1 // RUN: %clang_cc1 -flax-vector-conversions=all -triple x86_64-apple-darwin10 -fsyntax-only -verify %s
2 // RUN: %clang_cc1 -flax-vector-conversions=all -triple x86_64-apple-darwin10 -fsyntax-only -verify -std=c++98 %s
3 // RUN: %clang_cc1 -flax-vector-conversions=all -triple x86_64-apple-darwin10 -fsyntax-only -verify -std=c++11 %s
4 // RUN: %clang_cc1 -flax-vector-conversions=integer -triple x86_64-apple-darwin10 -fsyntax-only -verify %s -DNO_LAX_FLOAT
5 // RUN: %clang_cc1 -flax-vector-conversions=none -triple x86_64-apple-darwin10 -fsyntax-only -verify %s -DNO_LAX_FLOAT -DNO_LAX_INT
6 
7 typedef char char16 __attribute__ ((__vector_size__ (16)));
8 typedef long long longlong16 __attribute__ ((__vector_size__ (16)));
9 typedef char char16_e __attribute__ ((__ext_vector_type__ (16)));
10 typedef long long longlong16_e __attribute__ ((__ext_vector_type__ (2)));
11 
12 // Test overloading and function calls with vector types.
13 void f0(char16); // expected-note 0+{{candidate}}
14 
f0_test(char16 c16,longlong16 ll16,char16_e c16e,longlong16_e ll16e)15 void f0_test(char16 c16, longlong16 ll16, char16_e c16e, longlong16_e ll16e) {
16   f0(c16);
17   f0(ll16);
18 #ifdef NO_LAX_INT
19   // expected-error@-2 {{no matching function}}
20 #endif
21   f0(c16e);
22   f0(ll16e);
23 #ifdef NO_LAX_INT
24   // expected-error@-2 {{no matching function}}
25 #endif
26 }
27 
28 int &f1(char16);
29 float &f1(longlong16);
30 
f1_test(char16 c16,longlong16 ll16,char16_e c16e,longlong16_e ll16e)31 void f1_test(char16 c16, longlong16 ll16, char16_e c16e, longlong16_e ll16e) {
32   int &ir1 = f1(c16);
33   float &fr1 = f1(ll16);
34   int &ir2 = f1(c16e);
35   float &fr2 = f1(ll16e);
36 }
37 
38 void f2(char16_e); // expected-note 0+{{candidate}}
39 
f2_test(char16 c16,longlong16 ll16,char16_e c16e,longlong16_e ll16e)40 void f2_test(char16 c16, longlong16 ll16, char16_e c16e, longlong16_e ll16e) {
41   f2(c16);
42   f2(ll16);
43 #ifdef NO_LAX_INT
44   // expected-error@-2 {{no matching function}}
45 #endif
46   f2(c16e);
47   f2(ll16e); // expected-error{{no matching function}}
48   f2('a');
49   f2(17);
50 }
51 
52 // Test the conditional operator with vector types.
conditional(bool Cond,char16 c16,longlong16 ll16,char16_e c16e,longlong16_e ll16e)53 void conditional(bool Cond, char16 c16, longlong16 ll16, char16_e c16e,
54                  longlong16_e ll16e) {
55   // Conditional operators with the same type.
56   __typeof__(Cond? c16 : c16) *c16p1 = &c16;
57   __typeof__(Cond? ll16 : ll16) *ll16p1 = &ll16;
58   __typeof__(Cond? c16e : c16e) *c16ep1 = &c16e;
59   __typeof__(Cond? ll16e : ll16e) *ll16ep1 = &ll16e;
60 
61   // Conditional operators with similar types.
62   __typeof__(Cond? c16 : c16e) *c16ep2 = &c16e;
63   __typeof__(Cond? c16e : c16) *c16ep3 = &c16e;
64   __typeof__(Cond? ll16 : ll16e) *ll16ep2 = &ll16e;
65   __typeof__(Cond? ll16e : ll16) *ll16ep3 = &ll16e;
66 
67   // Conditional operators with compatible types under -flax-vector-conversions (default)
68   (void)(Cond? c16 : ll16);
69   (void)(Cond? ll16e : c16e);
70   (void)(Cond? ll16e : c16);
71 #ifdef NO_LAX_INT
72   // expected-error@-4 {{cannot convert}}
73   // expected-error@-4 {{cannot convert}}
74   // expected-error@-4 {{cannot convert}}
75 #endif
76 }
77 
78 // Test C++ cast'ing of vector types.
casts(longlong16 ll16,longlong16_e ll16e)79 void casts(longlong16 ll16, longlong16_e ll16e) {
80   // C-style casts.
81   (void)(char16)ll16;
82   (void)(char16_e)ll16;
83   (void)(longlong16)ll16;
84   (void)(longlong16_e)ll16;
85   (void)(char16)ll16e;
86   (void)(char16_e)ll16e;
87   (void)(longlong16)ll16e;
88   (void)(longlong16_e)ll16e;
89 
90   // Function-style casts.
91   (void)char16(ll16);
92   (void)char16_e(ll16);
93   (void)longlong16(ll16);
94   (void)longlong16_e(ll16);
95   (void)char16(ll16e);
96   (void)char16_e(ll16e);
97   (void)longlong16(ll16e);
98   (void)longlong16_e(ll16e);
99 
100   // static_cast
101   (void)static_cast<char16>(ll16);
102   (void)static_cast<char16_e>(ll16);
103 #ifdef NO_LAX_INT
104   // expected-error@-3 {{not allowed}}
105   // expected-error@-3 {{not allowed}}
106 #endif
107   (void)static_cast<longlong16>(ll16);
108   (void)static_cast<longlong16_e>(ll16);
109   (void)static_cast<char16>(ll16e);
110 #ifdef NO_LAX_INT
111   // expected-error@-2 {{not allowed}}
112 #endif
113   (void)static_cast<char16_e>(ll16e); // expected-error{{static_cast from 'longlong16_e' (vector of 2 'long long' values) to 'char16_e' (vector of 16 'char' values) is not allowed}}
114   (void)static_cast<longlong16>(ll16e);
115   (void)static_cast<longlong16_e>(ll16e);
116 
117   // reinterpret_cast
118   (void)reinterpret_cast<char16>(ll16);
119   (void)reinterpret_cast<char16_e>(ll16);
120   (void)reinterpret_cast<longlong16>(ll16);
121   (void)reinterpret_cast<longlong16_e>(ll16);
122   (void)reinterpret_cast<char16>(ll16e);
123   (void)reinterpret_cast<char16_e>(ll16e);
124   (void)reinterpret_cast<longlong16>(ll16e);
125   (void)reinterpret_cast<longlong16_e>(ll16e);
126 }
127 
128 template<typename T>
129 struct convertible_to { // expected-note 3 {{candidate function (the implicit copy assignment operator) not viable}}
130 #if __cplusplus >= 201103L // C++11 or later
131 // expected-note@-2 3 {{candidate function (the implicit move assignment operator) not viable}}
132 #endif
133   operator T() const;
134 };
135 
test_implicit_conversions(bool Cond,char16 c16,longlong16 ll16,char16_e c16e,longlong16_e ll16e,convertible_to<char16> to_c16,convertible_to<longlong16> to_ll16,convertible_to<char16_e> to_c16e,convertible_to<longlong16_e> to_ll16e,convertible_to<char16 &> rto_c16,convertible_to<char16_e &> rto_c16e)136 void test_implicit_conversions(bool Cond, char16 c16, longlong16 ll16,
137                                char16_e c16e, longlong16_e ll16e,
138                                convertible_to<char16> to_c16,
139                                convertible_to<longlong16> to_ll16,
140                                convertible_to<char16_e> to_c16e,
141                                convertible_to<longlong16_e> to_ll16e,
142                                convertible_to<char16&> rto_c16,
143                                convertible_to<char16_e&> rto_c16e) {
144   f0(to_c16);
145   f0(to_ll16);
146 #ifdef NO_LAX_INT
147   // expected-error@-2 {{no matching function}}
148 #endif
149   f0(to_c16e);
150   f0(to_ll16e);
151 #ifdef NO_LAX_INT
152   // expected-error@-2 {{no matching function}}
153 #endif
154   f2(to_c16);
155   f2(to_ll16);
156 #ifdef NO_LAX_INT
157   // expected-error@-2 {{no matching function}}
158 #endif
159   f2(to_c16e);
160   f2(to_ll16e); // expected-error{{no matching function}}
161 
162   (void)(c16 == c16e);
163   (void)(c16 == to_c16);
164   (void)+to_c16;
165   (void)-to_c16;
166   (void)~to_c16;
167   (void)(to_c16 == to_c16e);
168   (void)(to_c16 != to_c16e);
169   (void)(to_c16 <  to_c16e);
170   (void)(to_c16 <= to_c16e);
171   (void)(to_c16 >  to_c16e);
172   (void)(to_c16 >= to_c16e);
173   (void)(to_c16 + to_c16);
174   (void)(to_c16 - to_c16);
175   (void)(to_c16 * to_c16);
176   (void)(to_c16 / to_c16);
177   (void)(rto_c16 = to_c16); // expected-error{{no viable overloaded '='}}
178   (void)(rto_c16 += to_c16);
179   (void)(rto_c16 -= to_c16);
180   (void)(rto_c16 *= to_c16);
181   (void)(rto_c16 /= to_c16);
182 
183   (void)+to_c16e;
184   (void)-to_c16e;
185   (void)~to_c16e;
186   (void)(to_c16e == to_c16e);
187   (void)(to_c16e != to_c16e);
188   (void)(to_c16e <  to_c16e);
189   (void)(to_c16e <= to_c16e);
190   (void)(to_c16e >  to_c16e);
191   (void)(to_c16e >= to_c16e);
192   (void)(to_c16e + to_c16);
193   (void)(to_c16e - to_c16);
194   (void)(to_c16e * to_c16);
195   (void)(to_c16e / to_c16);
196   (void)(rto_c16e = to_c16); // expected-error{{no viable overloaded '='}}
197   (void)(rto_c16e += to_c16);
198   (void)(rto_c16e -= to_c16);
199   (void)(rto_c16e *= to_c16);
200   (void)(rto_c16e /= to_c16);
201 
202   (void)+to_c16;
203   (void)-to_c16;
204   (void)~to_c16;
205   (void)(to_c16 == to_c16e);
206   (void)(to_c16 != to_c16e);
207   (void)(to_c16 <  to_c16e);
208   (void)(to_c16 <= to_c16e);
209   (void)(to_c16 >  to_c16e);
210   (void)(to_c16 >= to_c16e);
211   (void)(to_c16 + to_c16e);
212   (void)(to_c16 - to_c16e);
213   (void)(to_c16 * to_c16e);
214   (void)(to_c16 / to_c16e);
215   (void)(rto_c16 = c16e); // expected-error{{no viable overloaded '='}}
216   (void)(rto_c16 += to_c16e);
217   (void)(rto_c16 -= to_c16e);
218   (void)(rto_c16 *= to_c16e);
219   (void)(rto_c16 /= to_c16e);
220 
221   (void)(Cond? to_c16 : to_c16e);
222   (void)(Cond? to_ll16e : to_ll16);
223 
224   // These 2 are convertible with -flax-vector-conversions (default)
225   (void)(Cond? to_c16 : to_ll16);
226   (void)(Cond? to_c16e : to_ll16e);
227 #ifdef NO_LAX_INT
228   // expected-error@-3 {{cannot convert}}
229   // expected-error@-3 {{cannot convert}}
230 #endif
231 }
232 
233 typedef float fltx2 __attribute__((__vector_size__(8)));
234 typedef float fltx4 __attribute__((__vector_size__(16)));
235 typedef double dblx2 __attribute__((__vector_size__(16)));
236 typedef double dblx4 __attribute__((__vector_size__(32)));
237 
238 void accept_fltx2(fltx2); // expected-note{{candidate function not viable: no known conversion from 'double' to 'fltx2' (vector of 2 'float' values) for 1st argument}}
239 void accept_fltx4(fltx4);
240 void accept_dblx2(dblx2);
241 #ifdef NO_LAX_FLOAT
242 // expected-note@-3 {{no known conversion}}
243 // expected-note@-3 {{no known conversion}}
244 #endif
245 void accept_dblx4(dblx4);
246 void accept_bool(bool); // expected-note{{candidate function not viable: no known conversion from 'fltx2' (vector of 2 'float' values) to 'bool' for 1st argument}}
247 
test(fltx2 fltx2_val,fltx4 fltx4_val,dblx2 dblx2_val,dblx4 dblx4_val)248 void test(fltx2 fltx2_val, fltx4 fltx4_val, dblx2 dblx2_val, dblx4 dblx4_val) {
249   // Exact matches
250   accept_fltx2(fltx2_val);
251   accept_fltx4(fltx4_val);
252   accept_dblx2(dblx2_val);
253   accept_dblx4(dblx4_val);
254 
255   // Same-size conversions
256   accept_fltx4(dblx2_val);
257   accept_dblx2(fltx4_val);
258 #ifdef NO_LAX_FLOAT
259   // expected-error@-3 {{no matching function}}
260   // expected-error@-3 {{no matching function}}
261 #endif
262 
263   // Conversion to bool.
264   accept_bool(fltx2_val); // expected-error{{no matching function for call to 'accept_bool'}}
265 
266   // Scalar-to-vector conversions.
267   accept_fltx2(1.0); // expected-error{{no matching function for call to 'accept_fltx2'}}
268 }
269 
270 typedef int intx4 __attribute__((__vector_size__(16)));
271 typedef int inte4 __attribute__((__ext_vector_type__(4)));
272 typedef float flte4 __attribute__((__ext_vector_type__(4)));
273 
test_mixed_vector_types(fltx4 f,intx4 n,flte4 g,inte4 m)274 void test_mixed_vector_types(fltx4 f, intx4 n, flte4 g, inte4 m) {
275   (void)(f == g);
276   (void)(g != f);
277   (void)(f <= g);
278   (void)(g >= f);
279   (void)(f < g);
280   (void)(g > f);
281 
282   (void)(+g);
283   (void)(-g);
284 
285   (void)(f + g);
286   (void)(f - g);
287   (void)(f * g);
288   (void)(f / g);
289   (void)(f = g);
290   (void)(f += g);
291   (void)(f -= g);
292   (void)(f *= g);
293   (void)(f /= g);
294 
295 
296   (void)(n == m);
297   (void)(m != n);
298   (void)(n <= m);
299   (void)(m >= n);
300   (void)(n < m);
301   (void)(m > n);
302 
303   (void)(+m);
304   (void)(-m);
305   (void)(~m);
306 
307   (void)(n + m);
308   (void)(n - m);
309   (void)(n * m);
310   (void)(n / m);
311   (void)(n % m);
312   (void)(n = m);
313   (void)(n += m);
314   (void)(n -= m);
315   (void)(n *= m);
316   (void)(n /= m);
317 }
318 
test_pseudo_dtor_tmpl(T * ptr)319 template<typename T> void test_pseudo_dtor_tmpl(T *ptr) {
320   ptr->~T();
321   (*ptr).~T();
322 }
323 
test_pseudo_dtor(fltx4 * f)324 void test_pseudo_dtor(fltx4 *f) {
325   f->~fltx4();
326   (*f).~fltx4();
327   test_pseudo_dtor_tmpl(f);
328 }
329 
330 // PR16204
331 typedef __attribute__((ext_vector_type(4))) int vi4;
332 const int &reference_to_vec_element = vi4(1).x;
333 
334 // PR12649
335 typedef bool bad __attribute__((__vector_size__(16)));  // expected-error {{invalid vector element type 'bool'}}
336 
337 namespace Templates {
338 template <typename Elt, unsigned long long Size>
339 struct TemplateVectorType {
340   typedef Elt __attribute__((__vector_size__(Size))) type; // #1
341 };
342 
343 template <int N, typename T>
344 struct PR15730 {
345   typedef T __attribute__((vector_size(N * sizeof(T)))) type;
346   typedef T __attribute__((vector_size(0x1000000000))) type2; // #2
347   typedef T __attribute__((vector_size(3))) type3; // #3
348 };
349 
Init()350 void Init() {
351   const TemplateVectorType<float, 32>::type Works = {};
352   const TemplateVectorType<int, 32>::type Works2 = {};
353   // expected-error@#1 {{invalid vector element type 'bool'}}
354   // expected-note@+1 {{in instantiation of template class 'Templates::TemplateVectorType<bool, 32>' requested here}}
355   const TemplateVectorType<bool, 32>::type NoBool = {};
356   // expected-error@#1 {{invalid vector element type 'int __attribute__((ext_vector_type(4)))' (vector of 4 'int' values)}}
357   // expected-note@+1 {{in instantiation of template class 'Templates::TemplateVectorType<int __attribute__((ext_vector_type(4))), 32>' requested here}}
358   const TemplateVectorType<vi4, 32>::type NoComplex = {};
359   // expected-error@#1 {{vector size not an integral multiple of component size}}
360   // expected-note@+1 {{in instantiation of template class 'Templates::TemplateVectorType<int, 33>' requested here}}
361   const TemplateVectorType<int, 33>::type BadSize = {};
362   const TemplateVectorType<int, 3200>::type Large = {};
363   // expected-error@#1 {{vector size too large}}
364   // expected-note@+1 {{in instantiation of template class 'Templates::TemplateVectorType<int, 68719476736>' requested here}}
365   const TemplateVectorType<int, 0x1000000000>::type TooLarge = {};
366   // expected-error@#1 {{zero vector size}}
367   // expected-note@+1 {{in instantiation of template class 'Templates::TemplateVectorType<int, 0>' requested here}}
368   const TemplateVectorType<int, 0>::type Zero = {};
369 
370   // expected-error@#2 {{vector size too large}}
371   // expected-error@#3 {{vector size not an integral multiple of component size}}
372   // expected-note@+1 {{in instantiation of template class 'Templates::PR15730<8, int>' requested here}}
373   const PR15730<8, int>::type PR15730_1 = {};
374   // expected-error@#2 {{vector size too large}}
375   // expected-note@+1 {{in instantiation of template class 'Templates::PR15730<8, char>' requested here}}
376   const PR15730<8, char>::type2 PR15730_2 = {};
377 }
378 
379 } // namespace Templates
380 
381 typedef int inte2 __attribute__((__ext_vector_type__(2)));
382 
test_vector_literal(inte4 res)383 void test_vector_literal(inte4 res) {
384   inte2 a = (inte2)(1, 2); //expected-warning{{expression result unused}}
385   inte4 b = (inte4)(a, a); //expected-error{{C-style cast from vector 'inte2' (vector of 2 'int' values) to vector 'inte4' (vector of 4 'int' values) of different size}} //expected-warning{{expression result unused}}
386 }
387 
388 typedef __attribute__((__ext_vector_type__(4))) float vector_float4;
389 typedef __attribute__((__ext_vector_type__(4))) int vector_int4;
390 
391 namespace swizzle_template_confusion {
392   template<typename T> struct xyzw {};
foo123(vector_float4 & A,vector_float4 & B)393   vector_int4 foo123(vector_float4 &A, vector_float4 &B) {
394     return A.xyzw < B.x && B.y > A.y; // OK, not a template-id
395   }
396 }
397 
398 namespace swizzle_typo_correction {
399   template<typename T> struct xyzv {};
foo123(vector_float4 & A,vector_float4 & B)400   vector_int4 foo123(vector_float4 &A, vector_float4 &B) {
401     return A.xyzw < B.x && B.y > A.y; // OK, not a typo for 'xyzv'
402   }
403 }
404 
405 namespace PR45299 {
406 typedef float float4 __attribute__((vector_size(16)));
407 
408 // In this example, 'k' is value dependent. PR45299 reported that this asserted
409 // because of that, since the truncation check attempted to constant evaluate k,
410 // which it could not do because it is dependent.
411 template <typename T>
412 struct NormalMember {
fPR45299::NormalMember413   float4 f(float4 x) {
414     return k * x;
415   }
416   float k;
417 };
418 
419 #if __cplusplus >= 201103L
420 // This should not diagnose, since the constant evaluator (during instantiation)
421 // can tell that this isn't a truncation.
422 template <typename T>
423 struct ConstantValueNoDiag {
fPR45299::ConstantValueNoDiag424   float4 f(float4 x) {
425     return k * x;
426   }
427   static constexpr double k = 1;
428 };
429 template <typename T, int N>
430 struct ConstantValueNoDiagDependentValue {
fPR45299::ConstantValueNoDiagDependentValue431   float4 f(float4 x) {
432     return k * x;
433   }
434   static constexpr double k = N;
435 };
436 
437 // The following two both diagnose because they cause a truncation.  Test both
438 // the dependent type and non-dependent type versions.
439 template <typename T>
440 struct DiagTrunc {
fPR45299::DiagTrunc441   float4 f(float4 x) {
442     // expected-error@+1{{as implicit conversion would cause truncation}}
443     return k * x;
444   }
445   static constexpr double k = 1340282346638528859811704183484516925443.000000;
446 };
447 template <typename T, int N>
448 struct DiagTruncDependentValue {
fPR45299::DiagTruncDependentValue449   float4 f(float4 x) {
450     // expected-error@+1{{as implicit conversion would cause truncation}}
451     return k * x;
452   }
453   static constexpr double k = N + 1340282346638528859811704183484516925443.000000;
454 };
455 template <typename T>
456 struct DiagTruncDependentType {
fPR45299::DiagTruncDependentType457   float4 f(float4 x) {
458     // expected-error@+1{{as implicit conversion would cause truncation}}
459     return k * x;
460   }
461   static constexpr T k = 1340282346638528859811704183484516925443.000000;
462 };
463 
464 template <typename T>
465 struct PR45298 {
466     T k1 = T(0);
467 };
468 
469 // Ensure this no longer asserts.
470 template <typename T>
471 struct PR45298Consumer {
fPR45299::PR45298Consumer472   float4 f(float4 x) {
473     return (float)s.k1 * x;
474   }
475 
476   PR45298<T> s;
477 };
478 #endif // __cplusplus >= 201103L
479 
use()480 void use() {
481   float4 theFloat4;
482   NormalMember<double>().f(theFloat4);
483 #if __cplusplus >= 201103L
484   ConstantValueNoDiag<double>().f(theFloat4);
485   ConstantValueNoDiagDependentValue<double, 1>().f(theFloat4);
486   DiagTrunc<double>().f(theFloat4);
487   // expected-note@+1{{in instantiation of member function}}
488   DiagTruncDependentValue<double, 0>().f(theFloat4);
489   // expected-note@+1{{in instantiation of member function}}
490   DiagTruncDependentType<double>().f(theFloat4);
491   PR45298Consumer<double>().f(theFloat4);
492 #endif // __cplusplus >= 201103L
493 }
494 }
495 
496 namespace rdar60092165 {
f()497 template <class T> void f() {
498   typedef T first_type __attribute__((vector_size(sizeof(T) * 4)));
499   typedef T second_type __attribute__((vector_size(sizeof(T) * 4)));
500 
501   second_type st;
502 }
503 }
504 
505 namespace PR45780 {
506 enum E { Value = 15 };
use(char16 c)507 void use(char16 c) {
508   E e;
509   c &Value;   // expected-error{{cannot convert between scalar type 'PR45780::E' and vector type 'char16'}}
510   c == Value; // expected-error{{cannot convert between scalar type 'PR45780::E' and vector type 'char16'}}
511   e | c;      // expected-error{{cannot convert between scalar type 'PR45780::E' and vector type 'char16'}}
512   e != c;     // expected-error{{cannot convert between scalar type 'PR45780::E' and vector type 'char16'}}
513 }
514 
515 } // namespace PR45780
516 
517 namespace PR48540 {
518 // The below used to cause an OOM error, or an assert, make sure it is still
519 //  valid.
520 int (__attribute__((vector_size(16))) a);
521 
522 template <typename T, int I>
523 struct S {
524   T (__attribute__((vector_size(16))) a);
525   int (__attribute__((vector_size(I))) b);
526   T (__attribute__((vector_size(I))) c);
527 };
528 
use()529 void use() {
530   S<int, 16> s;
531 }
532 } // namespace PR48540
533