DragonFly On-Line Manual Pages
XCB(1) DragonFly General Commands Manual XCB(1)
NAME
xcb - X Cut Buffers - Pigeon holes for your cut and paste selections.
SYNOPSIS
xcb [Xt option] [-l layout] [-n count] [-p|-s|-S list] [-r count]
DESCRIPTION
Xcb provides easy access to the cut buffers built into every X server.
It allows the buffers to be manipulated either via the command line, or
with the mouse in a point and click manner. The buffers can be used as
holding pens to store and retrieve arbitrary data fragments. Any
number of cut buffers may be created, so any number of different pieces
of data can be saved and recalled later. By default, 8 cut buffers are
created. The program is designed primarily for use with textual data.
Xcb has two modes of operation. Normally xcb provides an array of
windows on your display, one per cut buffer, tiled horizontally,
vertically, or in some user specified layout. Each window displays the
contents of its respective cut buffer. Data can be cut from and pasted
to the windows in a similar manner to xterm. The buffers can also be
rotated.
In task mode, xcb lets you access the cut buffers from the command
line. Cut buffers can be loaded from stdin, copied or concatenated to
stdout, loaded using the current PRIMARY selection, or rotated an
arbitrary number of positions. In this mode of operation, xcb performs
the requested task and then exits. It does not create any windows and
has no interaction with the mouse or keyboard.
OPTIONS
Xcb supports the full set of X Toolkit Intrinsics options, as well as
those listed below. Xcb options can appear in any order. The presence
of the -p, -r, -s or -S options causes xcb to execute in task mode,
described above.
-l layout
This option controls the geometry arrangement of xcb's
subwindows. It is the command line equivalent of the .layout
resource, described below.
-n count
Create count cut buffers. Count can be any integer greater than
zero. This option is the command line equivalent of the
.bufferCount resource, described below.
-u Use utf-8 instead of the current locale settings when executing
in task mode and doing I/O.
-V Print the xcb release version number and exit immediately.
-p list
Print the contents of the listed buffer(s) on stdout. The
buffered data is printed exactly as it is stored in the server.
Selecting two or more buffers has the effect of concatenating
the data on stdout. The cut buffers are numbered from 0...
onwards. The list can be either a single digit, a comma
separated list of digits, a range of the form m-n, or some
combination of lists and ranges. The buffers are printed in
listed order, so repeated numbers in the list can be used to
duplicate buffer contents.
-r count
Rotate the buffers by count positions. Count can be any
integer, positive or negative. This option may be used in
conjunction with the -n count option to rotate a specific number
of buffers. If the -n option is not used, xcb will rotate the
number of buffers given by the .bufferCount resource.
-s list
Store the data from stdin in the listed buffer(s). If the list
refers to two or more buffers, the input data is duplicated in
each buffer. Refer to the -p option for the definition of a
list.
-S list
Store the current PRIMARY selection data in the listed
buffer(s). The data is converted to a string representation.
If the list refers to two or more buffers, the PRIMARY selection
is duplicated in each buffer. Refer to the -p option for the
definition of a list. Under the -S option xcb waits for the
nominated cut buffer's contents to change before exiting. If no
change is detected within 3 seconds, xcb exits with a non-zero
return code.
WIDGETS and RESOURCES
The xcb widget hierarchy consists of a collection of custom buffer
widgets, one per cut buffer. In the Athena version of the program,
these buffer widgets are all contained within a single Athena form
widget. In the Motif version of the program, they are each enclosed by
Motif frame widgets, and the frame widgets are all contained within a
single Motif RowColumn widget.
The names of the buffer widgets are "buffer0", "buffer1", "buffer2",
.... etc., and their class name is "Buffer". Each buffer widget
supports all the standard core widget resources, plus the .foreground
and .fontSet resources.
Application wide resources are as follows:
.bufferCount (default value 8)
This is the number of buffer widgets to create.
Any number of widgets (greater than zero) can be created.
.layout (default value "h")
Only the first character of the resource value is significant.
This is the geometry arrangement to apply in the container widget.
The layout can be "h" (horizontal), "v" (vertical), or some
other value to disable the inbuilt geometry code and specify
the layout via your X resources. An example is provided in the
application default resources file.
EVENTS and TRANSLATIONS
Xcb's input semantics are coded into a Toolkit translation table. The
default bindings have been chosen to conform with the default
configuration of other cut and paste clients, such as xterm. The
bindings may be altered or overridden according to your needs. The
actions functions provided by xcb are:-
cut() causes the contents of the chosen cut buffer to become
the PRIMARY selection. The window contents, if any,
are highlighted, and can then be pasted into other
cut buffers or applications.
paste() causes the value of the PRIMARY selection to be
converted into text and pasted into the chosen cut
buffer, overwriting any previous buffer contents.
If no PRIMARY selection is present, xcb pastes
the contents of cut buffer zero into the chosen buffer.
clear() clears the chosen cut buffer.
rotate(NN) rotates the cut buffers by NN positions. NN may
be any positive or negative number.
refresh() causes the cut buffer window to be cleared and redrawn.
selreq() this action function handles paste requests
from other clients, or other xcb windows.
It should always be bound to SelectionRequest events.
selclear() this action function responds to the loss of
ownership of the PRIMARY selection property.
It should always be bound to SelectionClear events.
quit() causes xcb to terminate.
The default bindings are as follows:-
<Btn1Down>: cut() \n\
Shift <Btn2Down>: clear() \n\
<Btn2Down>: paste() \n\
Shift <Btn3Down>: rotate(-1) \n\
<Btn3Down>: rotate(1) \n\
<Key>Left: rotate(-1) \n\
<Key>Right: rotate(1) \n\
<Key>Up: rotate(-1) \n\
<Key>Down: rotate(1) \n\
<Key>q: quit() \n\
<SelReq>: selreq() \n\
<SelClr>: selclear()
EXAMPLES
The following are some examples of xcb task mode usage:-
xcb -s 0-7 < /dev/null
This clears the first 8 cut buffers in your server.
echo "G'day." | xcb -display bigears:0.0 -s 1,3,5,7
This loads the string "G'day." into four of the cut buffers on the
display "bigears".
xsendevent -win buffer5 '<Btn1Down>'
This uses the program xsendevent to send a synthetic mouse click event
to an xcb subwindow, thereby making that window the owner of the
PRIMARY selection.
ls `xcb -p 2,3`
This produces a listing of all the files named in cut buffers 2 and 3.
xcb -p 0-7 | xcb -s 0
This concatenates the values in the first 8 cut buffers, and places the
result back in cut buffer zero.
xcb -S 0 && xcb -p 0
The first command copies the current PRIMARY selection into the first
cut buffer. If the copy succeeds, then the second command prints that
data on stdout.
for i in 0 1 2 3 4 5 6 7
do
xcb -p $i > $HOME/.xcb/$i
done
for i in 0 1 2 3 4 5 6 7
do
xcb -s $i < $HOME/.xcb/$i
done
This first loop saves the contents of each of the cut buffers in a
separate file under your home directory. The second loop restores the
cut buffer contents from those files. When placed in your .logout and
.login scripts respectively, the commands are a simple method of
preserving your cut buffers across login sessions.
function g {
echo "$1\\c" | xcb -s 7
grep "$@"
}
function vg {
vi +/`xcb -p 7` "$@"
}
These two shell functions exemplify a simple mechanism for saving and
reusing regular expressions. The first function saves the regex used
for grep-ing into cut buffer 7. The second function reuses the most
recent grep regex as a search command in vi. There is considerable
scope for expanding and improving these ideas.
SEE ALSO
xterm(1), xcutsel(1), xclipboard(1), xprop(1)
Athena Widget Set - C Language Interface
Motif Programmers Reference Guide
AUTHORS
Current Maintainer (I18n version)
Marc Lehmann
E-mail: pcg@goof.com
Original Author
Farrell McKay
E-mail: Farrell.McKay@mpx.com.au
XView modifications provided by Danny Vanderryn
E-mail: dvanderr@us.oracle.com
COPYRIGHT
Copyright (C) 1992,1993,1994 by Farrell McKay.
Permission to use, copy, modify, and distribute this software and its
documentation for any purpose and without fee is hereby granted,
provided that the above copyright notice appears in all copies and that
both that copyright notice and this permission notice appear in
supporting documentation. This software is provided "as is" without
express or implied warranty.
BUGS :-)
Xlib's underlying protocol for moving selection data between client and
server can sometimes be slow, depending on the amount of data involved.
Do not expect fast performance if your selections are big or you want
to store big files in your cut buffers! ("big" means, say, over 10k
bytes - but your mileage may vary).
X Version 11 Oct 6 1994 XCB(1)
xcb_grab_button(3) XCB Requests xcb_grab_button(3)
NAME
xcb_grab_button - Grab pointer button(s)
SYNOPSIS
#include <xcb/xproto.h>
Request function
xcb_void_cookie_t xcb_grab_button(xcb_connection_t *conn,
uint8_t owner_events, xcb_window_t grab_window,
uint16_t event_mask, uint8_t pointer_mode,
uint8_t keyboard_mode, xcb_window_t confine_to,
xcb_cursor_t cursor, uint8_t button, uint16_t modifiers);
REQUEST ARGUMENTS
conn The XCB connection to X11.
owner_events
If 1, the grab_window will still get the pointer events. If
0, events are not reported to the grab_window.
grab_window
Specifies the window on which the pointer should be grabbed.
event_mask
Specifies which pointer events are reported to the client.
TODO: which values?
pointer_mode
One of the following values:
XCB_GRAB_MODE_SYNC
The state of the keyboard appears to freeze: No
further keyboard events are generated by the server
until the grabbing client issues a releasing
AllowEvents request or until the keyboard grab is
released.
XCB_GRAB_MODE_ASYNC
Keyboard event processing continues normally.
keyboard_mode
One of the following values:
XCB_GRAB_MODE_SYNC
The state of the keyboard appears to freeze: No
further keyboard events are generated by the server
until the grabbing client issues a releasing
AllowEvents request or until the keyboard grab is
released.
XCB_GRAB_MODE_ASYNC
Keyboard event processing continues normally.
confine_to
Specifies the window to confine the pointer in (the user will
not be able to move the pointer out of that window).
The special value XCB_NONE means don't confine the pointer.
cursor Specifies the cursor that should be displayed or XCB_NONE to
not change the cursor.
button One of the following values:
XCB_BUTTON_INDEX_ANY
Any of the following (or none):
XCB_BUTTON_INDEX_1
The left mouse button.
XCB_BUTTON_INDEX_2
The right mouse button.
XCB_BUTTON_INDEX_3
The middle mouse button.
XCB_BUTTON_INDEX_4
Scroll wheel. TODO: direction?
XCB_BUTTON_INDEX_5
Scroll wheel. TODO: direction?
modifiers The modifiers to grab.
Using the special value XCB_MOD_MASK_ANY means grab the
pointer with all possible modifier combinations.
DESCRIPTION
This request establishes a passive grab. The pointer is actively
grabbed as described in GrabPointer, the last-pointer-grab time is set
to the time at which the button was pressed (as transmitted in the
ButtonPress event), and the ButtonPress event is reported if all of the
following conditions are true:
The pointer is not grabbed and the specified button is logically
pressed when the specified modifier keys are logically down, and no
other buttons or modifier keys are logically down.
The grab-window contains the pointer.
The confine-to window (if any) is viewable.
A passive grab on the same button/key combination does not exist on any
ancestor of grab-window.
The interpretation of the remaining arguments is the same as for
GrabPointer. The active grab is terminated automatically when the
logical state of the pointer has all buttons released, independent of
the logical state of modifier keys. Note that the logical state of a
device (as seen by means of the protocol) may lag the physical state if
device event processing is frozen. This request overrides all previous
passive grabs by the same client on the same button/key combinations on
the same window. A modifier of AnyModifier is equivalent to issuing the
request for all possible modifier combinations (including the
combination of no modifiers). It is not required that all specified
modifiers have currently assigned keycodes. A button of AnyButton is
equivalent to issuing the request for all possible buttons. Otherwise,
it is not required that the button specified currently be assigned to a
physical button.
An Access error is generated if some other client has already issued a
GrabButton request with the same button/key combination on the same
window. When using AnyModifier or AnyButton, the request fails
completely (no grabs are established), and an Access error is generated
if there is a conflicting grab for any combination. The request has no
effect on an active grab.
RETURN VALUE
Returns an xcb_void_cookie_t. Errors (if any) have to be handled in the
event loop.
If you want to handle errors directly with xcb_request_check instead,
use xcb_grab_button_checked. See xcb-requests(3) for details.
ERRORS
xcb_access_error_t
Another client has already issued a GrabButton with the same
button/key combination on the same window.
xcb_cursor_error_t
The specified cursor does not exist.
xcb_value_error_t
TODO: reasons?
xcb_window_error_t
The specified window does not exist.
SEE ALSO
xcb-requests(3)
AUTHOR
Generated from xproto.xml. Contact xcb@lists.freedesktop.org for
corrections and improvements.
X Version 11 libxcb 1.15 xcb_grab_button(3)