Improve max_insns_skipped logic
[official-gcc.git] / gcc / ada / a-suenco.adb
blob54d142d7a6532adeefd8051a569d209f6519904a
1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME COMPONENTS --
4 -- --
5 -- ADA.STRINGS.UTF_ENCODING.CONVERSIONS --
6 -- --
7 -- B o d y --
8 -- --
9 -- Copyright (C) 2010-2014, 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 package body Ada.Strings.UTF_Encoding.Conversions is
33 use Interfaces;
35 -- Convert from UTF-8/UTF-16BE/LE to UTF-8/UTF-16BE/LE
37 function Convert
38 (Item : UTF_String;
39 Input_Scheme : Encoding_Scheme;
40 Output_Scheme : Encoding_Scheme;
41 Output_BOM : Boolean := False) return UTF_String
43 begin
44 -- Nothing to do if identical schemes, but for UTF_8 we need to
45 -- handle overlong encodings, so need to do the full conversion.
47 if Input_Scheme = Output_Scheme
48 and then Input_Scheme /= UTF_8
49 then
50 return Item;
52 -- For remaining cases, one or other of the operands is UTF-16BE/LE
53 -- encoded, or we have the UTF-8 to UTF-8 case where we must handle
54 -- overlong encodings. In all cases, go through UTF-16 intermediate.
56 else
57 return Convert (UTF_16_Wide_String'(Convert (Item, Input_Scheme)),
58 Output_Scheme, Output_BOM);
59 end if;
60 end Convert;
62 -- Convert from UTF-8/UTF-16BE/LE to UTF-16
64 function Convert
65 (Item : UTF_String;
66 Input_Scheme : Encoding_Scheme;
67 Output_BOM : Boolean := False) return UTF_16_Wide_String
69 begin
70 if Input_Scheme = UTF_8 then
71 return Convert (Item, Output_BOM);
72 else
73 return To_UTF_16 (Item, Input_Scheme, Output_BOM);
74 end if;
75 end Convert;
77 -- Convert from UTF-8 to UTF-16
79 function Convert
80 (Item : UTF_8_String;
81 Output_BOM : Boolean := False) return UTF_16_Wide_String
83 Result : UTF_16_Wide_String (1 .. Item'Length + 1);
84 -- Maximum length of result, including possible BOM
86 Len : Natural := 0;
87 -- Number of characters stored so far in Result
89 Iptr : Natural;
90 -- Next character to process in Item
92 C : Unsigned_8;
93 -- Input UTF-8 code
95 R : Unsigned_16;
96 -- Output UTF-16 code
98 procedure Get_Continuation;
99 -- Reads a continuation byte of the form 10xxxxxx, shifts R left by 6
100 -- bits, and or's in the xxxxxx to the low order 6 bits. On return Ptr
101 -- is incremented. Raises exception if continuation byte does not exist
102 -- or is invalid.
104 ----------------------
105 -- Get_Continuation --
106 ----------------------
108 procedure Get_Continuation is
109 begin
110 if Iptr > Item'Last then
111 Raise_Encoding_Error (Iptr - 1);
113 else
114 C := To_Unsigned_8 (Item (Iptr));
115 Iptr := Iptr + 1;
117 if C < 2#10_000000# or else C > 2#10_111111# then
118 Raise_Encoding_Error (Iptr - 1);
120 else
121 R :=
122 Shift_Left (R, 6) or Unsigned_16 (C and 2#00_111111#);
123 end if;
124 end if;
125 end Get_Continuation;
127 -- Start of processing for Convert
129 begin
130 -- Output BOM if required
132 if Output_BOM then
133 Len := Len + 1;
134 Result (Len) := BOM_16 (1);
135 end if;
137 -- Skip OK BOM
139 Iptr := Item'First;
141 if Item'Length >= 3 and then Item (Iptr .. Iptr + 2) = BOM_8 then
142 Iptr := Iptr + 3;
144 -- Error if bad BOM
146 elsif Item'Length >= 2
147 and then (Item (Iptr .. Iptr + 1) = BOM_16BE
148 or else
149 Item (Iptr .. Iptr + 1) = BOM_16LE)
150 then
151 Raise_Encoding_Error (Iptr);
153 -- No BOM present
155 else
156 Iptr := Item'First;
157 end if;
159 while Iptr <= Item'Last loop
160 C := To_Unsigned_8 (Item (Iptr));
161 Iptr := Iptr + 1;
163 -- Codes in the range 16#00# .. 16#7F#
164 -- UTF-8: 0xxxxxxx
165 -- UTF-16: 00000000_0xxxxxxx
167 if C <= 16#7F# then
168 Len := Len + 1;
169 Result (Len) := Wide_Character'Val (C);
171 -- No initial code can be of the form 10xxxxxx. Such codes are used
172 -- only for continuations.
174 elsif C <= 2#10_111111# then
175 Raise_Encoding_Error (Iptr - 1);
177 -- Codes in the range 16#80# .. 16#7FF#
178 -- UTF-8: 110yyyxx 10xxxxxx
179 -- UTF-16: 00000yyy_xxxxxxxx
181 elsif C <= 2#110_11111# then
182 R := Unsigned_16 (C and 2#000_11111#);
183 Get_Continuation;
184 Len := Len + 1;
185 Result (Len) := Wide_Character'Val (R);
187 -- Codes in the range 16#800# .. 16#D7FF or 16#DF01# .. 16#FFFF#
188 -- UTF-8: 1110yyyy 10yyyyxx 10xxxxxx
189 -- UTF-16: yyyyyyyy_xxxxxxxx
191 elsif C <= 2#1110_1111# then
192 R := Unsigned_16 (C and 2#0000_1111#);
193 Get_Continuation;
194 Get_Continuation;
195 Len := Len + 1;
196 Result (Len) := Wide_Character'Val (R);
198 -- Make sure that we don't have a result in the forbidden range
199 -- reserved for UTF-16 surrogate characters.
201 if R in 16#D800# .. 16#DF00# then
202 Raise_Encoding_Error (Iptr - 3);
203 end if;
205 -- Codes in the range 16#10000# .. 16#10FFFF#
206 -- UTF-8: 11110zzz 10zzyyyy 10yyyyxx 10xxxxxx
207 -- UTF-16: 110110zz_zzyyyyyy 110111yy_xxxxxxxx
208 -- Note: zzzz in the output is input zzzzz - 1
210 elsif C <= 2#11110_111# then
211 R := Unsigned_16 (C and 2#00000_111#);
212 Get_Continuation;
214 -- R now has zzzzzyyyy
216 -- At this stage, we check for the case where we have an overlong
217 -- encoding, and the encoded value in fact lies in the single word
218 -- range (16#800# .. 16#D7FF or 16#DF01# .. 16#FFFF#). This means
219 -- that the result fits in a single result word.
221 if R <= 2#1111# then
222 Get_Continuation;
223 Get_Continuation;
225 -- Make sure we are not in the forbidden surrogate range
227 if R in 16#D800# .. 16#DF00# then
228 Raise_Encoding_Error (Iptr - 3);
229 end if;
231 -- Otherwise output a single UTF-16 value
233 Len := Len + 1;
234 Result (Len) := Wide_Character'Val (R);
236 -- Here for normal case (code value > 16#FFFF and zzzzz non-zero)
238 else
239 -- Subtract 1 from input zzzzz value to get output zzzz value
241 R := R - 2#0000_1_0000#;
243 -- R now has zzzzyyyy (zzzz minus one for the output)
245 Get_Continuation;
247 -- R now has zzzzyy_yyyyyyxx
249 Len := Len + 1;
250 Result (Len) :=
251 Wide_Character'Val
252 (2#110110_00_0000_0000# or Shift_Right (R, 4));
254 R := R and 2#1111#;
255 Get_Continuation;
256 Len := Len + 1;
257 Result (Len) :=
258 Wide_Character'Val (2#110111_00_0000_0000# or R);
259 end if;
261 -- Any other code is an error
263 else
264 Raise_Encoding_Error (Iptr - 1);
265 end if;
266 end loop;
268 return Result (1 .. Len);
269 end Convert;
271 -- Convert from UTF-16 to UTF-8/UTF-16-BE/LE
273 function Convert
274 (Item : UTF_16_Wide_String;
275 Output_Scheme : Encoding_Scheme;
276 Output_BOM : Boolean := False) return UTF_String
278 begin
279 if Output_Scheme = UTF_8 then
280 return Convert (Item, Output_BOM);
281 else
282 return From_UTF_16 (Item, Output_Scheme, Output_BOM);
283 end if;
284 end Convert;
286 -- Convert from UTF-16 to UTF-8
288 function Convert
289 (Item : UTF_16_Wide_String;
290 Output_BOM : Boolean := False) return UTF_8_String
292 Result : UTF_8_String (1 .. 3 * Item'Length + 3);
293 -- Worst case is 3 output codes for each input code + BOM space
295 Len : Natural;
296 -- Number of result codes stored
298 Iptr : Natural;
299 -- Pointer to next input character
301 C1, C2 : Unsigned_16;
303 zzzzz : Unsigned_16;
304 yyyyyyyy : Unsigned_16;
305 xxxxxxxx : Unsigned_16;
306 -- Components of double length case
308 begin
309 Iptr := Item'First;
311 -- Skip BOM at start of input
313 if Item'Length > 0 and then Item (Iptr) = BOM_16 (1) then
314 Iptr := Iptr + 1;
315 end if;
317 -- Generate output BOM if required
319 if Output_BOM then
320 Result (1 .. 3) := BOM_8;
321 Len := 3;
322 else
323 Len := 0;
324 end if;
326 -- Loop through input
328 while Iptr <= Item'Last loop
329 C1 := To_Unsigned_16 (Item (Iptr));
330 Iptr := Iptr + 1;
332 -- Codes in the range 16#0000# - 16#007F#
333 -- UTF-16: 000000000xxxxxxx
334 -- UTF-8: 0xxxxxxx
336 if C1 <= 16#007F# then
337 Result (Len + 1) := Character'Val (C1);
338 Len := Len + 1;
340 -- Codes in the range 16#80# - 16#7FF#
341 -- UTF-16: 00000yyyxxxxxxxx
342 -- UTF-8: 110yyyxx 10xxxxxx
344 elsif C1 <= 16#07FF# then
345 Result (Len + 1) :=
346 Character'Val
347 (2#110_00000# or Shift_Right (C1, 6));
348 Result (Len + 2) :=
349 Character'Val
350 (2#10_000000# or (C1 and 2#00_111111#));
351 Len := Len + 2;
353 -- Codes in the range 16#800# - 16#D7FF# or 16#E000# - 16#FFFF#
354 -- UTF-16: yyyyyyyyxxxxxxxx
355 -- UTF-8: 1110yyyy 10yyyyxx 10xxxxxx
357 elsif C1 <= 16#D7FF# or else C1 >= 16#E000# then
358 Result (Len + 1) :=
359 Character'Val
360 (2#1110_0000# or Shift_Right (C1, 12));
361 Result (Len + 2) :=
362 Character'Val
363 (2#10_000000# or (Shift_Right (C1, 6) and 2#00_111111#));
364 Result (Len + 3) :=
365 Character'Val
366 (2#10_000000# or (C1 and 2#00_111111#));
367 Len := Len + 3;
369 -- Codes in the range 16#10000# - 16#10FFFF#
370 -- UTF-16: 110110zzzzyyyyyy 110111yyxxxxxxxx
371 -- UTF-8: 11110zzz 10zzyyyy 10yyyyxx 10xxxxxx
372 -- Note: zzzzz in the output is input zzzz + 1
374 elsif C1 <= 2#110110_11_11111111# then
375 if Iptr > Item'Last then
376 Raise_Encoding_Error (Iptr - 1);
377 else
378 C2 := To_Unsigned_16 (Item (Iptr));
379 Iptr := Iptr + 1;
380 end if;
382 if (C2 and 2#111111_00_00000000#) /= 2#110111_00_00000000# then
383 Raise_Encoding_Error (Iptr - 1);
384 end if;
386 zzzzz := (Shift_Right (C1, 6) and 2#1111#) + 1;
387 yyyyyyyy := ((Shift_Left (C1, 2) and 2#111111_00#)
389 (Shift_Right (C2, 8) and 2#000000_11#));
390 xxxxxxxx := C2 and 2#11111111#;
392 Result (Len + 1) :=
393 Character'Val
394 (2#11110_000# or (Shift_Right (zzzzz, 2)));
395 Result (Len + 2) :=
396 Character'Val
397 (2#10_000000# or Shift_Left (zzzzz and 2#11#, 4)
398 or Shift_Right (yyyyyyyy, 4));
399 Result (Len + 3) :=
400 Character'Val
401 (2#10_000000# or Shift_Left (yyyyyyyy and 2#1111#, 4)
402 or Shift_Right (xxxxxxxx, 6));
403 Result (Len + 4) :=
404 Character'Val
405 (2#10_000000# or (xxxxxxxx and 2#00_111111#));
406 Len := Len + 4;
408 -- Error if input in 16#DC00# - 16#DFFF# (2nd surrogate with no 1st)
410 else
411 Raise_Encoding_Error (Iptr - 2);
412 end if;
413 end loop;
415 return Result (1 .. Len);
416 end Convert;
418 end Ada.Strings.UTF_Encoding.Conversions;