コード例 #1
0
ファイル: addons.py プロジェクト: raybrad/pyscf
def des_b(ci0, norb, nelec, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing a beta electron from
    N-electron wavefunction.

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        nelec : int or 2-item list
            Number of electrons, or 2-item list for (alpha, beta) electrons
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings. Note it
        has different number of columns to the input CI coefficients.
    '''
    if isinstance(nelec, (int, numpy.integer)):
        neleca = nelecb = nelec // 2
    else:
        neleca, nelecb = nelec
    des_index = cistring.gen_des_str_index(range(norb), nelecb)
    nb_ci1 = cistring.num_strings(norb, nelecb-1)
    ci1 = numpy.zeros((ci0.shape[0], nb_ci1))

    entry_has_ap = (des_index[:,:,0] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    # This sign prefactor accounts for interchange of operators with alpha and beta spins
    if neleca % 2 == 1:
        sign *= -1
    ci1[:,addr_ci1] = ci0[:,addr_ci0] * sign
    return ci1
コード例 #2
0
ファイル: spin_op.py プロジェクト: BB-Goldstein/pyscf
def _make_rdm2_abba(fcivec, norb, nelec):
    if isinstance(nelec, (int, numpy.integer)):
        neleca = nelecb = nelec // 2
    else:
        neleca, nelecb = nelec
    if nelecb == norb or neleca == 0: # no intermediate determinants
        return numpy.zeros((norb,norb,norb,norb))
    acre_index = cistring.gen_cre_str_index(range(norb), neleca-1)
    bdes_index = cistring.gen_des_str_index(range(norb), nelecb+1)
    instra = cistring.num_strings(norb, neleca-1)
    nb = cistring.num_strings(norb, nelecb)
    dm1 = numpy.empty((norb,norb))
    dm2 = numpy.empty((norb,norb,norb,norb))
    fn = _ctypes.dlsym(librdm._handle, 'FCIdm2_abba_kern')
    librdm.FCIspindm12_drv(ctypes.c_void_p(fn),
                           dm1.ctypes.data_as(ctypes.c_void_p),
                           dm2.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           ctypes.c_int(norb),
                           ctypes.c_int(instra), ctypes.c_int(nb),
                           ctypes.c_int(neleca), ctypes.c_int(nelecb),
                           acre_index.ctypes.data_as(ctypes.c_void_p),
                           bdes_index.ctypes.data_as(ctypes.c_void_p))
    return dm2
コード例 #3
0
ファイル: test_cistring.py プロジェクト: chrinide/pyscf
 def test_gen_des_str_index(self):
     idx = cistring.gen_des_str_index(range(4), 2)
     idx0 = [[[ 0, 0, 1,-1], [ 0, 1, 0, 1]],
             [[ 0, 0, 2,-1], [ 0, 2, 0, 1]],
             [[ 0, 1, 2,-1], [ 0, 2, 1, 1]],
             [[ 0, 0, 3,-1], [ 0, 3, 0, 1]],
             [[ 0, 1, 3,-1], [ 0, 3, 1, 1]],
             [[ 0, 2, 3,-1], [ 0, 3, 2, 1]]],
     self.assertTrue(numpy.allclose(idx, idx0))
コード例 #4
0
 def test_gen_des_str_index(self):
     idx = cistring.gen_des_str_index(range(4), 2)
     idx0 = [[[ 0, 0, 1,-1], [ 0, 1, 0, 1]],
             [[ 0, 0, 2,-1], [ 0, 2, 0, 1]],
             [[ 0, 1, 2,-1], [ 0, 2, 1, 1]],
             [[ 0, 0, 3,-1], [ 0, 3, 0, 1]],
             [[ 0, 1, 3,-1], [ 0, 3, 1, 1]],
             [[ 0, 2, 3,-1], [ 0, 3, 2, 1]]],
     self.assertTrue(numpy.allclose(idx, idx0))
コード例 #5
0
ファイル: addons.py プロジェクト: diradical/pyscf
def des_b(ci0, norb, nelec, ap_id):
    if isinstance(nelec, (int, numpy.integer)):
        neleca = nelecb = nelec // 2
    else:
        neleca, nelecb = nelec
    des_index = cistring.gen_des_str_index(range(norb), nelecb)
    nb_ci1 = cistring.num_strings(norb, nelecb-1)
    ci1 = numpy.zeros((ci0.shape[0], nb_ci1))

    entry_has_ap = (des_index[:,:,0] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    ci1[:,addr_ci1] = ci0[:,addr_ci0] * sign
    return ci1
コード例 #6
0
ファイル: addons.py プロジェクト: diradical/pyscf
def des_a(ci0, norb, nelec, ap_id):
    if isinstance(nelec, (int, numpy.integer)):
        neleca = nelecb = nelec // 2
    else:
        neleca, nelecb = nelec

    des_index = cistring.gen_des_str_index(range(norb), neleca)
    na_ci1 = cistring.num_strings(norb, neleca-1)
    ci1 = numpy.zeros((na_ci1, ci0.shape[1]))

    entry_has_ap = (des_index[:,:,0] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    #print(addr_ci0)
    #print(addr_ci1)
    ci1[addr_ci1] = sign.reshape(-1,1) * ci0[addr_ci0]
    return ci1
コード例 #7
0
def des_a(ci0, norb, neleca_nelecb, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing an alpha electron from
    the N-electron wavefunction.

    ... math::

        |N-1\rangle = \hat{a}_p |N\rangle

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        (neleca,nelecb) : (int,int)
            Number of (alpha, beta) electrons of the input CI function
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings.  Note it
        has different number of rows to the input CI coefficients
    '''
    neleca, nelecb = neleca_nelecb
    if ci0.ndim == 1:
        ci0 = ci0.reshape(cistring.num_strings(norb, neleca),
                          cistring.num_strings(norb, nelecb))
    if neleca <= 0:
        return numpy.zeros((0, ci0.shape[1]))
    des_index = cistring.gen_des_str_index(range(norb), neleca)
    na_ci1 = cistring.num_strings(norb, neleca-1)
    ci1 = numpy.zeros((na_ci1, ci0.shape[1]))

    entry_has_ap = (des_index[:,:,1] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    #print(addr_ci0)
    #print(addr_ci1)
    ci1[addr_ci1] = sign.reshape(-1,1) * ci0[addr_ci0]
    return ci1
コード例 #8
0
ファイル: addons.py プロジェクト: pulkin/pyscf
def des_a(ci0, norb, neleca_nelecb, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing an alpha electron from
    the N-electron wavefunction.

    ... math::

        |N-1\rangle = \hat{a}_p |N\rangle

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        (neleca,nelecb) : (int,int)
            Number of (alpha, beta) electrons of the input CI function
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings.  Note it
        has different number of rows to the input CI coefficients
    '''
    neleca, nelecb = neleca_nelecb
    if ci0.ndim == 1:
        ci0 = ci0.reshape(cistring.num_strings(norb, neleca),
                          cistring.num_strings(norb, nelecb))
    if neleca <= 0:
        return numpy.zeros((0, ci0.shape[1]))
    des_index = cistring.gen_des_str_index(range(norb), neleca)
    na_ci1 = cistring.num_strings(norb, neleca - 1)
    ci1 = numpy.zeros((na_ci1, ci0.shape[1]))

    entry_has_ap = (des_index[:, :, 1] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap, 2]
    sign = des_index[entry_has_ap, 3]
    #print(addr_ci0)
    #print(addr_ci1)
    ci1[addr_ci1] = sign.reshape(-1, 1) * ci0[addr_ci0]
    return ci1
コード例 #9
0
ファイル: addons.py プロジェクト: raybrad/pyscf
def des_a(ci0, norb, nelec, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing an alpha electron from
    the N-electron wavefunction.

    ... math::

        |N-1\rangle = \hat{a}_p |N\rangle

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        nelec : int or 2-item list
            Number of electrons, or 2-item list for (alpha, beta) electrons
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings.  Note it
        has different number of rows to the input CI coefficients
    '''
    if isinstance(nelec, (int, numpy.integer)):
        neleca = nelecb = nelec // 2
    else:
        neleca, nelecb = nelec

    des_index = cistring.gen_des_str_index(range(norb), neleca)
    na_ci1 = cistring.num_strings(norb, neleca-1)
    ci1 = numpy.zeros((na_ci1, ci0.shape[1]))

    entry_has_ap = (des_index[:,:,0] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    #print(addr_ci0)
    #print(addr_ci1)
    ci1[addr_ci1] = sign.reshape(-1,1) * ci0[addr_ci0]
    return ci1
コード例 #10
0
def _make_rdm2_abba(fcivec, norb, nelec):
    fcivec = numpy.asarray(fcivec, order='C')
    neleca, nelecb = _unpack_nelec(nelec)
    if nelecb == norb or neleca == 0:  # no intermediate determinants
        return numpy.zeros((norb, norb, norb, norb))
    acre_index = cistring.gen_cre_str_index(range(norb), neleca - 1)
    bdes_index = cistring.gen_des_str_index(range(norb), nelecb + 1)
    instra = cistring.num_strings(norb, neleca - 1)
    nb = cistring.num_strings(norb, nelecb)
    dm1 = numpy.empty((norb, norb))
    dm2 = numpy.empty((norb, norb, norb, norb))
    librdm.FCIspindm12_drv(librdm.FCIdm2_abba_kern,
                           dm1.ctypes.data_as(ctypes.c_void_p),
                           dm2.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           ctypes.c_int(norb), ctypes.c_int(instra),
                           ctypes.c_int(nb), ctypes.c_int(neleca),
                           ctypes.c_int(nelecb),
                           acre_index.ctypes.data_as(ctypes.c_void_p),
                           bdes_index.ctypes.data_as(ctypes.c_void_p))
    return dm2
コード例 #11
0
ファイル: spin_op.py プロジェクト: eronca/pyscf
def _make_rdm2_abba(fcivec, norb, nelec):
    fcivec = numpy.asarray(fcivec, order='C')
    neleca, nelecb = _unpack_nelec(nelec)
    if nelecb == norb or neleca == 0: # no intermediate determinants
        return numpy.zeros((norb,norb,norb,norb))
    acre_index = cistring.gen_cre_str_index(range(norb), neleca-1)
    bdes_index = cistring.gen_des_str_index(range(norb), nelecb+1)
    instra = cistring.num_strings(norb, neleca-1)
    nb = cistring.num_strings(norb, nelecb)
    dm1 = numpy.empty((norb,norb))
    dm2 = numpy.empty((norb,norb,norb,norb))
    librdm.FCIspindm12_drv(librdm.FCIdm2_abba_kern,
                           dm1.ctypes.data_as(ctypes.c_void_p),
                           dm2.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           ctypes.c_int(norb),
                           ctypes.c_int(instra), ctypes.c_int(nb),
                           ctypes.c_int(neleca), ctypes.c_int(nelecb),
                           acre_index.ctypes.data_as(ctypes.c_void_p),
                           bdes_index.ctypes.data_as(ctypes.c_void_p))
    return dm2
コード例 #12
0
def _make_rdm2_baab(fcivec, norb, nelec):
    fcivec = numpy.asarray(fcivec, order='C')
    neleca, nelecb = _unpack(nelec)
    if neleca == norb or nelecb == 0: # no intermediate determinants
        return numpy.zeros((norb,norb,norb,norb))
    ades_index = cistring.gen_des_str_index(range(norb), neleca+1)
    bcre_index = cistring.gen_cre_str_index(range(norb), nelecb-1)
    instra = cistring.num_strings(norb, neleca+1)
    nb = cistring.num_strings(norb, nelecb)
    dm1 = numpy.empty((norb,norb))
    dm2 = numpy.empty((norb,norb,norb,norb))
    fn = _ctypes.dlsym(librdm._handle, 'FCIdm2_baab_kern')
    librdm.FCIspindm12_drv(ctypes.c_void_p(fn),
                           dm1.ctypes.data_as(ctypes.c_void_p),
                           dm2.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           fcivec.ctypes.data_as(ctypes.c_void_p),
                           ctypes.c_int(norb),
                           ctypes.c_int(instra), ctypes.c_int(nb),
                           ctypes.c_int(neleca), ctypes.c_int(nelecb),
                           ades_index.ctypes.data_as(ctypes.c_void_p),
                           bcre_index.ctypes.data_as(ctypes.c_void_p))
    return dm2
コード例 #13
0
def des_b(ci0, norb, neleca_nelecb, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing a beta electron from
    N-electron wavefunction.

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        (neleca,nelecb) : (int,int)
            Number of (alpha, beta) electrons of the input CI function
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings. Note it
        has different number of columns to the input CI coefficients.
    '''
    neleca, nelecb = neleca_nelecb
    if ci0.ndim == 1:
        ci0 = ci0.reshape(cistring.num_strings(norb, neleca),
                          cistring.num_strings(norb, nelecb))
    if nelecb <= 0:
        return numpy.zeros((ci0.shape[0], 0))
    des_index = cistring.gen_des_str_index(range(norb), nelecb)
    nb_ci1 = cistring.num_strings(norb, nelecb-1)
    ci1 = numpy.zeros((ci0.shape[0], nb_ci1))

    entry_has_ap = (des_index[:,:,1] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap,2]
    sign = des_index[entry_has_ap,3]
    # This sign prefactor accounts for interchange of operators with alpha and beta spins
    if neleca % 2 == 1:
        sign *= -1
    ci1[:,addr_ci1] = ci0[:,addr_ci0] * sign
    return ci1
コード例 #14
0
ファイル: addons.py プロジェクト: pulkin/pyscf
def des_b(ci0, norb, neleca_nelecb, ap_id):
    r'''Construct (N-1)-electron wavefunction by removing a beta electron from
    N-electron wavefunction.

    Args:
        ci0 : 2D array
            CI coefficients, row for alpha strings and column for beta strings.
        norb : int
            Number of orbitals.
        (neleca,nelecb) : (int,int)
            Number of (alpha, beta) electrons of the input CI function
        ap_id : int
            Orbital index (0-based), for the annihilation operator

    Returns:
        2D array, row for alpha strings and column for beta strings. Note it
        has different number of columns to the input CI coefficients.
    '''
    neleca, nelecb = neleca_nelecb
    if ci0.ndim == 1:
        ci0 = ci0.reshape(cistring.num_strings(norb, neleca),
                          cistring.num_strings(norb, nelecb))
    if nelecb <= 0:
        return numpy.zeros((ci0.shape[0], 0))
    des_index = cistring.gen_des_str_index(range(norb), nelecb)
    nb_ci1 = cistring.num_strings(norb, nelecb - 1)
    ci1 = numpy.zeros((ci0.shape[0], nb_ci1))

    entry_has_ap = (des_index[:, :, 1] == ap_id)
    addr_ci0 = numpy.any(entry_has_ap, axis=1)
    addr_ci1 = des_index[entry_has_ap, 2]
    sign = des_index[entry_has_ap, 3]
    # This sign prefactor accounts for interchange of operators with alpha and beta spins
    if neleca % 2 == 1:
        sign *= -1
    ci1[:, addr_ci1] = ci0[:, addr_ci0] * sign
    return ci1