Scatsystem orbit metadata design.

Former-commit-id: 3e8ecbf9b444de945f6dfdfb0f92aaaecbd554a9
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Marek Nečada 2019-02-27 17:33:46 +02:00
parent c63ba502ac
commit 3cf5ff44eb
2 changed files with 58 additions and 0 deletions

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@ -49,5 +49,7 @@ typedef struct qpms_finite_group_t {
struct qpms_finite_group_irrep_t *irreps; ///< Irreducible representations of the group. struct qpms_finite_group_irrep_t *irreps; ///< Irreducible representations of the group.
} qpms_finite_group_t; } qpms_finite_group_t;
/// NOT IMPLEMENTED Get irrep index by name.
qpms_iri_t qpms_finite_group_find_irrep_by_name(qpms_finite_group *G, char *name);
#endif // QPMS_GROUPS_H #endif // QPMS_GROUPS_H

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@ -198,6 +198,56 @@ typedef struct qpms_particle_tid_t {
struct qpms_finite_group_t; struct qpms_finite_group_t;
typedef qpms_gmi_t qpms_ss_orbit_pi_t; ///< Auxilliary type used in qpms_ss_orbit_type_t for labeling particles inside orbits.
typedef qpms_tmi_t qpms_ss_oti_t; ///< Auxilliary type used for labeling orbit types.
/// Structure describing a particle's "orbit type" under symmetry group actions in a system.
/**
* Each particle has its orbit with respect to a symmetry group of the system in which the particle lies,
* i.e. a set of particles onto which the group operations map the original particle.
*
* (TODO DOC improve the following explanation:)
* Typically, there will be only a small number of different (T-matrix, particle
* <a href="https://en.wikipedia.org/wiki/Group_action#Fixed_points_and_stabilizer_subgroups">stabiliser</a>)
* pairs in the system. We can group the particles accordingly, into the same "orbit types"
* that will allow to do certain operations only once for each "orbit type", saving memory and (perhaps) time.
*
* Each particle will then have assigned:
* 1. an orbit type,
* 2. an ID inside that orbit.
*
*
* TODO DOC how the process of assigning the particle IDs actually work, orbit type (non-)uniqueness.
*
*
*/
typedef struct qpms_ss_orbit_type_t {
qpms_gmi_t size; ///< Size of the orbit (a divisor of the group order).
/// Action of the group elements onto the "first" element in this orbit.
/** Its size is sym->order and its values lie between 0 and \a this.size 1.
*
* The corresponding stabilizer {\a g} of the i-th particle on the orbit
* is given by action[i] = g.
*
*/
qpms_ss_orbit_pi_t *action;
/// T-matrix IDs of the particles on this orbit (type).
/**
* We save all the tmi's of the particles on the orbit here to make the number of array lookups
* and pointer dereferences constant.
*
* The size of this array is \a size.
*/
qpms_ss_tmi_t tmatrices;
} qpms_ss_orbit_type_t;
/// Auxillary type used in qpms_scatsys_t that identifies the particle's orbit and its id inside that orbit.
typedef struct qpms_ss_particle_orbitinfo {
qpms_oti_t orbit; ///< Orbit type.
qpms_ss_orbit_pi_t; ///< "Order" of the particle inside that orbit type.
} qpms_ss_particle_orbitinfo_t;
typedef struct qpms_scatsys_t { typedef struct qpms_scatsys_t {
// TODO does bspec belong here? // TODO does bspec belong here?
qpms_tmatrix_t **tm; ///< T-matrices in the system qpms_tmatrix_t **tm; ///< T-matrices in the system
@ -212,6 +262,12 @@ typedef struct qpms_scatsys_t {
qpms_ss_pi_t *p_sym_map; ///< Which particles map onto which by the symmetry ops. qpms_ss_pi_t *p_sym_map; ///< Which particles map onto which by the symmetry ops.
///< p_sym_map[idi + pi * sym->order] gives the index of pi-th particle under the idi'th sym op. ///< p_sym_map[idi + pi * sym->order] gives the index of pi-th particle under the idi'th sym op.
qpms_ss_tmi_t *tm_sym_map; ///< Which t-matrices map onto which by the symmetry ops. Lookup by tm_sum_map[idi + tmi * sym->order]. qpms_ss_tmi_t *tm_sym_map; ///< Which t-matrices map onto which by the symmetry ops. Lookup by tm_sum_map[idi + tmi * sym->order].
qpms_ss_oti_t orbit_type_count;
qpms_ss_orbit_type_t *orbit_types; ///< (Array length is \a orbit_type_count.)
qpms_ss_particle_orbitinfo_t *orbitinfo; ///< Orbit type identification of each particle. (Array length is \a p_count.)
size_t fecv_size; ///< Number of elements of a full excitation coefficient vector size. size_t fecv_size; ///< Number of elements of a full excitation coefficient vector size.
//size_t *saecv_sizes; ///< NI. Number of elements of symmetry-adjusted coefficient vector sizes (order as in sym->irreps). //size_t *saecv_sizes; ///< NI. Number of elements of symmetry-adjusted coefficient vector sizes (order as in sym->irreps).