コード例 #1
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  def base_test(self,PT,lx,ly,lz,types=None,N=3,box_resize=None):
    x,y,z,t = self.make_rubix(N=N,types=types)
    U0 = self.calc_all_potential(x,y,z,t,lx,ly,lz,PT)
    

    system = System()
    system.add_beads(x=x,y=y,z=z,types=t)
    system.box = Box(cell_grid=(3,3,3))
    system.box.lx = lx
    system.box.ly = ly
    system.box.lz = lz

    xarray = np.array(x,dtype=np.float)
    yarray = np.array(y,dtype=np.float)
    zarray = np.array(z,dtype=np.float)
    system.box.neighbor_list.build_nlist(xarray,yarray,zarray,True)

    system.NonBondedTable = PT
    PE = NonBondedPotentialEnergy(system)
    U1 = sum(PE.compute())
    U2 = sum(PE.compute(ignore_neighbor_list=True))
    if box_resize is None:
      return U0,U1,U2
    system.box.lx = box_resize[0]
    system.box.ly = box_resize[1]
    system.box.lz = box_resize[2]
    U3 = self.calc_all_potential(x,y,z,t,system.box.lx,system.box.ly,system.box.lz,PT)
    U4 = sum(PE.compute())
    U5 = sum(PE.compute(ignore_neighbor_list=True))
    return U0,U1,U2,U3,U4,U5
コード例 #2
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    def test_partial1(self):
        lx = 8
        ly = 11
        lz = 9
        N = 10
        dz = 1.1
        r0 = 1.0
        potential = 'Harmonic'
        partial_indices = [4, 3, 5]

        x = np.array([0.0] * N)
        y = np.array([0.0] * N)
        z = np.array([dz * i - lz / 2.0 for i in range(N)])
        t = [0] * N
        bonds = [[i, j] for i, j in zip(range(N - 1), range(1, N))]

        U0 = 0
        U0 += self.harmonic(dz, 1.0, r0) * (len(partial_indices) - 1
                                            )  #inner bonds
        U0 += self.harmonic(dz, 1.0, r0) * (2)  #outer bonds

        NBPT = PairTable(types=['P1'],
                         parms=['epsilon', 'rcut', 'sigma', 'potential'])
        NBPT.setUnsetValues('epsilon', 1.0)
        NBPT.setUnsetValues('sigma', 1.0)
        NBPT.setUnsetValues('rcut', 2.5)
        NBPT.setUnsetValues('potential', 'HardSphere')

        BPT = PairTable(types=['P1'], parms=['k', 'r0', 'potential'])
        BPT.setUnsetValues('k', 1.0)
        BPT.setUnsetValues('r0', r0)
        BPT.setUnsetValues('potential', potential)

        system = System()
        system.add_beads(x=x, y=y, z=z, types=t, bonds=bonds)
        system.box = Box(cell_grid=(3, 3, 3))
        system.box.lx = lx
        system.box.ly = ly
        system.box.lz = lz
        system.BondedTable = BPT
        system.NonBondedTable = NBPT

        (x, y, z), (imx, imy, imz) = system.box.wrap_positions(x=x, y=y, z=z)

        xarray = np.array(x, dtype=np.float)
        yarray = np.array(y, dtype=np.float)
        zarray = np.array(z, dtype=np.float)
        system.box.neighbor_list.build_nlist(xarray, yarray, zarray, True)

        PE = BondedPotentialEnergy(system)
        U1 = sum(PE.compute(partial_indices=partial_indices))

        self.assertAlmostEqual(U0, U1, delta=0.001)
コード例 #3
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  def test_pbc_homog_HS_sigma155_partial(self):
    lx = 10
    ly = 11
    lz = 10
    partial_indices = [3,4,5]
    eps = 1.0
    sig = 1.55
    rcut = 2.5


    PT = PairTable(types=['P1'],parms=['epsilon','rcut','sigma','potential'])
    PT.setUnsetValues('epsilon',eps)
    PT.setUnsetValues('sigma',sig)
    PT.setUnsetValues('rcut',rcut)
    PT.setUnsetValues('potential','HardSphere')

    N = 3
    x,y,z,t = self.make_rubix(N=N,types=None)

    
    U0 = 0
    dist = self.calc_dist(3,4,x,y,z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    dist = self.calc_dist(4,5,x,y,z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    dist = self.calc_dist(3,5,x,y,z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    for bead_i in partial_indices:
      for bead_j in range(len(x)):
        if bead_j not in partial_indices:
          dist = self.calc_dist(bead_i,bead_j,x,y,z,lx,ly,lz)
          U0+=self.hard_sphere(dist,eps,sig,rcut)
    

    system = System()
    system.add_beads(x=x,y=y,z=z,types=t)
    system.box = Box(cell_grid=(3,3,3))
    system.box.lx = lx
    system.box.ly = ly
    system.box.lz = lz

    xarray = np.array(x,dtype=np.float)
    yarray = np.array(y,dtype=np.float)
    zarray = np.array(z,dtype=np.float)
    system.box.neighbor_list.build_nlist(xarray,yarray,zarray,True)

    system.NonBondedTable = PT
    PE = NonBondedPotentialEnergy(system)
    U1 = sum(PE.compute(partial_indices=partial_indices))
    self.assertAlmostEqual(U0,U1,delta=0.001)
コード例 #4
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  def test_pbc_hex_HS(self):
    lx = 9
    ly = 9
    lz = 8
    nz = 4

    PT = PairTable(types=['P1','P2'],parms=['epsilon','rcut','sigma','potential'])
    PT.setUnsetValues('epsilon',1.0)
    PT.setUnsetValues('sigma',1.0)
    PT.setUnsetValues('rcut',2.5)
    PT.setUnsetValues('potential','HardSphere')


    HS = HexagonalSurface()
    molData, boxData = HS.build(lx,ly,nz,diameter=1.0,topType=0,bottomType=0,middleType=1)

    x = molData['x']
    y = molData['y']
    z = molData['z']
    t = molData['types']
    lx = boxData['lx']
    ly = boxData['ly']

    U0 = self.calc_all_potential(x,y,z,t,lx,ly,lz,PT)

    system = System()
    system.add_beads(x=x,y=y,z=z,types=t)
    system.box = Box(cell_grid=(3,3,3))
    system.box.lx = lx
    system.box.ly = ly
    system.box.lz = lz

    xarray = np.array(x,dtype=np.double)
    yarray = np.array(y,dtype=np.double)
    zarray = np.array(z,dtype=np.double)
    system.box.neighbor_list.build_nlist(xarray,yarray,zarray,True)

    system.NonBondedTable = PT
    PE = NonBondedPotentialEnergy(system)
    U1 = sum(PE.compute())
    U2 = sum(PE.compute(ignore_neighbor_list=True))
    self.assertAlmostEqual(U0,U2,delta=0.01)
    self.assertAlmostEqual(U0,U1,delta=0.01)
コード例 #5
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    def base_test(self, lx, ly, lz, N, dz, potential, r0):
        dx = 1.0
        dy = 0.5
        x = np.array([i * dx for i in range(N)])
        y = np.array([i * dy for i in range(N)])
        z = np.array([dz * i - lz / 2.0 for i in range(N)])
        t = [0] * N
        bonds = [[i, j] for i, j in zip(range(N - 1), range(1, N))]

        NBPT = PairTable(types=['P1'],
                         parms=['epsilon', 'rcut', 'sigma', 'potential'])
        NBPT.setUnsetValues('epsilon', 1.0)
        NBPT.setUnsetValues('sigma', 1.0)
        NBPT.setUnsetValues('rcut', 2.5)
        NBPT.setUnsetValues('potential', 'HardSphere')

        BPT = PairTable(types=['P1'], parms=['k', 'r0', 'potential'])
        BPT.setUnsetValues('k', 1.0)
        BPT.setUnsetValues('r0', r0)
        BPT.setUnsetValues('potential', potential)

        system = System()
        system.add_beads(x=x, y=y, z=z, types=t, bonds=bonds)
        system.box = Box(cell_grid=(3, 3, 3))
        system.box.lx = lx
        system.box.ly = ly
        system.box.lz = lz
        system.BondedTable = BPT
        system.NonBondedTable = NBPT

        (x, y, z), (imx, imy, imz) = system.box.wrap_positions(x=x, y=y, z=z)
        U0 = self.calc_all_potential(bonds, x, y, z, t, lx, ly, lz, BPT)

        xarray = np.array(x, dtype=np.float)
        yarray = np.array(y, dtype=np.float)
        zarray = np.array(z, dtype=np.float)
        system.box.neighbor_list.build_nlist(xarray, yarray, zarray, True)

        PE = BondedPotentialEnergy(system)
        U1 = sum(PE.compute())

        return U0, U1
コード例 #6
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  def test_pbc_homog_HS_sigma155_trial_move(self):
    lx = 10
    ly = 11
    lz = 10
    partial_indices = [3,4,5]
    eps = 1.0
    sig = 1.55
    rcut = 2.5


    PT = PairTable(types=['P1'],parms=['epsilon','rcut','sigma','potential'])
    PT.setUnsetValues('epsilon',eps)
    PT.setUnsetValues('sigma',sig)
    PT.setUnsetValues('rcut',rcut)
    PT.setUnsetValues('potential','HardSphere')

    N = 3
    ref_x,ref_y,ref_z,ref_t = self.make_rubix(N=N,types=None)

    x1 = list(ref_x)
    y1 = list(ref_y)
    z1 = list(ref_z)
    t1 = list(ref_t)

    x2 = []; y2 = []; z2 = []; t2 = [];
    trial_indices = [3,3,8] #equivalent to 3,4,10
    for idex in trial_indices:
      x2.append(x1.pop(idex))
      y2.append(y1.pop(idex))
      z2.append(z1.pop(idex))
      t2.append(t1.pop(idex))

    U0 = 0
    dist = self.calc_dist(3,4,ref_x,ref_y,ref_z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    dist = self.calc_dist(4,10,ref_x,ref_y,ref_z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    dist = self.calc_dist(3,10,ref_x,ref_y,ref_z,lx,ly,lz)
    U0+=self.hard_sphere(dist,eps,sig,rcut)
    for bead_i in range(len(x2)):
      for bead_j in range(len(x1)):
        dx = abs(x2[bead_i] - x1[bead_j])
        dy = abs(y2[bead_i] - y1[bead_j])
        dz = abs(z2[bead_i] - z1[bead_j])
        if dx>lx/2.0:
          dx-=lx
        if dy>ly/2.0:
          dy-=ly
        if dz>lz/2.0:
          dz-=lz
        dist = sqrt(dx*dx+dy*dy+dz*dz)
        U0+=self.hard_sphere(dist,eps,sig,rcut)
    
    

    system = System()
    system.add_beads(x=x1,y=y1,z=z1,types=t1)
    system.box = Box(cell_grid=(3,3,3))
    system.box.lx = lx
    system.box.ly = ly
    system.box.lz = lz

    system.trial_x = np.array([x2],dtype=np.float)
    system.trial_y = np.array([y2],dtype=np.float)
    system.trial_z = np.array([z2],dtype=np.float)
    system.trial_types = np.array([t2])
    system.trial_bonds = []

    xarray = np.array(x1,dtype=np.float)
    yarray = np.array(y1,dtype=np.float)
    zarray = np.array(z1,dtype=np.float)
    system.box.neighbor_list.build_nlist(xarray,yarray,zarray,True)

    system.NonBondedTable = PT
    PE = NonBondedPotentialEnergy(system)
    U1 = sum(PE.compute(trial_move=True))
    self.assertAlmostEqual(U0,U1,delta=0.001)
コード例 #7
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    def test_trial_move(self):
        lx = 8
        ly = 11
        lz = 9
        dz = 1.1
        r0 = 1.0
        potential = 'Harmonic'

        N = 10
        ref_x = np.array([0.0] * N)
        ref_y = np.array([0.0] * N)
        ref_z = np.array([dz * i - lz / 2.0 for i in range(N)])
        ref_t = [0] * N
        ref_bonds = [[i, j] for i, j in zip(range(N - 1), range(1, N))]

        N = 5
        x = [0.0] * N
        y = [0.0] * N
        z = [dz * i - lz / 2.0 for i in range(N)]
        t = [0] * N
        bonds = [[i, j] for i, j in zip(range(N - 1), range(1, N))]

        N_trial = 5
        trial_x = [0.0] * N_trial
        trial_y = [0.0] * N_trial
        trial_z = [dz * 5 + dz * i - lz / 2.0 for i in range(N_trial)]
        trial_t = [0] * N_trial
        trial_bonds = [[i + N, j + N]
                       for i, j in zip(range(N_trial - 1), range(1, N_trial))]
        trial_bonds += [[N, N + 1]]

        NBPT = PairTable(types=['P1'],
                         parms=['epsilon', 'rcut', 'sigma', 'potential'])
        NBPT.setUnsetValues('epsilon', 1.0)
        NBPT.setUnsetValues('sigma', 1.0)
        NBPT.setUnsetValues('rcut', 2.5)
        NBPT.setUnsetValues('potential', 'HardSphere')

        BPT = PairTable(types=['P1'], parms=['k', 'r0', 'potential'])
        BPT.setUnsetValues('k', 1.0)
        BPT.setUnsetValues('r0', r0)
        BPT.setUnsetValues('potential', potential)

        system = System()
        system.add_beads(x=x, y=y, z=z, types=t, bonds=bonds)
        system.box = Box(cell_grid=(3, 3, 3))
        system.box.lx = lx
        system.box.ly = ly
        system.box.lz = lz
        system.BondedTable = BPT
        system.NonBondedTable = NBPT

        system.trial_x = np.array([trial_x])
        system.trial_y = np.array([trial_y])
        system.trial_z = np.array([trial_z])
        system.trial_types = np.array([trial_t])
        system.trial_bond_pairlist = np.array(trial_bonds)

        (ref_x, ref_y, ref_z), (imx, imy,
                                imz) = system.box.wrap_positions(x=ref_x,
                                                                 y=ref_y,
                                                                 z=ref_z)
        U0 = self.calc_all_potential(ref_bonds, ref_x, ref_y, ref_z, ref_t, lx,
                                     ly, lz, BPT)

        PE = BondedPotentialEnergy(system)
        U1 = sum(PE.compute())
        U2 = sum(PE.compute(trial_move=True))

        self.assertAlmostEqual(U0, U1 + U2, delta=0.001)