i386: Update INCOMING_FRAME_SP_OFFSET for exception handler
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- G N A T . A R R A Y _ S P L I T --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2002-2016, 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 ------------------------------------------------------------------------------
32 with Ada.Unchecked_Deallocation;
34 package body GNAT.Array_Split is
36 procedure Free is
37 new Ada.Unchecked_Deallocation (Slices_Indexes, Slices_Access);
39 procedure Free is
40 new Ada.Unchecked_Deallocation (Separators_Indexes, Indexes_Access);
42 function Count
43 (Source : Element_Sequence;
44 Pattern : Element_Set) return Natural;
45 -- Returns the number of occurrences of Pattern elements in Source, 0 is
46 -- returned if no occurrence is found in Source.
48 ------------
49 -- Adjust --
50 ------------
52 procedure Adjust (S : in out Slice_Set) is
53 begin
54 S.D.Ref_Counter := S.D.Ref_Counter + 1;
55 end Adjust;
57 ------------
58 -- Create --
59 ------------
61 procedure Create
62 (S : out Slice_Set;
63 From : Element_Sequence;
64 Separators : Element_Sequence;
65 Mode : Separator_Mode := Single)
67 begin
68 Create (S, From, To_Set (Separators), Mode);
69 end Create;
71 ------------
72 -- Create --
73 ------------
75 procedure Create
76 (S : out Slice_Set;
77 From : Element_Sequence;
78 Separators : Element_Set;
79 Mode : Separator_Mode := Single)
81 Result : Slice_Set;
82 begin
83 Result.D.Source := new Element_Sequence'(From);
84 Set (Result, Separators, Mode);
85 S := Result;
86 end Create;
88 -----------
89 -- Count --
90 -----------
92 function Count
93 (Source : Element_Sequence;
94 Pattern : Element_Set) return Natural
96 C : Natural := 0;
97 begin
98 for K in Source'Range loop
99 if Is_In (Source (K), Pattern) then
100 C := C + 1;
101 end if;
102 end loop;
104 return C;
105 end Count;
107 --------------
108 -- Finalize --
109 --------------
111 procedure Finalize (S : in out Slice_Set) is
113 procedure Free is
114 new Ada.Unchecked_Deallocation (Element_Sequence, Element_Access);
116 procedure Free is
117 new Ada.Unchecked_Deallocation (Data, Data_Access);
119 D : Data_Access := S.D;
121 begin
122 -- Ensure call is idempotent
124 S.D := null;
126 if D /= null then
127 D.Ref_Counter := D.Ref_Counter - 1;
129 if D.Ref_Counter = 0 then
130 Free (D.Source);
131 Free (D.Indexes);
132 Free (D.Slices);
133 Free (D);
134 end if;
135 end if;
136 end Finalize;
138 ----------------
139 -- Initialize --
140 ----------------
142 procedure Initialize (S : in out Slice_Set) is
143 begin
144 S.D := new Data'(1, null, 0, null, null);
145 end Initialize;
147 ----------------
148 -- Separators --
149 ----------------
151 function Separators
152 (S : Slice_Set;
153 Index : Slice_Number) return Slice_Separators
155 begin
156 if Index > S.D.N_Slice then
157 raise Index_Error;
159 elsif Index = 0
160 or else (Index = 1 and then S.D.N_Slice = 1)
161 then
162 -- Whole string, or no separator used
164 return (Before => Array_End,
165 After => Array_End);
167 elsif Index = 1 then
168 return (Before => Array_End,
169 After => S.D.Source (S.D.Slices (Index).Stop + 1));
171 elsif Index = S.D.N_Slice then
172 return (Before => S.D.Source (S.D.Slices (Index).Start - 1),
173 After => Array_End);
175 else
176 return (Before => S.D.Source (S.D.Slices (Index).Start - 1),
177 After => S.D.Source (S.D.Slices (Index).Stop + 1));
178 end if;
179 end Separators;
181 ----------------
182 -- Separators --
183 ----------------
185 function Separators (S : Slice_Set) return Separators_Indexes is
186 begin
187 return S.D.Indexes.all;
188 end Separators;
190 ---------
191 -- Set --
192 ---------
194 procedure Set
195 (S : in out Slice_Set;
196 Separators : Element_Sequence;
197 Mode : Separator_Mode := Single)
199 begin
200 Set (S, To_Set (Separators), Mode);
201 end Set;
203 ---------
204 -- Set --
205 ---------
207 procedure Set
208 (S : in out Slice_Set;
209 Separators : Element_Set;
210 Mode : Separator_Mode := Single)
213 procedure Copy_On_Write (S : in out Slice_Set);
214 -- Make a copy of S if shared with another variable
216 -------------------
217 -- Copy_On_Write --
218 -------------------
220 procedure Copy_On_Write (S : in out Slice_Set) is
221 begin
222 if S.D.Ref_Counter > 1 then
223 -- First let's remove our count from the current data
225 S.D.Ref_Counter := S.D.Ref_Counter - 1;
227 -- Then duplicate the data
229 S.D := new Data'(S.D.all);
230 S.D.Ref_Counter := 1;
232 if S.D.Source /= null then
233 S.D.Source := new Element_Sequence'(S.D.Source.all);
234 S.D.Indexes := null;
235 S.D.Slices := null;
236 end if;
238 else
239 -- If there is a single reference to this variable, free it now
240 -- as it will be redefined below.
242 Free (S.D.Indexes);
243 Free (S.D.Slices);
244 end if;
245 end Copy_On_Write;
247 Count_Sep : constant Natural := Count (S.D.Source.all, Separators);
248 J : Positive;
250 begin
251 Copy_On_Write (S);
253 -- Compute all separator's indexes
255 S.D.Indexes := new Separators_Indexes (1 .. Count_Sep);
256 J := S.D.Indexes'First;
258 for K in S.D.Source'Range loop
259 if Is_In (S.D.Source (K), Separators) then
260 S.D.Indexes (J) := K;
261 J := J + 1;
262 end if;
263 end loop;
265 -- Compute slice info for fast slice access
267 declare
268 S_Info : Slices_Indexes (1 .. Slice_Number (Count_Sep) + 1);
269 K : Natural := 1;
270 Start, Stop : Natural;
272 begin
273 S.D.N_Slice := 0;
275 Start := S.D.Source'First;
276 Stop := 0;
278 loop
279 if K > Count_Sep then
281 -- No more separators, last slice ends at end of source string
283 Stop := S.D.Source'Last;
285 else
286 Stop := S.D.Indexes (K) - 1;
287 end if;
289 -- Add slice to the table
291 S.D.N_Slice := S.D.N_Slice + 1;
292 S_Info (S.D.N_Slice) := (Start, Stop);
294 exit when K > Count_Sep;
296 case Mode is
297 when Single =>
299 -- In this mode just set start to character next to the
300 -- current separator, advance the separator index.
302 Start := S.D.Indexes (K) + 1;
303 K := K + 1;
305 when Multiple =>
307 -- In this mode skip separators following each other
309 loop
310 Start := S.D.Indexes (K) + 1;
311 K := K + 1;
312 exit when K > Count_Sep
313 or else S.D.Indexes (K) > S.D.Indexes (K - 1) + 1;
314 end loop;
315 end case;
316 end loop;
318 S.D.Slices := new Slices_Indexes'(S_Info (1 .. S.D.N_Slice));
319 end;
320 end Set;
322 -----------
323 -- Slice --
324 -----------
326 function Slice
327 (S : Slice_Set;
328 Index : Slice_Number) return Element_Sequence
330 begin
331 if Index = 0 then
332 return S.D.Source.all;
334 elsif Index > S.D.N_Slice then
335 raise Index_Error;
337 else
338 return
339 S.D.Source (S.D.Slices (Index).Start .. S.D.Slices (Index).Stop);
340 end if;
341 end Slice;
343 -----------------
344 -- Slice_Count --
345 -----------------
347 function Slice_Count (S : Slice_Set) return Slice_Number is
348 begin
349 return S.D.N_Slice;
350 end Slice_Count;
352 end GNAT.Array_Split;