shithub: purgatorio

ref: d09cf07a82cf4ffb846a31d0384e774b4c4661e1
dir: /man/2/wmsrv/

View raw version
.TH WMSRV 2
.SH NAME
Wmsrv \- core window-manager functionality and helper functions
.SH SYNOPSIS
.EX
.ps -1
.vs -1
include "sys.m";
include "draw.m";
include "wmsrv.m";
wmsrv := load Wmsrv Wmsrv->PATH;
Client, Window: import wmsrv;

init:   fn(): 
    (chan of (string, chan of (string, ref Draw->Wmcontext)),
    chan of (ref Client, chan of string),
    chan of (ref Client, array of byte, Sys->Rwrite));
find:   fn(p: Draw->Point): ref Client;
top:    fn(): ref Client;

Window: adt {
    tag:    string;
    r:  Rect;
    img:    ref Image;
};

Client: adt {
    kbd:    chan of int;
    ptr:    chan of ref Draw->Pointer;
    ctl:    chan of string;
    stop:   chan of int;
    images: chan of (ref Draw->Point, ref Draw->Image, chan of int);
    flags:  int;
    wins:   list of ref Window;
    znext:  cyclic ref Client;
    id:     int;

    window:   fn(c: self ref Client, tag: string): ref Window;
    contains: fn(c: self ref Client, p: Draw->Point): int;
    setimage: fn(c: self ref Client, tag: string, i: ref Draw->Image): int;
    setorigin:fn(c: self ref Client, tag: string, o: Draw->Point): int;
    top:      fn(c: self ref Client);
    bottom:   fn(c: self ref Client);
    remove:   fn(w: self ref Client);
};
.ps +1
.vs +1
.EE
.SH DESCRIPTION
.B Wmsrv
acts as a kind of ``buffer'' module between an actual window-manager
implementation and possibly misbehaving clients.
It provides notification when clients arrive, make window-manager requests,
and leave. For each client, it provides a set of channels that mirror those
found in
.BR Draw->Wmcontext ,
(see
.IR draw-context (2)),
except that writing to the
.BR Client 's
channels is guaranteed not to block.
Each client holds zero or more
.BR Window s,
each of which is tagged with an identifying string
and which can hold the image of that window.
A given client's windows are layered in strict order,
most recently created at the top. Most clients will have
only one window; others are generally used only for
ephemeral purposes, such as pop-up menus.
.PP
A
.BR Client ,
say
.IR c ,
holds some channels directly equivalent to their
.B Wmcontext
namesakes:
.IB c \.kbd\fR
.IB c \.ptr\fR,
and
.IB c \.ctl\fR.
The behaviour of
.IB c \.images
is described below.
.B Wmsrv
starts a new process to mediate interaction
between the window manager and its clients;
sending a value on
.IB c \.stop
causes this process to exit.
.IB C \.wins
gives the list of all the windows
associated with this client;
.IB c \.flags
is not used by
.IR wmsrv :
it may be used to store arbitrary information;
.IB c \.id
holds a unique identifier for the client;
it will be no larger than the largest
number of clients that have simultaneously existed;
.IB c \.znext
links clients together by window depth (see
.BR top ,
below).
.PP
.B Init
must be called before any other
.I wmsrv
function to initialise the
.I wmsrv
module. It creates the virtual file
.BR /chan/wm ,
and returns a tuple of channels, say (\fIwm\fP, \fIjoin\fP, \fIrq\fP).
.I Wm
is the channel that should be passed to prospective clients
in the
.B Draw->Context
structure; communication on this channel is used
to establish a new client connection.
.I Join
is used to receive notifications
of new clients arriving. The tuple received on this channel,
say (\fIc\fP, \fIrc\fP)
holds the new client, and a channel on which a reply
should be sent acknowledging the new client.
If the string sent is non-empty, it represents an error message
that will be returned to the client, and the client will not
be allowed to join.
.IB c \.ptr\fR,
.IB c \.kbd\fR,
and
.IB c \.ctl
are all direct equivalents of their
.B Wmcontext
namesakes; the
behaviour of
.IB c \.images
is described below.
.I Rq
is used to receive requests made by clients to the window
manager by writing to the file
.B /chan/wm.
The tuple received on
.IR rq ,
say (\fIc\fP, \fIdata\fP, \fIreply\fP)
holds the client that is making the request, the
data that has been sent, and a channel that can be used
(as described in
.IR sys-file2chan (2))
to return a reply to the request,
The request is conventionally formatted as a utf8-encoded
string, holding a list of tokens quoted as described in
.B quoted
in
.IR string (2).
.PP
If the first character of a window-manager request is an exclamation mark
.RB ( ! ),
it should be a request to change the image of a client's window
(or create a new window).
In this case, the first three tokens should be
the name of the command (starting with an exclamation mark),
the tag of the window to which the request refers, and a tag
used by clients to match requests to replies.
If such a request is allowed to succeed, then clients expect that
a new image will be sent to them.
The
.I images
channel in a client is used to do this (normally accessed through the
.I setimage
and
.I setorigin
methods, see below). Sending a tuple, say (\fIo\fP, \fIi\fP, \fIrc\fP)
on
.I images
buffers an image to be returned to the client.
If
.I o
is non-nil, the request will change the physical origin of
.I i
to
.IR o ,
otherwise
.I i
gives a new image (its logical origin must match its physical origin).
Only one such request is allowed to be outstanding
at any one time; the channel passed in
.I rc
will yield the value
.B -1
if the image from a previous request has not yet been consumed,
in which case the current request should be caused to fail.
.PP
.B Wmsrv
can maintain a record of the current
windows and their stacking order relative to one other.
.B Top
returns a pointer to the client at the top of the stack;
the other clients can be accessed, in stacking order,
via their
.B znext
references.
.B Find
finds the top client that has a window containing
the point
.IR p .
.B Wmsrv
provides various
.B Client
methods that may be used to help
implement a window manager's interface:
.TP 10
.IB c .window(\fItag\fP)
Yield the
.BR Window ,
.IR w ,
corresponding to
.IR tag ,
or
.B nil
if there is none.
Note that
.IB w \.r
holds the actual screen rectangle of the image;
the client is free to modify the image's logical
coordinate system, so
.IB w \.img.r
cannot be relied upon to contain a value with a meaningful origin.
.TP
.IB c .contains(\fIp\fP)
Return non-zero if any of the client's windows
contain the point
.IR p .
.TP
.IB c .setimage(\fItag\fP,\ \fIi\fP)
Set the image associated with window
.I tag
to
.IR i .
If this is in response to a window manager request,
.I i
must be non-nil, and
.I wmsrv
will arrange that the new image is sent to the client.
If this is not possible, then
.B setimage
will return
.BR -1 .
If
.I i
is nil, no image will be sent to the client
and the window will be deleted.
.TP
.IB c .setorigin(\fItag\fP,\ \fIo\fP)
Similar to
.BR setimage ,
except that only the origin of the window is changed.
In order to enable clients to maintain their own logical
coordinate system,
.I wmsrv
first sends
.B nil
on the
.B Wmcontext.images
channel, allowing the client to suspend operations
on the image momentarily; it then sends to same
channel, with its origin set to its actual screen origin.
The client is then free to set the logical origin again.
.TP
.IB c .top()
Raise the client's windows above the other clients' windows.
.TP
.IB c .bottom()
Send the client's windows below the other clients' windows.
.TP
.IB c .remove()
Remove the client and its windows from wmsrv's window stack.
.SH FILES
.TP 10
.B /chan/wm
Created by
.I wmsrv
using
.IR file2chan (2)
to serve connection requests.
.SH SOURCE
.B /appl/lib/wmsrv.b
.SH SEE ALSO
.IR wm (1),
.IR draw-screen (2),
.IR wmlib (2),
.IR wmexport (1),
.IR wmclient (2),
.IR tkclient (2),