コード例 #1
0
    def mkMsg(self):
        """create and write module level message for this class.
        Most of this is just compiling the info. meta in a dictionary
        of lists where each list is a list of tuples describing the
        tag lines for the particular section of the message.  This tuple 
        format conforms to that used by the xmlMessage class which is
        modeled on basic python argument passing, i.e. (key,*value,**attr).
        """
        self.meta = {}
        self.meta['module'] = []
        self.meta['meta'] = []
        self.meta['input'] = []
        self.meta['output'] = []
        self.meta['errorlist'] = []

        self.meta['module'].append(
            ('module', 'name=' + self.modName, 'version=' + __version__,
             'dataset=' + self.obsName))
        self.meta['module'].append(('root', self.root))
        self.meta['meta'].append(('meta', ))
        self.meta['meta'].append(('depend', ))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'python'))
        self.meta['meta'].append(('version', pyversion.split()[0]))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'numpy.oldnumeric'))
        self.meta['meta'].append(('version', numver))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'tableio.py'))
        self.meta['meta'].append(('version', tableio.__version__))

        if self.errorList:
            self.meta['errorlist'].append(('errorlist', ))
            for pkg, err in self.errorList:
                self.meta['errorlist'].append(
                    ('erroritem', err, 'frompkg=' + pkg))

        # input section
        self.meta['input'].append(('input', ))
        for f in self.inputList:
            self.meta['input'].append(('file', 'type=text/ascii'))
            self.meta['input'].append(('name', os.path.join("Catalogs", f)))

        # output section
        if self.outputList:
            self.meta['output'].append(('output', ))
        for f in self.outputList.keys():
            if string.find(f, ".xml") != -1:
                self.meta['output'].append(('file', 'type=text/xml'))
                self.meta['output'].append(
                    ('name', os.path.join("Catalogs", f)))
                for pred in self.outputList[f]:
                    self.meta['output'].append(
                        ('predecessor', os.path.join("Catalogs", pred)))
            else:
                self.meta['output'].append(('file', 'type=text/ascii'))
                self.meta['output'].append(
                    ('name', os.path.join("Catalogs", f)))
                for pred in self.outputList[f]:
                    self.meta['output'].append(
                        ('predecessor', os.path.join("Catalogs", pred)))

        # pass this dictionary to the class pMessage...
        msgFile = os.path.join(self.messagedir, self.modName + "_module.xml")
        mmsg = pMessage(self.meta)
        mmsg.writeMsg(msgFile)
        return
コード例 #2
0
    def mkMsg(self):
        """Create and write module level message for this class.
        Most of this is just compiling the info. meta is a dictionary
        of lists where each list is a list of tuples describing the
        tag lines for the particular section of the message.  This tuple 
        format conforms to that used by the xmlMessage class which is
        modeled on basic python argument passing, i.e. (key,*value,**attr).
        """
        # getting the version of project_coords
        project_coords_cmd = 'project_coords --version'
        outp = popen2.Popen4(project_coords_cmd)
        outpline = outp.fromchild.readlines()
        pcoorVer = outpline[0].split()[-1]

        self.meta = {}
        self.meta['module'] = []
        self.meta['meta'] = []
        self.meta['input'] = []
        self.meta['output'] = []
        self.meta['errorlist'] = []

        self.meta['module'].append(
            ('module', 'name=' + self.modName, 'version=' + __version__,
             'dataset=' + self.obsName))
        self.meta['module'].append(('root', self.root))
        self.meta['meta'].append(('meta', ))
        self.meta['meta'].append(('depend', ))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'python'))
        self.meta['meta'].append(('version', pyversion.split()[0]))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'pyfits'))
        self.meta['meta'].append(('version', pyfits.__version__.split()[0]))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'project_coords'))
        self.meta['meta'].append(('version', pcoorVer))
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', 'Guide Star Catalog'))
        self.meta['meta'].append(
            ('version', _URL_.split("/")[-1].split("q")[0]))

        # SExtractor info
        sub = subprocess.Popen(['sex', '--version'],
                               stdin=subprocess.PIPE,
                               stdout=subprocess.PIPE,
                               close_fds=True)
        outp = sub.stdout.readlines()
        name = outp[0].split()[0]
        ver = outp[0].split()[2]
        self.meta['meta'].append(('pkg', ))
        self.meta['meta'].append(('name', name))
        self.meta['meta'].append(('version', ver))
        cmdline1 = 'sex fitsfile -c self.InParFileName'
        self.meta['meta'].append(('commandline', cmdline1))
        del outp, sub, name, ver

        if self.errorList:
            self.meta['errorlist'].append(('errorlist', ))
            for pkg, err in self.errorList:
                self.meta['errorlist'].append(
                    ('erroritem', err, 'frompkg=' + pkg))

        # input section
        self.meta['input'].append(('input', ))
        for f in self.inputList:
            if string.find(f, "_asn") == -1:
                self.meta['input'].append(('file', 'type=image/x-fits'))
                self.meta['input'].append(('name', os.path.join("Images", f)))
            else:
                self.meta['input'].append(('file', 'type=image/x-fits'))
                self.meta['input'].append(('name', os.path.join("Images", f)))

        # output section
        if self.outputList:
            self.meta['output'].append(('output', ))
        for f in self.outputList.keys():
            if string.find(f, ".xml") == -1:
                self.meta['output'].append(('file', 'type=image/x-fits'))
                self.meta['output'].append(('name', os.path.join("Images", f)))
                for pred in self.outputList[f]:
                    self.meta['output'].append(
                        ('predecessor', os.path.join("Images", pred)))
            else:
                self.meta['output'].append(('file', 'type=text/xml'))
                self.meta['output'].append(('name', os.path.join("Images", f)))
                for pred in self.outputList[f]:
                    self.meta['output'].append(
                        ('predecessor', os.path.join("Images", pred)))

        # pass this dictionary to the class pMessage...
        msgFile = os.path.join(self.messagedir, self.modName + "_module.xml")
        mmsg = pMessage(self.meta)
        mmsg.writeMsg(msgFile)
        return
コード例 #3
0
ファイル: wralign.py プロジェクト: XingxingHuang/APLUS
    def mkMsg(self):
        """create and write module level message for this class.
        Most of this is just compiling the info. meta is a dictionary
        of lists where each list is a list of tuples describing the
        tag lines for the particular section of the message.  This tuple 
        format conforms to that used by the xmlMessage class which is
        modeled on basic python argument passing, i.e. (key,*value,**attr).
        """
        self.meta = {}
        self.meta['module']    = []
        self.meta['meta']      = []
        self.meta['input']     = []
        self.meta['output']    = []
        self.meta['errorlist'] = []

        self.meta['module'].append(('module','name='+self.modName,'version='+__version__,'dataset='+self.obsName))
        self.meta['module'].append(('root',self.root))
        self.meta['meta'].append(('meta',))
        self.meta['meta'].append(('depend',))
        self.meta['meta'].append(('pkg',))
        self.meta['meta'].append(('name','python'))
        self.meta['meta'].append(('version',pyversion.split()[0]))

        self.meta['meta'].append(('pkg',))
        self.meta['meta'].append(('name','pyfits'))
        self.meta['meta'].append(('version',pyfits.__version__.split()[0]))


        # SExtractor info
        sub  = subprocess.Popen(['sex', '--version'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, close_fds=True)
        outp = sub.stdout.readlines()
        name = outp[0].split()[0]
        ver  = outp[0].split()[2]
        self.meta['meta'].append(('pkg',))
        self.meta['meta'].append(('name',name))
        self.meta['meta'].append(('version',ver))
        cmdline1 = 'sex fitsfile -c self.defaultInParFile'
        self.meta['meta'].append(('commandline',cmdline1))
        del outp,sub,name,ver

        # match info
        sub  = subprocess.Popen(['match', '--version'], stdin=subprocess.PIPE, stdout=subprocess.PIPE, close_fds=True)
        outp = sub.stdout.readlines()
        name = outp[0].split()[0][:-1]
        ver  = outp[0].split()[2]
        self.meta['meta'].append(('pkg',))
        self.meta['meta'].append(('name',name))
        self.meta['meta'].append(('version',ver))
        # ok, here's the new, post version 0.5 command, where the part in brackets
        # [identity xsh=dx ysh=dy] is only included if the angle is expected to be small
        cmdline2 = "match file_matchin 1 2 3 self.refMatchFile 1 2 3 max_iter=10 scale=1.00 nobj=60 matchrad=str(tolmatch) trirad=0.00033 recalc medtf medsigclip=2.7 outfile=outfile [identity xsh=+str(hdr_dx)+ ysh=+str(hdr_dy)]"

        self.meta['meta'].append(('commandline',cmdline2))
        del outp,sub,name,ver

        if self.GlobalBlock.errorList:
            self.meta['errorlist'].append(('errorlist',))
            for pkg,err in self.GlobalBlock.errorList:
                self.meta['errorlist'].append(('erroritem',err,'frompkg='+pkg))

        # input section
        self.meta['input'].append(('input',))
        # 25/Jan/02 - updating meta['input'] to reflect changes in MatchDict
        for im in self.imfiles:
            if not im.extref:
                self.meta['input'].append(('file','type=image/x-fits'))
                self.meta['input'].append(('name',os.path.join("Images",im.PathName)))
                self.meta['input'].append(('attr',im.MatchDict['Nraw']          ,'name=Nraw'))
                self.meta['input'].append(('attr',im.MatchDict['Ngood']         ,'name=Ngood'))
                self.meta['input'].append(('attr',im.MatchDict['Nmatch']        ,'name=Nmatch'))
                self.meta['input'].append(('attr',im.MatchDict['xpix_shift']    ,'name=xpix_shift'))
                self.meta['input'].append(('attr',im.MatchDict['xpix_shift_err'],'name=xpix_shift_err'))
                self.meta['input'].append(('attr',im.MatchDict['ypix_shift']    ,'name=ypix_shift'))
                self.meta['input'].append(('attr',im.MatchDict['ypix_shift_err'],'name=ypix_shift_err'))
                self.meta['input'].append(('attr',im.MatchDict['xarc_shift']    ,'name=xarc_shift'))
                self.meta['input'].append(('attr',im.MatchDict['yarc_shift']    ,'name=yarc_shift'))
                self.meta['input'].append(('attr',im.MatchDict['angle']         ,'name=angle'))
                self.meta['input'].append(('attr',im.MatchDict['angle_err']     ,'name=angle_err'))
                self.meta['input'].append(('attr',im.MatchDict['skyval']        ,'name=skyval'))
                self.meta['input'].append(('attr',im.MatchDict['skyrms']        ,'name=skyrms'))

        # output section
        if self.GlobalBlock.outputList:
            self.meta['output'].append(('output',))
        for f in self.GlobalBlock.outputList.keys():
            if string.find(f,".fits") != -1:
                self.meta['output'].append(('file','type=image/x-fits'))
                self.meta['output'].append(('name',os.path.join("Images",f)))
                for pred in  self.GlobalBlock.outputList[f]:
                    self.meta['output'].append(('predecessor',os.path.join("Images",pred)))
            else: 
                self.meta['output'].append(('file','type=text/ascii'))
                self.meta['output'].append(('name',os.path.join("align",f)))
                for pred in  self.GlobalBlock.outputList[f]:
                    self.meta['output'].append(('predecessor',os.path.join("Images",pred)))

        # pass this dictionary to the class pMessage...
        msgFile = os.path.join(self.messagedir,self.modName+"_module.xml")
        mmsg = pMessage(self.meta)
        mmsg.writeMsg(msgFile)
        return