/* * tkMacOSXScrollbar.c -- * * This file implements the Macintosh specific portion of the scrollbar * widget. The Macintosh scrollbar may also draw a windows grow * region under certain cases. * * Copyright (c) 1996 by Sun Microsystems, Inc. * Copyright 2001, Apple Computer, Inc. * * See the file "license.terms" for information on usage and redistribution * of this file, and for a DISCLAIMER OF ALL WARRANTIES. * * RCS: @(#) $Id: tkMacOSXScrlbr.c,v 1.5.2.4 2005/06/03 00:53:29 wolfsuit Exp $ */ #include "tkScrollbar.h" #include "tkMacOSXInt.h" #include "tclInt.h" #include #include "tkMacOSXDebug.h" /* * The following definitions should really be in MacOS * header files. They are included here as this is the only * file that needs the declarations. */ typedef pascal void (*ThumbActionFunc)(void); typedef ThumbActionFunc ThumbActionUPP; enum { uppThumbActionProcInfo = kPascalStackBased }; #define NewThumbActionProc(userRoutine) ((ThumbActionUPP) (userRoutine)) /* * Minimum slider length, in pixels (designed to make sure that the slider * is always easy to grab with the mouse). */ #define MIN_SLIDER_LENGTH 5 #define MIN_SCROLLBAR_VALUE 0 #define SCROLLBAR_SCALING_VALUE 100000 #define SCROLLBAR_SCALING_DVALUE 100000.0 /* * Declaration of Windows specific scrollbar structure. */ typedef struct MacScrollbar { TkScrollbar info; /* Generic scrollbar info */ ControlRef sbHandle; /* Opaque handle to the Scrollbar contol struct */ int macFlags; /* Various flags; see below */ } MacScrollbar; /* Handle to the Scrollbar control structure */ /* * Flag bits for scrollbars on the Mac: * * ALREADY_DEAD: Non-zero means this scrollbar has been * destroyed, but has not been cleaned up. * IN_MODAL_LOOP: Non-zero means this scrollbar is in the middle * of a modal loop. * ACTIVE: Non-zero means this window is currently * active (in the foreground). * FLUSH_TOP: Flush with top of Mac window. * FLUSH_BOTTOM: Flush with bottom of Mac window. * FLUSH_RIGHT: Flush with right of Mac window. * FLUSH_LEFT: Flush with left of Mac window. * SCROLLBAR_GROW: Non-zero means this window draws the grow * region for the toplevel window. * AUTO_ADJUST: Non-zero means we automatically adjust * the size of the widget to align correctly * along a Mac window. * DRAW_GROW: Non-zero means we draw the grow region. */ #define ALREADY_DEAD 1 #define IN_MODAL_LOOP 2 #define ACTIVE 4 #define FLUSH_TOP 8 #define FLUSH_BOTTOM 16 #define FLUSH_RIGHT 32 #define FLUSH_LEFT 64 #define SCROLLBAR_GROW 128 #define AUTO_ADJUST 256 #define DRAW_GROW 512 /* * Globals uses locally in this file. */ static ControlActionUPP scrollActionProc = NULL; /* Pointer to func. */ static ThumbActionUPP thumbActionProc = NULL; /* Pointer to func. */ static TkScrollbar *activeScrollPtr = NULL; /* Non-null when in thumb */ /* proc. */ static Point mouseDownPoint; /* Used when activeScrollPtr is non-NULL */ /* to store the coordinates where the */ /* mouse was first pressed to begin */ /* dragging the thumb, because */ /* ThumbActionProc can't take any args. */ /* * Forward declarations for procedures defined later in this file: */ static pascal void ScrollbarActionProc _ANSI_ARGS_((ControlRef theControl, ControlPartCode partCode)); static int ScrollbarBindProc _ANSI_ARGS_((ClientData clientData, Tcl_Interp *interp, XEvent *eventPtr, Tk_Window tkwin, KeySym keySym)); static void ScrollbarEventProc _ANSI_ARGS_(( ClientData clientData, XEvent *eventPtr)); static pascal void ThumbActionProc _ANSI_ARGS_((void)); static void UpdateControlValues _ANSI_ARGS_((MacScrollbar *macScrollPtr)); /* * The class procedure table for the scrollbar widget. Leave the proc fields * initialized to NULL, which should happen automatically because of the scope * at which the variable is declared. */ Tk_ClassProcs tkpScrollbarProcs = { sizeof(Tk_ClassProcs) /* size */ }; /* *---------------------------------------------------------------------- * * TkpCreateScrollbar -- * * Allocate a new TkScrollbar structure. * * Results: * Returns a newly allocated TkScrollbar structure. * * Side effects: * None. * *---------------------------------------------------------------------- */ TkScrollbar * TkpCreateScrollbar( Tk_Window tkwin) /* New Tk Window. */ { MacScrollbar * macScrollPtr; TkWindow *winPtr = (TkWindow *)tkwin; if (scrollActionProc == NULL) { scrollActionProc = NewControlActionUPP (ScrollbarActionProc); thumbActionProc = NewThumbActionProc(ThumbActionProc); } macScrollPtr = (MacScrollbar *) ckalloc(sizeof(MacScrollbar)); macScrollPtr->sbHandle = NULL; macScrollPtr->macFlags = 0; Tk_CreateEventHandler(tkwin, ActivateMask|ExposureMask| StructureNotifyMask|FocusChangeMask, ScrollbarEventProc, (ClientData) macScrollPtr); if (!Tcl_GetAssocData(winPtr->mainPtr->interp, "TkScrollbar", NULL)) { Tcl_SetAssocData(winPtr->mainPtr->interp, "TkScrollbar", NULL, (ClientData)1); TkCreateBindingProcedure(winPtr->mainPtr->interp, winPtr->mainPtr->bindingTable, (ClientData)Tk_GetUid("Scrollbar"), "", ScrollbarBindProc, NULL, NULL); } return (TkScrollbar *) macScrollPtr; } /* *-------------------------------------------------------------- * * TkpDisplayScrollbar -- * * This procedure redraws the contents of a scrollbar window. * It is invoked as a do-when-idle handler, so it only runs * when there's nothing else for the application to do. * * Results: * None. * * Side effects: * Information appears on the screen. * *-------------------------------------------------------------- */ void TkpDisplayScrollbar( ClientData clientData) /* Information about window. */ { TkScrollbar *scrollPtr = (TkScrollbar *) clientData; MacScrollbar *macScrollPtr = (MacScrollbar *) clientData; Tk_Window tkwin = scrollPtr->tkwin; MacDrawable *macDraw; CGrafPtr saveWorld; GDHandle saveDevice; GWorldPtr destPort; WindowRef windowRef; if ((scrollPtr->tkwin == NULL) || !Tk_IsMapped(tkwin)) { goto done; } /* * Draw the focus or any 3D relief we may have. */ if (scrollPtr->highlightWidth != 0) { GC fgGC, bgGC; bgGC = Tk_GCForColor(scrollPtr->highlightBgColorPtr, Tk_WindowId(tkwin)); if (scrollPtr->flags & GOT_FOCUS) { fgGC = Tk_GCForColor(scrollPtr->highlightColorPtr, Tk_WindowId(tkwin)); TkpDrawHighlightBorder(tkwin, fgGC, bgGC, scrollPtr->highlightWidth, Tk_WindowId(tkwin)); } else { TkpDrawHighlightBorder(tkwin, bgGC, bgGC, scrollPtr->highlightWidth, Tk_WindowId(tkwin)); } } Tk_Draw3DRectangle(tkwin, Tk_WindowId(tkwin), scrollPtr->bgBorder, scrollPtr->highlightWidth, scrollPtr->highlightWidth, Tk_Width(tkwin) - 2*scrollPtr->highlightWidth, Tk_Height(tkwin) - 2*scrollPtr->highlightWidth, scrollPtr->borderWidth, scrollPtr->relief); /* * Set up port for drawing Macintosh control. */ macDraw = (MacDrawable *) Tk_WindowId(tkwin); destPort = TkMacOSXGetDrawablePort(Tk_WindowId(tkwin)); GetGWorld(&saveWorld, &saveDevice); SetGWorld(destPort, NULL); TkMacOSXSetUpClippingRgn(Tk_WindowId(tkwin)); if (macScrollPtr->sbHandle == NULL) { Rect r; SInt32 initialValue; SInt32 minValue; SInt32 maxValue; SInt16 procID; WindowRef frontNonFloating; r.left = r.top = 0; r.right = r.bottom = 1; minValue = MIN_SCROLLBAR_VALUE; maxValue = SCROLLBAR_SCALING_VALUE; initialValue = (minValue + maxValue)/2; procID = kControlScrollBarLiveProc; windowRef = GetWindowFromPort(destPort); CreateScrollBarControl(windowRef, &r, initialValue, minValue, maxValue, maxValue - minValue, true, NULL, &(macScrollPtr->sbHandle)); SetControlReference(macScrollPtr->sbHandle, (SInt32) scrollPtr); /* * If we are foremost then make us active. */ frontNonFloating = FrontNonFloatingWindow(); if ((windowRef == FrontWindow()) || TkpIsWindowFloating(windowRef)) { macScrollPtr->macFlags |= ACTIVE; } } /* * Adjust the control size based on its width... */ if (macScrollPtr->info.width < 13) { SetControlData(macScrollPtr->sbHandle, kControlNoPart, kControlSizeTag, sizeof(kControlSizeSmall), (void *) kControlSizeSmall); } else { SetControlData(macScrollPtr->sbHandle, kControlNoPart, kControlSizeTag, sizeof(kControlSizeSmall), (void *) kControlSizeLarge); } /* * Update the control values before we draw. */ windowRef = GetControlOwner (macScrollPtr->sbHandle); UpdateControlValues(macScrollPtr); if (macScrollPtr->macFlags & ACTIVE) { Draw1Control(macScrollPtr->sbHandle); if (macScrollPtr->macFlags & DRAW_GROW) { DrawGrowIcon(windowRef); } } else { HiliteControl (macScrollPtr->sbHandle, 255 ); Draw1Control(macScrollPtr->sbHandle); if (macScrollPtr->macFlags & DRAW_GROW) { DrawGrowIcon(windowRef); Tk_Fill3DRectangle(tkwin, Tk_WindowId(tkwin), scrollPtr->bgBorder, Tk_Width(tkwin) - 13, Tk_Height(tkwin) - 13, Tk_Width(tkwin), Tk_Height(tkwin), 0, TK_RELIEF_FLAT); } } SetGWorld(saveWorld, saveDevice); done: scrollPtr->flags &= ~REDRAW_PENDING; } /* *---------------------------------------------------------------------- * * TkpConfigureScrollbar -- * * This procedure is called after the generic code has finished * processing configuration options, in order to configure * platform specific options. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkpConfigureScrollbar(scrollPtr) register TkScrollbar *scrollPtr; /* Information about widget; may or * may not already have values for * some fields. */ { } /* *---------------------------------------------------------------------- * * TkpComputeScrollbarGeometry -- * * After changes in a scrollbar's size or configuration, this * procedure recomputes various geometry information used in * displaying the scrollbar. * * Results: * None. * * Side effects: * The scrollbar will be displayed differently. * *---------------------------------------------------------------------- */ void TkpComputeScrollbarGeometry( register TkScrollbar *scrollPtr) /* Scrollbar whose geometry may * have changed. */ { MacScrollbar *macScrollPtr = (MacScrollbar *) scrollPtr; int width, fieldLength, adjust = 0; if (scrollPtr->highlightWidth < 0) { scrollPtr->highlightWidth = 0; } scrollPtr->inset = scrollPtr->highlightWidth + scrollPtr->borderWidth; width = (scrollPtr->vertical) ? Tk_Width(scrollPtr->tkwin) : Tk_Height(scrollPtr->tkwin); scrollPtr->arrowLength = width - 2*scrollPtr->inset + 1; fieldLength = (scrollPtr->vertical ? Tk_Height(scrollPtr->tkwin) : Tk_Width(scrollPtr->tkwin)) - 2*(scrollPtr->arrowLength + scrollPtr->inset); if (fieldLength < 0) { fieldLength = 0; } scrollPtr->sliderFirst = fieldLength * scrollPtr->firstFraction; scrollPtr->sliderLast = fieldLength * scrollPtr->lastFraction; /* * Adjust the slider so that some piece of it is always * displayed in the scrollbar and so that it has at least * a minimal width (so it can be grabbed with the mouse). */ if (scrollPtr->sliderFirst > (fieldLength - 2*scrollPtr->borderWidth)) { scrollPtr->sliderFirst = fieldLength - 2*scrollPtr->borderWidth; } if (scrollPtr->sliderFirst < 0) { scrollPtr->sliderFirst = 0; } if (scrollPtr->sliderLast < (scrollPtr->sliderFirst + MIN_SLIDER_LENGTH)) { scrollPtr->sliderLast = scrollPtr->sliderFirst + MIN_SLIDER_LENGTH; } if (scrollPtr->sliderLast > fieldLength) { scrollPtr->sliderLast = fieldLength; } scrollPtr->sliderFirst += scrollPtr->arrowLength + scrollPtr->inset; scrollPtr->sliderLast += scrollPtr->arrowLength + scrollPtr->inset; /* * Register the desired geometry for the window (leave enough space * for the two arrows plus a minimum-size slider, plus border around * the whole window, if any). Then arrange for the window to be * redisplayed. */ if (scrollPtr->vertical) { if ((macScrollPtr->macFlags & AUTO_ADJUST) && (macScrollPtr->macFlags & (FLUSH_RIGHT|FLUSH_LEFT))) { adjust--; } Tk_GeometryRequest(scrollPtr->tkwin, scrollPtr->width + 2*scrollPtr->inset + adjust, 2*(scrollPtr->arrowLength + scrollPtr->borderWidth + scrollPtr->inset)); } else { if ((macScrollPtr->macFlags & AUTO_ADJUST) && (macScrollPtr->macFlags & (FLUSH_TOP|FLUSH_BOTTOM))) { adjust--; } Tk_GeometryRequest(scrollPtr->tkwin, 2*(scrollPtr->arrowLength + scrollPtr->borderWidth + scrollPtr->inset), scrollPtr->width + 2*scrollPtr->inset + adjust); } Tk_SetInternalBorder(scrollPtr->tkwin, scrollPtr->inset); } /* *---------------------------------------------------------------------- * * TkpDestroyScrollbar -- * * Free data structures associated with the scrollbar control. * * Results: * None. * * Side effects: * None. * *---------------------------------------------------------------------- */ void TkpDestroyScrollbar( TkScrollbar *scrollPtr) /* Scrollbar to destroy. */ { MacScrollbar *macScrollPtr = (MacScrollbar *)scrollPtr; if (macScrollPtr->sbHandle != NULL) { if (!(macScrollPtr->macFlags & IN_MODAL_LOOP)) { DisposeControl(macScrollPtr->sbHandle); macScrollPtr->sbHandle = NULL; } } macScrollPtr->macFlags |= ALREADY_DEAD; } /* *-------------------------------------------------------------- * * TkpScrollbarPosition -- * * Determine the scrollbar element corresponding to a * given position. * * Results: * One of TOP_ARROW, TOP_GAP, etc., indicating which element * of the scrollbar covers the position given by (x, y). If * (x,y) is outside the scrollbar entirely, then OUTSIDE is * returned. * * Side effects: * None. * *-------------------------------------------------------------- */ int TkpScrollbarPosition( TkScrollbar *scrollPtr, /* Scrollbar widget record. */ int x, int y) /* Coordinates within scrollPtr's * window. */ { MacScrollbar *macScrollPtr = (MacScrollbar *) scrollPtr; GWorldPtr destPort; int length, width, tmp, inactive = false; ControlPartCode part; Point where; Rect bounds; int x0, y0; x0 = x; y0 = y; if (scrollPtr->vertical) { length = Tk_Height(scrollPtr->tkwin); width = Tk_Width(scrollPtr->tkwin); } else { tmp = x; x = y; y = tmp; length = Tk_Width(scrollPtr->tkwin); width = Tk_Height(scrollPtr->tkwin); } if ((x < scrollPtr->inset) || (x >= (width - scrollPtr->inset)) || (y < scrollPtr->inset) || (y >= (length - scrollPtr->inset))) { return OUTSIDE; } /* * All of the calculations in this procedure mirror those in * DisplayScrollbar. Be sure to keep the two consistent. On the * Macintosh we use the OS call TestControl to do this mapping. * For TestControl to work, the scrollbar must be active and must * be in the current port. */ destPort = TkMacOSXGetDrawablePort(Tk_WindowId(scrollPtr->tkwin)); SetGWorld(destPort, NULL); UpdateControlValues(macScrollPtr); if ( GetControlHilite(macScrollPtr->sbHandle) == 255 ) { inactive = true; HiliteControl(macScrollPtr->sbHandle, 0 ); } TkMacOSXWinBounds((TkWindow *) scrollPtr->tkwin, &bounds); where.h = x0 + bounds.left; where.v = y0 + bounds.top; part = TestControl(((MacScrollbar *) scrollPtr)->sbHandle, where); if (inactive) { HiliteControl(macScrollPtr->sbHandle, 255 ); } switch (part) { case kControlUpButtonPart: return TOP_ARROW; case kControlPageUpPart: return TOP_GAP; case kControlIndicatorPart: return SLIDER; case kControlPageDownPart: return BOTTOM_GAP; case kControlDownButtonPart: return BOTTOM_ARROW; default: return OUTSIDE; } } /* *-------------------------------------------------------------- * * ThumbActionProc -- * * Callback procedure used by the Macintosh toolbox call * TrackControl. This call is used to track the thumb of * the scrollbar. Unlike the ScrollbarActionProc function * this function is called once and basically takes over * tracking the scrollbar from the control. This is done * to avoid conflicts with what the control plans to draw. * * Results: * None. * * Side effects: * May change the display. * *-------------------------------------------------------------- */ static pascal void ThumbActionProc() { register TkScrollbar *scrollPtr = activeScrollPtr; register MacScrollbar *macScrollPtr = (MacScrollbar *) activeScrollPtr; Tcl_DString cmdString; int origValue; double thumbWidth, oldFirstFraction, newFirstFraction, trackBarSize; char valueString[40]; Point currentPoint = { 0, 0 }; Rect trackRect; Tcl_Interp *interp; MouseTrackingResult trackingResult; OSErr err; if (scrollPtr == NULL) { return; } Tcl_DStringInit(&cmdString); /* * First compute values that will remain constant during the tracking * of the thumb. The variable trackBarSize is the length of the scrollbar * minus the 2 arrows and half the width of the thumb on both sides * (3 * arrowLength). The variable trackBarPin is the lower starting point * of the drag region. * * Note: the arrowLength is equal to the thumb width of a Mac scrollbar. */ origValue = GetControl32BitValue(macScrollPtr->sbHandle); GetControlBounds(macScrollPtr->sbHandle, &trackRect); thumbWidth = scrollPtr->lastFraction - scrollPtr->firstFraction; if (scrollPtr->vertical == true) { trackBarSize = (double) (trackRect.bottom - trackRect.top - (scrollPtr->arrowLength * 3)); InsetRect(&trackRect, -50, -226); } else { trackBarSize = (double) (trackRect.right - trackRect.left - (scrollPtr->arrowLength * 3)); InsetRect(&trackRect, -226, -50); } /* * Track the mouse while the button is held down. If the mouse is moved, * we calculate the value that should be passed to the "command" part of * the scrollbar. Since the mouse may move a distance too small to * cause a change to the first fraction, each calculation must be done * versus what the first fraction was when the mouse button was * initially pressed. Otherwise, moving the mouse too slowly will * cause the calculated fraction delta to be zero and the scrollbar * won't respond. */ oldFirstFraction = scrollPtr->firstFraction; do { err = TrackMouseLocationWithOptions(NULL, kTrackMouseLocationOptionDontConsumeMouseUp, kEventDurationForever, ¤tPoint, NULL, &trackingResult); if ((err == noErr) && ((trackingResult == kMouseTrackingMouseDragged) || (trackingResult == kMouseTrackingMouseMoved))) { /* * Calculate where the scrollbar should move to, based on * where the mouse button was pressed and where the scrollbar * initially was at that time. Note that PtInRect() will * return false if currentPoint or trackRect are not in * is not in current graphics port, which may happen if any * of the waiting idle events change the port (e.g. with * SetPort()) but fail to restore it before returning and the * scrollbar will lock in place. */ newFirstFraction = oldFirstFraction; if (PtInRect(currentPoint, &trackRect)) { double pixDiff; double fracDelta; if (scrollPtr->vertical == true) { pixDiff = (double)(currentPoint.v - mouseDownPoint.v); } else { pixDiff = (double)(currentPoint.h - mouseDownPoint.h); } fracDelta = pixDiff/(trackBarSize); newFirstFraction += fracDelta; if (newFirstFraction > 1.0) { newFirstFraction = 1.0; } else if (newFirstFraction < 0.0) { newFirstFraction = 0.0; } } /* * Move the scrollbar thumb to the new first fraction given * its position when initially pressed and how far the mouse * has moved. Process waiting idle tasks afterward to allow * for the display to update. */ sprintf(valueString, "%g", newFirstFraction); Tcl_DStringSetLength(&cmdString, 0); Tcl_DStringAppend(&cmdString, scrollPtr->command, scrollPtr->commandSize); Tcl_DStringAppendElement(&cmdString, "moveto"); Tcl_DStringAppendElement(&cmdString, valueString); interp = scrollPtr->interp; Tcl_Preserve((ClientData) interp); Tcl_GlobalEval(interp, cmdString.string); Tcl_Release((ClientData) interp); TclServiceIdle(); } } while ((err == noErr) && trackingResult != kMouseTrackingMouseReleased); Tcl_DStringFree(&cmdString); return; } /* *-------------------------------------------------------------- * * ScrollbarActionProc -- * * Callback procedure used by the Macintosh toolbox call * TrackControl. This call will update the display while * the scrollbar is being manipulated by the user. * * Results: * None. * * Side effects: * May change the display. * *-------------------------------------------------------------- */ static pascal void ScrollbarActionProc( ControlRef theControl, /* Handle to scrollbat control */ ControlPartCode partCode) /* Part of scrollbar that was "hit" */ { TkScrollbar *scrollPtr = (TkScrollbar *) GetControlReference(theControl); Tcl_DString cmdString; Tcl_DStringInit(&cmdString); Tcl_DStringAppend(&cmdString, scrollPtr->command, scrollPtr->commandSize); if ( partCode == kControlUpButtonPart || partCode == kControlDownButtonPart ) { Tcl_DStringAppendElement(&cmdString, "scroll"); Tcl_DStringAppendElement(&cmdString, (partCode == kControlUpButtonPart ) ? "-1" : "1"); Tcl_DStringAppendElement(&cmdString, "unit"); } else if (partCode == kControlPageUpPart || partCode == kControlPageDownPart ) { Tcl_DStringAppendElement(&cmdString, "scroll"); Tcl_DStringAppendElement(&cmdString, (partCode == kControlPageUpPart ) ? "-1" : "1"); Tcl_DStringAppendElement(&cmdString, "page"); } Tcl_Preserve((ClientData) scrollPtr->interp); Tcl_DStringAppend(&cmdString, "; update idletasks", strlen("; update idletasks")); Tcl_GlobalEval(scrollPtr->interp, cmdString.string); Tcl_Release((ClientData) scrollPtr->interp); Tcl_DStringFree(&cmdString); } /* *-------------------------------------------------------------- * * ScrollbarBindProc -- * * This procedure is invoked when the default * binding on the Scrollbar bind tag fires. * * Results: * None. * * Side effects: * The event enters a modal loop. * *-------------------------------------------------------------- */ static int ScrollbarBindProc( ClientData clientData, /* Not used. */ Tcl_Interp *interp, /* Interp with binding. */ XEvent *eventPtr, /* X event that triggered binding. */ Tk_Window tkwin, /* Target window for event. */ KeySym keySym) /* The KeySym if a key event. */ { TkWindow *winPtr = (TkWindow*)tkwin; TkScrollbar *scrollPtr = (TkScrollbar *) winPtr->instanceData; MacScrollbar *macScrollPtr = (MacScrollbar *) winPtr->instanceData; Tcl_Preserve((ClientData)scrollPtr); macScrollPtr->macFlags |= IN_MODAL_LOOP; if (eventPtr->type == ButtonPress) { Point where; Rect bounds; int part, x, y, dummy; unsigned int state; CGrafPtr saveWorld; GDHandle saveDevice; GWorldPtr destPort; Window window; /* * To call Macintosh control routines we must have the port * set to the window containing the control. We will then test * which part of the control was hit and act accordingly. */ destPort = TkMacOSXGetDrawablePort(Tk_WindowId(scrollPtr->tkwin)); GetGWorld(&saveWorld, &saveDevice); SetGWorld(destPort, NULL); TkMacOSXSetUpClippingRgn(Tk_WindowId(scrollPtr->tkwin)); TkMacOSXWinBounds((TkWindow *) scrollPtr->tkwin, &bounds); where.h = eventPtr->xbutton.x + bounds.left; where.v = eventPtr->xbutton.y + bounds.top; part = TestControl(macScrollPtr->sbHandle, where); if (part == kControlIndicatorPart && scrollPtr->jump == false) { /* * Case 1: In thumb, no jump scrolling. Call track control * with the thumb action proc which will do most of the work. * Set the global activeScrollPtr to the current control * so the callback may have access to it. */ activeScrollPtr = scrollPtr; mouseDownPoint.h = where.h; mouseDownPoint.v = where.v; part = TrackControl(macScrollPtr->sbHandle, where, (ControlActionUPP) thumbActionProc); activeScrollPtr = NULL; } else if (part == kControlIndicatorPart) { /* * Case 2: in thumb with jump scrolling. Call TrackControl * with a NULL action proc. Use the new value of the control * to set update the control. */ part = TrackControl(macScrollPtr->sbHandle, where, NULL); if (part == kControlIndicatorPart) { double newFirstFraction, thumbWidth; Tcl_DString cmdString; char valueString[TCL_DOUBLE_SPACE]; /* * The following calculation takes the new control * value and maps it to what Tk needs for its variable * thumb size representation. */ thumbWidth = scrollPtr->lastFraction - scrollPtr->firstFraction; newFirstFraction = (1.0 - thumbWidth) * ((double) GetControl32BitValue(macScrollPtr->sbHandle) / SCROLLBAR_SCALING_DVALUE); sprintf(valueString, "%g", newFirstFraction); Tcl_DStringInit(&cmdString); Tcl_DStringAppend(&cmdString, scrollPtr->command, strlen(scrollPtr->command)); Tcl_DStringAppendElement(&cmdString, "moveto"); Tcl_DStringAppendElement(&cmdString, valueString); Tcl_DStringAppend(&cmdString, "; update idletasks", strlen("; update idletasks")); interp = scrollPtr->interp; Tcl_Preserve((ClientData) interp); Tcl_GlobalEval(interp, cmdString.string); Tcl_Release((ClientData) interp); Tcl_DStringFree(&cmdString); } } else if (part != 0) { /* * Case 3: in any other part of the scrollbar. We call * TrackControl with the scrollActionProc which will do * most all the work. */ TrackControl(macScrollPtr->sbHandle, where, scrollActionProc); HiliteControl(macScrollPtr->sbHandle, 0); } /* * The TrackControl call will "eat" the ButtonUp event. We now * generate a ButtonUp event so Tk will unset implicit grabs etc. */ GetMouse(&where); XQueryPointer(NULL, None, &window, &window, &x, &y, &dummy, &dummy, &state); window = Tk_WindowId(scrollPtr->tkwin); TkGenerateButtonEvent(x, y, window, state); SetGWorld(saveWorld, saveDevice); } if (macScrollPtr->sbHandle && (macScrollPtr->macFlags & ALREADY_DEAD)) { DisposeControl(macScrollPtr->sbHandle); macScrollPtr->sbHandle = NULL; } macScrollPtr->macFlags &= ~IN_MODAL_LOOP; Tcl_Release((ClientData)scrollPtr); return TCL_OK; } /* *-------------------------------------------------------------- * * ScrollbarEventProc -- * * This procedure is invoked by the Tk dispatcher for various * events on scrollbars. * * Results: * None. * * Side effects: * When the window gets deleted, internal structures get * cleaned up. When it gets exposed, it is redisplayed. * *-------------------------------------------------------------- */ static void ScrollbarEventProc( ClientData clientData, /* Information about window. */ XEvent *eventPtr) /* Information about event. */ { TkScrollbar *scrollPtr = (TkScrollbar *) clientData; MacScrollbar *macScrollPtr = (MacScrollbar *) clientData; if (eventPtr->type == UnmapNotify) { TkMacOSXSetScrollbarGrow((TkWindow *) scrollPtr->tkwin, false); } else if (eventPtr->type == ActivateNotify) { macScrollPtr->macFlags |= ACTIVE; TkScrollbarEventuallyRedraw((ClientData) scrollPtr); } else if (eventPtr->type == DeactivateNotify) { macScrollPtr->macFlags &= ~ACTIVE; TkScrollbarEventuallyRedraw((ClientData) scrollPtr); } else { TkScrollbarEventProc(clientData, eventPtr); } } /* *-------------------------------------------------------------- * * UpdateControlValues -- * * This procedure updates the Macintosh scrollbar control * to display the values defined by the Tk scrollbar. * * Results: * None. * * Side effects: * The Macintosh control is updated. * *-------------------------------------------------------------- */ static void UpdateControlValues( MacScrollbar *macScrollPtr) /* Scrollbar data struct. */ { TkScrollbar *scrollPtr = (TkScrollbar *) macScrollPtr; Tk_Window tkwin = scrollPtr->tkwin; MacDrawable * macDraw = (MacDrawable *) Tk_WindowId(scrollPtr->tkwin); WindowRef windowRef = GetControlOwner(macScrollPtr->sbHandle); double dViewSize; SInt32 viewSize, controlMax, controlValue; int flushRight = false; int flushBottom = false; Rect contrlRect, portRect; UInt8 contrlHilite; /* * We can't use the Macintosh commands SizeControl and MoveControl as these * calls will also cause a redraw which in our case will also cause * flicker. To avoid this we adjust the control record directly. The * Draw1Control command appears to just draw where ever the control says to * draw so this seems right. * * NOTE: changing the control record directly may not work when * Apple releases the Copland version of the MacOS (or when hell is cold). */ contrlRect.left = macDraw->xOff + scrollPtr->inset; contrlRect.top = macDraw->yOff + scrollPtr->inset; contrlRect.right = macDraw->xOff + Tk_Width(tkwin) - scrollPtr->inset; contrlRect.bottom = macDraw->yOff + Tk_Height(tkwin) - scrollPtr->inset; SetControlBounds(macScrollPtr->sbHandle, &contrlRect ); /* * To make Tk applications look more like Macintosh applications without * requiring additional work by the Tk developer we do some cute tricks. * The first trick plays with the size of the widget to get it to overlap * with the side of the window by one pixel (we don't do this if the placer * is the geometry manager). The second trick shrinks the scrollbar if it * it covers the area of the grow region ao the scrollbar can also draw * the grow region if need be. */ if (!strcmp(macDraw->winPtr->geomMgrPtr->name, "place")) { macScrollPtr->macFlags &= ~AUTO_ADJUST; } else { macScrollPtr->macFlags |= AUTO_ADJUST; } GetPortBounds ( GetWindowPort ( windowRef ), &portRect ); if ( portRect.left == contrlRect.left ) { if (macScrollPtr->macFlags & AUTO_ADJUST) { contrlRect.left--; SetControlBounds ( macScrollPtr->sbHandle, &contrlRect ); } if (!(macScrollPtr->macFlags & FLUSH_LEFT)) { macScrollPtr->macFlags |= FLUSH_LEFT; if (scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } } else if (macScrollPtr->macFlags & FLUSH_LEFT) { macScrollPtr->macFlags &= ~FLUSH_LEFT; if (scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } if (portRect.top == contrlRect.top) { if (macScrollPtr->macFlags & AUTO_ADJUST) { contrlRect.top--; } if (!(macScrollPtr->macFlags & FLUSH_TOP)) { macScrollPtr->macFlags |= FLUSH_TOP; if (! scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } } else if (macScrollPtr->macFlags & FLUSH_TOP) { macScrollPtr->macFlags &= ~FLUSH_TOP; if (! scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } if (portRect.right == contrlRect.right) { flushRight = true; if (macScrollPtr->macFlags & AUTO_ADJUST) { contrlRect.right++; } if (!(macScrollPtr->macFlags & FLUSH_RIGHT)) { macScrollPtr->macFlags |= FLUSH_RIGHT; if (scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } } else if (macScrollPtr->macFlags & FLUSH_RIGHT) { macScrollPtr->macFlags &= ~FLUSH_RIGHT; if (scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } if (portRect.bottom == contrlRect.bottom) { flushBottom = true; if (macScrollPtr->macFlags & AUTO_ADJUST) { contrlRect.bottom++; } if (!(macScrollPtr->macFlags & FLUSH_BOTTOM)) { macScrollPtr->macFlags |= FLUSH_BOTTOM; if (! scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } } else if (macScrollPtr->macFlags & FLUSH_BOTTOM) { macScrollPtr->macFlags &= ~FLUSH_BOTTOM; if (! scrollPtr->vertical) { TkpComputeScrollbarGeometry(scrollPtr); } } /* * If the scrollbar is flush against the bottom right hand corner then * it may need to draw the grow region for the window so we let the * wm code know about this scrollbar. We don't actually draw the grow * region, however, unless we are currently resizable. */ macScrollPtr->macFlags &= ~DRAW_GROW; if (flushBottom && flushRight) { TkMacOSXSetScrollbarGrow((TkWindow *) tkwin, true); if (TkMacOSXResizable(macDraw->toplevel->winPtr)) { if (scrollPtr->vertical) { contrlRect.bottom -= 14; } else { contrlRect.right -= 14; } macScrollPtr->macFlags |= DRAW_GROW; } } else { TkMacOSXSetScrollbarGrow((TkWindow *) tkwin, false); } /* * Given the Tk parameters for the fractions of the start and * end of the thumb, the following calculation determines the * location for the Macintosh thumb. * The Aqua scroll control works as follows. * The scrollbar's value is the position of the left (or top) side of * the view area in the content area being scrolled. * The maximum value of the control is therefore the dimension of * the content area less the size of the view area. * Since these values are all integers, and Tk gives the thumb position * as fractions, we have introduced a scaling factor. * */ dViewSize = (scrollPtr->lastFraction - scrollPtr->firstFraction) * SCROLLBAR_SCALING_DVALUE; viewSize = (SInt32) dViewSize; controlMax = (SInt32) (SCROLLBAR_SCALING_DVALUE - dViewSize); controlValue = (SInt32) (SCROLLBAR_SCALING_DVALUE * scrollPtr->firstFraction); SetControlViewSize(macScrollPtr->sbHandle,viewSize); SetControl32BitMaximum(macScrollPtr->sbHandle, controlMax); #if 0 middle = scrollPtr->firstFraction / (1.0 - (scrollPtr->lastFraction - scrollPtr->firstFraction)); viewSize = (SInt32) ((scrollPtr->lastFraction - scrollPtr->firstFraction) * SCROLLBAR_SCALING_DVALUE / (1.0 - (scrollPtr->lastFraction - scrollPtr->firstFraction))); SetControlViewSize(macScrollPtr->sbHandle,viewSize); SetControl32BitValue(macScrollPtr->sbHandle, (middle) ); #endif contrlHilite = GetControlHilite(macScrollPtr->sbHandle); SetControl32BitMinimum(macScrollPtr->sbHandle, 0); if ( contrlHilite == 0 || contrlHilite == 255) { if (scrollPtr->firstFraction == 0.0 && scrollPtr->lastFraction == 1.0) { SetControl32BitMinimum(macScrollPtr->sbHandle, SCROLLBAR_SCALING_VALUE); } else { HiliteControl(macScrollPtr->sbHandle, 0); } } SetControl32BitValue(macScrollPtr->sbHandle, controlValue); if ( !IsControlVisible (macScrollPtr -> sbHandle) ) { SetControlVisibility(macScrollPtr->sbHandle,TRUE,FALSE); } }