[wide-int] Documentation and comment tweaks

Some minor tweaks to the documentation and commentary.  The hyphenation
and "non zero"->"nonzero" changes are supposed to be per guidelines:

   http://gcc.gnu.org/codingconventions.html#Spelling

Hope I got them right.

OK to install?

This is the last of the patches I had lined up.  These patches are also
awaiting review:

  http://gcc.gnu.org/ml/gcc-patches/2013-11/msg00663.html
  http://gcc.gnu.org/ml/gcc-patches/2013-11/msg00666.html

Thanks,
Richard

On 11/09/2013 06:09 AM, Richard Sandiford wrote:
> Some minor tweaks to the documentation and commentary.  The hyphenation
> and "non zero"->"nonzero" changes are supposed to be per guidelines:
>
>     http://gcc.gnu.org/codingconventions.html#Spelling
>
> Hope I got them right.
>
> OK to install?
>
> This is the last of the patches I had lined up.  These patches are also
> awaiting review:
>
>    http://gcc.gnu.org/ml/gcc-patches/2013-11/msg00663.html
both are fine given that we have decided to de-emphasize
SHIFT_COUNT_TRUNCATED.


>    http://gcc.gnu.org/ml/gcc-patches/2013-11/msg00666.html
>
> Thanks,
> Richard
>
>
> Index: gcc/dfp.c
> ===================================================================
> --- gcc/dfp.c	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/dfp.c	2013-11-09 11:07:22.754160541 +0000
> @@ -605,8 +605,8 @@ decimal_real_to_integer (const REAL_VALU
>     return real_to_integer (&to);
>   }
>   
> -/* Likewise, but returns a wide_int with PRECISION.  Fail
> -   is set if the value does not fit.  */
> +/* Likewise, but returns a wide_int with PRECISION.  *FAIL is set if the
> +   value does not fit.  */
>   
>   wide_int
>   decimal_real_to_integer (const REAL_VALUE_TYPE *r, bool *fail, int precision)
> Index: gcc/doc/rtl.texi
> ===================================================================
> --- gcc/doc/rtl.texi	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/rtl.texi	2013-11-09 11:07:22.755160549 +0000
> @@ -1542,11 +1542,10 @@ Similarly, there is only one object for
>   @findex const_double
>   @item (const_double:@var{m} @var{i0} @var{i1} @dots{})
>   This represents either a floating-point constant of mode @var{m} or
> -(on ports older ports that do not define
> +(on older ports that do not define
>   @code{TARGET_SUPPORTS_WIDE_INT}) an integer constant too large to fit
>   into @code{HOST_BITS_PER_WIDE_INT} bits but small enough to fit within
> -twice that number of bits (GCC does not provide a mechanism to
> -represent even larger constants).  In the latter case, @var{m} will be
> +twice that number of bits.  In the latter case, @var{m} will be
>   @code{VOIDmode}.  For integral values constants for modes with more
>   bits than twice the number in @code{HOST_WIDE_INT} the implied high
>   order bits of that constant are copies of the top bit of
> @@ -1576,25 +1575,25 @@ the precise bit pattern used by the targ
>   This contains an array of @code{HOST_WIDE_INTS} that is large enough
>   to hold any constant that can be represented on the target.  This form
>   of rtl is only used on targets that define
> -@code{TARGET_SUPPORTS_WIDE_INT} to be non zero and then
> -@code{CONST_DOUBLES} are only used to hold floating point values.  If
> +@code{TARGET_SUPPORTS_WIDE_INT} to be nonzero and then
> +@code{CONST_DOUBLE}s are only used to hold floating-point values.  If
>   the target leaves @code{TARGET_SUPPORTS_WIDE_INT} defined as 0,
>   @code{CONST_WIDE_INT}s are not used and @code{CONST_DOUBLE}s are as
>   they were before.
>   
> -The values are stored in a compressed format.   The higher order
> +The values are stored in a compressed format.  The higher-order
>   0s or -1s are not represented if they are just the logical sign
>   extension of the number that is represented.
>   
>   @findex CONST_WIDE_INT_VEC
>   @item CONST_WIDE_INT_VEC (@var{code})
>   Returns the entire array of @code{HOST_WIDE_INT}s that are used to
> -store the value.   This macro should be rarely used.
> +store the value.  This macro should be rarely used.
>   
>   @findex CONST_WIDE_INT_NUNITS
>   @item CONST_WIDE_INT_NUNITS (@var{code})
>   The number of @code{HOST_WIDE_INT}s used to represent the number.
> -Note that this generally be smaller than the number of
> +Note that this generally is smaller than the number of
>   @code{HOST_WIDE_INT}s implied by the mode size.
>   
>   @findex CONST_WIDE_INT_ELT
> Index: gcc/doc/tm.texi
> ===================================================================
> --- gcc/doc/tm.texi	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/tm.texi	2013-11-09 11:07:22.757160564 +0000
> @@ -9683,10 +9683,9 @@ Returns the negative of the floating poi
>   Returns the absolute value of @var{x}.
>   @end deftypefn
>   
> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
> -Converts a double-precision integer found in @var{val},
> -into a floating point value which is then stored into @var{x}.  The
> -value is truncated to fit in mode @var{mode}.
> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
> +Converts integer @var{val} into a floating-point value which is then
> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>   @end deftypefn
>   
>   @node Mode Switching
> @@ -11497,15 +11496,15 @@ The default value of this hook is based
>   @defmac TARGET_SUPPORTS_WIDE_INT
>   
>   On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
> -zero to indicate that large integers are stored in
> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
> +to indicate that large integers are stored in
>   @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>   very large integer constants to be represented.  @code{CONST_DOUBLE}
> -are limited to twice the size of host's @code{HOST_WIDE_INT}
> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>   representation.
>   
>   Converting a port mostly requires looking for the places where
> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>   code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>   const_double"} at the port level gets you to 95% of the changes that
>   need to be made.  There are a few places that require a deeper look.
> @@ -11535,7 +11534,7 @@ The rtx costs may have to be adjusted to
>   constants that are represented as @code{CONST_WIDE_INT}.
>   @end itemize
>   
> -All and all it does not takes long to convert ports that the
> +All and all it does not take long to convert ports that the
>   maintainer is familiar with.
>   
>   @end defmac
> Index: gcc/doc/tm.texi.in
> ===================================================================
> --- gcc/doc/tm.texi.in	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/tm.texi.in	2013-11-09 11:07:22.758160572 +0000
> @@ -7345,10 +7345,9 @@ Returns the negative of the floating poi
>   Returns the absolute value of @var{x}.
>   @end deftypefn
>   
> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
> -Converts a double-precision integer found in @var{val},
> -into a floating point value which is then stored into @var{x}.  The
> -value is truncated to fit in mode @var{mode}.
> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
> +Converts integer @var{val} into a floating-point value which is then
> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>   @end deftypefn
>   
>   @node Mode Switching
> @@ -8404,15 +8403,15 @@ and the associated definitions of those
>   @defmac TARGET_SUPPORTS_WIDE_INT
>   
>   On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
> -zero to indicate that large integers are stored in
> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
> +to indicate that large integers are stored in
>   @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>   very large integer constants to be represented.  @code{CONST_DOUBLE}
> -are limited to twice the size of host's @code{HOST_WIDE_INT}
> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>   representation.
>   
>   Converting a port mostly requires looking for the places where
> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>   code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>   const_double"} at the port level gets you to 95% of the changes that
>   need to be made.  There are a few places that require a deeper look.
> @@ -8442,7 +8441,7 @@ The rtx costs may have to be adjusted to
>   constants that are represented as @code{CONST_WIDE_INT}.
>   @end itemize
>   
> -All and all it does not takes long to convert ports that the
> +All and all it does not take long to convert ports that the
>   maintainer is familiar with.
>   
>   @end defmac
> Index: gcc/dwarf2out.c
> ===================================================================
> --- gcc/dwarf2out.c	2013-11-09 10:32:42.708323557 +0000
> +++ gcc/dwarf2out.c	2013-11-09 11:07:22.762160602 +0000
> @@ -348,7 +348,7 @@ #define DUMP_GSTRUCT(type, usage, criter
>   
>   #endif
>   
> -/* Get the number of host wide ints needed to represent the precision
> +/* Get the number of HOST_WIDE_INTs needed to represent the precision
>      of the number.  */
>   
>   static unsigned int
> Index: gcc/emit-rtl.c
> ===================================================================
> --- gcc/emit-rtl.c	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/emit-rtl.c	2013-11-09 11:07:22.763160609 +0000
> @@ -547,8 +547,8 @@ rtx_to_double_int (const_rtx cst)
>   #endif
>   
>   #if TARGET_SUPPORTS_WIDE_INT
> -/* Determine whether WIDE_INT, already exists in the hash table.  If
> -   so, return its counterpart; otherwise add it to the hash table and
> +/* Determine whether CONST_WIDE_INT WINT already exists in the hash table.
> +   If so, return its counterpart; otherwise add it to the hash table and
>      return it.  */
>   
>   static rtx
> @@ -562,11 +562,11 @@ lookup_const_wide_int (rtx wint)
>   }
>   #endif
>   
> -/* V contains a wide_int.  A CONST_INT or CONST_WIDE_INT (if
> -   TARGET_SUPPORTS_WIDE_INT is defined) or CONST_DOUBLE if
> -   TARGET_SUPPORTS_WIDE_INT is not defined is produced based on the
> -   number of HOST_WIDE_INTs that are necessary to represent the value
> -   in compact form.  */
> +/* Return an rtx constant for V, given that the constant has mode MODE.
> +   The returned rtx will be a CONST_INT if V fits, otherwise it will be
> +   a CONST_DOUBLE (if !TARGET_SUPPORTS_WIDE_INT) or a CONST_WIDE_INT
> +   (if TARGET_SUPPORTS_WIDE_INT).  */
> +
>   rtx
>   immed_wide_int_const (const wide_int &v, enum machine_mode mode)
>   {
> Index: gcc/tree.c
> ===================================================================
> --- gcc/tree.c	2013-11-09 09:58:55.587688532 +0000
> +++ gcc/tree.c	2013-11-09 11:07:56.499414021 +0000
> @@ -1252,7 +1252,7 @@ int_cst_hash_eq (const void *x, const vo
>   /* Create an INT_CST node of TYPE and value CST.
>      The returned node is always shared.  For small integers we use a
>      per-type vector cache, for larger ones we use a single hash table.
> -   The value is extended from it's precision according to the sign of
> +   The value is extended from its precision according to the sign of
>      the type to be a multiple of HOST_BITS_PER_WIDE_INT.  This defines
>      the upper bits and ensures that hashing and value equality based
>      upon the underlying HOST_WIDE_INTs works without masking.  */
> @@ -2018,7 +2018,9 @@ build_case_label (tree low_value, tree h
>     return t;
>   }
>   
> -/* Build a newly constructed INETEGER_CST node of length LEN.  */
> +/* Build a newly constructed INTEGER_CST node.  LEN and EXT_LEN are the
> +   values of TREE_INT_CST_NUNITS and TREE_INT_CST_EXT_NUNITS respectively.
> +   The latter determines the length of the HOST_WIDE_INT vector.  */
>   
>   tree
>   make_int_cst_stat (int len, int ext_len MEM_STAT_DECL)
> Index: gcc/tree.h
> ===================================================================
> --- gcc/tree.h	2013-11-09 09:58:55.588688539 +0000
> +++ gcc/tree.h	2013-11-09 11:07:22.765160624 +0000
> @@ -3129,10 +3129,10 @@ omp_clause_elt_check (const_tree __t, in
>   
>   #endif
>   
> -/* Checks that X is integer constant that can be expressed in signed
> -   HOST_WIDE_INT without loss of precision.  This function differs
> -   from the tree_fits_* versions in that the signedness of the
> -   type of X is not considered.  */
> +/* Checks that X is an integer constant that can be expressed in a signed
> +   HOST_WIDE_INT without loss of precision.  This function differs from
> +   the tree_fits_* versions in that the signedness of the type of X is
> +   not considered.  */
>   
>   static inline bool
>   cst_fits_shwi_p (const_tree x)
> @@ -3143,10 +3143,10 @@ cst_fits_shwi_p (const_tree x)
>     return TREE_INT_CST_NUNITS (x) == 1;
>   }
>   
> -/* Checks that X is integer constant that can be expressed in signed
> -   HOST_WIDE_INT without loss of precision.  This function differs
> -   from the tree_fits_* versions in that the signedness of the
> -   type of X is not considered.  */
> +/* Checks that X is an integer constant that can be expressed in an unsigned
> +   HOST_WIDE_INT without loss of precision.  This function differs from
> +   the tree_fits_* versions in that the signedness of the type of X is
> +   not considered.  */
>   
>   static inline bool
>   cst_fits_uhwi_p (const_tree x)

Richard Sandiford <rdsandiford@googlemail.com> writes:
> Some minor tweaks to the documentation and commentary.  The hyphenation
> and "non zero"->"nonzero" changes are supposed to be per guidelines:
>
>    http://gcc.gnu.org/codingconventions.html#Spelling
>
> Hope I got them right.
>
> OK to install?

Ping.

> Index: gcc/dfp.c
> ===================================================================
> --- gcc/dfp.c	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/dfp.c	2013-11-09 11:07:22.754160541 +0000
> @@ -605,8 +605,8 @@ decimal_real_to_integer (const REAL_VALU
>    return real_to_integer (&to);
>  }
>  
> -/* Likewise, but returns a wide_int with PRECISION.  Fail
> -   is set if the value does not fit.  */
> +/* Likewise, but returns a wide_int with PRECISION.  *FAIL is set if the
> +   value does not fit.  */
>  
>  wide_int
>  decimal_real_to_integer (const REAL_VALUE_TYPE *r, bool *fail, int precision)
> Index: gcc/doc/rtl.texi
> ===================================================================
> --- gcc/doc/rtl.texi	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/rtl.texi	2013-11-09 11:07:22.755160549 +0000
> @@ -1542,11 +1542,10 @@ Similarly, there is only one object for
>  @findex const_double
>  @item (const_double:@var{m} @var{i0} @var{i1} @dots{})
>  This represents either a floating-point constant of mode @var{m} or
> -(on ports older ports that do not define
> +(on older ports that do not define
>  @code{TARGET_SUPPORTS_WIDE_INT}) an integer constant too large to fit
>  into @code{HOST_BITS_PER_WIDE_INT} bits but small enough to fit within
> -twice that number of bits (GCC does not provide a mechanism to
> -represent even larger constants).  In the latter case, @var{m} will be
> +twice that number of bits.  In the latter case, @var{m} will be
>  @code{VOIDmode}.  For integral values constants for modes with more
>  bits than twice the number in @code{HOST_WIDE_INT} the implied high
>  order bits of that constant are copies of the top bit of
> @@ -1576,25 +1575,25 @@ the precise bit pattern used by the targ
>  This contains an array of @code{HOST_WIDE_INTS} that is large enough
>  to hold any constant that can be represented on the target.  This form
>  of rtl is only used on targets that define
> -@code{TARGET_SUPPORTS_WIDE_INT} to be non zero and then
> -@code{CONST_DOUBLES} are only used to hold floating point values.  If
> +@code{TARGET_SUPPORTS_WIDE_INT} to be nonzero and then
> +@code{CONST_DOUBLE}s are only used to hold floating-point values.  If
>  the target leaves @code{TARGET_SUPPORTS_WIDE_INT} defined as 0,
>  @code{CONST_WIDE_INT}s are not used and @code{CONST_DOUBLE}s are as
>  they were before.
>  
> -The values are stored in a compressed format.   The higher order
> +The values are stored in a compressed format.  The higher-order
>  0s or -1s are not represented if they are just the logical sign
>  extension of the number that is represented.   
>  
>  @findex CONST_WIDE_INT_VEC
>  @item CONST_WIDE_INT_VEC (@var{code})
>  Returns the entire array of @code{HOST_WIDE_INT}s that are used to
> -store the value.   This macro should be rarely used.
> +store the value.  This macro should be rarely used.
>  
>  @findex CONST_WIDE_INT_NUNITS
>  @item CONST_WIDE_INT_NUNITS (@var{code})
>  The number of @code{HOST_WIDE_INT}s used to represent the number.
> -Note that this generally be smaller than the number of
> +Note that this generally is smaller than the number of
>  @code{HOST_WIDE_INT}s implied by the mode size.
>  
>  @findex CONST_WIDE_INT_ELT
> Index: gcc/doc/tm.texi
> ===================================================================
> --- gcc/doc/tm.texi	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/tm.texi	2013-11-09 11:07:22.757160564 +0000
> @@ -9683,10 +9683,9 @@ Returns the negative of the floating poi
>  Returns the absolute value of @var{x}.
>  @end deftypefn
>  
> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
> -Converts a double-precision integer found in @var{val},
> -into a floating point value which is then stored into @var{x}.  The
> -value is truncated to fit in mode @var{mode}.
> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
> +Converts integer @var{val} into a floating-point value which is then
> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>  @end deftypefn
>  
>  @node Mode Switching
> @@ -11497,15 +11496,15 @@ The default value of this hook is based
>  @defmac TARGET_SUPPORTS_WIDE_INT
>  
>  On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
> -zero to indicate that large integers are stored in
> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
> +to indicate that large integers are stored in
>  @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>  very large integer constants to be represented.  @code{CONST_DOUBLE}
> -are limited to twice the size of host's @code{HOST_WIDE_INT}
> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>  representation.
>  
>  Converting a port mostly requires looking for the places where
> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>  code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>  const_double"} at the port level gets you to 95% of the changes that
>  need to be made.  There are a few places that require a deeper look.
> @@ -11535,7 +11534,7 @@ The rtx costs may have to be adjusted to
>  constants that are represented as @code{CONST_WIDE_INT}.
>  @end itemize
>  
> -All and all it does not takes long to convert ports that the
> +All and all it does not take long to convert ports that the
>  maintainer is familiar with.
>  
>  @end defmac
> Index: gcc/doc/tm.texi.in
> ===================================================================
> --- gcc/doc/tm.texi.in	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/doc/tm.texi.in	2013-11-09 11:07:22.758160572 +0000
> @@ -7345,10 +7345,9 @@ Returns the negative of the floating poi
>  Returns the absolute value of @var{x}.
>  @end deftypefn
>  
> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
> -Converts a double-precision integer found in @var{val},
> -into a floating point value which is then stored into @var{x}.  The
> -value is truncated to fit in mode @var{mode}.
> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
> +Converts integer @var{val} into a floating-point value which is then
> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>  @end deftypefn
>  
>  @node Mode Switching
> @@ -8404,15 +8403,15 @@ and the associated definitions of those
>  @defmac TARGET_SUPPORTS_WIDE_INT
>  
>  On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
> -zero to indicate that large integers are stored in
> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
> +to indicate that large integers are stored in
>  @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>  very large integer constants to be represented.  @code{CONST_DOUBLE}
> -are limited to twice the size of host's @code{HOST_WIDE_INT}
> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>  representation.
>  
>  Converting a port mostly requires looking for the places where
> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>  code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>  const_double"} at the port level gets you to 95% of the changes that
>  need to be made.  There are a few places that require a deeper look.
> @@ -8442,7 +8441,7 @@ The rtx costs may have to be adjusted to
>  constants that are represented as @code{CONST_WIDE_INT}.
>  @end itemize
>  
> -All and all it does not takes long to convert ports that the
> +All and all it does not take long to convert ports that the
>  maintainer is familiar with.
>  
>  @end defmac
> Index: gcc/dwarf2out.c
> ===================================================================
> --- gcc/dwarf2out.c	2013-11-09 10:32:42.708323557 +0000
> +++ gcc/dwarf2out.c	2013-11-09 11:07:22.762160602 +0000
> @@ -348,7 +348,7 @@ #define DUMP_GSTRUCT(type, usage, criter
>  
>  #endif
>  
> -/* Get the number of host wide ints needed to represent the precision
> +/* Get the number of HOST_WIDE_INTs needed to represent the precision
>     of the number.  */
>  
>  static unsigned int
> Index: gcc/emit-rtl.c
> ===================================================================
> --- gcc/emit-rtl.c	2013-11-09 09:50:47.392396760 +0000
> +++ gcc/emit-rtl.c	2013-11-09 11:07:22.763160609 +0000
> @@ -547,8 +547,8 @@ rtx_to_double_int (const_rtx cst)
>  #endif
>  
>  #if TARGET_SUPPORTS_WIDE_INT
> -/* Determine whether WIDE_INT, already exists in the hash table.  If
> -   so, return its counterpart; otherwise add it to the hash table and
> +/* Determine whether CONST_WIDE_INT WINT already exists in the hash table.
> +   If so, return its counterpart; otherwise add it to the hash table and
>     return it.  */
>  
>  static rtx
> @@ -562,11 +562,11 @@ lookup_const_wide_int (rtx wint)
>  }
>  #endif
>  
> -/* V contains a wide_int.  A CONST_INT or CONST_WIDE_INT (if
> -   TARGET_SUPPORTS_WIDE_INT is defined) or CONST_DOUBLE if
> -   TARGET_SUPPORTS_WIDE_INT is not defined is produced based on the
> -   number of HOST_WIDE_INTs that are necessary to represent the value
> -   in compact form.  */
> +/* Return an rtx constant for V, given that the constant has mode MODE.
> +   The returned rtx will be a CONST_INT if V fits, otherwise it will be
> +   a CONST_DOUBLE (if !TARGET_SUPPORTS_WIDE_INT) or a CONST_WIDE_INT
> +   (if TARGET_SUPPORTS_WIDE_INT).  */
> +
>  rtx
>  immed_wide_int_const (const wide_int &v, enum machine_mode mode)
>  {
> Index: gcc/tree.c
> ===================================================================
> --- gcc/tree.c	2013-11-09 09:58:55.587688532 +0000
> +++ gcc/tree.c	2013-11-09 11:07:56.499414021 +0000
> @@ -1252,7 +1252,7 @@ int_cst_hash_eq (const void *x, const vo
>  /* Create an INT_CST node of TYPE and value CST.
>     The returned node is always shared.  For small integers we use a
>     per-type vector cache, for larger ones we use a single hash table.
> -   The value is extended from it's precision according to the sign of
> +   The value is extended from its precision according to the sign of
>     the type to be a multiple of HOST_BITS_PER_WIDE_INT.  This defines
>     the upper bits and ensures that hashing and value equality based
>     upon the underlying HOST_WIDE_INTs works without masking.  */
> @@ -2018,7 +2018,9 @@ build_case_label (tree low_value, tree h
>    return t;
>  }
>  
> -/* Build a newly constructed INETEGER_CST node of length LEN.  */
> +/* Build a newly constructed INTEGER_CST node.  LEN and EXT_LEN are the
> +   values of TREE_INT_CST_NUNITS and TREE_INT_CST_EXT_NUNITS respectively.
> +   The latter determines the length of the HOST_WIDE_INT vector.  */
>  
>  tree
>  make_int_cst_stat (int len, int ext_len MEM_STAT_DECL)
> Index: gcc/tree.h
> ===================================================================
> --- gcc/tree.h	2013-11-09 09:58:55.588688539 +0000
> +++ gcc/tree.h	2013-11-09 11:07:22.765160624 +0000
> @@ -3129,10 +3129,10 @@ omp_clause_elt_check (const_tree __t, in
>  
>  #endif
>  
> -/* Checks that X is integer constant that can be expressed in signed
> -   HOST_WIDE_INT without loss of precision.  This function differs
> -   from the tree_fits_* versions in that the signedness of the
> -   type of X is not considered.  */
> +/* Checks that X is an integer constant that can be expressed in a signed
> +   HOST_WIDE_INT without loss of precision.  This function differs from
> +   the tree_fits_* versions in that the signedness of the type of X is
> +   not considered.  */
>  
>  static inline bool
>  cst_fits_shwi_p (const_tree x)
> @@ -3143,10 +3143,10 @@ cst_fits_shwi_p (const_tree x)
>    return TREE_INT_CST_NUNITS (x) == 1;
>  }
>  
> -/* Checks that X is integer constant that can be expressed in signed
> -   HOST_WIDE_INT without loss of precision.  This function differs
> -   from the tree_fits_* versions in that the signedness of the
> -   type of X is not considered.  */
> +/* Checks that X is an integer constant that can be expressed in an unsigned
> +   HOST_WIDE_INT without loss of precision.  This function differs from
> +   the tree_fits_* versions in that the signedness of the type of X is
> +   not considered.  */
>  
>  static inline bool
>  cst_fits_uhwi_p (const_tree x)

On 11/16/2013 05:49 AM, Richard Sandiford wrote:
> Richard Sandiford <rdsandiford@googlemail.com> writes:
>> Some minor tweaks to the documentation and commentary.  The hyphenation
>> and "non zero"->"nonzero" changes are supposed to be per guidelines:
>>
>>     http://gcc.gnu.org/codingconventions.html#Spelling
>>
>> Hope I got them right.
>>
>> OK to install?
sorry, yes it is ok to install.
> Ping.
>
>> Index: gcc/dfp.c
>> ===================================================================
>> --- gcc/dfp.c	2013-11-09 09:50:47.392396760 +0000
>> +++ gcc/dfp.c	2013-11-09 11:07:22.754160541 +0000
>> @@ -605,8 +605,8 @@ decimal_real_to_integer (const REAL_VALU
>>     return real_to_integer (&to);
>>   }
>>   
>> -/* Likewise, but returns a wide_int with PRECISION.  Fail
>> -   is set if the value does not fit.  */
>> +/* Likewise, but returns a wide_int with PRECISION.  *FAIL is set if the
>> +   value does not fit.  */
>>   
>>   wide_int
>>   decimal_real_to_integer (const REAL_VALUE_TYPE *r, bool *fail, int precision)
>> Index: gcc/doc/rtl.texi
>> ===================================================================
>> --- gcc/doc/rtl.texi	2013-11-09 09:50:47.392396760 +0000
>> +++ gcc/doc/rtl.texi	2013-11-09 11:07:22.755160549 +0000
>> @@ -1542,11 +1542,10 @@ Similarly, there is only one object for
>>   @findex const_double
>>   @item (const_double:@var{m} @var{i0} @var{i1} @dots{})
>>   This represents either a floating-point constant of mode @var{m} or
>> -(on ports older ports that do not define
>> +(on older ports that do not define
>>   @code{TARGET_SUPPORTS_WIDE_INT}) an integer constant too large to fit
>>   into @code{HOST_BITS_PER_WIDE_INT} bits but small enough to fit within
>> -twice that number of bits (GCC does not provide a mechanism to
>> -represent even larger constants).  In the latter case, @var{m} will be
>> +twice that number of bits.  In the latter case, @var{m} will be
>>   @code{VOIDmode}.  For integral values constants for modes with more
>>   bits than twice the number in @code{HOST_WIDE_INT} the implied high
>>   order bits of that constant are copies of the top bit of
>> @@ -1576,25 +1575,25 @@ the precise bit pattern used by the targ
>>   This contains an array of @code{HOST_WIDE_INTS} that is large enough
>>   to hold any constant that can be represented on the target.  This form
>>   of rtl is only used on targets that define
>> -@code{TARGET_SUPPORTS_WIDE_INT} to be non zero and then
>> -@code{CONST_DOUBLES} are only used to hold floating point values.  If
>> +@code{TARGET_SUPPORTS_WIDE_INT} to be nonzero and then
>> +@code{CONST_DOUBLE}s are only used to hold floating-point values.  If
>>   the target leaves @code{TARGET_SUPPORTS_WIDE_INT} defined as 0,
>>   @code{CONST_WIDE_INT}s are not used and @code{CONST_DOUBLE}s are as
>>   they were before.
>>   
>> -The values are stored in a compressed format.   The higher order
>> +The values are stored in a compressed format.  The higher-order
>>   0s or -1s are not represented if they are just the logical sign
>>   extension of the number that is represented.
>>   
>>   @findex CONST_WIDE_INT_VEC
>>   @item CONST_WIDE_INT_VEC (@var{code})
>>   Returns the entire array of @code{HOST_WIDE_INT}s that are used to
>> -store the value.   This macro should be rarely used.
>> +store the value.  This macro should be rarely used.
>>   
>>   @findex CONST_WIDE_INT_NUNITS
>>   @item CONST_WIDE_INT_NUNITS (@var{code})
>>   The number of @code{HOST_WIDE_INT}s used to represent the number.
>> -Note that this generally be smaller than the number of
>> +Note that this generally is smaller than the number of
>>   @code{HOST_WIDE_INT}s implied by the mode size.
>>   
>>   @findex CONST_WIDE_INT_ELT
>> Index: gcc/doc/tm.texi
>> ===================================================================
>> --- gcc/doc/tm.texi	2013-11-09 09:50:47.392396760 +0000
>> +++ gcc/doc/tm.texi	2013-11-09 11:07:22.757160564 +0000
>> @@ -9683,10 +9683,9 @@ Returns the negative of the floating poi
>>   Returns the absolute value of @var{x}.
>>   @end deftypefn
>>   
>> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
>> -Converts a double-precision integer found in @var{val},
>> -into a floating point value which is then stored into @var{x}.  The
>> -value is truncated to fit in mode @var{mode}.
>> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
>> +Converts integer @var{val} into a floating-point value which is then
>> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>>   @end deftypefn
>>   
>>   @node Mode Switching
>> @@ -11497,15 +11496,15 @@ The default value of this hook is based
>>   @defmac TARGET_SUPPORTS_WIDE_INT
>>   
>>   On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
>> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
>> -zero to indicate that large integers are stored in
>> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
>> +to indicate that large integers are stored in
>>   @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>>   very large integer constants to be represented.  @code{CONST_DOUBLE}
>> -are limited to twice the size of host's @code{HOST_WIDE_INT}
>> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>>   representation.
>>   
>>   Converting a port mostly requires looking for the places where
>> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
>> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>>   code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>>   const_double"} at the port level gets you to 95% of the changes that
>>   need to be made.  There are a few places that require a deeper look.
>> @@ -11535,7 +11534,7 @@ The rtx costs may have to be adjusted to
>>   constants that are represented as @code{CONST_WIDE_INT}.
>>   @end itemize
>>   
>> -All and all it does not takes long to convert ports that the
>> +All and all it does not take long to convert ports that the
>>   maintainer is familiar with.
>>   
>>   @end defmac
>> Index: gcc/doc/tm.texi.in
>> ===================================================================
>> --- gcc/doc/tm.texi.in	2013-11-09 09:50:47.392396760 +0000
>> +++ gcc/doc/tm.texi.in	2013-11-09 11:07:22.758160572 +0000
>> @@ -7345,10 +7345,9 @@ Returns the negative of the floating poi
>>   Returns the absolute value of @var{x}.
>>   @end deftypefn
>>   
>> -@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, HOST_WIDE_INT @var{val}, enum machine_mode @var{mode})
>> -Converts a double-precision integer found in @var{val},
>> -into a floating point value which is then stored into @var{x}.  The
>> -value is truncated to fit in mode @var{mode}.
>> +@deftypefn Macro void REAL_VALUE_FROM_INT (REAL_VALUE_TYPE @var{x}, const wide_int_ref &@var{val}, enum machine_mode @var{mode})
>> +Converts integer @var{val} into a floating-point value which is then
>> +stored into @var{x}.  The value is truncated to fit in mode @var{mode}.
>>   @end deftypefn
>>   
>>   @node Mode Switching
>> @@ -8404,15 +8403,15 @@ and the associated definitions of those
>>   @defmac TARGET_SUPPORTS_WIDE_INT
>>   
>>   On older ports, large integers are stored in @code{CONST_DOUBLE} rtl
>> -objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be non
>> -zero to indicate that large integers are stored in
>> +objects.  Newer ports define @code{TARGET_SUPPORTS_WIDE_INT} to be nonzero
>> +to indicate that large integers are stored in
>>   @code{CONST_WIDE_INT} rtl objects.  The @code{CONST_WIDE_INT} allows
>>   very large integer constants to be represented.  @code{CONST_DOUBLE}
>> -are limited to twice the size of host's @code{HOST_WIDE_INT}
>> +is limited to twice the size of the host's @code{HOST_WIDE_INT}
>>   representation.
>>   
>>   Converting a port mostly requires looking for the places where
>> -@code{CONST_DOUBLES} are used with @code{VOIDmode} and replacing that
>> +@code{CONST_DOUBLE}s are used with @code{VOIDmode} and replacing that
>>   code with code that accesses @code{CONST_WIDE_INT}s.  @samp{"grep -i
>>   const_double"} at the port level gets you to 95% of the changes that
>>   need to be made.  There are a few places that require a deeper look.
>> @@ -8442,7 +8441,7 @@ The rtx costs may have to be adjusted to
>>   constants that are represented as @code{CONST_WIDE_INT}.
>>   @end itemize
>>   
>> -All and all it does not takes long to convert ports that the
>> +All and all it does not take long to convert ports that the
>>   maintainer is familiar with.
>>   
>>   @end defmac
>> Index: gcc/dwarf2out.c
>> ===================================================================
>> --- gcc/dwarf2out.c	2013-11-09 10:32:42.708323557 +0000
>> +++ gcc/dwarf2out.c	2013-11-09 11:07:22.762160602 +0000
>> @@ -348,7 +348,7 @@ #define DUMP_GSTRUCT(type, usage, criter
>>   
>>   #endif
>>   
>> -/* Get the number of host wide ints needed to represent the precision
>> +/* Get the number of HOST_WIDE_INTs needed to represent the precision
>>      of the number.  */
>>   
>>   static unsigned int
>> Index: gcc/emit-rtl.c
>> ===================================================================
>> --- gcc/emit-rtl.c	2013-11-09 09:50:47.392396760 +0000
>> +++ gcc/emit-rtl.c	2013-11-09 11:07:22.763160609 +0000
>> @@ -547,8 +547,8 @@ rtx_to_double_int (const_rtx cst)
>>   #endif
>>   
>>   #if TARGET_SUPPORTS_WIDE_INT
>> -/* Determine whether WIDE_INT, already exists in the hash table.  If
>> -   so, return its counterpart; otherwise add it to the hash table and
>> +/* Determine whether CONST_WIDE_INT WINT already exists in the hash table.
>> +   If so, return its counterpart; otherwise add it to the hash table and
>>      return it.  */
>>   
>>   static rtx
>> @@ -562,11 +562,11 @@ lookup_const_wide_int (rtx wint)
>>   }
>>   #endif
>>   
>> -/* V contains a wide_int.  A CONST_INT or CONST_WIDE_INT (if
>> -   TARGET_SUPPORTS_WIDE_INT is defined) or CONST_DOUBLE if
>> -   TARGET_SUPPORTS_WIDE_INT is not defined is produced based on the
>> -   number of HOST_WIDE_INTs that are necessary to represent the value
>> -   in compact form.  */
>> +/* Return an rtx constant for V, given that the constant has mode MODE.
>> +   The returned rtx will be a CONST_INT if V fits, otherwise it will be
>> +   a CONST_DOUBLE (if !TARGET_SUPPORTS_WIDE_INT) or a CONST_WIDE_INT
>> +   (if TARGET_SUPPORTS_WIDE_INT).  */
>> +
>>   rtx
>>   immed_wide_int_const (const wide_int &v, enum machine_mode mode)
>>   {
>> Index: gcc/tree.c
>> ===================================================================
>> --- gcc/tree.c	2013-11-09 09:58:55.587688532 +0000
>> +++ gcc/tree.c	2013-11-09 11:07:56.499414021 +0000
>> @@ -1252,7 +1252,7 @@ int_cst_hash_eq (const void *x, const vo
>>   /* Create an INT_CST node of TYPE and value CST.
>>      The returned node is always shared.  For small integers we use a
>>      per-type vector cache, for larger ones we use a single hash table.
>> -   The value is extended from it's precision according to the sign of
>> +   The value is extended from its precision according to the sign of
>>      the type to be a multiple of HOST_BITS_PER_WIDE_INT.  This defines
>>      the upper bits and ensures that hashing and value equality based
>>      upon the underlying HOST_WIDE_INTs works without masking.  */
>> @@ -2018,7 +2018,9 @@ build_case_label (tree low_value, tree h
>>     return t;
>>   }
>>   
>> -/* Build a newly constructed INETEGER_CST node of length LEN.  */
>> +/* Build a newly constructed INTEGER_CST node.  LEN and EXT_LEN are the
>> +   values of TREE_INT_CST_NUNITS and TREE_INT_CST_EXT_NUNITS respectively.
>> +   The latter determines the length of the HOST_WIDE_INT vector.  */
>>   
>>   tree
>>   make_int_cst_stat (int len, int ext_len MEM_STAT_DECL)
>> Index: gcc/tree.h
>> ===================================================================
>> --- gcc/tree.h	2013-11-09 09:58:55.588688539 +0000
>> +++ gcc/tree.h	2013-11-09 11:07:22.765160624 +0000
>> @@ -3129,10 +3129,10 @@ omp_clause_elt_check (const_tree __t, in
>>   
>>   #endif
>>   
>> -/* Checks that X is integer constant that can be expressed in signed
>> -   HOST_WIDE_INT without loss of precision.  This function differs
>> -   from the tree_fits_* versions in that the signedness of the
>> -   type of X is not considered.  */
>> +/* Checks that X is an integer constant that can be expressed in a signed
>> +   HOST_WIDE_INT without loss of precision.  This function differs from
>> +   the tree_fits_* versions in that the signedness of the type of X is
>> +   not considered.  */
>>   
>>   static inline bool
>>   cst_fits_shwi_p (const_tree x)
>> @@ -3143,10 +3143,10 @@ cst_fits_shwi_p (const_tree x)
>>     return TREE_INT_CST_NUNITS (x) == 1;
>>   }
>>   
>> -/* Checks that X is integer constant that can be expressed in signed
>> -   HOST_WIDE_INT without loss of precision.  This function differs
>> -   from the tree_fits_* versions in that the signedness of the
>> -   type of X is not considered.  */
>> +/* Checks that X is an integer constant that can be expressed in an unsigned
>> +   HOST_WIDE_INT without loss of precision.  This function differs from
>> +   the tree_fits_* versions in that the signedness of the type of X is
>> +   not considered.  */
>>   
>>   static inline bool
>>   cst_fits_uhwi_p (const_tree x)