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Diffstat (limited to 'gcc-4.9/gcc/testsuite/gcc.target/aarch64/pr60675.C')
| -rw-r--r-- | gcc-4.9/gcc/testsuite/gcc.target/aarch64/pr60675.C | 277 |
1 files changed, 277 insertions, 0 deletions
diff --git a/gcc-4.9/gcc/testsuite/gcc.target/aarch64/pr60675.C b/gcc-4.9/gcc/testsuite/gcc.target/aarch64/pr60675.C new file mode 100644 index 000000000..aa88cdb24 --- /dev/null +++ b/gcc-4.9/gcc/testsuite/gcc.target/aarch64/pr60675.C @@ -0,0 +1,277 @@ +/* { dg-do compile } */ +/* { dg-options "-std=c++11 -w -O2 -fPIC" } */ +namespace CLHEP { + static const double meter = 1000.*10; + static const double meter2 = meter*meter; + static const double megaelectronvolt = 1. ; + static const double gigaelectronvolt = 1.e+3; + static const double GeV = gigaelectronvolt; + static const double megavolt = megaelectronvolt; + static const double volt = 1.e-6*megavolt; + static const double tesla = volt*1.e+9/meter2; + } + using CLHEP::GeV; + using CLHEP::tesla; + namespace std { + typedef long int ptrdiff_t; + } + extern "C" { + extern double cos (double __x) throw (); + extern double sin (double __x) throw (); + extern double sqrt (double __x) throw (); + } + namespace std __attribute__ ((__visibility__ ("default"))) { + using ::cos; + using ::sin; + using ::sqrt; + template<class _CharT> struct char_traits; + template<typename _CharT, typename _Traits = char_traits<_CharT> > struct basic_ostream; + typedef basic_ostream<char> ostream; + template<typename _Iterator> struct iterator_traits { }; + template<typename _Tp> struct iterator_traits<_Tp*> { + typedef ptrdiff_t difference_type; + typedef _Tp& reference; + }; + } + namespace __gnu_cxx __attribute__ ((__visibility__ ("default"))) { + using std::iterator_traits; + template<typename _Iterator, typename _Container> struct __normal_iterator { + _Iterator _M_current; + typedef iterator_traits<_Iterator> __traits_type; + typedef typename __traits_type::difference_type difference_type; + typedef typename __traits_type::reference reference; + explicit __normal_iterator(const _Iterator& __i) : _M_current(__i) { } + reference operator*() const { + return *_M_current; + } + __normal_iterator operator+(difference_type __n) const { + return __normal_iterator(_M_current + __n); + } + }; + template<typename _Tp> struct new_allocator { + }; + } + namespace std __attribute__ ((__visibility__ ("default"))) { + template<typename _Tp> struct allocator: public __gnu_cxx::new_allocator<_Tp> { + }; + struct ios_base { }; + template<typename _CharT, typename _Traits> struct basic_ios : public ios_base { }; + template<typename _CharT, typename _Traits> struct basic_ostream : virtual public basic_ios<_CharT, _Traits> { + typedef basic_ostream<_CharT, _Traits> __ostream_type; + __ostream_type& operator<<(__ostream_type& (*__pf)(__ostream_type&)) { } + __ostream_type& operator<<(const void* __p) { + return _M_insert(__p); + } + template<typename _ValueT> __ostream_type& _M_insert(_ValueT __v); + }; + template<typename _CharT, typename _Traits> inline basic_ostream<_CharT, _Traits>& endl(basic_ostream<_CharT, _Traits>& __os) { + } + } + typedef double G4double; + typedef int G4int; + extern __thread std::ostream *G4cout_p; + struct G4Field; + struct G4FieldManager { + inline G4Field* GetDetectorField() ; + }; + namespace CLHEP { + struct Hep3Vector { + Hep3Vector(double x, double y, double z); + inline ~Hep3Vector(); + inline double x() const; + inline double y() const; + inline double z() const; + inline double mag() const; + inline Hep3Vector cross(const Hep3Vector &) const; + double dx; + double dy; + double dz; + }; + Hep3Vector operator / (const Hep3Vector &, double a); + inline double Hep3Vector::x() const { + return dx; + } + inline double Hep3Vector::y() const { + return dy; + } + inline double Hep3Vector::z() const { + return dz; + } + inline Hep3Vector operator + (const Hep3Vector & a, const Hep3Vector & b) { } + inline Hep3Vector operator * (const Hep3Vector & p, double a) { } + inline double operator * (const Hep3Vector & a, const Hep3Vector & b) { } + inline Hep3Vector::Hep3Vector(double x1, double y1, double z1) : dx(x1), dy(y1), dz(z1) { + } + inline Hep3Vector::~Hep3Vector() { } + inline Hep3Vector Hep3Vector::cross(const Hep3Vector & p) const { + return Hep3Vector(dy*p.dz-p.dy*dz, dz*p.dx-p.dz*dx, dx*p.dy-p.dx*dy); + } + } + typedef CLHEP::Hep3Vector G4ThreeVector; + namespace std __attribute__ ((__visibility__ ("default"))) { + template<typename _Tp, typename _Alloc = std::allocator<_Tp> > struct vector + { + typedef _Tp *pointer; + typedef __gnu_cxx::__normal_iterator<pointer, vector> iterator; + iterator begin() { } + }; + } + struct G4TransportationManager { + static G4TransportationManager* GetTransportationManager(); + inline G4FieldManager* GetFieldManager() const; + }; + struct G4ErrorMatrix { + G4ErrorMatrix(G4int p, G4int q, G4int i); + virtual ~G4ErrorMatrix(); + struct G4ErrorMatrix_row { + inline G4ErrorMatrix_row(G4ErrorMatrix&,G4int); + G4double & operator[](G4int); + G4ErrorMatrix& _a; + G4int _r; + }; + inline G4ErrorMatrix_row operator[] (G4int); + std::vector<G4double > m; + G4int nrow, ncol; + }; + inline G4ErrorMatrix::G4ErrorMatrix_row G4ErrorMatrix::operator[] (G4int r) { + G4ErrorMatrix_row b(*this,r); + return b; + } + inline G4double &G4ErrorMatrix::G4ErrorMatrix_row::operator[](G4int c) { + return *(_a.m.begin()+_r*_a.ncol+c); + } + inline G4ErrorMatrix:: G4ErrorMatrix_row::G4ErrorMatrix_row(G4ErrorMatrix&a, G4int r) : _a(a) { + _r = r; + }; + struct G4DynamicParticle { + G4double GetCharge() const; + }; + struct G4Step; + struct G4Track { + const G4DynamicParticle* GetDynamicParticle() const; + const G4ThreeVector& GetPosition() const; + G4ThreeVector GetMomentum() const; + const G4Step* GetStep() const; + }; + struct G4StepPoint { + const G4ThreeVector& GetPosition() const; + G4ThreeVector GetMomentum() const; + }; + struct G4Step { + G4StepPoint* GetPreStepPoint() const; + G4double GetStepLength() const; + }; + namespace HepGeom { + template<class T> struct BasicVector3D { + T v_[3]; + BasicVector3D(T x1, T y1, T z1) { } + operator T * () { + return v_; + } + T x() const { + return v_[0]; + } + T y() const { + return v_[1]; + } + T z() const { + return v_[2]; + } + T perp2() const { } + T perp() const { + return std::sqrt(perp2()); + } + T mag2() const { } + T mag() const { + return std::sqrt(mag2()); + } + T theta() const { } + }; + inline BasicVector3D<double> operator-(const BasicVector3D<double> & a,const BasicVector3D<double> & b) { } + inline BasicVector3D<double> operator*(const BasicVector3D<double> & v, double a) { } + template<class T> struct Point3D : public BasicVector3D<T> { + explicit Point3D(const double * a) : BasicVector3D<double>(a[0],a[1],a[2]) { } + Point3D(const CLHEP::Hep3Vector & v) : BasicVector3D<double>(v.dx,v.dy,v.dz) { } + }; + } + typedef HepGeom::Point3D<G4double> G4Point3D; + namespace HepGeom { + template<class T> struct Vector3D : public BasicVector3D<T> { + Vector3D(const BasicVector3D<double> & v) : BasicVector3D<double>(v) { } + Vector3D(const CLHEP::Hep3Vector & v) : BasicVector3D<double>(v.dx,v.dy,v.dz) { } + operator CLHEP::Hep3Vector () const { } + }; + } + typedef HepGeom::Vector3D<G4double> G4Vector3D; + struct G4ErrorFreeTrajState +{ + virtual G4int PropagateError( const G4Track* aTrack ); + G4int PropagateErrorMSC( const G4Track* aTrack ); + }; + G4int G4ErrorFreeTrajState::PropagateError( const G4Track* aTrack ) { + G4double stepLengthCm = aTrack->GetStep()->GetStepLength()/10.; + G4Point3D vposPost = aTrack->GetPosition()/10.; + G4Vector3D vpPost = aTrack->GetMomentum()/GeV; + G4Point3D vposPre = aTrack->GetStep()->GetPreStepPoint()->GetPosition()/10.; + G4Vector3D vpPre = aTrack->GetStep()->GetPreStepPoint()->GetMomentum()/GeV; + G4double pPre = vpPre.mag(); + G4double pPost = vpPost.mag(); + G4double pInvPre = 1./pPre; + G4double pInvPost = 1./pPost; + G4double deltaPInv = pInvPost - pInvPre; + G4Vector3D vpPreNorm = vpPre * pInvPre; + G4Vector3D vpPostNorm = vpPost * pInvPost; + (*G4cout_p) << "G4EP: vpPreNorm " << vpPreNorm << " vpPostNorm " << vpPostNorm << std::endl; + G4double sinpPre = std::sin( vpPreNorm.theta() ); + G4double sinpPostInv = 1./std::sin( vpPreNorm.theta() ); + G4ErrorMatrix transf(5, 5, 0 ); + G4double charge = aTrack->GetDynamicParticle()->GetCharge(); + G4double h1[3], h2[3]; + G4Field* field += G4TransportationManager::GetTransportationManager()->GetFieldManager()->GetDetectorField() +; + if( charge != 0. && field ) + { + G4ThreeVector HPre = G4ThreeVector( h1[0], h1[1], h1[2] ) / tesla *10.; + G4ThreeVector HPost= G4ThreeVector( h2[0], h2[1], h2[2] ) / tesla *10.; + { + G4double pInvAver = 1./(pInvPre + pInvPost ); + G4double CFACT8 = 2.997925E-4; + G4ThreeVector vHAverNorm( (HPre*pInvPre + HPost*pInvPost ) * pInvAver * charge * CFACT8 ); + G4double HAver = vHAverNorm.mag(); + G4double pAver = (pPre+pPost)*0.5; + G4double QAver = -HAver/pAver; + G4double thetaAver = QAver * stepLengthCm; + G4double sinThetaAver = std::sin(thetaAver); + G4double cosThetaAver = std::cos(thetaAver); + G4double gamma = vHAverNorm * vpPostNorm; + G4ThreeVector AN2 = vHAverNorm.cross( vpPostNorm ); + G4double AU = 1./vpPreNorm.perp(); + G4ThreeVector vUPre( -AU*vpPreNorm.y(), AU*vpPreNorm.x(), 0. ); + G4ThreeVector vVPre( -vpPreNorm.z()*vUPre.y(), vpPreNorm.z()*vUPre.x(), vpPreNorm.x()*vUPre.y() - vpPreNorm.y()*vUPre.x() ); + AU = 1./vpPostNorm.perp(); + G4ThreeVector vUPost( -AU*vpPostNorm.y(), AU*vpPostNorm.x(), 0. ); + G4ThreeVector vVPost( -vpPostNorm.z()*vUPost.y(), vpPostNorm.z()*vUPost.x(), vpPostNorm.x()*vUPost.y() - vpPostNorm.y()*vUPost.x() ); + G4Point3D deltaPos( vposPre - vposPost ); + G4double QP = QAver * pAver; + G4double ANV = -( vHAverNorm.x()*vUPost.x() + vHAverNorm.y()*vUPost.y() ); + G4double ANU = ( vHAverNorm.x()*vVPost.x() + vHAverNorm.y()*vVPost.y() + vHAverNorm.z()*vVPost.z() ); + G4double OMcosThetaAver = 1. - cosThetaAver; + G4double TMSINT = thetaAver - sinThetaAver; + G4ThreeVector vHUPre( -vHAverNorm.z() * vUPre.y(), vHAverNorm.z() * vUPre.x(), vHAverNorm.x() * vUPre.y() - vHAverNorm.y() * vUPre.x() ); + G4ThreeVector vHVPre( vHAverNorm.y() * vVPre.z() - vHAverNorm.z() * vVPre.y(), vHAverNorm.z() * vVPre.x() - vHAverNorm.x() * vVPre.z(), vHAverNorm.x() * vVPre.y() - vHAverNorm.y() * vVPre.x() ); + transf[0][1] = -deltaPInv/thetaAver* ( TMSINT*gamma*(vHAverNorm.x()*vVPre.x()+vHAverNorm.y()*vVPre.y()+vHAverNorm.z()*vVPre.z()) + sinThetaAver*(vVPre.x()*vpPostNorm.x()+vVPre.y()*vpPostNorm.y()+vVPre.z()*vpPostNorm.z()) + OMcosThetaAver*(vHVPre.x()*vpPostNorm.x()+vHVPre.y()*vpPostNorm.y()+vHVPre.z()*vpPostNorm.z()) ); + transf[0][2] = -sinpPre*deltaPInv/thetaAver* ( TMSINT*gamma*(vHAverNorm.x()*vUPre.x()+vHAverNorm.y()*vUPre.y() ) + sinThetaAver*(vUPre.x()*vpPostNorm.x()+vUPre.y()*vpPostNorm.y() ) + OMcosThetaAver*(vHUPre.x()*vpPostNorm.x()+vHUPre.y()*vpPostNorm.y()+vHUPre.z()*vpPostNorm.z()) ); + transf[0][3] = -deltaPInv/stepLengthCm*(vUPre.x()*vpPostNorm.x()+vUPre.y()*vpPostNorm.y() ); + transf[1][1] = cosThetaAver*(vVPre.x()*vVPost.x()+vVPre.y()*vVPost.y()+vVPre.z()*vVPost.z()) + sinThetaAver*(vHVPre.x()*vVPost.x()+vHVPre.y()*vVPost.y()+vHVPre.z()*vVPost.z()) + OMcosThetaAver*(vHAverNorm.x()*vVPre.x()+vHAverNorm.y()*vVPre.y()+vHAverNorm.z()*vVPre.z())* (vHAverNorm.x()*vVPost.x()+vHAverNorm.y()*vVPost.y()+vHAverNorm.z()*vVPost.z()) + ANV*( -sinThetaAver*(vVPre.x()*vpPostNorm.x()+vVPre.y()*vpPostNorm.y()+vVPre.z()*vpPostNorm.z()) + OMcosThetaAver*(vVPre.x()*AN2.x()+vVPre.y()*AN2.y()+vVPre.z()*AN2.z()) - TMSINT*gamma*(vHAverNorm.x()*vVPre.x()+vHAverNorm.y()*vVPre.y()+vHAverNorm.z()*vVPre.z()) ); + transf[1][2] = cosThetaAver*(vUPre.x()*vVPost.x()+vUPre.y()*vVPost.y() ) + sinThetaAver*(vHUPre.x()*vVPost.x()+vHUPre.y()*vVPost.y()+vHUPre.z()*vVPost.z()) + OMcosThetaAver*(vHAverNorm.x()*vUPre.x()+vHAverNorm.y()*vUPre.y() )* (vHAverNorm.x()*vVPost.x()+vHAverNorm.y()*vVPost.y()+vHAverNorm.z()*vVPost.z()) + ANV*( -sinThetaAver*(vUPre.x()*vpPostNorm.x()+vUPre.y()*vpPostNorm.y() ) + OMcosThetaAver*(vUPre.x()*AN2.x()+vUPre.y()*AN2.y() ) - TMSINT*gamma*(vHAverNorm.x()*vUPre.x()+vHAverNorm.y()*vUPre.y() ) ); + transf[2][0] = -QP*ANU*(vpPostNorm.x()*deltaPos.x()+vpPostNorm.y()*deltaPos.y()+vpPostNorm.z()*deltaPos.z())*sinpPostInv *(1.+deltaPInv*pAver); + transf[2][3] = -QAver*ANU*(vUPre.x()*vpPostNorm.x()+vUPre.y()*vpPostNorm.y() )*sinpPostInv; + transf[3][4] = (vVPre.x()*vUPost.x()+vVPre.y()*vUPost.y() ); + transf[4][0] = pAver*(vVPost.x()*deltaPos.x()+vVPost.y()*deltaPos.y()+vVPost.z()*deltaPos.z()) *(1.+deltaPInv*pAver); + transf[4][1] = ( sinThetaAver*(vVPre.x()*vVPost.x()+vVPre.y()*vVPost.y()+vVPre.z()*vVPost.z()) + OMcosThetaAver*(vHVPre.x()*vVPost.x()+vHVPre.y()*vVPost.y()+vHVPre.z()*vVPost.z()) + TMSINT*(vHAverNorm.x()*vVPost.x()+vHAverNorm.y()*vVPost.y()+vHAverNorm.z()*vVPost.z())* (vHAverNorm.x()*vVPre.x()+vHAverNorm.y()*vVPre.y()+vHAverNorm.z()*vVPre.z()) )/QAver; + transf[4][2] = ( sinThetaAver*(vUPre.x()*vVPost.x()+vUPre.y()*vVPost.y() ) + OMcosThetaAver*(vHUPre.x()*vVPost.x()+vHUPre.y()*vVPost.y()+vHUPre.z()*vVPost.z()) + TMSINT*(vHAverNorm.x()*vVPost.x()+vHAverNorm.y()*vVPost.y()+vHAverNorm.z()*vVPost.z())* (vHAverNorm.x()*vUPre.x()+vHAverNorm.y()*vUPre.y() ) )*sinpPre/QAver; + } + } + PropagateErrorMSC( aTrack ); + } |