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The TQFontMetrics class provides font metrics information. More...
#include <tqfontmetrics.h>
TQFontMetrics functions calculate the size of characters and strings for a given font. There are three ways you can create a TQFontMetrics object:
* If you use a printer font the values returned may be inaccurate. Printer fonts are not always accessible so the nearest screen font is used if a printer font is supplied.
Once created, the object provides functions to access the individual metrics of the font, its characters, and for strings rendered in the font.
There are several functions that operate on the font: ascent(), descent(), height(), leading() and lineSpacing() return the basic size properties of the font. The underlinePos(), overlinePos(), strikeOutPos() and lineWidth() functions, return the properties of the line that underlines, overlines or strikes out the characters. These functions are all fast.
There are also some functions that operate on the set of glyphs in the font: minLeftBearing(), minRightBearing() and maxWidth(). These are by necessity slow, and we recommend avoiding them if possible.
For each character, you can get its width(), leftBearing() and rightBearing() and find out whether it is in the font using inFont(). You can also treat the character as a string, and use the string functions on it.
The string functions include width(), to return the width of a string in pixels (or points, for a printer), boundingRect(), to return a rectangle large enough to contain the rendered string, and size(), to return the size of that rectangle.
Example:
TQFont font( "times", 24 ); TQFontMetrics fm( font ); int pixelsWide = fm.width( "What's the width of this text?" ); int pixelsHigh = fm.height();
See also TQFont, TQFontInfo, TQFontDatabase, Graphics Classes, and Implicitly and Explicitly Shared Classes.
The font must be screen-compatible, i.e. a font you use when drawing text in widgets or pixmaps, not TQPicture or TQPrinter.
The font metrics object holds the information for the font that is passed in the constructor at the time it is created, and is not updated if the font's attributes are changed later.
Use TQPainter::fontMetrics() to get the font metrics when painting. This will give correct results also when painting on paint device that is not screen-compatible.
Constructs a font metrics object for font using the given script.
The ascent of a font is the distance from the baseline to the highest position characters extend to. In practice, some font designers break this rule, e.g. when they put more than one accent on top of a character, or to accommodate an unusual character in an exotic language, so it is possible (though rare) that this value will be too small.
See also descent().
Examples: drawdemo/drawdemo.cpp and scrollview/scrollview.cpp.
Note that the bounding rectangle may extend to the left of (0, 0), e.g. for italicized fonts, and that the text output may cover all pixels in the bounding rectangle. For a space character the rectangle will usually be empty.
Note that the rectangle usually extends both above and below the base line.
Warning: The width of the returned rectangle is not the advance width of the character. Use boundingRect(const TQString &) or width() instead.
See also width().
Example: xform/xform.cpp.
Returns the bounding rectangle that contains the first len characters of string str.
Returns the bounding rectangle of the first len characters of str, which is the set of pixels the text would cover if drawn at (0, 0). The drawing, and hence the bounding rectangle, is constrained to the rectangle (x, y, w, h).
If len is negative (which is the default), the entire string is used.
The flgs argument is the bitwise OR of the following flags:
Horizontal alignment defaults to AlignAuto and vertical alignment defaults to AlignTop.
If several of the horizontal or several of the vertical alignment flags are set, the resulting alignment is undefined.
These flags are defined in ntqnamespace.h.
If ExpandTabs is set in flgs, then: if tabarray is non-null, it specifies a 0-terminated sequence of pixel-positions for tabs; otherwise if tabstops is non-zero, it is used as the tab spacing (in pixels).
Note that the bounding rectangle may extend to the left of (0, 0), e.g. for italicized fonts, and that the text output may cover all pixels in the bounding rectangle.
Newline characters are processed as linebreaks.
Despite the different actual character heights, the heights of the bounding rectangles of "Yes" and "yes" are the same.
The bounding rectangle given by this function is somewhat larger than that calculated by the simpler boundingRect() function. This function uses the maximum left and right font bearings as is necessary for multi-line text to align correctly. Also, fontHeight() and lineSpacing() are used to calculate the height, rather than individual character heights.
The intern argument should not be used.
See also width(), TQPainter::boundingRect(), and TQt::AlignmentFlags.
The whole string is needed, as the glyph drawn may change depending on the context (the letter before and after the current one) for some languages (e.g. Arabic).
This function also takes non spacing marks and ligatures into account.
The descent is the distance from the base line to the lowest point characters extend to. (Note that this is different from X, which adds 1 pixel.) In practice, some font designers break this rule, e.g. to accommodate an unusual character in an exotic language, so it is possible (though rare) that this value will be too small.
See also ascent().
Examples: drawdemo/drawdemo.cpp and hello/hello.cpp.
This is always equal to ascent()+descent()+1 (the 1 is for the base line).
See also leading() and lineSpacing().
Examples: grapher/grapher.cpp, hello/hello.cpp, and qfd/fontdisplayer.cpp.
Example: qfd/fontdisplayer.cpp.
This is the natural inter-line spacing.
See also height() and lineSpacing().
The left bearing is the right-ward distance of the left-most pixel of the character from the logical origin of the character. This value is negative if the pixels of the character extend to the left of the logical origin.
See width(TQChar) for a graphical description of this metric.
See also rightBearing(), minLeftBearing(), and width().
Example: qfd/fontdisplayer.cpp.
This value is always equal to leading()+height().
See also height() and leading().
Examples: qfd/fontdisplayer.cpp, qwerty/qwerty.cpp, and scrollview/scrollview.cpp.
See also underlinePos(), overlinePos(), and strikeOutPos().
Example: qfd/fontdisplayer.cpp.
This is the smallest leftBearing(char) of all characters in the font.
Note that this function can be very slow if the font is large.
See also minRightBearing() and leftBearing().
Example: qfd/fontdisplayer.cpp.
This is the smallest rightBearing(char) of all characters in the font.
Note that this function can be very slow if the font is large.
See also minLeftBearing() and rightBearing().
Example: qfd/fontdisplayer.cpp.
See also underlinePos(), strikeOutPos(), and lineWidth().
The right bearing is the left-ward distance of the right-most pixel of the character from the logical origin of a subsequent character. This value is negative if the pixels of the character extend to the right of the width() of the character.
See width() for a graphical description of this metric.
See also leftBearing(), minRightBearing(), and width().
Example: qfd/fontdisplayer.cpp.
If len is negative (the default), the entire string is used.
The flgs argument is the bitwise OR of the following flags:
These flags are defined in ntqnamespace.h.
If ExpandTabs is set in flgs, then: if tabarray is non-null, it specifies a 0-terminated sequence of pixel-positions for tabs; otherwise if tabstops is non-zero, it is used as the tab spacing (in pixels).
Newline characters are processed as linebreaks.
Despite the different actual character heights, the heights of the bounding rectangles of "Yes" and "yes" are the same.
The intern argument should not be used.
See also boundingRect().
See also underlinePos(), overlinePos(), and lineWidth().
See also overlinePos(), strikeOutPos(), and lineWidth().
Returns the logical width of character ch in pixels. This is a distance appropriate for drawing a subsequent character after ch.
Some of the metrics are described in the image to the right. The central dark rectangles cover the logical width() of each character. The outer pale rectangles cover the leftBearing() and rightBearing() of each character. Notice that the bearings of "f" in this particular font are both negative, while the bearings of "o" are both positive.
Warning: This function will produce incorrect results for Arabic characters or non spacing marks in the middle of a string, as the glyph shaping and positioning of marks that happens when processing strings cannot be taken into account. Use charWidth() instead if you aren't looking for the width of isolated characters.
See also boundingRect() and charWidth().
Examples: drawdemo/drawdemo.cpp, hello/hello.cpp, movies/main.cpp, qfd/fontdisplayer.cpp, and scrollview/scrollview.cpp.
Returns the width of the first len characters of string str.
This is an overloaded member function, provided for convenience. It behaves essentially like the above function.
This function is obsolete. It is provided to keep old source working. We strongly advise against using it in new code.
Provided to aid porting from TQt 1.x.
This file is part of the TQt toolkit. Copyright © 1995-2007 Trolltech. All Rights Reserved.
Copyright © 2007 Trolltech | Trademarks | TQt 3.3.8
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