bool wxMacCarbonPrintData::TransferFrom( const wxPrintData &data )
{
ValidateOrCreate() ;
PMSetCopies( (PMPrintSettings) m_macPrintSettings , data.GetNoCopies() , false ) ;
PMSetOrientation( (PMPageFormat) m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
// collate cannot be set
#if 0 // not yet tested
if ( m_printerName.Length() > 0 )
PMSessionSetCurrentPrinter( (PMPrintSession) m_macPrintSession , wxMacCFStringHolder( m_printerName , wxFont::GetDefaultEncoding() ) ) ;
#endif
PMColorMode color ;
PMGetColorMode( (PMPrintSettings) m_macPrintSettings, &color ) ;
if ( data.GetColour() )
{
if ( color == kPMBlackAndWhite )
PMSetColorMode( (PMPrintSettings) m_macPrintSettings, kPMColor ) ;
}
else
PMSetColorMode( (PMPrintSettings) m_macPrintSettings, kPMBlackAndWhite ) ;
// PMDuplexMode not yet accessible via API
// PMQualityMode not yet accessible via API
// todo paperSize
PMResolution res;
PMPrinter printer;
PMTag tag = kPMMaxSquareResolution;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
PMPrinterGetPrinterResolution(printer, tag, &res);
PMSetResolution((PMPageFormat) m_macPageFormat, &res);
return true ;
}
wxMacCarbonPrinterDC::wxMacCarbonPrinterDC( wxPrintData* data )
{
m_err = noErr ;
wxOSXPrintData *native = (wxOSXPrintData*) data->GetNativeData() ;
PMRect rPage;
m_err = PMGetAdjustedPageRect(native->GetPageFormat(), &rPage);
if ( m_err != noErr )
return;
m_maxX = wxCoord(rPage.right - rPage.left) ;
m_maxY = wxCoord(rPage.bottom - rPage.top);
PMResolution res;
PMPrinter printer;
m_err = PMSessionGetCurrentPrinter(native->GetPrintSession(), &printer);
if ( m_err == noErr )
{
m_err = PMPrinterGetOutputResolution( printer, native->GetPrintSettings(), &res) ;
if ( m_err == -9589 /* kPMKeyNotFound */ )
{
m_err = noErr ;
res.hRes = res.vRes = 300;
}
}
else
{
res.hRes = res.vRes = 300;
}
m_maxX = wxCoord((double)m_maxX * res.hRes / 72.0);
m_maxY = wxCoord((double)m_maxY * res.vRes / 72.0);
m_ppi = wxSize(int(res.hRes), int(res.vRes));
}
wxMacCarbonPrinterDC::wxMacCarbonPrinterDC( wxPrintData* data )
{
#if !wxMAC_USE_CORE_GRAPHICS
::GetPort( & m_macPrintFormerPort ) ;
#endif
m_err = noErr ;
wxMacCarbonPrintData *native = (wxMacCarbonPrintData*) data->GetNativeData() ;
PMRect rPage;
m_err = PMGetAdjustedPageRect(native->m_macPageFormat, &rPage);
if ( m_err != noErr )
return;
m_maxX = wxCoord(rPage.right - rPage.left) ;
m_maxY = wxCoord(rPage.bottom - rPage.top);
PMResolution res;
#if MAC_OS_X_VERSION_MIN_REQUIRED >= MAC_OS_X_VERSION_10_5
PMPrinter printer;
PMSessionGetCurrentPrinter(native->m_macPrintSession, &printer);
PMPrinterGetOutputResolution( printer, native->m_macPrintSettings, &res) ;
#else
m_err = PMGetResolution((PMPageFormat) (native->m_macPageFormat), &res);
#endif
m_ppi = wxSize(int(res.hRes), int(res.vRes));
}
void qprinterSize2CarbonSize(QPrinter::PageSize &size, PMPageFormat &format, PMPrintSession session)
{
if (size >= QPrinter::Custom)
return;
// Basically, get the supported pages supported by the printer and see what will work,
// Since we document undefined behavior when we don't specify anything, don't worry if we can't.
PaperSize newSize = sizes[size];
CFArrayRef formats;
PMPrinter printer;
if (PMSessionGetCurrentPrinter(session, &printer) == noErr
&& PMSessionCreatePageFormatList(session, printer, &formats) == noErr) {
CFIndex total = CFArrayGetCount(formats);
PMPageFormat tmp;
PMRect paper;
for (CFIndex idx = 0; idx < total; ++idx) {
tmp = (PMPageFormat)CFArrayGetValueAtIndex(formats, idx);
PMGetUnadjustedPaperRect(tmp, &paper);
int wMM = int((paper.right - paper.left) / 72 * 25.4 + 0.5);
int hMM = int((paper.bottom - paper.top) / 72 * 25.4 + 0.5);
if (newSize.w == wMM && newSize.h == hMM) {
PMCopyPageFormat(tmp, format);
break;
}
}
CFRelease(formats);
}
}
void wxOSXPrintData::TransferPaperInfoTo( wxPrintData &data )
{
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession, &printer );
OSStatus err = noErr ;
UInt32 copies ;
err = PMGetCopies( m_macPrintSettings , &copies ) ;
if ( err == noErr )
data.SetNoCopies( copies ) ;
PMOrientation orientation ;
err = PMGetOrientation( m_macPageFormat , &orientation ) ;
if ( err == noErr )
{
if ( orientation == kPMPortrait || orientation == kPMReversePortrait )
{
data.SetOrientation( wxPORTRAIT );
data.SetOrientationReversed( orientation == kPMReversePortrait );
}
else
{
data.SetOrientation( wxLANDSCAPE );
data.SetOrientationReversed( orientation == kPMReverseLandscape );
}
}
Boolean collate;
if (PMGetCollate(m_macPrintSettings, &collate) == noErr)
data.SetCollate(collate);
PMDuplexMode mode = 0 ;
PMGetDuplex( m_macPrintSettings, &mode ) ;
switch( mode )
{
case kPMDuplexNoTumble :
data.SetDuplex(wxDUPLEX_HORIZONTAL);
break ;
case kPMDuplexTumble :
data.SetDuplex(wxDUPLEX_VERTICAL);
break ;
case kPMDuplexNone :
default :
data.SetDuplex(wxDUPLEX_SIMPLEX);
break ;
}
double height, width;
PMPaperGetHeight(m_macPaper, &height);
PMPaperGetWidth(m_macPaper, &width);
wxSize sz((int)(width * pt2mm + 0.5 ) ,
(int)(height * pt2mm + 0.5 ));
data.SetPaperSize(sz);
wxPaperSize id = wxThePrintPaperDatabase->GetSize(wxSize(sz.x* 10, sz.y * 10));
if (id != wxPAPER_NONE)
{
data.SetPaperId(id);
}
}
void wxOSXPrintData::TransferResolutionFrom( const wxPrintData &data )
{
PMPrinter printer;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
UInt32 resCount;
PMResolution *resolutions = GetSupportedResolutions(printer, &resCount);
if (resolutions)
{
wxPrintQuality quality = data.GetQuality();
if (quality >= 0)
quality = wxPRINT_QUALITY_HIGH;
PMResolution res = resolutions[((quality - wxPRINT_QUALITY_DRAFT) * (resCount - 1)) / 3];
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5
if ( PMPrinterSetOutputResolution != NULL )
PMPrinterSetOutputResolution(printer, m_macPrintSettings, &res);
else
#endif
{
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
PMSetResolution( m_macPageFormat, &res);
#endif
}
free(resolutions);
}
}
void wxOSXPrintData::TransferResolutionTo( wxPrintData &data )
{
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession, &printer );
/* assume high quality, will change below if we are able to */
data.SetQuality(wxPRINT_QUALITY_HIGH);
PMResolution *resolutions;
UInt32 resCount;
resolutions = GetSupportedResolutions(printer, &resCount);
if (resolutions)
{
bool valid = false;
PMResolution res;
if ( PMPrinterGetOutputResolution(printer, m_macPrintSettings, &res) == noErr )
valid = true;
if ( valid )
{
UInt32 i;
for (i = 0; i < resCount; i++)
{
if ((resolutions[i].hRes == res.hRes) && (resolutions[i].vRes = res.vRes))
break;
}
if (i < resCount)
data.SetQuality((((i + 1) * 3) / resCount) + wxPRINT_QUALITY_DRAFT);
}
free(resolutions);
}
}
void QMacPrintEnginePrivate::setPaperSize(QPrinter::PaperSize ps)
{
Q_Q(QMacPrintEngine);
QSizeF newSize = qt_paperSizeToQSizeF(ps);
QCFType<CFArrayRef> formats;
PMPrinter printer;
if (PMSessionGetCurrentPrinter(session, &printer) == noErr
&& PMSessionCreatePageFormatList(session, printer, &formats) == noErr) {
CFIndex total = CFArrayGetCount(formats);
PMPageFormat tmp;
PMRect paper;
for (CFIndex idx = 0; idx < total; ++idx) {
tmp = static_cast<PMPageFormat>(
const_cast<void *>(CFArrayGetValueAtIndex(formats, idx)));
PMGetUnadjustedPaperRect(tmp, &paper);
int wMM = int((paper.right - paper.left) / 72 * 25.4 + 0.5);
int hMM = int((paper.bottom - paper.top) / 72 * 25.4 + 0.5);
if (newSize.width() == wMM && newSize.height() == hMM) {
PMCopyPageFormat(tmp, format);
// reset the orientation and resolution as they are lost in the copy.
q->setProperty(QPrintEngine::PPK_Orientation, orient);
if (PMSessionValidatePageFormat(session, format, kPMDontWantBoolean) != noErr) {
// Don't know, warn for the moment.
qWarning("QMacPrintEngine, problem setting format and resolution for this page size");
}
break;
}
}
}
}
bool wxMacCarbonPrinterDC::StartDoc( wxPrinterDC* dc , const wxString& message )
{
if ( m_err )
return false ;
wxPrinterDCImpl *impl = (wxPrinterDCImpl*) dc->GetImpl();
wxOSXPrintData *native = (wxOSXPrintData*) impl->GetPrintData().GetNativeData() ;
PMPrintSettingsSetJobName(native->GetPrintSettings(), wxCFStringRef(message));
m_err = PMSessionBeginCGDocumentNoDialog(native->GetPrintSession(),
native->GetPrintSettings(),
native->GetPageFormat());
if ( m_err != noErr )
return false;
PMRect rPage;
m_err = PMGetAdjustedPageRect(native->GetPageFormat(), &rPage);
if ( m_err != noErr )
return false ;
m_maxX = wxCoord(rPage.right - rPage.left) ;
m_maxY = wxCoord(rPage.bottom - rPage.top);
PMResolution res;
PMPrinter printer;
m_err = PMSessionGetCurrentPrinter(native->GetPrintSession(), &printer);
if (m_err == noErr)
{
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5
if ( PMPrinterGetOutputResolution != NULL )
{
m_err = PMPrinterGetOutputResolution( printer, native->GetPrintSettings(), &res) ;
if ( m_err == -9589 /* kPMKeyNotFound */ )
{
m_err = noErr ;
res.hRes = res.vRes = 300;
}
}
else
#endif
{
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
if ( PMPrinterGetPrinterResolution(printer, kPMCurrentValue, &res) != noErr )
{
res.hRes = res.vRes = 300;
}
#endif
}
}
m_maxX = wxCoord((double)m_maxX * res.hRes / 72.0);
m_maxY = wxCoord((double)m_maxY * res.vRes / 72.0);
m_ppi = wxSize(int(res.hRes), int(res.vRes));
return true ;
}
wxMacCarbonPrinterDC::wxMacCarbonPrinterDC( wxPrintData* data )
{
m_err = noErr ;
wxOSXPrintData *native = (wxOSXPrintData*) data->GetNativeData() ;
PMRect rPage;
m_err = PMGetAdjustedPageRect(native->GetPageFormat(), &rPage);
if ( m_err != noErr )
return;
m_maxX = wxCoord(rPage.right - rPage.left) ;
m_maxY = wxCoord(rPage.bottom - rPage.top);
PMResolution res;
PMPrinter printer;
m_err = PMSessionGetCurrentPrinter(native->GetPrintSession(), &printer);
if ( m_err == noErr )
{
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5
if ( PMPrinterGetOutputResolution != NULL )
{
{
m_err = PMPrinterGetOutputResolution( printer, native->GetPrintSettings(), &res) ;
if ( m_err == -9589 /* kPMKeyNotFound */ )
{
m_err = noErr ;
res.hRes = res.vRes = 300;
}
}
}
else
#endif
{
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
m_err = PMPrinterGetPrinterResolution(printer, kPMCurrentValue, &res);
if ( m_err != noErr )
{
m_err = PMGetResolution((PMPageFormat) (native->GetPageFormat()), &res);
}
#endif
}
}
else
{
res.hRes = res.vRes = 300;
}
m_maxX = wxCoord((double)m_maxX * res.hRes / 72.0);
m_maxY = wxCoord((double)m_maxY * res.vRes / 72.0);
m_ppi = wxSize(int(res.hRes), int(res.vRes));
}
void wxOSXPrintData::TransferPrinterNameTo( wxPrintData &data )
{
CFStringRef name;
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession, &printer );
if (PMPrinterIsDefault(printer))
data.SetPrinterName(wxEmptyString);
else
{
name = PMPrinterGetName(printer);
CFRetain(name);
data.SetPrinterName(wxCFStringRef(name).AsString());
}
}
bool wxMacCarbonPrintData::TransferTo( wxPrintData &data )
{
OSStatus err = noErr ;
UInt32 copies ;
err = PMGetCopies( m_macPrintSettings , &copies ) ;
if ( err == noErr )
data.SetNoCopies( copies ) ;
PMOrientation orientation ;
err = PMGetOrientation( m_macPageFormat , &orientation ) ;
if ( err == noErr )
{
if ( orientation == kPMPortrait || orientation == kPMReversePortrait )
data.SetOrientation( wxPORTRAIT );
else
data.SetOrientation( wxLANDSCAPE );
}
// collate cannot be set
#if 0
{
wxMacCFStringHolder name ;
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession ,
&printer ) ;
m_printerName = name.AsString() ;
}
#endif
PMColorMode color ;
err = PMGetColorMode( m_macPrintSettings, &color ) ;
if ( err == noErr )
data.SetColour( !(color == kPMBlackAndWhite) ) ;
// PMDuplexMode not yet accessible via API
// PMQualityMode not yet accessible via API
// todo paperSize
PMRect rPaper;
err = PMGetUnadjustedPaperRect( m_macPageFormat, &rPaper);
if ( err == noErr )
{
data.SetPaperSize( wxSize (
(int)(( rPaper.right - rPaper.left ) * pt2mm + 0.5 ) ,
(int)(( rPaper.bottom - rPaper.top ) * pt2mm + 0.5 ) ) );
}
return true ;
}
bool wxMacCarbonPrinterDC::StartDoc( wxPrinterDC* dc , const wxString& WXUNUSED(message) )
{
if ( m_err )
return false ;
wxMacCarbonPrintData *native = (wxMacCarbonPrintData*) dc->GetPrintData().GetNativeData() ;
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_4 && wxMAC_USE_CORE_GRAPHICS
{
CFStringRef s[1] = { kPMGraphicsContextCoreGraphics };
CFArrayRef graphicsContextsArray = CFArrayCreate(NULL, (const void**)s, 1, &kCFTypeArrayCallBacks);
PMSessionSetDocumentFormatGeneration(native->m_macPrintSession, kPMDocumentFormatPDF, graphicsContextsArray, NULL);
CFRelease(graphicsContextsArray);
}
#endif
#if MAC_OS_X_VERSION_MIN_REQUIRED >= MAC_OS_X_VERSION_10_4 && wxMAC_USE_CORE_GRAPHICS
m_err = PMSessionBeginCGDocument(native->m_macPrintSession,
native->m_macPrintSettings,
native->m_macPageFormat);
#else
m_err = PMSessionBeginDocument(native->m_macPrintSession,
native->m_macPrintSettings,
native->m_macPageFormat);
#endif
if ( m_err != noErr )
return false;
PMRect rPage;
m_err = PMGetAdjustedPageRect(native->m_macPageFormat, &rPage);
if ( m_err != noErr )
return false ;
m_maxX = wxCoord(rPage.right - rPage.left) ;
m_maxY = wxCoord(rPage.bottom - rPage.top);
PMResolution res;
#if MAC_OS_X_VERSION_MIN_REQUIRED >= MAC_OS_X_VERSION_10_5
PMPrinter printer;
PMSessionGetCurrentPrinter(native->m_macPrintSession, &printer);
PMPrinterGetOutputResolution( printer, native->m_macPrintSettings, &res) ;
#else
m_err = PMGetResolution((PMPageFormat) (native->m_macPageFormat), &res);
#endif
m_ppi = wxSize(int(res.hRes), int(res.vRes));
return true ;
}
void wxOSXPrintData::TransferResolutionFrom( const wxPrintData &data )
{
PMPrinter printer;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
UInt32 resCount;
PMResolution *resolutions = GetSupportedResolutions(printer, &resCount);
if (resolutions)
{
wxPrintQuality quality = data.GetQuality();
if (quality >= 0)
quality = wxPRINT_QUALITY_HIGH;
PMResolution res = resolutions[((quality - wxPRINT_QUALITY_DRAFT) * (resCount - 1)) / 3];
PMPrinterSetOutputResolution(printer, m_macPrintSettings, &res);
free(resolutions);
}
}
QList<QVariant> QMacPrintEnginePrivate::supportedResolutions() const
{
Q_ASSERT_X(session, "QMacPrinterEngine::supportedResolutions",
"must have a valid printer session");
UInt32 resCount;
QList<QVariant> resolutions;
PMPrinter printer;
if (PMSessionGetCurrentPrinter(session, &printer) == noErr) {
PMResolution res;
OSStatus status = PMPrinterGetPrinterResolutionCount(printer, &resCount);
if (status == kPMNotImplemented) {
#if (MAC_OS_X_VERSION_MAX_ALLOWED < MAC_OS_X_VERSION_10_5)
// *Sigh* we have to use the non-indexed version.
if (PMPrinterGetPrinterResolution(printer, kPMMinSquareResolution, &res) == noErr)
resolutions.append(int(res.hRes));
if (PMPrinterGetPrinterResolution(printer, kPMMaxSquareResolution, &res) == noErr) {
QVariant var(int(res.hRes));
if (!resolutions.contains(var))
resolutions.append(var);
}
if (PMPrinterGetPrinterResolution(printer, kPMDefaultResolution, &res) == noErr) {
QVariant var(int(res.hRes));
if (!resolutions.contains(var))
resolutions.append(var);
}
#endif
} else if (status == noErr) {
// According to the docs, index start at 1.
for (UInt32 i = 1; i <= resCount; ++i) {
if (PMPrinterGetIndexedPrinterResolution(printer, i, &res) == noErr)
resolutions.append(QVariant(int(res.hRes)));
}
} else {
qWarning("QMacPrintEngine::supportedResolutions: Unexpected error: %ld", status);
}
}
return resolutions;
}
bool wxMacPrinter::Print(wxWindow *parent, wxPrintout *printout, bool prompt)
{
sm_abortIt = false;
sm_abortWindow = NULL;
if (!printout)
{
sm_lastError = wxPRINTER_ERROR;
return false;
}
if (m_printDialogData.GetMinPage() < 1)
m_printDialogData.SetMinPage(1);
if (m_printDialogData.GetMaxPage() < 1)
m_printDialogData.SetMaxPage(9999);
// Create a suitable device context
wxPrinterDC *dc = NULL;
if (prompt)
{
wxMacPrintDialog dialog(parent, & m_printDialogData);
if (dialog.ShowModal() == wxID_OK)
{
dc = wxDynamicCast(dialog.GetPrintDC(), wxPrinterDC);
wxASSERT(dc);
m_printDialogData = dialog.GetPrintDialogData();
}
}
else
{
dc = new wxPrinterDC( m_printDialogData.GetPrintData() ) ;
}
// May have pressed cancel.
if (!dc || !dc->IsOk())
{
delete dc;
return false;
}
PMResolution res;
PMPrinter printer;
wxOSXPrintData* nativeData = (wxOSXPrintData*)
(m_printDialogData.GetPrintData().GetNativeData());
if (PMSessionGetCurrentPrinter(nativeData->GetPrintSession(), &printer) == noErr)
{
if (PMPrinterGetOutputResolution( printer, nativeData->GetPrintSettings(), &res) == -9589 /* kPMKeyNotFound */ )
{
res.hRes = res.vRes = 300;
}
}
else
{
// fallback
res.hRes = res.vRes = 300;
}
printout->SetPPIPrinter(int(res.hRes), int(res.vRes));
// Set printout parameters
printout->SetUp(*dc);
// Create an abort window
wxBeginBusyCursor();
printout->OnPreparePrinting();
// Get some parameters from the printout, if defined
int fromPage, toPage;
int minPage, maxPage;
printout->GetPageInfo(&minPage, &maxPage, &fromPage, &toPage);
if (maxPage == 0)
{
sm_lastError = wxPRINTER_ERROR;
return false;
}
// Only set min and max, because from and to will be
// set by the user if prompted for the print dialog above
m_printDialogData.SetMinPage(minPage);
m_printDialogData.SetMaxPage(maxPage);
// Set from and to pages if bypassing the print dialog
if ( !prompt )
{
m_printDialogData.SetFromPage(fromPage);
if( m_printDialogData.GetAllPages() )
m_printDialogData.SetToPage(maxPage);
else
m_printDialogData.SetToPage(toPage);
}
printout->OnBeginPrinting();
bool keepGoing = true;
if (!printout->OnBeginDocument(m_printDialogData.GetFromPage(), m_printDialogData.GetToPage()))
{
wxEndBusyCursor();
wxMessageBox(wxT("Could not start printing."), wxT("Print Error"), wxOK, parent);
}
int pn;
for (pn = m_printDialogData.GetFromPage();
keepGoing && (pn <= m_printDialogData.GetToPage()) && printout->HasPage(pn);
pn++)
{
if (sm_abortIt)
{
break;
}
else
{
dc->StartPage();
keepGoing = printout->OnPrintPage(pn);
dc->EndPage();
}
}
printout->OnEndDocument();
printout->OnEndPrinting();
if (sm_abortWindow)
{
sm_abortWindow->Show(false);
wxDELETE(sm_abortWindow);
}
wxEndBusyCursor();
delete dc;
return true;
}
int QMacPrintEngine::metric(QPaintDevice::PaintDeviceMetric m) const
{
Q_D(const QMacPrintEngine);
int val = 1;
switch (m) {
case QPaintDevice::PdmWidth:
if (d->hasCustomPaperSize) {
val = qRound(d->customSize.width());
if (d->hasCustomPageMargins) {
val -= qRound(d->leftMargin + d->rightMargin);
} else {
QList<QVariant> margins = property(QPrintEngine::PPK_PageMargins).toList();
val -= qRound(margins.at(0).toDouble() + margins.at(2).toDouble());
}
} else {
val = qt_get_PDMWidth(d->format, property(PPK_FullPage).toBool(), d->resolution);
}
break;
case QPaintDevice::PdmHeight:
if (d->hasCustomPaperSize) {
val = qRound(d->customSize.height());
if (d->hasCustomPageMargins) {
val -= qRound(d->topMargin + d->bottomMargin);
} else {
QList<QVariant> margins = property(QPrintEngine::PPK_PageMargins).toList();
val -= qRound(margins.at(1).toDouble() + margins.at(3).toDouble());
}
} else {
val = qt_get_PDMHeight(d->format, property(PPK_FullPage).toBool(), d->resolution);
}
break;
case QPaintDevice::PdmWidthMM:
val = metric(QPaintDevice::PdmWidth);
val = int((val * 254 + 5 * d->resolution.hRes) / (10 * d->resolution.hRes));
break;
case QPaintDevice::PdmHeightMM:
val = metric(QPaintDevice::PdmHeight);
val = int((val * 254 + 5 * d->resolution.vRes) / (10 * d->resolution.vRes));
break;
case QPaintDevice::PdmPhysicalDpiX:
case QPaintDevice::PdmPhysicalDpiY: {
PMPrinter printer;
if(PMSessionGetCurrentPrinter(d->session, &printer) == noErr) {
PMResolution resolution;
#if (MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5)
if (QSysInfo::MacintoshVersion >= QSysInfo::MV_10_5) {
PMPrinterGetOutputResolution(printer, d->settings, &resolution);
} else
#endif
{
#ifndef Q_OS_MAC64
PMPrinterGetPrinterResolution(printer, kPMCurrentValue, &resolution);
#endif
}
val = (int)resolution.vRes;
break;
}
//otherwise fall through
}
case QPaintDevice::PdmDpiY:
val = (int)d->resolution.vRes;
break;
case QPaintDevice::PdmDpiX:
val = (int)d->resolution.hRes;
break;
case QPaintDevice::PdmNumColors:
val = (1 << metric(QPaintDevice::PdmDepth));
break;
case QPaintDevice::PdmDepth:
val = 24;
break;
default:
val = 0;
qWarning("QPrinter::metric: Invalid metric command");
}
return val;
}
bool wxMacPrinter::Print(wxWindow *parent, wxPrintout *printout, bool prompt)
{
sm_abortIt = false;
sm_abortWindow = NULL;
if (!printout)
{
sm_lastError = wxPRINTER_ERROR;
return false;
}
if (m_printDialogData.GetMinPage() < 1)
m_printDialogData.SetMinPage(1);
if (m_printDialogData.GetMaxPage() < 1)
m_printDialogData.SetMaxPage(9999);
// Create a suitable device context
wxPrinterDC *dc = NULL;
if (prompt)
{
wxMacPrintDialog dialog(parent, & m_printDialogData);
if (dialog.ShowModal() == wxID_OK)
{
dc = wxDynamicCast(dialog.GetPrintDC(), wxPrinterDC);
wxASSERT(dc);
m_printDialogData = dialog.GetPrintDialogData();
}
}
else
{
dc = new wxPrinterDC( m_printDialogData.GetPrintData() ) ;
}
// May have pressed cancel.
if (!dc || !dc->IsOk())
{
delete dc;
return false;
}
// on the mac we have always pixels as addressing mode with 72 dpi
printout->SetPPIScreen(72, 72);
PMResolution res;
PMPrinter printer;
wxOSXPrintData* nativeData = (wxOSXPrintData*)
(m_printDialogData.GetPrintData().GetNativeData());
if (PMSessionGetCurrentPrinter(nativeData->GetPrintSession(), &printer) == noErr)
{
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5
if ( PMPrinterGetOutputResolution != NULL )
{
if (PMPrinterGetOutputResolution( printer, nativeData->GetPrintSettings(), &res) == -9589 /* kPMKeyNotFound */ )
{
res.hRes = res.vRes = 300;
}
}
else
#endif
{
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
PMPrinterGetPrinterResolution(printer, kPMCurrentValue, &res);
#endif
}
}
printout->SetPPIPrinter(int(res.hRes), int(res.vRes));
// Set printout parameters
printout->SetDC(dc);
int w, h;
dc->GetSize(&w, &h);
printout->SetPageSizePixels((int)w, (int)h);
printout->SetPaperRectPixels(dc->GetPaperRect());
wxCoord mw, mh;
dc->GetSizeMM(&mw, &mh);
printout->SetPageSizeMM((int)mw, (int)mh);
// Create an abort window
wxBeginBusyCursor();
printout->OnPreparePrinting();
// Get some parameters from the printout, if defined
int fromPage, toPage;
int minPage, maxPage;
printout->GetPageInfo(&minPage, &maxPage, &fromPage, &toPage);
if (maxPage == 0)
{
sm_lastError = wxPRINTER_ERROR;
return false;
}
// Only set min and max, because from and to will be
// set by the user
m_printDialogData.SetMinPage(minPage);
m_printDialogData.SetMaxPage(maxPage);
printout->OnBeginPrinting();
bool keepGoing = true;
if (!printout->OnBeginDocument(m_printDialogData.GetFromPage(), m_printDialogData.GetToPage()))
{
wxEndBusyCursor();
wxMessageBox(wxT("Could not start printing."), wxT("Print Error"), wxOK, parent);
}
int pn;
for (pn = m_printDialogData.GetFromPage();
keepGoing && (pn <= m_printDialogData.GetToPage()) && printout->HasPage(pn);
pn++)
{
if (sm_abortIt)
{
break;
}
else
{
dc->StartPage();
keepGoing = printout->OnPrintPage(pn);
dc->EndPage();
}
}
printout->OnEndDocument();
printout->OnEndPrinting();
if (sm_abortWindow)
{
sm_abortWindow->Show(false);
wxDELETE(sm_abortWindow);
}
wxEndBusyCursor();
delete dc;
return true;
}
void wxOSXPrintData::TransferPaperInfoFrom( const wxPrintData &data )
{
PMPrinter printer;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
wxSize papersize = wxDefaultSize;
const wxPaperSize paperId = data.GetPaperId();
if ( paperId != wxPAPER_NONE && wxThePrintPaperDatabase )
{
papersize = wxThePrintPaperDatabase->GetSize(paperId);
if ( papersize != wxDefaultSize )
{
papersize.x /= 10;
papersize.y /= 10;
}
}
else
{
papersize = data.GetPaperSize();
}
if ( papersize != wxDefaultSize )
{
papersize.x = (wxInt32) (papersize.x * mm2pt);
papersize.y = (wxInt32) (papersize.y * mm2pt);
double height, width;
PMPaperGetHeight(m_macPaper, &height);
PMPaperGetWidth(m_macPaper, &width);
if ( fabs( width - papersize.x ) >= 5 ||
fabs( height - papersize.y ) >= 5 )
{
// we have to change the current paper
CFArrayRef paperlist = 0 ;
if ( PMPrinterGetPaperList( printer, &paperlist ) == noErr )
{
PMPaper bestPaper = kPMNoData ;
CFIndex top = CFArrayGetCount(paperlist);
for ( CFIndex i = 0 ; i < top ; ++ i )
{
PMPaper paper = (PMPaper) CFArrayGetValueAtIndex( paperlist, i );
PMPaperGetHeight(paper, &height);
PMPaperGetWidth(paper, &width);
if ( fabs( width - papersize.x ) < 5 &&
fabs( height - papersize.y ) < 5 )
{
// TODO test for duplicate hits and use additional
// criteria for best match
bestPaper = paper;
}
}
PMPaper paper = kPMNoData;
if ( bestPaper == kPMNoData )
{
const PMPaperMargins margins = { 0.0, 0.0, 0.0, 0.0 };
wxString id, name(wxT("Custom paper"));
id.Printf(wxT("wxPaperCustom%dx%d"), papersize.x, papersize.y);
if ( PMPaperCreateCustom
(
printer,
wxCFStringRef(id, wxFont::GetDefaultEncoding()),
wxCFStringRef(name, wxFont::GetDefaultEncoding()),
papersize.x, papersize.y,
&margins,
&paper
) )
{
bestPaper = paper;
}
}
if ( bestPaper != kPMNoData )
{
PMPageFormat pageFormat;
PMCreatePageFormatWithPMPaper(&pageFormat, bestPaper);
PMCopyPageFormat( pageFormat, m_macPageFormat );
PMRelease(pageFormat);
PMGetPageFormatPaper(m_macPageFormat, &m_macPaper);
}
PMRelease(paper);
}
}
}
PMSetCopies( m_macPrintSettings , data.GetNoCopies() , false ) ;
PMSetCollate(m_macPrintSettings, data.GetCollate());
if ( data.IsOrientationReversed() )
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMReverseLandscape : kPMReversePortrait , false ) ;
else
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
PMDuplexMode mode = 0 ;
switch( data.GetDuplex() )
{
case wxDUPLEX_HORIZONTAL :
mode = kPMDuplexNoTumble ;
break ;
case wxDUPLEX_VERTICAL :
mode = kPMDuplexTumble ;
break ;
case wxDUPLEX_SIMPLEX :
default :
mode = kPMDuplexNone ;
break ;
}
PMSetDuplex( m_macPrintSettings, mode ) ;
if ( data.IsOrientationReversed() )
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMReverseLandscape : kPMReversePortrait , false ) ;
else
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
}
void QMacPrintEngine::setProperty(PrintEnginePropertyKey key, const QVariant &value)
{
Q_D(QMacPrintEngine);
d->valueCache.insert(key, value);
if (!d->session)
return;
switch (key) {
case PPK_CollateCopies:
break;
case PPK_ColorMode:
break;
case PPK_Creator:
break;
case PPK_DocumentName:
break;
case PPK_PageOrder:
break;
case PPK_PaperSource:
break;
case PPK_SelectionOption:
break;
case PPK_Resolution: {
PMPrinter printer;
UInt32 count;
if (PMSessionGetCurrentPrinter(d->session, &printer) != noErr)
break;
if (PMPrinterGetPrinterResolutionCount(printer, &count) != noErr)
break;
PMResolution resolution = { 0.0, 0.0 };
PMResolution bestResolution = { 0.0, 0.0 };
int dpi = value.toInt();
int bestDistance = INT_MAX;
for (UInt32 i = 1; i <= count; ++i) { // Yes, it starts at 1
if (PMPrinterGetIndexedPrinterResolution(printer, i, &resolution) == noErr) {
if (dpi == int(resolution.hRes)) {
bestResolution = resolution;
break;
} else {
int distance = qAbs(dpi - int(resolution.hRes));
if (distance < bestDistance) {
bestDistance = distance;
bestResolution = resolution;
}
}
}
}
PMSessionValidatePageFormat(d->session, d->format, kPMDontWantBoolean);
break;
}
case PPK_FullPage:
d->fullPage = value.toBool();
break;
case PPK_NumberOfCopies:
PMSetCopies(d->settings, value.toInt(), false);
break;
case PPK_Orientation: {
if (d->state == QPrinter::Active) {
qWarning("QMacPrintEngine::setOrientation: Orientation cannot be changed during a print job, ignoring change");
} else {
QPrinter::Orientation newOrientation = QPrinter::Orientation(value.toInt());
if (d->hasCustomPaperSize && (d->orient != newOrientation))
d->customSize = QSizeF(d->customSize.height(), d->customSize.width());
d->orient = newOrientation;
PMOrientation o = d->orient == QPrinter::Portrait ? kPMPortrait : kPMLandscape;
PMSetOrientation(d->format, o, false);
PMSessionValidatePageFormat(d->session, d->format, kPMDontWantBoolean);
}
break; }
case PPK_OutputFileName:
d->outputFilename = value.toString();
break;
case PPK_PaperSize:
d->setPaperSize(QPrinter::PaperSize(value.toInt()));
break;
case PPK_PrinterName: {
OSStatus status = noErr;
QCFType<CFArrayRef> printerList;
status = PMServerCreatePrinterList(kPMServerLocal, &printerList);
if (status == noErr) {
CFIndex count = CFArrayGetCount(printerList);
for (CFIndex i=0; i<count; ++i) {
PMPrinter printer = static_cast<PMPrinter>(const_cast<void *>(CFArrayGetValueAtIndex(printerList, i)));
QString name = QCFString::toQString(PMPrinterGetName(printer));
if (name == value.toString()) {
status = PMSessionSetCurrentPMPrinter(d->session, printer);
break;
}
}
}
if (status != noErr)
qWarning("QMacPrintEngine::setPrinterName: Error setting printer: %ld", long(status));
break; }
case PPK_SuppressSystemPrintStatus:
d->suppressStatus = value.toBool();
break;
case PPK_CustomPaperSize:
{
PMOrientation orientation;
PMGetOrientation(d->format, &orientation);
d->hasCustomPaperSize = true;
d->customSize = value.toSizeF();
if (orientation != kPMPortrait)
d->customSize = QSizeF(d->customSize.height(), d->customSize.width());
break;
}
case PPK_PageMargins:
{
QList<QVariant> margins(value.toList());
Q_ASSERT(margins.size() == 4);
d->leftMargin = margins.at(0).toDouble();
d->topMargin = margins.at(1).toDouble();
d->rightMargin = margins.at(2).toDouble();
d->bottomMargin = margins.at(3).toDouble();
d->hasCustomPageMargins = true;
break;
}
default:
break;
}
}
void QMacPrintEnginePrivate::initialize()
{
Q_ASSERT(!session);
Q_Q(QMacPrintEngine);
if (!paintEngine)
paintEngine = new QCoreGraphicsPaintEngine();
q->gccaps = paintEngine->gccaps;
fullPage = false;
if (PMCreateSession(&session) != noErr)
session = 0;
PMPrinter printer;
if (session && PMSessionGetCurrentPrinter(session, &printer) == noErr) {
QList<QVariant> resolutions = supportedResolutions();
if (!resolutions.isEmpty() && mode != QPrinter::ScreenResolution) {
if (resolutions.count() > 1 && mode == QPrinter::HighResolution) {
int max = 0;
for (int i = 0; i < resolutions.count(); ++i) {
int value = resolutions.at(i).toInt();
if (value > max)
max = value;
}
resolution.hRes = resolution.vRes = max;
} else {
resolution.hRes = resolution.vRes = resolutions.at(0).toInt();
}
if(resolution.hRes == 0)
resolution.hRes = resolution.vRes = 600;
} else {
resolution.hRes = resolution.vRes = qt_defaultDpi();
}
}
bool settingsInitialized = (settings != 0);
bool settingsOK = !settingsInitialized ? PMCreatePrintSettings(&settings) == noErr : true;
if (settingsOK && !settingsInitialized)
settingsOK = PMSessionDefaultPrintSettings(session, settings) == noErr;
bool formatInitialized = (format != 0);
bool formatOK = !formatInitialized ? PMCreatePageFormat(&format) == noErr : true;
if (formatOK) {
if (!formatInitialized) {
formatOK = PMSessionDefaultPageFormat(session, format) == noErr;
}
formatOK = PMSessionValidatePageFormat(session, format, kPMDontWantBoolean) == noErr;
}
#ifndef Q_OS_MAC64
# if (MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_4)
if (QSysInfo::MacintoshVersion < QSysInfo::MV_10_4)
# endif
{
if(paintEngine->type() == QPaintEngine::CoreGraphics) {
CFStringRef strings[1] = { kPMGraphicsContextCoreGraphics };
QCFType<CFArrayRef> contextArray = CFArrayCreate(kCFAllocatorDefault,
reinterpret_cast<const void **>(strings),
1, &kCFTypeArrayCallBacks);
OSStatus err = PMSessionSetDocumentFormatGeneration(session, kPMDocumentFormatPDF,
contextArray, 0);
if(err != noErr) {
qWarning("QMacPrintEngine::initialize: Cannot set format generation to PDF: %ld", err);
state = QPrinter::Error;
}
}
}
#endif
if (!settingsOK || !formatOK) {
qWarning("QMacPrintEngine::initialize: Unable to initialize QPainter");
state = QPrinter::Error;
}
QHash<QMacPrintEngine::PrintEnginePropertyKey, QVariant>::const_iterator propC;
for (propC = valueCache.constBegin(); propC != valueCache.constEnd(); propC++) {
q->setProperty(propC.key(), propC.value());
}
}
QPrinter::QPrinter(PrinterMode m) : QPaintDevice(QInternal::Printer | QInternal::ExternalDevice)
{
d = new QPrinterPrivate;
if (PMCreateSession(&psession) != noErr)
psession = NULL;
switch (m) {
case Compatible:
devFlags |= QInternal::CompatibilityMode;
// fall through
case PrinterResolution:
case HighResolution: {
bool found = FALSE;
PMPrinter printer = 0;
if (psession && PMSessionGetCurrentPrinter(psession, &printer) == noErr) {
PMResolution pres;
UInt32 count = 0, maxRes = 0;
if (PMPrinterGetPrinterResolutionCount(printer, &count) == noErr && count)
for (; count > 0; --count)
if (PMPrinterGetIndexedPrinterResolution(printer, count, &pres) == noErr) {
found = TRUE;
maxRes = QMAX((uint)pres.vRes, maxRes);
res = maxRes;
}
}
if (!found)
res = 600; //just to have something
break;
}
case ScreenResolution: {
short vr, hr;
ScreenRes(&hr, &vr);
res = vr;
break;
}
}
if (PMCreatePageFormat(&pformat) == noErr &&
PMSessionDefaultPageFormat(psession, pformat) == noErr)
page_size = carbonSize2QPrinterSize(pformat);
else
page_size = A4;
//other
orient = Portrait;
page_order = FirstPageFirst;
paper_source = OnlyOne;
color_mode = GrayScale;
ncopies = 1;
from_pg = to_pg = min_pg = max_pg = 0;
state = PST_IDLE;
output_file = FALSE;
to_edge = FALSE;
//mac specific
pformat = kPMNoPageFormat;
psettings = kPMNoPrintSettings;
prepare(&pformat);
prepare(&psettings);
interpret(&pformat);
interpret(&psettings);
d->printerOptions = 0;
setPrintRange(AllPages);
}
int QPrinter::metric(int m) const
{
int val = 1;
switch (m) {
case QPaintDeviceMetrics::PdmWidth: {
bool orientInSync = true;
PMOrientation o;
QPrinter::Orientation tmpOrient = orientation();
if (PMGetOrientation(pformat, &o) == noErr) {
orientInSync = ((o == kPMPortrait && tmpOrient == Portrait)
|| o == kPMLandscape && tmpOrient == Landscape);
}
PageSize s = pageSize();
if (s >= QPrinter::Custom) {
val = tmpOrient == Portrait ? customPaperSize_.width() : customPaperSize_.height();
} else {
if (state == PST_ACTIVE || (tmpOrient == Portrait || orientInSync)) {
val = qt_get_PDMWidth(pformat, fullPage());
} else {
val = qt_get_PDMHeight(pformat, fullPage());
}
}
break;
}
case QPaintDeviceMetrics::PdmHeight: {
bool orientInSync = true;
PMOrientation o;
QPrinter::Orientation tmpOrient = orientation();
if (PMGetOrientation(pformat, &o) == noErr) {
orientInSync = ((o == kPMPortrait && tmpOrient == Portrait)
|| o == kPMLandscape && tmpOrient == Landscape);
}
PageSize s = pageSize();
if (s >= QPrinter::Custom) {
val = tmpOrient == Portrait ? customPaperSize_.height() : customPaperSize_.width();
} else {
if (state == PST_ACTIVE || (tmpOrient == Portrait || orientInSync)) {
val = qt_get_PDMHeight(pformat, fullPage());
} else {
val = qt_get_PDMWidth(pformat, fullPage());
}
}
break;
}
// We don't have to worry about the printer state here as metric() does that for us.
case QPaintDeviceMetrics::PdmWidthMM:
val = metric(QPaintDeviceMetrics::PdmWidth);
val = (val * 254 + 5 * res) / (10 * res);
break;
case QPaintDeviceMetrics::PdmHeightMM:
val = metric(QPaintDeviceMetrics::PdmHeight);
val = (val * 254 + 5 * res) / (10 * res);
break;
case QPaintDeviceMetrics::PdmPhysicalDpiX:
case QPaintDeviceMetrics::PdmPhysicalDpiY: {
PMPrinter printer;
if (PMSessionGetCurrentPrinter(psession, &printer) == noErr) {
PMResolution resolution;
PMPrinterGetPrinterResolution(printer, kPMCurrentValue, &resolution);
val = (int)resolution.vRes;
break;
}
//otherwise fall through
}
case QPaintDeviceMetrics::PdmDpiY:
case QPaintDeviceMetrics::PdmDpiX:
val = res;
break;
case QPaintDeviceMetrics::PdmNumColors:
val = (1 << metric(QPaintDeviceMetrics::PdmDepth));
break;
case QPaintDeviceMetrics::PdmDepth:
val = 24;
break;
default:
val = 0;
#if defined(QT_CHECK_RANGE)
qWarning("Qt: QPixmap::metric: Invalid metric command");
#endif
}
return val;
}
bool wxOSXPrintData::TransferTo( wxPrintData &data )
{
OSStatus err = noErr ;
#if wxOSX_USE_COCOA
UpdateToPMState();
#endif
UInt32 copies ;
err = PMGetCopies( m_macPrintSettings , &copies ) ;
if ( err == noErr )
data.SetNoCopies( copies ) ;
PMOrientation orientation ;
err = PMGetOrientation( m_macPageFormat , &orientation ) ;
if ( err == noErr )
{
if ( orientation == kPMPortrait || orientation == kPMReversePortrait )
{
data.SetOrientation( wxPORTRAIT );
data.SetOrientationReversed( orientation == kPMReversePortrait );
}
else
{
data.SetOrientation( wxLANDSCAPE );
data.SetOrientationReversed( orientation == kPMReverseLandscape );
}
}
Boolean collate;
if (PMGetCollate(m_macPrintSettings, &collate) == noErr)
data.SetCollate(collate);
CFStringRef name;
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession, &printer );
if (PMPrinterIsDefault(printer))
data.SetPrinterName(wxEmptyString);
else
{
name = PMPrinterGetName(printer);
CFRetain(name);
data.SetPrinterName(wxCFStringRef(name).AsString());
}
PMDuplexMode mode = 0 ;
PMGetDuplex( m_macPrintSettings, &mode ) ;
switch( mode )
{
case kPMDuplexNoTumble :
data.SetDuplex(wxDUPLEX_HORIZONTAL);
break ;
case kPMDuplexTumble :
data.SetDuplex(wxDUPLEX_VERTICAL);
break ;
case kPMDuplexNone :
default :
data.SetDuplex(wxDUPLEX_SIMPLEX);
break ;
}
// PMQualityMode not yet accessible via API
double height, width;
PMPaperGetHeight(m_macPaper, &height);
PMPaperGetWidth(m_macPaper, &width);
wxSize sz((int)(width * pt2mm + 0.5 ) ,
(int)(height * pt2mm + 0.5 ));
data.SetPaperSize(sz);
wxPaperSize id = wxThePrintPaperDatabase->GetSize(wxSize(sz.x* 10, sz.y * 10));
if (id != wxPAPER_NONE)
{
data.SetPaperId(id);
}
return true ;
}
bool wxOSXPrintData::TransferFrom( const wxPrintData &data )
{
PMPrinter printer;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
wxSize papersize = wxDefaultSize;
const wxPaperSize paperId = data.GetPaperId();
if ( paperId != wxPAPER_NONE && wxThePrintPaperDatabase )
{
papersize = wxThePrintPaperDatabase->GetSize(paperId);
if ( papersize != wxDefaultSize )
{
papersize.x /= 10;
papersize.y /= 10;
}
}
else
{
papersize = data.GetPaperSize();
}
if ( papersize != wxDefaultSize )
{
papersize.x = (wxInt32) (papersize.x * mm2pt);
papersize.y = (wxInt32) (papersize.y * mm2pt);
double height, width;
PMPaperGetHeight(m_macPaper, &height);
PMPaperGetWidth(m_macPaper, &width);
if ( fabs( width - papersize.x ) >= 5 ||
fabs( height - papersize.y ) >= 5 )
{
// we have to change the current paper
CFArrayRef paperlist = 0 ;
if ( PMPrinterGetPaperList( printer, &paperlist ) == noErr )
{
PMPaper bestPaper = kPMNoData ;
CFIndex top = CFArrayGetCount(paperlist);
for ( CFIndex i = 0 ; i < top ; ++ i )
{
PMPaper paper = (PMPaper) CFArrayGetValueAtIndex( paperlist, i );
PMPaperGetHeight(paper, &height);
PMPaperGetWidth(paper, &width);
if ( fabs( width - papersize.x ) < 5 &&
fabs( height - papersize.y ) < 5 )
{
// TODO test for duplicate hits and use additional
// criteria for best match
bestPaper = paper;
}
}
PMPaper paper = kPMNoData;
if ( bestPaper == kPMNoData )
{
const PMPaperMargins margins = { 0.0, 0.0, 0.0, 0.0 };
wxString id, name(_T("Custom paper"));
id.Printf(_T("wxPaperCustom%dx%d"), papersize.x, papersize.y);
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_5
if ( PMPaperCreateCustom != NULL)
{
PMPaperCreateCustom(printer, wxCFStringRef( id, wxFont::GetDefaultEncoding() ), wxCFStringRef( name, wxFont::GetDefaultEncoding() ),
papersize.x, papersize.y, &margins, &paper);
}
#endif
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
if ( paper == kPMNoData )
{
PMPaperCreate(printer, wxCFStringRef( id, wxFont::GetDefaultEncoding() ), wxCFStringRef( name, wxFont::GetDefaultEncoding() ),
papersize.x, papersize.y, &margins, &paper);
}
#endif
}
if ( bestPaper != kPMNoData )
{
PMPageFormat pageFormat;
PMCreatePageFormatWithPMPaper(&pageFormat, bestPaper);
PMCopyPageFormat( pageFormat, m_macPageFormat );
PMRelease(pageFormat);
PMGetPageFormatPaper(m_macPageFormat, &m_macPaper);
}
PMRelease(paper);
}
}
}
CFArrayRef printerList;
CFIndex index, count;
CFStringRef name;
if (PMServerCreatePrinterList(kPMServerLocal, &printerList) == noErr)
{
count = CFArrayGetCount(printerList);
for (index = 0; index < count; index++)
{
printer = (PMPrinter)CFArrayGetValueAtIndex(printerList, index);
if ((data.GetPrinterName().empty()) && (PMPrinterIsDefault(printer)))
break;
else
{
name = PMPrinterGetName(printer);
CFRetain(name);
if (data.GetPrinterName() == wxCFStringRef(name).AsString())
break;
}
}
if (index < count)
PMSessionSetCurrentPMPrinter(m_macPrintSession, printer);
CFRelease(printerList);
}
PMSetCopies( m_macPrintSettings , data.GetNoCopies() , false ) ;
PMSetCollate(m_macPrintSettings, data.GetCollate());
if ( data.IsOrientationReversed() )
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMReverseLandscape : kPMReversePortrait , false ) ;
else
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
PMDuplexMode mode = 0 ;
switch( data.GetDuplex() )
{
case wxDUPLEX_HORIZONTAL :
mode = kPMDuplexNoTumble ;
break ;
case wxDUPLEX_VERTICAL :
mode = kPMDuplexTumble ;
break ;
case wxDUPLEX_SIMPLEX :
default :
mode = kPMDuplexNone ;
break ;
}
PMSetDuplex( m_macPrintSettings, mode ) ;
// PMQualityMode not yet accessible via API
if ( data.IsOrientationReversed() )
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMReverseLandscape : kPMReversePortrait , false ) ;
else
PMSetOrientation( m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
#ifndef __LP64__
// PMQualityMode not accessible via API
// TODO: use our quality property to determine optimal resolution
PMResolution res;
PMTag tag = kPMMaxSquareResolution;
PMPrinterGetPrinterResolution(printer, tag, &res);
PMSetResolution( m_macPageFormat, &res);
#endif
// after setting the new resolution the format has to be updated, otherwise the page rect remains
// at the 'old' scaling
PMSessionValidatePageFormat(m_macPrintSession,
m_macPageFormat, kPMDontWantBoolean);
PMSessionValidatePrintSettings(m_macPrintSession,
m_macPrintSettings, kPMDontWantBoolean);
#if wxOSX_USE_COCOA
UpdateFromPMState();
#endif
return true ;
}
bool wxMacCarbonPrintData::TransferFrom( const wxPrintData &data )
{
ValidateOrCreate() ;
PMSetCopies( (PMPrintSettings) m_macPrintSettings , data.GetNoCopies() , false ) ;
if ( data.IsOrientationReversed() )
PMSetOrientation( (PMPageFormat) m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMReverseLandscape : kPMReversePortrait , false ) ;
else
PMSetOrientation( (PMPageFormat) m_macPageFormat , ( data.GetOrientation() == wxLANDSCAPE ) ?
kPMLandscape : kPMPortrait , false ) ;
// collate cannot be set
#if 0 // not yet tested
if ( !m_printerName.empty() )
PMSessionSetCurrentPrinter( (PMPrintSession) m_macPrintSession , wxMacCFStringHolder( m_printerName , wxFont::GetDefaultEncoding() ) ) ;
#endif
#ifndef __LP64__
PMColorMode color ;
PMGetColorMode( (PMPrintSettings) m_macPrintSettings, &color ) ;
if ( data.GetColour() )
{
if ( color == kPMBlackAndWhite )
PMSetColorMode( (PMPrintSettings) m_macPrintSettings, kPMColor ) ;
}
else
PMSetColorMode( (PMPrintSettings) m_macPrintSettings, kPMBlackAndWhite ) ;
#endif
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_4
if ( &PMSetDuplex!=NULL )
{
PMDuplexMode mode = 0 ;
switch( data.GetDuplex() )
{
case wxDUPLEX_HORIZONTAL :
mode = kPMDuplexNoTumble ;
break ;
case wxDUPLEX_VERTICAL :
mode = kPMDuplexTumble ;
break ;
case wxDUPLEX_SIMPLEX :
default :
mode = kPMDuplexNone ;
break ;
}
PMSetDuplex( (PMPrintSettings) m_macPrintSettings, mode ) ;
}
#endif
// PMQualityMode not yet accessible via API
// todo paperSize
PMResolution res;
PMPrinter printer;
PMSessionGetCurrentPrinter(m_macPrintSession, &printer);
#if MAC_OS_X_VERSION_MIN_REQUIRED >= MAC_OS_X_VERSION_10_5
PMPrinterGetOutputResolution( printer,
(PMPrintSettings) m_macPrintSettings, &res) ;
// TODO transfer ? into page format ?
#else
PMTag tag = kPMMaxSquareResolution;
PMPrinterGetPrinterResolution(printer, tag, &res);
PMSetResolution((PMPageFormat) m_macPageFormat, &res);
#endif
// after setting the new resolution the format has to be updated, otherwise the page rect remains
// at the 'old' scaling
PMSessionValidatePageFormat((PMPrintSession) m_macPrintSession,
(PMPageFormat) m_macPageFormat,
kPMDontWantBoolean) ;
return true ;
}
bool wxMacCarbonPrintData::TransferTo( wxPrintData &data )
{
OSStatus err = noErr ;
UInt32 copies ;
err = PMGetCopies( m_macPrintSettings , &copies ) ;
if ( err == noErr )
data.SetNoCopies( copies ) ;
PMOrientation orientation ;
err = PMGetOrientation( m_macPageFormat , &orientation ) ;
if ( err == noErr )
{
if ( orientation == kPMPortrait || orientation == kPMReversePortrait )
{
data.SetOrientation( wxPORTRAIT );
data.SetOrientationReversed( orientation == kPMReversePortrait );
}
else
{
data.SetOrientation( wxLANDSCAPE );
data.SetOrientationReversed( orientation == kPMReverseLandscape );
}
}
// collate cannot be set
#if 0
{
wxMacCFStringHolder name ;
PMPrinter printer ;
PMSessionGetCurrentPrinter( m_macPrintSession ,
&printer ) ;
m_printerName = name.AsString() ;
}
#endif
#ifndef __LP64__
PMColorMode color ;
err = PMGetColorMode( m_macPrintSettings, &color ) ;
if ( err == noErr )
data.SetColour( !(color == kPMBlackAndWhite) ) ;
#endif
#if MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_4
if ( &PMGetDuplex!=NULL )
{
PMDuplexMode mode = 0 ;
PMGetDuplex( (PMPrintSettings) m_macPrintSettings, &mode ) ;
switch( mode )
{
case kPMDuplexNoTumble :
data.SetDuplex(wxDUPLEX_HORIZONTAL);
break ;
case kPMDuplexTumble :
data.SetDuplex(wxDUPLEX_VERTICAL);
break ;
case kPMDuplexNone :
default :
data.SetDuplex(wxDUPLEX_SIMPLEX);
break ;
}
}
#endif
// PMQualityMode not yet accessible via API
PMPaper paper ;
PMGetPageFormatPaper( m_macPageFormat, &paper );
PMRect rPaper;
err = PMGetUnadjustedPaperRect( m_macPageFormat, &rPaper);
if ( err == noErr )
{
wxSize sz((int)(( rPaper.right - rPaper.left ) * pt2mm + 0.5 ) ,
(int)(( rPaper.bottom - rPaper.top ) * pt2mm + 0.5 ));
data.SetPaperSize(sz);
wxPaperSize id = wxThePrintPaperDatabase->GetSize(wxSize(sz.x* 10, sz.y * 10));
if (id != wxPAPER_NONE)
{
data.SetPaperId(id);
}
}
return true ;
}
bool wxMacPrinter::Print(wxWindow *parent, wxPrintout *printout, bool prompt)
{
sm_abortIt = false;
sm_abortWindow = NULL;
if (!printout)
return false;
printout->SetIsPreview(false);
if (m_printDialogData.GetMinPage() < 1)
m_printDialogData.SetMinPage(1);
if (m_printDialogData.GetMaxPage() < 1)
m_printDialogData.SetMaxPage(9999);
// Create a suitable device context
wxPrinterDC *dc = NULL;
if (prompt)
{
wxMacPrintDialog dialog(parent, & m_printDialogData);
if (dialog.ShowModal() == wxID_OK)
{
dc = wxDynamicCast(dialog.GetPrintDC(), wxPrinterDC);
wxASSERT(dc);
m_printDialogData = dialog.GetPrintDialogData();
}
}
else
{
dc = new wxPrinterDC( m_printDialogData.GetPrintData() ) ;
}
// May have pressed cancel.
if (!dc || !dc->Ok())
{
if (dc)
delete dc;
return false;
}
// on the mac we have always pixels as addressing mode with 72 dpi
printout->SetPPIScreen(72, 72);
PMResolution res;
wxMacCarbonPrintData* nativeData = (wxMacCarbonPrintData*)
(m_printDialogData.GetPrintData().GetNativeData());
#if MAC_OS_X_VERSION_MIN_REQUIRED >= MAC_OS_X_VERSION_10_5
PMPrinter printer;
PMSessionGetCurrentPrinter(nativeData->m_macPrintSession, &printer);
PMPrinterGetOutputResolution( printer, nativeData->m_macPrintSettings, &res) ;
#else
PMGetResolution((PMPageFormat) (nativeData->m_macPageFormat), &res);
#endif
printout->SetPPIPrinter(int(res.hRes), int(res.vRes));
// Set printout parameters
printout->SetDC(dc);
int w, h;
dc->GetSize(&w, &h);
printout->SetPageSizePixels((int)w, (int)h);
printout->SetPaperRectPixels(dc->GetPaperRect());
wxCoord mw, mh;
dc->GetSizeMM(&mw, &mh);
printout->SetPageSizeMM((int)mw, (int)mh);
// Create an abort window
wxBeginBusyCursor();
printout->OnPreparePrinting();
// Get some parameters from the printout, if defined
int fromPage, toPage;
int minPage, maxPage;
printout->GetPageInfo(&minPage, &maxPage, &fromPage, &toPage);
if (maxPage == 0)
{
wxEndBusyCursor();
return false;
}
// Only set min and max, because from and to have been
// set by the user
m_printDialogData.SetMinPage(minPage);
m_printDialogData.SetMaxPage(maxPage);
wxWindow *win = CreateAbortWindow(parent, printout);
wxSafeYield(win,true);
if (!win)
{
wxEndBusyCursor();
wxMessageBox(wxT("Sorry, could not create an abort dialog."), wxT("Print Error"), wxOK, parent);
delete dc;
return false;
}
sm_abortWindow = win;
sm_abortWindow->Show(true);
wxSafeYield(win,true);
printout->OnBeginPrinting();
bool keepGoing = true;
int copyCount;
for (copyCount = 1; copyCount <= m_printDialogData.GetNoCopies(); copyCount ++)
{
if (!printout->OnBeginDocument(m_printDialogData.GetFromPage(), m_printDialogData.GetToPage()))
{
wxEndBusyCursor();
wxMessageBox(wxT("Could not start printing."), wxT("Print Error"), wxOK, parent);
break;
}
if (sm_abortIt)
break;
int pn;
for (pn = m_printDialogData.GetFromPage();
keepGoing && (pn <= m_printDialogData.GetToPage()) && printout->HasPage(pn);
pn++)
{
if (sm_abortIt)
{
keepGoing = false;
break;
}
else
{
#if TARGET_CARBON
if ( UMAGetSystemVersion() >= 0x1000 )
#endif
{
#if !wxMAC_USE_CORE_GRAPHICS
GrafPtr thePort ;
GetPort( &thePort ) ;
#endif
wxSafeYield(win,true);
#if !wxMAC_USE_CORE_GRAPHICS
SetPort( thePort ) ;
#endif
}
dc->StartPage();
keepGoing = printout->OnPrintPage(pn);
dc->EndPage();
}
}
printout->OnEndDocument();
}
printout->OnEndPrinting();
if (sm_abortWindow)
{
sm_abortWindow->Show(false);
delete sm_abortWindow;
sm_abortWindow = NULL;
}
wxEndBusyCursor();
delete dc;
return true;
}
