Ejemplo n.º 1
0
 def test_sequenceRepeats(self):
     """match2seq sequence repeat test"""
     seq1 = 'ABCDEFG~~~~~~~~~~~~~~~'
     seq2 = '~~~~~'
     mask1, mask2 = compareSequences( seq1, seq2 )
     self.assert_( N.all( mask1 == N.zeros( len(seq1 ) )) )
     self.assert_( N.all( mask2 == N.zeros( len(seq2 ) )) )
Ejemplo n.º 2
0
 def test_sequenceRepeats(self):
     """match2seq sequence repeat test"""
     seq1 = 'ABCDEFG~~~~~~~~~~~~~~~'
     seq2 = '~~~~~'
     mask1, mask2 = compareSequences(seq1, seq2)
     self.assert_(N.all(mask1 == N.zeros(len(seq1))))
     self.assert_(N.all(mask2 == N.zeros(len(seq2))))
Ejemplo n.º 3
0
    def test_model(self):
        """PDBDope test final model"""
        from Biskit import PDBModel

        if self.local:
            print '\nData added to info record of model (key -- value):'
            for k in self.d.m.info.keys():
                print '%s -- %s'%(k, self.d.m.info[k])

            print '\nAdded atom profiles:'
            print self.M.atoms

            print '\nAdded residue  profiles:'
            print self.M.residues

            ## check that nothing has changed
            print '\nChecking that models are unchanged by doping ...'

        m_ref = PDBModel( self.f )
        m_ref = m_ref.compress( m_ref.maskProtein() )
        for k in m_ref.atoms.keys():
            #ref = [ m_ref.atoms[i][k] for i in m_ref.atomRange() ]
            #mod = [ self.M.atoms[i][k] for i in self.M.atomRange() ]
            self.assert_( N.all( m_ref[k] == self.M[k]) )

        ## display in Pymol
        if self.local:
            print "Starting PyMol..."
            from Biskit.Pymoler import Pymoler

            pm = Pymoler()
            pm.addPdb( self.M, 'm' )
            pm.colorAtoms( 'm', N.clip(self.M.profile('relAS'), 0.0, 100.0) )
            pm.show()
Ejemplo n.º 4
0
def permutInverse(n):
    """Returns inverse permutation given integers in range(len(n)),
    such that permitInverse(permutInverse(range(4)))==range(4).
    """
    n = Numeric.asarray(n)
    pInv = Numeric.argsort(n)
    assert Numeric.all(Numeric.equal(n, Numeric.argsort(pInv))), "Inverse not successful; input should be permutation of range(len(input))."
    return pInv
Ejemplo n.º 5
0
    def __collectFrames( self, pdbs, castAll=0 ):
        """
        Read coordinates from list of pdb files.

        @param pdbs: list of file names
        @type  pdbs: [str]
        @param castAll: analyze atom content of each frame for casting
                        (default: 0)
        @type  castAll: 0|1

        @return: frames x (N x 3) Numpy array (of float)
        @rtype: array
        """
        frameList = []
        i = 0
        atomCast = None

        if self.verbose: T.errWrite('reading %i pdbs...' % len(pdbs) )

        refNames = self.ref.atomNames()  ## cache for atom checking

        for f in pdbs:

            ## Load
            m = PDBModel(f)

            ## compare atom order & content of first frame to reference pdb
            if castAll or i==0:
                atomCast, castRef = m.compareAtoms( self.ref )

                if castRef != range( len( self.ref ) ):
                    ## we can take away atoms from each frame but not from ref
                    raise TrajError("Reference PDB doesn't match %s."
                                    %m.fileName)

                if N.all( atomCast == range( len( m ) ) ):
                    atomCast = None   ## no casting necessary
                else:
                    if self.verbose: T.errWrite(' casting ')

            ## assert that frame fits reference
            if atomCast:
                m = m.take( atomCast )

            ## additional check on each 100st frame
            if i%100 == 0 and m.atomNames() <> refNames:
                raise TrajError("%s doesn't match reference pdb."%m.fileName )

            frameList.append( m.xyz )

            i += 1
            if i%10 == 0 and self.verbose:
                T.errWrite('#')

        if self.verbose: T.errWrite( 'done\n' )

        ## convert to 3-D Numpy Array
        return N.array(frameList).astype(N.Float32)
Ejemplo n.º 6
0
    def __collectFrames(self, pdbs, castAll=0):
        """
        Read coordinates from list of pdb files.

        @param pdbs: list of file names
        @type  pdbs: [str]
        @param castAll: analyze atom content of each frame for casting
                        (default: 0)
        @type  castAll: 0|1

        @return: frames x (N x 3) Numpy array (of float)
        @rtype: array
        """
        frameList = []
        i = 0
        atomCast = None

        if self.verbose: T.errWrite('reading %i pdbs...' % len(pdbs))

        refNames = self.ref.atomNames()  ## cache for atom checking

        for f in pdbs:

            ## Load
            m = PDBModel(f)

            ## compare atom order & content of first frame to reference pdb
            if castAll or i == 0:
                atomCast, castRef = m.compareAtoms(self.ref)

                if castRef != range(len(self.ref)):
                    ## we can take away atoms from each frame but not from ref
                    raise TrajError("Reference PDB doesn't match %s." %
                                    m.fileName)

                if N.all(atomCast == range(len(m))):
                    atomCast = None  ## no casting necessary
                else:
                    if self.verbose: T.errWrite(' casting ')

            ## assert that frame fits reference
            if atomCast:
                m = m.take(atomCast)

            ## additional check on each 100st frame
            if i % 100 == 0 and m.atomNames() <> refNames:
                raise TrajError("%s doesn't match reference pdb." % m.fileName)

            frameList.append(m.xyz)

            i += 1
            if i % 10 == 0 and self.verbose:
                T.errWrite('#')

        if self.verbose: T.errWrite('done\n')

        ## convert to 3-D Numpy Array
        return N.array(frameList).astype(N.Float32)
Ejemplo n.º 7
0
    def test_match2seq(self):
        """match2seq test"""
        ## Reading pdb files
        lig_traj = T.load(T.testRoot() + '/lig_pcr_00/traj.dat')[:2]
        m = [m.compress(m.maskProtein()) for m in lig_traj]

        ## make the models different
        m[1].removeRes(['ALA'])

        mask1, mask2 = compareModels(m[0], m[1])

        if self.local:
            print 'Reading and comparing two models'

            print '\nResidue masks to make the two maodels equal'
            print 'mask1\n', mask1
            print 'mask2\n', mask2
            globals().update(locals())

        self.assert_(N.all(mask1 == self.EXPECT[0]))
        self.assert_(N.all(mask2 == self.EXPECT[1]))
Ejemplo n.º 8
0
    def test_match2seq(self):
        """match2seq test"""
        ## Reading pdb files
        lig_traj = T.load( T.testRoot() + '/lig_pcr_00/traj.dat' )[:2]
        m = [ m.compress( m.maskProtein() ) for m in lig_traj ]

        ## make the models different
        m[1].removeRes(['ALA'])

        mask1, mask2 = compareModels( m[0], m[1] )

        if self.local:
            print 'Reading and comparing two models'

            print '\nResidue masks to make the two maodels equal'
            print 'mask1\n', mask1
            print 'mask2\n', mask2            
            globals().update( locals() )

        self.assert_( N.all(mask1 == self.EXPECT[0] ) )
        self.assert_( N.all(mask2 == self.EXPECT[1] ) )
Ejemplo n.º 9
0
def changeModel( inFile, prefix, sourceModel ):

    print '\nget ' + os.path.basename( inFile ) + '..',

    model = PDBModel( inFile )

    model.update()

    model = model.sort()

    eq = model.equals( sourceModel )
    if not eq[0] and eq[1]:
        raise ConvertError('source and other models are not equal: ' + str(eq))

#    model.validSource()
    model.setSource( sourceModel.validSource() )

    #model.atomsChanged = 0
    for k in model.atoms:
        model.atoms[k,'changed'] = N.all( model[k] == sourceModel[k] )

    model.xyzChanged = ( 0 != N.sum( N.ravel( model.xyz - sourceModel.xyz)) )

    model.update( updateMissing=1 )

    if model.xyzChanged:

        doper = PDBDope( model )

        if 'MS' in sourceModel.atoms.keys():
            doper.addSurfaceRacer( probe=1.4 )

        if 'density' in sourceModel.atoms.keys():
            doper.addDensity()

        if 'foldX' in sourceModel.info.keys():
            doper.addFoldX()
            
        if 'delphi' in sourceModel.info.keys():
            doper.addDelphi()

    outFile = os.path.dirname( inFile ) + '/' + prefix +\
            T.stripFilename( inFile ) + '.model' 

    T.dump( model, outFile )

    print '-> ' + os.path.basename( outFile )
Ejemplo n.º 10
0
    def test_Whatif(self):
        """Whatif test"""

        from Biskit import PDBModel

        ## Loading PDB...

        f = T.testRoot()+"/com/1BGS.pdb"
        m = PDBModel(f)

        m = m.compress( m.maskProtein() )
        m = m.compress( m.maskHeavy() )

        ## Starting WhatIf
        x = WhatIf( m, debug=0, verbose=0 )

        ## Running
        atomAcc, resAcc, resMask = x.run()

        if self.local:
            ## check that model hasn't changed
            m_ref = PDBModel(f)
            m_ref = m.compress( m.maskProtein() )
            for k in m_ref.atoms.keys():
                if not N.all(m_ref[k] == m[k]):
                    print 'Not equal ', k
                else:
                    print 'Equal ', k

            ## display exposed residues in PyMol
            from Pymoler import Pymoler
            pm = Pymoler()
            model = pm.addPdb( m, '1' )
            pm.colorRes( '1', resAcc[:,0] )
            pm.show()

            print "\nResult for first 10 atoms/residues: "
            print '\nAccessability (A^2):\n', atomAcc[:10]
            print '\nResidue accessability (A^2)'
            print '[total, backbone, sidechain]:\n', resAcc[:10]
            print '\nExposed residue mask:\n',resMask[:10]
            print '\nTotal atom    accessability (A^2): %.2f'%sum(atomAcc) 
            print '      residue accessability (A^2): %.2f'%sum(resAcc)[0]

        self.assertAlmostEqual( N.sum(resAcc[:,0]), 2814.6903, 7 ) 
Ejemplo n.º 11
0
    def test_Whatif(self):
        """Whatif test"""

        from Biskit import PDBModel

        ## Loading PDB...

        f = T.testRoot() + "/com/1BGS.pdb"
        m = PDBModel(f)

        m = m.compress(m.maskProtein())
        m = m.compress(m.maskHeavy())

        ## Starting WhatIf
        x = WhatIf(m, debug=0, verbose=0)

        ## Running
        atomAcc, resAcc, resMask = x.run()

        if self.local:
            ## check that model hasn't changed
            m_ref = PDBModel(f)
            m_ref = m.compress(m.maskProtein())
            for k in m_ref.atoms.keys():
                if not N.all(m_ref[k] == m[k]):
                    print 'Not equal ', k
                else:
                    print 'Equal ', k

            ## display exposed residues in PyMol
            from Pymoler import Pymoler
            pm = Pymoler()
            model = pm.addPdb(m, '1')
            pm.colorRes('1', resAcc[:, 0])
            pm.show()

            print "\nResult for first 10 atoms/residues: "
            print '\nAccessability (A^2):\n', atomAcc[:10]
            print '\nResidue accessability (A^2)'
            print '[total, backbone, sidechain]:\n', resAcc[:10]
            print '\nExposed residue mask:\n', resMask[:10]
            print '\nTotal atom    accessability (A^2): %.2f' % sum(atomAcc)
            print '      residue accessability (A^2): %.2f' % sum(resAcc)[0]

        self.assertAlmostEqual(N.sum(resAcc[:, 0]), 2814.6903, 7)
Ejemplo n.º 12
0
    def test_SparseArray(self):
        """SparseArray test"""

        a = N.zeros((6, ), N.Float32)

        self.sa = SparseArray(a.shape)
        self.sa[3] = 1.
        self.sa[5] = 2.

        b = N.zeros((5, 6), N.Float32)
        b[0, 1] = 3.
        b[0, 2] = 4
        b[4, 2] = 5
        b[3, 0] = 6

        self.sb = SparseArray(b)

        self.sb.append(self.sa)

        if self.local:
            print self.sa.toarray()

        self.assert_(N.all(self.sb.toarray() == self.EXPECTED))
Ejemplo n.º 13
0
    def test_SparseArray(self):
        """SparseArray test"""

        a = N.zeros( (6,), N.Float32 )

        self.sa = SparseArray( a.shape )
        self.sa[3] = 1.
        self.sa[5] = 2.

        b = N.zeros( (5, 6), N.Float32 )
        b[0,1] = 3.
        b[0,2] = 4
        b[4,2] = 5
        b[3,0] = 6

        self.sb = SparseArray( b )

        self.sb.append( self.sa )

        if self.local:
            print self.sa.toarray()

        self.assert_( N.all( self.sb.toarray() == self.EXPECTED) )
Ejemplo n.º 14
0
    def test_hist( self ):
        """hist test"""
        self.x = Numeric.arange( 4, 12, 1.2 )
        self.data = density( self.x, 3, hist=1 )

        self.assert_( Numeric.all( self.data == self.EXPECT) )
Ejemplo n.º 15
0
    def test_hist(self):
        """hist test"""
        self.x = Numeric.arange(4, 12, 1.2)
        self.data = density(self.x, 3, hist=1)

        self.assert_(Numeric.all(self.data == self.EXPECT))