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Daily bump.
[official-gcc.git] / gcc / ada / s-valllu.adb
blobab5752f4c7c41d04926a8e53108bdb50c1618329
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- S Y S T E M . V A L _ L L U --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 1992-2006, 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 2, 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. See the GNU General Public License --
17 -- for more details. You should have received a copy of the GNU General --
18 -- Public License distributed with GNAT; see file COPYING. If not, write --
19 -- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
20 -- Boston, MA 02110-1301, USA. --
21 -- --
22 -- As a special exception, if other files instantiate generics from this --
23 -- unit, or you link this unit with other files to produce an executable, --
24 -- this unit does not by itself cause the resulting executable to be --
25 -- covered by the GNU General Public License. This exception does not --
26 -- however invalidate any other reasons why the executable file might be --
27 -- covered by the GNU Public License. --
28 -- --
29 -- GNAT was originally developed by the GNAT team at New York University. --
30 -- Extensive contributions were provided by Ada Core Technologies Inc. --
31 -- --
32 ------------------------------------------------------------------------------
33
34 with System.Unsigned_Types; use System.Unsigned_Types;
35 with System.Val_Util; use System.Val_Util;
36
37 package body System.Val_LLU is
38
39 ---------------------------------
40 -- Scan_Raw_Long_Long_Unsigned --
41 ---------------------------------
42
43 function Scan_Raw_Long_Long_Unsigned
44 (Str : String;
45 Ptr : access Integer;
46 Max : Integer) return Long_Long_Unsigned
47 is
48 P : Integer;
49 -- Local copy of the pointer
50
51 Uval : Long_Long_Unsigned;
52 -- Accumulated unsigned integer result
53
54 Expon : Integer;
55 -- Exponent value
56
57 Overflow : Boolean := False;
58 -- Set True if overflow is detected at any point
59
60 Base_Char : Character;
61 -- Base character (# or :) in based case
62
63 Base : Long_Long_Unsigned := 10;
64 -- Base value (reset in based case)
65
66 Digit : Long_Long_Unsigned;
67 -- Digit value
68
69 begin
70 P := Ptr.all;
71 Uval := Character'Pos (Str (P)) - Character'Pos ('0');
72 P := P + 1;
73
74 -- Scan out digits of what is either the number or the base.
75 -- In either case, we are definitely scanning out in base 10.
76
77 declare
78 Umax : constant := (Long_Long_Unsigned'Last - 9) / 10;
79 -- Max value which cannot overflow on accumulating next digit
80
81 Umax10 : constant := Long_Long_Unsigned'Last / 10;
82 -- Numbers bigger than Umax10 overflow if multiplied by 10
83
84 begin
85 -- Loop through decimal digits
86 loop
87 exit when P > Max;
88
89 Digit := Character'Pos (Str (P)) - Character'Pos ('0');
90
91 -- Non-digit encountered
92
93 if Digit > 9 then
94 if Str (P) = '_' then
95 Scan_Underscore (Str, P, Ptr, Max, False);
96 else
97 exit;
98 end if;
99
100 -- Accumulate result, checking for overflow
101
102 else
103 if Uval <= Umax then
104 Uval := 10 * Uval + Digit;
105
106 elsif Uval > Umax10 then
107 Overflow := True;
108
109 else
110 Uval := 10 * Uval + Digit;
111
112 if Uval < Umax10 then
113 Overflow := True;
114 end if;
115 end if;
116
117 P := P + 1;
118 end if;
119 end loop;
120 end;
121
122 Ptr.all := P;
123
124 -- Deal with based case
125
126 if P < Max and then (Str (P) = ':' or else Str (P) = '#') then
127 Base_Char := Str (P);
128 P := P + 1;
129 Base := Uval;
130 Uval := 0;
131
132 -- Check base value. Overflow is set True if we find a bad base, or
133 -- a digit that is out of range of the base. That way, we scan out
134 -- the numeral that is still syntactically correct, though illegal.
135 -- We use a safe base of 16 for this scan, to avoid zero divide.
136
137 if Base not in 2 .. 16 then
138 Overflow := True;
139 Base := 16;
140 end if;
141
142 -- Scan out based integer
143
144 declare
145 Umax : constant Long_Long_Unsigned :=
146 (Long_Long_Unsigned'Last - Base + 1) / Base;
147 -- Max value which cannot overflow on accumulating next digit
148
149 UmaxB : constant Long_Long_Unsigned :=
150 Long_Long_Unsigned'Last / Base;
151 -- Numbers bigger than UmaxB overflow if multiplied by base
152
153 begin
154 -- Loop to scan out based integer value
155
156 loop
157 -- We require a digit at this stage
158
159 if Str (P) in '0' .. '9' then
160 Digit := Character'Pos (Str (P)) - Character'Pos ('0');
161
162 elsif Str (P) in 'A' .. 'F' then
163 Digit :=
164 Character'Pos (Str (P)) - (Character'Pos ('A') - 10);
165
166 elsif Str (P) in 'a' .. 'f' then
167 Digit :=
168 Character'Pos (Str (P)) - (Character'Pos ('a') - 10);
169
170 -- If we don't have a digit, then this is not a based number
171 -- after all, so we use the value we scanned out as the base
172 -- (now in Base), and the pointer to the base character was
173 -- already stored in Ptr.all.
174
175 else
176 Uval := Base;
177 exit;
178 end if;
179
180 -- If digit is too large, just signal overflow and continue.
181 -- The idea here is to keep scanning as long as the input is
182 -- syntactically valid, even if we have detected overflow
183
184 if Digit >= Base then
185 Overflow := True;
186
187 -- Here we accumulate the value, checking overflow
188
189 elsif Uval <= Umax then
190 Uval := Base * Uval + Digit;
191
192 elsif Uval > UmaxB then
193 Overflow := True;
194
195 else
196 Uval := Base * Uval + Digit;
197
198 if Uval < UmaxB then
199 Overflow := True;
200 end if;
201 end if;
202
203 -- If at end of string with no base char, not a based number
204 -- but we signal Constraint_Error and set the pointer past
205 -- the end of the field, since this is what the ACVC tests
206 -- seem to require, see CE3704N, line 204.
207
208 P := P + 1;
209
210 if P > Max then
211 Ptr.all := P;
212 raise Constraint_Error;
213 end if;
214
215 -- If terminating base character, we are done with loop
216
217 if Str (P) = Base_Char then
218 Ptr.all := P + 1;
219 exit;
220
221 -- Deal with underscore
222
223 elsif Str (P) = '_' then
224 Scan_Underscore (Str, P, Ptr, Max, True);
225 end if;
226
227 end loop;
228 end;
229 end if;
230
231 -- Come here with scanned unsigned value in Uval. The only remaining
232 -- required step is to deal with exponent if one is present.
233
234 Expon := Scan_Exponent (Str, Ptr, Max);
235
236 if Expon /= 0 and then Uval /= 0 then
237
238 -- For non-zero value, scale by exponent value. No need to do this
239 -- efficiently, since use of exponent in integer literals is rare,
240 -- and in any case the exponent cannot be very large.
241
242 declare
243 UmaxB : constant Long_Long_Unsigned :=
244 Long_Long_Unsigned'Last / Base;
245 -- Numbers bigger than UmaxB overflow if multiplied by base
246
247 begin
248 for J in 1 .. Expon loop
249 if Uval > UmaxB then
250 Overflow := True;
251 exit;
252 end if;
253
254 Uval := Uval * Base;
255 end loop;
256 end;
257 end if;
258
259 -- Return result, dealing with sign and overflow
260
261 if Overflow then
262 raise Constraint_Error;
263 else
264 return Uval;
265 end if;
266 end Scan_Raw_Long_Long_Unsigned;
267
268 -----------------------------
269 -- Scan_Long_Long_Unsigned --
270 -----------------------------
271
272 function Scan_Long_Long_Unsigned
273 (Str : String;
274 Ptr : access Integer;
275 Max : Integer) return Long_Long_Unsigned
276 is
277 Start : Positive;
278 -- Save location of first non-blank character
279
280 begin
281 Scan_Plus_Sign (Str, Ptr, Max, Start);
282
283 if Str (Ptr.all) not in '0' .. '9' then
284 Ptr.all := Start;
285 raise Constraint_Error;
286 end if;
287
288 return Scan_Raw_Long_Long_Unsigned (Str, Ptr, Max);
289 end Scan_Long_Long_Unsigned;
290
291 ------------------------------
292 -- Value_Long_Long_Unsigned --
293 ------------------------------
294
295 function Value_Long_Long_Unsigned
296 (Str : String) return Long_Long_Unsigned
297 is
298 V : Long_Long_Unsigned;
299 P : aliased Integer := Str'First;
300 begin
301 V := Scan_Long_Long_Unsigned (Str, P'Access, Str'Last);
302 Scan_Trailing_Blanks (Str, P);
303 return V;
304 end Value_Long_Long_Unsigned;
305
306 end System.Val_LLU;
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