|
- from numpy import *
- import clifford as lc
-
- r = exp(-1j*pi/4)
- ir2 = 1/sqrt(2)
-
- anders = [
- matrix([[1, 0], [0, 1]], dtype=complex),
- matrix([[0, 1], [1, 0]], dtype=complex),
- matrix([[0, -1j], [1j, 0]], dtype=complex),
- matrix([[1, 0], [0, -1]], dtype=complex),
- \
- r * matrix([[0, 1], [1j, 0]], dtype=complex),
- matrix([[1, 0], [0, 1j]], dtype=complex),
- matrix([[1, 0], [0, -1j]], dtype=complex),
- r * matrix([[0, 1], [-1j, 0]], dtype=complex),
- \
- ir2 * matrix([[1,-1],[-1,-1]], dtype=complex),
- ir2 * matrix([[1,-1],[1,1]], dtype=complex),
- ir2 * matrix([[1,1],[1,-1]], dtype=complex),
- ir2 * matrix([[1,1],[-1,1]], dtype=complex),
- \
- ir2 * matrix([[1,-1j],[1j,-1]], dtype=complex),
- ir2 * matrix([[1,1j],[-1j,-1]], dtype=complex),
- ir2 * matrix([[1,-1j],[-1j,1]], dtype=complex),
- ir2 * matrix([[1,1j],[1j,1]], dtype=complex),
- \
- ir2 * matrix([[1,1j],[1,-1j]], dtype=complex),
- ir2 * matrix([[1,-1j],[-1,-1j]], dtype=complex),
- ir2 * matrix([[1,1j],[-1,1j]], dtype=complex),
- ir2 * matrix([[1,-1j],[1,1j]], dtype=complex),
- \
- ir2 * matrix([[1,1],[-1j,1j]], dtype=complex),
- ir2 * matrix([[1,1],[1j,-1j]], dtype=complex),
- ir2 * matrix([[1,-1],[1j,1j]], dtype=complex),
- ir2 * matrix([[1,-1],[-1j,-1j]], dtype=complex),
- ]
-
-
- def test_everything():
- for i, (a, b) in enumerate(zip(lc.vop_actions, anders)):
- a2 = lc.format_action(lc.get_action(b))
- if i %4==0:
- print
- print "({} {})".format(a, a2),
- #if not any([allclose(a, x) for x in anders]):
- #print lc.vop_gates[i], "is not in {anders}"
|
