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------------------------------------------------------------------------------
--                                                                          --
--                         GNAT RUN-TIME COMPONENTS                         --
--                                                                          --
--                        S Y S T E M . I M G _ D E C                       --
--                                                                          --
--                                 B o d y                                  --
--                                                                          --
--          Copyright (C) 1992-2009, Free Software Foundation, Inc.         --
--                                                                          --
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
-- terms of the  GNU General Public License as published  by the Free Soft- --
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
--                                                                          --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception,   --
-- version 3.1, as published by the Free Software Foundation.               --
--                                                                          --
-- You should have received a copy of the GNU General Public License and    --
-- a copy of the GCC Runtime Library Exception along with this program;     --
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
-- <http://www.gnu.org/licenses/>.                                          --
--                                                                          --
-- GNAT was originally developed  by the GNAT team at  New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
--                                                                          --
------------------------------------------------------------------------------
 
with System.Img_Int; use System.Img_Int;
 
package body System.Img_Dec is
 
   -------------------
   -- Image_Decimal --
   -------------------
 
   procedure Image_Decimal
     (V     : Integer;
      S     : in out String;
      P     : out Natural;
      Scale : Integer)
   is
      pragma Assert (S'First = 1);
 
   begin
      --  Add space at start for non-negative numbers
 
      if V >= 0 then
         S (1) := ' ';
         P := 1;
      else
         P := 0;
      end if;
 
      Set_Image_Decimal (V, S, P, Scale, 1, Integer'Max (1, Scale), 0);
   end Image_Decimal;
 
   ------------------------
   -- Set_Decimal_Digits --
   ------------------------
 
   procedure Set_Decimal_Digits
     (Digs  : in out String;
      NDigs : Natural;
      S     : out String;
      P     : in out Natural;
      Scale : Integer;
      Fore  : Natural;
      Aft   : Natural;
      Exp   : Natural)
   is
      Minus : constant Boolean := (Digs (Digs'First) = '-');
      --  Set True if input is negative
 
      Zero : Boolean := (Digs (Digs'First + 1) = '0');
      --  Set True if input is exactly zero (only case when a leading zero
      --  is permitted in the input string given to this procedure). This
      --  flag can get set later if rounding causes the value to become zero.
 
      FD : Natural := 2;
      --  First digit position of digits remaining to be processed
 
      LD : Natural := NDigs;
      --  Last digit position of digits remaining to be processed
 
      ND : Natural := NDigs - 1;
      --  Number of digits remaining to be processed (LD - FD + 1)
 
      Digits_Before_Point : Integer := ND - Scale;
      --  Number of digits before decimal point in the input value. This
      --  value can be negative if the input value is less than 0.1, so
      --  it is an indication of the current exponent. Digits_Before_Point
      --  is adjusted if the rounding step generates an extra digit.
 
      Digits_After_Point : constant Natural := Integer'Max (1, Aft);
      --  Digit positions after decimal point in result string
 
      Expon : Integer;
      --  Integer value of exponent
 
      procedure Round (N : Integer);
      --  Round the number in Digs. N is the position of the last digit to be
      --  retained in the rounded position (rounding is based on Digs (N + 1)
      --  FD, LD, ND are reset as necessary if required. Note that if the
      --  result value rounds up (e.g. 9.99 => 10.0), an extra digit can be
      --  placed in the sign position as a result of the rounding, this is
      --  the case in which FD is adjusted. The call to Round has no effect
      --  if N is outside the range FD .. LD.
 
      procedure Set (C : Character);
      pragma Inline (Set);
      --  Sets character C in output buffer
 
      procedure Set_Blanks_And_Sign (N : Integer);
      --  Sets leading blanks and minus sign if needed. N is the number of
      --  positions to be filled (a minus sign is output even if N is zero
      --  or negative, For a positive value, if N is non-positive, then
      --  a leading blank is filled.
 
      procedure Set_Digits (S, E : Natural);
      pragma Inline (Set_Digits);
      --  Set digits S through E from Digs, no effect if S > E
 
      procedure Set_Zeroes (N : Integer);
      pragma Inline (Set_Zeroes);
      --  Set N zeroes, no effect if N is negative
 
      -----------
      -- Round --
      -----------
 
      procedure Round (N : Integer) is
         D : Character;
 
      begin
         --  Nothing to do if rounding past the last digit we have
 
         if N >= LD then
            return;
 
         --  Cases of rounding before the initial digit
 
         elsif N < FD then
 
            --  The result is zero, unless we are rounding just before
            --  the first digit, and the first digit is five or more.
 
            if N = 1 and then Digs (Digs'First + 1) >= '5' then
               Digs (Digs'First) := '1';
            else
               Digs (Digs'First) := '0';
               Zero := True;
            end if;
 
            Digits_Before_Point := Digits_Before_Point + 1;
            FD := 1;
            LD := 1;
            ND := 1;
 
         --  Normal case of rounding an existing digit
 
         else
            LD := N;
            ND := LD - 1;
 
            if Digs (N + 1) >= '5' then
               for J in reverse 2 .. N loop
                  D := Character'Succ (Digs (J));
 
                  if D <= '9' then
                     Digs (J) := D;
                     return;
                  else
                     Digs (J) := '0';
                  end if;
               end loop;
 
               --  Here the rounding overflows into the sign position. That's
               --  OK, because we already captured the value of the sign and
               --  we are in any case destroying the value in the Digs buffer
 
               Digs (Digs'First) := '1';
               FD := 1;
               ND := ND + 1;
               Digits_Before_Point := Digits_Before_Point + 1;
            end if;
         end if;
      end Round;
 
      ---------
      -- Set --
      ---------
 
      procedure Set (C : Character) is
      begin
         P := P + 1;
         S (P) := C;
      end Set;
 
      -------------------------
      -- Set_Blanks_And_Sign --
      -------------------------
 
      procedure Set_Blanks_And_Sign (N : Integer) is
         W : Integer := N;
 
      begin
         if Minus then
            W := W - 1;
 
            for J in 1 .. W loop
               Set (' ');
            end loop;
 
            Set ('-');
 
         else
            for J in 1 .. W loop
               Set (' ');
            end loop;
         end if;
      end Set_Blanks_And_Sign;
 
      ----------------
      -- Set_Digits --
      ----------------
 
      procedure Set_Digits (S, E : Natural) is
      begin
         for J in S .. E loop
            Set (Digs (J));
         end loop;
      end Set_Digits;
 
      ----------------
      -- Set_Zeroes --
      ----------------
 
      procedure Set_Zeroes (N : Integer) is
      begin
         for J in 1 .. N loop
            Set ('0');
         end loop;
      end Set_Zeroes;
 
   --  Start of processing for Set_Decimal_Digits
 
   begin
      --  Case of exponent given
 
      if Exp > 0 then
         Set_Blanks_And_Sign (Fore - 1);
         Round (Digits_After_Point + 2);
         Set (Digs (FD));
         FD := FD + 1;
         ND := ND - 1;
         Set ('.');
 
         if ND >= Digits_After_Point then
            Set_Digits (FD, FD + Digits_After_Point - 1);
         else
            Set_Digits (FD, LD);
            Set_Zeroes (Digits_After_Point - ND);
         end if;
 
         --  Calculate exponent. The number of digits before the decimal point
         --  in the input is Digits_Before_Point, and the number of digits
         --  before the decimal point in the output is 1, so we can get the
         --  exponent as the difference between these two values. The one
         --  exception is for the value zero, which by convention has an
         --  exponent of +0.
 
         Expon := (if Zero then 0 else Digits_Before_Point - 1);
         Set ('E');
         ND := 0;
 
         if Expon >= 0 then
            Set ('+');
            Set_Image_Integer (Expon, Digs, ND);
         else
            Set ('-');
            Set_Image_Integer (-Expon, Digs, ND);
         end if;
 
         Set_Zeroes (Exp - ND - 1);
         Set_Digits (1, ND);
         return;
 
      --  Case of no exponent given. To make these cases clear, we use
      --  examples. For all the examples, we assume Fore = 2, Aft = 3.
      --  A P in the example input string is an implied zero position,
      --  not included in the input string.
 
      else
         --  Round at correct position
         --    Input: 4PP      => unchanged
         --    Input: 400.03   => unchanged
         --    Input  3.4567   => 3.457
         --    Input: 9.9999   => 10.000
         --    Input: 0.PPP5   => 0.001
         --    Input: 0.PPP4   => 0
         --    Input: 0.00003  => 0
 
         Round (LD - (Scale - Digits_After_Point));
 
         --  No digits before point in input
         --    Input: .123   Output: 0.123
         --    Input: .PP3   Output: 0.003
 
         if Digits_Before_Point <= 0 then
            Set_Blanks_And_Sign (Fore - 1);
            Set ('0');
            Set ('.');
 
            declare
               DA : Natural := Digits_After_Point;
               --  Digits remaining to output after point
 
               LZ : constant Integer :=
                      Integer'Max (0, Integer'Min (DA, -Digits_Before_Point));
               --  Number of leading zeroes after point
 
            begin
               Set_Zeroes (LZ);
               DA := DA - LZ;
 
               if DA < ND then
                  Set_Digits (FD, FD + DA - 1);
 
               else
                  Set_Digits (FD, LD);
                  Set_Zeroes (DA - ND);
               end if;
            end;
 
         --  At least one digit before point in input
 
         else
            --  Less digits in input than are needed before point
            --    Input: 1PP  Output: 100.000
 
            if ND < Digits_Before_Point then
 
               --  Special case, if the input is the single digit 0, then we
               --  do not want 000.000, but instead 0.000.
 
               if ND = 1 and then Digs (FD) = '0' then
                  Set_Blanks_And_Sign (Fore - 1);
                  Set ('0');
 
               --  Normal case where we need to output scaling zeroes
 
               else
                  Set_Blanks_And_Sign (Fore - Digits_Before_Point);
                  Set_Digits (FD, LD);
                  Set_Zeroes (Digits_Before_Point - ND);
               end if;
 
               --  Set period and zeroes after the period
 
               Set ('.');
               Set_Zeroes (Digits_After_Point);
 
            --  Input has full amount of digits before decimal point
 
            else
               Set_Blanks_And_Sign (Fore - Digits_Before_Point);
               Set_Digits (FD, FD + Digits_Before_Point - 1);
               Set ('.');
               Set_Digits (FD + Digits_Before_Point, LD);
               Set_Zeroes (Digits_After_Point - (ND - Digits_Before_Point));
            end if;
         end if;
      end if;
   end Set_Decimal_Digits;
 
   -----------------------
   -- Set_Image_Decimal --
   -----------------------
 
   procedure Set_Image_Decimal
     (V     : Integer;
      S     : in out String;
      P     : in out Natural;
      Scale : Integer;
      Fore  : Natural;
      Aft   : Natural;
      Exp   : Natural)
   is
      Digs : String := Integer'Image (V);
      --  Sign and digits of decimal value
 
   begin
      Set_Decimal_Digits (Digs, Digs'Length, S, P, Scale, Fore, Aft, Exp);
   end Set_Image_Decimal;
 
end System.Img_Dec;

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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [s-imgdec.adb] - Blame information for rev 821

Line No.	Rev	Author	Line
1	706	jeremybenn	`------------------------------------------------------------------------------`
2			`-- --`
3			`-- GNAT RUN-TIME COMPONENTS --`
4			`-- --`
5			`-- S Y S T E M . I M G _ D E C --`
6			`-- --`
7			`-- B o d y --`
8			`-- --`
9			`-- Copyright (C) 1992-2009, Free Software Foundation, Inc. --`
10			`-- --`
11			`-- GNAT is free software; you can redistribute it and/or modify it under --`
12			`-- terms of the GNU General Public License as published by the Free Soft- --`
13			`-- ware Foundation; either version 3, or (at your option) any later ver- --`
14			`-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --`
15			`-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --`
16			`-- or FITNESS FOR A PARTICULAR PURPOSE. --`
17			`-- --`
18			`-- As a special exception under Section 7 of GPL version 3, you are granted --`
19			`-- additional permissions described in the GCC Runtime Library Exception, --`
20			`-- version 3.1, as published by the Free Software Foundation. --`
21			`-- --`
22			`-- You should have received a copy of the GNU General Public License and --`
23			`-- a copy of the GCC Runtime Library Exception along with this program; --`
24			`-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --`
25			`-- <http://www.gnu.org/licenses/>. --`
26			`-- --`
27			`-- GNAT was originally developed by the GNAT team at New York University. --`
28			`-- Extensive contributions were provided by Ada Core Technologies Inc. --`
29			`-- --`
30			`------------------------------------------------------------------------------`
31
32			`with System.Img_Int; use System.Img_Int;`
33
34			`package body System.Img_Dec is`
35
36			`-------------------`
37			`-- Image_Decimal --`
38			`-------------------`
39
40			`procedure Image_Decimal`
41			`(V : Integer;`
42			`S : in out String;`
43			`P : out Natural;`
44			`Scale : Integer)`
45			`is`
46			`pragma Assert (S'First = 1);`
47
48			`begin`
49			`-- Add space at start for non-negative numbers`
50
51			`if V >= 0 then`
52			`S (1) := ' ';`
53			`P := 1;`
54			`else`
55			`P := 0;`
56			`end if;`
57
58			`Set_Image_Decimal (V, S, P, Scale, 1, Integer'Max (1, Scale), 0);`
59			`end Image_Decimal;`
60
61			`------------------------`
62			`-- Set_Decimal_Digits --`
63			`------------------------`
64
65			`procedure Set_Decimal_Digits`
66			`(Digs : in out String;`
67			`NDigs : Natural;`
68			`S : out String;`
69			`P : in out Natural;`
70			`Scale : Integer;`
71			`Fore : Natural;`
72			`Aft : Natural;`
73			`Exp : Natural)`
74			`is`
75			`Minus : constant Boolean := (Digs (Digs'First) = '-');`
76			`-- Set True if input is negative`
77
78			`Zero : Boolean := (Digs (Digs'First + 1) = '0');`
79			`-- Set True if input is exactly zero (only case when a leading zero`
80			`-- is permitted in the input string given to this procedure). This`
81			`-- flag can get set later if rounding causes the value to become zero.`
82
83			`FD : Natural := 2;`
84			`-- First digit position of digits remaining to be processed`
85
86			`LD : Natural := NDigs;`
87			`-- Last digit position of digits remaining to be processed`
88
89			`ND : Natural := NDigs - 1;`
90			`-- Number of digits remaining to be processed (LD - FD + 1)`
91
92			`Digits_Before_Point : Integer := ND - Scale;`
93			`-- Number of digits before decimal point in the input value. This`
94			`-- value can be negative if the input value is less than 0.1, so`
95			`-- it is an indication of the current exponent. Digits_Before_Point`
96			`-- is adjusted if the rounding step generates an extra digit.`
97
98			`Digits_After_Point : constant Natural := Integer'Max (1, Aft);`
99			`-- Digit positions after decimal point in result string`
100
101			`Expon : Integer;`
102			`-- Integer value of exponent`
103
104			`procedure Round (N : Integer);`
105			`-- Round the number in Digs. N is the position of the last digit to be`
106			`-- retained in the rounded position (rounding is based on Digs (N + 1)`
107			`-- FD, LD, ND are reset as necessary if required. Note that if the`
108			`-- result value rounds up (e.g. 9.99 => 10.0), an extra digit can be`
109			`-- placed in the sign position as a result of the rounding, this is`
110			`-- the case in which FD is adjusted. The call to Round has no effect`
111			`-- if N is outside the range FD .. LD.`
112
113			`procedure Set (C : Character);`
114			`pragma Inline (Set);`
115			`-- Sets character C in output buffer`
116
117			`procedure Set_Blanks_And_Sign (N : Integer);`
118			`-- Sets leading blanks and minus sign if needed. N is the number of`
119			`-- positions to be filled (a minus sign is output even if N is zero`
120			`-- or negative, For a positive value, if N is non-positive, then`
121			`-- a leading blank is filled.`
122
123			`procedure Set_Digits (S, E : Natural);`
124			`pragma Inline (Set_Digits);`
125			`-- Set digits S through E from Digs, no effect if S > E`
126
127			`procedure Set_Zeroes (N : Integer);`
128			`pragma Inline (Set_Zeroes);`
129			`-- Set N zeroes, no effect if N is negative`
130
131			`-----------`
132			`-- Round --`
133			`-----------`
134
135			`procedure Round (N : Integer) is`
136			`D : Character;`
137
138			`begin`
139			`-- Nothing to do if rounding past the last digit we have`
140
141			`if N >= LD then`
142			`return;`
143
144			`-- Cases of rounding before the initial digit`
145
146			`elsif N < FD then`
147
148			`-- The result is zero, unless we are rounding just before`
149			`-- the first digit, and the first digit is five or more.`
150
151			`if N = 1 and then Digs (Digs'First + 1) >= '5' then`
152			`Digs (Digs'First) := '1';`
153			`else`
154			`Digs (Digs'First) := '0';`
155			`Zero := True;`
156			`end if;`
157
158			`Digits_Before_Point := Digits_Before_Point + 1;`
159			`FD := 1;`
160			`LD := 1;`
161			`ND := 1;`
162
163			`-- Normal case of rounding an existing digit`
164
165			`else`
166			`LD := N;`
167			`ND := LD - 1;`
168
169			`if Digs (N + 1) >= '5' then`
170			`for J in reverse 2 .. N loop`
171			`D := Character'Succ (Digs (J));`
172
173			`if D <= '9' then`
174			`Digs (J) := D;`
175			`return;`
176			`else`
177			`Digs (J) := '0';`
178			`end if;`
179			`end loop;`
180
181			`-- Here the rounding overflows into the sign position. That's`
182			`-- OK, because we already captured the value of the sign and`
183			`-- we are in any case destroying the value in the Digs buffer`
184
185			`Digs (Digs'First) := '1';`
186			`FD := 1;`
187			`ND := ND + 1;`
188			`Digits_Before_Point := Digits_Before_Point + 1;`
189			`end if;`
190			`end if;`
191			`end Round;`
192
193			`---------`
194			`-- Set --`
195			`---------`
196
197			`procedure Set (C : Character) is`
198			`begin`
199			`P := P + 1;`
200			`S (P) := C;`
201			`end Set;`
202
203			`-------------------------`
204			`-- Set_Blanks_And_Sign --`
205			`-------------------------`
206
207			`procedure Set_Blanks_And_Sign (N : Integer) is`
208			`W : Integer := N;`
209
210			`begin`
211			`if Minus then`
212			`W := W - 1;`
213
214			`for J in 1 .. W loop`
215			`Set (' ');`
216			`end loop;`
217
218			`Set ('-');`
219
220			`else`
221			`for J in 1 .. W loop`
222			`Set (' ');`
223			`end loop;`
224			`end if;`
225			`end Set_Blanks_And_Sign;`
226
227			`----------------`
228			`-- Set_Digits --`
229			`----------------`
230
231			`procedure Set_Digits (S, E : Natural) is`
232			`begin`
233			`for J in S .. E loop`
234			`Set (Digs (J));`
235			`end loop;`
236			`end Set_Digits;`
237
238			`----------------`
239			`-- Set_Zeroes --`
240			`----------------`
241
242			`procedure Set_Zeroes (N : Integer) is`
243			`begin`
244			`for J in 1 .. N loop`
245			`Set ('0');`
246			`end loop;`
247			`end Set_Zeroes;`
248
249			`-- Start of processing for Set_Decimal_Digits`
250
251			`begin`
252			`-- Case of exponent given`
253
254			`if Exp > 0 then`
255			`Set_Blanks_And_Sign (Fore - 1);`
256			`Round (Digits_After_Point + 2);`
257			`Set (Digs (FD));`
258			`FD := FD + 1;`
259			`ND := ND - 1;`
260			`Set ('.');`
261
262			`if ND >= Digits_After_Point then`
263			`Set_Digits (FD, FD + Digits_After_Point - 1);`
264			`else`
265			`Set_Digits (FD, LD);`
266			`Set_Zeroes (Digits_After_Point - ND);`
267			`end if;`
268
269			`-- Calculate exponent. The number of digits before the decimal point`
270			`-- in the input is Digits_Before_Point, and the number of digits`
271			`-- before the decimal point in the output is 1, so we can get the`
272			`-- exponent as the difference between these two values. The one`
273			`-- exception is for the value zero, which by convention has an`
274			`-- exponent of +0.`
275
276			`Expon := (if Zero then 0 else Digits_Before_Point - 1);`
277			`Set ('E');`
278			`ND := 0;`
279
280			`if Expon >= 0 then`
281			`Set ('+');`
282			`Set_Image_Integer (Expon, Digs, ND);`
283			`else`
284			`Set ('-');`
285			`Set_Image_Integer (-Expon, Digs, ND);`
286			`end if;`
287
288			`Set_Zeroes (Exp - ND - 1);`
289			`Set_Digits (1, ND);`
290			`return;`
291
292			`-- Case of no exponent given. To make these cases clear, we use`
293			`-- examples. For all the examples, we assume Fore = 2, Aft = 3.`
294			`-- A P in the example input string is an implied zero position,`
295			`-- not included in the input string.`
296
297			`else`
298			`-- Round at correct position`
299			`-- Input: 4PP => unchanged`
300			`-- Input: 400.03 => unchanged`
301			`-- Input 3.4567 => 3.457`
302			`-- Input: 9.9999 => 10.000`
303			`-- Input: 0.PPP5 => 0.001`
304			`-- Input: 0.PPP4 => 0`
305			`-- Input: 0.00003 => 0`
306
307			`Round (LD - (Scale - Digits_After_Point));`
308
309			`-- No digits before point in input`
310			`-- Input: .123 Output: 0.123`
311			`-- Input: .PP3 Output: 0.003`
312
313			`if Digits_Before_Point <= 0 then`
314			`Set_Blanks_And_Sign (Fore - 1);`
315			`Set ('0');`
316			`Set ('.');`
317
318			`declare`
319			`DA : Natural := Digits_After_Point;`
320			`-- Digits remaining to output after point`
321
322			`LZ : constant Integer :=`
323			`Integer'Max (0, Integer'Min (DA, -Digits_Before_Point));`
324			`-- Number of leading zeroes after point`
325
326			`begin`
327			`Set_Zeroes (LZ);`
328			`DA := DA - LZ;`
329
330			`if DA < ND then`
331			`Set_Digits (FD, FD + DA - 1);`
332
333			`else`
334			`Set_Digits (FD, LD);`
335			`Set_Zeroes (DA - ND);`
336			`end if;`
337			`end;`
338
339			`-- At least one digit before point in input`
340
341			`else`
342			`-- Less digits in input than are needed before point`
343			`-- Input: 1PP Output: 100.000`
344
345			`if ND < Digits_Before_Point then`
346
347			`-- Special case, if the input is the single digit 0, then we`
348			`-- do not want 000.000, but instead 0.000.`
349
350			`if ND = 1 and then Digs (FD) = '0' then`
351			`Set_Blanks_And_Sign (Fore - 1);`
352			`Set ('0');`
353
354			`-- Normal case where we need to output scaling zeroes`
355
356			`else`
357			`Set_Blanks_And_Sign (Fore - Digits_Before_Point);`
358			`Set_Digits (FD, LD);`
359			`Set_Zeroes (Digits_Before_Point - ND);`
360			`end if;`
361
362			`-- Set period and zeroes after the period`
363
364			`Set ('.');`
365			`Set_Zeroes (Digits_After_Point);`
366
367			`-- Input has full amount of digits before decimal point`
368
369			`else`
370			`Set_Blanks_And_Sign (Fore - Digits_Before_Point);`
371			`Set_Digits (FD, FD + Digits_Before_Point - 1);`
372			`Set ('.');`
373			`Set_Digits (FD + Digits_Before_Point, LD);`
374			`Set_Zeroes (Digits_After_Point - (ND - Digits_Before_Point));`
375			`end if;`
376			`end if;`
377			`end if;`
378			`end Set_Decimal_Digits;`
379
380			`-----------------------`
381			`-- Set_Image_Decimal --`
382			`-----------------------`
383
384			`procedure Set_Image_Decimal`
385			`(V : Integer;`
386			`S : in out String;`
387			`P : in out Natural;`
388			`Scale : Integer;`
389			`Fore : Natural;`
390			`Aft : Natural;`
391			`Exp : Natural)`
392			`is`
393			`Digs : String := Integer'Image (V);`
394			`-- Sign and digits of decimal value`
395
396			`begin`
397			`Set_Decimal_Digits (Digs, Digs'Length, S, P, Scale, Fore, Aft, Exp);`
398			`end Set_Image_Decimal;`
399
400			`end System.Img_Dec;`