xenocara/xserver/hw/dmx/doc/scaled.xml

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<?xml version="1.0" encoding="ISO-8859-1"?>
<!DOCTYPE article PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN"
"http://www.oasis-open.org/docbook/xml/4.3/docbookx.dtd" [
<!ENTITY % defs SYSTEM "/xserver/doc/xml/xserver.ent"> %defs;
]>
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<article>
<articleinfo>
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<!-- Title information -->
<title>Scaled Window Support in DMX</title>
<authorgroup>
<author><firstname>Kevin E.</firstname><surname>Martin</surname></author>
<author><firstname>Rickard E.</firstname><surname>Faith</surname></author>
</authorgroup>
<pubdate>15 October 2003 (created 19 September 2003)</pubdate>
<releaseinfo>X Server Version &xserver.version;</releaseinfo>
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<abstract>
<para>
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This document investigates the possibility of adding scaled window
support to the DMX X server, thereby allowing a window or some
selected part of the logical DMX area to be displayed using a
scaling factor. For example, this might allow the contents of a
window to be magnified for easier viewing. In particular, scaling
for the VNC client is explored. <emphasis remap="it">Copyright 2003
by Red Hat, Inc., Raleigh, North Carolina</emphasis>
</para>
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</abstract>
</articleinfo>
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<!-- Begin the document -->
<sect1><title>Introduction</title>
<sect2><title>DMX</title>
<para>
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The DMX X server (Xdmx) is a proxy server that is designed
to allow X servers on multiple machines to be combined into
a single multi-headed X server. Combined with Xinerama,
these heads can appear as a single very high-resolution
screen. Typical applications include the creation of a
video wall with 16 1280x1024 displays arranged in a
rectangle, for a total resolution of of 5120x4096.
</para>
</sect2>
<sect2><title>Problem Statement</title>
<para>
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Applications displayed on a physically large video wall that
provides high pixel-resolution may be difficult to see,
especially if the application is designed for use on a
typical desktop computer with a relatively small display
located close to the human operator. The goal of this paper
is to describe and discuss solutions to this problem.
</para>
<para>
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The original driving problem for this work is to provide
scaling for the <command>vncviewer</command> application when
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displayed using DMX (VNC scaling is currently available only
with the Windows client, and there is no plan to extend that
capability to other clients). While this specific problem
will be addressed in this paper, the general solution space
will also be explored, since this may lead to a good
solution not only for <command>vncviewer</command> but also for
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other applications.
</para>
</sect2>
<sect2><title>Task</title>
<para>
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For reference, here is the original description of the task
this paper addresses:
<itemizedlist>
<listitem><para>Scaled window support (for VNC)
<itemizedlist>
<listitem><para>
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Investigate possibility of implementing a "scaled
window" extension:
<itemizedlist>
<listitem><para>
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Add XCreateScaledWindow call that could be used
in place of XCreateWindow
</para></listitem>
<listitem><para>
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All primitives drawn to scaled window would be
scaled by appropriate (integral?) scaling factor
</para></listitem>
</itemizedlist>
</para></listitem>
<listitem><para>
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Alternate approach: special case VNC support
</para></listitem>
</itemizedlist>
</para></listitem>
</itemizedlist>
</para>
</sect2>
</sect1>
<sect1><title>Previous Work</title>
<para>
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This section reviews relevant previous work.
</para>
<sect2><title>VNC</title>
<sect3><title>Scaling under VNC</title>
<para>
When using the <command>vncviewer</command> program for Windows, it
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is possible to specify a scaling factor (as numerator and
denominator). When scaling is in effect, the viewer
software uses StretchBlt (instead of BitBlt) to display
the pixels for the user. When this call is made, the
viewer already has received all of the pixel information
(at full unscaled resolution).
</para>
<para>
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The scaling in VNC is primitive. It does not conserve
bandwidth, it does not treat textual information
differently (i.e., by using a suitably scaled font), and
it does not provide any anti-aliasing other than that
provided by the underlying (Windows-only) system library.
</para>
</sect3>
</sect2>
<sect2><title>The X Video Extension</title>
<para>
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The X Video Extension is a widely-available extension to the
X11 protocol that provides support for streaming video.
Integral to this support is the ability to arbitrarily scale
the output. In version 2.2 of the X Video specification,
support for scaled still images was provided, using both
shared memory and traditional transport. The API for this
support uses calls that are quite similar to XCreateWindow,
XPutImage, and XShmPutImage. Currently, most of the drivers
implemented in XFree86 only support data in various YUV
formats. However, several modern video adaptors support RGB
as well.
</para>
<para>
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Note, though, that the target output for this scaling is an
overlay plane -- so X Video provides functionality that is
fundamentally different from that provided by the Windows
StrechBlt call.
</para>
</sect2>
</sect1>
<sect1><title>Possible Solutions</title>
<para>
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This section briefly discusses possible solutions, including
major advantages and disadvantages from both the
implementation and the end-user programmer standpoint.
</para>
<sect2><title>VNC-like Scaling</title>
<sect3><title>Software Scaling</title>
<para>
The <command>vncviewer</command> application could be modified to
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provide software scaling. This is not a general solution,
but it does solve one of the goals of this work.
</para>
<para>
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A prototype of this solution was implemented and a patch
against <filename>vnc-3.3.7-unixsrc</filename> is available in the
<filename>dmx/external</filename> directory. Because of limited time
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available for this work, all of the edge cases were not
considered and the solution works well mainly for integer
scaling.
</para>
<para>
Currently, <command>vncviewer</command> writes to the X display
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with XPutImage, XCopyArea, and XFillRectangle. All
instances of these calls have to be aware of scaling
and must round correctly. In the prototype solution,
rounding is incorrect and can cause artifacts.
</para>
<para>
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A better solution would be to cache all updates to the
desktop image in <command>vncviewer</command> and only send the
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damaged area to the X display with XPutImage. This would
allow the damaged area to be computed so that rounding
errors do not create artifacts. This method is probably
similar to what is used in the Window client. (The whole
VNC suite is being re-written in C++ and the forthcoming
version 4 has not been evaluated.)
</para>
</sect3>
<sect3><title>Scaling with the X Video Extension</title>
<para>
The scaling in the Windows <command>vncviewer</command> application
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makes use of a scaled blit that is supplied by the
underlying system library. Several video cards currently
provide support for a scaled blit, and some X servers
(including XFree86) expose this capability to applications
via the XvPutImage interface of the X Video Extension.
The capability exposed by XvPutImage results in the scaled
image being drawn to an overlay plane. Most video cards
also provide support for a scaled blit into the normal
output planes, but this is not exposed via XvPutImage.
</para>
<para>
The <command>vncviewer</command> program could be modified to use
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the X Video Extension to provide scaling under X11 that is
similar to the scaling currently provided under Windows.
Unfortunately, Xdmx does not currently export the X Video
Extension, so this would not provide an immediate solution
usable with DMX.
</para>
<para>
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A very early-stage proof-of-concept prototype was
implemented and a preliminary patch against
<filename>vnc-3.3.7-unixsrc</filename> is available in the
<filename>dmx/external</filename> directory. This prototype was
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implemented to better understand the problems that must be
solved to make this solution viable:
<itemizedlist>
<listitem><para>
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As noted under the software scaling section above,
<command>vncviewer</command> writes to the X display with
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several different calls. These calls write to the
normal output planes and are compatible with
XvPutImage, which writes to an overlay plane. To
eliminate artifacts caused by this problem,
<command>vncviewer</command> should be modified so that a cached
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copy of the desktop is available, either as a
client-side image or a server-side off-screen pixmap,
so that XvPutImage would be the only method for
writing to the X display.
</para></listitem>
<listitem>
<para>
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Although several modern graphics adaptors support
hardware scaling using an RGB format (e.g., ATI
Radeon, nVidia, etc.), XFree86 drivers typically
only implement YUV formats. YUV generally compress
the pixel information in some way. For example, two
commonly implemented formats, YUY2 and UYVY provide
intensity information for every RGB pixel, but only
provide chroma and luminance information for pairs
of horizontal pixels. Since VNC uses
pixel-resolution for communicating updates on the
wire, additional artifacts are introduced (because
there may not be enough information from the wire to
update a pair of pixels).
</para>
<para>
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Further, the well-known problem with YUV encoding
is even more evident when the image is a desktop
instead of a movie. For example, consider a
1-pixel-wide vertical window border. If the border
changes in color but not intensity (e.g., because a
window manager uses color to indicate focus), there
may or may not be a change in the YUY2 image,
depending on the algorithm used for RGB to YUV
conversion and on how the border pixel is ordered in
the pair of pixels used by the algorithm.
</para>
<para>
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Many of these artifacts could be eliminated if
<command>vncviewer</command> cached a complete RGB image of
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the desktop, and only did the conversion to YUV for
properly aligned areas of damage. The remaining artifacts
could be eliminated if an RGB format was used with X
Video (which may require the extension of existing
XFree86 drivers to support RGB).
</para>
</listitem>
<listitem><para>
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Most modern video cards support exactly one overlay
plane that is suitable for use with X Video.
Therefore, only one application can use X Video at any
given time. This is a severe limitation in a desktop
environment.
</para></listitem>
</itemizedlist>
</para>
<sect4><title>Implementing the X Video Extension for DMX</title>
<para>
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The user-level API for X Video is fairly simple, but the
underlying support required for the full specification
is large. However, since the API provides a method to
query supported capabilities, a usable subset of X
Video can be implemented that would support XvPutImage
and little else. This would require support for the
following:
<itemizedlist>
<listitem><para>
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X Video Extension API calls, including the
following:
<itemizedlist>
<listitem><para>XvQueryExtension</para></listitem>
<listitem><para>XvQueryAdaptors</para></listitem>
<listitem><para>XvQueryPortAttributes</para></listitem>
<listitem><para>XvFreeAdaptorInfo</para></listitem>
<listitem><para>XvListImageFormats</para></listitem>
<listitem><para>XvGrabPort</para></listitem>
<listitem><para>XvCreateImage</para></listitem>
<listitem><para>XvPutImage</para></listitem>
<listitem><para>XvShmCreateImage</para></listitem>
<listitem><para>XvShmPutImage</para></listitem>
</itemizedlist>
</para></listitem>
<listitem><para>
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Support for querying back-end X Video Extension
capabilities.
</para></listitem>
<listitem><para>
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Support for sending the image to the back-ends.
Because X Video requires sending full images, there
may be a trade-off between bandwidth limitations and
additional complexity to divide the image up such
that is scales properly.
</para></listitem>
<listitem><para>
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Possible support for a software fall-back. For
example, if all of the back-ends do not support the X
Video Extension, software scaling can be implemented
such that the image is sent to the back-end with
XPutImage. This pathway would have poor
performance.
</para></listitem>
</itemizedlist>
</para>
</sect4>
<sect4><title>Supporting RGB formats for the X Video Extension</title>
<para>
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Assuming an XFree86 driver already supports the X Video
Extension, and assuming the target hardware supports an
RGB format, then adding support for that format is
relatively simple and straightforward.
</para>
</sect4>
</sect3>
<sect3><title>Scaling with an XPutImageScaled Extension</title>
<para>
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Instead of (or in addition to) implementing the X Video
Extension in DMX, one obvious solution would be to
implement a new extension that provides access to
hardware-assisted scaled blits, similar to the StretchBlt
call available under Windows. This call would scale RGB
images and would not use the overlay plane (unlike the X
Video Extension).
</para>
<para>
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This approach has many of the same advantages and
disadvantages as the XCopyAreaScaled Extension, discussed
in the next section. Discussion of XPutImageScaled is
deferred in favor of XCopyAreaScaled for the following
reasons:
<itemizedlist>
<listitem><para>
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XPutImageScaled can be emulated with XCopyAreaScaled
by first using XPutImage to copy the image to an
off-screen pixmap, and then calling XCopyAreaScaled
between that off-screen pixmap and the target
drawable.
</para></listitem>
<listitem><para>
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Since XCopyAreaScaled would copy between two areas of
on-screen or off-screen memory, it has additional uses
and can be viewed as efficiently providing a superset
of XPutImageScaled functionality.
</para></listitem>
</itemizedlist>
</para>
</sect3>
<sect3><title>Scaling with an XCopyAreaScaled Extension</title>
<para>
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As noted in the previous section, because XCopyAreaScaled
provides a superset of the functionality provided by
XPutImageScaled, we will consider this extension instead.
</para>
<para>
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First, XCopyAreaScaled would provide for RGB scaling
between pixmaps (i.e., on-screen or off-screen areas of
memory that reside on the video card). Unlike the X Video
Extension, which writes into an overlay plane,
XCopyAreaScaled would write into the non-overlay areas of
the screen. Key points to consider are as follows:
<itemizedlist>
<listitem><para>
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Because different planes are involved, the two scaling
operations are usually implemented in hardware
differently, so an XCopyAreaScaled extension could be
added in a manner that would neither conflict with nor
interact with the X Video extension in any way.
</para></listitem>
<listitem><para>
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The XCopyAreaScaled extension provides new
functionality that the X Video Extension does not
provide. Based on anecdotal feedback, we believe that
many people outside the DMX and VNC communities would
be excited about this extension.
</para></listitem>
<listitem><para>
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The main drawback to this extension is that it is new
and needs to be implemented at the driver level in
XFree86 for each video card to be supported. At the
present time, it is more likely that the X Video
Extension will be implemented for a particular piece
hardware because the X Video extension has multimedia
uses. However, over time, we would expect the
XCopyAreaScaled extension to be implemented along with
the X Video extension, especially if it becomes
popular.
</para></listitem>
<listitem><para>
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Another drawback is that not all modern cards provide
support for a simple scaled blit operation. However,
these cards usually do provide a 3D pipeline which
could be used to provide this functionality in a
manner that is transparent to the client application
that is using the XCopyAreaScaled extension. However,
this implementation pathway would make this extension
somewhat more difficult to implement on certain cards.
</para></listitem>
</itemizedlist>
</para>
</sect3>
<sect3><title>Scaling with OpenGL</title>
<para>
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Another general solution to the scaling problem is to use
the texture scaling found in all 3D hardware. This
ability is already exposed through OpenGL and can be
exploited by clients without X server modification (i.e.,
other than the ability to support OpenGL). An application
using OpenGL would transmit the non-scaled image to the X
server as a texture, and would then display a single
non-transformed rect using that texture. This also works
around the single overlay problem with the X Video
Extension as well as the need to implement additional
scaled primitive extensions.
</para>
<para>
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The downside is that most OpenGL implementations require
power of 2 texture sizes and this can be very wasteful of
memory if, for example, the application needs to scale a
1025x1025 image, which would require a 2048x2048 texture
area (even a 640x480 image would require a 1024x512
texture). Another downside is that some OpenGL
implementations have a limited about of texture memory and
cannot handle textures that are very large. For example,
they might limit the texture size to 1024x1024.
</para>
</sect3>
</sect2>
<sect2><title>Application-transparent Scaling for DMX
</title><sect3><title>Back-end Scaling Without Disconnect/Reconnect</title>
<para>
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VNC does scaling on the client side (in the
<command>vncviewer</command> application). Implementing a similar
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solution for DMX would require support in the back-end X
servers and, therefore, is not a general solution.
</para>
<para>
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XFree86 already implements some support for "scaling" that
could be used with DMX: if, in the XF86Config file,
multiple Modes are listed in the Display Subsection of the
Screen Section, then pressing Ctrl-Alt-Plus and
Ctrl-Alt-Minus can be used to iterate through the listed
modes. The display dimensions will change to the
dimensions in the Modes line, but the logical dimensions
of the X server (i.e., the dimensions that Xdmx knows
about) will not change.
</para>
<para>
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Further, the dimensions of the XFree86 display are under
software control (via the XFree86-VidModeExtension), so
the Xdmx server could change the screen dimensions on a
per-display basis, thereby scaling the information on part
of that display.
</para>
<para>
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However, this scaling appears to have limited use. For
example, assume a 4 by 4 display wall consisting of 16
1280x1024 displays. If all of the back-end servers were
simultaneously configured to display 640x480, the left
hand corner of each display would be magnified, but the
composite result would be unreadable. Magnifying one
display at a time could be usable, but could have limited
utility, since the result would still be no larger than a
single display.
</para>
</sect3>
<sect3><title>Back-end Scaling With Disconnect/Reconnect</title>
<para>
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Disconnect and reconnect features are not currently
supported in DMX, but are scheduled to be implemented in
the future. These features, combined with the
XFree86-VidModeExtension Extension, would allow an
application to do the following:
<itemizedlist>
<listitem><para>
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Disconnect a specific back-end server (via the DMX
Extension),
</para></listitem>
<listitem><para>
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reconfigure the XFree86 back-end server resolution,
and
</para></listitem>
<listitem><para>
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reconnect the back-end server to DMX -- at a new
origin with the new screen resolution.
</para></listitem>
</itemizedlist>
</para>
<para>
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For example, consider a display wall consisting of 16
1280x1024 displays with a total resolution of 5120x4096.
All of the screens could be disconnected, repositioned,
and reconnected each at a resolution of 640x480. The
total resolution of the display wall would be 2560x1920,
allowing a view of a selected area approximately
one-fourth of the size of the DMX display. This change
would be completely application independent (except,
perhaps, for a DMX-aware window manager). When work at
the increased resolution was completed, the back-end
servers could be disconnected, reconfigured, and
reconnected for the original 5120x4096 view.
</para>
<para>
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Support for this type of scaling can be implemented in a
DMX-aware X11 client assuming the DMX server support
arbitrary disconnect and reconnect semantics. Because
this application cannot be written before
disconnect/reconnect is implemented, this solution will
not be discussed further in this paper.
</para>
</sect3>
<sect3><title>Server-side Scaling</title>
<para>
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In earlier versions of DMX, a frame buffer was maintained
on the server side, and XPutImage was used to move the
information from the server to the client (similar to some
early VNC implementations). The use of a server-side
frame buffer would allow the server to do scaling, but is
not a recommended solution because of overall performance
issues and server-side memory issues (i.e., the frame
buffer would be very large for large display walls).
</para>
<para>
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Exploration of this path is not recommended.
</para>
</sect3>
</sect2>
<sect2><title>XCreateScaledWindow API</title>
<para>
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The implementation of X Video Extension in DMX, and the use
of XvPutImage by applications requiring scaling requires
significant changes in DMX Further, XvPutImage is,
essentially a scaled blit, and it is only useful for
applications which are already using (or can be modified to
use) XPutImage. Therefore, a more general API will be
discussed as another possibility.
</para>
<para>
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X applications typically create windows with the
XCreateWindow call. A new extension could provide an
XCreateScaledWindow call that could be used in place of the
XCreateWindow call and be otherwise transparent to the
application. This would allow applications, even those that
do not depend on XPutImage, to take advantage of window
scaling. In this section we describe how the call would
work, what transparency it provides, and how to solve the
potential problems that transparency creates.
</para>
<sect3><title>XCreateWindow</title>
<para>
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The XCreateWindow call takes width and height as
parameters. An XCreateScaledWindow call could take all
the same parameters, with the addition of a scaling factor.
</para>
</sect3>
<sect3><title>XSetWindowAttributes</title>
<para>
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An X11 window has several attributes that would have to be
scaled:
<itemizedlist>
<listitem><para>Background and border pixmaps</para></listitem>
<listitem><para>Border width</para></listitem>
<listitem><para>Cursor</para></listitem>
</itemizedlist>
</para>
</sect3>
<sect3><title>XGetWindowAttributes, XGetGeometry</title>
<para>
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For transparency, calls that query the window attributes
should return unscaled information. This suggests that
all unscaled pixmaps and window attributes should be
cached.
</para>
<para>
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Unfortunately, a window manager requires the scaled
geometry to properly decorate the window. The X server
can probably determine which client is acting as the
window manager (e.g., because that client will select
events that are used exclusively by the window manager).
However, other Scaled Window Extension aware clients may
also need to determine the scaled geometry. Therefore, at
least two additional extension calls should be
implemented: XGetScaledWindowAttributes and
XGetScaledGeometry.
</para>
</sect3>
<sect3><title>Popup and Child window positions</title>
<para>
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Some applications may position popup and child windows
based on an unscaled notion of the main window geometry.
In this case, additional modifications to the client would
be required.
</para>
</sect3>
<sect3><title>Events</title>
<para>
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Most events (e.g., for mouse motion) return information
about the coordinates at which the even occurred. These
coordinates would have to be modified so that unscaled
values were presented to the client.
</para>
</sect3>
<sect3><title>Implementation</title>
<para>
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There are many implementation issues, some of which are
similar to the issues involved in implementing the X Video
Extension for DMX. The window contents must be scaled,
either by performing all operations to a frame buffer and
then writing the image to the display (perhaps using
hardware scaling support), or by modifying all of the
various drawing operations to perform scaling. Because of
the complexity involved, the frame buffer option is
recommended.
</para>
</sect3>
</sect2>
</sect1>
<sect1><title>Conclusion and Recommendations
</title><para>
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We recommend a three phase implementation strategy, based on
how an application could be written to take advantage of
scaling:
<orderedlist>
<listitem>
<para>
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The XCopyAreaScaled extension should be implemented, since
this is the ideal solution for applications like VNC, and
since making use of this extension will require minimal
changes to applications that already use XPutImage or
XCopyArea.
</para>
<para>
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The initial implementation work would include the design
of the X protocol extension, writing this up in the
usual format for extension documentation, implementation
of the protocol transport pieces in XFree86,
implementation of a software fall-back in XFree86 and
DMX, one example hardware implementation for XFree86,
and implementation of support for this extension in DMX.
</para>
<para>
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We suggest implementing the extension first on the ATI
Radeon cards. However, since these cards do not provide
a 2D scaled blit primitive, the implementation would
have to make use of the 3D texture engine to emulate a
scaled blit. This is recommended, since other modern
graphics cards also do not provide a simple 2D scaled
blit operation and an example of the more difficult
implementation pathway would be helpful to others.
</para>
</listitem>
<listitem>
<para>
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Until XCopyAreaScaled is widely supported, applications
that require scaling will have to fall back to another
scaling method. We suggest OpenGL as the first fall-back
method because it is widely available and supported by
DMX.
</para>
<para>
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A project centered around OpenGL-based scaling would
implement this scaling in VNC as an example. This work
would include re-writing the <command>vncviewer</command>
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rendering engine to cache a master copy of the desktop
image for all operations.
</para>
</listitem>
<listitem>
<para>
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Since OpenGL is not implemented everywhere, and may not
provide hardware-assisted performance in every
implementation, an application that requires scaling
should also fall back to using the X Video Extension.
</para>
<para>
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This project would add support for the X Video Extension
to DMX and would add support to VNC to take advantage of
this extension without introducing artifacts. This
would require modifying the <command>vncviewer</command> rendering
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engine to cache a master copy of the desktop image for
all operations. This project should also add support
for the RGB format to at least one XFree86 driver (e.g.,
ATI Radeon).
</para>
<para>
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The X Video Extension is one of the few popular
extensions that DMX does not support. We recommend
implementing the X Video Extension even if scaling is
the specific goal of that work.
</para>
</listitem>
</orderedlist>
</para>
<para>
We do <emphasis>not</emphasis> recommend implementation of the
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XCreateScaledWindow extension because of the complexity
involved. We do <emphasis>not</emphasis> recommend implementation of the
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XPutImageScaled extension because it requires the same amount
of work as the XCopyAreaScaled extension, but provides less
functionality. Further, server-side scaling with a large
frame buffer is <emphasis>not</emphasis> recommended because of the
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performance implications.
</para>
<para>
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The back-end scaling, especially with disconnect/reconnect
support should be explored in the future after
disconnect/reconnect is implemented, but not at the present
time.
</para>
</sect1>
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</article>
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