GDI+ adds a small amount (1/6 em) to each end of every string displayed. This 1/6 em allows for glyphs with overhanging ends (such as italic 'f'), and also gives GDI+ a small amount of leeway to help with grid fitting expansion.
The default action of
DrawString will work against you in displaying adjacent runs:
- Firstly the default StringFormat adds an extra 1/6 em at each end of each output;
- Secondly, when grid fitted widths are less than designed, the string is allowed to contract by up to an em.
To avoid these problems:
- Always pass
DrawString a StringFormat based on the typographic StringFormat (
Set the Graphics
TextRenderingHintAntiAlias. This rendering method uses anti-aliasing and sub-pixel glyph positioning to avoid the need for grid-fitting, and is thus inherently resolution independent.
There are two ways of drawing text in .NET:
- GDI+ (
- GDI (
From Michael Kaplan's (rip) excellent blog Sorting It All Out, In .NET 1.1 everything used GDI+ for text rendering. But there were some problems:
- There are some performance issues caused by the somewhat stateless nature of GDI+, where device contexts would be set and then the original restored after each call.
- The shaping engines for international text have been updated many times for Windows/Uniscribe and for Avalon (Windows Presentation Foundation), but have not been updated for GDI+, which causes international rendering support for new languages to not have the same level of quality.
So they knew they wanted to change the .NET framework to stop using GDI+'s text rendering system, and use GDI. At first they hoped they could simply change:
to call the old
DrawText API instead of GDI+. But they couldn't make the text-wrapping and spacing match exactly as what GDI+ did. So they were forced to keep
graphics.DrawString to call GDI+ (compatiblity reasons; people who were calling
graphics.DrawString would suddenly find that their text didn't wrap the way it used to).
A new static
TextRenderer class was created to wrap GDI text rendering. It has two methods:
TextRenderer is a wrapper around GDI, while
graphics.DrawString is still a wrapper around GDI+.
Then there was the issue of what to do with all the existing .NET controls, e.g.:
They wanted to switch them over to use
TextRenderer (i.e. GDI), but they had to be careful. There might be people who depended on their controls drawing like they did in .NET 1.1. And so was born "compatible text rendering".
By default controls in application behave like they did in .NET 1.1 (they are "compatible").
You turn off compatibility mode by calling:
This makes your application better, faster, with better international support. To sum up:
the one we don't want to use the one we want to use
uses GDI+ for text rendering uses GDI for text rendering
Behaves same as 1.1 Behaves *similar* to 1.1
It's also useful to note the mapping between GDI+
TextRenderingHint and the corresponding
LOGFONT Quality used for GDI font drawing:
TextRenderingHint mapped by TextRenderer to LOGFONT quality
ClearTypeGridFit CLEARTYPE_QUALITY (5) (Windows XP: CLEARTYPE_NATURAL (6))
AntiAliasGridFit ANTIALIASED_QUALITY (4)
AntiAlias ANTIALIASED_QUALITY (4)
SingleBitPerPixelGridFit PROOF_QUALITY (2)
SingleBitPerPixel DRAFT_QUALITY (1)
else (e.g.SystemDefault) DEFAULT_QUALITY (0)
Here's some comparisons of GDI+ (graphics.DrawString) verses GDI (TextRenderer.DrawText) text rendering:
TextRenderingHintAntiAliasGridFit, GDI: not supported, uses ANTIALIASED_QUALITY:
i find it odd that
DRAFT_QUALITY is identical to
PROOF_QUALITY, which is identical to