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[/] [openrisc/] [tags/] [gnu-src/] [gcc-4.5.1/] [gcc-4.5.1-or32-1.0rc1/] [gcc/] [testsuite/] [g++.dg/] [graphite/] [pr41305.C] - Blame information for rev 779

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// { dg-do compile }
// { dg-options "-O3 -floop-interchange -Wno-conversion-null" }
 
void __throw_bad_alloc ();
 
template  void
swap (_Tp & __a, _Tp __b)
{
  __a = __b;
}
 
template  struct iterator
{
  typedef _Category iterator_category;
};
 
template  struct allocator
{
  typedef __SIZE_TYPE__ size_type;
  typedef _Tp pointer;
  pointer allocate (size_type)
  {
    __throw_bad_alloc ();
    return __null;
  }
};
 
template  >class unbounded_array;
template  >class vector;
template  class scalar_vector;
template  struct random_access_iterator_base : public iterator 
{
};
 
template  struct promote_traits
{
  typedef __typeof__ ((X ())) promote_type;
};
 
template  struct scalar_traits
{
  typedef T const_reference;
  typedef T reference;
};
 
template  struct type_traits : scalar_traits 
{
};
 
struct dense_proxy_tag
{
};
 
template  struct iterator_base_traits;
 
template <> struct iterator_base_traits 
{
  template  struct iterator_base
  {
    typedef random_access_iterator_base  type;
  };
};
 
template  struct iterator_restrict_traits
{
  typedef I1 iterator_category;
};
 
template  class storage_array
{
};
 
template  struct unbounded_array : public storage_array  >
{
  typedef typename ALLOC::size_type size_type;
  typedef T & reference;
  typedef T *pointer;
  unbounded_array (size_type size, ALLOC = ALLOC ()) : alloc_ (), size_ (size)
  {
    alloc_.allocate (size_);
  }
  ~unbounded_array ()
  {
    if (size_)
      for (;;);
  }
  size_type
  size () const
  {
    return size_;
  }
  reference
  operator[] (size_type i)
  {
    return data_[i];
  }
  void
  swap (unbounded_array & a)
  {
    ::swap (size_, a.size_);
  }
  ALLOC alloc_;
  size_type size_;
  pointer data_;
};
 
template  struct scalar_binary_functor
{
  typedef typename promote_traits ::promote_type result_type;
};
 
template  struct scalar_plus : public scalar_binary_functor 
{
};
 
template  struct scalar_multiplies : public scalar_binary_functor 
{
};
 
template  struct scalar_binary_assign_functor
{
  typedef typename type_traits ::reference argument1_type;
  typedef typename type_traits ::const_reference argument2_type;
};
 
template  struct scalar_assign : public scalar_binary_assign_functor 
{
  typedef typename scalar_binary_assign_functor ::argument1_type argument1_type;
  typedef typename scalar_binary_assign_functor ::argument2_type argument2_type;
  static const bool computed = false;
  static void
  apply (argument1_type t1, argument2_type t2)
  {
    t1 = t2;
  }
};
 
template  struct vector_expression
{
  typedef E expression_type;
  const expression_type &
  operator () () const
  {
    return *static_cast (this);
  }
};
 
template  class vector_container : public vector_expression 
{
};
 
template  struct vector_reference : public vector_expression  >
{
  typedef typename E::size_type size_type;
  typename E::const_reference const_reference;
  typedef E referred_type;
  vector_reference (referred_type & e) : e_ (e)
  {
  }
  size_type
  size () const
  {
    return expression ().size ();
  }
  referred_type &
  expression () const
  {
    return e_;
  }
  referred_type &e_;
};
 
template  struct vector_binary : public vector_expression  >
{
  typedef E1 expression1_type;
  typedef E2 expression2_type;
  typedef typename E1::const_closure_type expression1_closure_type;
  typedef typename E2::const_closure_type expression2_closure_type;
  typedef typename promote_traits ::promote_type size_type;
  typedef typename F::result_type value_type;
 
  vector_binary (const expression1_type & e1, expression2_type e2) : e1_ (e1), e2_ (e2)
  {
  }
 
  size_type
  size () const
  {
    return e1_.size ();
  }
 
  class const_iterator : public iterator_base_traits ::iterator_category>::template iterator_base ::type
  {
  };
  expression1_closure_type e1_;
  expression2_closure_type e2_;
};
 
template  struct vector_binary_traits
{
  typedef vector_binary  expression_type;
  typedef expression_type result_type;
};
 
template  typename vector_binary_traits  >::result_type
operator + (vector_expression  &e1, const vector_expression  &e2)
{
  typedef typename vector_binary_traits  >::expression_type expression_type;
  return expression_type (e1 (), e2 ());
}
 
template  struct vector_binary_scalar2 : public vector_expression  >
{
  typedef vector_binary_scalar2  self_type;
  typedef typename E1::size_type size_type;
  typedef typename F::result_type value_type;
  typedef self_type const_closure_type;
};
 
template  struct vector_binary_scalar2_traits
{
  typedef vector_binary_scalar2  result_type;
};
 
template 
typename vector_binary_scalar2_traits  >::result_type
operator * (vector_expression , T2)
{
}
 
template  struct vector_assign_traits
{
  typedef SC storage_category;
};
 
}
indexing_vector_assign (V & v, vector_expression )
{
  typedef F  functor_type;
  typedef typename V::size_type size_type;
  size_type size (v.size ());
  for (size_type i; i 
    functor_type::apply (v (i), (i));
}
 
}
vector_assign (V & v, const vector_expression  &e, dense_proxy_tag)
{
  indexing_vector_assign  (v, e);
}
 
}
vector_assign (V & v, const vector_expression  &e)
{
  typedef typename vector_assign_traits ::storage_category storage_category;
  vector_assign  (v, e, storage_category ());
}
 
template  struct vector : public vector_container  >
{
  typedef vector  self_type;
  typedef typename A::size_type size_type;
  typedef T value_type;
  typedef typename type_traits ::const_reference const_reference;
  typedef T &reference;
  typedef A array_type;
  typedef vector_reference  const_closure_type;
  typedef dense_proxy_tag storage_category;
  vector (size_type size):vector_container  (), data_ (size)
  {
  }
  vector (size_type size, value_type):vector_container  (), data_ (size)
  {
  }
  template  vector (const vector_expression  &ae) : vector_container  (), data_ (ae ().size ())
  {
    vector_assign  (*this, ae);
  }
  size_type
  size () const
  {
    return data_.size ();
  }
  array_type &
  data ()
  {
    return data_;
  }
  reference
  operator () (size_type i)
  {
    return data ()[i];
  }
  template  vector operator += (const vector_expression  &ae)
  {
    self_type temporary (*this + ae);
    data_.swap (temporary.data ());
    return *this;
  }
  class const_iterator : public random_access_iterator_base 
  {
  };
  array_type data_;
};
 
template  struct scalar_vector : public vector_container  >
{
  typedef scalar_vector self_type;
  typedef __SIZE_TYPE__ size_type;
  typedef T value_type;
  typedef T const_reference;
  typedef vector_reference  const_closure_type;
};
 
void
bar (vector )
{
}
 
void
foo (int n_samp)
{
  vector  xi (n_samp, 0);
  for (int n = 0; n 
    {
      vector  cos_w_n (n_samp);
      xi += cos_w_n * 6.0;
    }
  vector  cos_wd (n_samp);
  xi += cos_wd;
  bar (xi + scalar_vector <> ());
}

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Subversion Repositories openrisc

[/] [openrisc/] [tags/] [gnu-src/] [gcc-4.5.1/] [gcc-4.5.1-or32-1.0rc1/] [gcc/] [testsuite/] [g++.dg/] [graphite/] [pr41305.C] - Blame information for rev 779

Line No.	Rev	Author	Line
1	301	jeremybenn	`// { dg-do compile }`
2			`// { dg-options "-O3 -floop-interchange -Wno-conversion-null" }`
3
4			`void __throw_bad_alloc ();`
5
6			`template void`
7			`swap (_Tp & __a, _Tp __b)`
8			`{`
9			`__a = __b;`
10			`}`
11
12			`template struct iterator`
13			`{`
14			`typedef _Category iterator_category;`
15			`};`
16
17			`template struct allocator`
18			`{`
19			`typedef __SIZE_TYPE__ size_type;`
20			`typedef _Tp pointer;`
21			`pointer allocate (size_type)`
22			`{`
23			`__throw_bad_alloc ();`
24			`return __null;`
25			`}`
26			`};`
27
28			`template >class unbounded_array;`
29			`template >class vector;`
30			`template class scalar_vector;`
31			`template struct random_access_iterator_base : public iterator`
32			`{`
33			`};`
34
35			`template struct promote_traits`
36			`{`
37			`typedef __typeof__ ((X ())) promote_type;`
38			`};`
39
40			`template struct scalar_traits`
41			`{`
42			`typedef T const_reference;`
43			`typedef T reference;`
44			`};`
45
46			`template struct type_traits : scalar_traits`
47			`{`
48			`};`
49
50			`struct dense_proxy_tag`
51			`{`
52			`};`
53
54			`template struct iterator_base_traits;`
55
56			`template <> struct iterator_base_traits`
57			`{`
58			`template struct iterator_base`
59			`{`
60			`typedef random_access_iterator_base type;`
61			`};`
62			`};`
63
64			`template struct iterator_restrict_traits`
65			`{`
66			`typedef I1 iterator_category;`
67			`};`
68
69			`template class storage_array`
70			`{`
71			`};`
72
73			`template struct unbounded_array : public storage_array >`
74			`{`
75			`typedef typename ALLOC::size_type size_type;`
76			`typedef T & reference;`
77			`typedef T *pointer;`
78			`unbounded_array (size_type size, ALLOC = ALLOC ()) : alloc_ (), size_ (size)`
79			`{`
80			`alloc_.allocate (size_);`
81			`}`
82			`~unbounded_array ()`
83			`{`
84			`if (size_)`
85			`for (;;);`
86			`}`
87			`size_type`
88			`size () const`
89			`{`
90			`return size_;`
91			`}`
92			`reference`
93			`operator[] (size_type i)`
94			`{`
95			`return data_[i];`
96			`}`
97			`void`
98			`swap (unbounded_array & a)`
99			`{`
100			`::swap (size_, a.size_);`
101			`}`
102			`ALLOC alloc_;`
103			`size_type size_;`
104			`pointer data_;`
105			`};`
106
107			`template struct scalar_binary_functor`
108			`{`
109			`typedef typename promote_traits ::promote_type result_type;`
110			`};`
111
112			`template struct scalar_plus : public scalar_binary_functor`
113			`{`
114			`};`
115
116			`template struct scalar_multiplies : public scalar_binary_functor`
117			`{`
118			`};`
119
120			`template struct scalar_binary_assign_functor`
121			`{`
122			`typedef typename type_traits ::reference argument1_type;`
123			`typedef typename type_traits ::const_reference argument2_type;`
124			`};`
125
126			`template struct scalar_assign : public scalar_binary_assign_functor`
127			`{`
128			`typedef typename scalar_binary_assign_functor ::argument1_type argument1_type;`
129			`typedef typename scalar_binary_assign_functor ::argument2_type argument2_type;`
130			`static const bool computed = false;`
131			`static void`
132			`apply (argument1_type t1, argument2_type t2)`
133			`{`
134			`t1 = t2;`
135			`}`
136			`};`
137
138			`template struct vector_expression`
139			`{`
140			`typedef E expression_type;`
141			`const expression_type &`
142			`operator () () const`
143			`{`
144			`return *static_cast (this);`
145			`}`
146			`};`
147
148			`template class vector_container : public vector_expression`
149			`{`
150			`};`
151
152			`template struct vector_reference : public vector_expression >`
153			`{`
154			`typedef typename E::size_type size_type;`
155			`typename E::const_reference const_reference;`
156			`typedef E referred_type;`
157			`vector_reference (referred_type & e) : e_ (e)`
158			`{`
159			`}`
160			`size_type`
161			`size () const`
162			`{`
163			`return expression ().size ();`
164			`}`
165			`referred_type &`
166			`expression () const`
167			`{`
168			`return e_;`
169			`}`
170			`referred_type &e_;`
171			`};`
172
173			`template struct vector_binary : public vector_expression >`
174			`{`
175			`typedef E1 expression1_type;`
176			`typedef E2 expression2_type;`
177			`typedef typename E1::const_closure_type expression1_closure_type;`
178			`typedef typename E2::const_closure_type expression2_closure_type;`
179			`typedef typename promote_traits ::promote_type size_type;`
180			`typedef typename F::result_type value_type;`
181
182			`vector_binary (const expression1_type & e1, expression2_type e2) : e1_ (e1), e2_ (e2)`
183			`{`
184			`}`
185
186			`size_type`
187			`size () const`
188			`{`
189			`return e1_.size ();`
190			`}`
191
192			`class const_iterator : public iterator_base_traits ::iterator_category>::template iterator_base ::type`
193			`{`
194			`};`
195			`expression1_closure_type e1_;`
196			`expression2_closure_type e2_;`
197			`};`
198
199			`template struct vector_binary_traits`
200			`{`
201			`typedef vector_binary expression_type;`
202			`typedef expression_type result_type;`
203			`};`
204
205			`template typename vector_binary_traits >::result_type`
206			`operator + (vector_expression &e1, const vector_expression &e2)`
207			`{`
208			`typedef typename vector_binary_traits >::expression_type expression_type;`
209			`return expression_type (e1 (), e2 ());`
210			`}`
211
212			`template struct vector_binary_scalar2 : public vector_expression >`
213			`{`
214			`typedef vector_binary_scalar2 self_type;`
215			`typedef typename E1::size_type size_type;`
216			`typedef typename F::result_type value_type;`
217			`typedef self_type const_closure_type;`
218			`};`
219
220			`template struct vector_binary_scalar2_traits`
221			`{`
222			`typedef vector_binary_scalar2 result_type;`
223			`};`
224
225			`template`
226			`typename vector_binary_scalar2_traits >::result_type`
227			`operator * (vector_expression , T2)`
228			`{`
229			`}`
230
231			`template struct vector_assign_traits`
232			`{`
233			`typedef SC storage_category;`
234			`};`
235
236			`template`
237			`indexing_vector_assign (V & v, vector_expression )`
238			`{`
239			`typedef F functor_type;`
240			`typedef typename V::size_type size_type;`
241			`size_type size (v.size ());`
242			`for (size_type i; i`
243			`functor_type::apply (v (i), (i));`
244			`}`
245
246			`template`
247			`vector_assign (V & v, const vector_expression &e, dense_proxy_tag)`
248			`{`
249			`indexing_vector_assign (v, e);`
250			`}`
251
252			`template`
253			`vector_assign (V & v, const vector_expression &e)`
254			`{`
255			`typedef typename vector_assign_traits ::storage_category storage_category;`
256			`vector_assign (v, e, storage_category ());`
257			`}`
258
259			`template struct vector : public vector_container >`
260			`{`
261			`typedef vector self_type;`
262			`typedef typename A::size_type size_type;`
263			`typedef T value_type;`
264			`typedef typename type_traits ::const_reference const_reference;`
265			`typedef T &reference;`
266			`typedef A array_type;`
267			`typedef vector_reference const_closure_type;`
268			`typedef dense_proxy_tag storage_category;`
269			`vector (size_type size):vector_container (), data_ (size)`
270			`{`
271			`}`
272			`vector (size_type size, value_type):vector_container (), data_ (size)`
273			`{`
274			`}`
275			`template vector (const vector_expression &ae) : vector_container (), data_ (ae ().size ())`
276			`{`
277			`vector_assign (*this, ae);`
278			`}`
279			`size_type`
280			`size () const`
281			`{`
282			`return data_.size ();`
283			`}`
284			`array_type &`
285			`data ()`
286			`{`
287			`return data_;`
288			`}`
289			`reference`
290			`operator () (size_type i)`
291			`{`
292			`return data ()[i];`
293			`}`
294			`template vector operator += (const vector_expression &ae)`
295			`{`
296			`self_type temporary (*this + ae);`
297			`data_.swap (temporary.data ());`
298			`return *this;`
299			`}`
300			`class const_iterator : public random_access_iterator_base`
301			`{`
302			`};`
303			`array_type data_;`
304			`};`
305
306			`template struct scalar_vector : public vector_container >`
307			`{`
308			`typedef scalar_vector self_type;`
309			`typedef __SIZE_TYPE__ size_type;`
310			`typedef T value_type;`
311			`typedef T const_reference;`
312			`typedef vector_reference const_closure_type;`
313			`};`
314
315			`void`
316			`bar (vector )`
317			`{`
318			`}`
319
320			`void`
321			`foo (int n_samp)`
322			`{`
323			`vector xi (n_samp, 0);`
324			`for (int n = 0; n`
325			`{`
326			`vector cos_w_n (n_samp);`
327			`xi += cos_w_n * 6.0;`
328			`}`
329			`vector cos_wd (n_samp);`
330			`xi += cos_wd;`
331			`bar (xi + scalar_vector <> ());`
332			`}`