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NAME

       sc::MOIndexSpace -

       Class MOIndexSpace describes a range of molecular orbitals or similar
       objects that are linear combinations of basis functions (e.g.

SYNOPSIS

       #include <moindexspace.h>

       Inherits sc::SavableState.

   Public Types
       enum IndexOrder { symmetry =  0, energy =  1, undefined =  2 }
           Describes the ordering of indices.

   Public Member Functions
       MOIndexSpace (StateIn &)
       MOIndexSpace (std::string name, const RefSCMatrix &full_coefs, const
           Ref< GaussianBasisSet > basis, const Ref< Integral > &integral,
           const vector< int > &offsets, const vector< int > &nmopi,
           IndexOrder moorder=symmetry, const RefDiagSCMatrix &evals=0)
           This function constructs an MOIndexSpace from (blocked) space
           full_coefs.
       MOIndexSpace (std::string name, const RefSCMatrix &full_coefs, const
           Ref< GaussianBasisSet > basis, const Ref< Integral > &integral,
           const RefDiagSCMatrix &evals, int nfzc, int nfzv, IndexOrder
           moorder=energy)
           This constructor should be used when the MOIndexSpace object is a
           subspace of a full orbital space.
       MOIndexSpace (std::string name, const RefSCMatrix &full_coefs, const
           Ref< GaussianBasisSet > basis, const Ref< Integral > &integral)
           This constructor should be used when the MOIndexSpace object is the
           full orbital space.
       MOIndexSpace (std::string name, const Ref< MOIndexSpace > &orig_space,
           const RefSCMatrix &new_coefs, const Ref< GaussianBasisSet >
           &new_basis)
           This constructor is a true hack introduced because I have no idea
           how to construct what I need.
       void save_data_state (StateOut &)
           Save the base classes (with save_data_state) and the members in the
           same order that the StateIn CTOR initializes them.
       const std::string name () const
           Returns the name of this MOIndexSpace.
       const Ref< GaussianBasisSet > basis () const
           Returns the AO basis set.
       Ref< Integral > integral () const
           Returns the integral factory used to instantiate the coefficient
           matrix.
       const RefSCMatrix coefs () const
           Returns the coefficient matrix.
       const RefDiagSCMatrix evals () const
           Returns the eigenvalues matrix.
       vector< int > mosym () const
           Returns the orbital symmetry array.
       IndexOrder moorder () const
           Returns the order of the orbitals.
       int rank () const
           Returns the rank of the space.
       int full_rank () const
           Returns the rank of the full space.
       int nblocks () const
           Returns the number of blocks.
       vector< int > nmo () const
           Returns the number of orbitals in each block.
       vector< int > offsets () const
           Returns the full-space index of the first orbital in each block.
       int to_full_space (const int i) const
           Returns the full-space index.
       size_t memory_in_use () const
           Returns how much significant (i.e. O^2) memory this object uses.
       void print (std::ostream &o=ExEnv::out0()) const
           Prints out this.
       void print_summary (std::ostream &os) const
           Produces a short summary.

Detailed Description

       Class MOIndexSpace describes a range of molecular orbitals or similar
       objects that are linear combinations of basis functions (e.g.

       atomic orbitals). In general, such sets are subspaces of a full space
       of orbitals supported by the given basis. Orbitals can be symmetry-
       blocked, ordered by energy, etc. Examples of sets that can be described
       using MOIndexSpace are occupied MOs and virtual MOs.

Constructor & Destructor Documentation

   sc::MOIndexSpace::MOIndexSpace (std::string name, const RefSCMatrix &
       full_coefs, const Ref< GaussianBasisSet > basis, const Ref< Integral >
       & integral, const vector< int > & offsets, const vector< int > & nmopi,
       IndexOrder moorder = symmetry, const RefDiagSCMatrix & evals = 0)
       This function constructs an MOIndexSpace from (blocked) space
       full_coefs. Block i will contain vectors [ offsets[i],
       offsets[i]+nmopi[i]-1 ] . By default, the space maintains the same
       blocked structure and the same order within blocks as the original
       space (moorder=symmetry). If moorder=energy and eigenvalues evals are
       provided, then all vectors will be put in one block and sorted
       according to ascending evals.

       Parameters:
           name -- the name of this MOIndexSpace
           full_coefs -- symmetry-blocked transformation coefficient matrix
           (AO by MO) for the full space
           basis -- basis set
           integral -- integral factory
           offsets -- block offsets
           nmopi -- new block sizes
           moorder -- specifies new ordering of vectors
           evals -- used to sort the vectors

   sc::MOIndexSpace::MOIndexSpace (std::string name, const RefSCMatrix &
       full_coefs, const Ref< GaussianBasisSet > basis, const Ref< Integral >
       & integral, const RefDiagSCMatrix & evals, int nfzc, int nfzv,
       IndexOrder moorder = energy)
       This constructor should be used when the MOIndexSpace object is a
       subspace of a full orbital space. Similarly to the previous
       constructor, it constructs an MOIndexSpace object using a symmetry-
       blocked transformation coefficient matrix (AO by MO) for the full
       space, basis set, ’eigenvalues’ and the number of orbitals with lowest
       (nfzc) and highest (nfzv) eigenvalues to be dropped. The orbitals in
       the constructed space are ordered by energy.

   sc::MOIndexSpace::MOIndexSpace (std::string name, const RefSCMatrix &
       full_coefs, const Ref< GaussianBasisSet > basis, const Ref< Integral >
       & integral)
       This constructor should be used when the MOIndexSpace object is the
       full orbital space. The orbitals will be symmetry-blocked.

   sc::MOIndexSpace::MOIndexSpace (std::string name, const Ref< MOIndexSpace >
       & orig_space, const RefSCMatrix & new_coefs, const Ref<
       GaussianBasisSet > & new_basis)
       This constructor is a true hack introduced because I have no idea how
       to construct what I need. It will copy orig_space but replace it’s
       coefs with new_coefs, and its basis with new_basis.

Member Function Documentation

   void sc::MOIndexSpace::save_data_state (StateOut &) [virtual]
       Save the base classes (with save_data_state) and the members in the
       same order that the StateIn CTOR initializes them. This must be
       implemented by the derived class if the class has data.

       Reimplemented from sc::SavableState.

Author

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