コード例 #1
0
ファイル: BinarySize.py プロジェクト: WarnerChang/PyFoam
 def scanDir(self, dPath, usages, depth=1):
     dName = path.basename(dPath)
     dirs = ["Make", "platform", "bin", "platforms", "build"]
     if self.opts.doDocumentation:
         dirs += ["Doxygen"]
     if dName[0] == ".":
         return
     elif dName in ["lnInclude"]:
         return
     elif dName in dirs:
         for f in tqdm(listdir(dPath),
                       desc=path.basename(dPath),
                       disable=depth > self.opts.maximumProgressDepth,
                       unit="files"):
             if f[0] == ".":
                 continue
             nPath = path.join(dPath, f)
             if path.isdir(nPath):
                 isBin = False
                 for end in ["Opt", "Debug", "Prof"]:
                     if f.find(end) > 0 and (f.find(end) +
                                             len(end)) == len(f):
                         isBin = True
                 if f in ["html"] and self.opts.doDocumentation:
                     isBin = True
                 if isBin:
                     sz = diskUsage(nPath)
                     try:
                         usages[f] += sz
                     except KeyError:
                         usages[f] = sz
                     # self.output("Found architecture",f,"in",dPath)
     else:
         try:
             for f in tqdm(listdir(dPath),
                           unit="files",
                           disable=depth > self.opts.maximumProgressDepth,
                           desc=path.basename(dPath)):
                 nPath = path.join(dPath, f)
                 if path.isdir(nPath) and not path.islink(nPath):
                     self.scanDir(nPath, usages, depth=depth + 1)
         except OSError:
             self.warning("Can't process", dPath)
 def scanDir(self,dPath,usages,depth=1):
     dName=path.basename(dPath)
     if dName[0]==".":
         return
     elif dName in ["lnInclude","Doxygen"]:
         return
     elif dName in ["Make","platform","bin","platforms"]:
         for f in tqdm(listdir(dPath),
                       desc=path.basename(dPath),
                       disable=depth>self.opts.maximumProgressDepth,
                       unit="files"):
             if f[0]==".":
                 continue
             nPath=path.join(dPath,f)
             if path.isdir(nPath):
                 isBin=False
                 for end in ["Opt","Debug","Prof"]:
                     if f.find(end)>0 and (f.find(end)+len(end))==len(f):
                         isBin=True
                 if isBin:
                     sz=diskUsage(nPath)
                     try:
                         usages[f]+=sz
                     except KeyError:
                         usages[f]=sz
                        # self.output("Found architecture",f,"in",dPath)
     else:
         try:
             for f in tqdm(listdir(dPath),
                           unit="files",
                           disable=depth>self.opts.maximumProgressDepth,
                           desc=path.basename(dPath)):
                 nPath=path.join(dPath,f)
                 if path.isdir(nPath) and not path.islink(nPath):
                     self.scanDir(nPath,usages,depth=depth+1)
         except OSError:
             self.warning("Can't process",dPath)
 def run(self):
     self.out=""
     if self.opts.allInstallations:
          installed=FI.foamInstalledVersions()
          total=0
          for k in tqdm(sorted(installed.keys()),
                        desc="Distro",
                        unit="distro"):
              instPath=installed[k]
              total+=self.reportInstallation(instPath)
          self.output("\nTotal disk space used by binaries:"+humanReadableSize(total))
     else:
         try:
             self.reportInstallation(FI.installationPath())
         except KeyError:
             self.error("No Foam-installation active. Specify one")
     if len(self.out)>0:
         print_("\n")
         print_(self.out)
コード例 #4
0
 def run(self):
     self.out = ""
     if self.opts.allInstallations:
         installed = FI.foamInstalledVersions()
         total = 0
         for k in tqdm(sorted(installed.keys()),
                       desc="Distro",
                       unit="distro"):
             instPath = installed[k]
             total += self.reportInstallation(instPath)
         self.output("\nTotal disk space used by binaries:" +
                     humanReadableSize(total))
     else:
         try:
             self.reportInstallation(FI.installationPath())
         except KeyError:
             self.error("No Foam-installation active. Specify one")
     if len(self.out) > 0:
         print_("\n")
         print_(self.out)
コード例 #5
0
    def run(self):
        _argDirs = self.parser.getArgs()

        if len(_argDirs) == 0:
            _argDirs = [path.curdir]

        #Build list with abs paths of all given case dirs
        _absArgDirs = PPUtils.makeAbsPathsInList(_argDirs)

        #Iterate through all folder given as an argument
        for _dir in _absArgDirs:
            print("\n\nWorking on Case: \n {} \n".format(_dir))
            sol = PPUtils.getValidSolutionDirectory(_dir)

            os.chdir(sol.name)
            self.postProcessingDir = path.join(sol.name, "postProcessing")
            self.plotDir = path.join(self.postProcessingDir, "plots")
            #Exit if the folder for plotting exists
            if path.exists(self.plotDir) is False:
                os.mkdir(path.join(self.postProcessingDir, "plots"))
            else:
                print(
                    "Folder with plots already exists. Remove the folder before executing."
                )
                exit()

            # Iterate the folders for the fields in postProcessing
            #dirIter = tqdm(fieldDirs, unit='Dirs', desc='Dirs')
            fieldDirs = os.listdir(self.postProcessingDir)
            for fieldDir in fieldDirs:
                #Ignore files found in the /postProcessing directory
                if path.isdir(path.join(self.postProcessingDir,
                                        fieldDir)) is False:
                    continue

                print("\n Reading field: {}".format(fieldDir))
                os.chdir(self.plotDir)
                os.mkdir(fieldDir)
                os.chdir(fieldDir)

                fieldFiles = self.getFieldFiles(fieldDir)
                #Finding the maximum and minium values of the field for all time steps
                plotFieldFilesIter = tqdm(fieldFiles, unit=" Files")
                ymaxList = []
                yminList = []
                for _file in plotFieldFilesIter:
                    try:
                        pd1 = pd.read_csv(_file.filePath,
                                          delimiter=' ',
                                          header=None)
                        myArray = np.array(pd1)
                        x, y = self.getXYValues(myArray)
                        ymaxList.append(np.max(y))
                        yminList.append(np.min(y))
                    except:
                        pass
                try:
                    ymax = np.max(ymaxList) * 1.1
                    ymin = np.min(yminList) * 0.9
                    if ymax == ymin:
                        ymax += 1
                        ymin -= 1
                    plotFieldFilesIter.close()
                except:
                    ymax = 0
                    ymin = 0
                    print("Caught exception, ymax is: {}".format(ymax))
                    print("Caught exception, ymin is: {}".format(ymin))

                print("\n Plotting field: {}".format(Path(fieldDir).name))
                # Iterate through the files of one field
                plotFieldFilesIter = tqdm(fieldFiles, unit=" Files")
                for _file in plotFieldFilesIter:
                    _fileName = "{}_{}".format(_file.timeStep, _file.fieldName)
                    _filePath = path.join(self.plotDir, fieldDir)
                    _figurePath = path.join(_filePath, _fileName)

                    try:
                        pd1 = pd.read_csv(_file.filePath,
                                          delimiter=' ',
                                          header=None)
                        my_data = pd1
                        myArray = np.array(my_data)
                        x, y = self.getXYValues(myArray)

                        #Plotting commands
                        theLabel = '{} [{}]'.format(_file.fieldName,
                                                    _file.fieldDim)
                        simName = path.basename(sol.name)
                        theTitle = "{} - Field: {} of Sim: {}".format(
                            _file.timeStep, _file.fieldName, simName)
                        plt.plot(x,
                                 y,
                                 color='black',
                                 linestyle='solid',
                                 label=theLabel)
                        plt.title(theTitle)
                        axes = plt.gca()
                        axes.set_ylim([ymin, ymax])
                        plt.legend()
                        plt.savefig("{}.png".format(_figurePath))
                        plt.close()
                        pd1 = None
                    except:
                        print("\n Couldnt read the csv file for field {} \n".
                              format(_file.fieldName))
                plotFieldFilesIter.close()
        def lookForCases(d):
            for n in tqdm(listdir(d),
                          unit="entries",
                          leave=False,
                          desc=path.basename(path.abspath(d)),
                          disable=not self.opts.progressBar):
                if not self.fnmatch(n):
                    continue
                cName=path.join(d,n)
                if path.isdir(cName):
                    try:
                        sol=SolutionDirectory(cName,archive=None,paraviewLink=False)
                        if sol.isValid():
                            if self.opts.progress:
                                print_("Processing",cName)

                            data={}

                            data["mtime"]=stat(cName)[ST_MTIME]
                            times=sol.getTimes()
                            try:
                                data["first"]=times[0]
                            except IndexError:
                                data["first"]="None"
                            try:
                                data["last"]=times[-1]
                            except IndexError:
                                data["last"]="None"
                            data["nrSteps"]=len(times)
                            data["procs"]=sol.nrProcs()
                            data["pFirst"]=-1
                            data["pLast"]=-1
                            data["nrParallel"]=-1
                            if self.opts.parallel:
                                pTimes=sol.getParallelTimes()
                                data["nrParallel"]=len(pTimes)
                                if len(pTimes)>0:
                                    data["pFirst"]=pTimes[0]
                                    data["pLast"]=pTimes[-1]
                            data["name"]=cName
                            data["diskusage"]=-1
                            if self.opts.diskusage:
                                data["diskusage"]=diskUsage(cName)
                                totalDiskusage+=data["diskusage"]
                            if self.opts.parallel:
                                for f in listdir(cName):
                                    if re.compile("processor[0-9]+").match(f):
                                        data["mtime"]=max(stat(path.join(cName,f))[ST_MTIME],data["mtime"])

                            if self.opts.state or self.opts.estimateEndTime:
                                try:
                                    data["startedAt"]=time.mktime(time.strptime(self.readState(sol,"StartedAt")))
                                except ValueError:
                                    data["startedAt"]="nix"

                            if self.opts.state:
                                try:
                                    data["nowTime"]=float(self.readState(sol,"CurrentTime"))
                                except ValueError:
                                    data["nowTime"]=None

                                try:
                                    data["lastOutput"]=time.mktime(time.strptime(self.readState(sol,"LastOutputSeen")))
                                except ValueError:
                                    data["lastOutput"]="nix"

                                data["state"]=self.readState(sol,"TheState")
                                if data["state"]=="Running":
                                    try:
                                        gone=time.time()-data["lastOutput"]
                                        if gone>self.opts.deadThreshold:
                                            data["state"]="Dead "+humanReadableDuration(gone)
                                    except KeyError:
                                        pass
                                    except TypeError:
                                        pass

                            if self.opts.startEndTime or self.opts.estimateEndTime:
                                try:
                                    ctrlDict=ParsedParameterFile(sol.controlDict(),doMacroExpansion=True)
                                except PyFoamParserError:
                                    # Didn't work with Macro expansion. Let's try without
                                    try:
                                        ctrlDict=ParsedParameterFile(sol.controlDict())
                                    except PyFoamParserError:
                                        ctrlDict=None
                                if ctrlDict:
                                    data["startTime"]=ctrlDict["startTime"]
                                    data["endTime"]=ctrlDict["endTime"]
                                else:
                                    data["startTime"]=None
                                    data["endTime"]=None

                            if self.opts.estimateEndTime:
                                data["endTimeEstimate"]=None
                                if self.readState(sol,"TheState")=="Running":
                                    gone=time.time()-data["startedAt"]
                                    try:
                                        current=float(self.readState(sol,"CurrentTime"))
                                        frac=(current-data["startTime"])/(data["endTime"]-data["startTime"])
                                    except ValueError:
                                        frac=0
                                    if frac>0:
                                        data["endTimeEstimate"]=data["startedAt"]+gone/frac

                            if self.opts.hgInfo:
                                if path.isdir(path.join(cName,".hg")):
                                    from stat import ST_ATIME
                                    prevStat=stat(cName)
                                    try:
                                        data["hgInfo"]=sub.Popen(["hg", "id",
                                                                  "-R",cName,
                                                                  "-b","-n","-i"], stdout=sub.PIPE).communicate()[0].strip()
                                    except OSError:
                                        data["hgInfo"]="<hg not working>"
                                    postStat=stat(cName)
                                    if prevStat[ST_MTIME]!=postStat[ST_MTIME]:
                                        # hg seems to modify the modification time of the directory. So reset it
                                        os.utime(cName,(postStat[ST_ATIME],prevStat[ST_MTIME]))
                                else:
                                    data["hgInfo"]="<no .hg directory>"

                            if len(customData)>0 or self.opts.hostname:
                                fn=None
                                pickleFile=None
                                if useSolverInData:
                                    data["solver"]="none found"
                                    # try to find the oldest pickled file
                                    dirAndTime=[]
                                    for f in ["pickledData","pickledUnfinishedData","pickledStartData"]:
                                        for g in glob(path.join(cName,"*.analyzed")):
                                            pName=path.join(g,f)
                                            base=path.basename(g)
                                            if base.find("PyFoamRunner.")==0:
                                                solverName=base[len("PyFoamRunner."):-len(".analyzed")]
                                            else:
                                                solverName=None
                                            if path.exists(pName):
                                                dirAndTime.append((path.getmtime(pName),solverName,pName))
                                    dirAndTime.sort(key=lambda x:x[0])

                                    if len(dirAndTime)>0:
                                        data["solver"]=dirAndTime[-1][1]
                                        pickleFile=dirAndTime[-1][2]

                                    solverName=data["solver"]
                                else:
                                    solverName=self.opts.solverNameForCustom

                                if pickleFile:
                                    fn=pickleFile
                                else:
                                    for f in ["pickledData","pickledUnfinishedData","pickledStartData"]:
                                        fp=path.join(cName,"PyFoamRunner."+solverName+".analyzed",f)
                                        if path.exists(fp):
                                            fn=fp
                                            break
                                pickleOK=False
                                if fn:
                                    try:
                                        raw=pickle.Unpickler(open(fn,"rb")).load()
                                        pickleOK=True
                                        for n,spec in customData:
                                            dt=raw
                                            for k in spec:
                                                try:
                                                    dt=dt[k]
                                                except KeyError:
                                                    dt="No key '"+k+"'"
                                                    break
                                                if isinstance(dt,string_types):
                                                    break
                                            data[n]=dt
                                        if self.opts.hostname:
                                            try:
                                                data["hostname"]=raw["hostname"].split(".")[0]
                                            except KeyError:
                                                data["hostname"]="<unspecified>"
                                    except ValueError:
                                        pass
                                if not pickleOK:
                                    for n,spec in customData:
                                        data[n]="<no file>"
                                    if self.opts.hostname:
                                        data["hostname"]="<no file>"
                            cData.append(data)
                        elif self.opts.recursive:
                            # print("Recurse",cName)
                            lookForCases(cName)
                    except OSError:
                        print_(cName,"is unreadable")
    def run(self):
        dirs=self.parser.getArgs()

        if len(dirs)==0:
            dirs=[path.curdir]

        cData=[]
        totalDiskusage=0
        useSolverInData=False

        self.hasState=False

        customData=[]
        for i,c in enumerate(self.opts.customData):
            lst=c.split("=")
            if len(lst)==2:
                name,spec=lst
                name+="_"  # Make sure that there is no collision with standard-names
            elif len(lst)==1:
                name,spec="Custom%d" % (i+1),c
            else:
                self.error("Custom specification",c,"does not fit the pattern 'name=subs1::subs2::..'")
            customData.append((name,spec.split("::")))

        if len(customData)>0 and not self.opts.solverNameForCustom:
            self.warning("Parameter '--solver-name-for-custom-data' should be set if '--custom-data' is used")
            useSolverInData=True
        elif  self.opts.hostname:
            useSolverInData=True

        def lookForCases(d):
            for n in tqdm(listdir(d),
                          unit="entries",
                          leave=False,
                          desc=path.basename(path.abspath(d)),
                          disable=not self.opts.progressBar):
                if not self.fnmatch(n):
                    continue
                cName=path.join(d,n)
                if path.isdir(cName):
                    try:
                        sol=SolutionDirectory(cName,archive=None,paraviewLink=False)
                        if sol.isValid():
                            if self.opts.progress:
                                print_("Processing",cName)

                            data={}

                            data["mtime"]=stat(cName)[ST_MTIME]
                            times=sol.getTimes()
                            try:
                                data["first"]=times[0]
                            except IndexError:
                                data["first"]="None"
                            try:
                                data["last"]=times[-1]
                            except IndexError:
                                data["last"]="None"
                            data["nrSteps"]=len(times)
                            data["procs"]=sol.nrProcs()
                            data["pFirst"]=-1
                            data["pLast"]=-1
                            data["nrParallel"]=-1
                            if self.opts.parallel:
                                pTimes=sol.getParallelTimes()
                                data["nrParallel"]=len(pTimes)
                                if len(pTimes)>0:
                                    data["pFirst"]=pTimes[0]
                                    data["pLast"]=pTimes[-1]
                            data["name"]=cName
                            data["diskusage"]=-1
                            if self.opts.diskusage:
                                data["diskusage"]=diskUsage(cName)
                                totalDiskusage+=data["diskusage"]
                            if self.opts.parallel:
                                for f in listdir(cName):
                                    if re.compile("processor[0-9]+").match(f):
                                        data["mtime"]=max(stat(path.join(cName,f))[ST_MTIME],data["mtime"])

                            if self.opts.state or self.opts.estimateEndTime:
                                try:
                                    data["startedAt"]=time.mktime(time.strptime(self.readState(sol,"StartedAt")))
                                except ValueError:
                                    data["startedAt"]="nix"

                            if self.opts.state:
                                try:
                                    data["nowTime"]=float(self.readState(sol,"CurrentTime"))
                                except ValueError:
                                    data["nowTime"]=None

                                try:
                                    data["lastOutput"]=time.mktime(time.strptime(self.readState(sol,"LastOutputSeen")))
                                except ValueError:
                                    data["lastOutput"]="nix"

                                data["state"]=self.readState(sol,"TheState")
                                if data["state"]=="Running":
                                    try:
                                        gone=time.time()-data["lastOutput"]
                                        if gone>self.opts.deadThreshold:
                                            data["state"]="Dead "+humanReadableDuration(gone)
                                    except KeyError:
                                        pass
                                    except TypeError:
                                        pass

                            if self.opts.startEndTime or self.opts.estimateEndTime:
                                try:
                                    ctrlDict=ParsedParameterFile(sol.controlDict(),doMacroExpansion=True)
                                except PyFoamParserError:
                                    # Didn't work with Macro expansion. Let's try without
                                    try:
                                        ctrlDict=ParsedParameterFile(sol.controlDict())
                                    except PyFoamParserError:
                                        ctrlDict=None
                                if ctrlDict:
                                    data["startTime"]=ctrlDict["startTime"]
                                    data["endTime"]=ctrlDict["endTime"]
                                else:
                                    data["startTime"]=None
                                    data["endTime"]=None

                            if self.opts.estimateEndTime:
                                data["endTimeEstimate"]=None
                                if self.readState(sol,"TheState")=="Running":
                                    gone=time.time()-data["startedAt"]
                                    try:
                                        current=float(self.readState(sol,"CurrentTime"))
                                        frac=(current-data["startTime"])/(data["endTime"]-data["startTime"])
                                    except ValueError:
                                        frac=0
                                    if frac>0:
                                        data["endTimeEstimate"]=data["startedAt"]+gone/frac

                            if self.opts.hgInfo:
                                if path.isdir(path.join(cName,".hg")):
                                    from stat import ST_ATIME
                                    prevStat=stat(cName)
                                    try:
                                        data["hgInfo"]=sub.Popen(["hg", "id",
                                                                  "-R",cName,
                                                                  "-b","-n","-i"], stdout=sub.PIPE).communicate()[0].strip()
                                    except OSError:
                                        data["hgInfo"]="<hg not working>"
                                    postStat=stat(cName)
                                    if prevStat[ST_MTIME]!=postStat[ST_MTIME]:
                                        # hg seems to modify the modification time of the directory. So reset it
                                        os.utime(cName,(postStat[ST_ATIME],prevStat[ST_MTIME]))
                                else:
                                    data["hgInfo"]="<no .hg directory>"

                            if len(customData)>0 or self.opts.hostname:
                                fn=None
                                pickleFile=None
                                if useSolverInData:
                                    data["solver"]="none found"
                                    # try to find the oldest pickled file
                                    dirAndTime=[]
                                    for f in ["pickledData","pickledUnfinishedData","pickledStartData"]:
                                        for g in glob(path.join(cName,"*.analyzed")):
                                            pName=path.join(g,f)
                                            base=path.basename(g)
                                            if base.find("PyFoamRunner.")==0:
                                                solverName=base[len("PyFoamRunner."):-len(".analyzed")]
                                            else:
                                                solverName=None
                                            if path.exists(pName):
                                                dirAndTime.append((path.getmtime(pName),solverName,pName))
                                    dirAndTime.sort(key=lambda x:x[0])

                                    if len(dirAndTime)>0:
                                        data["solver"]=dirAndTime[-1][1]
                                        pickleFile=dirAndTime[-1][2]

                                    solverName=data["solver"]
                                else:
                                    solverName=self.opts.solverNameForCustom

                                if pickleFile:
                                    fn=pickleFile
                                else:
                                    for f in ["pickledData","pickledUnfinishedData","pickledStartData"]:
                                        fp=path.join(cName,"PyFoamRunner."+solverName+".analyzed",f)
                                        if path.exists(fp):
                                            fn=fp
                                            break
                                pickleOK=False
                                if fn:
                                    try:
                                        raw=pickle.Unpickler(open(fn,"rb")).load()
                                        pickleOK=True
                                        for n,spec in customData:
                                            dt=raw
                                            for k in spec:
                                                try:
                                                    dt=dt[k]
                                                except KeyError:
                                                    dt="No key '"+k+"'"
                                                    break
                                                if isinstance(dt,string_types):
                                                    break
                                            data[n]=dt
                                        if self.opts.hostname:
                                            try:
                                                data["hostname"]=raw["hostname"].split(".")[0]
                                            except KeyError:
                                                data["hostname"]="<unspecified>"
                                    except ValueError:
                                        pass
                                if not pickleOK:
                                    for n,spec in customData:
                                        data[n]="<no file>"
                                    if self.opts.hostname:
                                        data["hostname"]="<no file>"
                            cData.append(data)
                        elif self.opts.recursive:
                            # print("Recurse",cName)
                            lookForCases(cName)
                    except OSError:
                        print_(cName,"is unreadable")

        for d in tqdm(dirs,
                      unit="dirs",
                      disable=not self.opts.progressBar or len(dirs)<2):
            if not path.isdir(d):
                self.warning("There is no directory",d,"here")
                continue

            lookForCases(d)

        if self.opts.progress:
            print_("Sorting data")


        cData.sort(key=lambda x:x[self.opts.sort],reverse=self.opts.reverse)

        if len(cData)==0:
            print_("No cases found")
            return

        if self.opts.dump:
            print_(cData)
            return

        lens={}
        for k in list(cData[0].keys()):
            lens[k]=len(k)
        for c in cData:
            for k in ["mtime","lastOutput","startedAt","endTimeEstimate"]:
                try:
                    if c[k]!=None:
                        if self.opts.relativeTime:
                            c[k]=datetime.timedelta(seconds=long(time.time()-c[k]))
                            if k in ["endTimeEstimate"]:
                                c[k]=-c[k]
                        else:
                            c[k]=time.asctime(time.localtime(c[k]))
                except KeyError:
                    pass
                except TypeError:
                    c[k]=None

            try:
                c["diskusage"]=humanReadableSize(c["diskusage"])
            except KeyError:
                pass

            for k,v in iteritems(c):
                lens[k]=max(lens[k],len(str(v)))

        format=""
        spec=["mtime"," | "]
        if self.opts.hostname:
            spec+=["hostname"," | "]
        spec+=["first"," - ","last"," (","nrSteps",") "]
        if self.opts.parallel:
            spec+=["| ","procs"," : ","pFirst"," - ","pLast"," (","nrParallel",") | "]
        if self.opts.diskusage:
            spec+=["diskusage"," | "]
        if self.hasState:
            spec+=["nowTime"," s ","state"," | "]
            if self.opts.advancedState:
                spec+=["lastOutput"," | ","startedAt"," | "]
        if self.opts.estimateEndTime:
            if not self.opts.advancedState:
                spec+=["startedAt"," | "]
            spec+=["endTimeEstimate"," | "]
        if self.opts.startEndTime:
            spec+=["startTime"," | ","endTime"," | "]

        if useSolverInData:
            spec+=["solver"," | "]
        for n,s in customData:
            spec+=[n," | "]
        if self.opts.hgInfo:
            spec+=["hgInfo"," | "]

        spec+=["name"]

        for i,l in enumerate(spec):
            if  not l in list(cData[0].keys()):
                format+=l
            else:
                if i<len(spec)-1:
                    format+="%%(%s)%ds" % (l,lens[l])
                else:
                    format+="%%(%s)s" % (l)

        if self.opts.progress:
            print_("Printing\n\n")

        header=format % dict(list(zip(list(cData[0].keys()),list(cData[0].keys()))))
        print_(header)
        print_("-"*len(header))

        for d in cData:
            for k in list(d.keys()):
                d[k]=str(d[k])
            print_(format % d)

        if self.opts.diskusage:
            print_("Total disk-usage:",humanReadableSize(totalDiskusage))
コード例 #8
0
        def lookForCases(d):
            for n in tqdm(listdir(d),
                          unit="entries",
                          leave=False,
                          desc=path.basename(path.abspath(d)),
                          disable=not self.opts.progressBar):
                if not self.fnmatch(n):
                    continue
                cName = path.join(d, n)
                if path.isdir(cName):
                    try:
                        sol = SolutionDirectory(cName,
                                                archive=None,
                                                paraviewLink=False)
                        if sol.isValid():
                            if self.opts.progress:
                                print_("Processing", cName)

                            data = {}

                            data["mtime"] = stat(cName)[ST_MTIME]
                            times = sol.getTimes()
                            try:
                                data["first"] = times[0]
                            except IndexError:
                                data["first"] = "None"
                            try:
                                data["last"] = times[-1]
                            except IndexError:
                                data["last"] = "None"
                            data["nrSteps"] = len(times)
                            data["procs"] = sol.nrProcs()
                            data["pFirst"] = -1
                            data["pLast"] = -1
                            data["nrParallel"] = -1
                            if self.opts.parallel:
                                pTimes = sol.getParallelTimes()
                                data["nrParallel"] = len(pTimes)
                                if len(pTimes) > 0:
                                    data["pFirst"] = pTimes[0]
                                    data["pLast"] = pTimes[-1]
                            data["name"] = cName
                            data["diskusage"] = -1
                            if self.opts.diskusage:
                                data["diskusage"] = diskUsage(cName)
                                totalDiskusage += data["diskusage"]
                            if self.opts.parallel:
                                for f in listdir(cName):
                                    if re.compile("processor[0-9]+").match(f):
                                        data["mtime"] = max(
                                            stat(path.join(cName,
                                                           f))[ST_MTIME],
                                            data["mtime"])

                            if self.opts.state or self.opts.estimateEndTime:
                                try:
                                    data["startedAt"] = time.mktime(
                                        time.strptime(
                                            self.readState(sol, "StartedAt")))
                                except ValueError:
                                    data["startedAt"] = "nix"

                            if self.opts.state:
                                try:
                                    data["nowTime"] = float(
                                        self.readState(sol, "CurrentTime"))
                                except ValueError:
                                    data["nowTime"] = None

                                try:
                                    data["lastOutput"] = time.mktime(
                                        time.strptime(
                                            self.readState(
                                                sol, "LastOutputSeen")))
                                except ValueError:
                                    data["lastOutput"] = "nix"

                                data["state"] = self.readState(sol, "TheState")
                                if data["state"] == "Running":
                                    try:
                                        gone = time.time() - data["lastOutput"]
                                        if gone > self.opts.deadThreshold:
                                            data[
                                                "state"] = "Dead " + humanReadableDuration(
                                                    gone)
                                    except KeyError:
                                        pass
                                    except TypeError:
                                        pass

                            if self.opts.startEndTime or self.opts.estimateEndTime:
                                try:
                                    ctrlDict = ParsedParameterFile(
                                        sol.controlDict(),
                                        doMacroExpansion=True)
                                except PyFoamParserError:
                                    # Didn't work with Macro expansion. Let's try without
                                    try:
                                        ctrlDict = ParsedParameterFile(
                                            sol.controlDict())
                                    except PyFoamParserError:
                                        ctrlDict = None
                                if ctrlDict:
                                    data["startTime"] = ctrlDict["startTime"]
                                    data["endTime"] = ctrlDict["endTime"]
                                else:
                                    data["startTime"] = None
                                    data["endTime"] = None

                            if self.opts.estimateEndTime:
                                data["endTimeEstimate"] = None
                                if self.readState(sol,
                                                  "TheState") == "Running":
                                    gone = time.time() - data["startedAt"]
                                    try:
                                        current = float(
                                            self.readState(sol, "CurrentTime"))
                                        frac = (current - data["startTime"]
                                                ) / (data["endTime"] -
                                                     data["startTime"])
                                    except ValueError:
                                        frac = 0
                                    if frac > 0:
                                        data["endTimeEstimate"] = data[
                                            "startedAt"] + gone / frac

                            if self.opts.hgInfo:
                                if path.isdir(path.join(cName, ".hg")):
                                    from stat import ST_ATIME
                                    prevStat = stat(cName)
                                    try:
                                        data["hgInfo"] = sub.Popen(
                                            [
                                                "hg", "id", "-R", cName, "-b",
                                                "-n", "-i"
                                            ],
                                            stdout=sub.PIPE).communicate(
                                            )[0].strip()
                                    except OSError:
                                        data["hgInfo"] = "<hg not working>"
                                    postStat = stat(cName)
                                    if prevStat[ST_MTIME] != postStat[ST_MTIME]:
                                        # hg seems to modify the modification time of the directory. So reset it
                                        os.utime(cName, (postStat[ST_ATIME],
                                                         prevStat[ST_MTIME]))
                                else:
                                    data["hgInfo"] = "<no .hg directory>"

                            if len(customData) > 0 or self.opts.hostname:
                                fn = None
                                pickleFile = None
                                if useSolverInData:
                                    data["solver"] = "none found"
                                    # try to find the oldest pickled file
                                    dirAndTime = []
                                    for f in [
                                            "pickledData",
                                            "pickledUnfinishedData",
                                            "pickledStartData"
                                    ]:
                                        for g in glob(
                                                path.join(cName,
                                                          "*.analyzed")):
                                            pName = path.join(g, f)
                                            base = path.basename(g)
                                            if base.find("PyFoamRunner.") == 0:
                                                solverName = base[
                                                    len("PyFoamRunner."
                                                        ):-len(".analyzed")]
                                            else:
                                                solverName = None
                                            if path.exists(pName):
                                                dirAndTime.append(
                                                    (path.getmtime(pName),
                                                     solverName, pName))
                                    dirAndTime.sort(key=lambda x: x[0])

                                    if len(dirAndTime) > 0:
                                        data["solver"] = dirAndTime[-1][1]
                                        pickleFile = dirAndTime[-1][2]

                                    solverName = data["solver"]
                                else:
                                    solverName = self.opts.solverNameForCustom

                                if pickleFile:
                                    fn = pickleFile
                                else:
                                    for f in [
                                            "pickledData",
                                            "pickledUnfinishedData",
                                            "pickledStartData"
                                    ]:
                                        fp = path.join(
                                            cName, "PyFoamRunner." +
                                            solverName + ".analyzed", f)
                                        if path.exists(fp):
                                            fn = fp
                                            break
                                pickleOK = False
                                if fn:
                                    try:
                                        raw = pickle.Unpickler(open(
                                            fn, "rb")).load()
                                        pickleOK = True
                                        for n, spec in customData:
                                            dt = raw
                                            for k in spec:
                                                try:
                                                    dt = dt[k]
                                                except KeyError:
                                                    dt = "No key '" + k + "'"
                                                    break
                                                if isinstance(
                                                        dt, string_types):
                                                    break
                                            data[n] = dt
                                        if self.opts.hostname:
                                            try:
                                                data["hostname"] = raw[
                                                    "hostname"].split(".")[0]
                                            except KeyError:
                                                data[
                                                    "hostname"] = "<unspecified>"
                                    except ValueError:
                                        pass
                                if not pickleOK:
                                    for n, spec in customData:
                                        data[n] = "<no file>"
                                    if self.opts.hostname:
                                        data["hostname"] = "<no file>"
                            cData.append(data)
                        elif self.opts.recursive:
                            # print("Recurse",cName)
                            lookForCases(cName)
                    except OSError:
                        print_(cName, "is unreadable")
コード例 #9
0
    def run(self):
        dirs = self.parser.getArgs()

        if len(dirs) == 0:
            dirs = [path.curdir]

        cData = []
        totalDiskusage = 0
        useSolverInData = False

        self.hasState = False

        customData = []
        for i, c in enumerate(self.opts.customData):
            lst = c.split("=")
            if len(lst) == 2:
                name, spec = lst
                name += "_"  # Make sure that there is no collision with standard-names
            elif len(lst) == 1:
                name, spec = "Custom%d" % (i + 1), c
            else:
                self.error("Custom specification", c,
                           "does not fit the pattern 'name=subs1::subs2::..'")
            customData.append((name, spec.split("::")))

        if len(customData) > 0 and not self.opts.solverNameForCustom:
            self.warning(
                "Parameter '--solver-name-for-custom-data' should be set if '--custom-data' is used"
            )
            useSolverInData = True
        elif self.opts.hostname:
            useSolverInData = True

        def lookForCases(d):
            for n in tqdm(listdir(d),
                          unit="entries",
                          leave=False,
                          desc=path.basename(path.abspath(d)),
                          disable=not self.opts.progressBar):
                if not self.fnmatch(n):
                    continue
                cName = path.join(d, n)
                if path.isdir(cName):
                    try:
                        sol = SolutionDirectory(cName,
                                                archive=None,
                                                paraviewLink=False)
                        if sol.isValid():
                            if self.opts.progress:
                                print_("Processing", cName)

                            data = {}

                            data["mtime"] = stat(cName)[ST_MTIME]
                            times = sol.getTimes()
                            try:
                                data["first"] = times[0]
                            except IndexError:
                                data["first"] = "None"
                            try:
                                data["last"] = times[-1]
                            except IndexError:
                                data["last"] = "None"
                            data["nrSteps"] = len(times)
                            data["procs"] = sol.nrProcs()
                            data["pFirst"] = -1
                            data["pLast"] = -1
                            data["nrParallel"] = -1
                            if self.opts.parallel:
                                pTimes = sol.getParallelTimes()
                                data["nrParallel"] = len(pTimes)
                                if len(pTimes) > 0:
                                    data["pFirst"] = pTimes[0]
                                    data["pLast"] = pTimes[-1]
                            data["name"] = cName
                            data["diskusage"] = -1
                            if self.opts.diskusage:
                                data["diskusage"] = diskUsage(cName)
                                totalDiskusage += data["diskusage"]
                            if self.opts.parallel:
                                for f in listdir(cName):
                                    if re.compile("processor[0-9]+").match(f):
                                        data["mtime"] = max(
                                            stat(path.join(cName,
                                                           f))[ST_MTIME],
                                            data["mtime"])

                            if self.opts.state or self.opts.estimateEndTime:
                                try:
                                    data["startedAt"] = time.mktime(
                                        time.strptime(
                                            self.readState(sol, "StartedAt")))
                                except ValueError:
                                    data["startedAt"] = "nix"

                            if self.opts.state:
                                try:
                                    data["nowTime"] = float(
                                        self.readState(sol, "CurrentTime"))
                                except ValueError:
                                    data["nowTime"] = None

                                try:
                                    data["lastOutput"] = time.mktime(
                                        time.strptime(
                                            self.readState(
                                                sol, "LastOutputSeen")))
                                except ValueError:
                                    data["lastOutput"] = "nix"

                                data["state"] = self.readState(sol, "TheState")
                                if data["state"] == "Running":
                                    try:
                                        gone = time.time() - data["lastOutput"]
                                        if gone > self.opts.deadThreshold:
                                            data[
                                                "state"] = "Dead " + humanReadableDuration(
                                                    gone)
                                    except KeyError:
                                        pass
                                    except TypeError:
                                        pass

                            if self.opts.startEndTime or self.opts.estimateEndTime:
                                try:
                                    ctrlDict = ParsedParameterFile(
                                        sol.controlDict(),
                                        doMacroExpansion=True)
                                except PyFoamParserError:
                                    # Didn't work with Macro expansion. Let's try without
                                    try:
                                        ctrlDict = ParsedParameterFile(
                                            sol.controlDict())
                                    except PyFoamParserError:
                                        ctrlDict = None
                                if ctrlDict:
                                    data["startTime"] = ctrlDict["startTime"]
                                    data["endTime"] = ctrlDict["endTime"]
                                else:
                                    data["startTime"] = None
                                    data["endTime"] = None

                            if self.opts.estimateEndTime:
                                data["endTimeEstimate"] = None
                                if self.readState(sol,
                                                  "TheState") == "Running":
                                    gone = time.time() - data["startedAt"]
                                    try:
                                        current = float(
                                            self.readState(sol, "CurrentTime"))
                                        frac = (current - data["startTime"]
                                                ) / (data["endTime"] -
                                                     data["startTime"])
                                    except ValueError:
                                        frac = 0
                                    if frac > 0:
                                        data["endTimeEstimate"] = data[
                                            "startedAt"] + gone / frac

                            if self.opts.hgInfo:
                                if path.isdir(path.join(cName, ".hg")):
                                    from stat import ST_ATIME
                                    prevStat = stat(cName)
                                    try:
                                        data["hgInfo"] = sub.Popen(
                                            [
                                                "hg", "id", "-R", cName, "-b",
                                                "-n", "-i"
                                            ],
                                            stdout=sub.PIPE).communicate(
                                            )[0].strip()
                                    except OSError:
                                        data["hgInfo"] = "<hg not working>"
                                    postStat = stat(cName)
                                    if prevStat[ST_MTIME] != postStat[ST_MTIME]:
                                        # hg seems to modify the modification time of the directory. So reset it
                                        os.utime(cName, (postStat[ST_ATIME],
                                                         prevStat[ST_MTIME]))
                                else:
                                    data["hgInfo"] = "<no .hg directory>"

                            if len(customData) > 0 or self.opts.hostname:
                                fn = None
                                pickleFile = None
                                if useSolverInData:
                                    data["solver"] = "none found"
                                    # try to find the oldest pickled file
                                    dirAndTime = []
                                    for f in [
                                            "pickledData",
                                            "pickledUnfinishedData",
                                            "pickledStartData"
                                    ]:
                                        for g in glob(
                                                path.join(cName,
                                                          "*.analyzed")):
                                            pName = path.join(g, f)
                                            base = path.basename(g)
                                            if base.find("PyFoamRunner.") == 0:
                                                solverName = base[
                                                    len("PyFoamRunner."
                                                        ):-len(".analyzed")]
                                            else:
                                                solverName = None
                                            if path.exists(pName):
                                                dirAndTime.append(
                                                    (path.getmtime(pName),
                                                     solverName, pName))
                                    dirAndTime.sort(key=lambda x: x[0])

                                    if len(dirAndTime) > 0:
                                        data["solver"] = dirAndTime[-1][1]
                                        pickleFile = dirAndTime[-1][2]

                                    solverName = data["solver"]
                                else:
                                    solverName = self.opts.solverNameForCustom

                                if pickleFile:
                                    fn = pickleFile
                                else:
                                    for f in [
                                            "pickledData",
                                            "pickledUnfinishedData",
                                            "pickledStartData"
                                    ]:
                                        fp = path.join(
                                            cName, "PyFoamRunner." +
                                            solverName + ".analyzed", f)
                                        if path.exists(fp):
                                            fn = fp
                                            break
                                pickleOK = False
                                if fn:
                                    try:
                                        raw = pickle.Unpickler(open(
                                            fn, "rb")).load()
                                        pickleOK = True
                                        for n, spec in customData:
                                            dt = raw
                                            for k in spec:
                                                try:
                                                    dt = dt[k]
                                                except KeyError:
                                                    dt = "No key '" + k + "'"
                                                    break
                                                if isinstance(
                                                        dt, string_types):
                                                    break
                                            data[n] = dt
                                        if self.opts.hostname:
                                            try:
                                                data["hostname"] = raw[
                                                    "hostname"].split(".")[0]
                                            except KeyError:
                                                data[
                                                    "hostname"] = "<unspecified>"
                                    except ValueError:
                                        pass
                                if not pickleOK:
                                    for n, spec in customData:
                                        data[n] = "<no file>"
                                    if self.opts.hostname:
                                        data["hostname"] = "<no file>"
                            cData.append(data)
                        elif self.opts.recursive:
                            # print("Recurse",cName)
                            lookForCases(cName)
                    except OSError:
                        print_(cName, "is unreadable")

        for d in tqdm(dirs,
                      unit="dirs",
                      disable=not self.opts.progressBar or len(dirs) < 2):
            if not path.isdir(d):
                self.warning("There is no directory", d, "here")
                continue

            lookForCases(d)

        if self.opts.progress:
            print_("Sorting data")

        cData.sort(key=lambda x: x[self.opts.sort], reverse=self.opts.reverse)

        if len(cData) == 0:
            print_("No cases found")
            return

        if self.opts.dump:
            print_(cData)
            return

        lens = {}
        for k in list(cData[0].keys()):
            lens[k] = len(k)
        for c in cData:
            for k in ["mtime", "lastOutput", "startedAt", "endTimeEstimate"]:
                try:
                    if c[k] != None:
                        if self.opts.relativeTime:
                            c[k] = datetime.timedelta(
                                seconds=long(time.time() - c[k]))
                            if k in ["endTimeEstimate"]:
                                c[k] = -c[k]
                        else:
                            c[k] = time.asctime(time.localtime(c[k]))
                except KeyError:
                    pass
                except TypeError:
                    c[k] = None

            try:
                c["diskusage"] = humanReadableSize(c["diskusage"])
            except KeyError:
                pass

            for k, v in iteritems(c):
                lens[k] = max(lens[k], len(str(v)))

        format = ""
        spec = ["mtime", " | "]
        if self.opts.hostname:
            spec += ["hostname", " | "]
        spec += ["first", " - ", "last", " (", "nrSteps", ") "]
        if self.opts.parallel:
            spec += [
                "| ", "procs", " : ", "pFirst", " - ", "pLast", " (",
                "nrParallel", ") | "
            ]
        if self.opts.diskusage:
            spec += ["diskusage", " | "]
        if self.hasState:
            spec += ["nowTime", " s ", "state", " | "]
            if self.opts.advancedState:
                spec += ["lastOutput", " | ", "startedAt", " | "]
        if self.opts.estimateEndTime:
            if not self.opts.advancedState:
                spec += ["startedAt", " | "]
            spec += ["endTimeEstimate", " | "]
        if self.opts.startEndTime:
            spec += ["startTime", " | ", "endTime", " | "]

        if useSolverInData:
            spec += ["solver", " | "]
        for n, s in customData:
            spec += [n, " | "]
        if self.opts.hgInfo:
            spec += ["hgInfo", " | "]

        spec += ["name"]

        for i, l in enumerate(spec):
            if not l in list(cData[0].keys()):
                format += l
            else:
                if i < len(spec) - 1:
                    format += "%%(%s)%ds" % (l, lens[l])
                else:
                    format += "%%(%s)s" % (l)

        if self.opts.progress:
            print_("Printing\n\n")

        header = format % dict(
            list(zip(list(cData[0].keys()), list(cData[0].keys()))))
        print_(header)
        print_("-" * len(header))

        for d in cData:
            for k in list(d.keys()):
                d[k] = str(d[k])
            print_(format % d)

        if self.opts.diskusage:
            print_("Total disk-usage:", humanReadableSize(totalDiskusage))