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 ------------------------------------------------------------------------------
 --                                                                          --
 --                         GNAT RUN-TIME COMPONENTS                         --
 --                                                                          --
 --                  ADA.NUMERICS.BIG_NUMBERS.BIG_INTEGERS                   --
 --                                                                          --
 --                                 S p e c                                  --
 --                                                                          --
 -- This specification is derived from the Ada Reference Manual for use with --
 -- GNAT.  In accordance with the copyright of that document, you can freely --
 -- copy and modify this specification,  provided that if you redistribute a --
 -- modified version,  any changes that you have made are clearly indicated. --
 --                                                                          --
 ------------------------------------------------------------------------------

 with Ada.Strings.Text_Buffers; use Ada.Strings.Text_Buffers;

 private with Ada.Finalization;
 private with System;

 package Ada.Numerics.Big_Numbers.Big_Integers
   with Preelaborate
 is
    type Big_Integer is private
      with Integer_Literal => From_Universal_Image,
           Put_Image       => Put_Image;

    function Is_Valid (Arg : Big_Integer) return Boolean
    with
      Convention => Intrinsic,
      Global     => null;

    subtype Valid_Big_Integer is Big_Integer
      with Dynamic_Predicate => Is_Valid (Valid_Big_Integer),
           Predicate_Failure => raise Program_Error;

    function "=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

    function "<" (L, R : Valid_Big_Integer) return Boolean with Global => null;

    function "<=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

    function ">" (L, R : Valid_Big_Integer) return Boolean with Global => null;

    function ">=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

    function To_Big_Integer (Arg : Integer) return Valid_Big_Integer
      with Global => null;

    subtype Big_Positive is Big_Integer
      with Dynamic_Predicate =>
             (if Is_Valid (Big_Positive)
              then Big_Positive > To_Big_Integer (0)),
           Predicate_Failure => (raise Constraint_Error);

    subtype Big_Natural is Big_Integer
      with Dynamic_Predicate =>
             (if Is_Valid (Big_Natural)
              then Big_Natural >= To_Big_Integer (0)),
           Predicate_Failure => (raise Constraint_Error);

    function In_Range
      (Arg : Valid_Big_Integer; Low, High : Big_Integer) return Boolean
    is (Low <= Arg and Arg <= High)
    with
      Global => null;

    function To_Integer (Arg : Valid_Big_Integer) return Integer
    with
      Pre    => In_Range (Arg,
                          Low  => To_Big_Integer (Integer'First),
                          High => To_Big_Integer (Integer'Last))
                 or else (raise Constraint_Error),
      Global => null;

    generic
       type Int is range <>;
    package Signed_Conversions is

       function To_Big_Integer (Arg : Int) return Valid_Big_Integer
         with Global => null;

       function From_Big_Integer (Arg : Valid_Big_Integer) return Int
       with
         Pre    => In_Range (Arg,
                             Low  => To_Big_Integer (Int'First),
                             High => To_Big_Integer (Int'Last))
                    or else (raise Constraint_Error),
         Global => null;
    end Signed_Conversions;

    generic
       type Int is mod <>;
    package Unsigned_Conversions is

       function To_Big_Integer (Arg : Int) return Valid_Big_Integer
         with Global => null;

       function From_Big_Integer (Arg : Valid_Big_Integer) return Int
       with
         Pre    => In_Range (Arg,
                             Low  => To_Big_Integer (Int'First),
                             High => To_Big_Integer (Int'Last))
                    or else (raise Constraint_Error),
         Global => null;

    end Unsigned_Conversions;

    function To_String (Arg   : Valid_Big_Integer;
                        Width : Field := 0;
                        Base  : Number_Base := 10) return String
    with
      Post   => To_String'Result'First = 1,
      Global => null;

    function From_String (Arg : String) return Valid_Big_Integer
      with Global => null;

    function From_Universal_Image (Arg : String) return Valid_Big_Integer
      renames From_String;

    procedure Put_Image (S : in out Root_Buffer_Type'Class; V : Big_Integer);

    function "+" (L : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "-" (L : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "abs" (L : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "+" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "-" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "*" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "/" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "mod" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "rem" (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function "**" (L : Valid_Big_Integer; R : Natural) return Valid_Big_Integer
       with Global => null;

    function Min (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function Max (L, R : Valid_Big_Integer) return Valid_Big_Integer
       with Global => null;

    function Greatest_Common_Divisor
      (L, R : Valid_Big_Integer) return Big_Positive
    with
      Pre    => (L /= To_Big_Integer (0) and R /= To_Big_Integer (0))
              or else (raise Constraint_Error),
      Global => null;

 private

    type Controlled_Bignum is new Ada.Finalization.Controlled with record
       C : System.Address := System.Null_Address;
    end record;

    procedure Adjust   (This : in out Controlled_Bignum);
    procedure Finalize (This : in out Controlled_Bignum);

    type Big_Integer is record
       Value : Controlled_Bignum;
    end record;

 end Ada.Numerics.Big_Numbers.Big_Integers;
	------------------------------------------------------------------------------
	-- --
	-- GNAT RUN-TIME COMPONENTS --
	-- --
	-- ADA.NUMERICS.BIG_NUMBERS.BIG_INTEGERS --
	-- --
	-- S p e c --
	-- --
	-- This specification is derived from the Ada Reference Manual for use with --
	-- GNAT. In accordance with the copyright of that document, you can freely --
	-- copy and modify this specification, provided that if you redistribute a --
	-- modified version, any changes that you have made are clearly indicated. --
	-- --
	------------------------------------------------------------------------------

	with Ada.Strings.Text_Buffers; use Ada.Strings.Text_Buffers;

	private with Ada.Finalization;
	private with System;

	package Ada.Numerics.Big_Numbers.Big_Integers
	with Preelaborate
	is
	type Big_Integer is private
	with Integer_Literal => From_Universal_Image,
	Put_Image => Put_Image;

	function Is_Valid (Arg : Big_Integer) return Boolean
	with
	Convention => Intrinsic,
	Global => null;

	subtype Valid_Big_Integer is Big_Integer
	with Dynamic_Predicate => Is_Valid (Valid_Big_Integer),
	Predicate_Failure => raise Program_Error;

	function "=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

	function "<" (L, R : Valid_Big_Integer) return Boolean with Global => null;

	function "<=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

	function ">" (L, R : Valid_Big_Integer) return Boolean with Global => null;

	function ">=" (L, R : Valid_Big_Integer) return Boolean with Global => null;

	function To_Big_Integer (Arg : Integer) return Valid_Big_Integer
	with Global => null;

	subtype Big_Positive is Big_Integer
	with Dynamic_Predicate =>
	(if Is_Valid (Big_Positive)
	then Big_Positive > To_Big_Integer (0)),
	Predicate_Failure => (raise Constraint_Error);

	subtype Big_Natural is Big_Integer
	with Dynamic_Predicate =>
	(if Is_Valid (Big_Natural)
	then Big_Natural >= To_Big_Integer (0)),
	Predicate_Failure => (raise Constraint_Error);

	function In_Range
	(Arg : Valid_Big_Integer; Low, High : Big_Integer) return Boolean
	is (Low <= Arg and Arg <= High)
	with
	Global => null;

	function To_Integer (Arg : Valid_Big_Integer) return Integer
	with
	Pre => In_Range (Arg,
	Low => To_Big_Integer (Integer'First),
	High => To_Big_Integer (Integer'Last))
	or else (raise Constraint_Error),
	Global => null;

	generic
	type Int is range <>;
	package Signed_Conversions is

	function To_Big_Integer (Arg : Int) return Valid_Big_Integer
	with Global => null;

	function From_Big_Integer (Arg : Valid_Big_Integer) return Int
	with
	Pre => In_Range (Arg,
	Low => To_Big_Integer (Int'First),
	High => To_Big_Integer (Int'Last))
	or else (raise Constraint_Error),
	Global => null;
	end Signed_Conversions;

	generic
	type Int is mod <>;
	package Unsigned_Conversions is

	function To_Big_Integer (Arg : Int) return Valid_Big_Integer
	with Global => null;

	function From_Big_Integer (Arg : Valid_Big_Integer) return Int
	with
	Pre => In_Range (Arg,
	Low => To_Big_Integer (Int'First),
	High => To_Big_Integer (Int'Last))
	or else (raise Constraint_Error),
	Global => null;

	end Unsigned_Conversions;

	function To_String (Arg : Valid_Big_Integer;
	Width : Field := 0;
	Base : Number_Base := 10) return String
	with
	Post => To_String'Result'First = 1,
	Global => null;

	function From_String (Arg : String) return Valid_Big_Integer
	with Global => null;

	function From_Universal_Image (Arg : String) return Valid_Big_Integer
	renames From_String;

	procedure Put_Image (S : in out Root_Buffer_Type'Class; V : Big_Integer);

	function "+" (L : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "-" (L : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "abs" (L : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "+" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "-" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "*" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "/" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "mod" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "rem" (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function "**" (L : Valid_Big_Integer; R : Natural) return Valid_Big_Integer
	with Global => null;

	function Min (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function Max (L, R : Valid_Big_Integer) return Valid_Big_Integer
	with Global => null;

	function Greatest_Common_Divisor
	(L, R : Valid_Big_Integer) return Big_Positive
	with
	Pre => (L /= To_Big_Integer (0) and R /= To_Big_Integer (0))
	or else (raise Constraint_Error),
	Global => null;

	private

	type Controlled_Bignum is new Ada.Finalization.Controlled with record
	C : System.Address := System.Null_Address;
	end record;

	procedure Adjust (This : in out Controlled_Bignum);
	procedure Finalize (This : in out Controlled_Bignum);

	type Big_Integer is record
	Value : Controlled_Bignum;
	end record;

	end Ada.Numerics.Big_Numbers.Big_Integers;