Example #1
0
def from_fci(ci0, nmoa_nmob, nocca_noccb):
    from pyscf import fci
    from pyscf.ci.cisd_slow import t2strs
    norba, norbb = nmoa_nmob
    nocca, noccb = nocca_noccb
    nvira = norba - nocca
    nvirb = norbb - noccb
    t1addra, t1signa = cisd.t1strs(norba, nocca)
    t1addrb, t1signb = cisd.t1strs(norbb, noccb)

    na = fci.cistring.num_strings(norba, nocca)
    nb = fci.cistring.num_strings(norbb, noccb)
    ci0 = ci0.reshape(na, nb)
    c0 = ci0[0, 0]
    c1a = ((ci0[t1addra, 0] * t1signa).reshape(nvira, nocca).T)[::-1]
    c1b = ((ci0[0, t1addrb] * t1signb).reshape(nvirb, noccb).T)[::-1]

    c2ab = numpy.einsum('i,j,ij->ij', t1signa, t1signb, ci0[t1addra][:,
                                                                     t1addrb])
    c2ab = c2ab.reshape(nvira, nocca, nvirb, noccb).transpose(1, 3, 0, 2)
    c2ab = c2ab[::-1, ::-1]
    t2addra, t2signa = t2strs(norba, nocca)
    c2aa = (ci0[t2addra, 0] * t2signa).reshape(nvira * (nvira - 1) // 2, -1).T
    c2aa = _unpack_4fold(c2aa[::-1], nocca, nvira)
    t2addrb, t2signb = t2strs(norbb, noccb)
    c2bb = (ci0[0, t2addrb] * t2signb).reshape(nvirb * (nvirb - 1) // 2, -1).T
    c2bb = _unpack_4fold(c2bb[::-1], noccb, nvirb)

    return amplitudes_to_cisdvec(c0, (c1a, c1b), (c2aa, c2ab, c2bb))
Example #2
0
def from_fcivec(ci0, norb, nelec, frozen=0):
    from pyscf.ci.gcisd import t2strs
    if frozen is not 0:
        raise NotImplementedError
    if isinstance(nelec, (int, numpy.number)):
        nelecb = nelec // 2
        neleca = nelec - nelecb
    else:
        neleca, nelecb = nelec

    norba = norbb = norb
    nocc = nocca, noccb = neleca, nelecb
    nvira = norba - nocca
    nvirb = norbb - noccb
    t1addra, t1signa = cisd.t1strs(norba, nocca)
    t1addrb, t1signb = cisd.t1strs(norbb, noccb)

    na = cistring.num_strings(norba, nocca)
    nb = cistring.num_strings(norbb, noccb)
    ci0 = ci0.reshape(na, nb)
    c0 = ci0[0, 0]
    c1a = ((ci0[t1addra, 0] * t1signa).reshape(nvira, nocca).T)[::-1]
    c1b = ((ci0[0, t1addrb] * t1signb).reshape(nvirb, noccb).T)[::-1]

    c2ab = numpy.einsum('i,j,ij->ij', t1signa, t1signb, ci0[t1addra][:,
                                                                     t1addrb])
    c2ab = c2ab.reshape(nvira, nocca, nvirb, noccb).transpose(1, 3, 0, 2)
    c2ab = c2ab[::-1, ::-1]
    t2addra, t2signa = t2strs(norba, nocca)
    c2aa = (ci0[t2addra, 0] * t2signa).reshape(nvira * (nvira - 1) // 2, -1).T
    c2aa = _unpack_4fold(c2aa[::-1], nocca, nvira)
    t2addrb, t2signb = t2strs(norbb, noccb)
    c2bb = (ci0[0, t2addrb] * t2signb).reshape(nvirb * (nvirb - 1) // 2, -1).T
    c2bb = _unpack_4fold(c2bb[::-1], noccb, nvirb)

    return amplitudes_to_cisdvec(c0, (c1a, c1b), (c2aa, c2ab, c2bb))
Example #3
0
def to_fci(cisdvec, nmoa_nmob, nocca_noccb):
    from pyscf import fci
    from pyscf.ci.cisd_slow import t2strs
    norba, norbb = nmoa_nmob
    nocca, noccb = nocca_noccb
    nvira = norba - nocca
    nvirb = norbb - noccb
    c0, c1, c2 = cisdvec_to_amplitudes(cisdvec, nmoa_nmob, nocca_noccb)
    c1a, c1b = c1
    c2aa, c2ab, c2bb = c2
    t1addra, t1signa = cisd.t1strs(norba, nocca)
    t1addrb, t1signb = cisd.t1strs(norbb, noccb)

    na = fci.cistring.num_strings(norba, nocca)
    nb = fci.cistring.num_strings(norbb, noccb)
    fcivec = numpy.zeros((na, nb))
    fcivec[0, 0] = c0
    fcivec[t1addra, 0] = c1a[::-1].T.ravel() * t1signa
    fcivec[0, t1addrb] = c1b[::-1].T.ravel() * t1signb
    c2ab = c2ab[::-1, ::-1].transpose(2, 0, 3, 1).reshape(nocca * nvira, -1)
    c2ab = numpy.einsum('i,j,ij->ij', t1signa, t1signb, c2ab)
    lib.takebak_2d(fcivec, c2ab, t1addra, t1addrb)

    if nocca > 1 and nvira > 1:
        ooidx = numpy.tril_indices(nocca, -1)
        vvidx = numpy.tril_indices(nvira, -1)
        c2aa = c2aa[ooidx][:, vvidx[0], vvidx[1]]
        t2addra, t2signa = t2strs(norba, nocca)
        fcivec[t2addra, 0] = c2aa[::-1].T.ravel() * t2signa
    if noccb > 1 and nvirb > 1:
        ooidx = numpy.tril_indices(noccb, -1)
        vvidx = numpy.tril_indices(nvirb, -1)
        c2bb = c2bb[ooidx][:, vvidx[0], vvidx[1]]
        t2addrb, t2signb = t2strs(norbb, noccb)
        fcivec[0, t2addrb] = c2bb[::-1].T.ravel() * t2signb
    return fcivec
Example #4
0
def to_fcivec(cisdvec, norb, nelec, frozen=0):
    from pyscf.ci.gcisd import t2strs
    if isinstance(nelec, (int, numpy.number)):
        nelecb = nelec // 2
        neleca = nelec - nelecb
    else:
        neleca, nelecb = nelec

    frozena_mask = numpy.zeros(norb, dtype=bool)
    frozenb_mask = numpy.zeros(norb, dtype=bool)
    if isinstance(frozen, (int, numpy.integer)):
        nfroza = nfrozb = frozen
        frozena_mask[:frozen] = True
        frozenb_mask[:frozen] = True
    else:
        nfroza = len(frozen[0])
        nfrozb = len(frozen[1])
        frozena_mask[frozen[0]] = True
        frozenb_mask[frozen[1]] = True


#    if nfroza != nfrozb:
#        raise NotImplementedError
    nocca = numpy.count_nonzero(~frozena_mask[:neleca])
    noccb = numpy.count_nonzero(~frozenb_mask[:nelecb])
    nmo = nmoa, nmob = norb - nfroza, norb - nfrozb
    nocc = nocca, noccb
    nvira, nvirb = nmoa - nocca, nmob - noccb

    c0, c1, c2 = cisdvec_to_amplitudes(cisdvec, nmo, nocc)
    c1a, c1b = c1
    c2aa, c2ab, c2bb = c2
    t1addra, t1signa = cisd.t1strs(nmoa, nocca)
    t1addrb, t1signb = cisd.t1strs(nmob, noccb)

    na = cistring.num_strings(nmoa, nocca)
    nb = cistring.num_strings(nmob, noccb)
    fcivec = numpy.zeros((na, nb))
    fcivec[0, 0] = c0
    fcivec[t1addra, 0] = c1a[::-1].T.ravel() * t1signa
    fcivec[0, t1addrb] = c1b[::-1].T.ravel() * t1signb
    c2ab = c2ab[::-1, ::-1].transpose(2, 0, 3, 1).reshape(nocca * nvira, -1)
    c2ab = numpy.einsum('i,j,ij->ij', t1signa, t1signb, c2ab)
    lib.takebak_2d(fcivec, c2ab, t1addra, t1addrb)

    if nocca > 1 and nvira > 1:
        ooidx = numpy.tril_indices(nocca, -1)
        vvidx = numpy.tril_indices(nvira, -1)
        c2aa = c2aa[ooidx][:, vvidx[0], vvidx[1]]
        t2addra, t2signa = t2strs(nmoa, nocca)
        fcivec[t2addra, 0] = c2aa[::-1].T.ravel() * t2signa
    if noccb > 1 and nvirb > 1:
        ooidx = numpy.tril_indices(noccb, -1)
        vvidx = numpy.tril_indices(nvirb, -1)
        c2bb = c2bb[ooidx][:, vvidx[0], vvidx[1]]
        t2addrb, t2signb = t2strs(nmob, noccb)
        fcivec[0, t2addrb] = c2bb[::-1].T.ravel() * t2signb

    if nfroza == nfrozb == 0:
        return fcivec

    assert (norb < 63)

    strsa = cistring.gen_strings4orblist(range(norb), neleca)
    strsb = cistring.gen_strings4orblist(range(norb), nelecb)
    na = len(strsa)
    nb = len(strsb)
    count_a = numpy.zeros(na, dtype=int)
    count_b = numpy.zeros(nb, dtype=int)
    parity_a = numpy.zeros(na, dtype=bool)
    parity_b = numpy.zeros(nb, dtype=bool)
    core_a_mask = numpy.ones(na, dtype=bool)
    core_b_mask = numpy.ones(nb, dtype=bool)

    for i in range(norb):
        if frozena_mask[i]:
            if i < neleca:
                core_a_mask &= (strsa & (1 << i)) != 0
                parity_a ^= (count_a & 1) == 1
            else:
                core_a_mask &= (strsa & (1 << i)) == 0
        else:
            count_a += (strsa & (1 << i)) != 0

        if frozenb_mask[i]:
            if i < nelecb:
                core_b_mask &= (strsb & (1 << i)) != 0
                parity_b ^= (count_b & 1) == 1
            else:
                core_b_mask &= (strsb & (1 << i)) == 0
        else:
            count_b += (strsb & (1 << i)) != 0

    sub_strsa = strsa[core_a_mask & (count_a == nocca)]
    sub_strsb = strsb[core_b_mask & (count_b == noccb)]
    addrsa = cistring.strs2addr(norb, neleca, sub_strsa)
    addrsb = cistring.strs2addr(norb, nelecb, sub_strsb)
    fcivec1 = numpy.zeros((na, nb))
    fcivec1[addrsa[:, None], addrsb] = fcivec
    fcivec1[parity_a, :] *= -1
    fcivec1[:, parity_b] *= -1
    return fcivec1