303 lines
10 KiB
Objective-C
303 lines
10 KiB
Objective-C
// 2 january 2017
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#import "uipriv_darwin.h"
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#import "draw.h"
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// TODO what happens if nLines == 0 in any function?
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struct uiDrawTextLayout {
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CFAttributedStringRef attrstr;
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// the width as passed into uiDrawTextLayout constructors
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double width;
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CTFramesetterRef framesetter;
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// the *actual* size of the frame
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// note: technically, metrics returned from frame are relative to CGPathGetPathBoundingBox(tl->path)
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// however, from what I can gather, for a path created by CGPathCreateWithRect(), like we do (with a NULL transform), CGPathGetPathBoundingBox() seems to just return the standardized form of the rect used to create the path
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// (this I confirmed through experimentation)
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// so we can just use tl->size for adjustments
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// we don't need to adjust coordinates by any origin since our rect origin is (0, 0)
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CGSize size;
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CGPathRef path;
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CTFrameRef frame;
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CFArrayRef lines;
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CFIndex nLines;
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// we compute this once when first creating the layout
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uiDrawTextLayoutLineMetrics *lineMetrics;
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// for converting CFAttributedString indices from/to byte offsets
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size_t *u8tou16;
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size_t nUTF8;
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size_t *u16tou8;
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size_t nUTF16;
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};
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// TODO this is wrong for our hit-test example's multiple combining character example
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static uiDrawTextLayoutLineMetrics *computeLineMetrics(CTFrameRef frame, CGSize size)
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{
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uiDrawTextLayoutLineMetrics *metrics;
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CFArrayRef lines;
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CTLineRef line;
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CFIndex i, n;
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CGFloat ypos;
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CGRect bounds, boundsNoLeading;
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CGFloat ascent, descent, leading;
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CGPoint *origins;
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lines = CTFrameGetLines(frame);
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n = CFArrayGetCount(lines);
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metrics = (uiDrawTextLayoutLineMetrics *) uiAlloc(n * sizeof (uiDrawTextLayoutLineMetrics), "uiDrawTextLayoutLineMetrics[] (text layout)");
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origins = (CGPoint *) uiAlloc(n * sizeof (CGPoint), "CGPoint[] (text layout)");
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CTFrameGetLineOrigins(frame, CFRangeMake(0, n), origins);
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ypos = size.height;
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for (i = 0; i < n; i++) {
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line = (CTLineRef) CFArrayGetValueAtIndex(lines, i);
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bounds = CTLineGetBoundsWithOptions(line, 0);
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boundsNoLeading = CTLineGetBoundsWithOptions(line, kCTLineBoundsExcludeTypographicLeading);
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// this is equivalent to boundsNoLeading.size.height + boundsNoLeading.origin.y (manually verified)
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ascent = bounds.size.height + bounds.origin.y;
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descent = -boundsNoLeading.origin.y;
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// TODO does this preserve leading sign?
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leading = -bounds.origin.y - descent;
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// Core Text always rounds these up for paragraph style calculations; there is a flag to control it but it's inaccessible (and this behavior is turned off for old versions of iPhoto)
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ascent = floor(ascent + 0.5);
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descent = floor(descent + 0.5);
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if (leading > 0)
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leading = floor(leading + 0.5);
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metrics[i].X = origins[i].x;
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metrics[i].Y = origins[i].y - descent - leading;
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metrics[i].Width = bounds.size.width;
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metrics[i].Height = ascent + descent + leading;
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metrics[i].BaselineY = origins[i].y;
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metrics[i].Ascent = ascent;
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metrics[i].Descent = descent;
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metrics[i].Leading = leading;
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// TODO
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metrics[i].ParagraphSpacingBefore = 0;
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metrics[i].LineHeightSpace = 0;
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metrics[i].LineSpacing = 0;
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metrics[i].ParagraphSpacing = 0;
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// and finally advance to the next line
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ypos += metrics[i].Height;
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}
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// okay, but now all these metrics are unflipped
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// we need to flip them
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for (i = 0; i < n; i++) {
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metrics[i].Y = size.height - metrics[i].Y;
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// go from bottom-left corner to top-left
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metrics[i].Y -= metrics[i].Height;
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metrics[i].BaselineY = size.height - metrics[i].BaselineY;
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// TODO also adjust by metrics[i].Height?
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}
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uiFree(origins);
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return metrics;
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}
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uiDrawTextLayout *uiDrawNewTextLayout(uiDrawTextLayoutParams *p)
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{
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uiDrawTextLayout *tl;
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CGFloat cgwidth;
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CFRange range, unused;
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CGRect rect;
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tl = uiNew(uiDrawTextLayout);
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tl->attrstr = attrstrToCoreFoundation(p);
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range.location = 0;
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range.length = CFAttributedStringGetLength(tl->attrstr);
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tl->width = p->Width;
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// TODO CTFrameProgression for RTL/LTR
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// TODO kCTParagraphStyleSpecifierMaximumLineSpacing, kCTParagraphStyleSpecifierMinimumLineSpacing, kCTParagraphStyleSpecifierLineSpacingAdjustment for line spacing
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tl->framesetter = CTFramesetterCreateWithAttributedString(tl->attrstr);
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if (tl->framesetter == NULL) {
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// TODO
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}
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cgwidth = (CGFloat) (tl->width);
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if (cgwidth < 0)
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cgwidth = CGFLOAT_MAX;
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// TODO these seem to be floor()'d or truncated?
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// TODO double check to make sure this TODO was right
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tl->size = CTFramesetterSuggestFrameSizeWithConstraints(tl->framesetter,
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range,
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// TODO kCTFramePathWidthAttributeName?
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NULL,
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CGSizeMake(cgwidth, CGFLOAT_MAX),
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&unused); // not documented as accepting NULL (TODO really?)
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rect.origin = CGPointZero;
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rect.size = tl->size;
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tl->path = CGPathCreateWithRect(rect, NULL);
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tl->frame = CTFramesetterCreateFrame(tl->framesetter,
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range,
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tl->path,
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// TODO kCTFramePathWidthAttributeName?
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NULL);
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if (tl->frame == NULL) {
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// TODO
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}
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tl->lines = CTFrameGetLines(tl->frame);
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tl->nLines = CFArrayGetCount(tl->lines);
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tl->lineMetrics = computeLineMetrics(tl->frame, tl->size);
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// and finally copy the UTF-8/UTF-16 conversion tables
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tl->u8tou16 = attrstrCopyUTF8ToUTF16(p->String, &(tl->nUTF8));
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tl->u16tou8 = attrstrCopyUTF16ToUTF8(p->String, &(tl->nUTF16));
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return tl;
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}
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void uiDrawFreeTextLayout(uiDrawTextLayout *tl)
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{
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uiFree(tl->u16tou8);
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uiFree(tl->u8tou16);
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uiFree(tl->lineMetrics);
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// TODO release tl->lines?
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CFRelease(tl->frame);
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CFRelease(tl->path);
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CFRelease(tl->framesetter);
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CFRelease(tl->attrstr);
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uiFree(tl);
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}
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// TODO document that (x,y) is the top-left corner of the *entire frame*
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void uiDrawText(uiDrawContext *c, uiDrawTextLayout *tl, double x, double y)
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{
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CGContextSaveGState(c->c);
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// Core Text doesn't draw onto a flipped view correctly; we have to pretend it was unflipped
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// see the iOS bits of the first example at https://developer.apple.com/library/mac/documentation/StringsTextFonts/Conceptual/CoreText_Programming/LayoutOperations/LayoutOperations.html#//apple_ref/doc/uid/TP40005533-CH12-SW1 (iOS is naturally flipped)
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// TODO how is this affected by a non-identity CTM?
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CGContextTranslateCTM(c->c, 0, c->height);
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CGContextScaleCTM(c->c, 1.0, -1.0);
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CGContextSetTextMatrix(c->c, CGAffineTransformIdentity);
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// wait, that's not enough; we need to offset y values to account for our new flipping
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// TODO explain this calculation
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y = c->height - tl->size.height - y;
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// CTFrameDraw() draws in the path we specified when creating the frame
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// this means that in our usage, CTFrameDraw() will draw at (0,0)
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// so move the origin to be at (x,y) instead
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// TODO are the signs correct?
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CGContextTranslateCTM(c->c, x, y);
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CTFrameDraw(tl->frame, c->c);
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CGContextRestoreGState(c->c);
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}
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// TODO document that the width and height of a layout is not necessarily the sum of the widths and heights of its constituent lines; this is definitely untrue on OS X, where lines are placed in such a way that the distance between baselines is always integral
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// TODO width doesn't include trailing whitespace...
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// TODO figure out how paragraph spacing should play into this
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void uiDrawTextLayoutExtents(uiDrawTextLayout *tl, double *width, double *height)
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{
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*width = tl->size.width;
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*height = tl->size.height;
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}
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int uiDrawTextLayoutNumLines(uiDrawTextLayout *tl)
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{
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return tl->nLines;
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}
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void uiDrawTextLayoutLineByteRange(uiDrawTextLayout *tl, int line, size_t *start, size_t *end)
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{
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CTLineRef lr;
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CFRange range;
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lr = (CTLineRef) CFArrayGetValueAtIndex(tl->lines, line);
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range = CTLineGetStringRange(lr);
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*start = tl->u16tou8[range.location];
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*end = tl->u16tou8[range.location + range.length];
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}
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void uiDrawTextLayoutLineGetMetrics(uiDrawTextLayout *tl, int line, uiDrawTextLayoutLineMetrics *m)
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{
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*m = tl->lineMetrics[line];
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}
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// TODO note that in some cases lines can overlap slightly
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// in our case, we read lines first to last and use their bottommost point (Y + Height) to determine where the next line should start for hit-testing
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void uiDrawTextLayoutHitTest(uiDrawTextLayout *tl, double x, double y, size_t *pos, int *line)
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{
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int i;
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CTLineRef ln;
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CFIndex p;
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for (i = 0; i < tl->nLines; i++) {
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double ltop, lbottom;
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ltop = tl->lineMetrics[i].Y;
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lbottom = ltop + tl->lineMetrics[i].Height;
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// y will already >= ltop at this point since the past lbottom should == (or at least >=, see above) ltop
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if (y < lbottom)
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break;
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}
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if (i == tl->nLines)
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i--;
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*line = i;
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ln = (CTLineRef) CFArrayGetValueAtIndex(tl->lines, i);
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// note: according to the docs, we pass a y of 0 for this since the is the baseline of that line (the point is relative to the line)
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// TODO is x relative to the line origin?
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p = CTLineGetStringIndexForPosition(ln, CGPointMake(x, 0));
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if (p == kCFNotFound) {
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// TODO
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}
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*pos = tl->u16tou8[p];
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}
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double uiDrawTextLayoutByteLocationInLine(uiDrawTextLayout *tl, size_t pos, int line)
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{
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CTLineRef lr;
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CFRange range;
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pos = tl->u8tou16[pos];
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if (line < 0 || line >= tl->nLines)
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return -1;
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lr = (CTLineRef) CFArrayGetValueAtIndex(tl->lines, line);
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range = CTLineGetStringRange(lr);
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// note: >, not >=, because the position at end is valid!
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if (pos < range.location || pos > (range.location + range.length))
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return -1;
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// no point in checking the return; we already validated everything and 0 is a valid return for the first index :/
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return CTLineGetOffsetForStringIndex(lr, pos, NULL);
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}
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void caretDrawParams(uiDrawContext *c, double height, struct caretDrawParams *p)
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{
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NSColor *cc;
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CGFloat cr, cg, cb, ca;
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// Interface Builder sets this as the insertion point color for a NSTextView by default
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cc = [NSColor controlTextColor];
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// the given color may not be an RGBA color, which will cause the -getRed:green:blue:alpha: call to throw an exception
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cc = [cc colorUsingColorSpace:[NSColorSpace sRGBColorSpace]];
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[cc getRed:&cr green:&cg blue:&cb alpha:&ca];
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p->r = cr;
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p->g = cg;
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p->b = cb;
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p->a = ca;
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// both cc and the controlTextColor it was made from will be autoreleased since they aren't new or init calls
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// TODO disabled carets have some blending applied...
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// okay there doesn't seem to be any defined metrics for these, argh...
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p->width = 1;
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p->xoff = 0;
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}
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