bool SetFaceName(const wxString& facename);
void SetEncoding(wxFontEncoding encoding);
- void SetNoAntiAliasing( bool no = true ) { m_noAA = no; }
- bool GetNoAntiAliasing() const { return m_noAA; }
-
// and this one also modifies all the other font data fields
void SetNativeFontInfo(const wxNativeFontInfo& info);
- // debugger helper: shows what the font really is
- //
- // VZ: I need this as my gdb either shows wildly wrong values or crashes
- // when I ask it to "p fontRefData" :-(
-#if defined(__WXDEBUG__)
- void Dump() const
- {
- wxPrintf(_T("%s-%s-%s-%d-%d\n"),
- m_faceName.c_str(),
- m_weight == wxFONTWEIGHT_NORMAL
- ? _T("normal")
- : m_weight == wxFONTWEIGHT_BOLD
- ? _T("bold")
- : _T("light"),
- m_style == wxFONTSTYLE_NORMAL ? _T("regular") : _T("italic"),
- m_pointSize,
- m_encoding);
- }
-#endif // Debug
-
protected:
// common part of all ctors
void Init(int pointSize,
bool m_underlined;
wxString m_faceName;
wxFontEncoding m_encoding; // Unused under GTK 2.0
- bool m_noAA; // No anti-aliasing
// The native font info, basicly an XFLD under GTK 1.2 and
// the pango font description under GTK 2.0.
m_underlined = underlined;
m_encoding = encoding;
-
- m_noAA = false;
}
void wxFontRefData::InitFromNative()
{
- m_noAA = false;
-
// get the font parameters from the XLFD
// -------------------------------------
m_weight = wxFONTWEIGHT_NORMAL;
wxString w = m_nativeFontInfo.GetXFontComponent(wxXLFD_WEIGHT).Upper();
- if ( !w.empty() && w != _T('*') )
+ if ( !w.empty() && w != wxT('*') )
{
// the test below catches all of BOLD, EXTRABOLD, DEMIBOLD, ULTRABOLD
// and BLACK
- if ( ((w[0u] == _T('B') && (!wxStrcmp(w.c_str() + 1, wxT("OLD")) ||
+ if ( ((w[0u] == wxT('B') && (!wxStrcmp(w.c_str() + 1, wxT("OLD")) ||
!wxStrcmp(w.c_str() + 1, wxT("LACK"))))) ||
- wxStrstr(w.c_str() + 1, _T("BOLD")) )
+ wxStrstr(w.c_str() + 1, wxT("BOLD")) )
{
m_weight = wxFONTWEIGHT_BOLD;
}
- else if ( w == _T("LIGHT") || w == _T("THIN") )
+ else if ( w == wxT("LIGHT") || w == wxT("THIN") )
{
m_weight = wxFONTWEIGHT_LIGHT;
}
switch ( wxToupper(m_nativeFontInfo.
GetXFontComponent(wxXLFD_SLANT)[0u]).GetValue() )
{
- case _T('I'): // italique
+ case wxT('I'): // italique
m_style = wxFONTSTYLE_ITALIC;
break;
- case _T('O'): // oblique
+ case wxT('O'): // oblique
m_style = wxFONTSTYLE_SLANT;
break;
// examine the spacing: if the font is monospaced, assume wxTELETYPE
// family for compatibility with the old code which used it instead of
// IsFixedWidth()
- if ( m_nativeFontInfo.GetXFontComponent(wxXLFD_SPACING).Upper() == _T('M') )
+ if ( m_nativeFontInfo.GetXFontComponent(wxXLFD_SPACING).Upper() == wxT('M') )
{
m_family = wxFONTFAMILY_TELETYPE;
}
registry = m_nativeFontInfo.GetXFontComponent(wxXLFD_REGISTRY).Upper(),
encoding = m_nativeFontInfo.GetXFontComponent(wxXLFD_ENCODING).Upper();
- if ( registry == _T("ISO8859") )
+ if ( registry == wxT("ISO8859") )
{
int cp;
if ( wxSscanf(encoding, wxT("%d"), &cp) == 1 )
m_encoding = (wxFontEncoding)(wxFONTENCODING_ISO8859_1 + cp - 1);
}
}
- else if ( registry == _T("MICROSOFT") )
+ else if ( registry == wxT("MICROSOFT") )
{
int cp;
if ( wxSscanf(encoding, wxT("cp125%d"), &cp) == 1 )
m_encoding = (wxFontEncoding)(wxFONTENCODING_CP1250 + cp);
}
}
- else if ( registry == _T("KOI8") )
+ else if ( registry == wxT("KOI8") )
{
m_encoding = wxFONTENCODING_KOI8;
}
m_faceName = data.m_faceName;
m_encoding = data.m_encoding;
- m_noAA = data.m_noAA;
-
// Forces a copy of the internal data. wxNativeFontInfo should probably
// have a copy ctor and assignment operator to fix this properly but that
// would break binary compatibility...
{
wxString size;
if ( pointSize == -1 )
- size = _T('*');
+ size = wxT('*');
else
- size.Printf(_T("%d"), 10*pointSize);
+ size.Printf(wxT("%d"), 10*pointSize);
m_nativeFontInfo.SetXFontComponent(wxXLFD_POINTSIZE, size);
}
switch ( style )
{
case wxFONTSTYLE_ITALIC:
- slant = _T('i');
+ slant = wxT('i');
break;
case wxFONTSTYLE_SLANT:
- slant = _T('o');
+ slant = wxT('o');
break;
default:
- wxFAIL_MSG( _T("unknown font style") );
+ wxFAIL_MSG( wxT("unknown font style") );
// fall through
case wxFONTSTYLE_NORMAL:
- slant = _T('r');
+ slant = wxT('r');
}
m_nativeFontInfo.SetXFontComponent(wxXLFD_SLANT, slant);
switch ( weight )
{
case wxFONTWEIGHT_BOLD:
- boldness = _T("bold");
+ boldness = wxT("bold");
break;
case wxFONTWEIGHT_LIGHT:
- boldness = _T("light");
+ boldness = wxT("light");
break;
default:
- wxFAIL_MSG( _T("unknown font weight") );
+ wxFAIL_MSG( wxT("unknown font weight") );
// fall through
case wxFONTWEIGHT_NORMAL:
// unspecified
- boldness = _T("medium");
+ boldness = wxT("medium");
}
m_nativeFontInfo.SetXFontComponent(wxXLFD_WEIGHT, boldness);
return M_FONTDATA->m_encoding;
}
-bool wxFont::GetNoAntiAliasing() const
-{
- wxCHECK_MSG( Ok(), wxFONTENCODING_DEFAULT, wxT("invalid font") );
-
- return M_FONTDATA->m_noAA;
-}
-
const wxNativeFontInfo *wxFont::GetNativeFontInfo() const
{
wxCHECK_MSG( Ok(), NULL, wxT("invalid font") );
wxString spacing = M_FONTDATA->
m_nativeFontInfo.GetXFontComponent(wxXLFD_SPACING);
- return spacing.Upper() == _T('M');
+ return spacing.Upper() == wxT('M');
}
return wxFontBase::IsFixedWidth();
M_FONTDATA->SetNativeFontInfo( info );
}
-void wxFont::SetNoAntiAliasing( bool no )
-{
- Unshare();
-
- M_FONTDATA->SetNoAntiAliasing( no );
-}
-
// ----------------------------------------------------------------------------
// get internal representation of font
// ----------------------------------------------------------------------------
static GdkFont *g_systemDefaultGuiFont = NULL;
-// this is also used from tbargtk.cpp and tooltip.cpp, hence extern
+// this is also used from toolbar.cpp and tooltip.cpp, hence extern
extern GdkFont *GtkGetDefaultGuiFont()
{
if (!g_systemDefaultGuiFont)