421 lines
14 KiB
Ada
421 lines
14 KiB
Ada
------------------------------------------------------------------------------
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-- --
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-- GNAT RUN-TIME COMPONENTS --
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-- --
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-- S Y S T E M . I M G _ D E C --
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-- --
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-- B o d y --
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-- --
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-- Copyright (C) 1992-2015, Free Software Foundation, Inc. --
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-- --
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-- GNAT is free software; you can redistribute it and/or modify it under --
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-- terms of the GNU General Public License as published by the Free Soft- --
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-- ware Foundation; either version 3, or (at your option) any later ver- --
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-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
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-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
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-- or FITNESS FOR A PARTICULAR PURPOSE. --
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-- --
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-- As a special exception under Section 7 of GPL version 3, you are granted --
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-- additional permissions described in the GCC Runtime Library Exception, --
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-- version 3.1, as published by the Free Software Foundation. --
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-- --
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-- You should have received a copy of the GNU General Public License and --
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-- a copy of the GCC Runtime Library Exception along with this program; --
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-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
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-- <http://www.gnu.org/licenses/>. --
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-- --
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-- GNAT was originally developed by the GNAT team at New York University. --
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-- Extensive contributions were provided by Ada Core Technologies Inc. --
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-- --
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------------------------------------------------------------------------------
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with System.Img_Int; use System.Img_Int;
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package body System.Img_Dec is
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-------------------
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-- Image_Decimal --
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-------------------
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procedure Image_Decimal
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(V : Integer;
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S : in out String;
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P : out Natural;
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Scale : Integer)
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is
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pragma Assert (S'First = 1);
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begin
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-- Add space at start for non-negative numbers
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if V >= 0 then
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S (1) := ' ';
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P := 1;
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else
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P := 0;
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end if;
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Set_Image_Decimal (V, S, P, Scale, 1, Integer'Max (1, Scale), 0);
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end Image_Decimal;
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------------------------
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-- Set_Decimal_Digits --
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------------------------
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procedure Set_Decimal_Digits
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(Digs : in out String;
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NDigs : Natural;
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S : out String;
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P : in out Natural;
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Scale : Integer;
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Fore : Natural;
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Aft : Natural;
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Exp : Natural)
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is
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Minus : constant Boolean := (Digs (Digs'First) = '-');
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-- Set True if input is negative
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Zero : Boolean := (Digs (Digs'First + 1) = '0');
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-- Set True if input is exactly zero (only case when a leading zero
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-- is permitted in the input string given to this procedure). This
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-- flag can get set later if rounding causes the value to become zero.
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FD : Natural := 2;
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-- First digit position of digits remaining to be processed
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LD : Natural := NDigs;
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-- Last digit position of digits remaining to be processed
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ND : Natural := NDigs - 1;
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-- Number of digits remaining to be processed (LD - FD + 1)
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Digits_Before_Point : Integer := ND - Scale;
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-- Number of digits before decimal point in the input value. This
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-- value can be negative if the input value is less than 0.1, so
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-- it is an indication of the current exponent. Digits_Before_Point
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-- is adjusted if the rounding step generates an extra digit.
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Digits_After_Point : constant Natural := Integer'Max (1, Aft);
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-- Digit positions after decimal point in result string
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Expon : Integer;
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-- Integer value of exponent
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procedure Round (N : Integer);
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-- Round the number in Digs. N is the position of the last digit to be
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-- retained in the rounded position (rounding is based on Digs (N + 1)
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-- FD, LD, ND are reset as necessary if required. Note that if the
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-- result value rounds up (e.g. 9.99 => 10.0), an extra digit can be
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-- placed in the sign position as a result of the rounding, this is
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-- the case in which FD is adjusted. The call to Round has no effect
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-- if N is outside the range FD .. LD.
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procedure Set (C : Character);
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pragma Inline (Set);
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-- Sets character C in output buffer
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procedure Set_Blanks_And_Sign (N : Integer);
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-- Sets leading blanks and minus sign if needed. N is the number of
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-- positions to be filled (a minus sign is output even if N is zero
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-- or negative, For a positive value, if N is non-positive, then
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-- a leading blank is filled.
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procedure Set_Digits (S, E : Natural);
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pragma Inline (Set_Digits);
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-- Set digits S through E from Digs, no effect if S > E
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procedure Set_Zeroes (N : Integer);
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pragma Inline (Set_Zeroes);
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-- Set N zeroes, no effect if N is negative
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-----------
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-- Round --
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-----------
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procedure Round (N : Integer) is
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D : Character;
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begin
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-- Nothing to do if rounding past the last digit we have
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if N >= LD then
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return;
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-- Cases of rounding before the initial digit
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elsif N < FD then
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-- The result is zero, unless we are rounding just before
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-- the first digit, and the first digit is five or more.
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if N = 1 and then Digs (Digs'First + 1) >= '5' then
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Digs (Digs'First) := '1';
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else
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Digs (Digs'First) := '0';
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Zero := True;
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end if;
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Digits_Before_Point := Digits_Before_Point + 1;
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FD := 1;
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LD := 1;
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ND := 1;
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-- Normal case of rounding an existing digit
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else
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LD := N;
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ND := LD - 1;
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if Digs (N + 1) >= '5' then
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for J in reverse 2 .. N loop
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D := Character'Succ (Digs (J));
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if D <= '9' then
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Digs (J) := D;
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return;
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else
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Digs (J) := '0';
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end if;
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end loop;
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-- Here the rounding overflows into the sign position. That's
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-- OK, because we already captured the value of the sign and
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-- we are in any case destroying the value in the Digs buffer
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Digs (Digs'First) := '1';
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FD := 1;
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ND := ND + 1;
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Digits_Before_Point := Digits_Before_Point + 1;
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end if;
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end if;
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end Round;
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---------
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-- Set --
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---------
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procedure Set (C : Character) is
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begin
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P := P + 1;
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S (P) := C;
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end Set;
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-------------------------
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-- Set_Blanks_And_Sign --
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-------------------------
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procedure Set_Blanks_And_Sign (N : Integer) is
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W : Integer := N;
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begin
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if Minus then
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W := W - 1;
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for J in 1 .. W loop
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Set (' ');
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end loop;
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Set ('-');
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else
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for J in 1 .. W loop
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Set (' ');
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end loop;
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end if;
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end Set_Blanks_And_Sign;
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----------------
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-- Set_Digits --
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----------------
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procedure Set_Digits (S, E : Natural) is
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begin
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for J in S .. E loop
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Set (Digs (J));
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end loop;
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end Set_Digits;
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----------------
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-- Set_Zeroes --
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----------------
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procedure Set_Zeroes (N : Integer) is
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begin
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for J in 1 .. N loop
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Set ('0');
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end loop;
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end Set_Zeroes;
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-- Start of processing for Set_Decimal_Digits
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begin
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-- Case of exponent given
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if Exp > 0 then
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Set_Blanks_And_Sign (Fore - 1);
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Round (Digits_After_Point + 2);
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Set (Digs (FD));
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FD := FD + 1;
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ND := ND - 1;
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Set ('.');
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if ND >= Digits_After_Point then
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Set_Digits (FD, FD + Digits_After_Point - 1);
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else
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Set_Digits (FD, LD);
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Set_Zeroes (Digits_After_Point - ND);
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end if;
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-- Calculate exponent. The number of digits before the decimal point
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-- in the input is Digits_Before_Point, and the number of digits
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-- before the decimal point in the output is 1, so we can get the
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-- exponent as the difference between these two values. The one
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-- exception is for the value zero, which by convention has an
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-- exponent of +0.
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Expon := (if Zero then 0 else Digits_Before_Point - 1);
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Set ('E');
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ND := 0;
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if Expon >= 0 then
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Set ('+');
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Set_Image_Integer (Expon, Digs, ND);
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else
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Set ('-');
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Set_Image_Integer (-Expon, Digs, ND);
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end if;
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Set_Zeroes (Exp - ND - 1);
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Set_Digits (1, ND);
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return;
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-- Case of no exponent given. To make these cases clear, we use
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-- examples. For all the examples, we assume Fore = 2, Aft = 3.
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-- A P in the example input string is an implied zero position,
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-- not included in the input string.
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else
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-- Round at correct position
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-- Input: 4PP => unchanged
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-- Input: 400.03 => unchanged
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-- Input 3.4567 => 3.457
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-- Input: 9.9999 => 10.000
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-- Input: 0.PPP5 => 0.001
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-- Input: 0.PPP4 => 0
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-- Input: 0.00003 => 0
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Round (LD - (Scale - Digits_After_Point));
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-- No digits before point in input
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-- Input: .123 Output: 0.123
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-- Input: .PP3 Output: 0.003
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if Digits_Before_Point <= 0 then
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Set_Blanks_And_Sign (Fore - 1);
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Set ('0');
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Set ('.');
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declare
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DA : Natural := Digits_After_Point;
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-- Digits remaining to output after point
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LZ : constant Integer := Integer'Min (DA, -Digits_Before_Point);
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-- Number of leading zeroes after point. Note: there used to be
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-- a Max of this result with zero, but that's redundant, since
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-- we know DA is positive, and because of the test above, we
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-- know that -Digits_Before_Point >= 0.
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begin
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Set_Zeroes (LZ);
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DA := DA - LZ;
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if DA < ND then
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-- Note: it is definitely possible for the above condition
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-- to be True, for example:
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-- V => 1234, Scale => 5, Fore => 0, After => 1, Exp => 0
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-- but in this case DA = 0, ND = 1, FD = 1, FD + DA-1 = 0
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-- so the arguments in the call are (1, 0) meaning that no
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-- digits are output.
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-- No obvious example exists where the following call to
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-- Set_Digits actually outputs some digits, but we lack a
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-- proof that no such example exists.
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-- So it is safer to retain this call, even though as a
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-- result it is hard (or perhaps impossible) to create a
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-- coverage test for the inlined code of the call.
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Set_Digits (FD, FD + DA - 1);
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else
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Set_Digits (FD, LD);
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Set_Zeroes (DA - ND);
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end if;
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end;
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-- At least one digit before point in input
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else
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-- Less digits in input than are needed before point
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-- Input: 1PP Output: 100.000
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if ND < Digits_Before_Point then
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-- Special case, if the input is the single digit 0, then we
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-- do not want 000.000, but instead 0.000.
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if ND = 1 and then Digs (FD) = '0' then
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Set_Blanks_And_Sign (Fore - 1);
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Set ('0');
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-- Normal case where we need to output scaling zeroes
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else
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Set_Blanks_And_Sign (Fore - Digits_Before_Point);
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Set_Digits (FD, LD);
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Set_Zeroes (Digits_Before_Point - ND);
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end if;
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-- Set period and zeroes after the period
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Set ('.');
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Set_Zeroes (Digits_After_Point);
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-- Input has full amount of digits before decimal point
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else
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Set_Blanks_And_Sign (Fore - Digits_Before_Point);
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Set_Digits (FD, FD + Digits_Before_Point - 1);
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Set ('.');
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Set_Digits (FD + Digits_Before_Point, LD);
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Set_Zeroes (Digits_After_Point - (ND - Digits_Before_Point));
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end if;
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end if;
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end if;
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end Set_Decimal_Digits;
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-----------------------
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-- Set_Image_Decimal --
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-----------------------
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procedure Set_Image_Decimal
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(V : Integer;
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S : in out String;
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P : in out Natural;
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Scale : Integer;
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Fore : Natural;
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Aft : Natural;
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Exp : Natural)
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is
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Digs : String := Integer'Image (V);
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-- Sign and digits of decimal value
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begin
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Set_Decimal_Digits (Digs, Digs'Length, S, P, Scale, Fore, Aft, Exp);
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end Set_Image_Decimal;
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end System.Img_Dec;
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