wxWidgets/include/wx/xtitypes.h
Stefan Csomor 31ba1c7e33 adding conversion for stl
git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@70384 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2012-01-18 14:05:39 +00:00

534 lines
18 KiB
C++

/////////////////////////////////////////////////////////////////////////////
// Name: wx/xtitypes.h
// Purpose: enum, set, basic types support
// Author: Stefan Csomor
// Modified by: Francesco Montorsi
// Created: 27/07/03
// RCS-ID: $Id$
// Copyright: (c) 1997 Julian Smart
// (c) 2003 Stefan Csomor
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
#ifndef _XTITYPES_H_
#define _XTITYPES_H_
#include "wx/defs.h"
#if wxUSE_EXTENDED_RTTI
#include "wx/string.h"
#include "wx/hashmap.h"
#include "wx/arrstr.h"
#include "wx/flags.h"
#include "wx/intl.h"
#include "wx/log.h"
#include <typeinfo>
class WXDLLIMPEXP_BASE wxClassInfo;
// ----------------------------------------------------------------------------
// Enum Support
//
// In the header files XTI requires no change from pure c++ code, however in the
// implementation, an enum needs to be enumerated eg:
//
// wxBEGIN_ENUM( wxFlavor )
// wxENUM_MEMBER( Vanilla )
// wxENUM_MEMBER( Chocolate )
// wxENUM_MEMBER( Strawberry )
// wxEND_ENUM( wxFlavor )
// ----------------------------------------------------------------------------
struct WXDLLIMPEXP_BASE wxEnumMemberData
{
const wxChar* m_name;
int m_value;
};
class WXDLLIMPEXP_BASE wxEnumData
{
public:
wxEnumData( wxEnumMemberData* data );
// returns true if the member has been found and sets the int value
// pointed to accordingly (if ptr != null )
// if not found returns false, value left unchanged
bool HasEnumMemberValue( const wxChar *name, int *value = NULL ) const;
// returns the value of the member, if not found in debug mode an
// assert is issued, in release 0 is returned
int GetEnumMemberValue(const wxChar *name ) const;
// returns the name of the enum member having the passed in value
// returns an emtpy string if not found
const wxChar *GetEnumMemberName(int value) const;
// returns the number of members in this enum
int GetEnumCount() const { return m_count; }
// returns the value of the nth member
int GetEnumMemberValueByIndex( int n ) const;
// returns the value of the nth member
const wxChar *GetEnumMemberNameByIndex( int n ) const;
private:
wxEnumMemberData *m_members;
int m_count;
};
#define wxBEGIN_ENUM( e ) \
wxEnumMemberData s_enumDataMembers##e[] = {
#define wxENUM_MEMBER( v ) { wxT(#v), v },
#define wxEND_ENUM( e ) \
{ NULL, 0 } }; \
wxEnumData s_enumData##e( s_enumDataMembers##e ); \
wxEnumData *wxGetEnumData(e) { return &s_enumData##e; } \
template<> void wxStringReadValue(const wxString& s, e &data ) \
{ data = (e) s_enumData##e.GetEnumMemberValue(s.c_str()); } \
template<> void wxStringWriteValue(wxString &s, const e &data ) \
{ s = s_enumData##e.GetEnumMemberName((int)data); } \
void FromLong##e( long data, wxAny& result ) \
{ result = wxAny((e)data); } \
void ToLong##e( const wxAny& data, long &result ) \
{ result = (long) (data).As(static_cast<e*>(NULL)); } \
\
wxTO_STRING_IMP( e ) \
wxFROM_STRING_IMP( e ) \
wxEnumTypeInfo s_typeInfo##e(wxT_ENUM, &s_enumData##e, \
&wxTO_STRING( e ), &wxFROM_STRING( e ), &ToLong##e, \
&FromLong##e, typeid(e).name() );
// ----------------------------------------------------------------------------
// Set Support
//
// in the header :
//
// enum wxFlavor
// {
// Vanilla,
// Chocolate,
// Strawberry,
// };
//
// typedef wxBitset<wxFlavor> wxCoupe;
//
// in the implementation file :
//
// wxBEGIN_ENUM( wxFlavor )
// wxENUM_MEMBER( Vanilla )
// wxENUM_MEMBER( Chocolate )
// wxENUM_MEMBER( Strawberry )
// wxEND_ENUM( wxFlavor )
//
// wxIMPLEMENT_SET_STREAMING( wxCoupe, wxFlavor )
//
// implementation note: no partial specialization for streaming, but a delegation
// to a different class
//
// ----------------------------------------------------------------------------
void WXDLLIMPEXP_BASE wxSetStringToArray( const wxString &s, wxArrayString &array );
template<typename e>
void wxSetFromString(const wxString &s, wxBitset<e> &data )
{
wxEnumData* edata = wxGetEnumData((e) 0);
data.reset();
wxArrayString array;
wxSetStringToArray( s, array );
wxString flag;
for ( int i = 0; i < array.Count(); ++i )
{
flag = array[i];
int ivalue;
if ( edata->HasEnumMemberValue( flag.c_str(), &ivalue ) )
{
data.set( (e) ivalue );
}
}
}
template<typename e>
void wxSetToString( wxString &s, const wxBitset<e> &data )
{
wxEnumData* edata = wxGetEnumData((e) 0);
int count = edata->GetEnumCount();
int i;
s.Clear();
for ( i = 0; i < count; i++ )
{
e value = (e) edata->GetEnumMemberValueByIndex(i);
if ( data.test( value ) )
{
// this could also be done by the templated calls
if ( !s.empty() )
s += wxT("|");
s += edata->GetEnumMemberNameByIndex(i);
}
}
}
#define wxIMPLEMENT_SET_STREAMING(SetName,e) \
template<> void wxStringReadValue(const wxString &s, wxBitset<e> &data ) \
{ wxSetFromString( s, data ); } \
template<> void wxStringWriteValue( wxString &s, const wxBitset<e> &data ) \
{ wxSetToString( s, data ); } \
void FromLong##SetName( long data, wxAny& result ) \
{ result = wxAny(SetName((unsigned long)data)); } \
void ToLong##SetName( const wxAny& data, long &result ) \
{ result = (long) (data).As(static_cast<SetName*>(NULL)).to_ulong(); } \
wxTO_STRING_IMP( SetName ) \
wxFROM_STRING_IMP( SetName ) \
wxEnumTypeInfo s_typeInfo##SetName(wxT_SET, &s_enumData##e, \
&wxTO_STRING( SetName ), &wxFROM_STRING( SetName ), \
&ToLong##SetName, &FromLong##SetName, typeid(SetName).name() );
template<typename e>
void wxFlagsFromString(const wxString &s, e &data )
{
wxEnumData* edata = wxGetEnumData((e*) 0);
data.m_data = 0;
wxArrayString array;
wxSetStringToArray( s, array );
wxString flag;
for ( size_t i = 0; i < array.Count(); ++i )
{
flag = array[i];
int ivalue;
if ( edata->HasEnumMemberValue( flag.c_str(), &ivalue ) )
{
data.m_data |= ivalue;
}
}
}
template<typename e>
void wxFlagsToString( wxString &s, const e& data )
{
wxEnumData* edata = wxGetEnumData((e*) 0);
int count = edata->GetEnumCount();
int i;
s.Clear();
long dataValue = data.m_data;
for ( i = 0; i < count; i++ )
{
int value = edata->GetEnumMemberValueByIndex(i);
// make this to allow for multi-bit constants to work
if ( value && ( dataValue & value ) == value )
{
// clear the flags we just set
dataValue &= ~value;
// this could also be done by the templated calls
if ( !s.empty() )
s +=wxT("|");
s += edata->GetEnumMemberNameByIndex(i);
}
}
}
#define wxBEGIN_FLAGS( e ) \
wxEnumMemberData s_enumDataMembers##e[] = {
#define wxFLAGS_MEMBER( v ) { wxT(#v), v },
#define wxEND_FLAGS( e ) \
{ NULL, 0 } }; \
wxEnumData s_enumData##e( s_enumDataMembers##e ); \
wxEnumData *wxGetEnumData(e*) { return &s_enumData##e; } \
template<> void wxStringReadValue(const wxString &s, e &data ) \
{ wxFlagsFromString<e>( s, data ); } \
template<> void wxStringWriteValue( wxString &s, const e& data ) \
{ wxFlagsToString<e>( s, data ); } \
void FromLong##e( long data, wxAny& result ) \
{ result = wxAny(e(data)); } \
void ToLong##e( const wxAny& data, long &result ) \
{ result = (long) (data).As(static_cast<e*>(NULL)).m_data; } \
wxTO_STRING_IMP( e ) \
wxFROM_STRING_IMP( e ) \
wxEnumTypeInfo s_typeInfo##e(wxT_SET, &s_enumData##e, \
&wxTO_STRING( e ), &wxFROM_STRING( e ), &ToLong##e, \
&FromLong##e, typeid(e).name() );
// ----------------------------------------------------------------------------
// Type Information
// ----------------------------------------------------------------------------
// All data exposed by the RTTI is characterized using the following classes.
// The first characterization is done by wxTypeKind. All enums up to and including
// wxT_CUSTOM represent so called simple types. These cannot be divided any further.
// They can be converted to and from wxStrings, that's all.
// Other wxTypeKinds can instead be splitted recursively into smaller parts until
// the simple types are reached.
enum wxTypeKind
{
wxT_VOID = 0, // unknown type
wxT_BOOL,
wxT_CHAR,
wxT_UCHAR,
wxT_INT,
wxT_UINT,
wxT_LONG,
wxT_ULONG,
wxT_LONGLONG,
wxT_ULONGLONG,
wxT_FLOAT,
wxT_DOUBLE,
wxT_STRING, // must be wxString
wxT_SET, // must be wxBitset<> template
wxT_ENUM,
wxT_CUSTOM, // user defined type (e.g. wxPoint)
wxT_LAST_SIMPLE_TYPE_KIND = wxT_CUSTOM,
wxT_OBJECT_PTR, // object reference
wxT_OBJECT, // embedded object
wxT_COLLECTION, // collection
wxT_DELEGATE, // for connecting against an event source
wxT_LAST_TYPE_KIND = wxT_DELEGATE // sentinel for bad data, asserts, debugging
};
class WXDLLIMPEXP_BASE wxAny;
class WXDLLIMPEXP_BASE wxTypeInfo;
WX_DECLARE_STRING_HASH_MAP_WITH_DECL( wxTypeInfo*, wxTypeInfoMap, class WXDLLIMPEXP_BASE );
class WXDLLIMPEXP_BASE wxTypeInfo
{
public:
typedef void (*wxVariant2StringFnc)( const wxAny& data, wxString &result );
typedef void (*wxString2VariantFnc)( const wxString& data, wxAny &result );
wxTypeInfo(wxTypeKind kind,
wxVariant2StringFnc to = NULL, wxString2VariantFnc from = NULL,
const wxString &name = wxEmptyString):
m_toString(to), m_fromString(from), m_kind(kind), m_name(name)
{
Register();
}
#if 0 // wxUSE_UNICODE
wxTypeInfo(wxTypeKind kind,
wxVariant2StringFnc to, wxString2VariantFnc from,
const char *name):
m_toString(to), m_fromString(from), m_kind(kind),
m_name(wxString::FromAscii(name))
{
Register();
}
#endif
virtual ~wxTypeInfo()
{
Unregister();
}
// return the kind of this type (wxT_... constants)
wxTypeKind GetKind() const { return m_kind; }
// returns the unique name of this type
const wxString& GetTypeName() const { return m_name; }
// is this type a delegate type
bool IsDelegateType() const { return m_kind == wxT_DELEGATE; }
// is this type a custom type
bool IsCustomType() const { return m_kind == wxT_CUSTOM; }
// is this type an object type
bool IsObjectType() const { return m_kind == wxT_OBJECT || m_kind == wxT_OBJECT_PTR; }
// can the content of this type be converted to and from strings ?
bool HasStringConverters() const { return m_toString != NULL && m_fromString != NULL; }
// convert a wxAny holding data of this type into a string
void ConvertToString( const wxAny& data, wxString &result ) const
{
if ( m_toString )
(*m_toString)( data, result );
else
wxLogError( wxGetTranslation(wxT("String conversions not supported")) );
}
// convert a string into a wxAny holding the corresponding data in this type
void ConvertFromString( const wxString& data, wxAny &result ) const
{
if( m_fromString )
(*m_fromString)( data, result );
else
wxLogError( wxGetTranslation(wxT("String conversions not supported")) );
}
// statics:
// looks for the corresponding type, will return NULL if not found
static wxTypeInfo *FindType( const wxString& typeName );
private:
void Register();
void Unregister();
wxVariant2StringFnc m_toString;
wxString2VariantFnc m_fromString;
wxTypeKind m_kind;
wxString m_name;
// the static list of all types we know about
static wxTypeInfoMap* ms_typeTable;
};
class WXDLLIMPEXP_BASE wxBuiltInTypeInfo : public wxTypeInfo
{
public:
wxBuiltInTypeInfo( wxTypeKind kind, wxVariant2StringFnc to = NULL,
wxString2VariantFnc from = NULL,
const wxString &name = wxEmptyString ) :
wxTypeInfo( kind, to, from, name )
{ wxASSERT_MSG( GetKind() < wxT_SET, wxT("Illegal Kind for Base Type") ); }
};
class WXDLLIMPEXP_BASE wxCustomTypeInfo : public wxTypeInfo
{
public:
wxCustomTypeInfo( const wxString &name, wxVariant2StringFnc to,
wxString2VariantFnc from ) :
wxTypeInfo( wxT_CUSTOM, to, from, name )
{}
};
class WXDLLIMPEXP_BASE wxEnumTypeInfo : public wxTypeInfo
{
public:
typedef void (*converterToLong_t)( const wxAny& data, long &result );
typedef void (*converterFromLong_t)( long data, wxAny &result );
wxEnumTypeInfo( wxTypeKind kind, wxEnumData* enumInfo, wxVariant2StringFnc to,
wxString2VariantFnc from, converterToLong_t toLong,
converterFromLong_t fromLong, const wxString &name ) :
wxTypeInfo( kind, to, from, name ), m_toLong( toLong ), m_fromLong( fromLong )
{
wxASSERT_MSG( kind == wxT_ENUM || kind == wxT_SET,
wxT("Illegal Kind for Enum Type"));
m_enumInfo = enumInfo;
}
const wxEnumData* GetEnumData() const { return m_enumInfo; }
// convert a wxAny holding data of this type into a long
void ConvertToLong( const wxAny& data, long &result ) const
{
if( m_toLong )
(*m_toLong)( data, result );
else
wxLogError( wxGetTranslation(wxT("Long Conversions not supported")) );
}
// convert a long into a wxAny holding the corresponding data in this type
void ConvertFromLong( long data, wxAny &result ) const
{
if( m_fromLong )
(*m_fromLong)( data, result );
else
wxLogError( wxGetTranslation(wxT("Long Conversions not supported")) );
}
private:
converterToLong_t m_toLong;
converterFromLong_t m_fromLong;
wxEnumData *m_enumInfo; // Kind == wxT_ENUM or Kind == wxT_SET
};
class WXDLLIMPEXP_BASE wxClassTypeInfo : public wxTypeInfo
{
public:
wxClassTypeInfo( wxTypeKind kind, wxClassInfo* classInfo,
wxVariant2StringFnc to = NULL, wxString2VariantFnc from = NULL,
const wxString &name = wxEmptyString);
const wxClassInfo *GetClassInfo() const { return m_classInfo; }
private:
wxClassInfo *m_classInfo; // Kind == wxT_OBJECT - could be NULL
};
class WXDLLIMPEXP_BASE wxCollectionTypeInfo : public wxTypeInfo
{
public:
wxCollectionTypeInfo( const wxString &elementName, wxVariant2StringFnc to,
wxString2VariantFnc from , const wxString &name) :
wxTypeInfo( wxT_COLLECTION, to, from, name )
{ m_elementTypeName = elementName; m_elementType = NULL; }
const wxTypeInfo* GetElementType() const
{
if ( m_elementType == NULL )
m_elementType = wxTypeInfo::FindType( m_elementTypeName );
return m_elementType;
}
private:
mutable wxTypeInfo * m_elementType;
wxString m_elementTypeName;
};
class WXDLLIMPEXP_BASE wxEventSourceTypeInfo : public wxTypeInfo
{
public:
wxEventSourceTypeInfo( int eventType, wxClassInfo* eventClass,
wxVariant2StringFnc to = NULL,
wxString2VariantFnc from = NULL );
wxEventSourceTypeInfo( int eventType, int lastEventType, wxClassInfo* eventClass,
wxVariant2StringFnc to = NULL, wxString2VariantFnc from = NULL );
int GetEventType() const { return m_eventType; }
int GetLastEventType() const { return m_lastEventType; }
const wxClassInfo* GetEventClass() const { return m_eventClass; }
private:
const wxClassInfo *m_eventClass; // (extended will merge into classinfo)
int m_eventType;
int m_lastEventType;
};
template<typename T> const wxTypeInfo* wxGetTypeInfo( T * )
{ return wxTypeInfo::FindType(typeid(T).name()); }
// this macro is for usage with custom, non-object derived classes and structs,
// wxPoint is such a custom type
#if wxUSE_FUNC_TEMPLATE_POINTER
#define wxCUSTOM_TYPE_INFO( e, toString, fromString ) \
wxCustomTypeInfo s_typeInfo##e(typeid(e).name(), &toString, &fromString);
#else
#define wxCUSTOM_TYPE_INFO( e, toString, fromString ) \
void ToString##e( const wxAny& data, wxString &result ) \
{ toString(data, result); } \
void FromString##e( const wxString& data, wxAny &result ) \
{ fromString(data, result); } \
wxCustomTypeInfo s_typeInfo##e(typeid(e).name(), \
&ToString##e, &FromString##e);
#endif
#define wxCOLLECTION_TYPE_INFO( element, collection ) \
wxCollectionTypeInfo s_typeInfo##collection( typeid(element).name(), \
NULL, NULL, typeid(collection).name() );
// sometimes a compiler invents specializations that are nowhere called,
// use this macro to satisfy the refs, currently we don't have to play
// tricks, but if we will have to according to the compiler, we will use
// that macro for that
#define wxILLEGAL_TYPE_SPECIALIZATION( a )
#endif // wxUSE_EXTENDED_RTTI
#endif // _XTITYPES_H_