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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [g++.dg/] [torture/] [pr41775.C] - Rev 693
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/* { dg-do compile } */
/* { dg-require-visibility "" } */
typedef unsigned int size_t;
namespace std __attribute__ ((__visibility__ ("default")))
{
template < typename _Iterator > struct iterator_traits
{
};
template < typename _Tp > struct iterator_traits <_Tp * >
{
typedef _Tp & reference;
};
}
namespace __gnu_cxx __attribute__ ((__visibility__ ("default")))
{
using std::iterator_traits;
template < typename _Iterator, typename _Container > class __normal_iterator
{
public:typedef _Iterator iterator_type;
typedef typename iterator_traits < _Iterator >::reference reference;
reference operator* () const
{
}
__normal_iterator operator++ (int)
{
}
};
template < typename _IteratorL, typename _IteratorR,
typename _Container > inline bool operator!= (const __normal_iterator <
_IteratorL,
_Container > &__lhs,
const __normal_iterator <
_IteratorR,
_Container > &__rhs)
{
}
}
extern "C"
{
extern "C"
{
__extension__ typedef __SIZE_TYPE__ __intptr_t;
}
}
namespace __gnu_cxx __attribute__ ((__visibility__ ("default")))
{
template < typename _Tp > class new_allocator
{
public:typedef size_t size_type;
typedef _Tp *pointer;
template < typename _Tp1 > struct rebind
{
typedef new_allocator < _Tp1 > other;
};
};
}
namespace std __attribute__ ((__visibility__ ("default")))
{
template < typename _Tp > class allocator:public __gnu_cxx::new_allocator <
_Tp >
{
};
}
extern "C"
{
typedef __intptr_t intptr_t;
}
namespace llvm
{
template < typename NodeTy > class ilist_half_node
{
};
template < typename NodeTy > class ilist_node:private ilist_half_node <
NodeTy >
{
};
class MachineBasicBlock;
class MachineOperand
{
public:enum MachineOperandType
{
}
Contents;
unsigned getReg () const
{
}
};
class TargetRegisterInfo;
}
namespace std __attribute__ ((__visibility__ ("default")))
{
template < typename _Tp, typename _Alloc > struct _Vector_base
{
typedef typename _Alloc::template rebind < _Tp >::other _Tp_alloc_type;
};
template < typename _Tp, typename _Alloc = std::allocator < _Tp > >class vector:protected _Vector_base < _Tp,
_Alloc
>
{
typedef _Vector_base < _Tp, _Alloc > _Base;
typedef typename _Base::_Tp_alloc_type _Tp_alloc_type;
public:typedef _Tp value_type;
typedef typename _Tp_alloc_type::pointer pointer;
typedef __gnu_cxx::__normal_iterator < pointer, vector > iterator;
iterator begin ()
{
}
iterator end ()
{
}
};
}
namespace llvm
{
class MachineFunction;
class MachineInstr:public ilist_node < MachineInstr >
{
public:const MachineBasicBlock *getParent () const
{
}
const MachineOperand & getOperand (unsigned i) const
{
}
bool registerDefIsDead (unsigned Reg, const TargetRegisterInfo * TRI =
__null) const
{
}
};
class AnalysisResolver;
class Pass
{
AnalysisResolver *Resolver;
intptr_t PassID;
public: explicit Pass (intptr_t pid):Resolver (0), PassID (pid)
{
}
explicit Pass (const void *pid):Resolver (0), PassID ((intptr_t) pid)
{
}
template < typename AnalysisType > AnalysisType & getAnalysis () const;
};
class FunctionPass:public Pass
{
public:explicit FunctionPass (intptr_t pid):Pass (pid)
{
}
explicit FunctionPass (const void *pid):Pass (pid)
{
}
};
class PassInfo
{
public:typedef Pass *(*NormalCtor_t) ();
private:const char *const PassName;
const char *const PassArgument;
const intptr_t PassID;
const bool IsCFGOnlyPass;
const bool IsAnalysis;
const bool IsAnalysisGroup;
NormalCtor_t NormalCtor;
public: PassInfo (const char *name, const char *arg, intptr_t pi, NormalCtor_t normal = 0, bool isCFGOnly = false, bool is_analysis = false):PassName (name), PassArgument (arg), PassID (pi),
IsCFGOnlyPass (isCFGOnly), IsAnalysis (is_analysis),
IsAnalysisGroup (false), NormalCtor (normal)
{
}
};
template < typename PassName > Pass * callDefaultCtor ()
{
return new PassName ();
}
template < typename passName > struct RegisterPass:public PassInfo
{
RegisterPass (const char *PassArg, const char *Name, bool CFGOnly = false, bool is_analysis = false):PassInfo (Name, PassArg, intptr_t (&passName::ID),
PassInfo::NormalCtor_t (callDefaultCtor < passName >), CFGOnly,
is_analysis)
{
}
};
template < typename T > class SmallVectorImpl
{
};
template < typename T,
unsigned N > class SmallVector:public SmallVectorImpl < T >
{
};
class MachineFunctionPass:public FunctionPass
{
protected:explicit MachineFunctionPass (intptr_t ID):FunctionPass (ID)
{
}
explicit MachineFunctionPass (void *ID):FunctionPass (ID)
{
}
virtual bool runOnMachineFunction (MachineFunction & MF) = 0;
};
class LiveIndex
{
private:unsigned index;
};
class VNInfo
{
};
struct LiveRange
{
LiveIndex start;
LiveIndex end;
VNInfo *valno;
};
class LiveInterval
{
public:typedef SmallVector < LiveRange, 4 > Ranges;
bool containsOneValue () const
{
}
LiveRange *getLiveRangeContaining (LiveIndex Idx)
{
}
void removeRange (LiveIndex Start, LiveIndex End, bool RemoveDeadValNo =
false);
void removeRange (LiveRange LR, bool RemoveDeadValNo = false)
{
removeRange (LR.start, LR.end, RemoveDeadValNo);
}
};
class LiveIntervals:public MachineFunctionPass
{
public:static char ID;
LiveIndex getDefIndex (LiveIndex index)
{
}
LiveInterval & getInterval (unsigned reg)
{
}
LiveIndex getInstructionIndex (const MachineInstr * instr) const
{
}
};
}
using namespace llvm;
namespace
{
struct __attribute__ ((visibility ("hidden"))) StrongPHIElimination:public
MachineFunctionPass
{
static char ID;
StrongPHIElimination ():MachineFunctionPass (&ID)
{
}
bool runOnMachineFunction (MachineFunction & Fn);
};
}
static RegisterPass < StrongPHIElimination > X ("strong-phi-node-elimination",
"Eliminate PHI nodes for register allocation, intelligently");
bool
StrongPHIElimination::runOnMachineFunction (MachineFunction & Fn)
{
LiveIntervals & LI = getAnalysis < LiveIntervals > ();
std::vector < MachineInstr * >phis;
for (std::vector < MachineInstr * >::iterator I = phis.begin (), E =
phis.end (); I != E;)
{
MachineInstr *PInstr = *(I++);
unsigned DestReg = PInstr->getOperand (0).getReg ();
LiveInterval & PI = LI.getInterval (DestReg);
if (PInstr->registerDefIsDead (DestReg))
{
if (PI.containsOneValue ())
{
LiveIndex idx =
LI.getDefIndex (LI.getInstructionIndex (PInstr));
PI.removeRange (*PI.getLiveRangeContaining (idx), true);
}
}
}
}