NSAttributedStringAdditions

/** NSAttributedStringAdditions Categories which add capabilities to NSAttributedString Copyright (C) 1999 Free Software Foundation, Inc. Author: Richard Frith-Macdonald Date: July 1999 Modifications: Fred Kiefer Date: June 2000 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 #include #include #include #include #include "AppKit/NSAttributedString.h" #include "AppKit/NSDocumentController.h" #include "AppKit/NSParagraphStyle.h" #include "AppKit/NSPasteboard.h" #include "AppKit/NSTextAttachment.h" #include "AppKit/NSColor.h" #include "AppKit/NSFileWrapper.h" #include "AppKit/NSFont.h" // For the colour name spaces #include "AppKit/NSGraphics.h" #include "gnustep/gui/GSTextConverter.h" /* Cache class pointers to avoid the expensive lookup by string. */ static Class dictionaryClass = nil; static Class stringClass = nil; /* A character set containing characters that separate words. */ static NSCharacterSet *wordBreakCSet = nil; /* A character set containing characters that are legal within words. */ static NSCharacterSet *wordCSet = nil; /* A String containing the attachment character */ static NSString *attachmentString = nil; /* This function initializes all the previous cached values. */ static void cache_init_real () { NSMutableCharacterSet *m; NSCharacterSet *cset; unichar ch = NSAttachmentCharacter; /* Initializes Class pointer cache */ dictionaryClass = [NSDictionary class]; stringClass = [NSString class]; /* Initializes wordBreakCSet */ m = [NSMutableCharacterSet new]; cset = [NSCharacterSet whitespaceAndNewlineCharacterSet]; [m formUnionWithCharacterSet: cset]; cset = [NSCharacterSet punctuationCharacterSet]; [m formUnionWithCharacterSet: cset]; cset = [NSCharacterSet controlCharacterSet]; [m formUnionWithCharacterSet: cset]; cset = [NSCharacterSet illegalCharacterSet]; [m formUnionWithCharacterSet: cset]; [m removeCharactersInString: @"-"]; wordBreakCSet = [m copy]; RELEASE (m); /* Initializes wordCSet */ wordCSet = [[wordBreakCSet invertedSet] copy]; /* Initializes attachmentString */ attachmentString = [stringClass stringWithCharacters: &ch length: 1]; RETAIN (attachmentString); } /* This inline function calls cache_init_real () the first time it is invoked, and does nothing afterwards. Thus we get both speed (cache_init is inlined and only compares a pointer to nil when the cache has been initialized) and limit memory consumption (we are not copying everywhere the real initialization code, which is in cache_real_init (), which is not inlined.).*/ static inline void cache_init () { if (dictionaryClass == nil) { cache_init_real (); } } /* Return the class that handles format from the first bundle it finds */ static Class converter_bundles(NSString *format, BOOL producer) { Class converter_class = Nil; NSEnumerator *benum; NSString *dpath; /* Find the bundle paths */ benum = [NSStandardLibraryPaths() objectEnumerator]; while ((dpath = [benum nextObject])) { NSEnumerator *direnum; NSString *path; dpath = [dpath stringByAppendingPathComponent: @"Bundles"]; dpath = [dpath stringByAppendingPathComponent: @"TextConverters"]; if ([[NSFileManager defaultManager] fileExistsAtPath: dpath]) direnum = [[NSFileManager defaultManager] enumeratorAtPath: dpath]; else direnum = nil; while (direnum && (path = [direnum nextObject])) { Class bclass; NSString *full_path; NSBundle *aBundle; if ([[path pathExtension] isEqual: @"bundle"] == NO) continue; full_path = [dpath stringByAppendingPathComponent: path]; aBundle = [NSBundle bundleWithPath: full_path]; if (aBundle && ((bclass = [aBundle principalClass]))) { if ([bclass respondsToSelector: @selector(classForFormat:producer:)]) { converter_class = (Class)[bclass classForFormat: format producer: producer]; } else { NSString *converter_name; if (producer) converter_name = [format stringByAppendingString: @"Producer"]; else converter_name = [format stringByAppendingString: @"Consumer"]; converter_class = [aBundle classNamed: converter_name]; } } if (converter_class) break; } if (converter_class) break; } return converter_class; } /* Return a suitable converter for the text format supplied as argument. If producer is YES a class capable of writting that format is returned, otherwise a class able to read the format is returned. */ static Class converter_class(NSString *format, BOOL producer) { static NSMutableDictionary *p_classes = nil; static NSMutableDictionary *c_classes = nil; Class found; if (producer) { if (p_classes == nil) p_classes = [NSMutableDictionary new]; found = [p_classes objectForKey: format]; if (found == Nil) { found = converter_bundles(format, producer); if (found != Nil) NSDebugLog(@"Found converter %@ for format %@", found, format); if (found != Nil) [p_classes setObject: found forKey: format]; } return found; } else { if (c_classes == nil) c_classes = [NSMutableDictionary new]; found = [c_classes objectForKey: format]; if (found == Nil) { found = converter_bundles(format, producer); if (found != Nil) NSDebugLog(@"Found converter %@ for format %@", found, format); if (found != Nil) [c_classes setObject: found forKey: format]; } return found; } return Nil; } @implementation NSAttributedString (AppKit) + (NSArray *) textFileTypes { // FIXME return [self textUnfilteredFileTypes]; } + (NSArray *) textPasteboardTypes { // FIXME return [self textUnfilteredPasteboardTypes]; } + (NSArray *) textUnfilteredFileTypes { return [NSArray arrayWithObjects: @"txt", @"rtf", @"rtfd", @"html", nil]; } + (NSArray *) textUnfilteredPasteboardTypes { return [NSArray arrayWithObjects: NSStringPboardType, NSRTFPboardType, NSRTFDPboardType, NSHTMLPboardType, nil]; } + (NSAttributedString *) attributedStringWithAttachment: (NSTextAttachment *)attachment { NSDictionary *attributes; cache_init (); attributes = [dictionaryClass dictionaryWithObject: attachment forKey: NSAttachmentAttributeName]; return AUTORELEASE ([[self alloc] initWithString: attachmentString attributes: attributes]); } - (BOOL) containsAttachments { NSRange aRange; cache_init (); aRange = [[self string] rangeOfString: attachmentString]; if (aRange.length > 0) { return YES; } else { return NO; } } - (NSDictionary *) fontAttributesInRange: (NSRange)range { NSDictionary *all; static SEL sel = 0; IMP objForKey; id objects[8]; id keys[8]; int count = 0; if (NSMaxRange(range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -fontAttributesInRange:"]; } all = [self attributesAtIndex: range.location effectiveRange: &range]; if (sel == 0) { sel = @selector (objectForKey:); } objForKey = [all methodForSelector: sel]; #define NSATT_GET_ATTRIBUTE(attribute) \ keys[count] = attribute; \ objects[count] = (*objForKey) (all, sel, keys[count]); \ if (objects[count] != nil) count++; NSATT_GET_ATTRIBUTE (NSFontAttributeName); NSATT_GET_ATTRIBUTE (NSForegroundColorAttributeName); NSATT_GET_ATTRIBUTE (NSBackgroundColorAttributeName); NSATT_GET_ATTRIBUTE (NSUnderlineStyleAttributeName); NSATT_GET_ATTRIBUTE (NSSuperscriptAttributeName); NSATT_GET_ATTRIBUTE (NSBaselineOffsetAttributeName); NSATT_GET_ATTRIBUTE (NSKernAttributeName); NSATT_GET_ATTRIBUTE (NSLigatureAttributeName); #undef NSATT_GET_ATTRIBUTE cache_init (); return [dictionaryClass dictionaryWithObjects: objects forKeys: keys count: count]; } - (NSDictionary*) rulerAttributesInRange: (NSRange)range { id style; cache_init (); if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -rulerAttributesInRange:"]; } style = [self attribute: NSParagraphStyleAttributeName atIndex: range.location effectiveRange: &range]; if (style != nil) { return [dictionaryClass dictionaryWithObject: style forKey: NSParagraphStyleAttributeName]; } return [dictionaryClass dictionary]; } - (unsigned) lineBreakBeforeIndex: (unsigned)location withinRange: (NSRange)aRange { NSString *str = [self string]; unsigned length = [str length]; NSRange scanRange; NSRange startRange; cache_init (); if (NSMaxRange (aRange) > length || location > length) { [NSException raise: NSRangeException format: @"RangeError in method -lineBreakBeforeIndex:withinRange:"]; } if (!NSLocationInRange (location, aRange)) { return NSNotFound; } scanRange = NSMakeRange (aRange.location, location - aRange.location); startRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSBackwardsSearch | NSLiteralSearch range: scanRange]; while (startRange.length > 0 && startRange.location > 0 && [str characterAtIndex: startRange.location] == '\'' && [wordCSet characterIsMember: [str characterAtIndex: startRange.location-1]]) { location = startRange.location - 1; scanRange = NSMakeRange (0, location); startRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSBackwardsSearch|NSLiteralSearch range: scanRange]; } if (startRange.length == 0) { return NSNotFound; } else { return NSMaxRange (startRange); } } - (NSRange) doubleClickAtIndex: (unsigned)location { NSString *str = [self string]; unsigned length = [str length]; NSRange scanRange; NSRange startRange; NSRange endRange; cache_init (); if (location > length) { [NSException raise: NSRangeException format: @"RangeError in method -doubleClickAtIndex:"]; } /* * If the location lies between words, a double click selects only * the character actually clicked on. */ if ([wordBreakCSet characterIsMember: [str characterAtIndex: location]]) { if (location == 0 || location == length - 1 || [str characterAtIndex: location] != '\'' || ! [wordCSet characterIsMember: [str characterAtIndex: location - 1]] || ! [wordCSet characterIsMember: [str characterAtIndex: location + 1]]) { return NSMakeRange(location, 1); } } scanRange = NSMakeRange (0, location); startRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSBackwardsSearch|NSLiteralSearch range: scanRange]; while (startRange.length > 0 && startRange.location > 0 && startRange.location < length - 1 && [str characterAtIndex: startRange.location] == '\'' && [wordCSet characterIsMember: [str characterAtIndex: startRange.location - 1]] && [wordCSet characterIsMember: [str characterAtIndex: startRange.location + 1]]) { location = startRange.location - 1; scanRange = NSMakeRange (0, location); startRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSBackwardsSearch|NSLiteralSearch range: scanRange]; } scanRange = NSMakeRange (location, length - location); endRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSLiteralSearch range: scanRange]; while (endRange.length > 0 && endRange.location > 0 && endRange.location < length - 1 && [str characterAtIndex: endRange.location] == '\'' && [wordCSet characterIsMember: [str characterAtIndex: endRange.location - 1]] && [wordCSet characterIsMember: [str characterAtIndex: endRange.location + 1]]) { location = endRange.location + 1; scanRange = NSMakeRange (location, length - location); endRange = [str rangeOfCharacterFromSet: wordBreakCSet options: NSLiteralSearch range: scanRange]; } if (startRange.length == 0) { location = 0; } else { location = NSMaxRange (startRange); } if (endRange.length == 0) { length = length - location; } else { length = endRange.location - location; } return NSMakeRange (location, length); } - (unsigned) nextWordFromIndex: (unsigned)location forward: (BOOL)isForward { NSString *str = [self string]; unsigned length = [str length]; NSRange range; if (location > length) { [NSException raise: NSRangeException format: @"RangeError in method -nextWordFromIndex:forward:"]; } /* Please note that we consider ' a valid word separator. This is what Emacs does and is perfectly correct. If you want to change the word separators, the right approach is to use a different character set for word separators - the following code should be unchanged whatever characters you use to separate words. */ cache_init (); if (isForward) { /* What we want to do is: move forward to the next chunk of word separator characters, skip them all, and return the location just after them. */ if (location == length) { return length; } /* Move forward to the next word-separator. */ range = NSMakeRange (location, length - location); range = [str rangeOfCharacterFromSet: wordBreakCSet options: NSLiteralSearch range: range]; if (range.location == NSNotFound) { return length; } /* rangeOfCharacterFromSet:options:range: only returns the range of the first word-separator character ... we want to skip them all! So we need to search again, this time for the first non-word-separator character, and return the first such character. */ range = NSMakeRange (range.location, length - range.location); range = [str rangeOfCharacterFromSet: wordCSet options: NSLiteralSearch range: range]; if (range.location == NSNotFound) { return length; } return range.location; } else { /* What we want to do is: move backward to the next chunk of non-word separator characters, skip them all, and return the location just at the beginning of the chunk. */ if (location == 0) { return 0; } /* Move backward to the next non-word separator. */ range = NSMakeRange (0, location); range = [str rangeOfCharacterFromSet: wordCSet options: NSBackwardsSearch | NSLiteralSearch range: range]; if (range.location == NSNotFound) { return 0; } /* rangeOfCharacterFromSet:options:range: only returns the range of the first non-word-separator character ... we want to skip them all! So we need to search again, this time for the first word-separator character. */ range = NSMakeRange (0, range.location); range = [str rangeOfCharacterFromSet: wordBreakCSet options: NSBackwardsSearch | NSLiteralSearch range: range]; if (range.location == NSNotFound) { return 0; } return NSMaxRange (range); } } - (id) initWithPath: (NSString *)path documentAttributes: (NSDictionary **)dict { // FIXME: This expects the file to be RTFD NSFileWrapper *fw; if (path == nil) { RELEASE (self); return nil; } fw = [[NSFileWrapper alloc] initWithPath: path]; AUTORELEASE (fw); return [self initWithRTFDFileWrapper: fw documentAttributes: dict]; } - (id) initWithURL: (NSURL *)url documentAttributes: (NSDictionary **)dict { NSData *data = [url resourceDataUsingCache: YES]; if (data == nil) { RELEASE (self); return nil; } // FIXME: This expects the URL to point to a HTML page return [self initWithHTML: data baseURL: [url baseURL] documentAttributes: dict]; } - (id) initWithRTFDFileWrapper: (NSFileWrapper *)wrapper documentAttributes: (NSDictionary **)dict { NSAttributedString *new; if (wrapper == nil) { RELEASE (self); return nil; } new = [converter_class(@"RTFD", NO) parseFile: wrapper documentAttributes: dict class: [self class]]; // We do not return self but the newly created object RELEASE (self); return RETAIN (new); } - (id) initWithRTFD: (NSData*)data documentAttributes: (NSDictionary**)dict { NSAttributedString *new; if (data == nil) { RELEASE (self); return nil; } new = [converter_class(@"RTFD", NO) parseData: data documentAttributes: dict class: [self class]]; // We do not return self but the newly created object RELEASE (self); return RETAIN (new); } - (id) initWithRTF: (NSData *)data documentAttributes: (NSDictionary **)dict { NSAttributedString *new; if (data == nil) { RELEASE (self); return nil; } new = [converter_class(@"RTF", NO) parseData: data documentAttributes: dict class: [self class]]; // We do not return self but the newly created object RELEASE (self); return RETAIN (new); } - (id) initWithHTML: (NSData *)data documentAttributes: (NSDictionary **)dict { return [self initWithHTML: data baseURL: nil documentAttributes: dict]; } - (id) initWithHTML: (NSData *)data baseURL: (NSURL *)base documentAttributes: (NSDictionary **)dict { if (data == nil) { RELEASE (self); return nil; } // FIXME: Not implemented return self; } - (NSData *) RTFFromRange: (NSRange)range documentAttributes: (NSDictionary *)dict { return [converter_class(@"RTF", YES) produceDataFrom: [self attributedSubstringFromRange: range] documentAttributes: dict]; } - (NSData *) RTFDFromRange: (NSRange)range documentAttributes: (NSDictionary *)dict { return [converter_class(@"RTFD", YES) produceDataFrom: [self attributedSubstringFromRange: range] documentAttributes: dict]; } - (NSFileWrapper *) RTFDFileWrapperFromRange: (NSRange)range documentAttributes: (NSDictionary *)dict { return [converter_class(@"RTFD", YES) produceFileFrom: [self attributedSubstringFromRange: range] documentAttributes: dict]; } @end @implementation NSMutableAttributedString (AppKit) - (void) superscriptRange: (NSRange)range { id value; int sValue; NSRange effRange; if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -superscriptRange:"]; } // We take the value from the first character and use it for the whole range value = [self attribute: NSSuperscriptAttributeName atIndex: range.location effectiveRange: &effRange]; if (value != nil) { sValue = [value intValue] + 1; } else { sValue = 1; } [self addAttribute: NSSuperscriptAttributeName value: [NSNumber numberWithInt: sValue] range: range]; } - (void) subscriptRange: (NSRange)range { id value; int sValue; NSRange effRange; if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -subscriptRange:"]; } // We take the value form the first character and use it for the whole range value = [self attribute: NSSuperscriptAttributeName atIndex: range.location effectiveRange: &effRange]; if (value != nil) { sValue = [value intValue] - 1; } else { sValue = -1; } [self addAttribute: NSSuperscriptAttributeName value: [NSNumber numberWithInt: sValue] range: range]; } - (void) unscriptRange: (NSRange)range { if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -unscriptRange:"]; } [self removeAttribute: NSSuperscriptAttributeName range: range]; } - (void) applyFontTraits: (NSFontTraitMask)traitMask range: (NSRange)range { NSFont *font; unsigned loc = range.location; NSRange effRange; NSFontManager *fm = [NSFontManager sharedFontManager]; if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -applyFontTraits:range:"]; } while (loc < NSMaxRange (range)) { font = [self attribute: NSFontAttributeName atIndex: loc effectiveRange: &effRange]; if (font != nil) { font = [fm convertFont: font toHaveTrait: traitMask]; if (font != nil) { [self addAttribute: NSFontAttributeName value: font range: NSIntersectionRange (effRange, range)]; } } loc = NSMaxRange(effRange); } } - (void) setAlignment: (NSTextAlignment)alignment range: (NSRange)range { id value; unsigned loc = range.location; if (NSMaxRange(range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -setAlignment:range:"]; } while (loc < NSMaxRange(range)) { BOOL copiedStyle = NO; NSRange effRange; NSRange newRange; value = [self attribute: NSParagraphStyleAttributeName atIndex: loc effectiveRange: &effRange]; newRange = NSIntersectionRange (effRange, range); if (value == nil) { value = [NSMutableParagraphStyle defaultParagraphStyle]; } else { value = [value mutableCopy]; copiedStyle = YES; } [value setAlignment: alignment]; [self addAttribute: NSParagraphStyleAttributeName value: value range: newRange]; if (copiedStyle == YES) { RELEASE(value); } loc = NSMaxRange (effRange); } } - (void) fixAttributesInRange: (NSRange)range { [self fixFontAttributeInRange: range]; [self fixParagraphStyleAttributeInRange: range]; [self fixAttachmentAttributeInRange: range]; } - (void) fixFontAttributeInRange: (NSRange)range { if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -fixFontAttributeInRange:"]; } // FIXME: Should check for each character if it is supported by the // assigned font /* Note that this needs to be done on a script basis. Per-character checks are difficult to do at all, don't give reasonable results, and would have really poor performance. */ } - (void) fixParagraphStyleAttributeInRange: (NSRange)range { NSString *str = [self string]; unsigned loc = range.location; NSRange r; if (NSMaxRange (range) > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -fixParagraphStyleAttributeInRange:"]; } while (loc < NSMaxRange (range)) { NSParagraphStyle *style; NSRange found; unsigned end; /* Extend loc to take in entire paragraph if necessary. */ r = [str lineRangeForRange: NSMakeRange (loc, 1)]; end = NSMaxRange (r); /* Get the style in effect at the paragraph start. */ style = [self attribute: NSParagraphStyleAttributeName atIndex: r.location longestEffectiveRange: &found inRange: r]; if (style == nil) { /* No style found at the beginning of paragraph. found is the range without the style set. */ if ((NSMaxRange (found) + 1) < end) { /* There is a paragraph style for part of the paragraph. Set this style for the entire paragraph. Since NSMaxRange(found) + 1 is outside the longest effective range for the nil style, it must be non-nil. */ style = [self attribute: NSParagraphStyleAttributeName atIndex: NSMaxRange(found) + 1 effectiveRange: NULL]; [self addAttribute: NSParagraphStyleAttributeName value: style range: r]; } else { /* All the paragraph without a style ... too bad, fixup the whole paragraph using the default paragraph style. */ [self addAttribute: NSParagraphStyleAttributeName value: [NSParagraphStyle defaultParagraphStyle] range: r]; } } else { if (NSMaxRange (found) < end) { /* Not the whole paragraph has the same style ... add the style found at the beginning to the remainder of the paragraph. */ found.location = NSMaxRange (found); found.length = end - found.location; [self addAttribute: NSParagraphStyleAttributeName value: style range: found]; } } /* Move on to the next paragraph. */ loc = end; } } - (void) fixAttachmentAttributeInRange: (NSRange)aRange { NSString *string = [self string]; unsigned location = aRange.location; unsigned end = NSMaxRange (aRange); cache_init (); if (end > [self length]) { [NSException raise: NSRangeException format: @"RangeError in method -fixAttachmentAttributeInRange:"]; } // Check for attachments with the wrong character while (location < end) { NSDictionary *attr; NSRange range; attr = [self attributesAtIndex: location effectiveRange: &range]; if ([attr objectForKey: NSAttachmentAttributeName] != nil) { unichar buf[range.length]; unsigned pos = 0; unsigned start = range.location; // Leave only one character with the attachment [string getCharacters: buf range: range]; while (pos < range.length && buf[pos] != NSAttachmentCharacter) pos++; if (pos) [self removeAttribute: NSAttachmentAttributeName range: NSMakeRange (start, pos)]; pos++; if (pos < range.length) [self removeAttribute: NSAttachmentAttributeName range: NSMakeRange (start + pos, range.length - pos)]; } location = NSMaxRange (range); } // Check for attachment characters without attachments location = aRange.location; while (location < end) { NSRange range = [string rangeOfString: attachmentString options: NSLiteralSearch range: NSMakeRange (location, end - location)]; NSTextAttachment *attachment; if (!range.length) break; attachment = [self attribute: NSAttachmentAttributeName atIndex: range.location effectiveRange: NULL]; if (attachment == nil) { [self deleteCharactersInRange: NSMakeRange (range.location, 1)]; range.length--; end--; } location = NSMaxRange (range); } } - (void)updateAttachmentsFromPath:(NSString *)path { NSString *string = [self string]; unsigned location = 0; unsigned end = [string length]; cache_init (); while (location < end) { NSRange range = [string rangeOfString: attachmentString options: NSLiteralSearch range: NSMakeRange (location, end - location)]; NSTextAttachment *attachment; NSFileWrapper *fileWrapper; if (!range.length) break; attachment = [self attribute: NSAttachmentAttributeName atIndex: range.location effectiveRange: NULL]; fileWrapper = [attachment fileWrapper]; // FIXME: Is this the correct thing to do? [fileWrapper updateFromPath: [path stringByAppendingPathComponent: [fileWrapper filename]]]; location = NSMaxRange (range); } } - (BOOL) readFromURL: (NSURL *)url options: (NSDictionary *)options documentAttributes: (NSDictionary**)documentAttributes { NSString *extension; NSString *type; if (![url isFileURL]) return NO; extension = [[url path] pathExtension]; type = [[NSDocumentController sharedDocumentController] typeFromFileExtension: extension]; if (type == nil) return NO; if ([type isEqualToString: @"html"]) { NSData *data = [url resourceDataUsingCache: YES]; NSURL *baseURL = [options objectForKey: @"BaseURL"]; NSAttributedString *attr; attr = [[NSAttributedString alloc] initWithHTML: data baseURL: baseURL documentAttributes: documentAttributes]; [self setAttributedString: attr]; RELEASE(attr); return YES; } else if ([type isEqualToString: @"rtfd"]) { NSData *data = [url resourceDataUsingCache: YES]; NSAttributedString *attr; attr = [[NSAttributedString alloc] initWithRTFD: data documentAttributes: documentAttributes]; [self setAttributedString: attr]; RELEASE(attr); return YES; } else if ([type isEqualToString: @"rtf"]) { NSData *data = [url resourceDataUsingCache: YES]; NSAttributedString *attr; attr = [[NSAttributedString alloc] initWithRTF: data documentAttributes: documentAttributes]; [self setAttributedString: attr]; RELEASE(attr); return YES; } else if ([type isEqualToString: @"text"]) { NSData *data = [url resourceDataUsingCache: YES]; NSStringEncoding encoding = [[options objectForKey: @"CharacterEncoding"] intValue]; NSDictionary *defaultAttrs = [options objectForKey: @"DefaultAttributes"]; NSAttributedString *attr; attr = [[NSAttributedString alloc] initWithString: [NSString initWithData: data encoding: encoding] attributes: defaultAttrs]; [self setAttributedString: attr]; RELEASE(attr); return YES; } // FIXME This should also support all converter bundles return NO; } @end