Esempio n. 1
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    def update(self, entry):
        (day, month, year) = (None, None, None)

        text = string.strip(self.day.get_chars(0, -1)).encode('latin-1')
        if text != '':
            try:
                day = int(text)
            except ValueError:
                Utils.error_dialog_s(self.day.get_toplevel(),
                                     ("Invalid day field in date"))
                return -1

        text = string.strip(self.month.get_chars(0, -1)).encode('latin-1')
        if text != '':
            try:
                month = int(text)
            except ValueError:
                Utils.error_dialog_s(self.day.get_toplevel(),
                                     ("Invalid day field in date"))
                return -1

        text = string.strip(self.year.get_chars(0, -1)).encode('latin-1')
        if text != '':
            try:
                year = int(text)
            except ValueError:
                Utils.error_dialog_s(self.day.get_toplevel(),
                                     ("Invalid day field in date"))
                return -1

        if self.initial == (day, month, year): return 0

        if (day, month, year) == (None, None, None):
            del entry[self.field]
            return 1

        try:
            entry[self.field] = Fields.Date((year, month, day))
        except Exceptions.DateError, error:
            Utils.error_dialog_s(self.day.get_toplevel(), str(error))
            return -1
Esempio n. 2
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def after(field, year, month=None, day=None):
    return -Search.DateTester(field, Fields.Date((year, month, day)))
Esempio n. 3
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def before(field, year, month=None, day=None):
    return Search.DateTester(field, Fields.Date((year, month, day)))
Esempio n. 4
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    def next(self):
        current = None
        data = ''

        table = {}

        # Skip whitespace
        while 1:
            line = self.file.readline()
            if line == '': return table

            line = string.rstrip(line)
            if line != '': break

        while 1:
            head = header.match(line)
            if head:
                if current:
                    if table.has_key(current):
                        table[current].append(data)
                    else:
                        table[current] = [data]

                current = string.strip(head.group(1))
                data = head.group(2)
            else:
                cont = contin.match(line)
                if cont:
                    data = data + ' ' + cont.group(1)

            line = self.file.readline()
            if line == '': break

            line = string.rstrip(line)
            if line == '': break

        # don't forget the last item
        if current:
            if table.has_key(current):
                table[current].append(data)
            else:
                table[current] = [data]

        # create the entry with the actual fields
        norm = {}
        type = Types.get_entry('article')

        if table.has_key('PMID'):
            norm['url'] = Fields.URL(medurl + table['PMID'][0])
            norm['medline-pmid'] = Fields.Text(table['PMID'][0])
            del table['PMID']

        if table.has_key('UI'):
            norm[one_to_one['UI']] = Fields.Text(table['UI'][0])
            del table['UI']

        if table.has_key('AU'):
            group = Fields.AuthorGroup()

            for au in table['AU']:
                # analyze the author by ourself.
                first, last, lineage = [], [], []

                for part in string.split(au, ' '):
                    if part.isupper():
                        # in upper-case, this is a first name
                        if len(last) > 0:
                            first.append(part)
                        else:
                            # if there is no last name, there can't be a first name
                            last.append(part)
                    else:
                        if len(first) > 0:
                            # there was a first name, this must be a lineage
                            lineage.append(part)
                        else:
                            last.append(part)

                if len(first) > 1:
                    print "medline: long first name found. skipping."
                    first = first[0:1]

                if len(first) > 0:
                    first = string.join(first[0], '. ') + '.'
                else:
                    first = None

                if len(last) > 0:
                    last = string.join(last, ' ')
                else:
                    last = None

                if len(lineage) > 0:
                    lineage = string.join(lineage, ' ')
                else:
                    lineage = None

                group.append(Fields.Author((None, first, last, lineage)))

            norm[one_to_one['AU']] = group
            del table['AU']

        if table.has_key('DP'):
            fields = string.split(table['DP'][0], ' ')
            norm[one_to_one['DP']] = Fields.Date(fields[0])
            del table['DP']

        # The simple fields...
        for f in table.keys():
            f_mapped = one_to_one.get(f, 'medline-%s' % (f.lower()))
            text_type = Types.get_field(f_mapped).type
            norm[f_mapped] = text_type(string.join(table[f], " ; "))

        return Base.Entry(None, type, norm)
Esempio n. 5
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    def next (self):

        lines = {}
        in_table = {}
        file_notes, file_time, file_version, file_format = ('','','','')

        while 1:
            line = self.file.readline()
            if line == '': return lines # what does that mean ??
            head = xheader.match(line)
            if not head :
                pass
            elif head.group(1) == 'Date:':
                file_time = time.strftime(
                    "%Y-%m-%d %H:%M", rfc822.parsedate(head.group(2)))
            elif head.group(1) == 'Notes:':
                file_notes = string.strip(head.group(2))
            elif head.group(1) == 'FN':
                file_format = head.group(2)
            elif head.group(1) == 'VR':
                file_version = head.group(2)
            elif len(head.group(1)) == 2 :
                break
            else :
                pass
            self.extraneous.append(line)

        self.isifileformat = self.isifileformat or "Isifile format %s(%s)" % (
            file_format, file_version)
        self.isifileinfo = self.isifileinfo or "ISI %s (%s) %s" %(
            file_time, file_notes, login_name)


        while 1:
            if line == 'ER':break
            if head :
                key = head.group(1)
                if key == 'ER': break
                val = head.group(3)
                if lines.has_key(key):
                    lines[key].append(val)
                else:
                    lines[key] = [val]
            else:
                cont = contin.match(line)
                if cont :
                    val = cont.group(1)
                    lines[key].append(val)
                else: break
            line = self.file.readline()
            if line == '': break # error situation
            head = header.match (line)


        key = 'PT'
        if lines.has_key(key):
            if string.strip(lines[key][0])[0] == 'J':
                del lines [key]
            else:
                print 'Warning: Unknown type of entry (%s) -- may need editing.' %(
                    lines[key])

        type = Types.get_entry ('article')


	for key in ( 'AU', 'ED'):
	    if lines.has_key(key):
		group = Fields.AuthorGroup()
		for item in lines[key]:
		    if string.strip(item) =='[Anon]' :
			auth = [item]
		    else:
			name, firstn = string.split (item, ',')
			auth = ["%s, " % name]
			for i in string.strip (firstn):
			    auth.append ("%s. " % i)
		    group.append (Fields.Author("".join(auth)))
		if key == 'AU':
		    in_table['author'] = group
		elif key == 'ED':
		    in_table['editor'] = group
		del lines[key]

        key, key1, key2 = 'PG', 'BP', 'EP'
        if lines.has_key(key1) and lines.has_key(key2):
            if len(lines[key1]) == len(lines[key2]):
                pages = []
                for i in range(len(lines[key1])):
                    firstpg = lines[key1] [i]
                    lastpg  = lines[key2] [i]
                    pages.append(('%s -- %s' % (firstpg, lastpg)))
                in_table['pages'] = Fields.Text (string.join(pages, '; '))
                del lines[key1]; del lines[key2]
            else: print 'inconsistent BP, EP fields found'

        if lines.has_key(key):
            in_table['size'] = Fields.Text ('%s p.' %(lines[key][0]))
            del lines[key]


        key = 'PY'
        if lines.has_key(key):
            val = lines[key][0]
            in_table['date'] = Fields.Date(val)
            del lines[key]

        key = 'ID'
        if lines. has_key(key):
            val = "[ISI:] %s ;;" %(string.lower(string.join(lines[key], ' ')))
            if lines.has_key('DE'):
                lines['DE'].append ('; ' + val)
            else :
                lines['DE'] = [val]
            del lines[key]

        # journal titles come in various forms

        if lines.has_key ('SO'):
            uc_title =  ' '.join(lines['SO'])
            in_table ['journal'] = Fields.Text (uc_title)
            if lines.has_key('JI'):
                uc_title = re.split(r"([- .,/]+)", uc_title)
                ca_title = re.split(r"[- .,/]+", ' '.join(lines['JI']))
                i , Title = 0, []
                for word in uc_title:
                    Word = string.capitalize(word)
                    if word == ca_title [i]:
                        Title.append (word)
                        i += 1
                    elif Word.startswith(ca_title[i]):
                        Title.append(Word)
                        i += 1
                    else:
                        Title.append(string.lower(word))
                del lines['JI']
                in_table['journal'] =  Fields.Text ("".join(Title))
            del lines['SO']



        for key in lines.keys():
            mapped_key, joiner = key_map.get(
                key, ('isifile-%s' %(key.lower()), ' ; '))
            text_type = Types.get_field (mapped_key).type
            in_table [mapped_key] = text_type (joiner.join(lines[key]))

        return Base.Entry ( None, type, in_table)
Esempio n. 6
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    def next(self):
        dict = {}

        # read entry till next blank line
        text = []
        field = ''
        while 1:
            line = self.file.readline()
            if line == '': break
            line = string.rstrip(line)

            # starting with a blank ?
            if line == '' or line[0] == ' ':
                # ...then we continue the current text
                text.append(string.lstrip(line))
                continue

            # new entry ?
            if separator_re.match(line): break

            # else, this is a new field
            if field:
                # save the previous one if needed
                dict[field] = '\n'.join(text)
                text = []

            # store the name of this new field
            field = string.lower(line)

        # don't waste the last field content
        if field:
            dict[field] = '\n'.join(text)

        # did we parse a field ?
        if len(dict) == 0: return None

        # create the entry content
        entry = Base.Entry(type=self.deftype)

        for key in dict.keys():
            if not self.mapping.has_key(key):
                #print "warning: unused key `%s'" % key
                continue

            (name, type) = self.mapping[key]
            text_type = Types.get_field(name).type

            # parse a simple text field
            if type == SimpleField:
                entry[name] = text_type(string.strip(dict[key]))

            elif type == KeywordField:
                text = string.strip(dict[key])
                if entry.has_key(name):
                    text = str(entry[name]) + '\n  ' + text

                entry[name] = text_type(text)

            # parse an author field
            elif type == AuthorField:
                entry[name] = self.parse_author(dict[key])
                continue

            # parse a source field
            elif type == SourceField:
                dict_key = ' '.join(dict[key].split('\n'))
                m = self.source_re.match(dict_key.strip())
                if m:
                    year, month, day = None, None, None
                    j, v, s, n, p, o, y, d = m.group('journal', 'volume',
                                                     'inseries', 'number',
                                                     'pages', 'other', 'year',
                                                     'month')

                    if s:  ### article in a monograph series
                        entry['booktitle'] = Fields.Text(j)
                        if d:
                            entry['beigabevermerk'] = Fields.LongText(d)
                        entry.type = Types.get_entry('incollection')

                    elif j:
                        entry['journal'] = Fields.Text(j)
                        if d and not d.isspace():
                            dates = d.split()
                            try:
                                month = long_month[dates[0]]
                            except KeyError:
                                pass
##                                 import warnings
##                                 warnings.filterwarnings ('once',
##                                                          message='date',
##                                                          module='OvidLike')
##                                 warnings.warn (
##                                     'OVID: %s is not representable in date '
##                                     'field %s' %(dates[0], d), stacklevel=2)
                            if len(dates) > 1:
                                day = int(dates[1])

                    if v:
                        entry['volume'] = Fields.Text(v)

                    if n:
                        entry['number'] = Fields.Text(n)

                    if p:
                        entry['pages'] = Fields.Text(p)

                    if o:
                        entry['other-note'] = Fields.Text(o)

                    if y:
                        year = int(y)

                    entry['date'] = Fields.Date((year, month, day))
                else:
                    print '>>> Error: Source field  does not parse correctly:'
                    print dict_key
                    print entry
                continue

        return entry