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libs-gui/Source/NSStringDrawing.m
richard 379f84aa74 Text field updates. 
git-svn-id: svn+ssh://svn.gna.org/svn/gnustep/libs/gui/trunk@4014 72102866-910b-0410-8b05-ffd578937521
1999-04-01 20:21:05 +00:00

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/*
NSStringDrawing.m
Categories which add drawing capabilities to NSAttributedString
and NSString.
Copyright (C) 1999 Free Software Foundation, Inc.
Author: Richard Frith-Macdonald <richard@brainstorm.co.uk>
Date: Mar 1999 - rewrite from scratch
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 <Foundation/Foundation.h>
#include <AppKit/NSStringDrawing.h>
#include <AppKit/AppKit.h>
/*
* I know it's severely sub-optimal, but the NSString methods just
* use NSAttributes string to do the job.
*/
@implementation NSString (NSStringDrawing)
- (void) drawAtPoint: (NSPoint)point withAttributes: (NSDictionary *)attrs
{
NSAttributedString *a;
a = [NSAttributedString allocWithZone: NSDefaultMallocZone()];
[a initWithString: self attributes: attrs];
[a drawAtPoint: point];
[a release];
}
- (void) drawInRect: (NSRect)rect withAttributes: (NSDictionary *)attrs
{
NSAttributedString *a;
a = [NSAttributedString allocWithZone: NSDefaultMallocZone()];
[a initWithString: self attributes: attrs];
[a drawInRect: rect];
[a release];
}
- (NSSize) sizeWithAttributes: (NSDictionary *)attrs
{
NSAttributedString *a;
NSSize s;
a = [NSAttributedString allocWithZone: NSDefaultMallocZone()];
[a initWithString: self attributes: attrs];
s = [a size];
[a release];
return s;
}
@end
@implementation NSAttributedString (NSStringDrawing)
static NSCharacterSet *nlset;
static NSFont *defFont;
static NSParagraphStyle *defStyle;
static NSColor *defFgCol;
static NSColor *defBgCol;
/*
* Thne 'checkInit()' function is called to ensure that any static
* variables required by the string drawing code are initialised.
*/
static void
checkInit()
{
static BOOL beenHere = NO;
if (beenHere == NO)
{
NSCharacterSet *not_ws;
NSMutableCharacterSet *new_set;
/*
* Build a character set containing only newline characters.
*/
not_ws = [[NSCharacterSet whitespaceCharacterSet] invertedSet];
new_set = [[NSCharacterSet whitespaceAndNewlineCharacterSet] mutableCopy];
[new_set formIntersectionWithCharacterSet: not_ws];
nlset = [new_set copy];
[new_set release];
defStyle = [NSParagraphStyle defaultParagraphStyle];
[defStyle retain];
defBgCol = nil;
beenHere = YES;
}
/*
* These defaults could change during the running of the program if the
* user defaults are changed.
*/
defFont = [NSFont userFontOfSize: 12];
defFgCol = [NSColor textColor];
}
/*
* The 'sizeLine()' function is called to determine the size of a single
* line of text (specified by the 'range' argument) that may be part of
* a larger attributed string.
* If will also return the position of the baseline of the text within
* the bounding rectangle as an offset from the bottom of the rectangle.
*/
static NSSize
sizeLine(NSAttributedString *str, NSRange line, BOOL first, float *baseptr)
{
unsigned pos = line.location;
unsigned end = NSMaxRange(line);
NSSize size = NSMakeSize(0, 0);
float baseline = 0;
while (pos < end)
{
NSFont *font;
NSParagraphStyle *style;
int superscript;
int ligature;
float base;
float kern;
NSNumber *num;
NSRange maxRange;
NSRange range;
float below;
float above;
// Maximum range is up to end of line.
maxRange = NSMakeRange(pos, end - pos);
// Get font and range over which it applies.
font = (NSFont*)[str attribute: NSFontAttributeName
atIndex: pos
effectiveRange: &range];
if (font == nil)
font = defFont;
maxRange = NSIntersectionRange(maxRange, range);
// Get style and range over which it applies.
style = (NSParagraphStyle*)[str attribute: NSParagraphStyleAttributeName
atIndex: pos
effectiveRange: &range];
if (style == nil)
style = defStyle;
maxRange = NSIntersectionRange(maxRange, range);
/*
* Perform initial horizontal positioning
*/
if (pos == line.location)
{
if (first)
size.width = [style firstLineHeadIndent];
else
size.width = [style headIndent];
}
// Get baseline offset and range over which it applies.
num = (NSNumber*)[str attribute: NSBaselineOffsetAttributeName
atIndex: pos
effectiveRange: &range];
if (num == nil)
base = 0.0;
else
base = [num floatValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get kern attribute and range over which it applies.
num = (NSNumber*)[str attribute: NSKernAttributeName
atIndex: pos
effectiveRange: &range];
if (num == nil)
kern = 0.0;
else
kern = [num floatValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get superscript and range over which it applies.
num = (NSNumber*)[str attribute: NSSuperscriptAttributeName
atIndex: pos
effectiveRange: &range];
if (num == nil)
superscript = 0;
else
superscript = [num intValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get ligature attribute and range over which it applies.
num = (NSNumber*)[str attribute: NSLigatureAttributeName
atIndex: pos
effectiveRange: &range];
if (num == nil)
ligature = 1;
else
ligature = [num intValue];
maxRange = NSIntersectionRange(maxRange, range);
/*
* See if the height of the bounding rectangle needs to grow to fit
* the font for this text.
*/
// FIXME - superscript should have some effect on height.
below = [font descender];
above = [font pointSize] - below;
if (base > 0)
above += base; // Character is above baseline.
else if (base < 0)
below -= base; // Character is below baseline.
if (below > baseline)
baseline = below;
if (size.height < baseline + above)
size.height = baseline + above;
/*
* Now we add the widths of the characters.
*/
// FIXME - ligature should have some effect on width.
range = maxRange;
pos = NSMaxRange(range); // Next position in string.
if (range.length > 0)
{
unichar chars[range.length];
NSArray *tabStops = [style tabStops];
unsigned numTabs = [tabStops count];
unsigned nextTab = 0;
unsigned i;
[[str string] getCharacters: chars range: range];
for (i = 0; i < range.length; i++)
{
if (chars[i] == '\t')
{
NSTextTab *tab;
/*
* Either advance to next tabstop or by a space if
* there are no more tabstops.
*/
while (nextTab < numTabs)
{
tab = [tabStops objectAtIndex: nextTab];
if ([tab location] > size.width)
break;
nextTab++;
}
if (nextTab < numTabs)
size.width = [tab location];
else
size.width += [font advancementForGlyph: ' '].width;
}
else
{
size.width += [font advancementForGlyph: chars[i]].width;
size.width += kern;
}
}
}
}
if (baseptr)
*baseptr = baseline;
return size;
}
/* FIXME completely ignores paragraph style attachments and other layout info */
- (void) drawAtPoint: (NSPoint)point
{
NSGraphicsContext *ctxt = [NSGraphicsContext currentContext];
NSString *allText = [self string];
unsigned length = [allText length];
unsigned linePos = 0;
BOOL isFlipped = [[ctxt focusView] isFlipped];
NSParagraphStyle *style = nil;
BOOL first = YES;
checkInit();
/*
* Now produce output on a per-line basis.
*/
while (linePos < length)
{
NSRange line; // Range of current line.
NSRange eol; // Rnage of newline character.
unsigned position; // Position in NSString.
NSSize lineSize;
float baseline;
float xpos = 0;
/*
* Determine the range of the next line of text (in 'line') and set
* 'linePos' to point after the terminating newline character (if any).
*/
line = NSMakeRange(linePos, length - linePos);
eol = [allText rangeOfCharacterFromSet: nlset
options: NSLiteralSearch
range: line];
if (eol.length == 0)
eol.location = length;
else
line.length = eol.location - line.location;
linePos = NSMaxRange(eol);
position = line.location;
if (first == NO)
{
NSParagraphStyle *newStyle;
NSColor *bg;
float leading;
/*
* Check to see if the new line begins with the same paragraph style
* that the old ended in. This information is used to handle what
* happens between lines and whether the new line is also a new
* paragraph.
*/
newStyle = (NSParagraphStyle*)[self
attribute: NSParagraphStyleAttributeName
atIndex: position
effectiveRange: 0];
if ([style isEqual: newStyle])
{
leading = [style lineSpacing];
}
else
{
leading = [style paragraphSpacing];
first = YES;
}
if (isFlipped)
point.y -= leading;
else
point.y += leading;
/*
* Fill the inter-line/interparagraph space with the background
* color in use at the end of the last paragraph.
*/
bg = (NSColor*)[self attribute: NSBackgroundColorAttributeName
atIndex: position - 1
effectiveRange: 0];
if (bg == nil)
bg = defBgCol;
if (bg != nil)
{
NSRect fillrect;
fillrect.origin = point;
fillrect.size.width = lineSize.width;
fillrect.size.height = leading;
[bg set];
if (isFlipped == NO)
fillrect.origin.y -= fillrect.size.height;
NSRectFill(fillrect);
}
}
/*
* Calculate sizing information for the entire line.
*/
lineSize = sizeLine(self, line, first, &baseline);
while (position < eol.location)
{
NSAttributedString *subAttr;
NSString *subString;
NSSize size;
NSFont *font;
NSColor *bg;
NSColor *fg;
int underline;
int superscript;
float base;
float kern;
float ypos;
int ligature;
NSNumber *num;
NSRange maxRange;
NSRange range;
// Maximum range is up to end of line.
maxRange = NSMakeRange(position, eol.location - position);
// Get font and range over which it applies.
font = (NSFont*)[self attribute: NSFontAttributeName
atIndex: position
effectiveRange: &range];
if (font == nil)
font = defFont;
maxRange = NSIntersectionRange(maxRange, range);
// Get style and range over which it applies.
style = (NSParagraphStyle*)[self
attribute: NSParagraphStyleAttributeName
atIndex: position
effectiveRange: &range];
if (style == nil)
style = defStyle;
maxRange = NSIntersectionRange(maxRange, range);
// Get background color and range over which it applies.
bg = (NSColor*)[self attribute: NSBackgroundColorAttributeName
atIndex: position
effectiveRange: &range];
if (bg == nil)
bg = defBgCol;
maxRange = NSIntersectionRange(maxRange, range);
// Get foreground color and range over which it applies.
fg = (NSColor*)[self attribute: NSForegroundColorAttributeName
atIndex: position
effectiveRange: &range];
if (fg == nil)
fg = defFgCol;
maxRange = NSIntersectionRange(maxRange, range);
// Get underline style and range over which it applies.
num = (NSNumber*)[self attribute: NSUnderlineStyleAttributeName
atIndex: position
effectiveRange: &range];
if (num == nil)
underline = GSNoUnderlineStyle; // No underline
else
underline = [num intValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get superscript and range over which it applies.
num = (NSNumber*)[self attribute: NSSuperscriptAttributeName
atIndex: position
effectiveRange: &range];
if (num == nil)
superscript = 0;
else
superscript = [num intValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get baseline offset and range over which it applies.
num = (NSNumber*)[self attribute: NSBaselineOffsetAttributeName
atIndex: position
effectiveRange: &range];
if (num == nil)
base = 0.0;
else
base = [num floatValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get kern attribute and range over which it applies.
num = (NSNumber*)[self attribute: NSKernAttributeName
atIndex: position
effectiveRange: &range];
if (num == nil)
kern = 0.0;
else
kern = [num floatValue];
maxRange = NSIntersectionRange(maxRange, range);
// Get ligature attribute and range over which it applies.
num = (NSNumber*)[self attribute: NSLigatureAttributeName
atIndex: position
effectiveRange: &range];
if (num == nil)
ligature = 1;
else
ligature = [num intValue];
maxRange = NSIntersectionRange(maxRange, range);
/*
* If this is a new line - adjust for indentation.
*/
if (position == line.location)
{
NSRect fillrect;
fillrect.origin = point;
fillrect.size = lineSize;
if (first)
xpos = [style firstLineHeadIndent];
else
xpos += [style headIndent];
fillrect.size.width = xpos;
if (bg != nil && fillrect.size.width > 0)
{
[bg set];
if (isFlipped == NO)
fillrect.origin.y -= fillrect.size.height;
NSRectFill(fillrect);
}
}
/*
* Now, at last we have all the required text drawing attributes and
* we have a range over which ALL of them apply. We update our
* position to point past this range, then we grab the substring from
* the range, draw it, and update our drawing position.
*/
range = maxRange;
position = NSMaxRange(range); // Next position in string.
subAttr = [self attributedSubstringFromRange: range];
subString = [subAttr string];
size.width = [font widthOfString: subString];
size.height = [font pointSize];
if (range.length > 0)
{
unichar chars[range.length];
NSArray *tabStops = [style tabStops];
unsigned numTabs = [tabStops count];
unsigned nextTab = 0;
unsigned i;
[[self string] getCharacters: chars range: range];
/*
* If we have a background color set - we fill in the
* region occupied by this substring.
*/
if (bg)
{
float oldx = xpos;
NSRect rect;
for (i = 0; i < range.length; i++)
{
if (chars[i] == '\t')
{
NSTextTab *tab;
/*
* Either advance to next tabstop or by a space
* if there are no more tabstops.
*/
while (nextTab < numTabs)
{
tab = [tabStops objectAtIndex: nextTab];
if ([tab location] > xpos)
break;
nextTab++;
}
if (nextTab < numTabs)
xpos = [tab location];
else
xpos += [font advancementForGlyph: ' '].width;
}
else
{
xpos += [font advancementForGlyph: chars[i]].width;
xpos += kern;
}
}
rect.origin.x = point.x + oldx;
rect.origin.y = point.y;
rect.size.height = lineSize.height;
rect.size.width = xpos - oldx;
xpos = oldx;
if (isFlipped == NO)
rect.origin.y -= lineSize.height;
[bg set];
NSRectFill(rect);
}
/*
* Set font and color, then draw the substring.
* NB. Our origin is top-left of the string so we need to
* calculate a vertical coordinate for the baseline of the
* text produced by psshow.
*/
[fg set];
[font set];
if (isFlipped)
ypos = point.y + lineSize.height - baseline - base;
else
ypos = point.y - lineSize.height + baseline + base;
for (i = 0; i < range.length; i++)
{
if (chars[i] == '\t')
{
NSTextTab *tab;
/*
* Either advance to next tabstop or by a space
* if there are no more tabstops.
*/
while (nextTab < numTabs)
{
tab = [tabStops objectAtIndex: nextTab];
if ([tab location] > xpos)
break;
nextTab++;
}
if (nextTab < numTabs)
xpos = [tab location];
else
xpos += [font advancementForGlyph: ' '].width;
}
else
{
char buf[2];
xpos += kern;
DPSmoveto(ctxt, point.x + xpos, ypos);
/*
* FIXME Eugh - we simply assume that the unichar string
* actually contains ascii characters and render them
* using dpsshow
*/
buf[0] = chars[i];
buf[1] = '\0';
DPSshow(ctxt, buf);
xpos += [font advancementForGlyph: chars[i]].width;
}
}
}
if (underline == NSSingleUnderlineStyle)
{
DPSmoveto(ctxt, point.x, ypos);
DPSlineto(ctxt, point.x + xpos - 1, ypos);
}
}
if (isFlipped)
point.y += lineSize.height;
else
point.y -= lineSize.height;
first = NO;
}
}
- (void) drawInRect: (NSRect)rect
{
NSPoint point;
NSView *view = [NSView focusView];
NSRectClip(rect);
/*
* Since [-drawAtPoint:] positions the top-left corner of the text at
* the point, we locate the top-left corner of the rectangle to do the
* drawing.
*/
point.x = rect.origin.x;
if ([view isFlipped])
point.y = rect.origin.y;
else
point.y = rect.origin.y + rect.size.height;
[self drawAtPoint: point];
NSRectClip([view bounds]);
}
/* FIXME completely ignores paragraph style attachments and other layout info */
- (NSSize) size
{
unsigned length = [self length];
unsigned position = 0;
float height = 0;
float width = 0;
while (position < length)
{
NSRange range;
NSFont *font;
NSString *subString;
font = (NSFont*)[self attribute: NSFontAttributeName
atIndex: position
effectiveRange: &range];
subString = [[self attributedSubstringFromRange: range] string];
width += [font widthOfString: subString];
height = MAX([font pointSize], height);
position = NSMaxRange(range);
}
return NSMakeSize(width, height);
}
@end
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