def testEP11op(self): op = ep11("Hp", ["occ", "vir"], ["nm"], name2="Hq") bra = braP1E1("nm", "occ", "vir") ex = apply_wick(bra * op) ex.resolve() out = AExpression(Ex=ex) x = Idx(0, "nm", fermion=False) a = Idx(0, "vir") i = Idx(0, "occ") tr1 = ATerm(scalar=1, sums=[], tensors=[Tensor([x, a, i], ""), Tensor([x, a, i], "Hq")]) ref = AExpression(terms=[tr1]) self.assertTrue(ref.pmatch(out)) ket = ketP1E1("nm", "occ", "vir") ex = apply_wick(op * ket) ex.resolve() out = AExpression(Ex=ex) tr1 = ATerm(scalar=1, sums=[], tensors=[Tensor([x, i, a], "Hp"), Tensor([x, i, a], "")]) ref = AExpression(terms=[tr1]) self.assertTrue(ref.pmatch(out))
def testP1op(self): op = one_p("Hp", name2="Hq") bra = braP1("nm") ex = apply_wick(bra * op) ex.resolve() out = AExpression(Ex=ex) x = Idx(0, "nm", fermion=False) tr1 = ATerm(scalar=1, sums=[], tensors=[Tensor([x], "Hq"), Tensor([x], "")]) ref = AExpression(terms=[tr1]) self.assertTrue(ref.pmatch(out)) ket = ketP1("nm") ex = apply_wick(op * ket) ex.resolve() out = AExpression(Ex=ex) tr1 = ATerm(scalar=1, sums=[], tensors=[Tensor([x], "Hp"), Tensor([x], "")]) ref = AExpression(terms=[tr1]) self.assertTrue(ref.pmatch(out))
def testEea2(self): bra = braEea2("occ", "vir", "vir") ket = ketEea2("occ", "vir", "vir") out = apply_wick(bra * ket) aout = AExpression(Ex=out) i = Idx(0, "occ") a = Idx(0, "vir") b = Idx(1, "vir") k = Idx(2, "occ") c = Idx(2, "vir") d = Idx(3, "vir") tensors = [Tensor([i, a, b], ""), Tensor([c, d, k], "")] tr1 = Term(1, [], tensors, [], [Delta(i, k), Delta(a, c), Delta(b, d)]) tr2 = Term( -1, [], tensors, [], [Delta(i, k), Delta(a, d), Delta(b, c)]) ref = Expression([tr1, tr2]) aref = AExpression(Ex=ref) self.assertTrue(aout.pmatch(aref)) op = Eea2("A", ["occ"], ["vir"]) out = apply_wick(bra * op) out.resolve() aout = AExpression(Ex=out) ext = Tensor([a, b, i], "") ten = Tensor([a, b, i], "A", sym=get_sym_ea2()) at1 = ATerm(scalar=1, sums=[], tensors=[ext, ten]) self.assertTrue(len(aout.terms) == 1) self.assertTrue(at1.pmatch(aout.terms[0]))
def test_term_map3(self): s = 1 i = Idx(0, "occ") a = Idx(0, "vir") sums = [Sigma(i), Sigma(a)] tensors = [Tensor([i, a], 'f'), Tensor([a, i], 't')] t1 = ATerm(s, sums, tensors) sums = [Sigma(i)] t2 = ATerm(s, sums, tensors) self.assertFalse(t1.match(t2))
def test_term_map2(self): s = 1 i = Idx(0, "occ") j = Idx(1, "occ") sums = [Sigma(i), Sigma(j)] tensors = [Tensor([i, j], 'f')] t1 = ATerm(s, sums, tensors) sums = [Sigma(i)] tensors = [Tensor([j, i], 'f')] t2 = ATerm(s, sums, tensors) self.assertFalse(t1.match(t2))
def test_tensor_sort(self): i = Idx(0, "occ") j = Idx(1, "occ") a = Idx(0, "vir") tensors = [ Tensor([j, i], 'f'), Tensor([a, i], ''), Tensor([a, j], "t") ] st = [tensors[1], tensors[0], tensors[2]] sigmas = [Sigma(j)] tt = ATerm(scalar=1.0, sums=sigmas, tensors=tensors) tt.sort_tensors() for ref, out in zip(st, tt.tensors): self.assertTrue(ref == out)
def testP1E1(self): bra = braP1E1("nm", "occ", "vir") ket = ketP1E1("nm", "occ", "vir") out = apply_wick(bra * ket) aout = AExpression(Ex=out) x = Idx(0, "nm", fermion=False) y = Idx(1, "nm", fermion=False) i = Idx(0, "occ") a = Idx(0, "vir") j = Idx(1, "occ") b = Idx(1, "vir") tensors = [Tensor([x, i, a], ""), Tensor([y, b, j], "")] tr1 = Term(1, [], tensors, [], [Delta(x, y), Delta(i, j), Delta(a, b)]) ref = Expression([tr1]) aref = AExpression(Ex=ref) self.assertTrue(aout.pmatch(aref)) op = EPS1("A", ["nm"], ["occ"], ["vir"]) out = apply_wick(bra * op) out.resolve() aout = AExpression(Ex=out) ext = Tensor([x, a, i], "") t1 = Tensor([x, a, i], "A") at1 = ATerm(scalar=1, sums=[], tensors=[ext, t1]) self.assertTrue(at1 == aout.terms[0])
def testP2(self): bra = braP2("nm") ket = ketP2("nm") out = apply_wick(bra * ket) aout = AExpression(Ex=out) x = Idx(0, "nm", fermion=False) y = Idx(1, "nm", fermion=False) u = Idx(2, "nm", fermion=False) v = Idx(3, "nm", fermion=False) tensors = [Tensor([x, y], ""), Tensor([u, v], "")] tr1 = Term(1, [], tensors, [], [Delta(x, u), Delta(y, v)]) tr2 = Term(1, [], tensors, [], [Delta(x, v), Delta(y, u)]) ref = Expression([tr1, tr2]) aref = AExpression(Ex=ref) self.assertTrue(aout.pmatch(aref)) op = P2("A", ["nm"]) out = apply_wick(bra * op) out.resolve() aout = AExpression(Ex=out) sym = TensorSym([(0, 1), (1, 0)], [1, 1]) ext = Tensor([x, y], "") t1 = Tensor([x, y], "A", sym=sym) at1 = ATerm(scalar=1, sums=[], tensors=[ext, t1]) self.assertTrue(at1 == aout.terms[0])
def testE1(self): bra = braE1("occ", "vir") ket = ketE1("occ", "vir") out = apply_wick(bra * ket) aout = AExpression(Ex=out) i = Idx(0, "occ") a = Idx(0, "vir") j = Idx(1, "occ") b = Idx(1, "vir") tr1 = Term(1, [], [Tensor([a, i], ""), Tensor([j, b], "")], [], [Delta(i, j), Delta(a, b)]) ref = Expression([tr1]) aref = AExpression(Ex=ref) self.assertTrue(aout.pmatch(aref)) op = E1("A", ["occ"], ["vir"]) out = apply_wick(bra * op) out.resolve() aout = AExpression(Ex=out) ext = Tensor([a, i], "") ten = Tensor([a, i], "A") at1 = ATerm(scalar=1, sums=[], tensors=[ext, ten]) self.assertTrue(len(aout.terms) == 1) self.assertTrue(at1 == aout.terms[0])
def test_string(self): a = Idx(0, "vir") b = Idx(1, "vir") sums = [Sigma(a), Sigma(b)] tensors = [Tensor([a, b], 'f')] t1 = ATerm(sums=sums, tensors=tensors) out = str(t1) ref = "1\\sum_{0}\\sum_{1}f_{01}" self.assertTrue(out == ref) out = t1._print_str() ref = "1.0\\sum_{ab}f_{ab}" self.assertTrue(out == ref) out = t1._einsum_str() ref = "1.0*einsum('ab->', f)" self.assertTrue(out == ref) a = Idx(0, "vir") b = Idx(1, "vir") sums = [Sigma(b)] tensors = [Tensor([a], ''), Tensor([a, b], 'f')] t2 = ATerm(sums=sums, tensors=tensors) out = t2._einsum_str() ref = "1.0*einsum('ab->a', f)" self.assertTrue(out == ref)
def test_eq(self): s = 1.0 i = Idx(0, "occ") j = Idx(1, "occ") sums = [Sigma(i), Sigma(j)] tensors = [Tensor([i, j], 'f')] t1 = ATerm(s, sums, tensors) t0 = t1.copy() sums = [Sigma(i), Sigma(j)] tensors = [Tensor([j, i], 'f'), Tensor([i, j], 'g')] t2 = ATerm(s, sums, tensors) sums = [Sigma(i)] tensors = [Tensor([i, j], 'f')] t3 = ATerm(s, sums, tensors) sums = [Sigma(i)] tensors = [Tensor([i, j], 'g')] t4 = ATerm(s, sums, tensors) self.assertTrue(t1 < t2) self.assertTrue(t1 != t2) self.assertFalse(t0 < t1) self.assertTrue(t0 <= t1) self.assertTrue(t0 >= t1) self.assertTrue(t1 > t3) self.assertTrue(t3 < t4)
def testP2E1(self): bra = braP2E1("nm", "nm", "occ", "vir") op = EPS2("A", ["nm"], ["occ"], ["vir"]) out = apply_wick(bra * op) out.resolve() x = Idx(0, "nm", fermion=False) y = Idx(1, "nm", fermion=False) a = Idx(0, "vir") i = Idx(0, "occ") sym = TensorSym([(0, 1, 2, 3), (1, 0, 2, 3)], [1, 1]) aout = AExpression(Ex=out) ext = Tensor([x, y, a, i], "") t1 = Tensor([x, y, a, i], "A", sym=sym) at1 = ATerm(scalar=1, sums=[], tensors=[ext, t1]) self.assertTrue(at1 == aout.terms[0])
def test_null(self): i = Idx(0, "occ") j = Idx(1, "occ") a = Idx(0, "vir") b = Idx(1, "vir") L1 = Tensor([i, j, a, b], "L") J1 = Tensor([j, b], "J") S1j = Sigma(j) S1b = Sigma(b) T1 = ATerm(scalar=1, sums=[S1j, S1b], tensors=[L1, J1]) T2 = ATerm(scalar=1, sums=[S1j, S1b], tensors=[L1, J1]) self.assertTrue(T1.match(T2)) self.assertTrue(T2.match(T1))
def testP2op(self): op = two_p("H") bra = braP1("nm") ket = ketP1("nm") ex = apply_wick(bra * op * ket) ex.resolve() out = AExpression(Ex=ex) x = Idx(0, "nm", fermion=False) y = Idx(1, "nm", fermion=False) sym = TensorSym([(0, 1), (1, 0)], [1, 1]) tensors = [ Tensor([x], ""), Tensor([x, y], "H", sym=sym), Tensor([y], "") ] tr1 = ATerm(scalar=1, sums=[], tensors=tensors) ref = AExpression(terms=[tr1]) self.assertTrue(ref.pmatch(out))
def test_merge_external(self): bra = braE1("occ", "vir") ket = ketE1("occ", "vir") out = apply_wick(bra * ket) aout = AExpression(Ex=out) aterm = aout.terms[0] aterm.merge_external() i = Idx(0, "occ") a = Idx(0, "vir") j = Idx(1, "occ") b = Idx(1, "vir") tensors = [ Tensor([a, i, j, b], ""), tensor_from_delta(Delta(i, j)), tensor_from_delta(Delta(a, b)) ] aref = ATerm(scalar=1, sums=[], tensors=tensors) self.assertTrue(aterm == aref)
def testP1(self): bra = braP1("nm") ket = ketP1("nm") out = apply_wick(bra * ket) aout = AExpression(Ex=out) x = Idx(0, "nm", fermion=False) y = Idx(1, "nm", fermion=False) tensors = [Tensor([x], ""), Tensor([y], "")] tr1 = Term(1, [], tensors, [], [Delta(x, y)]) ref = Expression([tr1]) aref = AExpression(Ex=ref) self.assertTrue(aout.pmatch(aref)) op = P1("A", ["nm"]) out = apply_wick(bra * op) out.resolve() aout = AExpression(Ex=out) ext = Tensor([x], "") ten = Tensor([x], "A") at1 = ATerm(scalar=1, sums=[], tensors=[ext, ten]) self.assertTrue(at1 == aout.terms[0])
def test_mul(self): s = 1 i = Idx(0, "occ") j = Idx(1, "occ") sums = [Sigma(i), Sigma(j)] tensors = [Tensor([i, j], 'f')] t1 = ATerm(s, sums, tensors) t2 = t1.copy() out = t1 * t2 k = Idx(2, "occ") l = Idx(3, "occ") sumsx = [Sigma(i), Sigma(j), Sigma(k), Sigma(l)] tensorsx = [Tensor([i, j], 'f'), Tensor([k, l], 'f')] tx = ATerm(s, sumsx, tensorsx) self.assertTrue(tx == out) tx.scalar = 2 out = 2 * out self.assertTrue(tx == out) self.assertTrue(4 * tx == out * 4)