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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [gcc/] [testsuite/] [g++.dg/] [opt/] [unroll1.C] - Blame information for rev 154

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// PR optimization/12340
// Origin: Richard Guenther 
// Testcase by Eric Botcazou 
 
// This used to segfault on x86 because the loop optimizer wrongly
// interpreted a double assignment to a biv as a double increment,
// which subsequently fooled the unroller.
 
// { dg-do run }
// { dg-options "-O2 -fno-exceptions -funroll-loops" }
 
typedef __SIZE_TYPE__ size_t;
 
inline void* operator new(size_t, void* __p) throw() { return __p; }
inline void operator delete (void*, void*) throw() { };
 
class Loc;
class Interval;
 
template
class DomainBase
{
public:
  typedef typename DT::Domain_t Domain_t;
  typedef typename DT::Storage_t Storage_t;
 
  Domain_t &unwrap() { return *static_cast(this); }
 
  const Domain_t &unwrap() const {
    return *static_cast(const_cast *>(this));
  }
 
protected:
  Storage_t domain_m;
};
 
template
class Domain : public DomainBase
{
  typedef DomainBase Base_t;
 
public:
  typedef typename DT::Size_t Size_t;
  typedef typename DT::Element_t Element_t;
  typedef typename Base_t::Domain_t Domain_t;
  typedef typename Base_t::Storage_t Storage_t;
 
  Domain_t &operator[](int) { return this->unwrap(); }
 
  const Domain_t &operator[](int) const { return this->unwrap(); }
 
  template
  void setDomain(const T &newdom) {
    DT::setDomain(this->domain_m, newdom);
  }
 
  Element_t first() const { return DT::first(this->domain_m); }
 
  Size_t length() const { return DT::length(this->domain_m); }
 
  Size_t size() const { return length(); }
};
 
template
struct DomainTraits;
 
template<>
struct DomainTraits
{
  typedef int Size_t;
  typedef int Element_t;
  typedef Interval Domain_t;
  typedef Interval OneDomain_t;
  typedef Loc AskDomain_t;
  typedef int Storage_t[2];
  enum { dimensions = 1 };
  enum { wildcard = false };
 
  static int first(const Storage_t &d) { return d[0]; }
 
  static int length(const Storage_t &d) { return d[1]; }
 
  static OneDomain_t &getDomain(Domain_t &d, int) { return d; }
 
  static const OneDomain_t &getDomain(const Domain_t &d, int) { return d; }
 
  template
  static void setDomain(Storage_t &dom, const T &newdom) {
    dom[0] = newdom.first();
    dom[1] = newdom.length();
  }
 
  template
  static void setDomain(Storage_t &dom, const T1 &begval, const T2 &endval) {
    dom[0] = begval;
    dom[1] = (endval - begval + 1);
  }
 
};
 
class Interval : public Domain >
{
public:
  Interval(const Interval &a) : Domain >() {
    for (int i=0; i < DomainTraits::dimensions; ++i)
      DomainTraits::getDomain(*this, i).setDomain(
                                DomainTraits::getDomain(a, i));
  }
 
  Interval(int a) : Domain >()
  {
    DomainTraits::setDomain(domain_m, 0, a - 1);
  }
};
 
template<>
struct DomainTraits
{
  typedef int Size_t;
  typedef int Element_t;
  typedef Loc Domain_t;
  typedef Loc AskDomain_t;
  typedef Loc MultResult_t;
  typedef int Storage_t;
 
  static int first(int d) { return d; }
 
  template
  static void setDomain(int &dom, const T &newdom) {
    dom = DomainTraits::getFirst(newdom);
  }
};
 
template<>
struct DomainTraits
 {
  enum { dimensions = 1 };
  enum { wildcard = false };
 
  static int getPointDomain(int d, int) { return d; }
 
  static int getFirst(const int &d) { return d; }
};
 
class Loc : public Domain >
{
public:
  explicit Loc(const int &a) : Domain >() {
    for (int i=0; i < 1; ++i)
      (*this)[i].setDomain(DomainTraits::getPointDomain(a, 0));
  }
};
 
struct ElementProperties
{
  enum { hasTrivialDefaultConstructor = false };
  enum { hasTrivialDestructor = false };
 
  static void construct(double* addr)
  {
    new (addr) double();
  }
 
  static void construct(double* addr, const double& model)
  {
    new (addr) double(model);
  }
 
  static void destruct(double *addr) {}
};
 
class RefCounted
{
public:
  RefCounted() : count_m(0) {}
 
  void addReference() { ++count_m; }
  bool removeRefAndCheckGarbage()
  {
    return (--count_m == 0);
  }
 
private:
  int count_m;
};
 
class RefBlockController : public RefCounted
{
public:
  explicit RefBlockController(unsigned int size)
    : pBegin_m(0), pEnd_m(0), pEndOfStorage_m(0), dealloc_m(false)
  {
    reallocateStorage(size, false);
 
    if (!ElementProperties::hasTrivialDefaultConstructor)
      {
        for (double * pt = begin(); pt != end(); ++pt)
          ElementProperties::construct(pt);
      }
  }
 
  ~RefBlockController()
  {
    deleteStorage();
  }
 
  double *begin() const
  {
    return pBegin_m;
  }
 
  double *end() const
  {
    return pEnd_m;
  }
 
  bool isMine() const
  {
    return dealloc_m;
  }
 
private:
  void deleteStorage()
  {
    if (isMine() && pBegin_m != 0)
      {
        if (!ElementProperties::hasTrivialDestructor)
          for (double *pt = begin(); pt != end(); ++pt)
            ElementProperties::destruct(pt);
 
        char *tmp = reinterpret_cast(pBegin_m);
        delete [] tmp;
      }
  }
 
  void reallocateStorage(unsigned int newsize, bool copyold = false)
  {
    double *pBeginNew = 0;
    double *pEndNew = 0;
    double *pEndOfStorageNew = 0;
 
    if (newsize > 0)
      {
        int nsize = newsize * sizeof(double);
        char *tmp = new char[nsize];
        pBeginNew = reinterpret_cast(tmp);
        pEndNew = pBeginNew + newsize;
        pEndOfStorageNew = pBeginNew + (nsize / sizeof(double));
 
        if (copyold)
          {
            double * pOld = begin();
            double * pNew = pBeginNew;
            while (pOld != end() && pNew != pEndNew)
              ElementProperties::construct(pNew++,*pOld++);
          }
      }
 
    deleteStorage();
 
    pBegin_m = pBeginNew;
    pEnd_m = pEndNew;
    pEndOfStorage_m = pEndOfStorageNew;
    dealloc_m = true;
  }
 
  double *pBegin_m;
  double *pEnd_m;
  double *pEndOfStorage_m;
  bool dealloc_m;
};
 
class DataBlockController : public RefBlockController
{
public:
  explicit
  DataBlockController(unsigned int size)
    : RefBlockController(size), dataObjectPtr_m(new char), owned_m(true) {}
 
  ~DataBlockController()
  {
    if (owned_m) delete dataObjectPtr_m;
  }
 
private:
  mutable char *dataObjectPtr_m;
  bool owned_m;
};
 
class RefCountedPtr
{
public:
  RefCountedPtr(DataBlockController * const pT) : ptr_m(pT)
    { if (isValid()) ptr_m->addReference(); }
 
  ~RefCountedPtr() { invalidate(); }
 
  DataBlockController* operator->() const { return ptr_m; }
  void invalidate();
  bool isValid() const { return ptr_m != 0; }
 
private:
  friend class RefCountedBlockPtr;
  DataBlockController * ptr_m;
};
 
inline void RefCountedPtr::invalidate()
{
  if ( isValid() && ptr_m->removeRefAndCheckGarbage() )
    delete ptr_m;
  ptr_m = 0;
}
 
class RefCountedBlockPtr
{
public:
  explicit RefCountedBlockPtr(unsigned int size)
    : offset_m(0),
      blockControllerPtr_m(new DataBlockController(size)) {}
 
  int offset() const
  {
    return offset_m;
  }
 
  double *beginPointer() const
  {
    return blockControllerPtr_m->begin();
  }
 
  double *currentPointer() const
  {
    return beginPointer() + offset();
  }
 
protected:
  int offset_m;
  RefCountedPtr blockControllerPtr_m;
};
 
class DataBlockPtr : public RefCountedBlockPtr
{
public:
  explicit DataBlockPtr(unsigned int size) : RefCountedBlockPtr(size) {}
};
 
class Node
{
public:
  Node(const Interval &owned, const Interval &allocated)
    : domain_m(owned), allocated_m(allocated) {}
 
  const Interval &allocated() const { return allocated_m; }
 
private:
  Interval domain_m;
  Interval allocated_m;
};
 
class DomainLayout
{
public:
  explicit DomainLayout(const Interval &dom) : node_m(0, dom) {}
 
  const Interval &domain() const
  {
    return node_m.allocated();
  }
 
private:
  Node node_m;
};
 
class BrickBase
{
public:
  explicit BrickBase(const Interval &domain);
 
  int offset(const Loc &dom) const { return off_m + dom[0].first(); }
 
protected:
  DomainLayout layout_m;
  int firsts_m;
  int off_m;
};
 
BrickBase::BrickBase(const Interval &dom)
  : layout_m(dom)
{
  firsts_m = layout_m.domain()[0].first();
  off_m = -firsts_m;
}
 
class Engine : public BrickBase
{
public:
  explicit Engine(const Interval &dom)
  : BrickBase(dom), dataBlock_m(dom.size()), data_m(dataBlock_m.currentPointer()) {}
 
  double& operator()(const Loc &loc) const
  {
    return data_m[this->offset(loc)];
  }
 
private:
  DataBlockPtr dataBlock_m;
  double *data_m;
};
 
 
int main()
{
  Interval I(10);
  Engine A(I);
 
  for (int i = 0; i < 10; i++)
    A(Loc(i)) = 2.0 + i - i*i;
 
  return 0;
}

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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [gcc/] [testsuite/] [g++.dg/] [opt/] [unroll1.C] - Blame information for rev 154

Line No.	Rev	Author	Line
1	149	jeremybenn	`// PR optimization/12340`
2			`// Origin: Richard Guenther`
3			`// Testcase by Eric Botcazou`
4
5			`// This used to segfault on x86 because the loop optimizer wrongly`
6			`// interpreted a double assignment to a biv as a double increment,`
7			`// which subsequently fooled the unroller.`
8
9			`// { dg-do run }`
10			`// { dg-options "-O2 -fno-exceptions -funroll-loops" }`
11
12			`typedef __SIZE_TYPE__ size_t;`
13
14			`inline void* operator new(size_t, void* __p) throw() { return __p; }`
15			`inline void operator delete (void, void) throw() { };`
16
17			`class Loc;`
18			`class Interval;`
19
20			`template`
21			`class DomainBase`
22			`{`
23			`public:`
24			`typedef typename DT::Domain_t Domain_t;`
25			`typedef typename DT::Storage_t Storage_t;`
26
27			`Domain_t &unwrap() { return *static_cast(this); }`
28
29			`const Domain_t &unwrap() const {`
30			`return static_cast(const_cast >(this));`
31			`}`
32
33			`protected:`
34			`Storage_t domain_m;`
35			`};`
36
37			`template`
38			`class Domain : public DomainBase`
39			`{`
40			`typedef DomainBase` `Base_t;`
41
42			`public:`
43			`typedef typename DT::Size_t Size_t;`
44			`typedef typename DT::Element_t Element_t;`
45			`typedef typename Base_t::Domain_t Domain_t;`
46			`typedef typename Base_t::Storage_t Storage_t;`
47
48			`Domain_t &operator[](int) { return this->unwrap(); }`
49
50			`const Domain_t &operator[](int) const { return this->unwrap(); }`
51
52			`template`
53			`void setDomain(const T &newdom) {`
54			`DT::setDomain(this->domain_m, newdom);`
55			`}`
56
57			`Element_t first() const { return DT::first(this->domain_m); }`
58
59			`Size_t length() const { return DT::length(this->domain_m); }`
60
61			`Size_t size() const { return length(); }`
62			`};`
63
64			`template`
65			`struct DomainTraits;`
66
67			`template<>`
68			`struct DomainTraits`
69			`{`
70			`typedef int Size_t;`
71			`typedef int Element_t;`
72			`typedef Interval Domain_t;`
73			`typedef Interval OneDomain_t;`
74			`typedef Loc AskDomain_t;`
75			`typedef int Storage_t[2];`
76			`enum { dimensions = 1 };`
77			`enum { wildcard = false };`
78
79			`static int first(const Storage_t &d) { return d[0]; }`
80
81			`static int length(const Storage_t &d) { return d[1]; }`
82
83			`static OneDomain_t &getDomain(Domain_t &d, int) { return d; }`
84
85			`static const OneDomain_t &getDomain(const Domain_t &d, int) { return d; }`
86
87			`template`
88			`static void setDomain(Storage_t &dom, const T &newdom) {`
89			`dom[0] = newdom.first();`
90			`dom[1] = newdom.length();`
91			`}`
92
93			`template`
94			`static void setDomain(Storage_t &dom, const T1 &begval, const T2 &endval) {`
95			`dom[0] = begval;`
96			`dom[1] = (endval - begval + 1);`
97			`}`
98
99			`};`
100
101			`class Interval : public Domain >`
102			`{`
103			`public:`
104			`Interval(const Interval &a) : Domain >() {`
105			`for (int i=0; i < DomainTraits::dimensions; ++i)`
106			`DomainTraits::getDomain(*this, i).setDomain(`
107			`DomainTraits::getDomain(a, i));`
108			`}`
109
110			`Interval(int a) : Domain >()`
111			`{`
112			`DomainTraits::setDomain(domain_m, 0, a - 1);`
113			`}`
114			`};`
115
116			`template<>`
117			`struct DomainTraits`
118			`{`
119			`typedef int Size_t;`
120			`typedef int Element_t;`
121			`typedef Loc Domain_t;`
122			`typedef Loc AskDomain_t;`
123			`typedef Loc MultResult_t;`
124			`typedef int Storage_t;`
125
126			`static int first(int d) { return d; }`
127
128			`template`
129			`static void setDomain(int &dom, const T &newdom) {`
130			`dom = DomainTraits::getFirst(newdom);`
131			`}`
132			`};`
133
134			`template<>`
135			`struct DomainTraits`
136			`{`
137			`enum { dimensions = 1 };`
138			`enum { wildcard = false };`
139
140			`static int getPointDomain(int d, int) { return d; }`
141
142			`static int getFirst(const int &d) { return d; }`
143			`};`
144
145			`class Loc : public Domain >`
146			`{`
147			`public:`
148			`explicit Loc(const int &a) : Domain >() {`
149			`for (int i=0; i < 1; ++i)`
150			`(*this)[i].setDomain(DomainTraits::getPointDomain(a, 0));`
151			`}`
152			`};`
153
154			`struct ElementProperties`
155			`{`
156			`enum { hasTrivialDefaultConstructor = false };`
157			`enum { hasTrivialDestructor = false };`
158
159			`static void construct(double* addr)`
160			`{`
161			`new (addr) double();`
162			`}`
163
164			`static void construct(double* addr, const double& model)`
165			`{`
166			`new (addr) double(model);`
167			`}`
168
169			`static void destruct(double *addr) {}`
170			`};`
171
172			`class RefCounted`
173			`{`
174			`public:`
175			`RefCounted() : count_m(0) {}`
176
177			`void addReference() { ++count_m; }`
178			`bool removeRefAndCheckGarbage()`
179			`{`
180			`return (--count_m == 0);`
181			`}`
182
183			`private:`
184			`int count_m;`
185			`};`
186
187			`class RefBlockController : public RefCounted`
188			`{`
189			`public:`
190			`explicit RefBlockController(unsigned int size)`
191			`: pBegin_m(0), pEnd_m(0), pEndOfStorage_m(0), dealloc_m(false)`
192			`{`
193			`reallocateStorage(size, false);`
194
195			`if (!ElementProperties::hasTrivialDefaultConstructor)`
196			`{`
197			`for (double * pt = begin(); pt != end(); ++pt)`
198			`ElementProperties::construct(pt);`
199			`}`
200			`}`
201
202			`~RefBlockController()`
203			`{`
204			`deleteStorage();`
205			`}`
206
207			`double *begin() const`
208			`{`
209			`return pBegin_m;`
210			`}`
211
212			`double *end() const`
213			`{`
214			`return pEnd_m;`
215			`}`
216
217			`bool isMine() const`
218			`{`
219			`return dealloc_m;`
220			`}`
221
222			`private:`
223			`void deleteStorage()`
224			`{`
225			`if (isMine() && pBegin_m != 0)`
226			`{`
227			`if (!ElementProperties::hasTrivialDestructor)`
228			`for (double *pt = begin(); pt != end(); ++pt)`
229			`ElementProperties::destruct(pt);`
230
231			`char *tmp = reinterpret_cast(pBegin_m);`
232			`delete [] tmp;`
233			`}`
234			`}`
235
236			`void reallocateStorage(unsigned int newsize, bool copyold = false)`
237			`{`
238			`double *pBeginNew = 0;`
239			`double *pEndNew = 0;`
240			`double *pEndOfStorageNew = 0;`
241
242			`if (newsize > 0)`
243			`{`
244			`int nsize = newsize * sizeof(double);`
245			`char *tmp = new char[nsize];`
246			`pBeginNew = reinterpret_cast(tmp);`
247			`pEndNew = pBeginNew + newsize;`
248			`pEndOfStorageNew = pBeginNew + (nsize / sizeof(double));`
249
250			`if (copyold)`
251			`{`
252			`double * pOld = begin();`
253			`double * pNew = pBeginNew;`
254			`while (pOld != end() && pNew != pEndNew)`
255			`ElementProperties::construct(pNew++,*pOld++);`
256			`}`
257			`}`
258
259			`deleteStorage();`
260
261			`pBegin_m = pBeginNew;`
262			`pEnd_m = pEndNew;`
263			`pEndOfStorage_m = pEndOfStorageNew;`
264			`dealloc_m = true;`
265			`}`
266
267			`double *pBegin_m;`
268			`double *pEnd_m;`
269			`double *pEndOfStorage_m;`
270			`bool dealloc_m;`
271			`};`
272
273			`class DataBlockController : public RefBlockController`
274			`{`
275			`public:`
276			`explicit`
277			`DataBlockController(unsigned int size)`
278			`: RefBlockController(size), dataObjectPtr_m(new char), owned_m(true) {}`
279
280			`~DataBlockController()`
281			`{`
282			`if (owned_m) delete dataObjectPtr_m;`
283			`}`
284
285			`private:`
286			`mutable char *dataObjectPtr_m;`
287			`bool owned_m;`
288			`};`
289
290			`class RefCountedPtr`
291			`{`
292			`public:`
293			`RefCountedPtr(DataBlockController * const pT) : ptr_m(pT)`
294			`{ if (isValid()) ptr_m->addReference(); }`
295
296			`~RefCountedPtr() { invalidate(); }`
297
298			`DataBlockController* operator->() const { return ptr_m; }`
299			`void invalidate();`
300			`bool isValid() const { return ptr_m != 0; }`
301
302			`private:`
303			`friend class RefCountedBlockPtr;`
304			`DataBlockController * ptr_m;`
305			`};`
306
307			`inline void RefCountedPtr::invalidate()`
308			`{`
309			`if ( isValid() && ptr_m->removeRefAndCheckGarbage() )`
310			`delete ptr_m;`
311			`ptr_m = 0;`
312			`}`
313
314			`class RefCountedBlockPtr`
315			`{`
316			`public:`
317			`explicit RefCountedBlockPtr(unsigned int size)`
318			`: offset_m(0),`
319			`blockControllerPtr_m(new DataBlockController(size)) {}`
320
321			`int offset() const`
322			`{`
323			`return offset_m;`
324			`}`
325
326			`double *beginPointer() const`
327			`{`
328			`return blockControllerPtr_m->begin();`
329			`}`
330
331			`double *currentPointer() const`
332			`{`
333			`return beginPointer() + offset();`
334			`}`
335
336			`protected:`
337			`int offset_m;`
338			`RefCountedPtr blockControllerPtr_m;`
339			`};`
340
341			`class DataBlockPtr : public RefCountedBlockPtr`
342			`{`
343			`public:`
344			`explicit DataBlockPtr(unsigned int size) : RefCountedBlockPtr(size) {}`
345			`};`
346
347			`class Node`
348			`{`
349			`public:`
350			`Node(const Interval &owned, const Interval &allocated)`
351			`: domain_m(owned), allocated_m(allocated) {}`
352
353			`const Interval &allocated() const { return allocated_m; }`
354
355			`private:`
356			`Interval domain_m;`
357			`Interval allocated_m;`
358			`};`
359
360			`class DomainLayout`
361			`{`
362			`public:`
363			`explicit DomainLayout(const Interval &dom) : node_m(0, dom) {}`
364
365			`const Interval &domain() const`
366			`{`
367			`return node_m.allocated();`
368			`}`
369
370			`private:`
371			`Node node_m;`
372			`};`
373
374			`class BrickBase`
375			`{`
376			`public:`
377			`explicit BrickBase(const Interval &domain);`
378
379			`int offset(const Loc &dom) const { return off_m + dom[0].first(); }`
380
381			`protected:`
382			`DomainLayout layout_m;`
383			`int firsts_m;`
384			`int off_m;`
385			`};`
386
387			`BrickBase::BrickBase(const Interval &dom)`
388			`: layout_m(dom)`
389			`{`
390			`firsts_m = layout_m.domain()[0].first();`
391			`off_m = -firsts_m;`
392			`}`
393
394			`class Engine : public BrickBase`
395			`{`
396			`public:`
397			`explicit Engine(const Interval &dom)`
398			`: BrickBase(dom), dataBlock_m(dom.size()), data_m(dataBlock_m.currentPointer()) {}`
399
400			`double& operator()(const Loc &loc) const`
401			`{`
402			`return data_m[this->offset(loc)];`
403			`}`
404
405			`private:`
406			`DataBlockPtr dataBlock_m;`
407			`double *data_m;`
408			`};`
409
410
411			`int main()`
412			`{`
413			`Interval I(10);`
414			`Engine A(I);`
415
416			`for (int i = 0; i < 10; i++)`
417			`A(Loc(i)) = 2.0 + i - i*i;`
418
419			`return 0;`
420			`}`