Exemple #1
0
def cal_transformation_kabsch(src_points, dst_points):
    '''
    Calculates the optimal rigid transformation from src_points to dst_points.
    (Regarding the least squares error)
    
    Args:
    ------
    src_points: array, (N, 3) matrix.
    dst_points: array, (N, 3) matrix.
    
    Returns:
    ------
    R: rotaion matrix, array.
    T: translation vector, array.
    rmsd_value: float.
    '''

    assert src_points.shape == dst_points.shape
    if src_points.shape[1] != 3:
        raise Exception(
            "The input data matrix had to be transposed in order to compute transformation."
        )

    #src_points = src_points.transpose()
    #dst_points = dst_points.transpose()

    src_points_centered = src_points - rmsd.centroid(src_points)
    dst_points_centered = dst_points - rmsd.centroid(dst_points)

    R = rmsd.kabsch(src_points_centered, dst_points_centered)
    rmsd_value = rmsd.kabsch_rmsd(src_points_centered, dst_points_centered)

    T = rmsd.centroid(dst_points) - np.matmul(rmsd.centroid(src_points), R)

    return R.transpose(), T.transpose(), rmsd_value
Exemple #2
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def test_pdb(threshold=0.001):
    """
    A simple test for the PDB functionality
    :return: True if all test passed
    """
    p_atoms, P = calculate_rmsd.get_coordinates('examples/ci2_1.pdb', 'pdb')
    q_atoms, Q = calculate_rmsd.get_coordinates('examples/ci2_2.pdb', 'pdb')

    n_rmsd = calculate_rmsd.rmsd(P, Q)
    Pc = calculate_rmsd.centroid(P)
    Qc = calculate_rmsd.centroid(Q)
    P -= Pc
    Q -= Qc

    k_rmsd = calculate_rmsd.kabsch_rmsd(P, Q)
    q_rmsd = calculate_rmsd.quaternion_rmsd(P, Q)

    if abs(n_rmsd - 26.975) > threshold:
        print('Failed to calculate normal RMSD, result: {0}'.format(n_rmsd))
        return False
    if abs(k_rmsd - 11.777) > threshold:
        print('Failed to calculate Kabsch RMSD, result: {0}'.format(k_rmsd))
        return False
    if abs(q_rmsd - 11.777) > threshold:
        print('Failed to calculate quaternion RMSD, result: {0}'.format(q_rmsd))
        return False
    if abs(q_rmsd - k_rmsd) > threshold ** 2:
        print('Failed to yield similar Kabsch and quaternion RMSD, result: {0} vs {1}'.format(k_rmsd, q_rmsd))
        return False
    return True
Exemple #3
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def rmsd_dist(A, B):

    #REMOVE CENTER OF MASS
    A -= rmsd.centroid(A)
    B -= rmsd.centroid(B)

    #FIND ROTATION MATRIX
    U = rmsd.kabsch(A, B)

    # ROTATE TOWARDS B
    A = np.dot(A, U)

    #RETURN ROOT MEAN SQUARE DEVIATION
    return rmsd.rmsd(A, B)
Exemple #4
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def rmsd_VEC(A, B):

    #REMOVE CENTER OF MASS
    A -= rmsd.centroid(A)
    B -= rmsd.centroid(B)

    #FIND ROTATION MATRIX
    U = rmsd.kabsch(A, B)

    # ROTATE TOWARDS B
    A = np.dot(A, U)

    #RETURN ROTATED ARRAY
    return A
Exemple #5
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def write_rmsd(fp, fp2, A, B):
    A -= rmsd.centroid(A)
    B -= rmsd.centroid(B)

    fp2.write('%d\n' % (len(A)))
    fp2.write('\n')
    for i in range(len(A)):
        fp2.write('A %f %f %f\n' % (A[i, 0], A[i, 1], A[i, 2]))

    #FIND ROTATION MATRIX
    U = rmsd.kabsch(A, B)

    # ROTATE TOWARDS B
    A = np.dot(A, U)
    fp.write('%d\n' % (len(A)))
    fp.write('\n')
    for i in range(len(A)):
        fp.write('A %f %f %f\n' % (A[i, 0], A[i, 1], A[i, 2]))

    return fp
Exemple #6
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def arrange(ref, to):
    ref -= rmsd.centroid(ref)
    to -= rmsd.centroid(to)
    U = rmsd.kabsch(to[:3, :], ref[:3, :])
    to = np.dot(to, U)
    dist = []
    ref_CT_taken = []
    to_CT_taken = []
    unordered_results = []
    for i in range(3, len(ref)):
        for j in range(3, len(to)):
            ref_CT = ref[i, :]
            to_CT = to[j, :]
            dist.append([i - 3, j - 3, abs(np.linalg.norm(ref_CT - to_CT))])

    while len(ref_CT_taken) != len(ref) - 3:
        min_index = min_dist_index(dist)
        unordered_results.append([dist[min_index][0], dist[min_index][1]])
        ref_lmo = dist[min_index][0]
        to_lmo = dist[min_index][1]
        ref_CT_taken.append(ref_lmo)
        to_CT_taken.append(to_lmo)
        to_be_deleted = []
        for i in range(len(dist)):
            if dist[i][0] == ref_lmo:
                if i not in to_be_deleted:
                    to_be_deleted.append(dist[i])
                continue
            if dist[i][1] == to_lmo:
                if i not in to_be_deleted:
                    to_be_deleted.append(dist[i])

        for i in range(len(to_be_deleted)):
            dist.remove(to_be_deleted[i])

    return order(unordered_results, len(ref) - 3)
Exemple #7
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from __future__ import print_function
import calculate_rmsd as rmsd
import os
import sys

all_rmsd = []
q_atoms, Q = rmsd.get_coordinates(sys.argv[1], 'xyz')
Q -= rmsd.centroid(Q)

for filename in os.listdir('../../ML/samples3-1-1000'):
    if not filename.endswith('.xyz'):
        continue
    p_atoms, P = rmsd.get_coordinates('../../ML/samples3-1-1000/' + filename,
                                      'xyz')
    P -= rmsd.centroid(P)
    all_rmsd.append(rmsd.kabsch_rmsd(P, Q))
file = open('./rmsd_results/min_rmsd.csv', 'w')
for rmsd in all_rmsd:
    print(rmsd, file=file)
file.close()