NSView is an abstract class which provides facilities for drawing in a window and receiving events. It is the superclass of many of the visual elements of the GUI.
In order to display itself, a view must be placed in a window (represented by an NSWindow object). Within the window is a hierarchy of NSViews, headed by the window's content view. Every other view in a window is a descendant of this view.
Subclasses can override drawRect: in order to
implement their appearance. Other methods of NSView and NSResponder
can also be overridden to handle user generated events.
self if aView is the receiver or
aView is a subview of the receiver, the ancestor view
shared by aView and the receiver, if any,
aView if it is an ancestor of the receiver, otherwise
returns nil. */
- (NSView*) ancestorSharedWithView: (NSView*)aView
{
if (self == aView)
return self;
if ([self isDescendantOf: aView])
return aView;
if ([aView isDescendantOf: self])
return self;
/*
* If neither are descendants of each other and either does not have a
* superview then they cannot have a common ancestor
*/
if (!_super_view)
return nil;
if (![aView superview])
return nil;
/* Find the common ancestor of superviews */
return [_super_view ancestorSharedWithView: [aView superview]];
}
/**
Returns YES if aView is an ancestor of the receiver.
*/
- (BOOL) isDescendantOf: (NSView*)aView
{
if (aView == self)
return YES;
if (!_super_view)
return NO;
if (_super_view == aView)
return YES;
return [_super_view isDescendantOf: aView];
}
- (NSView*) opaqueAncestor
{
NSView *next = _super_view;
NSView *current = self;
while (next != nil)
{
if ([current isOpaque] == YES)
{
break;
}
current = next;
next = current->_super_view;
}
return current;
}
/**
Removes the receiver from its superviews list of subviews, by
invoking the superviews [-removeSubview:] method. */
- (void) removeFromSuperviewWithoutNeedingDisplay
{
if (_super_view != nil)
{
[_super_view removeSubview: self];
}
}
/**
Removes the receiver from its superviews list of subviews, by invoking the superviews [-removeSubview:] method, and marks the rectangle that the reciever occupied in the superview as needing redisplay.
This is dangerous to use during display, since it alters the rectangles needing display.
*/ - (void) removeFromSuperview { if (_super_view != nil) { [_super_view setNeedsDisplayInRect: _frame]; [_super_view removeSubview: self]; } } /**Removes the view from the receivers list of subviews and from the responder chain.
Also invokes [aView -viewWillMoveToWindow: nil] to handle removal of aView (and recursively, its children) from its window - performing tidyup by invalidating cursor rects etc.
Tell the view to maintain a private gstate object which encapsulates all the information about drawing, such as coordinate transforms, line widths, etc. If you do not invoke this method, a gstate object is constructed each time the view is lockFocused. Allocating a private gstate may improve the performance of views that are focused a lot and have a lot of customized drawing parameters.
View subclasses should override the setUpGstate method to set these custom parameters.
*/ - (void) allocateGState { _allocate_gstate = 1; _renew_gstate = 1; } /** Frees the gstate object, if there is one. Note that the next time the view is lockFocused, the gstate will be allocated again. */ - (void) releaseGState { if (_allocate_gstate && _gstate) PSundefineuserobject(_gstate); _gstate = 0; /* Note that the next time we lock focus, we'll realloc a gstate (if _allocate_gstate). This seems to make sense, and also allows us to call this method each time we invalidate the coordinates */ } /** Returns an identifier that represents the view's gstate object, which is used to encapsulate drawing information about the view. Most of the time a gstate object is created from scratch when the view is focused, so if the view is not currently focused or allocateGState has not been called, then this method will */ - (int) gState { return _gstate; } /** Invalidates the view's gstate object so it will be set up again using setUpGState the next time the view is focused. */ - (void) renewGState { _renew_gstate = 1; } /* Overridden by subclasses to setup custom gstate */ - (void) setUpGState { } - (void) lockFocusInRect: (NSRect)rect { NSGraphicsContext *ctxt = GSCurrentContext(); struct NSWindow_struct *window_t; NSRect wrect; int window_gstate; NSAssert(_window != nil, NSInternalInconsistencyException); /* Check for deferred window */ if ((window_gstate = [_window gState]) == 0) { return; } [ctxt lockFocusView: self inRect: rect]; wrect = [self convertRect: rect toView: nil]; NSDebugLLog(@"NSView", @"Displaying rect \n\t%@\n\t window %p, flip %d", NSStringFromRect(wrect), _window, _rFlags.flipped_view); window_t = (struct NSWindow_struct *)_window; if (viewIsPrinting == nil) [window_t->_rectsBeingDrawn addObject: [NSValue valueWithRect: wrect]]; /* Make sure we don't modify superview's gstate */ DPSgsave(ctxt); if (viewIsPrinting != nil) { if (viewIsPrinting == self) { /* Make sure coordinates are valid, then fake that we don't have a superview so we get printed correctly */ [self _matrixToWindow]; [_matrixToWindow makeIdentityMatrix]; } else { [[self _matrixToWindow] concat]; } DPSrectclip(ctxt, NSMinX(rect), NSMinY(rect), NSWidth(rect), NSHeight(rect)); /* Allow subclases to make other modifications */ [self setUpGState]; } else if (_gstate) { DPSsetgstate(ctxt, _gstate); if (_renew_gstate) { [self setUpGState]; } _renew_gstate = 0; DPSgsave(ctxt); } else { NSAffineTransform *matrix; matrix = [self _matrixToWindow]; if ([matrix isRotated]) { [matrix boundingRectFor: rect result: &rect]; } DPSsetgstate(ctxt, window_gstate); DPSgsave(ctxt); [matrix concat]; /* Clip to the visible rectangle - which will never be greater * than the bounds of the view. This prevents drawing outside * our bounds */ DPSrectclip(ctxt, NSMinX(rect), NSMinY(rect), NSWidth(rect), NSHeight(rect)); /* Allow subclases to make other modifications */ [self setUpGState]; _renew_gstate = 0; if (_allocate_gstate) { DPSgstate(ctxt); _gstate = GSWDefineAsUserObj(ctxt); /* Balance the previous gsave and install our own gstate */ DPSgrestore(ctxt); DPSsetgstate(ctxt, _gstate); DPSgsave(ctxt); } } GSWSetViewIsFlipped(ctxt, _rFlags.flipped_view); } - (void) unlockFocusNeedsFlush: (BOOL)flush { NSGraphicsContext *ctxt = GSCurrentContext(); NSAssert(_window != nil, NSInternalInconsistencyException); /* Check for deferred window */ if ([_window gState] == 0) return; if (viewIsPrinting == nil) { /* Restore our original gstate */ DPSgrestore(ctxt); } /* Restore state of nesting lockFocus */ DPSgrestore(ctxt); if (!_allocate_gstate) _gstate = 0; if (viewIsPrinting == nil) { NSRect rect; struct NSWindow_struct *window_t; window_t = (struct NSWindow_struct *)_window; if (flush) { rect = [[window_t->_rectsBeingDrawn lastObject] rectValue]; window_t->_rectNeedingFlush = NSUnionRect(window_t->_rectNeedingFlush, rect); window_t->_f.needs_flush = YES; } [window_t->_rectsBeingDrawn removeLastObject]; } [ctxt unlockFocusView: self needsFlush: YES ]; } - (void) lockFocus { [self lockFocusInRect: [self visibleRect]]; } - (void) unlockFocus { [self unlockFocusNeedsFlush: YES ]; } - (BOOL) lockFocusIfCanDraw { if ([self canDraw]) { [self lockFocus]; return YES; } else { return NO; } } - (BOOL) canDraw { // not implemented per OS spec FIX ME if (_window != nil) { return YES; } else { return NO; } } - (void) display { if (_window != nil) { if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } [self displayRect: _visibleRect]; } } - (void) displayIfNeeded { if (_rFlags.needs_display == YES) { if ([self isOpaque] == YES) { [self displayIfNeededIgnoringOpacity]; } else { NSView *firstOpaque = [self opaqueAncestor]; NSRect rect; if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } rect = NSIntersectionRect(_invalidRect, _visibleRect); rect = [firstOpaque convertRect: rect fromView: self]; if (NSIsEmptyRect(rect) == NO) { [firstOpaque displayIfNeededInRectIgnoringOpacity: rect]; } /* * If we still need display after displaying the invalid rectangle, * display any subviews that need display. */ if (_rFlags.needs_display == YES) { NSEnumerator *enumerator = [_sub_views objectEnumerator]; NSView *sub; while ((sub = [enumerator nextObject]) != nil) { if (sub->_rFlags.needs_display) { [sub displayIfNeededIgnoringOpacity]; } } _rFlags.needs_display = NO; } } } } - (void) displayIfNeededIgnoringOpacity { if (_rFlags.needs_display == YES) { NSRect rect; if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } rect = NSIntersectionRect(_invalidRect, _visibleRect); if (NSIsEmptyRect(rect) == NO) { [self displayIfNeededInRectIgnoringOpacity: rect]; } /* * If we still need display after displaying the invalid rectangle, * display any subviews that need display. */ if (_rFlags.needs_display == YES) { NSEnumerator *enumerator = [_sub_views objectEnumerator]; NSView *sub; while ((sub = [enumerator nextObject]) != nil) { if (sub->_rFlags.needs_display) { [sub displayIfNeededIgnoringOpacity]; } } _rFlags.needs_display = NO; } } } - (void) displayIfNeededInRect: (NSRect)aRect { if (_rFlags.needs_display == NO) { if ([self isOpaque] == YES) { [self displayIfNeededInRectIgnoringOpacity: aRect]; } else { NSView *firstOpaque = [self opaqueAncestor]; NSRect rect; rect = [firstOpaque convertRect: aRect fromView: self]; [firstOpaque displayIfNeededInRectIgnoringOpacity: rect]; } } } - (void) displayIfNeededInRectIgnoringOpacity: (NSRect)aRect { if (_window == nil) { return; } if (_rFlags.needs_display == YES) { BOOL subviewNeedsDisplay = NO; NSRect neededRect; NSRect redrawRect; if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } aRect = NSIntersectionRect(aRect, _visibleRect); redrawRect = NSIntersectionRect(aRect, _invalidRect); neededRect = NSIntersectionRect(_visibleRect, _invalidRect); if (NSIsEmptyRect(redrawRect) == NO) { [self lockFocusInRect: redrawRect]; [self drawRect: redrawRect]; [self unlockFocusNeedsFlush: YES]; } if (_rFlags.has_subviews == YES) { unsigned count = [_sub_views count]; if (count > 0) { NSView *array[count]; unsigned i; [_sub_views getObjects: array]; for (i = 0; i < count; i++) { NSRect isect; NSView *subview = array[i]; NSRect subviewFrame = subview->_frame; BOOL intersectCalculated = NO; if ([subview->_frameMatrix isRotated]) { [subview->_frameMatrix boundingRectFor: subviewFrame result: &subviewFrame]; } /* * Having drawn ourself into the rect, we must make sure that * subviews overlapping the area are redrawn. */ isect = NSIntersectionRect(redrawRect, subviewFrame); if (NSIsEmptyRect(isect) == NO) { isect = [subview convertRect: isect fromView: self]; intersectCalculated = YES; /* * hack the ivars of the subview directly for speed. */ subview->_rFlags.needs_display = YES; subview->_invalidRect = NSUnionRect(subview->_invalidRect, isect); } if (subview->_rFlags.needs_display == YES) { if (intersectCalculated == NO || NSEqualRects(aRect, redrawRect) == NO) { isect = NSIntersectionRect(aRect, subviewFrame); isect = [subview convertRect: isect fromView: self]; } [subview displayIfNeededInRectIgnoringOpacity: isect]; if (subview->_rFlags.needs_display == YES) { subviewNeedsDisplay = YES; } } } } } /* * If the rect we displayed contains the _invalidRect or _visibleRect * then we can empty _invalidRect. * If all subviews have been fully displayed, we can also turn off the * 'needs_display' flag. */ if (NSEqualRects(aRect, NSUnionRect(neededRect, aRect)) == YES) { _invalidRect = NSZeroRect; _rFlags.needs_display = subviewNeedsDisplay; } if (_rFlags.needs_display == YES && NSEqualRects(aRect, NSUnionRect(_visibleRect, aRect)) == YES) { _rFlags.needs_display = NO; } [_window flushWindow]; } } - (void) displayRect: (NSRect)rect { if ([self isOpaque] == YES) { [self displayRectIgnoringOpacity: rect]; } else { NSView *firstOpaque = [self opaqueAncestor]; rect = [firstOpaque convertRect: rect fromView: self]; [firstOpaque displayRectIgnoringOpacity: rect]; } } - (void) displayRectIgnoringOpacity: (NSRect)aRect { BOOL subviewNeedsDisplay = NO; NSRect neededRect; if (_window == nil) { return; } if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } aRect = NSIntersectionRect(aRect, _visibleRect); neededRect = NSIntersectionRect(_invalidRect, _visibleRect); if (NSIsEmptyRect(aRect) == NO) { /* * Now we draw this view. */ [self lockFocusInRect: aRect]; [self drawRect: aRect]; } if (_rFlags.has_subviews == YES) { unsigned count = [_sub_views count]; if (count > 0) { NSView *array[count]; unsigned i; [_sub_views getObjects: array]; for (i = 0; i < count; ++i) { NSView *subview = array[i]; NSRect subviewFrame = subview->_frame; NSRect isect; BOOL intersectCalculated = NO; if ([subview->_frameMatrix isRotated] == YES) [subview->_frameMatrix boundingRectFor: subviewFrame result: &subviewFrame]; /* * Having drawn ourself into the rect, we must make sure that * subviews overlapping the area are redrawn. */ isect = NSIntersectionRect(aRect, subviewFrame); if (NSIsEmptyRect(isect) == NO) { isect = [subview convertRect: isect fromView: self]; intersectCalculated = YES; /* * hack the ivars of the subview directly for speed. */ subview->_rFlags.needs_display = YES; subview->_invalidRect = NSUnionRect(subview->_invalidRect, isect); } if (subview->_rFlags.needs_display == YES) { if (intersectCalculated == NO) { isect = [subview convertRect: isect fromView: self]; } [subview displayIfNeededInRectIgnoringOpacity: isect]; if (subview->_rFlags.needs_display == YES) { subviewNeedsDisplay = YES; } } } } } if (NSIsEmptyRect(aRect) == NO) { [self unlockFocusNeedsFlush: YES]; } /* * If the rect we displayed contains the _invalidRect or _visibleRect * then we can empty _invalidRect. If all subviews have been * fully displayed, we can also turn off the 'needs_display' flag. */ if (NSEqualRects(aRect, NSUnionRect(neededRect, aRect)) == YES) { _invalidRect = NSZeroRect; _rFlags.needs_display = subviewNeedsDisplay; } if (_rFlags.needs_display == YES && NSEqualRects(aRect, NSUnionRect(_visibleRect, aRect)) == YES) { _rFlags.needs_display = NO; } [_window flushWindow]; } /** This method is invoked to handle drawing inside the view. The default NSView's implementation does nothing; subclasses might override it to draw something inside the view. Since NSView's implementation is guaranteed to be empty, you should not call super's implementation when you override it in subclasses. drawRect: is invoked when the focus has already been locked on the view; you can use arbitrary postscript functions in drawRect: to draw inside your view; the coordinate system in which you draw is the view's own coordinate system (this means for example that you should refer to the rectangle covered by the view using its bounds, and not its frame). The argument of drawRect: is the rectangle which needs to be redrawn. In a lossy implementation, you can ignore the argument and redraw the whole view; if you are aiming at performance, you may want to redraw only what is inside the rectangle which needs to be redrawn; this usually improves drawing performance considerably. */ - (void) drawRect: (NSRect)rect {} - (NSRect) visibleRect { if (_coordinates_valid == NO) { [self _rebuildCoordinates]; } return _visibleRect; } - (void) setNeedsDisplay: (BOOL)flag { if (flag) { [self setNeedsDisplayInRect: _bounds]; } else { _rFlags.needs_display = NO; _invalidRect = NSZeroRect; } } - (void) setNeedsDisplayInRect: (NSRect)rect { NSView *currentView = _super_view; /* * Limit to bounds, combine with old _invalidRect, and then check to see * if the result is the same as the old _invalidRect - if it isn't then * set the new _invalidRect. */ rect = NSIntersectionRect(rect, _bounds); rect = NSUnionRect(_invalidRect, rect); if (NSEqualRects(rect, _invalidRect) == NO) { NSView *firstOpaque = [self opaqueAncestor]; _rFlags.needs_display = YES; _invalidRect = rect; if (firstOpaque == self) { [_window setViewsNeedDisplay: YES]; } else { rect = [firstOpaque convertRect: _invalidRect fromView: self]; [firstOpaque setNeedsDisplayInRect: rect]; } } /* * Must make sure that superviews know that we need display. * NB. we may have been marked as needing display and then moved to another * parent, so we can't assume that our parent is marked simply because we are. */ while (currentView) { currentView->_rFlags.needs_display = YES; currentView = currentView->_super_view; } } /* * Scrolling */ - (NSRect) adjustScroll: (NSRect)newVisible { return newVisible; } - (BOOL) autoscroll: (NSEvent*)theEvent { if (_super_view) return [_super_view autoscroll: theEvent]; return NO; } - (void) reflectScrolledClipView: (NSClipView*)aClipView {} - (void) scrollClipView: (NSClipView*)aClipView toPoint: (NSPoint)aPoint {} - (void) scrollPoint: (NSPoint)aPoint { NSClipView *s = (NSClipView*)_super_view; while (s != nil && [s isKindOfClass: [NSClipView class]] == NO) { s = (NSClipView*)[s superview]; } aPoint = [self convertPoint: aPoint toView: s]; if (NSEqualPoints(aPoint, [s bounds].origin) == NO) { [s scrollToPoint: aPoint]; } } - (void) scrollRect: (NSRect)aRect by: (NSSize)delta {} - (BOOL) scrollRectToVisible: (NSRect)aRect { NSClipView *s = (NSClipView*)_super_view; while (s != nil && [s isKindOfClass: [NSClipView class]] == NO) { s = (NSClipView*)[s superview]; } if (s != nil) { NSRect vRect = [self visibleRect]; NSPoint aPoint = vRect.origin; BOOL shouldScroll = NO; if (vRect.size.width == 0 && vRect.size.height == 0) return NO; if (!(NSMinX(vRect) <= NSMinX(aRect) && (NSMaxX(vRect) >= NSMaxX(aRect)))) { shouldScroll = YES; if (aRect.origin.x < vRect.origin.x) aPoint.x = aRect.origin.x; else { float visibleRange = vRect.origin.x + vRect.size.width; float aRectRange = aRect.origin.x + aRect.size.width; aPoint.x = vRect.origin.x + (aRectRange - visibleRange); } } if (!(NSMinY(vRect) <= NSMinY(aRect) && (NSMaxY(vRect) >= NSMaxY(aRect)))) { shouldScroll = YES; if (aRect.origin.y < vRect.origin.y) aPoint.y = aRect.origin.y; else { float visibleRange = vRect.origin.y + vRect.size.height; float aRectRange = aRect.origin.y + aRect.size.height; aPoint.y = vRect.origin.y + (aRectRange - visibleRange); } } if (shouldScroll) { aPoint = [self convertPoint: aPoint toView: s]; [s scrollToPoint: aPoint]; return YES; } } return NO; } - (NSScrollView*) enclosingScrollView { id aView = [self superview]; while (aView != nil) { if ([aView isKindOfClass: [NSScrollView class]]) { break; } aView = [aView superview]; } return aView; } /* * Managing the Cursor * * We use the tracking rectangle class to maintain the cursor rects */ - (void) addCursorRect: (NSRect)aRect cursor: (NSCursor*)anObject { if (_window != nil) { GSTrackingRect *m; aRect = [self convertRect: aRect toView: nil]; m = [rectClass allocWithZone: NSDefaultMallocZone()]; m = [m initWithRect: aRect tag: 0 owner: anObject userData: NULL inside: YES]; [_cursor_rects addObject: m]; RELEASE(m); _rFlags.has_currects = 1; _rFlags.valid_rects = 1; } } - (void) discardCursorRects { if (_rFlags.has_currects != 0) { if (_rFlags.valid_rects != 0) { [_cursor_rects makeObjectsPerformSelector: @selector(invalidate)]; _rFlags.valid_rects = 0; } [_cursor_rects removeAllObjects]; _rFlags.has_currects = 0; } } - (void) removeCursorRect: (NSRect)aRect cursor: (NSCursor*)anObject { id e = [_cursor_rects objectEnumerator]; GSTrackingRect *o; NSCursor *c; /* Base remove test upon cursor object */ o = [e nextObject]; while (o) { c = [o owner]; if (c == anObject) { [o invalidate]; [_cursor_rects removeObject: o]; if ([_cursor_rects count] == 0) { _rFlags.has_currects = 0; _rFlags.valid_rects = 0; } break; } else { o = [e nextObject]; } } } - (void) resetCursorRects { } static NSView* findByTag(NSView *view, int aTag, unsigned *level) { unsigned i, count; NSArray *sub = [view subviews]; count = [sub count]; if (count > 0) { NSView *array[count]; [sub getObjects: array]; for (i = 0; i < count; i++) { if ([array[i] tag] == aTag) return array[i]; } *level += 1; for (i = 0; i < count; i++) { NSView *v; v = findByTag(array[i], aTag, level); if (v != nil) return v; } *level -= 1; } return nil; } - (id) viewWithTag: (int)aTag { NSView *view = nil; /* * If we have the specified tag - return self. */ if ([self tag] == aTag) { view = self; } else if (_rFlags.has_subviews) { unsigned count = [_sub_views count]; if (count > 0) { NSView *array[count]; unsigned i; [_sub_views getObjects: array]; /* * Quick check to see if any of our direct descendents has the tag. */ for (i = 0; i < count; i++) { NSView *subView = array[i]; if ([subView tag] == aTag) { view = subView; break; } } if (view == nil) { unsigned level = 0xffffffff; /* * Ok - do it the long way - search the while tree for each of * our descendents and see which has the closest view matching * the tag. */ for (i = 0; i < count; i++) { unsigned l = 0; NSView *v; v = findByTag(array[i], aTag, &l); if (v != nil && l < level) { view = v; level = l; } } } } } return view; } /* * Aiding Event Handling */ /** ReturnsYES if the view object will accept the first
click received when in an inactive window, and NO
otherwise. */
- (BOOL) acceptsFirstMouse: (NSEvent*)theEvent
{
return NO;
}
/**
Returns the subview, lowest in the receiver's hierarchy, which
contains aPoint */
- (NSView*) hitTest: (NSPoint)aPoint
{
NSPoint p;
unsigned count;
NSView *v = nil, *w;
/* If not within our frame then it can't be a hit */
if (![_super_view mouse: aPoint inRect: _frame])
return nil;
p = [self convertPoint: aPoint fromView: _super_view];
if (_rFlags.has_subviews)
{
count = [_sub_views count];
if (count > 0)
{
NSView* array[count];
[_sub_views getObjects: array];
while (count > 0)
{
w = array[--count];
v = [w hitTest: p];
if (v)
break;
}
}
}
/*
* mouse is either in the subview or within self
*/
if (v)
return v;
else
return self;
}
/**
Returns whether or not aPoint lies within aRect
*/
- (BOOL) mouse: (NSPoint)aPoint inRect: (NSRect)aRect
{
return NSMouseInRect (aPoint, aRect, _rFlags.flipped_view);
}
- (BOOL) performKeyEquivalent: (NSEvent*)theEvent
{
unsigned i;
for (i = 0; i < [_sub_views count]; i++)
if ([[_sub_views objectAtIndex: i] performKeyEquivalent: theEvent] == YES)
return YES;
return NO;
}
- (BOOL) performMnemonic: (NSString *)aString
{
unsigned i;
for (i = 0; i < [_sub_views count]; i++)
if ([[_sub_views objectAtIndex: i] performMnemonic: aString] == YES)
return YES;
return NO;
}
- (void) removeTrackingRect: (NSTrackingRectTag)tag
{
unsigned i, j;
GSTrackingRect *m;
j = [_tracking_rects count];
for (i = 0;i < j; ++i)
{
m = (GSTrackingRect*)[_tracking_rects objectAtIndex: i];
if ([m tag] == tag)
{
[_tracking_rects removeObjectAtIndex: i];
if ([_tracking_rects count] == 0)
_rFlags.has_trkrects = 0;
return;
}
}
}
- (BOOL) shouldDelayWindowOrderingForEvent: (NSEvent*)anEvent
{
return NO;
}
- (NSTrackingRectTag) addTrackingRect: (NSRect)aRect
owner: (id)anObject
userData: (void*)data
assumeInside: (BOOL)flag
{
NSTrackingRectTag t;
unsigned i, j;
GSTrackingRect *m;
t = 0;
j = [_tracking_rects count];
for (i = 0; i < j; ++i)
{
m = (GSTrackingRect*)[_tracking_rects objectAtIndex: i];
if ([m tag] > t)
t = [m tag];
}
++t;
aRect = [self convertRect: aRect toView: nil];
m = [[rectClass alloc] initWithRect: aRect
tag: t
owner: anObject
userData: data
inside: flag];
[_tracking_rects addObject: m];
RELEASE(m);
_rFlags.has_trkrects = 1;
return t;
}
- (void) setNextKeyView: (NSView *)aView
{
if (!aView)
{
_nextKeyView = nil;
return;
}
if ([aView isKindOfClass: viewClass])
{
// As an exception, we do not retain aView, to avoid retain loops
// (the simplest being a view retaining and being retained
// by another view), which prevents objects from being ever
// deallocated. To understand how we manage without retaining
// _nextKeyView, see [NSView -dealloc].
_nextKeyView = aView;
if ([aView previousKeyView] != self)
[aView setPreviousKeyView: self];
}
}
- (NSView *) nextKeyView
{
return _nextKeyView;
}
- (NSView *) nextValidKeyView
{
NSView *theView;
theView = _nextKeyView;
while (1)
{
if ([theView acceptsFirstResponder] || (theView == nil)
|| (theView == self))
return theView;
theView = [theView nextKeyView];
}
}
- (void) setPreviousKeyView: (NSView *)aView
{
if (!aView)
{
_previousKeyView = nil;
return;
}
if ([aView isKindOfClass: viewClass])
{
_previousKeyView = aView;
if ([aView nextKeyView] != self)
[aView setNextKeyView: self];
}
}
- (NSView *) previousKeyView
{
return _previousKeyView;
}
- (NSView *) previousValidKeyView
{
NSView *theView;
theView = _previousKeyView;
while (1)
{
if ([theView acceptsFirstResponder] || (theView == nil)
|| (theView == self))
return theView;
theView = [theView previousKeyView];
}
}
/*
* Dragging
*/
- (BOOL) dragFile: (NSString*)filename
fromRect: (NSRect)rect
slideBack: (BOOL)slideFlag
event: (NSEvent*)event
{
return NO;
}
- (void) dragImage: (NSImage*)anImage
at: (NSPoint)viewLocation
offset: (NSSize)initialOffset
event: (NSEvent*)event
pasteboard: (NSPasteboard*)pboard
source: (id)sourceObject
slideBack: (BOOL)slideFlag
{
NSView *dragView = (NSView*)[GSCurrentContext() _dragInfo];
[NSApp preventWindowOrdering];
[dragView dragImage: anImage
at: viewLocation
offset: initialOffset
event: event
pasteboard: pboard
source: sourceObject
slideBack: slideFlag];
}
- (void) registerForDraggedTypes: (NSArray*)types
{
NSArray *o;
NSArray *t;
if (types == nil || [types count] == 0)
[NSException raise: NSInvalidArgumentException
format: @"Types information missing"];
/*
* Get the old drag types for this view if we need to tell the context
* to change the registered types for the window.
*/
if (_rFlags.has_draginfo == 1 && _window != nil)
{
o = GSGetDragTypes(self);
TEST_RETAIN(o);
}
else
{
o = nil;
}
t = GSSetDragTypes(self, types);
_rFlags.has_draginfo = 1;
if (_window != nil)
{
NSGraphicsContext *ctxt = GSCurrentContext();
[ctxt _addDragTypes: t toWindow: _window];
if (o != nil)
{
[ctxt _removeDragTypes: o fromWindow: _window];
}
}
TEST_RELEASE(o);
}
- (void) unregisterDraggedTypes
{
if (_rFlags.has_draginfo)
{
if (_window != nil)
{
NSGraphicsContext *ctxt = GSCurrentContext();
NSArray *t = GSGetDragTypes(self);
[ctxt _removeDragTypes: t fromWindow: _window];
}
GSRemoveDragTypes(self);
_rFlags.has_draginfo = 0;
}
}
/*
* Printing
*/
- (void) fax: (id)sender
{
NSPrintInfo *aPrintInfo = [NSPrintInfo sharedPrintInfo];
[aPrintInfo setJobDisposition: NSPrintFaxJob];
[[NSPrintOperation printOperationWithView: self
printInfo: aPrintInfo] runOperation];
}
- (void) print: (id)sender
{
[[NSPrintOperation printOperationWithView: self] runOperation];
}
- (NSData*) dataWithEPSInsideRect: (NSRect)aRect
{
NSMutableData *data = [NSMutableData data];
[[NSPrintOperation EPSOperationWithView: self
insideRect: aRect
toData: data] runOperation];
return data;
}
- (void) writeEPSInsideRect: (NSRect)rect
toPasteboard: (NSPasteboard*)pasteboard
{
NSData *data = [self dataWithEPSInsideRect: rect];
if (data != nil)
[pasteboard setData: data
forType: NSPostScriptPboardType];
}
- (NSData *)dataWithPDFInsideRect:(NSRect)aRect
{
NSMutableData *data = [NSMutableData data];
[[NSPrintOperation PDFOperationWithView: self
insideRect: aRect
toData: data] runOperation];
return data;
}
- (void)writePDFInsideRect:(NSRect)aRect
toPasteboard:(NSPasteboard *)pboard
{
NSData *data = [self dataWithPDFInsideRect: aRect];
if (data != nil)
[pboard setData: data
forType: NSPDFPboardType];
}
- (NSString *)printJobTitle
{
id doc;
NSString *title;
doc = [[NSDocumentController sharedDocumentController] documentForWindow:
[self window]];
if (doc)
title = [doc displayName];
else
title = [[self window] title];
return title;
}
/*
* Pagination
*/
- (void) adjustPageHeightNew: (float*)newBottom
top: (float)oldTop
bottom: (float)oldBottom
limit: (float)bottomLimit
{
float bottom = oldBottom;
if (_rFlags.has_subviews)
{
id e, o;
e = [_sub_views objectEnumerator];
while ((o = [e nextObject]) != nil)
{
// FIXME: We have to convert this values for the subclass
float oTop, oBottom, oLimit;
/* Don't ask me why, but gcc-2.91.66 crashes if we use
NSMakePoint in the following expressions. We avoid this
compiler internal bug by using an auxiliary aPoint
variable, and setting it manually to the NSPoints we
need. */
{
NSPoint aPoint = {0, oldTop};
oTop = ([self convertPoint: aPoint toView: o]).y;
}
{
NSPoint aPoint = {0, bottom};
oBottom = ([self convertPoint: aPoint toView: o]).y;
}
{
NSPoint aPoint = {0, bottomLimit};
oLimit = ([self convertPoint: aPoint toView: o]).y;
}
[o adjustPageHeightNew: &oBottom
top: oTop
bottom: oBottom
limit: oLimit];
{
NSPoint aPoint = {0, oBottom};
bottom = ([self convertPoint: aPoint fromView: o]).y;
}
}
}
*newBottom = bottom;
}
- (void) adjustPageWidthNew: (float*)newRight
left: (float)oldLeft
right: (float)oldRight
limit: (float)rightLimit
{
float right = oldRight;
if (_rFlags.has_subviews)
{
id e, o;
e = [_sub_views objectEnumerator];
while ((o = [e nextObject]) != nil)
{
// FIXME: We have to convert this values for the subclass
/* See comments in adjustPageHeightNew:top:bottom:limit:
about why code is structured in this funny way. */
float oLeft, oRight, oLimit;
/* Don't ask me why, but gcc-2.91.66 crashes if we use
NSMakePoint in the following expressions. We avoid this
compiler internal bug by using an auxiliary aPoint
variable, and setting it manually to the NSPoints we
need. */
{
NSPoint aPoint = {oldLeft, 0};
oLeft = ([self convertPoint: aPoint toView: o]).x;
}
{
NSPoint aPoint = {right, 0};
oRight = ([self convertPoint: aPoint toView: o]).x;
}
{
NSPoint aPoint = {rightLimit, 0};
oLimit = ([self convertPoint: aPoint toView: o]).x;
}
[o adjustPageHeightNew: &oRight
top: oLeft
bottom: oRight
limit: oLimit];
{
NSPoint aPoint = {oRight, 0};
right = ([self convertPoint: aPoint fromView: o]).x;
}
}
}
*newRight = right;
}
- (float) heightAdjustLimit
{
return 0;
}
- (BOOL) knowsPagesFirst: (int*)firstPageNum last: (int*)lastPageNum
{
return NO;
}
- (BOOL) knowsPageRange: (NSRange*)range
{
return NO;
}
- (NSPoint) locationOfPrintRect: (NSRect)aRect
{
int pages;
NSPoint location;
NSRect bounds;
NSMutableDictionary *dict;
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
NSPrintInfo *printInfo = [printOp printInfo];
dict = [printInfo dictionary];
pages = [[dict objectForKey: @"NSPrintTotalPages"] intValue];
if ([dict objectForKey: @"NSPrintPaperBounds"])
bounds = [[dict objectForKey: @"NSPrintPaperBounds"] rectValue];
else
bounds = aRect;
location = NSMakePoint(0, NSHeight(bounds)-NSHeight(aRect));
/* FIXME: I can't figure out how the location for a multi-page document
is computed. Just ignore centering? */
if (pages == 1)
{
if ([printInfo isHorizontallyCentered])
location.x = (NSWidth(bounds) - NSWidth(aRect))/2;
if ([printInfo isVerticallyCentered])
location.y = (NSHeight(bounds) - NSHeight(aRect))/2;
}
return location;
}
- (NSRect) rectForPage: (int)page
{
return NSZeroRect;
}
- (float) widthAdjustLimit
{
return 0;
}
/*
* Writing Conforming PostScript
*/
- (void) beginPage: (int)ordinalNum
label: (NSString*)aString
bBox: (NSRect)pageRect
fonts: (NSString*)fontNames
{
NSGraphicsContext *ctxt = GSCurrentContext();
if (aString == nil)
aString = [[NSNumber numberWithInt: ordinalNum] description];
DPSPrintf(ctxt, "%%%%Page: %s %d\n", [aString cString], ordinalNum);
if (NSIsEmptyRect(pageRect) == NO)
DPSPrintf(ctxt, "%%%%PageBoundingBox: %d %d %d %d\n",
(int)NSMinX(pageRect), (int)NSMinY(pageRect),
(int)NSMaxX(pageRect), (int)NSMaxY(pageRect));
if (fontNames)
DPSPrintf(ctxt, "%%%%PageFonts: %s\n", [fontNames cString]);
DPSPrintf(ctxt, "%%%%BeginPageSetup\n");
}
- (void) beginPageSetupRect: (NSRect)aRect placement: (NSPoint)location
{
[self beginPageInRect: aRect atPlacement: location];
}
- (void) beginPrologueBBox: (NSRect)bBox
creationDate: (NSString*)dateCreated
createdBy: (NSString*)anApplication
fonts: (NSString*)fontNames
forWhom: (NSString*)user
pages: (int)numPages
title: (NSString*)aTitle
{
NSGraphicsContext *ctxt = GSCurrentContext();
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
NSPrintingOrientation orient;
BOOL epsOp;
epsOp = [printOp isEPSOperation];
orient = [[printOp printInfo] orientation];
if (epsOp)
DPSPrintf(ctxt, "%%!PS-Adobe-3.0 EPSF-3.0\n");
else
DPSPrintf(ctxt, "%%!PS-Adobe-3.0\n");
DPSPrintf(ctxt, "%%%%Title: %s\n", [aTitle cString]);
DPSPrintf(ctxt, "%%%%Creator: %s\n", [anApplication cString]);
DPSPrintf(ctxt, "%%%%CreationDate: %s\n",
[[dateCreated description] cString]);
DPSPrintf(ctxt, "%%%%For: %s\n", [user cString]);
if (fontNames)
DPSPrintf(ctxt, "%%%%DocumentFonts: %s\n", [fontNames cString]);
else
DPSPrintf(ctxt, "%%%%DocumentFonts: (atend)\n");
if (NSIsEmptyRect(bBox) == NO)
DPSPrintf(ctxt, "%%%%BoundingBox: %d %d %d %d\n",
(int)NSMinX(bBox), (int)NSMinY(bBox),
(int)NSMaxX(bBox), (int)NSMaxY(bBox));
else
DPSPrintf(ctxt, "%%%%BoundingBox: (atend)\n");
if (epsOp == NO)
{
if (numPages)
DPSPrintf(ctxt, "%%%%Pages: %d\n", numPages);
else
DPSPrintf(ctxt, "%%%%Pages: (atend)\n");
if ([printOp pageOrder] == NSDescendingPageOrder)
DPSPrintf(ctxt, "%%%%PageOrder: Descend\n");
else if ([printOp pageOrder] == NSAscendingPageOrder)
DPSPrintf(ctxt, "%%%%PageOrder: Ascend\n");
else if ([printOp pageOrder] == NSSpecialPageOrder)
DPSPrintf(ctxt, "%%%%PageOrder: Special\n");
if (orient == NSPortraitOrientation)
DPSPrintf(ctxt, "%%%%Orientation: Portrait\n");
else
DPSPrintf(ctxt, "%%%%Orientation: Landscape\n");
}
DPSPrintf(ctxt, "%%%%GNUstepVersion: %d.%d.%d\n",
GNUSTEP_GUI_MAJOR_VERSION, GNUSTEP_GUI_MINOR_VERSION,
GNUSTEP_GUI_SUBMINOR_VERSION);
}
- (void) addToPageSetup
{
}
- (void) beginSetup
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%BeginSetup\n");
}
- (void) beginTrailer
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%Trailer\n");
}
- (void) drawPageBorderWithSize: (NSSize)borderSize
{
}
- (void) drawSheetBorderWithSize: (NSSize)borderSize
{
}
- (void) endHeaderComments
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%EndComments\n\n");
}
- (void) endPrologue
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%EndProlog\n\n");
}
- (void) endSetup
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%EndSetup\n\n");
}
- (void) endPageSetup
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%EndPageSetup\n");
}
- (void) endPage
{
int nup;
NSGraphicsContext *ctxt = GSCurrentContext();
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
NSDictionary *dict = [[printOp printInfo] dictionary];
nup = [[dict objectForKey: NSPrintPagesPerSheet] intValue];
if (nup > 1)
{
DPSPrintf(ctxt, "__GSpagesaveobject restore\n\n");
}
}
- (void) endTrailer
{
NSGraphicsContext *ctxt = GSCurrentContext();
DPSPrintf(ctxt, "%%%%EOF\n");
}
/**
Writes header and job information for the PostScript document. This
includes at a minimum, PostScript header information. It may also
include job setup information if the output is intended for a printer
(i.e. not an EPS file). Most of the information for writing the
header comes from the NSPrintOperation and NSPrintInfo objects
associated with the current print operation.
There isn't normally anything that the program needs to override
at the beginning of a document, although if there is additional
setup that needs to be done, you can override the NSView's methods
endHeaderComments, endPrologue, beginSetup, and/or endSetup.
This method calls the above methods in the listed order before
or after writing the required information. For an EPS operation, the
beginSetup and endSetup methods aren't used. */
- (void)beginDocument
{
int first, last, pages, nup;
NSRect bbox;
NSDictionary *dict;
NSGraphicsContext *ctxt = GSCurrentContext();
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
dict = [[printOp printInfo] dictionary];
if (printOp == nil)
{
[NSException raise: NSInternalInconsistencyException
format: @"beginDocument called without a current print op"];
}
/* Inform ourselves and subviews that we're printing so we adjust
the PostScript accordingly. Perhaps this could be in the thread
dictionary, but that's probably overkill and slow */
viewIsPrinting = self;
/* Get pagination information */
nup = [[dict objectForKey: NSPrintPagesPerSheet] intValue];
bbox = NSZeroRect;
if ([dict objectForKey: @"NSPrintSheetBounds"])
bbox = [[dict objectForKey: @"NSPrintSheetBounds"] rectValue];
first = [[dict objectForKey: NSPrintFirstPage] intValue];
last = [[dict objectForKey: NSPrintLastPage] intValue];
pages = last - first + 1;
if (nup > 1)
pages = ceil((float)pages / nup);
/* Begin document structure */
[self beginPrologueBBox: bbox
creationDate: [[NSCalendarDate calendarDate] description]
createdBy: [[NSProcessInfo processInfo] processName]
fonts: nil
forWhom: NSUserName()
pages: pages
title: [self printJobTitle]];
[self endHeaderComments];
DPSPrintf(ctxt, "%%%%BeginProlog\n");
// Prolog goes here !
[self endPrologue];
if ([printOp isEPSOperation] == NO)
{
[self beginSetup];
// Setup goes here !
[self endSetup];
}
[ctxt resetUsedFonts];
/* Make sure we set the visible rect so everything is printed. */
[self _rebuildCoordinates];
_visibleRect = _bounds;
}
- (void)beginPageInRect:(NSRect)aRect
atPlacement:(NSPoint)location
{
int nup;
float scale;
NSRect bounds;
NSGraphicsContext *ctxt = GSCurrentContext();
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
NSDictionary *dict = [[printOp printInfo] dictionary];
if ([dict objectForKey: @"NSPrintPaperBounds"])
bounds = [[dict objectForKey: @"NSPrintPaperBounds"] rectValue];
else
bounds = aRect;
nup = [[dict objectForKey: NSPrintPagesPerSheet] intValue];
if (nup > 1)
{
int page;
float xoff, yoff;
DPSPrintf(ctxt, "/__GSpagesaveobject save def\n");
page = [printOp currentPage]
- [[dict objectForKey: NSPrintFirstPage] intValue];
page = page % nup;
scale = [[dict objectForKey: @"NSNupScale"] floatValue];
if (nup == 2)
xoff = page;
else
xoff = (page % (nup/2));
xoff *= NSWidth(bounds) * scale;
if (nup == 2)
yoff = 0;
else
yoff = (int)((nup-page-1) / (nup/2));
yoff *= NSHeight(bounds) * scale;
DPStranslate(ctxt, xoff, yoff);
DPSgsave(ctxt);
DPSscale(ctxt, scale, scale);
}
else
DPSgsave(ctxt);
/* Translate to placement */
if (location.x != 0 || location.y != 0)
DPStranslate(ctxt, location.x, location.y);
}
- (void)endDocument
{
int first, last, current, pages;
NSSet *fontNames;
NSGraphicsContext *ctxt = GSCurrentContext();
NSPrintOperation *printOp = [NSPrintOperation currentOperation];
NSDictionary *dict = [[printOp printInfo] dictionary];
first = [[dict objectForKey: NSPrintFirstPage] intValue];
last = [[dict objectForKey: NSPrintLastPage] intValue];
pages = last - first + 1;
[self beginTrailer];
if (pages == 0)
{
int nup = [[dict objectForKey: NSPrintPagesPerSheet] intValue];
current = [printOp currentPage];
pages = current - first; // Current is 1 more than the last page
if (nup > 1)
pages = ceil((float)pages / nup);
DPSPrintf(ctxt, "%%%%Pages: %d\n", pages);
}
fontNames = [ctxt usedFonts];
if (fontNames && [fontNames count])
{
NSString *name;
NSEnumerator *e = [fontNames objectEnumerator];
DPSPrintf(ctxt, "%%%%DocumentFonts: %@\n", [e nextObject]);
while ((name = [e nextObject]))
{
DPSPrintf(ctxt, "%%%%+ %@\n", name);
}
}
[self endTrailer];
[self _invalidateCoordinates];
viewIsPrinting = nil;
}
/*
* NSCoding protocol
*/
- (void) encodeWithCoder: (NSCoder*)aCoder
{
[super encodeWithCoder: aCoder];
NSDebugLLog(@"NSView", @"NSView: start encoding\n");
[aCoder encodeRect: _frame];
[aCoder encodeRect: _bounds];
[aCoder encodeValueOfObjCType: @encode(BOOL) at: &_is_rotated_from_base];
[aCoder encodeValueOfObjCType: @encode(BOOL)
at: &_is_rotated_or_scaled_from_base];
[aCoder encodeValueOfObjCType: @encode(BOOL) at: &_post_frame_changes];
[aCoder encodeValueOfObjCType: @encode(BOOL) at: &_autoresizes_subviews];
[aCoder encodeValueOfObjCType: @encode(unsigned int) at: &_autoresizingMask];
[aCoder encodeConditionalObject: _nextKeyView];
[aCoder encodeConditionalObject: _previousKeyView];
[aCoder encodeObject: _sub_views];
NSDebugLLog(@"NSView", @"NSView: finish encoding\n");
}
- (id) initWithCoder: (NSCoder*)aDecoder
{
NSRect rect;
NSEnumerator *e;
NSView *sub;
NSArray *subs;
self = [super initWithCoder: aDecoder];
NSDebugLLog(@"NSView", @"NSView: start decoding\n");
_frame = [aDecoder decodeRect];
_bounds.origin = NSZeroPoint;
_bounds.size = _frame.size;
_frameMatrix = [NSAffineTransform new]; // Map fromsuperview to frame
_boundsMatrix = [NSAffineTransform new]; // Map fromsuperview to bounds
_matrixToWindow = [NSAffineTransform new]; // Map to window coordinates
_matrixFromWindow = [NSAffineTransform new]; // Map from window coordinates
[_frameMatrix setFrameOrigin: _frame.origin];
rect = [aDecoder decodeRect];
[self setBounds: rect];
_sub_views = [NSMutableArray new];
_tracking_rects = [NSMutableArray new];
_cursor_rects = [NSMutableArray new];
_super_view = nil;
_window = nil;
_rFlags.needs_display = YES;
_coordinates_valid = NO;
_rFlags.flipped_view = [self isFlipped];
[aDecoder decodeValueOfObjCType: @encode(BOOL) at: &_is_rotated_from_base];
[aDecoder decodeValueOfObjCType: @encode(BOOL)
at: &_is_rotated_or_scaled_from_base];
[aDecoder decodeValueOfObjCType: @encode(BOOL) at: &_post_frame_changes];
[aDecoder decodeValueOfObjCType: @encode(BOOL) at: &_autoresizes_subviews];
[aDecoder decodeValueOfObjCType: @encode(unsigned int) at: &_autoresizingMask];
_nextKeyView = [aDecoder decodeObject];
_previousKeyView = [aDecoder decodeObject];
[aDecoder decodeValueOfObjCType: @encode(id) at: &subs];
e = [subs objectEnumerator];
while ((sub = [e nextObject]) != nil)
{
NSAssert(sub->_window == nil, NSInternalInconsistencyException);
NSAssert(sub->_super_view == nil, NSInternalInconsistencyException);
[sub viewWillMoveToWindow: _window];
[sub viewWillMoveToSuperview: self];
[sub setNextResponder: self];
[_sub_views addObject: sub];
_rFlags.has_subviews = 1;
[sub resetCursorRects];
[sub setNeedsDisplay: YES];
[sub viewDidMoveToWindow];
[sub viewDidMoveToSuperview];
[self didAddSubview: sub];
}
RELEASE(subs);
NSDebugLLog(@"NSView", @"NSView: finish decoding\n");
return self;
}
/*
* Accessor methods
*/
- (void) setAutoresizesSubviews: (BOOL)flag
{
_autoresizes_subviews = flag;
}
- (void) setAutoresizingMask: (unsigned int)mask
{
_autoresizingMask = mask;
}
/** Returns the window in which the receiver resides. */
- (NSWindow*) window
{
return _window;
}
- (BOOL) autoresizesSubviews
{
return _autoresizes_subviews;
}
- (unsigned int) autoresizingMask
{
return _autoresizingMask;
}
- (NSArray*) subviews
{
/*
* Return a mutable copy 'cos we know that a mutable copy of an array or
* a mutable array does a shallow copy - which is what we want to give
* away - we don't want people to mess with our actual subviews array.
*/
return AUTORELEASE([_sub_views mutableCopyWithZone: NSDefaultMallocZone()]);
}
- (NSView*) superview
{
return _super_view;
}
- (BOOL) shouldDrawColor
{
return YES;
}
- (BOOL) isOpaque
{
return NO;
}
- (BOOL) needsDisplay
{
return _rFlags.needs_display;
}
- (int) tag
{
return -1;
}
- (BOOL) isFlipped
{
return NO;
}
- (NSRect) bounds
{
return _bounds;
}
- (NSRect) frame
{
return _frame;
}
- (float) boundsRotation
{
return [_boundsMatrix rotationAngle];
}
- (float) frameRotation
{
return [_frameMatrix rotationAngle];
}
- (BOOL) postsFrameChangedNotifications
{
return _post_frame_changes;
}
- (BOOL) postsBoundsChangedNotifications
{
return _post_bounds_changes;
}
/*
* Menu operations
*/
+ (NSMenu *)defaultMenu
{
return nil;
}
- (NSMenu *)menuForEvent:(NSEvent *)theEvent
{
return [self menu];
}
/*
* Tool Tips
*/
- (NSToolTipTag) addToolTipRect: (NSRect)aRect
owner: (id)anObject
userData: (void *)data
{
return 0;
}
- (void) removeAllToolTips
{
}
- (void) removeToolTip: (NSToolTipTag)tag
{
}
- (void) setToolTip: (NSString *)string
{
}
- (NSString *) toolTip
{
return nil;
}
/*
* Private methods.
*/
/*
* The [-_invalidateCoordinates] method marks the coordinate mapping
* matrices (matrixFromWindow and _matrixToWindow) and the cached visible
* rectangle as invalid. It recursively invalidates the coordinates for
* all subviews as well.
* This method must be called whenever the size, shape or position of
* the view is changed in any way.
*/
- (void) _invalidateCoordinates
{
if (_coordinates_valid == YES)
{
unsigned count;
_coordinates_valid = NO;
if (_rFlags.valid_rects != 0)
{
[_window invalidateCursorRectsForView: self];
}
if (_rFlags.has_subviews)
{
count = [_sub_views count];
if (count > 0)
{
NSView* array[count];
unsigned i;
[_sub_views getObjects: array];
for (i = 0; i < count; i++)
{
NSView *sub = array[i];
if (sub->_coordinates_valid == YES)
{
(*invalidateImp)(sub, invalidateSel);
}
}
}
}
[self releaseGState];
}
}
/*
* The [-_matrixFromWindow] method returns a matrix that can be used to
* map coordinates in the windows coordinate system to coordinates in the
* views coordinate system. It rebuilds the mapping matrices and
* visible rectangle cache if necessary.
* All coordinate transformations use this matrix.
*/
- (NSAffineTransform*) _matrixFromWindow
{
if (_coordinates_valid == NO)
{
[self _rebuildCoordinates];
}
return _matrixFromWindow;
}
/*
* The [-_matrixToWindow] method returns a matrix that can be used to
* map coordinates in the views coordinate system to coordinates in the
* windows coordinate system. It rebuilds the mapping matrices and
* visible rectangle cache if necessary.
* All coordinate transformations use this matrix.
*/
- (NSAffineTransform*) _matrixToWindow
{
if (_coordinates_valid == NO)
{
[self _rebuildCoordinates];
}
return _matrixToWindow;
}
/*
* The [-_rebuildCoordinates] method rebuilds the coordinate mapping
* matrices (matrixFromWindow and _matrixToWindow) and the cached visible
* rectangle if they have been invalidated.
*/
- (void) _rebuildCoordinates
{
if (_coordinates_valid == NO)
{
_coordinates_valid = YES;
if (!_window)
{
_visibleRect = NSZeroRect;
[_matrixToWindow makeIdentityMatrix];
[_matrixFromWindow makeIdentityMatrix];
}
if (!_super_view)
{
_visibleRect = _bounds;
[_matrixToWindow makeIdentityMatrix];
[_matrixFromWindow makeIdentityMatrix];
}
else
{
NSRect superviewsVisibleRect;
BOOL wasFlipped = _super_view->_rFlags.flipped_view;
NSAffineTransform *pMatrix = [_super_view _matrixToWindow];
[_matrixToWindow takeMatrixFromTransform: pMatrix];
(*appImp)(_matrixToWindow, appSel, _frameMatrix);
if (_rFlags.flipped_view != wasFlipped)
{
/*
* The flipping process must result in a coordinate system that
* exactly overlays the original. To do that, we must translate
* the origin by the height of the view.
*/
flip->matrix.ty = _frame.size.height;
(*appImp)(_matrixToWindow, appSel, flip);
}
(*appImp)(_matrixToWindow, appSel, _boundsMatrix);
[_matrixFromWindow takeMatrixFromTransform: _matrixToWindow];
[_matrixFromWindow inverse];
superviewsVisibleRect = [self convertRect: [_super_view visibleRect]
fromView: _super_view];
_visibleRect = NSIntersectionRect(superviewsVisibleRect, _bounds);
}
}
}
@end