office-gobmx/vcl/osx/salinst.cxx
Tor Lillqvist 34327fdbc4 Use non-deprecated names for bits and constants
Change-Id: I9004aaef7b2d526ad99b316b78733671a785c847
Reviewed-on: https://gerrit.libreoffice.org/c/core/+/124328
Tested-by: Tor Lillqvist <tml@collabora.com>
Reviewed-by: Tor Lillqvist <tml@collabora.com>
2021-10-29 14:08:36 +02:00

982 lines
31 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <sal/config.h>
#include <sal/log.hxx>
#include <osl/diagnose.h>
#include <condition_variable>
#include <mutex>
#include <utility>
#include <config_features.h>
#include <stdio.h>
#include <comphelper/solarmutex.hxx>
#include <comphelper/lok.hxx>
#include <osl/process.h>
#include <rtl/ustrbuf.hxx>
#include <vclpluginapi.h>
#include <vcl/QueueInfo.hxx>
#include <vcl/svapp.hxx>
#include <vcl/window.hxx>
#include <vcl/idle.hxx>
#include <vcl/svmain.hxx>
#include <vcl/opengl/OpenGLContext.hxx>
#include <vcl/commandevent.hxx>
#include <vcl/event.hxx>
#include <osx/saldata.hxx>
#include <osx/salinst.h>
#include <osx/salframe.h>
#include <osx/salobj.h>
#include <osx/salsys.h>
#include <quartz/salvd.h>
#include <quartz/salbmp.h>
#include <quartz/utils.h>
#include <osx/salprn.h>
#include <osx/saltimer.h>
#include <osx/vclnsapp.h>
#include <osx/runinmain.hxx>
#include <print.h>
#include <comphelper/processfactory.hxx>
#include <com/sun/star/uri/ExternalUriReferenceTranslator.hpp>
#include <com/sun/star/uno/XComponentContext.hpp>
#include <premac.h>
#include <Foundation/Foundation.h>
#include <ApplicationServices/ApplicationServices.h>
#import "apple_remote/RemoteMainController.h"
#include <apple_remote/RemoteControl.h>
#include <postmac.h>
#if HAVE_FEATURE_SKIA
#include <vcl/skia/SkiaHelper.hxx>
#include <skia/salbmp.hxx>
#include <skia/osx/gdiimpl.hxx>
#include <skia/osx/bitmap.hxx>
#endif
extern "C" {
#include <crt_externs.h>
}
using namespace ::com::sun::star;
static int* gpnInit = nullptr;
static NSMenu* pDockMenu = nil;
static bool bLeftMain = false;
namespace {
class AquaDelayedSettingsChanged : public Idle
{
bool mbInvalidate;
public:
AquaDelayedSettingsChanged( bool bInvalidate ) :
Idle("AquaSalInstance AquaDelayedSettingsChanged"),
mbInvalidate( bInvalidate )
{
}
virtual void Invoke() override
{
AquaSalInstance *pInst = GetSalData()->mpInstance;
SalFrame *pAnyFrame = pInst->anyFrame();
if( pAnyFrame )
pAnyFrame->CallCallback( SalEvent::SettingsChanged, nullptr );
if( mbInvalidate )
{
for( auto pSalFrame : pInst->getFrames() )
{
AquaSalFrame* pFrame = static_cast<AquaSalFrame*>( pSalFrame );
if( pFrame->mbShown )
pFrame->SendPaintEvent();
}
}
delete this;
}
};
}
void AquaSalInstance::delayedSettingsChanged( bool bInvalidate )
{
osl::Guard< comphelper::SolarMutex > aGuard( *GetYieldMutex() );
AquaDelayedSettingsChanged* pIdle = new AquaDelayedSettingsChanged( bInvalidate );
pIdle->Start();
}
// the std::list<const ApplicationEvent*> must be available before any SalData/SalInst/etc. objects are ready
std::list<const ApplicationEvent*> AquaSalInstance::aAppEventList;
NSMenu* AquaSalInstance::GetDynamicDockMenu()
{
if( ! pDockMenu && ! bLeftMain )
pDockMenu = [[NSMenu alloc] initWithTitle: @""];
return pDockMenu;
}
bool AquaSalInstance::isOnCommandLine( const OUString& rArg )
{
sal_uInt32 nArgs = osl_getCommandArgCount();
for( sal_uInt32 i = 0; i < nArgs; i++ )
{
OUString aArg;
osl_getCommandArg( i, &aArg.pData );
if( aArg.equals( rArg ) )
return true;
}
return false;
}
void AquaSalInstance::AfterAppInit()
{
[[NSNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(systemColorsChanged:)
name: NSSystemColorsDidChangeNotification
object: nil ];
[[NSNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(screenParametersChanged:)
name: NSApplicationDidChangeScreenParametersNotification
object: nil ];
// add observers for some settings changes that affect vcl's settings
// scrollbar variant
[[NSDistributedNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(scrollbarVariantChanged:)
name: @"AppleAquaScrollBarVariantChanged"
object: nil ];
// scrollbar page behavior ("jump to here" or not)
[[NSDistributedNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(scrollbarSettingsChanged:)
name: @"AppleNoRedisplayAppearancePreferenceChanged"
object: nil ];
#if !HAVE_FEATURE_MACOSX_SANDBOX
// Initialize Apple Remote
GetSalData()->mpAppleRemoteMainController = [[AppleRemoteMainController alloc] init];
[[NSDistributedNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(applicationWillBecomeActive:)
name: @"AppleRemoteWillBecomeActive"
object: nil ];
[[NSDistributedNotificationCenter defaultCenter] addObserver: NSApp
selector: @selector(applicationWillResignActive:)
name: @"AppleRemoteWillResignActive"
object: nil ];
#endif
}
SalYieldMutex::SalYieldMutex()
: m_aCodeBlock( nullptr )
{
}
SalYieldMutex::~SalYieldMutex()
{
}
void SalYieldMutex::doAcquire( sal_uInt32 nLockCount )
{
AquaSalInstance *pInst = GetSalData()->mpInstance;
if ( pInst && pInst->IsMainThread() )
{
if ( pInst->mbNoYieldLock )
return;
do {
RuninmainBlock block = nullptr;
{
std::unique_lock<std::mutex> g(m_runInMainMutex);
if (m_aMutex.tryToAcquire()) {
assert(m_aCodeBlock == nullptr);
m_wakeUpMain = false;
break;
}
// wait for doRelease() or RUNINMAIN_* to set the condition
m_aInMainCondition.wait(g, [this]() { return m_wakeUpMain; });
m_wakeUpMain = false;
std::swap(block, m_aCodeBlock);
}
if ( block )
{
assert( !pInst->mbNoYieldLock );
pInst->mbNoYieldLock = true;
block();
pInst->mbNoYieldLock = false;
Block_release( block );
std::scoped_lock<std::mutex> g(m_runInMainMutex);
assert(!m_resultReady);
m_resultReady = true;
m_aResultCondition.notify_all();
}
}
while ( true );
}
else
m_aMutex.acquire();
++m_nCount;
--nLockCount;
comphelper::SolarMutex::doAcquire( nLockCount );
}
sal_uInt32 SalYieldMutex::doRelease( const bool bUnlockAll )
{
AquaSalInstance *pInst = GetSalData()->mpInstance;
if ( pInst->mbNoYieldLock && pInst->IsMainThread() )
return 1;
sal_uInt32 nCount;
{
std::scoped_lock<std::mutex> g(m_runInMainMutex);
// read m_nCount before doRelease
bool const isReleased(bUnlockAll || m_nCount == 1);
nCount = comphelper::SolarMutex::doRelease( bUnlockAll );
if (isReleased && !pInst->IsMainThread()) {
m_wakeUpMain = true;
m_aInMainCondition.notify_all();
}
}
return nCount;
}
bool SalYieldMutex::IsCurrentThread() const
{
if ( !GetSalData()->mpInstance->mbNoYieldLock )
return comphelper::SolarMutex::IsCurrentThread();
else
return GetSalData()->mpInstance->IsMainThread();
}
// some convenience functions regarding the yield mutex, aka solar mutex
bool ImplSalYieldMutexTryToAcquire()
{
AquaSalInstance* pInst = GetSalData()->mpInstance;
if ( pInst )
return pInst->GetYieldMutex()->tryToAcquire();
else
return false;
}
void ImplSalYieldMutexRelease()
{
AquaSalInstance* pInst = GetSalData()->mpInstance;
if ( pInst )
pInst->GetYieldMutex()->release();
}
extern "C" {
VCLPLUG_OSX_PUBLIC SalInstance* create_SalInstance()
{
SalData* pSalData = new SalData;
NSAutoreleasePool * pool = [ [ NSAutoreleasePool alloc ] init ];
unlink([[NSString stringWithFormat:@"%@/Library/Saved Application State/%s.savedState/restorecount.plist", NSHomeDirectory(), MACOSX_BUNDLE_IDENTIFIER] UTF8String]);
unlink([[NSString stringWithFormat:@"%@/Library/Saved Application State/%s.savedState/restorecount.txt", NSHomeDirectory(), MACOSX_BUNDLE_IDENTIFIER] UTF8String]);
[ pool drain ];
// create our cocoa NSApplication
[VCL_NSApplication sharedApplication];
SalData::ensureThreadAutoreleasePool();
// put cocoa into multithreaded mode
[NSThread detachNewThreadSelector:@selector(enableCocoaThreads:) toTarget:[[CocoaThreadEnabler alloc] init] withObject:nil];
// Dark mode is disabled as long as it is not implemented completely. For development purposes, it may be controlled by
// environment variables: VCL_MACOS_FORCE_DARK_MODE enable dark mode independent of system settings,
// VCL_MACOS_USE_SYSTEM_APPEARANCE to use system settings (light mode or the dark mode as configured within system preferences).
// TODO: After implementation of dark mode, this code has to be removed.
if (@available(macOS 10.14, iOS 13, *))
{
if (getenv("VCL_MACOS_FORCE_DARK_MODE"))
{
[NSApp setAppearance: [NSAppearance appearanceNamed: NSAppearanceNameDarkAqua]];
}
else
if (!getenv("VCL_MACOS_USE_SYSTEM_APPEARANCE"))
[NSApp setAppearance: [NSAppearance appearanceNamed: NSAppearanceNameAqua]];
}
// activate our delegate methods
[NSApp setDelegate: NSApp];
SAL_WARN_IF( pSalData->mpInstance != nullptr, "vcl", "more than one instance created" );
AquaSalInstance* pInst = new AquaSalInstance;
// init instance (only one instance in this version !!!)
pSalData->mpInstance = pInst;
// this one is for outside AquaSalInstance::Yield
SalData::ensureThreadAutoreleasePool();
// no focus rects on NWF
ImplGetSVData()->maNWFData.mbNoFocusRects = true;
ImplGetSVData()->maNWFData.mbNoActiveTabTextRaise = true;
ImplGetSVData()->maNWFData.mbCenteredTabs = true;
ImplGetSVData()->maNWFData.mnStatusBarLowerRightOffset = 10;
return pInst;
}
}
AquaSalInstance::AquaSalInstance()
: SalInstance(std::make_unique<SalYieldMutex>())
, mnActivePrintJobs( 0 )
, mbIsLiveResize( false )
, mbNoYieldLock( false )
, mbTimerProcessed( false )
{
maMainThread = osl::Thread::getCurrentIdentifier();
ImplSVData* pSVData = ImplGetSVData();
pSVData->maAppData.mxToolkitName = OUString("osx");
m_bSupportsOpenGL = true;
#if HAVE_FEATURE_SKIA
AquaSkiaSalGraphicsImpl::prepareSkia();
#endif
}
AquaSalInstance::~AquaSalInstance()
{
[NSApp stop: NSApp];
bLeftMain = true;
if( pDockMenu )
{
[pDockMenu release];
pDockMenu = nil;
}
#if HAVE_FEATURE_SKIA
SkiaHelper::cleanup();
#endif
}
void AquaSalInstance::TriggerUserEventProcessing()
{
dispatch_async(dispatch_get_main_queue(),^{
ImplNSAppPostEvent( AquaSalInstance::YieldWakeupEvent, NO );
});
}
void AquaSalInstance::ProcessEvent( SalUserEvent aEvent )
{
aEvent.m_pFrame->CallCallback( aEvent.m_nEvent, aEvent.m_pData );
maWaitingYieldCond.set();
}
bool AquaSalInstance::IsMainThread() const
{
return osl::Thread::getCurrentIdentifier() == maMainThread;
}
void AquaSalInstance::handleAppDefinedEvent( NSEvent* pEvent )
{
AquaSalTimer *pTimer = static_cast<AquaSalTimer*>( ImplGetSVData()->maSchedCtx.mpSalTimer );
int nSubtype = [pEvent subtype];
switch( nSubtype )
{
case AppStartTimerEvent:
if ( pTimer )
pTimer->handleStartTimerEvent( pEvent );
break;
case AppExecuteSVMain:
{
int nRet = ImplSVMain();
if (gpnInit)
*gpnInit = nRet;
[NSApp stop: NSApp];
break;
}
case DispatchTimerEvent:
{
AquaSalInstance *pInst = GetSalData()->mpInstance;
if ( pTimer && pInst )
pInst->mbTimerProcessed = pTimer->handleDispatchTimerEvent( pEvent );
break;
}
#if !HAVE_FEATURE_MACOSX_SANDBOX
case AppleRemoteControlEvent: // Defined in <apple_remote/RemoteMainController.h>
{
MediaCommand nCommand;
AquaSalInstance *pInst = GetSalData()->mpInstance;
bool bIsFullScreenMode = false;
for( auto pSalFrame : pInst->getFrames() )
{
const AquaSalFrame* pFrame = static_cast<const AquaSalFrame*>( pSalFrame );
if ( pFrame->mbFullScreen )
{
bIsFullScreenMode = true;
break;
}
}
switch ([pEvent data1])
{
case kRemoteButtonPlay:
nCommand = bIsFullScreenMode ? MediaCommand::PlayPause : MediaCommand::Play;
break;
// kept for experimentation purpose (scheduled for future implementation)
// case kRemoteButtonMenu: nCommand = MediaCommand::Menu; break;
case kRemoteButtonPlus: nCommand = MediaCommand::VolumeUp; break;
case kRemoteButtonMinus: nCommand = MediaCommand::VolumeDown; break;
case kRemoteButtonRight: nCommand = MediaCommand::NextTrack; break;
case kRemoteButtonRight_Hold: nCommand = MediaCommand::NextTrackHold; break;
case kRemoteButtonLeft: nCommand = MediaCommand::PreviousTrack; break;
case kRemoteButtonLeft_Hold: nCommand = MediaCommand::Rewind; break;
case kRemoteButtonPlay_Hold: nCommand = MediaCommand::PlayHold; break;
case kRemoteButtonMenu_Hold: nCommand = MediaCommand::Stop; break;
// FIXME : not detected
case kRemoteButtonPlus_Hold:
case kRemoteButtonMinus_Hold:
break;
default:
break;
}
AquaSalFrame* pFrame = static_cast<AquaSalFrame*>( pInst->anyFrame() );
vcl::Window* pWindow = pFrame ? pFrame->GetWindow() : nullptr;
if( pWindow )
{
const Point aPoint;
CommandMediaData aMediaData(nCommand);
CommandEvent aCEvt( aPoint, CommandEventId::Media, false, &aMediaData );
NotifyEvent aNCmdEvt( MouseNotifyEvent::COMMAND, pWindow, &aCEvt );
if ( !ImplCallPreNotify( aNCmdEvt ) )
pWindow->Command( aCEvt );
}
}
break;
#endif
case YieldWakeupEvent:
// do nothing, fall out of Yield
break;
default:
OSL_FAIL( "unhandled NSEventTypeApplicationDefined event" );
break;
}
}
bool AquaSalInstance::RunInMainYield( bool bHandleAllCurrentEvents )
{
OSX_SALDATA_RUNINMAIN_UNION( DoYield( false, bHandleAllCurrentEvents), boolean )
assert( false && "Don't call this from the main thread!" );
return false;
}
static bool isWakeupEvent( NSEvent *pEvent )
{
return NSEventTypeApplicationDefined == [pEvent type]
&& AquaSalInstance::YieldWakeupEvent == static_cast<int>([pEvent subtype]);
}
bool AquaSalInstance::DoYield(bool bWait, bool bHandleAllCurrentEvents)
{
// ensure that the per thread autorelease pool is top level and
// will therefore not be destroyed by cocoa implicitly
SalData::ensureThreadAutoreleasePool();
// NSAutoreleasePool documentation suggests we should have
// an own pool for each yield level
ReleasePoolHolder aReleasePool;
// first, process current user events
bool bHadEvent = DispatchUserEvents( bHandleAllCurrentEvents );
if ( !bHandleAllCurrentEvents && bHadEvent )
return true;
// handle cocoa event queue
// cocoa events may be only handled in the thread the NSApp was created
if( IsMainThread() && mnActivePrintJobs == 0 )
{
// handle available events
NSEvent* pEvent = nil;
NSTimeInterval now = [[NSProcessInfo processInfo] systemUptime];
mbTimerProcessed = false;
do
{
SolarMutexReleaser aReleaser;
pEvent = [NSApp nextEventMatchingMask: NSEventMaskAny
untilDate: nil
inMode: NSDefaultRunLoopMode
dequeue: YES];
if( pEvent )
{
[NSApp sendEvent: pEvent];
if ( isWakeupEvent( pEvent ) )
continue;
bHadEvent = true;
}
[NSApp updateWindows];
if ( !bHandleAllCurrentEvents || !pEvent || now < [pEvent timestamp] )
break;
}
while( true );
AquaSalTimer *pTimer = static_cast<AquaSalTimer*>( ImplGetSVData()->maSchedCtx.mpSalTimer );
if ( !mbTimerProcessed && pTimer && pTimer->IsDirectTimeout() )
{
pTimer->handleTimerElapsed();
bHadEvent = true;
}
// if we had no event yet, wait for one if requested
if( bWait && ! bHadEvent )
{
SolarMutexReleaser aReleaser;
pEvent = [NSApp nextEventMatchingMask: NSEventMaskAny
untilDate: [NSDate distantFuture]
inMode: NSDefaultRunLoopMode
dequeue: YES];
if( pEvent )
{
[NSApp sendEvent: pEvent];
if ( !isWakeupEvent( pEvent ) )
bHadEvent = true;
}
[NSApp updateWindows];
}
// collect update rectangles
for( auto pSalFrame : GetSalData()->mpInstance->getFrames() )
{
AquaSalFrame* pFrame = static_cast<AquaSalFrame*>( pSalFrame );
if( pFrame->mbShown && ! pFrame->maInvalidRect.IsEmpty() )
{
pFrame->Flush( pFrame->maInvalidRect );
pFrame->maInvalidRect.SetEmpty();
}
}
if ( bHadEvent )
maWaitingYieldCond.set();
}
else
{
bHadEvent = RunInMainYield( bHandleAllCurrentEvents );
if ( !bHadEvent && bWait )
{
// #i103162#
// wait until the main thread has dispatched an event
maWaitingYieldCond.reset();
SolarMutexReleaser aReleaser;
maWaitingYieldCond.wait();
}
}
// we get some apple events way too early
// before the application is ready to handle them,
// so their corresponding application events need to be delayed
// now is a good time to handle at least one of them
if( bWait && !aAppEventList.empty() && ImplGetSVData()->maAppData.mbInAppExecute )
{
// make sure that only one application event is active at a time
static bool bInAppEvent = false;
if( !bInAppEvent )
{
bInAppEvent = true;
// get the next delayed application event
const ApplicationEvent* pAppEvent = aAppEventList.front();
aAppEventList.pop_front();
// handle one application event (no recursion)
const ImplSVData* pSVData = ImplGetSVData();
pSVData->mpApp->AppEvent( *pAppEvent );
delete pAppEvent;
// allow the next delayed application event
bInAppEvent = false;
}
}
return bHadEvent;
}
bool AquaSalInstance::AnyInput( VclInputFlags nType )
{
if( nType & VclInputFlags::APPEVENT )
{
if( ! aAppEventList.empty() )
return true;
if( nType == VclInputFlags::APPEVENT )
return false;
}
OSX_INST_RUNINMAIN_UNION( AnyInput( nType ), boolean )
if( nType & VclInputFlags::TIMER )
{
AquaSalTimer *pTimer = static_cast<AquaSalTimer*>( ImplGetSVData()->maSchedCtx.mpSalTimer );
if (pTimer && pTimer->IsTimerElapsed())
return true;
}
unsigned/*NSUInteger*/ nEventMask = 0;
if( nType & VclInputFlags::MOUSE)
nEventMask |=
NSEventMaskLeftMouseDown | NSEventMaskRightMouseDown | NSEventMaskOtherMouseDown |
NSEventMaskLeftMouseUp | NSEventMaskRightMouseUp | NSEventMaskOtherMouseUp |
NSEventMaskLeftMouseDragged | NSEventMaskRightMouseDragged | NSEventMaskOtherMouseDragged |
NSEventMaskScrollWheel |
// NSEventMaskMouseMoved |
NSEventMaskMouseEntered | NSEventMaskMouseExited;
if( nType & VclInputFlags::KEYBOARD)
nEventMask |= NSEventMaskKeyDown | NSEventMaskKeyUp | NSEventMaskFlagsChanged;
if( nType & VclInputFlags::OTHER)
nEventMask |= NSEventMaskTabletPoint | NSEventMaskApplicationDefined;
// TODO: VclInputFlags::PAINT / more VclInputFlags::OTHER
if( !bool(nType) )
return false;
NSEvent* pEvent = [NSApp nextEventMatchingMask: nEventMask untilDate: nil
inMode: NSDefaultRunLoopMode dequeue: NO];
return (pEvent != nullptr);
}
SalFrame* AquaSalInstance::CreateChildFrame( SystemParentData*, SalFrameStyleFlags /*nSalFrameStyle*/ )
{
return nullptr;
}
SalFrame* AquaSalInstance::CreateFrame( SalFrame* pParent, SalFrameStyleFlags nSalFrameStyle )
{
OSX_INST_RUNINMAIN_POINTER( CreateFrame( pParent, nSalFrameStyle ), SalFrame* )
return new AquaSalFrame( pParent, nSalFrameStyle );
}
void AquaSalInstance::DestroyFrame( SalFrame* pFrame )
{
OSX_INST_RUNINMAIN( DestroyFrame( pFrame ) )
delete pFrame;
}
SalObject* AquaSalInstance::CreateObject( SalFrame* pParent, SystemWindowData* pWindowData, bool /* bShow */ )
{
if ( !pParent )
return nullptr;
OSX_INST_RUNINMAIN_POINTER( CreateObject( pParent, pWindowData, false ), SalObject* )
return new AquaSalObject( static_cast<AquaSalFrame*>(pParent), pWindowData );
}
void AquaSalInstance::DestroyObject( SalObject* pObject )
{
OSX_INST_RUNINMAIN( DestroyObject( pObject ) )
delete pObject;
}
std::unique_ptr<SalPrinter> AquaSalInstance::CreatePrinter( SalInfoPrinter* pInfoPrinter )
{
return std::unique_ptr<SalPrinter>(new AquaSalPrinter( dynamic_cast<AquaSalInfoPrinter*>(pInfoPrinter) ));
}
void AquaSalInstance::GetPrinterQueueInfo( ImplPrnQueueList* pList )
{
NSArray* pNames = [NSPrinter printerNames];
NSArray* pTypes = [NSPrinter printerTypes];
unsigned int nNameCount = pNames ? [pNames count] : 0;
unsigned int nTypeCount = pTypes ? [pTypes count] : 0;
SAL_WARN_IF( nTypeCount != nNameCount, "vcl", "type count not equal to printer count" );
for( unsigned int i = 0; i < nNameCount; i++ )
{
NSString* pName = [pNames objectAtIndex: i];
NSString* pType = i < nTypeCount ? [pTypes objectAtIndex: i] : nil;
if( pName )
{
std::unique_ptr<SalPrinterQueueInfo> pInfo(new SalPrinterQueueInfo);
pInfo->maPrinterName = GetOUString( pName );
if( pType )
pInfo->maDriver = GetOUString( pType );
pInfo->mnStatus = PrintQueueFlags::NONE;
pInfo->mnJobs = 0;
pList->Add( std::move(pInfo) );
}
}
}
void AquaSalInstance::GetPrinterQueueState( SalPrinterQueueInfo* )
{
}
OUString AquaSalInstance::GetDefaultPrinter()
{
// #i113170# may not be the main thread if called from UNO API
SalData::ensureThreadAutoreleasePool();
if( maDefaultPrinter.isEmpty() )
{
NSPrintInfo* pPI = [NSPrintInfo sharedPrintInfo];
SAL_WARN_IF( !pPI, "vcl", "no print info" );
if( pPI )
{
NSPrinter* pPr = [pPI printer];
SAL_WARN_IF( !pPr, "vcl", "no printer in default info" );
if( pPr )
{
NSString* pDefName = [pPr name];
SAL_WARN_IF( !pDefName, "vcl", "printer has no name" );
maDefaultPrinter = GetOUString( pDefName );
}
}
}
return maDefaultPrinter;
}
SalInfoPrinter* AquaSalInstance::CreateInfoPrinter( SalPrinterQueueInfo* pQueueInfo,
ImplJobSetup* pSetupData )
{
// #i113170# may not be the main thread if called from UNO API
SalData::ensureThreadAutoreleasePool();
SalInfoPrinter* pNewInfoPrinter = nullptr;
if( pQueueInfo )
{
pNewInfoPrinter = new AquaSalInfoPrinter( *pQueueInfo );
if( pSetupData )
pNewInfoPrinter->SetPrinterData( pSetupData );
}
return pNewInfoPrinter;
}
void AquaSalInstance::DestroyInfoPrinter( SalInfoPrinter* pPrinter )
{
// #i113170# may not be the main thread if called from UNO API
SalData::ensureThreadAutoreleasePool();
delete pPrinter;
}
OUString AquaSalInstance::GetConnectionIdentifier()
{
return OUString();
}
// We need to re-encode file urls because osl_getFileURLFromSystemPath converts
// to UTF-8 before encoding non ascii characters, which is not what other apps expect.
static OUString translateToExternalUrl(const OUString& internalUrl)
{
uno::Reference< uno::XComponentContext > context(
comphelper::getProcessComponentContext());
return uri::ExternalUriReferenceTranslator::create(context)->translateToExternal(internalUrl);
}
// #i104525# many versions of OSX have problems with some URLs:
// when an app requests OSX to add one of these URLs to the "Recent Items" list
// then this app gets killed (TextEdit, Preview, etc. and also OOo)
static bool isDangerousUrl( const OUString& rUrl )
{
// use a heuristic that detects all known cases since there is no official comment
// on the exact impact and root cause of the OSX bug
const int nLen = rUrl.getLength();
const sal_Unicode* p = rUrl.getStr();
for( int i = 0; i < nLen-3; ++i, ++p ) {
if( p[0] != '%' )
continue;
// escaped percent?
if( (p[1] == '2') && (p[2] == '5') )
return true;
// escapes are considered to be UTF-8 encoded
// => check for invalid UTF-8 leading byte
if( (p[1] != 'f') && (p[1] != 'F') )
continue;
int cLowNibble = p[2];
if( (cLowNibble >= '0' ) && (cLowNibble <= '9'))
return false;
if( cLowNibble >= 'a' )
cLowNibble -= 'a' - 'A';
if( (cLowNibble < 'A') || (cLowNibble >= 'C'))
return true;
}
return false;
}
void AquaSalInstance::AddToRecentDocumentList(const OUString& rFileUrl, const OUString& /*rMimeType*/, const OUString& /*rDocumentService*/)
{
// Convert file URL for external use (see above)
OUString externalUrl = translateToExternalUrl(rFileUrl);
if( externalUrl.isEmpty() )
externalUrl = rFileUrl;
if( !externalUrl.isEmpty() && !isDangerousUrl( externalUrl ) )
{
NSString* pString = CreateNSString( externalUrl );
NSURL* pURL = [NSURL URLWithString: pString];
if( pURL )
{
NSDocumentController* pCtrl = [NSDocumentController sharedDocumentController];
[pCtrl noteNewRecentDocumentURL: pURL];
}
if( pString )
[pString release];
}
}
SalTimer* AquaSalInstance::CreateSalTimer()
{
return new AquaSalTimer();
}
SalSystem* AquaSalInstance::CreateSalSystem()
{
return new AquaSalSystem();
}
std::shared_ptr<SalBitmap> AquaSalInstance::CreateSalBitmap()
{
#if HAVE_FEATURE_SKIA
if (SkiaHelper::isVCLSkiaEnabled())
return std::make_shared<SkiaSalBitmap>();
else
#endif
return std::make_shared<QuartzSalBitmap>();
}
OUString AquaSalInstance::getOSVersion()
{
NSString * versionString = nullptr;
NSDictionary * sysVersionDict = [ NSDictionary dictionaryWithContentsOfFile: @"/System/Library/CoreServices/SystemVersion.plist" ];
if ( sysVersionDict )
versionString = [ sysVersionDict valueForKey: @"ProductVersion" ];
OUString aVersion = "Mac OS X ";
if ( versionString )
aVersion += OUString::fromUtf8( [ versionString UTF8String ] );
else
aVersion += "(unknown)";
return aVersion;
}
CGImageRef CreateCGImage( const Image& rImage )
{
#if HAVE_FEATURE_SKIA
if (SkiaHelper::isVCLSkiaEnabled())
return SkiaHelper::createCGImage( rImage );
#endif
BitmapEx aBmpEx( rImage.GetBitmapEx() );
Bitmap aBmp( aBmpEx.GetBitmap() );
if( aBmp.IsEmpty() || ! aBmp.ImplGetSalBitmap() )
return nullptr;
// simple case, no transparency
QuartzSalBitmap* pSalBmp = static_cast<QuartzSalBitmap*>(aBmp.ImplGetSalBitmap().get());
if( ! pSalBmp )
return nullptr;
CGImageRef xImage = nullptr;
if( !aBmpEx.IsAlpha() )
xImage = pSalBmp->CreateCroppedImage( 0, 0, pSalBmp->mnWidth, pSalBmp->mnHeight );
else
{
AlphaMask aAlphaMask( aBmpEx.GetAlpha() );
Bitmap aMask( aAlphaMask.GetBitmap() );
QuartzSalBitmap* pMaskBmp = static_cast<QuartzSalBitmap*>(aMask.ImplGetSalBitmap().get());
if( pMaskBmp )
xImage = pSalBmp->CreateWithMask( *pMaskBmp, 0, 0, pSalBmp->mnWidth, pSalBmp->mnHeight );
else
xImage = pSalBmp->CreateCroppedImage( 0, 0, pSalBmp->mnWidth, pSalBmp->mnHeight );
}
return xImage;
}
NSImage* CreateNSImage( const Image& rImage )
{
CGImageRef xImage = CreateCGImage( rImage );
if( ! xImage )
return nil;
Size aSize( rImage.GetSizePixel() );
NSImage* pImage = [[NSImage alloc] initWithSize: NSMakeSize( aSize.Width(), aSize.Height() )];
if( pImage )
{
[pImage lockFocusFlipped:YES];
NSGraphicsContext* pContext = [NSGraphicsContext currentContext];
CGContextRef rCGContext = [pContext CGContext];
const CGRect aDstRect = { {0, 0}, { static_cast<CGFloat>(aSize.Width()), static_cast<CGFloat>(aSize.Height()) } };
CGContextDrawImage( rCGContext, aDstRect, xImage );
[pImage unlockFocus];
}
CGImageRelease( xImage );
return pImage;
}
bool AquaSalInstance::SVMainHook(int* pnInit)
{
gpnInit = pnInit;
OUString aExeURL, aExe;
osl_getExecutableFile( &aExeURL.pData );
osl_getSystemPathFromFileURL( aExeURL.pData, &aExe.pData );
OString aByteExe( OUStringToOString( aExe, osl_getThreadTextEncoding() ) );
#ifdef DEBUG
aByteExe += OString ( " NSAccessibilityDebugLogLevel 1" );
const char* pArgv[] = { aByteExe.getStr(), NULL };
NSApplicationMain( 3, pArgv );
#else
const char* pArgv[] = { aByteExe.getStr(), nullptr };
NSApplicationMain( 1, pArgv );
#endif
return true;
}
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