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SYSDEFS.H
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1997-02-28
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//---------------------------------------------------------------------------
// sysdefs.h - support for properties & vcl intrinsic types
//---------------------------------------------------------------------------
// $Revision: 1.93 $
//-------------------------------------------------------------------------
// copyright (c) 1997 Borland International
//----------------------------------------------------------------------------
#ifndef SYSDEFS_H
#define SYSDEFS_H
#if __BORLANDC__ < 0x500
#error BCW 5.0 or greater required
#endif
//---------------------------------------------------------------------------
#pragma option -w-lvc // turn off "temp used for param" warnings
#pragma option -w-inl // turn off "cannot expand inline..." warnings
#pragma anon_struct on // support anonymous structs (within unions)
//---------------------------------------------------------------------------
#include <stdlib.h>
#include <stdio.h>
#ifdef SEEK_SET
#undef SEEK_SET
#undef SEEK_CUR
#undef SEEK_END
#endif
#include <string.h>
#include <dstring.h>
//---------------------------------------------------------------------------
#define DYNAMIC
#define MESSAGE
#define HIDESBASE __declspec(hidesbase)
extern "C" __int64 _roundToInt64(long double);
//---------------------------------------------------------------------------
//forward declarations
//
namespace Ole2
{
class IUnknown;
class IDispatch;
}
namespace Classes
{
class TPersistent;
}
using namespace Classes;
namespace System
{
class __declspec(delphireturn) Variant;
//---------------------------------------------------------------------------
class TMetaClass;
//---------------------------------------------------------------------------
typedef TMetaClass* TClass;
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
class __declspec(delphireturn) CurrencyBase
{
public:
__int64 Val;
};
//---------------------------------------------------------------------------
class __declspec(delphireturn) Currency : public CurrencyBase
{
friend Currency __fastcall operator +(int lhs, const Currency& rhs);
friend Currency __fastcall operator -(int lhs, const Currency& rhs);
friend Currency __fastcall operator *(int lhs, const Currency& rhs);
friend Currency __fastcall operator /(int lhs, const Currency& rhs);
friend Currency __fastcall operator +(double lhs, const Currency& rhs);
friend Currency __fastcall operator -(double lhs, const Currency& rhs);
friend Currency __fastcall operator *(double lhs, const Currency& rhs);
friend Currency __fastcall operator /(double lhs, const Currency& rhs);
public:
__fastcall Currency() {Val = 0;}
__fastcall Currency(double val) {Val = _roundToInt64(10000 * val);}
__fastcall Currency(int val) {Val = 10000*(__int64)val;}
__fastcall Currency(const CurrencyBase& src) {Val = src.Val;}
__fastcall Currency(const Currency& src) {Val = src.Val;}
__fastcall Currency(const AnsiString& src);
Currency& __fastcall operator =(double rhs)
{
Val = _roundToInt64(10000 * rhs);
return *this;
}
Currency& __fastcall operator =(int rhs)
{Val = 10000*(__int64)rhs; return *this;}
Currency& __fastcall operator =(const CurrencyBase& rhs)
{Val=rhs.Val;return *this;}
Currency& __fastcall operator =(const Currency& rhs)
{Val = rhs.Val; return *this;}
Currency& __fastcall operator +=(const Currency& rhs)
{Val += rhs.Val; return *this;}
Currency& __fastcall operator -=(const Currency& rhs)
{Val -= rhs.Val; return *this;}
Currency& __fastcall operator *=(const Currency& rhs)
{Val *= rhs.Val; Val /= 10000; return *this;}
Currency& __fastcall operator /=(const Currency& rhs)
{Val *= 10000; Val /= rhs.Val; return *this;}
Currency& __fastcall operator %=(int rhs)
{Val %= 10000 * (__int64)rhs; return *this;}
Currency& operator ++() {Val += 10000; return *this;}
Currency operator ++(int) {Currency tmp(*this); Val += 10000; return tmp;}
Currency& operator --() {Val -= 10000; return *this;}
Currency operator --(int) {Currency tmp(*this); Val -= 10000; return tmp;}
Currency __fastcall operator +(const Currency& rhs) const
{Currency tmp(*this); return tmp += rhs;}
Currency __fastcall operator -(const Currency& rhs) const
{Currency tmp(*this); return tmp -= rhs;}
Currency __fastcall operator *(const Currency& rhs) const
{Currency tmp(*this); return tmp *= rhs;}
Currency __fastcall operator /(const Currency& rhs) const
{Currency tmp(*this); return tmp /= rhs;}
Currency __fastcall operator +(int rhs) const
{Currency tmp(*this); return tmp += Currency(rhs);}
Currency __fastcall operator -(int rhs) const
{Currency tmp(*this); return tmp -= Currency(rhs);}
Currency __fastcall operator *(int rhs) const
{Currency tmp(*this); return tmp *= Currency(rhs);}
Currency __fastcall operator /(int rhs) const
{Currency tmp(*this); return tmp /= Currency(rhs);}
Currency __fastcall operator %(int rhs) const
{return Currency(static_cast<int>(Val % (10000 * (__int64)rhs))) / 10000;}
Currency __fastcall operator +(double rhs) const
{Currency tmp(*this); return tmp += Currency(rhs);}
Currency __fastcall operator -(double rhs) const
{Currency tmp(*this); return tmp -= Currency(rhs);}
Currency __fastcall operator *(double rhs) const
{Currency tmp(*this); return tmp *= Currency(rhs);}
Currency __fastcall operator /(double rhs) const
{Currency tmp(*this); return tmp /= Currency(rhs);}
Currency __fastcall operator -() const
{Currency tmp(*this); tmp.Val = -(tmp.Val); return tmp;}
Currency __fastcall operator !() const
{Currency tmp(*this); tmp.Val = !(tmp.Val); return tmp;}
// comparisons (Currency rhs)
bool __fastcall operator ==(const Currency& rhs) const
{return Val == rhs.Val;}
bool __fastcall operator !=(const Currency& rhs) const
{return Val != rhs.Val;}
bool __fastcall operator >(const Currency& rhs) const
{return Val > rhs.Val;}
bool __fastcall operator <(const Currency& rhs) const
{return Val < rhs.Val;}
bool __fastcall operator >=(const Currency& rhs) const
{return Val >= rhs.Val;}
bool __fastcall operator <=(const Currency& rhs) const
{return Val <= rhs.Val;}
// comparisons (int rhs)
bool __fastcall operator ==(int rhs) const
{return Val == 10000 * (__int64)rhs;}
bool __fastcall operator !=(int rhs) const
{return Val != 10000 * (__int64)rhs;}
bool __fastcall operator >(int rhs) const
{return Val > 10000 * (__int64)rhs;}
bool __fastcall operator <(int rhs) const
{return Val < 10000 * (__int64)rhs;}
bool __fastcall operator >=(int rhs) const
{return Val >= 10000 * (__int64)rhs;}
bool __fastcall operator <=(int rhs) const
{return Val <= 10000 * (__int64)rhs;}
// comparisons (double rhs)
bool __fastcall operator ==(double rhs) const
{return Val == _roundToInt64(10000 * (long double)rhs);}
bool __fastcall operator !=(double rhs) const
{return Val != _roundToInt64(10000 * (long double)rhs);}
bool __fastcall operator >(double rhs) const
{return Val > _roundToInt64(10000 * (long double)rhs);}
bool __fastcall operator <(double rhs) const
{return Val < _roundToInt64(10000 * (long double)rhs);}
bool __fastcall operator >=(double rhs) const
{return Val >= _roundToInt64(10000 * (long double)rhs);}
bool __fastcall operator <=(double rhs) const
{return Val <= _roundToInt64(10000 * (long double)rhs);}
__fastcall operator double() const {return ((double)Val) / 10000;}
__fastcall operator int() const {return (int) (Val / 10000);}
__fastcall operator AnsiString() const;
};
//Currency friends
inline Currency __fastcall operator +(int lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp += rhs;}
inline Currency __fastcall operator -(int lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp -= rhs;}
inline Currency __fastcall operator *(int lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp *= rhs;}
inline Currency __fastcall operator /(int lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp /= rhs;}
inline Currency __fastcall operator +(double lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp += rhs;}
inline Currency __fastcall operator -(double lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp -= rhs;}
inline Currency __fastcall operator *(double lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp *= rhs;}
inline Currency __fastcall operator /(double lhs, const Currency& rhs)
{Currency tmp(lhs); return tmp /= rhs;}
//---------------------------------------------------------------------------
inline ostream& operator <<(ostream& os, const Currency& arg)
{os << AnsiString(arg); return os;}
inline istream& operator >>(istream& is, Currency& arg)
{AnsiString s; is >> s; arg = s; return is;}
//---------------------------------------------------------------------------
class __declspec(delphireturn) TDateTimeBase
{
public:
double Val;
};
//---------------------------------------------------------------------------
class __declspec(delphireturn) TDateTime : public TDateTimeBase
{
public:
// Used by TDateTime(const AnsiString& src)
enum TDateTimeFlag {Date, Time, DateTime};
static TDateTime __fastcall CurrentDate();
static TDateTime __fastcall CurrentTime();
static TDateTime __fastcall CurrentDateTime();
static TDateTime __fastcall FileDateToDateTime(int fileDate);
__fastcall TDateTime() {Val = 0;}
__fastcall TDateTime(const TDateTimeBase& src) {Val = src.Val;}
__fastcall TDateTime(const TDateTime& src) {Val = src.Val;}
__fastcall TDateTime(const double src) {Val = src;}
__fastcall TDateTime(const int src) {Val = src;}
__fastcall TDateTime(const AnsiString& src, TDateTimeFlag flag = DateTime);
__fastcall TDateTime(unsigned short year, unsigned short month,
unsigned short day);
__fastcall TDateTime(unsigned short hour, unsigned short min,
unsigned short sec, unsigned short msec);
TDateTime& __fastcall operator =(const TDateTimeBase& rhs)
{Val = rhs.Val;return *this;}
TDateTime& __fastcall operator =(const TDateTime& rhs)
{Val = rhs.Val; return *this;}
TDateTime& __fastcall operator =(const double rhs)
{Val = rhs; return *this;}
TDateTime& __fastcall operator =(const int rhs)
{Val = rhs; return *this;}
TDateTime& __fastcall operator +=(const TDateTimeBase& rhs)
{Val+=rhs.Val;return *this;}
TDateTime& __fastcall operator +=(const TDateTime& rhs)
{Val += rhs.Val; return *this;}
TDateTime& __fastcall operator +=(const double rhs)
{Val += rhs; return *this;}
TDateTime& __fastcall operator +=(const int rhs)
{Val += rhs; return *this;}
TDateTime& __fastcall operator -=(const TDateTimeBase& rhs)
{Val-=rhs.Val;return *this;}
TDateTime& __fastcall operator -=(const TDateTime& rhs)
{Val -= rhs.Val; return *this;}
TDateTime& __fastcall operator -=(const double rhs)
{Val -= rhs; return *this;}
TDateTime& __fastcall operator -=(const int rhs)
{Val -= rhs; return *this;}
TDateTime& operator ++() {Val++; return *this;}
TDateTime operator ++(int) {TDateTime tmp(*this); Val++; return tmp;}
TDateTime& operator --() {Val--; return *this;}
TDateTime operator --(int) {TDateTime tmp(*this); Val--; return tmp;}
TDateTime __fastcall operator +(const TDateTimeBase& rhs) const
{return Val+rhs.Val;}
TDateTime __fastcall operator +(const TDateTime& rhs) const
{return Val+rhs.Val;}
TDateTime __fastcall operator +(const double rhs) const {return Val+rhs;}
TDateTime __fastcall operator +(const int rhs) const {return Val+rhs;}
TDateTime __fastcall operator -(const TDateTimeBase& rhs) const
{return Val-rhs.Val;}
TDateTime __fastcall operator -(const TDateTime& rhs) const
{return Val-rhs.Val;}
TDateTime __fastcall operator -(const double rhs) const {return Val-rhs;}
TDateTime __fastcall operator -(const int rhs) const {return Val-rhs;}
// comparisons
bool __fastcall operator ==(const TDateTime& rhs) const
{return Val == rhs.Val;}
bool __fastcall operator !=(const TDateTime& rhs) const
{return Val != rhs.Val;}
bool __fastcall operator >(const TDateTime& rhs) const
{return Val > rhs.Val;}
bool __fastcall operator <(const TDateTime& rhs) const
{return Val < rhs.Val;}
bool __fastcall operator >=(const TDateTime& rhs) const
{return Val >= rhs.Val;}
bool __fastcall operator <=(const TDateTime& rhs) const
{return Val <= rhs.Val;}
__fastcall operator AnsiString() const;//<Date||Time||DateTime>String(smart)
AnsiString __fastcall FormatString(const AnsiString& format);
AnsiString __fastcall DateString() const;
AnsiString __fastcall TimeString() const;
AnsiString __fastcall DateTimeString() const;
__fastcall operator double() const {return Val;}
__fastcall operator int() const {return (int)Val;}
int __fastcall DayOfWeek() const;
int __fastcall FileDate() const;
void __fastcall DecodeDate(unsigned short* year, unsigned short*
month, unsigned short* day) const;
void __fastcall DecodeTime(unsigned short* hour, unsigned short*
min, unsigned short* sec, unsigned short* msec) const;
};
//---------------------------------------------------------------------------
inline ostream& operator <<(ostream& os, const TDateTime& arg)
{os << AnsiString(arg); return os;}
inline istream& operator >>(istream& is, TDateTime& arg)
{AnsiString s; is >> s; arg = s; return is;}
//---------------------------------------------------------------------------
//class TObject {};
typedef SmallString<255> ShortString;
class __declspec(delphiclass) TObject
{
public:
__fastcall TObject() {}
__fastcall Free();
TClass __fastcall ClassType();
void __fastcall CleanupInstance();
void * __fastcall FieldAddress(const ShortString &Name);
static TObject * __fastcall InitInstance(TClass cls, void *instance);
static ShortString __fastcall ClassName(TClass cls);
static bool __fastcall ClassNameIs(TClass cls, const AnsiString string);
static TClass __fastcall ClassParent(TClass cls);
static void * __fastcall ClassInfo(TClass cls);
static long __fastcall InstanceSize(TClass cls);
static bool __fastcall InheritsFrom(TClass cls, TClass aClass);
static void * __fastcall MethodAddress(TClass cls, const ShortString &Name);
static ShortString __fastcall MethodName(TClass cls, void *Address);
ShortString __fastcall ClassName()
{
return ClassName(ClassType());
}
bool __fastcall ClassNameIs(const AnsiString string)
{
return ClassNameIs(ClassType(), string);
}
TClass __fastcall ClassParent()
{
return ClassParent(ClassType());
}
void * __fastcall ClassInfo()
{
return ClassInfo(ClassType());
}
long __fastcall InstanceSize()
{
return InstanceSize(ClassType());
}
bool __fastcall InheritsFrom(TClass aClass)
{
return InheritsFrom(ClassType(), aClass);
}
void * __fastcall MethodAddress(const ShortString &Name)
{
return MethodAddress(ClassType(), Name);
}
ShortString __fastcall MethodName(void *Address)
{
return MethodName(ClassType(), Address);
}
virtual void __fastcall AfterConstruction();
virtual void __fastcall BeforeDestruction();
virtual void __fastcall Dispatch(void *Message);
virtual void __fastcall DefaultHandler(void* Message);
private:
virtual TObject* __fastcall NewInstance(TClass cls);
public:
virtual void __fastcall FreeInstance();
virtual __fastcall ~TObject() {}
};
class TMetaClass
{
public:
TObject * __fastcall InitInstance(void *instance)
{
TObject::InitInstance(this, instance);
}
ShortString __fastcall ClassName()
{
return TObject::ClassName(this);
}
bool __fastcall ClassNameIs(const AnsiString &string)
{
return TObject::ClassNameIs(this,string);
}
TClass __fastcall ClassParent()
{
return TObject::ClassParent(this);
}
void * __fastcall ClassInfo()
{
return TObject::ClassInfo(this);
}
long __fastcall InstanceSize()
{
return TObject::InstanceSize(this);
}
bool __fastcall InheritsFrom(TClass aClass)
{
return TObject::InheritsFrom(this, aClass);
}
void * __fastcall MethodAddress(const ShortString &Name)
{
return TObject::MethodAddress(this, Name);
}
ShortString __fastcall MethodName(void *Address)
{
return TObject::MethodName(this,Address);
}
};
#define BEGIN_MESSAGE_MAP virtual void __fastcall Dispatch(void *Message) \
{ \
switch (((PMessage)Message)->Msg) \
{
#define MESSAGE_HANDLER(msg,type,meth) \
case msg: \
meth(*((type *)Message)); \
break;
#define END_MESSAGE_MAP(base) default: \
base::Dispatch(Message); \
break; \
} \
}
//---------------------------------------------------------------------------
typedef DummySmallString<255> DummyShortString;
typedef bool Boolean; //
typedef int Integer; // -2147483648..2147484647
typedef char Char; // 0..255
typedef wchar_t WideChar; //
typedef signed char Shortint; // -128..127
typedef short Smallint; // -32768..32767
typedef unsigned char Byte; // 0..255
typedef unsigned short Word; // 0..65535
typedef unsigned long DWord; // 0..4294967295
typedef void* Pointer; //
typedef Char AnsiChar; //
typedef signed long Longint; // -2147483648..2147484647
typedef unsigned int Cardinal; // 0..2147484647
typedef long double Extended; // 10 byte real
typedef float Single; // 4 byte real
typedef double Double; // 8 byte real
typedef Char* const Openstring; // D16 string/D32 shortstring formalparm
typedef void* file; //
typedef void* Text; //
typedef Text TextFile; //
typedef Char* PChar; //
typedef PChar PAnsiChar; //
typedef WideChar* PWideChar; //
typedef Byte ByteBool; //
typedef Word WordBool; //
typedef Cardinal LongBool; //
typedef AnsiString String; //
typedef ShortString* PShortString; //
typedef AnsiString* PAnsiString; //
typedef PAnsiString PString; //
typedef Extended* PExtended; //
typedef Currency* PCurrency; //
typedef Variant* PVariant; //
typedef __int64 LONG64; //
// Comp
// Range: -263+1 .. 263-1, Significant digits: 19-20, Size: 8
// The Comp (computational) type holds only integral values within -263+1
// to 263-1, which is approximately -9.2 * 1018 to 9.2 * 1018.
//
struct Comp {
operator =(double d);
operator =(Currency d);
operator double();
operator Currency();
private:
char __data[8];
};
extern double __cdecl CompToDouble(Comp acomp);
extern void __cdecl DoubleToComp(double adouble, Comp &result);
extern Currency __cdecl CompToCurrency(Comp acomp);
extern void __cdecl CurrencyToComp(Currency acurrency, Comp &result);
inline Comp::operator = (double d) {
DoubleToComp(d, *this);
}
inline Comp::operator double() {
return CompToDouble(*this);
}
inline Comp::operator = (Currency d) {
CurrencyToComp(d, *this);
}
inline Comp::operator Currency() {
return CompToCurrency(*this);
}
//---------------------------------------------------------------------------
// Set template implements Delphi sets
//---------------------------------------------------------------------------
template<class T, unsigned char minEl, unsigned char maxEl>
class __declspec(delphireturn) Set
{
friend ostream& operator <<(ostream& os, const Set& arg)
{
for (int i = minEl; i <= maxEl; i++)
if (arg.Contains(static_cast<T>(i)))
os << '1';
else
os << '0';
return os;
}
friend istream& operator >>(istream& is, Set& arg)
{
unsigned char el;
for (int i = minEl; i <= maxEl; i++)
{
is >> el;
if (el == '1')
arg << static_cast<T>(i);
}
return is;
}
public:
__fastcall Set() {memset(Data, 0, sizeof (Data));}
__fastcall Set(const Set& src)
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] = src.Data[i];
}
Set& __fastcall operator =(const Set& rhs)
{
if (this != &rhs)
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] = rhs.Data[i];
}
return *this;
}
Set& __fastcall operator +=(const Set& rhs) //Union
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] |= rhs.Data[i];
return *this;
}
Set& __fastcall operator -=(const Set& rhs) //Difference
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] ^= (Data[i] & rhs.Data[i]);
return *this;
}
Set& __fastcall operator *=(const Set& rhs) //Intersection
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] &= rhs.Data[i];
return *this;
}
Set __fastcall operator +(const Set& rhs) const //Union
{
Set<T, minEl, maxEl> s;
for (int i = 0; i < sizeof (Data); i++)
s.Data[i] = Data[i] | rhs.Data[i];
return s;
}
Set __fastcall operator -(const Set& rhs) const //Difference
{
Set<T, minEl, maxEl> s;
for (int i = 0; i < sizeof (Data); i++)
s.Data[i] = Data[i] ^ (Data[i] & rhs.Data[i]);
return s;
}
Set __fastcall operator *(const Set& rhs) const //Intersection
{
Set<T, minEl, maxEl> s;
for (int i = 0; i < sizeof (Data); i++)
s.Data[i] = Data[i] & rhs.Data[i];
return s;
}
Set& __fastcall operator <<(const T el) //Add element
{
#pragma warn -ccc
#pragma warn -rng
if (el >= minEl && el <= maxEl)
#pragma warn .ccc
#pragma warn .rng
Data[(int)(el/8) - (int)(minEl/8)] |=
(unsigned char)((unsigned short)1 << (el % 8));
return *this;
}
Set& __fastcall operator >>(const T el) //Remove element
{
#pragma warn -ccc
#pragma warn -rng
if (el >= minEl && el <= maxEl)
#pragma warn .ccc
#pragma warn .rng
Data[(int)(el/8) - (int)(minEl/8)] &=
(unsigned char)~((unsigned short)1 << (el % 8));
return *this;
}
bool __fastcall Contains(const T el) const
{
#pragma warn -ccc
#pragma warn -rng
return (el >= minEl && el <= maxEl)?
#pragma warn .ccc
#pragma warn .rng
(Data[(int)(el/8) - (int)(minEl/8)] &
(unsigned char)((unsigned short)1 << (el % 8))): false;
}
Set& __fastcall Clear()
{
for (int i = 0; i < sizeof (Data); i++)
Data[i] = 0;
return *this;
}
bool __fastcall operator ==(const Set& rhs) const
{
for (int i = 0; i < sizeof (Data); i++)
if (Data[i] != rhs.Data[i])
// Not so fast, if first or last byte, make sure that
// the compare does not include unused bits (mask them)
if (i == 0)
{
if(((0xFF >> (8-(minEl%8))) ^ Data[i]) !=
((0xFF >> (8-(minEl%8))) ^ rhs.Data[i]))
return false;
}
else if (sizeof (Data) > 1 && i == sizeof (Data) - 1)
{
if(((0xFF << (1+(maxEl%8))) ^ Data[i]) !=
((0xFF << (1+(maxEl%8))) ^ rhs.Data[i]))
return false;
}
else
return false;
return true;
}
bool __fastcall operator !=(const Set& rhs) const {return !operator==(rhs);}
protected:
unsigned char Data[((((int)(maxEl/8))-((int)(minEl/8))+1) != 3)?
(((int)(maxEl/8))-((int)(minEl/8))+1): 4];
};
//---------------------------------------------------------------------------
template<class T, unsigned char minEl, unsigned char maxEl> class DummySet
{
protected:
unsigned char Data[((((int)(maxEl/8))-((int)(minEl/8))+1) != 3)?
(((int)(maxEl/8))-((int)(minEl/8))+1): 4];
};
//---------------------------------------------------------------------------
class TVarArrayBound {
public:
Integer ElementCount;
Integer LowBound;
};
typedef class TVarArray *PVarArray;
class TVarArray {
public:
Word DimCount;
Word Flags;
Integer ElementSize;
Integer LockCount;
Pointer Data;
TVarArrayBound Bounds[256] /* [0..255] */;
};
//---------------------------------------------------------------------------
#define varEmpty (Byte)(0)
#define varNull (Byte)(1)
#define varSmallint (Byte)(2)
#define varInteger (Byte)(3)
#define varSingle (Byte)(4)
#define varDouble (Byte)(5)
#define varCurrency (Byte)(6)
#define varDate (Byte)(7)
#define varOleStr (Byte)(8)
#define varDispatch (Byte)(9)
#define varError (Byte)(10)
#define varBoolean (Byte)(11)
#define varVariant (Byte)(12)
#define varUnknown (Byte)(13)
#define varByte (Byte)(17)
#define varString (Word)(256)
#define varTypeMask (Word)(4095)
#define varArray (Word)(8192)
#define varByRef (Word)(16384)
#define varStrArg (Byte)(72)
//---------------------------------------------------------------------------
#define vtInteger (Byte)(0)
#define vtBoolean (Byte)(1)
#define vtChar (Byte)(2)
#define vtExtended (Byte)(3)
#define vtString (Byte)(4)
#define vtPointer (Byte)(5)
#define vtPChar (Byte)(6)
#define vtObject (Byte)(7)
#define vtClass (Byte)(8)
#define vtWideChar (Byte)(9)
#define vtPWideChar (Byte)(10)
#define vtAnsiString (Byte)(11)
#define vtCurrency (Byte)(12)
#define vtVariant (Byte)(13)
//---------------------------------------------------------------------------
typedef class TVarData *PVarData;
class TVarData {
public:
Word VType;
Word Reserved1;
Word Reserved2;
Word Reserved3;
union {
Smallint VSmallint;
Integer VInteger;
Single VSingle;
Double VDouble;
CurrencyBase VCurrency;
TDateTimeBase VDate;
PWideChar VOleStr;
Ole2::IDispatch* VDispatch;
Integer VError;
WordBool VBoolean;
Ole2::IUnknown* VUnknown;
Byte VByte;
Pointer VString;
PVarArray VArray;
Pointer VPointer;
};
};
//-----------------------------------------------------------------------
class TVarRec;
typedef TVarRec* PVarRec;
class TVarRec
{
public:
union
{
Integer VInteger;
Boolean VBoolean;
Char VChar;
PExtended VExtended;
PShortString VString;
Pointer VPointer;
PChar VPChar;
TObject* VObject;
TClass VClass;
WideChar VWideChar;
PWideChar VPWideChar;
Pointer VAnsiString;
PCurrency VCurrency;
PVariant VVariant;
};
union
{
Byte VType;
long ForceAlignment;
};
//---- constructors ----
__fastcall TVarRec(): VType(vtInteger), VInteger(0) {} //default int 0
__fastcall TVarRec(Integer src): VType(vtInteger), VInteger(src) {}
__fastcall TVarRec(Boolean src): VType(vtBoolean), VBoolean(src) {}
__fastcall TVarRec(char src): VType(vtChar), VChar(src) {}
__fastcall TVarRec(const Extended& src): VType(vtExtended),
VExtended(const_cast<Extended*>(&src)) {}
__fastcall TVarRec(const ShortString& src): VType(vtString),
VString(const_cast<PShortString>(&src)) {}
__fastcall TVarRec(const Pointer src): VType(vtPointer), VPointer(src) {}
__fastcall TVarRec(const PChar src): VType(vtPChar), VPChar(src) {}
__fastcall TVarRec(const char* src): VType(vtPChar),
VPChar(reinterpret_cast<PChar>(const_cast<char*>(src))) {}
__fastcall TVarRec(const TObject& src): VType(vtObject),
VObject(const_cast<TObject*>(&src)) {}
__fastcall TVarRec(const TClass src): VType(vtClass), VClass(src) {}
__fastcall TVarRec(WideChar src): VType(vtWideChar), VWideChar(src) {}
__fastcall TVarRec(const PWideChar src): VType(vtPWideChar),
VPWideChar(src) {}
__fastcall TVarRec(const AnsiString src): VType(vtAnsiString),
VAnsiString(src.c_str()) {}
__fastcall TVarRec(const Currency& src): VType(vtCurrency),
VCurrency(const_cast<PCurrency>(&src)) {}
__fastcall TVarRec(const Variant& src): VType(vtVariant),
VVariant(const_cast<PVariant>(&src)) {}
//---- assignments ----
__fastcall operator =(Integer src) {VType = vtInteger; VInteger = src;}
__fastcall operator =(Boolean src) {VType = vtBoolean; VBoolean = src;}
__fastcall operator =(char src) {VType = vtChar; VChar = src;}
__fastcall operator =(const Extended& src) {VType = vtExtended;
VExtended = const_cast<PExtended>(&src);}
__fastcall operator =(const ShortString& src) {VType = vtString;
VString = const_cast<PShortString>(&src);}
__fastcall operator =(const Pointer src) {VType = vtPointer;VPointer = src;}
__fastcall operator =(const PChar src) {VType = vtPChar; VPChar = src;}
__fastcall operator =(const char* src) {VType = vtPChar;
VPChar = reinterpret_cast<PChar>(const_cast<char*>(src));}
__fastcall operator =(const TObject& src) {VType = vtObject;
VObject = const_cast<TObject*>(&src);}
__fastcall operator =(const TClass src) {VType = vtClass; VClass = src;}
__fastcall operator =(WideChar src) {VType = vtWideChar; VWideChar = src;}
__fastcall operator =(const PWideChar src) {VType = vtPWideChar;
VPWideChar = src;}
__fastcall operator =(const AnsiString src) {VType = vtAnsiString;
VAnsiString = src.c_str();}
__fastcall operator =(const Currency& src) {VType = vtCurrency;
VCurrency = const_cast<PCurrency>(&src);}
__fastcall operator =(const Variant& src) {VType = vtVariant;
VVariant = const_cast<PVariant>(&src);}
};
//-----------------------------------------------------------------------
template<class T> class OpenArray
{
public:
__fastcall OpenArray(T arg0)
{
Array = new T[Count = 1];
Array[0] = arg0;
}
__fastcall OpenArray(T arg0, T arg1)
{
Array = new T[Count = 2];
Array[0] = arg0;
Array[1] = arg1;
}
__fastcall OpenArray(T arg0, T arg1, T arg2)
{
Array = new T[Count = 3];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3)
{
Array = new T[Count = 4];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4)
{
Array = new T[Count = 5];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5)
{
Array = new T[Count = 6];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6)
{
Array = new T[Count = 7];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7)
{
Array = new T[Count = 8];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8)
{
Array = new T[Count = 9];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9)
{
Array = new T[Count = 10];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10)
{
Array = new T[Count = 11];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11)
{
Array = new T[Count = 12];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12)
{
Array = new T[Count = 13];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13)
{
Array = new T[Count = 14];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13, T arg14)
{
Array = new T[Count = 15];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
Array[14] = arg14;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13, T arg14, T arg15)
{
Array = new T[Count = 16];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
Array[14] = arg14;
Array[15] = arg15;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13, T arg14, T arg15, T arg16)
{
Array = new T[Count = 17];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
Array[14] = arg14;
Array[15] = arg15;
Array[16] = arg16;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13, T arg14, T arg15, T arg16, T arg17)
{
Array = new T[Count = 18];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
Array[14] = arg14;
Array[15] = arg15;
Array[16] = arg16;
Array[17] = arg17;
}
__fastcall OpenArray(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5, T arg6,
T arg7, T arg8, T arg9, T arg10, T arg11, T arg12,
T arg13, T arg14, T arg15, T arg16, T arg17, T arg18)
{
Array = new T[Count = 19];
Array[0] = arg0;
Array[1] = arg1;
Array[2] = arg2;
Array[3] = arg3;
Array[4] = arg4;
Array[5] = arg5;
Array[6] = arg6;
Array[7] = arg7;
Array[8] = arg8;
Array[9] = arg9;
Array[10] = arg10;
Array[11] = arg11;
Array[12] = arg12;
Array[13] = arg13;
Array[14] = arg14;
Array[15] = arg15;
Array[16] = arg16;
Array[17] = arg17;
Array[18] = arg18;
}
__fastcall OpenArray(const OpenArray& src)
{
Array = new T[Count = src.Count];
for (int i = 0; i < Count; i++)
Array[i] = src.Array[i];
}
__fastcall ~OpenArray() {delete [] Array;}
OpenArray& __fastcall operator =(const OpenArray& rhs);
__fastcall operator T*() {return Array;}
int __fastcall GetHigh() {return Count - 1;}
private:
T* Array;
long Count;
};
//-----------------------------------------------------------------------
template<class T>
OpenArray& __fastcall
OpenArray<T>::operator =(const OpenArray& rhs)
{
if (this != &rhs)
{
Array = new T[Count = rhs.Count];
for (int i = 0; i < Count; i++)
Array[i] = rhs.Array[i];
}
return *this;
}
//-----------------------------------------------------------------------
// Used with OPENARRAY macro (immediately following this template declaration)
template<class T> class OpenArrayCount
{
public:
__fastcall OpenArrayCount(T arg0): Count(1) {}
__fastcall OpenArrayCount(T arg0,T arg1): Count(2) {}
__fastcall OpenArrayCount(T arg0,T arg1,T arg2): Count(3) {}
__fastcall OpenArrayCount(T arg0,T arg1,T arg2,T arg3): Count(4) {}
__fastcall OpenArrayCount(T arg0,T arg1,T arg2,T arg3,T arg4): Count(5) {}
__fastcall OpenArrayCount(T arg0,T arg1,T arg2,T arg3,T arg4, T arg5)
: Count(6) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6): Count(7) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7): Count(8) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8): Count(9) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9): Count(10) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10): Count(11) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11): Count(12) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12): Count(13) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13)
: Count(14) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13,
T arg14): Count(15) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13,
T arg14, T arg15): Count(16) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13,
T arg14, T arg15, T arg16): Count(17) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13,
T arg14, T arg15, T arg16, T arg17): Count(18) {}
__fastcall OpenArrayCount(T arg0, T arg1, T arg2, T arg3, T arg4, T arg5,
T arg6, T arg7, T arg8, T arg9, T arg10, T arg11, T arg12, T arg13,
T arg14, T arg15, T arg16, T arg17, T arg18): Count(19) {}
int __fastcall GetHigh() {return Count - 1;}
private:
long Count;
};
//-----------------------------------------------------------------------
// OPENARRAY: construct an OpenArray<type> on the fly
//
#define OPENARRAY(type, values) \
OpenArray<type>values, OpenArrayCount<type>values.GetHigh()
//-----------------------------------------------------------------------
// ARRAYOFCONST: construct an OpenArray<TVarRec> on the fly
//
#define ARRAYOFCONST(values) \
OpenArray<TVarRec>values, OpenArrayCount<TVarRec>values.GetHigh()
//---------------------------------------------------------------------
#define ARRAYSIZE(a) (sizeof(a)/sizeof(a[0]))
//-----------------------------------------------------------------------
// EXISTINGARRAY: pass an existing array where an open array is expected
#define EXISTINGARRAY(a) (a), ((sizeof(a)/sizeof(a[0]))-1)
//-----------------------------------------------------------------------
// SLICE: pass part of an existing array where an open array is expected
#define SLICE(a, n) (a), (n - 1)
//-----------------------------------------------------------------------
//forward declare AutoCmd - used by Variant's Exec function
class AutoCmd;
//-----------------------------------------------------------------------
// Required for windows.hpp
//
#if !defined(LOCALE_SYSTEM_DEFAULT)
# define NOW_UNDEF_LOCALE_SYSTEM_DEFAULT TRUE
# define LOCALE_SYSTEM_DEFAULT System::Smallint(2048)
#endif
//-----------------------------------------------------------------------
class __declspec(delphireturn) Variant: public TVarData
{
friend class AutoCmd;
friend ostream& operator <<(ostream& os, const Variant& arg);
public:
static Variant __fastcall CreateObject(const String& ProgID);
static Variant __fastcall GetActiveObject(const String& ProgID);
//ctors
__fastcall Variant();
__fastcall Variant(const Variant& src);
//By value constructors
__fastcall Variant(const short src);
__fastcall Variant(const int src);
__fastcall Variant(const float src);
__fastcall Variant(const double src);
__fastcall Variant(const Currency src);
__fastcall Variant(const TDateTime src);
__fastcall Variant(const bool src);
__fastcall Variant(const WordBool src);
__fastcall Variant(const Byte src);
__fastcall Variant(const AnsiString& src);
__fastcall Variant(const char* src); // treat as asciiz pointer
__fastcall Variant(wchar_t* const src);
__fastcall Variant(Ole2::IDispatch* const src);
__fastcall Variant(Ole2::IUnknown* const src);
//By ref constructors
__fastcall Variant(short* src);
__fastcall Variant(int* src);
__fastcall Variant(float* src);
__fastcall Variant(double* src);
__fastcall Variant(Currency* src);
__fastcall Variant(TDateTime* src);
__fastcall Variant(WordBool* src);
__fastcall Variant(Byte* src);
__fastcall Variant(wchar_t** src);
// constructor for array of variants of type varType
__fastcall Variant(const int* bounds, const int boundsSize, Word varType);
// constructor for one dimensional array of type Variant
__fastcall Variant(const Variant* values, const int valuesSize);
__fastcall ~Variant();
//assignments
Variant& __fastcall operator =(const Variant& rhs);
Variant& __fastcall operator +=(const Variant& rhs);
Variant& __fastcall operator -=(const Variant& rhs);
Variant& __fastcall operator *=(const Variant& rhs);
Variant& __fastcall operator /=(const Variant& rhs);
Variant& __fastcall operator %=(const Variant& rhs);
Variant& __fastcall operator &=(const Variant& rhs);
Variant& __fastcall operator |=(const Variant& rhs);
Variant& __fastcall operator ^=(const Variant& rhs);
Variant& __fastcall operator <<=(const Variant& rhs);
Variant& __fastcall operator >>=(const Variant& rhs);
// comparisons (Variant on right)
bool __fastcall operator ==(const Variant& rhs) const;
bool __fastcall operator !=(const Variant& rhs) const;
bool __fastcall operator <(const Variant& rhs) const;
bool __fastcall operator >(const Variant& rhs) const;
bool __fastcall operator <=(const Variant& rhs) const;
bool __fastcall operator >=(const Variant& rhs) const;
// comparisons (int on right)
bool __fastcall operator ==(int rhs) const
{return operator ==(Variant(rhs));}
bool __fastcall operator !=(int rhs) const
{return operator !=(Variant(rhs));}
bool __fastcall operator < (int rhs) const
{return operator < (Variant(rhs));}
bool __fastcall operator > (int rhs) const
{return operator > (Variant(rhs));}
bool __fastcall operator <=(int rhs) const
{return operator <=(Variant(rhs));}
bool __fastcall operator >=(int rhs) const
{return operator >=(Variant(rhs));}
// comparisons (double on right)
bool __fastcall operator ==(double rhs) const
{return operator ==(Variant(rhs));}
bool __fastcall operator !=(double rhs) const
{return operator !=(Variant(rhs));}
bool __fastcall operator < (double rhs) const
{return operator <(Variant(rhs));}
bool __fastcall operator > (double rhs) const
{return operator >(Variant(rhs));}
bool __fastcall operator <=(double rhs) const
{return operator <=(Variant(rhs));}
bool __fastcall operator >=(double rhs) const
{return operator >=(Variant(rhs));}
// binary operators (Variant on right)
Variant __fastcall operator +(const Variant& rhs) const;
Variant __fastcall operator -(const Variant& rhs) const;
Variant __fastcall operator *(const Variant& rhs) const;
Variant __fastcall operator /(const Variant& rhs) const;
Variant __fastcall operator %(const Variant& rhs) const;
Variant __fastcall operator &(const Variant& rhs) const;
Variant __fastcall operator |(const Variant& rhs) const;
Variant __fastcall operator ^(const Variant& rhs) const;
Variant __fastcall operator <<(const Variant& rhs) const;
Variant __fastcall operator >>(const Variant& rhs) const;
// binary operators (AnsiString on right)
Variant __fastcall operator -(const AnsiString& rhs) const
{return operator -(Variant(rhs));}
Variant __fastcall operator *(const AnsiString& rhs) const
{return operator *(Variant(rhs));}
Variant __fastcall operator /(const AnsiString& rhs) const
{return operator /(Variant(rhs));}
Variant __fastcall operator %(const AnsiString& rhs) const
{return operator %(Variant(rhs));}
Variant __fastcall operator &(const AnsiString& rhs) const
{return operator &(Variant(rhs));}
Variant __fastcall operator |(const AnsiString& rhs) const
{return operator |(Variant(rhs));}
Variant __fastcall operator ^(const AnsiString& rhs) const
{return operator ^(Variant(rhs));}
Variant __fastcall operator <<(const AnsiString& rhs) const
{return operator <<(Variant(rhs));}
Variant __fastcall operator >>(const AnsiString& rhs) const
{return operator >>(Variant(rhs));}
// binary operators (int on right)
Variant __fastcall operator +(int rhs) const
{return operator +(Variant(rhs));}
Variant __fastcall operator -(int rhs) const
{return operator -(Variant(rhs));}
Variant __fastcall operator *(int rhs) const
{return operator *(Variant(rhs));}
Variant __fastcall operator /(int rhs) const
{return operator /(Variant(rhs));}
Variant __fastcall operator %(int rhs) const
{return operator %(Variant(rhs));}
Variant __fastcall operator &(int rhs) const
{return operator &(Variant(rhs));}
Variant __fastcall operator |(int rhs) const
{return operator |(Variant(rhs));}
Variant __fastcall operator ^(int rhs) const
{return operator ^(Variant(rhs));}
Variant __fastcall operator <<(int rhs) const
{return operator <<(Variant(rhs));}
Variant __fastcall operator >>(int rhs) const
{return operator >>(Variant(rhs));}
// binary operators (double on right)
Variant __fastcall operator +(double rhs) const
{return operator +(Variant(rhs));}
Variant __fastcall operator -(double rhs) const
{return operator -(Variant(rhs));}
Variant __fastcall operator *(double rhs) const
{return operator *(Variant(rhs));}
Variant __fastcall operator /(double rhs) const
{return operator /(Variant(rhs));}
Variant __fastcall operator %(double rhs) const
{return operator %(Variant(rhs));}
Variant __fastcall operator &(double rhs) const
{return operator &(Variant(rhs));}
Variant __fastcall operator |(double rhs) const
{return operator |(Variant(rhs));}
Variant __fastcall operator ^(double rhs) const
{return operator ^(Variant(rhs));}
Variant __fastcall operator <<(double rhs) const
{return operator <<(Variant(rhs));}
Variant __fastcall operator >>(double rhs) const
{return operator >>(Variant(rhs));}
// unary operators
Variant __fastcall operator -() const;
Variant __fastcall operator !() const;
// conversion operators
__fastcall operator short() const;
__fastcall operator int() const;
__fastcall operator float() const;
__fastcall operator double() const;
__fastcall operator Currency() const;
__fastcall operator TDateTime() const;
__fastcall operator bool() const;
__fastcall operator WordBool() const;
__fastcall operator Byte() const;
__fastcall operator AnsiString() const;
__fastcall operator Ole2::IDispatch*();
__fastcall operator Ole2::IUnknown*();
// by ref conversion operators
__fastcall operator short*();
__fastcall operator int*();
__fastcall operator float*();
__fastcall operator double*();
__fastcall operator Currency*();
__fastcall operator TDateTime*();
__fastcall operator WordBool*();
__fastcall operator Byte*();
__fastcall operator wchar_t**();
// HRESULT methods
void __fastcall SetError(const Integer err);
Integer __fastcall GetError() const;
void __fastcall Clear();
Variant& __fastcall ChangeType(int VarType);
Variant __fastcall AsType(int VarType) const;
int __fastcall Type() const;
bool __fastcall IsNull() const;
bool __fastcall IsEmpty() const;
// variant array stuff
bool __fastcall IsArray() const;
Variant __fastcall GetElement(const int i1) const;
Variant __fastcall GetElement(const int i1, const int i2) const;
Variant __fastcall GetElement(const int i1, const int i2, const int i3)
const;
Variant __fastcall GetElement(const int i1, const int i2, const int i3,
const int i4) const;
Variant __fastcall GetElement(const int i1, const int i2, const int i3,
const int i4, const int i5) const;
void __fastcall PutElement(const Variant& data, const int i1);
void __fastcall PutElement(const Variant& data, const int i1, const int i2);
void __fastcall PutElement(const Variant& data, const int i1, const int i2,
const int i3);
void __fastcall PutElement(const Variant& data, const int i1, const int i2,
const int i3, const int i4);
void __fastcall PutElement(const Variant& data, const int i1, const int i2,
const int i3, const int i4, const int i5);
int __fastcall ArrayDimCount() const;
int __fastcall ArrayLowBound(const int dim = 1) const;
int __fastcall ArrayHighBound(const int dim = 1) const;
void __fastcall ArrayRedim(int highBound);
Pointer __fastcall ArrayLock();
void __fastcall ArrayUnlock();
// Automation Goodies
Variant __fastcall Exec(AutoCmd& cmd, Integer lcid = LOCALE_SYSTEM_DEFAULT) const;
// Alternate Syntax for Automation
// (Doesn't support Named Parameters for now)
void OleProcedure(const String& name, Variant& v0 = Variant(),
Variant& v1 = Variant(),Variant& v2 = Variant(),Variant& v3 = Variant(),
Variant& v4 = Variant(),Variant& v5 = Variant(),Variant& v6 = Variant(),
Variant& v7 = Variant(),Variant& v8 = Variant(),Variant& v9 = Variant()) const;
Variant OleFunction(const String& name, Variant& v0 = Variant(),
Variant& v1 = Variant(),Variant& v2 = Variant(),Variant& v3 = Variant(),
Variant& v4 = Variant(),Variant& v5 = Variant(),Variant& v6 = Variant(),
Variant& v7 = Variant(),Variant& v8 = Variant(),Variant& v9 = Variant()) const;
Variant OlePropertyGet(const String& name, Variant& v0 = Variant(),
Variant& v1 = Variant(),Variant& v2 = Variant(),Variant& v3 = Variant(),
Variant& v4 = Variant(),Variant& v5 = Variant(),Variant& v6 = Variant(),
Variant& v7 = Variant(),Variant& v8 = Variant(),Variant& v9 = Variant()) const;
void OlePropertySet(const String& name, Variant& v0 = Variant(),
Variant& v1 = Variant(),Variant& v2 = Variant(),Variant& v3 = Variant(),
Variant& v4 = Variant(),Variant& v5 = Variant(),Variant& v6 = Variant(),
Variant& v7 = Variant(),Variant& v8 = Variant(),Variant& v9 = Variant()) const;
// End of Alternate Syntax for Automation
private:
// AutoCmd::GetParm & GetNamedParm uses operator [] (AutoCmd is a friend)
// operator[] can only be used for arrays of type Variant
Variant& __fastcall operator [](const int idx);
};
#ifdef NOW_UNDEF_LOCALE_SYSTEM_DEFAULT
#undef LOCALE_SYSTEM_DEFAULT
#endif
//-----------------------------------------------------------------------
//ostream& operator <<(ostream& os, const Variant& arg);
//-----------------------------------------------------------------------
// Variant global scope comparisons (int on left)
inline bool __fastcall operator ==(int lhs, const Variant& rhs)
{return Variant(lhs).operator ==(rhs);}
inline bool __fastcall operator !=(int lhs, const Variant& rhs)
{return Variant(lhs).operator !=(rhs);}
inline bool __fastcall operator < (int lhs, const Variant& rhs)
{return Variant(lhs).operator < (rhs);}
inline bool __fastcall operator > (int lhs, const Variant& rhs)
{return Variant(lhs).operator > (rhs);}
inline bool __fastcall operator <=(int lhs, const Variant& rhs)
{return Variant(lhs).operator <=(rhs);}
inline bool __fastcall operator >=(int lhs, const Variant& rhs)
{return Variant(lhs).operator >=(rhs);}
// Variant global scope comparisons (double on left)
inline bool __fastcall operator ==(double lhs, const Variant& rhs)
{return Variant(lhs).operator ==(rhs);}
inline bool __fastcall operator !=(double lhs, const Variant& rhs)
{return Variant(lhs).operator !=(rhs);}
inline bool __fastcall operator < (double lhs, const Variant& rhs)
{return Variant(lhs).operator < (rhs);}
inline bool __fastcall operator > (double lhs, const Variant& rhs)
{return Variant(lhs).operator > (rhs);}
inline bool __fastcall operator <=(double lhs, const Variant& rhs)
{return Variant(lhs).operator <=(rhs);}
inline bool __fastcall operator >=(double lhs, const Variant& rhs)
{return Variant(lhs).operator >=(rhs);}
// Variant binary global scope operators (AnsiString on left)
inline Variant __fastcall operator - (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator -(rhs);}
inline Variant __fastcall operator * (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator *(rhs);}
inline Variant __fastcall operator / (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator /(rhs);}
inline Variant __fastcall operator % (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator %(rhs);}
inline Variant __fastcall operator & (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator &(rhs);}
inline Variant __fastcall operator | (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator |(rhs);}
inline Variant __fastcall operator ^ (const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator ^(rhs);}
inline Variant __fastcall operator <<(const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator <<(rhs);}
inline Variant __fastcall operator >>(const AnsiString& lhs, const Variant& rhs)
{return Variant(lhs).operator >>(rhs);}
// Variant binary global scope operators (int on left)
inline Variant __fastcall operator +(int lhs, const Variant& rhs)
{return Variant(lhs).operator +(rhs);}
inline Variant __fastcall operator -(int lhs, const Variant& rhs)
{return Variant(lhs).operator -(rhs);}
inline Variant __fastcall operator *(int lhs, const Variant& rhs)
{return Variant(lhs).operator *(rhs);}
inline Variant __fastcall operator /(int lhs, const Variant& rhs)
{return Variant(lhs).operator /(rhs);}
inline Variant __fastcall operator %(int lhs, const Variant& rhs)
{return Variant(lhs).operator %(rhs);}
inline Variant __fastcall operator &(int lhs, const Variant& rhs)
{return Variant(lhs).operator &(rhs);}
inline Variant __fastcall operator |(int lhs, const Variant& rhs)
{return Variant(lhs).operator |(rhs);}
inline Variant __fastcall operator ^(int lhs, const Variant& rhs)
{return Variant(lhs).operator ^(rhs);}
inline Variant __fastcall operator <<(int lhs, const Variant& rhs)
{return Variant(lhs).operator <<(rhs);}
inline Variant __fastcall operator >>(int lhs, const Variant& rhs)
{return Variant(lhs).operator >>(rhs);}
// Variant binary global scope operators (double on left)
inline Variant __fastcall operator +(double lhs, const Variant& rhs)
{return Variant(lhs).operator +(rhs);}
inline Variant __fastcall operator -(double lhs, const Variant& rhs)
{return Variant(lhs).operator -(rhs);}
inline Variant __fastcall operator *(double lhs, const Variant& rhs)
{return Variant(lhs).operator *(rhs);}
inline Variant __fastcall operator /(double lhs, const Variant& rhs)
{return Variant(lhs).operator /(rhs);}
inline Variant __fastcall operator %(double lhs, const Variant& rhs)
{return Variant(lhs).operator %(rhs);}
inline Variant __fastcall operator &(double lhs, const Variant& rhs)
{return Variant(lhs).operator &(rhs);}
inline Variant __fastcall operator |(double lhs, const Variant& rhs)
{return Variant(lhs).operator |(rhs);}
inline Variant __fastcall operator ^(double lhs, const Variant& rhs)
{return Variant(lhs).operator ^(rhs);}
inline Variant __fastcall operator <<(double lhs, const Variant& rhs)
{return Variant(lhs).operator <<(rhs);}
inline Variant __fastcall operator >>(double lhs, const Variant& rhs)
{return Variant(lhs).operator >>(rhs);}
//-----------------------------------------------------------------------
//forward declare NamedParm - used by AutoArg's operator << function
class NamedParm;
//-----------------------------------------------------------------------
class AutoCmd
{
public:
AutoCmd(const String& name): Name(name) {}
AutoCmd(const AutoCmd& src);
virtual AutoCmd& SetName(const String& name);
//Named arg
virtual AutoCmd& operator <<(const NamedParm& np);
//By value args
virtual AutoCmd& operator <<(const Variant& arg);
virtual AutoCmd& operator <<(const short arg);
virtual AutoCmd& operator <<(const int arg);
virtual AutoCmd& operator <<(const float arg);
virtual AutoCmd& operator <<(const double arg);
virtual AutoCmd& operator <<(const Currency arg);
virtual AutoCmd& operator <<(const TDateTime arg);
virtual AutoCmd& operator <<(const bool arg);
virtual AutoCmd& operator <<(const WordBool arg);
virtual AutoCmd& operator <<(const Byte arg);
virtual AutoCmd& operator <<(const AnsiString& arg);
virtual AutoCmd& operator <<(const char* arg) // treat as asciiz pointer
{return operator <<(AnsiString(arg));}
virtual AutoCmd& operator <<(Ole2::IDispatch* const arg);
virtual AutoCmd& operator <<(Ole2::IUnknown* const arg);
//By ref args
virtual AutoCmd& operator <<(Variant* arg);
virtual AutoCmd& operator <<(short* arg);
virtual AutoCmd& operator <<(int* arg);
virtual AutoCmd& operator <<(float* arg);
virtual AutoCmd& operator <<(double* arg);
virtual AutoCmd& operator <<(Currency* arg);
virtual AutoCmd& operator <<(TDateTime* arg);
virtual AutoCmd& operator <<(WordBool* arg);
virtual AutoCmd& operator <<(Byte* arg);
virtual AutoCmd& operator <<(AnsiString* arg);
virtual AutoCmd& Clear(); // ClearName() + ClearArgs()
virtual AutoCmd& ClearName(); // SetName("")
virtual AutoCmd& ClearArgs(); // Clear Parms and NamedParms
virtual Byte GetCallType() const = 0;
virtual bool RequestResult() const = 0;
virtual int GetArgType(const Byte idx) const;
virtual int GetNamedArgType(const Byte idx) const;
virtual String GetName() const { return Name; }
virtual Byte GetArgCount() const;
virtual Byte GetNamedArgCount() const;
virtual Variant& GetParm(const Byte idx);
virtual Variant& GetNamedParm(const Byte idx);
virtual String GetNamedParmName(const Byte idx) const;
virtual String GetStringArg(const Byte idx) {return StringArgs[idx];}
virtual String* GetStringPtr(const Byte idx) {return StringPtrs[idx];}
virtual String GetNamedStringArg(const Byte idx) {return NamedStringArgs[idx];}
virtual String* GetNamedStringPtr(const Byte idx) {return NamedStringPtrs[idx];}
protected:
void AddElement();
String Name; // name of command
Variant Parms; // positional arguments
Variant ParmTypes; // types of positional arguments
Variant NamedParms; // named arguments
Variant NamedParmTypes; // types of named arguments
Variant NamedParmNames; // names of named arguments
AnsiString StringArgs[32]; // MaxDispArgs = 32 in oleauto.hpp
AnsiString* StringPtrs[32]; // MaxDispArgs = 32 in oleauto.hpp
AnsiString NamedStringArgs[32]; // MaxDispArgs = 32 in oleauto.hpp
AnsiString* NamedStringPtrs[32]; // MaxDispArgs = 32 in oleauto.hpp
};
//-----------------------------------------------------------------------
class NamedParm
{
public:
// NamedParm(const String& name, Variant& parm): Name(name), Parm(parm) {}
//By value ctors
NamedParm(const String& name, const Variant& arg):
Name(name), Type(varVariant), Parm(arg) {}
NamedParm(const String& name, const short arg):
Name(name), Type(varSmallint), Parm(arg) {}
NamedParm(const String& name, const int arg):
Name(name), Type(varInteger), Parm(arg) {}
NamedParm(const String& name, const float arg):
Name(name), Type(varSingle), Parm(arg) {}
NamedParm(const String& name, const double arg):
Name(name), Type(varDouble), Parm(arg) {}
NamedParm(const String& name, const Currency arg):
Name(name), Type(varCurrency), Parm(arg) {}
NamedParm(const String& name, const TDateTime arg):
Name(name), Type(varDate), Parm(arg) {}
NamedParm(const String& name, const bool arg):
Name(name), Type(varBoolean), Parm(arg) {}
NamedParm(const String& name, const WordBool arg):
Name(name), Type(varBoolean), Parm(arg) {}
NamedParm(const String& name, const Byte arg):
Name(name), Type(varByte), Parm(arg) {}
NamedParm(const String& name, const AnsiString& arg):
Name(name), Type(varString), StringParm(arg) {}
NamedParm(const String& name, const char* arg): // treat as asciiz pointer
Name(name), Type(varString), StringParm(arg) {}
NamedParm(const String& name, Ole2::IDispatch* const arg):
Name(name), Type(varDispatch), Parm(arg) {}
NamedParm(const String& name, Ole2::IUnknown* const arg):
Name(name), Type(varUnknown), Parm(arg) {}
//By ref ctors
NamedParm(const String& name, Variant* arg);
NamedParm(const String& name, short* arg):
Name(name), Type(varSmallint | varByRef), Parm(arg) {}
NamedParm(const String& name, int* arg):
Name(name), Type(varInteger | varByRef), Parm(arg) {}
NamedParm(const String& name, float* arg):
Name(name), Type(varSingle | varByRef), Parm(arg) {}
NamedParm(const String& name, double* arg):
Name(name), Type(varDouble | varByRef), Parm(arg) {}
NamedParm(const String& name, Currency* arg):
Name(name), Type(varCurrency | varByRef), Parm(arg) {}
NamedParm(const String& name, TDateTime* arg):
Name(name), Type(varDate | varByRef), Parm(arg) {}
NamedParm(const String& name, WordBool* arg):
Name(name), Type(varBoolean | varByRef), Parm(arg) {}
NamedParm(const String& name, Byte* arg):
Name(name), Type(varByte | varByRef), Parm(arg) {}
NamedParm(const String& name, String* arg):
Name(name), Type(varString | varByRef), StringPtr(arg) {}
virtual Variant GetParm() const { return Parm; }
virtual AnsiString GetStringParm() const { return StringParm; }
virtual AnsiString* GetStringPtr() const { return StringPtr; }
virtual int GetType() const { return Type; }
virtual String GetParmName() const { return Name; }
protected:
void AddElement();
String Name;
Variant Parm;
AnsiString StringParm;
AnsiString* StringPtr;
int Type;
};
//-----------------------------------------------------------------------
class Procedure: public AutoCmd
{
public:
Procedure(const String& name): AutoCmd(name) {}
Procedure(const AutoCmd& src): AutoCmd(src) {dynamic_cast<const Procedure*>(&src);}
virtual Byte GetCallType() const;
virtual bool RequestResult() const { return false; }
};
//-----------------------------------------------------------------------
class Function: public AutoCmd
{
public:
Function(const String& name): AutoCmd(name) {}
Function(const AutoCmd& src): AutoCmd(src) {dynamic_cast<const Function*>(&src);}
virtual Byte GetCallType() const;
virtual bool RequestResult() const { return true; }
};
//-----------------------------------------------------------------------
class PropertySet: public AutoCmd
{
public:
PropertySet(const String& name): AutoCmd(name) {}
PropertySet(const AutoCmd& src): AutoCmd(src) {dynamic_cast<const PropertySet*>(&src);}
virtual Byte GetCallType() const;
virtual bool RequestResult() const { return false; }
};
//-----------------------------------------------------------------------
class PropertyGet: public AutoCmd
{
public:
PropertyGet(const String& name): AutoCmd(name) {}
PropertyGet(const AutoCmd& src): AutoCmd(src) {dynamic_cast<const PropertyGet*>(&src);}
virtual Byte GetCallType() const;
virtual bool RequestResult() const { return true; }
};
//-----------------------------------------------------------------------
typedef class TMemoryManager *PMemoryManager;
class TMemoryManager {
public:
Pointer __fastcall (*GetMem)(Integer Size);
Integer __fastcall (*FreeMem)(Pointer P);
Pointer __fastcall (*ReallocMem)(Pointer P, Integer Size);
} ;
class THeapStatus {
public:
Cardinal TotalAddrSpace;
Cardinal TotalUncommitted;
Cardinal TotalCommitted;
Cardinal TotalAllocated;
Cardinal TotalFree;
Cardinal FreeSmall;
Cardinal FreeBig;
Cardinal Unused;
Cardinal Overhead;
Cardinal HeapErrorCode;
} ;
typedef Integer __fastcall (*TThreadFunc)(Pointer Parameter);
//---------------------------------------------------------------------
#define USEDATAMODULE(FileName, DataModuleName) \
class __declspec(delphiclass) T##DataModuleName; \
extern T##DataModuleName *DataModuleName;
//---------------------------------------------------------------------
#define USEDATAMODULENS(FileName, UnitName, DataModuleName) \
namespace UnitName { \
class __declspec(delphiclass) T##DataModuleName; \
extern T##DataModuleName *DataModuleName; \
}; \
using namespace UnitName
//---------------------------------------------------------------------
#define USEFORM(FileName, FormName) \
class __declspec(delphiclass) T##FormName; \
extern T##FormName *FormName;
//---------------------------------------------------------------------
#define USEFORMNS(FileName, UnitName, FormName) \
namespace UnitName { \
class __declspec(delphiclass) T##FormName; \
extern T##FormName *FormName; \
}; \
using namespace UnitName
//---------------------------------------------------------------------
#define USEUNIT(ModName) \
extern DummyThatIsNeverReferenced
//---------------------------------------------------------------------------
#define USEOBJ(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
#define USERC(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
#define USEDEF(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
#define USERES(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
#define USELIB(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
#define USEFILE(FileName) \
extern DummyThatIsNeverReferenced
//-----------------------------------------------------------------------
}
using namespace System;
using System::TClass;
namespace Typinfo {
struct TTypeInfo;
typedef TTypeInfo *PTypeInfo;
}
#if !defined(__typeinfo)
# define __typeinfo(type) (PTypeInfo)TObject::ClassInfo(__classid(type))
#endif
#endif // SYSDEFS_H
