haiku/docs/develop/input/intro to input_server

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<table border=0 cellpadding=0 cellspacing=0><tr><td><font face=arial,sans-serif color=black size=-1>These search terms have been highlighted:&nbsp;</font></td><td bgcolor=#ffff66><B><font face=arial,sans-serif color=black size=-1>hiroshi&nbsp;</font></B></td><td bgcolor=#A0FFFF><B><font face=arial,sans-serif color=black size=-1>lockheimer&nbsp;</font></B></td></tr></table>
<font face=arial,sans-serif color=black size=-1>These terms only appear in links pointing to this page: <B>input_server </B></font>
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<HEAD><TITLE>Be Newsletter, Volume II, Issue 35</TITLE></HEAD>
<BODY BGCOLOR="#FFFFFF">
<HR><Center><B>Be Newsletter, Volume II, Issue 35; September 2, 1998</B></CENTER><HR>
<FONT SIZE=+1><B><A NAME="Insight"></A>BE ENGINEERING INSIGHTS: <p>An Introduction to the Input Server</B></FONT>
<br><B>By <B style="color:black;background-color:#ffff66">Hiroshi </B><B style="color:black;background-color:#A0FFFF">Lockheimer</B> <A HREF="mailto:hiroshi@be.com"><B style="color:black;background-color:#ffff66">hiroshi</B>@be.com</A></B>
<P>One of the many upcoming changes in the BeOS is in the world
of input devices and events. The Input Server, slated to
debut in R4, is a server that deals with all things &quot;input.&quot;
Specifically, it serves three functions: manages input
devices such as keyboards and mice; hosts a stream of events
that those devices generate; and dispatches those events
that make it through the stream.
<P>
<b>Managing Input Devices</b>
<P>The Input Server is a pretty dumb piece of software. (Cue to
Alex: roll your eyes and say, &quot;What do you expect <B style="color:black;background-color:#ffff66">Hiroshi</B>,
you wrote it.&quot;) On its own, the server doesn't know how a
keyboard or a mouse works; it relies on <CODE>BInputServerDevice</CODE>
add-ons to tell it.
<P><CODE>BInputServerDevice</CODE> is a base class from which all input
device add-ons must derive. It provides the basic framework
of virtual hook functions and non-virtual member functions
that the Input Server uses to communicate with an add-on,
and that the add-on can use to talk back to the server. To
give a sneak peak of the API, some of the virtuals include
<CODE>InitCheck()</CODE>, <CODE>Start()</CODE>, <CODE>Stop()</CODE>, and <CODE>Control()</CODE>. The common
sequence of the life of an input device is this:
<ol>
<li> The Input Server loads an add-on and constructs its
<CODE><CODE>BInputServerDevice</CODE></CODE>-derived object.
<P><li> The Input Server calls <CODE>InitCheck()</CODE> on the object. The
object determines whether it is capable of doing its job
-- that is, generating input events.
<P><li> This task may involve the object sniffing around for
hardware it can drive, or looking for a kernel device
driver in <CODE>/dev</CODE>. If the object is happy, it registers with
the Input Server any input device(s) it finds, and
returns <CODE>B_NO_ERROR</CODE>. An error return causes the Input
Server to promptly destruct the object and unload the
add-on.
<P><li> At some point in time, someone will tell the input
devices registered with the Input Server to <CODE>Start()</CODE>. The
system automatically starts keyboards and mice at boot
time. Any other type of device (an &quot;undefined&quot; input
device that the system doesn't have any special knowledge
about) can be started by an application using new API in
the Interface Kit.
<P><li> A registered device, whether it has been started or
not, may be <CODE>Control()</CODE>-ed at any time. Think of Control()
as the <CODE>ioctl()</CODE> equivalent in input device parlance.
Examples of system-defined control messages include
keymap changes and mouse speed changes.
</ol>
<P>
<b>Generating Input Events</b>
<P>Once a <CODE>BInputServerDevice</CODE>-derived object's input device is
up and running, its primary task is to generate input
events. These events are expressed as BMessages. For
example, a keyboard input device will most likely generate
<CODE>B_KEY_DOWN</CODE> and <CODE>B_KEY_UP</CODE> messages. Similarly, a mouse input
device will probably generate <CODE>B_MOUSE_UP</CODE>, <CODE>B_MOUSE_DOWN</CODE>, and
<CODE>B_MOUSE_MOVED</CODE> events.
<P>There is nothing that prevents an input device from putting
arbitrary data in any of the <CODE>BMessages</CODE> it generates. So, for
example, a tablet may generate the aforementioned mouse
events with extra data such as pressure and proximity. Any
information packed into the <CODE>BMessages</CODE> is delivered
unmolested by the input server.
<P>When an event is ready to be shipped off, an input device
enqueues it into the Input Server's event stream. Some
<CODE>BHandler</CODE> (most likely a <CODE>BView</CODE>) down the line eventually
receives the event by way of the usual hook functions such
as <CODE>KeyDown()</CODE>, <CODE>MouseDown()</CODE>, and <CODE>MouseMoved()</CODE>.
<P>
<b>The Input Event Stream</b>
<P>The Input Server's event stream is open for inspection and
alteration by anyone in the system. This is achieved through
another set of add-ons called <CODE>BInputServerFilter</CODE>. Like
<CODE>BInputServerDevice</CODE>, <CODE>BInputServerFilter</CODE> is a base class for input filter add-ons to the Input Server.
<P>An input filter add-on is privy to all the events that pass
through the Input Server's event stream. A filter may
inspect, alter, generate, or completely drop input events.
It's similar in some ways to the Interface Kit's
<CODE>BMessageFilter</CODE>, but much more low-level. A
<CODE>BInputServerFilter</CODE> sees all events that exist in the system;
<CODE>BMessageFilters</CODE> are associated with a specific <CODE>BLooper</CODE> and
thus see only the events targeted to its <CODE>BLooper</CODE>. Also,
filters in the Input Server can generate additional events
in place of, or in addition to, the original input event
that it was invoked with.
<P>
<b>Conclusion</b>
<P>With the introduction of loadable input device objects, the
Input Server enables the BeOS to be used with a wide variety
of input devices (and more than one of them at once too).
And with the advent of input filters, the Input Server opens
the door to a new class of tricks, hacks, and (gulp) pranks
for the creative developer. It's going to be fun.
<P>
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