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# XML "function" nodes that transform their contents
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import datetime
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import re
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import sre_constants
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import angles
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import dates
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import exc
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import format
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import maps
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import strings
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import term
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import units
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import util
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import xml_dom
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import xpath
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##### Exceptions
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class SyntaxError(exc.ExceptionWithCause):
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    def __init__(self, cause):
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        exc.ExceptionWithCause.__init__(self, 'Invalid XML function syntax',
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            cause)
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class FormatException(exc.ExceptionWithCause):
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    def __init__(self, cause):
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        exc.ExceptionWithCause.__init__(self, 'Invalid input value', cause)
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##### Functions
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funcs = {}
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def process(node, on_error=exc.raise_):
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    for child in xml_dom.NodeElemIter(node): process(child, on_error)
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    name = node.tagName
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    if name.startswith('_') and name in funcs:
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        try:
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            value = funcs[name](xml_dom.NodeTextEntryIter(node))
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            xml_dom.replace_with_text(node, value)
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        except Exception, e: # also catch non-wrapped exceptions (XML func bugs)
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            # Save in case another exception raised, overwriting sys.exc_info()
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            exc.add_traceback(e)
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            str_ = strings.ustr(node)
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            exc.add_msg(e, 'function:\n'+str_)
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            xml_dom.replace(node, node.ownerDocument.createComment(
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                '\n'+term.emph_multiline(str_).replace('--','-')))
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                # comments can't contain '--'
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            on_error(e)
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def map_items(func, items):
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    return [(name, func(value)) for name, value in items]
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def cast(type_, val):
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    '''Throws FormatException if can't cast'''
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    try: return type_(val)
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    except ValueError, e: raise FormatException(e)
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def conv_items(type_, items):
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    return map_items(lambda val: cast(type_, val),
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        xml_dom.TextEntryOnlyIter(items))
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def pop_value(items):
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    try: last = items.pop() # last entry contains value
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    except IndexError: return None # input is empty and no actions
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    if last[0] != 'value': return None # input is empty
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    return last[1]
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##### XML functions
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# Function names must start with _ to avoid collisions with real tags
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# Functions take arguments (items)
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#### General
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def _ignore(items):
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    '''Used to "comment out" an XML subtree'''
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    return None
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funcs['_ignore'] = _ignore
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#### Conditionals
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def _eq(items):
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    items = dict(items)
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    try:
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        left = items['left']
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        right = items['right']
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    except KeyError: return '' # a value was None
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    return util.bool2str(left == right)
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funcs['_eq'] = _eq
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def _if(items):
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    items = dict(items)
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    try:
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        cond = items['cond']
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        then = items['then']
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    except KeyError, e: raise SyntaxError(e)
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    else_ = items.get('else', None)
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    cond = bool(cast(strings.ustr, cond))
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    if cond: return then
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    else: return else_
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funcs['_if'] = _if
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#### Combining values
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def _alt(items):
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    items = list(items)
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    items.sort()
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    try: return items[0][1] # value of lowest-numbered item
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    except IndexError: return None # input got removed by e.g. FormatException
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funcs['_alt'] = _alt
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def _merge(items):
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    items = list(conv_items(strings.ustr, items))
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        # get *once* from iter, check types
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    items.sort()
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    return maps.merge_values(*[v for k, v in items])
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funcs['_merge'] = _merge
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def _label(items):
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    items = dict(conv_items(strings.ustr, items))
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        # get *once* from iter, check types
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    try:
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        label = items['label']
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        value = items['value']
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    except KeyError, e: raise SyntaxError(e)
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    return label+': '+value
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funcs['_label'] = _label
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#### Transforming values
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types_by_name = {None: strings.ustr, 'str': strings.ustr, 'float': float}
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def _nullIf(items):
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    items = dict(conv_items(strings.ustr, items))
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    try: null = items['null']
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    except KeyError, e: raise SyntaxError(e)
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    value = items.get('value', None)
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    type_str = items.get('type', None)
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    try: type_ = types_by_name[type_str]
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    except KeyError, e: raise SyntaxError(e)
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    null = type_(null)
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    try: return util.none_if(value, null)
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    except ValueError: return value # value not convertible, so can't equal null
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funcs['_nullIf'] = _nullIf
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def repl(repls, value):
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    '''Raises error if value not in map and no special '*' entry
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    @param repls dict repl:with
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        repl "*" means all other input values
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        with "*" means keep input value the same
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        with "" means ignore input value
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    '''
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    try: new_value = repls[value]
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    except KeyError, e:
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        # Save traceback right away in case another exception raised
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        fe = FormatException(e) 
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        try: new_value = repls['*']
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        except KeyError: raise fe
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    if new_value == '*': new_value = value # '*' means keep input value the same
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    return new_value
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def _map(items):
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    '''See repl()
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    @param items
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        <last_entry> Value
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        <other_entries> name=value Mappings. Special values: See repl() repls.
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    '''
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    items = conv_items(strings.ustr, items) # get *once* from iter, check types
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    value = pop_value(items)
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    if value == None: return None # input is empty
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    return util.none_if(repl(dict(items), value), u'') # empty value means None
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funcs['_map'] = _map
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def _replace(items):
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    items = conv_items(strings.ustr, items) # get *once* from iter, check types
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    value = pop_value(items)
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    if value == None: return None # input is empty
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    try:
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        for repl, with_ in items:
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            if re.match(r'^\w+$', repl):
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                repl = r'(?<![^\W_])'+repl+r'(?![^\W_])' # match whole word
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            value = re.sub(repl, with_, value)
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    except sre_constants.error, e: raise SyntaxError(e)
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    return util.none_if(value.strip(), u'') # empty strings always mean None
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funcs['_replace'] = _replace
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#### Quantities
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def _units(items):
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    items = conv_items(strings.ustr, items) # get *once* from iter, check types
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    value = pop_value(items)
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    if value == None: return None # input is empty
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    quantity = units.str2quantity(value)
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    try:
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        for action, units_ in items:
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            units_ = util.none_if(units_, u'')
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            if action == 'default': units.set_default_units(quantity, units_)
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            elif action == 'to':
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                try: quantity = units.convert(quantity, units_)
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                except ValueError, e: raise FormatException(e)
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            else: raise SyntaxError(ValueError('Invalid action: '+action))
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    except units.MissingUnitsException, e: raise FormatException(e)
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    return units.quantity2str(quantity)
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funcs['_units'] = _units
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def parse_range(str_, range_sep='-'):
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    default = (str_, None)
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    start, sep, end = str_.partition(range_sep)
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    if sep == '': return default # not a range
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    if start == '' and range_sep == '-': return default # negative number
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    return tuple(d.strip() for d in (start, end))
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def _rangeStart(items):
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    items = dict(conv_items(strings.ustr, items))
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    try: value = items['value']
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    except KeyError: return None # input is empty
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    return parse_range(value)[0]
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funcs['_rangeStart'] = _rangeStart
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def _rangeEnd(items):
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    items = dict(conv_items(strings.ustr, items))
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    try: value = items['value']
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    except KeyError: return None # input is empty
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    return parse_range(value)[1]
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funcs['_rangeEnd'] = _rangeEnd
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def _range(items):
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    items = dict(conv_items(float, items))
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    from_ = items.get('from', None)
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    to = items.get('to', None)
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    if from_ == None or to == None: return None
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    return str(to - from_)
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funcs['_range'] = _range
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def _avg(items):
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    count = 0
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    sum_ = 0.
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    for name, value in conv_items(float, items):
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        count += 1
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        sum_ += value
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    if count == 0: return None # input is empty
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    else: return str(sum_/count)
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funcs['_avg'] = _avg
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class CvException(Exception):
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    def __init__(self):
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        Exception.__init__(self, 'CV (coefficient of variation) values are only'
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            ' allowed for ratio scale data '
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            '(see <http://en.wikipedia.org/wiki/Coefficient_of_variation>)')
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def _noCV(items):
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    try: name, value = items.next()
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    except StopIteration: return None
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    if re.match('^(?i)CV *\d+$', value): raise FormatException(CvException())
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    return value
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funcs['_noCV'] = _noCV
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#### Dates
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def _date(items):
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    items = dict(conv_items(strings.ustr, items))
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        # get *once* from iter, check types
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    try: str_ = items['date']
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    except KeyError:
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        # Year is required
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        try: items['year']
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        except KeyError, e:
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            if items == {}: return None # entire date is empty
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            else: raise FormatException(e)
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        # Convert month name to number
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        try: month = items['month']
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        except KeyError: pass
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        else:
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            if not month.isdigit(): # month is name
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                try: items['month'] = str(dates.strtotime(month).month)
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                except ValueError, e: raise FormatException(e)
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        items = dict(conv_items(format.str2int, items.iteritems()))
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        items.setdefault('month', 1)
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        items.setdefault('day', 1)
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        for try_num in xrange(2):
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            try:
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                date = datetime.date(**items)
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                break
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            except ValueError, e:
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                if try_num > 0: raise FormatException(e)
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                    # exception still raised after retry
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                msg = strings.ustr(e)
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                if msg == 'month must be in 1..12': # try swapping month and day
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                    items['month'], items['day'] = items['day'], items['month']
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                else: raise FormatException(e)
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    else:
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        try: year = float(str_)
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        except ValueError:
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            try: date = dates.strtotime(str_)
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            except ImportError: return str_
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            except ValueError, e: raise FormatException(e)
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        else: date = (datetime.date(int(year), 1, 1) +
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            datetime.timedelta(round((year % 1.)*365)))
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    try: return dates.strftime('%Y-%m-%d', date)
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    except ValueError, e: raise FormatException(e)
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funcs['_date'] = _date
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def _dateRangeStart(items):
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    items = dict(conv_items(strings.ustr, items))
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    try: value = items['value']
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    except KeyError: return None # input is empty
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    return dates.parse_date_range(value)[0]
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funcs['_dateRangeStart'] = _dateRangeStart
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def _dateRangeEnd(items):
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    items = dict(conv_items(strings.ustr, items))
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    try: value = items['value']
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    except KeyError: return None # input is empty
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    return dates.parse_date_range(value)[1]
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funcs['_dateRangeEnd'] = _dateRangeEnd
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#### Names
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_name_parts_slices_items = [
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    ('first', slice(None, 1)),
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    ('middle', slice(1, -1)),
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    ('last', slice(-1, None)),
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]
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name_parts_slices = dict(_name_parts_slices_items)
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name_parts = [name for name, slice_ in _name_parts_slices_items]
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def _name(items):
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    items = dict(items)
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    parts = []
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    for part in name_parts:
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        if part in items: parts.append(items[part])
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    return ' '.join(parts)
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funcs['_name'] = _name
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def _namePart(items):
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    out_items = []
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    for part, value in items:
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        try: slice_ = name_parts_slices[part]
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        except KeyError, e: raise SyntaxError(e)
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        out_items.append((part, ' '.join(value.split(' ')[slice_])))
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    return _name(out_items)
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funcs['_namePart'] = _namePart
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#### Angles
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def _compass(items):
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    '''Converts a compass direction (N, NE, NNE, etc.) into a degree heading'''
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    items = dict(conv_items(strings.ustr, items))
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    try: value = items['value']
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    except KeyError: return None # input is empty
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    if not value.isupper(): return value # pass through other coordinate formats
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    try: return util.cast(str, angles.compass2heading(value)) # ignore None
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    except KeyError, e: raise FormatException(e)
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funcs['_compass'] = _compass
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#### Paths
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def _simplifyPath(items):
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    items = dict(items)
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    try:
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        next = cast(strings.ustr, items['next'])
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        require = cast(strings.ustr, items['require'])
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        root = items['path']
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    except KeyError, e: raise SyntaxError(e)
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    node = root
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    while node != None:
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        new_node = xpath.get_1(node, next, allow_rooted=False)
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        if xpath.get_1(node, require, allow_rooted=False) == None: # empty elem
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            xml_dom.replace(node, new_node) # remove current elem
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            if node is root: root = new_node # also update root
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        node = new_node
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    return root
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funcs['_simplifyPath'] = _simplifyPath
(20-20/22)