MintsHelper

class psi4.core.MintsHelper

Bases: pybind11_builtins.pybind11_object

Computes integrals

Methods Summary

ao_3coverlap(*args, **kwargs)	Overloaded function.
ao_angular_momentum(self)	Vector AO angular momentum integrals
ao_dipole(self)	Vector AO dipole integrals
ao_dkh(self, arg0)	AO dkh integrals
ao_ecp(*args, **kwargs)	Overloaded function.
ao_efp_multipole_potential(self, origin, …)	Vector AO EFP multipole integrals
ao_erf_eri(self, omega, factory)	AO ERF integrals
ao_eri(*args, **kwargs)	Overloaded function.
ao_eri_shell(self, M, N, P, Q)	AO ERI Shell
ao_f12(*args, **kwargs)	Overloaded function.
ao_f12_double_commutator(self, corr)	AO F12 double commutator integrals
ao_f12_scaled(*args, **kwargs)	Overloaded function.
ao_f12_squared(*args, **kwargs)	Overloaded function.
ao_f12g12(self, corr)	AO F12G12 integrals
ao_kinetic(*args, **kwargs)	Overloaded function.
ao_nabla(self)	Vector AO nabla integrals
ao_oei_deriv1(self, arg0, arg1)	Gradient of AO basis OEI integrals: returns (3 * natoms) matrices
ao_oei_deriv2(self, arg0, arg1, arg2)	Hessian of AO basis OEI integrals: returns (3 * natoms)^2 matrices
ao_overlap(*args, **kwargs)	Overloaded function.
ao_potential(*args, **kwargs)	Overloaded function.
ao_pvp(self)	AO pvp integrals
ao_quadrupole(self)	Vector AO quadrupole integrals
ao_tei_deriv1(self, atom, omega, factory)	Gradient of AO basis TEI integrals: returns (3 * natoms) matrices
ao_tei_deriv2(self, arg0, arg1)	Hessian of AO basis TEI integrals: returns (3 * natoms)^2 matrices
ao_traceless_quadrupole(self)	Vector AO traceless quadrupole integrals
basisset(self)	Returns the basis set being used
cdsalcs(self, arg0, arg1, arg2)	Returns a CdSalcList object
core_hamiltonian_grad(self, arg0)	First nuclear derivative T + V + Perturb integrals
dipole_grad(self, arg0)	First nuclear derivative dipole integrals
electric_field(self, origin, 0.0, 0.0], deriv)	Vector electric field integrals
factory(self)	Returns the Matrix factory being used
integral(self)	Integral factory being used
integrals(self)	Molecular integrals
integrals_erf(self, w)	ERF integrals
integrals_erfc(self, w)	ERFC integrals
kinetic_grad(self, arg0)	First nuclear derivative kinetic integrals
mo_erf_eri(self, omega, C1, C2, C3, C4)	MO ERFC Omega Integrals
mo_eri(self, C1, C2, C3, C4)	MO ERI Integrals.
mo_f12(self, corr, C1, C2, C3, C4)	MO F12 Integrals
mo_f12_double_commutator(self, corr, C1, C2, …)	MO F12 double commutator integrals
mo_f12_squared(self, corr, C1, C2, C3, C4)	MO F12 squared integrals
mo_f12g12(self, corr, C1, C2, C3, C4)	MO F12G12 integrals
mo_oei_deriv1(self, arg0, arg1, arg2, arg3)	Gradient of MO basis OEI integrals: returns (3 * natoms) matrices
mo_oei_deriv2(self, arg0, arg1, arg2, arg3, arg4)	Hessian of MO basis OEI integrals: returns (3 * natoms)^2 matrices
mo_spin_eri(self, C1, C2)	Symmetric MO Spin ERI Integrals
mo_tei_deriv1(self, arg0, arg1, arg2, arg3, arg4)	Gradient of MO basis TEI integrals: returns (3 * natoms) matrices
mo_tei_deriv2(self, arg0, arg1, arg2, arg3, …)	Hessian of MO basis TEI integrals: returns (3 * natoms)^2 matrices
mo_transform(self, Iso, C1, C2, C3, C4)	N^5 ao to mo transfrom, in memory
nbf(self)	Returns the number of basis functions
one_electron_integrals(self)	Standard one-electron integrals
overlap_grad(self, arg0)	First nuclear derivative overlap integrals
perturb_grad(*args, **kwargs)	Overloaded function.
petite_list(self)	Returns petite list, which transforms AO basis functions to SO’s
petite_list1(self, include_pure_transform)	Returns petite list which transforms AO basis functions to SO’s, setting argument to true is for Cartesian basis, false is for Spherical Harmonic basis
play(self)	play function
potential_grad(self, arg0)	First nuclear derivative potential integrals
set_print(self, arg0)	Sets the print level
set_rel_basisset(self, rel_basis)	Sets the relativistic basis set
so_angular_momentum(self)	Vector SO angular momentum integrals
so_dipole(self)	Vector SO dipole integrals
so_dkh(self, arg0)	SO dkh integrals
so_ecp(self)	SO basis effective core potential integrals.
so_kinetic(self)	SO basis kinetic integrals
so_nabla(self)	Vector SO nabla integrals
so_overlap(self)	SO basis overlap integrals
so_potential(self, include_perturbations)	SO basis potential integrals
so_quadrupole(self)	Vector SO quadrupole integrals
so_traceless_quadrupole(self)	Vector SO traceless quadrupole integrals
sobasisset(self)	Returns the SO basis set being used

Methods Documentation

ao_3coverlap(*args, **kwargs)

Overloaded function.

1. ao_3coverlap(self: psi4.core.MintsHelper) -> psi4.core.Matrix

3 Center overlap integrals

2. ao_3coverlap(self: psi4.core.MintsHelper, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet) -> psi4.core.Matrix

3 Center overalp integrals

ao_angular_momentum(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO angular momentum integrals

ao_dipole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO dipole integrals

ao_dkh(self: psi4.core.MintsHelper, arg0: int) → psi4.core.Matrix

AO dkh integrals

ao_ecp(*args, **kwargs)

Overloaded function.

1. ao_ecp(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis effective core potential integrals.

2. ao_ecp(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO basis effective core potential integrals.

ao_efp_multipole_potential(self: psi4.core.MintsHelper, origin: List[float]=[0.0, 0.0, 0.0], deriv: int=0) → List[psi4.core.Matrix]

Vector AO EFP multipole integrals

ao_erf_eri(self: psi4.core.MintsHelper, omega: float, factory: psi4.core.IntegralFactory=None) → psi4.core.Matrix

AO ERF integrals

ao_eri(*args, **kwargs)

Overloaded function.

1. ao_eri(self: psi4.core.MintsHelper, factory: psi4.core.IntegralFactory=None) -> psi4.core.Matrix

AO ERI integrals

2. ao_eri(self: psi4.core.MintsHelper, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO ERI integrals

ao_eri_shell(self: psi4.core.MintsHelper, M: int, N: int, P: int, Q: int) → psi4.core.Matrix

AO ERI Shell

ao_f12(*args, **kwargs)

Overloaded function.

1. ao_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 integrals

2. ao_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 integrals

ao_f12_double_commutator(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) → psi4.core.Matrix

AO F12 double commutator integrals

ao_f12_scaled(*args, **kwargs)

Overloaded function.

1. ao_f12_scaled(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 intgerals

2. ao_f12_scaled(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 intgerals

ao_f12_squared(*args, **kwargs)

Overloaded function.

1. ao_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 squared integrals

2. ao_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 squared integrals

ao_f12g12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) → psi4.core.Matrix

AO F12G12 integrals

ao_kinetic(*args, **kwargs)

Overloaded function.

1. ao_kinetic(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis kinetic integrals

2. ao_kinetic(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis kinetic integrals

ao_nabla(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO nabla integrals

ao_oei_deriv1(self: psi4.core.MintsHelper, arg0: str, arg1: int) → List[psi4.core.Matrix]

Gradient of AO basis OEI integrals: returns (3 * natoms) matrices

ao_oei_deriv2(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: int) → List[psi4.core.Matrix]

Hessian of AO basis OEI integrals: returns (3 * natoms)^2 matrices

ao_overlap(*args, **kwargs)

Overloaded function.

1. ao_overlap(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis overlap integrals

2. ao_overlap(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis overlap integrals

ao_potential(*args, **kwargs)

Overloaded function.

1. ao_potential(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO potential integrals

2. ao_potential(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis potential integrals

ao_pvp(self: psi4.core.MintsHelper) → psi4.core.Matrix

AO pvp integrals

ao_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO quadrupole integrals

ao_tei_deriv1(self: psi4.core.MintsHelper, atom: int, omega: float=0.0, factory: psi4.core.IntegralFactory=None) → List[psi4.core.Matrix]

Gradient of AO basis TEI integrals: returns (3 * natoms) matrices

ao_tei_deriv2(self: psi4.core.MintsHelper, arg0: int, arg1: int) → List[psi4.core.Matrix]

Hessian of AO basis TEI integrals: returns (3 * natoms)^2 matrices

ao_traceless_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO traceless quadrupole integrals

basisset(self: psi4.core.MintsHelper) → psi::BasisSet

Returns the basis set being used

cdsalcs(self: psi4.core.MintsHelper, arg0: int, arg1: bool, arg2: bool) → psi4.core.CdSalcList

Returns a CdSalcList object

core_hamiltonian_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative T + V + Perturb integrals

dipole_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative dipole integrals

electric_field(self: psi4.core.MintsHelper, origin: List[float]=[0.0, 0.0, 0.0], deriv: int=0) → List[psi4.core.Matrix]

Vector electric field integrals

factory(self: psi4.core.MintsHelper) → psi4.core.MatrixFactory

Returns the Matrix factory being used

integral(self: psi4.core.MintsHelper) → psi4.core.IntegralFactory

Integral factory being used

integrals(self: psi4.core.MintsHelper) → None

Molecular integrals

integrals_erf(self: psi4.core.MintsHelper, w: float=-1.0) → None

ERF integrals

integrals_erfc(self: psi4.core.MintsHelper, w: float=-1.0) → None

ERFC integrals

kinetic_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative kinetic integrals

mo_erf_eri(self: psi4.core.MintsHelper, omega: float, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO ERFC Omega Integrals

mo_eri(self: psi4.core.MintsHelper, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO ERI Integrals. Pass appropriate MO coefficients

mo_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 Integrals

mo_f12_double_commutator(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 double commutator integrals

mo_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 squared integrals

mo_f12g12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12G12 integrals

mo_oei_deriv1(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix) → List[psi4.core.Matrix]

Gradient of MO basis OEI integrals: returns (3 * natoms) matrices

mo_oei_deriv2(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: int, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix) → List[psi4.core.Matrix]

Hessian of MO basis OEI integrals: returns (3 * natoms)^2 matrices

mo_spin_eri(self: psi4.core.MintsHelper, C1: psi4.core.Matrix, C2: psi4.core.Matrix) → psi4.core.Matrix

Symmetric MO Spin ERI Integrals

mo_tei_deriv1(self: psi4.core.MintsHelper, arg0: int, arg1: psi4.core.Matrix, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix) → List[psi4.core.Matrix]

Gradient of MO basis TEI integrals: returns (3 * natoms) matrices

mo_tei_deriv2(self: psi4.core.MintsHelper, arg0: int, arg1: int, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix, arg5: psi4.core.Matrix) → List[psi4.core.Matrix]

Hessian of MO basis TEI integrals: returns (3 * natoms)^2 matrices

mo_transform(self: psi4.core.MintsHelper, Iso: psi4.core.Matrix, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

N^5 ao to mo transfrom, in memory

nbf(self: psi4.core.MintsHelper) → int

Returns the number of basis functions

one_electron_integrals(self: psi4.core.MintsHelper) → None

Standard one-electron integrals

overlap_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative overlap integrals

perturb_grad(*args, **kwargs)

Overloaded function.

1. perturb_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) -> psi4.core.Matrix

First nuclear derivative perturb integrals

2. perturb_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix, arg1: float, arg2: float, arg3: float) -> psi4.core.Matrix

First nuclear derivative perturb integrals

petite_list(self: psi4.core.MintsHelper) → psi::PetiteList

Returns petite list, which transforms AO basis functions to SO’s

petite_list1(self: psi4.core.MintsHelper, include_pure_transform: bool) → psi::PetiteList

Returns petite list which transforms AO basis functions to SO’s, setting argument to true is for Cartesian basis, false is for Spherical Harmonic basis

play(self: psi4.core.MintsHelper) → None

play function

potential_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative potential integrals

set_print(self: psi4.core.MintsHelper, arg0: int) → None

Sets the print level

set_rel_basisset(self: psi4.core.MintsHelper, rel_basis: psi::BasisSet) → None

Sets the relativistic basis set

so_angular_momentum(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO angular momentum integrals

so_dipole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO dipole integrals

so_dkh(self: psi4.core.MintsHelper, arg0: int) → psi4.core.Matrix

SO dkh integrals

so_ecp(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis effective core potential integrals.

so_kinetic(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis kinetic integrals

so_nabla(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO nabla integrals

so_overlap(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis overlap integrals

so_potential(self: psi4.core.MintsHelper, include_perturbations: bool=True) → psi4.core.Matrix

SO basis potential integrals

so_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO quadrupole integrals

so_traceless_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO traceless quadrupole integrals

sobasisset(self: psi4.core.MintsHelper) → psi::SOBasisSet

Returns the SO basis set being used

ao_3coverlap(*args, **kwargs)

Overloaded function.

1. ao_3coverlap(self: psi4.core.MintsHelper) -> psi4.core.Matrix

3 Center overlap integrals

2. ao_3coverlap(self: psi4.core.MintsHelper, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet) -> psi4.core.Matrix

3 Center overalp integrals

ao_angular_momentum(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO angular momentum integrals

ao_dipole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO dipole integrals

ao_dkh(self: psi4.core.MintsHelper, arg0: int) → psi4.core.Matrix

AO dkh integrals

ao_ecp(*args, **kwargs)

Overloaded function.

1. ao_ecp(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis effective core potential integrals.

2. ao_ecp(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO basis effective core potential integrals.

ao_efp_multipole_potential(self: psi4.core.MintsHelper, origin: List[float]=[0.0, 0.0, 0.0], deriv: int=0) → List[psi4.core.Matrix]

Vector AO EFP multipole integrals

ao_erf_eri(self: psi4.core.MintsHelper, omega: float, factory: psi4.core.IntegralFactory=None) → psi4.core.Matrix

AO ERF integrals

ao_eri(*args, **kwargs)

Overloaded function.

1. ao_eri(self: psi4.core.MintsHelper, factory: psi4.core.IntegralFactory=None) -> psi4.core.Matrix

AO ERI integrals

2. ao_eri(self: psi4.core.MintsHelper, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO ERI integrals

ao_eri_shell(self: psi4.core.MintsHelper, M: int, N: int, P: int, Q: int) → psi4.core.Matrix

AO ERI Shell

ao_f12(*args, **kwargs)

Overloaded function.

1. ao_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 integrals

2. ao_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 integrals

ao_f12_double_commutator(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) → psi4.core.Matrix

AO F12 double commutator integrals

ao_f12_scaled(*args, **kwargs)

Overloaded function.

1. ao_f12_scaled(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 intgerals

2. ao_f12_scaled(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 intgerals

ao_f12_squared(*args, **kwargs)

Overloaded function.

1. ao_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) -> psi4.core.Matrix

AO F12 squared integrals

2. ao_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, bs1: psi::BasisSet, bs2: psi::BasisSet, bs3: psi::BasisSet, bs4: psi::BasisSet) -> psi4.core.Matrix

AO F12 squared integrals

ao_f12g12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor) → psi4.core.Matrix

AO F12G12 integrals

ao_kinetic(*args, **kwargs)

Overloaded function.

1. ao_kinetic(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis kinetic integrals

2. ao_kinetic(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis kinetic integrals

ao_nabla(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO nabla integrals

ao_oei_deriv1(self: psi4.core.MintsHelper, arg0: str, arg1: int) → List[psi4.core.Matrix]

Gradient of AO basis OEI integrals: returns (3 * natoms) matrices

ao_oei_deriv2(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: int) → List[psi4.core.Matrix]

Hessian of AO basis OEI integrals: returns (3 * natoms)^2 matrices

ao_overlap(*args, **kwargs)

Overloaded function.

1. ao_overlap(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO basis overlap integrals

2. ao_overlap(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis overlap integrals

ao_potential(*args, **kwargs)

Overloaded function.

1. ao_potential(self: psi4.core.MintsHelper) -> psi4.core.Matrix

AO potential integrals

2. ao_potential(self: psi4.core.MintsHelper, arg0: psi::BasisSet, arg1: psi::BasisSet) -> psi4.core.Matrix

AO mixed basis potential integrals

ao_pvp(self: psi4.core.MintsHelper) → psi4.core.Matrix

AO pvp integrals

ao_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO quadrupole integrals

ao_tei_deriv1(self: psi4.core.MintsHelper, atom: int, omega: float=0.0, factory: psi4.core.IntegralFactory=None) → List[psi4.core.Matrix]

Gradient of AO basis TEI integrals: returns (3 * natoms) matrices

ao_tei_deriv2(self: psi4.core.MintsHelper, arg0: int, arg1: int) → List[psi4.core.Matrix]

Hessian of AO basis TEI integrals: returns (3 * natoms)^2 matrices

ao_traceless_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector AO traceless quadrupole integrals

basisset(self: psi4.core.MintsHelper) → psi::BasisSet

Returns the basis set being used

cdsalcs(self: psi4.core.MintsHelper, arg0: int, arg1: bool, arg2: bool) → psi4.core.CdSalcList

Returns a CdSalcList object

core_hamiltonian_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative T + V + Perturb integrals

dipole_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative dipole integrals

electric_field(self: psi4.core.MintsHelper, origin: List[float]=[0.0, 0.0, 0.0], deriv: int=0) → List[psi4.core.Matrix]

Vector electric field integrals

factory(self: psi4.core.MintsHelper) → psi4.core.MatrixFactory

Returns the Matrix factory being used

integral(self: psi4.core.MintsHelper) → psi4.core.IntegralFactory

Integral factory being used

integrals(self: psi4.core.MintsHelper) → None

Molecular integrals

integrals_erf(self: psi4.core.MintsHelper, w: float=-1.0) → None

ERF integrals

integrals_erfc(self: psi4.core.MintsHelper, w: float=-1.0) → None

ERFC integrals

kinetic_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative kinetic integrals

mo_erf_eri(self: psi4.core.MintsHelper, omega: float, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO ERFC Omega Integrals

mo_eri(self: psi4.core.MintsHelper, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO ERI Integrals. Pass appropriate MO coefficients

mo_f12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 Integrals

mo_f12_double_commutator(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 double commutator integrals

mo_f12_squared(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12 squared integrals

mo_f12g12(self: psi4.core.MintsHelper, corr: psi::CorrelationFactor, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

MO F12G12 integrals

mo_oei_deriv1(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix) → List[psi4.core.Matrix]

Gradient of MO basis OEI integrals: returns (3 * natoms) matrices

mo_oei_deriv2(self: psi4.core.MintsHelper, arg0: str, arg1: int, arg2: int, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix) → List[psi4.core.Matrix]

Hessian of MO basis OEI integrals: returns (3 * natoms)^2 matrices

mo_spin_eri(self: psi4.core.MintsHelper, C1: psi4.core.Matrix, C2: psi4.core.Matrix) → psi4.core.Matrix

Symmetric MO Spin ERI Integrals

mo_tei_deriv1(self: psi4.core.MintsHelper, arg0: int, arg1: psi4.core.Matrix, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix) → List[psi4.core.Matrix]

Gradient of MO basis TEI integrals: returns (3 * natoms) matrices

mo_tei_deriv2(self: psi4.core.MintsHelper, arg0: int, arg1: int, arg2: psi4.core.Matrix, arg3: psi4.core.Matrix, arg4: psi4.core.Matrix, arg5: psi4.core.Matrix) → List[psi4.core.Matrix]

Hessian of MO basis TEI integrals: returns (3 * natoms)^2 matrices

mo_transform(self: psi4.core.MintsHelper, Iso: psi4.core.Matrix, C1: psi4.core.Matrix, C2: psi4.core.Matrix, C3: psi4.core.Matrix, C4: psi4.core.Matrix) → psi4.core.Matrix

N^5 ao to mo transfrom, in memory

nbf(self: psi4.core.MintsHelper) → int

Returns the number of basis functions

one_electron_integrals(self: psi4.core.MintsHelper) → None

Standard one-electron integrals

overlap_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative overlap integrals

perturb_grad(*args, **kwargs)

Overloaded function.

1. perturb_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) -> psi4.core.Matrix

First nuclear derivative perturb integrals

2. perturb_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix, arg1: float, arg2: float, arg3: float) -> psi4.core.Matrix

First nuclear derivative perturb integrals

petite_list(self: psi4.core.MintsHelper) → psi::PetiteList

Returns petite list, which transforms AO basis functions to SO’s

petite_list1(self: psi4.core.MintsHelper, include_pure_transform: bool) → psi::PetiteList

Returns petite list which transforms AO basis functions to SO’s, setting argument to true is for Cartesian basis, false is for Spherical Harmonic basis

play(self: psi4.core.MintsHelper) → None

play function

potential_grad(self: psi4.core.MintsHelper, arg0: psi4.core.Matrix) → psi4.core.Matrix

First nuclear derivative potential integrals

set_print(self: psi4.core.MintsHelper, arg0: int) → None

Sets the print level

set_rel_basisset(self: psi4.core.MintsHelper, rel_basis: psi::BasisSet) → None

Sets the relativistic basis set

so_angular_momentum(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO angular momentum integrals

so_dipole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO dipole integrals

so_dkh(self: psi4.core.MintsHelper, arg0: int) → psi4.core.Matrix

SO dkh integrals

so_ecp(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis effective core potential integrals.

so_kinetic(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis kinetic integrals

so_nabla(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO nabla integrals

so_overlap(self: psi4.core.MintsHelper) → psi4.core.Matrix

SO basis overlap integrals

so_potential(self: psi4.core.MintsHelper, include_perturbations: bool=True) → psi4.core.Matrix

SO basis potential integrals

so_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO quadrupole integrals

so_traceless_quadrupole(self: psi4.core.MintsHelper) → List[psi4.core.Matrix]

Vector SO traceless quadrupole integrals

sobasisset(self: psi4.core.MintsHelper) → psi::SOBasisSet

Returns the SO basis set being used