* gnat_rm.texi, gnat_ugn.texi, doc: Documentation updates and clean ups
authorArnaud Charlet <charlet@gcc.gnu.org>
Tue, 12 May 2015 15:19:25 +0000 (17:19 +0200)
committerArnaud Charlet <charlet@gcc.gnu.org>
Tue, 12 May 2015 15:19:25 +0000 (17:19 +0200)
From-SVN: r223079

gcc/ada/doc/gnat_rm/implementation_defined_aspects.rst
gcc/ada/doc/gnat_rm/implementation_defined_attributes.rst
gcc/ada/doc/gnat_rm/implementation_defined_pragmas.rst
gcc/ada/doc/gnat_rm/representation_clauses_and_pragmas.rst
gcc/ada/doc/gnat_ugn/gnat_project_manager.rst
gcc/ada/doc/gnat_ugn/gnat_utility_programs.rst
gcc/ada/gnat_rm.texi
gcc/ada/gnat_ugn.texi

index 9b9fd11442aef93a41f16a149e732b9200d5f918..5599a81413ae2ada46084b734b9d0a90e2646731 100644 (file)
@@ -201,6 +201,16 @@ characters in this context).
 See section 'Performing Dimensionality Analysis in GNAT' in the GNAT Users
 Guide for detailed examples of use of the dimension system.
 
+Aspect Disable_Controlled
+=========================
+.. index:: Disable_Controlled
+
+The aspect  `Disable_Controlled` is defined for controlled record types. If
+active, this aspect causes suppression of all related calls to `Initialize`,
+`Adjust`, and `Finalize`. The intended use is for conditional compilation,
+where for example you might want a record to be controlled or not depending on
+whether some run-time check is enabled or suppressed.
+
 Aspect Effective_Reads
 ======================
 .. index:: Effective_Reads
@@ -511,6 +521,12 @@ Aspect Value_Size
 This aspect is equivalent to a `Value_Size`
 attribute definition clause.
 
+Aspect Volatile_Full_Access
+===========================
+.. index:: Volatile_Full_Access
+
+This boolean aspect is equivalent to pragma `Volatile_Full_Access`.
+
 Aspect Warnings
 ===============
 .. index:: Warnings
index 94bb129ffd5ed7d10d185ea9e163a2f893c4b2f0..cb43587ecd939af605c27a619733186343ee8d73 100644 (file)
@@ -793,10 +793,6 @@ range).  The result is static for static subtypes.  `Range_Length`
 applied to the index subtype of a one dimensional array always gives the
 same result as `Length` applied to the array itself.
 
-Attribute Ref
-=============
-.. index:: Ref
-
 Attribute Restriction_Set
 =========================
 .. index:: Restriction_Set
index 707f76e350eb78dfe8990b693071ee2acfb6f04e..058db24357557af3e94d8f6318b76c81c0c1d538 100644 (file)
@@ -6583,6 +6583,38 @@ in some Ada 83 compilers, including DEC Ada 83.  The Ada 95 / Ada 2005
 implementation of pragma Volatile is upwards compatible with the
 implementation in DEC Ada 83.
 
+Pragma Volatile_Full_Access
+===========================
+
+Syntax:
+
+
+.. code-block:: ada
+
+  pragma Volatile_Full_Access (LOCAL_NAME);
+
+
+This is similar in effect to pragma Volatile, except that any reference to the
+object is guaranteed to be done only with instructions that read or write all
+the bits of the object. Furthermore, if the object is of a composite type,
+then any reference to a component of the object is guaranteed to read and/or
+write all the bits of the object.
+
+The intention is that this be suitable for use with memory-mapped I/O devices
+on some machines. Note that there are two important respects in which this is
+different from `pragma Atomic`. First a reference to a `Volatile_Full_Access`
+object is not a sequential action in the RM 9.10 sense and, therefore, does
+not create a synchronization point. Second, in the case of `pragma Atomic`,
+there is no guarantee that all the bits will be accessed if the reference
+is not to the whole object; the compiler is allowed (and generally will)
+access only part of the object in this case.
+
+It is not permissible to specify `Atomic` and `Volatile_Full_Access` for
+the same object.
+
+It is not permissible to specify `Volatile_Full_Access` for a composite
+(record or array) type or object that has at least one `Aliased` component.
+
 Pragma Warning_As_Error
 =======================
 
index 8cd2c0fcac7a1cf3b32f80fbd5bb733f6d8c1e1a..8d28d24fe60a417b6152872bd488101120dcce46 100644 (file)
@@ -371,10 +371,10 @@ Consider the following modified version of the above program:
 
   begin
      Put_Line (Integer'Image (V2'Size));
-     Put_Line (Integer'IMage (Size (V2)));
+     Put_Line (Integer'Image (Size (V2)));
      V2 := (True, 'x');
      Put_Line (Integer'Image (V2'Size));
-     Put_Line (Integer'IMage (Size (V2)));
+     Put_Line (Integer'Image (Size (V2)));
   end q;
 
 The output from this program is
@@ -553,11 +553,6 @@ is illegal to convert from one access subtype to the other. For a more
 complete description of this additional legality rule, see the
 description of the `Object_Size` attribute.
 
-At the implementation level, Esize stores the Object_Size and the
-RM_Size field stores the `Value_Size` (and hence the value of the
-`Size` attribute,
-which, as noted above, is equivalent to `Value_Size`).
-
 To get a feel for the difference, consider the following examples (note
 that in each case the base is `Short_Short_Integer` with a size of 8):
 
@@ -573,15 +568,17 @@ that in each case the base is `Short_Short_Integer` with a size of 8):
 +---------------------------------------------+-------------+-------------+
 |``subtype x4 is x2'base range 0 .. 10;``     |  8          |    4        |
 +---------------------------------------------+-------------+-------------+
+|``dynamic : x2'Base range -64 .. +63;``      |             |             |
++---------------------------------------------+-------------+-------------+
 |``subtype x5 is x2 range 0 .. dynamic;``     | 16          |    3*       |
 +---------------------------------------------+-------------+-------------+
-|``subtype x6 is x2'base range 0 .. dynamic;``|  8          |    3*       |
+|``subtype x6 is x2'base range 0 .. dynamic;``|  8          |    7*       |
 +---------------------------------------------+-------------+-------------+
 
-Note: the entries marked '3*' are not actually specified by the Ada
-Reference Manual, but it seems in the spirit of the RM rules to allocate
-the minimum number of bits (here 3, given the range for `x2`)
-known to be large enough to hold the given range of values.
+Note: the entries marked '*' are not actually specified by the Ada
+Reference Manual, which has nothing to say about size in the dynamic
+case. What GNAT does is to allocate sufficient bits to accomodate any
+possible dynamic values for the bounds at run-time.
 
 So far, so good, but GNAT has to obey the RM rules, so the question is
 under what conditions must the RM `Size` be used.
@@ -620,7 +617,7 @@ since it must be rounded up so that this value is a multiple of the
 alignment (4 bytes = 32 bits).
 
 For all other types, the `Object_Size`
-and Value_Size are the same (and equivalent to the RM attribute `Size`).
+and `Value_Size` are the same (and equivalent to the RM attribute `Size`).
 Only `Size` may be specified for such types.
 
 Note that `Value_Size` can be used to force biased representation
@@ -822,7 +819,7 @@ definition clause on byte ordering.  Briefly, it has no effect at all, but
 a detailed example will be helpful.  Before giving this
 example, let us review the precise
 definition of the effect of defining `Bit_Order`.  The effect of a
-non-standard bit order is described in section 15.5.3 of the Ada
+non-standard bit order is described in section 13.5.3 of the Ada
 Reference Manual:
 
    "2   A bit ordering is a method of interpreting the meaning of
@@ -840,7 +837,7 @@ this context, we visit section 13.5.1 of the manual:
 The critical point here is that storage places are taken from
 the values after normalization, not before.  So the `Bit_Order`
 interpretation applies to normalized values.  The interpretation
-is described in the later part of the 15.5.3 paragraph:
+is described in the later part of the 13.5.3 paragraph:
 
    "2   A bit ordering is a method of interpreting the meaning of
    the storage place attributes.  High_Order_First (known in the
index b4964f6c89ca244eaac49abdd4143452415e44ad..79569b0ff12531065d8953370c09c78c3db6eecd 100644 (file)
@@ -300,10 +300,7 @@ locating the specified source files in the specified source directories.
   However, when compiling a multi-language application, or a pure C
   application, the project manager must be told which languages are of
   interest, which is done by setting the **Languages** attribute to a list of
-  strings, each of which is the name of a language. Tools like
-  *gnatmake* only know about Ada, while other tools like
-  *gprbuild* know about many more languages such as C, C++, Fortran,
-  assembly and others can be added dynamically.
+  strings, each of which is the name of a language.
 
   .. index:: Naming scheme (GNAT Project Manager)
 
@@ -416,8 +413,7 @@ Its value is the path to the object directory, either absolute or
 relative to the directory containing the project file. This
 directory must already exist and be readable and writable, although
 some tools have a switch to create the directory if needed (See
-the switch `-p` for *gnatmake*
-and *gprbuild*).
+the switch `-p` for *gprbuild*).
 
 If the attribute `Object_Dir` is not specified, it defaults to
 the project directory, that is the directory containing the project file.
@@ -569,7 +565,7 @@ packages would be involved in the build process.
           for Exec_Dir use ".";
           for Main use ("proc.adb");
   
-          package Builder is  --<<<  for gnatmake and gprbuild
+          package Builder is  --<<<  for gprbuild
           end Builder;
 
           package Compiler is --<<<  for the compiler
@@ -667,7 +663,7 @@ Several attributes can be used to specify the switches:
 
 The switches for the other tools are defined in a similar manner through the
 **Default_Switches** and **Switches** attributes, respectively in the
-*Builder* package (for *gnatmake* and *gprbuild*),
+*Builder* package (for *gprbuild*),
 the *Binder* package (binding Ada executables) and the *Linker*
 package (for linking executables).
 
@@ -682,7 +678,7 @@ Here is the command we would use from the command line:
 
 .. code-block:: sh
 
-     gnatmake -Pbuild
+     gprbuild -Pbuild
   
 This will automatically build the executables specified through the
 *Main* attribute: for each, it will compile or recompile the
@@ -690,10 +686,9 @@ sources for which the object file does not exist or is not up-to-date; it
 will then run the binder; and finally run the linker to create the
 executable itself.
 
-*gnatmake* only knows how to handle Ada files. By using
-*gprbuild* as a builder, you could automatically manage C files the
+The *gprbuild* builder, can automatically manage C files the
 same way: create the file :file:`utils.c` in the :file:`common` directory,
-set the attribute *Languages* to `"(Ada, C)"`, and run
+set the attribute *Languages* to `"(Ada, C)"`, and re-run
 
 .. code-block:: sh
 
@@ -1226,16 +1221,10 @@ following algorithm, in this order; the first matching file is used:
   Such directories depend on the tool used. The locations searched in the
   specified order are:
 
-  * :file:`<prefix>/<target>/lib/gnat`
-    (for *gnatmake* in all cases, and for *gprbuild* if option
-    *--target* is specified)
-  * :file:`<prefix>/<target>/share/gpr`
-    (for *gnatmake* in all cases, and for *gprbuild* if option
-    *--target* is specified)
+  * :file:`<prefix>/<target>/lib/gnat` if option *--target* is specified
+  * :file:`<prefix>/<target>/share/gpr` if option *--target* is specified
   * :file:`<prefix>/share/gpr/`
-    (for *gnatmake* and *gprbuild*)
   * :file:`<prefix>/lib/gnat/`
-    (for *gnatmake* and *gprbuild*)
 
   In our example, :file:`gtkada.gpr` is found in the predefined directory if
   it was installed at the same root as GNAT.
@@ -1486,19 +1475,13 @@ order of priority):
 .. index:: -X (usage with GNAT Project Manager)
 
 **Command line**:
-  When launching *gnatmake* or *gprbuild*, the user can pass
+  When launching *gprbuild*, the user can pass
   extra *-X* switches to define the external value. In
   our case, the command line might look like
 
-  ::
-
-           gnatmake -Pbuild.gpr -Xmode=debug
-           
-  or
-
-  ::
+  .. code-block:: sh
 
-         gnatmake -Pbuild.gpr -Xmode=release
+         gprbuild -Pbuild.gpr -Xmode=release
     
 
 **Environment variables**:
@@ -1776,14 +1759,8 @@ of shard libraries reduces the size of the final executable and can also reduce
 the memory footprint at execution time when the library is shared among several
 executables.
 
-It is also possible to build **multi-language libraries**. When using
-*gprbuild* as a builder, multi-language library projects allow naturally
-the creation of multi-language libraries . *gnatmake*, does not try to
-compile non Ada sources. However, when the project is multi-language, it will
-automatically link all object files found in the object directory, whether or
-not they were compiled from an Ada source file. This specific behavior does not
-apply to Ada-only projects which only take into account the objects
-corresponding to the sources of the project.
+*gprbuild also allows to build **multi-language libraries** when specifying
+sources from multiple languages.
 
 A non-library project can import a library project. When the builder is invoked
 on the former, the library of the latter is only rebuilt when absolutely
@@ -1802,11 +1779,11 @@ the following two commands need to be used:
 
 .. code-block:: sh
 
-     gnatmake -Plogging.gpr
-     gnatmake -Pbuild.gpr
+     gprbuild -Plogging.gpr
+     gprbuild -Pbuild.gpr
   
 All :file:`ALI` files will also be copied from the object directory to the
-library directory. To build executables, *gnatmake* will use the
+library directory. To build executables, *gprbuild* will use the
 library rather than the individual object files.
 
 Library projects can also be useful to describe a library that needs to be used
@@ -2307,8 +2284,7 @@ Very often, modules will build their own executables (for testing
 purposes for instance), or libraries (for easier reuse in various
 contexts).
 
-However, if you build your project through *gnatmake* or
-*gprbuild*, using a syntax similar to
+However, if you build your project through *gprbuild*, using a syntax similar to
 
 ::
 
@@ -2316,9 +2292,9 @@ However, if you build your project through *gnatmake* or
   
 this will only rebuild the main programs of project A, not those of the
 imported projects B and C. Therefore you have to spawn several
-*gnatmake* commands, one per project, to build all executables.
+*gprbuild* commands, one per project, to build all executables.
 This is a little inconvenient, but more importantly is inefficient
-because *gnatmake* needs to do duplicate work to ensure that sources are
+because *gprbuild* needs to do duplicate work to ensure that sources are
 up-to-date, and cannot easily compile things in parallel when using
 the -j switch.
 
@@ -2349,10 +2325,6 @@ aggregate project, you will need to add "p.gpr" in the list of project
 files for the aggregate project, or the main will not be built when
 building the aggregate project.
 
-Aggregate projects are supported only with *gprbuild*, not with
-*gnatmake*.
-
-
 .. _Building_a_set_of_projects_with_a_single_command:
 
 Building a set of projects with a single command
@@ -2463,7 +2435,7 @@ once.
 Since there is no ambiguity as to which switches should be used, files
 can be compiled in parallel (through the usual -j switch) and this can
 be done while maximizing the use of CPUs (compared to launching
-multiple *gprbuild* and *gnatmake* commands in parallel).
+multiple *gprbuild* commands in parallel).
 
 
 .. _Syntax_of_aggregate_projects:
@@ -3118,8 +3090,8 @@ The following packages are currently supported in project files
 
 *Binder*
   This package specifies characteristics useful when invoking the binder either
-  directly via the *gnat* driver or when using a builder such as
-  *gnatmake* or *gprbuild*. See :ref:`Main_Subprograms`.
+  directly via the *gnat* driver or when using *gprbuild*.
+  See :ref:`Main_Subprograms`.
 
 *Builder*
   This package specifies the compilation options used when building an
@@ -3353,7 +3325,7 @@ External Values
 
 An external value is an expression whose value is obtained from the command
 that invoked the processing of the current project file (typically a
-*gnatmake* or *gprbuild* command).
+*gprbuild* command).
 
 There are two kinds of external values, one that returns a single string, and
 one that returns a string list.
@@ -4576,9 +4548,9 @@ Package IDE Attributes
 * **Compiler_Command**: single, indexed, case-insensitive index
 
   Index is a language Name. Value is a string that denotes the command to be
-  used to invoke the compiler. The value of `Compiler_Command ("Ada")` is
-  expected to be compatible with *gnatmake*, in particular in
-  the handling of switches.
+  used to invoke the compiler. For historical reasons, the value of
+  `Compiler_Command ("Ada")` is expected to be a reference to *gnatmake* or
+  *cross-gnatmake*.
 
 * **Debugger_Command**: single
 
index cbbebad1b3d464897bbba3b2b9367b8e1b2a7851..2694fef667d9db7d9f677f35a8b0daa719b66c31 100644 (file)
@@ -4983,5 +4983,6 @@ Alternatively, you may run the script using the following command line:
 
   * generic tests for nested generic packages and their instantiations
   * tests for protected subprograms and entries
+  * pragma No_Run_Time
   * if pragmas for C and C++ interaction are used, manual adjustments might be
     necessary to make the test driver compilable
index 5d523d134fb52ee82246d65d0d07336b91e383f5..281cb382bd7c5b1cf4b9c9393a071ed7d07f19db 100644 (file)
@@ -21,7 +21,7 @@
 
 @copying
 @quotation
-GNAT Reference Manual , March 24, 2015
+GNAT Reference Manual , May 12, 2015
 
 AdaCore
 
@@ -283,6 +283,7 @@ Implementation Defined Pragmas
 * Pragma Use_VADS_Size:: 
 * Pragma Validity_Checks:: 
 * Pragma Volatile:: 
+* Pragma Volatile_Full_Access:: 
 * Pragma Warning_As_Error:: 
 * Pragma Warnings:: 
 * Pragma Weak_External:: 
@@ -298,6 +299,7 @@ Implementation Defined Aspects
 * Aspect Depends:: 
 * Aspect Dimension:: 
 * Aspect Dimension_System:: 
+* Aspect Disable_Controlled:: 
 * Aspect Effective_Reads:: 
 * Aspect Effective_Writes:: 
 * Aspect Favor_Top_Level:: 
@@ -338,6 +340,7 @@ Implementation Defined Aspects
 * Aspect Unreferenced:: 
 * Aspect Unreferenced_Objects:: 
 * Aspect Value_Size:: 
+* Aspect Volatile_Full_Access:: 
 * Aspect Warnings:: 
 
 Implementation Defined Attributes
@@ -388,7 +391,6 @@ Implementation Defined Attributes
 * Attribute Passed_By_Reference:: 
 * Attribute Pool_Address:: 
 * Attribute Range_Length:: 
-* Attribute Ref:: 
 * Attribute Restriction_Set:: 
 * Attribute Result:: 
 * Attribute Safe_Emax:: 
@@ -1315,6 +1317,7 @@ consideration, the use of these pragmas should be minimized.
 * Pragma Use_VADS_Size:: 
 * Pragma Validity_Checks:: 
 * Pragma Volatile:: 
+* Pragma Volatile_Full_Access:: 
 * Pragma Warning_As_Error:: 
 * Pragma Warnings:: 
 * Pragma Weak_External:: 
@@ -8008,7 +8011,7 @@ pragma Validity_Checks (On);  -- turn validity checks back on
 A := C;                       -- C will be validity checked
 @end example
 
-@node Pragma Volatile,Pragma Warning_As_Error,Pragma Validity_Checks,Implementation Defined Pragmas
+@node Pragma Volatile,Pragma Volatile_Full_Access,Pragma Validity_Checks,Implementation Defined Pragmas
 @anchor{gnat_rm/implementation_defined_pragmas pragma-volatile}@anchor{db}
 @section Pragma Volatile
 
@@ -8026,8 +8029,40 @@ in some Ada 83 compilers, including DEC Ada 83.  The Ada 95 / Ada 2005
 implementation of pragma Volatile is upwards compatible with the
 implementation in DEC Ada 83.
 
-@node Pragma Warning_As_Error,Pragma Warnings,Pragma Volatile,Implementation Defined Pragmas
-@anchor{gnat_rm/implementation_defined_pragmas pragma-warning-as-error}@anchor{dc}
+@node Pragma Volatile_Full_Access,Pragma Warning_As_Error,Pragma Volatile,Implementation Defined Pragmas
+@anchor{gnat_rm/implementation_defined_pragmas pragma-volatile-full-access}@anchor{dc}
+@section Pragma Volatile_Full_Access
+
+
+Syntax:
+
+@example
+pragma Volatile_Full_Access (LOCAL_NAME);
+@end example
+
+This is similar in effect to pragma Volatile, except that any reference to the
+object is guaranteed to be done only with instructions that read or write all
+the bits of the object. Furthermore, if the object is of a composite type,
+then any reference to a component of the object is guaranteed to read and/or
+write all the bits of the object.
+
+The intention is that this be suitable for use with memory-mapped I/O devices
+on some machines. Note that there are two important respects in which this is
+different from @cite{pragma Atomic}. First a reference to a @cite{Volatile_Full_Access}
+object is not a sequential action in the RM 9.10 sense and, therefore, does
+not create a synchronization point. Second, in the case of @cite{pragma Atomic},
+there is no guarantee that all the bits will be accessed if the reference
+is not to the whole object; the compiler is allowed (and generally will)
+access only part of the object in this case.
+
+It is not permissible to specify @cite{Atomic} and @cite{Volatile_Full_Access} for
+the same object.
+
+It is not permissible to specify @cite{Volatile_Full_Access} for a composite
+(record or array) type or object that has at least one @cite{Aliased} component.
+
+@node Pragma Warning_As_Error,Pragma Warnings,Pragma Volatile_Full_Access,Implementation Defined Pragmas
+@anchor{gnat_rm/implementation_defined_pragmas pragma-warning-as-error}@anchor{dd}
 @section Pragma Warning_As_Error
 
 
@@ -8062,7 +8097,7 @@ as shown in the example below, to treat a class of warnings as errors.
 
 The above use of patterns to match the message applies only to warning
 messages generated by the front end. This pragma can also be applied to
-warnings provided by the back end and mentioned in @ref{dd,,Pragma Warnings}.
+warnings provided by the back end and mentioned in @ref{de,,Pragma Warnings}.
 By using a single full @emph{-Wxxx} switch in the pragma, such warnings
 can also be treated as errors.
 
@@ -8112,7 +8147,7 @@ the tag is changed from "warning:" to "error:" and the string
 "[warning-as-error]" is appended to the end of the message.
 
 @node Pragma Warnings,Pragma Weak_External,Pragma Warning_As_Error,Implementation Defined Pragmas
-@anchor{gnat_rm/implementation_defined_pragmas id5}@anchor{de}@anchor{gnat_rm/implementation_defined_pragmas pragma-warnings}@anchor{dd}
+@anchor{gnat_rm/implementation_defined_pragmas id5}@anchor{df}@anchor{gnat_rm/implementation_defined_pragmas pragma-warnings}@anchor{de}
 @section Pragma Warnings
 
 
@@ -8264,7 +8299,7 @@ selectively for each tool, and as a consequence to detect useless pragma
 Warnings with switch @cite{-gnatw.w}.
 
 @node Pragma Weak_External,Pragma Wide_Character_Encoding,Pragma Warnings,Implementation Defined Pragmas
-@anchor{gnat_rm/implementation_defined_pragmas pragma-weak-external}@anchor{df}
+@anchor{gnat_rm/implementation_defined_pragmas pragma-weak-external}@anchor{e0}
 @section Pragma Weak_External
 
 
@@ -8315,7 +8350,7 @@ end External_Module;
 @end example
 
 @node Pragma Wide_Character_Encoding,,Pragma Weak_External,Implementation Defined Pragmas
-@anchor{gnat_rm/implementation_defined_pragmas pragma-wide-character-encoding}@anchor{e0}
+@anchor{gnat_rm/implementation_defined_pragmas pragma-wide-character-encoding}@anchor{e1}
 @section Pragma Wide_Character_Encoding
 
 
@@ -8342,7 +8377,7 @@ encoding within that file, and does not affect withed units, specs,
 or subunits.
 
 @node Implementation Defined Aspects,Implementation Defined Attributes,Implementation Defined Pragmas,Top
-@anchor{gnat_rm/implementation_defined_aspects implementation-defined-aspects}@anchor{e1}@anchor{gnat_rm/implementation_defined_aspects doc}@anchor{e2}@anchor{gnat_rm/implementation_defined_aspects id1}@anchor{e3}
+@anchor{gnat_rm/implementation_defined_aspects implementation-defined-aspects}@anchor{e2}@anchor{gnat_rm/implementation_defined_aspects doc}@anchor{e3}@anchor{gnat_rm/implementation_defined_aspects id1}@anchor{e4}
 @chapter Implementation Defined Aspects
 
 
@@ -8405,6 +8440,7 @@ or attribute definition clause.
 * Aspect Depends:: 
 * Aspect Dimension:: 
 * Aspect Dimension_System:: 
+* Aspect Disable_Controlled:: 
 * Aspect Effective_Reads:: 
 * Aspect Effective_Writes:: 
 * Aspect Favor_Top_Level:: 
@@ -8445,12 +8481,13 @@ or attribute definition clause.
 * Aspect Unreferenced:: 
 * Aspect Unreferenced_Objects:: 
 * Aspect Value_Size:: 
+* Aspect Volatile_Full_Access:: 
 * Aspect Warnings:: 
 
 @end menu
 
 @node Aspect Abstract_State,Annotate,,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-abstract-state}@anchor{e4}
+@anchor{gnat_rm/implementation_defined_aspects aspect-abstract-state}@anchor{e5}
 @section Aspect Abstract_State
 
 
@@ -8459,7 +8496,7 @@ or attribute definition clause.
 This aspect is equivalent to pragma @cite{Abstract_State}.
 
 @node Annotate,Aspect Async_Readers,Aspect Abstract_State,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects annotate}@anchor{e5}
+@anchor{gnat_rm/implementation_defined_aspects annotate}@anchor{e6}
 @section Annotate
 
 
@@ -8485,7 +8522,7 @@ Equivalent to @cite{pragma Annotate (ID@comma{} ID @{@comma{} ARG@}@comma{} Enti
 @end table
 
 @node Aspect Async_Readers,Aspect Async_Writers,Annotate,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-async-readers}@anchor{e6}
+@anchor{gnat_rm/implementation_defined_aspects aspect-async-readers}@anchor{e7}
 @section Aspect Async_Readers
 
 
@@ -8494,7 +8531,7 @@ Equivalent to @cite{pragma Annotate (ID@comma{} ID @{@comma{} ARG@}@comma{} Enti
 This boolean aspect is equivalent to pragma @cite{Async_Readers}.
 
 @node Aspect Async_Writers,Aspect Contract_Cases,Aspect Async_Readers,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-async-writers}@anchor{e7}
+@anchor{gnat_rm/implementation_defined_aspects aspect-async-writers}@anchor{e8}
 @section Aspect Async_Writers
 
 
@@ -8503,7 +8540,7 @@ This boolean aspect is equivalent to pragma @cite{Async_Readers}.
 This boolean aspect is equivalent to pragma @cite{Async_Writers}.
 
 @node Aspect Contract_Cases,Aspect Depends,Aspect Async_Writers,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-contract-cases}@anchor{e8}
+@anchor{gnat_rm/implementation_defined_aspects aspect-contract-cases}@anchor{e9}
 @section Aspect Contract_Cases
 
 
@@ -8514,7 +8551,7 @@ of clauses being enclosed in parentheses so that syntactically it is an
 aggregate.
 
 @node Aspect Depends,Aspect Dimension,Aspect Contract_Cases,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-depends}@anchor{e9}
+@anchor{gnat_rm/implementation_defined_aspects aspect-depends}@anchor{ea}
 @section Aspect Depends
 
 
@@ -8523,7 +8560,7 @@ aggregate.
 This aspect is equivalent to pragma @cite{Depends}.
 
 @node Aspect Dimension,Aspect Dimension_System,Aspect Depends,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-dimension}@anchor{ea}
+@anchor{gnat_rm/implementation_defined_aspects aspect-dimension}@anchor{eb}
 @section Aspect Dimension
 
 
@@ -8558,8 +8595,8 @@ of this aspect, see package @cite{System.Dim.Mks}.
 Note that when the dimensioned type is an integer type, then any
 dimension value must be an integer literal.
 
-@node Aspect Dimension_System,Aspect Effective_Reads,Aspect Dimension,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-dimension-system}@anchor{eb}
+@node Aspect Dimension_System,Aspect Disable_Controlled,Aspect Dimension,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-dimension-system}@anchor{ec}
 @section Aspect Dimension_System
 
 
@@ -8618,8 +8655,21 @@ characters in this context).
 See section 'Performing Dimensionality Analysis in GNAT' in the GNAT Users
 Guide for detailed examples of use of the dimension system.
 
-@node Aspect Effective_Reads,Aspect Effective_Writes,Aspect Dimension_System,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-effective-reads}@anchor{ec}
+@node Aspect Disable_Controlled,Aspect Effective_Reads,Aspect Dimension_System,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-disable-controlled}@anchor{ed}
+@section Aspect Disable_Controlled
+
+
+@geindex Disable_Controlled
+
+The aspect  @cite{Disable_Controlled} is defined for controlled record types. If
+active, this aspect causes suppression of all related calls to @cite{Initialize},
+@cite{Adjust}, and @cite{Finalize}. The intended use is for conditional compilation,
+where for example you might want a record to be controlled or not depending on
+whether some run-time check is enabled or suppressed.
+
+@node Aspect Effective_Reads,Aspect Effective_Writes,Aspect Disable_Controlled,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-effective-reads}@anchor{ee}
 @section Aspect Effective_Reads
 
 
@@ -8628,7 +8678,7 @@ Guide for detailed examples of use of the dimension system.
 This aspect is equivalent to pragma @cite{Effective_Reads}.
 
 @node Aspect Effective_Writes,Aspect Favor_Top_Level,Aspect Effective_Reads,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-effective-writes}@anchor{ed}
+@anchor{gnat_rm/implementation_defined_aspects aspect-effective-writes}@anchor{ef}
 @section Aspect Effective_Writes
 
 
@@ -8637,7 +8687,7 @@ This aspect is equivalent to pragma @cite{Effective_Reads}.
 This aspect is equivalent to pragma @cite{Effective_Writes}.
 
 @node Aspect Favor_Top_Level,Aspect Global,Aspect Effective_Writes,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-favor-top-level}@anchor{ee}
+@anchor{gnat_rm/implementation_defined_aspects aspect-favor-top-level}@anchor{f0}
 @section Aspect Favor_Top_Level
 
 
@@ -8646,7 +8696,7 @@ This aspect is equivalent to pragma @cite{Effective_Writes}.
 This boolean aspect is equivalent to pragma @cite{Favor_Top_Level}.
 
 @node Aspect Global,Aspect Initial_Condition,Aspect Favor_Top_Level,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-global}@anchor{ef}
+@anchor{gnat_rm/implementation_defined_aspects aspect-global}@anchor{f1}
 @section Aspect Global
 
 
@@ -8655,7 +8705,7 @@ This boolean aspect is equivalent to pragma @cite{Favor_Top_Level}.
 This aspect is equivalent to pragma @cite{Global}.
 
 @node Aspect Initial_Condition,Aspect Initializes,Aspect Global,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-initial-condition}@anchor{f0}
+@anchor{gnat_rm/implementation_defined_aspects aspect-initial-condition}@anchor{f2}
 @section Aspect Initial_Condition
 
 
@@ -8664,7 +8714,7 @@ This aspect is equivalent to pragma @cite{Global}.
 This aspect is equivalent to pragma @cite{Initial_Condition}.
 
 @node Aspect Initializes,Aspect Inline_Always,Aspect Initial_Condition,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-initializes}@anchor{f1}
+@anchor{gnat_rm/implementation_defined_aspects aspect-initializes}@anchor{f3}
 @section Aspect Initializes
 
 
@@ -8673,7 +8723,7 @@ This aspect is equivalent to pragma @cite{Initial_Condition}.
 This aspect is equivalent to pragma @cite{Initializes}.
 
 @node Aspect Inline_Always,Aspect Invariant,Aspect Initializes,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-inline-always}@anchor{f2}
+@anchor{gnat_rm/implementation_defined_aspects aspect-inline-always}@anchor{f4}
 @section Aspect Inline_Always
 
 
@@ -8682,7 +8732,7 @@ This aspect is equivalent to pragma @cite{Initializes}.
 This boolean aspect is equivalent to pragma @cite{Inline_Always}.
 
 @node Aspect Invariant,Aspect Invariant'Class,Aspect Inline_Always,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-invariant}@anchor{f3}
+@anchor{gnat_rm/implementation_defined_aspects aspect-invariant}@anchor{f5}
 @section Aspect Invariant
 
 
@@ -8693,7 +8743,7 @@ synonym for the language defined aspect @cite{Type_Invariant} except
 that it is separately controllable using pragma @cite{Assertion_Policy}.
 
 @node Aspect Invariant'Class,Aspect Iterable,Aspect Invariant,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-invariant-class}@anchor{f4}
+@anchor{gnat_rm/implementation_defined_aspects aspect-invariant-class}@anchor{f6}
 @section Aspect Invariant'Class
 
 
@@ -8704,7 +8754,7 @@ synonym for the language defined aspect @cite{Type_Invariant'Class} except
 that it is separately controllable using pragma @cite{Assertion_Policy}.
 
 @node Aspect Iterable,Aspect Linker_Section,Aspect Invariant'Class,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-iterable}@anchor{f5}
+@anchor{gnat_rm/implementation_defined_aspects aspect-iterable}@anchor{f7}
 @section Aspect Iterable
 
 
@@ -8780,7 +8830,7 @@ function Get_Element (Cont : Container; Position : Cursor) return Element_Type;
 This aspect is used in the GNAT-defined formal container packages.
 
 @node Aspect Linker_Section,Aspect Lock_Free,Aspect Iterable,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-linker-section}@anchor{f6}
+@anchor{gnat_rm/implementation_defined_aspects aspect-linker-section}@anchor{f8}
 @section Aspect Linker_Section
 
 
@@ -8789,7 +8839,7 @@ This aspect is used in the GNAT-defined formal container packages.
 This aspect is equivalent to an @cite{Linker_Section} pragma.
 
 @node Aspect Lock_Free,Aspect No_Elaboration_Code_All,Aspect Linker_Section,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-lock-free}@anchor{f7}
+@anchor{gnat_rm/implementation_defined_aspects aspect-lock-free}@anchor{f9}
 @section Aspect Lock_Free
 
 
@@ -8798,7 +8848,7 @@ This aspect is equivalent to an @cite{Linker_Section} pragma.
 This boolean aspect is equivalent to pragma @cite{Lock_Free}.
 
 @node Aspect No_Elaboration_Code_All,Aspect No_Tagged_Streams,Aspect Lock_Free,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-no-elaboration-code-all}@anchor{f8}
+@anchor{gnat_rm/implementation_defined_aspects aspect-no-elaboration-code-all}@anchor{fa}
 @section Aspect No_Elaboration_Code_All
 
 
@@ -8808,7 +8858,7 @@ This aspect is equivalent to a @cite{pragma No_Elaboration_Code_All}
 statement for a program unit.
 
 @node Aspect No_Tagged_Streams,Aspect Object_Size,Aspect No_Elaboration_Code_All,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-no-tagged-streams}@anchor{f9}
+@anchor{gnat_rm/implementation_defined_aspects aspect-no-tagged-streams}@anchor{fb}
 @section Aspect No_Tagged_Streams
 
 
@@ -8819,7 +8869,7 @@ argument specifying a root tagged type (thus this aspect can only be
 applied to such a type).
 
 @node Aspect Object_Size,Aspect Obsolescent,Aspect No_Tagged_Streams,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-object-size}@anchor{fa}
+@anchor{gnat_rm/implementation_defined_aspects aspect-object-size}@anchor{fc}
 @section Aspect Object_Size
 
 
@@ -8829,7 +8879,7 @@ This aspect is equivalent to an @cite{Object_Size} attribute definition
 clause.
 
 @node Aspect Obsolescent,Aspect Part_Of,Aspect Object_Size,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-obsolescent}@anchor{fb}
+@anchor{gnat_rm/implementation_defined_aspects aspect-obsolescent}@anchor{fd}
 @section Aspect Obsolescent
 
 
@@ -8840,7 +8890,7 @@ evaluation of this aspect happens at the point of occurrence, it is not
 delayed until the freeze point.
 
 @node Aspect Part_Of,Aspect Persistent_BSS,Aspect Obsolescent,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-part-of}@anchor{fc}
+@anchor{gnat_rm/implementation_defined_aspects aspect-part-of}@anchor{fe}
 @section Aspect Part_Of
 
 
@@ -8849,7 +8899,7 @@ delayed until the freeze point.
 This aspect is equivalent to pragma @cite{Part_Of}.
 
 @node Aspect Persistent_BSS,Aspect Predicate,Aspect Part_Of,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-persistent-bss}@anchor{fd}
+@anchor{gnat_rm/implementation_defined_aspects aspect-persistent-bss}@anchor{ff}
 @section Aspect Persistent_BSS
 
 
@@ -8858,7 +8908,7 @@ This aspect is equivalent to pragma @cite{Part_Of}.
 This boolean aspect is equivalent to pragma @cite{Persistent_BSS}.
 
 @node Aspect Predicate,Aspect Pure_Function,Aspect Persistent_BSS,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-predicate}@anchor{fe}
+@anchor{gnat_rm/implementation_defined_aspects aspect-predicate}@anchor{100}
 @section Aspect Predicate
 
 
@@ -8872,7 +8922,7 @@ expression. It is also separately controllable using pragma
 @cite{Assertion_Policy}.
 
 @node Aspect Pure_Function,Aspect Refined_Depends,Aspect Predicate,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-pure-function}@anchor{ff}
+@anchor{gnat_rm/implementation_defined_aspects aspect-pure-function}@anchor{101}
 @section Aspect Pure_Function
 
 
@@ -8881,7 +8931,7 @@ expression. It is also separately controllable using pragma
 This boolean aspect is equivalent to pragma @cite{Pure_Function}.
 
 @node Aspect Refined_Depends,Aspect Refined_Global,Aspect Pure_Function,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-refined-depends}@anchor{100}
+@anchor{gnat_rm/implementation_defined_aspects aspect-refined-depends}@anchor{102}
 @section Aspect Refined_Depends
 
 
@@ -8890,7 +8940,7 @@ This boolean aspect is equivalent to pragma @cite{Pure_Function}.
 This aspect is equivalent to pragma @cite{Refined_Depends}.
 
 @node Aspect Refined_Global,Aspect Refined_Post,Aspect Refined_Depends,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-refined-global}@anchor{101}
+@anchor{gnat_rm/implementation_defined_aspects aspect-refined-global}@anchor{103}
 @section Aspect Refined_Global
 
 
@@ -8899,7 +8949,7 @@ This aspect is equivalent to pragma @cite{Refined_Depends}.
 This aspect is equivalent to pragma @cite{Refined_Global}.
 
 @node Aspect Refined_Post,Aspect Refined_State,Aspect Refined_Global,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-refined-post}@anchor{102}
+@anchor{gnat_rm/implementation_defined_aspects aspect-refined-post}@anchor{104}
 @section Aspect Refined_Post
 
 
@@ -8908,7 +8958,7 @@ This aspect is equivalent to pragma @cite{Refined_Global}.
 This aspect is equivalent to pragma @cite{Refined_Post}.
 
 @node Aspect Refined_State,Aspect Remote_Access_Type,Aspect Refined_Post,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-refined-state}@anchor{103}
+@anchor{gnat_rm/implementation_defined_aspects aspect-refined-state}@anchor{105}
 @section Aspect Refined_State
 
 
@@ -8917,7 +8967,7 @@ This aspect is equivalent to pragma @cite{Refined_Post}.
 This aspect is equivalent to pragma @cite{Refined_State}.
 
 @node Aspect Remote_Access_Type,Aspect Scalar_Storage_Order,Aspect Refined_State,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-remote-access-type}@anchor{104}
+@anchor{gnat_rm/implementation_defined_aspects aspect-remote-access-type}@anchor{106}
 @section Aspect Remote_Access_Type
 
 
@@ -8926,7 +8976,7 @@ This aspect is equivalent to pragma @cite{Refined_State}.
 This aspect is equivalent to pragma @cite{Remote_Access_Type}.
 
 @node Aspect Scalar_Storage_Order,Aspect Shared,Aspect Remote_Access_Type,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-scalar-storage-order}@anchor{105}
+@anchor{gnat_rm/implementation_defined_aspects aspect-scalar-storage-order}@anchor{107}
 @section Aspect Scalar_Storage_Order
 
 
@@ -8936,7 +8986,7 @@ This aspect is equivalent to a @cite{Scalar_Storage_Order}
 attribute definition clause.
 
 @node Aspect Shared,Aspect Simple_Storage_Pool,Aspect Scalar_Storage_Order,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-shared}@anchor{106}
+@anchor{gnat_rm/implementation_defined_aspects aspect-shared}@anchor{108}
 @section Aspect Shared
 
 
@@ -8946,7 +8996,7 @@ This boolean aspect is equivalent to pragma @cite{Shared},
 and is thus a synonym for aspect @cite{Atomic}.
 
 @node Aspect Simple_Storage_Pool,Aspect Simple_Storage_Pool_Type,Aspect Shared,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-simple-storage-pool}@anchor{107}
+@anchor{gnat_rm/implementation_defined_aspects aspect-simple-storage-pool}@anchor{109}
 @section Aspect Simple_Storage_Pool
 
 
@@ -8956,7 +9006,7 @@ This aspect is equivalent to a @cite{Simple_Storage_Pool}
 attribute definition clause.
 
 @node Aspect Simple_Storage_Pool_Type,Aspect SPARK_Mode,Aspect Simple_Storage_Pool,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-simple-storage-pool-type}@anchor{108}
+@anchor{gnat_rm/implementation_defined_aspects aspect-simple-storage-pool-type}@anchor{10a}
 @section Aspect Simple_Storage_Pool_Type
 
 
@@ -8965,7 +9015,7 @@ attribute definition clause.
 This boolean aspect is equivalent to pragma @cite{Simple_Storage_Pool_Type}.
 
 @node Aspect SPARK_Mode,Aspect Suppress_Debug_Info,Aspect Simple_Storage_Pool_Type,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-spark-mode}@anchor{109}
+@anchor{gnat_rm/implementation_defined_aspects aspect-spark-mode}@anchor{10b}
 @section Aspect SPARK_Mode
 
 
@@ -8976,7 +9026,7 @@ may be specified for either or both of the specification and body
 of a subprogram or package.
 
 @node Aspect Suppress_Debug_Info,Aspect Suppress_Initialization,Aspect SPARK_Mode,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-suppress-debug-info}@anchor{10a}
+@anchor{gnat_rm/implementation_defined_aspects aspect-suppress-debug-info}@anchor{10c}
 @section Aspect Suppress_Debug_Info
 
 
@@ -8985,7 +9035,7 @@ of a subprogram or package.
 This boolean aspect is equivalent to pragma @cite{Suppress_Debug_Info}.
 
 @node Aspect Suppress_Initialization,Aspect Test_Case,Aspect Suppress_Debug_Info,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-suppress-initialization}@anchor{10b}
+@anchor{gnat_rm/implementation_defined_aspects aspect-suppress-initialization}@anchor{10d}
 @section Aspect Suppress_Initialization
 
 
@@ -8994,7 +9044,7 @@ This boolean aspect is equivalent to pragma @cite{Suppress_Debug_Info}.
 This boolean aspect is equivalent to pragma @cite{Suppress_Initialization}.
 
 @node Aspect Test_Case,Aspect Thread_Local_Storage,Aspect Suppress_Initialization,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-test-case}@anchor{10c}
+@anchor{gnat_rm/implementation_defined_aspects aspect-test-case}@anchor{10e}
 @section Aspect Test_Case
 
 
@@ -9003,7 +9053,7 @@ This boolean aspect is equivalent to pragma @cite{Suppress_Initialization}.
 This aspect is equivalent to pragma @cite{Test_Case}.
 
 @node Aspect Thread_Local_Storage,Aspect Universal_Aliasing,Aspect Test_Case,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-thread-local-storage}@anchor{10d}
+@anchor{gnat_rm/implementation_defined_aspects aspect-thread-local-storage}@anchor{10f}
 @section Aspect Thread_Local_Storage
 
 
@@ -9012,7 +9062,7 @@ This aspect is equivalent to pragma @cite{Test_Case}.
 This boolean aspect is equivalent to pragma @cite{Thread_Local_Storage}.
 
 @node Aspect Universal_Aliasing,Aspect Universal_Data,Aspect Thread_Local_Storage,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-universal-aliasing}@anchor{10e}
+@anchor{gnat_rm/implementation_defined_aspects aspect-universal-aliasing}@anchor{110}
 @section Aspect Universal_Aliasing
 
 
@@ -9021,7 +9071,7 @@ This boolean aspect is equivalent to pragma @cite{Thread_Local_Storage}.
 This boolean aspect is equivalent to pragma @cite{Universal_Aliasing}.
 
 @node Aspect Universal_Data,Aspect Unmodified,Aspect Universal_Aliasing,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-universal-data}@anchor{10f}
+@anchor{gnat_rm/implementation_defined_aspects aspect-universal-data}@anchor{111}
 @section Aspect Universal_Data
 
 
@@ -9030,7 +9080,7 @@ This boolean aspect is equivalent to pragma @cite{Universal_Aliasing}.
 This aspect is equivalent to pragma @cite{Universal_Data}.
 
 @node Aspect Unmodified,Aspect Unreferenced,Aspect Universal_Data,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-unmodified}@anchor{110}
+@anchor{gnat_rm/implementation_defined_aspects aspect-unmodified}@anchor{112}
 @section Aspect Unmodified
 
 
@@ -9039,7 +9089,7 @@ This aspect is equivalent to pragma @cite{Universal_Data}.
 This boolean aspect is equivalent to pragma @cite{Unmodified}.
 
 @node Aspect Unreferenced,Aspect Unreferenced_Objects,Aspect Unmodified,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-unreferenced}@anchor{111}
+@anchor{gnat_rm/implementation_defined_aspects aspect-unreferenced}@anchor{113}
 @section Aspect Unreferenced
 
 
@@ -9050,7 +9100,7 @@ in the case of formal parameters, it is not permitted to have aspects for
 a formal parameter, so in this case the pragma form must be used.
 
 @node Aspect Unreferenced_Objects,Aspect Value_Size,Aspect Unreferenced,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-unreferenced-objects}@anchor{112}
+@anchor{gnat_rm/implementation_defined_aspects aspect-unreferenced-objects}@anchor{114}
 @section Aspect Unreferenced_Objects
 
 
@@ -9058,8 +9108,8 @@ a formal parameter, so in this case the pragma form must be used.
 
 This boolean aspect is equivalent to pragma @cite{Unreferenced_Objects}.
 
-@node Aspect Value_Size,Aspect Warnings,Aspect Unreferenced_Objects,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-value-size}@anchor{113}
+@node Aspect Value_Size,Aspect Volatile_Full_Access,Aspect Unreferenced_Objects,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-value-size}@anchor{115}
 @section Aspect Value_Size
 
 
@@ -9068,8 +9118,17 @@ This boolean aspect is equivalent to pragma @cite{Unreferenced_Objects}.
 This aspect is equivalent to a @cite{Value_Size}
 attribute definition clause.
 
-@node Aspect Warnings,,Aspect Value_Size,Implementation Defined Aspects
-@anchor{gnat_rm/implementation_defined_aspects aspect-warnings}@anchor{114}
+@node Aspect Volatile_Full_Access,Aspect Warnings,Aspect Value_Size,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-volatile-full-access}@anchor{116}
+@section Aspect Volatile_Full_Access
+
+
+@geindex Volatile_Full_Access
+
+This boolean aspect is equivalent to pragma @cite{Volatile_Full_Access}.
+
+@node Aspect Warnings,,Aspect Volatile_Full_Access,Implementation Defined Aspects
+@anchor{gnat_rm/implementation_defined_aspects aspect-warnings}@anchor{117}
 @section Aspect Warnings
 
 
@@ -9080,7 +9139,7 @@ where the first argument is @cite{ON} or @cite{OFF} and the second argument
 is the entity.
 
 @node Implementation Defined Attributes,Standard and Implementation Defined Restrictions,Implementation Defined Aspects,Top
-@anchor{gnat_rm/implementation_defined_attributes doc}@anchor{115}@anchor{gnat_rm/implementation_defined_attributes implementation-defined-attributes}@anchor{8}@anchor{gnat_rm/implementation_defined_attributes id1}@anchor{116}
+@anchor{gnat_rm/implementation_defined_attributes doc}@anchor{118}@anchor{gnat_rm/implementation_defined_attributes implementation-defined-attributes}@anchor{8}@anchor{gnat_rm/implementation_defined_attributes id1}@anchor{119}
 @chapter Implementation Defined Attributes
 
 
@@ -9150,7 +9209,6 @@ consideration, you should minimize the use of these attributes.
 * Attribute Passed_By_Reference:: 
 * Attribute Pool_Address:: 
 * Attribute Range_Length:: 
-* Attribute Ref:: 
 * Attribute Restriction_Set:: 
 * Attribute Result:: 
 * Attribute Safe_Emax:: 
@@ -9182,7 +9240,7 @@ consideration, you should minimize the use of these attributes.
 @end menu
 
 @node Attribute Abort_Signal,Attribute Address_Size,,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-abort-signal}@anchor{117}
+@anchor{gnat_rm/implementation_defined_attributes attribute-abort-signal}@anchor{11a}
 @section Attribute Abort_Signal
 
 
@@ -9196,7 +9254,7 @@ completely outside the normal semantics of Ada, for a user program to
 intercept the abort exception).
 
 @node Attribute Address_Size,Attribute Asm_Input,Attribute Abort_Signal,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-address-size}@anchor{118}
+@anchor{gnat_rm/implementation_defined_attributes attribute-address-size}@anchor{11b}
 @section Attribute Address_Size
 
 
@@ -9212,7 +9270,7 @@ reference to System.Address'Size is non-static because Address
 is a private type.
 
 @node Attribute Asm_Input,Attribute Asm_Output,Attribute Address_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-asm-input}@anchor{119}
+@anchor{gnat_rm/implementation_defined_attributes attribute-asm-input}@anchor{11c}
 @section Attribute Asm_Input
 
 
@@ -9226,10 +9284,10 @@ to be a static expression, and is the constraint for the parameter,
 value to be used as the input argument.  The possible values for the
 constant are the same as those used in the RTL, and are dependent on
 the configuration file used to built the GCC back end.
-@ref{11a,,Machine Code Insertions}
+@ref{11d,,Machine Code Insertions}
 
 @node Attribute Asm_Output,Attribute Atomic_Always_Lock_Free,Attribute Asm_Input,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-asm-output}@anchor{11b}
+@anchor{gnat_rm/implementation_defined_attributes attribute-asm-output}@anchor{11e}
 @section Attribute Asm_Output
 
 
@@ -9245,10 +9303,10 @@ result.  The possible values for constraint are the same as those used in
 the RTL, and are dependent on the configuration file used to build the
 GCC back end.  If there are no output operands, then this argument may
 either be omitted, or explicitly given as @cite{No_Output_Operands}.
-@ref{11a,,Machine Code Insertions}
+@ref{11d,,Machine Code Insertions}
 
 @node Attribute Atomic_Always_Lock_Free,Attribute Bit,Attribute Asm_Output,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-atomic-always-lock-free}@anchor{11c}
+@anchor{gnat_rm/implementation_defined_attributes attribute-atomic-always-lock-free}@anchor{11f}
 @section Attribute Atomic_Always_Lock_Free
 
 
@@ -9260,7 +9318,7 @@ and False otherwise.  The result indicate whether atomic operations are
 supported by the target for the given type.
 
 @node Attribute Bit,Attribute Bit_Position,Attribute Atomic_Always_Lock_Free,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-bit}@anchor{11d}
+@anchor{gnat_rm/implementation_defined_attributes attribute-bit}@anchor{120}
 @section Attribute Bit
 
 
@@ -9291,7 +9349,7 @@ This attribute is designed to be compatible with the DEC Ada 83 definition
 and implementation of the @cite{Bit} attribute.
 
 @node Attribute Bit_Position,Attribute Code_Address,Attribute Bit,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-bit-position}@anchor{11e}
+@anchor{gnat_rm/implementation_defined_attributes attribute-bit-position}@anchor{121}
 @section Attribute Bit_Position
 
 
@@ -9306,7 +9364,7 @@ type @cite{Universal_Integer}.  The value depends only on the field
 the containing record @cite{R}.
 
 @node Attribute Code_Address,Attribute Compiler_Version,Attribute Bit_Position,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-code-address}@anchor{11f}
+@anchor{gnat_rm/implementation_defined_attributes attribute-code-address}@anchor{122}
 @section Attribute Code_Address
 
 
@@ -9349,7 +9407,7 @@ the same value as is returned by the corresponding @cite{'Address}
 attribute.
 
 @node Attribute Compiler_Version,Attribute Constrained,Attribute Code_Address,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-compiler-version}@anchor{120}
+@anchor{gnat_rm/implementation_defined_attributes attribute-compiler-version}@anchor{123}
 @section Attribute Compiler_Version
 
 
@@ -9360,7 +9418,7 @@ prefix) yields a static string identifying the version of the compiler
 being used to compile the unit containing the attribute reference.
 
 @node Attribute Constrained,Attribute Default_Bit_Order,Attribute Compiler_Version,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-constrained}@anchor{121}
+@anchor{gnat_rm/implementation_defined_attributes attribute-constrained}@anchor{124}
 @section Attribute Constrained
 
 
@@ -9375,7 +9433,7 @@ record type without discriminants is always @cite{True}. This usage is
 compatible with older Ada compilers, including notably DEC Ada.
 
 @node Attribute Default_Bit_Order,Attribute Default_Scalar_Storage_Order,Attribute Constrained,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-default-bit-order}@anchor{122}
+@anchor{gnat_rm/implementation_defined_attributes attribute-default-bit-order}@anchor{125}
 @section Attribute Default_Bit_Order
 
 
@@ -9392,7 +9450,7 @@ as a @cite{Pos} value (0 for @cite{High_Order_First}, 1 for
 @cite{Default_Bit_Order} in package @cite{System}.
 
 @node Attribute Default_Scalar_Storage_Order,Attribute Deref,Attribute Default_Bit_Order,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-default-scalar-storage-order}@anchor{123}
+@anchor{gnat_rm/implementation_defined_attributes attribute-default-scalar-storage-order}@anchor{126}
 @section Attribute Default_Scalar_Storage_Order
 
 
@@ -9409,7 +9467,7 @@ equal to @cite{Default_Bit_Order} if unspecified) as a
 @cite{System.Bit_Order} value. This is a static attribute.
 
 @node Attribute Deref,Attribute Descriptor_Size,Attribute Default_Scalar_Storage_Order,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-deref}@anchor{124}
+@anchor{gnat_rm/implementation_defined_attributes attribute-deref}@anchor{127}
 @section Attribute Deref
 
 
@@ -9422,7 +9480,7 @@ a named access-to-@cite{typ} type, except that it yields a variable, so it can b
 used on the left side of an assignment.
 
 @node Attribute Descriptor_Size,Attribute Elaborated,Attribute Deref,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-descriptor-size}@anchor{125}
+@anchor{gnat_rm/implementation_defined_attributes attribute-descriptor-size}@anchor{128}
 @section Attribute Descriptor_Size
 
 
@@ -9449,7 +9507,7 @@ In the example above, the descriptor contains two values of type
 a size of 31 bits and an alignment of 4, the descriptor size is @cite{2 * Positive'Size + 2} or 64 bits.
 
 @node Attribute Elaborated,Attribute Elab_Body,Attribute Descriptor_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-elaborated}@anchor{126}
+@anchor{gnat_rm/implementation_defined_attributes attribute-elaborated}@anchor{129}
 @section Attribute Elaborated
 
 
@@ -9464,7 +9522,7 @@ units has been completed.  An exception is for units which need no
 elaboration, the value is always False for such units.
 
 @node Attribute Elab_Body,Attribute Elab_Spec,Attribute Elaborated,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-elab-body}@anchor{127}
+@anchor{gnat_rm/implementation_defined_attributes attribute-elab-body}@anchor{12a}
 @section Attribute Elab_Body
 
 
@@ -9480,7 +9538,7 @@ e.g., if it is necessary to do selective re-elaboration to fix some
 error.
 
 @node Attribute Elab_Spec,Attribute Elab_Subp_Body,Attribute Elab_Body,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-elab-spec}@anchor{128}
+@anchor{gnat_rm/implementation_defined_attributes attribute-elab-spec}@anchor{12b}
 @section Attribute Elab_Spec
 
 
@@ -9496,7 +9554,7 @@ Ada code, e.g., if it is necessary to do selective re-elaboration to fix
 some error.
 
 @node Attribute Elab_Subp_Body,Attribute Emax,Attribute Elab_Spec,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-elab-subp-body}@anchor{129}
+@anchor{gnat_rm/implementation_defined_attributes attribute-elab-subp-body}@anchor{12c}
 @section Attribute Elab_Subp_Body
 
 
@@ -9510,7 +9568,7 @@ elaboration procedure by the binder in CodePeer mode only and is unrecognized
 otherwise.
 
 @node Attribute Emax,Attribute Enabled,Attribute Elab_Subp_Body,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-emax}@anchor{12a}
+@anchor{gnat_rm/implementation_defined_attributes attribute-emax}@anchor{12d}
 @section Attribute Emax
 
 
@@ -9523,7 +9581,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Enabled,Attribute Enum_Rep,Attribute Emax,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-enabled}@anchor{12b}
+@anchor{gnat_rm/implementation_defined_attributes attribute-enabled}@anchor{12e}
 @section Attribute Enabled
 
 
@@ -9547,7 +9605,7 @@ a @cite{pragma Suppress} or @cite{pragma Unsuppress} before instantiating
 the package or subprogram, controlling whether the check will be present.
 
 @node Attribute Enum_Rep,Attribute Enum_Val,Attribute Enabled,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-enum-rep}@anchor{12c}
+@anchor{gnat_rm/implementation_defined_attributes attribute-enum-rep}@anchor{12f}
 @section Attribute Enum_Rep
 
 
@@ -9584,7 +9642,7 @@ integer calculation is done at run time, then the call to @cite{Enum_Rep}
 may raise @cite{Constraint_Error}.
 
 @node Attribute Enum_Val,Attribute Epsilon,Attribute Enum_Rep,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-enum-val}@anchor{12d}
+@anchor{gnat_rm/implementation_defined_attributes attribute-enum-val}@anchor{130}
 @section Attribute Enum_Val
 
 
@@ -9607,7 +9665,7 @@ absence of an enumeration representation clause.  This is a static
 attribute (i.e., the result is static if the argument is static).
 
 @node Attribute Epsilon,Attribute Fast_Math,Attribute Enum_Val,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-epsilon}@anchor{12e}
+@anchor{gnat_rm/implementation_defined_attributes attribute-epsilon}@anchor{131}
 @section Attribute Epsilon
 
 
@@ -9620,7 +9678,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Fast_Math,Attribute Fixed_Value,Attribute Epsilon,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-fast-math}@anchor{12f}
+@anchor{gnat_rm/implementation_defined_attributes attribute-fast-math}@anchor{132}
 @section Attribute Fast_Math
 
 
@@ -9631,7 +9689,7 @@ prefix) yields a static Boolean value that is True if pragma
 @cite{Fast_Math} is active, and False otherwise.
 
 @node Attribute Fixed_Value,Attribute From_Any,Attribute Fast_Math,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-fixed-value}@anchor{130}
+@anchor{gnat_rm/implementation_defined_attributes attribute-fixed-value}@anchor{133}
 @section Attribute Fixed_Value
 
 
@@ -9658,7 +9716,7 @@ This attribute is primarily intended for use in implementation of the
 input-output functions for fixed-point values.
 
 @node Attribute From_Any,Attribute Has_Access_Values,Attribute Fixed_Value,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-from-any}@anchor{131}
+@anchor{gnat_rm/implementation_defined_attributes attribute-from-any}@anchor{134}
 @section Attribute From_Any
 
 
@@ -9668,7 +9726,7 @@ This internal attribute is used for the generation of remote subprogram
 stubs in the context of the Distributed Systems Annex.
 
 @node Attribute Has_Access_Values,Attribute Has_Discriminants,Attribute From_Any,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-has-access-values}@anchor{132}
+@anchor{gnat_rm/implementation_defined_attributes attribute-has-access-values}@anchor{135}
 @section Attribute Has_Access_Values
 
 
@@ -9686,7 +9744,7 @@ definitions.  If the attribute is applied to a generic private type, it
 indicates whether or not the corresponding actual type has access values.
 
 @node Attribute Has_Discriminants,Attribute Img,Attribute Has_Access_Values,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-has-discriminants}@anchor{133}
+@anchor{gnat_rm/implementation_defined_attributes attribute-has-discriminants}@anchor{136}
 @section Attribute Has_Discriminants
 
 
@@ -9702,7 +9760,7 @@ definitions.  If the attribute is applied to a generic private type, it
 indicates whether or not the corresponding actual type has discriminants.
 
 @node Attribute Img,Attribute Integer_Value,Attribute Has_Discriminants,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-img}@anchor{134}
+@anchor{gnat_rm/implementation_defined_attributes attribute-img}@anchor{137}
 @section Attribute Img
 
 
@@ -9732,7 +9790,7 @@ that returns the appropriate string when called. This means that
 in an instantiation as a function parameter.
 
 @node Attribute Integer_Value,Attribute Invalid_Value,Attribute Img,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-integer-value}@anchor{135}
+@anchor{gnat_rm/implementation_defined_attributes attribute-integer-value}@anchor{138}
 @section Attribute Integer_Value
 
 
@@ -9760,7 +9818,7 @@ This attribute is primarily intended for use in implementation of the
 standard input-output functions for fixed-point values.
 
 @node Attribute Invalid_Value,Attribute Iterable,Attribute Integer_Value,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-invalid-value}@anchor{136}
+@anchor{gnat_rm/implementation_defined_attributes attribute-invalid-value}@anchor{139}
 @section Attribute Invalid_Value
 
 
@@ -9774,7 +9832,7 @@ including the ability to modify the value with the binder -Sxx flag and
 relevant environment variables at run time.
 
 @node Attribute Iterable,Attribute Large,Attribute Invalid_Value,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-iterable}@anchor{137}
+@anchor{gnat_rm/implementation_defined_attributes attribute-iterable}@anchor{13a}
 @section Attribute Iterable
 
 
@@ -9783,7 +9841,7 @@ relevant environment variables at run time.
 Equivalent to Aspect Iterable.
 
 @node Attribute Large,Attribute Library_Level,Attribute Iterable,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-large}@anchor{138}
+@anchor{gnat_rm/implementation_defined_attributes attribute-large}@anchor{13b}
 @section Attribute Large
 
 
@@ -9796,7 +9854,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Library_Level,Attribute Lock_Free,Attribute Large,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-library-level}@anchor{139}
+@anchor{gnat_rm/implementation_defined_attributes attribute-library-level}@anchor{13c}
 @section Attribute Library_Level
 
 
@@ -9822,7 +9880,7 @@ end Gen;
 @end example
 
 @node Attribute Lock_Free,Attribute Loop_Entry,Attribute Library_Level,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-lock-free}@anchor{13a}
+@anchor{gnat_rm/implementation_defined_attributes attribute-lock-free}@anchor{13d}
 @section Attribute Lock_Free
 
 
@@ -9832,7 +9890,7 @@ end Gen;
 pragma @cite{Lock_Free} applies to P.
 
 @node Attribute Loop_Entry,Attribute Machine_Size,Attribute Lock_Free,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-loop-entry}@anchor{13b}
+@anchor{gnat_rm/implementation_defined_attributes attribute-loop-entry}@anchor{13e}
 @section Attribute Loop_Entry
 
 
@@ -9862,7 +9920,7 @@ entry. This copy is not performed if the loop is not entered, or if the
 corresponding pragmas are ignored or disabled.
 
 @node Attribute Machine_Size,Attribute Mantissa,Attribute Loop_Entry,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-machine-size}@anchor{13c}
+@anchor{gnat_rm/implementation_defined_attributes attribute-machine-size}@anchor{13f}
 @section Attribute Machine_Size
 
 
@@ -9872,7 +9930,7 @@ This attribute is identical to the @cite{Object_Size} attribute.  It is
 provided for compatibility with the DEC Ada 83 attribute of this name.
 
 @node Attribute Mantissa,Attribute Maximum_Alignment,Attribute Machine_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-mantissa}@anchor{13d}
+@anchor{gnat_rm/implementation_defined_attributes attribute-mantissa}@anchor{140}
 @section Attribute Mantissa
 
 
@@ -9885,7 +9943,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Maximum_Alignment,Attribute Mechanism_Code,Attribute Mantissa,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-maximum-alignment}@anchor{13e}@anchor{gnat_rm/implementation_defined_attributes id2}@anchor{13f}
+@anchor{gnat_rm/implementation_defined_attributes attribute-maximum-alignment}@anchor{141}@anchor{gnat_rm/implementation_defined_attributes id2}@anchor{142}
 @section Attribute Maximum_Alignment
 
 
@@ -9901,7 +9959,7 @@ for an object, guaranteeing that it is properly aligned in all
 cases.
 
 @node Attribute Mechanism_Code,Attribute Null_Parameter,Attribute Maximum_Alignment,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-mechanism-code}@anchor{140}
+@anchor{gnat_rm/implementation_defined_attributes attribute-mechanism-code}@anchor{143}
 @section Attribute Mechanism_Code
 
 
@@ -9932,7 +9990,7 @@ by reference
 @end table
 
 @node Attribute Null_Parameter,Attribute Object_Size,Attribute Mechanism_Code,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-null-parameter}@anchor{141}
+@anchor{gnat_rm/implementation_defined_attributes attribute-null-parameter}@anchor{144}
 @section Attribute Null_Parameter
 
 
@@ -9957,7 +10015,7 @@ There is no way of indicating this without the @cite{Null_Parameter}
 attribute.
 
 @node Attribute Object_Size,Attribute Old,Attribute Null_Parameter,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-object-size}@anchor{142}
+@anchor{gnat_rm/implementation_defined_attributes attribute-object-size}@anchor{145}
 @section Attribute Object_Size
 
 
@@ -10027,7 +10085,7 @@ Similar additional checks are performed in other contexts requiring
 statically matching subtypes.
 
 @node Attribute Old,Attribute Passed_By_Reference,Attribute Object_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-old}@anchor{143}
+@anchor{gnat_rm/implementation_defined_attributes attribute-old}@anchor{146}
 @section Attribute Old
 
 
@@ -10042,7 +10100,7 @@ definition are allowed under control of
 implementation defined pragma @cite{Unevaluated_Use_Of_Old}.
 
 @node Attribute Passed_By_Reference,Attribute Pool_Address,Attribute Old,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-passed-by-reference}@anchor{144}
+@anchor{gnat_rm/implementation_defined_attributes attribute-passed-by-reference}@anchor{147}
 @section Attribute Passed_By_Reference
 
 
@@ -10058,7 +10116,7 @@ passed by copy in calls.  For scalar types, the result is always @cite{False}
 and is static.  For non-scalar types, the result is non-static.
 
 @node Attribute Pool_Address,Attribute Range_Length,Attribute Passed_By_Reference,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-pool-address}@anchor{145}
+@anchor{gnat_rm/implementation_defined_attributes attribute-pool-address}@anchor{148}
 @section Attribute Pool_Address
 
 
@@ -10082,8 +10140,8 @@ the global heap, on the stack, or in a static memory area.
 For an object created by @cite{new}, @code{Ptr.all'Pool_Address} is
 what is passed to @cite{Allocate} and returned from @cite{Deallocate}.
 
-@node Attribute Range_Length,Attribute Ref,Attribute Pool_Address,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-range-length}@anchor{146}
+@node Attribute Range_Length,Attribute Restriction_Set,Attribute Pool_Address,Implementation Defined Attributes
+@anchor{gnat_rm/implementation_defined_attributes attribute-range-length}@anchor{149}
 @section Attribute Range_Length
 
 
@@ -10095,15 +10153,8 @@ range).  The result is static for static subtypes.  @cite{Range_Length}
 applied to the index subtype of a one dimensional array always gives the
 same result as @cite{Length} applied to the array itself.
 
-@node Attribute Ref,Attribute Restriction_Set,Attribute Range_Length,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-ref}@anchor{147}
-@section Attribute Ref
-
-
-@geindex Ref
-
-@node Attribute Restriction_Set,Attribute Result,Attribute Ref,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-restriction-set}@anchor{148}
+@node Attribute Restriction_Set,Attribute Result,Attribute Range_Length,Implementation Defined Attributes
+@anchor{gnat_rm/implementation_defined_attributes attribute-restriction-set}@anchor{14a}
 @section Attribute Restriction_Set
 
 
@@ -10173,7 +10224,7 @@ Restrictions pragma, they are not analyzed semantically,
 so they do not have a type.
 
 @node Attribute Result,Attribute Safe_Emax,Attribute Restriction_Set,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-result}@anchor{149}
+@anchor{gnat_rm/implementation_defined_attributes attribute-result}@anchor{14b}
 @section Attribute Result
 
 
@@ -10186,7 +10237,7 @@ For a further discussion of the use of this attribute and examples of its use,
 see the description of pragma Postcondition.
 
 @node Attribute Safe_Emax,Attribute Safe_Large,Attribute Result,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-safe-emax}@anchor{14a}
+@anchor{gnat_rm/implementation_defined_attributes attribute-safe-emax}@anchor{14c}
 @section Attribute Safe_Emax
 
 
@@ -10199,7 +10250,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Safe_Large,Attribute Safe_Small,Attribute Safe_Emax,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-safe-large}@anchor{14b}
+@anchor{gnat_rm/implementation_defined_attributes attribute-safe-large}@anchor{14d}
 @section Attribute Safe_Large
 
 
@@ -10212,7 +10263,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Safe_Small,Attribute Scalar_Storage_Order,Attribute Safe_Large,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-safe-small}@anchor{14c}
+@anchor{gnat_rm/implementation_defined_attributes attribute-safe-small}@anchor{14e}
 @section Attribute Safe_Small
 
 
@@ -10225,7 +10276,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute.
 
 @node Attribute Scalar_Storage_Order,Attribute Simple_Storage_Pool,Attribute Safe_Small,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-scalar-storage-order}@anchor{14d}
+@anchor{gnat_rm/implementation_defined_attributes attribute-scalar-storage-order}@anchor{14f}
 @section Attribute Scalar_Storage_Order
 
 
@@ -10342,7 +10393,7 @@ representation. It has no effect on the representation used by stream
 attributes.
 
 @node Attribute Simple_Storage_Pool,Attribute Small,Attribute Scalar_Storage_Order,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-simple-storage-pool}@anchor{b7}@anchor{gnat_rm/implementation_defined_attributes id3}@anchor{14e}
+@anchor{gnat_rm/implementation_defined_attributes attribute-simple-storage-pool}@anchor{b7}@anchor{gnat_rm/implementation_defined_attributes id3}@anchor{150}
 @section Attribute Simple_Storage_Pool
 
 
@@ -10405,7 +10456,7 @@ as defined in section 13.11.2 of the Ada Reference Manual, except that the
 term 'simple storage pool' is substituted for 'storage pool'.
 
 @node Attribute Small,Attribute Storage_Unit,Attribute Simple_Storage_Pool,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-small}@anchor{14f}
+@anchor{gnat_rm/implementation_defined_attributes attribute-small}@anchor{151}
 @section Attribute Small
 
 
@@ -10421,7 +10472,7 @@ the Ada 83 reference manual for an exact description of the semantics of
 this attribute when applied to floating-point types.
 
 @node Attribute Storage_Unit,Attribute Stub_Type,Attribute Small,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-storage-unit}@anchor{150}
+@anchor{gnat_rm/implementation_defined_attributes attribute-storage-unit}@anchor{152}
 @section Attribute Storage_Unit
 
 
@@ -10431,7 +10482,7 @@ this attribute when applied to floating-point types.
 prefix) provides the same value as @cite{System.Storage_Unit}.
 
 @node Attribute Stub_Type,Attribute System_Allocator_Alignment,Attribute Storage_Unit,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-stub-type}@anchor{151}
+@anchor{gnat_rm/implementation_defined_attributes attribute-stub-type}@anchor{153}
 @section Attribute Stub_Type
 
 
@@ -10455,7 +10506,7 @@ unit @cite{System.Partition_Interface}. Use of this attribute will create
 an implicit dependency on this unit.
 
 @node Attribute System_Allocator_Alignment,Attribute Target_Name,Attribute Stub_Type,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-system-allocator-alignment}@anchor{152}
+@anchor{gnat_rm/implementation_defined_attributes attribute-system-allocator-alignment}@anchor{154}
 @section Attribute System_Allocator_Alignment
 
 
@@ -10472,7 +10523,7 @@ with alignment too large or to enable a realignment circuitry if the
 alignment request is larger than this value.
 
 @node Attribute Target_Name,Attribute To_Address,Attribute System_Allocator_Alignment,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-target-name}@anchor{153}
+@anchor{gnat_rm/implementation_defined_attributes attribute-target-name}@anchor{155}
 @section Attribute Target_Name
 
 
@@ -10485,7 +10536,7 @@ standard gcc target name without the terminating slash (for
 example, GNAT 5.0 on windows yields "i586-pc-mingw32msv").
 
 @node Attribute To_Address,Attribute To_Any,Attribute Target_Name,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-to-address}@anchor{154}
+@anchor{gnat_rm/implementation_defined_attributes attribute-to-address}@anchor{156}
 @section Attribute To_Address
 
 
@@ -10508,7 +10559,7 @@ modular manner (e.g., -1 means the same as 16#FFFF_FFFF# on
 a 32 bits machine).
 
 @node Attribute To_Any,Attribute Type_Class,Attribute To_Address,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-to-any}@anchor{155}
+@anchor{gnat_rm/implementation_defined_attributes attribute-to-any}@anchor{157}
 @section Attribute To_Any
 
 
@@ -10518,7 +10569,7 @@ This internal attribute is used for the generation of remote subprogram
 stubs in the context of the Distributed Systems Annex.
 
 @node Attribute Type_Class,Attribute Type_Key,Attribute To_Any,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-type-class}@anchor{156}
+@anchor{gnat_rm/implementation_defined_attributes attribute-type-class}@anchor{158}
 @section Attribute Type_Class
 
 
@@ -10548,7 +10599,7 @@ applies to all concurrent types.  This attribute is designed to
 be compatible with the DEC Ada 83 attribute of the same name.
 
 @node Attribute Type_Key,Attribute TypeCode,Attribute Type_Class,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-type-key}@anchor{157}
+@anchor{gnat_rm/implementation_defined_attributes attribute-type-key}@anchor{159}
 @section Attribute Type_Key
 
 
@@ -10560,7 +10611,7 @@ about the type or subtype. This provides improved compatibility with
 other implementations that support this attribute.
 
 @node Attribute TypeCode,Attribute UET_Address,Attribute Type_Key,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-typecode}@anchor{158}
+@anchor{gnat_rm/implementation_defined_attributes attribute-typecode}@anchor{15a}
 @section Attribute TypeCode
 
 
@@ -10570,7 +10621,7 @@ This internal attribute is used for the generation of remote subprogram
 stubs in the context of the Distributed Systems Annex.
 
 @node Attribute UET_Address,Attribute Unconstrained_Array,Attribute TypeCode,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-uet-address}@anchor{159}
+@anchor{gnat_rm/implementation_defined_attributes attribute-uet-address}@anchor{15b}
 @section Attribute UET_Address
 
 
@@ -10584,7 +10635,7 @@ intended only for use within the GNAT implementation.  See the unit
 for details on how this attribute is used in the implementation.
 
 @node Attribute Unconstrained_Array,Attribute Universal_Literal_String,Attribute UET_Address,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-unconstrained-array}@anchor{15a}
+@anchor{gnat_rm/implementation_defined_attributes attribute-unconstrained-array}@anchor{15c}
 @section Attribute Unconstrained_Array
 
 
@@ -10598,7 +10649,7 @@ still static, and yields the result of applying this test to the
 generic actual.
 
 @node Attribute Universal_Literal_String,Attribute Unrestricted_Access,Attribute Unconstrained_Array,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-universal-literal-string}@anchor{15b}
+@anchor{gnat_rm/implementation_defined_attributes attribute-universal-literal-string}@anchor{15d}
 @section Attribute Universal_Literal_String
 
 
@@ -10626,7 +10677,7 @@ end;
 @end example
 
 @node Attribute Unrestricted_Access,Attribute Update,Attribute Universal_Literal_String,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-unrestricted-access}@anchor{15c}
+@anchor{gnat_rm/implementation_defined_attributes attribute-unrestricted-access}@anchor{15e}
 @section Attribute Unrestricted_Access
 
 
@@ -10813,7 +10864,7 @@ In general this is a risky approach. It may appear to "work" but such uses of
 of @cite{GNAT} to another, so are best avoided if possible.
 
 @node Attribute Update,Attribute Valid_Scalars,Attribute Unrestricted_Access,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-update}@anchor{15d}
+@anchor{gnat_rm/implementation_defined_attributes attribute-update}@anchor{15f}
 @section Attribute Update
 
 
@@ -10894,7 +10945,7 @@ A := A'Update ((1, 2) => 20, (3, 4) => 30);
 which changes element (1,2) to 20 and (3,4) to 30.
 
 @node Attribute Valid_Scalars,Attribute VADS_Size,Attribute Update,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-valid-scalars}@anchor{15e}
+@anchor{gnat_rm/implementation_defined_attributes attribute-valid-scalars}@anchor{160}
 @section Attribute Valid_Scalars
 
 
@@ -10929,7 +10980,7 @@ to write a function with a single use of the attribute, and then call that
 function from multiple places.
 
 @node Attribute VADS_Size,Attribute Value_Size,Attribute Valid_Scalars,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-vads-size}@anchor{15f}
+@anchor{gnat_rm/implementation_defined_attributes attribute-vads-size}@anchor{161}
 @section Attribute VADS_Size
 
 
@@ -10949,7 +11000,7 @@ gives the result that would be obtained by applying the attribute to
 the corresponding type.
 
 @node Attribute Value_Size,Attribute Wchar_T_Size,Attribute VADS_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-value-size}@anchor{160}
+@anchor{gnat_rm/implementation_defined_attributes attribute-value-size}@anchor{162}
 @section Attribute Value_Size
 
 
@@ -10963,7 +11014,7 @@ a value of the given subtype.  It is the same as @code{type'Size},
 but, unlike @cite{Size}, may be set for non-first subtypes.
 
 @node Attribute Wchar_T_Size,Attribute Word_Size,Attribute Value_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-wchar-t-size}@anchor{161}
+@anchor{gnat_rm/implementation_defined_attributes attribute-wchar-t-size}@anchor{163}
 @section Attribute Wchar_T_Size
 
 
@@ -10975,7 +11026,7 @@ primarily for constructing the definition of this type in
 package @cite{Interfaces.C}. The result is a static constant.
 
 @node Attribute Word_Size,,Attribute Wchar_T_Size,Implementation Defined Attributes
-@anchor{gnat_rm/implementation_defined_attributes attribute-word-size}@anchor{162}
+@anchor{gnat_rm/implementation_defined_attributes attribute-word-size}@anchor{164}
 @section Attribute Word_Size
 
 
@@ -10986,7 +11037,7 @@ prefix) provides the value @cite{System.Word_Size}. The result is
 a static constant.
 
 @node Standard and Implementation Defined Restrictions,Implementation Advice,Implementation Defined Attributes,Top
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions standard-and-implementation-defined-restrictions}@anchor{9}@anchor{gnat_rm/standard_and_implementation_defined_restrictions doc}@anchor{163}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id1}@anchor{164}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions standard-and-implementation-defined-restrictions}@anchor{9}@anchor{gnat_rm/standard_and_implementation_defined_restrictions doc}@anchor{165}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id1}@anchor{166}
 @chapter Standard and Implementation Defined Restrictions
 
 
@@ -11015,7 +11066,7 @@ language defined or GNAT-specific, are listed in the following.
 @end menu
 
 @node Partition-Wide Restrictions,Program Unit Level Restrictions,,Standard and Implementation Defined Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions partition-wide-restrictions}@anchor{165}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id2}@anchor{166}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions partition-wide-restrictions}@anchor{167}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id2}@anchor{168}
 @section Partition-Wide Restrictions
 
 
@@ -11098,7 +11149,7 @@ then all compilation units in the partition must obey the restriction).
 @end menu
 
 @node Immediate_Reclamation,Max_Asynchronous_Select_Nesting,,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions immediate-reclamation}@anchor{167}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions immediate-reclamation}@anchor{169}
 @subsection Immediate_Reclamation
 
 
@@ -11110,7 +11161,7 @@ deallocation, any storage reserved at run time for an object is
 immediately reclaimed when the object no longer exists.
 
 @node Max_Asynchronous_Select_Nesting,Max_Entry_Queue_Length,Immediate_Reclamation,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-asynchronous-select-nesting}@anchor{168}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-asynchronous-select-nesting}@anchor{16a}
 @subsection Max_Asynchronous_Select_Nesting
 
 
@@ -11122,7 +11173,7 @@ detected at compile time. Violations of this restriction with values
 other than zero cause Storage_Error to be raised.
 
 @node Max_Entry_Queue_Length,Max_Protected_Entries,Max_Asynchronous_Select_Nesting,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-entry-queue-length}@anchor{169}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-entry-queue-length}@anchor{16b}
 @subsection Max_Entry_Queue_Length
 
 
@@ -11143,7 +11194,7 @@ compatibility purposes (and a warning will be generated for its use if
 warnings on obsolescent features are activated).
 
 @node Max_Protected_Entries,Max_Select_Alternatives,Max_Entry_Queue_Length,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-protected-entries}@anchor{16a}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-protected-entries}@anchor{16c}
 @subsection Max_Protected_Entries
 
 
@@ -11154,7 +11205,7 @@ bounds of every entry family of a protected unit shall be static, or shall be
 defined by a discriminant of a subtype whose corresponding bound is static.
 
 @node Max_Select_Alternatives,Max_Storage_At_Blocking,Max_Protected_Entries,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-select-alternatives}@anchor{16b}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-select-alternatives}@anchor{16d}
 @subsection Max_Select_Alternatives
 
 
@@ -11163,7 +11214,7 @@ defined by a discriminant of a subtype whose corresponding bound is static.
 [RM D.7] Specifies the maximum number of alternatives in a selective accept.
 
 @node Max_Storage_At_Blocking,Max_Task_Entries,Max_Select_Alternatives,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-storage-at-blocking}@anchor{16c}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-storage-at-blocking}@anchor{16e}
 @subsection Max_Storage_At_Blocking
 
 
@@ -11174,7 +11225,7 @@ Storage_Size that can be retained by a blocked task. A violation of this
 restriction causes Storage_Error to be raised.
 
 @node Max_Task_Entries,Max_Tasks,Max_Storage_At_Blocking,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-task-entries}@anchor{16d}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-task-entries}@anchor{16f}
 @subsection Max_Task_Entries
 
 
@@ -11187,7 +11238,7 @@ defined by a discriminant of a subtype whose
 corresponding bound is static.
 
 @node Max_Tasks,No_Abort_Statements,Max_Task_Entries,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-tasks}@anchor{16e}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions max-tasks}@anchor{170}
 @subsection Max_Tasks
 
 
@@ -11200,7 +11251,7 @@ time. Violations of this restriction with values other than zero cause
 Storage_Error to be raised.
 
 @node No_Abort_Statements,No_Access_Parameter_Allocators,Max_Tasks,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-abort-statements}@anchor{16f}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-abort-statements}@anchor{171}
 @subsection No_Abort_Statements
 
 
@@ -11210,7 +11261,7 @@ Storage_Error to be raised.
 no calls to Task_Identification.Abort_Task.
 
 @node No_Access_Parameter_Allocators,No_Access_Subprograms,No_Abort_Statements,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-access-parameter-allocators}@anchor{170}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-access-parameter-allocators}@anchor{172}
 @subsection No_Access_Parameter_Allocators
 
 
@@ -11221,7 +11272,7 @@ occurrences of an allocator as the actual parameter to an access
 parameter.
 
 @node No_Access_Subprograms,No_Allocators,No_Access_Parameter_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-access-subprograms}@anchor{171}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-access-subprograms}@anchor{173}
 @subsection No_Access_Subprograms
 
 
@@ -11231,7 +11282,7 @@ parameter.
 declarations of access-to-subprogram types.
 
 @node No_Allocators,No_Anonymous_Allocators,No_Access_Subprograms,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-allocators}@anchor{172}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-allocators}@anchor{174}
 @subsection No_Allocators
 
 
@@ -11241,7 +11292,7 @@ declarations of access-to-subprogram types.
 occurrences of an allocator.
 
 @node No_Anonymous_Allocators,No_Calendar,No_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-anonymous-allocators}@anchor{173}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-anonymous-allocators}@anchor{175}
 @subsection No_Anonymous_Allocators
 
 
@@ -11251,7 +11302,7 @@ occurrences of an allocator.
 occurrences of an allocator of anonymous access type.
 
 @node No_Calendar,No_Coextensions,No_Anonymous_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-calendar}@anchor{174}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-calendar}@anchor{176}
 @subsection No_Calendar
 
 
@@ -11261,7 +11312,7 @@ occurrences of an allocator of anonymous access type.
 explicit dependence on the package @cite{Ada.Calendar}.
 
 @node No_Coextensions,No_Default_Initialization,No_Calendar,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-coextensions}@anchor{175}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-coextensions}@anchor{177}
 @subsection No_Coextensions
 
 
@@ -11271,7 +11322,7 @@ explicit dependence on the package @cite{Ada.Calendar}.
 coextensions. See 3.10.2.
 
 @node No_Default_Initialization,No_Delay,No_Coextensions,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-default-initialization}@anchor{176}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-default-initialization}@anchor{178}
 @subsection No_Default_Initialization
 
 
@@ -11288,7 +11339,7 @@ is to prohibit all cases of variables declared without a specific
 initializer (including the case of OUT scalar parameters).
 
 @node No_Delay,No_Dependence,No_Default_Initialization,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-delay}@anchor{177}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-delay}@anchor{179}
 @subsection No_Delay
 
 
@@ -11298,7 +11349,7 @@ initializer (including the case of OUT scalar parameters).
 delay statements and no dependences on package Calendar.
 
 @node No_Dependence,No_Direct_Boolean_Operators,No_Delay,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dependence}@anchor{178}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dependence}@anchor{17a}
 @subsection No_Dependence
 
 
@@ -11308,7 +11359,7 @@ delay statements and no dependences on package Calendar.
 dependence on a library unit.
 
 @node No_Direct_Boolean_Operators,No_Dispatch,No_Dependence,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-direct-boolean-operators}@anchor{179}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-direct-boolean-operators}@anchor{17b}
 @subsection No_Direct_Boolean_Operators
 
 
@@ -11321,7 +11372,7 @@ protocol requires the use of short-circuit (and then, or else) forms for all
 composite boolean operations.
 
 @node No_Dispatch,No_Dispatching_Calls,No_Direct_Boolean_Operators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dispatch}@anchor{17a}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dispatch}@anchor{17c}
 @subsection No_Dispatch
 
 
@@ -11331,7 +11382,7 @@ composite boolean operations.
 occurrences of @cite{T'Class}, for any (tagged) subtype @cite{T}.
 
 @node No_Dispatching_Calls,No_Dynamic_Attachment,No_Dispatch,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dispatching-calls}@anchor{17b}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dispatching-calls}@anchor{17d}
 @subsection No_Dispatching_Calls
 
 
@@ -11392,7 +11443,7 @@ end Example;
 @end example
 
 @node No_Dynamic_Attachment,No_Dynamic_Priorities,No_Dispatching_Calls,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dynamic-attachment}@anchor{17c}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dynamic-attachment}@anchor{17e}
 @subsection No_Dynamic_Attachment
 
 
@@ -11411,7 +11462,7 @@ compatibility purposes (and a warning will be generated for its use if
 warnings on obsolescent features are activated).
 
 @node No_Dynamic_Priorities,No_Entry_Calls_In_Elaboration_Code,No_Dynamic_Attachment,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dynamic-priorities}@anchor{17d}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-dynamic-priorities}@anchor{17f}
 @subsection No_Dynamic_Priorities
 
 
@@ -11420,7 +11471,7 @@ warnings on obsolescent features are activated).
 [RM D.7] There are no semantic dependencies on the package Dynamic_Priorities.
 
 @node No_Entry_Calls_In_Elaboration_Code,No_Enumeration_Maps,No_Dynamic_Priorities,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-entry-calls-in-elaboration-code}@anchor{17e}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-entry-calls-in-elaboration-code}@anchor{180}
 @subsection No_Entry_Calls_In_Elaboration_Code
 
 
@@ -11432,7 +11483,7 @@ restriction, the compiler can assume that no code past an accept statement
 in a task can be executed at elaboration time.
 
 @node No_Enumeration_Maps,No_Exception_Handlers,No_Entry_Calls_In_Elaboration_Code,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-enumeration-maps}@anchor{17f}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-enumeration-maps}@anchor{181}
 @subsection No_Enumeration_Maps
 
 
@@ -11443,7 +11494,7 @@ enumeration maps are used (that is Image and Value attributes applied
 to enumeration types).
 
 @node No_Exception_Handlers,No_Exception_Propagation,No_Enumeration_Maps,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-handlers}@anchor{180}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-handlers}@anchor{182}
 @subsection No_Exception_Handlers
 
 
@@ -11468,7 +11519,7 @@ statement generated by the compiler). The Line parameter when nonzero
 represents the line number in the source program where the raise occurs.
 
 @node No_Exception_Propagation,No_Exception_Registration,No_Exception_Handlers,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-propagation}@anchor{181}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-propagation}@anchor{183}
 @subsection No_Exception_Propagation
 
 
@@ -11485,7 +11536,7 @@ the package GNAT.Current_Exception is not permitted, and reraise
 statements (raise with no operand) are not permitted.
 
 @node No_Exception_Registration,No_Exceptions,No_Exception_Propagation,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-registration}@anchor{182}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exception-registration}@anchor{184}
 @subsection No_Exception_Registration
 
 
@@ -11499,7 +11550,7 @@ code is simplified by omitting the otherwise-required global registration
 of exceptions when they are declared.
 
 @node No_Exceptions,No_Finalization,No_Exception_Registration,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exceptions}@anchor{183}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-exceptions}@anchor{185}
 @subsection No_Exceptions
 
 
@@ -11509,7 +11560,7 @@ of exceptions when they are declared.
 raise statements and no exception handlers.
 
 @node No_Finalization,No_Fixed_Point,No_Exceptions,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-finalization}@anchor{184}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-finalization}@anchor{186}
 @subsection No_Finalization
 
 
@@ -11550,7 +11601,7 @@ object or a nested component, either declared on the stack or on the heap. The
 deallocation of a controlled object no longer finalizes its contents.
 
 @node No_Fixed_Point,No_Floating_Point,No_Finalization,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-fixed-point}@anchor{185}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-fixed-point}@anchor{187}
 @subsection No_Fixed_Point
 
 
@@ -11560,7 +11611,7 @@ deallocation of a controlled object no longer finalizes its contents.
 occurrences of fixed point types and operations.
 
 @node No_Floating_Point,No_Implicit_Conditionals,No_Fixed_Point,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-floating-point}@anchor{186}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-floating-point}@anchor{188}
 @subsection No_Floating_Point
 
 
@@ -11570,7 +11621,7 @@ occurrences of fixed point types and operations.
 occurrences of floating point types and operations.
 
 @node No_Implicit_Conditionals,No_Implicit_Dynamic_Code,No_Floating_Point,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-conditionals}@anchor{187}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-conditionals}@anchor{189}
 @subsection No_Implicit_Conditionals
 
 
@@ -11586,7 +11637,7 @@ normal manner. Constructs generating implicit conditionals include comparisons
 of composite objects and the Max/Min attributes.
 
 @node No_Implicit_Dynamic_Code,No_Implicit_Heap_Allocations,No_Implicit_Conditionals,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-dynamic-code}@anchor{188}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-dynamic-code}@anchor{18a}
 @subsection No_Implicit_Dynamic_Code
 
 
@@ -11616,7 +11667,7 @@ foreign-language convention; primitive operations of nested tagged
 types.
 
 @node No_Implicit_Heap_Allocations,No_Implicit_Loops,No_Implicit_Dynamic_Code,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-heap-allocations}@anchor{189}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-heap-allocations}@anchor{18b}
 @subsection No_Implicit_Heap_Allocations
 
 
@@ -11625,7 +11676,7 @@ types.
 [RM D.7] No constructs are allowed to cause implicit heap allocation.
 
 @node No_Implicit_Loops,No_Initialize_Scalars,No_Implicit_Heap_Allocations,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-loops}@anchor{18a}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-loops}@anchor{18c}
 @subsection No_Implicit_Loops
 
 
@@ -11642,7 +11693,7 @@ components. Otherwise, a loop is created for arrays larger than about 5000
 scalar components.
 
 @node No_Initialize_Scalars,No_IO,No_Implicit_Loops,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-initialize-scalars}@anchor{18b}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-initialize-scalars}@anchor{18d}
 @subsection No_Initialize_Scalars
 
 
@@ -11654,7 +11705,7 @@ code, and in particular eliminates dummy null initialization routines that
 are otherwise generated for some record and array types.
 
 @node No_IO,No_Local_Allocators,No_Initialize_Scalars,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-io}@anchor{18c}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-io}@anchor{18e}
 @subsection No_IO
 
 
@@ -11665,7 +11716,7 @@ dependences on any of the library units Sequential_IO, Direct_IO,
 Text_IO, Wide_Text_IO, Wide_Wide_Text_IO, or Stream_IO.
 
 @node No_Local_Allocators,No_Local_Protected_Objects,No_IO,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-allocators}@anchor{18d}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-allocators}@anchor{18f}
 @subsection No_Local_Allocators
 
 
@@ -11676,7 +11727,7 @@ occurrences of an allocator in subprograms, generic subprograms, tasks,
 and entry bodies.
 
 @node No_Local_Protected_Objects,No_Local_Timing_Events,No_Local_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-protected-objects}@anchor{18e}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-protected-objects}@anchor{190}
 @subsection No_Local_Protected_Objects
 
 
@@ -11686,7 +11737,7 @@ and entry bodies.
 only declared at the library level.
 
 @node No_Local_Timing_Events,No_Long_Long_Integers,No_Local_Protected_Objects,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-timing-events}@anchor{18f}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-local-timing-events}@anchor{191}
 @subsection No_Local_Timing_Events
 
 
@@ -11696,7 +11747,7 @@ only declared at the library level.
 declared at the library level.
 
 @node No_Long_Long_Integers,No_Multiple_Elaboration,No_Local_Timing_Events,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-long-long-integers}@anchor{190}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-long-long-integers}@anchor{192}
 @subsection No_Long_Long_Integers
 
 
@@ -11708,7 +11759,7 @@ implicit base type is Long_Long_Integer, and modular types whose size exceeds
 Long_Integer'Size.
 
 @node No_Multiple_Elaboration,No_Nested_Finalization,No_Long_Long_Integers,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-multiple-elaboration}@anchor{191}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-multiple-elaboration}@anchor{193}
 @subsection No_Multiple_Elaboration
 
 
@@ -11729,7 +11780,7 @@ possible, including non-Ada main programs, and Stand Alone libraries, are not
 permitted, and will be diagnosed by the binder.
 
 @node No_Nested_Finalization,No_Protected_Type_Allocators,No_Multiple_Elaboration,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-nested-finalization}@anchor{192}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-nested-finalization}@anchor{194}
 @subsection No_Nested_Finalization
 
 
@@ -11738,7 +11789,7 @@ permitted, and will be diagnosed by the binder.
 [RM D.7] All objects requiring finalization are declared at the library level.
 
 @node No_Protected_Type_Allocators,No_Protected_Types,No_Nested_Finalization,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-protected-type-allocators}@anchor{193}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-protected-type-allocators}@anchor{195}
 @subsection No_Protected_Type_Allocators
 
 
@@ -11748,7 +11799,7 @@ permitted, and will be diagnosed by the binder.
 expressions that attempt to allocate protected objects.
 
 @node No_Protected_Types,No_Recursion,No_Protected_Type_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-protected-types}@anchor{194}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-protected-types}@anchor{196}
 @subsection No_Protected_Types
 
 
@@ -11758,7 +11809,7 @@ expressions that attempt to allocate protected objects.
 declarations of protected types or protected objects.
 
 @node No_Recursion,No_Reentrancy,No_Protected_Types,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-recursion}@anchor{195}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-recursion}@anchor{197}
 @subsection No_Recursion
 
 
@@ -11768,7 +11819,7 @@ declarations of protected types or protected objects.
 part of its execution.
 
 @node No_Reentrancy,No_Relative_Delay,No_Recursion,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-reentrancy}@anchor{196}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-reentrancy}@anchor{198}
 @subsection No_Reentrancy
 
 
@@ -11778,7 +11829,7 @@ part of its execution.
 two tasks at the same time.
 
 @node No_Relative_Delay,No_Requeue_Statements,No_Reentrancy,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-relative-delay}@anchor{197}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-relative-delay}@anchor{199}
 @subsection No_Relative_Delay
 
 
@@ -11789,7 +11840,7 @@ relative statements and prevents expressions such as @cite{delay 1.23;} from
 appearing in source code.
 
 @node No_Requeue_Statements,No_Secondary_Stack,No_Relative_Delay,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-requeue-statements}@anchor{198}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-requeue-statements}@anchor{19a}
 @subsection No_Requeue_Statements
 
 
@@ -11807,7 +11858,7 @@ compatibility purposes (and a warning will be generated for its use if
 warnings on oNobsolescent features are activated).
 
 @node No_Secondary_Stack,No_Select_Statements,No_Requeue_Statements,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-secondary-stack}@anchor{199}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-secondary-stack}@anchor{19b}
 @subsection No_Secondary_Stack
 
 
@@ -11819,7 +11870,7 @@ stack is used to implement functions returning unconstrained objects
 (arrays or records) on some targets.
 
 @node No_Select_Statements,No_Specific_Termination_Handlers,No_Secondary_Stack,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-select-statements}@anchor{19a}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-select-statements}@anchor{19c}
 @subsection No_Select_Statements
 
 
@@ -11829,7 +11880,7 @@ stack is used to implement functions returning unconstrained objects
 kind are permitted, that is the keyword @cite{select} may not appear.
 
 @node No_Specific_Termination_Handlers,No_Specification_of_Aspect,No_Select_Statements,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-specific-termination-handlers}@anchor{19b}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-specific-termination-handlers}@anchor{19d}
 @subsection No_Specific_Termination_Handlers
 
 
@@ -11839,7 +11890,7 @@ kind are permitted, that is the keyword @cite{select} may not appear.
 or to Ada.Task_Termination.Specific_Handler.
 
 @node No_Specification_of_Aspect,No_Standard_Allocators_After_Elaboration,No_Specific_Termination_Handlers,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-specification-of-aspect}@anchor{19c}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-specification-of-aspect}@anchor{19e}
 @subsection No_Specification_of_Aspect
 
 
@@ -11850,7 +11901,7 @@ specification, attribute definition clause, or pragma is given for a
 given aspect.
 
 @node No_Standard_Allocators_After_Elaboration,No_Standard_Storage_Pools,No_Specification_of_Aspect,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-standard-allocators-after-elaboration}@anchor{19d}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-standard-allocators-after-elaboration}@anchor{19f}
 @subsection No_Standard_Allocators_After_Elaboration
 
 
@@ -11862,7 +11913,7 @@ library items of the partition has completed. Otherwise, Storage_Error
 is raised.
 
 @node No_Standard_Storage_Pools,No_Stream_Optimizations,No_Standard_Allocators_After_Elaboration,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-standard-storage-pools}@anchor{19e}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-standard-storage-pools}@anchor{1a0}
 @subsection No_Standard_Storage_Pools
 
 
@@ -11874,7 +11925,7 @@ have an explicit Storage_Pool attribute defined specifying a
 user-defined storage pool.
 
 @node No_Stream_Optimizations,No_Streams,No_Standard_Storage_Pools,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-stream-optimizations}@anchor{19f}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-stream-optimizations}@anchor{1a1}
 @subsection No_Stream_Optimizations
 
 
@@ -11887,7 +11938,7 @@ due to their supperior performance. When this restriction is in effect, the
 compiler performs all IO operations on a per-character basis.
 
 @node No_Streams,No_Task_Allocators,No_Stream_Optimizations,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-streams}@anchor{1a0}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-streams}@anchor{1a2}
 @subsection No_Streams
 
 
@@ -11908,7 +11959,7 @@ unit declaring a tagged type should be compiled with the restriction,
 though this is not required.
 
 @node No_Task_Allocators,No_Task_Attributes_Package,No_Streams,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-allocators}@anchor{1a1}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-allocators}@anchor{1a3}
 @subsection No_Task_Allocators
 
 
@@ -11918,7 +11969,7 @@ though this is not required.
 or types containing task subcomponents.
 
 @node No_Task_Attributes_Package,No_Task_Hierarchy,No_Task_Allocators,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-attributes-package}@anchor{1a2}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-attributes-package}@anchor{1a4}
 @subsection No_Task_Attributes_Package
 
 
@@ -11935,7 +11986,7 @@ compatibility purposes (and a warning will be generated for its use if
 warnings on obsolescent features are activated).
 
 @node No_Task_Hierarchy,No_Task_Termination,No_Task_Attributes_Package,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-hierarchy}@anchor{1a3}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-hierarchy}@anchor{1a5}
 @subsection No_Task_Hierarchy
 
 
@@ -11945,7 +11996,7 @@ warnings on obsolescent features are activated).
 directly on the environment task of the partition.
 
 @node No_Task_Termination,No_Tasking,No_Task_Hierarchy,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-termination}@anchor{1a4}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-task-termination}@anchor{1a6}
 @subsection No_Task_Termination
 
 
@@ -11954,7 +12005,7 @@ directly on the environment task of the partition.
 [RM D.7] Tasks that terminate are erroneous.
 
 @node No_Tasking,No_Terminate_Alternatives,No_Task_Termination,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-tasking}@anchor{1a5}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-tasking}@anchor{1a7}
 @subsection No_Tasking
 
 
@@ -11967,7 +12018,7 @@ and cause an error message to be output either by the compiler or
 binder.
 
 @node No_Terminate_Alternatives,No_Unchecked_Access,No_Tasking,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-terminate-alternatives}@anchor{1a6}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-terminate-alternatives}@anchor{1a8}
 @subsection No_Terminate_Alternatives
 
 
@@ -11976,7 +12027,7 @@ binder.
 [RM D.7] There are no selective accepts with terminate alternatives.
 
 @node No_Unchecked_Access,No_Use_Of_Entity,No_Terminate_Alternatives,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-unchecked-access}@anchor{1a7}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-unchecked-access}@anchor{1a9}
 @subsection No_Unchecked_Access
 
 
@@ -11986,7 +12037,7 @@ binder.
 occurrences of the Unchecked_Access attribute.
 
 @node No_Use_Of_Entity,Simple_Barriers,No_Unchecked_Access,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-use-of-entity}@anchor{1a8}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-use-of-entity}@anchor{1aa}
 @subsection No_Use_Of_Entity
 
 
@@ -12006,7 +12057,7 @@ No_Use_Of_Entity => Ada.Text_IO.Put_Line
 @end example
 
 @node Simple_Barriers,Static_Priorities,No_Use_Of_Entity,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions simple-barriers}@anchor{1a9}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions simple-barriers}@anchor{1ab}
 @subsection Simple_Barriers
 
 
@@ -12025,7 +12076,7 @@ compatibility purposes (and a warning will be generated for its use if
 warnings on obsolescent features are activated).
 
 @node Static_Priorities,Static_Storage_Size,Simple_Barriers,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions static-priorities}@anchor{1aa}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions static-priorities}@anchor{1ac}
 @subsection Static_Priorities
 
 
@@ -12036,7 +12087,7 @@ are static, and that there are no dependences on the package
 @cite{Ada.Dynamic_Priorities}.
 
 @node Static_Storage_Size,,Static_Priorities,Partition-Wide Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions static-storage-size}@anchor{1ab}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions static-storage-size}@anchor{1ad}
 @subsection Static_Storage_Size
 
 
@@ -12046,7 +12097,7 @@ are static, and that there are no dependences on the package
 in a Storage_Size pragma or attribute definition clause is static.
 
 @node Program Unit Level Restrictions,,Partition-Wide Restrictions,Standard and Implementation Defined Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions program-unit-level-restrictions}@anchor{1ac}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id3}@anchor{1ad}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions program-unit-level-restrictions}@anchor{1ae}@anchor{gnat_rm/standard_and_implementation_defined_restrictions id3}@anchor{1af}
 @section Program Unit Level Restrictions
 
 
@@ -12073,7 +12124,7 @@ other compilation units in the partition.
 @end menu
 
 @node No_Elaboration_Code,No_Entry_Queue,,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-elaboration-code}@anchor{1ae}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-elaboration-code}@anchor{1b0}
 @subsection No_Elaboration_Code
 
 
@@ -12123,7 +12174,7 @@ code generation. If it is used in conjunction with "semantics only"
 checking, then some cases of violations may be missed.
 
 @node No_Entry_Queue,No_Implementation_Aspect_Specifications,No_Elaboration_Code,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-entry-queue}@anchor{1af}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-entry-queue}@anchor{1b1}
 @subsection No_Entry_Queue
 
 
@@ -12136,7 +12187,7 @@ checked at compile time.  A program execution is erroneous if an attempt
 is made to queue a second task on such an entry.
 
 @node No_Implementation_Aspect_Specifications,No_Implementation_Attributes,No_Entry_Queue,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-aspect-specifications}@anchor{1b0}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-aspect-specifications}@anchor{1b2}
 @subsection No_Implementation_Aspect_Specifications
 
 
@@ -12147,7 +12198,7 @@ GNAT-defined aspects are present.  With this restriction, the only
 aspects that can be used are those defined in the Ada Reference Manual.
 
 @node No_Implementation_Attributes,No_Implementation_Identifiers,No_Implementation_Aspect_Specifications,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-attributes}@anchor{1b1}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-attributes}@anchor{1b3}
 @subsection No_Implementation_Attributes
 
 
@@ -12159,7 +12210,7 @@ attributes that can be used are those defined in the Ada Reference
 Manual.
 
 @node No_Implementation_Identifiers,No_Implementation_Pragmas,No_Implementation_Attributes,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-identifiers}@anchor{1b2}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-identifiers}@anchor{1b4}
 @subsection No_Implementation_Identifiers
 
 
@@ -12170,7 +12221,7 @@ implementation-defined identifiers (marked with pragma Implementation_Defined)
 occur within language-defined packages.
 
 @node No_Implementation_Pragmas,No_Implementation_Restrictions,No_Implementation_Identifiers,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-pragmas}@anchor{1b3}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-pragmas}@anchor{1b5}
 @subsection No_Implementation_Pragmas
 
 
@@ -12181,7 +12232,7 @@ GNAT-defined pragmas are present.  With this restriction, the only
 pragmas that can be used are those defined in the Ada Reference Manual.
 
 @node No_Implementation_Restrictions,No_Implementation_Units,No_Implementation_Pragmas,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-restrictions}@anchor{1b4}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-restrictions}@anchor{1b6}
 @subsection No_Implementation_Restrictions
 
 
@@ -12193,7 +12244,7 @@ are present.  With this restriction, the only other restriction identifiers
 that can be used are those defined in the Ada Reference Manual.
 
 @node No_Implementation_Units,No_Implicit_Aliasing,No_Implementation_Restrictions,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-units}@anchor{1b5}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implementation-units}@anchor{1b7}
 @subsection No_Implementation_Units
 
 
@@ -12204,7 +12255,7 @@ mention in the context clause of any implementation-defined descendants
 of packages Ada, Interfaces, or System.
 
 @node No_Implicit_Aliasing,No_Obsolescent_Features,No_Implementation_Units,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-aliasing}@anchor{1b6}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-implicit-aliasing}@anchor{1b8}
 @subsection No_Implicit_Aliasing
 
 
@@ -12219,7 +12270,7 @@ to be aliased, and in such cases, it can always be replaced by
 the standard attribute Unchecked_Access which is preferable.
 
 @node No_Obsolescent_Features,No_Wide_Characters,No_Implicit_Aliasing,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-obsolescent-features}@anchor{1b7}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-obsolescent-features}@anchor{1b9}
 @subsection No_Obsolescent_Features
 
 
@@ -12229,7 +12280,7 @@ the standard attribute Unchecked_Access which is preferable.
 features are used, as defined in Annex J of the Ada Reference Manual.
 
 @node No_Wide_Characters,SPARK_05,No_Obsolescent_Features,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-wide-characters}@anchor{1b8}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions no-wide-characters}@anchor{1ba}
 @subsection No_Wide_Characters
 
 
@@ -12243,7 +12294,7 @@ appear in the program (that is literals representing characters not in
 type @cite{Character}).
 
 @node SPARK_05,,No_Wide_Characters,Program Unit Level Restrictions
-@anchor{gnat_rm/standard_and_implementation_defined_restrictions spark-05}@anchor{1b9}
+@anchor{gnat_rm/standard_and_implementation_defined_restrictions spark-05}@anchor{1bb}
 @subsection SPARK_05
 
 
@@ -12602,7 +12653,7 @@ violations will be reported for constructs forbidden in SPARK 95,
 instead of SPARK 2005.
 
 @node Implementation Advice,Implementation Defined Characteristics,Standard and Implementation Defined Restrictions,Top
-@anchor{gnat_rm/implementation_advice doc}@anchor{1ba}@anchor{gnat_rm/implementation_advice implementation-advice}@anchor{a}@anchor{gnat_rm/implementation_advice id1}@anchor{1bb}
+@anchor{gnat_rm/implementation_advice doc}@anchor{1bc}@anchor{gnat_rm/implementation_advice implementation-advice}@anchor{a}@anchor{gnat_rm/implementation_advice id1}@anchor{1bd}
 @chapter Implementation Advice
 
 
@@ -12699,7 +12750,7 @@ case the text describes what GNAT does and why.
 @end menu
 
 @node RM 1 1 3 20 Error Detection,RM 1 1 3 31 Child Units,,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-1-1-3-20-error-detection}@anchor{1bc}
+@anchor{gnat_rm/implementation_advice rm-1-1-3-20-error-detection}@anchor{1be}
 @section RM 1.1.3(20): Error Detection
 
 
@@ -12716,7 +12767,7 @@ or diagnosed at compile time.
 @geindex Child Units
 
 @node RM 1 1 3 31 Child Units,RM 1 1 5 12 Bounded Errors,RM 1 1 3 20 Error Detection,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-1-1-3-31-child-units}@anchor{1bd}
+@anchor{gnat_rm/implementation_advice rm-1-1-3-31-child-units}@anchor{1bf}
 @section RM 1.1.3(31): Child Units
 
 
@@ -12732,7 +12783,7 @@ Followed.
 @geindex Bounded errors
 
 @node RM 1 1 5 12 Bounded Errors,RM 2 8 16 Pragmas,RM 1 1 3 31 Child Units,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-1-1-5-12-bounded-errors}@anchor{1be}
+@anchor{gnat_rm/implementation_advice rm-1-1-5-12-bounded-errors}@anchor{1c0}
 @section RM 1.1.5(12): Bounded Errors
 
 
@@ -12749,7 +12800,7 @@ runtime.
 @geindex Pragmas
 
 @node RM 2 8 16 Pragmas,RM 2 8 17-19 Pragmas,RM 1 1 5 12 Bounded Errors,Implementation Advice
-@anchor{gnat_rm/implementation_advice id2}@anchor{1bf}@anchor{gnat_rm/implementation_advice rm-2-8-16-pragmas}@anchor{1c0}
+@anchor{gnat_rm/implementation_advice id2}@anchor{1c1}@anchor{gnat_rm/implementation_advice rm-2-8-16-pragmas}@anchor{1c2}
 @section RM 2.8(16): Pragmas
 
 
@@ -12862,7 +12913,7 @@ that this advice not be followed.  For details see
 @ref{7,,Implementation Defined Pragmas}.
 
 @node RM 2 8 17-19 Pragmas,RM 3 5 2 5 Alternative Character Sets,RM 2 8 16 Pragmas,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-2-8-17-19-pragmas}@anchor{1c1}
+@anchor{gnat_rm/implementation_advice rm-2-8-17-19-pragmas}@anchor{1c3}
 @section RM 2.8(17-19): Pragmas
 
 
@@ -12883,14 +12934,14 @@ replacing @cite{library_items}."
 @end itemize
 @end quotation
 
-See @ref{1c0,,RM 2.8(16); Pragmas}.
+See @ref{1c2,,RM 2.8(16); Pragmas}.
 
 @geindex Character Sets
 
 @geindex Alternative Character Sets
 
 @node RM 3 5 2 5 Alternative Character Sets,RM 3 5 4 28 Integer Types,RM 2 8 17-19 Pragmas,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-5-2-5-alternative-character-sets}@anchor{1c2}
+@anchor{gnat_rm/implementation_advice rm-3-5-2-5-alternative-character-sets}@anchor{1c4}
 @section RM 3.5.2(5): Alternative Character Sets
 
 
@@ -12918,7 +12969,7 @@ there is no such restriction.
 @geindex Integer types
 
 @node RM 3 5 4 28 Integer Types,RM 3 5 4 29 Integer Types,RM 3 5 2 5 Alternative Character Sets,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-5-4-28-integer-types}@anchor{1c3}
+@anchor{gnat_rm/implementation_advice rm-3-5-4-28-integer-types}@anchor{1c5}
 @section RM 3.5.4(28): Integer Types
 
 
@@ -12937,7 +12988,7 @@ are supported for convenient interface to C, and so that all hardware
 types of the machine are easily available.
 
 @node RM 3 5 4 29 Integer Types,RM 3 5 5 8 Enumeration Values,RM 3 5 4 28 Integer Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-5-4-29-integer-types}@anchor{1c4}
+@anchor{gnat_rm/implementation_advice rm-3-5-4-29-integer-types}@anchor{1c6}
 @section RM 3.5.4(29): Integer Types
 
 
@@ -12953,7 +13004,7 @@ Followed.
 @geindex Enumeration values
 
 @node RM 3 5 5 8 Enumeration Values,RM 3 5 7 17 Float Types,RM 3 5 4 29 Integer Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-5-5-8-enumeration-values}@anchor{1c5}
+@anchor{gnat_rm/implementation_advice rm-3-5-5-8-enumeration-values}@anchor{1c7}
 @section RM 3.5.5(8): Enumeration Values
 
 
@@ -12973,7 +13024,7 @@ Followed.
 @geindex Float types
 
 @node RM 3 5 7 17 Float Types,RM 3 6 2 11 Multidimensional Arrays,RM 3 5 5 8 Enumeration Values,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-5-7-17-float-types}@anchor{1c6}
+@anchor{gnat_rm/implementation_advice rm-3-5-7-17-float-types}@anchor{1c8}
 @section RM 3.5.7(17): Float Types
 
 
@@ -13003,7 +13054,7 @@ since this is a software rather than a hardware format.
 @geindex multidimensional
 
 @node RM 3 6 2 11 Multidimensional Arrays,RM 9 6 30-31 Duration'Small,RM 3 5 7 17 Float Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-3-6-2-11-multidimensional-arrays}@anchor{1c7}
+@anchor{gnat_rm/implementation_advice rm-3-6-2-11-multidimensional-arrays}@anchor{1c9}
 @section RM 3.6.2(11): Multidimensional Arrays
 
 
@@ -13021,7 +13072,7 @@ Followed.
 @geindex Duration'Small
 
 @node RM 9 6 30-31 Duration'Small,RM 10 2 1 12 Consistent Representation,RM 3 6 2 11 Multidimensional Arrays,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-9-6-30-31-duration-small}@anchor{1c8}
+@anchor{gnat_rm/implementation_advice rm-9-6-30-31-duration-small}@anchor{1ca}
 @section RM 9.6(30-31): Duration'Small
 
 
@@ -13042,7 +13093,7 @@ it need not be the same time base as used for @cite{Calendar.Clock}."
 Followed.
 
 @node RM 10 2 1 12 Consistent Representation,RM 11 4 1 19 Exception Information,RM 9 6 30-31 Duration'Small,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-10-2-1-12-consistent-representation}@anchor{1c9}
+@anchor{gnat_rm/implementation_advice rm-10-2-1-12-consistent-representation}@anchor{1cb}
 @section RM 10.2.1(12): Consistent Representation
 
 
@@ -13064,7 +13115,7 @@ advice without severely impacting efficiency of execution.
 @geindex Exception information
 
 @node RM 11 4 1 19 Exception Information,RM 11 5 28 Suppression of Checks,RM 10 2 1 12 Consistent Representation,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-11-4-1-19-exception-information}@anchor{1ca}
+@anchor{gnat_rm/implementation_advice rm-11-4-1-19-exception-information}@anchor{1cc}
 @section RM 11.4.1(19): Exception Information
 
 
@@ -13095,7 +13146,7 @@ Pragma @cite{Discard_Names}.
 @geindex suppression of
 
 @node RM 11 5 28 Suppression of Checks,RM 13 1 21-24 Representation Clauses,RM 11 4 1 19 Exception Information,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-11-5-28-suppression-of-checks}@anchor{1cb}
+@anchor{gnat_rm/implementation_advice rm-11-5-28-suppression-of-checks}@anchor{1cd}
 @section RM 11.5(28): Suppression of Checks
 
 
@@ -13110,7 +13161,7 @@ Followed.
 @geindex Representation clauses
 
 @node RM 13 1 21-24 Representation Clauses,RM 13 2 6-8 Packed Types,RM 11 5 28 Suppression of Checks,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-1-21-24-representation-clauses}@anchor{1cc}
+@anchor{gnat_rm/implementation_advice rm-13-1-21-24-representation-clauses}@anchor{1ce}
 @section RM 13.1 (21-24): Representation Clauses
 
 
@@ -13159,7 +13210,7 @@ Followed.
 @geindex Packed types
 
 @node RM 13 2 6-8 Packed Types,RM 13 3 14-19 Address Clauses,RM 13 1 21-24 Representation Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-2-6-8-packed-types}@anchor{1cd}
+@anchor{gnat_rm/implementation_advice rm-13-2-6-8-packed-types}@anchor{1cf}
 @section RM 13.2(6-8): Packed Types
 
 
@@ -13198,7 +13249,7 @@ Followed.
 @geindex Address clauses
 
 @node RM 13 3 14-19 Address Clauses,RM 13 3 29-35 Alignment Clauses,RM 13 2 6-8 Packed Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-3-14-19-address-clauses}@anchor{1ce}
+@anchor{gnat_rm/implementation_advice rm-13-3-14-19-address-clauses}@anchor{1d0}
 @section RM 13.3(14-19): Address Clauses
 
 
@@ -13251,7 +13302,7 @@ Followed.
 @geindex Alignment clauses
 
 @node RM 13 3 29-35 Alignment Clauses,RM 13 3 42-43 Size Clauses,RM 13 3 14-19 Address Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-3-29-35-alignment-clauses}@anchor{1cf}
+@anchor{gnat_rm/implementation_advice rm-13-3-29-35-alignment-clauses}@anchor{1d1}
 @section RM 13.3(29-35): Alignment Clauses
 
 
@@ -13308,7 +13359,7 @@ Followed.
 @geindex Size clauses
 
 @node RM 13 3 42-43 Size Clauses,RM 13 3 50-56 Size Clauses,RM 13 3 29-35 Alignment Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-3-42-43-size-clauses}@anchor{1d0}
+@anchor{gnat_rm/implementation_advice rm-13-3-42-43-size-clauses}@anchor{1d2}
 @section RM 13.3(42-43): Size Clauses
 
 
@@ -13326,7 +13377,7 @@ object's @cite{Alignment} (if the @cite{Alignment} is nonzero)."
 Followed.
 
 @node RM 13 3 50-56 Size Clauses,RM 13 3 71-73 Component Size Clauses,RM 13 3 42-43 Size Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-3-50-56-size-clauses}@anchor{1d1}
+@anchor{gnat_rm/implementation_advice rm-13-3-50-56-size-clauses}@anchor{1d3}
 @section RM 13.3(50-56): Size Clauses
 
 
@@ -13377,7 +13428,7 @@ Followed.
 @geindex Component_Size clauses
 
 @node RM 13 3 71-73 Component Size Clauses,RM 13 4 9-10 Enumeration Representation Clauses,RM 13 3 50-56 Size Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-3-71-73-component-size-clauses}@anchor{1d2}
+@anchor{gnat_rm/implementation_advice rm-13-3-71-73-component-size-clauses}@anchor{1d4}
 @section RM 13.3(71-73): Component Size Clauses
 
 
@@ -13411,7 +13462,7 @@ Followed.
 @geindex enumeration
 
 @node RM 13 4 9-10 Enumeration Representation Clauses,RM 13 5 1 17-22 Record Representation Clauses,RM 13 3 71-73 Component Size Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-4-9-10-enumeration-representation-clauses}@anchor{1d3}
+@anchor{gnat_rm/implementation_advice rm-13-4-9-10-enumeration-representation-clauses}@anchor{1d5}
 @section RM 13.4(9-10): Enumeration Representation Clauses
 
 
@@ -13433,7 +13484,7 @@ Followed.
 @geindex records
 
 @node RM 13 5 1 17-22 Record Representation Clauses,RM 13 5 2 5 Storage Place Attributes,RM 13 4 9-10 Enumeration Representation Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-5-1-17-22-record-representation-clauses}@anchor{1d4}
+@anchor{gnat_rm/implementation_advice rm-13-5-1-17-22-record-representation-clauses}@anchor{1d6}
 @section RM 13.5.1(17-22): Record Representation Clauses
 
 
@@ -13493,7 +13544,7 @@ and all mentioned features are implemented.
 @geindex Storage place attributes
 
 @node RM 13 5 2 5 Storage Place Attributes,RM 13 5 3 7-8 Bit Ordering,RM 13 5 1 17-22 Record Representation Clauses,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-5-2-5-storage-place-attributes}@anchor{1d5}
+@anchor{gnat_rm/implementation_advice rm-13-5-2-5-storage-place-attributes}@anchor{1d7}
 @section RM 13.5.2(5): Storage Place Attributes
 
 
@@ -13513,7 +13564,7 @@ Followed.  There are no such components in GNAT.
 @geindex Bit ordering
 
 @node RM 13 5 3 7-8 Bit Ordering,RM 13 7 37 Address as Private,RM 13 5 2 5 Storage Place Attributes,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-5-3-7-8-bit-ordering}@anchor{1d6}
+@anchor{gnat_rm/implementation_advice rm-13-5-3-7-8-bit-ordering}@anchor{1d8}
 @section RM 13.5.3(7-8): Bit Ordering
 
 
@@ -13533,7 +13584,7 @@ Thus non-default bit ordering is not supported.
 @geindex as private type
 
 @node RM 13 7 37 Address as Private,RM 13 7 1 16 Address Operations,RM 13 5 3 7-8 Bit Ordering,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-7-37-address-as-private}@anchor{1d7}
+@anchor{gnat_rm/implementation_advice rm-13-7-37-address-as-private}@anchor{1d9}
 @section RM 13.7(37): Address as Private
 
 
@@ -13551,7 +13602,7 @@ Followed.
 @geindex operations of
 
 @node RM 13 7 1 16 Address Operations,RM 13 9 14-17 Unchecked Conversion,RM 13 7 37 Address as Private,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-7-1-16-address-operations}@anchor{1d8}
+@anchor{gnat_rm/implementation_advice rm-13-7-1-16-address-operations}@anchor{1da}
 @section RM 13.7.1(16): Address Operations
 
 
@@ -13569,7 +13620,7 @@ operation raises @cite{Program_Error}, since all operations make sense.
 @geindex Unchecked conversion
 
 @node RM 13 9 14-17 Unchecked Conversion,RM 13 11 23-25 Implicit Heap Usage,RM 13 7 1 16 Address Operations,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-9-14-17-unchecked-conversion}@anchor{1d9}
+@anchor{gnat_rm/implementation_advice rm-13-9-14-17-unchecked-conversion}@anchor{1db}
 @section RM 13.9(14-17): Unchecked Conversion
 
 
@@ -13613,7 +13664,7 @@ Followed.
 @geindex implicit
 
 @node RM 13 11 23-25 Implicit Heap Usage,RM 13 11 2 17 Unchecked Deallocation,RM 13 9 14-17 Unchecked Conversion,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-11-23-25-implicit-heap-usage}@anchor{1da}
+@anchor{gnat_rm/implementation_advice rm-13-11-23-25-implicit-heap-usage}@anchor{1dc}
 @section RM 13.11(23-25): Implicit Heap Usage
 
 
@@ -13664,7 +13715,7 @@ Followed.
 @geindex Unchecked deallocation
 
 @node RM 13 11 2 17 Unchecked Deallocation,RM 13 13 2 17 Stream Oriented Attributes,RM 13 11 23-25 Implicit Heap Usage,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-11-2-17-unchecked-deallocation}@anchor{1db}
+@anchor{gnat_rm/implementation_advice rm-13-11-2-17-unchecked-deallocation}@anchor{1dd}
 @section RM 13.11.2(17): Unchecked Deallocation
 
 
@@ -13679,7 +13730,7 @@ Followed.
 @geindex Stream oriented attributes
 
 @node RM 13 13 2 17 Stream Oriented Attributes,RM A 1 52 Names of Predefined Numeric Types,RM 13 11 2 17 Unchecked Deallocation,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-13-13-2-17-stream-oriented-attributes}@anchor{1dc}
+@anchor{gnat_rm/implementation_advice rm-13-13-2-17-stream-oriented-attributes}@anchor{1de}
 @section RM 13.13.2(17): Stream Oriented Attributes
 
 
@@ -13734,7 +13785,7 @@ the @cite{GNAT and Libraries} section of the @cite{GNAT User's Guide}.
 @end itemize
 
 @node RM A 1 52 Names of Predefined Numeric Types,RM A 3 2 49 Ada Characters Handling,RM 13 13 2 17 Stream Oriented Attributes,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-a-1-52-names-of-predefined-numeric-types}@anchor{1dd}
+@anchor{gnat_rm/implementation_advice rm-a-1-52-names-of-predefined-numeric-types}@anchor{1df}
 @section RM A.1(52): Names of Predefined Numeric Types
 
 
@@ -13752,7 +13803,7 @@ Followed.
 @geindex Ada.Characters.Handling
 
 @node RM A 3 2 49 Ada Characters Handling,RM A 4 4 106 Bounded-Length String Handling,RM A 1 52 Names of Predefined Numeric Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-a-3-2-49-ada-characters-handling}@anchor{1de}
+@anchor{gnat_rm/implementation_advice rm-a-3-2-49-ada-characters-handling}@anchor{1e0}
 @section RM A.3.2(49): @cite{Ada.Characters.Handling}
 
 
@@ -13769,7 +13820,7 @@ Followed.  GNAT provides no such localized definitions.
 @geindex Bounded-length strings
 
 @node RM A 4 4 106 Bounded-Length String Handling,RM A 5 2 46-47 Random Number Generation,RM A 3 2 49 Ada Characters Handling,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-a-4-4-106-bounded-length-string-handling}@anchor{1df}
+@anchor{gnat_rm/implementation_advice rm-a-4-4-106-bounded-length-string-handling}@anchor{1e1}
 @section RM A.4.4(106): Bounded-Length String Handling
 
 
@@ -13784,7 +13835,7 @@ Followed.  No implicit pointers or dynamic allocation are used.
 @geindex Random number generation
 
 @node RM A 5 2 46-47 Random Number Generation,RM A 10 7 23 Get_Immediate,RM A 4 4 106 Bounded-Length String Handling,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-a-5-2-46-47-random-number-generation}@anchor{1e0}
+@anchor{gnat_rm/implementation_advice rm-a-5-2-46-47-random-number-generation}@anchor{1e2}
 @section RM A.5.2(46-47): Random Number Generation
 
 
@@ -13813,7 +13864,7 @@ condition here to hold true.
 @geindex Get_Immediate
 
 @node RM A 10 7 23 Get_Immediate,RM B 1 39-41 Pragma Export,RM A 5 2 46-47 Random Number Generation,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-a-10-7-23-get-immediate}@anchor{1e1}
+@anchor{gnat_rm/implementation_advice rm-a-10-7-23-get-immediate}@anchor{1e3}
 @section RM A.10.7(23): @cite{Get_Immediate}
 
 
@@ -13837,7 +13888,7 @@ this functionality.
 @geindex Export
 
 @node RM B 1 39-41 Pragma Export,RM B 2 12-13 Package Interfaces,RM A 10 7 23 Get_Immediate,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-b-1-39-41-pragma-export}@anchor{1e2}
+@anchor{gnat_rm/implementation_advice rm-b-1-39-41-pragma-export}@anchor{1e4}
 @section RM B.1(39-41): Pragma @cite{Export}
 
 
@@ -13885,7 +13936,7 @@ Followed.
 @geindex Interfaces
 
 @node RM B 2 12-13 Package Interfaces,RM B 3 63-71 Interfacing with C,RM B 1 39-41 Pragma Export,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-b-2-12-13-package-interfaces}@anchor{1e3}
+@anchor{gnat_rm/implementation_advice rm-b-2-12-13-package-interfaces}@anchor{1e5}
 @section RM B.2(12-13): Package @cite{Interfaces}
 
 
@@ -13915,7 +13966,7 @@ Followed.  GNAT provides all the packages described in this section.
 @geindex interfacing with
 
 @node RM B 3 63-71 Interfacing with C,RM B 4 95-98 Interfacing with COBOL,RM B 2 12-13 Package Interfaces,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-b-3-63-71-interfacing-with-c}@anchor{1e4}
+@anchor{gnat_rm/implementation_advice rm-b-3-63-71-interfacing-with-c}@anchor{1e6}
 @section RM B.3(63-71): Interfacing with C
 
 
@@ -14003,7 +14054,7 @@ Followed.
 @geindex interfacing with
 
 @node RM B 4 95-98 Interfacing with COBOL,RM B 5 22-26 Interfacing with Fortran,RM B 3 63-71 Interfacing with C,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-b-4-95-98-interfacing-with-cobol}@anchor{1e5}
+@anchor{gnat_rm/implementation_advice rm-b-4-95-98-interfacing-with-cobol}@anchor{1e7}
 @section RM B.4(95-98): Interfacing with COBOL
 
 
@@ -14044,7 +14095,7 @@ Followed.
 @geindex interfacing with
 
 @node RM B 5 22-26 Interfacing with Fortran,RM C 1 3-5 Access to Machine Operations,RM B 4 95-98 Interfacing with COBOL,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-b-5-22-26-interfacing-with-fortran}@anchor{1e6}
+@anchor{gnat_rm/implementation_advice rm-b-5-22-26-interfacing-with-fortran}@anchor{1e8}
 @section RM B.5(22-26): Interfacing with Fortran
 
 
@@ -14095,7 +14146,7 @@ Followed.
 @geindex Machine operations
 
 @node RM C 1 3-5 Access to Machine Operations,RM C 1 10-16 Access to Machine Operations,RM B 5 22-26 Interfacing with Fortran,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-1-3-5-access-to-machine-operations}@anchor{1e7}
+@anchor{gnat_rm/implementation_advice rm-c-1-3-5-access-to-machine-operations}@anchor{1e9}
 @section RM C.1(3-5): Access to Machine Operations
 
 
@@ -14130,7 +14181,7 @@ object that is specified as exported."
 Followed.
 
 @node RM C 1 10-16 Access to Machine Operations,RM C 3 28 Interrupt Support,RM C 1 3-5 Access to Machine Operations,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-1-10-16-access-to-machine-operations}@anchor{1e8}
+@anchor{gnat_rm/implementation_advice rm-c-1-10-16-access-to-machine-operations}@anchor{1ea}
 @section RM C.1(10-16): Access to Machine Operations
 
 
@@ -14191,7 +14242,7 @@ Followed on any target supporting such operations.
 @geindex Interrupt support
 
 @node RM C 3 28 Interrupt Support,RM C 3 1 20-21 Protected Procedure Handlers,RM C 1 10-16 Access to Machine Operations,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-3-28-interrupt-support}@anchor{1e9}
+@anchor{gnat_rm/implementation_advice rm-c-3-28-interrupt-support}@anchor{1eb}
 @section RM C.3(28): Interrupt Support
 
 
@@ -14209,7 +14260,7 @@ of interrupt blocking.
 @geindex Protected procedure handlers
 
 @node RM C 3 1 20-21 Protected Procedure Handlers,RM C 3 2 25 Package Interrupts,RM C 3 28 Interrupt Support,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-3-1-20-21-protected-procedure-handlers}@anchor{1ea}
+@anchor{gnat_rm/implementation_advice rm-c-3-1-20-21-protected-procedure-handlers}@anchor{1ec}
 @section RM C.3.1(20-21): Protected Procedure Handlers
 
 
@@ -14235,7 +14286,7 @@ Followed.  Compile time warnings are given when possible.
 @geindex Interrupts
 
 @node RM C 3 2 25 Package Interrupts,RM C 4 14 Pre-elaboration Requirements,RM C 3 1 20-21 Protected Procedure Handlers,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-3-2-25-package-interrupts}@anchor{1eb}
+@anchor{gnat_rm/implementation_advice rm-c-3-2-25-package-interrupts}@anchor{1ed}
 @section RM C.3.2(25): Package @cite{Interrupts}
 
 
@@ -14253,7 +14304,7 @@ Followed.
 @geindex Pre-elaboration requirements
 
 @node RM C 4 14 Pre-elaboration Requirements,RM C 5 8 Pragma Discard_Names,RM C 3 2 25 Package Interrupts,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-4-14-pre-elaboration-requirements}@anchor{1ec}
+@anchor{gnat_rm/implementation_advice rm-c-4-14-pre-elaboration-requirements}@anchor{1ee}
 @section RM C.4(14): Pre-elaboration Requirements
 
 
@@ -14269,7 +14320,7 @@ Followed.  Executable code is generated in some cases, e.g., loops
 to initialize large arrays.
 
 @node RM C 5 8 Pragma Discard_Names,RM C 7 2 30 The Package Task_Attributes,RM C 4 14 Pre-elaboration Requirements,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-5-8-pragma-discard-names}@anchor{1ed}
+@anchor{gnat_rm/implementation_advice rm-c-5-8-pragma-discard-names}@anchor{1ef}
 @section RM C.5(8): Pragma @cite{Discard_Names}
 
 
@@ -14287,7 +14338,7 @@ Followed.
 @geindex Task_Attributes
 
 @node RM C 7 2 30 The Package Task_Attributes,RM D 3 17 Locking Policies,RM C 5 8 Pragma Discard_Names,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-c-7-2-30-the-package-task-attributes}@anchor{1ee}
+@anchor{gnat_rm/implementation_advice rm-c-7-2-30-the-package-task-attributes}@anchor{1f0}
 @section RM C.7.2(30): The Package Task_Attributes
 
 
@@ -14308,7 +14359,7 @@ Not followed.  This implementation is not targeted to such a domain.
 @geindex Locking Policies
 
 @node RM D 3 17 Locking Policies,RM D 4 16 Entry Queuing Policies,RM C 7 2 30 The Package Task_Attributes,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-d-3-17-locking-policies}@anchor{1ef}
+@anchor{gnat_rm/implementation_advice rm-d-3-17-locking-policies}@anchor{1f1}
 @section RM D.3(17): Locking Policies
 
 
@@ -14325,7 +14376,7 @@ whose names (@cite{Inheritance_Locking} and
 @geindex Entry queuing policies
 
 @node RM D 4 16 Entry Queuing Policies,RM D 6 9-10 Preemptive Abort,RM D 3 17 Locking Policies,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-d-4-16-entry-queuing-policies}@anchor{1f0}
+@anchor{gnat_rm/implementation_advice rm-d-4-16-entry-queuing-policies}@anchor{1f2}
 @section RM D.4(16): Entry Queuing Policies
 
 
@@ -14340,7 +14391,7 @@ Followed.  No such implementation-defined queuing policies exist.
 @geindex Preemptive abort
 
 @node RM D 6 9-10 Preemptive Abort,RM D 7 21 Tasking Restrictions,RM D 4 16 Entry Queuing Policies,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-d-6-9-10-preemptive-abort}@anchor{1f1}
+@anchor{gnat_rm/implementation_advice rm-d-6-9-10-preemptive-abort}@anchor{1f3}
 @section RM D.6(9-10): Preemptive Abort
 
 
@@ -14366,7 +14417,7 @@ Followed.
 @geindex Tasking restrictions
 
 @node RM D 7 21 Tasking Restrictions,RM D 8 47-49 Monotonic Time,RM D 6 9-10 Preemptive Abort,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-d-7-21-tasking-restrictions}@anchor{1f2}
+@anchor{gnat_rm/implementation_advice rm-d-7-21-tasking-restrictions}@anchor{1f4}
 @section RM D.7(21): Tasking Restrictions
 
 
@@ -14385,7 +14436,7 @@ pragma @cite{Profile (Restricted)} for more details.
 @geindex monotonic
 
 @node RM D 8 47-49 Monotonic Time,RM E 5 28-29 Partition Communication Subsystem,RM D 7 21 Tasking Restrictions,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-d-8-47-49-monotonic-time}@anchor{1f3}
+@anchor{gnat_rm/implementation_advice rm-d-8-47-49-monotonic-time}@anchor{1f5}
 @section RM D.8(47-49): Monotonic Time
 
 
@@ -14420,7 +14471,7 @@ Followed.
 @geindex PCS
 
 @node RM E 5 28-29 Partition Communication Subsystem,RM F 7 COBOL Support,RM D 8 47-49 Monotonic Time,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-e-5-28-29-partition-communication-subsystem}@anchor{1f4}
+@anchor{gnat_rm/implementation_advice rm-e-5-28-29-partition-communication-subsystem}@anchor{1f6}
 @section RM E.5(28-29): Partition Communication Subsystem
 
 
@@ -14448,7 +14499,7 @@ GNAT.
 @geindex COBOL support
 
 @node RM F 7 COBOL Support,RM F 1 2 Decimal Radix Support,RM E 5 28-29 Partition Communication Subsystem,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-f-7-cobol-support}@anchor{1f5}
+@anchor{gnat_rm/implementation_advice rm-f-7-cobol-support}@anchor{1f7}
 @section RM F(7): COBOL Support
 
 
@@ -14468,7 +14519,7 @@ Followed.
 @geindex Decimal radix support
 
 @node RM F 1 2 Decimal Radix Support,RM G Numerics,RM F 7 COBOL Support,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-f-1-2-decimal-radix-support}@anchor{1f6}
+@anchor{gnat_rm/implementation_advice rm-f-1-2-decimal-radix-support}@anchor{1f8}
 @section RM F.1(2): Decimal Radix Support
 
 
@@ -14484,7 +14535,7 @@ representations.
 @geindex Numerics
 
 @node RM G Numerics,RM G 1 1 56-58 Complex Types,RM F 1 2 Decimal Radix Support,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-g-numerics}@anchor{1f7}
+@anchor{gnat_rm/implementation_advice rm-g-numerics}@anchor{1f9}
 @section RM G: Numerics
 
 
@@ -14504,7 +14555,7 @@ Followed.
 @geindex Complex types
 
 @node RM G 1 1 56-58 Complex Types,RM G 1 2 49 Complex Elementary Functions,RM G Numerics,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-g-1-1-56-58-complex-types}@anchor{1f8}
+@anchor{gnat_rm/implementation_advice rm-g-1-1-56-58-complex-types}@anchor{1fa}
 @section RM G.1.1(56-58): Complex Types
 
 
@@ -14566,7 +14617,7 @@ Followed.
 @geindex Complex elementary functions
 
 @node RM G 1 2 49 Complex Elementary Functions,RM G 2 4 19 Accuracy Requirements,RM G 1 1 56-58 Complex Types,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-g-1-2-49-complex-elementary-functions}@anchor{1f9}
+@anchor{gnat_rm/implementation_advice rm-g-1-2-49-complex-elementary-functions}@anchor{1fb}
 @section RM G.1.2(49): Complex Elementary Functions
 
 
@@ -14588,7 +14639,7 @@ Followed.
 @geindex Accuracy requirements
 
 @node RM G 2 4 19 Accuracy Requirements,RM G 2 6 15 Complex Arithmetic Accuracy,RM G 1 2 49 Complex Elementary Functions,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-g-2-4-19-accuracy-requirements}@anchor{1fa}
+@anchor{gnat_rm/implementation_advice rm-g-2-4-19-accuracy-requirements}@anchor{1fc}
 @section RM G.2.4(19): Accuracy Requirements
 
 
@@ -14612,7 +14663,7 @@ Followed.
 @geindex complex arithmetic
 
 @node RM G 2 6 15 Complex Arithmetic Accuracy,RM H 6 15/2 Pragma Partition_Elaboration_Policy,RM G 2 4 19 Accuracy Requirements,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-g-2-6-15-complex-arithmetic-accuracy}@anchor{1fb}
+@anchor{gnat_rm/implementation_advice rm-g-2-6-15-complex-arithmetic-accuracy}@anchor{1fd}
 @section RM G.2.6(15): Complex Arithmetic Accuracy
 
 
@@ -14630,7 +14681,7 @@ Followed.
 @geindex Sequential elaboration policy
 
 @node RM H 6 15/2 Pragma Partition_Elaboration_Policy,,RM G 2 6 15 Complex Arithmetic Accuracy,Implementation Advice
-@anchor{gnat_rm/implementation_advice rm-h-6-15-2-pragma-partition-elaboration-policy}@anchor{1fc}
+@anchor{gnat_rm/implementation_advice rm-h-6-15-2-pragma-partition-elaboration-policy}@anchor{1fe}
 @section RM H.6(15/2): Pragma Partition_Elaboration_Policy
 
 
@@ -14645,7 +14696,7 @@ immediately terminated."
 Not followed.
 
 @node Implementation Defined Characteristics,Intrinsic Subprograms,Implementation Advice,Top
-@anchor{gnat_rm/implementation_defined_characteristics implementation-defined-characteristics}@anchor{b}@anchor{gnat_rm/implementation_defined_characteristics doc}@anchor{1fd}@anchor{gnat_rm/implementation_defined_characteristics id1}@anchor{1fe}
+@anchor{gnat_rm/implementation_defined_characteristics implementation-defined-characteristics}@anchor{b}@anchor{gnat_rm/implementation_defined_characteristics doc}@anchor{1ff}@anchor{gnat_rm/implementation_defined_characteristics id1}@anchor{200}
 @chapter Implementation Defined Characteristics
 
 
@@ -15847,7 +15898,7 @@ When the @cite{Pattern} parameter is not the null string, it is interpreted
 according to the syntax of regular expressions as defined in the
 @cite{GNAT.Regexp} package.
 
-See @ref{1ff,,GNAT.Regexp (g-regexp.ads)}.
+See @ref{201,,GNAT.Regexp (g-regexp.ads)}.
 
 
 @itemize *
@@ -16889,7 +16940,7 @@ H.4(27)."
 There are no restrictions on pragma @cite{Restrictions}.
 
 @node Intrinsic Subprograms,Representation Clauses and Pragmas,Implementation Defined Characteristics,Top
-@anchor{gnat_rm/intrinsic_subprograms doc}@anchor{200}@anchor{gnat_rm/intrinsic_subprograms intrinsic-subprograms}@anchor{c}@anchor{gnat_rm/intrinsic_subprograms id1}@anchor{201}
+@anchor{gnat_rm/intrinsic_subprograms doc}@anchor{202}@anchor{gnat_rm/intrinsic_subprograms intrinsic-subprograms}@anchor{c}@anchor{gnat_rm/intrinsic_subprograms id1}@anchor{203}
 @chapter Intrinsic Subprograms
 
 
@@ -16926,7 +16977,7 @@ Ada standard does not require Ada compilers to implement this feature.
 @end menu
 
 @node Intrinsic Operators,Compilation_Date,,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms id2}@anchor{202}@anchor{gnat_rm/intrinsic_subprograms intrinsic-operators}@anchor{203}
+@anchor{gnat_rm/intrinsic_subprograms id2}@anchor{204}@anchor{gnat_rm/intrinsic_subprograms intrinsic-operators}@anchor{205}
 @section Intrinsic Operators
 
 
@@ -16957,7 +17008,7 @@ It is also possible to specify such operators for private types, if the
 full views are appropriate arithmetic types.
 
 @node Compilation_Date,Compilation_Time,Intrinsic Operators,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms compilation-date}@anchor{204}@anchor{gnat_rm/intrinsic_subprograms id3}@anchor{205}
+@anchor{gnat_rm/intrinsic_subprograms compilation-date}@anchor{206}@anchor{gnat_rm/intrinsic_subprograms id3}@anchor{207}
 @section Compilation_Date
 
 
@@ -16971,7 +17022,7 @@ application program should simply call the function
 the current compilation (in local time format MMM DD YYYY).
 
 @node Compilation_Time,Enclosing_Entity,Compilation_Date,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms compilation-time}@anchor{206}@anchor{gnat_rm/intrinsic_subprograms id4}@anchor{207}
+@anchor{gnat_rm/intrinsic_subprograms compilation-time}@anchor{208}@anchor{gnat_rm/intrinsic_subprograms id4}@anchor{209}
 @section Compilation_Time
 
 
@@ -16985,7 +17036,7 @@ application program should simply call the function
 the current compilation (in local time format HH:MM:SS).
 
 @node Enclosing_Entity,Exception_Information,Compilation_Time,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms id5}@anchor{208}@anchor{gnat_rm/intrinsic_subprograms enclosing-entity}@anchor{209}
+@anchor{gnat_rm/intrinsic_subprograms id5}@anchor{20a}@anchor{gnat_rm/intrinsic_subprograms enclosing-entity}@anchor{20b}
 @section Enclosing_Entity
 
 
@@ -16999,7 +17050,7 @@ application program should simply call the function
 the current subprogram, package, task, entry, or protected subprogram.
 
 @node Exception_Information,Exception_Message,Enclosing_Entity,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms id6}@anchor{20a}@anchor{gnat_rm/intrinsic_subprograms exception-information}@anchor{20b}
+@anchor{gnat_rm/intrinsic_subprograms id6}@anchor{20c}@anchor{gnat_rm/intrinsic_subprograms exception-information}@anchor{20d}
 @section Exception_Information
 
 
@@ -17013,7 +17064,7 @@ so an application program should simply call the function
 the exception information associated with the current exception.
 
 @node Exception_Message,Exception_Name,Exception_Information,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms exception-message}@anchor{20c}@anchor{gnat_rm/intrinsic_subprograms id7}@anchor{20d}
+@anchor{gnat_rm/intrinsic_subprograms exception-message}@anchor{20e}@anchor{gnat_rm/intrinsic_subprograms id7}@anchor{20f}
 @section Exception_Message
 
 
@@ -17027,7 +17078,7 @@ so an application program should simply call the function
 the message associated with the current exception.
 
 @node Exception_Name,File,Exception_Message,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms exception-name}@anchor{20e}@anchor{gnat_rm/intrinsic_subprograms id8}@anchor{20f}
+@anchor{gnat_rm/intrinsic_subprograms exception-name}@anchor{210}@anchor{gnat_rm/intrinsic_subprograms id8}@anchor{211}
 @section Exception_Name
 
 
@@ -17041,7 +17092,7 @@ so an application program should simply call the function
 the name of the current exception.
 
 @node File,Line,Exception_Name,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms file}@anchor{210}@anchor{gnat_rm/intrinsic_subprograms id9}@anchor{211}
+@anchor{gnat_rm/intrinsic_subprograms file}@anchor{212}@anchor{gnat_rm/intrinsic_subprograms id9}@anchor{213}
 @section File
 
 
@@ -17055,7 +17106,7 @@ application program should simply call the function
 file.
 
 @node Line,Shifts and Rotates,File,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms id10}@anchor{212}@anchor{gnat_rm/intrinsic_subprograms line}@anchor{213}
+@anchor{gnat_rm/intrinsic_subprograms id10}@anchor{214}@anchor{gnat_rm/intrinsic_subprograms line}@anchor{215}
 @section Line
 
 
@@ -17069,7 +17120,7 @@ application program should simply call the function
 source line.
 
 @node Shifts and Rotates,Source_Location,Line,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms id11}@anchor{214}@anchor{gnat_rm/intrinsic_subprograms shifts-and-rotates}@anchor{215}
+@anchor{gnat_rm/intrinsic_subprograms id11}@anchor{216}@anchor{gnat_rm/intrinsic_subprograms shifts-and-rotates}@anchor{217}
 @section Shifts and Rotates
 
 
@@ -17108,7 +17159,7 @@ the Provide_Shift_Operators pragma, which provides the function declarations
 and corresponding pragma Import's for all five shift functions.
 
 @node Source_Location,,Shifts and Rotates,Intrinsic Subprograms
-@anchor{gnat_rm/intrinsic_subprograms source-location}@anchor{216}@anchor{gnat_rm/intrinsic_subprograms id12}@anchor{217}
+@anchor{gnat_rm/intrinsic_subprograms source-location}@anchor{218}@anchor{gnat_rm/intrinsic_subprograms id12}@anchor{219}
 @section Source_Location
 
 
@@ -17122,7 +17173,7 @@ application program should simply call the function
 source file location.
 
 @node Representation Clauses and Pragmas,Standard Library Routines,Intrinsic Subprograms,Top
-@anchor{gnat_rm/representation_clauses_and_pragmas representation-clauses-and-pragmas}@anchor{d}@anchor{gnat_rm/representation_clauses_and_pragmas doc}@anchor{218}@anchor{gnat_rm/representation_clauses_and_pragmas id1}@anchor{219}
+@anchor{gnat_rm/representation_clauses_and_pragmas representation-clauses-and-pragmas}@anchor{d}@anchor{gnat_rm/representation_clauses_and_pragmas doc}@anchor{21a}@anchor{gnat_rm/representation_clauses_and_pragmas id1}@anchor{21b}
 @chapter Representation Clauses and Pragmas
 
 
@@ -17168,7 +17219,7 @@ and this section describes the additional capabilities provided.
 @end menu
 
 @node Alignment Clauses,Size Clauses,,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id2}@anchor{21a}@anchor{gnat_rm/representation_clauses_and_pragmas alignment-clauses}@anchor{21b}
+@anchor{gnat_rm/representation_clauses_and_pragmas id2}@anchor{21c}@anchor{gnat_rm/representation_clauses_and_pragmas alignment-clauses}@anchor{21d}
 @section Alignment Clauses
 
 
@@ -17188,7 +17239,7 @@ For primitive types, the alignment is the minimum of the actual size of
 objects of the type divided by @cite{Storage_Unit},
 and the maximum alignment supported by the target.
 (This maximum alignment is given by the GNAT-specific attribute
-@cite{Standard'Maximum_Alignment}; see @ref{13e,,Attribute Maximum_Alignment}.)
+@cite{Standard'Maximum_Alignment}; see @ref{141,,Attribute Maximum_Alignment}.)
 
 @geindex Maximum_Alignment attribute
 
@@ -17296,7 +17347,7 @@ assumption is non-portable, and other compilers may choose different
 alignments for the subtype @cite{RS}.
 
 @node Size Clauses,Storage_Size Clauses,Alignment Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id3}@anchor{21c}@anchor{gnat_rm/representation_clauses_and_pragmas size-clauses}@anchor{21d}
+@anchor{gnat_rm/representation_clauses_and_pragmas id3}@anchor{21e}@anchor{gnat_rm/representation_clauses_and_pragmas size-clauses}@anchor{21f}
 @section Size Clauses
 
 
@@ -17373,7 +17424,7 @@ if it is known that a Size value can be accommodated in an object of
 type Integer.
 
 @node Storage_Size Clauses,Size of Variant Record Objects,Size Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas storage-size-clauses}@anchor{21e}@anchor{gnat_rm/representation_clauses_and_pragmas id4}@anchor{21f}
+@anchor{gnat_rm/representation_clauses_and_pragmas storage-size-clauses}@anchor{220}@anchor{gnat_rm/representation_clauses_and_pragmas id4}@anchor{221}
 @section Storage_Size Clauses
 
 
@@ -17446,7 +17497,7 @@ Of course in practice, there will not be any explicit allocators in the
 case of such an access declaration.
 
 @node Size of Variant Record Objects,Biased Representation,Storage_Size Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id5}@anchor{220}@anchor{gnat_rm/representation_clauses_and_pragmas size-of-variant-record-objects}@anchor{221}
+@anchor{gnat_rm/representation_clauses_and_pragmas id5}@anchor{222}@anchor{gnat_rm/representation_clauses_and_pragmas size-of-variant-record-objects}@anchor{223}
 @section Size of Variant Record Objects
 
 
@@ -17534,10 +17585,10 @@ procedure q is
 
 begin
    Put_Line (Integer'Image (V2'Size));
-   Put_Line (Integer'IMage (Size (V2)));
+   Put_Line (Integer'Image (Size (V2)));
    V2 := (True, 'x');
    Put_Line (Integer'Image (V2'Size));
-   Put_Line (Integer'IMage (Size (V2)));
+   Put_Line (Integer'Image (Size (V2)));
 end q;
 @end example
 
@@ -17556,7 +17607,7 @@ the maximum size, regardless of the current variant value, the
 variant value.
 
 @node Biased Representation,Value_Size and Object_Size Clauses,Size of Variant Record Objects,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id6}@anchor{222}@anchor{gnat_rm/representation_clauses_and_pragmas biased-representation}@anchor{223}
+@anchor{gnat_rm/representation_clauses_and_pragmas id6}@anchor{224}@anchor{gnat_rm/representation_clauses_and_pragmas biased-representation}@anchor{225}
 @section Biased Representation
 
 
@@ -17594,7 +17645,7 @@ biased representation can be used for all discrete types except for
 enumeration types for which a representation clause is given.
 
 @node Value_Size and Object_Size Clauses,Component_Size Clauses,Biased Representation,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id7}@anchor{224}@anchor{gnat_rm/representation_clauses_and_pragmas value-size-and-object-size-clauses}@anchor{225}
+@anchor{gnat_rm/representation_clauses_and_pragmas id7}@anchor{226}@anchor{gnat_rm/representation_clauses_and_pragmas value-size-and-object-size-clauses}@anchor{227}
 @section Value_Size and Object_Size Clauses
 
 
@@ -17726,11 +17777,6 @@ is illegal to convert from one access subtype to the other. For a more
 complete description of this additional legality rule, see the
 description of the @cite{Object_Size} attribute.
 
-At the implementation level, Esize stores the Object_Size and the
-RM_Size field stores the @cite{Value_Size} (and hence the value of the
-@cite{Size} attribute,
-which, as noted above, is equivalent to @cite{Value_Size}).
-
 To get a feel for the difference, consider the following examples (note
 that in each case the base is @cite{Short_Short_Integer} with a size of 8):
 
@@ -17799,6 +17845,14 @@ Value_Size
 
 @item
 
+@code{dynamic : x2'Base range -64 .. +63;}
+
+@tab
+
+@tab
+
+@item
+
 @code{subtype x5 is x2 range 0 .. dynamic;}
 
 @tab
@@ -17819,15 +17873,15 @@ Value_Size
 
 @tab
 
-3*
+7*
 
 @end multitable
 
 
-Note: the entries marked '3*' are not actually specified by the Ada
-Reference Manual, but it seems in the spirit of the RM rules to allocate
-the minimum number of bits (here 3, given the range for @cite{x2})
-known to be large enough to hold the given range of values.
+Note: the entries marked '*' are not actually specified by the Ada
+Reference Manual, which has nothing to say about size in the dynamic
+case. What GNAT does is to allocate sufficient bits to accomodate any
+possible dynamic values for the bounds at run-time.
 
 So far, so good, but GNAT has to obey the RM rules, so the question is
 under what conditions must the RM @cite{Size} be used.
@@ -17868,7 +17922,7 @@ since it must be rounded up so that this value is a multiple of the
 alignment (4 bytes = 32 bits).
 
 For all other types, the @cite{Object_Size}
-and Value_Size are the same (and equivalent to the RM attribute @cite{Size}).
+and @cite{Value_Size} are the same (and equivalent to the RM attribute @cite{Size}).
 Only @cite{Size} may be specified for such types.
 
 Note that @cite{Value_Size} can be used to force biased representation
@@ -17898,7 +17952,7 @@ definition clause forces biased representation. This
 warning can be turned off using @cite{-gnatw.B}.
 
 @node Component_Size Clauses,Bit_Order Clauses,Value_Size and Object_Size Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id8}@anchor{226}@anchor{gnat_rm/representation_clauses_and_pragmas component-size-clauses}@anchor{227}
+@anchor{gnat_rm/representation_clauses_and_pragmas id8}@anchor{228}@anchor{gnat_rm/representation_clauses_and_pragmas component-size-clauses}@anchor{229}
 @section Component_Size Clauses
 
 
@@ -17945,7 +17999,7 @@ and a pragma Pack for the same array type. if such duplicate
 clauses are given, the pragma Pack will be ignored.
 
 @node Bit_Order Clauses,Effect of Bit_Order on Byte Ordering,Component_Size Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas bit-order-clauses}@anchor{228}@anchor{gnat_rm/representation_clauses_and_pragmas id9}@anchor{229}
+@anchor{gnat_rm/representation_clauses_and_pragmas bit-order-clauses}@anchor{22a}@anchor{gnat_rm/representation_clauses_and_pragmas id9}@anchor{22b}
 @section Bit_Order Clauses
 
 
@@ -18051,7 +18105,7 @@ if desired.  The following section contains additional
 details regarding the issue of byte ordering.
 
 @node Effect of Bit_Order on Byte Ordering,Pragma Pack for Arrays,Bit_Order Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id10}@anchor{22a}@anchor{gnat_rm/representation_clauses_and_pragmas effect-of-bit-order-on-byte-ordering}@anchor{22b}
+@anchor{gnat_rm/representation_clauses_and_pragmas id10}@anchor{22c}@anchor{gnat_rm/representation_clauses_and_pragmas effect-of-bit-order-on-byte-ordering}@anchor{22d}
 @section Effect of Bit_Order on Byte Ordering
 
 
@@ -18065,7 +18119,7 @@ definition clause on byte ordering.  Briefly, it has no effect at all, but
 a detailed example will be helpful.  Before giving this
 example, let us review the precise
 definition of the effect of defining @cite{Bit_Order}.  The effect of a
-non-standard bit order is described in section 15.5.3 of the Ada
+non-standard bit order is described in section 13.5.3 of the Ada
 Reference Manual:
 
 @quotation
@@ -18089,7 +18143,7 @@ less than Storage_Unit."
 The critical point here is that storage places are taken from
 the values after normalization, not before.  So the @cite{Bit_Order}
 interpretation applies to normalized values.  The interpretation
-is described in the later part of the 15.5.3 paragraph:
+is described in the later part of the 13.5.3 paragraph:
 
 @quotation
 
@@ -18308,7 +18362,7 @@ to set the boolean constant @cite{Master_Byte_First} in
 an appropriate manner.
 
 @node Pragma Pack for Arrays,Pragma Pack for Records,Effect of Bit_Order on Byte Ordering,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas pragma-pack-for-arrays}@anchor{22c}@anchor{gnat_rm/representation_clauses_and_pragmas id11}@anchor{22d}
+@anchor{gnat_rm/representation_clauses_and_pragmas pragma-pack-for-arrays}@anchor{22e}@anchor{gnat_rm/representation_clauses_and_pragmas id11}@anchor{22f}
 @section Pragma Pack for Arrays
 
 
@@ -18424,7 +18478,7 @@ Here 31-bit packing is achieved as required, and no warning is generated,
 since in this case the programmer intention is clear.
 
 @node Pragma Pack for Records,Record Representation Clauses,Pragma Pack for Arrays,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas pragma-pack-for-records}@anchor{22e}@anchor{gnat_rm/representation_clauses_and_pragmas id12}@anchor{22f}
+@anchor{gnat_rm/representation_clauses_and_pragmas pragma-pack-for-records}@anchor{230}@anchor{gnat_rm/representation_clauses_and_pragmas id12}@anchor{231}
 @section Pragma Pack for Records
 
 
@@ -18507,7 +18561,7 @@ the @cite{L6} field is aligned to the next byte boundary, and takes an
 integral number of bytes, i.e., 72 bits.
 
 @node Record Representation Clauses,Handling of Records with Holes,Pragma Pack for Records,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id13}@anchor{230}@anchor{gnat_rm/representation_clauses_and_pragmas record-representation-clauses}@anchor{231}
+@anchor{gnat_rm/representation_clauses_and_pragmas id13}@anchor{232}@anchor{gnat_rm/representation_clauses_and_pragmas record-representation-clauses}@anchor{233}
 @section Record Representation Clauses
 
 
@@ -18592,7 +18646,7 @@ type, in particular, always starting on a byte boundary, and the length
 must be a multiple of the storage unit.
 
 @node Handling of Records with Holes,Enumeration Clauses,Record Representation Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas handling-of-records-with-holes}@anchor{232}@anchor{gnat_rm/representation_clauses_and_pragmas id14}@anchor{233}
+@anchor{gnat_rm/representation_clauses_and_pragmas handling-of-records-with-holes}@anchor{234}@anchor{gnat_rm/representation_clauses_and_pragmas id14}@anchor{235}
 @section Handling of Records with Holes
 
 
@@ -18669,7 +18723,7 @@ for Hrec'Size use 64;
 @end example
 
 @node Enumeration Clauses,Address Clauses,Handling of Records with Holes,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas enumeration-clauses}@anchor{234}@anchor{gnat_rm/representation_clauses_and_pragmas id15}@anchor{235}
+@anchor{gnat_rm/representation_clauses_and_pragmas enumeration-clauses}@anchor{236}@anchor{gnat_rm/representation_clauses_and_pragmas id15}@anchor{237}
 @section Enumeration Clauses
 
 
@@ -18712,7 +18766,7 @@ the overhead of converting representation values to the corresponding
 positional values, (i.e., the value delivered by the @cite{Pos} attribute).
 
 @node Address Clauses,Use of Address Clauses for Memory-Mapped I/O,Enumeration Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id16}@anchor{236}@anchor{gnat_rm/representation_clauses_and_pragmas address-clauses}@anchor{237}
+@anchor{gnat_rm/representation_clauses_and_pragmas id16}@anchor{238}@anchor{gnat_rm/representation_clauses_and_pragmas address-clauses}@anchor{239}
 @section Address Clauses
 
 
@@ -19039,7 +19093,7 @@ then the program compiles without the warning and when run will generate
 the output @cite{X was not clobbered}.
 
 @node Use of Address Clauses for Memory-Mapped I/O,Effect of Convention on Representation,Address Clauses,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id17}@anchor{238}@anchor{gnat_rm/representation_clauses_and_pragmas use-of-address-clauses-for-memory-mapped-i-o}@anchor{239}
+@anchor{gnat_rm/representation_clauses_and_pragmas id17}@anchor{23a}@anchor{gnat_rm/representation_clauses_and_pragmas use-of-address-clauses-for-memory-mapped-i-o}@anchor{23b}
 @section Use of Address Clauses for Memory-Mapped I/O
 
 
@@ -19097,7 +19151,7 @@ components to be atomic if you want the byte store, or explicitly writing
 the full word access sequence if that is what the hardware requires.
 
 @node Effect of Convention on Representation,Conventions and Anonymous Access Types,Use of Address Clauses for Memory-Mapped I/O,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id18}@anchor{23a}@anchor{gnat_rm/representation_clauses_and_pragmas effect-of-convention-on-representation}@anchor{23b}
+@anchor{gnat_rm/representation_clauses_and_pragmas id18}@anchor{23c}@anchor{gnat_rm/representation_clauses_and_pragmas effect-of-convention-on-representation}@anchor{23d}
 @section Effect of Convention on Representation
 
 
@@ -19175,7 +19229,7 @@ when one of these values is read, any nonzero value is treated as True.
 @end itemize
 
 @node Conventions and Anonymous Access Types,Determining the Representations chosen by GNAT,Effect of Convention on Representation,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas conventions-and-anonymous-access-types}@anchor{23c}@anchor{gnat_rm/representation_clauses_and_pragmas id19}@anchor{23d}
+@anchor{gnat_rm/representation_clauses_and_pragmas conventions-and-anonymous-access-types}@anchor{23e}@anchor{gnat_rm/representation_clauses_and_pragmas id19}@anchor{23f}
 @section Conventions and Anonymous Access Types
 
 
@@ -19251,7 +19305,7 @@ package ConvComp is
 @end example
 
 @node Determining the Representations chosen by GNAT,,Conventions and Anonymous Access Types,Representation Clauses and Pragmas
-@anchor{gnat_rm/representation_clauses_and_pragmas id20}@anchor{23e}@anchor{gnat_rm/representation_clauses_and_pragmas determining-the-representations-chosen-by-gnat}@anchor{23f}
+@anchor{gnat_rm/representation_clauses_and_pragmas id20}@anchor{240}@anchor{gnat_rm/representation_clauses_and_pragmas determining-the-representations-chosen-by-gnat}@anchor{241}
 @section Determining the Representations chosen by GNAT
 
 
@@ -19403,7 +19457,7 @@ generated by the compiler into the original source to fix and guarantee
 the actual representation to be used.
 
 @node Standard Library Routines,The Implementation of Standard I/O,Representation Clauses and Pragmas,Top
-@anchor{gnat_rm/standard_library_routines standard-library-routines}@anchor{e}@anchor{gnat_rm/standard_library_routines doc}@anchor{240}@anchor{gnat_rm/standard_library_routines id1}@anchor{241}
+@anchor{gnat_rm/standard_library_routines standard-library-routines}@anchor{e}@anchor{gnat_rm/standard_library_routines doc}@anchor{242}@anchor{gnat_rm/standard_library_routines id1}@anchor{243}
 @chapter Standard Library Routines
 
 
@@ -20226,7 +20280,7 @@ For packages in Interfaces and System, all the RM defined packages are
 available in GNAT, see the Ada 2012 RM for full details.
 
 @node The Implementation of Standard I/O,The GNAT Library,Standard Library Routines,Top
-@anchor{gnat_rm/the_implementation_of_standard_i_o the-implementation-of-standard-i-o}@anchor{f}@anchor{gnat_rm/the_implementation_of_standard_i_o doc}@anchor{242}@anchor{gnat_rm/the_implementation_of_standard_i_o id1}@anchor{243}
+@anchor{gnat_rm/the_implementation_of_standard_i_o the-implementation-of-standard-i-o}@anchor{f}@anchor{gnat_rm/the_implementation_of_standard_i_o doc}@anchor{244}@anchor{gnat_rm/the_implementation_of_standard_i_o id1}@anchor{245}
 @chapter The Implementation of Standard I/O
 
 
@@ -20278,7 +20332,7 @@ these additional facilities are also described in this chapter.
 @end menu
 
 @node Standard I/O Packages,FORM Strings,,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o standard-i-o-packages}@anchor{244}@anchor{gnat_rm/the_implementation_of_standard_i_o id2}@anchor{245}
+@anchor{gnat_rm/the_implementation_of_standard_i_o standard-i-o-packages}@anchor{246}@anchor{gnat_rm/the_implementation_of_standard_i_o id2}@anchor{247}
 @section Standard I/O Packages
 
 
@@ -20349,7 +20403,7 @@ flush the common I/O streams and in particular Standard_Output before
 elaborating the Ada code.
 
 @node FORM Strings,Direct_IO,Standard I/O Packages,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o form-strings}@anchor{246}@anchor{gnat_rm/the_implementation_of_standard_i_o id3}@anchor{247}
+@anchor{gnat_rm/the_implementation_of_standard_i_o form-strings}@anchor{248}@anchor{gnat_rm/the_implementation_of_standard_i_o id3}@anchor{249}
 @section FORM Strings
 
 
@@ -20375,7 +20429,7 @@ unrecognized keyword appears in a form string, it is silently ignored
 and not considered invalid.
 
 @node Direct_IO,Sequential_IO,FORM Strings,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o direct-io}@anchor{248}@anchor{gnat_rm/the_implementation_of_standard_i_o id4}@anchor{249}
+@anchor{gnat_rm/the_implementation_of_standard_i_o direct-io}@anchor{24a}@anchor{gnat_rm/the_implementation_of_standard_i_o id4}@anchor{24b}
 @section Direct_IO
 
 
@@ -20395,7 +20449,7 @@ There is no limit on the size of Direct_IO files, they are expanded as
 necessary to accommodate whatever records are written to the file.
 
 @node Sequential_IO,Text_IO,Direct_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o sequential-io}@anchor{24a}@anchor{gnat_rm/the_implementation_of_standard_i_o id5}@anchor{24b}
+@anchor{gnat_rm/the_implementation_of_standard_i_o sequential-io}@anchor{24c}@anchor{gnat_rm/the_implementation_of_standard_i_o id5}@anchor{24d}
 @section Sequential_IO
 
 
@@ -20442,7 +20496,7 @@ using Stream_IO, and this is the preferred mechanism.  In particular, the
 above program fragment rewritten to use Stream_IO will work correctly.
 
 @node Text_IO,Wide_Text_IO,Sequential_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o id6}@anchor{24c}@anchor{gnat_rm/the_implementation_of_standard_i_o text-io}@anchor{24d}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id6}@anchor{24e}@anchor{gnat_rm/the_implementation_of_standard_i_o text-io}@anchor{24f}
 @section Text_IO
 
 
@@ -20525,7 +20579,7 @@ the file.
 @end menu
 
 @node Stream Pointer Positioning,Reading and Writing Non-Regular Files,,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o id7}@anchor{24e}@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning}@anchor{24f}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id7}@anchor{250}@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning}@anchor{251}
 @subsection Stream Pointer Positioning
 
 
@@ -20561,7 +20615,7 @@ between two Ada files, then the difference may be observable in some
 situations.
 
 @node Reading and Writing Non-Regular Files,Get_Immediate,Stream Pointer Positioning,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files}@anchor{250}@anchor{gnat_rm/the_implementation_of_standard_i_o id8}@anchor{251}
+@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files}@anchor{252}@anchor{gnat_rm/the_implementation_of_standard_i_o id8}@anchor{253}
 @subsection Reading and Writing Non-Regular Files
 
 
@@ -20612,7 +20666,7 @@ to read data past that end of
 file indication, until another end of file indication is entered.
 
 @node Get_Immediate,Treating Text_IO Files as Streams,Reading and Writing Non-Regular Files,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o get-immediate}@anchor{252}@anchor{gnat_rm/the_implementation_of_standard_i_o id9}@anchor{253}
+@anchor{gnat_rm/the_implementation_of_standard_i_o get-immediate}@anchor{254}@anchor{gnat_rm/the_implementation_of_standard_i_o id9}@anchor{255}
 @subsection Get_Immediate
 
 
@@ -20630,7 +20684,7 @@ possible), it is undefined whether the FF character will be treated as a
 page mark.
 
 @node Treating Text_IO Files as Streams,Text_IO Extensions,Get_Immediate,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o id10}@anchor{254}@anchor{gnat_rm/the_implementation_of_standard_i_o treating-text-io-files-as-streams}@anchor{255}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id10}@anchor{256}@anchor{gnat_rm/the_implementation_of_standard_i_o treating-text-io-files-as-streams}@anchor{257}
 @subsection Treating Text_IO Files as Streams
 
 
@@ -20646,7 +20700,7 @@ skipped and the effect is similar to that described above for
 @cite{Get_Immediate}.
 
 @node Text_IO Extensions,Text_IO Facilities for Unbounded Strings,Treating Text_IO Files as Streams,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o id11}@anchor{256}@anchor{gnat_rm/the_implementation_of_standard_i_o text-io-extensions}@anchor{257}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id11}@anchor{258}@anchor{gnat_rm/the_implementation_of_standard_i_o text-io-extensions}@anchor{259}
 @subsection Text_IO Extensions
 
 
@@ -20674,7 +20728,7 @@ the string is to be read.
 @end itemize
 
 @node Text_IO Facilities for Unbounded Strings,,Text_IO Extensions,Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o text-io-facilities-for-unbounded-strings}@anchor{258}@anchor{gnat_rm/the_implementation_of_standard_i_o id12}@anchor{259}
+@anchor{gnat_rm/the_implementation_of_standard_i_o text-io-facilities-for-unbounded-strings}@anchor{25a}@anchor{gnat_rm/the_implementation_of_standard_i_o id12}@anchor{25b}
 @subsection Text_IO Facilities for Unbounded Strings
 
 
@@ -20722,7 +20776,7 @@ files @code{a-szuzti.ads} and @code{a-szuzti.adb} provides similar extended
 @cite{Wide_Wide_Text_IO} functionality for unbounded wide wide strings.
 
 @node Wide_Text_IO,Wide_Wide_Text_IO,Text_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o wide-text-io}@anchor{25a}@anchor{gnat_rm/the_implementation_of_standard_i_o id13}@anchor{25b}
+@anchor{gnat_rm/the_implementation_of_standard_i_o wide-text-io}@anchor{25c}@anchor{gnat_rm/the_implementation_of_standard_i_o id13}@anchor{25d}
 @section Wide_Text_IO
 
 
@@ -20969,12 +21023,12 @@ input also causes Constraint_Error to be raised.
 @end menu
 
 @node Stream Pointer Positioning<2>,Reading and Writing Non-Regular Files<2>,,Wide_Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning-1}@anchor{25c}@anchor{gnat_rm/the_implementation_of_standard_i_o id14}@anchor{25d}
+@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning-1}@anchor{25e}@anchor{gnat_rm/the_implementation_of_standard_i_o id14}@anchor{25f}
 @subsection Stream Pointer Positioning
 
 
 @cite{Ada.Wide_Text_IO} is similar to @cite{Ada.Text_IO} in its handling
-of stream pointer positioning (@ref{24d,,Text_IO}).  There is one additional
+of stream pointer positioning (@ref{24f,,Text_IO}).  There is one additional
 case:
 
 If @cite{Ada.Wide_Text_IO.Look_Ahead} reads a character outside the
@@ -20993,7 +21047,7 @@ to a normal program using @cite{Wide_Text_IO}.  However, this discrepancy
 can be observed if the wide text file shares a stream with another file.
 
 @node Reading and Writing Non-Regular Files<2>,,Stream Pointer Positioning<2>,Wide_Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files-1}@anchor{25e}@anchor{gnat_rm/the_implementation_of_standard_i_o id15}@anchor{25f}
+@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files-1}@anchor{260}@anchor{gnat_rm/the_implementation_of_standard_i_o id15}@anchor{261}
 @subsection Reading and Writing Non-Regular Files
 
 
@@ -21004,7 +21058,7 @@ treated as data characters), and @cite{End_Of_Page} always returns
 it is possible to read beyond an end of file.
 
 @node Wide_Wide_Text_IO,Stream_IO,Wide_Text_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o id16}@anchor{260}@anchor{gnat_rm/the_implementation_of_standard_i_o wide-wide-text-io}@anchor{261}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id16}@anchor{262}@anchor{gnat_rm/the_implementation_of_standard_i_o wide-wide-text-io}@anchor{263}
 @section Wide_Wide_Text_IO
 
 
@@ -21173,12 +21227,12 @@ input also causes Constraint_Error to be raised.
 @end menu
 
 @node Stream Pointer Positioning<3>,Reading and Writing Non-Regular Files<3>,,Wide_Wide_Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning-2}@anchor{262}@anchor{gnat_rm/the_implementation_of_standard_i_o id17}@anchor{263}
+@anchor{gnat_rm/the_implementation_of_standard_i_o stream-pointer-positioning-2}@anchor{264}@anchor{gnat_rm/the_implementation_of_standard_i_o id17}@anchor{265}
 @subsection Stream Pointer Positioning
 
 
 @cite{Ada.Wide_Wide_Text_IO} is similar to @cite{Ada.Text_IO} in its handling
-of stream pointer positioning (@ref{24d,,Text_IO}).  There is one additional
+of stream pointer positioning (@ref{24f,,Text_IO}).  There is one additional
 case:
 
 If @cite{Ada.Wide_Wide_Text_IO.Look_Ahead} reads a character outside the
@@ -21197,7 +21251,7 @@ to a normal program using @cite{Wide_Wide_Text_IO}.  However, this discrepancy
 can be observed if the wide text file shares a stream with another file.
 
 @node Reading and Writing Non-Regular Files<3>,,Stream Pointer Positioning<3>,Wide_Wide_Text_IO
-@anchor{gnat_rm/the_implementation_of_standard_i_o id18}@anchor{264}@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files-2}@anchor{265}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id18}@anchor{266}@anchor{gnat_rm/the_implementation_of_standard_i_o reading-and-writing-non-regular-files-2}@anchor{267}
 @subsection Reading and Writing Non-Regular Files
 
 
@@ -21208,7 +21262,7 @@ treated as data characters), and @cite{End_Of_Page} always returns
 it is possible to read beyond an end of file.
 
 @node Stream_IO,Text Translation,Wide_Wide_Text_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o id19}@anchor{266}@anchor{gnat_rm/the_implementation_of_standard_i_o stream-io}@anchor{267}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id19}@anchor{268}@anchor{gnat_rm/the_implementation_of_standard_i_o stream-io}@anchor{269}
 @section Stream_IO
 
 
@@ -21230,7 +21284,7 @@ manner described for stream attributes.
 @end itemize
 
 @node Text Translation,Shared Files,Stream_IO,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o id20}@anchor{268}@anchor{gnat_rm/the_implementation_of_standard_i_o text-translation}@anchor{269}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id20}@anchor{26a}@anchor{gnat_rm/the_implementation_of_standard_i_o text-translation}@anchor{26b}
 @section Text Translation
 
 
@@ -21264,7 +21318,7 @@ mode. (corresponds to_O_U16TEXT).
 @end itemize
 
 @node Shared Files,Filenames encoding,Text Translation,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o id21}@anchor{26a}@anchor{gnat_rm/the_implementation_of_standard_i_o shared-files}@anchor{26b}
+@anchor{gnat_rm/the_implementation_of_standard_i_o id21}@anchor{26c}@anchor{gnat_rm/the_implementation_of_standard_i_o shared-files}@anchor{26d}
 @section Shared Files
 
 
@@ -21327,7 +21381,7 @@ heterogeneous input-output.  Although this approach will work in GNAT if
 for this purpose (using the stream attributes)
 
 @node Filenames encoding,File content encoding,Shared Files,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o filenames-encoding}@anchor{26c}@anchor{gnat_rm/the_implementation_of_standard_i_o id22}@anchor{26d}
+@anchor{gnat_rm/the_implementation_of_standard_i_o filenames-encoding}@anchor{26e}@anchor{gnat_rm/the_implementation_of_standard_i_o id22}@anchor{26f}
 @section Filenames encoding
 
 
@@ -21367,7 +21421,7 @@ platform. On the other Operating Systems the run-time is supporting
 UTF-8 natively.
 
 @node File content encoding,Open Modes,Filenames encoding,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o file-content-encoding}@anchor{26e}@anchor{gnat_rm/the_implementation_of_standard_i_o id23}@anchor{26f}
+@anchor{gnat_rm/the_implementation_of_standard_i_o file-content-encoding}@anchor{270}@anchor{gnat_rm/the_implementation_of_standard_i_o id23}@anchor{271}
 @section File content encoding
 
 
@@ -21400,7 +21454,7 @@ Unicode 8-bit encoding
 This encoding is only supported on the Windows platform.
 
 @node Open Modes,Operations on C Streams,File content encoding,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o open-modes}@anchor{270}@anchor{gnat_rm/the_implementation_of_standard_i_o id24}@anchor{271}
+@anchor{gnat_rm/the_implementation_of_standard_i_o open-modes}@anchor{272}@anchor{gnat_rm/the_implementation_of_standard_i_o id24}@anchor{273}
 @section Open Modes
 
 
@@ -21503,7 +21557,7 @@ subsequently requires switching from reading to writing or vice-versa,
 then the file is reopened in @code{r+} mode to permit the required operation.
 
 @node Operations on C Streams,Interfacing to C Streams,Open Modes,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o operations-on-c-streams}@anchor{272}@anchor{gnat_rm/the_implementation_of_standard_i_o id25}@anchor{273}
+@anchor{gnat_rm/the_implementation_of_standard_i_o operations-on-c-streams}@anchor{274}@anchor{gnat_rm/the_implementation_of_standard_i_o id25}@anchor{275}
 @section Operations on C Streams
 
 
@@ -21663,7 +21717,7 @@ end Interfaces.C_Streams;
 @end example
 
 @node Interfacing to C Streams,,Operations on C Streams,The Implementation of Standard I/O
-@anchor{gnat_rm/the_implementation_of_standard_i_o interfacing-to-c-streams}@anchor{274}@anchor{gnat_rm/the_implementation_of_standard_i_o id26}@anchor{275}
+@anchor{gnat_rm/the_implementation_of_standard_i_o interfacing-to-c-streams}@anchor{276}@anchor{gnat_rm/the_implementation_of_standard_i_o id26}@anchor{277}
 @section Interfacing to C Streams
 
 
@@ -21756,7 +21810,7 @@ imported from a C program, allowing an Ada file to operate on an
 existing C file.
 
 @node The GNAT Library,Interfacing to Other Languages,The Implementation of Standard I/O,Top
-@anchor{gnat_rm/the_gnat_library the-gnat-library}@anchor{10}@anchor{gnat_rm/the_gnat_library doc}@anchor{276}@anchor{gnat_rm/the_gnat_library id1}@anchor{277}
+@anchor{gnat_rm/the_gnat_library the-gnat-library}@anchor{10}@anchor{gnat_rm/the_gnat_library doc}@anchor{278}@anchor{gnat_rm/the_gnat_library id1}@anchor{279}
 @chapter The GNAT Library
 
 
@@ -21942,7 +21996,7 @@ of GNAT, and will generate a warning message.
 @end menu
 
 @node Ada Characters Latin_9 a-chlat9 ads,Ada Characters Wide_Latin_1 a-cwila1 ads,,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id2}@anchor{278}@anchor{gnat_rm/the_gnat_library ada-characters-latin-9-a-chlat9-ads}@anchor{279}
+@anchor{gnat_rm/the_gnat_library id2}@anchor{27a}@anchor{gnat_rm/the_gnat_library ada-characters-latin-9-a-chlat9-ads}@anchor{27b}
 @section @cite{Ada.Characters.Latin_9} (@code{a-chlat9.ads})
 
 
@@ -21959,7 +22013,7 @@ is specifically authorized by the Ada Reference Manual
 (RM A.3.3(27)).
 
 @node Ada Characters Wide_Latin_1 a-cwila1 ads,Ada Characters Wide_Latin_9 a-cwila1 ads,Ada Characters Latin_9 a-chlat9 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-characters-wide-latin-1-a-cwila1-ads}@anchor{27a}@anchor{gnat_rm/the_gnat_library id3}@anchor{27b}
+@anchor{gnat_rm/the_gnat_library ada-characters-wide-latin-1-a-cwila1-ads}@anchor{27c}@anchor{gnat_rm/the_gnat_library id3}@anchor{27d}
 @section @cite{Ada.Characters.Wide_Latin_1} (@code{a-cwila1.ads})
 
 
@@ -21976,7 +22030,7 @@ is specifically authorized by the Ada Reference Manual
 (RM A.3.3(27)).
 
 @node Ada Characters Wide_Latin_9 a-cwila1 ads,Ada Characters Wide_Wide_Latin_1 a-chzla1 ads,Ada Characters Wide_Latin_1 a-cwila1 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id4}@anchor{27c}@anchor{gnat_rm/the_gnat_library ada-characters-wide-latin-9-a-cwila1-ads}@anchor{27d}
+@anchor{gnat_rm/the_gnat_library id4}@anchor{27e}@anchor{gnat_rm/the_gnat_library ada-characters-wide-latin-9-a-cwila1-ads}@anchor{27f}
 @section @cite{Ada.Characters.Wide_Latin_9} (@code{a-cwila1.ads})
 
 
@@ -21993,7 +22047,7 @@ is specifically authorized by the Ada Reference Manual
 (RM A.3.3(27)).
 
 @node Ada Characters Wide_Wide_Latin_1 a-chzla1 ads,Ada Characters Wide_Wide_Latin_9 a-chzla9 ads,Ada Characters Wide_Latin_9 a-cwila1 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-characters-wide-wide-latin-1-a-chzla1-ads}@anchor{27e}@anchor{gnat_rm/the_gnat_library id5}@anchor{27f}
+@anchor{gnat_rm/the_gnat_library ada-characters-wide-wide-latin-1-a-chzla1-ads}@anchor{280}@anchor{gnat_rm/the_gnat_library id5}@anchor{281}
 @section @cite{Ada.Characters.Wide_Wide_Latin_1} (@code{a-chzla1.ads})
 
 
@@ -22010,7 +22064,7 @@ is specifically authorized by the Ada Reference Manual
 (RM A.3.3(27)).
 
 @node Ada Characters Wide_Wide_Latin_9 a-chzla9 ads,Ada Containers Formal_Doubly_Linked_Lists a-cfdlli ads,Ada Characters Wide_Wide_Latin_1 a-chzla1 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-characters-wide-wide-latin-9-a-chzla9-ads}@anchor{280}@anchor{gnat_rm/the_gnat_library id6}@anchor{281}
+@anchor{gnat_rm/the_gnat_library ada-characters-wide-wide-latin-9-a-chzla9-ads}@anchor{282}@anchor{gnat_rm/the_gnat_library id6}@anchor{283}
 @section @cite{Ada.Characters.Wide_Wide_Latin_9} (@code{a-chzla9.ads})
 
 
@@ -22027,7 +22081,7 @@ is specifically authorized by the Ada Reference Manual
 (RM A.3.3(27)).
 
 @node Ada Containers Formal_Doubly_Linked_Lists a-cfdlli ads,Ada Containers Formal_Hashed_Maps a-cfhama ads,Ada Characters Wide_Wide_Latin_9 a-chzla9 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id7}@anchor{282}@anchor{gnat_rm/the_gnat_library ada-containers-formal-doubly-linked-lists-a-cfdlli-ads}@anchor{283}
+@anchor{gnat_rm/the_gnat_library id7}@anchor{284}@anchor{gnat_rm/the_gnat_library ada-containers-formal-doubly-linked-lists-a-cfdlli-ads}@anchor{285}
 @section @cite{Ada.Containers.Formal_Doubly_Linked_Lists} (@code{a-cfdlli.ads})
 
 
@@ -22046,7 +22100,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Hashed_Maps a-cfhama ads,Ada Containers Formal_Hashed_Sets a-cfhase ads,Ada Containers Formal_Doubly_Linked_Lists a-cfdlli ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id8}@anchor{284}@anchor{gnat_rm/the_gnat_library ada-containers-formal-hashed-maps-a-cfhama-ads}@anchor{285}
+@anchor{gnat_rm/the_gnat_library id8}@anchor{286}@anchor{gnat_rm/the_gnat_library ada-containers-formal-hashed-maps-a-cfhama-ads}@anchor{287}
 @section @cite{Ada.Containers.Formal_Hashed_Maps} (@code{a-cfhama.ads})
 
 
@@ -22065,7 +22119,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Hashed_Sets a-cfhase ads,Ada Containers Formal_Ordered_Maps a-cforma ads,Ada Containers Formal_Hashed_Maps a-cfhama ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id9}@anchor{286}@anchor{gnat_rm/the_gnat_library ada-containers-formal-hashed-sets-a-cfhase-ads}@anchor{287}
+@anchor{gnat_rm/the_gnat_library id9}@anchor{288}@anchor{gnat_rm/the_gnat_library ada-containers-formal-hashed-sets-a-cfhase-ads}@anchor{289}
 @section @cite{Ada.Containers.Formal_Hashed_Sets} (@code{a-cfhase.ads})
 
 
@@ -22084,7 +22138,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Ordered_Maps a-cforma ads,Ada Containers Formal_Ordered_Sets a-cforse ads,Ada Containers Formal_Hashed_Sets a-cfhase ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id10}@anchor{288}@anchor{gnat_rm/the_gnat_library ada-containers-formal-ordered-maps-a-cforma-ads}@anchor{289}
+@anchor{gnat_rm/the_gnat_library id10}@anchor{28a}@anchor{gnat_rm/the_gnat_library ada-containers-formal-ordered-maps-a-cforma-ads}@anchor{28b}
 @section @cite{Ada.Containers.Formal_Ordered_Maps} (@code{a-cforma.ads})
 
 
@@ -22103,7 +22157,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Ordered_Sets a-cforse ads,Ada Containers Formal_Vectors a-cofove ads,Ada Containers Formal_Ordered_Maps a-cforma ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-containers-formal-ordered-sets-a-cforse-ads}@anchor{28a}@anchor{gnat_rm/the_gnat_library id11}@anchor{28b}
+@anchor{gnat_rm/the_gnat_library ada-containers-formal-ordered-sets-a-cforse-ads}@anchor{28c}@anchor{gnat_rm/the_gnat_library id11}@anchor{28d}
 @section @cite{Ada.Containers.Formal_Ordered_Sets} (@code{a-cforse.ads})
 
 
@@ -22122,7 +22176,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Vectors a-cofove ads,Ada Containers Formal_Indefinite_Vectors a-cfinve ads,Ada Containers Formal_Ordered_Sets a-cforse ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id12}@anchor{28c}@anchor{gnat_rm/the_gnat_library ada-containers-formal-vectors-a-cofove-ads}@anchor{28d}
+@anchor{gnat_rm/the_gnat_library id12}@anchor{28e}@anchor{gnat_rm/the_gnat_library ada-containers-formal-vectors-a-cofove-ads}@anchor{28f}
 @section @cite{Ada.Containers.Formal_Vectors} (@code{a-cofove.ads})
 
 
@@ -22141,7 +22195,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Formal_Indefinite_Vectors a-cfinve ads,Ada Containers Bounded_Holders a-coboho ads,Ada Containers Formal_Vectors a-cofove ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id13}@anchor{28e}@anchor{gnat_rm/the_gnat_library ada-containers-formal-indefinite-vectors-a-cfinve-ads}@anchor{28f}
+@anchor{gnat_rm/the_gnat_library id13}@anchor{290}@anchor{gnat_rm/the_gnat_library ada-containers-formal-indefinite-vectors-a-cfinve-ads}@anchor{291}
 @section @cite{Ada.Containers.Formal_Indefinite_Vectors} (@code{a-cfinve.ads})
 
 
@@ -22160,7 +22214,7 @@ efficient version than the one defined in the standard. In particular it
 does not have the complex overhead required to detect cursor tampering.
 
 @node Ada Containers Bounded_Holders a-coboho ads,Ada Command_Line Environment a-colien ads,Ada Containers Formal_Indefinite_Vectors a-cfinve ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id14}@anchor{290}@anchor{gnat_rm/the_gnat_library ada-containers-bounded-holders-a-coboho-ads}@anchor{291}
+@anchor{gnat_rm/the_gnat_library id14}@anchor{292}@anchor{gnat_rm/the_gnat_library ada-containers-bounded-holders-a-coboho-ads}@anchor{293}
 @section @cite{Ada.Containers.Bounded_Holders} (@code{a-coboho.ads})
 
 
@@ -22172,7 +22226,7 @@ This child of @cite{Ada.Containers} defines a modified version of
 Indefinite_Holders that avoids heap allocation.
 
 @node Ada Command_Line Environment a-colien ads,Ada Command_Line Remove a-colire ads,Ada Containers Bounded_Holders a-coboho ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-command-line-environment-a-colien-ads}@anchor{292}@anchor{gnat_rm/the_gnat_library id15}@anchor{293}
+@anchor{gnat_rm/the_gnat_library ada-command-line-environment-a-colien-ads}@anchor{294}@anchor{gnat_rm/the_gnat_library id15}@anchor{295}
 @section @cite{Ada.Command_Line.Environment} (@code{a-colien.ads})
 
 
@@ -22185,7 +22239,7 @@ provides a mechanism for obtaining environment values on systems
 where this concept makes sense.
 
 @node Ada Command_Line Remove a-colire ads,Ada Command_Line Response_File a-clrefi ads,Ada Command_Line Environment a-colien ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id16}@anchor{294}@anchor{gnat_rm/the_gnat_library ada-command-line-remove-a-colire-ads}@anchor{295}
+@anchor{gnat_rm/the_gnat_library id16}@anchor{296}@anchor{gnat_rm/the_gnat_library ada-command-line-remove-a-colire-ads}@anchor{297}
 @section @cite{Ada.Command_Line.Remove} (@code{a-colire.ads})
 
 
@@ -22203,7 +22257,7 @@ to further calls on the subprograms in @cite{Ada.Command_Line} will not
 see the removed argument.
 
 @node Ada Command_Line Response_File a-clrefi ads,Ada Direct_IO C_Streams a-diocst ads,Ada Command_Line Remove a-colire ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-command-line-response-file-a-clrefi-ads}@anchor{296}@anchor{gnat_rm/the_gnat_library id17}@anchor{297}
+@anchor{gnat_rm/the_gnat_library ada-command-line-response-file-a-clrefi-ads}@anchor{298}@anchor{gnat_rm/the_gnat_library id17}@anchor{299}
 @section @cite{Ada.Command_Line.Response_File} (@code{a-clrefi.ads})
 
 
@@ -22223,7 +22277,7 @@ Using a response file allow passing a set of arguments to an executable longer
 than the maximum allowed by the system on the command line.
 
 @node Ada Direct_IO C_Streams a-diocst ads,Ada Exceptions Is_Null_Occurrence a-einuoc ads,Ada Command_Line Response_File a-clrefi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id18}@anchor{298}@anchor{gnat_rm/the_gnat_library ada-direct-io-c-streams-a-diocst-ads}@anchor{299}
+@anchor{gnat_rm/the_gnat_library id18}@anchor{29a}@anchor{gnat_rm/the_gnat_library ada-direct-io-c-streams-a-diocst-ads}@anchor{29b}
 @section @cite{Ada.Direct_IO.C_Streams} (@code{a-diocst.ads})
 
 
@@ -22238,7 +22292,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Exceptions Is_Null_Occurrence a-einuoc ads,Ada Exceptions Last_Chance_Handler a-elchha ads,Ada Direct_IO C_Streams a-diocst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id19}@anchor{29a}@anchor{gnat_rm/the_gnat_library ada-exceptions-is-null-occurrence-a-einuoc-ads}@anchor{29b}
+@anchor{gnat_rm/the_gnat_library id19}@anchor{29c}@anchor{gnat_rm/the_gnat_library ada-exceptions-is-null-occurrence-a-einuoc-ads}@anchor{29d}
 @section @cite{Ada.Exceptions.Is_Null_Occurrence} (@code{a-einuoc.ads})
 
 
@@ -22252,7 +22306,7 @@ exception occurrence (@cite{Null_Occurrence}) without raising
 an exception.
 
 @node Ada Exceptions Last_Chance_Handler a-elchha ads,Ada Exceptions Traceback a-exctra ads,Ada Exceptions Is_Null_Occurrence a-einuoc ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id20}@anchor{29c}@anchor{gnat_rm/the_gnat_library ada-exceptions-last-chance-handler-a-elchha-ads}@anchor{29d}
+@anchor{gnat_rm/the_gnat_library id20}@anchor{29e}@anchor{gnat_rm/the_gnat_library ada-exceptions-last-chance-handler-a-elchha-ads}@anchor{29f}
 @section @cite{Ada.Exceptions.Last_Chance_Handler} (@code{a-elchha.ads})
 
 
@@ -22266,7 +22320,7 @@ exceptions (hence the name last chance), and perform clean ups before
 terminating the program. Note that this subprogram never returns.
 
 @node Ada Exceptions Traceback a-exctra ads,Ada Sequential_IO C_Streams a-siocst ads,Ada Exceptions Last_Chance_Handler a-elchha ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-exceptions-traceback-a-exctra-ads}@anchor{29e}@anchor{gnat_rm/the_gnat_library id21}@anchor{29f}
+@anchor{gnat_rm/the_gnat_library ada-exceptions-traceback-a-exctra-ads}@anchor{2a0}@anchor{gnat_rm/the_gnat_library id21}@anchor{2a1}
 @section @cite{Ada.Exceptions.Traceback} (@code{a-exctra.ads})
 
 
@@ -22279,7 +22333,7 @@ give a traceback array of addresses based on an exception
 occurrence.
 
 @node Ada Sequential_IO C_Streams a-siocst ads,Ada Streams Stream_IO C_Streams a-ssicst ads,Ada Exceptions Traceback a-exctra ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-sequential-io-c-streams-a-siocst-ads}@anchor{2a0}@anchor{gnat_rm/the_gnat_library id22}@anchor{2a1}
+@anchor{gnat_rm/the_gnat_library ada-sequential-io-c-streams-a-siocst-ads}@anchor{2a2}@anchor{gnat_rm/the_gnat_library id22}@anchor{2a3}
 @section @cite{Ada.Sequential_IO.C_Streams} (@code{a-siocst.ads})
 
 
@@ -22294,7 +22348,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Streams Stream_IO C_Streams a-ssicst ads,Ada Strings Unbounded Text_IO a-suteio ads,Ada Sequential_IO C_Streams a-siocst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id23}@anchor{2a2}@anchor{gnat_rm/the_gnat_library ada-streams-stream-io-c-streams-a-ssicst-ads}@anchor{2a3}
+@anchor{gnat_rm/the_gnat_library id23}@anchor{2a4}@anchor{gnat_rm/the_gnat_library ada-streams-stream-io-c-streams-a-ssicst-ads}@anchor{2a5}
 @section @cite{Ada.Streams.Stream_IO.C_Streams} (@code{a-ssicst.ads})
 
 
@@ -22309,7 +22363,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Strings Unbounded Text_IO a-suteio ads,Ada Strings Wide_Unbounded Wide_Text_IO a-swuwti ads,Ada Streams Stream_IO C_Streams a-ssicst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-strings-unbounded-text-io-a-suteio-ads}@anchor{2a4}@anchor{gnat_rm/the_gnat_library id24}@anchor{2a5}
+@anchor{gnat_rm/the_gnat_library ada-strings-unbounded-text-io-a-suteio-ads}@anchor{2a6}@anchor{gnat_rm/the_gnat_library id24}@anchor{2a7}
 @section @cite{Ada.Strings.Unbounded.Text_IO} (@code{a-suteio.ads})
 
 
@@ -22326,7 +22380,7 @@ strings, avoiding the necessity for an intermediate operation
 with ordinary strings.
 
 @node Ada Strings Wide_Unbounded Wide_Text_IO a-swuwti ads,Ada Strings Wide_Wide_Unbounded Wide_Wide_Text_IO a-szuzti ads,Ada Strings Unbounded Text_IO a-suteio ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id25}@anchor{2a6}@anchor{gnat_rm/the_gnat_library ada-strings-wide-unbounded-wide-text-io-a-swuwti-ads}@anchor{2a7}
+@anchor{gnat_rm/the_gnat_library id25}@anchor{2a8}@anchor{gnat_rm/the_gnat_library ada-strings-wide-unbounded-wide-text-io-a-swuwti-ads}@anchor{2a9}
 @section @cite{Ada.Strings.Wide_Unbounded.Wide_Text_IO} (@code{a-swuwti.ads})
 
 
@@ -22343,7 +22397,7 @@ wide strings, avoiding the necessity for an intermediate operation
 with ordinary wide strings.
 
 @node Ada Strings Wide_Wide_Unbounded Wide_Wide_Text_IO a-szuzti ads,Ada Text_IO C_Streams a-tiocst ads,Ada Strings Wide_Unbounded Wide_Text_IO a-swuwti ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-strings-wide-wide-unbounded-wide-wide-text-io-a-szuzti-ads}@anchor{2a8}@anchor{gnat_rm/the_gnat_library id26}@anchor{2a9}
+@anchor{gnat_rm/the_gnat_library ada-strings-wide-wide-unbounded-wide-wide-text-io-a-szuzti-ads}@anchor{2aa}@anchor{gnat_rm/the_gnat_library id26}@anchor{2ab}
 @section @cite{Ada.Strings.Wide_Wide_Unbounded.Wide_Wide_Text_IO} (@code{a-szuzti.ads})
 
 
@@ -22360,7 +22414,7 @@ wide wide strings, avoiding the necessity for an intermediate operation
 with ordinary wide wide strings.
 
 @node Ada Text_IO C_Streams a-tiocst ads,Ada Text_IO Reset_Standard_Files a-tirsfi ads,Ada Strings Wide_Wide_Unbounded Wide_Wide_Text_IO a-szuzti ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-text-io-c-streams-a-tiocst-ads}@anchor{2aa}@anchor{gnat_rm/the_gnat_library id27}@anchor{2ab}
+@anchor{gnat_rm/the_gnat_library ada-text-io-c-streams-a-tiocst-ads}@anchor{2ac}@anchor{gnat_rm/the_gnat_library id27}@anchor{2ad}
 @section @cite{Ada.Text_IO.C_Streams} (@code{a-tiocst.ads})
 
 
@@ -22375,7 +22429,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Text_IO Reset_Standard_Files a-tirsfi ads,Ada Wide_Characters Unicode a-wichun ads,Ada Text_IO C_Streams a-tiocst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id28}@anchor{2ac}@anchor{gnat_rm/the_gnat_library ada-text-io-reset-standard-files-a-tirsfi-ads}@anchor{2ad}
+@anchor{gnat_rm/the_gnat_library id28}@anchor{2ae}@anchor{gnat_rm/the_gnat_library ada-text-io-reset-standard-files-a-tirsfi-ads}@anchor{2af}
 @section @cite{Ada.Text_IO.Reset_Standard_Files} (@code{a-tirsfi.ads})
 
 
@@ -22390,7 +22444,7 @@ execution (for example a standard input file may be redefined to be
 interactive).
 
 @node Ada Wide_Characters Unicode a-wichun ads,Ada Wide_Text_IO C_Streams a-wtcstr ads,Ada Text_IO Reset_Standard_Files a-tirsfi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id29}@anchor{2ae}@anchor{gnat_rm/the_gnat_library ada-wide-characters-unicode-a-wichun-ads}@anchor{2af}
+@anchor{gnat_rm/the_gnat_library id29}@anchor{2b0}@anchor{gnat_rm/the_gnat_library ada-wide-characters-unicode-a-wichun-ads}@anchor{2b1}
 @section @cite{Ada.Wide_Characters.Unicode} (@code{a-wichun.ads})
 
 
@@ -22403,7 +22457,7 @@ This package provides subprograms that allow categorization of
 Wide_Character values according to Unicode categories.
 
 @node Ada Wide_Text_IO C_Streams a-wtcstr ads,Ada Wide_Text_IO Reset_Standard_Files a-wrstfi ads,Ada Wide_Characters Unicode a-wichun ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-wide-text-io-c-streams-a-wtcstr-ads}@anchor{2b0}@anchor{gnat_rm/the_gnat_library id30}@anchor{2b1}
+@anchor{gnat_rm/the_gnat_library ada-wide-text-io-c-streams-a-wtcstr-ads}@anchor{2b2}@anchor{gnat_rm/the_gnat_library id30}@anchor{2b3}
 @section @cite{Ada.Wide_Text_IO.C_Streams} (@code{a-wtcstr.ads})
 
 
@@ -22418,7 +22472,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Wide_Text_IO Reset_Standard_Files a-wrstfi ads,Ada Wide_Wide_Characters Unicode a-zchuni ads,Ada Wide_Text_IO C_Streams a-wtcstr ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library ada-wide-text-io-reset-standard-files-a-wrstfi-ads}@anchor{2b2}@anchor{gnat_rm/the_gnat_library id31}@anchor{2b3}
+@anchor{gnat_rm/the_gnat_library ada-wide-text-io-reset-standard-files-a-wrstfi-ads}@anchor{2b4}@anchor{gnat_rm/the_gnat_library id31}@anchor{2b5}
 @section @cite{Ada.Wide_Text_IO.Reset_Standard_Files} (@code{a-wrstfi.ads})
 
 
@@ -22433,7 +22487,7 @@ execution (for example a standard input file may be redefined to be
 interactive).
 
 @node Ada Wide_Wide_Characters Unicode a-zchuni ads,Ada Wide_Wide_Text_IO C_Streams a-ztcstr ads,Ada Wide_Text_IO Reset_Standard_Files a-wrstfi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id32}@anchor{2b4}@anchor{gnat_rm/the_gnat_library ada-wide-wide-characters-unicode-a-zchuni-ads}@anchor{2b5}
+@anchor{gnat_rm/the_gnat_library id32}@anchor{2b6}@anchor{gnat_rm/the_gnat_library ada-wide-wide-characters-unicode-a-zchuni-ads}@anchor{2b7}
 @section @cite{Ada.Wide_Wide_Characters.Unicode} (@code{a-zchuni.ads})
 
 
@@ -22446,7 +22500,7 @@ This package provides subprograms that allow categorization of
 Wide_Wide_Character values according to Unicode categories.
 
 @node Ada Wide_Wide_Text_IO C_Streams a-ztcstr ads,Ada Wide_Wide_Text_IO Reset_Standard_Files a-zrstfi ads,Ada Wide_Wide_Characters Unicode a-zchuni ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id33}@anchor{2b6}@anchor{gnat_rm/the_gnat_library ada-wide-wide-text-io-c-streams-a-ztcstr-ads}@anchor{2b7}
+@anchor{gnat_rm/the_gnat_library id33}@anchor{2b8}@anchor{gnat_rm/the_gnat_library ada-wide-wide-text-io-c-streams-a-ztcstr-ads}@anchor{2b9}
 @section @cite{Ada.Wide_Wide_Text_IO.C_Streams} (@code{a-ztcstr.ads})
 
 
@@ -22461,7 +22515,7 @@ extracted from a file opened on the Ada side, and an Ada file
 can be constructed from a stream opened on the C side.
 
 @node Ada Wide_Wide_Text_IO Reset_Standard_Files a-zrstfi ads,GNAT Altivec g-altive ads,Ada Wide_Wide_Text_IO C_Streams a-ztcstr ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id34}@anchor{2b8}@anchor{gnat_rm/the_gnat_library ada-wide-wide-text-io-reset-standard-files-a-zrstfi-ads}@anchor{2b9}
+@anchor{gnat_rm/the_gnat_library id34}@anchor{2ba}@anchor{gnat_rm/the_gnat_library ada-wide-wide-text-io-reset-standard-files-a-zrstfi-ads}@anchor{2bb}
 @section @cite{Ada.Wide_Wide_Text_IO.Reset_Standard_Files} (@code{a-zrstfi.ads})
 
 
@@ -22476,7 +22530,7 @@ change during execution (for example a standard input file may be
 redefined to be interactive).
 
 @node GNAT Altivec g-altive ads,GNAT Altivec Conversions g-altcon ads,Ada Wide_Wide_Text_IO Reset_Standard_Files a-zrstfi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-altivec-g-altive-ads}@anchor{2ba}@anchor{gnat_rm/the_gnat_library id35}@anchor{2bb}
+@anchor{gnat_rm/the_gnat_library gnat-altivec-g-altive-ads}@anchor{2bc}@anchor{gnat_rm/the_gnat_library id35}@anchor{2bd}
 @section @cite{GNAT.Altivec} (@code{g-altive.ads})
 
 
@@ -22489,7 +22543,7 @@ definitions of constants and types common to all the versions of the
 binding.
 
 @node GNAT Altivec Conversions g-altcon ads,GNAT Altivec Vector_Operations g-alveop ads,GNAT Altivec g-altive ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id36}@anchor{2bc}@anchor{gnat_rm/the_gnat_library gnat-altivec-conversions-g-altcon-ads}@anchor{2bd}
+@anchor{gnat_rm/the_gnat_library id36}@anchor{2be}@anchor{gnat_rm/the_gnat_library gnat-altivec-conversions-g-altcon-ads}@anchor{2bf}
 @section @cite{GNAT.Altivec.Conversions} (@code{g-altcon.ads})
 
 
@@ -22500,7 +22554,7 @@ binding.
 This package provides the Vector/View conversion routines.
 
 @node GNAT Altivec Vector_Operations g-alveop ads,GNAT Altivec Vector_Types g-alvety ads,GNAT Altivec Conversions g-altcon ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id37}@anchor{2be}@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-operations-g-alveop-ads}@anchor{2bf}
+@anchor{gnat_rm/the_gnat_library id37}@anchor{2c0}@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-operations-g-alveop-ads}@anchor{2c1}
 @section @cite{GNAT.Altivec.Vector_Operations} (@code{g-alveop.ads})
 
 
@@ -22514,7 +22568,7 @@ library. The hard binding is provided as a separate package. This unit
 is common to both bindings.
 
 @node GNAT Altivec Vector_Types g-alvety ads,GNAT Altivec Vector_Views g-alvevi ads,GNAT Altivec Vector_Operations g-alveop ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-types-g-alvety-ads}@anchor{2c0}@anchor{gnat_rm/the_gnat_library id38}@anchor{2c1}
+@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-types-g-alvety-ads}@anchor{2c2}@anchor{gnat_rm/the_gnat_library id38}@anchor{2c3}
 @section @cite{GNAT.Altivec.Vector_Types} (@code{g-alvety.ads})
 
 
@@ -22526,7 +22580,7 @@ This package exposes the various vector types part of the Ada binding
 to AltiVec facilities.
 
 @node GNAT Altivec Vector_Views g-alvevi ads,GNAT Array_Split g-arrspl ads,GNAT Altivec Vector_Types g-alvety ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-views-g-alvevi-ads}@anchor{2c2}@anchor{gnat_rm/the_gnat_library id39}@anchor{2c3}
+@anchor{gnat_rm/the_gnat_library gnat-altivec-vector-views-g-alvevi-ads}@anchor{2c4}@anchor{gnat_rm/the_gnat_library id39}@anchor{2c5}
 @section @cite{GNAT.Altivec.Vector_Views} (@code{g-alvevi.ads})
 
 
@@ -22541,7 +22595,7 @@ vector elements and provides a simple way to initialize vector
 objects.
 
 @node GNAT Array_Split g-arrspl ads,GNAT AWK g-awk ads,GNAT Altivec Vector_Views g-alvevi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-array-split-g-arrspl-ads}@anchor{2c4}@anchor{gnat_rm/the_gnat_library id40}@anchor{2c5}
+@anchor{gnat_rm/the_gnat_library gnat-array-split-g-arrspl-ads}@anchor{2c6}@anchor{gnat_rm/the_gnat_library id40}@anchor{2c7}
 @section @cite{GNAT.Array_Split} (@code{g-arrspl.ads})
 
 
@@ -22554,7 +22608,7 @@ an array wherever the separators appear, and provide direct access
 to the resulting slices.
 
 @node GNAT AWK g-awk ads,GNAT Bounded_Buffers g-boubuf ads,GNAT Array_Split g-arrspl ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id41}@anchor{2c6}@anchor{gnat_rm/the_gnat_library gnat-awk-g-awk-ads}@anchor{2c7}
+@anchor{gnat_rm/the_gnat_library id41}@anchor{2c8}@anchor{gnat_rm/the_gnat_library gnat-awk-g-awk-ads}@anchor{2c9}
 @section @cite{GNAT.AWK} (@code{g-awk.ads})
 
 
@@ -22569,7 +22623,7 @@ or more files containing formatted data.  The file is viewed as a database
 where each record is a line and a field is a data element in this line.
 
 @node GNAT Bounded_Buffers g-boubuf ads,GNAT Bounded_Mailboxes g-boumai ads,GNAT AWK g-awk ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-bounded-buffers-g-boubuf-ads}@anchor{2c8}@anchor{gnat_rm/the_gnat_library id42}@anchor{2c9}
+@anchor{gnat_rm/the_gnat_library gnat-bounded-buffers-g-boubuf-ads}@anchor{2ca}@anchor{gnat_rm/the_gnat_library id42}@anchor{2cb}
 @section @cite{GNAT.Bounded_Buffers} (@code{g-boubuf.ads})
 
 
@@ -22584,7 +22638,7 @@ useful directly or as parts of the implementations of other abstractions,
 such as mailboxes.
 
 @node GNAT Bounded_Mailboxes g-boumai ads,GNAT Bubble_Sort g-bubsor ads,GNAT Bounded_Buffers g-boubuf ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-bounded-mailboxes-g-boumai-ads}@anchor{2ca}@anchor{gnat_rm/the_gnat_library id43}@anchor{2cb}
+@anchor{gnat_rm/the_gnat_library gnat-bounded-mailboxes-g-boumai-ads}@anchor{2cc}@anchor{gnat_rm/the_gnat_library id43}@anchor{2cd}
 @section @cite{GNAT.Bounded_Mailboxes} (@code{g-boumai.ads})
 
 
@@ -22597,7 +22651,7 @@ such as mailboxes.
 Provides a thread-safe asynchronous intertask mailbox communication facility.
 
 @node GNAT Bubble_Sort g-bubsor ads,GNAT Bubble_Sort_A g-busora ads,GNAT Bounded_Mailboxes g-boumai ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-g-bubsor-ads}@anchor{2cc}@anchor{gnat_rm/the_gnat_library id44}@anchor{2cd}
+@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-g-bubsor-ads}@anchor{2ce}@anchor{gnat_rm/the_gnat_library id44}@anchor{2cf}
 @section @cite{GNAT.Bubble_Sort} (@code{g-bubsor.ads})
 
 
@@ -22612,7 +22666,7 @@ data items.  Exchange and comparison procedures are provided by passing
 access-to-procedure values.
 
 @node GNAT Bubble_Sort_A g-busora ads,GNAT Bubble_Sort_G g-busorg ads,GNAT Bubble_Sort g-bubsor ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id45}@anchor{2ce}@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-a-g-busora-ads}@anchor{2cf}
+@anchor{gnat_rm/the_gnat_library id45}@anchor{2d0}@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-a-g-busora-ads}@anchor{2d1}
 @section @cite{GNAT.Bubble_Sort_A} (@code{g-busora.ads})
 
 
@@ -22628,7 +22682,7 @@ access-to-procedure values. This is an older version, retained for
 compatibility. Usually @cite{GNAT.Bubble_Sort} will be preferable.
 
 @node GNAT Bubble_Sort_G g-busorg ads,GNAT Byte_Order_Mark g-byorma ads,GNAT Bubble_Sort_A g-busora ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id46}@anchor{2d0}@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-g-g-busorg-ads}@anchor{2d1}
+@anchor{gnat_rm/the_gnat_library id46}@anchor{2d2}@anchor{gnat_rm/the_gnat_library gnat-bubble-sort-g-g-busorg-ads}@anchor{2d3}
 @section @cite{GNAT.Bubble_Sort_G} (@code{g-busorg.ads})
 
 
@@ -22644,7 +22698,7 @@ if the procedures can be inlined, at the expense of duplicating code for
 multiple instantiations.
 
 @node GNAT Byte_Order_Mark g-byorma ads,GNAT Byte_Swapping g-bytswa ads,GNAT Bubble_Sort_G g-busorg ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id47}@anchor{2d2}@anchor{gnat_rm/the_gnat_library gnat-byte-order-mark-g-byorma-ads}@anchor{2d3}
+@anchor{gnat_rm/the_gnat_library id47}@anchor{2d4}@anchor{gnat_rm/the_gnat_library gnat-byte-order-mark-g-byorma-ads}@anchor{2d5}
 @section @cite{GNAT.Byte_Order_Mark} (@code{g-byorma.ads})
 
 
@@ -22660,7 +22714,7 @@ the encoding of the string. The routine includes detection of special XML
 sequences for various UCS input formats.
 
 @node GNAT Byte_Swapping g-bytswa ads,GNAT Calendar g-calend ads,GNAT Byte_Order_Mark g-byorma ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-byte-swapping-g-bytswa-ads}@anchor{2d4}@anchor{gnat_rm/the_gnat_library id48}@anchor{2d5}
+@anchor{gnat_rm/the_gnat_library gnat-byte-swapping-g-bytswa-ads}@anchor{2d6}@anchor{gnat_rm/the_gnat_library id48}@anchor{2d7}
 @section @cite{GNAT.Byte_Swapping} (@code{g-bytswa.ads})
 
 
@@ -22674,7 +22728,7 @@ General routines for swapping the bytes in 2-, 4-, and 8-byte quantities.
 Machine-specific implementations are available in some cases.
 
 @node GNAT Calendar g-calend ads,GNAT Calendar Time_IO g-catiio ads,GNAT Byte_Swapping g-bytswa ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-calendar-g-calend-ads}@anchor{2d6}@anchor{gnat_rm/the_gnat_library id49}@anchor{2d7}
+@anchor{gnat_rm/the_gnat_library gnat-calendar-g-calend-ads}@anchor{2d8}@anchor{gnat_rm/the_gnat_library id49}@anchor{2d9}
 @section @cite{GNAT.Calendar} (@code{g-calend.ads})
 
 
@@ -22688,7 +22742,7 @@ Also provides conversion of @cite{Ada.Calendar.Time} values to and from the
 C @cite{timeval} format.
 
 @node GNAT Calendar Time_IO g-catiio ads,GNAT CRC32 g-crc32 ads,GNAT Calendar g-calend ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-calendar-time-io-g-catiio-ads}@anchor{2d8}@anchor{gnat_rm/the_gnat_library id50}@anchor{2d9}
+@anchor{gnat_rm/the_gnat_library gnat-calendar-time-io-g-catiio-ads}@anchor{2da}@anchor{gnat_rm/the_gnat_library id50}@anchor{2db}
 @section @cite{GNAT.Calendar.Time_IO} (@code{g-catiio.ads})
 
 
@@ -22699,7 +22753,7 @@ C @cite{timeval} format.
 @geindex GNAT.Calendar.Time_IO (g-catiio.ads)
 
 @node GNAT CRC32 g-crc32 ads,GNAT Case_Util g-casuti ads,GNAT Calendar Time_IO g-catiio ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id51}@anchor{2da}@anchor{gnat_rm/the_gnat_library gnat-crc32-g-crc32-ads}@anchor{2db}
+@anchor{gnat_rm/the_gnat_library id51}@anchor{2dc}@anchor{gnat_rm/the_gnat_library gnat-crc32-g-crc32-ads}@anchor{2dd}
 @section @cite{GNAT.CRC32} (@code{g-crc32.ads})
 
 
@@ -22716,7 +22770,7 @@ of this algorithm see
 Aug. 1988.  Sarwate, D.V.
 
 @node GNAT Case_Util g-casuti ads,GNAT CGI g-cgi ads,GNAT CRC32 g-crc32 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-case-util-g-casuti-ads}@anchor{2dc}@anchor{gnat_rm/the_gnat_library id52}@anchor{2dd}
+@anchor{gnat_rm/the_gnat_library gnat-case-util-g-casuti-ads}@anchor{2de}@anchor{gnat_rm/the_gnat_library id52}@anchor{2df}
 @section @cite{GNAT.Case_Util} (@code{g-casuti.ads})
 
 
@@ -22731,7 +22785,7 @@ without the overhead of the full casing tables
 in @cite{Ada.Characters.Handling}.
 
 @node GNAT CGI g-cgi ads,GNAT CGI Cookie g-cgicoo ads,GNAT Case_Util g-casuti ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id53}@anchor{2de}@anchor{gnat_rm/the_gnat_library gnat-cgi-g-cgi-ads}@anchor{2df}
+@anchor{gnat_rm/the_gnat_library id53}@anchor{2e0}@anchor{gnat_rm/the_gnat_library gnat-cgi-g-cgi-ads}@anchor{2e1}
 @section @cite{GNAT.CGI} (@code{g-cgi.ads})
 
 
@@ -22746,7 +22800,7 @@ builds a table whose index is the key and provides some services to deal
 with this table.
 
 @node GNAT CGI Cookie g-cgicoo ads,GNAT CGI Debug g-cgideb ads,GNAT CGI g-cgi ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id54}@anchor{2e0}@anchor{gnat_rm/the_gnat_library gnat-cgi-cookie-g-cgicoo-ads}@anchor{2e1}
+@anchor{gnat_rm/the_gnat_library id54}@anchor{2e2}@anchor{gnat_rm/the_gnat_library gnat-cgi-cookie-g-cgicoo-ads}@anchor{2e3}
 @section @cite{GNAT.CGI.Cookie} (@code{g-cgicoo.ads})
 
 
@@ -22761,7 +22815,7 @@ Common Gateway Interface (CGI).  It exports services to deal with Web
 cookies (piece of information kept in the Web client software).
 
 @node GNAT CGI Debug g-cgideb ads,GNAT Command_Line g-comlin ads,GNAT CGI Cookie g-cgicoo ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-cgi-debug-g-cgideb-ads}@anchor{2e2}@anchor{gnat_rm/the_gnat_library id55}@anchor{2e3}
+@anchor{gnat_rm/the_gnat_library gnat-cgi-debug-g-cgideb-ads}@anchor{2e4}@anchor{gnat_rm/the_gnat_library id55}@anchor{2e5}
 @section @cite{GNAT.CGI.Debug} (@code{g-cgideb.ads})
 
 
@@ -22773,7 +22827,7 @@ This is a package to help debugging CGI (Common Gateway Interface)
 programs written in Ada.
 
 @node GNAT Command_Line g-comlin ads,GNAT Compiler_Version g-comver ads,GNAT CGI Debug g-cgideb ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id56}@anchor{2e4}@anchor{gnat_rm/the_gnat_library gnat-command-line-g-comlin-ads}@anchor{2e5}
+@anchor{gnat_rm/the_gnat_library id56}@anchor{2e6}@anchor{gnat_rm/the_gnat_library gnat-command-line-g-comlin-ads}@anchor{2e7}
 @section @cite{GNAT.Command_Line} (@code{g-comlin.ads})
 
 
@@ -22786,7 +22840,7 @@ including the ability to scan for named switches with optional parameters
 and expand file names using wild card notations.
 
 @node GNAT Compiler_Version g-comver ads,GNAT Ctrl_C g-ctrl_c ads,GNAT Command_Line g-comlin ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-compiler-version-g-comver-ads}@anchor{2e6}@anchor{gnat_rm/the_gnat_library id57}@anchor{2e7}
+@anchor{gnat_rm/the_gnat_library gnat-compiler-version-g-comver-ads}@anchor{2e8}@anchor{gnat_rm/the_gnat_library id57}@anchor{2e9}
 @section @cite{GNAT.Compiler_Version} (@code{g-comver.ads})
 
 
@@ -22804,7 +22858,7 @@ of the compiler if a consistent tool set is used to compile all units
 of a partition).
 
 @node GNAT Ctrl_C g-ctrl_c ads,GNAT Current_Exception g-curexc ads,GNAT Compiler_Version g-comver ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id58}@anchor{2e8}@anchor{gnat_rm/the_gnat_library gnat-ctrl-c-g-ctrl-c-ads}@anchor{2e9}
+@anchor{gnat_rm/the_gnat_library id58}@anchor{2ea}@anchor{gnat_rm/the_gnat_library gnat-ctrl-c-g-ctrl-c-ads}@anchor{2eb}
 @section @cite{GNAT.Ctrl_C} (@code{g-ctrl_c.ads})
 
 
@@ -22815,7 +22869,7 @@ of a partition).
 Provides a simple interface to handle Ctrl-C keyboard events.
 
 @node GNAT Current_Exception g-curexc ads,GNAT Debug_Pools g-debpoo ads,GNAT Ctrl_C g-ctrl_c ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id59}@anchor{2ea}@anchor{gnat_rm/the_gnat_library gnat-current-exception-g-curexc-ads}@anchor{2eb}
+@anchor{gnat_rm/the_gnat_library id59}@anchor{2ec}@anchor{gnat_rm/the_gnat_library gnat-current-exception-g-curexc-ads}@anchor{2ed}
 @section @cite{GNAT.Current_Exception} (@code{g-curexc.ads})
 
 
@@ -22832,7 +22886,7 @@ This is particularly useful in simulating typical facilities for
 obtaining information about exceptions provided by Ada 83 compilers.
 
 @node GNAT Debug_Pools g-debpoo ads,GNAT Debug_Utilities g-debuti ads,GNAT Current_Exception g-curexc ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-debug-pools-g-debpoo-ads}@anchor{2ec}@anchor{gnat_rm/the_gnat_library id60}@anchor{2ed}
+@anchor{gnat_rm/the_gnat_library gnat-debug-pools-g-debpoo-ads}@anchor{2ee}@anchor{gnat_rm/the_gnat_library id60}@anchor{2ef}
 @section @cite{GNAT.Debug_Pools} (@code{g-debpoo.ads})
 
 
@@ -22849,7 +22903,7 @@ problems.
 See @cite{The GNAT Debug_Pool Facility} section in the @cite{GNAT User's Guide}.
 
 @node GNAT Debug_Utilities g-debuti ads,GNAT Decode_String g-decstr ads,GNAT Debug_Pools g-debpoo ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-debug-utilities-g-debuti-ads}@anchor{2ee}@anchor{gnat_rm/the_gnat_library id61}@anchor{2ef}
+@anchor{gnat_rm/the_gnat_library gnat-debug-utilities-g-debuti-ads}@anchor{2f0}@anchor{gnat_rm/the_gnat_library id61}@anchor{2f1}
 @section @cite{GNAT.Debug_Utilities} (@code{g-debuti.ads})
 
 
@@ -22862,7 +22916,7 @@ to and from string images of address values. Supports both C and Ada formats
 for hexadecimal literals.
 
 @node GNAT Decode_String g-decstr ads,GNAT Decode_UTF8_String g-deutst ads,GNAT Debug_Utilities g-debuti ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-decode-string-g-decstr-ads}@anchor{2f0}@anchor{gnat_rm/the_gnat_library id62}@anchor{2f1}
+@anchor{gnat_rm/the_gnat_library gnat-decode-string-g-decstr-ads}@anchor{2f2}@anchor{gnat_rm/the_gnat_library id62}@anchor{2f3}
 @section @cite{GNAT.Decode_String} (@code{g-decstr.ads})
 
 
@@ -22886,7 +22940,7 @@ Useful in conjunction with Unicode character coding. Note there is a
 preinstantiation for UTF-8. See next entry.
 
 @node GNAT Decode_UTF8_String g-deutst ads,GNAT Directory_Operations g-dirope ads,GNAT Decode_String g-decstr ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-decode-utf8-string-g-deutst-ads}@anchor{2f2}@anchor{gnat_rm/the_gnat_library id63}@anchor{2f3}
+@anchor{gnat_rm/the_gnat_library gnat-decode-utf8-string-g-deutst-ads}@anchor{2f4}@anchor{gnat_rm/the_gnat_library id63}@anchor{2f5}
 @section @cite{GNAT.Decode_UTF8_String} (@code{g-deutst.ads})
 
 
@@ -22907,7 +22961,7 @@ preinstantiation for UTF-8. See next entry.
 A preinstantiation of GNAT.Decode_Strings for UTF-8 encoding.
 
 @node GNAT Directory_Operations g-dirope ads,GNAT Directory_Operations Iteration g-diopit ads,GNAT Decode_UTF8_String g-deutst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id64}@anchor{2f4}@anchor{gnat_rm/the_gnat_library gnat-directory-operations-g-dirope-ads}@anchor{2f5}
+@anchor{gnat_rm/the_gnat_library id64}@anchor{2f6}@anchor{gnat_rm/the_gnat_library gnat-directory-operations-g-dirope-ads}@anchor{2f7}
 @section @cite{GNAT.Directory_Operations} (@code{g-dirope.ads})
 
 
@@ -22920,7 +22974,7 @@ the current directory, making new directories, and scanning the files in a
 directory.
 
 @node GNAT Directory_Operations Iteration g-diopit ads,GNAT Dynamic_HTables g-dynhta ads,GNAT Directory_Operations g-dirope ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id65}@anchor{2f6}@anchor{gnat_rm/the_gnat_library gnat-directory-operations-iteration-g-diopit-ads}@anchor{2f7}
+@anchor{gnat_rm/the_gnat_library id65}@anchor{2f8}@anchor{gnat_rm/the_gnat_library gnat-directory-operations-iteration-g-diopit-ads}@anchor{2f9}
 @section @cite{GNAT.Directory_Operations.Iteration} (@code{g-diopit.ads})
 
 
@@ -22932,7 +22986,7 @@ A child unit of GNAT.Directory_Operations providing additional operations
 for iterating through directories.
 
 @node GNAT Dynamic_HTables g-dynhta ads,GNAT Dynamic_Tables g-dyntab ads,GNAT Directory_Operations Iteration g-diopit ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-dynamic-htables-g-dynhta-ads}@anchor{2f8}@anchor{gnat_rm/the_gnat_library id66}@anchor{2f9}
+@anchor{gnat_rm/the_gnat_library gnat-dynamic-htables-g-dynhta-ads}@anchor{2fa}@anchor{gnat_rm/the_gnat_library id66}@anchor{2fb}
 @section @cite{GNAT.Dynamic_HTables} (@code{g-dynhta.ads})
 
 
@@ -22950,7 +23004,7 @@ dynamic instances of the hash table, while an instantiation of
 @cite{GNAT.HTable} creates a single instance of the hash table.
 
 @node GNAT Dynamic_Tables g-dyntab ads,GNAT Encode_String g-encstr ads,GNAT Dynamic_HTables g-dynhta ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-dynamic-tables-g-dyntab-ads}@anchor{2fa}@anchor{gnat_rm/the_gnat_library id67}@anchor{2fb}
+@anchor{gnat_rm/the_gnat_library gnat-dynamic-tables-g-dyntab-ads}@anchor{2fc}@anchor{gnat_rm/the_gnat_library id67}@anchor{2fd}
 @section @cite{GNAT.Dynamic_Tables} (@code{g-dyntab.ads})
 
 
@@ -22970,7 +23024,7 @@ dynamic instances of the table, while an instantiation of
 @cite{GNAT.Table} creates a single instance of the table type.
 
 @node GNAT Encode_String g-encstr ads,GNAT Encode_UTF8_String g-enutst ads,GNAT Dynamic_Tables g-dyntab ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id68}@anchor{2fc}@anchor{gnat_rm/the_gnat_library gnat-encode-string-g-encstr-ads}@anchor{2fd}
+@anchor{gnat_rm/the_gnat_library id68}@anchor{2fe}@anchor{gnat_rm/the_gnat_library gnat-encode-string-g-encstr-ads}@anchor{2ff}
 @section @cite{GNAT.Encode_String} (@code{g-encstr.ads})
 
 
@@ -22992,7 +23046,7 @@ encoding method. Useful in conjunction with Unicode character coding.
 Note there is a preinstantiation for UTF-8. See next entry.
 
 @node GNAT Encode_UTF8_String g-enutst ads,GNAT Exception_Actions g-excact ads,GNAT Encode_String g-encstr ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-encode-utf8-string-g-enutst-ads}@anchor{2fe}@anchor{gnat_rm/the_gnat_library id69}@anchor{2ff}
+@anchor{gnat_rm/the_gnat_library gnat-encode-utf8-string-g-enutst-ads}@anchor{300}@anchor{gnat_rm/the_gnat_library id69}@anchor{301}
 @section @cite{GNAT.Encode_UTF8_String} (@code{g-enutst.ads})
 
 
@@ -23013,7 +23067,7 @@ Note there is a preinstantiation for UTF-8. See next entry.
 A preinstantiation of GNAT.Encode_Strings for UTF-8 encoding.
 
 @node GNAT Exception_Actions g-excact ads,GNAT Exception_Traces g-exctra ads,GNAT Encode_UTF8_String g-enutst ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id70}@anchor{300}@anchor{gnat_rm/the_gnat_library gnat-exception-actions-g-excact-ads}@anchor{301}
+@anchor{gnat_rm/the_gnat_library id70}@anchor{302}@anchor{gnat_rm/the_gnat_library gnat-exception-actions-g-excact-ads}@anchor{303}
 @section @cite{GNAT.Exception_Actions} (@code{g-excact.ads})
 
 
@@ -23026,7 +23080,7 @@ for specific exceptions, or when any exception is raised. This
 can be used for instance to force a core dump to ease debugging.
 
 @node GNAT Exception_Traces g-exctra ads,GNAT Exceptions g-expect ads,GNAT Exception_Actions g-excact ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-exception-traces-g-exctra-ads}@anchor{302}@anchor{gnat_rm/the_gnat_library id71}@anchor{303}
+@anchor{gnat_rm/the_gnat_library gnat-exception-traces-g-exctra-ads}@anchor{304}@anchor{gnat_rm/the_gnat_library id71}@anchor{305}
 @section @cite{GNAT.Exception_Traces} (@code{g-exctra.ads})
 
 
@@ -23040,7 +23094,7 @@ Provides an interface allowing to control automatic output upon exception
 occurrences.
 
 @node GNAT Exceptions g-expect ads,GNAT Expect g-expect ads,GNAT Exception_Traces g-exctra ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id72}@anchor{304}@anchor{gnat_rm/the_gnat_library gnat-exceptions-g-expect-ads}@anchor{305}
+@anchor{gnat_rm/the_gnat_library id72}@anchor{306}@anchor{gnat_rm/the_gnat_library gnat-exceptions-g-expect-ads}@anchor{307}
 @section @cite{GNAT.Exceptions} (@code{g-expect.ads})
 
 
@@ -23061,7 +23115,7 @@ predefined exceptions, and for example allow raising
 @cite{Constraint_Error} with a message from a pure subprogram.
 
 @node GNAT Expect g-expect ads,GNAT Expect TTY g-exptty ads,GNAT Exceptions g-expect ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id73}@anchor{306}@anchor{gnat_rm/the_gnat_library gnat-expect-g-expect-ads}@anchor{307}
+@anchor{gnat_rm/the_gnat_library id73}@anchor{308}@anchor{gnat_rm/the_gnat_library gnat-expect-g-expect-ads}@anchor{309}
 @section @cite{GNAT.Expect} (@code{g-expect.ads})
 
 
@@ -23077,7 +23131,7 @@ It is not implemented for cross ports, and in particular is not
 implemented for VxWorks or LynxOS.
 
 @node GNAT Expect TTY g-exptty ads,GNAT Float_Control g-flocon ads,GNAT Expect g-expect ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id74}@anchor{308}@anchor{gnat_rm/the_gnat_library gnat-expect-tty-g-exptty-ads}@anchor{309}
+@anchor{gnat_rm/the_gnat_library id74}@anchor{30a}@anchor{gnat_rm/the_gnat_library gnat-expect-tty-g-exptty-ads}@anchor{30b}
 @section @cite{GNAT.Expect.TTY} (@code{g-exptty.ads})
 
 
@@ -23089,7 +23143,7 @@ ports. It is not implemented for cross ports, and
 in particular is not implemented for VxWorks or LynxOS.
 
 @node GNAT Float_Control g-flocon ads,GNAT Formatted_String g-forstr ads,GNAT Expect TTY g-exptty ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id75}@anchor{30a}@anchor{gnat_rm/the_gnat_library gnat-float-control-g-flocon-ads}@anchor{30b}
+@anchor{gnat_rm/the_gnat_library id75}@anchor{30c}@anchor{gnat_rm/the_gnat_library gnat-float-control-g-flocon-ads}@anchor{30d}
 @section @cite{GNAT.Float_Control} (@code{g-flocon.ads})
 
 
@@ -23103,7 +23157,7 @@ library calls may cause this mode to be modified, and the Reset procedure
 in this package can be used to reestablish the required mode.
 
 @node GNAT Formatted_String g-forstr ads,GNAT Heap_Sort g-heasor ads,GNAT Float_Control g-flocon ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id76}@anchor{30c}@anchor{gnat_rm/the_gnat_library gnat-formatted-string-g-forstr-ads}@anchor{30d}
+@anchor{gnat_rm/the_gnat_library id76}@anchor{30e}@anchor{gnat_rm/the_gnat_library gnat-formatted-string-g-forstr-ads}@anchor{30f}
 @section @cite{GNAT.Formatted_String} (@code{g-forstr.ads})
 
 
@@ -23118,7 +23172,7 @@ derived from Integer, Float or enumerations as values for the
 formatted string.
 
 @node GNAT Heap_Sort g-heasor ads,GNAT Heap_Sort_A g-hesora ads,GNAT Formatted_String g-forstr ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-heap-sort-g-heasor-ads}@anchor{30e}@anchor{gnat_rm/the_gnat_library id77}@anchor{30f}
+@anchor{gnat_rm/the_gnat_library gnat-heap-sort-g-heasor-ads}@anchor{310}@anchor{gnat_rm/the_gnat_library id77}@anchor{311}
 @section @cite{GNAT.Heap_Sort} (@code{g-heasor.ads})
 
 
@@ -23132,7 +23186,7 @@ access-to-procedure values.  The algorithm used is a modified heap sort
 that performs approximately N*log(N) comparisons in the worst case.
 
 @node GNAT Heap_Sort_A g-hesora ads,GNAT Heap_Sort_G g-hesorg ads,GNAT Heap_Sort g-heasor ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id78}@anchor{310}@anchor{gnat_rm/the_gnat_library gnat-heap-sort-a-g-hesora-ads}@anchor{311}
+@anchor{gnat_rm/the_gnat_library id78}@anchor{312}@anchor{gnat_rm/the_gnat_library gnat-heap-sort-a-g-hesora-ads}@anchor{313}
 @section @cite{GNAT.Heap_Sort_A} (@code{g-hesora.ads})
 
 
@@ -23148,7 +23202,7 @@ This differs from @cite{GNAT.Heap_Sort} in having a less convenient
 interface, but may be slightly more efficient.
 
 @node GNAT Heap_Sort_G g-hesorg ads,GNAT HTable g-htable ads,GNAT Heap_Sort_A g-hesora ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id79}@anchor{312}@anchor{gnat_rm/the_gnat_library gnat-heap-sort-g-g-hesorg-ads}@anchor{313}
+@anchor{gnat_rm/the_gnat_library id79}@anchor{314}@anchor{gnat_rm/the_gnat_library gnat-heap-sort-g-g-hesorg-ads}@anchor{315}
 @section @cite{GNAT.Heap_Sort_G} (@code{g-hesorg.ads})
 
 
@@ -23162,7 +23216,7 @@ if the procedures can be inlined, at the expense of duplicating code for
 multiple instantiations.
 
 @node GNAT HTable g-htable ads,GNAT IO g-io ads,GNAT Heap_Sort_G g-hesorg ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id80}@anchor{314}@anchor{gnat_rm/the_gnat_library gnat-htable-g-htable-ads}@anchor{315}
+@anchor{gnat_rm/the_gnat_library id80}@anchor{316}@anchor{gnat_rm/the_gnat_library gnat-htable-g-htable-ads}@anchor{317}
 @section @cite{GNAT.HTable} (@code{g-htable.ads})
 
 
@@ -23175,7 +23229,7 @@ data.  Provides two approaches, one a simple static approach, and the other
 allowing arbitrary dynamic hash tables.
 
 @node GNAT IO g-io ads,GNAT IO_Aux g-io_aux ads,GNAT HTable g-htable ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id81}@anchor{316}@anchor{gnat_rm/the_gnat_library gnat-io-g-io-ads}@anchor{317}
+@anchor{gnat_rm/the_gnat_library id81}@anchor{318}@anchor{gnat_rm/the_gnat_library gnat-io-g-io-ads}@anchor{319}
 @section @cite{GNAT.IO} (@code{g-io.ads})
 
 
@@ -23191,7 +23245,7 @@ Standard_Input, and writing characters, strings and integers to either
 Standard_Output or Standard_Error.
 
 @node GNAT IO_Aux g-io_aux ads,GNAT Lock_Files g-locfil ads,GNAT IO g-io ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id82}@anchor{318}@anchor{gnat_rm/the_gnat_library gnat-io-aux-g-io-aux-ads}@anchor{319}
+@anchor{gnat_rm/the_gnat_library id82}@anchor{31a}@anchor{gnat_rm/the_gnat_library gnat-io-aux-g-io-aux-ads}@anchor{31b}
 @section @cite{GNAT.IO_Aux} (@code{g-io_aux.ads})
 
 
@@ -23205,7 +23259,7 @@ Provides some auxiliary functions for use with Text_IO, including a test
 for whether a file exists, and functions for reading a line of text.
 
 @node GNAT Lock_Files g-locfil ads,GNAT MBBS_Discrete_Random g-mbdira ads,GNAT IO_Aux g-io_aux ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id83}@anchor{31a}@anchor{gnat_rm/the_gnat_library gnat-lock-files-g-locfil-ads}@anchor{31b}
+@anchor{gnat_rm/the_gnat_library id83}@anchor{31c}@anchor{gnat_rm/the_gnat_library gnat-lock-files-g-locfil-ads}@anchor{31d}
 @section @cite{GNAT.Lock_Files} (@code{g-locfil.ads})
 
 
@@ -23219,7 +23273,7 @@ Provides a general interface for using files as locks.  Can be used for
 providing program level synchronization.
 
 @node GNAT MBBS_Discrete_Random g-mbdira ads,GNAT MBBS_Float_Random g-mbflra ads,GNAT Lock_Files g-locfil ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-mbbs-discrete-random-g-mbdira-ads}@anchor{31c}@anchor{gnat_rm/the_gnat_library id84}@anchor{31d}
+@anchor{gnat_rm/the_gnat_library gnat-mbbs-discrete-random-g-mbdira-ads}@anchor{31e}@anchor{gnat_rm/the_gnat_library id84}@anchor{31f}
 @section @cite{GNAT.MBBS_Discrete_Random} (@code{g-mbdira.ads})
 
 
@@ -23231,7 +23285,7 @@ The original implementation of @cite{Ada.Numerics.Discrete_Random}.  Uses
 a modified version of the Blum-Blum-Shub generator.
 
 @node GNAT MBBS_Float_Random g-mbflra ads,GNAT MD5 g-md5 ads,GNAT MBBS_Discrete_Random g-mbdira ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id85}@anchor{31e}@anchor{gnat_rm/the_gnat_library gnat-mbbs-float-random-g-mbflra-ads}@anchor{31f}
+@anchor{gnat_rm/the_gnat_library id85}@anchor{320}@anchor{gnat_rm/the_gnat_library gnat-mbbs-float-random-g-mbflra-ads}@anchor{321}
 @section @cite{GNAT.MBBS_Float_Random} (@code{g-mbflra.ads})
 
 
@@ -23243,7 +23297,7 @@ The original implementation of @cite{Ada.Numerics.Float_Random}.  Uses
 a modified version of the Blum-Blum-Shub generator.
 
 @node GNAT MD5 g-md5 ads,GNAT Memory_Dump g-memdum ads,GNAT MBBS_Float_Random g-mbflra ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id86}@anchor{320}@anchor{gnat_rm/the_gnat_library gnat-md5-g-md5-ads}@anchor{321}
+@anchor{gnat_rm/the_gnat_library id86}@anchor{322}@anchor{gnat_rm/the_gnat_library gnat-md5-g-md5-ads}@anchor{323}
 @section @cite{GNAT.MD5} (@code{g-md5.ads})
 
 
@@ -23256,7 +23310,7 @@ the HMAC-MD5 message authentication function as described in RFC 2104 and
 FIPS PUB 198.
 
 @node GNAT Memory_Dump g-memdum ads,GNAT Most_Recent_Exception g-moreex ads,GNAT MD5 g-md5 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id87}@anchor{322}@anchor{gnat_rm/the_gnat_library gnat-memory-dump-g-memdum-ads}@anchor{323}
+@anchor{gnat_rm/the_gnat_library id87}@anchor{324}@anchor{gnat_rm/the_gnat_library gnat-memory-dump-g-memdum-ads}@anchor{325}
 @section @cite{GNAT.Memory_Dump} (@code{g-memdum.ads})
 
 
@@ -23269,7 +23323,7 @@ standard output or standard error files. Uses GNAT.IO for actual
 output.
 
 @node GNAT Most_Recent_Exception g-moreex ads,GNAT OS_Lib g-os_lib ads,GNAT Memory_Dump g-memdum ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id88}@anchor{324}@anchor{gnat_rm/the_gnat_library gnat-most-recent-exception-g-moreex-ads}@anchor{325}
+@anchor{gnat_rm/the_gnat_library id88}@anchor{326}@anchor{gnat_rm/the_gnat_library gnat-most-recent-exception-g-moreex-ads}@anchor{327}
 @section @cite{GNAT.Most_Recent_Exception} (@code{g-moreex.ads})
 
 
@@ -23283,7 +23337,7 @@ various logging purposes, including duplicating functionality of some
 Ada 83 implementation dependent extensions.
 
 @node GNAT OS_Lib g-os_lib ads,GNAT Perfect_Hash_Generators g-pehage ads,GNAT Most_Recent_Exception g-moreex ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id89}@anchor{326}@anchor{gnat_rm/the_gnat_library gnat-os-lib-g-os-lib-ads}@anchor{327}
+@anchor{gnat_rm/the_gnat_library id89}@anchor{328}@anchor{gnat_rm/the_gnat_library gnat-os-lib-g-os-lib-ads}@anchor{329}
 @section @cite{GNAT.OS_Lib} (@code{g-os_lib.ads})
 
 
@@ -23299,7 +23353,7 @@ including a portable spawn procedure, and access to environment variables
 and error return codes.
 
 @node GNAT Perfect_Hash_Generators g-pehage ads,GNAT Random_Numbers g-rannum ads,GNAT OS_Lib g-os_lib ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id90}@anchor{328}@anchor{gnat_rm/the_gnat_library gnat-perfect-hash-generators-g-pehage-ads}@anchor{329}
+@anchor{gnat_rm/the_gnat_library id90}@anchor{32a}@anchor{gnat_rm/the_gnat_library gnat-perfect-hash-generators-g-pehage-ads}@anchor{32b}
 @section @cite{GNAT.Perfect_Hash_Generators} (@code{g-pehage.ads})
 
 
@@ -23317,7 +23371,7 @@ hashcode are in the same order. These hashing functions are very
 convenient for use with realtime applications.
 
 @node GNAT Random_Numbers g-rannum ads,GNAT Regexp g-regexp ads,GNAT Perfect_Hash_Generators g-pehage ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id91}@anchor{32a}@anchor{gnat_rm/the_gnat_library gnat-random-numbers-g-rannum-ads}@anchor{32b}
+@anchor{gnat_rm/the_gnat_library id91}@anchor{32c}@anchor{gnat_rm/the_gnat_library gnat-random-numbers-g-rannum-ads}@anchor{32d}
 @section @cite{GNAT.Random_Numbers} (@code{g-rannum.ads})
 
 
@@ -23329,7 +23383,7 @@ Provides random number capabilities which extend those available in the
 standard Ada library and are more convenient to use.
 
 @node GNAT Regexp g-regexp ads,GNAT Registry g-regist ads,GNAT Random_Numbers g-rannum ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-regexp-g-regexp-ads}@anchor{1ff}@anchor{gnat_rm/the_gnat_library id92}@anchor{32c}
+@anchor{gnat_rm/the_gnat_library gnat-regexp-g-regexp-ads}@anchor{201}@anchor{gnat_rm/the_gnat_library id92}@anchor{32e}
 @section @cite{GNAT.Regexp} (@code{g-regexp.ads})
 
 
@@ -23345,7 +23399,7 @@ simplest of the three pattern matching packages provided, and is particularly
 suitable for 'file globbing' applications.
 
 @node GNAT Registry g-regist ads,GNAT Regpat g-regpat ads,GNAT Regexp g-regexp ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id93}@anchor{32d}@anchor{gnat_rm/the_gnat_library gnat-registry-g-regist-ads}@anchor{32e}
+@anchor{gnat_rm/the_gnat_library id93}@anchor{32f}@anchor{gnat_rm/the_gnat_library gnat-registry-g-regist-ads}@anchor{330}
 @section @cite{GNAT.Registry} (@code{g-regist.ads})
 
 
@@ -23359,7 +23413,7 @@ registry API, but at a lower level of abstraction, refer to the Win32.Winreg
 package provided with the Win32Ada binding
 
 @node GNAT Regpat g-regpat ads,GNAT Rewrite_Data g-rewdat ads,GNAT Registry g-regist ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id94}@anchor{32f}@anchor{gnat_rm/the_gnat_library gnat-regpat-g-regpat-ads}@anchor{330}
+@anchor{gnat_rm/the_gnat_library id94}@anchor{331}@anchor{gnat_rm/the_gnat_library gnat-regpat-g-regpat-ads}@anchor{332}
 @section @cite{GNAT.Regpat} (@code{g-regpat.ads})
 
 
@@ -23374,7 +23428,7 @@ from the original V7 style regular expression library written in C by
 Henry Spencer (and binary compatible with this C library).
 
 @node GNAT Rewrite_Data g-rewdat ads,GNAT Secondary_Stack_Info g-sestin ads,GNAT Regpat g-regpat ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id95}@anchor{331}@anchor{gnat_rm/the_gnat_library gnat-rewrite-data-g-rewdat-ads}@anchor{332}
+@anchor{gnat_rm/the_gnat_library id95}@anchor{333}@anchor{gnat_rm/the_gnat_library gnat-rewrite-data-g-rewdat-ads}@anchor{334}
 @section @cite{GNAT.Rewrite_Data} (@code{g-rewdat.ads})
 
 
@@ -23388,7 +23442,7 @@ full content to be processed is not loaded into memory all at once. This makes
 this interface usable for large files or socket streams.
 
 @node GNAT Secondary_Stack_Info g-sestin ads,GNAT Semaphores g-semaph ads,GNAT Rewrite_Data g-rewdat ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-secondary-stack-info-g-sestin-ads}@anchor{333}@anchor{gnat_rm/the_gnat_library id96}@anchor{334}
+@anchor{gnat_rm/the_gnat_library gnat-secondary-stack-info-g-sestin-ads}@anchor{335}@anchor{gnat_rm/the_gnat_library id96}@anchor{336}
 @section @cite{GNAT.Secondary_Stack_Info} (@code{g-sestin.ads})
 
 
@@ -23400,7 +23454,7 @@ Provide the capability to query the high water mark of the current task's
 secondary stack.
 
 @node GNAT Semaphores g-semaph ads,GNAT Serial_Communications g-sercom ads,GNAT Secondary_Stack_Info g-sestin ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-semaphores-g-semaph-ads}@anchor{335}@anchor{gnat_rm/the_gnat_library id97}@anchor{336}
+@anchor{gnat_rm/the_gnat_library gnat-semaphores-g-semaph-ads}@anchor{337}@anchor{gnat_rm/the_gnat_library id97}@anchor{338}
 @section @cite{GNAT.Semaphores} (@code{g-semaph.ads})
 
 
@@ -23411,7 +23465,7 @@ secondary stack.
 Provides classic counting and binary semaphores using protected types.
 
 @node GNAT Serial_Communications g-sercom ads,GNAT SHA1 g-sha1 ads,GNAT Semaphores g-semaph ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id98}@anchor{337}@anchor{gnat_rm/the_gnat_library gnat-serial-communications-g-sercom-ads}@anchor{338}
+@anchor{gnat_rm/the_gnat_library id98}@anchor{339}@anchor{gnat_rm/the_gnat_library gnat-serial-communications-g-sercom-ads}@anchor{33a}
 @section @cite{GNAT.Serial_Communications} (@code{g-sercom.ads})
 
 
@@ -23423,7 +23477,7 @@ Provides a simple interface to send and receive data over a serial
 port. This is only supported on GNU/Linux and Windows.
 
 @node GNAT SHA1 g-sha1 ads,GNAT SHA224 g-sha224 ads,GNAT Serial_Communications g-sercom ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-sha1-g-sha1-ads}@anchor{339}@anchor{gnat_rm/the_gnat_library id99}@anchor{33a}
+@anchor{gnat_rm/the_gnat_library gnat-sha1-g-sha1-ads}@anchor{33b}@anchor{gnat_rm/the_gnat_library id99}@anchor{33c}
 @section @cite{GNAT.SHA1} (@code{g-sha1.ads})
 
 
@@ -23436,7 +23490,7 @@ and RFC 3174, and the HMAC-SHA1 message authentication function as described
 in RFC 2104 and FIPS PUB 198.
 
 @node GNAT SHA224 g-sha224 ads,GNAT SHA256 g-sha256 ads,GNAT SHA1 g-sha1 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id100}@anchor{33b}@anchor{gnat_rm/the_gnat_library gnat-sha224-g-sha224-ads}@anchor{33c}
+@anchor{gnat_rm/the_gnat_library id100}@anchor{33d}@anchor{gnat_rm/the_gnat_library gnat-sha224-g-sha224-ads}@anchor{33e}
 @section @cite{GNAT.SHA224} (@code{g-sha224.ads})
 
 
@@ -23449,7 +23503,7 @@ and the HMAC-SHA224 message authentication function as described
 in RFC 2104 and FIPS PUB 198.
 
 @node GNAT SHA256 g-sha256 ads,GNAT SHA384 g-sha384 ads,GNAT SHA224 g-sha224 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id101}@anchor{33d}@anchor{gnat_rm/the_gnat_library gnat-sha256-g-sha256-ads}@anchor{33e}
+@anchor{gnat_rm/the_gnat_library id101}@anchor{33f}@anchor{gnat_rm/the_gnat_library gnat-sha256-g-sha256-ads}@anchor{340}
 @section @cite{GNAT.SHA256} (@code{g-sha256.ads})
 
 
@@ -23462,7 +23516,7 @@ and the HMAC-SHA256 message authentication function as described
 in RFC 2104 and FIPS PUB 198.
 
 @node GNAT SHA384 g-sha384 ads,GNAT SHA512 g-sha512 ads,GNAT SHA256 g-sha256 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id102}@anchor{33f}@anchor{gnat_rm/the_gnat_library gnat-sha384-g-sha384-ads}@anchor{340}
+@anchor{gnat_rm/the_gnat_library id102}@anchor{341}@anchor{gnat_rm/the_gnat_library gnat-sha384-g-sha384-ads}@anchor{342}
 @section @cite{GNAT.SHA384} (@code{g-sha384.ads})
 
 
@@ -23475,7 +23529,7 @@ and the HMAC-SHA384 message authentication function as described
 in RFC 2104 and FIPS PUB 198.
 
 @node GNAT SHA512 g-sha512 ads,GNAT Signals g-signal ads,GNAT SHA384 g-sha384 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id103}@anchor{341}@anchor{gnat_rm/the_gnat_library gnat-sha512-g-sha512-ads}@anchor{342}
+@anchor{gnat_rm/the_gnat_library id103}@anchor{343}@anchor{gnat_rm/the_gnat_library gnat-sha512-g-sha512-ads}@anchor{344}
 @section @cite{GNAT.SHA512} (@code{g-sha512.ads})
 
 
@@ -23488,7 +23542,7 @@ and the HMAC-SHA512 message authentication function as described
 in RFC 2104 and FIPS PUB 198.
 
 @node GNAT Signals g-signal ads,GNAT Sockets g-socket ads,GNAT SHA512 g-sha512 ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-signals-g-signal-ads}@anchor{343}@anchor{gnat_rm/the_gnat_library id104}@anchor{344}
+@anchor{gnat_rm/the_gnat_library gnat-signals-g-signal-ads}@anchor{345}@anchor{gnat_rm/the_gnat_library id104}@anchor{346}
 @section @cite{GNAT.Signals} (@code{g-signal.ads})
 
 
@@ -23500,7 +23554,7 @@ Provides the ability to manipulate the blocked status of signals on supported
 targets.
 
 @node GNAT Sockets g-socket ads,GNAT Source_Info g-souinf ads,GNAT Signals g-signal ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-sockets-g-socket-ads}@anchor{345}@anchor{gnat_rm/the_gnat_library id105}@anchor{346}
+@anchor{gnat_rm/the_gnat_library gnat-sockets-g-socket-ads}@anchor{347}@anchor{gnat_rm/the_gnat_library id105}@anchor{348}
 @section @cite{GNAT.Sockets} (@code{g-socket.ads})
 
 
@@ -23515,7 +23569,7 @@ on all native GNAT ports and on VxWorks cross prots.  It is not implemented for
 the LynxOS cross port.
 
 @node GNAT Source_Info g-souinf ads,GNAT Spelling_Checker g-speche ads,GNAT Sockets g-socket ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-source-info-g-souinf-ads}@anchor{347}@anchor{gnat_rm/the_gnat_library id106}@anchor{348}
+@anchor{gnat_rm/the_gnat_library gnat-source-info-g-souinf-ads}@anchor{349}@anchor{gnat_rm/the_gnat_library id106}@anchor{34a}
 @section @cite{GNAT.Source_Info} (@code{g-souinf.ads})
 
 
@@ -23529,7 +23583,7 @@ subprograms yielding the date and time of the current compilation (like the
 C macros @cite{__DATE__} and @cite{__TIME__})
 
 @node GNAT Spelling_Checker g-speche ads,GNAT Spelling_Checker_Generic g-spchge ads,GNAT Source_Info g-souinf ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-spelling-checker-g-speche-ads}@anchor{349}@anchor{gnat_rm/the_gnat_library id107}@anchor{34a}
+@anchor{gnat_rm/the_gnat_library gnat-spelling-checker-g-speche-ads}@anchor{34b}@anchor{gnat_rm/the_gnat_library id107}@anchor{34c}
 @section @cite{GNAT.Spelling_Checker} (@code{g-speche.ads})
 
 
@@ -23541,7 +23595,7 @@ Provides a function for determining whether one string is a plausible
 near misspelling of another string.
 
 @node GNAT Spelling_Checker_Generic g-spchge ads,GNAT Spitbol Patterns g-spipat ads,GNAT Spelling_Checker g-speche ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-spelling-checker-generic-g-spchge-ads}@anchor{34b}@anchor{gnat_rm/the_gnat_library id108}@anchor{34c}
+@anchor{gnat_rm/the_gnat_library gnat-spelling-checker-generic-g-spchge-ads}@anchor{34d}@anchor{gnat_rm/the_gnat_library id108}@anchor{34e}
 @section @cite{GNAT.Spelling_Checker_Generic} (@code{g-spchge.ads})
 
 
@@ -23554,7 +23608,7 @@ determining whether one string is a plausible near misspelling of another
 string.
 
 @node GNAT Spitbol Patterns g-spipat ads,GNAT Spitbol g-spitbo ads,GNAT Spelling_Checker_Generic g-spchge ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id109}@anchor{34d}@anchor{gnat_rm/the_gnat_library gnat-spitbol-patterns-g-spipat-ads}@anchor{34e}
+@anchor{gnat_rm/the_gnat_library id109}@anchor{34f}@anchor{gnat_rm/the_gnat_library gnat-spitbol-patterns-g-spipat-ads}@anchor{350}
 @section @cite{GNAT.Spitbol.Patterns} (@code{g-spipat.ads})
 
 
@@ -23570,7 +23624,7 @@ the SNOBOL4 dynamic pattern construction and matching capabilities, using the
 efficient algorithm developed by Robert Dewar for the SPITBOL system.
 
 @node GNAT Spitbol g-spitbo ads,GNAT Spitbol Table_Boolean g-sptabo ads,GNAT Spitbol Patterns g-spipat ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id110}@anchor{34f}@anchor{gnat_rm/the_gnat_library gnat-spitbol-g-spitbo-ads}@anchor{350}
+@anchor{gnat_rm/the_gnat_library id110}@anchor{351}@anchor{gnat_rm/the_gnat_library gnat-spitbol-g-spitbo-ads}@anchor{352}
 @section @cite{GNAT.Spitbol} (@code{g-spitbo.ads})
 
 
@@ -23585,7 +23639,7 @@ useful for constructing arbitrary mappings from strings in the style of
 the SNOBOL4 TABLE function.
 
 @node GNAT Spitbol Table_Boolean g-sptabo ads,GNAT Spitbol Table_Integer g-sptain ads,GNAT Spitbol g-spitbo ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id111}@anchor{351}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-boolean-g-sptabo-ads}@anchor{352}
+@anchor{gnat_rm/the_gnat_library id111}@anchor{353}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-boolean-g-sptabo-ads}@anchor{354}
 @section @cite{GNAT.Spitbol.Table_Boolean} (@code{g-sptabo.ads})
 
 
@@ -23600,7 +23654,7 @@ for type @cite{Standard.Boolean}, giving an implementation of sets of
 string values.
 
 @node GNAT Spitbol Table_Integer g-sptain ads,GNAT Spitbol Table_VString g-sptavs ads,GNAT Spitbol Table_Boolean g-sptabo ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id112}@anchor{353}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-integer-g-sptain-ads}@anchor{354}
+@anchor{gnat_rm/the_gnat_library id112}@anchor{355}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-integer-g-sptain-ads}@anchor{356}
 @section @cite{GNAT.Spitbol.Table_Integer} (@code{g-sptain.ads})
 
 
@@ -23617,7 +23671,7 @@ for type @cite{Standard.Integer}, giving an implementation of maps
 from string to integer values.
 
 @node GNAT Spitbol Table_VString g-sptavs ads,GNAT SSE g-sse ads,GNAT Spitbol Table_Integer g-sptain ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id113}@anchor{355}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-vstring-g-sptavs-ads}@anchor{356}
+@anchor{gnat_rm/the_gnat_library id113}@anchor{357}@anchor{gnat_rm/the_gnat_library gnat-spitbol-table-vstring-g-sptavs-ads}@anchor{358}
 @section @cite{GNAT.Spitbol.Table_VString} (@code{g-sptavs.ads})
 
 
@@ -23634,7 +23688,7 @@ a variable length string type, giving an implementation of general
 maps from strings to strings.
 
 @node GNAT SSE g-sse ads,GNAT SSE Vector_Types g-ssvety ads,GNAT Spitbol Table_VString g-sptavs ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id114}@anchor{357}@anchor{gnat_rm/the_gnat_library gnat-sse-g-sse-ads}@anchor{358}
+@anchor{gnat_rm/the_gnat_library id114}@anchor{359}@anchor{gnat_rm/the_gnat_library gnat-sse-g-sse-ads}@anchor{35a}
 @section @cite{GNAT.SSE} (@code{g-sse.ads})
 
 
@@ -23646,7 +23700,7 @@ targets.  It exposes vector component types together with a general
 introduction to the binding contents and use.
 
 @node GNAT SSE Vector_Types g-ssvety ads,GNAT Strings g-string ads,GNAT SSE g-sse ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-sse-vector-types-g-ssvety-ads}@anchor{359}@anchor{gnat_rm/the_gnat_library id115}@anchor{35a}
+@anchor{gnat_rm/the_gnat_library gnat-sse-vector-types-g-ssvety-ads}@anchor{35b}@anchor{gnat_rm/the_gnat_library id115}@anchor{35c}
 @section @cite{GNAT.SSE.Vector_Types} (@code{g-ssvety.ads})
 
 
@@ -23655,7 +23709,7 @@ introduction to the binding contents and use.
 SSE vector types for use with SSE related intrinsics.
 
 @node GNAT Strings g-string ads,GNAT String_Split g-strspl ads,GNAT SSE Vector_Types g-ssvety ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id116}@anchor{35b}@anchor{gnat_rm/the_gnat_library gnat-strings-g-string-ads}@anchor{35c}
+@anchor{gnat_rm/the_gnat_library id116}@anchor{35d}@anchor{gnat_rm/the_gnat_library gnat-strings-g-string-ads}@anchor{35e}
 @section @cite{GNAT.Strings} (@code{g-string.ads})
 
 
@@ -23665,7 +23719,7 @@ Common String access types and related subprograms. Basically it
 defines a string access and an array of string access types.
 
 @node GNAT String_Split g-strspl ads,GNAT Table g-table ads,GNAT Strings g-string ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-string-split-g-strspl-ads}@anchor{35d}@anchor{gnat_rm/the_gnat_library id117}@anchor{35e}
+@anchor{gnat_rm/the_gnat_library gnat-string-split-g-strspl-ads}@anchor{35f}@anchor{gnat_rm/the_gnat_library id117}@anchor{360}
 @section @cite{GNAT.String_Split} (@code{g-strspl.ads})
 
 
@@ -23679,7 +23733,7 @@ to the resulting slices. This package is instantiated from
 @cite{GNAT.Array_Split}.
 
 @node GNAT Table g-table ads,GNAT Task_Lock g-tasloc ads,GNAT String_Split g-strspl ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id118}@anchor{35f}@anchor{gnat_rm/the_gnat_library gnat-table-g-table-ads}@anchor{360}
+@anchor{gnat_rm/the_gnat_library id118}@anchor{361}@anchor{gnat_rm/the_gnat_library gnat-table-g-table-ads}@anchor{362}
 @section @cite{GNAT.Table} (@code{g-table.ads})
 
 
@@ -23699,7 +23753,7 @@ while an instantiation of @cite{GNAT.Dynamic_Tables} creates a type that can be
 used to define dynamic instances of the table.
 
 @node GNAT Task_Lock g-tasloc ads,GNAT Time_Stamp g-timsta ads,GNAT Table g-table ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-task-lock-g-tasloc-ads}@anchor{361}@anchor{gnat_rm/the_gnat_library id119}@anchor{362}
+@anchor{gnat_rm/the_gnat_library gnat-task-lock-g-tasloc-ads}@anchor{363}@anchor{gnat_rm/the_gnat_library id119}@anchor{364}
 @section @cite{GNAT.Task_Lock} (@code{g-tasloc.ads})
 
 
@@ -23716,7 +23770,7 @@ single global task lock.  Appropriate for use in situations where contention
 between tasks is very rarely expected.
 
 @node GNAT Time_Stamp g-timsta ads,GNAT Threads g-thread ads,GNAT Task_Lock g-tasloc ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-time-stamp-g-timsta-ads}@anchor{363}@anchor{gnat_rm/the_gnat_library id120}@anchor{364}
+@anchor{gnat_rm/the_gnat_library gnat-time-stamp-g-timsta-ads}@anchor{365}@anchor{gnat_rm/the_gnat_library id120}@anchor{366}
 @section @cite{GNAT.Time_Stamp} (@code{g-timsta.ads})
 
 
@@ -23731,7 +23785,7 @@ represents the current date and time in ISO 8601 format. This is a very simple
 routine with minimal code and there are no dependencies on any other unit.
 
 @node GNAT Threads g-thread ads,GNAT Traceback g-traceb ads,GNAT Time_Stamp g-timsta ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-threads-g-thread-ads}@anchor{365}@anchor{gnat_rm/the_gnat_library id121}@anchor{366}
+@anchor{gnat_rm/the_gnat_library gnat-threads-g-thread-ads}@anchor{367}@anchor{gnat_rm/the_gnat_library id121}@anchor{368}
 @section @cite{GNAT.Threads} (@code{g-thread.ads})
 
 
@@ -23748,7 +23802,7 @@ further details if your program has threads that are created by a non-Ada
 environment which then accesses Ada code.
 
 @node GNAT Traceback g-traceb ads,GNAT Traceback Symbolic g-trasym ads,GNAT Threads g-thread ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id122}@anchor{367}@anchor{gnat_rm/the_gnat_library gnat-traceback-g-traceb-ads}@anchor{368}
+@anchor{gnat_rm/the_gnat_library id122}@anchor{369}@anchor{gnat_rm/the_gnat_library gnat-traceback-g-traceb-ads}@anchor{36a}
 @section @cite{GNAT.Traceback} (@code{g-traceb.ads})
 
 
@@ -23760,7 +23814,7 @@ Provides a facility for obtaining non-symbolic traceback information, useful
 in various debugging situations.
 
 @node GNAT Traceback Symbolic g-trasym ads,GNAT UTF_32 g-table ads,GNAT Traceback g-traceb ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-traceback-symbolic-g-trasym-ads}@anchor{369}@anchor{gnat_rm/the_gnat_library id123}@anchor{36a}
+@anchor{gnat_rm/the_gnat_library gnat-traceback-symbolic-g-trasym-ads}@anchor{36b}@anchor{gnat_rm/the_gnat_library id123}@anchor{36c}
 @section @cite{GNAT.Traceback.Symbolic} (@code{g-trasym.ads})
 
 
@@ -23769,7 +23823,7 @@ in various debugging situations.
 @geindex Trace back facilities
 
 @node GNAT UTF_32 g-table ads,GNAT Wide_Spelling_Checker g-u3spch ads,GNAT Traceback Symbolic g-trasym ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id124}@anchor{36b}@anchor{gnat_rm/the_gnat_library gnat-utf-32-g-table-ads}@anchor{36c}
+@anchor{gnat_rm/the_gnat_library id124}@anchor{36d}@anchor{gnat_rm/the_gnat_library gnat-utf-32-g-table-ads}@anchor{36e}
 @section @cite{GNAT.UTF_32} (@code{g-table.ads})
 
 
@@ -23788,7 +23842,7 @@ lower case to upper case fold routine corresponding to
 the Ada 2005 rules for identifier equivalence.
 
 @node GNAT Wide_Spelling_Checker g-u3spch ads,GNAT Wide_Spelling_Checker g-wispch ads,GNAT UTF_32 g-table ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-wide-spelling-checker-g-u3spch-ads}@anchor{36d}@anchor{gnat_rm/the_gnat_library id125}@anchor{36e}
+@anchor{gnat_rm/the_gnat_library gnat-wide-spelling-checker-g-u3spch-ads}@anchor{36f}@anchor{gnat_rm/the_gnat_library id125}@anchor{370}
 @section @cite{GNAT.Wide_Spelling_Checker} (@code{g-u3spch.ads})
 
 
@@ -23801,7 +23855,7 @@ near misspelling of another wide wide string, where the strings are represented
 using the UTF_32_String type defined in System.Wch_Cnv.
 
 @node GNAT Wide_Spelling_Checker g-wispch ads,GNAT Wide_String_Split g-wistsp ads,GNAT Wide_Spelling_Checker g-u3spch ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-wide-spelling-checker-g-wispch-ads}@anchor{36f}@anchor{gnat_rm/the_gnat_library id126}@anchor{370}
+@anchor{gnat_rm/the_gnat_library gnat-wide-spelling-checker-g-wispch-ads}@anchor{371}@anchor{gnat_rm/the_gnat_library id126}@anchor{372}
 @section @cite{GNAT.Wide_Spelling_Checker} (@code{g-wispch.ads})
 
 
@@ -23813,7 +23867,7 @@ Provides a function for determining whether one wide string is a plausible
 near misspelling of another wide string.
 
 @node GNAT Wide_String_Split g-wistsp ads,GNAT Wide_Wide_Spelling_Checker g-zspche ads,GNAT Wide_Spelling_Checker g-wispch ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id127}@anchor{371}@anchor{gnat_rm/the_gnat_library gnat-wide-string-split-g-wistsp-ads}@anchor{372}
+@anchor{gnat_rm/the_gnat_library id127}@anchor{373}@anchor{gnat_rm/the_gnat_library gnat-wide-string-split-g-wistsp-ads}@anchor{374}
 @section @cite{GNAT.Wide_String_Split} (@code{g-wistsp.ads})
 
 
@@ -23827,7 +23881,7 @@ to the resulting slices. This package is instantiated from
 @cite{GNAT.Array_Split}.
 
 @node GNAT Wide_Wide_Spelling_Checker g-zspche ads,GNAT Wide_Wide_String_Split g-zistsp ads,GNAT Wide_String_Split g-wistsp ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-wide-wide-spelling-checker-g-zspche-ads}@anchor{373}@anchor{gnat_rm/the_gnat_library id128}@anchor{374}
+@anchor{gnat_rm/the_gnat_library gnat-wide-wide-spelling-checker-g-zspche-ads}@anchor{375}@anchor{gnat_rm/the_gnat_library id128}@anchor{376}
 @section @cite{GNAT.Wide_Wide_Spelling_Checker} (@code{g-zspche.ads})
 
 
@@ -23839,7 +23893,7 @@ Provides a function for determining whether one wide wide string is a plausible
 near misspelling of another wide wide string.
 
 @node GNAT Wide_Wide_String_Split g-zistsp ads,Interfaces C Extensions i-cexten ads,GNAT Wide_Wide_Spelling_Checker g-zspche ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library gnat-wide-wide-string-split-g-zistsp-ads}@anchor{375}@anchor{gnat_rm/the_gnat_library id129}@anchor{376}
+@anchor{gnat_rm/the_gnat_library gnat-wide-wide-string-split-g-zistsp-ads}@anchor{377}@anchor{gnat_rm/the_gnat_library id129}@anchor{378}
 @section @cite{GNAT.Wide_Wide_String_Split} (@code{g-zistsp.ads})
 
 
@@ -23853,7 +23907,7 @@ to the resulting slices. This package is instantiated from
 @cite{GNAT.Array_Split}.
 
 @node Interfaces C Extensions i-cexten ads,Interfaces C Streams i-cstrea ads,GNAT Wide_Wide_String_Split g-zistsp ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id130}@anchor{377}@anchor{gnat_rm/the_gnat_library interfaces-c-extensions-i-cexten-ads}@anchor{378}
+@anchor{gnat_rm/the_gnat_library id130}@anchor{379}@anchor{gnat_rm/the_gnat_library interfaces-c-extensions-i-cexten-ads}@anchor{37a}
 @section @cite{Interfaces.C.Extensions} (@code{i-cexten.ads})
 
 
@@ -23864,7 +23918,7 @@ for use with either manually or automatically generated bindings
 to C libraries.
 
 @node Interfaces C Streams i-cstrea ads,Interfaces Packed_Decimal i-pacdec ads,Interfaces C Extensions i-cexten ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id131}@anchor{379}@anchor{gnat_rm/the_gnat_library interfaces-c-streams-i-cstrea-ads}@anchor{37a}
+@anchor{gnat_rm/the_gnat_library id131}@anchor{37b}@anchor{gnat_rm/the_gnat_library interfaces-c-streams-i-cstrea-ads}@anchor{37c}
 @section @cite{Interfaces.C.Streams} (@code{i-cstrea.ads})
 
 
@@ -23877,7 +23931,7 @@ This package is a binding for the most commonly used operations
 on C streams.
 
 @node Interfaces Packed_Decimal i-pacdec ads,Interfaces VxWorks i-vxwork ads,Interfaces C Streams i-cstrea ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library interfaces-packed-decimal-i-pacdec-ads}@anchor{37b}@anchor{gnat_rm/the_gnat_library id132}@anchor{37c}
+@anchor{gnat_rm/the_gnat_library interfaces-packed-decimal-i-pacdec-ads}@anchor{37d}@anchor{gnat_rm/the_gnat_library id132}@anchor{37e}
 @section @cite{Interfaces.Packed_Decimal} (@code{i-pacdec.ads})
 
 
@@ -23892,7 +23946,7 @@ from a packed decimal format compatible with that used on IBM
 mainframes.
 
 @node Interfaces VxWorks i-vxwork ads,Interfaces VxWorks IO i-vxwoio ads,Interfaces Packed_Decimal i-pacdec ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id133}@anchor{37d}@anchor{gnat_rm/the_gnat_library interfaces-vxworks-i-vxwork-ads}@anchor{37e}
+@anchor{gnat_rm/the_gnat_library id133}@anchor{37f}@anchor{gnat_rm/the_gnat_library interfaces-vxworks-i-vxwork-ads}@anchor{380}
 @section @cite{Interfaces.VxWorks} (@code{i-vxwork.ads})
 
 
@@ -23908,7 +23962,7 @@ In particular, it interfaces with the
 VxWorks hardware interrupt facilities.
 
 @node Interfaces VxWorks IO i-vxwoio ads,System Address_Image s-addima ads,Interfaces VxWorks i-vxwork ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library interfaces-vxworks-io-i-vxwoio-ads}@anchor{37f}@anchor{gnat_rm/the_gnat_library id134}@anchor{380}
+@anchor{gnat_rm/the_gnat_library interfaces-vxworks-io-i-vxwoio-ads}@anchor{381}@anchor{gnat_rm/the_gnat_library id134}@anchor{382}
 @section @cite{Interfaces.VxWorks.IO} (@code{i-vxwoio.ads})
 
 
@@ -23931,7 +23985,7 @@ function codes. A particular use of this package is
 to enable the use of Get_Immediate under VxWorks.
 
 @node System Address_Image s-addima ads,System Assertions s-assert ads,Interfaces VxWorks IO i-vxwoio ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-address-image-s-addima-ads}@anchor{381}@anchor{gnat_rm/the_gnat_library id135}@anchor{382}
+@anchor{gnat_rm/the_gnat_library system-address-image-s-addima-ads}@anchor{383}@anchor{gnat_rm/the_gnat_library id135}@anchor{384}
 @section @cite{System.Address_Image} (@code{s-addima.ads})
 
 
@@ -23947,7 +24001,7 @@ function that gives an (implementation dependent)
 string which identifies an address.
 
 @node System Assertions s-assert ads,System Atomic_Counters s-atocou ads,System Address_Image s-addima ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-assertions-s-assert-ads}@anchor{383}@anchor{gnat_rm/the_gnat_library id136}@anchor{384}
+@anchor{gnat_rm/the_gnat_library system-assertions-s-assert-ads}@anchor{385}@anchor{gnat_rm/the_gnat_library id136}@anchor{386}
 @section @cite{System.Assertions} (@code{s-assert.ads})
 
 
@@ -23963,7 +24017,7 @@ by an run-time assertion failure, as well as the routine that
 is used internally to raise this assertion.
 
 @node System Atomic_Counters s-atocou ads,System Memory s-memory ads,System Assertions s-assert ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id137}@anchor{385}@anchor{gnat_rm/the_gnat_library system-atomic-counters-s-atocou-ads}@anchor{386}
+@anchor{gnat_rm/the_gnat_library id137}@anchor{387}@anchor{gnat_rm/the_gnat_library system-atomic-counters-s-atocou-ads}@anchor{388}
 @section @cite{System.Atomic_Counters} (@code{s-atocou.ads})
 
 
@@ -23977,7 +24031,7 @@ on most targets, including all Alpha, ia64, PowerPC, SPARC V9,
 x86, and x86_64 platforms.
 
 @node System Memory s-memory ads,System Multiprocessors s-multip ads,System Atomic_Counters s-atocou ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-memory-s-memory-ads}@anchor{387}@anchor{gnat_rm/the_gnat_library id138}@anchor{388}
+@anchor{gnat_rm/the_gnat_library system-memory-s-memory-ads}@anchor{389}@anchor{gnat_rm/the_gnat_library id138}@anchor{38a}
 @section @cite{System.Memory} (@code{s-memory.ads})
 
 
@@ -23995,7 +24049,7 @@ calls to this unit may be made for low level allocation uses (for
 example see the body of @cite{GNAT.Tables}).
 
 @node System Multiprocessors s-multip ads,System Multiprocessors Dispatching_Domains s-mudido ads,System Memory s-memory ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id139}@anchor{389}@anchor{gnat_rm/the_gnat_library system-multiprocessors-s-multip-ads}@anchor{38a}
+@anchor{gnat_rm/the_gnat_library id139}@anchor{38b}@anchor{gnat_rm/the_gnat_library system-multiprocessors-s-multip-ads}@anchor{38c}
 @section @cite{System.Multiprocessors} (@code{s-multip.ads})
 
 
@@ -24008,7 +24062,7 @@ in GNAT we also make it available in Ada 95 and Ada 2005 (where it is
 technically an implementation-defined addition).
 
 @node System Multiprocessors Dispatching_Domains s-mudido ads,System Partition_Interface s-parint ads,System Multiprocessors s-multip ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-multiprocessors-dispatching-domains-s-mudido-ads}@anchor{38b}@anchor{gnat_rm/the_gnat_library id140}@anchor{38c}
+@anchor{gnat_rm/the_gnat_library system-multiprocessors-dispatching-domains-s-mudido-ads}@anchor{38d}@anchor{gnat_rm/the_gnat_library id140}@anchor{38e}
 @section @cite{System.Multiprocessors.Dispatching_Domains} (@code{s-mudido.ads})
 
 
@@ -24021,7 +24075,7 @@ in GNAT we also make it available in Ada 95 and Ada 2005 (where it is
 technically an implementation-defined addition).
 
 @node System Partition_Interface s-parint ads,System Pool_Global s-pooglo ads,System Multiprocessors Dispatching_Domains s-mudido ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id141}@anchor{38d}@anchor{gnat_rm/the_gnat_library system-partition-interface-s-parint-ads}@anchor{38e}
+@anchor{gnat_rm/the_gnat_library id141}@anchor{38f}@anchor{gnat_rm/the_gnat_library system-partition-interface-s-parint-ads}@anchor{390}
 @section @cite{System.Partition_Interface} (@code{s-parint.ads})
 
 
@@ -24034,7 +24088,7 @@ is used primarily in a distribution context when using Annex E
 with @cite{GLADE}.
 
 @node System Pool_Global s-pooglo ads,System Pool_Local s-pooloc ads,System Partition_Interface s-parint ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id142}@anchor{38f}@anchor{gnat_rm/the_gnat_library system-pool-global-s-pooglo-ads}@anchor{390}
+@anchor{gnat_rm/the_gnat_library id142}@anchor{391}@anchor{gnat_rm/the_gnat_library system-pool-global-s-pooglo-ads}@anchor{392}
 @section @cite{System.Pool_Global} (@code{s-pooglo.ads})
 
 
@@ -24051,7 +24105,7 @@ declared. It uses malloc/free to allocate/free and does not attempt to
 do any automatic reclamation.
 
 @node System Pool_Local s-pooloc ads,System Restrictions s-restri ads,System Pool_Global s-pooglo ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-pool-local-s-pooloc-ads}@anchor{391}@anchor{gnat_rm/the_gnat_library id143}@anchor{392}
+@anchor{gnat_rm/the_gnat_library system-pool-local-s-pooloc-ads}@anchor{393}@anchor{gnat_rm/the_gnat_library id143}@anchor{394}
 @section @cite{System.Pool_Local} (@code{s-pooloc.ads})
 
 
@@ -24068,7 +24122,7 @@ a list of allocated blocks, so that all storage allocated for the pool can
 be freed automatically when the pool is finalized.
 
 @node System Restrictions s-restri ads,System Rident s-rident ads,System Pool_Local s-pooloc ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id144}@anchor{393}@anchor{gnat_rm/the_gnat_library system-restrictions-s-restri-ads}@anchor{394}
+@anchor{gnat_rm/the_gnat_library id144}@anchor{395}@anchor{gnat_rm/the_gnat_library system-restrictions-s-restri-ads}@anchor{396}
 @section @cite{System.Restrictions} (@code{s-restri.ads})
 
 
@@ -24084,7 +24138,7 @@ compiler determined information on which restrictions
 are violated by one or more packages in the partition.
 
 @node System Rident s-rident ads,System Strings Stream_Ops s-ststop ads,System Restrictions s-restri ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id145}@anchor{395}@anchor{gnat_rm/the_gnat_library system-rident-s-rident-ads}@anchor{396}
+@anchor{gnat_rm/the_gnat_library id145}@anchor{397}@anchor{gnat_rm/the_gnat_library system-rident-s-rident-ads}@anchor{398}
 @section @cite{System.Rident} (@code{s-rident.ads})
 
 
@@ -24100,7 +24154,7 @@ since the necessary instantiation is included in
 package System.Restrictions.
 
 @node System Strings Stream_Ops s-ststop ads,System Unsigned_Types s-unstyp ads,System Rident s-rident ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library id146}@anchor{397}@anchor{gnat_rm/the_gnat_library system-strings-stream-ops-s-ststop-ads}@anchor{398}
+@anchor{gnat_rm/the_gnat_library id146}@anchor{399}@anchor{gnat_rm/the_gnat_library system-strings-stream-ops-s-ststop-ads}@anchor{39a}
 @section @cite{System.Strings.Stream_Ops} (@code{s-ststop.ads})
 
 
@@ -24116,7 +24170,7 @@ stream attributes are applied to string types, but the subprograms in this
 package can be used directly by application programs.
 
 @node System Unsigned_Types s-unstyp ads,System Wch_Cnv s-wchcnv ads,System Strings Stream_Ops s-ststop ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-unsigned-types-s-unstyp-ads}@anchor{399}@anchor{gnat_rm/the_gnat_library id147}@anchor{39a}
+@anchor{gnat_rm/the_gnat_library system-unsigned-types-s-unstyp-ads}@anchor{39b}@anchor{gnat_rm/the_gnat_library id147}@anchor{39c}
 @section @cite{System.Unsigned_Types} (@code{s-unstyp.ads})
 
 
@@ -24129,7 +24183,7 @@ also contains some related definitions for other specialized types
 used by the compiler in connection with packed array types.
 
 @node System Wch_Cnv s-wchcnv ads,System Wch_Con s-wchcon ads,System Unsigned_Types s-unstyp ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-wch-cnv-s-wchcnv-ads}@anchor{39b}@anchor{gnat_rm/the_gnat_library id148}@anchor{39c}
+@anchor{gnat_rm/the_gnat_library system-wch-cnv-s-wchcnv-ads}@anchor{39d}@anchor{gnat_rm/the_gnat_library id148}@anchor{39e}
 @section @cite{System.Wch_Cnv} (@code{s-wchcnv.ads})
 
 
@@ -24150,7 +24204,7 @@ encoding method.  It uses definitions in
 package @cite{System.Wch_Con}.
 
 @node System Wch_Con s-wchcon ads,,System Wch_Cnv s-wchcnv ads,The GNAT Library
-@anchor{gnat_rm/the_gnat_library system-wch-con-s-wchcon-ads}@anchor{39d}@anchor{gnat_rm/the_gnat_library id149}@anchor{39e}
+@anchor{gnat_rm/the_gnat_library system-wch-con-s-wchcon-ads}@anchor{39f}@anchor{gnat_rm/the_gnat_library id149}@anchor{3a0}
 @section @cite{System.Wch_Con} (@code{s-wchcon.ads})
 
 
@@ -24162,7 +24216,7 @@ in ordinary strings.  These definitions are used by
 the package @cite{System.Wch_Cnv}.
 
 @node Interfacing to Other Languages,Specialized Needs Annexes,The GNAT Library,Top
-@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-other-languages}@anchor{11}@anchor{gnat_rm/interfacing_to_other_languages doc}@anchor{39f}@anchor{gnat_rm/interfacing_to_other_languages id1}@anchor{3a0}
+@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-other-languages}@anchor{11}@anchor{gnat_rm/interfacing_to_other_languages doc}@anchor{3a1}@anchor{gnat_rm/interfacing_to_other_languages id1}@anchor{3a2}
 @chapter Interfacing to Other Languages
 
 
@@ -24180,7 +24234,7 @@ provided.
 @end menu
 
 @node Interfacing to C,Interfacing to C++,,Interfacing to Other Languages
-@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-c}@anchor{3a1}@anchor{gnat_rm/interfacing_to_other_languages id2}@anchor{3a2}
+@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-c}@anchor{3a3}@anchor{gnat_rm/interfacing_to_other_languages id2}@anchor{3a4}
 @section Interfacing to C
 
 
@@ -24318,7 +24372,7 @@ of the length corresponding to the @code{type'Size} value in Ada.
 @end itemize
 
 @node Interfacing to C++,Interfacing to COBOL,Interfacing to C,Interfacing to Other Languages
-@anchor{gnat_rm/interfacing_to_other_languages id4}@anchor{3a3}@anchor{gnat_rm/interfacing_to_other_languages id3}@anchor{3f}
+@anchor{gnat_rm/interfacing_to_other_languages id4}@anchor{3a5}@anchor{gnat_rm/interfacing_to_other_languages id3}@anchor{3f}
 @section Interfacing to C++
 
 
@@ -24375,7 +24429,7 @@ The @cite{External_Name} is the name of the C++ RTTI symbol. You can then
 cover a specific C++ exception in an exception handler.
 
 @node Interfacing to COBOL,Interfacing to Fortran,Interfacing to C++,Interfacing to Other Languages
-@anchor{gnat_rm/interfacing_to_other_languages id5}@anchor{3a4}@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-cobol}@anchor{3a5}
+@anchor{gnat_rm/interfacing_to_other_languages id5}@anchor{3a6}@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-cobol}@anchor{3a7}
 @section Interfacing to COBOL
 
 
@@ -24383,7 +24437,7 @@ Interfacing to COBOL is achieved as described in section B.4 of
 the Ada Reference Manual.
 
 @node Interfacing to Fortran,Interfacing to non-GNAT Ada code,Interfacing to COBOL,Interfacing to Other Languages
-@anchor{gnat_rm/interfacing_to_other_languages id6}@anchor{3a6}@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-fortran}@anchor{3a7}
+@anchor{gnat_rm/interfacing_to_other_languages id6}@anchor{3a8}@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-fortran}@anchor{3a9}
 @section Interfacing to Fortran
 
 
@@ -24393,7 +24447,7 @@ multi-dimensional array causes the array to be stored in column-major
 order as required for convenient interface to Fortran.
 
 @node Interfacing to non-GNAT Ada code,,Interfacing to Fortran,Interfacing to Other Languages
-@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-non-gnat-ada-code}@anchor{3a8}@anchor{gnat_rm/interfacing_to_other_languages id7}@anchor{3a9}
+@anchor{gnat_rm/interfacing_to_other_languages interfacing-to-non-gnat-ada-code}@anchor{3aa}@anchor{gnat_rm/interfacing_to_other_languages id7}@anchor{3ab}
 @section Interfacing to non-GNAT Ada code
 
 
@@ -24417,7 +24471,7 @@ values or simple record types without variants, or simple array
 types with fixed bounds.
 
 @node Specialized Needs Annexes,Implementation of Specific Ada Features,Interfacing to Other Languages,Top
-@anchor{gnat_rm/specialized_needs_annexes specialized-needs-annexes}@anchor{12}@anchor{gnat_rm/specialized_needs_annexes doc}@anchor{3aa}@anchor{gnat_rm/specialized_needs_annexes id1}@anchor{3ab}
+@anchor{gnat_rm/specialized_needs_annexes specialized-needs-annexes}@anchor{12}@anchor{gnat_rm/specialized_needs_annexes doc}@anchor{3ac}@anchor{gnat_rm/specialized_needs_annexes id1}@anchor{3ad}
 @chapter Specialized Needs Annexes
 
 
@@ -24458,7 +24512,7 @@ in Ada 2005) is fully implemented.
 @end table
 
 @node Implementation of Specific Ada Features,Implementation of Ada 2012 Features,Specialized Needs Annexes,Top
-@anchor{gnat_rm/implementation_of_specific_ada_features implementation-of-specific-ada-features}@anchor{13}@anchor{gnat_rm/implementation_of_specific_ada_features doc}@anchor{3ac}@anchor{gnat_rm/implementation_of_specific_ada_features id1}@anchor{3ad}
+@anchor{gnat_rm/implementation_of_specific_ada_features implementation-of-specific-ada-features}@anchor{13}@anchor{gnat_rm/implementation_of_specific_ada_features doc}@anchor{3ae}@anchor{gnat_rm/implementation_of_specific_ada_features id1}@anchor{3af}
 @chapter Implementation of Specific Ada Features
 
 
@@ -24476,7 +24530,7 @@ facilities.
 @end menu
 
 @node Machine Code Insertions,GNAT Implementation of Tasking,,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features machine-code-insertions}@anchor{11a}@anchor{gnat_rm/implementation_of_specific_ada_features id2}@anchor{3ae}
+@anchor{gnat_rm/implementation_of_specific_ada_features machine-code-insertions}@anchor{11d}@anchor{gnat_rm/implementation_of_specific_ada_features id2}@anchor{3b0}
 @section Machine Code Insertions
 
 
@@ -24644,7 +24698,7 @@ according to normal visibility rules. In particular if there is no
 qualification is required.
 
 @node GNAT Implementation of Tasking,GNAT Implementation of Shared Passive Packages,Machine Code Insertions,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features id3}@anchor{3af}@anchor{gnat_rm/implementation_of_specific_ada_features gnat-implementation-of-tasking}@anchor{3b0}
+@anchor{gnat_rm/implementation_of_specific_ada_features id3}@anchor{3b1}@anchor{gnat_rm/implementation_of_specific_ada_features gnat-implementation-of-tasking}@anchor{3b2}
 @section GNAT Implementation of Tasking
 
 
@@ -24659,7 +24713,7 @@ to compliance with the Real-Time Systems Annex.
 @end menu
 
 @node Mapping Ada Tasks onto the Underlying Kernel Threads,Ensuring Compliance with the Real-Time Annex,,GNAT Implementation of Tasking
-@anchor{gnat_rm/implementation_of_specific_ada_features mapping-ada-tasks-onto-the-underlying-kernel-threads}@anchor{3b1}@anchor{gnat_rm/implementation_of_specific_ada_features id4}@anchor{3b2}
+@anchor{gnat_rm/implementation_of_specific_ada_features mapping-ada-tasks-onto-the-underlying-kernel-threads}@anchor{3b3}@anchor{gnat_rm/implementation_of_specific_ada_features id4}@anchor{3b4}
 @subsection Mapping Ada Tasks onto the Underlying Kernel Threads
 
 
@@ -24727,7 +24781,7 @@ support this functionality when the parent contains more than one task.
 .. index:: Forking a new process
 
 @node Ensuring Compliance with the Real-Time Annex,,Mapping Ada Tasks onto the Underlying Kernel Threads,GNAT Implementation of Tasking
-@anchor{gnat_rm/implementation_of_specific_ada_features id5}@anchor{3b3}@anchor{gnat_rm/implementation_of_specific_ada_features ensuring-compliance-with-the-real-time-annex}@anchor{3b4}
+@anchor{gnat_rm/implementation_of_specific_ada_features id5}@anchor{3b5}@anchor{gnat_rm/implementation_of_specific_ada_features ensuring-compliance-with-the-real-time-annex}@anchor{3b6}
 @subsection Ensuring Compliance with the Real-Time Annex
 
 
@@ -24776,7 +24830,7 @@ that were ready to execute in the priority queue where R has been
 placed at the end.
 
 @node GNAT Implementation of Shared Passive Packages,Code Generation for Array Aggregates,GNAT Implementation of Tasking,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features id6}@anchor{3b5}@anchor{gnat_rm/implementation_of_specific_ada_features gnat-implementation-of-shared-passive-packages}@anchor{3b6}
+@anchor{gnat_rm/implementation_of_specific_ada_features id6}@anchor{3b7}@anchor{gnat_rm/implementation_of_specific_ada_features gnat-implementation-of-shared-passive-packages}@anchor{3b8}
 @section GNAT Implementation of Shared Passive Packages
 
 
@@ -24875,7 +24929,7 @@ GNAT supports shared passive packages on all platforms
 except for OpenVMS.
 
 @node Code Generation for Array Aggregates,The Size of Discriminated Records with Default Discriminants,GNAT Implementation of Shared Passive Packages,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features code-generation-for-array-aggregates}@anchor{3b7}@anchor{gnat_rm/implementation_of_specific_ada_features id7}@anchor{3b8}
+@anchor{gnat_rm/implementation_of_specific_ada_features code-generation-for-array-aggregates}@anchor{3b9}@anchor{gnat_rm/implementation_of_specific_ada_features id7}@anchor{3ba}
 @section Code Generation for Array Aggregates
 
 
@@ -24906,7 +24960,7 @@ component values and static subtypes also lead to simpler code.
 @end menu
 
 @node Static constant aggregates with static bounds,Constant aggregates with unconstrained nominal types,,Code Generation for Array Aggregates
-@anchor{gnat_rm/implementation_of_specific_ada_features static-constant-aggregates-with-static-bounds}@anchor{3b9}@anchor{gnat_rm/implementation_of_specific_ada_features id8}@anchor{3ba}
+@anchor{gnat_rm/implementation_of_specific_ada_features static-constant-aggregates-with-static-bounds}@anchor{3bb}@anchor{gnat_rm/implementation_of_specific_ada_features id8}@anchor{3bc}
 @subsection Static constant aggregates with static bounds
 
 
@@ -24953,7 +25007,7 @@ Zero2: constant two_dim := (others => (others => 0));
 @end example
 
 @node Constant aggregates with unconstrained nominal types,Aggregates with static bounds,Static constant aggregates with static bounds,Code Generation for Array Aggregates
-@anchor{gnat_rm/implementation_of_specific_ada_features constant-aggregates-with-unconstrained-nominal-types}@anchor{3bb}@anchor{gnat_rm/implementation_of_specific_ada_features id9}@anchor{3bc}
+@anchor{gnat_rm/implementation_of_specific_ada_features constant-aggregates-with-unconstrained-nominal-types}@anchor{3bd}@anchor{gnat_rm/implementation_of_specific_ada_features id9}@anchor{3be}
 @subsection Constant aggregates with unconstrained nominal types
 
 
@@ -24968,7 +25022,7 @@ Cr_Unc : constant One_Unc := (12,24,36);
 @end example
 
 @node Aggregates with static bounds,Aggregates with non-static bounds,Constant aggregates with unconstrained nominal types,Code Generation for Array Aggregates
-@anchor{gnat_rm/implementation_of_specific_ada_features id10}@anchor{3bd}@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-with-static-bounds}@anchor{3be}
+@anchor{gnat_rm/implementation_of_specific_ada_features id10}@anchor{3bf}@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-with-static-bounds}@anchor{3c0}
 @subsection Aggregates with static bounds
 
 
@@ -24996,7 +25050,7 @@ end loop;
 @end example
 
 @node Aggregates with non-static bounds,Aggregates in assignment statements,Aggregates with static bounds,Code Generation for Array Aggregates
-@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-with-non-static-bounds}@anchor{3bf}@anchor{gnat_rm/implementation_of_specific_ada_features id11}@anchor{3c0}
+@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-with-non-static-bounds}@anchor{3c1}@anchor{gnat_rm/implementation_of_specific_ada_features id11}@anchor{3c2}
 @subsection Aggregates with non-static bounds
 
 
@@ -25007,7 +25061,7 @@ have to be applied to sub-arrays individually, if they do not have statically
 compatible subtypes.
 
 @node Aggregates in assignment statements,,Aggregates with non-static bounds,Code Generation for Array Aggregates
-@anchor{gnat_rm/implementation_of_specific_ada_features id12}@anchor{3c1}@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-in-assignment-statements}@anchor{3c2}
+@anchor{gnat_rm/implementation_of_specific_ada_features id12}@anchor{3c3}@anchor{gnat_rm/implementation_of_specific_ada_features aggregates-in-assignment-statements}@anchor{3c4}
 @subsection Aggregates in assignment statements
 
 
@@ -25049,7 +25103,7 @@ a temporary (created either by the front-end or the code generator) and then
 that temporary will be copied onto the target.
 
 @node The Size of Discriminated Records with Default Discriminants,Strict Conformance to the Ada Reference Manual,Code Generation for Array Aggregates,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features id13}@anchor{3c3}@anchor{gnat_rm/implementation_of_specific_ada_features the-size-of-discriminated-records-with-default-discriminants}@anchor{3c4}
+@anchor{gnat_rm/implementation_of_specific_ada_features id13}@anchor{3c5}@anchor{gnat_rm/implementation_of_specific_ada_features the-size-of-discriminated-records-with-default-discriminants}@anchor{3c6}
 @section The Size of Discriminated Records with Default Discriminants
 
 
@@ -25129,7 +25183,7 @@ say) must be consistent, so it is imperative that the object, once created,
 remain invariant.
 
 @node Strict Conformance to the Ada Reference Manual,,The Size of Discriminated Records with Default Discriminants,Implementation of Specific Ada Features
-@anchor{gnat_rm/implementation_of_specific_ada_features strict-conformance-to-the-ada-reference-manual}@anchor{3c5}@anchor{gnat_rm/implementation_of_specific_ada_features id14}@anchor{3c6}
+@anchor{gnat_rm/implementation_of_specific_ada_features strict-conformance-to-the-ada-reference-manual}@anchor{3c7}@anchor{gnat_rm/implementation_of_specific_ada_features id14}@anchor{3c8}
 @section Strict Conformance to the Ada Reference Manual
 
 
@@ -25158,7 +25212,7 @@ behavior (although at the cost of a significant performance penalty), so
 infinite and NaN values are properly generated.
 
 @node Implementation of Ada 2012 Features,Obsolescent Features,Implementation of Specific Ada Features,Top
-@anchor{gnat_rm/implementation_of_ada_2012_features doc}@anchor{3c7}@anchor{gnat_rm/implementation_of_ada_2012_features implementation-of-ada-2012-features}@anchor{14}@anchor{gnat_rm/implementation_of_ada_2012_features id1}@anchor{3c8}
+@anchor{gnat_rm/implementation_of_ada_2012_features doc}@anchor{3c9}@anchor{gnat_rm/implementation_of_ada_2012_features implementation-of-ada-2012-features}@anchor{14}@anchor{gnat_rm/implementation_of_ada_2012_features id1}@anchor{3ca}
 @chapter Implementation of Ada 2012 Features
 
 
@@ -27324,7 +27378,7 @@ RM References:  H.04 (8/1)
 @end itemize
 
 @node Obsolescent Features,Compatibility and Porting Guide,Implementation of Ada 2012 Features,Top
-@anchor{gnat_rm/obsolescent_features id1}@anchor{3c9}@anchor{gnat_rm/obsolescent_features doc}@anchor{3ca}@anchor{gnat_rm/obsolescent_features obsolescent-features}@anchor{15}
+@anchor{gnat_rm/obsolescent_features id1}@anchor{3cb}@anchor{gnat_rm/obsolescent_features doc}@anchor{3cc}@anchor{gnat_rm/obsolescent_features obsolescent-features}@anchor{15}
 @chapter Obsolescent Features
 
 
@@ -27343,7 +27397,7 @@ compatibility purposes.
 @end menu
 
 @node pragma No_Run_Time,pragma Ravenscar,,Obsolescent Features
-@anchor{gnat_rm/obsolescent_features id2}@anchor{3cb}@anchor{gnat_rm/obsolescent_features pragma-no-run-time}@anchor{3cc}
+@anchor{gnat_rm/obsolescent_features id2}@anchor{3cd}@anchor{gnat_rm/obsolescent_features pragma-no-run-time}@anchor{3ce}
 @section pragma No_Run_Time
 
 
@@ -27356,7 +27410,7 @@ preferred usage is to use an appropriately configured run-time that
 includes just those features that are to be made accessible.
 
 @node pragma Ravenscar,pragma Restricted_Run_Time,pragma No_Run_Time,Obsolescent Features
-@anchor{gnat_rm/obsolescent_features id3}@anchor{3cd}@anchor{gnat_rm/obsolescent_features pragma-ravenscar}@anchor{3ce}
+@anchor{gnat_rm/obsolescent_features id3}@anchor{3cf}@anchor{gnat_rm/obsolescent_features pragma-ravenscar}@anchor{3d0}
 @section pragma Ravenscar
 
 
@@ -27365,7 +27419,7 @@ The pragma @cite{Ravenscar} has exactly the same effect as pragma
 is part of the new Ada 2005 standard.
 
 @node pragma Restricted_Run_Time,pragma Task_Info,pragma Ravenscar,Obsolescent Features
-@anchor{gnat_rm/obsolescent_features pragma-restricted-run-time}@anchor{3cf}@anchor{gnat_rm/obsolescent_features id4}@anchor{3d0}
+@anchor{gnat_rm/obsolescent_features pragma-restricted-run-time}@anchor{3d1}@anchor{gnat_rm/obsolescent_features id4}@anchor{3d2}
 @section pragma Restricted_Run_Time
 
 
@@ -27375,7 +27429,7 @@ preferred since the Ada 2005 pragma @cite{Profile} is intended for
 this kind of implementation dependent addition.
 
 @node pragma Task_Info,package System Task_Info s-tasinf ads,pragma Restricted_Run_Time,Obsolescent Features
-@anchor{gnat_rm/obsolescent_features pragma-task-info}@anchor{3d1}@anchor{gnat_rm/obsolescent_features id5}@anchor{3d2}
+@anchor{gnat_rm/obsolescent_features pragma-task-info}@anchor{3d3}@anchor{gnat_rm/obsolescent_features id5}@anchor{3d4}
 @section pragma Task_Info
 
 
@@ -27401,7 +27455,7 @@ in the spec of package System.Task_Info in the runtime
 library.
 
 @node package System Task_Info s-tasinf ads,,pragma Task_Info,Obsolescent Features
-@anchor{gnat_rm/obsolescent_features package-system-task-info}@anchor{3d3}@anchor{gnat_rm/obsolescent_features package-system-task-info-s-tasinf-ads}@anchor{3d4}
+@anchor{gnat_rm/obsolescent_features package-system-task-info}@anchor{3d5}@anchor{gnat_rm/obsolescent_features package-system-task-info-s-tasinf-ads}@anchor{3d6}
 @section package System.Task_Info (@code{s-tasinf.ads})
 
 
@@ -27411,7 +27465,7 @@ to support the @cite{Task_Info} pragma. The predefined Ada package
 standard replacement for GNAT's @cite{Task_Info} functionality.
 
 @node Compatibility and Porting Guide,GNU Free Documentation License,Obsolescent Features,Top
-@anchor{gnat_rm/compatibility_and_porting_guide compatibility-and-porting-guide}@anchor{16}@anchor{gnat_rm/compatibility_and_porting_guide doc}@anchor{3d5}@anchor{gnat_rm/compatibility_and_porting_guide id1}@anchor{3d6}
+@anchor{gnat_rm/compatibility_and_porting_guide compatibility-and-porting-guide}@anchor{16}@anchor{gnat_rm/compatibility_and_porting_guide doc}@anchor{3d7}@anchor{gnat_rm/compatibility_and_porting_guide id1}@anchor{3d8}
 @chapter Compatibility and Porting Guide
 
 
@@ -27433,7 +27487,7 @@ applications developed in other Ada environments.
 @end menu
 
 @node Writing Portable Fixed-Point Declarations,Compatibility with Ada 83,,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide id2}@anchor{3d7}@anchor{gnat_rm/compatibility_and_porting_guide writing-portable-fixed-point-declarations}@anchor{3d8}
+@anchor{gnat_rm/compatibility_and_porting_guide id2}@anchor{3d9}@anchor{gnat_rm/compatibility_and_porting_guide writing-portable-fixed-point-declarations}@anchor{3da}
 @section Writing Portable Fixed-Point Declarations
 
 
@@ -27555,7 +27609,7 @@ If you follow this scheme you will be guaranteed that your fixed-point
 types will be portable.
 
 @node Compatibility with Ada 83,Compatibility between Ada 95 and Ada 2005,Writing Portable Fixed-Point Declarations,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-ada-83}@anchor{3d9}@anchor{gnat_rm/compatibility_and_porting_guide id3}@anchor{3da}
+@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-ada-83}@anchor{3db}@anchor{gnat_rm/compatibility_and_porting_guide id3}@anchor{3dc}
 @section Compatibility with Ada 83
 
 
@@ -27583,7 +27637,7 @@ following subsections treat the most likely issues to be encountered.
 @end menu
 
 @node Legal Ada 83 programs that are illegal in Ada 95,More deterministic semantics,,Compatibility with Ada 83
-@anchor{gnat_rm/compatibility_and_porting_guide id4}@anchor{3db}@anchor{gnat_rm/compatibility_and_porting_guide legal-ada-83-programs-that-are-illegal-in-ada-95}@anchor{3dc}
+@anchor{gnat_rm/compatibility_and_porting_guide id4}@anchor{3dd}@anchor{gnat_rm/compatibility_and_porting_guide legal-ada-83-programs-that-are-illegal-in-ada-95}@anchor{3de}
 @subsection Legal Ada 83 programs that are illegal in Ada 95
 
 
@@ -27683,7 +27737,7 @@ the fix is usually simply to add the @cite{(<>)} to the generic declaration.
 @end itemize
 
 @node More deterministic semantics,Changed semantics,Legal Ada 83 programs that are illegal in Ada 95,Compatibility with Ada 83
-@anchor{gnat_rm/compatibility_and_porting_guide more-deterministic-semantics}@anchor{3dd}@anchor{gnat_rm/compatibility_and_porting_guide id5}@anchor{3de}
+@anchor{gnat_rm/compatibility_and_porting_guide more-deterministic-semantics}@anchor{3df}@anchor{gnat_rm/compatibility_and_porting_guide id5}@anchor{3e0}
 @subsection More deterministic semantics
 
 
@@ -27711,7 +27765,7 @@ which open select branches are executed.
 @end itemize
 
 @node Changed semantics,Other language compatibility issues,More deterministic semantics,Compatibility with Ada 83
-@anchor{gnat_rm/compatibility_and_porting_guide id6}@anchor{3df}@anchor{gnat_rm/compatibility_and_porting_guide changed-semantics}@anchor{3e0}
+@anchor{gnat_rm/compatibility_and_porting_guide id6}@anchor{3e1}@anchor{gnat_rm/compatibility_and_porting_guide changed-semantics}@anchor{3e2}
 @subsection Changed semantics
 
 
@@ -27753,7 +27807,7 @@ covers only the restricted range.
 @end itemize
 
 @node Other language compatibility issues,,Changed semantics,Compatibility with Ada 83
-@anchor{gnat_rm/compatibility_and_porting_guide other-language-compatibility-issues}@anchor{3e1}@anchor{gnat_rm/compatibility_and_porting_guide id7}@anchor{3e2}
+@anchor{gnat_rm/compatibility_and_porting_guide other-language-compatibility-issues}@anchor{3e3}@anchor{gnat_rm/compatibility_and_porting_guide id7}@anchor{3e4}
 @subsection Other language compatibility issues
 
 
@@ -27786,7 +27840,7 @@ include @cite{pragma Interface} and the floating point type attributes
 @end itemize
 
 @node Compatibility between Ada 95 and Ada 2005,Implementation-dependent characteristics,Compatibility with Ada 83,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide compatibility-between-ada-95-and-ada-2005}@anchor{3e3}@anchor{gnat_rm/compatibility_and_porting_guide id8}@anchor{3e4}
+@anchor{gnat_rm/compatibility_and_porting_guide compatibility-between-ada-95-and-ada-2005}@anchor{3e5}@anchor{gnat_rm/compatibility_and_porting_guide id8}@anchor{3e6}
 @section Compatibility between Ada 95 and Ada 2005
 
 
@@ -27858,7 +27912,7 @@ can declare a function returning a value from an anonymous access type.
 @end itemize
 
 @node Implementation-dependent characteristics,Compatibility with Other Ada Systems,Compatibility between Ada 95 and Ada 2005,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide implementation-dependent-characteristics}@anchor{3e5}@anchor{gnat_rm/compatibility_and_porting_guide id9}@anchor{3e6}
+@anchor{gnat_rm/compatibility_and_porting_guide implementation-dependent-characteristics}@anchor{3e7}@anchor{gnat_rm/compatibility_and_porting_guide id9}@anchor{3e8}
 @section Implementation-dependent characteristics
 
 
@@ -27881,7 +27935,7 @@ transition from certain Ada 83 compilers.
 @end menu
 
 @node Implementation-defined pragmas,Implementation-defined attributes,,Implementation-dependent characteristics
-@anchor{gnat_rm/compatibility_and_porting_guide implementation-defined-pragmas}@anchor{3e7}@anchor{gnat_rm/compatibility_and_porting_guide id10}@anchor{3e8}
+@anchor{gnat_rm/compatibility_and_porting_guide implementation-defined-pragmas}@anchor{3e9}@anchor{gnat_rm/compatibility_and_porting_guide id10}@anchor{3ea}
 @subsection Implementation-defined pragmas
 
 
@@ -27903,7 +27957,7 @@ avoiding compiler rejection of units that contain such pragmas; they are not
 relevant in a GNAT context and hence are not otherwise implemented.
 
 @node Implementation-defined attributes,Libraries,Implementation-defined pragmas,Implementation-dependent characteristics
-@anchor{gnat_rm/compatibility_and_porting_guide id11}@anchor{3e9}@anchor{gnat_rm/compatibility_and_porting_guide implementation-defined-attributes}@anchor{3ea}
+@anchor{gnat_rm/compatibility_and_porting_guide id11}@anchor{3eb}@anchor{gnat_rm/compatibility_and_porting_guide implementation-defined-attributes}@anchor{3ec}
 @subsection Implementation-defined attributes
 
 
@@ -27917,7 +27971,7 @@ Ada 83, GNAT supplies the attributes @cite{Bit}, @cite{Machine_Size} and
 @cite{Type_Class}.
 
 @node Libraries,Elaboration order,Implementation-defined attributes,Implementation-dependent characteristics
-@anchor{gnat_rm/compatibility_and_porting_guide libraries}@anchor{3eb}@anchor{gnat_rm/compatibility_and_porting_guide id12}@anchor{3ec}
+@anchor{gnat_rm/compatibility_and_porting_guide libraries}@anchor{3ed}@anchor{gnat_rm/compatibility_and_porting_guide id12}@anchor{3ee}
 @subsection Libraries
 
 
@@ -27946,7 +28000,7 @@ be preferable to retrofit the application using modular types.
 @end itemize
 
 @node Elaboration order,Target-specific aspects,Libraries,Implementation-dependent characteristics
-@anchor{gnat_rm/compatibility_and_porting_guide elaboration-order}@anchor{3ed}@anchor{gnat_rm/compatibility_and_porting_guide id13}@anchor{3ee}
+@anchor{gnat_rm/compatibility_and_porting_guide elaboration-order}@anchor{3ef}@anchor{gnat_rm/compatibility_and_porting_guide id13}@anchor{3f0}
 @subsection Elaboration order
 
 
@@ -27982,7 +28036,7 @@ pragmas either globally (as an effect of the @emph{-gnatE} switch) or locally
 @end itemize
 
 @node Target-specific aspects,,Elaboration order,Implementation-dependent characteristics
-@anchor{gnat_rm/compatibility_and_porting_guide target-specific-aspects}@anchor{3ef}@anchor{gnat_rm/compatibility_and_porting_guide id14}@anchor{3f0}
+@anchor{gnat_rm/compatibility_and_porting_guide target-specific-aspects}@anchor{3f1}@anchor{gnat_rm/compatibility_and_porting_guide id14}@anchor{3f2}
 @subsection Target-specific aspects
 
 
@@ -27995,10 +28049,10 @@ on the robustness of the original design.  Moreover, Ada 95 (and thus
 Ada 2005 and Ada 2012) are sometimes
 incompatible with typical Ada 83 compiler practices regarding implicit
 packing, the meaning of the Size attribute, and the size of access values.
-GNAT's approach to these issues is described in @ref{3f1,,Representation Clauses}.
+GNAT's approach to these issues is described in @ref{3f3,,Representation Clauses}.
 
 @node Compatibility with Other Ada Systems,Representation Clauses,Implementation-dependent characteristics,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide id15}@anchor{3f2}@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-other-ada-systems}@anchor{3f3}
+@anchor{gnat_rm/compatibility_and_porting_guide id15}@anchor{3f4}@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-other-ada-systems}@anchor{3f5}
 @section Compatibility with Other Ada Systems
 
 
@@ -28041,7 +28095,7 @@ far beyond this minimal set, as described in the next section.
 @end itemize
 
 @node Representation Clauses,Compatibility with HP Ada 83,Compatibility with Other Ada Systems,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide representation-clauses}@anchor{3f1}@anchor{gnat_rm/compatibility_and_porting_guide id16}@anchor{3f4}
+@anchor{gnat_rm/compatibility_and_porting_guide representation-clauses}@anchor{3f3}@anchor{gnat_rm/compatibility_and_porting_guide id16}@anchor{3f6}
 @section Representation Clauses
 
 
@@ -28134,7 +28188,7 @@ with thin pointers.
 @end itemize
 
 @node Compatibility with HP Ada 83,,Representation Clauses,Compatibility and Porting Guide
-@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-hp-ada-83}@anchor{3f5}@anchor{gnat_rm/compatibility_and_porting_guide id17}@anchor{3f6}
+@anchor{gnat_rm/compatibility_and_porting_guide compatibility-with-hp-ada-83}@anchor{3f7}@anchor{gnat_rm/compatibility_and_porting_guide id17}@anchor{3f8}
 @section Compatibility with HP Ada 83
 
 
@@ -28164,7 +28218,7 @@ extension of package System.
 @end itemize
 
 @node GNU Free Documentation License,Index,Compatibility and Porting Guide,Top
-@anchor{share/gnu_free_documentation_license gnu-fdl}@anchor{1}@anchor{share/gnu_free_documentation_license doc}@anchor{3f7}@anchor{share/gnu_free_documentation_license gnu-free-documentation-license}@anchor{3f8}
+@anchor{share/gnu_free_documentation_license gnu-fdl}@anchor{1}@anchor{share/gnu_free_documentation_license doc}@anchor{3f9}@anchor{share/gnu_free_documentation_license gnu-free-documentation-license}@anchor{3fa}
 @chapter GNU Free Documentation License
 
 
index d82df18783fd997e65e8d71d2c6eeabce135e9cc..3a4146cacb0fcfb5930ebb223b45097a63c966d1 100644 (file)
@@ -21,7 +21,7 @@
 
 @copying
 @quotation
-GNAT User's Guide for Native Platforms , March 24, 2015
+GNAT User's Guide for Native Platforms , May 12, 2015
 
 AdaCore
 
@@ -17021,10 +17021,7 @@ the default naming convention.
 However, when compiling a multi-language application, or a pure C
 application, the project manager must be told which languages are of
 interest, which is done by setting the @strong{Languages} attribute to a list of
-strings, each of which is the name of a language. Tools like
-@emph{gnatmake} only know about Ada, while other tools like
-@emph{gprbuild} know about many more languages such as C, C++, Fortran,
-assembly and others can be added dynamically.
+strings, each of which is the name of a language.
 
 @geindex Naming scheme (GNAT Project Manager)
 
@@ -17143,8 +17140,7 @@ Its value is the path to the object directory, either absolute or
 relative to the directory containing the project file. This
 directory must already exist and be readable and writable, although
 some tools have a switch to create the directory if needed (See
-the switch @cite{-p} for @emph{gnatmake}
-and @emph{gprbuild}).
+the switch @cite{-p} for @emph{gprbuild}).
 
 If the attribute @cite{Object_Dir} is not specified, it defaults to
 the project directory, that is the directory containing the project file.
@@ -17293,7 +17289,7 @@ packages would be involved in the build process.
 @c    for Exec_Dir use ".";
 @c    for Main use ("proc.adb");
 @c 
-@c    package Builder is  --<<<  for gnatmake and gprbuild
+@c    package Builder is  --<<<  for gprbuild
 @c    end Builder;
 @c 
 @c    package Compiler is --<<<  for the compiler
@@ -17397,7 +17393,7 @@ used for all the sources of the project.
 
 The switches for the other tools are defined in a similar manner through the
 @strong{Default_Switches} and @strong{Switches} attributes, respectively in the
-@emph{Builder} package (for @emph{gnatmake} and @emph{gprbuild}),
+@emph{Builder} package (for @emph{gprbuild}),
 the @emph{Binder} package (binding Ada executables) and the @emph{Linker}
 package (for linking executables).
 
@@ -17410,7 +17406,7 @@ Now that our project files are written, let's build our executable.
 Here is the command we would use from the command line:
 
 @example
-gnatmake -Pbuild
+gprbuild -Pbuild
 @end example
 
 This will automatically build the executables specified through the
@@ -17419,10 +17415,9 @@ sources for which the object file does not exist or is not up-to-date; it
 will then run the binder; and finally run the linker to create the
 executable itself.
 
-@emph{gnatmake} only knows how to handle Ada files. By using
-@emph{gprbuild} as a builder, you could automatically manage C files the
+The @emph{gprbuild} builder, can automatically manage C files the
 same way: create the file @code{utils.c} in the @code{common} directory,
-set the attribute @emph{Languages} to @cite{"(Ada@comma{} C)"}, and run
+set the attribute @emph{Languages} to @cite{"(Ada@comma{} C)"}, and re-run
 
 @example
 gprbuild -Pbuild
@@ -18034,22 +18029,16 @@ specified order are:
 @itemize *
 
 @item 
-@code{<prefix>/<target>/lib/gnat}
-(for @emph{gnatmake} in all cases, and for @emph{gprbuild} if option
-@emph{--target} is specified)
+@code{<prefix>/<target>/lib/gnat} if option @emph{--target} is specified
 
 @item 
-@code{<prefix>/<target>/share/gpr}
-(for @emph{gnatmake} in all cases, and for @emph{gprbuild} if option
-@emph{--target} is specified)
+@code{<prefix>/<target>/share/gpr} if option @emph{--target} is specified
 
 @item 
 @code{<prefix>/share/gpr/}
-(for @emph{gnatmake} and @emph{gprbuild})
 
 @item 
 @code{<prefix>/lib/gnat/}
-(for @emph{gnatmake} and @emph{gprbuild})
 @end itemize
 
 In our example, @code{gtkada.gpr} is found in the predefined directory if
@@ -18318,18 +18307,12 @@ order of priority):
 
 @item @strong{Command line}:
 
-When launching @emph{gnatmake} or @emph{gprbuild}, the user can pass
+When launching @emph{gprbuild}, the user can pass
 extra @emph{-X} switches to define the external value. In
 our case, the command line might look like
 
 @example
-gnatmake -Pbuild.gpr -Xmode=debug
-@end example
-
-or
-
-@example
-gnatmake -Pbuild.gpr -Xmode=release
+gprbuild -Pbuild.gpr -Xmode=release
 @end example
 
 @item @strong{Environment variables}:
@@ -18639,14 +18622,8 @@ of shard libraries reduces the size of the final executable and can also reduce
 the memory footprint at execution time when the library is shared among several
 executables.
 
-It is also possible to build @strong{multi-language libraries}. When using
-@emph{gprbuild} as a builder, multi-language library projects allow naturally
-the creation of multi-language libraries . @emph{gnatmake}, does not try to
-compile non Ada sources. However, when the project is multi-language, it will
-automatically link all object files found in the object directory, whether or
-not they were compiled from an Ada source file. This specific behavior does not
-apply to Ada-only projects which only take into account the objects
-corresponding to the sources of the project.
+@emph{gprbuild also allows to build **multi-language libraries*} when specifying
+sources from multiple languages.
 
 A non-library project can import a library project. When the builder is invoked
 on the former, the library of the latter is only rebuilt when absolutely
@@ -18664,12 +18641,12 @@ up to date, and that all the sources of @cite{Build} are also up to date,
 the following two commands need to be used:
 
 @example
-gnatmake -Plogging.gpr
-gnatmake -Pbuild.gpr
+gprbuild -Plogging.gpr
+gprbuild -Pbuild.gpr
 @end example
 
 All @code{ALI} files will also be copied from the object directory to the
-library directory. To build executables, @emph{gnatmake} will use the
+library directory. To build executables, @emph{gprbuild} will use the
 library rather than the individual object files.
 
 Library projects can also be useful to describe a library that needs to be used
@@ -19210,8 +19187,7 @@ Very often, modules will build their own executables (for testing
 purposes for instance), or libraries (for easier reuse in various
 contexts).
 
-However, if you build your project through @emph{gnatmake} or
-@emph{gprbuild}, using a syntax similar to
+However, if you build your project through @emph{gprbuild}, using a syntax similar to
 
 @example
 gprbuild -PA.gpr
@@ -19219,9 +19195,9 @@ gprbuild -PA.gpr
 
 this will only rebuild the main programs of project A, not those of the
 imported projects B and C. Therefore you have to spawn several
-@emph{gnatmake} commands, one per project, to build all executables.
+@emph{gprbuild} commands, one per project, to build all executables.
 This is a little inconvenient, but more importantly is inefficient
-because @emph{gnatmake} needs to do duplicate work to ensure that sources are
+because @emph{gprbuild} needs to do duplicate work to ensure that sources are
 up-to-date, and cannot easily compile things in parallel when using
 the -j switch.
 
@@ -19252,9 +19228,6 @@ aggregate project, you will need to add "p.gpr" in the list of project
 files for the aggregate project, or the main will not be built when
 building the aggregate project.
 
-Aggregate projects are supported only with @emph{gprbuild}, not with
-@emph{gnatmake}.
-
 @node Building a set of projects with a single command,Define a build environment,Building all main programs from a single project tree,Aggregate Projects
 @anchor{gnat_ugn/gnat_project_manager building-a-set-of-projects-with-a-single-command}@anchor{184}@anchor{gnat_ugn/gnat_project_manager id29}@anchor{185}
 @subsection Building a set of projects with a single command
@@ -19363,7 +19336,7 @@ once.
 Since there is no ambiguity as to which switches should be used, files
 can be compiled in parallel (through the usual -j switch) and this can
 be done while maximizing the use of CPUs (compared to launching
-multiple @emph{gprbuild} and @emph{gnatmake} commands in parallel).
+multiple @emph{gprbuild} commands in parallel).
 
 @node Syntax of aggregate projects,package Builder in aggregate projects,Performance improvements in builder,Aggregate Projects
 @anchor{gnat_ugn/gnat_project_manager id32}@anchor{18a}@anchor{gnat_ugn/gnat_project_manager syntax-of-aggregate-projects}@anchor{18b}
@@ -20141,8 +20114,8 @@ The following packages are currently supported in project files
 @item @emph{Binder}
 
 This package specifies characteristics useful when invoking the binder either
-directly via the @emph{gnat} driver or when using a builder such as
-@emph{gnatmake} or @emph{gprbuild}. See @ref{15d,,Main Subprograms}.
+directly via the @emph{gnat} driver or when using @emph{gprbuild}.
+See @ref{15d,,Main Subprograms}.
 
 @item @emph{Builder}
 
@@ -20402,7 +20375,7 @@ Illegal := "gnat.adc" & List2;  --  Illegal, must start with list
 
 An external value is an expression whose value is obtained from the command
 that invoked the processing of the current project file (typically a
-@emph{gnatmake} or @emph{gprbuild} command).
+@emph{gprbuild} command).
 
 There are two kinds of external values, one that returns a single string, and
 one that returns a string list.
@@ -21882,9 +21855,9 @@ in a cross-compilation environment, for example @cite{"wtx"} or
 @strong{Compiler_Command}: single, indexed, case-insensitive index
 
 Index is a language Name. Value is a string that denotes the command to be
-used to invoke the compiler. The value of @cite{Compiler_Command ("Ada")} is
-expected to be compatible with @emph{gnatmake}, in particular in
-the handling of switches.
+used to invoke the compiler. For historical reasons, the value of
+@cite{Compiler_Command ("Ada")} is expected to be a reference to @emph{gnatmake} or
+@emph{cross-gnatmake}.
 
 @item 
 @strong{Debugger_Command}: single