Mercurial > hg > CbC > CbC_gcc
annotate gcc/convert.c @ 90:99e7b6776dd1
implemeted __rectype expression. add CbC-exanples/fact-rectype.s
author | Nobuyasu Oshiro <dimolto@cr.ie.u-ryukyu.ac.jp> |
---|---|
date | Sun, 25 Dec 2011 04:04:42 +0900 |
parents | f6334be47118 |
children | 04ced10e8804 |
rev | line source |
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0 | 1 /* Utility routines for data type conversion for GCC. |
2 Copyright (C) 1987, 1988, 1991, 1992, 1993, 1994, 1995, 1997, 1998, | |
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3 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 |
0 | 4 Free Software Foundation, Inc. |
5 | |
6 This file is part of GCC. | |
7 | |
8 GCC is free software; you can redistribute it and/or modify it under | |
9 the terms of the GNU General Public License as published by the Free | |
10 Software Foundation; either version 3, or (at your option) any later | |
11 version. | |
12 | |
13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY | |
14 WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
16 for more details. | |
17 | |
18 You should have received a copy of the GNU General Public License | |
19 along with GCC; see the file COPYING3. If not see | |
20 <http://www.gnu.org/licenses/>. */ | |
21 | |
22 | |
23 /* These routines are somewhat language-independent utility function | |
24 intended to be called by the language-specific convert () functions. */ | |
25 | |
26 #include "config.h" | |
27 #include "system.h" | |
28 #include "coretypes.h" | |
29 #include "tm.h" | |
30 #include "tree.h" | |
31 #include "flags.h" | |
32 #include "convert.h" | |
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33 #include "diagnostic-core.h" |
0 | 34 #include "langhooks.h" |
35 | |
36 /* Convert EXPR to some pointer or reference type TYPE. | |
37 EXPR must be pointer, reference, integer, enumeral, or literal zero; | |
38 in other cases error is called. */ | |
39 | |
40 tree | |
41 convert_to_pointer (tree type, tree expr) | |
42 { | |
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43 location_t loc = EXPR_LOCATION (expr); |
0 | 44 if (TREE_TYPE (expr) == type) |
45 return expr; | |
46 | |
47 /* Propagate overflow to the NULL pointer. */ | |
48 if (integer_zerop (expr)) | |
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49 return force_fit_type_double (type, double_int_zero, 0, |
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50 TREE_OVERFLOW (expr)); |
0 | 51 |
52 switch (TREE_CODE (TREE_TYPE (expr))) | |
53 { | |
54 case POINTER_TYPE: | |
55 case REFERENCE_TYPE: | |
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56 { |
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57 /* If the pointers point to different address spaces, conversion needs |
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58 to be done via a ADDR_SPACE_CONVERT_EXPR instead of a NOP_EXPR. */ |
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59 addr_space_t to_as = TYPE_ADDR_SPACE (TREE_TYPE (type)); |
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60 addr_space_t from_as = TYPE_ADDR_SPACE (TREE_TYPE (TREE_TYPE (expr))); |
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61 |
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62 if (to_as == from_as) |
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63 return fold_build1_loc (loc, NOP_EXPR, type, expr); |
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64 else |
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65 return fold_build1_loc (loc, ADDR_SPACE_CONVERT_EXPR, type, expr); |
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66 } |
0 | 67 |
68 case INTEGER_TYPE: | |
69 case ENUMERAL_TYPE: | |
70 case BOOLEAN_TYPE: | |
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71 { |
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72 /* If the input precision differs from the target pointer type |
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73 precision, first convert the input expression to an integer type of |
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74 the target precision. Some targets, e.g. VMS, need several pointer |
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75 sizes to coexist so the latter isn't necessarily POINTER_SIZE. */ |
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76 unsigned int pprec = TYPE_PRECISION (type); |
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77 unsigned int eprec = TYPE_PRECISION (TREE_TYPE (expr)); |
0 | 78 |
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79 if (eprec != pprec) |
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80 expr = fold_build1_loc (loc, NOP_EXPR, |
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81 lang_hooks.types.type_for_size (pprec, 0), |
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82 expr); |
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83 } |
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84 |
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85 return fold_build1_loc (loc, CONVERT_EXPR, type, expr); |
0 | 86 |
87 default: | |
88 error ("cannot convert to a pointer type"); | |
89 return convert_to_pointer (type, integer_zero_node); | |
90 } | |
91 } | |
92 | |
93 /* Avoid any floating point extensions from EXP. */ | |
94 tree | |
95 strip_float_extensions (tree exp) | |
96 { | |
97 tree sub, expt, subt; | |
98 | |
99 /* For floating point constant look up the narrowest type that can hold | |
100 it properly and handle it like (type)(narrowest_type)constant. | |
101 This way we can optimize for instance a=a*2.0 where "a" is float | |
102 but 2.0 is double constant. */ | |
103 if (TREE_CODE (exp) == REAL_CST && !DECIMAL_FLOAT_TYPE_P (TREE_TYPE (exp))) | |
104 { | |
105 REAL_VALUE_TYPE orig; | |
106 tree type = NULL; | |
107 | |
108 orig = TREE_REAL_CST (exp); | |
109 if (TYPE_PRECISION (TREE_TYPE (exp)) > TYPE_PRECISION (float_type_node) | |
110 && exact_real_truncate (TYPE_MODE (float_type_node), &orig)) | |
111 type = float_type_node; | |
112 else if (TYPE_PRECISION (TREE_TYPE (exp)) | |
113 > TYPE_PRECISION (double_type_node) | |
114 && exact_real_truncate (TYPE_MODE (double_type_node), &orig)) | |
115 type = double_type_node; | |
116 if (type) | |
117 return build_real (type, real_value_truncate (TYPE_MODE (type), orig)); | |
118 } | |
119 | |
120 if (!CONVERT_EXPR_P (exp)) | |
121 return exp; | |
122 | |
123 sub = TREE_OPERAND (exp, 0); | |
124 subt = TREE_TYPE (sub); | |
125 expt = TREE_TYPE (exp); | |
126 | |
127 if (!FLOAT_TYPE_P (subt)) | |
128 return exp; | |
129 | |
130 if (DECIMAL_FLOAT_TYPE_P (expt) != DECIMAL_FLOAT_TYPE_P (subt)) | |
131 return exp; | |
132 | |
133 if (TYPE_PRECISION (subt) > TYPE_PRECISION (expt)) | |
134 return exp; | |
135 | |
136 return strip_float_extensions (sub); | |
137 } | |
138 | |
139 | |
140 /* Convert EXPR to some floating-point type TYPE. | |
141 | |
142 EXPR must be float, fixed-point, integer, or enumeral; | |
143 in other cases error is called. */ | |
144 | |
145 tree | |
146 convert_to_real (tree type, tree expr) | |
147 { | |
148 enum built_in_function fcode = builtin_mathfn_code (expr); | |
149 tree itype = TREE_TYPE (expr); | |
150 | |
151 /* Disable until we figure out how to decide whether the functions are | |
152 present in runtime. */ | |
153 /* Convert (float)sqrt((double)x) where x is float into sqrtf(x) */ | |
154 if (optimize | |
155 && (TYPE_MODE (type) == TYPE_MODE (double_type_node) | |
156 || TYPE_MODE (type) == TYPE_MODE (float_type_node))) | |
157 { | |
158 switch (fcode) | |
159 { | |
160 #define CASE_MATHFN(FN) case BUILT_IN_##FN: case BUILT_IN_##FN##L: | |
161 CASE_MATHFN (COSH) | |
162 CASE_MATHFN (EXP) | |
163 CASE_MATHFN (EXP10) | |
164 CASE_MATHFN (EXP2) | |
165 CASE_MATHFN (EXPM1) | |
166 CASE_MATHFN (GAMMA) | |
167 CASE_MATHFN (J0) | |
168 CASE_MATHFN (J1) | |
169 CASE_MATHFN (LGAMMA) | |
170 CASE_MATHFN (POW10) | |
171 CASE_MATHFN (SINH) | |
172 CASE_MATHFN (TGAMMA) | |
173 CASE_MATHFN (Y0) | |
174 CASE_MATHFN (Y1) | |
175 /* The above functions may set errno differently with float | |
176 input or output so this transformation is not safe with | |
177 -fmath-errno. */ | |
178 if (flag_errno_math) | |
179 break; | |
180 CASE_MATHFN (ACOS) | |
181 CASE_MATHFN (ACOSH) | |
182 CASE_MATHFN (ASIN) | |
183 CASE_MATHFN (ASINH) | |
184 CASE_MATHFN (ATAN) | |
185 CASE_MATHFN (ATANH) | |
186 CASE_MATHFN (CBRT) | |
187 CASE_MATHFN (COS) | |
188 CASE_MATHFN (ERF) | |
189 CASE_MATHFN (ERFC) | |
190 CASE_MATHFN (FABS) | |
191 CASE_MATHFN (LOG) | |
192 CASE_MATHFN (LOG10) | |
193 CASE_MATHFN (LOG2) | |
194 CASE_MATHFN (LOG1P) | |
195 CASE_MATHFN (LOGB) | |
196 CASE_MATHFN (SIN) | |
197 CASE_MATHFN (SQRT) | |
198 CASE_MATHFN (TAN) | |
199 CASE_MATHFN (TANH) | |
200 #undef CASE_MATHFN | |
201 { | |
202 tree arg0 = strip_float_extensions (CALL_EXPR_ARG (expr, 0)); | |
203 tree newtype = type; | |
204 | |
205 /* We have (outertype)sqrt((innertype)x). Choose the wider mode from | |
206 the both as the safe type for operation. */ | |
207 if (TYPE_PRECISION (TREE_TYPE (arg0)) > TYPE_PRECISION (type)) | |
208 newtype = TREE_TYPE (arg0); | |
209 | |
210 /* Be careful about integer to fp conversions. | |
211 These may overflow still. */ | |
212 if (FLOAT_TYPE_P (TREE_TYPE (arg0)) | |
213 && TYPE_PRECISION (newtype) < TYPE_PRECISION (itype) | |
214 && (TYPE_MODE (newtype) == TYPE_MODE (double_type_node) | |
215 || TYPE_MODE (newtype) == TYPE_MODE (float_type_node))) | |
216 { | |
217 tree fn = mathfn_built_in (newtype, fcode); | |
218 | |
219 if (fn) | |
220 { | |
221 tree arg = fold (convert_to_real (newtype, arg0)); | |
222 expr = build_call_expr (fn, 1, arg); | |
223 if (newtype == type) | |
224 return expr; | |
225 } | |
226 } | |
227 } | |
228 default: | |
229 break; | |
230 } | |
231 } | |
232 if (optimize | |
233 && (((fcode == BUILT_IN_FLOORL | |
234 || fcode == BUILT_IN_CEILL | |
235 || fcode == BUILT_IN_ROUNDL | |
236 || fcode == BUILT_IN_RINTL | |
237 || fcode == BUILT_IN_TRUNCL | |
238 || fcode == BUILT_IN_NEARBYINTL) | |
239 && (TYPE_MODE (type) == TYPE_MODE (double_type_node) | |
240 || TYPE_MODE (type) == TYPE_MODE (float_type_node))) | |
241 || ((fcode == BUILT_IN_FLOOR | |
242 || fcode == BUILT_IN_CEIL | |
243 || fcode == BUILT_IN_ROUND | |
244 || fcode == BUILT_IN_RINT | |
245 || fcode == BUILT_IN_TRUNC | |
246 || fcode == BUILT_IN_NEARBYINT) | |
247 && (TYPE_MODE (type) == TYPE_MODE (float_type_node))))) | |
248 { | |
249 tree fn = mathfn_built_in (type, fcode); | |
250 | |
251 if (fn) | |
252 { | |
253 tree arg = strip_float_extensions (CALL_EXPR_ARG (expr, 0)); | |
254 | |
255 /* Make sure (type)arg0 is an extension, otherwise we could end up | |
256 changing (float)floor(double d) into floorf((float)d), which is | |
257 incorrect because (float)d uses round-to-nearest and can round | |
258 up to the next integer. */ | |
259 if (TYPE_PRECISION (type) >= TYPE_PRECISION (TREE_TYPE (arg))) | |
260 return build_call_expr (fn, 1, fold (convert_to_real (type, arg))); | |
261 } | |
262 } | |
263 | |
264 /* Propagate the cast into the operation. */ | |
265 if (itype != type && FLOAT_TYPE_P (type)) | |
266 switch (TREE_CODE (expr)) | |
267 { | |
268 /* Convert (float)-x into -(float)x. This is safe for | |
269 round-to-nearest rounding mode. */ | |
270 case ABS_EXPR: | |
271 case NEGATE_EXPR: | |
272 if (!flag_rounding_math | |
273 && TYPE_PRECISION (type) < TYPE_PRECISION (TREE_TYPE (expr))) | |
274 return build1 (TREE_CODE (expr), type, | |
275 fold (convert_to_real (type, | |
276 TREE_OPERAND (expr, 0)))); | |
277 break; | |
278 /* Convert (outertype)((innertype0)a+(innertype1)b) | |
279 into ((newtype)a+(newtype)b) where newtype | |
280 is the widest mode from all of these. */ | |
281 case PLUS_EXPR: | |
282 case MINUS_EXPR: | |
283 case MULT_EXPR: | |
284 case RDIV_EXPR: | |
285 { | |
286 tree arg0 = strip_float_extensions (TREE_OPERAND (expr, 0)); | |
287 tree arg1 = strip_float_extensions (TREE_OPERAND (expr, 1)); | |
288 | |
289 if (FLOAT_TYPE_P (TREE_TYPE (arg0)) | |
290 && FLOAT_TYPE_P (TREE_TYPE (arg1)) | |
291 && DECIMAL_FLOAT_TYPE_P (itype) == DECIMAL_FLOAT_TYPE_P (type)) | |
292 { | |
293 tree newtype = type; | |
294 | |
295 if (TYPE_MODE (TREE_TYPE (arg0)) == SDmode | |
296 || TYPE_MODE (TREE_TYPE (arg1)) == SDmode | |
297 || TYPE_MODE (type) == SDmode) | |
298 newtype = dfloat32_type_node; | |
299 if (TYPE_MODE (TREE_TYPE (arg0)) == DDmode | |
300 || TYPE_MODE (TREE_TYPE (arg1)) == DDmode | |
301 || TYPE_MODE (type) == DDmode) | |
302 newtype = dfloat64_type_node; | |
303 if (TYPE_MODE (TREE_TYPE (arg0)) == TDmode | |
304 || TYPE_MODE (TREE_TYPE (arg1)) == TDmode | |
305 || TYPE_MODE (type) == TDmode) | |
306 newtype = dfloat128_type_node; | |
307 if (newtype == dfloat32_type_node | |
308 || newtype == dfloat64_type_node | |
309 || newtype == dfloat128_type_node) | |
310 { | |
311 expr = build2 (TREE_CODE (expr), newtype, | |
312 fold (convert_to_real (newtype, arg0)), | |
313 fold (convert_to_real (newtype, arg1))); | |
314 if (newtype == type) | |
315 return expr; | |
316 break; | |
317 } | |
318 | |
319 if (TYPE_PRECISION (TREE_TYPE (arg0)) > TYPE_PRECISION (newtype)) | |
320 newtype = TREE_TYPE (arg0); | |
321 if (TYPE_PRECISION (TREE_TYPE (arg1)) > TYPE_PRECISION (newtype)) | |
322 newtype = TREE_TYPE (arg1); | |
323 /* Sometimes this transformation is safe (cannot | |
324 change results through affecting double rounding | |
325 cases) and sometimes it is not. If NEWTYPE is | |
326 wider than TYPE, e.g. (float)((long double)double | |
327 + (long double)double) converted to | |
328 (float)(double + double), the transformation is | |
329 unsafe regardless of the details of the types | |
330 involved; double rounding can arise if the result | |
331 of NEWTYPE arithmetic is a NEWTYPE value half way | |
332 between two representable TYPE values but the | |
333 exact value is sufficiently different (in the | |
334 right direction) for this difference to be | |
335 visible in ITYPE arithmetic. If NEWTYPE is the | |
336 same as TYPE, however, the transformation may be | |
337 safe depending on the types involved: it is safe | |
338 if the ITYPE has strictly more than twice as many | |
339 mantissa bits as TYPE, can represent infinities | |
340 and NaNs if the TYPE can, and has sufficient | |
341 exponent range for the product or ratio of two | |
342 values representable in the TYPE to be within the | |
343 range of normal values of ITYPE. */ | |
344 if (TYPE_PRECISION (newtype) < TYPE_PRECISION (itype) | |
345 && (flag_unsafe_math_optimizations | |
346 || (TYPE_PRECISION (newtype) == TYPE_PRECISION (type) | |
347 && real_can_shorten_arithmetic (TYPE_MODE (itype), | |
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348 TYPE_MODE (type)) |
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349 && !excess_precision_type (newtype)))) |
0 | 350 { |
351 expr = build2 (TREE_CODE (expr), newtype, | |
352 fold (convert_to_real (newtype, arg0)), | |
353 fold (convert_to_real (newtype, arg1))); | |
354 if (newtype == type) | |
355 return expr; | |
356 } | |
357 } | |
358 } | |
359 break; | |
360 default: | |
361 break; | |
362 } | |
363 | |
364 switch (TREE_CODE (TREE_TYPE (expr))) | |
365 { | |
366 case REAL_TYPE: | |
367 /* Ignore the conversion if we don't need to store intermediate | |
368 results and neither type is a decimal float. */ | |
369 return build1 ((flag_float_store | |
370 || DECIMAL_FLOAT_TYPE_P (type) | |
371 || DECIMAL_FLOAT_TYPE_P (itype)) | |
372 ? CONVERT_EXPR : NOP_EXPR, type, expr); | |
373 | |
374 case INTEGER_TYPE: | |
375 case ENUMERAL_TYPE: | |
376 case BOOLEAN_TYPE: | |
377 return build1 (FLOAT_EXPR, type, expr); | |
378 | |
379 case FIXED_POINT_TYPE: | |
380 return build1 (FIXED_CONVERT_EXPR, type, expr); | |
381 | |
382 case COMPLEX_TYPE: | |
383 return convert (type, | |
384 fold_build1 (REALPART_EXPR, | |
385 TREE_TYPE (TREE_TYPE (expr)), expr)); | |
386 | |
387 case POINTER_TYPE: | |
388 case REFERENCE_TYPE: | |
389 error ("pointer value used where a floating point value was expected"); | |
390 return convert_to_real (type, integer_zero_node); | |
391 | |
392 default: | |
393 error ("aggregate value used where a float was expected"); | |
394 return convert_to_real (type, integer_zero_node); | |
395 } | |
396 } | |
397 | |
398 /* Convert EXPR to some integer (or enum) type TYPE. | |
399 | |
400 EXPR must be pointer, integer, discrete (enum, char, or bool), float, | |
401 fixed-point or vector; in other cases error is called. | |
402 | |
403 The result of this is always supposed to be a newly created tree node | |
404 not in use in any existing structure. */ | |
405 | |
406 tree | |
407 convert_to_integer (tree type, tree expr) | |
408 { | |
409 enum tree_code ex_form = TREE_CODE (expr); | |
410 tree intype = TREE_TYPE (expr); | |
411 unsigned int inprec = TYPE_PRECISION (intype); | |
412 unsigned int outprec = TYPE_PRECISION (type); | |
413 | |
414 /* An INTEGER_TYPE cannot be incomplete, but an ENUMERAL_TYPE can | |
415 be. Consider `enum E = { a, b = (enum E) 3 };'. */ | |
416 if (!COMPLETE_TYPE_P (type)) | |
417 { | |
418 error ("conversion to incomplete type"); | |
419 return error_mark_node; | |
420 } | |
421 | |
422 /* Convert e.g. (long)round(d) -> lround(d). */ | |
423 /* If we're converting to char, we may encounter differing behavior | |
424 between converting from double->char vs double->long->char. | |
425 We're in "undefined" territory but we prefer to be conservative, | |
426 so only proceed in "unsafe" math mode. */ | |
427 if (optimize | |
428 && (flag_unsafe_math_optimizations | |
429 || (long_integer_type_node | |
430 && outprec >= TYPE_PRECISION (long_integer_type_node)))) | |
431 { | |
432 tree s_expr = strip_float_extensions (expr); | |
433 tree s_intype = TREE_TYPE (s_expr); | |
434 const enum built_in_function fcode = builtin_mathfn_code (s_expr); | |
435 tree fn = 0; | |
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436 |
0 | 437 switch (fcode) |
438 { | |
439 CASE_FLT_FN (BUILT_IN_CEIL): | |
440 /* Only convert in ISO C99 mode. */ | |
441 if (!TARGET_C99_FUNCTIONS) | |
442 break; | |
443 if (outprec < TYPE_PRECISION (long_integer_type_node) | |
444 || (outprec == TYPE_PRECISION (long_integer_type_node) | |
445 && !TYPE_UNSIGNED (type))) | |
446 fn = mathfn_built_in (s_intype, BUILT_IN_LCEIL); | |
447 else if (outprec == TYPE_PRECISION (long_long_integer_type_node) | |
448 && !TYPE_UNSIGNED (type)) | |
449 fn = mathfn_built_in (s_intype, BUILT_IN_LLCEIL); | |
450 break; | |
451 | |
452 CASE_FLT_FN (BUILT_IN_FLOOR): | |
453 /* Only convert in ISO C99 mode. */ | |
454 if (!TARGET_C99_FUNCTIONS) | |
455 break; | |
456 if (outprec < TYPE_PRECISION (long_integer_type_node) | |
457 || (outprec == TYPE_PRECISION (long_integer_type_node) | |
458 && !TYPE_UNSIGNED (type))) | |
459 fn = mathfn_built_in (s_intype, BUILT_IN_LFLOOR); | |
460 else if (outprec == TYPE_PRECISION (long_long_integer_type_node) | |
461 && !TYPE_UNSIGNED (type)) | |
462 fn = mathfn_built_in (s_intype, BUILT_IN_LLFLOOR); | |
463 break; | |
464 | |
465 CASE_FLT_FN (BUILT_IN_ROUND): | |
466 if (outprec < TYPE_PRECISION (long_integer_type_node) | |
467 || (outprec == TYPE_PRECISION (long_integer_type_node) | |
468 && !TYPE_UNSIGNED (type))) | |
469 fn = mathfn_built_in (s_intype, BUILT_IN_LROUND); | |
470 else if (outprec == TYPE_PRECISION (long_long_integer_type_node) | |
471 && !TYPE_UNSIGNED (type)) | |
472 fn = mathfn_built_in (s_intype, BUILT_IN_LLROUND); | |
473 break; | |
474 | |
475 CASE_FLT_FN (BUILT_IN_NEARBYINT): | |
476 /* Only convert nearbyint* if we can ignore math exceptions. */ | |
477 if (flag_trapping_math) | |
478 break; | |
479 /* ... Fall through ... */ | |
480 CASE_FLT_FN (BUILT_IN_RINT): | |
481 if (outprec < TYPE_PRECISION (long_integer_type_node) | |
482 || (outprec == TYPE_PRECISION (long_integer_type_node) | |
483 && !TYPE_UNSIGNED (type))) | |
484 fn = mathfn_built_in (s_intype, BUILT_IN_LRINT); | |
485 else if (outprec == TYPE_PRECISION (long_long_integer_type_node) | |
486 && !TYPE_UNSIGNED (type)) | |
487 fn = mathfn_built_in (s_intype, BUILT_IN_LLRINT); | |
488 break; | |
489 | |
490 CASE_FLT_FN (BUILT_IN_TRUNC): | |
491 return convert_to_integer (type, CALL_EXPR_ARG (s_expr, 0)); | |
492 | |
493 default: | |
494 break; | |
495 } | |
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496 |
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497 if (fn) |
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498 { |
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499 tree newexpr = build_call_expr (fn, 1, CALL_EXPR_ARG (s_expr, 0)); |
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500 return convert_to_integer (type, newexpr); |
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501 } |
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502 } |
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503 |
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504 /* Convert (int)logb(d) -> ilogb(d). */ |
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505 if (optimize |
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506 && flag_unsafe_math_optimizations |
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507 && !flag_trapping_math && !flag_errno_math && flag_finite_math_only |
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508 && integer_type_node |
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509 && (outprec > TYPE_PRECISION (integer_type_node) |
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510 || (outprec == TYPE_PRECISION (integer_type_node) |
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511 && !TYPE_UNSIGNED (type)))) |
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512 { |
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513 tree s_expr = strip_float_extensions (expr); |
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514 tree s_intype = TREE_TYPE (s_expr); |
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515 const enum built_in_function fcode = builtin_mathfn_code (s_expr); |
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516 tree fn = 0; |
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517 |
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518 switch (fcode) |
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519 { |
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520 CASE_FLT_FN (BUILT_IN_LOGB): |
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521 fn = mathfn_built_in (s_intype, BUILT_IN_ILOGB); |
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522 break; |
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523 |
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524 default: |
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525 break; |
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526 } |
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527 |
0 | 528 if (fn) |
529 { | |
530 tree newexpr = build_call_expr (fn, 1, CALL_EXPR_ARG (s_expr, 0)); | |
531 return convert_to_integer (type, newexpr); | |
532 } | |
533 } | |
534 | |
535 switch (TREE_CODE (intype)) | |
536 { | |
537 case POINTER_TYPE: | |
538 case REFERENCE_TYPE: | |
539 if (integer_zerop (expr)) | |
540 return build_int_cst (type, 0); | |
541 | |
55
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542 /* Convert to an unsigned integer of the correct width first, and from |
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543 there widen/truncate to the required type. Some targets support the |
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544 coexistence of multiple valid pointer sizes, so fetch the one we need |
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545 from the type. */ |
0 | 546 expr = fold_build1 (CONVERT_EXPR, |
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547 lang_hooks.types.type_for_size |
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548 (TYPE_PRECISION (intype), 0), |
0 | 549 expr); |
550 return fold_convert (type, expr); | |
551 | |
552 case INTEGER_TYPE: | |
553 case ENUMERAL_TYPE: | |
554 case BOOLEAN_TYPE: | |
555 case OFFSET_TYPE: | |
556 /* If this is a logical operation, which just returns 0 or 1, we can | |
557 change the type of the expression. */ | |
558 | |
559 if (TREE_CODE_CLASS (ex_form) == tcc_comparison) | |
560 { | |
561 expr = copy_node (expr); | |
562 TREE_TYPE (expr) = type; | |
563 return expr; | |
564 } | |
565 | |
566 /* If we are widening the type, put in an explicit conversion. | |
567 Similarly if we are not changing the width. After this, we know | |
568 we are truncating EXPR. */ | |
569 | |
570 else if (outprec >= inprec) | |
571 { | |
572 enum tree_code code; | |
573 tree tem; | |
574 | |
575 /* If the precision of the EXPR's type is K bits and the | |
576 destination mode has more bits, and the sign is changing, | |
577 it is not safe to use a NOP_EXPR. For example, suppose | |
578 that EXPR's type is a 3-bit unsigned integer type, the | |
579 TYPE is a 3-bit signed integer type, and the machine mode | |
580 for the types is 8-bit QImode. In that case, the | |
581 conversion necessitates an explicit sign-extension. In | |
582 the signed-to-unsigned case the high-order bits have to | |
583 be cleared. */ | |
584 if (TYPE_UNSIGNED (type) != TYPE_UNSIGNED (TREE_TYPE (expr)) | |
585 && (TYPE_PRECISION (TREE_TYPE (expr)) | |
586 != GET_MODE_BITSIZE (TYPE_MODE (TREE_TYPE (expr))))) | |
587 code = CONVERT_EXPR; | |
588 else | |
589 code = NOP_EXPR; | |
590 | |
591 tem = fold_unary (code, type, expr); | |
592 if (tem) | |
593 return tem; | |
594 | |
595 tem = build1 (code, type, expr); | |
596 TREE_NO_WARNING (tem) = 1; | |
597 return tem; | |
598 } | |
599 | |
600 /* If TYPE is an enumeral type or a type with a precision less | |
601 than the number of bits in its mode, do the conversion to the | |
602 type corresponding to its mode, then do a nop conversion | |
603 to TYPE. */ | |
604 else if (TREE_CODE (type) == ENUMERAL_TYPE | |
605 || outprec != GET_MODE_BITSIZE (TYPE_MODE (type))) | |
606 return build1 (NOP_EXPR, type, | |
607 convert (lang_hooks.types.type_for_mode | |
608 (TYPE_MODE (type), TYPE_UNSIGNED (type)), | |
609 expr)); | |
610 | |
611 /* Here detect when we can distribute the truncation down past some | |
612 arithmetic. For example, if adding two longs and converting to an | |
613 int, we can equally well convert both to ints and then add. | |
614 For the operations handled here, such truncation distribution | |
615 is always safe. | |
616 It is desirable in these cases: | |
617 1) when truncating down to full-word from a larger size | |
618 2) when truncating takes no work. | |
619 3) when at least one operand of the arithmetic has been extended | |
620 (as by C's default conversions). In this case we need two conversions | |
621 if we do the arithmetic as already requested, so we might as well | |
622 truncate both and then combine. Perhaps that way we need only one. | |
623 | |
624 Note that in general we cannot do the arithmetic in a type | |
625 shorter than the desired result of conversion, even if the operands | |
626 are both extended from a shorter type, because they might overflow | |
627 if combined in that type. The exceptions to this--the times when | |
628 two narrow values can be combined in their narrow type even to | |
629 make a wider result--are handled by "shorten" in build_binary_op. */ | |
630 | |
631 switch (ex_form) | |
632 { | |
633 case RSHIFT_EXPR: | |
634 /* We can pass truncation down through right shifting | |
635 when the shift count is a nonpositive constant. */ | |
636 if (TREE_CODE (TREE_OPERAND (expr, 1)) == INTEGER_CST | |
637 && tree_int_cst_sgn (TREE_OPERAND (expr, 1)) <= 0) | |
638 goto trunc1; | |
639 break; | |
640 | |
641 case LSHIFT_EXPR: | |
642 /* We can pass truncation down through left shifting | |
643 when the shift count is a nonnegative constant and | |
644 the target type is unsigned. */ | |
645 if (TREE_CODE (TREE_OPERAND (expr, 1)) == INTEGER_CST | |
646 && tree_int_cst_sgn (TREE_OPERAND (expr, 1)) >= 0 | |
647 && TYPE_UNSIGNED (type) | |
648 && TREE_CODE (TYPE_SIZE (type)) == INTEGER_CST) | |
649 { | |
650 /* If shift count is less than the width of the truncated type, | |
651 really shift. */ | |
652 if (tree_int_cst_lt (TREE_OPERAND (expr, 1), TYPE_SIZE (type))) | |
653 /* In this case, shifting is like multiplication. */ | |
654 goto trunc1; | |
655 else | |
656 { | |
657 /* If it is >= that width, result is zero. | |
658 Handling this with trunc1 would give the wrong result: | |
659 (int) ((long long) a << 32) is well defined (as 0) | |
660 but (int) a << 32 is undefined and would get a | |
661 warning. */ | |
662 | |
663 tree t = build_int_cst (type, 0); | |
664 | |
665 /* If the original expression had side-effects, we must | |
666 preserve it. */ | |
667 if (TREE_SIDE_EFFECTS (expr)) | |
668 return build2 (COMPOUND_EXPR, type, expr, t); | |
669 else | |
670 return t; | |
671 } | |
672 } | |
673 break; | |
674 | |
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675 case TRUNC_DIV_EXPR: |
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676 { |
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677 tree arg0 = get_unwidened (TREE_OPERAND (expr, 0), type); |
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678 tree arg1 = get_unwidened (TREE_OPERAND (expr, 1), type); |
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679 |
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680 /* Don't distribute unless the output precision is at least as big |
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681 as the actual inputs and it has the same signedness. */ |
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682 if (outprec >= TYPE_PRECISION (TREE_TYPE (arg0)) |
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683 && outprec >= TYPE_PRECISION (TREE_TYPE (arg1)) |
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684 /* If signedness of arg0 and arg1 don't match, |
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685 we can't necessarily find a type to compare them in. */ |
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686 && (TYPE_UNSIGNED (TREE_TYPE (arg0)) |
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687 == TYPE_UNSIGNED (TREE_TYPE (arg1))) |
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688 /* Do not change the sign of the division. */ |
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689 && (TYPE_UNSIGNED (TREE_TYPE (expr)) |
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690 == TYPE_UNSIGNED (TREE_TYPE (arg0))) |
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691 /* Either require unsigned division or a division by |
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692 a constant that is not -1. */ |
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693 && (TYPE_UNSIGNED (TREE_TYPE (arg0)) |
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694 || (TREE_CODE (arg1) == INTEGER_CST |
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695 && !integer_all_onesp (arg1)))) |
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696 goto trunc1; |
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697 break; |
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698 } |
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699 |
0 | 700 case MAX_EXPR: |
701 case MIN_EXPR: | |
702 case MULT_EXPR: | |
703 { | |
704 tree arg0 = get_unwidened (TREE_OPERAND (expr, 0), type); | |
705 tree arg1 = get_unwidened (TREE_OPERAND (expr, 1), type); | |
706 | |
707 /* Don't distribute unless the output precision is at least as big | |
708 as the actual inputs. Otherwise, the comparison of the | |
709 truncated values will be wrong. */ | |
710 if (outprec >= TYPE_PRECISION (TREE_TYPE (arg0)) | |
711 && outprec >= TYPE_PRECISION (TREE_TYPE (arg1)) | |
712 /* If signedness of arg0 and arg1 don't match, | |
713 we can't necessarily find a type to compare them in. */ | |
714 && (TYPE_UNSIGNED (TREE_TYPE (arg0)) | |
715 == TYPE_UNSIGNED (TREE_TYPE (arg1)))) | |
716 goto trunc1; | |
717 break; | |
718 } | |
719 | |
720 case PLUS_EXPR: | |
721 case MINUS_EXPR: | |
722 case BIT_AND_EXPR: | |
723 case BIT_IOR_EXPR: | |
724 case BIT_XOR_EXPR: | |
725 trunc1: | |
726 { | |
727 tree arg0 = get_unwidened (TREE_OPERAND (expr, 0), type); | |
728 tree arg1 = get_unwidened (TREE_OPERAND (expr, 1), type); | |
729 | |
730 if (outprec >= BITS_PER_WORD | |
731 || TRULY_NOOP_TRUNCATION (outprec, inprec) | |
732 || inprec > TYPE_PRECISION (TREE_TYPE (arg0)) | |
733 || inprec > TYPE_PRECISION (TREE_TYPE (arg1))) | |
734 { | |
735 /* Do the arithmetic in type TYPEX, | |
736 then convert result to TYPE. */ | |
737 tree typex = type; | |
738 | |
739 /* Can't do arithmetic in enumeral types | |
740 so use an integer type that will hold the values. */ | |
741 if (TREE_CODE (typex) == ENUMERAL_TYPE) | |
742 typex = lang_hooks.types.type_for_size | |
743 (TYPE_PRECISION (typex), TYPE_UNSIGNED (typex)); | |
744 | |
745 /* But now perhaps TYPEX is as wide as INPREC. | |
746 In that case, do nothing special here. | |
747 (Otherwise would recurse infinitely in convert. */ | |
748 if (TYPE_PRECISION (typex) != inprec) | |
749 { | |
750 /* Don't do unsigned arithmetic where signed was wanted, | |
751 or vice versa. | |
752 Exception: if both of the original operands were | |
753 unsigned then we can safely do the work as unsigned. | |
754 Exception: shift operations take their type solely | |
755 from the first argument. | |
756 Exception: the LSHIFT_EXPR case above requires that | |
757 we perform this operation unsigned lest we produce | |
758 signed-overflow undefinedness. | |
759 And we may need to do it as unsigned | |
760 if we truncate to the original size. */ | |
761 if (TYPE_UNSIGNED (TREE_TYPE (expr)) | |
762 || (TYPE_UNSIGNED (TREE_TYPE (arg0)) | |
763 && (TYPE_UNSIGNED (TREE_TYPE (arg1)) | |
764 || ex_form == LSHIFT_EXPR | |
765 || ex_form == RSHIFT_EXPR | |
766 || ex_form == LROTATE_EXPR | |
767 || ex_form == RROTATE_EXPR)) | |
768 || ex_form == LSHIFT_EXPR | |
769 /* If we have !flag_wrapv, and either ARG0 or | |
770 ARG1 is of a signed type, we have to do | |
67
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771 PLUS_EXPR, MINUS_EXPR or MULT_EXPR in an unsigned |
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772 type in case the operation in outprec precision |
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773 could overflow. Otherwise, we would introduce |
0 | 774 signed-overflow undefinedness. */ |
775 || ((!TYPE_OVERFLOW_WRAPS (TREE_TYPE (arg0)) | |
776 || !TYPE_OVERFLOW_WRAPS (TREE_TYPE (arg1))) | |
67
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777 && ((TYPE_PRECISION (TREE_TYPE (arg0)) * 2u |
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778 > outprec) |
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779 || (TYPE_PRECISION (TREE_TYPE (arg1)) * 2u |
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780 > outprec)) |
0 | 781 && (ex_form == PLUS_EXPR |
67
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782 || ex_form == MINUS_EXPR |
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783 || ex_form == MULT_EXPR))) |
0 | 784 typex = unsigned_type_for (typex); |
785 else | |
786 typex = signed_type_for (typex); | |
787 return convert (type, | |
788 fold_build2 (ex_form, typex, | |
789 convert (typex, arg0), | |
790 convert (typex, arg1))); | |
791 } | |
792 } | |
793 } | |
794 break; | |
795 | |
796 case NEGATE_EXPR: | |
797 case BIT_NOT_EXPR: | |
798 /* This is not correct for ABS_EXPR, | |
799 since we must test the sign before truncation. */ | |
800 { | |
67
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801 tree typex = unsigned_type_for (type); |
0 | 802 return convert (type, |
803 fold_build1 (ex_form, typex, | |
804 convert (typex, | |
805 TREE_OPERAND (expr, 0)))); | |
806 } | |
807 | |
808 case NOP_EXPR: | |
809 /* Don't introduce a | |
810 "can't convert between vector values of different size" error. */ | |
811 if (TREE_CODE (TREE_TYPE (TREE_OPERAND (expr, 0))) == VECTOR_TYPE | |
812 && (GET_MODE_SIZE (TYPE_MODE (TREE_TYPE (TREE_OPERAND (expr, 0)))) | |
813 != GET_MODE_SIZE (TYPE_MODE (type)))) | |
814 break; | |
815 /* If truncating after truncating, might as well do all at once. | |
816 If truncating after extending, we may get rid of wasted work. */ | |
817 return convert (type, get_unwidened (TREE_OPERAND (expr, 0), type)); | |
818 | |
819 case COND_EXPR: | |
820 /* It is sometimes worthwhile to push the narrowing down through | |
19
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821 the conditional and never loses. A COND_EXPR may have a throw |
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822 as one operand, which then has void type. Just leave void |
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823 operands as they are. */ |
0 | 824 return fold_build3 (COND_EXPR, type, TREE_OPERAND (expr, 0), |
19
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825 VOID_TYPE_P (TREE_TYPE (TREE_OPERAND (expr, 1))) |
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826 ? TREE_OPERAND (expr, 1) |
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827 : convert (type, TREE_OPERAND (expr, 1)), |
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828 VOID_TYPE_P (TREE_TYPE (TREE_OPERAND (expr, 2))) |
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829 ? TREE_OPERAND (expr, 2) |
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830 : convert (type, TREE_OPERAND (expr, 2))); |
0 | 831 |
832 default: | |
833 break; | |
834 } | |
835 | |
836 return build1 (CONVERT_EXPR, type, expr); | |
837 | |
838 case REAL_TYPE: | |
839 return build1 (FIX_TRUNC_EXPR, type, expr); | |
840 | |
841 case FIXED_POINT_TYPE: | |
842 return build1 (FIXED_CONVERT_EXPR, type, expr); | |
843 | |
844 case COMPLEX_TYPE: | |
845 return convert (type, | |
846 fold_build1 (REALPART_EXPR, | |
847 TREE_TYPE (TREE_TYPE (expr)), expr)); | |
848 | |
849 case VECTOR_TYPE: | |
850 if (!tree_int_cst_equal (TYPE_SIZE (type), TYPE_SIZE (TREE_TYPE (expr)))) | |
851 { | |
67
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|
852 error ("can%'t convert between vector values of different size"); |
0 | 853 return error_mark_node; |
854 } | |
855 return build1 (VIEW_CONVERT_EXPR, type, expr); | |
856 | |
857 default: | |
858 error ("aggregate value used where an integer was expected"); | |
859 return convert (type, integer_zero_node); | |
860 } | |
861 } | |
862 | |
863 /* Convert EXPR to the complex type TYPE in the usual ways. */ | |
864 | |
865 tree | |
866 convert_to_complex (tree type, tree expr) | |
867 { | |
868 tree subtype = TREE_TYPE (type); | |
869 | |
870 switch (TREE_CODE (TREE_TYPE (expr))) | |
871 { | |
872 case REAL_TYPE: | |
873 case FIXED_POINT_TYPE: | |
874 case INTEGER_TYPE: | |
875 case ENUMERAL_TYPE: | |
876 case BOOLEAN_TYPE: | |
877 return build2 (COMPLEX_EXPR, type, convert (subtype, expr), | |
878 convert (subtype, integer_zero_node)); | |
879 | |
880 case COMPLEX_TYPE: | |
881 { | |
882 tree elt_type = TREE_TYPE (TREE_TYPE (expr)); | |
883 | |
884 if (TYPE_MAIN_VARIANT (elt_type) == TYPE_MAIN_VARIANT (subtype)) | |
885 return expr; | |
886 else if (TREE_CODE (expr) == COMPLEX_EXPR) | |
887 return fold_build2 (COMPLEX_EXPR, type, | |
888 convert (subtype, TREE_OPERAND (expr, 0)), | |
889 convert (subtype, TREE_OPERAND (expr, 1))); | |
890 else | |
891 { | |
892 expr = save_expr (expr); | |
893 return | |
894 fold_build2 (COMPLEX_EXPR, type, | |
895 convert (subtype, | |
896 fold_build1 (REALPART_EXPR, | |
897 TREE_TYPE (TREE_TYPE (expr)), | |
898 expr)), | |
899 convert (subtype, | |
900 fold_build1 (IMAGPART_EXPR, | |
901 TREE_TYPE (TREE_TYPE (expr)), | |
902 expr))); | |
903 } | |
904 } | |
905 | |
906 case POINTER_TYPE: | |
907 case REFERENCE_TYPE: | |
908 error ("pointer value used where a complex was expected"); | |
909 return convert_to_complex (type, integer_zero_node); | |
910 | |
911 default: | |
912 error ("aggregate value used where a complex was expected"); | |
913 return convert_to_complex (type, integer_zero_node); | |
914 } | |
915 } | |
916 | |
917 /* Convert EXPR to the vector type TYPE in the usual ways. */ | |
918 | |
919 tree | |
920 convert_to_vector (tree type, tree expr) | |
921 { | |
922 switch (TREE_CODE (TREE_TYPE (expr))) | |
923 { | |
924 case INTEGER_TYPE: | |
925 case VECTOR_TYPE: | |
926 if (!tree_int_cst_equal (TYPE_SIZE (type), TYPE_SIZE (TREE_TYPE (expr)))) | |
927 { | |
67
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|
928 error ("can%'t convert between vector values of different size"); |
0 | 929 return error_mark_node; |
930 } | |
931 return build1 (VIEW_CONVERT_EXPR, type, expr); | |
932 | |
933 default: | |
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934 error ("can%'t convert value to a vector"); |
0 | 935 return error_mark_node; |
936 } | |
937 } | |
938 | |
939 /* Convert EXPR to some fixed-point type TYPE. | |
940 | |
941 EXPR must be fixed-point, float, integer, or enumeral; | |
942 in other cases error is called. */ | |
943 | |
944 tree | |
945 convert_to_fixed (tree type, tree expr) | |
946 { | |
947 if (integer_zerop (expr)) | |
948 { | |
949 tree fixed_zero_node = build_fixed (type, FCONST0 (TYPE_MODE (type))); | |
950 return fixed_zero_node; | |
951 } | |
952 else if (integer_onep (expr) && ALL_SCALAR_ACCUM_MODE_P (TYPE_MODE (type))) | |
953 { | |
954 tree fixed_one_node = build_fixed (type, FCONST1 (TYPE_MODE (type))); | |
955 return fixed_one_node; | |
956 } | |
957 | |
958 switch (TREE_CODE (TREE_TYPE (expr))) | |
959 { | |
960 case FIXED_POINT_TYPE: | |
961 case INTEGER_TYPE: | |
962 case ENUMERAL_TYPE: | |
963 case BOOLEAN_TYPE: | |
964 case REAL_TYPE: | |
965 return build1 (FIXED_CONVERT_EXPR, type, expr); | |
966 | |
967 case COMPLEX_TYPE: | |
968 return convert (type, | |
969 fold_build1 (REALPART_EXPR, | |
970 TREE_TYPE (TREE_TYPE (expr)), expr)); | |
971 | |
972 default: | |
973 error ("aggregate value used where a fixed-point was expected"); | |
974 return error_mark_node; | |
975 } | |
976 } |