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Fix some texinfo 5.0 warnings in gcc/doc + libiberty


This is a follow up to Jakub's patch.

With texinfo 5.0 one gets a bunch of warnings. This patch reduces the number of warnings â but there are still warnings to be fixed.

This patch solves most of the issues related to mismatches between the item order in the @menu and the actual @nodes. As always, there is the question whether the @node or the item in @menu should be changed. In one case, I had the choice to either add a new item under @menu or to change a @section into @subsection. I did the latter.

Tested with "make info" and no new warnings in texinfo 5.0. Additionally, I used texinfo 4.13a with showed no warnings.
OK for the trunk?


Tobias


PS: I tried the following libiberty patch; it fixes a warning with texinfo 5.0. But I do not include it as it fails for some reason with an error with texinfo 4.13:
../../libiberty/libiberty.texi:250: Prev field of node `Functions' not pointed to.
../../libiberty//obstacks.texi:1: This node (Obstacks) has the bad Next.
...


diff --git a/libiberty/libiberty.texi b/libiberty/libiberty.texi
index 74f70d2..5a72f13 100644
--- a/libiberty/libiberty.texi
+++ b/libiberty/libiberty.texi
@@ -80,10 +80,10 @@ License; for more information, see @ref{Library Copying}.


* Overview:: Overview of available function groups.

-* Functions:: Available functions, macros, and global variables.
-
* Obstacks:: Object Stacks.

+* Functions:: Available functions, macros, and global variables.
+
* Licenses:: The various licenses under which libiberty sources are
distributed.

gcc/
2013-02-21  Tobias Burnus  <burnus@net-b.de>

	* doc/extended.texi (C Extensions): Change order in @menu
	to match @node.
	(Other MIPS Built-in Functions): Move last MIPS entry before
	"picoChip Built-in Functions".
	(SH Built-in Functions): Move after RX Built-in Functions.
	* doc/gcc.texi (Introduction): Change order in @menu
	to match @node.
	* doc/md.texi (Constraints): Ditto.
	* gty.texi (Type Information): Ditto.
	(User-provided marking routines for template types): Make
	subsection.
	* doc/invoke.texi (AArch64 Options): Move before
	"Adapteva Epiphany Options".

diff --git a/gcc/doc/extend.texi b/gcc/doc/extend.texi
index eb84408..ea4dfc1 100644
--- a/gcc/doc/extend.texi
+++ b/gcc/doc/extend.texi
@@ -30,8 +30,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Constructing Calls::  Dispatching a call to another function.
 * Typeof::              @code{typeof}: referring to the type of an expression.
 * Conditionals::        Omitting the middle operand of a @samp{?:} expression.
-* Long Long::           Double-word integers---@code{long long int}.
 * __int128::			128-bit integers---@code{__int128}.
+* Long Long::           Double-word integers---@code{long long int}.
 * Complex::             Data types for complex numbers.
 * Floating Types::      Additional Floating Types.
 * Half-Precision::      Half-Precision Floating Point.
@@ -40,8 +40,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Fixed-Point::         Fixed-Point Types.
 * Named Address Spaces::Named address spaces.
 * Zero Length::         Zero-length arrays.
-* Variable Length::     Arrays whose length is computed at run time.
 * Empty Structures::    Structures with no members.
+* Variable Length::     Arrays whose length is computed at run time.
 * Variadic Macros::     Macros with a variable number of arguments.
 * Escaped Newlines::    Slightly looser rules for escaped newlines.
 * Subscripting::        Any array can be subscripted, even if not an lvalue.
@@ -50,8 +50,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Compound Literals::   Compound literals give structures, unions
                         or arrays as values.
 * Designated Inits::    Labeling elements of initializers.
-* Cast to Union::       Casting to union type from any member of the union.
 * Case Ranges::         `case 1 ... 9' and such.
+* Cast to Union::       Casting to union type from any member of the union.
 * Mixed Declarations::  Mixing declarations and code.
 * Function Attributes:: Declaring that functions have no side effects,
                         or that they can never return.
@@ -11653,6 +11653,18 @@ else
 @end smallexample
 @end table
 
+@node Other MIPS Built-in Functions
+@subsection Other MIPS Built-in Functions
+
+GCC provides other MIPS-specific built-in functions:
+
+@table @code
+@item void __builtin_mips_cache (int @var{op}, const volatile void *@var{addr})
+Insert a @samp{cache} instruction with operands @var{op} and @var{addr}.
+GCC defines the preprocessor macro @code{___GCC_HAVE_BUILTIN_MIPS_CACHE}
+when this function is available.
+@end table
+
 @node picoChip Built-in Functions
 @subsection picoChip Built-in Functions
 
@@ -11689,18 +11701,6 @@ implementing assertions.
 
 @end table
 
-@node Other MIPS Built-in Functions
-@subsection Other MIPS Built-in Functions
-
-GCC provides other MIPS-specific built-in functions:
-
-@table @code
-@item void __builtin_mips_cache (int @var{op}, const volatile void *@var{addr})
-Insert a @samp{cache} instruction with operands @var{op} and @var{addr}.
-GCC defines the preprocessor macro @code{___GCC_HAVE_BUILTIN_MIPS_CACHE}
-when this function is available.
-@end table
-
 @node PowerPC Built-in Functions
 @subsection PowerPC Built-in Functions
 
@@ -13791,41 +13791,6 @@ if the VSX instruction set is available.  The @samp{vec_vsx_ld} and
 @samp{vec_vsx_st} built-in functions always generate the VSX @samp{LXVD2X},
 @samp{LXVW4X}, @samp{STXVD2X}, and @samp{STXVW4X} instructions.
 
-@node SH Built-in Functions
-@subsection SH Built-in Functions
-The following built-in functions are supported on the SH1, SH2, SH3 and SH4
-families of processors:
-
-@deftypefn {Built-in Function} {void} __builtin_set_thread_pointer (void *@var{ptr})
-Sets the @samp{GBR} register to the specified value @var{ptr}.  This is usually
-used by system code that manages threads and execution contexts.  The compiler
-normally does not generate code that modifies the contents of @samp{GBR} and
-thus the value is preserved across function calls.  Changing the @samp{GBR}
-value in user code must be done with caution, since the compiler might use
-@samp{GBR} in order to access thread local variables.
-
-@end deftypefn
-
-@deftypefn {Built-in Function} {void *} __builtin_thread_pointer (void)
-Returns the value that is currently set in the @samp{GBR} register.
-Memory loads and stores that use the thread pointer as a base address are
-turned into @samp{GBR} based displacement loads and stores, if possible.
-For example:
-@smallexample
-struct my_tcb
-@{
-   int a, b, c, d, e;
-@};
-
-int get_tcb_value (void)
-@{
-  // Generate @samp{mov.l @@(8,gbr),r0} instruction
-  return ((my_tcb*)__builtin_thread_pointer ())->c;
-@}
-
-@end smallexample
-@end deftypefn
-
 @node RX Built-in Functions
 @subsection RX Built-in Functions
 GCC supports some of the RX instructions which cannot be expressed in
@@ -13941,6 +13906,41 @@ bit in the processor status word.
 Generates the @code{wait} machine instruction.
 @end deftypefn
 
+@node SH Built-in Functions
+@subsection SH Built-in Functions
+The following built-in functions are supported on the SH1, SH2, SH3 and SH4
+families of processors:
+
+@deftypefn {Built-in Function} {void} __builtin_set_thread_pointer (void *@var{ptr})
+Sets the @samp{GBR} register to the specified value @var{ptr}.  This is usually
+used by system code that manages threads and execution contexts.  The compiler
+normally does not generate code that modifies the contents of @samp{GBR} and
+thus the value is preserved across function calls.  Changing the @samp{GBR}
+value in user code must be done with caution, since the compiler might use
+@samp{GBR} in order to access thread local variables.
+
+@end deftypefn
+
+@deftypefn {Built-in Function} {void *} __builtin_thread_pointer (void)
+Returns the value that is currently set in the @samp{GBR} register.
+Memory loads and stores that use the thread pointer as a base address are
+turned into @samp{GBR} based displacement loads and stores, if possible.
+For example:
+@smallexample
+struct my_tcb
+@{
+   int a, b, c, d, e;
+@};
+
+int get_tcb_value (void)
+@{
+  // Generate @samp{mov.l @@(8,gbr),r0} instruction
+  return ((my_tcb*)__builtin_thread_pointer ())->c;
+@}
+
+@end smallexample
+@end deftypefn
+
 @node SPARC VIS Built-in Functions
 @subsection SPARC VIS Built-in Functions
 
diff --git a/gcc/doc/gcc.texi b/gcc/doc/gcc.texi
index 8f6f11f..02b81cf 100644
--- a/gcc/doc/gcc.texi
+++ b/gcc/doc/gcc.texi
@@ -132,8 +132,8 @@ Introduction, gccint, GNU Compiler Collection (GCC) Internals}.
 * Standards::       Language standards supported by GCC.
 * Invoking GCC::    Command options supported by @samp{gcc}.
 * C Implementation:: How GCC implements the ISO C specification.
-* C Extensions::    GNU extensions to the C language family.
 * C++ Implementation:: How GCC implements the ISO C++ specification.
+* C Extensions::    GNU extensions to the C language family.
 * C++ Extensions::  GNU extensions to the C++ language.
 * Objective-C::     GNU Objective-C runtime features.
 * Compatibility::   Binary Compatibility
diff --git a/gcc/doc/gty.texi b/gcc/doc/gty.texi
index a752178..82e8e4f 100644
--- a/gcc/doc/gty.texi
+++ b/gcc/doc/gty.texi
@@ -87,8 +87,8 @@ data members.
 
 @menu
 * GTY Options::         What goes inside a @code{GTY(())}.
-* GGC Roots::           Making global variables GGC roots.
 * User GC::		Adding user-provided GC marking routines.
+* GGC Roots::           Making global variables GGC roots.
 * Files::               How the generated files work.
 * Invoking the garbage collector::   How to invoke the garbage collector.
 * Troubleshooting::     When something does not work as expected.
@@ -515,7 +515,7 @@ Note that the rules for the pointer walker @code{gt_pch_nx (my_struct
 case, the operation @code{op} must be applied to the @emph{address} of
 every pointer field.
 
-@section User-provided marking routines for template types
+@subsection User-provided marking routines for template types
 When a template type @code{TP} is marked with @code{GTY}, all
 instances of that type are considered user-provided types.  This means
 that the individual instances of @code{TP} do not need to be marked
diff --git a/gcc/doc/invoke.texi b/gcc/doc/invoke.texi
index cadee04..66a4686 100644
--- a/gcc/doc/invoke.texi
+++ b/gcc/doc/invoke.texi
@@ -10853,6 +10853,125 @@ platform.
 * zSeries Options::
 @end menu
 
+@node AArch64 Options
+@subsection AArch64 Options
+@cindex AArch64 Options
+
+These options are defined for AArch64 implementations:
+
+@table @gcctabopt
+
+@item -mbig-endian
+@opindex mbig-endian
+Generate big-endian code.  This is the default when GCC is configured for an
+@samp{aarch64_be-*-*} target.
+
+@item -mgeneral-regs-only
+@opindex mgeneral-regs-only
+Generate code which uses only the general registers.
+
+@item -mlittle-endian
+@opindex mlittle-endian
+Generate little-endian code.  This is the default when GCC is configured for an
+@samp{aarch64-*-*} but not an @samp{aarch64_be-*-*} target.
+
+@item -mcmodel=tiny
+@opindex mcmodel=tiny
+Generate code for the tiny code model.  The program and its statically defined
+symbols must be within 1GB of each other.  Pointers are 64 bits.  Programs can
+be statically or dynamically linked.  This model is not fully implemented and
+mostly treated as @samp{small}.
+
+@item -mcmodel=small
+@opindex mcmodel=small
+Generate code for the small code model.  The program and its statically defined
+symbols must be within 4GB of each other.  Pointers are 64 bits.  Programs can
+be statically or dynamically linked.  This is the default code model.
+
+@item -mcmodel=large
+@opindex mcmodel=large
+Generate code for the large code model.  This makes no assumptions about
+addresses and sizes of sections.  Pointers are 64 bits.  Programs can be
+statically linked only.
+
+@item -mstrict-align
+@opindex mstrict-align
+Do not assume that unaligned memory references will be handled by the system.
+
+@item -momit-leaf-frame-pointer
+@itemx -mno-omit-leaf-frame-pointer
+@opindex momit-leaf-frame-pointer
+@opindex mno-omit-leaf-frame-pointer
+Omit or keep the frame pointer in leaf functions.  The former behaviour is the
+default.
+
+@item -mtls-dialect=desc
+@opindex mtls-dialect=desc
+Use TLS descriptors as the thread-local storage mechanism for dynamic accesses
+of TLS variables.  This is the default.
+
+@item -mtls-dialect=traditional
+@opindex mtls-dialect=traditional
+Use traditional TLS as the thread-local storage mechanism for dynamic accesses
+of TLS variables.
+
+@item -march=@var{name}
+@opindex march
+Specify the name of the target architecture, optionally suffixed by one or
+more feature modifiers.  This option has the form
+@option{-march=@var{arch}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
+only value for @var{arch} is @samp{armv8-a}.  The possible values for
+@var{feature} are documented in the sub-section below.
+
+Where conflicting feature modifiers are specified, the right-most feature is
+used.
+
+GCC uses this name to determine what kind of instructions it can emit when
+generating assembly code.  This option can be used in conjunction with or
+instead of the @option{-mcpu=} option.
+
+@item -mcpu=@var{name}
+@opindex mcpu
+Specify the name of the target processor, optionally suffixed by one or more
+feature modifiers.  This option has the form
+@option{-mcpu=@var{cpu}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
+possible values for @var{cpu} are @samp{generic}, @samp{large}.  The
+possible values for @var{feature} are documented in the sub-section
+below.
+
+Where conflicting feature modifiers are specified, the right-most feature is
+used.
+
+GCC uses this name to determine what kind of instructions it can emit when
+generating assembly code.
+
+@item -mtune=@var{name}
+@opindex mtune
+Specify the name of the processor to tune the performance for.  The code will
+be tuned as if the target processor were of the type specified in this option,
+but still using instructions compatible with the target processor specified
+by a @option{-mcpu=} option.  This option cannot be suffixed by feature
+modifiers.
+
+@end table
+
+@subsubsection @option{-march} and @option{-mcpu} feature modifiers
+@cindex @option{-march} feature modifiers
+@cindex @option{-mcpu} feature modifiers
+Feature modifiers used with @option{-march} and @option{-mcpu} can be one
+the following:
+
+@table @samp
+@item crypto
+Enable Crypto extension.  This implies Advanced SIMD is enabled.
+@item fp
+Enable floating-point instructions.
+@item simd
+Enable Advanced SIMD instructions.  This implies floating-point instructions
+are enabled.  This is the default for all current possible values for options
+@option{-march} and @option{-mcpu=}.
+@end table
+
 @node Adapteva Epiphany Options
 @subsection Adapteva Epiphany Options
 
@@ -11009,125 +11128,6 @@ purpose.  The default is @option{-m1reg-none}.
 
 @end table
 
-@node AArch64 Options
-@subsection AArch64 Options
-@cindex AArch64 Options
-
-These options are defined for AArch64 implementations:
-
-@table @gcctabopt
-
-@item -mbig-endian
-@opindex mbig-endian
-Generate big-endian code.  This is the default when GCC is configured for an
-@samp{aarch64_be-*-*} target.
-
-@item -mgeneral-regs-only
-@opindex mgeneral-regs-only
-Generate code which uses only the general registers.
-
-@item -mlittle-endian
-@opindex mlittle-endian
-Generate little-endian code.  This is the default when GCC is configured for an
-@samp{aarch64-*-*} but not an @samp{aarch64_be-*-*} target.
-
-@item -mcmodel=tiny
-@opindex mcmodel=tiny
-Generate code for the tiny code model.  The program and its statically defined
-symbols must be within 1GB of each other.  Pointers are 64 bits.  Programs can
-be statically or dynamically linked.  This model is not fully implemented and
-mostly treated as @samp{small}.
-
-@item -mcmodel=small
-@opindex mcmodel=small
-Generate code for the small code model.  The program and its statically defined
-symbols must be within 4GB of each other.  Pointers are 64 bits.  Programs can
-be statically or dynamically linked.  This is the default code model.
-
-@item -mcmodel=large
-@opindex mcmodel=large
-Generate code for the large code model.  This makes no assumptions about
-addresses and sizes of sections.  Pointers are 64 bits.  Programs can be
-statically linked only.
-
-@item -mstrict-align
-@opindex mstrict-align
-Do not assume that unaligned memory references will be handled by the system.
-
-@item -momit-leaf-frame-pointer
-@itemx -mno-omit-leaf-frame-pointer
-@opindex momit-leaf-frame-pointer
-@opindex mno-omit-leaf-frame-pointer
-Omit or keep the frame pointer in leaf functions.  The former behaviour is the
-default.
-
-@item -mtls-dialect=desc
-@opindex mtls-dialect=desc
-Use TLS descriptors as the thread-local storage mechanism for dynamic accesses
-of TLS variables.  This is the default.
-
-@item -mtls-dialect=traditional
-@opindex mtls-dialect=traditional
-Use traditional TLS as the thread-local storage mechanism for dynamic accesses
-of TLS variables.
-
-@item -march=@var{name}
-@opindex march
-Specify the name of the target architecture, optionally suffixed by one or
-more feature modifiers.  This option has the form
-@option{-march=@var{arch}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
-only value for @var{arch} is @samp{armv8-a}.  The possible values for
-@var{feature} are documented in the sub-section below.
-
-Where conflicting feature modifiers are specified, the right-most feature is
-used.
-
-GCC uses this name to determine what kind of instructions it can emit when
-generating assembly code.  This option can be used in conjunction with or
-instead of the @option{-mcpu=} option.
-
-@item -mcpu=@var{name}
-@opindex mcpu
-Specify the name of the target processor, optionally suffixed by one or more
-feature modifiers.  This option has the form
-@option{-mcpu=@var{cpu}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
-possible values for @var{cpu} are @samp{generic}, @samp{large}.  The
-possible values for @var{feature} are documented in the sub-section
-below.
-
-Where conflicting feature modifiers are specified, the right-most feature is
-used.
-
-GCC uses this name to determine what kind of instructions it can emit when
-generating assembly code.
-
-@item -mtune=@var{name}
-@opindex mtune
-Specify the name of the processor to tune the performance for.  The code will
-be tuned as if the target processor were of the type specified in this option,
-but still using instructions compatible with the target processor specified
-by a @option{-mcpu=} option.  This option cannot be suffixed by feature
-modifiers.
-
-@end table
-
-@subsubsection @option{-march} and @option{-mcpu} feature modifiers
-@cindex @option{-march} feature modifiers
-@cindex @option{-mcpu} feature modifiers
-Feature modifiers used with @option{-march} and @option{-mcpu} can be one
-the following:
-
-@table @samp
-@item crypto
-Enable Crypto extension.  This implies Advanced SIMD is enabled.
-@item fp
-Enable floating-point instructions.
-@item simd
-Enable Advanced SIMD instructions.  This implies floating-point instructions
-are enabled.  This is the default for all current possible values for options
-@option{-march} and @option{-mcpu=}.
-@end table
-
 @node ARM Options
 @subsection ARM Options
 @cindex ARM options
diff --git a/gcc/doc/md.texi b/gcc/doc/md.texi
index 9739e4f..63ec92f 100644
--- a/gcc/doc/md.texi
+++ b/gcc/doc/md.texi
@@ -1079,8 +1079,8 @@ the addressing register.
 * Multi-Alternative::   When an insn has two alternative constraint-patterns.
 * Class Preferences::   Constraints guide which hard register to put things in.
 * Modifiers::           More precise control over effects of constraints.
-* Disable Insn Alternatives:: Disable insn alternatives using the @code{enabled} attribute.
 * Machine Constraints:: Existing constraints for some particular machines.
+* Disable Insn Alternatives:: Disable insn alternatives using the @code{enabled} attribute.
 * Define Constraints::  How to define machine-specific constraints.
 * C Constraint Interface:: How to test constraints from C code.
 @end menu
diff --git a/libiberty/libiberty.texi b/libiberty/libiberty.texi
index 74f70d2..5a72f13 100644
--- a/libiberty/libiberty.texi
+++ b/libiberty/libiberty.texi
@@ -80,10 +80,10 @@ License; for more information, see @ref{Library Copying}.
 
 * Overview::           Overview of available function groups.
 
-* Functions::          Available functions, macros, and global variables.
-
 * Obstacks::           Object Stacks.
 
+* Functions::          Available functions, macros, and global variables.
+
 * Licenses::           The various licenses under which libiberty sources are
                        distributed.
 
diff --git a/gcc/doc/extend.texi b/gcc/doc/extend.texi
index eb84408..ea4dfc1 100644
--- a/gcc/doc/extend.texi
+++ b/gcc/doc/extend.texi
@@ -30,8 +30,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Constructing Calls::  Dispatching a call to another function.
 * Typeof::              @code{typeof}: referring to the type of an expression.
 * Conditionals::        Omitting the middle operand of a @samp{?:} expression.
-* Long Long::           Double-word integers---@code{long long int}.
 * __int128::			128-bit integers---@code{__int128}.
+* Long Long::           Double-word integers---@code{long long int}.
 * Complex::             Data types for complex numbers.
 * Floating Types::      Additional Floating Types.
 * Half-Precision::      Half-Precision Floating Point.
@@ -40,8 +40,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Fixed-Point::         Fixed-Point Types.
 * Named Address Spaces::Named address spaces.
 * Zero Length::         Zero-length arrays.
-* Variable Length::     Arrays whose length is computed at run time.
 * Empty Structures::    Structures with no members.
+* Variable Length::     Arrays whose length is computed at run time.
 * Variadic Macros::     Macros with a variable number of arguments.
 * Escaped Newlines::    Slightly looser rules for escaped newlines.
 * Subscripting::        Any array can be subscripted, even if not an lvalue.
@@ -50,8 +50,8 @@ extensions, accepted by GCC in C90 mode and in C++.
 * Compound Literals::   Compound literals give structures, unions
                         or arrays as values.
 * Designated Inits::    Labeling elements of initializers.
-* Cast to Union::       Casting to union type from any member of the union.
 * Case Ranges::         `case 1 ... 9' and such.
+* Cast to Union::       Casting to union type from any member of the union.
 * Mixed Declarations::  Mixing declarations and code.
 * Function Attributes:: Declaring that functions have no side effects,
                         or that they can never return.
@@ -11653,6 +11653,18 @@ else
 @end smallexample
 @end table
 
+@node Other MIPS Built-in Functions
+@subsection Other MIPS Built-in Functions
+
+GCC provides other MIPS-specific built-in functions:
+
+@table @code
+@item void __builtin_mips_cache (int @var{op}, const volatile void *@var{addr})
+Insert a @samp{cache} instruction with operands @var{op} and @var{addr}.
+GCC defines the preprocessor macro @code{___GCC_HAVE_BUILTIN_MIPS_CACHE}
+when this function is available.
+@end table
+
 @node picoChip Built-in Functions
 @subsection picoChip Built-in Functions
 
@@ -11689,18 +11701,6 @@ implementing assertions.
 
 @end table
 
-@node Other MIPS Built-in Functions
-@subsection Other MIPS Built-in Functions
-
-GCC provides other MIPS-specific built-in functions:
-
-@table @code
-@item void __builtin_mips_cache (int @var{op}, const volatile void *@var{addr})
-Insert a @samp{cache} instruction with operands @var{op} and @var{addr}.
-GCC defines the preprocessor macro @code{___GCC_HAVE_BUILTIN_MIPS_CACHE}
-when this function is available.
-@end table
-
 @node PowerPC Built-in Functions
 @subsection PowerPC Built-in Functions
 
@@ -13791,41 +13791,6 @@ if the VSX instruction set is available.  The @samp{vec_vsx_ld} and
 @samp{vec_vsx_st} built-in functions always generate the VSX @samp{LXVD2X},
 @samp{LXVW4X}, @samp{STXVD2X}, and @samp{STXVW4X} instructions.
 
-@node SH Built-in Functions
-@subsection SH Built-in Functions
-The following built-in functions are supported on the SH1, SH2, SH3 and SH4
-families of processors:
-
-@deftypefn {Built-in Function} {void} __builtin_set_thread_pointer (void *@var{ptr})
-Sets the @samp{GBR} register to the specified value @var{ptr}.  This is usually
-used by system code that manages threads and execution contexts.  The compiler
-normally does not generate code that modifies the contents of @samp{GBR} and
-thus the value is preserved across function calls.  Changing the @samp{GBR}
-value in user code must be done with caution, since the compiler might use
-@samp{GBR} in order to access thread local variables.
-
-@end deftypefn
-
-@deftypefn {Built-in Function} {void *} __builtin_thread_pointer (void)
-Returns the value that is currently set in the @samp{GBR} register.
-Memory loads and stores that use the thread pointer as a base address are
-turned into @samp{GBR} based displacement loads and stores, if possible.
-For example:
-@smallexample
-struct my_tcb
-@{
-   int a, b, c, d, e;
-@};
-
-int get_tcb_value (void)
-@{
-  // Generate @samp{mov.l @@(8,gbr),r0} instruction
-  return ((my_tcb*)__builtin_thread_pointer ())->c;
-@}
-
-@end smallexample
-@end deftypefn
-
 @node RX Built-in Functions
 @subsection RX Built-in Functions
 GCC supports some of the RX instructions which cannot be expressed in
@@ -13941,6 +13906,41 @@ bit in the processor status word.
 Generates the @code{wait} machine instruction.
 @end deftypefn
 
+@node SH Built-in Functions
+@subsection SH Built-in Functions
+The following built-in functions are supported on the SH1, SH2, SH3 and SH4
+families of processors:
+
+@deftypefn {Built-in Function} {void} __builtin_set_thread_pointer (void *@var{ptr})
+Sets the @samp{GBR} register to the specified value @var{ptr}.  This is usually
+used by system code that manages threads and execution contexts.  The compiler
+normally does not generate code that modifies the contents of @samp{GBR} and
+thus the value is preserved across function calls.  Changing the @samp{GBR}
+value in user code must be done with caution, since the compiler might use
+@samp{GBR} in order to access thread local variables.
+
+@end deftypefn
+
+@deftypefn {Built-in Function} {void *} __builtin_thread_pointer (void)
+Returns the value that is currently set in the @samp{GBR} register.
+Memory loads and stores that use the thread pointer as a base address are
+turned into @samp{GBR} based displacement loads and stores, if possible.
+For example:
+@smallexample
+struct my_tcb
+@{
+   int a, b, c, d, e;
+@};
+
+int get_tcb_value (void)
+@{
+  // Generate @samp{mov.l @@(8,gbr),r0} instruction
+  return ((my_tcb*)__builtin_thread_pointer ())->c;
+@}
+
+@end smallexample
+@end deftypefn
+
 @node SPARC VIS Built-in Functions
 @subsection SPARC VIS Built-in Functions
 
diff --git a/gcc/doc/gcc.texi b/gcc/doc/gcc.texi
index 8f6f11f..02b81cf 100644
--- a/gcc/doc/gcc.texi
+++ b/gcc/doc/gcc.texi
@@ -132,8 +132,8 @@ Introduction, gccint, GNU Compiler Collection (GCC) Internals}.
 * Standards::       Language standards supported by GCC.
 * Invoking GCC::    Command options supported by @samp{gcc}.
 * C Implementation:: How GCC implements the ISO C specification.
-* C Extensions::    GNU extensions to the C language family.
 * C++ Implementation:: How GCC implements the ISO C++ specification.
+* C Extensions::    GNU extensions to the C language family.
 * C++ Extensions::  GNU extensions to the C++ language.
 * Objective-C::     GNU Objective-C runtime features.
 * Compatibility::   Binary Compatibility
diff --git a/gcc/doc/gty.texi b/gcc/doc/gty.texi
index a752178..82e8e4f 100644
--- a/gcc/doc/gty.texi
+++ b/gcc/doc/gty.texi
@@ -87,8 +87,8 @@ data members.
 
 @menu
 * GTY Options::         What goes inside a @code{GTY(())}.
-* GGC Roots::           Making global variables GGC roots.
 * User GC::		Adding user-provided GC marking routines.
+* GGC Roots::           Making global variables GGC roots.
 * Files::               How the generated files work.
 * Invoking the garbage collector::   How to invoke the garbage collector.
 * Troubleshooting::     When something does not work as expected.
@@ -515,7 +515,7 @@ Note that the rules for the pointer walker @code{gt_pch_nx (my_struct
 case, the operation @code{op} must be applied to the @emph{address} of
 every pointer field.
 
-@section User-provided marking routines for template types
+@subsection User-provided marking routines for template types
 When a template type @code{TP} is marked with @code{GTY}, all
 instances of that type are considered user-provided types.  This means
 that the individual instances of @code{TP} do not need to be marked
diff --git a/gcc/doc/invoke.texi b/gcc/doc/invoke.texi
index cadee04..66a4686 100644
--- a/gcc/doc/invoke.texi
+++ b/gcc/doc/invoke.texi
@@ -10853,6 +10853,125 @@ platform.
 * zSeries Options::
 @end menu
 
+@node AArch64 Options
+@subsection AArch64 Options
+@cindex AArch64 Options
+
+These options are defined for AArch64 implementations:
+
+@table @gcctabopt
+
+@item -mbig-endian
+@opindex mbig-endian
+Generate big-endian code.  This is the default when GCC is configured for an
+@samp{aarch64_be-*-*} target.
+
+@item -mgeneral-regs-only
+@opindex mgeneral-regs-only
+Generate code which uses only the general registers.
+
+@item -mlittle-endian
+@opindex mlittle-endian
+Generate little-endian code.  This is the default when GCC is configured for an
+@samp{aarch64-*-*} but not an @samp{aarch64_be-*-*} target.
+
+@item -mcmodel=tiny
+@opindex mcmodel=tiny
+Generate code for the tiny code model.  The program and its statically defined
+symbols must be within 1GB of each other.  Pointers are 64 bits.  Programs can
+be statically or dynamically linked.  This model is not fully implemented and
+mostly treated as @samp{small}.
+
+@item -mcmodel=small
+@opindex mcmodel=small
+Generate code for the small code model.  The program and its statically defined
+symbols must be within 4GB of each other.  Pointers are 64 bits.  Programs can
+be statically or dynamically linked.  This is the default code model.
+
+@item -mcmodel=large
+@opindex mcmodel=large
+Generate code for the large code model.  This makes no assumptions about
+addresses and sizes of sections.  Pointers are 64 bits.  Programs can be
+statically linked only.
+
+@item -mstrict-align
+@opindex mstrict-align
+Do not assume that unaligned memory references will be handled by the system.
+
+@item -momit-leaf-frame-pointer
+@itemx -mno-omit-leaf-frame-pointer
+@opindex momit-leaf-frame-pointer
+@opindex mno-omit-leaf-frame-pointer
+Omit or keep the frame pointer in leaf functions.  The former behaviour is the
+default.
+
+@item -mtls-dialect=desc
+@opindex mtls-dialect=desc
+Use TLS descriptors as the thread-local storage mechanism for dynamic accesses
+of TLS variables.  This is the default.
+
+@item -mtls-dialect=traditional
+@opindex mtls-dialect=traditional
+Use traditional TLS as the thread-local storage mechanism for dynamic accesses
+of TLS variables.
+
+@item -march=@var{name}
+@opindex march
+Specify the name of the target architecture, optionally suffixed by one or
+more feature modifiers.  This option has the form
+@option{-march=@var{arch}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
+only value for @var{arch} is @samp{armv8-a}.  The possible values for
+@var{feature} are documented in the sub-section below.
+
+Where conflicting feature modifiers are specified, the right-most feature is
+used.
+
+GCC uses this name to determine what kind of instructions it can emit when
+generating assembly code.  This option can be used in conjunction with or
+instead of the @option{-mcpu=} option.
+
+@item -mcpu=@var{name}
+@opindex mcpu
+Specify the name of the target processor, optionally suffixed by one or more
+feature modifiers.  This option has the form
+@option{-mcpu=@var{cpu}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
+possible values for @var{cpu} are @samp{generic}, @samp{large}.  The
+possible values for @var{feature} are documented in the sub-section
+below.
+
+Where conflicting feature modifiers are specified, the right-most feature is
+used.
+
+GCC uses this name to determine what kind of instructions it can emit when
+generating assembly code.
+
+@item -mtune=@var{name}
+@opindex mtune
+Specify the name of the processor to tune the performance for.  The code will
+be tuned as if the target processor were of the type specified in this option,
+but still using instructions compatible with the target processor specified
+by a @option{-mcpu=} option.  This option cannot be suffixed by feature
+modifiers.
+
+@end table
+
+@subsubsection @option{-march} and @option{-mcpu} feature modifiers
+@cindex @option{-march} feature modifiers
+@cindex @option{-mcpu} feature modifiers
+Feature modifiers used with @option{-march} and @option{-mcpu} can be one
+the following:
+
+@table @samp
+@item crypto
+Enable Crypto extension.  This implies Advanced SIMD is enabled.
+@item fp
+Enable floating-point instructions.
+@item simd
+Enable Advanced SIMD instructions.  This implies floating-point instructions
+are enabled.  This is the default for all current possible values for options
+@option{-march} and @option{-mcpu=}.
+@end table
+
 @node Adapteva Epiphany Options
 @subsection Adapteva Epiphany Options
 
@@ -11009,125 +11128,6 @@ purpose.  The default is @option{-m1reg-none}.
 
 @end table
 
-@node AArch64 Options
-@subsection AArch64 Options
-@cindex AArch64 Options
-
-These options are defined for AArch64 implementations:
-
-@table @gcctabopt
-
-@item -mbig-endian
-@opindex mbig-endian
-Generate big-endian code.  This is the default when GCC is configured for an
-@samp{aarch64_be-*-*} target.
-
-@item -mgeneral-regs-only
-@opindex mgeneral-regs-only
-Generate code which uses only the general registers.
-
-@item -mlittle-endian
-@opindex mlittle-endian
-Generate little-endian code.  This is the default when GCC is configured for an
-@samp{aarch64-*-*} but not an @samp{aarch64_be-*-*} target.
-
-@item -mcmodel=tiny
-@opindex mcmodel=tiny
-Generate code for the tiny code model.  The program and its statically defined
-symbols must be within 1GB of each other.  Pointers are 64 bits.  Programs can
-be statically or dynamically linked.  This model is not fully implemented and
-mostly treated as @samp{small}.
-
-@item -mcmodel=small
-@opindex mcmodel=small
-Generate code for the small code model.  The program and its statically defined
-symbols must be within 4GB of each other.  Pointers are 64 bits.  Programs can
-be statically or dynamically linked.  This is the default code model.
-
-@item -mcmodel=large
-@opindex mcmodel=large
-Generate code for the large code model.  This makes no assumptions about
-addresses and sizes of sections.  Pointers are 64 bits.  Programs can be
-statically linked only.
-
-@item -mstrict-align
-@opindex mstrict-align
-Do not assume that unaligned memory references will be handled by the system.
-
-@item -momit-leaf-frame-pointer
-@itemx -mno-omit-leaf-frame-pointer
-@opindex momit-leaf-frame-pointer
-@opindex mno-omit-leaf-frame-pointer
-Omit or keep the frame pointer in leaf functions.  The former behaviour is the
-default.
-
-@item -mtls-dialect=desc
-@opindex mtls-dialect=desc
-Use TLS descriptors as the thread-local storage mechanism for dynamic accesses
-of TLS variables.  This is the default.
-
-@item -mtls-dialect=traditional
-@opindex mtls-dialect=traditional
-Use traditional TLS as the thread-local storage mechanism for dynamic accesses
-of TLS variables.
-
-@item -march=@var{name}
-@opindex march
-Specify the name of the target architecture, optionally suffixed by one or
-more feature modifiers.  This option has the form
-@option{-march=@var{arch}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
-only value for @var{arch} is @samp{armv8-a}.  The possible values for
-@var{feature} are documented in the sub-section below.
-
-Where conflicting feature modifiers are specified, the right-most feature is
-used.
-
-GCC uses this name to determine what kind of instructions it can emit when
-generating assembly code.  This option can be used in conjunction with or
-instead of the @option{-mcpu=} option.
-
-@item -mcpu=@var{name}
-@opindex mcpu
-Specify the name of the target processor, optionally suffixed by one or more
-feature modifiers.  This option has the form
-@option{-mcpu=@var{cpu}@r{@{}+@r{[}no@r{]}@var{feature}@r{@}*}}, where the
-possible values for @var{cpu} are @samp{generic}, @samp{large}.  The
-possible values for @var{feature} are documented in the sub-section
-below.
-
-Where conflicting feature modifiers are specified, the right-most feature is
-used.
-
-GCC uses this name to determine what kind of instructions it can emit when
-generating assembly code.
-
-@item -mtune=@var{name}
-@opindex mtune
-Specify the name of the processor to tune the performance for.  The code will
-be tuned as if the target processor were of the type specified in this option,
-but still using instructions compatible with the target processor specified
-by a @option{-mcpu=} option.  This option cannot be suffixed by feature
-modifiers.
-
-@end table
-
-@subsubsection @option{-march} and @option{-mcpu} feature modifiers
-@cindex @option{-march} feature modifiers
-@cindex @option{-mcpu} feature modifiers
-Feature modifiers used with @option{-march} and @option{-mcpu} can be one
-the following:
-
-@table @samp
-@item crypto
-Enable Crypto extension.  This implies Advanced SIMD is enabled.
-@item fp
-Enable floating-point instructions.
-@item simd
-Enable Advanced SIMD instructions.  This implies floating-point instructions
-are enabled.  This is the default for all current possible values for options
-@option{-march} and @option{-mcpu=}.
-@end table
-
 @node ARM Options
 @subsection ARM Options
 @cindex ARM options
diff --git a/gcc/doc/md.texi b/gcc/doc/md.texi
index 9739e4f..63ec92f 100644
--- a/gcc/doc/md.texi
+++ b/gcc/doc/md.texi
@@ -1079,8 +1079,8 @@ the addressing register.
 * Multi-Alternative::   When an insn has two alternative constraint-patterns.
 * Class Preferences::   Constraints guide which hard register to put things in.
 * Modifiers::           More precise control over effects of constraints.
-* Disable Insn Alternatives:: Disable insn alternatives using the @code{enabled} attribute.
 * Machine Constraints:: Existing constraints for some particular machines.
+* Disable Insn Alternatives:: Disable insn alternatives using the @code{enabled} attribute.
 * Define Constraints::  How to define machine-specific constraints.
 * C Constraint Interface:: How to test constraints from C code.
 @end menu


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