I first wondered if this had something to do with the way [CSS pixels are defined at 96 per "inch"] while UI layout points are defined at 72 per "inch". (Where, of course, an "inch" has nothing to do with a physical inch.) Why would web standards factor into UIKit business? Well, you may note when examining stack traces in the debugger or crash reports that there's some WebKit code underlying a lot of UIKit, even when you're not using
UIWebView. Actually, though, it's simpler than that.
First, the font size is measured from the lowest descender to the highest ascender in regular Latin text -- e.g. from the bottom of the "j" to the top of the "k", or for convenient measure in a single character, the height of "ƒ". (That's U+0192 "LATIN SMALL LETTER F WITH HOOK", easily typed with option-F on a US Mac keyboard. People used it to abbreviate "folder" way back when.) You'll notice that when measured with that scheme, the height in pixels (on a 1x display) matches the specified font size -- e.g. with
[UIFont systemFontOfSize:14], "ƒ" will be 14 pixels tall. (Measuring the capital "A" only accounts for an arbitrary portion of the space measured in the font size. This portion may change at smaller font sizes; when rendering font vectors to pixels, "hinting" modifies the results to produce more legible onscreen text.)
However, fonts contain all sorts of glyphs that don't fit into the space defined by that metric. There are letters with diacritics above an ascender in eastern European languages, and all kinds of punctuation marks and special characters that fit in a "layout box" much larger. (See the Math Symbols section in Mac OS X's Special Characters window for plenty of examples.)
CGSize returned by
-[NSString sizeWithFont:], the width accounts for the specific characters in the string, but the height only reflects the number of lines. Line height is a metric specified by the font, and related to the "layout box" encompassing the font's largest characters.