Normally you store the state of the input on the previous frame, and then test whether then input has changed between frames. For example, your
Update method might look like:
KeyboardState ks = Keyboard.GetState();
if(ks.IsKeyDown(Keys.Space) && lastKeyboardState.IsKeyUp(Keys.Space))
lastKeyboardState = ks;
(Wrote that code entirely from memory, so it might not be quite right. But it should illustrate the concept.)
This will give you key events with no more than
1 / yourFPS delay. At 60FPS this is about 16ms. This is usually acceptable for gameplay purposes. If you especially want an
event - you could simply fire one where I have put
For typing text you generally want the character events from Windows (which a library like
Nuclex.Input can give you). This isn't so much so you get better latency, but so you can get keyboard events in an ordered and reliable way (for example: this way you never get two key coming down on a single frame resulting in an ambiguous order).
More importantly, it's so you can get the events after Windows has had a chance to apply input processing. For example, this gives you difference between typing an
a and an
A. Or someone entering a character with alt+numpad, or applying a diacritic. The downside is that you miss out on various non-text keys like, as you mention,
Finally, a quick read over
Nuclex.Input reveals that it at least should provide the keys that you want - specifically
.KeyRelease. If it's not working, it could be a bug in
Nuclex. Or something on your system is interfering with window messages.
One possible work-around might be to accept the latency on these missing keys by polling for them as well. The code to use polling as a seamless fall-back is probably fairly simple.