コード例 #1
0
 def dexmlize(self, clfilename=""):
     """
     closeds already is []
     ToDo: check support in xml file,
     read/write further params there
     (e.g. dataset params)...
     """
     if not clfilename:
         clfilename = self.xmlfilename
     xmldoc = xml.etree.ElementTree.parse(clfilename)
     elemclos = xmldoc.find("closures")
     self.minsupp = self.nrtr
     for clo in elemclos.getchildren():
         "handle a closed set"
         s = set()
         for itelem in clo.getchildren():
             "to do: check they are items"
             it = itelem.get("value")
             s.add(it)
         spp = int(clo.get("support"))
         clos = set2node(s, spp)
         if spp < self.minsupp:
             self.minsupp = spp
         self.closeds.append(clos)
         self.card += 1
コード例 #2
0
ファイル: slattice.py プロジェクト: alex148m/AlejandroTFG
 def findmingens(self,suppthr=-1):
     """
     compute the minimal generators for each closure;
     nontrivial pairs conform Wild's iteration-free basis;
     algorithm is the same as mineRR for confidence 1;
     optional suppthr in [0,1] to impose an extra level of iceberg
     but this optional value is currently ignored
     because maybe minsupp actually much higher than mined at
     use the support found in closures file
     when other supports handled, remember to memorize computed ones
     """
     if suppthr < 0:
         "ToDo: find out how to use integer division"
         sthr = int(self.scale*self.minsupp/self.nrtr)
     else:
         "ToDo: remove this assignment and do it the right way"
         sthr = int(self.scale*self.minsupp/self.nrtr)
     if len(self.mingens)>0:
         return self.mingens
     self.v.inimessg("Computing cuts for minimal generators...")
     nonants = self.setcuts(sthr,self.scale,False)[1]
     self.v.zero(250)
     self.v.messg("computing transversal antecedents...")
     for nod in self.closeds:
         "careful, assuming nodes ordered by size here - find all free sets"
         self.v.tick()
         self.mingens[nod] = []
         for m in self._faces(nod,nonants[nod]).transv().hyedges:
             mm = set2node(m)
             mm.setsupp(nod.supp)
             mm.clos = nod
             self.mingens[nod].append(mm)
     self.v.messg("...done;")
     return self.mingens
コード例 #3
0
    def __init__(self,
                 supp,
                 datasetfilename,
                 v=None,
                 xmlinput=False,
                 externalminer=True):
        """
        support float in [0,1], see above for rest of parameters
        """
        self.use_external_miner = externalminer
        self.read_from_XML_file = xmlinput
        if v == None:
            self.v = verbosity()
        elif v == False:
            self.v = verbosity(False)
        else:
            self.v = v
        self.U = set([])
        self.scale = 100000
        self.datasetfilename = datasetfilename
        self.supp_percent = self.topercent(supp)
        self.xmlfilename = "%s_cl%2.3fs.xml" % (datasetfilename,
                                                self.supp_percent)
        self.closeds = []
        self.card = 0
        self.mustsort = False
        self.v.inimessg("Initializing lattice")
        if datasetfilename == "":
            self.v.messg(" with just a bottom empty closure.")
            self.nrocc = 0
            self.nrtr = 0
            self.nrits = 0
            self.supp_percent = 0.0
            self.card = 0
            self.maxsupp = 0
            self.minsupp = 0
            self.addempty(0)
        else:
            try:
                datasetfile = open(datasetfilename + ".txt")
            except IOError:
                self.v.errmessg("Could not open file " + datasetfilename +
                                ".txt")
                exit(0)
            self.v.zero(2500)
            self.v.messg("from file " + datasetfilename +
                         "... computing parameters...")
            self.nrocc = 0
            self.nrtr = 0
            self.U = set([])
            self.transcns = defaultdict(set)
            self.occurncs = defaultdict(set)
            for line in datasetfile:
                self.v.tick()
                for el in line.strip().split():
                    if len(el) > 0:
                        isempty = False
                        self.nrocc += 1
                        self.U.add(el)
                        self.transcns[self.nrtr].add(el)
                        self.occurncs[el].add(self.nrtr)
                if not isempty:
                    self.nrtr += 1
            self.nrits = len(self.U)
            self.intsupp = floor(
                supp * self.nrtr)  # support bound into absolute int value
            if supp == 0:
                "Borgelt's apriori might not work with support zero"
                self.supp_percent = 0.001
            else:
                "there remains a scale issue to look at in the clfile name"
                self.supp_percent = self.topercent(supp)
            if self.read_from_XML_file:
                self.v.messg("...reading closures from XML file...")
                try:
                    self.dexmlize(self.xmlfilename)
                    self.v.messg(str(self.card) + " closures found.")
                    return
                except IOError:
                    self.v.messg(
                        self.xmlfilename +
                        " not found, falling back to mining process...")
            nbord = 0
            if self.use_external_miner:
                "try using results of external apriori, or calling it"
                clfilename = "%s_cl%2.3fs.txt" % (datasetfilename,
                                                  self.supp_percent)
                suchfiles = glob(datasetfilename + "_cl*s.txt")
                cmmnd = (
                    './apriori.exe -tc -l1 -u0 -v" /%%a" -s%2.3f %s ' %
                    (self.supp_percent, datasetfilename + ".txt")) + clfilename
                if clfilename in suchfiles:
                    "avoid calling apriori if closures file already available"
                    self.v.messg("...reading closures from file " +
                                 clfilename + "...")
                elif system() == "Darwin":
                    if not glob("aprioriD"):
                        self.use_external_miner = False
                        self.v.errmessg(
                            "aprioriD not found, falling back on internal closure miner"
                        )
                    else:
                        cmmnd = (
                            './aprioriD -tc -l1 -u0 -v" /%%a" -s%2.3f %s ' %
                            (self.supp_percent,
                             datasetfilename + ".txt")) + clfilename
                        call(cmmnd, shell=True)
                elif system() == "Linux":
                    "ToDo: make this case work"
                    ##                cmmnd = ('./aprioriL32 -tc -l1 -u0 -v" /%%a" -s%2.3f %s ' %
                    ##                         (self.supp_percent,datasetfilename)) + clfilename
                    ##                call(cmmnd,shell=True)
                    self.v.errmessg("Platform " + system() +
                                    " not handled yet, sorry")
                    self.use_external_miner = False
                elif system() == "Windows" or system() == "Microsoft":
                    self.v.messg("platform appears to be " + system() + ";")
                    self.v.messg("computing closures by: \n        " + cmmnd +
                                 "\n")
                    if not glob("apriori.exe"):
                        self.use_external_miner = False
                        self.v.errmessg(
                            "apriori.exe not found, falling back on internal closure miner"
                        )
                    else:
                        call(cmmnd)
                elif system() == "CYGWIN_NT-5.1":
                    self.v.messg("platform appears to be " + system() + ";")
                    self.v.messg("computing closures by: \n        " + cmmnd +
                                 "\n")
                    if not glob("apriori.exe"):
                        self.use_external_miner = False
                        self.v.errmessg(
                            "apriori.exe not found, falling back on internal closure miner"
                        )
                    else:
                        call(cmmnd, shell=True)
                elif system() == "CYGWIN_NT-6.1-WOW64":
                    self.v.messg("platform appears to be " + system() + ";")
                    self.v.messg("computing closures by: \n        " + cmmnd +
                                 "\n")
                    call(cmmnd, shell=True)
                else:
                    "unhandled platform"
                    self.v.errmessg("Platform " + system() +
                                    " not handled yet, sorry")
                    self.use_external_miner = False
                if self.use_external_miner:
                    "closures file in place, either was there or just computed"
                    self.card = 0
                    self.maxsupp = 0
                    self.minsupp = self.nrtr + 1
                    self.v.zero(250)
                    self.v.messg("...loading closures in...")
                    for line in file(clfilename):
                        """
                        ToDo: maybe the file has lower support 
                        than desired and we do not want all closures there
                        """
                        self.v.tick()
                        node = str2node(line)
                        self.closeds.append(node)
                        self.card += 1
                        if node.supp > self.maxsupp:
                            self.maxsupp = node.supp
                        if node.supp != 0 and node.supp < self.minsupp:
                            self.minsupp = node.supp
            if not self.use_external_miner:
                """
                use internal miner either as asked or 
                because could not use external apriori
                """
                self.maxsupp = 0
                clos_singl = set([])
                self.v.inimessg("Computing closures at support %3.2f%%;" %
                                self.topercent(supp))
                self.v.messg("singletons first...")
                for item in self.U:
                    "initialize (min-)heap with closures of singletons"
                    self.v.tick()
                    supset = self.occurncs[item]
                    supp = len(supset)
                    if supp > self.maxsupp: self.maxsupp = supp
                    if supp > self.intsupp:
                        clos_singl.add(
                            (self.nrtr - supp, frozenset(self.inters(supset)),
                             frozenset(supset)))
                    else:
                        nbord += 1
                cnt_clos_singl = len(clos_singl)
                self.v.messg(
                    str(cnt_clos_singl) + " such closures; " +
                    "computing larger closures...")
                pend_clos = list(clos_singl.copy())
                heapify(pend_clos)
                self.minsupp = self.nrtr
                while pend_clos:
                    "extract largest-support closure and find subsequent ones"
                    cl = heappop(pend_clos)
                    spp = self.nrtr - cl[0]
                    if spp < self.minsupp:
                        self.minsupp = spp
                    node = set2node(cl[1], spp)
                    self.closeds.append(node)
                    self.U.update(node)
                    self.card += 1
                    for ext in clos_singl:
                        "try extending with freq closures of singletons"
                        if not ext[1] <= cl[1]:
                            self.v.tick()
                            supportset = cl[2] & ext[2]
                            spp = len(supportset)
                            if spp <= self.intsupp:
                                nbord += 1
                            else:
                                next_clos = frozenset(self.inters(supportset))
                                if next_clos not in [
                                        cc[1] for cc in pend_clos
                                ]:
                                    heappush(
                                        pend_clos,
                                        (self.nrtr - len(supportset),
                                         next_clos, frozenset(supportset)))

        if self.maxsupp < self.nrtr:
            "no bottom itemset, common to all transactions - hence add emtpy"
            self.addempty(self.nrtr)
        else:
            self.v.messg("bottom closure is nonempty;")
        self.v.messg("...done.")

        if self.mustsort:
            self.v.messg("sorting...")
            self.closeds.sort()
            self.mustsort = False

        self.v.messg(str(self.card) + " closures found.")
        if nbord != 0:
            "This info only available if the local miner was used"
            self.v.messg("Additionally checked " + str(nbord) +
                         " infrequent sets as negative border.")
        self.v.inimessg("The max support is " + str(self.maxsupp) + ";")
        self.v.messg("the effective absolute support threshold is " +
                     str(self.minsupp) +
                     (", equivalent to %2.3f" %
                      (float(self.minsupp * 100) / self.nrtr)) + "% of " +
                     str(self.nrtr) + " transactions.")