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libs-gui/Source/NSLayoutManager.m
Richard Frith-MacDonald 69e71a4f06 Tidyup 
git-svn-id: svn+ssh://svn.gna.org/svn/gnustep/libs/gui/trunk@8706 72102866-910b-0410-8b05-ffd578937521
2001-01-20 08:58:25 +00:00

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/*
NSLayoutManager.m
The text layout manager class
Copyright (C) 1999 Free Software Foundation, Inc.
Author: Jonathan Gapen <jagapen@smithlab.chem.wisc.edu>
Date: July 1999
Author: Michael Hanni <mhanni@sprintmail.com>
Date: August 1999
This file is part of the GNUstep GUI Library.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with this library; see the file COPYING.LIB.
If not, write to the Free Software Foundation,
59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include <AppKit/NSLayoutManager.h>
#include "GSSimpleLayoutManager.h"
#include <AppKit/NSWindow.h>
#include <Foundation/NSException.h>
#define USE_GLYPHS 0
/*
* Glyph attributes known to the layout manager.
*/
typedef enum {
GSGlyphDrawsOutsideLineFragment,
GSGlyphIsNotShown,
GSGlyphGeneration,
GSGlyphInscription,
} GSGlyphAttributes;
/*
* A structure to hold information about a glyph in the glyph stream
* NB. This structure should be no more than 32 bits, so it can fit
* in as a GSIArray element.
*/
typedef struct {
unsigned offset:24; // characters in from start of chunk
unsigned drawsOutsideLineFragment:1; // glyph bigger than fragment?
unsigned isNotShown:1; // glyph invisible (space, tab etc)
unsigned inscription:3; // NSGlyphInscription info
unsigned generation:3; // Other attributes
} GSGlyphAttrs;
// _GSRunSearchKey is an internal class which serves as the foundation for
// all our searching. This may not be an elegant way to go about this, so
// if someone wants to optimize this out, please do.
@interface _GSRunSearchKey : NSObject
{
@public
NSRange glyphRange;
}
@end
@implementation _GSRunSearchKey
- (id) init
{
return [super init];
}
- (void) dealloc
{
[super dealloc];
}
@end
@interface GSGlyphLocation : _GSRunSearchKey
{
@public
NSPoint point;
}
@end
@implementation GSGlyphLocation
- (id) init
{
return [super init];
}
- (void) dealloc
{
[super dealloc];
}
@end
@interface GSLineLayoutInfo : _GSRunSearchKey
{
@public
NSRect lineFragmentRect;
NSRect usedRect;
}
@end
@implementation GSLineLayoutInfo
- (id) init
{
return [super init];
}
- (void) dealloc
{
[super dealloc];
}
@end
@interface GSTextContainerLayoutInfo : _GSRunSearchKey
{
@public
NSTextContainer *textContainer;
}
@end
@implementation GSTextContainerLayoutInfo
- (id) init
{
return [super init];
}
- (void) dealloc
{
RELEASE (textContainer);
[super dealloc];
}
@end
/*
* We need a fast array that can store -
* pointers, objects, glyphs (long) and attributes.
*/
#define GSI_ARRAY_TYPES GSUNION_PTR|GSUNION_OBJ|GSUNION_LONG
#define GSI_ARRAY_EXTRA GSGlyphAttrs
/*
* We handle retain/release explicitly, so we can use GSIArrays to hold
* non-object values.
*/
#define GSI_ARRAY_NO_RELEASE 1
#define GSI_ARRAY_NO_RETAIN 1
#ifdef GSIArray
#undef GSIArray
#endif
#include <base/GSIArray.h>
static NSComparisonResult aSort(GSIArrayItem i0, GSIArrayItem i1)
{
if (((_GSRunSearchKey*)(i0.obj))->glyphRange.location
< ((_GSRunSearchKey*)(i1.obj))->glyphRange.location)
return NSOrderedAscending;
else if (((_GSRunSearchKey*)(i0.obj))->glyphRange.location
>= NSMaxRange(((_GSRunSearchKey*)(i1.obj))->glyphRange))
return NSOrderedDescending;
else
return NSOrderedSame;
}
/*
* The glyph attributes within a chunk must be ordered by their offset fields,
* so we can use a binary search to find the item for a particular offset.
*/
static NSComparisonResult
offsetSort(GSIArrayItem i0, GSIArrayItem i1)
{
if ((i0.ext).offset < (i1.ext).offset)
return NSOrderedAscending;
else if ((i0.ext).offset > (i1.ext).offset)
return NSOrderedDescending;
else
return NSOrderedSame;
}
/*
* Structure to handle the storage of the glyph stream.
* This is done as an array of chunks.
* Each chunk contains an array of glyphs and corresponding attributes.
*/
typedef struct {
unsigned charIndex; // Index of character at start of chunk
unsigned glyphIndex; // Index of glyph at start of chunk
GSIArray_t glyphs; // Array of glyphs.
GSIArray_t attrs; // Array of attributes.
} GSGlyphChunk;
/*
* The glyph chunks must be ordered by their charIndex offset fields,
* so we can use a binary search to find the item for a particular
* character index.
*/
static NSComparisonResult
charIndexSort(GSIArrayItem i0, GSIArrayItem i1)
{
if (((GSGlyphChunk*)(i0.ptr))->charIndex
< (((GSGlyphChunk*)(i1.ptr))->charIndex))
return NSOrderedAscending;
else if (((GSGlyphChunk*)(i0.ptr))->charIndex
> (((GSGlyphChunk*)(i1.ptr))->charIndex))
return NSOrderedDescending;
else
return NSOrderedSame;
}
/*
* The glyph chunks must be ordered by their glyphIndex offset fields,
* so we can use a binary search to find the item for a particular
* glyph index.
*/
static NSComparisonResult
glyphIndexSort(GSIArrayItem i0, GSIArrayItem i1)
{
if (((GSGlyphChunk*)(i0.ptr))->glyphIndex
< (((GSGlyphChunk*)(i1.ptr))->glyphIndex))
return NSOrderedAscending;
else if (((GSGlyphChunk*)(i0.ptr))->glyphIndex
> (((GSGlyphChunk*)(i1.ptr))->glyphIndex))
return NSOrderedDescending;
else
return NSOrderedSame;
}
/*
* Glyph management functions.
*/
static GSGlyphChunk*
GSCreateGlyphChunk(unsigned charIndex)
{
GSGlyphChunk *chunk;
chunk = NSZoneMalloc(NSDefaultMallocZone(), sizeof(GSGlyphChunk));
chunk->charIndex = charIndex;
chunk->glyphIndex = 0;
GSIArrayInitWithZoneAndCapacity(&chunk->glyphs, NSDefaultMallocZone(), 8);
GSIArrayInitWithZoneAndCapacity(&chunk->attrs, NSDefaultMallocZone(), 8);
return chunk;
}
static void
GSDestroyGlyphChunk(GSGlyphChunk *chunk)
{
GSIArrayClear(&chunk->glyphs);
GSIArrayClear(&chunk->attrs);
NSZoneFree(NSDefaultMallocZone(), chunk);
}
static void
GSDestroyChunks(GSIArray *where)
{
if (*where != 0)
{
unsigned i;
/*
* Release all glyph chunk information
*/
i = GSIArrayCount(*where);
while (i-- > 0)
{
GSGlyphChunk *chunk;
chunk = (GSGlyphChunk*)(GSIArrayItemAtIndex(*where, i).ptr);
GSDestroyGlyphChunk(chunk);
}
GSIArrayEmpty(*where);
NSZoneFree(NSDefaultMallocZone(), *where);
*where = 0;
}
}
static GSGlyphChunk*
GSCreateChunks(GSIArray *where)
{
GSGlyphChunk *chunk;
GSDestroyChunks(where);
*where = NSZoneMalloc(NSDefaultMallocZone(), sizeof(GSIArray_t));
GSIArrayInitWithZoneAndCapacity(*where, NSDefaultMallocZone(), 8);
chunk = GSCreateGlyphChunk(0);
GSIArrayInsertItem(*where, (GSIArrayItem)(void*)chunk, 0);
return chunk;
}
static inline unsigned
GSCharIndexForGlyphInChunk(GSGlyphChunk *chunk, unsigned index)
{
return chunk->charIndex
+ (GSIArrayItemAtIndex(&chunk->glyphs, index).ext).offset;
}
static unsigned
GSChunkForCharIndex(GSIArray chunks, unsigned charIndex)
{
unsigned pos;
GSGlyphChunk tmp;
tmp.charIndex = charIndex;
pos = GSIArrayInsertionPosition(chunks, (GSIArrayItem)(void*)&tmp,
charIndexSort);
/*
* pos is the index of the next chunk *after* the one we want.
*/
NSCAssert(pos > 0, @"No glyph chunks present");
pos--;
return pos;
}
static unsigned
GSChunkForGlyphIndex(GSIArray chunks, unsigned glyphIndex)
{
unsigned pos;
GSGlyphChunk tmp;
tmp.glyphIndex = glyphIndex;
pos = GSIArrayInsertionPosition(chunks, (GSIArrayItem)(void*)&tmp,
glyphIndexSort);
/*
* pos is the index of the next chunk *after* the one we want.
*/
NSCAssert(pos > 0, @"No glyph chunks present");
pos--;
return pos;
}
/*
* Medium level functions for accessing and manipulating glyphs.
*/
typedef struct {
@defs(NSLayoutManager)
} *lmDefs;
#define glyphChunks ((GSIArray)_glyphData)
#define _chunks ((GSIArray)(((lmDefs)lm)->_glyphData))
#define _chunk ((GSGlyphChunk*)(((lmDefs)lm)->_currentGlyphs))
#define _index ((lmDefs)lm)->_chunkIndex
#define _offset ((lmDefs)lm)->_glyphIndex
#define _gaps ((GSIArray)(((lmDefs)lm)->_glyphGaps))
static void _Adjust(NSLayoutManager *lm, unsigned from, int by);
static GSGlyphAttrs _Attrs(NSLayoutManager *lm);
static BOOL _Back(NSLayoutManager *lm);
static unsigned _CharIndex(NSLayoutManager *lm);
static NSGlyph _Glyph(NSLayoutManager *lm);
static unsigned _GlyphIndex(NSLayoutManager *lm);
static BOOL _JumpToChar(NSLayoutManager *lm, unsigned charIndex);
static BOOL _JumpToGlyph(NSLayoutManager *lm, unsigned glyphIndex);
static void _SetAttrs(NSLayoutManager *lm, GSGlyphAttrs a);
static void _SetGlyph(NSLayoutManager *lm, NSGlyph g);
static BOOL _Step(NSLayoutManager *lm);
static inline GSGlyphAttrs
_Attrs(NSLayoutManager *lm)
{
return GSIArrayItemAtIndex(&_chunk->attrs, _offset).ext;
}
static inline void
_SetAttrs(NSLayoutManager *lm, GSGlyphAttrs a)
{
GSIArraySetItemAtIndex(&_chunk->attrs, (GSIArrayItem)a, _offset);
}
static void
_Adjust(NSLayoutManager *lm, unsigned from, int lengthChange)
{
if (from < [((lmDefs)lm)->_textStorage length])
{
_JumpToGlyph(lm, from);
/*
* Adjust character offsets for all glyphs in this chunk.
*/
if (_offset > 0)
{
while (_offset < GSIArrayCount(&_chunk->glyphs))
{
GSGlyphAttrs attrs = _Attrs(lm);
attrs.offset += lengthChange;
_SetAttrs(lm, attrs);
}
}
/*
* Now adjust character offsets for remaining chunks.
*/
while (++_index < GSIArrayCount(_chunks))
{
_chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(_chunks, _index).ptr;
_chunk->charIndex += lengthChange;
}
}
}
static inline BOOL
_Back(NSLayoutManager *lm)
{
if (_offset > 0)
{
_offset--;
return YES;
}
else if (_index > 0)
{
_index--;
_chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(_chunks, _index).ptr;
_offset = GSIArrayCount(&_chunk->glyphs) - 1;
return YES;
}
else
{
return NO;
}
}
static inline unsigned
_CharIndex(NSLayoutManager *lm)
{
return _chunk->charIndex
+ (GSIArrayItemAtIndex(&_chunk->attrs, _offset).ext).offset;
}
static inline NSGlyph
_Glyph(NSLayoutManager *lm)
{
return (NSGlyph)GSIArrayItemAtIndex(&_chunk->glyphs, _offset).ulng;
}
static inline unsigned
_GlyphIndex(NSLayoutManager *lm)
{
return _chunk->glyphIndex + _offset;
}
static BOOL
_JumpToChar(NSLayoutManager *lm, unsigned charIndex)
{
GSGlyphAttrs tmp;
GSGlyphChunk *c;
unsigned i;
unsigned o;
i = GSChunkForCharIndex(_chunks, charIndex);
c = (GSGlyphChunk*)GSIArrayItemAtIndex(_chunks, i).ptr;
tmp.offset = charIndex - c->charIndex;
o = GSIArrayInsertionPosition(&c->attrs, (GSIArrayItem)tmp, offsetSort);
if (o == 0)
{
return NO; // Insertion position not found.
}
o--;
/*
* Locate the *first* glyph for this character index.
*/
while (o>0 && (GSIArrayItemAtIndex(&c->attrs, o-1).ext).offset >= tmp.offset)
{
o--;
}
if ((GSIArrayItemAtIndex(&c->attrs, o).ext).offset > tmp.offset)
{
return NO;
}
_chunk = c;
_index = i;
_offset = o;
return YES;
}
static BOOL
_JumpToGlyph(NSLayoutManager *lm, unsigned glyphIndex)
{
GSGlyphChunk *c;
unsigned i;
unsigned o;
i = GSChunkForGlyphIndex(_chunks, glyphIndex);
c = (GSGlyphChunk*)GSIArrayItemAtIndex(_chunks, i).ptr;
o = glyphIndex - c->glyphIndex;
if (o < GSIArrayCount(&c->glyphs))
{
_chunk = c;
_index = i;
_offset = o;
return YES;
}
else
{
return NO;
}
}
static inline void
_SetGlyph(NSLayoutManager *lm, NSGlyph g)
{
GSIArraySetItemAtIndex(&_chunk->glyphs, (GSIArrayItem)g, _offset);
}
static inline BOOL
_Step(NSLayoutManager *lm)
{
if (_offset < GSIArrayCount(&_chunk->glyphs) - 1)
{
_offset++;
return YES;
}
else
{
if (_index < GSIArrayCount(_chunks) - 1)
{
_index++;
_chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(_chunks, _index).ptr;
_offset = 0;
return YES;
}
else
{
return NO;
}
}
}
@interface GSRunStorage : NSObject
{
unsigned int _count;
void *_runs;
}
- (void) insertObject: (id)anObject;
- (void) insertObject: (id)anObject atIndex: (unsigned)theIndex;
- (id) objectAtIndex: (unsigned)theIndex;
- (unsigned) indexOfObject: (id)anObject;
- (unsigned) indexOfObjectContainingLocation: (unsigned)aLocation;
- (id) objectContainingLocation: (unsigned)aLocation;
- (int) count;
@end
@implementation GSRunStorage
- (id) init
{
NSZone *z;
[super init];
z = [self zone];
_runs = NSZoneMalloc(z, sizeof(GSIArray_t));
GSIArrayInitWithZoneAndCapacity((GSIArray)_runs, z, 8);
return self;
}
- (void) insertObject: (id)anObject
{
_GSRunSearchKey *aKey = [_GSRunSearchKey new];
_GSRunSearchKey *aObject = (_GSRunSearchKey*)anObject;
int position;
aKey->glyphRange.location = aObject->glyphRange.location;
position = GSIArrayInsertionPosition(_runs, (GSIArrayItem)aKey, aSort);
// NSLog(@"key: %d aObject: %d position: %d", aKey->glyphRange.location,
//aObject->glyphRange.location, position);
if (position > 0)
{
_GSRunSearchKey *anKey = GSIArrayItemAtIndex(_runs, (unsigned)position - 1).obj;
RETAIN(anObject);
if (anKey->glyphRange.location == aObject->glyphRange.location)
{
RELEASE(GSIArrayItemAtIndex(_runs, (unsigned)position-1).obj);
GSIArraySetItemAtIndex(_runs, (GSIArrayItem)anObject, position-1);
}
else
{
GSIArrayInsertItem(_runs, (GSIArrayItem)anObject, position);
}
}
else if (position == 0)
{
RETAIN(anObject);
GSIArrayInsertItem(_runs, (GSIArrayItem)anObject, position);
}
else
NSLog(@"dead. VERY DEAD DEAD DEAD DEAD.");
// NSLog(@"==> %d item(s)", GSIArrayCount(_runs));
RELEASE(aKey);
}
- (void) insertObject: (id)anObject
atIndex: (unsigned)theIndex
{
unsigned position;
NSLog(@"insertObject: atIndex: called. %d item(s)", GSIArrayCount(_runs));
position = GSIArrayInsertionPosition(_runs, (GSIArrayItem)anObject, aSort);
RETAIN(anObject);
GSIArrayInsertItem(_runs, (GSIArrayItem)anObject, position);
NSLog(@"insertObject: atIndex: ended. %d item(s)", GSIArrayCount(_runs));
}
- (void) removeObjectAtIndex: (int)theIndex
{
id obj = GSIArrayItemAtIndex(_runs, (unsigned)theIndex).obj;
GSIArrayRemoveItemAtIndex(_runs, theIndex);
RELEASE(obj);
}
- (id) objectAtIndex: (unsigned)theIndex
{
return GSIArrayItemAtIndex(_runs, (unsigned)theIndex).obj;
}
- (unsigned) indexOfObject: (id)anObject
{
return NSNotFound;
}
- (unsigned) indexOfObjectContainingLocation: (unsigned)aLocation
{
_GSRunSearchKey *aKey = [_GSRunSearchKey new];
int position;
aKey->glyphRange.location = aLocation;
position = GSIArrayInsertionPosition(_runs, (GSIArrayItem)aKey, aSort);
if (position >= 0 && position - 1 >= 0)
{
aKey = GSIArrayItemAtIndex(_runs, (unsigned)position - 1).obj;
if (NSLocationInRange(aLocation, aKey->glyphRange))
{
RELEASE(aKey);
return (position - 1);
}
}
RELEASE(aKey);
return -1;
}
- (id) objectContainingLocation: (unsigned)aLocation
{
_GSRunSearchKey *aKey = [_GSRunSearchKey new];
int position;
aKey->glyphRange.location = aLocation;
position = GSIArrayInsertionPosition(_runs, (GSIArrayItem)aKey, aSort);
RELEASE(aKey);
if (position >= 0 && position - 1 >= 0)
{
aKey = GSIArrayItemAtIndex(_runs, (unsigned)position - 1).obj;
if (NSLocationInRange(aLocation, aKey->glyphRange))
{
return aKey;
}
}
return nil;
}
- (id) lastObject
{
return GSIArrayItemAtIndex(_runs, GSIArrayCount(_runs) - 1).obj;
}
- (int) count
{
return GSIArrayCount(_runs);
}
@end
@interface NSLayoutManager (Private)
- (void) _doLayout;
- (int) _rebuildLayoutForTextContainer: (NSTextContainer*)aContainer
startingAtGlyphIndex: (int)glyphIndex;
@end
@implementation NSLayoutManager
+ (id) allocWithZone: (NSZone*)z
{
// Return a simple layout manager as this is the only working subclass
if (self == [NSLayoutManager class])
{
return [GSSimpleLayoutManager allocWithZone: z];
}
else
{
return NSAllocateObject (self, 0, z);
}
}
/* Designated Initializer. Sets up this instance. Finds the shared
* NSGlyphGenerator and the shared default NSTypesetter.
* The NSLayoutManager starts off without a NSTextStorage
*/
- (id) init
{
if ([super init] != nil)
{
GSIArray a;
_backgroundLayout = YES;
_delegate = nil;
_textContainers = [[NSMutableArray alloc] initWithCapacity: 2];
_containerRuns = [GSRunStorage new];
_fragmentRuns = [GSRunStorage new];
_locationRuns = [GSRunStorage new];
/*
* Initialise glyph storage and ivars to contain 'current' glyph
* location information.
*/
_currentGlyphs = GSCreateChunks((GSIArray*)&_glyphData);
_chunkIndex = 0;
_glyphIndex = 0;
/*
* Initialise storage of holes in the glyph stream.
*/
a = NSZoneMalloc(NSDefaultMallocZone(), sizeof(GSIArray_t));
GSIArrayInitWithZoneAndCapacity(a, NSDefaultMallocZone(), 8);
_glyphGaps = a;
}
return self;
}
- (void) dealloc
{
GSDestroyChunks((GSIArray*)&_glyphData);
GSIArrayEmpty((GSIArray)_glyphGaps);
NSZoneFree(NSDefaultMallocZone(), _glyphGaps);
RELEASE (_textContainers);
RELEASE (_containerRuns);
RELEASE (_fragmentRuns);
RELEASE (_locationRuns);
[super dealloc];
}
//
// Setting the text storage
//
// The set method generally should not be called directly, but you may
// want to override it. Used to get and set the text storage. The
// set method is called by the NSTextStorage's
// addTextStorageObserver/removeTextStorageObserver methods.
- (void) setTextStorage: (NSTextStorage*)aTextStorage
{
unsigned length = [aTextStorage length];
NSRange aRange = NSMakeRange (0, length);
/* The text storage is owning us - we mustn't retain it - he is
retaining us*/
_textStorage = aTextStorage;
// force complete re - layout
[self textStorage: aTextStorage
edited: NSTextStorageEditedCharacters | NSTextStorageEditedAttributes
range: aRange
changeInLength: length
invalidatedRange: aRange];
}
- (NSTextStorage*) textStorage
{
return _textStorage;
}
// This method should be used instead of the primitive -setTextStorage:
// if you need to replace a NSLayoutManager's NSTextStorage with a new
// one leaving the rest of the web intact. This method deals with all
// the work of making sure the NSLayoutManager doesn't get deallocated
// and transferring all the NSLayoutManager s on the old NSTextStorage
// to the new one.
- (void) replaceTextStorage: (NSTextStorage*)newTextStorage
{
NSArray *layoutManagers = [_textStorage layoutManagers];
NSEnumerator *enumerator = [layoutManagers objectEnumerator];
NSLayoutManager *object;
// Remove layout managers from old NSTextStorage object and add them to the
// new one. NSTextStorage's addLayoutManager invokes NSLayoutManager's
// setTextStorage method automatically, and that includes self.
while ((object = (NSLayoutManager*)[enumerator nextObject]) != nil)
{
[_textStorage removeLayoutManager: object];
[newTextStorage addLayoutManager: object];
}
}
/*
* Setting text containers
*/
- (NSArray*) textContainers
{
return _textContainers;
}
/* Add a container to the end of the array. Must invalidate layout of
* all glyphs after the previous last container (ie glyphs that were
* not previously laid out because they would not fit anywhere). */
- (void) addTextContainer: (NSTextContainer*)obj
{
if ([_textContainers indexOfObjectIdenticalTo: obj] == NSNotFound)
{
int i;
[_textContainers addObject: obj];
[obj setLayoutManager: self];
// TODO: Invalidate layout
_textContainersCount++;
/* NB: We do not retain this here ! It's already retained in the
array. */
_firstTextView = [(NSTextContainer *)[_textContainers objectAtIndex: 0]
textView];
for (i = 0; i < _textContainersCount; i++)
{
NSTextView *tv = [[_textContainers objectAtIndex: i] textView];
[tv _updateMultipleTextViews];
}
}
}
/* Insert a container into the array before the container at index.
* Must invalidate layout of all glyphs in the containers from the one
* previously at index to the last container. */
- (void) insertTextContainer: (NSTextContainer*)aTextContainer
atIndex: (unsigned)index
{
int i;
[_textContainers insertObject: aTextContainer atIndex: index];
_textContainersCount++;
_firstTextView = [(NSTextContainer *)[_textContainers objectAtIndex: 0]
textView];
for (i = 0; i < _textContainersCount; i++)
{
NSTextView *tv = [[_textContainers objectAtIndex: i] textView];
[tv _updateMultipleTextViews];
}
// TODO: Invalidate layout
}
// Removes the container at index from the array. Must invalidate
// layout of all glyphs in the container being removed and any
// containers which come after it.
- (void) removeTextContainerAtIndex: (unsigned)index
{
int i;
[_textContainers removeObjectAtIndex: index];
_textContainersCount--;
_firstTextView = [(NSTextContainer *)[_textContainers objectAtIndex: 0]
textView];
for (i = 0; i < _textContainersCount; i++)
{
NSTextView *tv = [[_textContainers objectAtIndex: i] textView];
[tv _updateMultipleTextViews];
}
}
//
// Invalidating glyphs and layout
//
// This removes all glyphs for the old character range, adjusts the
// character indices of all the subsequent glyphs by the change in
// length, and invalidates the new character range. If
// actualCharRange is non-NULL it will be set to the actual range
// invalidated after any necessary expansion.
- (void) invalidateGlyphsForCharacterRange: (NSRange)aRange
changeInLength: (int)lengthChange
actualCharacterRange: (NSRange*)actualRange
{
NSRange cRange;
NSRange gRange;
if (aRange.length == 0)
{
return;
}
gRange = [self glyphRangeForCharacterRange: aRange
actualCharacterRange: &cRange];
if (actualRange != 0)
{
*actualRange = cRange;
}
[self deleteGlyphsInRange: gRange];
/*
* Now adjust character locations for glyphs if necessary.
*/
_Adjust(self, NSMaxRange(cRange), lengthChange);
// FIXME - should invalidate the character range ... but what does that mean?
}
// This invalidates the layout information (glyph location and
// rotation) for the given range of characters. If flag is YES then
// this range is marked as a hard layout invalidation. If NO, then
// the invalidation is soft. A hard invalid layout range indicates
// that layout information must be completely recalculated no matter
// what. A soft invalid layout range means that there is already old
// layout info for the range in question, and if the NSLayoutManager
// is smart enough to figure out how to avoid doing the complete
// relayout, it may perform any optimization available. If
// actualCharRange is non-NULL it will be set to the actual range
// invalidated after any necessary expansion.
- (void) invalidateLayoutForCharacterRange: (NSRange)aRange
isSoft: (BOOL)flag
actualCharacterRange: (NSRange*)actualRange
{
[self _doLayout];
}
// Invalidates display for the glyph or character range given. For
// the glyph range variant any part of the range that does not yet
// have glyphs generated is ignored. For the character range variant,
// unlaid parts of the range are remembered and will definitely be
// redisplayed at some point later when the layout is available.
// Neither method actually causes layout.
- (void) invalidateDisplayForCharacterRange: (NSRange)aRange
{
}
- (void) invalidateDisplayForGlyphRange: (NSRange)aRange
{
}
// Invalidates layout of all glyphs in container and all subsequent
// containers.
- (void) textContainerChangedGeometry: (NSTextContainer*)aContainer
{
// find the first character in that text container
NSRange aRange = [self glyphRangeForTextContainer: aContainer];
unsigned first = aRange.location;
// invalidate the layout from here on
[self invalidateLayoutForCharacterRange:
NSMakeRange(first, [_textStorage length] - first)
isSoft: NO
actualCharacterRange: NULL];
}
/* Called by NSTextContainer whenever its textView changes. Used to
keep notifications in synch. */
- (void) textContainerChangedTextView: (NSTextContainer*)aContainer
{
/* It only makes sense if we have more than one text container */
if (_textContainersCount > 1)
{
unsigned index;
index = [_textContainers indexOfObjectIdenticalTo: aContainer];
if (index != NSNotFound)
{
if (index == 0)
{
/* It's the first text view. Need to update everything. */
int i;
_firstTextView = [aContainer textView];
for (i = 0; i < _textContainersCount; i++)
{
NSTextView *tv;
tv = [[_textContainers objectAtIndex: i] textView];
[tv _updateMultipleTextViews];
}
}
}
}
}
// Sent from processEditing in NSTextStorage. newCharRange is the
// range in the final string which was explicitly
// edited. invalidatedRange includes stuff which was changed as a
// result of attribute fixing. invalidatedRange is either equal to
// newCharRange or larger. Layout managers should not change the
// contents of the text storage during the execution of this message.
- (void) textStorage: (NSTextStorage*)aTextStorage
edited: (unsigned)mask
range: (NSRange)range
changeInLength: (int)lengthChange
invalidatedRange: (NSRange)invalidatedRange
{
/*
NSLog(@"NSLayoutManager was just notified that a change in the text
storage occured.");
NSLog(@"range: (%d, %d) changeInLength: %d invalidatedRange (%d, %d)",
range.location, range.length, lengthChange, invalidatedRange.location,
invalidatedRange.length);
*/
int delta = 0;
unsigned last = NSMaxRange (invalidatedRange);
if (mask & NSTextStorageEditedCharacters)
{
delta = lengthChange;
}
// hard invalidation occures here.
[self invalidateGlyphsForCharacterRange: range
changeInLength: delta
actualCharacterRange: NULL];
[self invalidateLayoutForCharacterRange: invalidatedRange
isSoft: NO
actualCharacterRange: NULL];
// the following range is soft invalidated
[self invalidateLayoutForCharacterRange:
NSMakeRange (last, [_textStorage length] - last)
isSoft: YES
actualCharacterRange: NULL];
}
//
// Turning on/off background layout
//
// These methods allow you to set/query whether text gets laid out in
// the background when there's nothing else to do.
- (void) setBackgroundLayoutEnabled: (BOOL)flag
{
_backgroundLayout = flag;
}
- (BOOL) backgroundLayoutEnabled
{
return _backgroundLayout;
}
//
// Accessing glyphs
//
// These methods are primitive. They do not cause the bookkeeping of
// filling holes to happen. They do not cause invalidation of other
// stuff.
/*
* Inserts a single glyph into the glyph stream at glyphIndex.
* The character index which this glyph corresponds to is given
* by charIndex.
* Invariants ...
* a) Glyph chunks are ordered sequentially from zero by character index.
* b) Glyph chunks are ordered sequentially from zero by glyph index.
* c) Adjacent glyphs in the same chunk may share a character index.
* d) _endCharIndex is the index one after the last character in the glyphs.
*/
- (void) insertGlyph: (NSGlyph)aGlyph
atGlyphIndex: (unsigned)glyphIndex
characterIndex: (unsigned)charIndex
{
unsigned chunkCount = GSIArrayCount(glyphChunks);
GSGlyphAttrs attrs = { 0 };
GSGlyphChunk *chunk;
if (glyphIndex == 0 && chunkCount == 0)
{
/*
* Special case - if there are no chunks, this is the
* very first glyph and can simply be added to a new chunk.
*/
chunk = GSCreateGlyphChunk(charIndex);
GSIArrayAddItem(&chunk->glyphs, (GSIArrayItem)aGlyph);
GSIArrayAddItem(&chunk->attrs, (GSIArrayItem)attrs);
GSIArrayAddItem(glyphChunks, (GSIArrayItem)(void*)chunk);
}
else
{
unsigned glyphCount;
unsigned glyphOffset;
unsigned chunkIndex;
unsigned pos;
/*
* Locate the chunk that we should insert into - the last one with
* a glyphIndex less than or equal to the index we were given.
*/
chunkIndex = GSChunkForGlyphIndex(glyphChunks, glyphIndex);
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, chunkIndex).ptr;
/*
* Check for the case where we have been given an index that's
* beyond the end of the last chunk.
*/
glyphCount = GSIArrayCount(&chunk->glyphs);
glyphOffset = glyphIndex - chunk->glyphIndex;
if (glyphOffset > glyphCount)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"glyph index out of range"];
}
if (glyphOffset == 0) // Before first glyph in chunk
{
if (chunk->charIndex < charIndex)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index greater than that of next glyph"];
}
if (chunkIndex > 0)
{
GSGlyphChunk *previous;
unsigned c;
previous = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks,
chunkIndex-1).ptr;
c = GSIArrayCount(&previous->attrs);
c = previous->charIndex
+ (GSIArrayItemAtIndex(&previous->attrs, c).ext).offset;
if (c > charIndex)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index less than that of previous glyph"];
}
else if (c == charIndex)
{
/*
* Inserting with the same character index as the last glyph
* in the previous chunk - so we should append to that chunk
* rather than prepending to this one.
*/
chunkIndex--;
chunk = previous;
glyphCount = GSIArrayCount(&chunk->glyphs);
glyphOffset = glyphIndex - chunk->glyphIndex;
}
}
}
else if (glyphOffset == glyphCount) // After last glyph in chunk
{
unsigned c;
c = chunk->charIndex
+ (GSIArrayItemAtIndex(&chunk->attrs, glyphOffset-1).ext).offset;
if (charIndex < c)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index less than that of previous glyph"];
}
if (chunkIndex < chunkCount - 1)
{
GSGlyphChunk *next;
next = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks,
chunkIndex+1).ptr;
if (next->charIndex < charIndex)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index greater than that of next glyph"];
}
else if (next->charIndex == charIndex)
{
/*
* Inserting with the same character index as the first glyph
* in the next chunk - so we should insert in that chunk
* rather than appending to this one.
*/
chunkIndex++;
chunk = next;
glyphCount = GSIArrayCount(&chunk->glyphs);
glyphOffset = glyphIndex - chunk->glyphIndex;
}
}
}
else // In middle of chunk somewhere.
{
unsigned n;
unsigned p;
p = chunk->charIndex
+ (GSIArrayItemAtIndex(&chunk->attrs, glyphOffset-1).ext).offset;
if (p > charIndex)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index less than that of previous glyph"];
}
n = chunk->charIndex
+ (GSIArrayItemAtIndex(&chunk->attrs, glyphOffset).ext).offset;
if (n < charIndex)
{
[NSException raise: NSRangeException
format: @"insertGlyph:glyphIndex:characterIndex: "
@"character index greater than that of next glyph"];
}
}
/*
* Shall we add to the chunk or is it big enough already?
*/
if (glyphCount > 100 && glyphCount == GSIArrayCapacity(&chunk->glyphs))
{
GSGlyphChunk *newChunk = 0;
unsigned pos;
unsigned splitAt = glyphCount/2;
unsigned splitChar;
splitChar = (GSIArrayItemAtIndex(&chunk->attrs, splitAt).ext).offset;
while (splitAt > 0 && splitChar
== (GSIArrayItemAtIndex(&chunk->attrs, splitAt-1).ext).offset)
{
splitAt--;
}
/*
* Arbitrary check that we could make a sane splitup of the
* chunk. Conceivably we could have every glyph in the
* chunk set to the same character - which would force us to
* break our invariant that all glyphs for a particular
* character lie in the same chunk.
*/
if (splitAt <= glyphCount/4)
{
[NSException raise: NSInternalInconsistencyException
format: @"unable to split glyph chunk"];
}
/*
* Ok - split the chunk into two (roughly) equal parts.
*/
splitChar
= (GSIArrayItemAtIndex(&chunk->attrs, splitAt).ext).offset;
newChunk = GSCreateGlyphChunk(chunk->charIndex + splitChar);
newChunk->glyphIndex = chunk->glyphIndex + splitAt;
GSIArrayInsertItem(glyphChunks, (GSIArrayItem)(void*)newChunk,
chunkIndex+1);
pos = 0;
while (GSIArrayCount(&chunk->glyphs) > splitAt)
{
GSGlyphAttrs attrs;
NSGlyph glyph;
/*
* Remove attributes from old chunk and add to new.
* Adjust offset for character index of new chunk.
*/
attrs = GSIArrayItemAtIndex(&chunk->attrs, splitAt).ext;
GSIArrayRemoveItemAtIndex(&chunk->attrs, splitAt);
attrs.offset -= splitChar;
GSIArrayInsertItem(&newChunk->attrs,
(GSIArrayItem)attrs, pos);
/*
* Remove glyph from old chunk and add to new.
*/
glyph = GSIArrayItemAtIndex(&chunk->glyphs, splitAt).ulng;
GSIArrayRemoveItemAtIndex(&chunk->glyphs, splitAt);
GSIArrayInsertItem(&newChunk->glyphs,
(GSIArrayItem)glyph, pos);
pos++;
}
/*
* And set up so we point at the correct half of the split chunk.
*/
if (glyphIndex >= newChunk->glyphIndex)
{
chunkIndex++;
chunk = newChunk;
glyphCount = GSIArrayCount(&chunk->glyphs);
glyphOffset = glyphIndex - chunk->glyphIndex;
}
}
/*
* Special handling for insertion at the start of a chunk - we
* need to update the index values for the chunk, and (possibly)
* the character offsets of every glyph in the chunk.
*/
if (glyphOffset == 0)
{
chunk->glyphIndex = glyphIndex;
if (chunk->charIndex != charIndex)
{
int diff = chunk->charIndex - charIndex;
/*
* Changing character index of entire chunk.
*/
for (pos = 0; pos < glyphCount; pos++)
{
GSGlyphAttrs tmp;
tmp = GSIArrayItemAtIndex(&chunk->attrs, pos).ext;
tmp.offset += diff;
GSIArraySetItemAtIndex(&chunk->attrs, (GSIArrayItem)tmp, pos);
}
}
}
/*
* At last we insert the glyph and its attributes into the chunk.
*/
attrs.offset = charIndex - chunk->charIndex;
GSIArrayInsertItem(&chunk->glyphs, (GSIArrayItem)aGlyph, glyphOffset);
GSIArrayInsertItem(&chunk->attrs, (GSIArrayItem)attrs, glyphOffset);
/*
* Now adjust the glyph index for all following chunks so we will
* still know the index of the first glyph in each chunk.
*/
for (pos = chunkIndex+1; pos < chunkCount; pos++)
{
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, pos).ptr;
chunk->glyphIndex++;
}
}
}
// If there are any holes in the glyph stream this will cause glyph
// generation for all holes sequentially encountered until the desired
// index is available. The first variant raises a NSRangeError if the
// requested index is out of bounds, the second does not, but instead
// optionally returns a flag indicating whether the requested index
// exists.
- (NSGlyph) glyphAtIndex: (unsigned)index
{
BOOL flag;
NSGlyph glyph;
glyph = [self glyphAtIndex: index isValidIndex: &flag];
if (flag == NO)
{
[NSException raise: NSRangeException
format: @"glyph index out of range"];
}
return glyph;
}
- (NSGlyph) glyphAtIndex: (unsigned)index
isValidIndex: (BOOL*)flag
{
#if USE_GLYPHS
/*
* If the chunk located doesn't contain the index we want,
* we must need to generate more glyphs from the text.
*/
if (_JumpToGlyph(self, index) == NO)
{
GSGlyphChunk *chunk = (GSGlyphChunk*)_currentGlyphs;
unsigned pos = _chunkIndex;
unsigned numChars;
unsigned numGlyphs;
NSString *string;
numChars = [_textStorage length];
numGlyphs = chunk->glyphIndex + GSIArrayCount(&chunk->glyphs);
string = [_textStorage string];
/*
* FIXME
* Here we put some simple-minded code to generate glyphs from
* characters assuming that a glyph is the same as a character.
*/
while (_endCharIndex < numChars
&& chunk->glyphIndex + GSIArrayCount(&chunk->glyphs) <= index)
{
unichar c = [string characterAtIndex: _endCharIndex];
[self insertGlyph: (NSGlyph)c
atGlyphIndex: numGlyphs++
characterIndex: _endCharIndex++];
if (pos != GSIArrayCount(glyphChunks) - 1)
{
pos++;
chunk
= (GSGlyphChunk*)(GSIArrayItemAtIndex(glyphChunks, pos).ptr);
}
}
}
if (_JumpToGlyph(self, index) == YES)
{
*flag = YES;
return _Glyph(self);
}
else
{
*flag = NO;
return NSNullGlyph;
}
#else
return (NSGlyph)[[_textStorage string] characterAtIndex: index];
#endif
}
// Replaces the glyph currently at glyphIndex with newGlyph. The
// character index of the glyph is assumed to remain the same
// (although it can, of course, be set explicitly if needed).
- (void) replaceGlyphAtIndex: (unsigned)index
withGlyph: (NSGlyph)newGlyph
{
if (_JumpToGlyph(self, index) == NO)
{
[NSException raise: NSRangeException
format: @"glyph index out of range"];
}
_SetGlyph(self, newGlyph);
}
// This causes glyph generation similarly to asking for a single
// glyph. It formats a sequence of NSGlyphs (unsigned long ints). It
// does not include glyphs that aren't shown in the result but does
// zero-terminate the array. The memory passed in to the function
// should be large enough for at least glyphRange.length+1 elements.
// The actual number of glyphs stuck into the array is returned (not
// counting the null-termination). RM!!! check out the private method
// "_packedGlyphs:range:length:" if you need to send glyphs to the
// window server. It returns a (conceptually) autoreleased array of
// big-endian packeg glyphs. Don't use this method to do that.
- (unsigned) getGlyphs: (NSGlyph*)glyphArray
range: (NSRange)glyphRange
{
unsigned packed = 0;
unsigned toFetch = glyphRange.length;
if (toFetch > 0)
{
/*
* Force generation of glyphs to fill range.
*/
[self glyphAtIndex: NSMaxRange(glyphRange)-1];
_JumpToGlyph(self, glyphRange.location);
/*
* Now return glyphs, excluding those 'not shown'
*/
while (toFetch-- > 0)
{
if (_Attrs(self).isNotShown == 0)
{
glyphArray[packed++] = _Glyph(self);
}
_Step(self); // Move to next glyph.
}
}
glyphArray[packed] = 0;
return packed;
}
// Removes all glyphs in the given range from the storage.
- (void) deleteGlyphsInRange: (NSRange)aRange
{
unsigned chunkStart;
unsigned chunkEnd;
unsigned offset;
unsigned from;
unsigned pos;
GSGlyphChunk *chunk;
if (aRange.length == 0)
{
return;
}
/*
* Force range to be complete.
*/
[self glyphAtIndex: NSMaxRange(aRange)-1];
chunkStart = GSChunkForGlyphIndex(glyphChunks, aRange.location);
chunkEnd = GSChunkForGlyphIndex(glyphChunks, NSMaxRange(aRange)-1);
/*
* Remove all chunks wholy contained in the range.
*/
while (chunkEnd - chunkStart > 1)
{
chunkEnd--;
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, chunkEnd).ptr;
GSIArrayRemoveItemAtIndex(glyphChunks, chunkEnd);
GSDestroyGlyphChunk(chunk);
}
/*
* Get start chunk and remove any glyphs in specificed range.
*/
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, chunkStart).ptr;
if (chunkStart == chunkEnd)
{
pos = chunk->glyphIndex;
}
else
{
offset = aRange.location - chunk->glyphIndex;
if (offset == 0)
{
/*
* Start chunk is fully enclosed in range - remove it.
*/
pos = chunk->glyphIndex;
GSIArrayRemoveItemAtIndex(glyphChunks, chunkStart);
GSDestroyGlyphChunk(chunk);
chunkEnd--;
}
else
{
pos = chunk->glyphIndex + offset;
GSIArrayRemoveItemsFromIndex(&chunk->glyphs, offset);
GSIArrayRemoveItemsFromIndex(&chunk->attrs, offset);
}
}
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, chunkEnd).ptr;
offset = NSMaxRange(aRange)-1 - chunk->glyphIndex;
if (chunk->glyphIndex < aRange.location)
{
from = aRange.location - chunk->glyphIndex;
}
else
{
from = 0;
}
chunk->glyphIndex = pos;
while (offset-- > from)
{
GSIArrayRemoveItemAtIndex(&chunk->glyphs, from);
GSIArrayRemoveItemAtIndex(&chunk->attrs, from);
}
while (++chunkEnd < GSIArrayCount(glyphChunks))
{
chunk = (GSGlyphChunk*)GSIArrayItemAtIndex(glyphChunks, chunkEnd).ptr;
chunk->glyphIndex -= aRange.length;
}
}
// If there are any holes in the glyph stream, this will cause all
// invalid character ranges to have glyphs generated for them.
- (unsigned) numberOfGlyphs
{
#if USE_GLYPHS
GSGlyphChunk *chunk;
unsigned pos;
if (_endCharIndex < [_textStorage length])
{
BOOL valid;
/*
* Force generation of all glyphs.
*/
[self glyphAtIndex: 0x7fffffff isValidIndex: &valid];
}
pos = GSChunkForGlyphIndex(glyphChunks, 0x7fffffff);
chunk = (GSGlyphChunk*)(GSIArrayItemAtIndex(glyphChunks, pos).ptr);
return chunk->glyphIndex + GSIArrayCount(&chunk->glyphs);
#else
return [_textStorage length];
#endif
}
//
// Mapping characters to glyphs
//
// Sets the index of the corresponding character for the glyph at the
// given glyphIndex.
- (void) setCharacterIndex: (unsigned)charIndex
forGlyphAtIndex: (unsigned)glyphIndex
{
GSGlyphAttrs attrs;
int diff;
if (_JumpToGlyph(self, glyphIndex) == NO)
{
[self glyphAtIndex: glyphIndex];
_JumpToGlyph(self, glyphIndex);
}
diff = charIndex - _CharIndex(self);
if (diff == 0)
{
return; // Already set - nothing to do.
}
if (_Back(self) == NO)
{
if (charIndex != 0)
{
[NSException raise: NSRangeException
format: @"set non-zero index for initial glyph"];
}
return;
}
if (_CharIndex(self) > charIndex)
{
[NSException raise: NSRangeException
format: @"set index lower than preceeding glyph"];
}
_Step(self);
if (_Step(self) == YES && charIndex > _CharIndex(self))
{
[NSException raise: NSRangeException
format: @"set index higher than following glyph"];
}
_Back(self);
/*
* If this is the start of a chunk, we adjust the character position
* for the chunk as a whole, then fix each glyph in turn. Otherwise
* we simply adjust the glyph concerned.
*/
if (_glyphIndex == 0)
{
GSGlyphChunk *chunk = (GSGlyphChunk*)_currentGlyphs;
diff = charIndex - _CharIndex(self);
chunk->charIndex += diff;
while (_Step(self) == YES && (GSGlyphChunk*)_currentGlyphs == chunk)
{
attrs = _Attrs(self);
attrs.offset += diff;
_SetAttrs(self, attrs);
}
}
else
{
attrs = _Attrs(self);
attrs.offset += diff;
_SetAttrs(self, attrs);
}
}
// If there are any holes in the glyph stream this will cause glyph
// generation for all holes sequentially encountered until the desired
// index is available.
- (unsigned) characterIndexForGlyphAtIndex: (unsigned)glyphIndex
{
#if USE_GLYPHS
if (_JumpToGlyph(self, glyphIndex) == NO)
{
[self glyphAtIndex: glyphIndex];
_JumpToGlyph(self, glyphIndex);
}
return _CharIndex(self);
#else
return glyphIndex;
#endif
}
// These two methods can cause glyph generation. Returns the range of
// characters that generated the glyphs in the given glyphRange.
// actualGlyphRange, if not NULL, will be set to the full range of
// glyphs that the character range returned generated. This range may
// be identical or slightly larger than the requested glyphRange. For
// instance, if the text storage contains the unichar (o-umlaut) and
// the glyph store contains the two atomic glyphs "o" and (umlaut),
// and if the glyphRange given encloses only the first or second
// glyph, the actualGlyphRange will be set to enclose both glyphs.
- (NSRange) characterRangeForGlyphRange: (NSRange)glyphRange
actualGlyphRange: (NSRange*)actualGlyphRange
{
#if USE_GLYPHS
unsigned pos;
NSRange cRange;
NSRange gRange = glyphRange;
[self glyphAtIndex: glyphRange.location]; // Force generation of glyphs.
/*
* Locate the first glyph and step backwards to the earliest glyph with
* the same character index.
*/
_JumpToGlyph(self, glyphRange.location);
cRange.location = _CharIndex(self);
while (_Back(self) == YES && _CharIndex(self) == cRange.location)
{
gRange.location--;
gRange.length++;
}
if (glyphRange.length == 0)
{
/*
* For a zero length range, we don't need to locate an end glyph.
*/
cRange.length = 0;
}
else
{
/*
* Make sure that the last glyph in the range exists.
*/
[self glyphAtIndex: NSMaxRange(glyphRange)-1];
/*
* Locate the glyph immediately beyond the range.
*/
if (_JumpToGlyph(self, NSMaxRange(glyphRange)) == NO)
{
pos = _endCharIndex - 1;
gRange.length = _GlyphIndex(self) - gRange.location;
}
else
{
pos = _CharIndex(self);
gRange.length = _GlyphIndex(self) - gRange.location;
while (_Back(self) == YES && _CharIndex(self) == pos)
{
gRange.length--;
}
}
cRange.length = pos - cRange.location;
}
if (actualGlyphRange != 0)
{
*actualGlyphRange = gRange;
}
return cRange;
#else
// Currently gyphIndex is the same as character index
if (actualGlyphRange != NULL)
*actualGlyphRange = glyphRange;
return glyphRange;
#endif
}
// Returns the range of glyphs that are generated from the unichars in
// the given charRange. actualCharRange, if not NULL, will be set to
// the actual range of characters that fully define the glyph range
// returned. This range may be identical or slightly larger than the
// requested characterRange. For instance, if the text storage
// contains the unichars "o" and (umlaut) and the glyph store contains
// the single precomposed glyph (o-umlaut), and if the charcterRange
// given encloses only the first or second unichar, the
// actualCharRange will be set to enclose both unichars.
- (NSRange) glyphRangeForCharacterRange: (NSRange)charRange
actualCharacterRange: (NSRange*)actualCharRange
{
#if USE_GLYPHS
unsigned pos;
NSRange cRange = charRange;
NSRange gRange;
unsigned numGlyphs;
numGlyphs = [self numberOfGlyphs]; // Force generation of glyphs.
/*
* Locate the first glyph corresponding to the start character.
*/
_JumpToChar(self, charRange.location);
gRange.location = _GlyphIndex(self);
/*
* Adjust start character if necessary.
*/
pos = _CharIndex(self);
if (pos < cRange.location)
{
cRange.length += (cRange.location - pos);
cRange.location = pos;
}
if (charRange.length == 0)
{
/*
* For a zero length range, we don't need to locate an end character.
*/
gRange.length = 0;
}
else if (NSMaxRange(charRange) == [_textStorage length])
{
/*
* Special case - range extends to end of text storage.
*/
gRange.length = numGlyphs - gRange.location;
}
else
{
/*
* Locate the glyph immediately beyond the range,
* and calculate the length of the range from that.
*/
_JumpToChar(self, NSMaxRange(charRange));
pos = _GlyphIndex(self);
gRange.length = pos - gRange.location;
pos = _CharIndex(self);
cRange.length = pos - cRange.location;
}
if (actualCharRange != 0)
{
*actualCharRange = cRange;
}
return gRange;
#else
// Currently gyphIndex is the same as character index
if (actualCharRange != NULL)
*actualCharRange = charRange;
return charRange;
#endif
}
//
// Setting glyph attributes
//
// Each NSGlyph has an attribute field, yes? This method is
// primitive. It does not cause any invalidation of other stuff.
// This method also will not cause glyph generation. The glyph being
// set must already be there. This method is used by the
// NSGlyphGenerator to set attributes. It is not usually necessary
// for anyone but the glyph generator (and perhaps the typesetter) to
// call it. It is provided as a public method so subclassers can
// extend it to accept other glyph attributes. To add new glyph
// attributes to the text system you basically need to do two things.
// You need to write a rulebook which will generate the attributes (in
// rulebooks attributes are identified by integer tags). Then you
// need to subclass NSLayoutManager to provide someplace to store the
// new attribute and to override this method and
// -attribute:forGlyphAtIndex: to understand the integer tag which
// your new rulebook is generating. NSLayoutManager's implementation
// understands the glyph attributes which it is prepared to remember.
// Your override should pass any glyph attributes it does not
// understand up to the superclass's implementation.
- (void) setIntAttribute: (int)attribute
value: (int)anInt
forGlyphAtIndex: (unsigned)glyphIndex
{
GSGlyphAttrs attrs;
if (_JumpToGlyph(self, glyphIndex) == NO)
{
[NSException raise: NSRangeException
format: @"glyph index out of range"];
}
attrs = _Attrs(self);
if (attribute == GSGlyphDrawsOutsideLineFragment)
{
if (anInt == 0)
{
attrs.drawsOutsideLineFragment = 0;
}
else
{
attrs.drawsOutsideLineFragment = 1;
}
}
else if (attribute == GSGlyphIsNotShown)
{
if (anInt == 0)
{
attrs.isNotShown = 0;
}
else
{
attrs.isNotShown = 1;
}
}
else if (attribute == GSGlyphGeneration)
{
attrs.generation = anInt;
}
else if (attribute == GSGlyphInscription)
{
attrs.inscription = anInt;
}
_SetAttrs(self, attrs);
}
// This returns the value for the given glyph attribute at the glyph
// index specified. Most apps will not have much use for this info
// but the typesetter and glyph generator might need to know about
// certain attributes. You can override this method to know how to
// return any custom glyph attributes you want to support.
- (int) intAttribute: (int)attribute
forGlyphAtIndex: (unsigned)glyphIndex
{
GSGlyphAttrs attrs;
if (_JumpToGlyph(self, glyphIndex) == NO)
{
[NSException raise: NSRangeException
format: @"glyph index out of range"];
}
attrs = _Attrs(self);
if (attribute == GSGlyphDrawsOutsideLineFragment)
{
if (attrs.drawsOutsideLineFragment == 0)
{
return 0;
}
else
{
return 1;
}
}
else if (attribute == GSGlyphIsNotShown)
{
if (attrs.isNotShown == 0)
{
return 0;
}
else
{
return 1;
}
}
else if (attribute == GSGlyphGeneration)
{
return attrs.generation;
}
else if (attribute == GSGlyphInscription)
{
return attrs.inscription;
}
return 0;
}
//
// Handling layout for text containers
//
// These methods are fairly primitive. They do not cause any kind of
// invalidation to happen. The glyphs being set must already exist.
// This is not a hardship since the NSTypesetter will have had to ask
// for the actual glyphs already by the time it goes to set this, and
// asking for the glyphs causes the glyph to be generated if
// necessary. Associates the given container with the given range of
// glyphs. This method should be called by the typesetter first (ie
// before setting line fragment rect or any of the layout bits) for
// each range of glyphs it lays out. This method will set several key
// layout atttributes (like not shown and draws outside line fragment)
// to their default values.
- (void) setTextContainer: (NSTextContainer*)aTextContainer
forGlyphRange: (NSRange)glyphRange
{
GSTextContainerLayoutInfo *theLine = [GSTextContainerLayoutInfo new];
theLine->glyphRange = glyphRange;
ASSIGN(theLine->textContainer, aTextContainer);
[_containerRuns insertObject: theLine];
}
// All of these methods can cause glyph generation AND layout.
// Returns the range of characters which have been laid into the given
// container. This is a less efficient method than the similar
// -textContainerForGlyphAtIndex:effectiveRange:.
- (NSRange) glyphRangeForTextContainer: (NSTextContainer*)aTextContainer
{
int i;
NSLog(@"glyphRangeForTextContainer: called. There are %d
textContainer(s) in containerRuns.", [_containerRuns count]);
for (i=0;i<[_containerRuns count];i++)
{
GSTextContainerLayoutInfo *aNewLine = [_containerRuns objectAtIndex: i];
/*
NSLog(@"glyphRangeForTextContainer: (%d, %d)",
aNewLine->glyphRange.location, aNewLine->glyphRange.length); */
if ([aNewLine->textContainer isEqual: aTextContainer])
{
/*
NSLog(@"glyphRangeForWantedTextContainer: (%d, %d)",
aNewLine->glyphRange.location, aNewLine->glyphRange.length); */
return aNewLine->glyphRange;
}
}
return NSMakeRange(NSNotFound, 0);
}
// Returns the container in which the given glyph is laid and
// (optionally) by reference the whole range of glyphs that are in
// that container. This will cause glyph generation AND layout as
// needed.
- (NSTextContainer*) textContainerForGlyphAtIndex: (unsigned)glyphIndex
effectiveRange: (NSRange*)effectiveRange
{
GSTextContainerLayoutInfo *theLine;
theLine = [_containerRuns objectContainingLocation: glyphIndex];
if (theLine)
{
(NSRange*)effectiveRange = &theLine->glyphRange;
return theLine->textContainer;
}
(NSRange*)effectiveRange = NULL;
return nil;
}
//
// Handling line fragment rectangles
//
// Associates the given line fragment bounds with the given range of
// glyphs.
- (void) setLineFragmentRect: (NSRect)fragmentRect
forGlyphRange: (NSRange)glyphRange
usedRect: (NSRect)usedRect
{
GSLineLayoutInfo *aNewLine = [GSLineLayoutInfo new];
aNewLine->glyphRange = glyphRange;
aNewLine->lineFragmentRect = fragmentRect;
aNewLine->usedRect = usedRect;
[_fragmentRuns insertObject: aNewLine];
}
// Returns the rect for the line fragment in which the given glyph is
// laid and (optionally) by reference the whole range of glyphs that
// are in that fragment. This will cause glyph generation AND layout
// as needed.
- (NSRect) lineFragmentRectForGlyphAtIndex: (unsigned)glyphIndex
effectiveRange: (NSRange*)lineFragmentRange
{
GSLineLayoutInfo *theLine;
theLine = [_fragmentRuns objectContainingLocation: glyphIndex];
if (theLine)
{
(NSRange*)lineFragmentRange = &theLine->glyphRange;
return theLine->lineFragmentRect;
}
(NSRange*)lineFragmentRange = NULL;
return NSZeroRect;
}
// Returns the usage rect for the line fragment in which the given
// glyph is laid and (optionally) by reference the whole range of
// glyphs that are in that fragment. This will cause glyph generation
// AND layout as needed.
- (NSRect) lineFragmentUsedRectForGlyphAtIndex: (unsigned)glyphIndex
effectiveRange: (NSRange*)lineFragmentRange
{
GSLineLayoutInfo *theLine;
theLine = [_fragmentRuns objectContainingLocation: glyphIndex];
if (theLine)
{
(NSRange*)lineFragmentRange = &theLine->glyphRange;
return theLine->usedRect;
}
(NSRange*)lineFragmentRange = NULL;
return NSZeroRect;
}
// Sets the bounds and container for the extra line fragment. The
// extra line fragment is used when the text backing ends with a hard
// line break or when the text backing is totally empty to define the
// extra line which needs to be displayed. If the text backing does
// not end with a hard line break this should be set to NSZeroRect and
// nil.
- (void) setExtraLineFragmentRect: (NSRect)aRect
usedRect: (NSRect)usedRect
textContainer: (NSTextContainer*)aTextContainer
{
}
// Return info about the extra line fragment.
- (NSRect) extraLineFragmentRect
{
return NSZeroRect;
}
- (NSRect) extraLineFragmentUsedRect
{
return NSZeroRect;
}
- (NSTextContainer*) extraLineFragmentTextContainer
{
return nil;
}
// Returns the container's currently used area. This is the size that
// the view would need to be in order to display all the stuff that is
// currently laid into the container. This causes no generation.
- (NSRect)usedRectForTextContainer:(NSTextContainer *)container
{
return NSZeroRect;
}
- (void)setAttachmentSize:(NSSize)attachmentSize
forGlyphRange:(NSRange)glyphRange
{
}
// Used to indicate that a particular glyph for some reason marks
// outside its line fragment bounding rect. This can commonly happen
// if a fixed line height is used (consider a 12 point line height and
// a 24 point glyph).
- (void) setDrawsOutsideLineFragment: (BOOL)flag
forGlyphAtIndex: (unsigned)glyphIndex
{
[self setIntAttribute: GSGlyphDrawsOutsideLineFragment
value: 1
forGlyphAtIndex: glyphIndex];
}
// Returns whether the glyph will make marks outside its line
// fragment's bounds.
- (BOOL) drawsOutsideLineFragmentForGlyphAtIndex: (unsigned)glyphIndex
{
if ([self intAttribute: GSGlyphDrawsOutsideLineFragment
forGlyphAtIndex: glyphIndex] == 1)
{
return YES;
}
return NO;
}
//
// Layout of glyphs
//
// Sets the location to draw the first glyph of the given range at.
// Setting the location for a glyph range implies that its first glyph
// is NOT nominally spaced with respect to the previous glyph. When
// all is said and done all glyphs in the layoutManager should have
// been included in a range passed to this method. But only glyphs
// which start a new nominal rtange should be at the start of such
// ranges. Glyph locations are given relative the their line fragment
// bounding rect's origin.
- (void) setLocation: (NSPoint)aPoint
forStartOfGlyphRange: (NSRange)glyphRange
{
GSGlyphLocation *aNewLine = [GSGlyphLocation new];
aNewLine->glyphRange = glyphRange;
aNewLine->point = aPoint;
[_locationRuns insertObject: aNewLine];
}
// Returns the location that the given glyph will draw at. If this
// glyph doesn't have an explicit location set for it (ie it is part
// of (but not first in) a sequence of nominally spaced characters),
// the location is calculated from the location of the last glyph with
// a location set. Glyph locations are relative the their line
// fragment bounding rect's origin (see
// -lineFragmentForGlyphAtIndex:effectiveRange: below for finding line
// fragment bounding rects). This will cause glyph generation AND
// layout as needed.
- (NSPoint) locationForGlyphAtIndex: (unsigned)glyphIndex
{
return NSZeroPoint;
}
// Returns the range including the first glyph from glyphIndex on back
// that has a location set and up to, but not including the next glyph
// that has a location set. This is a range of glyphs that can be
// shown with a single postscript show operation.
- (NSRange) rangeOfNominallySpacedGlyphsContainingIndex: (unsigned)glyphIndex
{
GSLineLayoutInfo *theLine;
theLine = [_locationRuns objectContainingLocation: glyphIndex];
if (theLine)
{
return theLine->glyphRange;
}
return NSMakeRange(NSNotFound, 0);
}
// Returns an array of NSRects and the number of rects by reference
// which define the region in container that encloses the given range.
// If a selected range is given in the second argument, the rectangles
// returned will be correct for drawing the selection. Selection
// rectangles are generally more complicated than enclosing rectangles
// and supplying a selected range is the clue these methods use to
// determine whether to go to the trouble of doing this special work.
// If the caller is interested in this more from an enclosing point of
// view rather than a selection point of view pass {NSNotFound, 0} as
// the selected range. This method works hard to do the minimum
// amount of work required to answer the question. The resulting
// array is owned by the layoutManager and will be reused when either
// of these two methods OR -boundingRectForGlyphRange:inTextContainer:
// is called. Note that one of these methods may be called
// indirectly. The upshot is that if you aren't going to use the
// rects right away, you should copy them to another location.
- (NSRect*) rectArrayForCharacterRange: (NSRange)charRange
withinSelectedCharacterRange: (NSRange)selChareRange
inTextContainer: (NSTextContainer*)aTextContainer
rectCount: (unsigned*)rectCount
{
/*
GSLineLayoutInfo *theLine = [GSLineLayoutInfo new];
int position, lastPosition;
int i, j = 0;
theLine->glyphRange.location = charRange.location;
position = GSIArrayInsertionPosition(lineFragments, (GSIArrayItem)theLine, aSort);
if (position < 0)
{
return NULL;
}
theLine->glyphRange.location = charRange.location + charRange.length;
lastPosition = GSIArrayInsertionPosition(lineFragments, (GSIArrayItem)theLine, aSort);
if (lastPosition > 0)
{
_cachedRectArray = NSZoneRealloc([self zone], _cachedRectArray,
(lastPosition - position) * sizeof(NSRect));
_cachedRectArrayCapacity = lastPosition - position;
for (i = position - 1; i < lastPosition - 1; i++)
{
GSLineLayoutInfo *aLine = GSIArrayItemAtIndex(lineFragments, i).obj;
_cachedRectArray[j] = aLine->lineFragmentRect;
j++;
}
}
(*rectCount) = (position - 1 + lastPosition - 1);
return _cachedRectArray;
*/
return NULL;
}
- (NSRect*) rectArrayForGlyphRange: (NSRange)glyphRange
withinSelectedGlyphRange: (NSRange)selectedGlyphRange
inTextContainer: (NSTextContainer*)aTextContainer
rectCount: (unsigned*)rectCount
{
return _cachedRectArray;
}
// Returns the smallest bounding rect (in container coordinates) which
// completely encloses the glyphs in the given glyphRange that are in
// the given container. If no container is given, then the container
// of the first glyph is assumed. Basically, the range is intersected
// with the container's range before computing the bounding rect.
// This method can be used to translate glyph ranges into display
// rectangles for invalidation.
- (NSRect) boundingRectForGlyphRange: (NSRange)glyphRange
inTextContainer: (NSTextContainer*)aTextContainer
{
/* Returns a single bounding rectangle enclosing all glyphs and other
marks drawn in aTextContainer for glyphRange, including glyphs that
draw outside their line fragment rectangles and text attributes such
as underlining. This method is useful for determining the area that
needs to be redrawn when a range of glyphs changes. */
/*
unsigned rectCount;
NSRect *rects = [self rectArrayForCharacterRange: [self glyphRangeForTextContainer: aTextContainer]
withinSelectedCharacterRange: NSMakeRange(0,0)
inTextContainer: aTextContainer
rectCount: &rectCount];
// NSPoint aOrigin = [aTextContainer originPoint];
NSRect rRect = NSZeroRect;
int i;
for (i=0;i<rectCount;i++)
{
NSRect aRect = rects[i];
if (aRect.origin.y == rRect.size.height)
rRect.size.height += aRect.size.width;
if (rRect.size.width == aRect.origin.x)
rRect.size.width += aRect.size.width;
}
return rRect;
*/
return NSZeroRect;
}
// Returns the minimum contiguous glyph range that would need to be
// displayed in order to draw all glyphs that fall (even partially)
// within the bounding rect given. This range might include glyphs
// which do not fall into the rect at all. At most this will return
// the glyph range for the whole container. The "WithoutFillingHoles"
// variant will not generate glyphs or perform layout in attempting to
// answer, and, thus, will potentially not be totally correct.
- (NSRange) glyphRangeForBoundingRect: (NSRect)aRect
inTextContainer: (NSTextContainer*)aTextContainer
{
return NSMakeRange(0, 0);
}
- (NSRange) glyphRangeForBoundingRectWithoutAdditionalLayout: (NSRect)bounds
inTextContainer: (NSTextContainer*)aTextContainer
{
return NSMakeRange(0, 0);
}
// Returns the index of the glyph which under the given point which is
// expressed in the given container's coordinate system. If no glyph
// is under the point the "nearest" glyph is returned where "nearest"
// is defined in such a way that selection works like it should. See
// the implementation for details. partialFraction, if provided, is
// set to the fraction of the distance between the location of the
// glyph returned and the location of the next glyph that the point is
// at.
- (unsigned) glyphIndexForPoint: (NSPoint)aPoint
inTextContainer: (NSTextContainer*)aTextContainer
fractionOfDistanceThroughGlyph: (float*)partialFraction
{
return 0;
}
- (unsigned) glyphIndexForPoint: (NSPoint)aPoint
inTextContainer: (NSTextContainer *)aTextContainer
{
return [self glyphIndexForPoint: aPoint
inTextContainer: aTextContainer
fractionOfDistanceThroughGlyph: NULL];
}
//
// Display of special glyphs
//
// Some glyphs are not shown. The typesetter decides which ones and
// sets this attribute in layoutManager where the view can find it.
- (void) setNotShownAttribute: (BOOL)flag
forGlyphAtIndex: (unsigned)glyphIndex
{
[self setIntAttribute: GSGlyphIsNotShown
value: 1
forGlyphAtIndex: glyphIndex];
}
// Some glyphs are not shown. This will cause glyph generation and
// layout as needed..
- (BOOL) notShownAttributeForGlyphAtIndex: (unsigned)glyphIndex
{
if ([self intAttribute: GSGlyphIsNotShown forGlyphAtIndex: glyphIndex] == 1)
{
return YES;
}
return NO;
}
// If YES, and the rulebooks and fonts in use support it, whitespace
// and other "invisible" unicodes will be shown with special glyphs
// (ie "." for space, the little CR icon for new lines, etc...)
- (void) setShowsInvisibleCharacters: (BOOL)flag
{
_showsInvisibleChars = flag;
}
- (BOOL) showsInvisibleCharacters
{
return _showsInvisibleChars;
}
// If YES, and the rulebooks and fonts in use support it, control
// characters will be rendered visibly (usually like "^M", but
// possibly with special glyphs if the the font and rulebook supports
// it).
- (void) setShowsControlCharacters: (BOOL)flag
{
_showsControlChars = flag;
}
- (BOOL) showsControlCharacters
{
return _showsControlChars;
}
//
// Controlling hyphenation
//
- (void) setHyphenationFactor: (float)factor
{
_hyphenationFactor = factor;
}
- (float) hyphenationFactor
{
return _hyphenationFactor;
}
//
// Finding unlaid characters/glyphs
//
// Returns (by reference) the character index or glyph index or both
// of the first unlaid character/glyph in the layout manager at this
// time.
- (void) getFirstUnlaidCharacterIndex: (unsigned*)charIndex
glyphIndex: (unsigned*)glyphIndex
{
if (charIndex)
*charIndex = [self firstUnlaidCharacterIndex];
if (glyphIndex)
*glyphIndex = [self firstUnlaidGlyphIndex];
}
- (unsigned int) firstUnlaidCharacterIndex
{
return _firstUnlaidCharIndex;
}
- (unsigned int) firstUnlaidGlyphIndex
{
return _firstUnlaidGlyphIndex;
}
//
// Using screen fonts
//
// Sets whether this layoutManager will use screen fonts when it is
// possible to do so.
- (void) setUsesScreenFonts: (BOOL)flag
{
_usesScreenFonts = flag;
}
- (BOOL) usesScreenFonts
{
return _usesScreenFonts;
}
// Returns a font to use in place of originalFont. This method is
// used to substitute screen fonts for regular fonts. If screen fonts
// are allowed AND no NSTextView managed by this layoutManager is
// scaled or rotated AND a screen font is available for originalFont,
// it is returned, otherwise originalFont is returned. MF:??? This
// method will eventually need to know or be told whether use of
// screen fonts is appropriate in a given situation (ie screen font
// used might be enabled or disabled, we might be printing, etc...).
// This method causes no generation.
- (NSFont*) substituteFontForFont: (NSFont*)originalFont
{
NSFont *replaceFont;
if (_usesScreenFonts)
return originalFont;
// FIXME: Should check if any NSTextView is scaled or rotated
replaceFont = [originalFont screenFont];
if (replaceFont != nil)
return replaceFont;
else
return originalFont;
}
//
// Handling rulers
//
// These return, respectively, an array of text ruler objects for the
// current selection and the accessory view that the text system uses
// for ruler. If you have turned off automatic ruler updating through
// the use of setUsesRulers: so that you can do more complex things,
// but you still want to display the appropriate text ruler objects
// and/or accessory view, you can use these methods.
- (NSView*) rulerAccessoryViewForTextView: (NSTextView*)aTextView
paragraphStyle: (NSParagraphStyle*)paragraphStyle
ruler: (NSRulerView*)aRulerView
enabled: (BOOL)flag
{
return NULL;
}
- (NSArray*) rulerMarkersForTextView: (NSTextView*)aTextView
paragraphStyle: (NSParagraphStyle*)paragraphStyle
ruler: (NSRulerView*)aRulerView
{
return NULL;
}
/*
* Managing the responder chain
*/
- (BOOL) layoutManagerOwnsFirstResponderInWindow: (NSWindow*)aWindow
{
id firstResponder = [aWindow firstResponder];
if (_textContainersCount == 1)
{
if (_firstTextView == firstResponder)
{
return YES;
}
}
else
{
int i;
for (i = 0; i < _textContainersCount; i++)
{
id tv = [[_textContainers objectAtIndex: i] textView];
if (tv == firstResponder)
{
return YES;
}
}
}
return NO;
}
- (NSTextView*) firstTextView
{
return [[_textContainers objectAtIndex: 0] textView];
/* WARNING: Uncommenting the following makes initialization
with the other text objects more difficult. */
// return _firstTextView;
}
// This method is special in that it won't cause layout if the
// beginning of the selected range is not yet laid out. Other than
// that this method could be done through other API.
- (NSTextView*) textViewForBeginningOfSelection
{
return NULL;
}
//
// Drawing
//
- (void) drawBackgroundForGlyphRange: (NSRange)glyphRange
atPoint: (NSPoint)containerOrigin
{
}
// These methods are called by NSTextView to do drawing. You can
// override these if you think you can draw the stuff any better
// (but not to change layout). You can call them if you want, but
// focus must already be locked on the destination view or MF:???image?.
// -drawBackgroundGorGlyphRange:atPoint: should draw the background
// color and selection and marked range aspects of the text display.
// -drawGlyphsForGlyphRange:atPoint: should draw the actual glyphs.
// The point in either method is the container origin in the currently
// focused view's coordinates for the container the glyphs lie in.
- (void) drawGlyphsForGlyphRange: (NSRange)glyphRange
atPoint: (NSPoint)containerOrigin
{
int firstPosition, lastPosition, i;
for (i=0;i<[_fragmentRuns count];i++)
{
/*
GSLineLayoutInfo *info = [_fragmentRuns objectAtIndex: i];
NSLog(@"i: %d glyphRange: (%d, %d) lineFragmentRect: (%f, %f) (%f, %f)",
i,
info->glyphRange.location,
info->glyphRange.length,
info->lineFragmentRect.origin.x,
info->lineFragmentRect.origin.y,
info->lineFragmentRect.size.width,
info->lineFragmentRect.size.height);
*/
}
firstPosition = [_fragmentRuns indexOfObjectContainingLocation: glyphRange.location];
lastPosition = [_fragmentRuns
indexOfObjectContainingLocation: (glyphRange.location+glyphRange.length-3)];
NSLog(@"glyphRange: (%d, %d) position1: %d position2: %d",
glyphRange.location, glyphRange.length, firstPosition, lastPosition);
if (firstPosition >= 0)
{
if (lastPosition == -1)
{
lastPosition = [_fragmentRuns count] - 1; // FIXME
NSLog(@"fixed lastPosition: %d", lastPosition);
}
for (i = firstPosition; i <= lastPosition; i++)
{
GSLineLayoutInfo *aLine = [_fragmentRuns objectAtIndex: i];
NSRect aRect = aLine->lineFragmentRect;
aRect.size.height -= 4;
/*
NSLog(@"drawRange: (%d, %d) inRect (%f, %f) (%f, %f)",
aLine->glyphRange.location,
aLine->glyphRange.length,
aLine->lineFragmentRect.origin.x,
aLine->lineFragmentRect.origin.y,
aLine->lineFragmentRect.size.width,
aLine->lineFragmentRect.size.height);
NSEraseRect (aRect);
*/
[_textStorage drawRange: aLine->glyphRange inRect: aLine->lineFragmentRect];
}
}
}
- (void) drawUnderlineForGlyphRange: (NSRange)glyphRange
underlineType: (int)underlineType
baselineOffset: (float)baselineOffset
lineFragmentRect: (NSRect)lineRect
lineFragmentGlyphRange: (NSRange)lineGlyphRange
containerOrigin: (NSPoint)containerOrigin
{
}
// The first of these methods actually draws an appropriate underline
// for the glyph range given. The second method potentailly breaks
// the range it is given up into subranges and calls drawUnderline...
// for ranges that should actually have the underline drawn. As
// examples of why there are two methods, consider two situations.
// First, in all cases you don't want to underline the leading and
// trailing whitespace on a line. The -underlineGlyphRange... method
// is passed glyph ranges that have underlining turned on, but it will
// then look for this leading and trailing white space and only pass
// the ranges that should actually be underlined to -drawUnderline...
// Second, if the underlineType: indicates that only words, (ie no
// whitespace), should be underlined, then -underlineGlyphRange...
// will carve the range it is passed up into words and only pass word
// ranges to -drawUnderline.
- (void) underlineGlyphRange: (NSRange)glyphRange
underlineType: (int)underlineType
lineFragmentRect: (NSRect)lineRect
lineFragmentGlyphRange: (NSRange)lineGlyphRange
containerOrigin: (NSPoint)containerOrigin
{
}
//
// Setting the delegate
//
- (void) setDelegate: (id)aDelegate
{
_delegate = aDelegate;
}
- (id) delegate
{
return _delegate;
}
- (unsigned) _charIndexForInsertionPointMovingFromY: (float)position
bestX: (float)wanted
up: (BOOL)upFlag
textContainer: (NSTextContainer *)tc
{
[self subclassResponsibility: _cmd];
return 0;
}
@end /* NSLayoutManager */
/* The methods laid out here are not correct, however the code they
contain for the most part is. Therefore, my country and a handsome
gift of Ghiradelli chocolate to he who puts all the pieces together :) */
/*
* A little utility function to determine the range of characters in a
* scanner that are present in a specified character set. */
static inline NSRange
scanRange (NSScanner *scanner, NSCharacterSet* aSet)
{
unsigned start = [scanner scanLocation];
unsigned end = start;
if ([scanner scanCharactersFromSet: aSet intoString: 0] == YES)
{
end = [scanner scanLocation];
}
return NSMakeRange (start, end - start);
}
@implementation NSLayoutManager (Private)
- (int) _rebuildLayoutForTextContainer: (NSTextContainer*)aContainer
startingAtGlyphIndex: (int)glyphIndex
{
NSSize cSize = [aContainer containerSize];
float i = 0.0;
NSMutableArray *lineStarts = [NSMutableArray new];
NSMutableArray *lineEnds = [NSMutableArray new];
int indexToAdd;
NSScanner *lineScanner;
NSScanner *paragraphScanner;
BOOL lastLineForContainerReached = NO;
int previousScanLocation;
int previousParagraphLocation;
int endScanLocation;
int startIndex;
NSRect firstProposedRect;
NSRect secondProposedRect;
NSCharacterSet *selectionParagraphGranularitySet = [NSCharacterSet characterSetWithCharactersInString: @"\n"];
NSCharacterSet *selectionWordGranularitySet = [NSCharacterSet characterSetWithCharactersInString: @" "];
NSCharacterSet *invSelectionWordGranularitySet = [selectionWordGranularitySet invertedSet];
NSCharacterSet *invSelectionParagraphGranularitySet = [selectionParagraphGranularitySet invertedSet];
NSRange paragraphRange;
NSRange leadingSpacesRange;
NSRange currentStringRange;
NSRange trailingSpacesRange;
NSRange leadingNlRange;
NSRange trailingNlRange;
NSSize lSize;
float lineWidth = 0.0;
float ourLines = 0.0;
int beginLineIndex = 0;
NSLog(@"rebuilding Layout at index: %d.\n", glyphIndex);
// 1.) figure out how many glyphs we can fit in our container by
// breaking up glyphs from the first unlaid out glyph and breaking it
// into lines.
//
// 2.)
// a.) set the range for the container
// b.) for each line in step 1 we need to set a lineFragmentRect and
// an origin point.
// Here we go at part 1.
startIndex = glyphIndex;
paragraphScanner = [NSScanner scannerWithString: [_textStorage string]];
[paragraphScanner setCharactersToBeSkipped: nil];
[paragraphScanner setScanLocation: startIndex];
NSLog(@"length of textStorage: %d", [[_textStorage string] length]);
// NSLog(@"buffer: %@", [_textStorage string]);
/*
* This scanner eats one word at a time, we should have it imbeded in
* another scanner that snacks on paragraphs (i.e. lines that end with
* \n). Look in NSText.
*/
while (![paragraphScanner isAtEnd])
{
previousParagraphLocation = [paragraphScanner scanLocation];
beginLineIndex = previousParagraphLocation;
lineWidth = 0.0;
leadingNlRange
= scanRange(paragraphScanner, selectionParagraphGranularitySet);
paragraphRange
= scanRange(paragraphScanner, invSelectionParagraphGranularitySet);
trailingNlRange
= scanRange(paragraphScanner, selectionParagraphGranularitySet);
// NSLog(@"leadingNlRange: (%d, %d)", leadingNlRange.location, leadingNlRange.length);
// if (leadingNlRange.length)
// paragraphRange = NSUnionRange (leadingNlRange,paragraphRange);
// if (trailingNlRange.length)
// paragraphRange = NSUnionRange (trailingNlRange,paragraphRange);
NSLog(@"paragraphRange: (%d, %d)", paragraphRange.location, paragraphRange.length);
lineScanner = [NSScanner scannerWithString:
[[_textStorage string] substringWithRange: paragraphRange]];
[lineScanner setCharactersToBeSkipped: nil];
while (![lineScanner isAtEnd])
{
previousScanLocation = [lineScanner scanLocation];
// snack next word
leadingSpacesRange
= scanRange(lineScanner, selectionWordGranularitySet);
currentStringRange
= scanRange(lineScanner, invSelectionWordGranularitySet);
trailingSpacesRange
= scanRange(lineScanner, selectionWordGranularitySet);
if (leadingSpacesRange.length)
currentStringRange = NSUnionRange(leadingSpacesRange,currentStringRange);
if (trailingSpacesRange.length)
currentStringRange = NSUnionRange(trailingSpacesRange,currentStringRange);
lSize = [_textStorage sizeRange: currentStringRange];
// lSize = [_textStorage sizeRange:
//NSMakeRange(currentStringRange.location+paragraphRange.location+startIndex,
//currentStringRange.length)];
if ((lineWidth + lSize.width) < cSize.width)
{
if ([lineScanner isAtEnd])
{
NSLog(@"we are at end before finishing a line: %d.\n", [lineScanner scanLocation]);
NSLog(@"scanLocation = %d, previousParagraphLocation = %d, beginLineIndex = %d",
[lineScanner scanLocation],
previousParagraphLocation,
beginLineIndex);
[lineStarts addObject: [NSNumber
numberWithInt: beginLineIndex]];
[lineEnds addObject: [NSNumber
numberWithInt: (int)[lineScanner scanLocation] + previousParagraphLocation - (beginLineIndex)]];
lineWidth = 0.0;
}
lineWidth += lSize.width;
//NSLog(@"lineWidth: %f", lineWidth);
}
else
{
if (ourLines > cSize.height)
{
lastLineForContainerReached = YES;
break;
}
[lineScanner setScanLocation: previousScanLocation];
indexToAdd = previousScanLocation + previousParagraphLocation
- (beginLineIndex);
NSLog(@"previousScanLocation = %d, previousParagraphLocation = %d, beginLineIndex = %d indexToAdd = %d",
previousScanLocation,
previousParagraphLocation,
beginLineIndex,
indexToAdd);
ourLines += 20.0; // 14
lineWidth = 0.0;
[lineStarts addObject: [NSNumber
numberWithInt: beginLineIndex]];
[lineEnds addObject: [NSNumber numberWithInt: indexToAdd]];
beginLineIndex = previousScanLocation + previousParagraphLocation;
}
}
if (lastLineForContainerReached)
break;
}
endScanLocation = [paragraphScanner scanLocation];
NSLog(@"endScanLocation: %d", endScanLocation);
// set this container for that glyphrange
[self setTextContainer: aContainer
forGlyphRange: NSMakeRange(startIndex, endScanLocation - startIndex)];
NSLog(@"ok, move on to step 2.");
// step 2. break the lines up and assign rects to them.
for (i=0; i < [lineStarts count]; i++)
{
NSRect aRect, bRect;
float padding = [aContainer lineFragmentPadding];
NSRange ourRange;
// NSLog(@"\t\t===> %d", [[lines objectAtIndex: i] intValue]);
ourRange = NSMakeRange ([[lineStarts objectAtIndex: i] intValue],
[[lineEnds objectAtIndex: i] intValue]);
/*
if (i == 0)
{
ourRange = NSMakeRange (startIndex,
[[lines objectAtIndex: i] intValue] - startIndex);
}
else
{
ourRange = NSMakeRange ([[lines objectAtIndex: i-1] intValue],
[[lines objectAtIndex: i] intValue] - [[lines objectAtIndex: i-1]
intValue]);
}
*/
NSLog(@"line: %@|", [[_textStorage string]
substringWithRange: ourRange]);
firstProposedRect = NSMakeRect (0, i * 14, cSize.width, 14);
// ask our textContainer to fix our lineFragment.
secondProposedRect = [aContainer
lineFragmentRectForProposedRect: firstProposedRect
sweepDirection: NSLineSweepLeft
movementDirection: NSLineMoveLeft
remainingRect: &bRect];
// set the line fragmentRect for this range.
[self setLineFragmentRect: secondProposedRect
forGlyphRange: ourRange
usedRect: aRect];
// set the location for this string to be 'show'ed.
[self setLocation: NSMakePoint(secondProposedRect.origin.x + padding,
secondProposedRect.origin.y + padding)
forStartOfGlyphRange: ourRange];
}
// bloody hack.
// if (moreText)
// [delegate layoutManager: self
// didCompleteLayoutForTextContainer: [textContainers objectAtIndex: i]
// atEnd: NO];
// else
// [delegate layoutManager: self
// didCompleteLayoutForTextContainer: [textContainers objectAtIndex: i]
// atEnd: YES];
[lineStarts release];
[lineEnds release];
return endScanLocation;
}
- (void) _doLayout
{
NSEnumerator *enumerator;
NSTextContainer *container;
int gIndex = 0;
NSLog(@"doLayout called.\n");
enumerator = [_textContainers objectEnumerator];
while ((container = [enumerator nextObject]) != nil)
{
gIndex = [self _rebuildLayoutForTextContainer: container
startingAtGlyphIndex: gIndex];
}
}
@end
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