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Python SVDSuperimposer.run方法代码示例

本文整理汇总了Python中Bio.SVDSuperimposer.SVDSuperimposer.run方法的典型用法代码示例。如果您正苦于以下问题:Python SVDSuperimposer.run方法的具体用法?Python SVDSuperimposer.run怎么用?Python SVDSuperimposer.run使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在Bio.SVDSuperimposer.SVDSuperimposer的用法示例。


在下文中一共展示了SVDSuperimposer.run方法的9个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: __sub__

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
    def __sub__(self, other):
        """
        Return rmsd between two fragments.

        Example:
            >>> rmsd=fragment1-fragment2

        @return: rmsd between fragments
        @rtype: float
        """
        sup=SVDSuperimposer()
        sup.set(self.coords_ca, other.coords_ca)
        sup.run()
        return sup.get_rms()
开发者ID:BingW,项目名称:biopython,代码行数:16,代码来源:FragmentMapper.py

示例2: computeRMSD

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
def computeRMSD():
	if len(ca_atoms)!=len(ca_atoms_pdb):
		print "Error. Length mismatch!", len(ca_atoms), len(ca_atoms_pdb)
		exit()
	l = len(ca_atoms)

	fixed_coord  = numpy.zeros((l, 3))
	moving_coord = numpy.zeros((l, 3))

	for i in range(0, l):
		fixed_coord[i]  = numpy.array ([ca_atoms_pdb[i][0], ca_atoms_pdb[i][1], ca_atoms_pdb[i][2]])
		moving_coord[i] = numpy.array ([ca_atoms[i][0], ca_atoms[i][1], ca_atoms[i][2]])
	sup = SVDSuperimposer()
	sup.set(fixed_coord, moving_coord)
	sup.run()
	rms = sup.get_rms()
	return rms
开发者ID:luwei0917,项目名称:awsemmd_script,代码行数:19,代码来源:CalcRMSD.py

示例3: distance_matrix

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
def distance_matrix(CA):

    n_models = CA.shape[0]
    distances = np.zeros((n_models, n_models))

    sup=SVDSuperimposer()
    for i in range(n_models):
        model1 = CA[i,:,:]
        for j in range(i+1,n_models):
            model2 = CA[j,:,:]
            sup.set(model1, model2)
            sup.run()
            rms=sup.get_rms()
            distances[i,j] = rms
            distances[j,i] = rms

    return distances
开发者ID:biocryst,项目名称:gc,代码行数:19,代码来源:gc.py

示例4: compute_frag_RMSD

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
def compute_frag_RMSD(res_len):
        if len(ca_atoms)!=len(ca_atoms_pdb):
		print "Error. Length mismatch! target:frag", len(ca_atoms_pdb), len(ca_atoms)
		return 0
        l = len(ca_atoms)
	N = res_len
	if l != N :
		print "atom list length mismatches the fragment length!", str(l), str(N)
		return 0

        fixed_coord  = numpy.zeros((l, 3))
        moving_coord = numpy.zeros((l, 3))

        for i in range(0, l):
                fixed_coord[i]  = numpy.array ([ca_atoms_pdb[i][0], ca_atoms_pdb[i][1], ca_atoms_pdb[i][2]])
                moving_coord[i] = numpy.array ([ca_atoms[i][0], ca_atoms[i][1], ca_atoms[i][2]])
        sup = SVDSuperimposer()
        sup.set(fixed_coord, moving_coord)
        sup.run()
        rms = sup.get_rms()
        return rms
开发者ID:luwei0917,项目名称:awsemmd_script,代码行数:23,代码来源:CalcQFrag.py

示例5: set_atoms

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
    def set_atoms(self, fixed, moving):
        """Put (translate/rotate) the atoms in fixed on the atoms in
        moving, in such a way that the RMSD is minimized.

        @param fixed: list of (fixed) atoms
        @param moving: list of (moving) atoms
        @type fixed,moving: [L{Atom}, L{Atom},...]
        """
        if not len(fixed) == len(moving):
            raise PDBException("Fixed and moving atom lists differ in size")
        l = len(fixed)
        fixed_coord = numpy.zeros((l, 3))
        moving_coord = numpy.zeros((l, 3))
        for i in range(0, len(fixed)):
            fixed_coord[i] = fixed[i].get_coord()
            moving_coord[i] = moving[i].get_coord()
        sup = SVDSuperimposer()
        sup.set(fixed_coord, moving_coord)
        sup.run()
        self.rms = sup.get_rms()
        self.rotran = sup.get_rotran()
开发者ID:abradle,项目名称:biopython,代码行数:23,代码来源:Superimposer.py

示例6: align_models

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
def align_models(CA):
    n_models = CA.shape[0]
    working_CA = np.copy(CA)
    sup=SVDSuperimposer()
    
    ref_model = working_CA[0, :, :]
    rms_total = 0

    for i_model in range(1, n_models):
        sup.set(ref_model, working_CA[i_model])
        sup.run()
        rms_total += sup.get_rms()**2
        working_CA[i_model] = sup.get_transformed()

    rms_best = float("inf")
    epsilon = 0.001
    while rms_best - rms_total  > epsilon:
        rms_best = rms_total
        mean_model = np.mean(working_CA,0)
        rms_total = 0
        for i_model in range(n_models):
            sup.set(mean_model, working_CA[i_model])
            sup.run()
            rms_total += sup.get_rms()**2
            working_CA[i_model] = sup.get_transformed()

    transformations = []
    for start_model, result_model in zip(CA, working_CA):
        sup.set(result_model, start_model)
        sup.run()
        transformations.append(sup.get_rotran())

    return transformations,np.sqrt(rms_total/n_models)
开发者ID:biocryst,项目名称:gc,代码行数:35,代码来源:gc.py

示例7: array

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
          [50.68, -0.04, 51.54],
          [50.22, -0.02, 52.85]], 'f')

y = array([[51.30, -2.99, 46.54],
          [51.09, -1.88, 47.58],
          [52.36, -1.20, 48.03],
          [52.71, -1.18, 49.38]], 'f')

sup = SVDSuperimposer()

# set the coords
# y will be rotated and translated on x
sup.set(x, y)

# do the lsq fit
sup.run()

# get the rmsd
rms = sup.get_rms()

# get rotation (right multiplying!) and the translation
rot, tran = sup.get_rotran()

# rotate y on x manually
y_on_x1 = dot(y, rot) + tran

# same thing
y_on_x2 = sup.get_transformed()


def simple_matrix_print(matrix):
开发者ID:BIGLabHYU,项目名称:biopython,代码行数:33,代码来源:test_SVDSuperimposer.py

示例8: run_system

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
def run_system(dir):

    pdb = os.path.basename(dir).split('_')[0]
    
    org_dir = os.getcwd()
    os.chdir(dir)

    f_coord = "coord.h5"
    f_RMSD  = "RMSD.txt"
    f_OC = os.path.join("..","..","cmap_coordinates",pdb+'.txt')

    if not os.path.exists(f_OC):
        print "Missing coordinates for cmap", dir
        os.chdir(org_dir)
        return dir
    
    if not os.path.exists(f_coord):
        print "Missing coordinates, extract_coordinates.py first", dir
        os.chdir(org_dir)
        return dir

    if os.path.exists(f_RMSD) and not _FORCE:
        print "RMSD file exists, skipping", dir
        os.chdir(org_dir)
        return dir
    
    h5 = h5py.File(f_coord,'r')
    C = h5["coord"][:]
    h5.close()
    OC = np.loadtxt(f_OC)

    # Move the coordinates to something sensible
    #C  -= C.mean(axis=0)
    #OC -= OC.mean(axis=0)

    median_OC = np.median([np.linalg.norm(a-b)
                           for a,b in zip(OC,OC[1:])])
    median_C  = np.median([np.linalg.norm(a-b)
                           for a,b in zip(C[-1],C[-1][1:])])

    assert(C[0].shape == OC.shape)
    RMSD = []
    org_RMSD = []

    sup = SVDSuperimposer()

    RG = []
    OC -= OC.mean(axis=0)
    OC_RG = ((np.linalg.norm(OC,axis=1)**2).sum()/len(OC)) ** 0.5

    for cx in C:
        cx -= cx.mean(axis=0)

        rg_cx = ((np.linalg.norm(cx,axis=1)**2).sum()/len(cx)) ** 0.5
        RG.append(rg_cx)
        
        sup.set(OC,cx)
        sup.run()
        RMSD.append(sup.get_rms())
        org_RMSD.append(sup.get_init_rms())


    rot, tran = sup.get_rotran()
    cx = np.dot(cx, rot) + tran

    RMSD = np.array(RMSD)
    org_RMSD = np.array(org_RMSD)
    RG = np.array(RG)
    
    #print dir, RMSD[-20:].mean(), org_RMSD[-20:].mean(),RG[-20:].mean()
    print "{} {: 0.4f} {: 0.4f}".format(dir, RMSD[-200:].mean(),
                                      RG[-200:].mean() / OC_RG)
    

    '''
    from mpl_toolkits.mplot3d import Axes3D
    import matplotlib.pyplot as plt
    fig = plt.figure()
    ax = fig.add_subplot(111, projection='3d')

    ax.scatter(OC[:,0],OC[:,1],OC[:,2],'b')
    #ax.plot(OC[:,0],OC[:,1],OC[:,2],'k',alpha=0.5)

    ax.scatter(cx[:,0],cx[:,1],cx[:,2],color='r')
    #ax.plot(cx[:,0],cx[:,1],cx[:,2],'k',alpha=0.5)
    plt.show()
    exit()

    print OC
    #exit()
    '''
    
    np.savetxt(f_RMSD,RMSD)
    os.chdir(org_dir)

    return dir
开发者ID:bestlab,项目名称:GREMLIN_RF,代码行数:98,代码来源:compute_RMSD.py

示例9: SVDSuperimposerTest

# 需要导入模块: from Bio.SVDSuperimposer import SVDSuperimposer [as 别名]
# 或者: from Bio.SVDSuperimposer.SVDSuperimposer import run [as 别名]
class SVDSuperimposerTest(unittest.TestCase):

    def setUp(self):
        self.x = array([[51.65, -1.90, 50.07],
                        [50.40, -1.23, 50.65],
                        [50.68, -0.04, 51.54],
                        [50.22, -0.02, 52.85]])

        self.y = array([[51.30, -2.99, 46.54],
                        [51.09, -1.88, 47.58],
                        [52.36, -1.20, 48.03],
                        [52.71, -1.18, 49.38]])

        self.sup = SVDSuperimposer()
        self.sup.set(self.x, self.y)

    def test_get_init_rms(self):
        x = array([[1.19, 1.28, 1.37],
                   [1.46, 1.55, 1.64],
                   [1.73, 1.82, 1.91]])
        y = array([[1.91, 1.82, 1.73],
                   [1.64, 1.55, 1.46],
                   [1.37, 1.28, 1.19]])
        self.sup.set(x, y)
        self.assertIsNone(self.sup.init_rms)
        init_rms = 0.8049844719
        self.assertTrue(
            float('%.3f' % self.sup.get_init_rms()), float('%.3f' % init_rms))

    def test_oldTest(self):
        self.assertTrue(
            array_equal(around(self.sup.reference_coords, decimals=3), around(self.x, decimals=3)))
        self.assertTrue(
            array_equal(around(self.sup.coords, decimals=3), around(self.y, decimals=3)))
        self.assertIsNone(self.sup.rot)
        self.assertIsNone(self.sup.tran)
        self.assertIsNone(self.sup.rms)
        self.assertIsNone(self.sup.init_rms)

        self.sup.run()
        self.assertTrue(
            array_equal(around(self.sup.reference_coords, decimals=3), around(self.x, decimals=3)))
        self.assertTrue(
            array_equal(around(self.sup.coords, decimals=3), around(self.y, decimals=3)))
        rot = array([[0.68304983, 0.53664371, 0.49543563],
                     [-0.52277295, 0.83293229, -0.18147242],
                     [-0.51005037, -0.13504564, 0.84947707]])
        tran = array([38.78608157, -20.65451334, -15.42227366])
        self.assertTrue(
            array_equal(around(self.sup.rot, decimals=3), around(rot, decimals=3)))
        self.assertTrue(
            array_equal(around(self.sup.tran, decimals=3), around(tran, decimals=3)))
        self.assertIsNone(self.sup.rms)
        self.assertIsNone(self.sup.init_rms)

        rms = 0.00304266526014
        self.assertEqual(
            float('%.3f' % self.sup.get_rms()), float('%.3f' % rms))

        rot_get, tran_get = self.sup.get_rotran()
        self.assertTrue(
            array_equal(around(rot_get, decimals=3), around(rot, decimals=3)))
        self.assertTrue(
            array_equal(around(tran_get, decimals=3), around(tran, decimals=3)))

        y_on_x1 = dot(self.y, rot) + tran
        y_x_solution = array(
            [[5.16518846e+01, -1.90018270e+00, 5.00708397e+01],
             [5.03977138e+01, -1.22877050e+00, 5.06488200e+01],
             [5.06801788e+01, -4.16095666e-02, 5.15368866e+01],
             [5.02202228e+01, -1.94372374e-02, 5.28534537e+01]])
        self.assertTrue(
            array_equal(around(y_on_x1, decimals=3), around(y_x_solution, decimals=3)))

        y_on_x2 = self.sup.get_transformed()
        self.assertTrue(
            array_equal(around(y_on_x2, decimals=3), around(y_x_solution, decimals=3)))
开发者ID:BioGeek,项目名称:biopython,代码行数:79,代码来源:test_SVDSuperimposer.py


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