Developer CD Series 1994 November: Tool Chest

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C/C++ Source or Header | 1993-10-07 | 58.4 KB | 1,799 lines | [TEXT/MPS ]

/*------------------------------------------------------------------------------ # # Apple Macintosh Developer Technical Support # # MultiFinder-Aware Simple TextEdit Sample Application # # TESample # # This file: TESample.c - C Source # # Copyright © 1989 Apple Computer, Inc. # All rights reserved. # # Versions: # 1.00 08/88 # 1.01 11/88 # 1.02 04/89 # 1.03 06/89 # # Components: # TESample.p June 1, 1989 # TESample.c June 1, 1989 # TESampleGlue.a June 1, 1989 -MPW only- # TESample.r June 1, 1989 # TESample.h June 1, 1989 # PTESample.make June 1, 1989 -MPW only- # CTESample.make June 1, 1989 -MPW only- # TESampleGlue.s June 1, 1989 -A/UX only- # TESampleAUX.r June 1, 1989 -A/UX only- # Makefile June 1, 1989 -A/UX only- # # TESample is an example application that demonstrates how # to initialize the commonly used toolbox managers, operate # successfully under MultiFinder, handle desk accessories and # create, grow, and zoom windows. The fundamental TextEdit # toolbox calls and TextEdit autoscroll are demonstrated. It # also shows how to create and maintain scrollbar controls. # # It does not by any means demonstrate all the techniques you # need for a large application. In particular, Sample does not # cover exception handling, multiple windows/documents, # sophisticated memory management, printing, or undo. All of # these are vital parts of a normal full-sized application. # # This application is an example of the form of a Macintosh # application; it is NOT a template. It is NOT intended to be # used as a foundation for the next world-class, best-selling, # 600K application. A stick figure drawing of the human body may # be a good example of the form for a painting, but that does not # mean it should be used as the basis for the next Mona Lisa. # # We recommend that you review this program or Sample before # beginning a new application. Sample is a simple app. which doesn’t # use TextEdit or the Control Manager. # ------------------------------------------------------------------------------*/ /* Segmentation strategy: This program consists of three segments. Main contains most of the code, including the MPW libraries, and the main program. Initialize contains code that is only used once, during startup, and can be unloaded after the program starts. %A5Init is automatically created by the Linker to initialize globals for the MPW libraries and is unloaded right away. */ /* SetPort strategy: Toolbox routines do not change the current port. In spite of this, in this program we use a strategy of calling SetPort whenever we want to draw or make calls which depend on the current port. This makes us less vulnerable to bugs in other software which might alter the current port (such as the bug (feature?) in many desk accessories which change the port on OpenDeskAcc). Hopefully, this also makes the routines from this program more self-contained, since they don't depend on the current port setting. */ /* Clipboard strategy: This program does not maintain a private scrap. Whenever a cut, copy, or paste occurs, we import/export from the public scrap to TextEdit's scrap right away, using the TEToScrap and TEFromScrap routines. If we did use a private scrap, the import/export would be in the activate/deactivate event and suspend/resume event routines. */ /* A/UX is case sensitive, so use correct case for include file names */ #ifndef THINK_C #include <values.h> #include <types.h> #include <quickdraw.h> #include <fonts.h> #include <events.h> #include <controls.h> #include <windows.h> #include <menus.h> #include <textedit.h> #include <dialogs.h> #include <desk.h> #include <scrap.h> #include <toolutils.h> #include <memory.h> #include <segload.h> #include <files.h> #include <osutils.h> #include <osevents.h> #include <diskinit.h> #endif #include <qdoffscreen.h> #include <packages.h> #include "TESample.h" /* bring in all the #defines for TESample */ #include <traps.h> /* A DocumentRecord contains the WindowRecord for one of our document windows, as well as the TEHandle for the text we are editing. Other document fields can be added to this record as needed. For a similar example, see how the Window Manager and Dialog Manager add fields after the GrafPort. */ typedef struct { WindowRecord docWindow; TEHandle docTE; ControlHandle docVScroll; ControlHandle docHScroll; ProcPtr docClik; GWorldPtr docImage; } DocumentRecord, *DocumentPeek; /* The "g" prefix is used to emphasize that a variable is global. */ /* GMac is used to hold the result of a SysEnvirons call. This makes it convenient for any routine to check the environment. It is global information, anyway. */ SysEnvRec gMac; /* set up by Initialize */ /* GHasWaitNextEvent is set at startup, and tells whether the WaitNextEvent trap is available. If it is false, we know that we must call GetNextEvent. */ Boolean gHasWaitNextEvent; /* set up by Initialize */ /* GInBackground is maintained by our OSEvent handling routines. Any part of the program can check it to find out if it is currently in the background. */ Boolean gInBackground; /* maintained by Initialize and DoEvent */ /* GNumDocuments is used to keep track of how many open documents there are at any time. It is maintained by the routines that open and close documents. */ short gNumDocuments; /* maintained by Initialize, DoNew, and DoCloseWindow */ /* Here are declarations for all of the C routines. In MPW 3.0 we can use actual prototypes for parameter type checking. A/UX C does not grok prototypes, so eliminate them under A/UX */ void AlertUser( short error ); void EventLoop( void ); void DoEvent( EventRecord *event ); void AdjustCursor( Point mouse, RgnHandle region ); void GetGlobalMouse( Point *mouse ); void DoGrowWindow( WindowPtr window, EventRecord *event ); void DoZoomWindow( WindowPtr window, short part ); void ResizeWindow( WindowPtr window ); void GetLocalUpdateRgn( WindowPtr window, RgnHandle localRgn ); void DoUpdate( WindowPtr window ); void PaintImage( void ); void DoDeactivate( WindowPtr window ); void DoActivate( WindowPtr window, Boolean becomingActive ); void DoContentClick( WindowPtr window, EventRecord *event ); void DoKeyDown( EventRecord *event ); unsigned long GetSleep( void ); void CommonAction( ControlHandle control, short *amount ); pascal void VActionProc( ControlHandle control, short part ); pascal void HActionProc( ControlHandle control, short part ); void DoIdle( void ); void DrawWindow( WindowPtr window ); void AdjustMenus( void ); void DoMenuCommand( long menuResult ); pascal void CustomRect( GrafVerb verb, Rect *destRect); pascal void CustomRgn( GrafVerb verb, RgnHandle destRgn); void DoNew( void ); Boolean DoCloseWindow( WindowPtr window ); void Terminate( void ); void Initialize( void ); void BigBadError( short error ); void GetTERect( WindowPtr window, Rect *teRect ); void AdjustViewRect( TEHandle docTE ); void AdjustTE( WindowPtr window ); void AdjustHV( Boolean isVert, ControlHandle control, TEHandle docTE, Boolean canRedraw ); void AdjustScrollValues( WindowPtr window, Boolean canRedraw ); void AdjustScrollSizes( WindowPtr window ); void AdjustScrollbars( WindowPtr window, Boolean needsResize ); pascal void PascalClikLoop(void); pascal ProcPtr GetOldClikLoop(void); Boolean IsAppWindow( WindowPtr window ); Boolean IsDAWindow( WindowPtr window ); Boolean TrapAvailable( short tNumber, TrapType tType ); /* Define HiWrd and LoWrd macros for efficiency. */ #define HiWrd(aLong) (((aLong) >> 16) & 0xFFFF) #define LoWrd(aLong) ((aLong) & 0xFFFF) /* Define TopLeft and BotRight macros for convenience. Notice the implicit dependency on the ordering of fields within a Rect */ #define TopLeft(aRect) (* (Point *) &(aRect).top) #define BotRight(aRect) (* (Point *) &(aRect).bottom) /* This routine is part of the MPW runtime library. This external reference to it is done so that we can unload its segment, %A5Init. */ #ifndef THINK_C extern void _DataInit(); #endif /* A reference to our assembly language routine that gets attached to the clikLoop field of our TE record. */ extern pascal void AsmClikLoop(); #pragma segment Main main() { #ifndef THINK_C UnloadSeg((Ptr) _DataInit); /* note that _DataInit must not be in Main! */ #endif /* 1.01 - call to ForceEnvirons removed */ /* If you have stack requirements that differ from the default, then you could use SetApplLimit to increase StackSpace at this point, before calling MaxApplZone. */ MaxApplZone(); /* expand the heap so code segments load at the top */ Initialize(); /* initialize the program */ #ifndef THINK_C UnloadSeg((Ptr) Initialize); /* note that Initialize must not be in Main! */ #endif EventLoop(); /* call the main event loop */ } /* Get events forever, and handle them by calling DoEvent. Also call AdjustCursor each time through the loop. */ #pragma segment Main void EventLoop() { RgnHandle cursorRgn; Boolean gotEvent; EventRecord event; Point mouse; cursorRgn = NewRgn(); /* we’ll pass WNE an empty region the 1st time thru */ do { /* use WNE if it is available */ if ( gHasWaitNextEvent ) { GetGlobalMouse(&mouse); AdjustCursor(mouse, cursorRgn); gotEvent = WaitNextEvent(everyEvent, &event, GetSleep(), cursorRgn); } else { SystemTask(); gotEvent = GetNextEvent(everyEvent, &event); } if ( gotEvent ) { /* make sure we have the right cursor before handling the event */ AdjustCursor(event.where, cursorRgn); DoEvent(&event); } else DoIdle(); /* perform idle tasks when it’s not our event */ /* If you are using modeless dialogs that have editText items, you will want to call IsDialogEvent to give the caret a chance to blink, even if WNE/GNE returned FALSE. However, check FrontWindow for a non-NIL value before calling IsDialogEvent. */ } while ( true ); /* loop forever; we quit via ExitToShell */ } /*EventLoop*/ /* Do the right thing for an event. Determine what kind of event it is, and call the appropriate routines. */ #pragma segment Main void DoEvent(event) EventRecord *event; { short part, err; WindowPtr window; char key; Point aPoint; switch ( event->what ) { case nullEvent: /* we idle for null/mouse moved events ands for events which aren’t ours (see EventLoop) */ DoIdle(); break; case mouseDown: part = FindWindow(event->where, &window); switch ( part ) { case inMenuBar: /* process a mouse menu command (if any) */ AdjustMenus(); /* bring ’em up-to-date */ DoMenuCommand(MenuSelect(event->where)); break; case inSysWindow: /* let the system handle the mouseDown */ SystemClick(event, window); break; case inContent: if ( window != FrontWindow() ) { SelectWindow(window); /*DoEvent(event);*/ /* use this line for "do first click" */ } else DoContentClick(window, event); break; case inDrag: /* pass screenBits.bounds to get all gDevices */ DragWindow(window, event->where, &qd.screenBits.bounds); break; case inGoAway: if ( TrackGoAway(window, event->where) ) DoCloseWindow(window); /* we don’t care if the user cancelled */ break; case inGrow: DoGrowWindow(window, event); break; case inZoomIn: case inZoomOut: if ( TrackBox(window, event->where, part) ) DoZoomWindow(window, part); break; } break; case keyDown: case autoKey: /* check for menukey equivalents */ key = event->message & charCodeMask; if ( event->modifiers & cmdKey ) { /* Command key down */ if ( event->what == keyDown ) { AdjustMenus(); /* enable/disable/check menu items properly */ DoMenuCommand(MenuKey(key)); } } else DoKeyDown(event); break; case activateEvt: DoActivate((WindowPtr) event->message, (event->modifiers & activeFlag) != 0); break; case updateEvt: DoUpdate((WindowPtr) event->message); break; /* 1.01 - It is not a bad idea to at least call DIBadMount in response to a diskEvt, so that the user can format a floppy. */ case diskEvt: if ( HiWord(event->message) != noErr ) { SetPt(&aPoint, kDILeft, kDITop); err = DIBadMount(aPoint, event->message); } break; case kOSEvent: /* 1.02 - must BitAND with 0x0FF to get only low byte */ switch ((event->message >> 24) & 0x0FF) { /* high byte of message */ case kMouseMovedMessage: DoIdle(); /* mouse-moved is also an idle event */ break; case kSuspendResumeMessage: /* suspend/resume is also an activate/deactivate */ gInBackground = (event->message & kResumeMask) == 0; DoActivate(FrontWindow(), !gInBackground); break; } break; } } /*DoEvent*/ /* Change the cursor's shape, depending on its position. This also calculates the region where the current cursor resides (for WaitNextEvent). When the mouse moves outside of this region, an event is generated. If there is more to the event than just “the mouse moved”, we get called before the event is processed to make sure the cursor is the right one. In any (ahem) event, this is called again before we fall back into WNE. */ #pragma segment Main void AdjustCursor(mouse,region) Point mouse; RgnHandle region; { WindowPtr window; RgnHandle arrowRgn; RgnHandle iBeamRgn; Rect iBeamRect; window = FrontWindow(); /* we only adjust the cursor when we are in front */ if ( (! gInBackground) && (! IsDAWindow(window)) ) { /* calculate regions for different cursor shapes */ arrowRgn = NewRgn(); iBeamRgn = NewRgn(); /* start arrowRgn wide open */ SetRectRgn(arrowRgn, kExtremeNeg, kExtremeNeg, kExtremePos, kExtremePos); /* calculate iBeamRgn */ if ( IsAppWindow(window) ) { iBeamRect = (*((DocumentPeek) window)->docTE)->viewRect; SetPort(window); /* make a global version of the viewRect */ LocalToGlobal(&TopLeft(iBeamRect)); LocalToGlobal(&BotRight(iBeamRect)); RectRgn(iBeamRgn, &iBeamRect); /* we temporarily change the port’s origin to “globalfy” the visRgn */ SetOrigin(-window->portBits.bounds.left, -window->portBits.bounds.top); SectRgn(iBeamRgn, window->visRgn, iBeamRgn); SetOrigin(0, 0); } /* subtract other regions from arrowRgn */ DiffRgn(arrowRgn, iBeamRgn, arrowRgn); /* change the cursor and the region parameter */ if ( PtInRgn(mouse, iBeamRgn) ) { SetCursor(*GetCursor(iBeamCursor)); CopyRgn(iBeamRgn, region); } else { SetCursor(&qd.arrow); CopyRgn(arrowRgn, region); } DisposeRgn(arrowRgn); DisposeRgn(iBeamRgn); } } /*AdjustCursor*/ /* Get the global coordinates of the mouse. When you call OSEventAvail it will return either a pending event or a null event. In either case, the where field of the event record will contain the current position of the mouse in global coordinates and the modifiers field will reflect the current state of the modifiers. Another way to get the global coordinates is to call GetMouse and LocalToGlobal, but that requires being sure that thePort is set to a valid port. */ #pragma segment Main void GetGlobalMouse(mouse) Point *mouse; { EventRecord event; OSEventAvail(kNoEvents, &event); /* we aren't interested in any events */ *mouse = event.where; /* just the mouse position */ } /*GetGlobalMouse*/ /* Called when a mouseDown occurs in the grow box of an active window. In order to eliminate any 'flicker', we want to invalidate only what is necessary. Since ResizeWindow invalidates the whole portRect, we save the old TE viewRect, intersect it with the new TE viewRect, and remove the result from the update region. However, we must make sure that any old update region that might have been around gets put back. */ #pragma segment Main void DoGrowWindow(window,event) WindowPtr window; EventRecord *event; { long growResult; Rect tempRect; RgnHandle tempRgn; DocumentPeek doc; tempRect = qd.screenBits.bounds; /* set up limiting values */ tempRect.left = kMinDocDim; tempRect.top = kMinDocDim; growResult = GrowWindow(window, event->where, &tempRect); /* see if it really changed size */ if ( growResult != 0 ) { doc = (DocumentPeek) window; tempRect = (*doc->docTE)->viewRect; /* save old text box */ tempRgn = NewRgn(); GetLocalUpdateRgn(window, tempRgn); /* get localized update region */ SizeWindow(window, LoWrd(growResult), HiWrd(growResult), true); ResizeWindow(window); /* calculate & validate the region that hasn’t changed so it won’t get redrawn */ SectRect(&tempRect, &(*doc->docTE)->viewRect, &tempRect); ValidRect(&tempRect); /* take it out of update */ InvalRgn(tempRgn); /* put back any prior update */ DisposeRgn(tempRgn); } } /* DoGrowWindow */ /* Called when a mouseClick occurs in the zoom box of an active window. Everything has to get re-drawn here, so we don't mind that ResizeWindow invalidates the whole portRect. */ #pragma segment Main void DoZoomWindow(window,part) WindowPtr window; short part; { EraseRect(&window->portRect); ZoomWindow(window, part, window == FrontWindow()); ResizeWindow(window); } /* DoZoomWindow */ /* Called when the window has been resized to fix up the controls and content. */ #pragma segment Main void ResizeWindow(window) WindowPtr window; { CGrafPtr savedPort; /* Saves the current port for later restoring */ GDHandle savedDevice; /* Saves the current GDevice for later restoring */ AdjustScrollbars(window, true); AdjustTE(window); InvalRect(&window->portRect); /* Resize the background image to the new size of the window */ GetGWorld( /*<*/&savedPort, /*<*/&savedDevice ); UpdateGWorld( &((DocumentPeek)window)->docImage, 0, &window->portRect, nil, nil, 0 ); SetGWorld( ((DocumentPeek)window)->docImage, nil ); PaintImage(); SetGWorld( savedPort, savedDevice ); } /* ResizeWindow */ /* Returns the update region in local coordinates */ #pragma segment Main void GetLocalUpdateRgn(window,localRgn) WindowPtr window; RgnHandle localRgn; { CopyRgn(((WindowPeek) window)->updateRgn, localRgn); /* save old update region */ OffsetRgn(localRgn, window->portBits.bounds.left, window->portBits.bounds.top); } /* GetLocalUpdateRgn */ /* This is called when an update event is received for a window. It calls DrawWindow to draw the contents of an application window. As an efficiency measure that does not have to be followed, it calls the drawing routine only if the visRgn is non-empty. This will handle situations where calculations for drawing or drawing itself is very time-consuming. */ #pragma segment Main void DoUpdate(window) WindowPtr window; { if ( IsAppWindow(window) ) { BeginUpdate(window); /* this sets up the visRgn */ if ( ! EmptyRgn(window->visRgn) ) /* draw if updating needs to be done */ DrawWindow(window); EndUpdate(window); } } /*DoUpdate*/ static void PaintImage() { CGrafPtr savedPort; /* Pointer to saved CGrafPort for later restoring */ GDHandle savedGDevice; /* Handle to saved GDevice for later restoring */ RGBColor rampColor; /* Color to use when drawing a step of the ramp */ short maxRampCount; /* Number of pixels in a ramp */ short rampWidth; /* Width of each ramp in pixels */ short rampFactor; /* Value to set a color component to in a ramp */ short pinFactor; /* Value to pin a color component to in a ramp */ short x; /* Horizontal coordinate to draw ramp step */ short y; /* Vertical coordinate to draw ramp step */ GetGWorld( /*<*/&savedPort, /*<*/&savedGDevice ); /* Pin component values at $0000 first, then at $FFFF */ maxRampCount = savedPort->portRect.bottom - savedPort->portRect.top; rampWidth = (savedPort->portRect.right - savedPort->portRect.left) / 16; for (pinFactor = 0; pinFactor >= -1; pinFactor--) { /* Loop on y coordinate over entire GrafPort */ for (y = 0; y < maxRampCount; y++) { /* Calculate value of components that are dynamic in a ramp */ rampFactor = y * 65535 / maxRampCount; if (pinFactor == -1) { /* If pinning at $FFFF, then use one’s comp of rampFactor */ rampFactor ^= 0xFFFF; x = rampWidth; } else x = 0; rampColor.red = rampFactor; rampColor.green = rampFactor; rampColor.blue = rampFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.blue = pinFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.green = pinFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.blue = rampFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.red = pinFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.green = rampFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.blue = pinFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); x += rampWidth * 2; rampColor.green = pinFactor; RGBForeColor( &rampColor ); MoveTo( x, y ); Line( rampWidth, 0 ); } } } /* This is called when a window is activated or deactivated. It calls TextEdit to deal with the selection. */ #pragma segment Main void DoActivate(window, becomingActive) WindowPtr window; Boolean becomingActive; { RgnHandle tempRgn, clipRgn; Rect growRect; DocumentPeek doc; if ( IsAppWindow(window) ) { doc = (DocumentPeek) window; if ( becomingActive ) { /* since we don’t want TEActivate to draw a selection in an area where we’re going to erase and redraw, we’ll clip out the update region before calling it. */ tempRgn = NewRgn(); clipRgn = NewRgn(); GetLocalUpdateRgn(window, tempRgn); /* get localized update region */ GetClip(clipRgn); DiffRgn(clipRgn, tempRgn, tempRgn); /* subtract updateRgn from clipRgn */ SetClip(tempRgn); TEActivate(doc->docTE); SetClip(clipRgn); /* restore the full-blown clipRgn */ DisposeRgn(tempRgn); DisposeRgn(clipRgn); /* the controls must be redrawn on activation: */ (*doc->docVScroll)->contrlVis = kControlVisible; (*doc->docHScroll)->contrlVis = kControlVisible; InvalRect(&(*doc->docVScroll)->contrlRect); InvalRect(&(*doc->docHScroll)->contrlRect); /* the growbox needs to be redrawn on activation: */ growRect = window->portRect; /* adjust for the scrollbars */ growRect.top = growRect.bottom - kScrollbarAdjust; growRect.left = growRect.right - kScrollbarAdjust; InvalRect(&growRect); } else { TEDeactivate(doc->docTE); /* the controls must be hidden on deactivation: */ HideControl(doc->docVScroll); HideControl(doc->docHScroll); /* the growbox should be changed immediately on deactivation: */ DrawGrowIcon(window); } } } /*DoActivate*/ /* This is called when a mouseDown occurs in the content of a window. */ #pragma segment Main void DoContentClick(window,event) WindowPtr window; EventRecord *event; { Point mouse; ControlHandle control; short part, value; Boolean shiftDown; DocumentPeek doc; Rect teRect; if ( IsAppWindow(window) ) { SetPort(window); mouse = event->where; /* get the click position */ GlobalToLocal(&mouse); doc = (DocumentPeek) window; /* see if we are in the viewRect. if so, we won’t check the controls */ GetTERect(window, &teRect); if ( PtInRect(mouse, &teRect) ) { /* see if we need to extend the selection */ shiftDown = (event->modifiers & shiftKey) != 0; /* extend if Shift is down */ TEClick(mouse, shiftDown, doc->docTE); } else { part = FindControl(mouse, window, &control); switch ( part ) { case 0: /* do nothing for viewRect case */ break; case inThumb: value = GetCtlValue(control); part = TrackControl(control, mouse, nil); if ( part != 0 ) { value -= GetCtlValue(control); /* value now has CHANGE in value; if value changed, scroll */ if ( value != 0 ) if ( control == doc->docVScroll ) TEScroll(0, value * (*doc->docTE)->lineHeight, doc->docTE); else TEScroll(value, 0, doc->docTE); } break; default: /* they clicked in an arrow, so track & scroll */ if ( control == doc->docVScroll ) value = TrackControl(control, mouse, (ProcPtr) VActionProc); else value = TrackControl(control, mouse, (ProcPtr) HActionProc); break; } } } } /*DoContentClick*/ /* This is called for any keyDown or autoKey events, except when the Command key is held down. It looks at the frontmost window to decide what to do with the key typed. */ #pragma segment Main void DoKeyDown(event) EventRecord *event; { WindowPtr window; char key; TEHandle te; window = FrontWindow(); if ( IsAppWindow(window) ) { te = ((DocumentPeek) window)->docTE; key = event->message & charCodeMask; /* we have a char. for our window; see if we are still below TextEdit’s limit for the number of characters (but deletes are always rad) */ if ( key == kDelChar || (*te)->teLength - ((*te)->selEnd - (*te)->selStart) + 1 < kMaxTELength ) { TEKey(key, te); AdjustScrollbars(window, false); AdjustTE(window); } else AlertUser(eExceedChar); } } /*DoKeyDown*/ /* Calculate a sleep value for WaitNextEvent. This takes into account the things that DoIdle does with idle time. */ #pragma segment Main unsigned long GetSleep() { long sleep; WindowPtr window; TEHandle te; sleep = 60; /* default value for sleep */ if ( !gInBackground ) { window = FrontWindow(); /* and the front window is ours... */ if ( IsAppWindow(window) ) { te = ((DocumentPeek) (window))->docTE; /* and the selection is an insertion point... */ if ( (*te)->selStart == (*te)->selEnd ) sleep = GetCaretTime(); /* blink time for the insertion point */ } } return sleep; } /*GetSleep*/ /* Common algorithm for pinning the value of a control. It returns the actual amount the value of the control changed. Note the pinning is done for the sake of returning the amount the control value changed. */ #pragma segment Main void CommonAction(control,amount) ControlHandle control; short *amount; { short value, max; value = GetCtlValue(control); /* get current value */ max = GetCtlMax(control); /* and maximum value */ *amount = value - *amount; if ( *amount < 0 ) *amount = 0; else if ( *amount > max ) *amount = max; SetCtlValue(control, *amount); *amount = value - *amount; /* calculate the real change */ } /* CommonAction */ /* Determines how much to change the value of the vertical scrollbar by and how much to scroll the TE record. */ #pragma segment Main pascal void VActionProc(control,part) ControlHandle control; short part; { short amount; WindowPtr window; TEPtr te; if ( part != 0 ) { /* if it was actually in the control */ window = (*control)->contrlOwner; te = *((DocumentPeek) window)->docTE; switch ( part ) { case inUpButton: case inDownButton: /* one line */ amount = 1; break; case inPageUp: /* one page */ case inPageDown: amount = (te->viewRect.bottom - te->viewRect.top) / te->lineHeight; break; } if ( (part == inDownButton) || (part == inPageDown) ) amount = -amount; /* reverse direction for a downer */ CommonAction(control, &amount); if ( amount != 0 ) TEScroll(0, amount * te->lineHeight, ((DocumentPeek) window)->docTE); } } /* VActionProc */ /* Determines how much to change the value of the horizontal scrollbar by and how much to scroll the TE record. */ #pragma segment Main pascal void HActionProc(control,part) ControlHandle control; short part; { short amount; WindowPtr window; TEPtr te; if ( part != 0 ) { window = (*control)->contrlOwner; te = *((DocumentPeek) window)->docTE; switch ( part ) { case inUpButton: case inDownButton: /* a few pixels */ amount = kButtonScroll; break; case inPageUp: /* a page */ case inPageDown: amount = te->viewRect.right - te->viewRect.left; break; } if ( (part == inDownButton) || (part == inPageDown) ) amount = -amount; /* reverse direction */ CommonAction(control, &amount); if ( amount != 0 ) TEScroll(amount, 0, ((DocumentPeek) window)->docTE); } } /* VActionProc */ /* This is called whenever we get a null event et al. It takes care of necessary periodic actions. For this program, it calls TEIdle. */ #pragma segment Main void DoIdle() { WindowPtr window; window = FrontWindow(); if ( IsAppWindow(window) ) TEIdle(((DocumentPeek) window)->docTE); } /*DoIdle*/ /* Draw the contents of an application window. */ #pragma segment Main void DrawWindow(window) WindowPtr window; { SetPort(window); EraseRect( &window->portRect ); DrawControls(window); DrawGrowIcon(window); TEUpdate(&window->portRect, ((DocumentPeek) window)->docTE); } /*DrawWindow*/ /* Enable and disable menus based on the current state. The user can only select enabled menu items. We set up all the menu items before calling MenuSelect or MenuKey, since these are the only times that a menu item can be selected. Note that MenuSelect is also the only time the user will see menu items. This approach to deciding what enable/ disable state a menu item has the advantage of concentrating all the decision-making in one routine, as opposed to being spread throughout the application. Other application designs may take a different approach that may or may not be as valid. */ #pragma segment Main void AdjustMenus() { WindowPtr window; MenuHandle menu; long offset; Boolean undo; Boolean cutCopyClear; Boolean paste; TEHandle te; window = FrontWindow(); menu = GetMHandle(mFile); if ( gNumDocuments < kMaxOpenDocuments ) EnableItem(menu, iNew); /* New is enabled when we can open more documents */ else DisableItem(menu, iNew); if ( window != nil ) /* Close is enabled when there is a window to close */ EnableItem(menu, iClose); else DisableItem(menu, iClose); menu = GetMHandle(mEdit); undo = false; cutCopyClear = false; paste = false; if ( IsDAWindow(window) ) { undo = true; /* all editing is enabled for DA windows */ cutCopyClear = true; paste = true; } else if ( IsAppWindow(window) ) { te = ((DocumentPeek) window)->docTE; if ( (*te)->selStart < (*te)->selEnd ) cutCopyClear = true; /* Cut, Copy, and Clear is enabled for app. windows with selections */ if ( GetScrap(nil, 'TEXT', &offset) > 0) paste = true; /* if there’s any text in the clipboard, paste is enabled */ } if ( undo ) EnableItem(menu, iUndo); else DisableItem(menu, iUndo); if ( cutCopyClear ) { EnableItem(menu, iCut); EnableItem(menu, iCopy); EnableItem(menu, iClear); } else { DisableItem(menu, iCut); DisableItem(menu, iCopy); DisableItem(menu, iClear); } if ( paste ) EnableItem(menu, iPaste); else DisableItem(menu, iPaste); } /*AdjustMenus*/ /* This is called when an item is chosen from the menu bar (after calling MenuSelect or MenuKey). It does the right thing for each command. */ #pragma segment Main void DoMenuCommand(menuResult) long menuResult; { short menuID, menuItem; short itemHit, daRefNum; Str255 daName; OSErr saveErr; TEHandle te; WindowPtr window; Handle aHandle; long oldSize, newSize; long total, contig; window = FrontWindow(); menuID = HiWord(menuResult); /* use macros for efficiency to... */ menuItem = LoWord(menuResult); /* get menu item number and menu number */ switch ( menuID ) { case mApple: switch ( menuItem ) { case iAbout: /* bring up alert for About */ itemHit = Alert(rAboutAlert, nil); break; default: /* all non-About items in this menu are DAs et al */ /* type Str255 is an array in MPW 3 */ GetItem(GetMHandle(mApple), menuItem, daName); daRefNum = OpenDeskAcc(daName); break; } break; case mFile: switch ( menuItem ) { case iNew: DoNew(); break; case iClose: DoCloseWindow(FrontWindow()); /* ignore the result */ break; case iQuit: Terminate(); break; } break; case mEdit: /* call SystemEdit for DA editing & MultiFinder */ if ( !SystemEdit(menuItem-1) ) { te = ((DocumentPeek) FrontWindow())->docTE; switch ( menuItem ) { case iCut: if ( ZeroScrap() == noErr ) { PurgeSpace(&total, &contig); if ((*te)->selEnd - (*te)->selStart + kTESlop > contig) AlertUser(eNoSpaceCut); else { TECut(te); if ( TEToScrap() != noErr ) { AlertUser(eNoCut); ZeroScrap(); } } } break; case iCopy: if ( ZeroScrap() == noErr ) { TECopy(te); /* after copying, export the TE scrap */ if ( TEToScrap() != noErr ) { AlertUser(eNoCopy); ZeroScrap(); } } break; case iPaste: /* import the TE scrap before pasting */ if ( TEFromScrap() == noErr ) { if ( TEGetScrapLen() + ((*te)->teLength - ((*te)->selEnd - (*te)->selStart)) > kMaxTELength ) AlertUser(eExceedPaste); else { aHandle = (Handle) TEGetText(te); oldSize = GetHandleSize(aHandle); newSize = oldSize + TEGetScrapLen() + kTESlop; SetHandleSize(aHandle, newSize); saveErr = MemError(); SetHandleSize(aHandle, oldSize); if (saveErr != noErr) AlertUser(eNoSpacePaste); else TEPaste(te); } } else AlertUser(eNoPaste); break; case iClear: TEDelete(te); break; } AdjustScrollbars(window, false); AdjustTE(window); } break; } HiliteMenu(0); /* unhighlight what MenuSelect (or MenuKey) hilited */ } /*DoMenuCommand*/ pascal void CustomRect( GrafVerb verb, /* Operation to perform */ Rect *destRect) /* Rectangle to be drawn */ { GrafPtr currPort; /* Port that this bottleneck is attached to */ GWorldPtr backImage; /* The window’s background image */ TEHandle docText; /* Document’s TextEdit record */ RgnHandle clippedDestRgn; /* Region that covers clippedDestRect area */ RgnHandle destRectRgn; /* Region that covers destRect */ Rect textRect; /* Copy of the TextEdit record’s viewRect */ Rect clippedDestRect; /* Rectangle to copy GWorld into */ Rect clippedSourceRect; /* Rectangle to copy GWorld image from */ short horzOffset; /* Horizontal offset of destRect from viewRect */ short vertOffset; /* Vertical offset of destRect from viewRect */ if (verb == erase) { /* Get the document’s background image and TextEdit record */ GetPort( /*<*/&currPort ); backImage = ((DocumentPeek)currPort)->docImage; docText = ((DocumentPeek)currPort)->docTE; textRect = (**docText).viewRect; /* Get the amount that the TextEdit record is scrolled */ horzOffset = textRect.left - (**docText).destRect.left; vertOffset = textRect.top - (**docText).destRect.top; /* Source rect is dest rect scrolled, clipped to viewRect and off-screen port */ clippedSourceRect = *destRect; SectRect( &clippedSourceRect, &textRect, /*<*/&clippedSourceRect ); OffsetRect( /*◊*/&clippedSourceRect, horzOffset, vertOffset ); SectRect( &clippedSourceRect, &backImage->portRect, /*<*/&clippedSourceRect ); /* Dest rect is clipped to viewRect and same size and source rect */ clippedDestRect = *destRect; SectRect( &clippedDestRect, &textRect, /*<*/&clippedDestRect ); clippedDestRect.right = clippedDestRect.left + (clippedSourceRect.right - clippedSourceRect.left); clippedDestRect.bottom = clippedDestRect.top + (clippedSourceRect.bottom - clippedSourceRect.top); /* Draw the background instead of erasing */ CopyBits( &((GrafPtr)backImage)->portBits, &currPort->portBits, &clippedSourceRect, &clippedDestRect, srcCopy, nil ); /* Erase the area outside of the area of the background */ clippedDestRgn = NewRgn(); destRectRgn = NewRgn(); RectRgn( clippedDestRgn, &clippedDestRect ); RectRgn( destRectRgn, destRect ); DiffRgn( destRectRgn, clippedDestRgn, clippedDestRgn ); StdRgn( erase, clippedDestRgn ); DisposeRgn( clippedDestRgn ); DisposeRgn( destRectRgn ); } else if (verb == invert) { /* Turn off colored hilighting so that we can see something */ *((char *)0x0938) |= 0x80; StdRect( verb, destRect ); } else /* Nothing special; just call original bottleneck */ StdRect( verb, destRect ); } pascal void CustomRgn( GrafVerb verb, /* Operation to perform */ RgnHandle destRgn) /* Region to be drawn */ { GrafPtr currPort; /* Port that this bottleneck is attached to */ GWorldPtr backImage; /* The window’s background image */ TEHandle docText; /* Document’s TextEdit record */ Rect textRect; /* Copy of the TextEdit record’s viewRect */ Rect clippedDestRect; /* Rectangle to copy GWorld into */ Rect clippedSourceRect; /* Rectangle to copy GWorld image from */ Rect destRect; /* Rectangle that circumscribes destRgn */ short horzOffset; /* Horizontal offset of destRect from viewRect */ short vertOffset; /* Vertical offset of destRect from viewRect */ if (verb == erase) { /* Get the document’s background image and TextEdit record */ GetPort( /*<*/&currPort ); backImage = ((DocumentPeek)currPort)->docImage; docText = ((DocumentPeek)currPort)->docTE; textRect = (**docText).viewRect; destRect = (**destRgn).rgnBBox; /* Get the amount that the TextEdit record is scrolled */ horzOffset = textRect.left - (**docText).destRect.left; vertOffset = textRect.top - (**docText).destRect.top; /* Source rect is dest rect scrolled, clipped to viewRect and off-screen port */ clippedSourceRect = destRect; SectRect( &clippedSourceRect, &textRect, /*<*/&clippedSourceRect ); OffsetRect( /*◊*/&clippedSourceRect, horzOffset, vertOffset ); SectRect( &clippedSourceRect, &backImage->portRect, /*<*/&clippedSourceRect ); /* Dest rect is clipped to viewRect and same size and source rect */ clippedDestRect = destRect; SectRect( &clippedDestRect, &textRect, /*<*/&clippedDestRect ); clippedDestRect.right = clippedDestRect.left + (clippedSourceRect.right - clippedSourceRect.left); clippedDestRect.bottom = clippedDestRect.top + (clippedSourceRect.bottom - clippedSourceRect.top); /* Draw the background instead of erasing */ CopyBits( &((GrafPtr)backImage)->portBits, &currPort->portBits, &clippedSourceRect, &clippedDestRect, srcCopy, destRgn ); } else StdRgn( verb, destRgn ); } /* Create a new document and window. */ #pragma segment Main void DoNew() { Boolean good; Ptr storage; WindowPtr window; Rect destRect, viewRect; DocumentPeek doc; CGrafPtr savedPort; GDHandle savedDevice; QDErr error; QDProcsPtr customProcs; storage = NewPtr(sizeof(DocumentRecord)); if ( storage != nil ) { window = GetNewWindow(rDocWindow, storage, (WindowPtr) -1); if ( window != nil ) { gNumDocuments += 1; /* this will be decremented when we call DoCloseWindow */ good = false; SetPort(window); doc = (DocumentPeek) window; GetTERect(window, &viewRect); destRect = viewRect; destRect.right = destRect.left + kMaxDocWidth; doc->docTE = TENew(&destRect, &viewRect); good = doc->docTE != nil; /* if TENew succeeded, we have a good document */ if ( good ) { /* 1.02 - good document? — proceed */ AdjustViewRect(doc->docTE); TEAutoView(true, doc->docTE); doc->docClik = (ProcPtr) (*doc->docTE)->clikLoop; (*doc->docTE)->clikLoop = (ClikLoopProcPtr) AsmClikLoop; } /* Create the GWorld to use as the background image */ GetGWorld( &savedPort, &savedDevice ); error = NewGWorld( &doc->docImage, 0, &window->portRect, nil, nil, 0 ); good = error == noErr; if (good) { /* Draw the image of ramps into the GWorld */ SetGWorld( doc->docImage, nil ); PaintImage(); SetGWorld( savedPort, savedDevice ); /* Allocate and initialize bottleneck routines */ customProcs = (QDProcsPtr)NewPtr( sizeof (QDProcs) ); SetStdProcs( /*<*/customProcs ); customProcs->rectProc = (Ptr)CustomRect; customProcs->rgnProc = (Ptr)CustomRgn; /* Install our bottlenecks into the window */ window->grafProcs = customProcs; } if ( good ) { /* good document? — get scrollbars */ doc->docVScroll = GetNewControl(rVScroll, window); good = (doc->docVScroll != nil); } if ( good) { doc->docHScroll = GetNewControl(rHScroll, window); good = (doc->docHScroll != nil); } if ( good ) { /* good? — adjust & draw the controls, draw the window */ /* false to AdjustScrollValues means musn’t redraw; technically, of course, the window is hidden so it wouldn’t matter whether we called ShowControl or not. */ AdjustScrollValues(window, false); ShowWindow(window); } else { DoCloseWindow(window); /* otherwise regret we ever created it... */ AlertUser(eNoWindow); /* and tell user */ } } else DisposPtr(storage); /* get rid of the storage if it is never used */ } } /*DoNew*/ /* Close a window. This handles desk accessory and application windows. */ /* 1.01 - At this point, if there was a document associated with a window, you could do any document saving processing if it is 'dirty'. DoCloseWindow would return true if the window actually closed, i.e., the user didn’t cancel from a save dialog. This result is handy when the user quits an application, but then cancels the save of a document associated with a window. */ #pragma segment Main Boolean DoCloseWindow(window) WindowPtr window; { TEHandle te; if ( IsDAWindow(window) ) CloseDeskAcc(((WindowPeek) window)->windowKind); else if ( IsAppWindow(window) ) { te = ((DocumentPeek) window)->docTE; if ( te != nil ) TEDispose(te); /* dispose the TEHandle if we got far enough to make one */ /* 1.01 - We used to call DisposeWindow, but that was technically incorrect, even though we allocated storage for the window on the heap. We should instead call CloseWindow to have the structures taken care of and then dispose of the storage ourselves. */ CloseWindow(window); DisposPtr((Ptr) window); gNumDocuments -= 1; } return true; } /*DoCloseWindow*/ /************************************************************************************** *** 1.01 DoCloseBehind(window) was removed *** 1.01 - DoCloseBehind was a good idea for closing windows when quitting and not having to worry about updating the windows, but it suffered from a fatal flaw. If a desk accessory owned two windows, it would close both those windows when CloseDeskAcc was called. When DoCloseBehind got around to calling DoCloseWindow for that other window that was already closed, things would go very poorly. Another option would be to have a procedure, GetRearWindow, that would go through the window list and return the last window. Instead, we decided to present the standard approach of getting and closing FrontWindow until FrontWindow returns NIL. This has a potential benefit in that the window whose document needs to be saved may be visible since it is the front window, therefore decreasing the chance of user confusion. For aesthetic reasons, the windows in the application should be checked for updates periodically and have the updates serviced. **************************************************************************************/ /* Clean up the application and exit. We close all of the windows so that they can update their documents, if any. */ /* 1.01 - If we find out that a cancel has occurred, we won't exit to the shell, but will return instead. */ #pragma segment Main void Terminate() { WindowPtr aWindow; Boolean closed; closed = true; do { aWindow = FrontWindow(); /* get the current front window */ if (aWindow != nil) closed = DoCloseWindow(aWindow); /* close this window */ } while (closed && (aWindow != nil)); if (closed) ExitToShell(); /* exit if no cancellation */ } /*Terminate*/ /* Set up the whole world, including global variables, Toolbox managers, menus, and a single blank document. */ /* 1.01 - The code that used to be part of ForceEnvirons has been moved into this module. If an error is detected, instead of merely doing an ExitToShell, which leaves the user without much to go on, we call AlertUser, which puts up a simple alert that just says an error occurred and then calls ExitToShell. Since there is no other cleanup needed at this point if an error is detected, this form of error- handling is acceptable. If more sophisticated error recovery is needed, an exception mechanism, such as is provided by Signals, can be used. */ #pragma segment Initialize void Initialize() { Handle menuBar; long total, contig; EventRecord event; short count; gInBackground = false; InitGraf((Ptr) &qd.thePort); InitFonts(); InitWindows(); InitMenus(); TEInit(); InitDialogs(nil); InitCursor(); /* Call MPPOpen and ATPLoad at this point to initialize AppleTalk, if you are using it. */ /* NOTE -- It is no longer necessary, and actually unhealthy, to check PortBUse and SPConfig before opening AppleTalk. The drivers are capable of checking for port availability themselves. */ /* This next bit of code is necessary to allow the default button of our alert be outlined. 1.02 - Changed to call EventAvail so that we don't lose some important events. */ for (count = 1; count <= 3; count++) EventAvail(everyEvent, &event); /* Ignore the error returned from SysEnvirons; even if an error occurred, the SysEnvirons glue will fill in the SysEnvRec. You can save a redundant call to SysEnvirons by calling it after initializing AppleTalk. */ SysEnvirons(kSysEnvironsVersion, &gMac); /* Make sure that the machine has at least 128K ROMs. If it doesn't, exit. */ if (gMac.machineType < 0) BigBadError(eWrongMachine); /* 1.02 - Move TrapAvailable call to after SysEnvirons so that we can tell in TrapAvailable if a tool trap value is out of range. */ gHasWaitNextEvent = TrapAvailable(_WaitNextEvent, ToolTrap); /* 1.01 - We used to make a check for memory at this point by examining ApplLimit, ApplicZone, and StackSpace and comparing that to the minimum size we told MultiFinder we needed. This did not work well because it assumed too much about the relationship between what we asked MultiFinder for and what we would actually get back, as well as how to measure it. Instead, we will use an alternate method comprised of two steps. */ /* It is better to first check the size of the application heap against a value that you have determined is the smallest heap the application can reasonably work in. This number should be derived by examining the size of the heap that is actually provided by MultiFinder when the minimum size requested is used. The derivation of the minimum size requested from MultiFinder is described in Sample.h. The check should be made because the preferred size can end up being set smaller than the minimum size by the user. This extra check acts to insure that your application is starting from a solid memory foundation. */ if ((long) GetApplLimit() - (long) ApplicZone() < kMinHeap) BigBadError(eSmallSize); /* Next, make sure that enough memory is free for your application to run. It is possible for a situation to arise where the heap may have been of required size, but a large scrap was loaded which left too little memory. To check for this, call PurgeSpace and compare the result with a value that you have determined is the minimum amount of free memory your application needs at initialization. This number can be derived several different ways. One way that is fairly straightforward is to run the application in the minimum size configuration as described previously. Call PurgeSpace at initialization and examine the value returned. However, you should make sure that this result is not being modified by the scrap's presence. You can do that by calling ZeroScrap before calling PurgeSpace. Make sure to remove that call before shipping, though. */ /* ZeroScrap(); */ PurgeSpace(&total, &contig); if (total < kMinSpace) if (UnloadScrap() != noErr) BigBadError(eNoMemory); else { PurgeSpace(&total, &contig); if (total < kMinSpace) BigBadError(eNoMemory); } /* The extra benefit to waiting until after the Toolbox Managers have been initialized to check memory is that we can now give the user an alert to tell him/her what happened. Although it is possible that the memory situation could be worsened by displaying an alert, MultiFinder would gracefully exit the application with an informative alert if memory became critical. Here we are acting more in a preventative manner to avoid future disaster from low-memory problems. */ menuBar = GetNewMBar(rMenuBar); /* read menus into menu bar */ if ( menuBar == nil ) BigBadError(eNoMemory); SetMenuBar(menuBar); /* install menus */ DisposHandle(menuBar); AddResMenu(GetMHandle(mApple), 'DRVR'); /* add DA names to Apple menu */ DrawMenuBar(); gNumDocuments = 0; /* do other initialization here */ DoNew(); /* create a single empty document */ } /*Initialize*/ /* Used whenever a, like, fully fatal error happens */ #pragma segment Initialize void BigBadError(error) short error; { AlertUser(error); ExitToShell(); } /* Return a rectangle that is inset from the portRect by the size of the scrollbars and a little extra margin. */ #pragma segment Main void GetTERect(window,teRect) WindowPtr window; Rect *teRect; { *teRect = window->portRect; InsetRect(teRect, kTextMargin, kTextMargin); /* adjust for margin */ teRect->bottom = teRect->bottom - 15; /* and for the scrollbars */ teRect->right = teRect->right - 15; } /*GetTERect*/ /* Update the TERec's view rect so that it is the greatest multiple of the lineHeight that still fits in the old viewRect. */ #pragma segment Main void AdjustViewRect(docTE) TEHandle docTE; { TEPtr te; te = *docTE; /* te->viewRect.bottom = (((te->viewRect.bottom - te->viewRect.top) / te->lineHeight) * te->lineHeight) + te->viewRect.top; */ } /*AdjustViewRect*/ /* Scroll the TERec around to match up to the potentially updated scrollbar values. This is really useful when the window has been resized such that the scrollbars became inactive but the TERec was already scrolled. */ #pragma segment Main void AdjustTE(window) WindowPtr window; { TEPtr te; te = *((DocumentPeek)window)->docTE; TEScroll((te->viewRect.left - te->destRect.left) - GetCtlValue(((DocumentPeek)window)->docHScroll), (te->viewRect.top - te->destRect.top) - (GetCtlValue(((DocumentPeek)window)->docVScroll) * te->lineHeight), ((DocumentPeek)window)->docTE); } /*AdjustTE*/ /* Calculate the new control maximum value and current value, whether it is the horizontal or vertical scrollbar. The vertical max is calculated by comparing the number of lines to the vertical size of the viewRect. The horizontal max is calculated by comparing the maximum document width to the width of the viewRect. The current values are set by comparing the offset between the view and destination rects. If necessary and we canRedraw, have the control be re-drawn by calling ShowControl. */ #pragma segment Main void AdjustHV(isVert,control,docTE,canRedraw) Boolean isVert; ControlHandle control; TEHandle docTE; Boolean canRedraw; { short value, lines, max; short oldValue, oldMax; TEPtr te; oldValue = GetCtlValue(control); oldMax = GetCtlMax(control); te = *docTE; /* point to TERec for convenience */ if ( isVert ) { lines = te->nLines; /* since nLines isn’t right if the last character is a return, check for that case */ if ( *(*te->hText + te->teLength - 1) == kCrChar ) lines += 1; max = lines - ((te->viewRect.bottom - te->viewRect.top) / te->lineHeight); } else max = kMaxDocWidth - (te->viewRect.right - te->viewRect.left); if ( max < 0 ) max = 0; SetCtlMax(control, max); /* Must deref. after SetCtlMax since, technically, it could draw and therefore move memory. This is why we don’t just do it once at the beginning. */ te = *docTE; if ( isVert ) value = (te->viewRect.top - te->destRect.top) / te->lineHeight; else value = te->viewRect.left - te->destRect.left; if ( value < 0 ) value = 0; else if ( value > max ) value = max; SetCtlValue(control, value); /* now redraw the control if it needs to be and can be */ if ( canRedraw || (max != oldMax) || (value != oldValue) ) ShowControl(control); } /*AdjustHV*/ /* Simply call the common adjust routine for the vertical and horizontal scrollbars. */ #pragma segment Main void AdjustScrollValues(window,canRedraw) WindowPtr window; Boolean canRedraw; { DocumentPeek doc; doc = (DocumentPeek)window; AdjustHV(true, doc->docVScroll, doc->docTE, canRedraw); AdjustHV(false, doc->docHScroll, doc->docTE, canRedraw); } /*AdjustScrollValues*/ /* Re-calculate the position and size of the viewRect and the scrollbars. kScrollTweek compensates for off-by-one requirements of the scrollbars to have borders coincide with the growbox. */ #pragma segment Main void AdjustScrollSizes(window) WindowPtr window; { Rect teRect; DocumentPeek doc; doc = (DocumentPeek) window; GetTERect(window, &teRect); /* start with TERect */ (*doc->docTE)->viewRect = teRect; AdjustViewRect(doc->docTE); /* snap to nearest line */ MoveControl(doc->docVScroll, window->portRect.right - kScrollbarAdjust, -1); SizeControl(doc->docVScroll, kScrollbarWidth, (window->portRect.bottom - window->portRect.top) - (kScrollbarAdjust - kScrollTweek)); MoveControl(doc->docHScroll, -1, window->portRect.bottom - kScrollbarAdjust); SizeControl(doc->docHScroll, (window->portRect.right - window->portRect.left) - (kScrollbarAdjust - kScrollTweek), kScrollbarWidth); } /*AdjustScrollSizes*/ /* Turn off the controls by jamming a zero into their contrlVis fields (HideControl erases them and we don't want that). If the controls are to be resized as well, call the procedure to do that, then call the procedure to adjust the maximum and current values. Finally re-enable the controls by jamming a $FF in their contrlVis fields. */ #pragma segment Main void AdjustScrollbars(window,needsResize) WindowPtr window; Boolean needsResize; { DocumentPeek doc; doc = (DocumentPeek) window; /* First, turn visibility of scrollbars off so we won’t get unwanted redrawing */ (*doc->docVScroll)->contrlVis = kControlInvisible; /* turn them off */ (*doc->docHScroll)->contrlVis = kControlInvisible; if ( needsResize ) /* move & size as needed */ AdjustScrollSizes(window); AdjustScrollValues(window, needsResize); /* fool with max and current value */ /* Now, restore visibility in case we never had to ShowControl during adjustment */ (*doc->docVScroll)->contrlVis = kControlVisible; /* turn them on */ (*doc->docHScroll)->contrlVis = kControlVisible; } /* AdjustScrollbars */ /* Gets called from our assembly language routine, AsmClikLoop, which is in turn called by the TEClick toolbox routine. Saves the windows clip region, sets it to the portRect, adjusts the scrollbar values to match the TE scroll amount, then restores the clip region. */ #pragma segment Main pascal void PascalClikLoop() { WindowPtr window; RgnHandle region; window = FrontWindow(); region = NewRgn(); GetClip(region); /* save clip */ ClipRect(&window->portRect); AdjustScrollValues(window, true); /* pass true for canRedraw */ SetClip(region); /* restore clip */ DisposeRgn(region); } /* Pascal/C ClikLoop */ /* Gets called from our assembly language routine, AsmClikLoop, which is in turn called by the TEClick toolbox routine. It returns the address of the default clikLoop routine that was put into the TERec by TEAutoView to AsmClikLoop so that it can call it. */ #pragma segment Main pascal ProcPtr GetOldClikLoop() { return ((DocumentPeek)FrontWindow())->docClik; } /* GetOldClikLoop */ /* Check to see if a window belongs to the application. If the window pointer passed was NIL, then it could not be an application window. WindowKinds that are negative belong to the system and windowKinds less than userKind are reserved by Apple except for windowKinds equal to dialogKind, which mean it is a dialog. 1.02 - In order to reduce the chance of accidentally treating some window as an AppWindow that shouldn't be, we'll only return true if the windowkind is userKind. If you add different kinds of windows to Sample you'll need to change how this all works. */ #pragma segment Main Boolean IsAppWindow(window) WindowPtr window; { short windowKind; if ( window == nil ) return false; else { /* application windows have windowKinds = userKind (8) */ windowKind = ((WindowPeek) window)->windowKind; return (windowKind == userKind); } } /*IsAppWindow*/ /* Check to see if a window belongs to a desk accessory. */ #pragma segment Main Boolean IsDAWindow(window) WindowPtr window; { if ( window == nil ) return false; else /* DA windows have negative windowKinds */ return ((WindowPeek) window)->windowKind < 0; } /*IsDAWindow*/ /* Check to see if a given trap is implemented. This is only used by the Initialize routine in this program, so we put it in the Initialize segment. The recommended approach to see if a trap is implemented is to see if the address of the trap routine is the same as the address of the Unimplemented trap. */ /* 1.02 - Needs to be called after call to SysEnvirons so that it can check if a ToolTrap is out of range of a pre-MacII ROM. */ #pragma segment Initialize Boolean TrapAvailable(tNumber,tType) short tNumber; TrapType tType; { if ( ( tType == (unsigned char) ToolTrap ) && ( gMac.machineType > envMachUnknown ) && ( gMac.machineType < envMacII ) ) { /* it's a 512KE, Plus, or SE */ tNumber = tNumber & 0x03FF; if ( tNumber > 0x01FF ) /* which means the tool traps */ tNumber = _Unimplemented; /* only go to 0x01FF */ } return NGetTrapAddress(tNumber, tType) != GetTrapAddress(_Unimplemented); } /*TrapAvailable*/ /* Display an alert that tells the user an error occurred, then exit the program. This routine is used as an ultimate bail-out for serious errors that prohibit the continuation of the application. Errors that do not require the termination of the application should be handled in a different manner. Error checking and reporting has a place even in the simplest application. The error number is used to index an 'STR#' resource so that a relevant message can be displayed. */ #pragma segment Main void AlertUser(error) short error; { short itemHit; Str255 message; SetCursor(&qd.arrow); /* type Str255 is an array in MPW 3 */ GetIndString(message, kErrStrings, error); ParamText(message, (ConstStr255Param)"", (ConstStr255Param)"", (ConstStr255Param)""); itemHit = Alert(rUserAlert, nil); } /* AlertUser */