Ejemplo n.º 1
0
 def submit_job(self,job):
     pad = self.enter(job.directory,msg=job.internal_id)
     if job.subfile==None:
         self.error('submission file not specified for job')
     elif not os.path.exists(job.subfile):
         self.error('job submission file was not written prior to submission\n  submission file: '+os.path.join(job.directory,job.subfile))
     #end if
     command = self.sub_launcher+' '+job.subfile
     if self.generate_only:
         self.log(pad+'Would have executed:  '+command)
         job.status = job.states.running
         process = obj()
         process.job = job
         self.processes[job.internal_id] = process
     else:
         self.log(pad+'Executing:  '+command)
         job.status = job.states.running
         process = obj()
         process.job = job
         out,err = Popen(command,shell=True,stdout=PIPE,stderr=PIPE,close_fds=True).communicate()
         output=out+'\n'+err
         pid = self.read_process_id(output)
         if pid is None:
             self.error('process id could not be determined from submission output\n  output:\n'+output)
         #end if
         #pid = 'fakepid_'+str(job.internal_id)
         job.system_id = pid
         self.processes[pid] = process
     #end if
     self.leave()
Ejemplo n.º 2
0
def read_outcar_charge_mag(vlines,odata,token):
    ion   = obj(s=[],p=[],d=[],tot=[])
    total = obj()
    vlines.advance_token(token)
    vlines.advance(4)
    prev_end = False
    n=0
    for line in vlines.remainder():
        n+=1
        if prev_end:
            break
        #end if
        if line[0]=='-':
            prev_end = True
        else:
            vals = array(line.split()[1:],dtype=float)
            ion.s.append(vals[0])
            ion.p.append(vals[1])
            ion.d.append(vals[2])
            ion.tot.append(vals[3])
        #end if
    #end for
    for channel,vals in ion.iteritems():
        ion[channel] = array(vals,dtype=float)
    #end for
    vlines.advance(n)
    vals = array(line.split()[1:],dtype=float)
    total.s   = vals[0]
    total.p   = vals[1]
    total.d   = vals[2]
    total.tot = vals[3]
    return ion,total
Ejemplo n.º 3
0
 def post_process_read(self,parent):
     if 'atomic_species' in parent:
         keys = self.keys()
         for alias,name in self.atomic_variables.iteritems():
             has_var = False
             avals = obj()
             akeys = []
             for key in keys:
                 if key.startswith(name):
                     has_hubbard_u = True
                     akeys.append(key)
                     index = int(key.replace(name,'').strip('()'))
                     avals[index] = self[key]
                 #end if
             #end for
             if has_var:
                 for key in akeys:
                     del self[key]
                 #end for
                 atoms = parent.atomic_species.atoms
                 value = obj()
                 for i in range(len(atoms)):
                     index = i+1
                     if index in avals:
                         value[atoms[i]] = avals[i+1]
                     #end if
                 #end for
                 self[alias] = value
Ejemplo n.º 4
0
 def class_init(cls):
     for kw_field in cls.kw_fields:
         if not kw_field in cls.__dict__:
             cls.__dict__[kw_field] = set()
         #end if
     #end for
     #cls.check_consistency()
     cls.scalar_keywords = set()
     for scalar_field in cls.kw_scalars:
         cls.scalar_keywords |= cls.__dict__[scalar_field]
     #end for
     cls.array_keywords = set()
     for array_field in cls.kw_arrays:
         cls.array_keywords |= cls.__dict__[array_field]
     #end for
     cls.keywords = cls.scalar_keywords | cls.array_keywords
     cls.type = obj()
     cls.read_value   = obj()
     cls.write_value  = obj()
     cls.assign_value = obj()
     for type in cls.kw_scalars + cls.kw_arrays:
         for name in cls.__dict__[type]:
             cls.type[name] = type
             cls.read_value[name]   = read_value_functions[type]
             cls.write_value[name]  = write_value_functions[type]
             cls.assign_value[name] = assign_value_functions[type]
Ejemplo n.º 5
0
Archivo: pwscf.py Proyecto: jyamu/qmc
 def get_result(self,result_name,sim):
     result = obj()        
     input = self.input
     control = input.control
     prefix = 'pwscf'
     outdir = './'
     if 'prefix' in control:
         prefix = control.prefix
     #end if
     if 'outdir' in control:
         outdir = control.outdir
     #end if
     if outdir.startswith('./'):
         outdir = outdir[2:]
     #end if
     if result_name=='charge_density':
         result.location = os.path.join(self.locdir,outdir,prefix+'.save','charge-density.dat')
     elif result_name=='orbitals':
         result.location = os.path.join(self.locdir,outdir,prefix+'.wfc1')
     elif result_name=='structure':
         pa = self.load_analyzer_image()
         structs = pa.structures
         pos,atoms = structs[len(structs)-1].tuple('positions','atoms')
         scale = self.input.system['celldm(1)']
         pos   = scale*array(pos)
         atoms = array(atoms)
         result.structure = obj(
             positions = pos,
             atoms     = atoms
             )
     else:
         self.error('ability to get result '+result_name+' has not been implemented')
     #end if
     return result
Ejemplo n.º 6
0
 def __init__(self):
     modes = nexus_core.modes
     self.persistent_modes = set([modes.submit,modes.all])
     self.simulations = obj()
     self.cascades = obj()
     self.progressing_cascades = obj()
     self.operations = []
Ejemplo n.º 7
0
    def pot_info(self):
        pot_info = obj()
        if len(self.pseudos)>0:
            pots = self.pseudos
        elif self.filepath!=None and self.files!=None:
            pots = obj()
            for file in self.files:
                pots.append(open(os.path.join(self.filepath,file),'r').read())
            #end for
        else:
            pots = obj()
        #end if
        for i in range(len(pots)):
            pot = pots[i]

            n1 = pot.find('\n')
            n2 = pot.find('\n',n1+1)
            Zval = int(float(pot[n1:n2].strip()))

            n  = pot.find('VRHFIN')
            n1 = pot.find('=',n+1)+1
            n2 = pot.find(':',n1+1)
            element = pot[n1:n2].strip()

            pot_info.append(obj(Zval=Zval,element=element))
        #end for
        return pot_info
Ejemplo n.º 8
0
Archivo: pwscf.py Proyecto: jyamu/qmc
 def get_result(self, result_name, sim):
     result = obj()
     input = self.input
     control = input.control
     prefix = "pwscf"
     outdir = "./"
     if "prefix" in control:
         prefix = control.prefix
     # end if
     if "outdir" in control:
         outdir = control.outdir
     # end if
     if outdir.startswith("./"):
         outdir = outdir[2:]
     # end if
     if result_name == "charge_density":
         result.location = os.path.join(self.locdir, outdir, prefix + ".save", "charge-density.dat")
         result.spin_location = os.path.join(self.locdir, outdir, prefix + ".save", "spin-polarization.dat")
     elif result_name == "orbitals":
         result.location = os.path.join(self.locdir, outdir, prefix + ".wfc1")
     elif result_name == "structure":
         pa = self.load_analyzer_image()
         structs = pa.structures
         pos, atoms = structs[len(structs) - 1].tuple("positions", "atoms")
         scale = self.input.system["celldm(1)"]
         pos = scale * array(pos)
         atoms = array(atoms)
         result.structure = obj(positions=pos, atoms=atoms)
     else:
         self.error("ability to get result " + result_name + " has not been implemented")
     # end if
     return result
Ejemplo n.º 9
0
    def readfile(self,filepath):
        text = TextFile(filepath)
        Zatom,Z = text.read_tokens('Atomic number and pseudo-charge',int,float)
        if Zatom>len(pt.simple_elements):
            self.error('element {0} is not in the periodic table')
        #end if
        element = pt.simple_elements[Zatom].symbol
        units = text.read_tokens('Energy units',str)
        if not units in self.unitmap:
            self.error('units {0} unrecognized from casino PP file {1}'.format(units,filepath))
        #end if
        lloc = text.read_tokens('Angular momentum of local component',int)
        ngrid = text.read_tokens('Number of grid points',int)
        i = text.find_line('R(i)',exit=True)+1
        r = empty((ngrid,),dtype=float)
        for ir in xrange(ngrid):
            r[ir] = float(text.lines[i])
            i+=1
        #end for
        r=r[1:]
        p = obj()
        while i<len(text.lines):
            line = text.lines[i]
            if 'potential' in line:
                eqloc = line.find('=')
                if eqloc==-1:
                    self.error('"=" not found in potential line')
                #end if
                l = int(line[eqloc+1])
                i+=1
                if i+ngrid>len(text.lines):
                    self.error('potentials in file {0} are not the right length'.format(filepath))
                #end if
                v = empty((ngrid,),dtype=float)
                for ir in xrange(ngrid):
                    v[ir] = float(text.lines[i])
                    i+=1
                #end for
                p[l] = v[1:]/r
            #end if
        #end while

        for l in p.keys():
            p[l] = convert(p[l],self.unitmap[units],self.energy_units)
        #end for

        self.set(
            element = element,
            type = 'Trail-Needs',
            Z = Z,
            r = r,
            potentials = p,
            pp = obj(
                Zatom = Zatom,
                Z     = Z,
                units = units,
                lloc  = lloc,
                ngrid = ngrid
                )
            )
Ejemplo n.º 10
0
 def uncontract(self,tol=1e-3):
     if self.uncontracted():
         return
     #end if
     lbasis = self.lbasis()
     self.basis.clear()
     for l in self.lset_full:
         if l in lbasis:
             exponents = []
             lbas = lbasis[l]
             for n in xrange(len(lbas)):
                 uterms = lbas[n].terms
                 for i in xrange(len(uterms)):
                     expon = uterms[i].expon
                     if len(exponents)==0:
                         exponents = array([expon],dtype=float)
                     elif abs(exponents-expon).min()>tol:
                         exponents = array(list(exponents)+[expon],dtype=float)
                     #end if
                 #end for
             #end for
             for expon in exponents:
                 cterms = obj()
                 cterms.append(obj(expon=expon,coeff=1.0))
                 bf = obj(l=l,scale=array([1.0]),terms=cterms)
                 self.basis.append(bf)
Ejemplo n.º 11
0
def morse_fit_fine(r,E,p0=None,rfine=None,both=False,jackknife=False,minimizer=least_squares,capture=None):  
    if rfine is None:
        rfine = linspace(r.min(),r.max(),400)
    #end if
    auxfuncs = obj(
        Efine = (morse,[None,rfine])
        )
    auxres = obj()

    res = morse_fit(r,E,p0,jackknife,minimizer,auxfuncs,auxres,capture)

    if not jackknife:
        pf = res
    else:
        pf,pmean,perror = res
    #end if

    Efine = morse(pf,rfine)
    
    if not jackknife:
        if not both:
            return Efine
        else:
            return pf,Efine
        #end if
    else:
        Emean,Eerror = auxres.Efine
        if not both:
            return Efine,Emean,Eerror
        else:
            return pf,pmean,perror,Efine,Emean,Eerror
Ejemplo n.º 12
0
 def __init__(self, arg0=None, prefix=None, analyze=False, exit=False, **outfilenames):
     self.info = obj(exit=exit, path=None, input=None, prefix=None, files=obj(), initialized=False)
     infile = None
     if isinstance(arg0, Simulation):
         sim = arg0
         infile = os.path.join(sim.locdir, sim.infile)
     else:
         infile = arg0
     # end if
     if infile != None:
         info = self.info
         info.path = os.path.dirname(infile)
         info.input = GamessInput(infile)
         infilename = os.path.split(infile)[1]
         if prefix is None:
             prefix = infilename.rsplit(".", 1)[0]
         # end if
         info.prefix = prefix
         files = info.files
         for file, unit in GamessInput.file_units.iteritems():
             files[file.lower()] = "{0}.F{1}".format(prefix, str(unit).zfill(2))
         # end for
         files.input = infilename
         files.output = "{0}.out".format(prefix)
         for name, filename in outfilenames:
             if name in files:
                 files[name] = filename
             else:
                 self.error("unknown GAMESS file: {0}".format(name))
             # end if
         # end for
         info.initialized = True
         if analyze:
             self.analyze()
Ejemplo n.º 13
0
 def __init__(self):
     # variables determined by self
     modes = self.modes
     self.persistent_modes = set([modes.submit, modes.all])
     self.simulations = obj()
     self.cascades = obj()
     self.progressing_cascades = obj()
     self.operations = []
Ejemplo n.º 14
0
 def from_list_rep(self,list_rep):
     self.local  = list_rep[0][0]
     if len(list_rep)>1:
         boxes = obj()
         for units,rmin,rmax,depth in list_rep[2:]:
             boxes.append(obj(units=units,rmin=rmin,rmax=rmax,depth=depth))
         #end for
         self.boxes = boxes
Ejemplo n.º 15
0
 def plot_trace(self,quantity,style='b-',offset=0,source='scalar',mlabels=True,
                mlines=True,show=True,alloff=False):
     mlabels &= not alloff
     mlines  &= not alloff
     show    &= not alloff
     shw = show
     offset = int(offset)
     id = self.info.input.get('project').id
     sdata = obj()
     series = sorted(self.qmc.keys())
     q = []
     soffset = offset
     for s in series:
         qmc = self.qmc[s]
         method = qmc.info.method
         if source=='scalar' or method=='vmc':
             src = qmc.scalars.data
         elif source=='dmc':
             src = qmc.dmc.data
         else:
             self.error('invalid source: '+source)
         #end if
         if quantity in src:
             qn = list(src[quantity])
         else:
             qn = len(src.LocalEnergy)*[0]
         #end if
         q.extend(qn)
         sdata[s] = obj(
             mlab = method+' '+str(s),
             mloc = soffset + len(qn)/2,
             line_loc = soffset + len(qn)-1
             )
         soffset += len(qn)
     #end for
     q = array(q)
     qmin = q.min()
     qmax = q.max()
     mlabel_height = qmin + .8*(qmax-qmin)
     if shw:
         figure()
     #end if
     plot(offset+arange(len(q)),q,style,label=id)
     for s in series:
         sd = sdata[s]
         if mlabels:
             text(sd.mloc,mlabel_height,sd.mlab)
         #end if
         if mlines:
             plot([sd.line_loc,sd.line_loc],[qmin,qmax],'k-')
         #end if
     #end for
     if shw:
         title('{0} vs series for {1}'.format(quantity,id))
         xlabel('blocks')
         ylabel(quantity)
         legend()
         show()
Ejemplo n.º 16
0
    def correct(self,*corrections):
        corrkey=''
        for corr in corrections:
            corrkey+=corr+'_'
        #end for
        corrkey=corrkey[:-1]
        if set(corrections)>set(self.corrections.keys()):
            self.warn('correction '+corrkey+' is unknown and cannot be applied')
            return
        #end if
        if not 'data' in self:
            self.warn('correction '+corrkey+' cannot be applied because data is not present')
            return
        #end if
        varname = 'LocalEnergy_'+corrkey
        if varname in self and varname in self.data:
            return
        #end if
        corrvars = ['LocalEnergy']
        signs    = [1]
        for corr in corrections:
            for var,sign in self.corrections[corr].iteritems():
                corrvars.append(var)
                signs.append(sign)
            #end for
        #end for
        missing = list(set(corrvars)-set(self.data.keys()))
        if len(missing)>0:            
            self.warn('correction '+corrkey+' cannot be applied because '+str(missing)+' are missing')
            return
        #end if

        le = self.data.LocalEnergy
        E,E2 = 0*le.value,0*le.value_squared
        n = len(corrvars)
        for i in range(n):
            ed = self.data[corrvars[i]]
            e,e2 = ed.value,ed.value_squared
            s = signs[i]
            E += s*e
            E2 += e2
            for j in range(i+1,n):
                eo = self.data[corrvars[j]].value
                so = signs[j]
                E2 += 2*s*e*so*eo
            #end for
        #end for
        val = obj(value=E,value_squared=E2)
        self.data[varname] = val
        nbe = self.info.nblocks_exclude
        (mean,var,error,kappa)=simstats(val.value[nbe:,...].ravel())
        self[varname] = obj(
            mean            = mean,
            variance        = val.value_squared[nbe:,...].mean()-mean**2,
            sample_variance = var,
            error           = error,
            kappa           = kappa
            )
Ejemplo n.º 17
0
    def __init__(self,**kwargs):
        #user specified variables
        self.path         = None   #directory where sim will be run
        self.job          = None   #Job object for machine
        self.dependencies = obj()  #Simulation results on which sim serially depends

        #variables determined by self
        self.identifier     = self.generic_identifier
        self.simid          = Simulation.sim_count
        Simulation.sim_count+=1
        self.files          = set()
        self.app_name       = self.application
        self.app_props      = list(self.application_properties)
        self.sim_image      = self.sim_imagefile
        self.input_image    = self.input_imagefile
        self.analyzer_image = self.analyzer_imagefile
        self.image_dir      = self.image_directory
        self.input          = self.input_type() 
        self.system         = None
        self.dependents     = obj()
        self.created_directories = False
        self.got_dependencies = False
        self.setup          = False
        self.sent_files     = False
        self.submitted      = False
        self.finished       = False
        self.failed         = False
        self.got_output     = False
        self.analyzed       = False
        self.subcascade_finished = False
        self.dependency_ids = set()
        self.wait_ids       = set()
        self.block          = False
        self.block_subcascade = False
        self.skip_submit    = nexus_core.skip_submit
        self.force_write    = False
        self.loaded         = False
        self.ordered_dependencies = []
        self.process_id     = None
        self.infile         = None
        self.outfile        = None
        self.errfile        = None

        #variables determined by derived classes
        self.outputs = None  #object representing output data 
                             # accessed by dependents when calling get_dependencies

        self.set(**kwargs)
        self.set_directories()
        self.set_files()
        self.propagate_identifier()
        if len(kwargs)>0:
            self.init_job()
        #end if
        self.post_init()
        if self.system!=None:
            self.system.check_folded_system()
Ejemplo n.º 18
0
 def __init__(self,*args,**kwargs):
     # some args are
     #   graph_name = 'G'
     #   graph_type in ('graph','digraph')
     self.graph = self.pydot_type(*args,**kwargs)
     self.name  = self.graph.get_name()
     self.nodes = obj()
     self.edges = obj()
     self.subgraphs = obj()
Ejemplo n.º 19
0
    def add_density(
        self, cell, density, name="density", corner=None, grid=None, centered=False, add_ghost=False, transpose=False
    ):
        if corner is None:
            corner = zeros((3,), dtype=float)
        # end if
        if grid is None:
            grid = density.shape
        # end if
        grid = array(grid, dtype=int)
        corner = array(corner, dtype=float)
        cell = array(cell, dtype=float)
        density = array(density, dtype=float)
        density.shape = tuple(grid)

        if centered:  # shift corner by half a grid cell to center it
            dc = 0.5 / grid
            dc = dot(dc, cell)
            corner += dc
        # end if

        if add_ghost:  # add ghost points to make a 'general' xsf grid
            g = grid  # this is an extra shell of points in PBC
            d = density
            grid = g + 1
            density = zeros(tuple(grid), dtype=float)
            density[: g[0], : g[1], : g[2]] = d[:, :, :]  # volume copy
            density[-1, : g[1], : g[2]] = d[0, :, :]  # face copies
            density[: g[0], -1, : g[2]] = d[:, 0, :]
            density[: g[0], : g[1], -1] = d[:, :, 0]
            density[-1, -1, : g[2]] = d[0, 0, :]  # edge copies
            density[-1, : g[1], -1] = d[0, :, 0]
            density[: g[0], -1, -1] = d[:, 0, 0]
            density[-1, -1, -1] = d[0, 0, 0]  # corner copy
        # end if

        if transpose:  # shift from row major to column major
            g = grid
            d = density
            density = zeros((d.size,))
            n = 0
            for k in xrange(g[2]):
                for j in xrange(g[1]):
                    for i in xrange(g[0]):
                        density[n] = d[i, j, k]
                        n += 1
                    # end for
                # end for
            # end for
            density.shape = tuple(grid)
        # end if

        self.data = obj()
        self.data[3] = obj()
        self.data[3][name] = obj()
        self.data[3][name][name] = obj(grid=grid, corner=corner, cell=cell, values=density)
Ejemplo n.º 20
0
 def load_cascades(self):
     cascades = obj()
     progressing_cascades = obj()
     for cid,cascade in self.cascades.iteritems():
         rc = cascade.reconstruct_cascade()
         cascades[rc.simid] = rc 
         progressing_cascades[rc.simid] = rc
     #end for
     self.cascades = cascades
     self.progressing_cascades = progressing_cascades
Ejemplo n.º 21
0
 def from_list_rep(self,list_rep):
     self.symbol = list_rep[0][0]
     self.rorbs  = list_rep[1][0]
     ref = obj()
     n = 0
     for nlm,occ,eig in list_rep[2:]:
         ref[n] = obj(nlm=nlm,occ=occ,eig=eig)
         n+=1
     #end for
     self.ref = ref
Ejemplo n.º 22
0
    def __init__(self,fpath,verbose=False,view=False):
        
        HDFglobals.view = view

        if verbose:
            print '  Initializing HDFreader'

        self.fpath=fpath
        if verbose:
            print '    loading h5 file'

        try:
            self.hdf = h5py.File(fpath,'r')
        except IOError:
            self._success = False
            self.hdf = obj(obj=obj())
        else:
            self._success = True
        #end if

        if verbose:
            print '    converting h5 file to dynamic object'
        #convert the hdf 'dict' into a dynamic object
        self.nlevels=1
        self.ilevel=0
        #  Set the current hdf group
        self.obj = HDFgroup()
        self.cur=[self.obj]
        self.hcur=[self.hdf]

        if self._success:
            cur   = self.cur[self.ilevel]
            hcur  = self.hcur[self.ilevel]
            for kr,v in hcur.iteritems():
                k=cur._escape_name(kr)
                if valid_variable_name(k):
                    vtype = str(type(v))
                    if vtype in HDFreader.datasets:
                        self.add_dataset(cur,k,v)
                    elif vtype in HDFreader.groups:
                        self.add_group(hcur,cur,k,v)
                    else:
                        print 'hdfreader error: encountered invalid type: '+vtype
                        sys.exit()
                    #end if
                else:
                    print 'hdfreader warning: attribute '+k+' is not a valid variable name and has been ignored'                    
                #end if
            #end for
        #end if

        if verbose:
            print '  end HDFreader Initialization'

        return
Ejemplo n.º 23
0
 def lbasis(self):
     lbasis = obj()
     for n in range(len(self.basis)):
         bf = self.basis[n]
         l  = bf.l
         if l not in lbasis:
             lbasis[l] = obj()
         #end if
         lbasis[l].append(bf)
     #end for
     return lbasis
Ejemplo n.º 24
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 def add_to_image(self, image, name, value):
     if image is None:
         self[name] = value
     else:
         if "images" not in self:
             self.images = obj()
         # end if
         if not image in self.images:
             self.images[image] = obj()
         # end if
         self.images[image][name] = value
Ejemplo n.º 25
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 def analyze_outcar(self,outcar):
     if not os.path.exists(outcar):
         self.error('outcar file {0} does not exist'.format(outcar))
     #end if
     oc = open(outcar,'r')
     lines = oc.read().splitlines()
     oc.close()
     del oc
     # gather initialization lines
     init = []
     n = 0
     for line in lines:
         if len(line)>0 and line[0]=='-' and 'Iteration' in line:
             break
         #end if
         init.append(line)
         n+=1
     #end for
     # gather lines for each iteration
     ion_steps = obj()
     for line in lines[n:]:
         if len(line)>0 and line[0]=='-' and 'Iteration' in line:
             iteration = []
             inum,enum = line.strip(' -Iteration)').split('(')
             inum = int(inum)
             enum = int(enum)
             if not inum in ion_steps:
                 ion_steps[inum] = obj()
             #end if
             ion_steps[inum][enum] = OutcarData(lines=iteration)
         #end if
         iteration.append(line)
     #end for
     del lines
     del n
     # read data from each iteration
     if len(ion_steps)>0:
         imax = array(ion_steps.keys(),dtype=int).max()
         for inum,ion_step in ion_steps.iteritems():
             ilast = inum==imax
             if len(ion_step)>0:
                 emax = array(ion_step.keys(),dtype=int).max()
                 for enum,elec_step in ion_step.iteritems():
                     elast = enum==emax
                     elec_step.read(ilast,elast,all=False)
                     if ilast and elast:
                         self.transfer_from(elec_step)
                     #end if
                 #end for
             #end if
         #end for
     #end if
     self.ion_steps = ion_steps
Ejemplo n.º 26
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 def read_contents(self,lines):
     atoms = []
     masses   = obj()
     pseudopotentials = obj()
     for l in lines:
         tokens = l.split()
         atom = tokens[0]
         atoms.append(tokens[0])
         masses[atom] = float(tokens[1])
         pseudopotentials[atom] = tokens[2]
     #end for
     self.add(atoms=atoms,masses=masses,pseudopotentials=pseudopotentials)
Ejemplo n.º 27
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 def read_contents(self,lines):
     tokens = lines[0].split()
     self.ncontraints = int(tokens[0])
     if len(tokens)>1:
         self.tolerance = float(tokens[1])
     #end if
     self.collective_vars = obj()
     for i in range(len(lines)-1):
         tokens = lines[i+1].split()
         collv = obj()
         collv.type = tokens[0]
         collv.parameters = array(tokens[1:],dtype=float64)
         self.collective_vars[i] = collv
Ejemplo n.º 28
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    def __init__(self):
        self._name=''
        self._parent=None
        self._elements=obj()
        self._texts=obj()
        self._attributes=obj()
        self._element_counts=obj()
        self._ntexts=0

        self._escape_names=None
        #self._escape_names=set(dict(getmembers(self)).keys()) | set(keyword.kwlist)
        self._escape_names=set(keyword.kwlist)
        return
Ejemplo n.º 29
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def read_outcar_accounting(vlines,odata):
    time = obj()
    memory = obj()
    vlines.advance_token('General timing and accounting')
    vlines.advance(2)
    time.cpu     = float(vlines.advance_line(1).split()[-1])
    time.user    = float(vlines.advance_line(1).split()[-1])
    time.system  = float(vlines.advance_line(1).split()[-1])
    time.elapsed = float(vlines.advance_line(1).split()[-1])
    vlines.advance(1)
    memory.maximum = float(vlines.advance_line(1).split()[-1])
    memory.average = float(vlines.advance_line(1).split()[-1])
    odata.time   = time
    odata.memory = memory
Ejemplo n.º 30
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 def load_cascades(self):
     self.dlog("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~load cascades", n=1)
     cascades = obj()
     progressing_cascades = obj()
     for cid, cascade in self.cascades.iteritems():
         self.dlog("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~reconstruct cascade", n=1)
         rc = cascade.reconstruct_cascade()
         self.dlog("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~end reconstruct cascade", n=1)
         cascades[rc.simid] = rc
         progressing_cascades[rc.simid] = rc
     # end for
     self.cascades = cascades
     self.progressing_cascades = progressing_cascades
     self.dlog("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~end load cascades", n=1)
Ejemplo n.º 31
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 def get_result(self,result_name,sim):
     result = obj()
     input = self.input
     wfn_file,ptcl_file = self.list_output_files()
     if result_name=='orbitals':
         result.location = os.path.join(self.locdir,wfn_file)
         if self.input.hdf5==True:
             orbfile = self.get_prefix()+'.orbs.h5'
             result.orbfile = os.path.join(self.locdir,orbfile)
         #end if
     elif result_name=='particles':
         result.location = os.path.join(self.locdir,ptcl_file)
     else:
         self.error('ability to get result '+result_name+' has not been implemented')
     #end if        
     return result
Ejemplo n.º 32
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 def contracted_basis_size(self):
     bcount = obj()
     for bf in self.basis:
         l = bf.l
         if l not in bcount:
             bcount[l] = 0
         #end if
         bcount[l] += 1
     #end for
     bs = ''
     for l in self.lset_full:
         if l in bcount:
             bs += str(bcount[l]) + l
         #end if
     #end for
     return bs
Ejemplo n.º 33
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 def init_job_extra(self):
     # gamess seems to need lots of environment variables to run properly
     # nearly all of these are names of output/work files
     # setup the environment to run gamess
     if not isinstance(self.ericfmt, str):
         self.error(
             'you must set ericfmt with settings() or Gamess.settings()')
     #end if
     env = obj()
     for file, unit in GamessInput.file_units.iteritems():
         env[file] = '{0}.F{1}'.format(self.identifier, str(unit).zfill(2))
     #end for
     env.INPUT = self.infile
     env.ERICFMT = self.ericfmt
     env.MCPPATH = self.mcppath
     self.job.set_environment(**env)
Ejemplo n.º 34
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 def prim_expons(self):
     if self.contracted():
         self.error(
             'cannot find primitive gaussian expons because basis is contracted'
         )
     #end if
     lbasis = self.lbasis()
     gexpon = obj()
     for l, lbas in lbasis.items():
         e = []
         for n in range(len(lbas)):
             e.append(lbas[n].terms[0].expon)
         #end for
         gexpon[l] = array(e, dtype=float)
     #end for
     return gexpon
Ejemplo n.º 35
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 def prim_widths(self):
     if self.contracted():
         self.error(
             'cannot find primitive gaussian widths because basis is contracted'
         )
     #end if
     lbasis = self.lbasis()
     gwidth = obj()
     for l, lbas in lbasis.items():
         w = []
         for n in range(len(lbas)):
             w.append(1. / sqrt(2. * lbas[n].terms[0].expon))
         #end for
         gwidth[l] = array(w, dtype=float)
     #end for
     return gwidth
Ejemplo n.º 36
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class SystemGroup(KeywordSpecGroup):
    keywords = set(['mwords','memddi','timlim','parall','kdiag','corefl',
                    'baltyp','mxseq2','mxseq3','nodext','iosmp','modio' ,
                    'memory'])

    integers = set(['mwords','memddi','kdiag','mxseq2','mxseq3','modio','memory'])
    reals    = set(['timlim'])
    bools    = set(['parall','corefl'])
    strings  = set(['baltyp'])
    arrays   = set(['nodext','iosmp'])

    allowed_values = obj(
        kdiag  = set([0,1,2,3]),
        baltyp = set(['slb','dlb','loop','nxtval']),
        modio  = set([1,2,4,8,15]),
        )
Ejemplo n.º 37
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 def finalize(self):
     keys = list(self.keys())
     enums = obj()
     for k in keys:
         v = self[k]
         if isinstance(k,str) and '.' in k and k.split('.',1)[1].isdigit():
             name,index = k.split('.',1)
             index = int(index)
             if not name in enums:
                 enums[name] = QEXML()
             #end if
             enums[name][index] = v
             del self[k]
             continue
         #end if
         if isinstance(v,QEXML):
             if len(set(v.keys())-self.array_keys)==0:
                 a = array(v._value)
                 if len(a)==1:
                     a = a[0]
                 elif 'columns' in v and v.size%v.columns==0:
                     a.shape = v.size/v.columns,v.columns
                 #end if
                 self[k] = a
             else:
                 v.finalize()
             #end if
         #end if
     #end for
     for k,v in enums.iteritems():
         self[k] = v
         v.finalize()
     #end for
     if len(self._value)==0:
         del self._value
     elif not 'value' in self:
         if len(self._value)==1:
             self.value = self._value[0]
         else:
             self.value = array(self._value)
         #end if
         del self._value
     else:
         if len(self._value)==1:
             self._value = self._value[0]
         else:
             self._value = array(self._value)
Ejemplo n.º 38
0
    def __init__(self,structure=None,net_charge=0,net_spin=0,particles=None,**valency):
        self.pseudized = False

        if structure is None:
            self.structure = Structure()
        else:
            self.structure = structure
        #end if
        if particles is None:
            self.particles = Particles()
        else:
            self.particles = particles.copy()
        #end if

        self.folded_system = None
        if self.structure.folded_structure!=None:
            vratio = structure.volume()/structure.folded_structure.volume()
            ncells = int(round(vratio))
            if abs(vratio-ncells)>1e-4:
                self.error('volume of system does not divide evenly into folded system')
            #end if
            if net_charge%ncells!=0:
                self.error('net charge of system does not divide evenly into folded system')
            #end if
            if isinstance(net_spin,str):
                net_spin_fold = net_spin
            elif net_spin%ncells!=0:
                self.error('net_spin of system does not divide evenly into folded system')
            else:
                net_spin_fold = net_spin/ncells 
            #end if
            self.folded_system = PhysicalSystem(
                structure  = structure.folded_structure,
                net_charge = net_charge/ncells,
                net_spin   = net_spin_fold,
                particles  = particles,
                **valency
                )
        #end if

        self.valency_in = obj(**valency)
        self.net_charge_in = net_charge
        self.net_spin_in   = net_spin

        self.update_particles(clear=False)

        self.check_folded_system()
Ejemplo n.º 39
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 def get_result(self, result_name, sim):
     result = obj()
     analyzer = self.load_analyzer_image()
     if result_name == 'orbitals':
         outfiles = self.input.get_output_info(list=False)
         result.set(dir=self.locdir,
                    h5file=outfiles.h5,
                    qmcfile=outfiles.qmc)
     elif result_name == 'jastrow':
         result.set(rcut=analyzer.find_rcut(qcut=1e-3),
                    B=1. / analyzer.moment(n=1))
     else:
         self.error('ability to get result ' + result_name +
                    ' has not been implemented')
     #end if
     del analyzer
     return result
Ejemplo n.º 40
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    def get_result(self, result_name, sim):
        # optional
        #  only necessary if another simulation depends on this one
        #  e.g.
        #  other_sim.depends(template_simulation_sim,'orbitals')  or similar
        # if you don't want to implement it, uncomment the line below
        #self.not_implemented()

        result = obj()
        input = self.input
        #analyzer = self.load_analyzer_image()

        # package information about a result/product in the result object
        # for example, if orbitals are requested,
        # the path to the orbital file might be provided:
        # result.orbital_file = '/path/to/orbital/file'
        return result
Ejemplo n.º 41
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Archivo: qmcpack.py Proyecto: jyamu/qmc
 def get_result(self, result_name, sim):
     result = obj()
     analyzer = self.load_analyzer_image()
     if result_name == 'jastrow':
         if not 'results' in analyzer or not 'optimization' in analyzer.results:
             self.error(
                 'analyzer did not compute results required to determine jastrow'
             )
         #end if
         opt_file = str(analyzer.results.optimization.optimal_file)
         result.opt_file = os.path.join(self.locdir, opt_file)
     else:
         self.error('ability to get result ' + result_name +
                    ' has not been implemented')
     #end if
     del analyzer
     return result
Ejemplo n.º 42
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 def resolve_file_collisions(self):
     self.log('checking for file collisions',n=1)
     entry_order = obj()
     def set_entry_order(sim,entry_order):
         locdir = sim.locdir
         if not locdir in entry_order:
             entry_order[locdir] = [sim]
         else:
             entry_order[locdir].append(sim)
         #end if
     #end def set_entry_order
     self.traverse_cascades(set_entry_order,entry_order)        
     any_collisions = False
     collpath = ''
     for path,simlist in entry_order.iteritems():
         if len(simlist)>1:
             #raise an error if any in/out/err files will collide
             filespace = dict()
             for sim in simlist:
                 if not sim.allow_overlapping_files:
                     files = sim.list('infile','outfile','errfile')
                     for f in files:
                         if f not in filespace:
                             filespace[f] = [sim]
                         else:
                             filespace[f].append(sim)
                         #end if
                     #end for
                 #end if
             #end for
             for f,sims in filespace.iteritems():
                 if len(sims)>1 and f!=None:
                     any_collisions = True
                     msg = 'collision: file '+f+' is overwritten by '
                     for sim in sims:
                         msg +=str(sim.identifier)+' '+str(sim.simid)+','
                     #end for
                     self.log(msg[:-1],n=2)
                     collpath = path
                 #end if
             #end for
         #end if
     #end for
     if any_collisions:
         self.error('file collisions found in directory\n  '+path+'\n  set a unique identifier for each simulation')
Ejemplo n.º 43
0
Archivo: opium.py Proyecto: sbak5/hclib
class Optinfo(Section):
    variables = obj(qcuts=list, bessels=list)

    def list_rep(self):
        list_rep = zip(self.qcuts, self.bessels)
        return list_rep

    #end def list_rep

    def from_list_rep(self, list_rep):
        qc = []
        bs = []
        for q, b in list_rep:
            qc.append(q)
            bs.append(b)
        #end for
        self.qcuts = qc
        self.bessels = bs
Ejemplo n.º 44
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 def incorporate_user_info(self, infoin):
     info = obj(**infoin)
     vars = set(info.keys())
     invalid = vars - self.allowed_user_info
     if len(invalid) > 0:
         self.error(
             'invalid inputs encountered in incorporate_user_info\n  allowed inputs: {0}\n  invalid inputs: {1}'
             .format(list(self.allowed_user_info), list(invalid)))
     #end if
     if 'app_directories' in info:
         ad = info.app_directories
         if not isinstance(ad, dict) and not isinstance(ad, obj):
             self.error(
                 'app_directories must be of type dict or obj\n you provided '
                 + ad.__class__.__name__)
         #end if
     #end if
     self.transfer_from(info)
Ejemplo n.º 45
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class BasisGroup(KeywordSpecGroup):
    keywords = set([
            'gbasis','ngauss','ndfunc','npfunc','diffsp','diffs',
            'polar' ,'split2','split3','basnam','extfil'
            ])

    integers = set(['ngauss','ndfunc','nffunc'])
    bools    = set(['diffsp','diffs','extfil'])
    strings  = set(['gbasis','polar'])
    arrays   = set(['split2','split3','basname'])

    allowed_values = obj(
        #gbasis = set(['sto','n21','n31','n311','g3l','g3lx','mini','midi','dzv',
        #              'dh','tzv','mc']) # many others
        ndfunc = set([0,1,2,3]),
        nffunc = set([0,1]),
        polar  = set(['common','popn31','popn311','dunning','huzinaga','hondo7']),
        )
Ejemplo n.º 46
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    def __init__(self):

        self.methods = set(['opt', 'vmc', 'dmc', 'rmc'])
        self.data_sources = set(
            ['scalar', 'stat', 'dmc', 'storeconfig', 'opt', 'traces'])
        self.scalars = set([
            'localenergy', 'localpotential', 'kinetic', 'elecelec', 'localecp',
            'nonlocalecp', 'ionion', 'localenergy_sq', 'acceptratio',
            'blockcpu', 'blockweight', 'mpc', 'kecorr'
        ])
        self.fields = set([
            'energydensity', 'density', 'dm1b', 'spindensity',
            'structurefactor'
        ])

        hdf_data_sources = set(['stat', 'storeconfig', 'traces'])
        if h5py_unavailable:
            self.data_sources -= hdf_data_sources
        #end if

        self.analyzer_quantities = set(self.fields)

        self.analyzers = obj(scalars_dat=ScalarsDatAnalyzer,
                             scalars_hdf=ScalarsHDFAnalyzer,
                             dmc_dat=DmcDatAnalyzer,
                             traces=TracesAnalyzer,
                             energydensity=EnergyDensityAnalyzer,
                             dm1b=DensityMatricesAnalyzer,
                             spindensity=SpinDensityAnalyzer,
                             structurefactor=StructureFactorAnalyzer,
                             density=DensityAnalyzer)

        self.quantities = self.scalars | self.fields

        self.ignorable_estimators = set(['LocalEnergy'])

        self.quantity_aliases = dict()
        for q in self.analyzer_quantities:
            self.quantity_aliases[q] = q
        #end for

        self.future_quantities = set(
            ['StructureFactor', 'MomentumDistribution'])
        return
Ejemplo n.º 47
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def test_convert4qmc_input_generate():
    from generic import obj
    from qmcpack_converters import generate_convert4qmc_input

    ci = generate_convert4qmc_input(
        gamess='gamess.out',
        hdf5=True,
    )

    ci_ref = obj(
        add_3body_J=False,
        add_cusp=False,
        app_name='convert4qmc',
        casino=None,
        ci=None,
        first=None,
        gamess='gamess.out',
        gamess_ascii=None,
        gamess_fmo=None,
        gamess_xml=None,
        gaussian=None,
        gridtype=None,
        hdf5=True,
        ion_tag=None,
        last=None,
        multidet=None,
        natural_orbitals=None,
        no_jastrow=False,
        opt_det_coeffs=False,
        orbitals=None,
        prefix=None,
        production=False,
        psi_tag=None,
        pyscf=None,
        qp=None,
        read_initial_guess=None,
        size=None,
        target_state=None,
        threshold=None,
        vsvb=None,
        zero_ci=False,
    )

    assert (object_eq(ci.to_obj(), ci_ref))
Ejemplo n.º 48
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 def check_attributes(self, exit=False):
     msg = ''
     cls = self.__class__
     a = obj()
     for name in cls.toplevel_attributes:
         if name in self:
             a[name] = self[name]
         #end if
     #end for
     props = cls.attribute_definitions
     for name in cls.sublevel_attributes:
         p = props[name]
         if p.dest in self:
             sub = self[p.dest]
             if name in sub:
                 a[name] = sub[name]
             #end if
         #end if
     #end for
     present = set(a.keys())
     missing = cls.required_attributes - present
     if len(missing) > 0:
         m = ''
         for n in sorted(missing):
             m += '\n  ' + n
         #end for
         msg += 'Required attributes are missing.\nPlease provide the following attributes during initialization:{}\n'.format(
             m)
     #end if
     for name in cls.typed_attributes:
         if name in a:
             p = props[name]
             v = a[name]
             if not isinstance(v, p.type):
                 msg += 'Attribute "{}" has invalid type.\n  Type expected: {}\n  Type present: {}\n'.format(
                     name, p.type.__name__, v.__class__.__name__)
             #end if
         #end if
     #end for
     valid = len(msg) == 0
     if not valid and exit:
         self.error(msg)
     #end if
     return valid
Ejemplo n.º 49
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 def get_result(self, result_name, sim):
     result = obj()
     rc = self.input.run_control
     if result_name == 'orbitals':
         if rc.run_type == 'save_for_qmcpack':
             result.outfile = os.path.join(self.locdir, self.outfile)
         elif rc.save_for_qmcpack:
             result.outfile = os.path.join(
                 self.locdir, '{0}_savewf.out'.format(self.identifier))
         else:
             self.error(
                 "cannot get orbitals\ntracking of save_for_qmcpack is somehow corrupted\nthis is a developer error"
             )
         #end if
     else:
         self.error('ability to get result ' + result_name +
                    ' has not been implemented')
     #end if
     return result
Ejemplo n.º 50
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    def get_result(self, result_name, sim):
        result = obj()
        input = self.input
        if result_name == 'structure':
            # OUTCAR structure is not as precise as CONTCAR structure
            #pa = self.load_analyzer_image()
            #elem       = input.poscar.elem
            #elem_count = input.poscar.elem_count
            #atoms = []
            #for i in range(len(elem)):
            #    atoms += elem_count[i]*[elem[i]]
            ##end for
            #structure = Structure(
            #    units = 'A',
            #    axes  = pa.lattice_vectors.copy(),
            #    elem  = atoms,
            #    pos   = pa.position.copy()
            #    )

            # get structure from CONTCAR
            ccfile = os.path.join(self.locdir, self.identifier + '.CONTCAR')
            if not os.path.exists(ccfile):
                self.error(
                    'CONTCAR file does not exist for relax simulation at ' +
                    self.locdir)
            #end if
            contcar = Poscar(ccfile)
            structure = Structure()
            if contcar.elem != None:
                structure.read_poscar(ccfile)
            else:
                elem, elem_count = self.system.structure.order_by_species()
                structure.read_poscar(ccfile, elem=elem)
            #end if
            if input.poscar.dynamic != None:
                structure.freeze(input.poscar.dynamic, negate=True)
            #end if
            result.structure = structure
        else:
            self.error('ability to get result ' + result_name +
                       ' has not been implemented')
        #end if
        return result
Ejemplo n.º 51
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class GuessGroup(KeywordSpecGroup):
    keywords = set([
        'guess', 'prtmo', 'punmo', 'mix', 'norb', 'norder', 'iorder', 'jorder',
        'insorb', 'purify', 'tolz', 'tole', 'symden'
    ])

    integers = set(['norb', 'norder', 'insorb'])
    reals = set(['tolz', 'tole'])
    bools = set(['prtmo', 'punmo', 'mix', 'purify', 'symden'])
    strings = set(['guess'])
    arrays = set(['iorder', 'jorder'])

    allowed_values = obj(
        guess=set([
            'huckel', 'hcore', 'moread', 'rdmini', 'mosaved', 'skip', 'fmo',
            'hucsub', 'dmread'
        ]),
        norder=set([0, 1]),
    )
Ejemplo n.º 52
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class CidrtGroup(KeywordSpecGroup):
    keywords = set([
            'group','fors'  ,'foci'  ,'soci','iexcit','intact','nfzc' ,
            'ndoc' ,'naos'  ,'nbos'  ,'nalp','nval'  ,'next'  ,'nfzv' ,'stsym',
            'noirr','mxnint','mxneme','nprt'
            ])

    integers = set(['iexcit','nfzc','ndoc','naos','nbos','nalp','nval',
                    'next','nfzv','noirr','mxnint','mxneme','nprt'])
    bools    = set(['fors','foci','soci','intact'])
    strings  = set(['group','stsym'])

    allowed_values = obj(
        group = set(['c1','c2','ci','cs','c2v','c2h','d2','d2h','c4v','d4','d4h']),
        stsym = set(['a','ag','au','ap','app','a','b','a1','a2','b1','b2','ag',
                     'bu','bg','au','a','b1','b2','b3','ag','b1g','b2g','b3g',
                     'au','b1u','b2u','b3u']),
        nprt = set([0,1,2,3]),
        )
Ejemplo n.º 53
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 def read_results(self, logfile):
     results = obj()
     if 'setup_info' in self and 'run_mode' in self.setup_info:
         mode = self.setup_info.run_mode
     else:
         return
     #end if
     f = logfile
     if mode == 'scf':
         f.seek('final total energy', 1)
         t = f.readtokens()
         results.energy = float(t[-2])
         results.energy_units = t[-1]
     elif mode == 'band':
         None
     else:
         self.warn(
             'Results not read.\nUnrecognized run mode: {}'.format(mode))
     #end if
     self.results = results
Ejemplo n.º 54
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 def pseudize(self,**valency):
     errors = False
     for ion,valence_charge in valency.iteritems():
         if ion in self.particles:
             ionp = self.particles[ion]
             if isinstance(ionp,Ion):
                 self.particles[ion] = ionp.pseudize(valence_charge)
             else:
                 self.error(ion+' cannot be pseudized',exit=False)
             #end if
         else:
             self.error(ion+' is not in the physical system',exit=False)
             errors = True
         #end if
     #end for
     if errors:
         self.error('system cannot be generated')
     #end if
     self.valency = obj(**valency)
     self.update()
Ejemplo n.º 55
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 def get_result(self,result_name,sim):
     result = obj()
     analyzer = self.load_analyzer_image()
     if result_name=='jastrow' or result_name=='wavefunction':
         if not 'results' in analyzer or not 'optimization' in analyzer.results:
             self.error('analyzer did not compute results required to determine jastrow')
         #end if
         opt_file = analyzer.results.optimization.optimal_file
         opt_file = str(opt_file)
         result.opt_file = os.path.join(self.locdir,opt_file)
     elif result_name=='cuspcorr':
         result.spo_up_cusps = os.path.join(self.locdir,self.identifier+'.spo-up.cuspInfo.xml')
         result.spo_dn_cusps = os.path.join(self.locdir,self.identifier+'.spo-dn.cuspInfo.xml')
         result.updet_cusps = os.path.join(self.locdir,'updet.cuspInfo.xml')
         result.dndet_cusps = os.path.join(self.locdir,'downdet.cuspInfo.xml')
     else:
         self.error('ability to get result '+result_name+' has not been implemented')
     #end if        
     del analyzer
     return result
Ejemplo n.º 56
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 def set_dev_instruction(cls,
                         situation='writing a derived class',
                         class_variables=None,
                         class_functions=None,
                         member_variables=None,
                         member_functions=None):
     if class_variables is None:
         class_variables = []
     if class_functions is None:
         class_functions = []
     if member_variables is None:
         member_variables = []
     if member_functions is None:
         member_functions = []
     ins = obj()
     cls.dev_instructions_data[situation] = ins
     ins.class_variables = class_variables
     ins.class_functions = class_functions
     ins.member_variables = member_variables
     ins.member_functions = member_functions
Ejemplo n.º 57
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 def read_states(self):
     log = self.log
     log.seek('state #')
     nstates = 0
     elem_ind = set()
     elem = []
     while True:
         line = log.readline()
         tokens = line.replace('(', ' ').replace(')', ' ').split()
         if not (len(tokens) > 0 and tokens[0] == 'state'):
             break
         #end if
         ei, e = tokens[4], tokens[5]
         if ei not in elem_ind:
             elem.append(e)
             elem_ind.add(ei)
         #end if
         nstates += 1
     #end while
     self.states = obj(nstates=nstates, elem=elem)
Ejemplo n.º 58
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class QAobject(Pobj):

    _global = obj()
    _global.dynamic_methods_objects = []

    plotter = Plotter()

    opt_methods = set(['opt', 'linear', 'cslinear'])

    def __init__(self):
        return

    #end def __init__

    @staticmethod
    def condense_name(name):
        return name.strip().lower().replace(' ', '_').replace('-',
                                                              '_').replace(
                                                                  '__', '_')

    #end def condense_name

    def _register_dynamic_methods(self):
        QAobject._global.dynamic_methods_objects.append(self)
        return

    #end def _register_dynamic_methods

    def _unlink_dynamic_methods(self):
        for o in QAobject._global.dynamic_methods_objects:
            o._unset_dynamic_methods()
        #end for
        return

    #end def _unlink_dynamic_methods

    def _relink_dynamic_methods(self):
        for o in QAobject._global.dynamic_methods_objects:
            o._reset_dynamic_methods()
        #end for
        return
Ejemplo n.º 59
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 def get_result(self, result_name, sim):
     result = obj()
     inputpp = self.input.inputpp
     prefix = 'pwscf'
     outdir = './'
     if 'prefix' in inputpp:
         prefix = inputpp.prefix
     #end if
     if 'outdir' in inputpp:
         outdir = inputpp.outdir
     #end if
     if outdir.startswith('./'):
         outdir = outdir[2:]
     #end if
     if result_name == '':
         None
     else:
         self.error('ability to get result ' + result_name +
                    ' has not been implemented')
     #end if
     return result
Ejemplo n.º 60
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 def md_statistics(self, equil=None, autocorr=None):
     import numpy as np
     from numerics import simstats, simplestats
     mds = obj()
     for q, v in self.md_data.items():
         if equil is not None:
             v = v[equil:]
         #end if
         if autocorr is None:
             mean, var, error, kappa = simstats(v)
         else:
             nv = len(v)
             nb = int(np.floor(float(nv) / autocorr))
             nexclude = nv - nb * autocorr
             v = v[nexclude:]
             v.shape = nb, autocorr
             mean, error = simplestats(v.mean(axis=1))
         #end if
         mds[q] = mean, error
     #end for
     return mds