/* File: DisplaysPriv.h Contains: Private Headers for the Display Manager Written by: Ian Hendry Copyright: © 1993 by Apple Computer, Inc., all rights reserved. Change History (most recent first): <14> 11/5/93 IH Sync with Excelsior. 10/10/93 IH Sync with Excelsior for ROM build. <12> 9/10/93 IH Fix cursor bug in horror ROMs and SuperMario. <11> 8/26/93 IH #1108969 : Added some more debug defines. Added room for res-independent QD info into state record. <10> 8/16/93 IH #1099391 : Sync w/Reality. Fix apple event notification to procs ptrs. Update DisplayMgr globals struct to match DisplaysPriv.h 08-06-93 jmp Updated the timing constants used by the Display Manager for non-intelligent displays. <8> 8/4/93 IH #1101633,1098397,1101795,1101636,1102280 : Fix 1102280. Propagate DisplayState handles through more calls. Add trap for getting the decl rom info so it is easy to patch. Add Trap for animation. Make GetROMMultiModeTable a trap so I can patch it. <7> 6/25/93 IH Fix DM_AddDisplay to include new parameters. Changed macros to use "_DisplayDispatch" <6> 6/22/93 IH Fix multimode tables to have unsigned shorts. <5> 6/1/93 IH Add private trap selector to get timing mode table. <4> 5/28/93 IH #1081805,1086363: Reordered call selectors to make Finder calls private. <3> 4/8/93 IH Add support for mode switching. Added some prototypes for DisplayMgrUtils.c <2> 3/31/93 IH Clean up for SuperMario. <1> 3/25/93 IH first checked in <5> 3/24/93 IH Add Prototype for RecalcMenuBar. I may have added DMSetMainDisplay here too. If so I will move it to Displays.h next time I check these files in (are not modal checkin windows great??). <4> 3/17/93 IH Move private calls from Displays.h <3> 3/5/93 IH Added more stuff. <2> 2/25/93 IH Add new for desktop stuff <1> 2/23/93 IH first checked in */ #pragma once #ifndef __DISPLAYSPRIV__ #define __DISPLAYSPRIV__ // // If the debug code is not defined to be on, then default to off // #ifndef DEBUG_DISPLAY_CODE #define DEBUG_DISPLAY_CODE 0 #endif #ifndef ENHANCE_DISPLAY_CODE #define ENHANCE_DISPLAY_CODE 0 #endif #ifndef __COMPONENTS__ #include #endif #ifndef __DISPLAYS__ #include #endif #ifndef __EVENTS__ #include #endif #ifndef __LAYERS__ #include #endif #ifndef __PROCESSES__ #include #endif #ifndef __TRAPS__ #include #endif #ifndef __VIDEO__ #include #endif #ifndef __WINDOWS__ #include #endif // Make sure this is keep up with DisplaysPriv.a enum { gestaltDMLatestVersion = 0x00000002, kDMConfigLatestVersion = 0x00000000 }; // At the moment, the mirroring code can only support two displays. // #define kDMNumDisplaysSupportedByMirroring 2 #if DEBUG_DISPLAY_CODE #define AevtDebugPrint(x) { Str31 dbMsg; BuildMessage( dbMsg, "\p; aevt ~", (long)(x) ); DebugStr( dbMsg ); } #define AedescDebugPrint(x) { Str31 dbMsg; BuildMessage( dbMsg, "\p; aedesc ~", (long)(x) ); DebugStr( dbMsg ); } void BuildMessage( Str255 msg, Str255 pstr, long number, ... ); #define DMDebugStr(x) DebugStr(x) #define DebugCntlDownNow() (0 != (*((char *)0x17b) & 0x08)) #define DebugCapsDownNow() (0 != (*((char *)0x17b) & 0x02)) #define Debug() if (*((short *)0x17A) & 0x0002) Debugger() #else #define AevtDebugPrint(x) #define AedescDebugPrint(x) #define DMDebugStr(x) #define DebugCntlDownNow() (false) #define DebugCapsDownNow() (false) #define Debug() #endif #define FixCloseView 1 // Closeview breaks if menubar display size changes #define FixFalseDMAwareBits 1 // Some applications set formerly reserved size bits #define STOP_HERE Debugger // Desktop Components definitions #define kTableclothComponentType 'UDtc' #define kPlacematComponentType 'UDpm' #define kDrawProcComponentType 'UDdr' // knows how to draw a proc #define stacksizeof(a) ((sizeof(a)+1) & (-2) ) enum TableclothMessagesType { kTableclothInit, kGetDrawComponentSubtype, kCountTableclothThumbnails, kGetIndexedDrawComponent, // kGetDrawObject, // The Draw component gets kTableclothPostMessage // Figure the real messages end at (kTableclothPostMessage - 1) }; typedef short TableclothMessagesType; enum DrawComponentMessagesType { kDrawComponentInit, kDrawComponentRender, kDrawComponentGetRestoreData, // Tablecloth should return a handle that can be used to re-init it after restart kDrawComponentRestoreComponent, // Tablecloth should return a handle that can be used to re-init it after restart kDrawComponentPostMessage // Figure the real messages end at (kTableclothPostMessage - 1) }; typedef short DrawComponentMessagesType; struct DrawParamBlockRec { RgnHandle fullRgn; RgnHandle drawRgn; Boolean isThumbNail; Boolean isAnimate; short drawFlags; // Future expansion (zeroed now) CGrafPtr drawPort; // grafport in which to draw }; typedef struct DrawParamBlockRec DrawParamBlockRec, *DrawParamBlockPtr, **DrawParamBlockHdl; pascal ComponentResult GetDrawComponentSubtype(ComponentInstance theTablecloth,OSType *drawComponentSubtype) = ComponentCallNow(kGetDrawComponentSubtype, stacksizeof(OSType *)); pascal ComponentResult CountThumbnails(ComponentInstance theTablecloth,short *thumbnailCount) = ComponentCallNow(kCountTableclothThumbnails, stacksizeof(short *)); pascal ComponentResult GetIndexedDrawComponent(ComponentInstance theTablecloth,short componentIndex,Boolean isThumbnail,Rect *intendedRect,ComponentInstance *theDrawComponent) = ComponentCallNow(kGetIndexedDrawComponent, stacksizeof(short )+stacksizeof(Boolean )+stacksizeof(Rect *)+stacksizeof(ComponentInstance *)); // Draw Component Calls // This one call is known between the picker and the draw component. // I could roll this call together with the RestoreTableCloth -- we should check this at a code review // // pascal ComponentResult InitTableCloth(ComponentInstance theTablecloth,long restoreVersion, Handle restoreInfo) // = ComponentCallNow(kDrawComponentInit, stacksizeof(long)+stacksizeof(Handle )); pascal ComponentResult RenderTablecloth(ComponentInstance theTablecloth,DrawParamBlockPtr drawParams) = ComponentCallNow(kDrawComponentRender, stacksizeof(DrawParamBlockPtr)); pascal ComponentResult GetTableClothRestoreData(ComponentInstance theTablecloth,long* restoreVersion, Handle *restoreInfo) = ComponentCallNow(kDrawComponentGetRestoreData, stacksizeof(long*)+stacksizeof(Handle *)); pascal ComponentResult RestoreTableCloth(ComponentInstance theTablecloth,ComponentDescription *savedByInfo,long restoreVersion, Handle restoreInfo) = ComponentCallNow(kDrawComponentRestoreComponent, stacksizeof(ComponentDescription *)+stacksizeof(long)+stacksizeof(Handle)); enum { // Display Communications // Messages for displays components. kDMComponentSelectorCheckMode = 1, kDMComponentSelectorGetTag, kDMComponentSelectorSetTag, kDMComponentSelectorAssociateID }; enum { // Notification Messages for extended call back routines kDMNotifyInstalled = 1, // At install time kDMNotifyEvent = 2, // Post change time kDMNotifyRemoved = 3, // At remove time kDMNotifyPrep = 4, // Pre change time // Notification Flags kExtendedNotificationProc = (1<<16) }; // Misc constants enum { kDefaultTitleBarHeight = 0x14, kNever = -1L, kFirstDisplayID = 0x100 }; #pragma procname DMExtendedNotification typedef pascal void (*DMExtendedNotificationProcPtr)(void* userData,short theMessage,void* notifyData); struct GDInfoRec { unsigned long tickStamp; unsigned long nextCall; ComponentInstance tableclothInstance; }; typedef struct GDInfoRec GDInfoRec, **GDInfoHdl; struct DisplayInfoRec { DisplayIDType displayID; ComponentInstance displayComponent; // For smart displays GDHandle displayDevice; unsigned long displayFlags; unsigned long displayReserved; GDHandle mirroredDevice; // Link to device THIS one is mirroring (nil otherwise). Rect unMirroredRect; // Original dimensions of THIS device. Ptr unMirroredBaseAddr; // Original PixMap baseAddress of THIS device. }; typedef struct DisplayInfoRec DisplayInfoRec, *DisplayInfoPtr, **DisplayInfoHdl; struct MultiModeTableRec { unsigned short displayConnection; short offset; }; typedef struct MultiModeTableRec MultiModeTableRec,*MultiModeTablePtr; struct MultiModeNodeRec { unsigned short timingMode; unsigned short timingFlags; }; typedef struct MultiModeNodeRec MultiModeNodeRec,*MultiModeNodePtr; struct DisplayConfigRec { unsigned long configVersion; // Set to 0 unsigned long configFlags; // Reserved unsigned long configReserved; // Reserved DisplayIDType displayID; ComponentInstance displayComponent; // For smart displays GDHandle displayDevice; unsigned long displayFlags; unsigned long displayMode; // Functional sResource (for NuBus) unsigned long displayModeReserved; // Reserved mode info unsigned long displayReserved; // Information about the display state // unsigned short deviceFlags; // Reserved unsigned long deviceDepthMode; // Video mode (from InitGDevice) Rect deviceRect; // Global position (72 dpi) // Pixmap info Rect pixMapRect; // Global position (screen dpi) Fixed pixMapHResolution; // QD resolution Fixed pixMapVResolution; // QD resolution long pixMapAlignment; // be ready for res-ind QD long pixMapResReserved; // be ready for res-ind QD short pixMapPixelType; // Chunky short pixMapPixelSize; // QD depth short pixMapCmpCount; // QD depth short pixMapCmpSize; // QD depth short pixMapReserved; unsigned long pixMapColorTableSeed; }; typedef struct DisplayConfigRec DisplayConfigRec, *DisplayConfigPtr, **DisplayConfigHdl; struct DMProcPtrRegistrationRec { ProcessSerialNumber registrationPSN; DMNotificationProcPtr registrationProc; unsigned long registrationFlags; void* registrationUserData; }; typedef struct DMProcPtrRegistrationRec DMProcPtrRegRec,*DMProcPtrRegPtr,**DMProcPtrRegHdl; struct DisplayManagerGlobalsRec { CGrafPtr fDrawingPort; CGrafPort fPortStorage; RgnHandle fWorkingDeskRectRgn; RgnHandle fWorkingDeskFullRgn; RgnHandle fWorkingUpdateRgn; RgnHandle fDeskIconRgn; RgnHandle fDesktopCacheRgn; RgnHandle fAnimationCacheRgn; ProcessSerialNumber fAnimatePSN; unsigned long fAnimateA5; // Used for debugging when Display Manager is built into an application Ptr fSavedDMGlobals; // Used for debugging when Display Manager is built into an application unsigned long fNextAnimateTime; Boolean fIconRgnInvalid; // T => desktop icon region has changed unsigned char fDeskDrawNest; // 0 => FillRgn and FillCRgn patches should call Display Manager (otherwise just call through) -- (unused in ROM) unsigned short fDisplayEntrySize; // Initialized to be sizeof(DisplayInfoRec) DisplayIDType fDisplayNextID; unsigned short fDisplayCount; // How many displays in display table DisplayInfoHdl fDisplayTable; // Table of information about displays (FUTURE: should I sort and binary search?) unsigned short fNotificationCount; // How many displays in display table DMProcPtrRegHdl fNotificationTable; // GDHandle fRemovedDevices; // List of removed devices that point to the device list // ••• Warning ••• // // The BlackBird/Yeager mirroring code currently accesses these globals directly. So, don’t move them // without updating that code as well. // // ••• // Boolean fDevicesOverLap, // If true, *some* gDevices are overlapped (partically or fully). fDevicesMirrored, // If true, all gDevices are fully overlapped, smallest gDevice determines rectangle for all devices. fMirroringBlocked; // If true, mirroring has been “artifically” blocked (several 3rd-parties asked for this). unsigned char fUnused1Byte4; // // // Back to normal variables // Ptr fQDA5World; // Points to fQDGlobals Ptr fQDGlobals; // unsigned long fUnused1; // unsigned long fUnused2; // unsigned long fUnused3; // unsigned long fUnused4; // }; typedef struct DisplayManagerGlobalsRec DisplayManagerGlobalsRec, *DisplayManagerGlobalsPtr, **DisplayManagerGlobalsHdl; // Since globals contain a port (and there will be a port somewhere) we will have to allocate a pointer // And given that we will allocate a pointer, we may as well put everything in it. // Therefore GetExpandMemDisplayManagerGlobals() will contain a pointer to the globals // #define GetDMGlobalsHdl() ((DisplayManagerGlobalsHdl )(GetExpandMemDisplayManagerGlobals())) // #define GetDMGlobalsPtr() (*(DisplayManagerGlobalsHdl )(GetExpandMemDisplayManagerGlobals())) #define GetDMGlobalsPtr() ((DisplayManagerGlobalsPtr )(GetExpandMemDisplayManagerGlobals())) #define kMaxBlocks 20 #define kMaxDevices 20 #define DM__IsColorPort(GPtr) ((GPtr) && ( 0 > (short )((CGrafPtr )GPtr)->portVersion) ) struct DMDeviceBlockRec { short deviceCount; RgnHandle blockRgn; GDHandle devices[kMaxDevices]; // GHandle Point deviceOffset[kMaxDevices]; // Amount that this device must be moved }; typedef struct DMDeviceBlockRec DMDeviceBlockRec,*DMDeviceBlockPtr,**DMDeviceBlockHdl; struct DMDisplayBlocksRec { short blockCount; short unused; // Keep the world long aligned DMDeviceBlockHdl displayBlocks[kMaxBlocks]; }; typedef struct DMDisplayBlocksRec DMDisplayBlocksRec,*DMDisplayBlocksPtr; struct MyDeviceLoopRec { DrawParamBlockPtr drawingParams; RgnHandle updateRgn; }; typedef struct MyDeviceLoopRec MyDeviceLoopRec,*MyDeviceLoopPtr; struct DisplaysStateRec { unsigned long flags; short nesting; // Keep track of number of nexting of begin and end update calls RgnHandle oldGrayRgn; // Not needed? DisplayIDType oldMainDisplayID; // What was the main device when the call started short displayCount; DisplayConfigHdl displayConfigs; }; typedef struct DisplaysStateRec DisplaysStateRec,*DisplaysStatePtr,**DisplaysStateHdl; struct AppCompatibilityRec { DisplaysStateHdl displaysState; LayerPeek appLayer; }; typedef struct AppCompatibilityRec AppCompatibilityRec,*AppCompatibilityPtr; // Timing mode constants for Display Manager MultiMode support // Corresponding .h equates are in DisplaysPriv.h // .a equates are in DepVideoEqu.a // .r equates are in DepVideoEqu.r enum { timingInvalid = 0, // Unknown timing… force user to confirm. timingApple12 = 130, // 512x384 (60 Hz) Rubik timing. timingApple12x = 135, // 560x384 (60 Hz) Rubik-560 timing. timingApple13 = 140, // 640x480 (67 Hz) HR timing. timingApple13x = 145, // 640x400 (67 Hz) HR-400 timing. timingAppleVGA = 150, // 640x480 (60 Hz) VGA timing. timingApple15 = 160, // 640x870 (75 Hz) FPD timing. timingApple15x = 165, // 640x818 (75 Hz) FPD-818 timing. timingApple16 = 170, // 832x624 (75 Hz) GoldFish timing. timingAppleSVGA = 180, // 800x600 (56 Hz) SVGA timing. timingApple1Ka = 190, // 1024x768 (60 Hz) VESA 1K-60Hz timing. timingApple1Kb = 200, // 1024x768 (70 Hz) VESA 1K-70Hz timing. timingApple19 = 210, // 1024x768 (75 Hz) Apple 19" RGB. timingApple21 = 220, // 1152x870 (75 Hz) Apple 21" RGB. timingAppleNTSC_ST = 230, // 512x384 (60 Hz, interlaced, non-convolved). timingAppleNTSC_FF = 232, // 640x480 (60 Hz, interlaced, non-convolved). timingAppleNTSC_STconv = 234, // 512x384 (60 Hz, interlaced, convolved). timingAppleNTSC_FFconv = 236, // 640x480 (60 Hz, interlaced, convolved). timingApplePAL_ST = 238, // 640x480 (50 Hz, interlaced, non-convolved). timingApplePAL_FF = 240, // 768x576 (50 Hz, interlaced, non-convolved). timingApplePAL_STconv = 242, // 640x480 (50 Hz, interlaced, non-convolved). timingApplePAL_FFconv = 244 // 768x576 (50 Hz, interlaced, non-convolved). }; // // Internal Routines // pascal void DrawDeskPattern(RgnHandle deskRgnToFill); void RecalcMenuBar(void); pascal void CalcMBHeight(void); pascal void DrawMBar(void); pascal void GetMenuRgn(RgnHandle mBarRgn); pascal void DM_RedrawAll(RgnHandle clobberedRgn); Boolean DM_HideCursor(void); void DM_ShowCursor(Boolean cursorHidden); void FixLowMem(GDHandle oldMainDevice, GDHandle newMainDevice, short deviceOffsetX, short deviceOffsetY); void FixPorts(GDHandle newMainDevice, Boolean alwaysRestoreColors, Rect* newMainRect, PixMapHandle newMainPixMap, Rect* oldMainRect, Ptr oldBaseAddress, CTabHandle oldCTable); void FixWindowMgrPorts(GDHandle newMainDevice); pascal void DisplayMgrInstall(void); pascal OSErr DM__GestaltProc(OSType selector, long* response); // Warning: DM_GetDisplayInfoByGDevice and DM_GetDisplayInfoByDisplayID() return a pointer into an unlocked handle, // so do not rely on them across call that might move memory. DisplayInfoPtr DM_GetDisplayInfoByGDevice(GDHandle displayDevice,Boolean failToMain); DisplayInfoPtr DM_GetDisplayInfoByDisplayID(DisplayIDType displayID,Boolean failToMain); OSErr DM_DeleteDisplayInfoByDisplayID(DisplayIDType displayID); OSErr DM_SetDisplayInfoByDisplayID(DisplayInfoPtr newDisplayInfo); pascal void DM_InitQDWorld(DisplayManagerGlobalsPtr dmGlobals); OSErr PrepImmediateUpdate(OSErr currentError, DisplaysStateHdl *displayState,THz *savedZone); OSErr FinishImmediateUpdate(OSErr currentError, DisplaysStateHdl displayState,THz savedZone); Boolean IsProcessMgrOkay(void); OSErr CallAllProcesses(ProcPtr theProc,Ptr userData); pascal void InterProcessChangeMainDevice(GDHandle newMainDevice); pascal void InterProcessChangedModes(GDHandle changedDevice); // // Trap Routines // pascal OSErr DM_InitDisplayManager(void); pascal OSErr DM_InstallDisplayManager(void); pascal OSErr DM_KillDisplayManager(void); pascal void DM_DrawDesktopRect(Rect *drawRect); pascal void DM_DrawDesktopRegion(RgnHandle drawRgn); pascal OSErr DM_SetDesktopIconRgn(RgnHandle iconRgn); pascal OSErr DM_GetDesktopIconRgn(RgnHandle *iconRgn); pascal void DM_ChangedDesktopIconRgn(void); pascal Boolean DM_DeskClick(EventRecord* theEvent); pascal OSErr DM_KeepWindowOnscreen(WindowPeek theWindow,RgnHandle oldGrayRgn); pascal OSErr DM_NotifyAllProcesses(DisplaysStateHdl displayState); pascal OSErr DM_GetROMMultiModeTable(MultiModeTablePtr* multiModeTable); pascal OSErr DM_GiveDeskTime(void); pascal OSErr DM_GetBestDepthModeInfo(GDHandle theDevice,VDSwitchInfoPtr modeInfo,unsigned long depthMode,short* bestDepth, Rect* modeRect); pascal OSErr DM_PrivateBeginConfigureDisplays(DisplaysStateHdl *displayState,Boolean internalCall); pascal OSErr DM_RemoveCurrentProcessProcs(void); pascal GDHandle DM_GetFirstScreenDevice(Boolean activeOnly); pascal GDHandle DM_GetNextScreenDevice(GDHandle theDevice,Boolean activeOnly); pascal OSErr DM_NewDisplay(GDHandle* newDevice,short driverRefNum,unsigned long mode,unsigned long reserved,DisplayIDType displayID,ComponentInstance displayComponent,DisplaysStateHdl displayState); pascal OSErr DM_DisposeDisplay(GDHandle disposeDevice,DisplaysStateHdl displayState); pascal OSErr DM_AddDisplay(GDHandle newDevice,short driver,unsigned long mode, unsigned long reserved,DisplayIDType displayID,ComponentInstance displayComponent,DisplaysStateHdl displayState); pascal OSErr DM_MoveDisplay(GDHandle moveDevice,short x,short y,DisplaysStateHdl displayState); pascal OSErr DM_EnableDisplay(GDHandle addDevice,DisplaysStateHdl displayState); pascal OSErr DM_DisableDisplay(GDHandle disableDevice,DisplaysStateHdl displayState); pascal OSErr DM_RemoveDisplay(GDHandle removeDevice,DisplaysStateHdl displayState); pascal OSErr DM_GetComponentAnimateTicks(ComponentInstance animationComponent,unsigned long *goodDelay,unsigned long *maxDelay); pascal OSErr DM_SetComponentAnimateTicks(ComponentInstance animationComponent,unsigned long goodDelay,unsigned long maxDelay); pascal OSErr DM_GetNextAnimateTime(unsigned long *nextAnimateTime); pascal OSErr DM_SetAnimateProcess(const ProcessSerialNumberPtr animateProcess); pascal OSErr DM_GetDeskRegion(RgnHandle* desktopRegion); pascal OSErr DM_GetGDeviceTablecloth(GDHandle displayDevice,ComponentInstance *tableclothInstance); pascal OSErr DM_SetGDeviceTablecloth(GDHandle displayDevice,ComponentInstance tableclothInstance); pascal OSErr DM_SetMainDisplay(GDHandle newMainDevice,DisplaysStateHdl displayState); pascal OSErr DM_SetDisplayMode(GDHandle theDevice,unsigned long mode,unsigned long *depthMode,VDSwitchInfoPtr switchModeInfo,DisplaysStateHdl displayState); pascal OSErr DM_BeginConfigureDisplays(DisplaysStateHdl *displayState); pascal OSErr DM_EndConfigureDisplays(DisplaysStateHdl displayState); pascal OSErr DM_RegisterNotifyProc(DMNotificationProcPtr notifyProc,ProcessSerialNumberPtr animateProcess); pascal OSErr DM_RegisterExtendedNotifyProc(DMExtendedNotificationProcPtr notifyProc,void* notifyUserData,unsigned short nofifyFlags,ProcessSerialNumberPtr notifyProcess); pascal OSErr DM_RemoveNotifyProc(DMNotificationProcPtr notifyProc,ProcessSerialNumberPtr animateProcess); pascal OSErr DM_GetDisplayMgrA5World(unsigned long* dmA5); pascal OSErr DM_MoveCursor(const Point* newMouse,const long* cursorDev); // cursorDev should be nil for now pascal OSErr DM_SwapDevices(GDHandle device1, GDHandle device2); pascal OSErr DM_GetDisplayIDByGDevice(GDHandle displayDevice, DisplayIDType *displayID, Boolean failToMain); pascal OSErr DM_GetGDeviceByDisplayID(DisplayIDType displayID, GDHandle* displayDevice, Boolean failToMain); pascal OSErr DM_QDIsMirroringCapable(Boolean *qdIsMirroringCapable); pascal OSErr DM_CanMirrorNow(Boolean *canMirrorNow); pascal OSErr DM_IsMirroringOn(Boolean *isMirroringOn); pascal OSErr DM_MirrorDevices(GDHandle gD1, GDHandle gD2, DisplaysStateHdl displayState); pascal OSErr DM_UnmirrorDevice(GDHandle gDevice, DisplaysStateHdl displayState); pascal OSErr DM_GetNextMirroredDevice(GDHandle gDevice, GDHandle *mirroredDevice); pascal OSErr DM_BlockMirroring(void); pascal OSErr DM_UnblockMirroring(void); pascal OSErr DM_SetDisplayComponent(GDHandle theDevice,ComponentInstance displayComponent); pascal OSErr DM_GetDisplayComponent(GDHandle theDevice,ComponentInstance *displayComponent); pascal OSErr DM_SetDisplayID(GDHandle theDevice,DisplayIDType displayID); // Utility Routines GDHandle FindMaxCoverageDevice(const Rect* windowRect); GDHandle FindClosestDevice(const Rect* windowRect); Boolean IsActiveScreenDevice(GDHandle theDevice,Boolean activeOnly); unsigned short GetActiveScreenDeviceCount(Boolean activeOnly); void GetWindowGlobalRegion(WindowPeek theWindow,RgnHandle windowRgn,Point *structOffset, Boolean isMovable,Boolean hasStructRgn); Rect* LocalPinRectToRect(Rect *r,Rect *pinRect); OSErr CheckExpandMem(Boolean allocateIfNeeded); Boolean DisplayHasMenu(GDHandle aDevice); void FindBestDepthMode(short theSlot,VDSwitchInfoPtr modeInfo,short desiredDepth); pascal void UpdateScreenBits(GDHandle newMainDevice); OSErr GetDeviceSlotInfo(GDHandle theDevice, unsigned short* theSlot,unsigned short* theID, unsigned short* theExtDev); OSErr GetTimingFromDecl(GDHandle theDevice,short displayType,VDTimingInfoPtr declTiming); OSErr DisplayManagerCloseViewCompatibility(GDHandle theGDevice,Rect* newDeviceRect,short newDepth); OSErr DisplayManagerAwareBitCompatibility(ProcessInfoRec *processInfo); void GetDisplayConfig(GDHandle displayDevice,DisplayConfigPtr displayConfig); OSErr BuildNotificationAppleEvent(DisplaysStateHdl displayState,AERecord *notifyRecord); OSErr BuildDisplayConfigHandle(DisplayConfigHdl *displayConfigs,short *displayCount); void InitAEDesc(AEDesc* theDesc); // Boolean TestFlagBit(unsigned long flagLong,short flagBit); // void SetFlagBit(unsigned long *flagLong,short flagBit); OSErr GetGDeviceVideoMode(GDHandle theDevice,VDSwitchInfoPtr videoMode,Boolean* driverHasGetCurMode); OSErr SwitchVideoMode(GDHandle theDevice,VDSwitchInfoPtr newMode); OSErr GetDisplayConnection(GDHandle theDevice,VDDisplayConnectInfoPtr connectInfo); OSErr GetTimingMode(GDHandle theDevice,VDTimingInfoPtr timingInfo); void InitNewDisplayInfo( DisplayIDType displayID, ComponentInstance displayComponent, GDHandle displayDevice, unsigned long displayFlags, unsigned long displayReserved, DisplayInfoPtr newdisplayInfo); // Display Component Calls // pascal ComponentResult DisplayComponentCheckDisplayMode(ComponentInstance displayComponent,GDHandle theDevice, VDDisplayConnectInfoPtr connectInfo,VDTimingInfoPtr modeTiming,unsigned short theDepth,unsigned long* switchFlags,unsigned long reserved,Boolean* modeValid) = ComponentCallNow(kDMComponentSelectorCheckMode, stacksizeof(VDDisplayConnectInfoPtr )+stacksizeof(VDTimingInfoPtr )+stacksizeof(unsigned short)+stacksizeof(unsigned long *)+ stacksizeof(unsigned long)+stacksizeof(Boolean *)); pascal ComponentResult DisplayComponentGetTagDisplayState(ComponentInstance displayComponent, short* isTagged) = ComponentCallNow(kDMComponentSelectorGetTag, stacksizeof(short *)); pascal ComponentResult DisplayComponentSetTagDisplayState(ComponentInstance displayComponent, short isTagged) = ComponentCallNow(kDMComponentSelectorSetTag, stacksizeof(short )); pascal ComponentResult DisplayComponentSetDisplayID(ComponentInstance displayComponent, DisplayIDType displayID) = ComponentCallNow(kDMComponentSelectorAssociateID, stacksizeof(DisplayIDType )); // Trap Interfaces // pascal OSErr DMInstallDisplayManager(void) = {0x70FF,_DisplayDispatch}; pascal OSErr DMInitDisplayManager(void) = {0x70FE,_DisplayDispatch}; pascal OSErr DMKillDisplayManager(void) = {0x70FD,_DisplayDispatch}; pascal OSErr DMSetDesktopIconRgn(RgnHandle iconRgn) = {0x303C,0x02FC,_DisplayDispatch}; pascal OSErr DMGetDesktopIconRgn(RgnHandle* iconRgn) = {0x303C,0x02FB,_DisplayDispatch}; // DMKeepWindowOnscreen Used in NuMonitors.p -- do not change here without changing there too pascal OSErr DMKeepWindowOnscreen(WindowPeek theWindow,RgnHandle oldGrayRgn) = {0x303C,0x04FA,_DisplayDispatch}; pascal OSErr DMNotifyAllProcesses(DisplaysStateHdl displayState) = {0x303C,0x02F9,_DisplayDispatch}; pascal OSErr DMSetAnimateProcess(const ProcessSerialNumberPtr animateProcess) = {0x303C,0x02F8,_DisplayDispatch}; // Used in Bungee Finder -- API FROZEN => do not change here without changing there too pascal OSErr DMChangedDesktopIconRgn(void) = {0x70F7,_DisplayDispatch}; // Used in Bungee Finder -- API FROZEN => do not change here without changing there too pascal Boolean DMDeskClick(const EventRecord* theEvent) = {0x303C,0x02F6,_DisplayDispatch}; pascal OSErr DMGetROMMultiModeTable(MultiModeTablePtr* multiModeTable) = {0x303C,0x02F5,_DisplayDispatch}; pascal OSErr DMGiveDeskTime(void) = {0x70F4,_DisplayDispatch}; pascal OSErr DMGetBestDepthModeInfo(GDHandle theDevice,VDSwitchInfoPtr modeInfo,unsigned long depthMode,short* bestDepth,Rect* modeRect) = {0x303C,0x0AF3,_DisplayDispatch}; pascal OSErr DMPrivateBeginConfigureDisplays(DisplaysStateHdl *displayState,Boolean internalCall) = {0x303C,0x03F2,_DisplayDispatch}; pascal OSErr DMRemoveCurrentProcessProcs(void) = {0x70F1,_DisplayDispatch}; pascal OSErr DMMoveCursor(Point* where, long* curDev) = {0x303C,0x04F0,_DisplayDispatch}; pascal OSErr DMRegisterExtendedNotifyProc(DMExtendedNotificationProcPtr notifyProc,void* notifyUserData,unsigned short nofifyFlags,ProcessSerialNumberPtr whichPSN) = {0x303C,0x07EF,_DisplayDispatch}; pascal OSErr DMSetDisplayID(GDHandle theDevice,DisplayIDType displayID) = {0x303C,0x04EE,_DisplayDispatch}; #endif