C++ main module for emicrom Package
1.0
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This class describes the cubic anistropy operator EMM_CubicAnisotropyOperator of the landau lifschitz system EMM_LandauLifschitzSystem based on EMMG_RealField. More...
#include <EMMG_CubicAnisotropyOperator.h>
Public Member Functions | |
virtual void | computeMagneticExcitationField (const EMM_RealArray &sigma, const EMM_RealField &M, EMM_RealField &H) const |
compute the normalized excitation magnetic field at M More... | |
virtual tBoolean | computeMagneticExcitationFieldGradient (const EMM_RealArray &sigma, const EMM_RealField &M, const EMM_RealField &D, EMM_RealField &gradH) const |
compute the gradient of the magnetic excitation field at M in the direction D More... | |
virtual tReal | computeEnergyWithMagneticExcitation (const tReal &t, const EMM_RealArray &sigma, const EMM_RealField &M, const EMM_RealField &H) const |
compute the energy E of the operator More... | |
virtual tReal | computeEnergy (const tReal &t, const EMM_RealArray &sigma, const EMM_RealField &M, EMM_RealField &W) const |
compute the energy of the operator More... | |
virtual tULLInt | getMemorySize () const |
return the memory size in byte More... | |
tReal | computeEnergy (const tUIndex &nCells, const tDimension &dim, const EMM_RealArray &sigma, const tReal *M) const |
compute the energy of the anistropy operator More... | |
virtual tBoolean | isAffine () const |
return true if the operator is either constant or linear More... | |
virtual tBoolean | isGradientComputationable () const |
return true if the gradient of the magnetic excitation is computationable More... | |
virtual tBoolean | discretize (const EMM_LandauLifschitzSystem &system) |
discretize the operator depending on method More... | |
const CORE_RealMorseArray & | getK1 () const |
get K1 array More... | |
const CORE_RealMorseArray & | getK2 () const |
get K2 array More... | |
const CORE_RealMorseArray & | getAnisotropyMatrix () const |
get the anisotropy matrix More... | |
tReal | computeMagneticExcitationFieldAndEnergy (const tReal &t, const EMM_RealArray &sigma, const EMM_RealField &Mt, EMM_RealField &Ht) const |
compute the energy of the operator More... | |
virtual tString | getName () const |
return an human reading name of the operator More... | |
const tBoolean & | isCubicVolume () const |
return the true if the element is cubic More... | |
const tReal & | getElementVolume () const |
return the adimensionized volume of the element More... | |
virtual void | adimensionize (const tReal &Le, const tReal &Ms, const tReal &T, const tReal &L) |
adimensionize the operator More... | |
virtual tUSInt | getDataFieldsNumber () const |
get the number of feild used in the operator More... | |
virtual tBoolean | getDataFieldSpace (const tUSInt &index, tString &dataName, tFlag &supportType, tString &dFieldType, tUIndex &n, tDimension &dim) const |
get the data field at index for saving data in vtk,txt,... files. More... | |
virtual tBoolean | getDataField (const tUSInt &index, tString &dataName, tUIndex &n, tDimension &dim, const float *&values) const |
get the data field at index for saving data in vtk,txt,... files. More... | |
virtual tBoolean | getDataField (const tUSInt &index, tString &dataName, tUIndex &n, tDimension &dim, const double *&values) const |
get the data field at index for saving data in vtk,txt,... files. More... | |
virtual tBoolean | getDataField (const tUSInt &index, tString &dataName, tUIndex &n, tDimension &dim, const long double *&values) const |
get the data field at index for saving data in vtk,txt,... files. More... | |
virtual tBoolean | backup (const tString &prefix, const tString &suffix, const tString &ext) const |
backup of the operator data into file(s) used for restoring More... | |
virtual tBoolean | restore (const EMM_LandauLifschitzSystem &system, const tString &prefix, const tString &suffix, const tString &ext) |
restore the operator data from file(s) More... | |
void | getSharedPointer (SP::CORE_Object &p) |
get the shared pointer of this class into p More... | |
void | getSharedPointer (SPC::CORE_Object &p) const |
get the shared pointer of this class into p More... | |
tString | getClassName () const |
return the class name of the object More... | |
tString | getIdentityString () const |
return the identity string of the object of the form className_at_address More... | |
tString | getPointerAddress () const |
return the identity string of the object More... | |
template<class T > | |
tBoolean | isInstanceOf () const |
test if the clas T is an instance of this class More... | |
tBoolean | isInstanceOf (const tString &name) const |
test if the object is an instance of className More... | |
virtual tString | toString () const |
return the string representation of the object node More... | |
Static Public Member Functions | |
static SP::EMMG_CubicAnisotropyOperator | New () |
create a cubic anisotropy operator More... | |
static tUSInt | BuildDiscretizedMatrix (const tUCInt &nU, const tReal *U, tReal *A) |
static tUSInt | ComputeMagneticExcitation (const tReal &S, const tReal &K1, const tReal &K2, const tUCInt &nA, const tReal *A, const tDimension &dim, const tReal *M, tReal *H, const tUCInt &ldW, tReal *work) |
compute the magnetic excitation at cell i More... | |
static tUSInt | ComputeMagneticExcitationGradient (const tReal &S, const tReal &K1, const tReal &K2, const tUCInt &nA, const tReal *A, const tDimension &dim, const tReal *M, const tReal *D, tReal *gradH, const tUCInt &ldW, tReal *work) |
compute the magnetic excitation gradient at cell i More... | |
static void | ComputeEnergy (const tReal &S, const tReal &K1, const tReal &K2, const tUCInt &nA, const tReal *A, const tDimension &dim, const tReal *M, const tUCInt &ldW, tReal *work, tReal &E) |
compute the energy of the cell i More... | |
static void | setIsMemoryChecked (const tBoolean &v) |
set if the memory checking is used More... | |
static void | setOut (SP::CORE_Out out) |
set the output stream More... | |
static void | resetOut () |
reset the output stream More... | |
static void | setThread (SP::CORE_Thread thread) |
set the thread More... | |
static void | resetThread () |
reset the output stream More... | |
static CORE_Out & | out () |
get the output More... | |
static SP::CORE_Out | getOut () |
get the output More... | |
static CORE_Thread & | getThread () |
get the profilier More... | |
static const tBoolean & | isMemoryChecked () |
get if the memory checking is used More... | |
static tString | getClassName (const tString &identityString) |
return the class name of the object More... | |
template<class T > | |
static tString | getTypeName () |
get type name More... | |
static tBoolean | is64Architecture () |
return true if the machine is a 64 bits machine More... | |
static tBoolean | is32Architecture () |
return true if the machine is a 32 bits machine More... | |
static tString | pointer2String (const void *obj) |
return the string representation of a pointer More... | |
static void | printObjectsInMemory (ostream &f) |
print object in memory More... | |
static void | printObjectsInMemory () |
print object in memory in the standart output More... | |
static tChar | getMaxChar () |
get the max value for tChar type More... | |
static tChar | getMinChar () |
get the min value for tChar type More... | |
static tUChar | getMaxUChar () |
get the max value for tUChar type More... | |
static tUChar | getMinUChar () |
get the min value for tUChar type More... | |
static tSInt | getMaxSInt () |
get the max value for tSInt type More... | |
static tSInt | getMinSInt () |
get the min value for tSInt type More... | |
static tUSInt | getMaxUSInt () |
get the max value for tUSInt type More... | |
static tUSInt | getMinUSInt () |
get the min value for tUSInt type More... | |
static tInt | getMaxInt () |
get the max value for tInt type More... | |
static tInt | getMinInt () |
get the min value for tInt type More... | |
static tUInt | getMaxUInt () |
get the max value for tUInt type More... | |
static tUInt | getMinUInt () |
get the min value for tUInt type More... | |
static tLInt | getMaxLInt () |
get the max value for tLInt type More... | |
static tLInt | getMinLInt () |
get the min value for tLInt type More... | |
static tULInt | getMaxULInt () |
get the max value for tULInt type More... | |
static tULInt | getMinULInt () |
get the min value for tULInt type More... | |
static tLLInt | getMaxLLInt () |
get the max value for tULInt type More... | |
static tLLInt | getMinLLInt () |
get the min value for tLLInt type More... | |
static tULLInt | getMaxULLInt () |
get the max value for tULLInt type More... | |
static tULLInt | getMinULLInt () |
get the min value for tULLInt type More... | |
static tFloat | getMaxFloat () |
get the max value for tFloat type More... | |
static tFloat | getMinFloat () |
get the min value for tFloat type More... | |
template<class T > | |
static T | getEpsilon () |
get the epsilon value for T type More... | |
template<class T > | |
static T | getInfinity () |
get the infinity for T type More... | |
static tFloat | getFloatEpsilon () |
get the epsilon value for tFloat type More... | |
static tFloat | getFloatInfinity () |
get the infinity value for tFloat type More... | |
static tDouble | getMaxDouble () |
get the max value for tDouble type More... | |
static tDouble | getMinDouble () |
get the min value for tDouble type More... | |
static tDouble | getDoubleInfinity () |
get the infinity value for tFloat type More... | |
static tDouble | getDoubleEpsilon () |
get the epsilon value for tDouble type More... | |
static tLDouble | getMinLDouble () |
get the min value for tLDouble type More... | |
static tLDouble | getMaxLDouble () |
get the max value for tLDouble type More... | |
static tLDouble | getLDoubleEpsilon () |
get the epsilon value for tLDouble type More... | |
static tDouble | getLDoubleInfinity () |
get the infinity value for tDouble type More... | |
static tIndex | getMaxIndex () |
get the max value for the array/vector indexing type More... | |
static tIndex | getMinIndex () |
get the min value for the array/vector indexing type More... | |
static tUIndex | getMaxUIndex () |
get the max value for difference the array/vector indexing type More... | |
static tUIndex | getMinUIndex () |
get the min value for difference the array/vector indexing type More... | |
static tFlag | getMaxFlag () |
get the max value for the tFlag type More... | |
static tFlag | getMinFlag () |
get the min value for the tFlag type More... | |
static tUInteger | getMaxUInteger () |
get the max value for the unsigned integer type More... | |
static tUInteger | getMinUInteger () |
get the min value for the unsigned integer type More... | |
static tInteger | getMaxInteger () |
get the max value for the integer type More... | |
static tInteger | getMinInteger () |
get the min value for the integer type More... | |
static tReal | getMaxReal () |
get the max value for the real type More... | |
static tReal | getMinReal () |
get the min value for the real type More... | |
static tReal | getRealEpsilon () |
get the eps which is the difference between 1 and the least value greater than 1 that is representable. More... | |
static tReal | getRealInfinity () |
get the infinity value More... | |
template<class T > | |
static T | computeEpsilon () |
compute epsilon More... | |
Static Public Attributes | |
static const tReal | Mu0 =4*M_PI*1e-07 |
static const tReal | Gamma =-1.7e11 |
static const tDimension | X =0 |
static const tDimension | Y =1 |
static const tDimension | Z =2 |
static const tReal | NULL_VALUE [] ={0,0,0} |
Protected Member Functions | |
EMMG_CubicAnisotropyOperator (void) | |
create More... | |
virtual | ~EMMG_CubicAnisotropyOperator (void) |
destroy More... | |
virtual void | computeMagneticExcitationField (const tUIndex &nCells, const tDimension &dim, const EMM_RealArray &sigma, const tReal *M, tReal *H) const |
compute the normalized excitation magnetic field at M More... | |
virtual tBoolean | computeMagneticExcitationFieldGradient (const tUIndex &nCells, const tDimension &dim, const EMM_RealArray &sigma, const tReal *M, const tReal *D, tReal *gradH) const |
compute the gradient of the magnetic excitation field at M in the direction D More... | |
virtual void | buildAnisotropyMatrix (const tUIndex &nCells, const EMM_Grid3D &mesh, const CORE_UCharMorseArray &crystal, const CORE_RealMorseArray &directions, CORE_RealMorseArray &A) const |
compute the anistropy matrix More... | |
virtual tBoolean | resetToInitialState (const EMM_LandauLifschitzSystem &system) |
reset the data of the operator to its initial step t=0 More... | |
virtual tBoolean | computeFieldsAtTime (const tReal &t, const tFlag &order, const EMM_RealArray &sigma, const EMM_RealField &dM_dt0, const EMM_RealField &M0) |
compute the fields of operator at time More... | |
virtual tBoolean | updateAtNextTimeStep (const tReal &dt, const EMM_RealArray &sigma, const EMM_RealField &Mt) |
update the data of operator at next time step More... | |
virtual tReal | computeEnergyWithMagneticExcitation (const tUIndex &nCells, const tDimension &dim, const EMM_RealArray &sigma, const tReal *M, const tReal *H) const |
compute the energy of the anistropy operator More... | |
virtual void | toDoAfterThisSetting () |
method called after the setting of the shared pointer this method can only be called once. More... | |
void | setThis (SP::CORE_Object p) |
set this weak shared pointer called toDoAfterThis setting method More... | |
Private Member Functions | |
SP_OBJECT (EMMG_CubicAnisotropyOperator) | |
This class describes the cubic anistropy operator EMM_CubicAnisotropyOperator of the landau lifschitz system EMM_LandauLifschitzSystem based on EMMG_RealField.
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inlineprotected |
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inlineprotectedvirtual |
destroy
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inlinevirtualinherited |
adimensionize the operator
[in] | Le | adimensionizing parameter |
[in] | Ms | magnetization at saturation |
[in] | T | caracterictic time |
[in] | L | caracteristic length |
Do nothing by default
Reimplemented in EMM_MagnetostrictionOperator, and EMM_DisplacementOperator.
References EMM_Operator::discretize(), EMM_Operator::resetToInitialState(), and tBoolean.
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inlinevirtualinherited |
backup of the operator data into file(s) used for restoring
prefix | : common prefix of the saving files |
suffix | : common suffix of the saving files |
ext | : common extension of the saving files |
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, and EMM_DisplacementFVMOperator.
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protectedvirtualinherited |
compute the anistropy matrix
nCells | number of cells |
mesh | the associated mesh |
crystal | crystal type for each magnetized cell or constant for all magnetized cells (array's size is 1) |
directions | morse array for directions for each magnetized cell or constant for all cells and all the cells is magnetized (array's size is 1) |
A | : the morse matrix to built |
The anisotropy matrix is a Morse Array of size nCells x 9 containing the anisotropy matrix for only magnetized cells.
For building the anisotropy matrix at the cell i, it calls the static methods depending on the crystal type of the cell with sigma, K1 and K2 parameters
References CORE_MorseArray< T >::begin(), EMM_PlanarAnisotropyOperator::BuildDiscretizedMatrix(), EMM_UniaxialAnisotropyOperator::BuildDiscretizedMatrix(), EMM_CubicAnisotropyOperator::BuildDiscretizedMatrix(), EMM_Matter::CUBIC_ANISOTROPY, CORE_MorseArray< T >::getIndexIncrement(), EMM_Grid3D::getNeighborsIndicators(), EMM_Grid3D::IS_ELEMENT_MAGNETIZED(), CORE_MorseArray< T >::merge(), OMP_GET_THREAD_ID, OMP_GET_THREADS_NUMBER, OMP_PARALLEL_PRIVATE_SHARED, OMP_PARALLEL_SHARED, EMM_Matter::PLANAR_ANISOTROPY, CORE_MorseArray< T >::reset(), CORE_MorseArrayIterator< T >::setSize(), CORE_MorseArray< T >::setSize(), CORE_MorseArrayConstIterator< T >::size(), tBoolean, tCellFlag, tUCInt, tUIndex, tUInteger, EMM_Matter::UNIAXIAL_ANISOTROPY, CORE_MorseArray< T >::uniformize(), CORE_MorseArrayIterator< T >::values(), and CORE_MorseArrayConstIterator< T >::values().
Referenced by EMM_AnisotropyOperator::getAnisotropyMatrix().
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inlinestaticinherited |
References EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient(), tBoolean, tDimension, tReal, and tUIndex.
Referenced by EMM_AnisotropyOperator::buildAnisotropyMatrix().
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inlinevirtual |
compute the energy of the operator
t | time in [0,dt[ where dt will be the next time step |
sigma | weight of each cell |
M | the magnetization field |
W | the excitation magnetic field of the operator not computed |
compute E such that:
The normalized energy is
with
Implements EMM_MagneticExcitationOperator.
References EMM_CubicAnisotropyOperator::computeEnergy(), EMM_RealField::getDimension(), EMM_RealField::getSize(), null, tDimension, and tUIndex.
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inherited |
compute the energy of the anistropy operator
nCells | : number of cells |
dim | dimension of each point of mesh |
sigma | the weight of each cell |
M | the magnetization field values |
References CORE_MorseArray< T >::begin(), EMM_AnisotropyOperator::getAnisotropyMatrix(), EMM_Operator::getElementVolume(), CORE_MorseArray< T >::getIndexIncrement(), EMM_AnisotropyOperator::getK1(), EMM_AnisotropyOperator::getK2(), CORE_Array< T >::getSize(), CORE_Object::getThread(), null, OMP_GET_THREAD_ID, OMP_GET_THREADS_NUMBER, OMP_PARALLEL_PRIVATE_SHARED_REDUCTION, OMP_PARALLEL_SHARED, CORE_MorseArrayConstIterator< T >::size(), CORE_Thread::startChrono(), CORE_Thread::stopChrono(), tBoolean, tDimension, tReal, tUIndex, tUInteger, and CORE_MorseArrayConstIterator< T >::values().
Referenced by computeEnergy(), computeEnergyWithMagneticExcitation(), and EMM_CubicAnisotropyOperator::ComputeMagneticExcitationGradient().
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inlinestaticinherited |
compute the energy of the cell i
S | weight walue |
K1 | first anisotropy constant |
K2 | secund anisotropy constant |
nA | memory size of A matrix |
A | anisotropy matrix of size 6 |
dim | memory size of Mi |
M | M values |
ldW | size of work array |
work | a working array |
E | the returned value of energy : M.H on normalized volume cell |
References tDimension, tReal, and tUCInt.
Referenced by EMM_AnisotropyOperator::computeEnergyWithMagneticExcitation().
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inlinevirtual |
compute the energy E of the operator
t | time in [0,dt[ where dt will be the next time step |
sigma | the weight of each element |
M | : the normalized magnetization field at t |
H | : the magnetic excitation of the operator alreday computed at t |
compute the energy E which verifies the general relation:
Implements EMM_MagneticExcitationOperator.
References EMM_CubicAnisotropyOperator::computeEnergy(), EMM_RealField::getDimension(), EMM_RealField::getSize(), null, tDimension, and tUIndex.
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protectedvirtualinherited |
compute the energy of the anistropy operator
nCells | : number of cells |
dim | dimension of each point of mesh |
sigma | the weight of each cell |
M | the magnetization field values |
H | the excitation magnetic field values already computed |
References CORE_MorseArray< T >::begin(), EMM_LinearAnisotropyOperator::ComputeEnergy(), EMM_CubicAnisotropyOperator::ComputeEnergy(), EMM_Matter::CUBIC_ANISOTROPY, EMM_Operator::getElementVolume(), CORE_MorseArray< T >::getIndexIncrement(), CORE_Array< T >::getSize(), CORE_Object::getThread(), EMM_AnisotropyOperator::mA, EMM_AnisotropyOperator::mCrystalType, EMM_AnisotropyOperator::mK1, EMM_AnisotropyOperator::mK2, OMP_GET_THREAD_ID, OMP_GET_THREADS_NUMBER, OMP_PARALLEL_PRIVATE_SHARED_REDUCTION, OMP_PARALLEL_SHARED, EMM_Matter::PLANAR_ANISOTROPY, CORE_MorseArrayConstIterator< T >::size(), CORE_Thread::startChrono(), CORE_Thread::stopChrono(), tBoolean, tReal, tUCInt, tUIndex, tUInteger, EMM_Matter::UNIAXIAL_ANISOTROPY, and CORE_MorseArrayConstIterator< T >::values().
Referenced by EMMG_AnisotropyOperator::computeEnergyWithMagneticExcitation(), and EMM_AnisotropyOperator::updateAtNextTimeStep().
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inlinestaticinherited |
compute epsilon
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inlineprotectedvirtualinherited |
compute the fields of operator at time
t | the time |
order:order | of integration of the fields 1 or 2 |
sigma | the magnetized weight of each cell |
dM_dt0 | the variation of M at time 0 |
M0 | the M at time 0 |
no field : do nothing
Implements EMM_Operator.
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inlinestaticinherited |
compute the magnetic excitation at cell i
S | weight walue |
K1 | first anisotropy constant |
K2 | secund anisotropy constant |
nA | memory size of A matrix |
A | anisotropy matrix of size 6 |
dim | memory size of M,H |
M | M values |
H | H values |
ldW | size of work array >=6 |
work | a working array |
References EMM_Object::Mu0, tDimension, tReal, and tUCInt.
Referenced by EMM_AnisotropyOperator::computeMagneticExcitationField().
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inlinevirtual |
compute the normalized excitation magnetic field at M
sigma | the weight of the normalized magnetization for each cell |
M | normalized magnetization field |
H | return excitation magnetic field |
Implements EMM_MagneticExcitationOperator.
References EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), EMM_RealField::getDimension(), EMM_RealField::getSize(), null, EMM_RealField::setSize(), tDimension, and tUIndex.
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protectedvirtualinherited |
compute the normalized excitation magnetic field at M
nCells | : number of cells |
dim | dimension of each point of mesh |
sigma | the weight of the normalized magnetization for each cell |
M | normalized magnetization field |
H | return excitation magnetic field |
Reimplemented from EMM_AnisotropyOperator.
References CORE_MorseArray< T >::begin(), EMM_AnisotropyOperator::getAnisotropyMatrix(), CORE_MorseArray< T >::getIndexIncrement(), EMM_AnisotropyOperator::getK1(), EMM_AnisotropyOperator::getK2(), CORE_Array< T >::getSize(), CORE_Object::getThread(), EMM_Object::Mu0, null, OMP_GET_THREAD_ID, OMP_GET_THREADS_NUMBER, OMP_PARALLEL_PRIVATE_SHARED, OMP_PARALLEL_SHARED, CORE_MorseArrayConstIterator< T >::size(), CORE_Thread::startChrono(), CORE_Thread::stopChrono(), tBoolean, tDimension, tReal, tUCInt, tUIndex, tUInteger, and CORE_MorseArrayConstIterator< T >::values().
Referenced by EMM_CubicAnisotropyOperator::BuildDiscretizedMatrix(), and computeMagneticExcitationField().
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inlineinherited |
compute the energy of the operator
t | time in [0,dt[ where dt will be the next time step |
sigma | weight of each cell |
Mt | the magnetization field |
Ht | the return magnetic excitation field |
References EMM_MagneticExcitationOperator::computeEnergy(), EMM_MagneticExcitationOperator::computeEnergyWithMagneticExcitation(), EMM_MagneticExcitationOperator::computeMagneticExcitationField(), and tReal.
Referenced by EMM_MagneticExcitationLinearOperator::computeEnergy(), and EMMG_AnisotropyOperator::computeEnergy().
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inlinevirtual |
compute the gradient of the magnetic excitation field at M in the direction D
sigma | the weight of each cell |
M | the magnetization field |
D | the gradient direction |
gradH | : the return gradient of the magnetic excitation field at M in the direction D |
Implements EMM_MagneticExcitationOperator.
References EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient(), EMM_RealField::getDimension(), EMM_RealField::getSize(), null, EMM_RealField::setSize(), tDimension, and tUIndex.
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protectedvirtualinherited |
compute the gradient of the magnetic excitation field at M in the direction D
nCells | : number of cells |
dim | dimension of each point of mesh |
sigma | the weight of each cell |
M | the magnetization field values |
D | the gradient direction values |
gradH | : the return gradient of the magnetic excitation field at M in the direction D values |
Reimplemented from EMM_AnisotropyOperator.
References CORE_MorseArray< T >::begin(), EMM_AnisotropyOperator::getAnisotropyMatrix(), CORE_MorseArray< T >::getIndexIncrement(), EMM_AnisotropyOperator::getK1(), EMM_AnisotropyOperator::getK2(), CORE_Array< T >::getSize(), CORE_Object::getThread(), EMM_Object::Mu0, null, OMP_GET_THREAD_ID, OMP_GET_THREADS_NUMBER, OMP_PARALLEL_PRIVATE_SHARED, OMP_PARALLEL_SHARED, CORE_MorseArrayConstIterator< T >::size(), CORE_Thread::startChrono(), CORE_Thread::stopChrono(), tBoolean, tDimension, tReal, tUCInt, tUIndex, tUInteger, and CORE_MorseArrayConstIterator< T >::values().
Referenced by EMM_CubicAnisotropyOperator::BuildDiscretizedMatrix(), and computeMagneticExcitationFieldGradient().
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inlinestaticinherited |
compute the magnetic excitation gradient at cell i
S | weight walue |
K1 | first anisotropy constant |
K2 | secund anisotropy constant |
nA | memory size of A matrix |
A | anisotropy matrix of size 6 |
dim | memory size of M,D,gradH |
M | M values |
D | D values |
gradH | gradH values |
ldW | size of work array |
work | a working arrayof size >=13 |
compute the magnetic excitation of cell I with its matrix representation A
References EMM_CubicAnisotropyOperator::computeEnergy(), EMM_Object::Mu0, tDimension, tReal, tUCInt, and tUIndex.
Referenced by EMM_AnisotropyOperator::computeMagneticExcitationFieldGradient().
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virtualinherited |
discretize the operator depending on method
system | landau lifschitz system used to discretize the operator |
the value of crystal type is the same for all magnetized cells
Reimplemented from EMM_Operator.
References EMM_Matter::CRYSTAL_TYPE, EMM_Grid3D::getElementsNumber(), CORE_MorseArray< T >::getIndicesByReference(), EMM_LandauLifschitzSystem::getMatterField(), EMM_MatterField::getMatterParameterDistribution(), EMM_LandauLifschitzSystem::getMesh(), CORE_Object::getThread(), CORE_MorseArray< T >::isConstant(), CORE_MorseArray< T >::isUniform(), EMM_Matter::K1d, EMM_Matter::K2d, EMM_AnisotropyOperator::mCrystalType, EMM_AnisotropyOperator::mK1, EMM_AnisotropyOperator::mK2, null, CORE_MorseArray< T >::setIndicesByReference(), CORE_MorseArray< T >::setUniformSize(), CORE_Thread::startChrono(), and tUIndex.
Referenced by EMM_AnisotropyOperator::getMemorySize().
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inlineinherited |
get the anisotropy matrix
References EMM_AnisotropyOperator::buildAnisotropyMatrix(), EMM_AnisotropyOperator::mA, and tUIndex.
Referenced by EMM_CubicAnisotropyOperator::computeEnergy(), EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), and EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient().
|
inherited |
return the class name of the object
References tString.
Referenced by CORE_Object::getIdentityString(), EMM_Operator::getName(), and CORE_Object::isMemoryChecked().
return the class name of the object
identityString | the identity string of the object |
|
inlinevirtualinherited |
get the data field at index for saving data in vtk,txt,... files.
index | index of the field in [0,getDataFieldsNumber()[ |
dataName | name of the field |
n | number of element of the field |
dim | dimension of the field in [1,3[ |
values | values of the field |
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, and EMM_ZeemanOperator.
Referenced by EMM_OperatorsTest::compareDiscretizedData().
|
inlinevirtualinherited |
get the data field at index for saving data in vtk,txt,... files.
index | index of the field in [0,getDataFieldsNumber()[ |
dataName | name of the field |
n | number of element of the field |
dim | dimension of the field in [1,3[ |
values | values of the field |
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, and EMM_ZeemanOperator.
|
inlinevirtualinherited |
get the data field at index for saving data in vtk,txt,... files.
index | index of the field in [0,getDataFieldsNumber()[ |
dataName | name of the field |
n | number of element of the field |
dim | dimension of the field in [1,3[ |
values | values of the field |
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, and EMM_ZeemanOperator.
|
inlinevirtualinherited |
get the number of feild used in the operator
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, EMM_ZeemanOperator, and EMMG_SLDemagnetizedOperator.
|
inlinevirtualinherited |
get the data field at index for saving data in vtk,txt,... files.
index | index of the field in [0,getDataFieldsNumber()[ |
dataName | name of the field |
supportType | : mesh element whre the field is applied EMM_Grid3D::ELEMENT or EMM_Grid3D::POINT |
dFieldType | : type of the field double,float,int,.... |
n | number of element of the field |
dim | dimension of the field in [1,3[ |
Reimplemented in EMM_DisplacementFEMOperator, EMM_DisplacementFVMOperator, EMM_MagnetostrictionOperator, and EMM_ZeemanOperator.
References EMM_Grid3D::ELEMENT.
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inlinestaticinherited |
get the epsilon value for tDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the infinity value for tFloat type
|
inlineinherited |
return the adimensionized volume of the element
References EMM_Operator::mElementVolume.
Referenced by EMM_DisplacementFVMOperator::computeCineticEnergy(), EMM_DisplacementFEMOperator::computeElasticStress(), EMM_StaticMagneticTensorOperator::computeEnergy(), EMM_ZeemanOperator::computeEnergy(), EMM_CubicAnisotropyOperator::computeEnergy(), EMM_MagnetostrictionOperator::computeEnergy(), EMM_DisplacementOperator::computeEnergy(), EMM_MagneticExcitationLinearOperator::computeEnergyWithMagneticExcitation(), EMM_AnisotropyOperator::computeEnergyWithMagneticExcitation(), EMM_ZeemanOperator::computeEnergyWithMagneticExcitation(), EMM_DisplacementFEMOperator::computeEquilibriumMatrixDiagonalConditioner(), EMM_DisplacementFEMOperator::computeMagneticStress(), and EMM_DisplacementOperator::computePotentialEnergy().
|
inlinestaticinherited |
get the epsilon value for T type
|
inlinestaticinherited |
get the epsilon value for tFloat type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the infinity value for tFloat type
|
inlineinherited |
return the identity string of the object of the form className_at_address
References CORE_Object::getClassName(), CORE_Object::pointer2String(), and tString.
Referenced by MATH_GaussLegendreIntegration::copy(), EMM_MultiScaleGrid::initialize(), CORE_Object::isInstanceOf(), CORE_Object::printObjectsInMemory(), MATH_Matrix::toString(), EMMG_SLPeriodicMultiScale::toString(), EMM_Stepper::toString(), EMM_AnisotropyDirectionsField::toString(), EMM_BlockMassMatrix::toString(), CORE_Object::toString(), EMM_Tensors::toString(), EMM_MultiScaleGrid::toString(), EMM_MatterField::toString(), EMM_Grid3D::toString(), and EMM_LandauLifschitzSystem::toString().
|
inlinestaticinherited |
get the infinity for T type
|
inlineinherited |
get K1 array
References EMM_AnisotropyOperator::mK1.
Referenced by EMM_CubicAnisotropyOperator::computeEnergy(), EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), and EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient().
|
inlineinherited |
get K2 array
References EMM_AnisotropyOperator::mK2.
Referenced by EMM_CubicAnisotropyOperator::computeEnergy(), EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), and EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient().
|
inlinestaticinherited |
get the epsilon value for tLDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the infinity value for tDouble type
|
inlinestaticinherited |
get the max value for tChar type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for the tFlag type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tFloat type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for the array/vector indexing type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tInt type
Referenced by MATSGN_FFT::fastFourierTransform3D_FFTW(), and CORE_Test::testType().
|
inlinestaticinherited |
get the max value for the integer type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tLDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tLInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tULInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for the real type
Referenced by EMM_MatterField::adimensionize(), and CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tSInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tUChar type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for difference the array/vector indexing type
Referenced by CORE_Vector< T >::addAfterIndices(), CORE_Vector< T >::search(), CORE_Test::testType(), CORE_Integer::toHexString(), and CORE_Integer::toString().
|
inlinestaticinherited |
get the max value for tUInt type
Referenced by EMM_Array< tCellFlag >::loadFromFile(), EMM_RealField::loadFromFile(), and CORE_Test::testType().
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inlinestaticinherited |
get the max value for the unsigned integer type
Referenced by MATH_Pn::computeExtrenums(), EMM_MultiScaleGrid::computeLevelsNumber(), EMM_Input::restoreBackup(), MATH_P0::solve(), and CORE_Test::testType().
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inlinestaticinherited |
get the max value for tULInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tULLInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the max value for tUSInt type
Referenced by CORE_Test::testType().
|
inlinevirtualinherited |
return the memory size in byte
Reimplemented from EMM_AnisotropyOperator.
References EMM_AnisotropyOperator::getMemorySize().
|
inlinestaticinherited |
get the min value for tChar type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for the tFlag type
Referenced by CORE_Test::testType().
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inlinestaticinherited |
get the min value for tFloat type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for the array/vector indexing type
Referenced by CORE_Test::testType().
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inlinestaticinherited |
get the min value for tInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for the integer type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tLDouble type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tLInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tLLInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for the real type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tSInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tUChar type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for difference the array/vector indexing type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tUInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for the unsigned integer type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tULInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tULLInt type
Referenced by CORE_Test::testType().
|
inlinestaticinherited |
get the min value for tUSInt type
Referenced by CORE_Test::testType().
|
inlinevirtualinherited |
return an human reading name of the operator
References CORE_Object::getClassName(), EMM_Operator::isAffine(), EMM_Operator::isGradientComputationable(), tBoolean, tString, and tUIndex.
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inlinestaticinherited |
|
inlineinherited |
return the identity string of the object
References CORE_Object::pointer2String().
|
inlinestaticinherited |
get the eps which is the difference between 1 and the least value greater than 1 that is representable.
Referenced by MATH_P4::solveP4De(), and CORE_Test::testType().
|
inlinestaticinherited |
get the infinity value
Referenced by BrentFunction::BrentFunction(), EMM_OperatorsTest::compareDiscretizedData(), EMM_IterativeTimeStep::EMM_IterativeTimeStep(), EMM_SLElementaryDemagnetizedMatrix::Kxy(), NRFunction::NRFunction(), EMM_PolynomialInterpolationTimeStep::optimizeTimeFunction(), and CORE_Test::testType().
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inlineinherited |
get the shared pointer of this class into p
p | : shared pointer of the class This |
Referenced by CORE_Map< Key, Value >::getSharedPointer(), CORE_ArrayList< tString >::getSharedPointer(), EMM_Array< tCellFlag >::getSharedPointer(), CORE_Array< tCellFlag >::getSharedPointer(), CORE_MorseArray< tUChar >::getSharedPointer(), CORE_Vector< T >::getSharedPointer(), and CORE_Object::printObjectsInMemory().
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inlineinherited |
get the shared pointer of this class into p
p | : shared pointer of the class This |
|
inlinestaticinherited |
get the profilier
Referenced by MATH_MaskVector::add(), MATH_Vector::add(), EMM_DisplacementFEMOperator::addBoundaryElasticStress(), EMM_DisplacementFEMOperator::buildDataOnNeumannBoundaryFaces(), EMM_DisplacementFVMOperator::computeCineticEnergy(), EMM_DisplacementFVMOperator::computeElasticStress(), EMM_DisplacementFEMOperator::computeElasticStress(), EMM_DisplacementFVMOperator::computeElasticTensor(), EMM_DisplacementFEMOperator::computeElasticTensor(), EMM_StaticMagneticTensorOperator::computeEnergy(), EMM_CubicAnisotropyOperator::computeEnergy(), EMM_MagnetostrictionOperator::computeEnergy(), EMM_DisplacementOperator::computeEnergy(), EMM_AnisotropyOperator::computeEnergyWithMagneticExcitation(), EMM_DisplacementFVMOperator::computeEquilibriumMatrixDiagonalConditioner(), EMM_DisplacementFEMOperator::computeEquilibriumMatrixDiagonalConditioner(), EMM_FullExchangeOperator::computeMagneticExcitationField(), EMM_StaticMagnetostrictionOperator::computeMagneticExcitationField(), EMM_LinearAnisotropyOperator::computeMagneticExcitationField(), EMM_StaticMagneticTensorOperator::computeMagneticExcitationField(), EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), EMM_MinimalExchangeOperator::computeMagneticExcitationField(), EMM_AnisotropyOperator::computeMagneticExcitationField(), EMM_MagnetostrictionOperator::computeMagneticExcitationField(), EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient(), EMM_AnisotropyOperator::computeMagneticExcitationFieldGradient(), EMM_DisplacementFVMOperator::computeMagneticStress(), EMM_DisplacementFEMOperator::computeMagneticStress(), EMM_OptimalTimeStep::computeOptimalTimeStep(), EMM_DisplacementFEMOperator::computeStressConstraintEnergy(), EMM_FullExchangeOperator::discretize(), EMM_MinimalExchangeOperator::discretize(), EMM_CondensedMassMatrix::discretize(), EMM_LinearAnisotropyOperator::discretize(), EMM_AnisotropyOperator::discretize(), EMM_DemagnetizedOperator::discretize(), EMMG_SLDemagnetizedOperator::discretize(), EMM_LandauLifschitzSystem::discretize(), MATH_Vector::divide(), MATH_MaskVector::dot(), MATH_Vector::dot(), EMM_4SymmetricTensors::doubleDot(), EMM_4Tensors::doubleDotCrossDoubleDotScalar(), EMM_4Tensors::doubleDotCrossProduct(), EMM_4Tensors::doubleDotCrossSquaredScalar(), EMM_4Tensors::doubleDotProduct(), MATH_Vector::init(), MATH_MaskVector::init(), EMM_LandauLifschitzODE_RK::integrateMagnetizationFieldAtTime(), EMM_DisplacementFVM_Interpolator::interpolateUAtVertices(), EMMG_SLDemagnetizedOperator::localAssembly(), EMM_DisplacementOperator::nullProjectionOnDirichletBoundary(), EMM_DisplacementOperator::periodicProjection(), EMM_2PackedSymmetricTensors::product(), EMM_CanonicalMassMatrix::product(), MATH_FullMatrix::product(), EMM_CondensedMassMatrix::product(), EMM_BlockMassMatrix::product(), MATH_MorseMatrix::product(), EMMG_SLDemagnetizedOperator::product(), EMM_DisplacementOperator::projectionOnDirichletBoundary(), EMM_LandauLifschitzSystem::resetOperatorsToInitialState(), EMM_DisplacementFVMOperator::setBoundaryFaceTypes(), FFTW_MultiDFTs::setFFT(), FFTW_MultiLevelsDFT::setFFT(), FFTW_MultiLevelsDFT::setLevels(), FFTW_MultiDFTs::setPlan(), FFTW_MultiLevelsDFT::setPlan(), EMM_CondensedMassMatrix::solve(), EMM_LandauLifschitzODE::solveODE(), EMM_4SymmetricTensors::squaredDoubleDot(), EMM_4Tensors::squaredDoubleDotCrossScalar(), EMM_4Tensors::squaredDoubleDotScalar(), EMM_CanonicalMassMatrix::symmetricDot(), EMM_CondensedMassMatrix::symmetricDot(), EMM_BlockMassMatrix::symmetricDot(), FFTW_Test::test(), MATH_SolverTest::test(), EMM_ODETest::testODE(), and EMM_Grid3D::updateLimitConditionOnPoints().
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inlinestaticinherited |
|
inlinestaticinherited |
return true if the machine is a 32 bits machine
References CORE_Object::pointer2String(), CORE_Object::printObjectsInMemory(), and tString.
Referenced by CORE_Test::testType().
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inlinestaticinherited |
return true if the machine is a 64 bits machine
Referenced by EMM_VTK::getVTKType(), and CORE_Test::testType().
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inlinevirtualinherited |
return true if the operator is either constant or linear
Implements EMM_Operator.
|
inlineinherited |
return the true if the element is cubic
References EMM_Operator::mIsCubic.
Referenced by EMM_FullExchangeOperator::discretize(), and EMM_MinimalExchangeOperator::discretize().
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inlinevirtualinherited |
return true if the gradient of the magnetic excitation is computationable
Implements EMM_Operator.
|
inlineinherited |
test if the clas T is an instance of this class
References null.
Referenced by MATH_ToeplitzTest::toeplitzTest().
test if the object is an instance of className
name | name of the class |
References CORE_Object::getIdentityString().
|
inlinestaticinherited |
get if the memory checking is used
References CORE_Object::getClassName(), CORE_Object::mIsMemoryTesting, and tString.
Referenced by main().
|
inlinestatic |
create a cubic anisotropy operator
References EMMG_CubicAnisotropyOperator().
Referenced by EMMG_ClassFactory::NewInstance().
|
inlinestaticinherited |
get the output
Referenced by EMM_Matter::adimensionize(), EMM_DisplacementFVMOperator::backup(), EMM_DisplacementOperator::backup(), MATH_ElementaryMultiLevelsToeplitzMatrix::buildSpectralVectorProjector(), EMM_Test::caseTest(), EMM_Test::caseTests(), EMM_MatterField::computeAnisotropyDirectionsField(), EMM_OptimalTimeStep::computeOptimalTimeStep(), MATH_MultiLevelsToeplitzMatrix::copy(), CORE_Exception::CORE_Exception(), EMM_MatterField::createAnisotropyOperator(), CORE_Run::createIO(), EMM_ElementaryTest::defaultBackupTest(), EMM_ElementaryTest::defaultTest(), MATH_MultiLevelsFFTToeplitzMatrix::diagonalize(), EMM_DisplacementFVMOperator::discretize(), EMM_MagnetostrictionOperator::discretize(), EMM_DisplacementFEMOperator::discretize(), EMM_4SymmetricTensors::doubleDot(), EMM_4Tensors::doubleDotCrossDoubleDotScalar(), EMM_TensorsTest::doubleDotCrossDoubleDotScalarTests(), EMM_4Tensors::doubleDotCrossProduct(), EMM_TensorsTest::doubleDotCrossProductTests(), EMM_4Tensors::doubleDotCrossSquaredScalar(), EMM_TensorsTest::doubleDotCrossSquaredScalarTests(), EMM_4Tensors::doubleDotProduct(), EMM_TensorsTest::doubleDotProductTests(), EMM_DisplacementWaveTest::elasticWaveTest(), EMM_Test::elementaryTests(), FFTW_Test::fftwTutorial(), MATH_IntegrationTest::gaussLegendreTest(), EMM_MagnetostrictionTest::HComputingTest(), EMM_DemagnetizedPeriodicalTest::HTest(), EMMH_HysteresisTest::hysteresisDefaultCycleTest(), EMM_TensorsTest::initializationTests(), EMM_MultiScaleGrid::initialize(), EMM_MultiScaleSDGrid::initialize(), EMM_MatterField::loadFromANIFile(), EMM_AnisotropyDirectionsField::loadFromFile(), EMM_Matter::loadFromFile(), EMM_Grid3D::loadFromGEOFile(), EMM_MatterField::loadFromLOCFile(), EMM_Array< tCellFlag >::loadFromStream(), EMM_Matter::loadFromStream(), EMM_Matter::loadMattersFromFile(), EMM_Run::loadSystemFromOptions(), EMM_ElementaryTest::magnetostrictionBackupTest(), CORE_Run::make(), EMMH_Run::makeHysteresis(), EMM_Run::makeRun(), CORE_Run::makeType(), EMM_ElementaryTest::optionsTest(), MATH_PolynomialTest::P4Tests(), EMM_Test::primaryTests(), EMM_LandauLifschitzSystem::printLog(), CORE_Run::printOptions(), EMM_2PackedSymmetricTensors::product(), EMMG_SLDemagnetizedOperator::projectionOnSpectralSpace(), CORE_Run::readOptionsFromCommandLine(), CORE_Test::readVectorTest(), EMM_DemagnetizedPeriodicalTest::relaxationTest(), EMM_DisplacementFVMOperator::restore(), EMM_DisplacementOperator::restore(), EMM_Input::restoreBackup(), EMMH_Hysteresis::run(), EMM_Output::save(), EMM_AnisotropyDirectionsField::saveToFile(), EMM_MatterField::saveToFile(), EMM_Grid3D::saveToGEOFile(), CORE_IOTest::searchTest(), EMMH_Hysteresis::setInitialMagnetizationField(), MATH_MultiLevelsToeplitzMatrix::setLevels(), EMM_4SymmetricTensors::squaredDoubleDot(), EMM_4Tensors::squaredDoubleDotCrossScalar(), EMM_TensorsTest::squaredDoubleDotCrossScalarTests(), EMM_4Tensors::squaredDoubleDotScalar(), EMM_TensorsTest::squaredDoubleDotScalarTests(), EMM_TensorsTest::squaredDoubleDotTests(), EMM_MatterTest::testAdimensionize(), EMM_MatterTest::testANIFile(), CORE_Test::testComplex(), CORE_Test::testDateWeek(), FFTW_Test::testDFT(), EMM_MatterTest::testIO(), EMM_ODETest::testODE(), CORE_Test::testOut(), CORE_Test::testReal(), EMM_FieldTest::testRealArray(), EMM_Grid3DTest::testSegment(), EMM_Grid3DTest::testThinSheet(), CORE_Test::testTime(), CORE_Test::testType(), MATH_FullMatrix::toString(), EMM_DemagnetizedPeriodicalTest::xyPeriodicalCubeSDGTest(), and EMM_DemagnetizedPeriodicalTest::xyPeriodicalSheetSDGTest().
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staticinherited |
return the string representation of a pointer
obj | : oject to get the string pointer |
References tString.
Referenced by CORE_Object::CORE_Object(), CORE_Object::getIdentityString(), CORE_Object::getPointerAddress(), CORE_Object::is32Architecture(), and CORE_Object::~CORE_Object().
|
staticinherited |
print object in memory
f | : output to print the objects in memory |
References CORE_Object::getIdentityString(), CORE_Object::getSharedPointer(), CORE_Object::mIsMemoryTesting, CORE_Object::mObjects, and tInteger.
|
inlinestaticinherited |
print object in memory in the standart output
Referenced by CORE_Object::is32Architecture(), and main().
|
inlinestaticinherited |
|
inlinestaticinherited |
|
inlineprotectedvirtualinherited |
reset the data of the operator to its initial step t=0
system | the data to initialize the operator |
do nothing : have no state
Implements EMM_Operator.
|
inlinevirtualinherited |
restore the operator data from file(s)
system | : general data to restore the operator |
prefix | : common prefix of the saving files |
suffix | : common suffix of the saving files |
ext | : common extension of the saving files |
Reimplemented in EMM_DisplacementOperator, EMM_MagnetostrictionOperator, and EMM_DisplacementFVMOperator.
References EMM_Operator::computeFieldsAtTime(), tBoolean, tFlag, tReal, and EMM_Operator::updateAtNextTimeStep().
|
inlinestaticinherited |
set if the memory checking is used
v | : true to check memory |
Referenced by main().
|
inlinestaticinherited |
|
inlineprotectedinherited |
set this weak shared pointer called toDoAfterThis setting method
p | : shared pointer of the class This |
References CORE_Object::toDoAfterThisSetting().
|
inlinestaticinherited |
set the thread
thread | the shared pointer to the thread |
References null.
Referenced by EMM_Run::EMM_Run(), EMM_TensorsRun::EMM_TensorsRun(), and MATH_SolverRun::MATH_SolverRun().
|
private |
|
inlineprotectedvirtualinherited |
method called after the setting of the shared pointer this method can only be called once.
Reimplemented from CORE_Object.
Reimplemented in EMM_DisplacementOperator, EMM_DisplacementFVMOperator, EMM_GaussLegendreRelaxation, and EMM_GradGaussLegendreRelaxation.
Referenced by EMM_GaussLegendreRelaxation::toDoAfterThisSetting(), and EMM_DisplacementOperator::toDoAfterThisSetting().
|
inlinevirtualinherited |
return the string representation of the object node
Reimplemented in EMM_DisplacementOperator, EMM_LandauLifschitzSystem, CORE_Array< T >, CORE_Array< tReal >, CORE_Array< tUInteger >, CORE_Array< tString >, CORE_Array< tLimitCondition >, CORE_Array< tUIndex >, CORE_Array< tUChar >, CORE_Array< tCellFlag >, EMM_Grid3D, CORE_Time, CORE_Vector< T >, EMM_Matter, CORE_Out, EMM_DisplacementFEMOperator, EMM_RealField, EMM_DisplacementFVMOperator, CORE_MorseArray< T >, CORE_MorseArray< tReal >, CORE_MorseArray< tUIndex >, CORE_MorseArray< tUChar >, EMM_MagnetostrictionOperator, MATH_MultiLevelsToeplitzMatrix, FFTW_ComplexArray, MATSGN_ComplexArray, EMM_MatterField, CORE_Color, FFTW_Complex, EMM_MultiScaleGrid, MATSGN_Complex, EMM_DisplacementFVM_VTEGROperator, EMM_CondensedMassMatrix, EMM_LandauLifschitzFunction, EMM_Tensors, EMM_DisplacementFVM_SSGROperator, EMMG_SLDemagnetizedOperator, EMM_BlockMassMatrix, CORE_Array2D< T >, EMM_DisplacementFVM_STEGROperator, EMMH_HysteresisFile, EMM_IterativeTimeStep, CORE_SharedPointersVMap< Key, Value >, CORE_SharedPointersVMap< tString, const CORE_Object >, CORE_SharedPointersVMap< tString, CORE_Object >, EMM_AnisotropyDirectionsField, EMM_DemagnetizedOperator, CORE_SharedPointersListVMap< Key, Value >, CORE_String, EMM_OptimalTimeStep, MATH_MaskArrayVector, CORE_SharedPointersKVMap< Key, Value >, MATH_ArrayVector, EMM_Stepper, EMM_CanonicalMassMatrix, MATH_Pn, MATH_FullMatrix, EMMG_SLPeriodicMultiScale, EMM_HyperElasticMatter, MATH_Matrix, CORE_Array3D< T >, EMM_CubicElasticMatter, CORE_Complex, CORE_Integer, CORE_Real, and EMM_MagnetostrictiveMatter.
References CORE_Object::getIdentityString().
Referenced by CORE_Out::genericPrint(), EMM_VelocitySolverTest::massMatrixTrivialSolverTest(), MATH_ConjugateGradient::solve(), CORE_SharedPointersKVMap< Key, Value >::toString(), CORE_SharedPointersListVMap< Key, Value >::toString(), CORE_SharedPointersVMap< tString, CORE_Object >::toString(), EMM_MagnetostrictionOperator::toString(), EMM_Matter::toString(), and EMM_DisplacementOperator::toString().
|
inlineprotectedvirtualinherited |
update the data of operator at next time step
dt | the time step |
sigma | the magnetized weight of each cell |
Mt | the magnetization field at each point at next time step |
no time dependant data
Implements EMM_Operator.
References EMM_AnisotropyOperator::computeEnergyWithMagneticExcitation(), EMM_AnisotropyOperator::computeMagneticExcitationField(), EMM_AnisotropyOperator::computeMagneticExcitationFieldGradient(), tBoolean, tDimension, tReal, and tUIndex.
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staticinherited |
|
staticinherited |
Referenced by EMM_MatterField::adimensionize(), EMM_MagnetostrictionOperator::adimensionize(), EMM_Matter::adimensionize(), EMM_CubicAnisotropyOperator::ComputeMagneticExcitation(), EMM_CubicAnisotropyOperator::computeMagneticExcitationField(), EMM_CubicAnisotropyOperator::computeMagneticExcitationFieldGradient(), EMM_CubicAnisotropyOperator::ComputeMagneticExcitationGradient(), EMM_Test::createMatters(), EMM_MatterField::getElasticTensorAdimensionizedParameter(), and EMM_MatterTest::testAdimensionize().
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staticinherited |
Referenced by EMM_DisplacementFVM_VOGGROperator::computeGradAlmostNullUAtCellByOstrogradskiGreenIntegration(), EMM_DisplacementFVM_VTEGROperator::computeGradAlmostNullUAtCellByTaylorExpansionWithNeumannInterpolation(), EMM_DisplacementFVM_SSGROperator::computeGradAlmostNullUAtFaceByStokesIntegration(), EMM_DisplacementFVM_VOGGROperator::computeGradAlmostNullUAtNextCellByOstrogradskiGreenIntegration(), EMM_DisplacementFVM_VTEGROperator::computeGradUAtCellByTaylorExpansionWithNeumannInterpolation(), EMM_DisplacementFVM_VGROperator::computeGradUAtFace(), EMM_DisplacementFVM_SSGROperator::computeGradUAtFaceByStokesIntegration(), EMM_DisplacementFVM_STEGROperator::computeGradUAtFaceByTaylorExpansion(), EMM_DisplacementFVM_Interpolator::interpolateUAtEdge(), and EMM_DisplacementFVM_Interpolator::interpolateUAtVertices().
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Referenced by EMMG_SLSDXPeriodicMultiScale::computeMultiGridExcitationField(), EMMG_RealField::fitToSize(), EMM_MassMatrix::getElementVolume(), EMM_CanonicalMassMatrix::isSymmetric(), EMM_BlockMassMatrix::product(), EMM_CondensedMassMatrix::product(), EMM_RealField::setValue(), EMM_CanonicalMassMatrix::solve(), EMM_BlockMassMatrix::solve(), EMM_BlockMassMatrix::toString(), and EMMG_RealField::wedge().
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