From 52011cfedaa930d61d8f60b283a2051093727582 Mon Sep 17 00:00:00 2001
From: marha <marha@users.sourceforge.net>
Date: Sun, 22 May 2011 13:28:34 +0000
Subject: xserver xkeyboard-config libX11 randrproto pixman glproto mesa git
 update 22 May 2011

---
 libX11/specs/libX11/CH01.xml |  2 +-
 libX11/specs/libX11/CH03.xml |  2 +-
 libX11/specs/libX11/CH06.xml |  2 +-
 libX11/specs/libX11/CH07.xml |  2 +-
 libX11/specs/libX11/CH08.xml |  6 +++---
 libX11/specs/libX11/CH09.xml |  9 +++++----
 libX11/specs/libX11/CH10.xml |  4 ++--
 libX11/specs/libX11/CH13.xml | 40 ++++++++++++++++++++--------------------
 libX11/specs/libX11/CH14.xml | 20 +++++++++-----------
 9 files changed, 43 insertions(+), 44 deletions(-)

(limited to 'libX11/specs')

diff --git a/libX11/specs/libX11/CH01.xml b/libX11/specs/libX11/CH01.xml
index c8d8dcc6c..a401b9a5b 100644
--- a/libX11/specs/libX11/CH01.xml
+++ b/libX11/specs/libX11/CH01.xml
@@ -27,7 +27,7 @@ those provided by the toolkits for X) are built on top of the Xlib
 library. For further information about these higher-level libraries,
 see the appropriate toolkit documentation.
 The <citetitle>X Window System Protocol</citetitle> provides the
-deﬁnitive word on the behavior of X.
+definitive word on the behavior of X.
 Although additional information appears here, the protocol document is
 the ruling document.
   </para>
diff --git a/libX11/specs/libX11/CH03.xml b/libX11/specs/libX11/CH03.xml
index c6f1c86a1..645960797 100644
--- a/libX11/specs/libX11/CH03.xml
+++ b/libX11/specs/libX11/CH03.xml
@@ -2295,7 +2295,7 @@ structure are:
 <!-- .LP -->
 
 <literallayout class="monospaced">
-/* Conﬁgure window value mask bits */
+/* Configure window value mask bits */
 #define      CWX              (1&lt;&lt;0)
 #define      CWY              (1&lt;&lt;1)
 #define      CWWidth          (1&lt;&lt;2)
diff --git a/libX11/specs/libX11/CH06.xml b/libX11/specs/libX11/CH06.xml
index f60053b93..a8224d8fc 100644
--- a/libX11/specs/libX11/CH06.xml
+++ b/libX11/specs/libX11/CH06.xml
@@ -273,7 +273,7 @@ The following macros define standard formats.
 </para>
 
 <literallayout class="monospaced">
-#define          XcmsUndeﬁnedFormat    0x00000000  
+#define          XcmsUndefinedFormat   0x00000000
 #define          XcmsCIEXYZFormat      0x00000001  /* CIE XYZ */
 #define          XcmsCIEuvYFormat      0x00000002  /* CIE u'v'Y */
 #define          XcmsCIExyYFormat      0x00000003  /* CIE xyY */
diff --git a/libX11/specs/libX11/CH07.xml b/libX11/specs/libX11/CH07.xml
index 14d4bd4ed..505a565a2 100644
--- a/libX11/specs/libX11/CH07.xml
+++ b/libX11/specs/libX11/CH07.xml
@@ -14,7 +14,7 @@ Sharing of GCs is highly discouraged because the library may cache GC state.
 </para>
 <para>
 Graphics operations can be performed to either windows or pixmaps, which collectively are
-called drawables. Each drawable exists on a single screen. A GC is created for a speciﬁc screen
+called drawables. Each drawable exists on a single screen. A GC is created for a specific screen
 and drawable depth and can only be used with drawables of matching screen and depth.
 </para>
 <para>
diff --git a/libX11/specs/libX11/CH08.xml b/libX11/specs/libX11/CH08.xml
index de768f448..6cd6679f2 100644
--- a/libX11/specs/libX11/CH08.xml
+++ b/libX11/specs/libX11/CH08.xml
@@ -15,9 +15,9 @@ Once you have established a connection to a display, you can use the Xlib graphi
   <listitem><para>Transfer images between clients and the server</para></listitem>
 </itemizedlist>
 <para>
-If the same drawable and GC is used for each call, Xlib batches back-to-back calls to XDraw-
-Point, XDrawLine, XDrawRectangle, XFillArc, and XFillRectangle. Note that this reduces
-the total number of requests sent to the server.
+If the same drawable and GC is used for each call, Xlib batches back-to-back
+calls to XDrawPoint, XDrawLine, XDrawRectangle, XFillArc, and XFillRectangle.
+Note that this reduces the total number of requests sent to the server.
 </para>
 <sect1 id="Clearing_Areas">
 <title>Clearing Areas</title>
diff --git a/libX11/specs/libX11/CH09.xml b/libX11/specs/libX11/CH09.xml
index bcb7366fd..7d0f779f1 100644
--- a/libX11/specs/libX11/CH09.xml
+++ b/libX11/specs/libX11/CH09.xml
@@ -5,10 +5,11 @@
 <title>Window and Session Manager Functions</title>
 
 <para>
-Although it is difﬁcult to categorize functions as exclusively for an application, a window man-
-ager, or a session manager, the functions in this chapter are most often used by window managers
-and session managers. It is not expected that these functions will be used by most application
-programs. Xlib provides management functions to:
+Although it is difficult to categorize functions as exclusively for an application,
+a window manager, or a session manager, the functions in this chapter are most
+often used by window managers and session managers. It is not expected that
+these functions will be used by most application programs. Xlib provides
+management functions to:
 </para>
 
 <itemizedlist>
diff --git a/libX11/specs/libX11/CH10.xml b/libX11/specs/libX11/CH10.xml
index d94ff212b..e7b945323 100644
--- a/libX11/specs/libX11/CH10.xml
+++ b/libX11/specs/libX11/CH10.xml
@@ -6,8 +6,8 @@
 
 <para>
 A client application communicates with the X server through the connection you establish with
-the XOpenDisplay function. A client application sends requests to the X server over this con-
-nection. These requests are made by the Xlib functions that are called in the client application.
+the XOpenDisplay function. A client application sends requests to the X server over this
+connection. These requests are made by the Xlib functions that are called in the client application.
 Many Xlib functions cause the X server to generate events, and the user’s typing or moving the
 pointer can generate events asynchronously. The X server returns events to the client on the same
 connection.
diff --git a/libX11/specs/libX11/CH13.xml b/libX11/specs/libX11/CH13.xml
index be0918adb..e28b1b0f3 100644
--- a/libX11/specs/libX11/CH13.xml
+++ b/libX11/specs/libX11/CH13.xml
@@ -8,22 +8,21 @@
 An internationalized application is one that is adaptable to the requirements of different native
 languages, local customs, and character string encodings. The process of adapting the operation
 to a particular native language, local custom, or string encoding is called localization. A goal of
-internationalization is to permit localization without program source modiﬁcations or recompila-
-tion.
+internationalization is to permit localization without program source modifications or recompilation.
 </para>
 <para>
-As one of the localization mechanisms, Xlib provides an X Input Method (<acronym>XIM</acronym>) functional inter-
-face for internationalized text input and an X Output Method (<acronym>XOM</acronym>) functional interface for
-internationalized text output.
+As one of the localization mechanisms, Xlib provides an X Input Method (<acronym>XIM</acronym>)
+functional interface for internationalized text input and an X Output Method
+(<acronym>XOM</acronym>) functional interface for internationalized text output.
 </para>
 <para>
-Internationalization in X is based on the concept of a locale. A locale deﬁnes the localized
+Internationalization in X is based on the concept of a locale. A locale defines the localized
 behavior of a program at run time. Locales affect Xlib in its:
 </para>
 
 <itemizedlist>
   <listitem><para>Encoding and processing of input method text</para></listitem>
-  <listitem><para>Encoding of resource ﬁles and values</para></listitem>
+  <listitem><para>Encoding of resource files and values</para></listitem>
   <listitem><para>Encoding and imaging of text strings</para></listitem>
   <listitem><para>Encoding and decoding for inter-client text communication</para></listitem>
 </itemizedlist>
@@ -32,22 +31,22 @@ behavior of a program at run time. Locales affect Xlib in its:
 <para>
 •
 Encoding and decoding for inter-client text communication
-Characters from various languages are represented in a computer using an encoding. Different
-languages have different encodings, and there are even different encodings for the same charac-
-ters in the same language.
+Characters from various languages are represented in a computer using an encoding.
+Different languages have different encodings, and there are even different
+encodings for the same characters in the same language.
 </para>
 <para>
-This chapter deﬁnes support for localized text imaging and text input and describes the locale
+This chapter defines support for localized text imaging and text input and describes the locale
 mechanism that controls all locale-dependent Xlib functions. Sets of functions are provided for
 multibyte (char *) text as well as wide character (wchar_t) text in the form supported by the host
 C language environment. The multibyte and wide character functions are equivalent except for
 the form of the text argument.
 </para>
 <para>
-The Xlib internationalization functions are not meant to provide support for multilingual applica-
-tions (mixing multiple languages within a single piece of text), but they make it possible to imple-
-ment applications that work in limited fashion with more than one language in independent con-
-texts.
+The Xlib internationalization functions are not meant to provide support for
+multilingual applications (mixing multiple languages within a single piece of text),
+but they make it possible to implement applications that work in limited
+fashion with more than one language in independent contexts.
 </para>
 <para>
 The remainder of this chapter discusses:
@@ -55,7 +54,7 @@ The remainder of this chapter discusses:
 
 <itemizedlist>
   <listitem><para>X locale management</para></listitem>
-  <listitem><para>Locale and modiﬁer dependencies</para></listitem>
+  <listitem><para>Locale and modifier dependencies</para></listitem>
   <listitem><para>Variable argument lists</para></listitem>
   <listitem><para>Output methods</para></listitem>
   <listitem><para>Input methods</para></listitem>
@@ -9360,10 +9359,11 @@ typedef unsigned long XIMFeedback;
 #define     XIMVisibleToBackward           (1L&lt;&lt;9)
 #define     XIMVisibleToCenter               (1L&lt;&lt;10)
 
-*† The values for XIMPrimary, XIMSecondary, and XIMTertiary were incorrectly deﬁned in
-the R5 speciﬁcation. The X Consortium’s X11R5 implementation correctly implemented the val-
-ues for these highlights. The value of these highlights has been corrected in this speciﬁcation to
-agree with the values in the Consortium’s X11R5 and X11R6 implementations.
+*† The values for XIMPrimary, XIMSecondary, and XIMTertiary were incorrectly defined in
+the R5 specification. The X Consortium’s X11R5 implementation correctly
+implemented the values for these highlights. The value of these highlights has
+been corrected in this specification to agree with the values in the
+Consortium’s X11R5 and X11R6 implementations.
 
 </literallayout>
 
diff --git a/libX11/specs/libX11/CH14.xml b/libX11/specs/libX11/CH14.xml
index 9bfbc4f1b..2baf6d5bf 100644
--- a/libX11/specs/libX11/CH14.xml
+++ b/libX11/specs/libX11/CH14.xml
@@ -7,14 +7,14 @@
 The Inter-Client Communication Conventions Manual, hereafter referred to as the <acronym>ICCCM</acronym>,
 details the X Consortium approved conventions that govern inter-client communications. These
 conventions ensure peer-to-peer client cooperation in the use of selections, cut buffers, and shared
-resources as well as client cooperation with window and session managers. For further informa-
-tion, see the Inter-Client Communication Conventions Manual.
+resources as well as client cooperation with window and session managers. For further information,
+see the Inter-Client Communication Conventions Manual.
 </para>
 <para>
-Xlib provides a number of standard properties and programming interfaces that are <acronym>ICCCM</acronym> com-
-pliant. The predeﬁned atoms for some of these properties are deﬁned in the &lt;X11/Xatom.h&gt;
-header ﬁle, where to avoid name conﬂicts with user symbols their #deﬁne name has an XA_ pre-
-ﬁx. For further information about atoms and properties, see section 4.3.
+Xlib provides a number of standard properties and programming interfaces that are <acronym>ICCCM</acronym>
+compliant. The predefined atoms for some of these properties are defined in the &lt;X11/Xatom.h&gt;
+header file, where to avoid name conflicts with user symbols their #define name has an XA_ prefix.
+For further information about atoms and properties, see section 4.3.
 </para>
 <para>
 Xlib’s selection and cut buffer mechanisms provide the primary programming interfaces by which
@@ -57,8 +57,7 @@ managers are:
       <entry>TEXT</entry>
       <entry></entry>
       <entry>The string name of the machine on
-      which the client application is run-
-      ning.
+      which the client application is running.
       </entry>
     </row>
     <row>
@@ -74,7 +73,7 @@ managers are:
       <entry><property>WM_COMMAND</property></entry>
       <entry>TEXT</entry>
       <entry></entry>
-      <entry>The command and arguments, null-
+      <entry>The command and arguments, null
       separated, used to invoke the application.
       </entry>
     </row>
@@ -134,8 +133,7 @@ managers are:
       <entry><property>WM_STATE</property></entry>
       <entry>32</entry>
       <entry>Intended for communication
-      between window and session man-
-      agers only.
+      between window and session managers only.
       </entry>
     </row>
     <row>
-- 
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