Beispiel #1
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def removeEnzFromPool( pool ):
    kids = _moose.wildcardFind( pool.path + "/#" )
    for i in kids:
        if i.isA[ 'EnzBase' ]:
            _moose.delete( i )
        elif i.isA[ 'Function' ]:
            _moose.delete( i )
Beispiel #2
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def disconnectReactant( reacOrEnz, reactant, duppool ):
    outMsgs = reacOrEnz.msgOut
    infoPath = duppool.path + '/info'
    if _moose.exists( infoPath ):
        info = _moose.element( infoPath )
    else:
        info = _moose.Annotator( infoPath )

    #_moose.le( reactant )
    notes = ""
    #_moose.showmsg( reacOrEnz )
    for i in outMsgs:
        #print "killing msg from {} to {}\nfor {} and {}".format( reacOrEnz.path, reactant.path, i.srcFieldsOnE1[0], i.srcFieldsOnE2[0] )
        if i.e1 == reactant:
            msgStr = identifyMsg( i.e2, i.e2.srcFieldsOnE2[0], i.e1 )
            if len( msgStr ) > 0:
                notes += msgStr
                _moose.delete( i )
        elif i.e2 == reactant:
            msgStr = identifyMsg( i.e1[0], i.srcFieldsOnE1[0], i.e2[0] )
            if len( msgStr ) > 0:
                notes += msgStr
                _moose.delete( i )
    #print "MSGS to rebuild:", notes
    info.notes += notes
Beispiel #3
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def disconnectReactant(reacOrEnz, reactant, duppool):
    outMsgs = reacOrEnz.msgOut
    infoPath = duppool.path + '/info'
    if _moose.exists(infoPath):
        info = moose.element(infoPath)
    else:
        info = moose.Annotator(infoPath)

    #_moose.le( reactant )
    notes = ""
    #_moose.showmsg( reacOrEnz )
    for i in outMsgs:
        #print("killing msg from {} to {}\nfor {} and {}".format(
        #    reacOrEnz.path, reactant.path, i.srcFieldsOnE1,
        #    i.srcFieldsOnE2))
        if i.e1 == reactant:
            msgStr = identifyMsg(i.e2, i.e2.srcFieldsOnE2[0], i.e1)
            if len(msgStr) > 0:
                notes += msgStr
                _moose.delete(i)
        elif i.e2 == reactant:
            msgStr = identifyMsg(i.e1[0], i.srcFieldsOnE1[0], i.e2[0])
            if len(msgStr) > 0:
                notes += msgStr
                _moose.delete(i)
    #  print("MSGS to rebuild:", notes)
    info.notes += notes
Beispiel #4
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def removeEnzFromPool(pool):
    kids = _moose.wildcardFind(pool.path + "/#")
    for i in kids:
        if i.isA['EnzBase']:
            _moose.delete(i)
        elif i.isA['Function']:
            _moose.delete(i)
Beispiel #5
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def delete(arg):
    """Delete the underlying moose object(s). 

    Parameters
    ----------
    arg : vec/str/melement
        path of the object to be deleted.

    Returns
    -------
    None, Raises ValueError if given path/object does not exists.
    """
    _moose.delete(arg)
Beispiel #6
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def delete(arg):
    """Delete the underlying moose object(s). This does not delete any of the
    Python objects referring to this vec but does invalidate them. Any
    attempt to access them will raise a ValueError.

    Parameters
    ----------
    arg : vec/str/melement
        path of the object to be deleted.

    Returns
    -------
    None, Raises ValueError if given path/object does not exists.
    """
    _moose.delete(arg)
Beispiel #7
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def restoreXreacs( basepath ):
    proxyInfo = _moose.wildcardFind( basepath + "/##/#_xfer_#/info" )
    for i in proxyInfo:
        msgs = i.notes.split( msgSeparator )
        oldRates = getOldRates( msgs )
        #print( "Deleting {}".format( i.parent.path ) )
        #print msgs
        _moose.delete( i.parent )
        for j in msgs[1:]:
            if len( j ) > 0:
                args = j.split( ' ' )
                assert( len( args ) == 4 )
                #_moose.showfield( args[0] )
                _moose.connect( args[0], args[1], args[2], args[3] )
                #print( "Reconnecting {}".format( args ) )
                #_moose.showfield( args[0] )
        restoreOldRates( oldRates, msgs )
Beispiel #8
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def restoreXreacs(basepath):
    proxyInfo = _moose.wildcardFind(basepath + "/##/#_xfer_#/info")
    for i in proxyInfo:
        msgs = i.notes.split(msgSeparator)
        oldRates = getOldRates(msgs)
        #print( "Deleting {}".format( i.parent.path ) )
        #print msgs
        _moose.delete(i.parent)
        for j in msgs[1:]:
            if len(j) > 0:
                args = j.split(' ')
                assert (len(args) == 4)
                #_moose.showfield( args[0] )
                _moose.connect(args[0], args[1], args[2], args[3])
                #print( "Reconnecting {}".format( args ) )
                #_moose.showfield( args[0] )
        restoreOldRates(oldRates, msgs)
Beispiel #9
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def restoreXreacs(basepath):
    proxyInfo = _moose.wildcardFind(basepath + "/##/#_xfer_#/info")
    for i in proxyInfo:
        msgs = i.notes.split(msgSeparator)
        oldRates = getOldRates(msgs)
        #print( "Deleting {}".format( i.parent.path ) )
        _moose.delete(i.parent)
        for j in msgs[1:]:
            if len(j) > 0:
                args = j.split(' ')
                assert (len(args) == 4)
                #_moose.showfield( args[0] )
                #check to see if object exist before moose.connect, cases where object is deleted but
                #_xref_ annotation info field still holds the reference
                if (_moose.exists(args[0]) and _moose.exists(args[2])):
                    moose.connect(args[0], args[1], args[2], args[3])
                #print( "Reconnecting {}".format( args ) )
                #_moose.showfield( args[0] )
        restoreOldRates(oldRates, msgs)
Beispiel #10
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def loadGenCsp(target, filename, solver="gsl"):
    target = target.replace(" ", "")
    path = '/' + target
    #Moving the model under /modelname/model and graphs under /model/graphs.
    #This is passed while loading-time which will be easy for setting the stoich path
    mpath = '/' + target + '/' + "model"
    if moose.exists(mpath):
        moose.delete(mpath)
    modelpath1 = moose.Neutral('%s' % (target))
    modelpath = moose.Neutral('%s/%s' % (modelpath1.path, "model"))
    model = mutils.loadModel(filename, modelpath.path, solver)

    if not moose.exists(modelpath1.path + '/data'):
        graphspath = moose.Neutral('%s/%s' % (modelpath1.path, "data"))
    dataPath = moose.element(modelpath1.path + '/data')
    i = 0
    nGraphs = moose.wildcardFind(modelpath.path + '/graphs/##[TYPE=Table2]')
    for graphs in nGraphs:
        if not moose.exists(dataPath.path + '/graph_' + str(i)):
            graphspath = moose.Neutral('%s/%s' %
                                       (dataPath.path, "graph_" + str(i)))
        else:
            graphspath = moose.element(dataPath.path + '/graph_' + str(i))
        moose.move(graphs.path, graphspath)

    if len(nGraphs) > 0:
        i = i + 1

    for moregraphs in moose.wildcardFind(modelpath.path +
                                         '/moregraphs/##[TYPE=Table2]'):
        if not moose.exists(dataPath.path + '/graph_' + str(i)):
            graphspath = moose.Neutral('%s/%s' %
                                       (dataPath.path, "graph_" + str(i)))
        else:
            graphspath = moose.element(dataPath.path + '/graph_' + str(i))
        moose.move(moregraphs.path, graphspath)
    if moose.exists(modelpath.path + '/info'):
        AnnotatorOld = moose.element(modelpath.path + '/info')
        AnnotatorNew = moose.Annotator(modelpath1.path + '/info')
        AnnotatorNew.runtime = AnnotatorOld.runtime
        AnnotatorNew.solver = AnnotatorOld.solver
        moose.delete(AnnotatorOld)
    moose.delete(modelpath.path + '/graphs')
    moose.delete(modelpath.path + '/moregraphs')
    return (modelpath1, modelpath1.path)
Beispiel #11
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def loadFile(filename, target, solver="gsl", merge=True):
    """Try to load a model from specified `filename` under the element
    `target`.

    if `merge` is True, the contents are just loaded at target. If
    false, everything is deleted from the parent of target unless the
    parent is root.

    Returns
    -------
    a dict containing at least these three entries:

    modeltype: type of the loaded model.

    subtype: subtype of the loaded model, None if no specific subtype

    modelroot: root element of the model, None if could not be located - as is the case with Python scripts
    """
    loaderror = ""
    num = 1
    libsfound = True
    model = '/'
    newTarget = target
    while moose.exists(newTarget):
        newTarget = target + "-" + str(num)
        num = num + 1
    target = newTarget
    istext = True
    with open(filename, 'rb') as infile:
        istext = mtypes.istextfile(infile)
    if not istext:
        print('Cannot handle any binary formats yet')
        return None
    # parent, child = posixpath.split(target)
    # p = moose.Neutral(parent)
    # if not merge and p.path != '/':
    #     for ch in p.children:
    #         moose.delete(ch)
    try:
        modeltype = mtypes.getType(filename)
        subtype = mtypes.getSubtype(filename, modeltype)
    except KeyError:
        raise FileLoadError('Do not know how to handle this filetype: %s' %
                            (filename))
    pwe = moose.getCwe()
    #self.statusBar.showMessage('Loading model, please wait')
    # app = QtGui.qApp
    # app.setOverrideCursor(QtGui.QCursor(Qt.Qt.BusyCursor)) #shows a hourglass - or a busy/working arrow
    if modeltype == 'genesis':
        if subtype == 'kkit' or subtype == 'prototype':
            model, modelpath = loadGenCsp(target, filename, solver)
            xcord, ycord = [], []
            if moose.exists(moose.element(modelpath).path):
                process = True
                compt = len(moose.wildcardFind(modelpath +
                                               '/##[ISA=CubeMesh]'))
                if not compt:
                    loaderror = "Model has no compartment, atleast one compartment should exist to display the widget"
                    process = False
                else:
                    p = len(moose.wildcardFind(modelpath +
                                               '/##[ISA=PoolBase]'))
                    if p < 2:
                        loaderror = "Model has no pool, atleast two pool should exist to display the widget"
                        process = False
            if process:
                if moose.exists(moose.element(modelpath).path):
                    mObj = moose.wildcardFind(
                        moose.element(modelpath).path + '/##[ISA=PoolBase]' +
                        ',' + moose.element(modelpath).path +
                        '/##[ISA=ReacBase]' + ',' +
                        moose.element(modelpath).path + '/##[ISA=EnzBase]' +
                        ',' + moose.element(modelpath).path +
                        '/##[ISA=StimulusTable]')
                    for p in mObj:
                        if not isinstance(moose.element(p.parent),
                                          moose.CplxEnzBase):
                            xcord.append(moose.element(p.path + '/info').x)
                            ycord.append(moose.element(p.path + '/info').y)
                    recalculatecoordinatesforKkit(mObj, xcord, ycord)

                    for ememb in moose.wildcardFind(
                            moose.element(modelpath).path +
                            '/##[ISA=EnzBase]'):
                        objInfo = ememb.path + '/info'
                        #Enzyme's textcolor (from kkit) will be bgcolor (in moose)
                        if moose.exists(objInfo):
                            bgcolor = moose.element(objInfo).color
                            moose.element(objInfo).color = moose.element(
                                objInfo).textColor
                            moose.element(objInfo).textColor = bgcolor
                    moose.Annotator(moose.element(modelpath).path +
                                    '/info').modeltype = "kkit"
                else:
                    print(" path doesn't exists")
                #moose.le(modelpath)
        else:
            print('Only kkit and prototype files can be loaded.')

    elif modeltype == 'cspace':
        model, modelpath = loadGenCsp(target, filename)

        if moose.exists(modelpath):
            moose.Annotator(
                (moose.element(modelpath).path + '/info')).modeltype = "cspace"
        addSolver(modelpath, 'gsl')

    elif modeltype == 'xml':
        if subtype == 'neuroml':
            popdict, projdict = neuroml.loadNeuroML_L123(filename)
            # Circus to get the container of populations from loaded neuroml
            for popinfo in list(popdict.values()):
                for cell in list(popinfo[1].values()):
                    solver = moose.HSolve(cell.path + "/hsolve")
                    solver.target = cell.path
                    # model = cell.parent
                    # break
                # break

            # Moving model to a new location under the model name
            # model name is the filename without extension

            model = moose.Neutral("/" + splitext(basename(filename))[0])
            element = moose.Neutral(model.path + "/model")
            if (moose.exists("/cells")): moose.move("/cells", element.path)
            if (moose.exists("/elec")): moose.move("/elec", model.path)
            if (moose.exists("/library")): moose.move("/library", model.path)

            # moose.move("cells/", cell.path)
        elif subtype == 'sbml':
            foundLibSBML_ = False
            try:
                import libsbml
                foundLibSBML_ = True
            except ImportError:
                pass
            if foundLibSBML_:
                if target != '/':
                    if moose.exists(target):
                        moose.delete(target)
                model, loaderror = mooseReadSBML(filename, target)
                if moose.exists(moose.element(model).path):
                    moose.Annotator(moose.element(model).path +
                                    '/info').modeltype = "sbml"
                addSolver(target, 'gsl')
            libsfound = foundLibSBML_
    else:
        raise FileLoadError('Do not know how to handle this filetype: %s' %
                            (filename))
    moose.setCwe(
        pwe
    )  # The MOOSE loadModel changes the current working element to newly loaded model. We revert that behaviour

    # TODO: check with Aditya how to specify the target for
    # neuroml reader
    # app.restoreOverrideCursor()
    return {
        'modeltype': modeltype,
        'subtype': subtype,
        'model': model,
        'foundlib': libsfound,
        'loaderror': loaderror
    }