not Assigned(VarClearProc) then
raise EWriteError.Create(SErrNoVariantSupport);
VarValue := tvardata(GetVariantProp(Instance, PropInfo));
if HasAncestor then
DefVarValue := tvardata(GetVariantProp(Ancestor, PropInfo))
else
FillChar(DefVarValue,sizeof(DefVarValue),0);
if (CompareByte(VarValue,DefVarValue,sizeof(VarValue)) <> 0) then
begin
// can't use variant() typecast, pulls in variants unit
case VarValue.vtype of
varsmallint : WriteAssign(PropName,'SmallInt('+IntToStr(VarValue.vsmallint)+')');
varinteger : WriteAssign(PropName,'LongInt('+IntToStr(VarValue.vinteger)+')');
varsingle : WriteAssign(PropName,'Single('+GetFloatLiteral(VarValue.vsingle)+')');
vardouble : WriteAssign(PropName,'Double('+GetFloatLiteral(VarValue.vdouble)+')');
vardate : WriteAssign(PropName,'TDateTime('+GetFloatLiteral(VarValue.vdate)+')');
varcurrency : WriteAssign(PropName,'Currency('+GetCurrencyLiteral(VarValue.vcurrency)+')');
//varolestr : (volestr : pwidechar);
//vardispatch : (vdispatch : pointer);
//varerror : (verror : hresult);
varboolean : WriteAssign(PropName,GetBoolLiteral(VarValue.vboolean));
//varunknown : (vunknown : pointer);
// vardecimal : ( : );
varshortint : WriteAssign(PropName,'ShortInt('+IntToStr(VarValue.vshortint)+')');
varbyte : WriteAssign(PropName,'Byte('+IntToStr(VarValue.vbyte)+')');
varword : WriteAssign(PropName,'Word('+IntToStr(VarValue.vword)+')');
varlongword : WriteAssign(PropName,'LongWord('+IntToStr(VarValue.vlongword)+')');
varint64 : WriteAssign(PropName,'Int64('+IntToStr(VarValue.vint64)+')');
varqword : WriteAssign(PropName,'QWord('+IntToStr(VarValue.vqword)+')');
// duplicate: varword64
varstring : WriteAssign(PropName,GetStringLiteral(AnsiString(VarValue.vstring)));
//varany : (vany : pointer);
//vararray : (varray : pvararray);
//varbyref : (vpointer : pointer);
//varrecord : (vrecord : pointer;precinfo : pointer);
else
{$IFDEF VerboseCompWriterPas}
debugln(['TCompWriterPas.WriteProperty Property="',PropName,'" Kind=',PropType^.Kind,' vtype=',VarValue.vtype]);
raise EWriteError.Create('proptype not supported: '+GetEnumName(TypeInfo(PropType^.Kind),ord(PropType^.Kind))+' vtype='+dbgs(VarValue.vtype));
{$ENDIF}
end;
//ToDo WriteVariant(pvariant(@VarValue)^);
end;
end;
tkClass:
begin
ObjValue := TObject(GetObjectProp(Instance, PropInfo));
if HasAncestor then
begin
AncestorObj := TObject(GetObjectProp(Ancestor, PropInfo));
if (AncestorObj is TComponent) and
(ObjValue is TComponent) then
begin
//debugln(['TWriter.WriteProperty AncestorObj=',TComponent(AncestorObj).Name,' OwnerFit=',TComponent(AncestorObj).Owner = FRootAncestor,' ',TComponent(ObjValue).Name,' OwnerFit=',TComponent(ObjValue).Owner = Root]);
if (AncestorObj<>ObjValue) and
(TComponent(AncestorObj).Owner = FRootAncestor) and
(TComponent(ObjValue).Owner = Root) and
SameText(TComponent(AncestorObj).Name,TComponent(ObjValue).Name) then
begin
// value is a component, and it is the same as in the ancestor
// Note: a descendant has new instances with same names
AncestorObj := ObjValue;
end;
end;
end else
AncestorObj := nil;
if not Assigned(ObjValue) then
begin
if ObjValue <> AncestorObj then
WriteAssign(PropName,'Nil');
end
else if ObjValue.InheritsFrom(TPersistent) then
begin
// Subcomponents are streamed the same way as persistents
if ObjValue.InheritsFrom(TComponent)
and ((not (csSubComponent in TComponent(ObjValue).ComponentStyle))
or ((TComponent(ObjValue).Owner<>Instance) and (TComponent(ObjValue).Owner<>Nil))) then
begin
Component := TComponent(ObjValue);
if (ObjValue <> AncestorObj)
and not (csTransient in Component.ComponentStyle) then
begin
// set property value
Name:=GetComponentPath(Component);
if Name='' then
raise EWriteError.Create('cannot write property "'+DbgSName(Instance)+'.'+PropName+'"');
WriteAssign(PropName,Name);
end; //(ObjValue <> AncestorObj)
end // ObjValue.InheritsFrom(TComponent)
else
begin
// keep property value, set sub properties recursively with full path
// e.g. Font.Size:=5;
SavedAncestor := Ancestor;
SavedPropPath := FPropPath;
try
FPropPath := FPropPath + PPropInfo(PropInfo)^.Name + '.';
if HasAncestor then
Ancestor := TPersistent(GetObjectProp(Ancestor, PropInfo));
WriteProperties(TPersistent(ObjValue));
finally
Ancestor := SavedAncestor;
FPropPath := SavedPropPath;
end;
if ObjValue.InheritsFrom(TCollection) then
begin
if (not HasAncestor) or (not CollectionsEqual(TCollection(ObjValue),
TCollection(GetObjectProp(Ancestor, PropInfo)),Root,RootAncestor)) then
begin
// create collection items
SavedPropPath := FPropPath;
try
if cwpoNoWithBlocks in Options then
FPropPath:=PropName+'.'
else
FPropPath:='';
WriteCollection(PropName,TCollection(ObjValue));
finally
FPropPath := SavedPropPath;
end;
end;
end // TCollection
end;
end; // Inheritsfrom(TPersistent)
end;
tkInt64, tkQWord:
begin
Int64Value := GetInt64Prop(Instance, PropInfo);
if HasAncestor then
DefInt64Value := GetInt64Prop(Ancestor, PropInfo)
else
DefInt64Value := 0;
if Int64Value <> DefInt64Value then
if PropType^.Kind=tkInt64 then
WriteAssign(PropName,IntToStr(Int64Value))
else
WriteAssign(PropName,IntToStr(QWord(Int64Value)));
end;
tkBool:
begin
BoolValue := GetOrdProp(Instance, PropInfo)<>0;
if HasAncestor then
DefBoolValue := GetOrdProp(Ancestor, PropInfo)<>0
else
DefBoolValue := PropInfo^.Default<>0;
DefValue:=PropInfo^.Default;
//debugln([PropInfo^.Name,', HasAncestor=',HasAncestor,', BoolValue=',BoolValue,', DefBoolValue=',DefBoolValue,' Default=',DefValue]);
if (BoolValue<>DefBoolValue) or (DefValue=longint($80000000)) then
WriteAssign(PropName,GetBoolLiteral(BoolValue));
end;
tkInterface:
begin
IntfValue := GetInterfaceProp(Instance, PropInfo);
if not Assigned(IntfValue) then
WriteAssign(PropName,'Nil')
else if Supports(IntfValue, IInterfaceComponentReference, CompRef) then
begin
Component := CompRef.GetComponent;
AncestorComponent := nil;
if HasAncestor then
begin
AncestorIntf := GetInterfaceProp(Instance, PropInfo);
if Supports(AncestorIntf, IInterfaceComponentReference, CompRef) then
begin
AncestorComponent := CompRef.GetComponent;
if (AncestorComponent<>Component) and
(AncestorComponent.Owner = FRootAncestor) and
(Component.Owner = Root) and
SameText(AncestorComponent.Name,Component.Name) then
begin
// value is a component, and it is the same as in the ancestor
// Note: a descendant has new instances with same names
AncestorComponent := Component;
end;
end;
end;
if Component<>AncestorComponent then
begin
Name:=GetComponentPath(Component);
if Name='' then
raise EWriteError.Create('cannot write property "'+DbgSName(Instance)+'.'+PropName+'"');
WriteAssign(PropName,Name);
end;
end else
raise EWriteError.Create('interface property "'+PropName+'" does not support IInterfaceComponentReference');
end;
else
{$IFDEF VerboseCompWriterPas}
debugln(['TCompWriterPas.WriteProperty Property="',PropName,'" Kind=',PropType^.Kind]);
raise EWriteError.Create('proptype not supported: '+GetEnumName(TypeInfo(PropType^.Kind),ord(PropType^.Kind)));
{$ENDIF}
end;
end;
procedure TCompWriterPas.WriteProperties(Instance: TPersistent);
var
PropCount, i: integer;
PropList: PPropList;
begin
PropCount:=GetPropList(Instance,PropList);
if PropCount>0 then
try
for i := 0 to PropCount-1 do
if IsStoredProp(Instance,PropList^[i]) then
WriteProperty(Instance,PropList^[i]);
finally
Freemem(PropList);
end;
WriteDefineProperties(Instance);
end;
procedure TCompWriterPas.WriteDefineProperties(Instance: TPersistent);
var
Col: Integer;
InLit, NeedComma: boolean;
InstancePath: String;
function CheckCol(aCol: integer): boolean;
begin
if (Col<=CurIndent+1) or (aCol<=MaxColumn) then exit(true);
Result:=false;
if NeedComma then
Write(',');
WriteLn;
WriteIndent;
Col:=CurIndent+1;
NeedComma:=false;
end;
function GetPath: string;
begin
if InstancePath='' then
begin
if PropertyPath<>'' then
begin
InstancePath:=PropertyPath;
Delete(InstancePath,length(InstancePath),1); // chomp '.'
end
else if Instance is TComponent then
InstancePath:=GetComponentPath(TComponent(Instance))
else
InstancePath:='';
if InstancePath='' then
raise EWriteError.Create('cannot write DefineProperties of "'+DbgSName(Instance)+'"');
end;
Result:=InstancePath;
end;
var
HasAncestor, Handled: Boolean;
DefValue, Value: LongInt;
aStream: TMemoryStream;
BinWriter: TWriter;
s: String;
p: PChar;
c: Char;
i: Integer;
begin
InstancePath:='';
Handled:=false;
if Assigned(OnDefineProperties) then
begin
s:=GetPath;
OnDefineProperties(Self,Instance,s,Handled);
if Handled then exit;
end;
if DefinePropertiesEvents<>nil then
begin
s:=GetPath;
CallDefinePropertiesPas(Self,Instance,s,Handled);
if Handled then exit;
end;
if Instance is TComponent then
begin
HasAncestor := Assigned(Ancestor) and ((Instance = Root) or
(Instance.ClassType = Ancestor.ClassType));
if HasAncestor then
DefValue := TComponent(Ancestor).DesignInfo
else
DefValue := 0;
Value:=TComponent(Instance).DesignInfo;
if Value<>DefValue then
begin
// Note: DesignInfo contains Left/Top. On BigEndian systems the order
// is reversed, which is already handled in TComponent.DefineProperties
// -> it is the same longint value on Little and BigEndian system
s:=GetPath;
if s<>'' then
begin
if SameText(s,'Self') then
s:=''
else
s:=s+'.';
end;
WriteAssign(s + 'DesignInfo',IntToStr(Value));
end;
end;
if TMethod(@TAccessComp(Instance).DefineProperties).Code<>FDefaultDefineProperties
then begin
// this class has overriden DefineProperties
aStream:=TMemoryStream.Create;
BinWriter:=TWriter.Create(aStream,1024);
try
BinWriter.Root:=Root;
BinWriter.RootAncestor:=RootAncestor;
BinWriter.Ancestor:=Ancestor;
BinWriter.IgnoreChildren:=IgnoreChildren;
BinWriter.OnWriteMethodProperty:=OnWriteMethodProperty;
BinWriter.OnWriteStringProperty:=OnWriteStringProperty;
TAccessComp(Instance).DefineProperties(BinWriter);
BinWriter.WriteListEnd;
FreeAndNil(BinWriter); // flush buffer to stream
if aStream.Size>1 then
begin
WriteIndent;
s:=GetPath;
s:=ExecCustomProc+'('+s+',[';
Write(s);
AddNeededUnit(ExecCustomProcUnit);
Col:=CurIndent+length(s)+1;
Indent;
NeedComma:=false;
CheckCol(Col);
InLit:=false;
p:=PChar(aStream.Memory);
for i:=0 to aStream.Size-1 do
begin
c:=p^;
if c in [#32..#126] then
begin
if (not InLit) or (Col+2>MaxColumn) then
begin
if InLit then
Write('''');
CheckCol(Col+3);
InLit:=true;
Write('''');
inc(Col);
end;
Write(c);
inc(Col);
NeedComma:=true;
end else begin
if InLit then
begin
Write('''');
inc(Col);
InLit:=false;
end;
s:='#'+IntToStr(ord(c));
CheckCol(Col+length(s));
Write(s);
inc(Col,length(s));
NeedComma:=true;
end;
inc(p);
end;
if InLit then
Write('''');
Write(']);');
WriteLn;
Unindent;
end;
finally
BinWriter.Free;
aStream.Free;
end;
end;
end;
procedure TCompWriterPas.WriteCollection(PropName: string;
Collection: TCollection);
var
i: Integer;
Item: TCollectionItem;
begin
WriteStatement(PropName+'.Clear;');
for i:=0 to Collection.Count-1 do
begin
Item:=Collection.Items[i];
WriteWithDo(Item.ClassName+'('+PropName+'.Add)');
WriteProperties(Item);
WriteWithEnd;
end;
end;
function TCompWriterPas.GetComponentPath(Component: TComponent): string;
var
Name: String;
C: TComponent;
begin
if Component=nil then
Result:='Nil'
else if Component=LookupRoot then
begin
if cwpoNoSelf in Options then
Result:=LookupRoot.Name
else
Result:='Self';
end
else begin
Name:= '';
C:=Component;
While (C<>Nil) do
begin
if (Name<>'') Then
Name:='.'+Name;
if C.Owner = LookupRoot then
begin
Name := C.Name+Name;
if (cwpoNoWithBlocks in Options) then
begin
if cwpoNoSelf in Options then
Name := C.Owner.Name+'.'+Name;
end;
break;
end
else if C = LookupRoot then
begin
if cwpoNoSelf in Options then
Name := C.Name+Name
else
Name := 'Self'+Name;
break;
end else if C.Name='' then
exit('');
Name:=C.Name+Name;
// ToDo: store used unit
C:=C.Owner;
end;
Result:=Name;
end;
end;
function TCompWriterPas.GetBoolLiteral(b: boolean): string;
begin
if b then
Result:='True'
else
Result:='False';
end;
function TCompWriterPas.GetCharLiteral(c: integer): string;
begin
case c of
32..126: Result:=''''+chr(c)+'''';
else Result:='#'+IntToStr(c);
end;
end;
function TCompWriterPas.GetWideCharLiteral(c: integer): string;
begin
case c of
32..126:
Result:=''''+Chr(c)+'''';
0..31,127..255,$D800..$DFFF:
Result:='#'+IntToStr(c);
else
if cwpoSrcCodepageUTF8 in Options then
Result:=''''+UTF16ToUTF8(WideChar(c))+''''
else
Result:='#'+IntToStr(c);
end;
end;
function TCompWriterPas.GetStringLiteral(const s: string): string;
function IsSpecialChar(p: PChar): boolean;
const
SpecialChars = [#0..#31,#127,#255];
begin
Result:=(p^ in SpecialChars) or (IsValidUTF8(p)=0);
end;
var
InLit: Boolean;
p, StartP: PChar;
c: Char;
begin
Result:='';
if s='' then exit;
InLit:=false;
p:=PChar(s);
repeat
c:=p^;
if (c=#0) and (p-PChar(s)=length(s)) then
break
else if IsSpecialChar(p) then
begin
if InLit then begin
InLit:=false;
Result:=Result+'''';
end;
Result:=Result+'#'+IntToStr(ord(c));
inc(p);
end else begin
if not InLit then begin
InLit:=true;
Result:=Result+'''';
end;
if c='''' then begin
Result:=Result+'''''';
inc(p);
end else begin
StartP:=p;
repeat
inc(p,IsValidUTF8(p));
c:=p^;
until ((c=#0) and (p-PChar(s)=length(s))) or IsSpecialChar(p) or (c='''');
Result:=Result+copy(s,StartP-PChar(s)+1,p-StartP);
end;
end;
until false;
if InLit then
Result:=Result+'''';
end;
function TCompWriterPas.GetWStringLiteral(p: PWideChar; Count: integer): string;
function IsSpecialChar(w: PWideChar): boolean;
const
SpecialChars = [#0..#31,#127];
begin
if w^ in SpecialChars then exit(true);
if cwpoSrcCodepageUTF8 in FOptions then begin
Result:=IsValidUTF16(w)=0;
end else begin
Result:=w^>=#$7f;
end;
end;
var
InLit: Boolean;
c: WideChar;
FirstP, StartP: PWideChar;
AddLen: SizeUInt;
s: string;
OldLen: Integer;
begin
Result:='';
if Count=0 then exit;
FirstP:=p;
InLit:=false;
s:='';
repeat
c:=p^;
if (c=#0) and (p-FirstP=Count) then
break
else if IsSpecialChar(p) then
begin
if InLit then begin
InLit:=false;
Result:=Result+'''';
end;
Result:=Result+'#'+Format('%.4d',[ord(c)]);
inc(p);
end else begin
if not InLit then begin
InLit:=true;
Result:=Result+'''';
end;
if c='''' then begin
Result:=Result+'''''';
inc(p);
end else begin
StartP:=p;
repeat
inc(p,IsValidUTF16(p));
c:=p^;
until ((c=#0) and (p-FirstP=Count)) or IsSpecialChar(p) or (c='''');
AddLen:=p-StartP;
if length(s)<AddLen*3 then SetLength(s,AddLen*3);
if ConvertUTF16ToUTF8(@s[1],length(s),StartP,AddLen,
[toInvalidCharError,toUnfinishedCharError],AddLen)=trNoError then
dec(AddLen); // omit #0
OldLen:=length(Result);
SetLength(Result,OldLen+AddLen);
System.Move(s[1],Result[OldLen+1],AddLen);
end;
end;
until false;
if InLit then
Result:=Result+'''';
end;
function TCompWriterPas.GetFloatLiteral(const e: Extended): string;
var
s: String;
begin
s:='';
str(e,s);
Result:=ShortenFloat(s);
end;
function TCompWriterPas.GetCurrencyLiteral(const c: currency): string;
var
i: int64 absolute c;
var
s: String;
begin
if i mod 10000=0 then
s:=IntToStr(i div 10000)
else begin
s:=IntToStr(i);
while length(s)<4 do
s:='0'+s;
if length(s)=4 then
s:='0.'+s
else
system.insert('.',s,length(s)-3);
end;
Result:=s;
end;
function TCompWriterPas.ShortenFloat(s: string): string;
var
p, i: SizeInt;
begin
// remove unneeded leading 0 of exponent
p:=Pos('E',s);
if p<1 then exit(s);
i:=p;
if s[i+1]='+' then inc(i);
while (i<length(s)) and (s[i+1]='0') do
inc(i);
if i>p then
if i=length(s) then
Delete(s,p,i-p+1) // delete whole exponent
else
Delete(s,p+1,i-p);
// remove trailing 0 of base
i:=p;
while (i>2) and (s[i-1]='0') do
dec(i);
if not (s[i-1] in ['0'..'9']) then inc(i);
if i<p then
Delete(s,i,p-i);
// remove leading space
if s[1]=' ' then
Delete(s,1,1);
Result:=s;
end;
function TCompWriterPas.GetEnumExpr(TypeInfo: PTypeInfo; Value: integer;
AllowOutOfRange: boolean): string;
var
PT: PTypeData;
begin
PT:=GetTypeData(TypeInfo);
if (Value>=PT^.MinValue) and (Value<=PT^.MaxValue) then
case TypeInfo^.Kind of
tkBool: Result:=GetBoolLiteral(Value=ord(true));
tkChar: Result:=GetCharLiteral(Value);
tkEnumeration: Result:=GetEnumName(TypeInfo,Value);
else Result:=IntToStr(Value);
end
else if AllowOutOfRange then
Result:=TypeInfo^.Name+'('+IntToStr(Value)+')'
else
raise EWriteError.Create('enum '+IntToStr(Value)+' is out of range of type "'+TypeInfo^.Name+'"');
end;
function TCompWriterPas.GetVersionStatement: string;
begin
Result:='// Format version '+IntToStr(CSPVersion);
end;
constructor TCompWriterPas.Create(AStream: TStream);
var
C: TAccessComp;
begin
FIndentStep:=2;
FStream:=AStream;
FLineEnding:=system.LineEnding;
FAssignOp:=CSPDefaultAssignOp;
FSignatureBegin:=CSPDefaultSignatureBegin;
FSignatureEnd:=CSPDefaultSignatureEnd;
FMaxColumn:=CSPDefaultMaxColumn;
FExecCustomProc:=CSPDefaultExecCustomProc;
FExecCustomProcUnit:=CSPDefaultExecCustomProcUnit;
FNeededUnits:=TStringList.Create;
FAccessClass:=CSPDefaultAccessClass;
C:=TAccessComp.Create(nil);
FDefaultDefineProperties:=TMethod(@C.DefineProperties).Code;
C.Free;
end;
destructor TCompWriterPas.Destroy;
begin
FreeAndNil(FNeededUnits);
inherited Destroy;
end;
procedure TCompWriterPas.WriteComponentCreate(Component: TComponent);
var
OldAncestor: TPersistent;
OldRoot, OldRootAncestor: TComponent;
HasAncestor: boolean;
begin
if (Component=LookupRoot) then exit;
OldRoot:=FRoot;
OldAncestor:=FAncestor;
OldRootAncestor:=FRootAncestor;
Try
DetermineAncestor(Component);
HasAncestor:=FAncestor is TComponent;
if not CreatedByAncestor(Component) then
WriteAssign(Component.Name,Component.ClassName+'.Create('+GetComponentPath(Root)+')');
if HasAncestor then begin
if (csInline in Component.ComponentState)
and not (csInline in TComponent(Ancestor).ComponentState) then
begin
NeedAccessClass:=true;
WriteStatement(AccessClass+'(TComponent('+Component.Name+')).SetInline('+GetBoolLiteral(true)+');');
end;
if (csAncestor in Component.ComponentState)
and not (csAncestor in TComponent(Ancestor).ComponentState) then
begin
NeedAccessClass:=true;
WriteStatement(AccessClass+'(TComponent('+Component.Name+')).SetAncestor('+GetBoolLiteral(true)+');');
end;
end;
if not IgnoreChildren then
WriteChildren(Component,cwpcsCreate);
finally
FAncestor:=OldAncestor;
FRoot:=OldRoot;
FRootAncestor:=OldRootAncestor;
end;
end;
procedure TCompWriterPas.WriteComponent(Component: TComponent);
var
OldAncestor : TPersistent;
OldRoot, OldRootAncestor : TComponent;
begin
OldRoot:=FRoot;
OldAncestor:=FAncestor;
OldRootAncestor:=FRootAncestor;
Try
// Component.ComponentState:=Component.FComponentState+[csWriting];
DetermineAncestor(Component);
WriteComponentData(Component);
finally
FAncestor:=OldAncestor;
FRoot:=OldRoot;
FRootAncestor:=OldRootAncestor;
end;
end;
procedure TCompWriterPas.WriteDescendant(ARoot: TComponent; AAncestor: TComponent);
begin
FRoot := ARoot;
FAncestor := AAncestor;
FRootAncestor := AAncestor;
FLookupRoot := ARoot;
FNeedAccessClass := false;
if not (cwpoNoSignature in Options) then
WriteStatement(SignatureBegin);
WriteStatement(GetVersionStatement);
if cwpoNoSelf in Options then
WriteWithDo(ARoot.Name);
WriteComponent(ARoot);
if cwpoNoSelf in Options then
WriteWithEnd;
if not (cwpoNoSignature in Options) then
WriteStatement(SignatureEnd);
end;
procedure TCompWriterPas.WriteIndent;
begin
Write(StringOfChar(' ',CurIndent));
end;
procedure TCompWriterPas.Write(const s: string);
begin
if s='' then exit;
FStream.Write(s[1],length(s));
end;
procedure TCompWriterPas.WriteLn;
begin
Write(LineEnding);
end;
procedure TCompWriterPas.WriteStatement(const s: string);
begin
WriteIndent;
Write(s);
WriteLn;
end;
procedure TCompWriterPas.WriteAssign(const LHS, RHS: string);
begin
WriteIndent;
Write(LHS);
Write(AssignOp);
Write(RHS);
Write(';');
WriteLn;
end;
procedure TCompWriterPas.WriteWithDo(const Expr: string);
begin
if not (cwpoNoWithBlocks in Options) then
WriteStatement('with '+Expr+' do begin');
Indent;
end;
procedure TCompWriterPas.WriteWithEnd;
begin
Unindent;
if not (cwpoNoWithBlocks in Options) then
WriteStatement('end;');
end;
function TCompWriterPas.CreatedByAncestor(Component: TComponent): boolean;
begin
Result:=(FAncestor is TComponent)
and (TComponent(FAncestor).Owner = FRootAncestor)
and (Component.Owner = Root)
and SameText(Component.Name,TComponent(FAncestor).Name)
end;
procedure TCompWriterPas.AddNeededUnit(const AnUnitName: string);
begin
if FNeededUnits.IndexOf(AnUnitName)>=0 then exit;
FNeededUnits.Add(AnUnitName);
end;
procedure TCompWriterPas.Indent;
begin
CurIndent:=CurIndent+IndentStep;
end;
procedure TCompWriterPas.Unindent;
begin
CurIndent:=CurIndent-IndentStep;
end;
finalization
DefinePropertiesEvents.Free;
end.