teixml.py
34.2 KB
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#-*- coding:utf-8 -*-
from semantics.models import LexicalUnitExamples
import datetime
from lxml import etree
from xml.sax.saxutils import escape
from dictionary.models import Atribute_Model, \
sortArguments, sortatributes, sortPositions, sort_positions
XML_NAMESPACE = 'http://www.w3.org/XML/1998/namespace'
def createteixml(outpath, lemmas, frame_opinion_values):
root = write_root()
write_header(root)
write_entries(root, lemmas, frame_opinion_values)
with open(outpath, 'w') as output_file:
output_file.write(etree.tostring(root, pretty_print=True,
xml_declaration=True, encoding='UTF-8',
doctype=u'<!DOCTYPE TEI SYSTEM "tei_all.dtd">'))
def write_root():
root = etree.Element('TEI')
root.attrib[etree.QName(XML_NAMESPACE, 'lang')] = u'pl'
root.attrib['xmlns'] = u'http://www.tei-c.org/ns/1.0'
return root
def write_header(root):
tei_header = etree.SubElement(root, 'teiHeader')
file_desc = etree.SubElement(tei_header, 'fileDesc')
title_stmt = etree.SubElement(file_desc, 'titleStmt')
title = etree.SubElement(title_stmt, 'title')
title.text = u'Polish Valence Dictionary (Walenty)'
publication_stmt = etree.SubElement(file_desc, 'publicationStmt')
publisher = etree.SubElement(publication_stmt, 'publisher')
publisher.text = u'IPI PAN ZIL'
date = etree.SubElement(publication_stmt, 'date')
date.attrib['when'] = datetime.datetime.now().strftime('%Y-%m-%d')
source_desc = etree.SubElement(file_desc, 'sourceDesc')
p = etree.SubElement(source_desc, 'p')
p.text = u'File generated using Slowal. Mentioned tool available at: walenty.ipipan.waw.pl.'
def write_entries(root, lemmas, frame_opinion_values):
text = etree.SubElement(root, 'text')
body = etree.SubElement(text, 'body')
for lemma in lemmas:
frame_opinions = lemma.frame_opinions.filter(value__in=frame_opinion_values)
write_entry(body, lemma, frame_opinions, frame_opinion_values)
def write_entry(body_elem, lemma, frame_opinions, frame_opinion_values):
entry_xml_id = 'wal_%s-ent' % str(lemma.entry_obj.id)
entry_elem = etree.SubElement(body_elem, 'entry')
entry_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = entry_xml_id
form_elem = etree.SubElement(entry_elem, 'form')
orth_elem = etree.SubElement(form_elem, 'orth')
orth_elem.text = lemma.entry
pos_elem = etree.SubElement(form_elem, 'pos')
pos_elem.text = lemma.entry_obj.pos.tag
write_syntactic_layer(entry_elem, lemma, frame_opinions, frame_opinion_values)
write_examples_layer(entry_elem, lemma)
if lemma.semantics_ready():
write_semantic_layer(entry_elem, lemma)
write_meanings_layer(entry_elem, lemma)
write_connections_layer(entry_elem, lemma)
def write_syntactic_layer(entry_elem, lemma, frame_opinions, frame_opinion_values):
synt_layer_fs_elem = etree.SubElement(entry_elem, 'fs')
synt_layer_fs_elem.attrib['type'] = 'syntactic_layer'
schemata_f_elem = etree.SubElement(synt_layer_fs_elem, 'f')
schemata_f_elem.attrib['name'] = 'schemata'
vColl_elem = etree.SubElement(schemata_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for reflex_val in lemma.get_existing_frame_char_values(u'ZWROTNOŚĆ'):
for neg_val in lemma.get_existing_frame_char_values(u'NEGATYWNOŚĆ'):
for pred_val in lemma.get_existing_frame_char_values(u'PREDYKATYWNOŚĆ'):
for aspect_val in lemma.get_existing_frame_char_values(u'ASPEKT'):
matchingframes = lemma.get_frames_by_char_values(reflex_val=reflex_val,
neg_val=neg_val,
pred_val=pred_val,
aspect_val=aspect_val).order_by('text_rep')
for frame in matchingframes:
if not lemma.phraseology_ready() and frame.phraseologic:
continue
if (not frame_opinion_values.exists() or frame_opinions.filter(frame=frame).exists()):
write_schema(vColl_elem, frame, lemma)
def write_schema(parent_elem, schema, lemma):
schema_xml_id = 'wal_%s.%s-sch' % (str(lemma.entry_obj.id), str(schema.id))
schema_fs_elem = etree.SubElement(parent_elem, 'fs')
schema_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = schema_xml_id
schema_fs_elem.attrib['type'] = 'schema'
# opinia o schemacie
try:
schema_opinion = lemma.frame_opinions.filter(frame=schema).all()[0].value.short
except IndexError:
schema_opinion = 'unk'
opinion_f_elem = etree.SubElement(schema_fs_elem, 'f')
opinion_f_elem.attrib['name'] = 'opinion'
opinion_symbol = etree.SubElement(opinion_f_elem, 'symbol')
opinion_symbol.attrib['value'] = schema_opinion
# zwrotnosc
reflex = schema.characteristics.get(type=u'ZWROTNOŚĆ')
selfmark_f_elem = etree.SubElement(schema_fs_elem, 'f')
selfmark_f_elem.attrib['name'] = 'reflexive_mark'
selfmark_binary = etree.SubElement(selfmark_f_elem, 'binary')
if reflex.value.value:
selfmark_binary.attrib['value'] = 'true'
else:
selfmark_binary.attrib['value'] = 'false'
# aspekt
aspect = schema.characteristics.get(type=u'ASPEKT').value.value
aspect_f_elem = etree.SubElement(schema_fs_elem, 'f')
aspect_f_elem.attrib['name'] = 'aspect'
if aspect:
aspect_symbol = etree.SubElement(aspect_f_elem, 'symbol')
aspect_symbol.attrib['value'] = aspect
# negatywnosc
negativity = schema.characteristics.get(type=u'NEGATYWNOŚĆ').value.value
negativity_f_elem = etree.SubElement(schema_fs_elem, 'f')
negativity_f_elem.attrib['name'] = 'negativity'
if negativity:
negativity_symbol = etree.SubElement(negativity_f_elem, 'symbol')
negativity_symbol.attrib['value'] = negativity
# predykatywnosc
predicativity = schema.characteristics.get(type=u'PREDYKATYWNOŚĆ').value.value
predicativity_f_elem = etree.SubElement(schema_fs_elem, 'f')
predicativity_f_elem.attrib['name'] = 'predicativity'
predicativity_binary = etree.SubElement(predicativity_f_elem, 'binary')
if predicativity:
predicativity_binary.attrib['value'] = 'true'
else:
predicativity_binary.attrib['value'] = 'false'
# pozycje składniowe
write_positions_feature(schema, schema_xml_id, schema_fs_elem)
def write_positions_feature(schema, schema_xml_id, parent_elem):
sorted_pos_dict = sortPositions(schema.positions.all())
if sorted_pos_dict:
positions_f_elem = etree.SubElement(parent_elem, 'f')
positions_f_elem.attrib['name'] = 'positions'
vColl_elem = etree.SubElement(positions_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for position in sorted_pos_dict:
write_position_elem(vColl_elem, schema_xml_id, position['position'])
def write_position_elem(parent_elem, schema_xml_id, position):
position_xml_id = None
position_fs_elem = etree.SubElement(parent_elem, 'fs')
if schema_xml_id:
position_xml_id = schema_xml_id.replace(u'-sch', '.%d-psn' % position.id)
position_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = position_xml_id
position_fs_elem.attrib['type'] = 'position'
functions = position.categories.filter(control=False)
if functions.exists():
function_f_elem = etree.SubElement(position_fs_elem, 'f')
function_f_elem.attrib['name'] = 'function'
function_symbol_elem = etree.SubElement(function_f_elem, 'symbol')
function_symbol_elem.attrib['value'] = functions[0].category
write_control_features(position_fs_elem, position)
write_phrases_feature(position_fs_elem, position, position_xml_id)
def write_control_features(parent_elem, position):
controls1 = position.categories.filter(control=True).exclude(category__endswith='2')
controls2 = position.categories.filter(control=True, category__endswith='2')
if controls1.exists() or controls2.exists():
control_f_elem = etree.SubElement(parent_elem, 'f')
control_f_elem.attrib['name'] = 'control'
vColl_elem = etree.SubElement(control_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
if controls1.exists():
control = controls1[0].category
control1_symbol_elem = etree.SubElement(vColl_elem, 'symbol')
control1_symbol_elem.attrib['value'] = control
if controls2.exists():
control = controls2[0].category
control2_symbol_elem = etree.SubElement(vColl_elem, 'symbol')
control2_symbol_elem.attrib['value'] = control
def write_phrases_feature(parent_elem, position, position_xml_id):
sorted_phrases = sortArguments(position.arguments.all())
if sorted_phrases:
phrases_f_elem = etree.SubElement(parent_elem, 'f')
phrases_f_elem.attrib['name'] = 'phrases'
vColl_elem = etree.SubElement(phrases_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for phrase in sorted_phrases:
write_phrase(vColl_elem, phrase, position_xml_id)
def write_phrase(parent_elem, phrase, position_xml_id):
phrase_fs_elem = etree.SubElement(parent_elem, 'fs')
if position_xml_id:
phrase_xml_id = position_xml_id.replace(u'-psn', '.%d-phr' % phrase.id)
phrase_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = phrase_xml_id
phrase_fs_elem.attrib['type'] = phrase.type
write_attributes(phrase_fs_elem, phrase)
def write_attributes(parent_elem, phrase):
attributes = sortatributes(phrase)
for attribute in attributes:
write_attribute(parent_elem, attribute)
def write_attribute(parent_elem, attribute):
attribute_model = Atribute_Model.objects.get(atr_model_name=attribute.type)
attr_f_elem = etree.SubElement(parent_elem, 'f')
attr_f_elem.attrib['name'] = attribute_model.sym_name
attribute_type = attribute_model.type.sym_name
selection_modes = attribute_model.values_selection_modes
if attribute_type == 'text' and not selection_modes.exists():
write_simple_text_attr(attr_f_elem, attribute)
elif attribute_type == 'text' and selection_modes.exists():
write_complex_text_attr(attr_f_elem, attribute_model, attribute)
elif attribute_type == 'parameter' and not selection_modes.exists():
write_simple_parameter_attr(attr_f_elem, attribute_model, attribute)
elif attribute_type == 'parameter' and selection_modes.exists():
write_complex_parameter_attr(attr_f_elem, attribute_model, attribute)
elif attribute_type == 'argument' and not selection_modes.exists():
write_simple_phrase_type_attr(attr_f_elem, attribute)
elif attribute_type == 'argument' and selection_modes.exists():
write_complex_phrase_type_attr(attr_f_elem, attribute)
elif attribute_type == 'position':
write_complex_position_attr(attr_f_elem, attribute)
def write_simple_text_attr(parent_elem, attribute):
string_elem = etree.SubElement(parent_elem, 'string')
string_elem.text = unicode(attribute).strip("'")
def write_complex_text_attr(parent_elem, attribute_model, attribute):
complex_lemma_fs_elem = etree.SubElement(parent_elem, 'fs')
complex_lemma_fs_elem.attrib['type'] = '%s_def' % parent_elem.attrib['name']
write_selection_mode_and_separator(complex_lemma_fs_elem, attribute_model, attribute)
write_lemmas(complex_lemma_fs_elem, attribute)
def write_selection_mode_and_separator(parent_elem, attr_model, attribute):
if attribute.selection_mode:
selection_mode = attribute.selection_mode.name
else:
selection_mode = attr_model.values_selection_modes.order_by('priority')[0].name
sel_mode_f_elem = etree.SubElement(parent_elem, 'f')
sel_mode_f_elem.attrib['name'] = 'selection_mode'
sel_mode_symbol_elem = etree.SubElement(sel_mode_f_elem, 'symbol')
sel_mode_symbol_elem.attrib['value'] = selection_mode
if attribute.separator:
separator = attribute.separator.symbol
else:
separator = attr_model.value_separators.order_by('priority')[0].symbol
if separator == ';':
separator = 'coord'
elif separator == ',':
separator = 'concat'
separator_f_elem = etree.SubElement(parent_elem, 'f')
separator_f_elem.attrib['name'] = 'cooccurrence'
separator_symbol_elem = etree.SubElement(separator_f_elem, 'symbol')
separator_symbol_elem.attrib['value'] = separator
def write_lemmas(parent_elem, attribute):
lemmas = [unicode(value) for value in attribute.values.order_by('text')]
lemmas_f_elem = etree.SubElement(parent_elem, 'f')
lemmas_f_elem.attrib['name'] = 'lemmas'
vColl_elem = etree.SubElement(lemmas_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for lemma in lemmas:
string_elem = etree.SubElement(vColl_elem, 'string')
string_elem.text = lemma.strip("'")
def write_simple_parameter_attr(parent_elem, attribute_model, attribute):
param_value = attribute.values.all()[0]
write_parameter(parent_elem, attribute_model, param_value)
def write_parameter(parent_elem, attribute_model, param_value):
if attribute_model.use_subparams():
param_fs_elem = etree.SubElement(parent_elem, 'fs')
param_fs_elem.attrib['type'] = '%s_def' % parent_elem.attrib['name']
value_f_elem = etree.SubElement(param_fs_elem, 'f')
value_f_elem.attrib['name'] = 'conjunction'
value = param_value.parameter.type.name
symbol_elem = etree.SubElement(value_f_elem, 'symbol')
symbol_elem.attrib['value'] = value
if param_value.parameter.subparameters.exists():
write_parameter_subparameters(param_fs_elem, param_value.parameter)
else:
value = unicode(param_value)
if attribute_model.sym_name == 'reflexive_mark':
selfmark_binary = etree.SubElement(parent_elem, 'binary')
if value:
selfmark_binary.attrib['value'] = 'true'
else:
selfmark_binary.attrib['value'] = 'false'
elif value:
symbol_elem = etree.SubElement(parent_elem, 'symbol')
symbol_elem.attrib['value'] = value
def write_parameter_subparameters(parent_elem, parameter):
subparams_f_elem = etree.SubElement(parent_elem, 'f')
subparams_f_elem.attrib['name'] = 'constraints'
vColl_elem = etree.SubElement(subparams_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for subparameter in parameter.subparameters.order_by('name'):
write_subparameter(vColl_elem, subparameter)
def write_subparameter(parent_elem, subparameter):
symbol_elem = etree.SubElement(parent_elem, 'symbol')
symbol_elem.attrib['value'] = subparameter.name
def write_complex_parameter_attr(parent_elem, attribute_model, attribute):
vColl_elem = etree.SubElement(parent_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for value in attribute.values.order_by('parameter__type'):
write_parameter(vColl_elem, attribute_model, value)
def write_simple_phrase_type_attr(parent_elem, attribute):
write_phrase(parent_elem, attribute.values.all()[0].argument, None)
def write_complex_phrase_type_attr(parent_elem, attribute):
selection_mode = attribute.selection_mode
if selection_mode.sym_name == 'list':
phrases = [value.argument for value in attribute.values.all()]
write_phrases_set(parent_elem, phrases)
else:
complex_phrase_fs_elem = etree.SubElement(parent_elem, 'fs')
complex_phrase_fs_elem.attrib['type'] = '%s_def' % parent_elem.attrib['name']
write_typed_phrase_attr(complex_phrase_fs_elem, attribute)
def write_phrases_set(parent_elem, phrases):
vColl_elem = etree.SubElement(parent_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
sorted_phrases = sortArguments(phrases)
for phrase in sorted_phrases:
write_phrase(vColl_elem, phrase, None)
def write_typed_phrase_attr(parent_elem, attribute):
selection_mode = attribute.selection_mode
type_f_elem = etree.SubElement(parent_elem, 'f')
type_f_elem.attrib['name'] = 'name'
symbol_elem = etree.SubElement(type_f_elem, 'symbol')
symbol_elem.attrib['value'] = selection_mode.name
if attribute.values.exists():
phrases_f_elem = etree.SubElement(parent_elem, 'f')
phrases_f_elem.attrib['name'] = 'constraints'
phrases = [value.argument for value in attribute.values.all()]
write_phrases_set(phrases_f_elem, phrases)
def write_complex_position_attr(parent_elem, attribute):
complex_positions_fs_elem = etree.SubElement(parent_elem, 'fs')
complex_positions_fs_elem.attrib['type'] = '%s_def' % parent_elem.attrib['name']
selection_mode = attribute.selection_mode
type_f_elem = etree.SubElement(complex_positions_fs_elem, 'f')
type_f_elem.attrib['name'] = 'type'
symbol_elem = etree.SubElement(type_f_elem, 'symbol')
symbol_elem.attrib['value'] = selection_mode.name
if attribute.values.exists():
positions_f_elem = etree.SubElement(complex_positions_fs_elem, 'f')
positions_f_elem.attrib['name'] = 'positions'
vColl_elem = etree.SubElement(positions_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
positions = [value.position for value in attribute.values.all()]
sorted_positions = sort_positions(positions)
for position in sorted_positions:
write_position_elem(vColl_elem, None, position)
def write_examples_layer(parent_elem, lemma):
examples_layer_elem = etree.SubElement(parent_elem, 'fs')
examples_layer_elem.attrib['type'] = 'examples_layer'
examples_f_elem = etree.SubElement(examples_layer_elem, 'f')
examples_f_elem.attrib['name'] = 'examples'
vColl_elem = etree.SubElement(examples_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
write_examples_feature(vColl_elem, lemma)
def write_examples_feature(parent_elem, lemma):
for example in lemma.nkjp_examples.order_by('opinion__priority').all():
if not lemma.phraseology_ready() and example.frame.phraseologic:
pass
else:
write_example(parent_elem, lemma, example)
for example in lemma.lemma_nkjp_examples.order_by('opinion__priority').all():
write_example(parent_elem, lemma, example)
def write_example(parent_elem, lemma, example):
entry = lemma.entry_obj
example_xml_id = u'wal_%s.%s-exm' % (str(entry.id), str(example.id))
example_fs_elem = etree.SubElement(parent_elem, 'fs')
example_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = example_xml_id
example_fs_elem.attrib['type'] = 'example'
if lemma.semantics_ready():
get_and_write_meaning_link(example_fs_elem, entry, example)
write_phrases_links(example_fs_elem, entry, example)
sentence_f_elem = etree.SubElement(example_fs_elem, 'f')
sentence_f_elem.attrib['name'] = 'sentence'
sentence_content_elem = etree.SubElement(sentence_f_elem, 'string')
sentence_content_elem.text = escape(example.sentence)
source_f_elem = etree.SubElement(example_fs_elem, 'f')
source_f_elem.attrib['name'] = 'source'
source_symbol_elem = etree.SubElement(source_f_elem, 'symbol')
source_symbol_elem.attrib['value'] = example.source.sym_name
opinion_f_elem = etree.SubElement(example_fs_elem, 'f')
opinion_f_elem.attrib['name'] = 'opinion'
opinion_symbol_elem = etree.SubElement(opinion_f_elem, 'symbol')
opinion_symbol_elem.attrib['value'] = example.opinion.opinion
if example.comment:
note_f_elem = etree.SubElement(example_fs_elem, 'f')
note_f_elem.attrib['name'] = 'note'
note_content_elem = etree.SubElement(note_f_elem, 'string')
note_content_elem.text = escape(example.comment)
def get_and_write_meaning_link(parent_elem, entry, example):
try:
entry_lex_units = entry.meanings.all()
lex_unit_example = LexicalUnitExamples.objects.get(example=example,
lexical_unit__in=entry_lex_units)
meaning = lex_unit_example.lexical_unit
meaning_xml_id = u'#wal_%s.%s-mng' % (str(entry.id), str(meaning.id))
meaning_f_elem = etree.SubElement(parent_elem, 'f')
meaning_f_elem.attrib['name'] = 'meaning'
meaning_link_elem = etree.SubElement(meaning_f_elem, 'fs')
meaning_link_elem.attrib['sameAs'] = meaning_xml_id
meaning_link_elem.attrib['type'] = 'lexical_unit'
except LexicalUnitExamples.DoesNotExist:
pass
def write_phrases_links(parent_elem, entry, example):
phrases_f_elem = etree.SubElement(parent_elem, 'f')
phrases_f_elem.attrib['name'] = 'phrases'
vColl_elem = etree.SubElement(phrases_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for phrase_selection in example.arguments.all():
create_and_write_phrase_link(vColl_elem, entry, example, phrase_selection)
def create_and_write_phrase_link(parent_elem, entry, example, phrase_selection):
link_base = u'#wal_%d.%d.%d.' % (entry.id, example.frame.id, phrase_selection.position.id)
for phrase in phrase_selection.arguments.all():
link_end = u'%d-phr' % phrase.id
link = link_base + link_end
phrase_link_elem = etree.SubElement(parent_elem, 'fs')
phrase_link_elem.attrib['sameAs'] = link
phrase_link_elem.attrib['type'] = 'phrase'
def write_semantic_layer(parent_elem, lemma):
semantic_layer_elem = etree.SubElement(parent_elem, 'fs')
semantic_layer_elem.attrib['type'] = 'semantic_layer'
frames_f_elem = etree.SubElement(semantic_layer_elem, 'f')
frames_f_elem.attrib['name'] = 'frames'
vColl_elem = etree.SubElement(frames_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
write_frames(vColl_elem, lemma)
def write_frames(parent_elem, lemma):
entry = lemma.entry_obj
frames = entry.actual_frames()
for frame in frames:
write_frame_fs(parent_elem, entry, frame)
def write_frame_fs(parent_elem, entry, frame):
frame_xml_id = u'wal_%d.%d-frm' % (entry.id, frame.id)
frame_fs_elem = etree.SubElement(parent_elem, 'fs')
frame_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = frame_xml_id
frame_fs_elem.attrib['type'] = 'frame'
write_frame_opinion(frame_fs_elem, frame)
write_frame_meanings(frame_fs_elem, entry, frame)
write_frame_arguments(frame_fs_elem, entry, frame)
def write_frame_opinion(parent_elem, frame):
frame_opinion = 'unk'
if frame.opinion_selected():
frame_opinion = frame.opinion.short
opinion_f_elem = etree.SubElement(parent_elem, 'f')
opinion_f_elem.attrib['name'] = 'opinion'
opinion_symbol = etree.SubElement(opinion_f_elem, 'symbol')
opinion_symbol.attrib['value'] = frame_opinion
def write_frame_meanings(parent_elem, entry, frame):
meanings_f_elem = etree.SubElement(parent_elem, 'f')
meanings_f_elem.attrib['name'] = 'meanings'
vColl_elem = etree.SubElement(meanings_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for meaning in frame.lexical_units.all():
write_frame_meaning_link(vColl_elem, entry, meaning)
def write_frame_meaning_link(parent_elem, entry, meaning):
link = u'#wal_%d.%d-mng' % (entry.id, meaning.id)
lex_unit_link_elem = etree.SubElement(parent_elem, 'fs')
lex_unit_link_elem.attrib['sameAs'] = link
lex_unit_link_elem.attrib['type'] = 'lexical_unit'
def write_frame_arguments(parent_elem, entry, frame):
arguments_f_elem = etree.SubElement(parent_elem, 'f')
arguments_f_elem.attrib['name'] = 'arguments'
vColl_elem = etree.SubElement(arguments_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for arg in frame.complements.all():
write_frame_argument(vColl_elem, entry, frame, arg)
def write_frame_argument(parent_elem, entry, frame, arg):
arg_base_id = u'wal_%d.%d' % (entry.id, frame.id)
arg_xml_id = arg_base_id + u'.%d-arg' % arg.id
argument_fs_elem = etree.SubElement(parent_elem, 'fs')
argument_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = arg_xml_id
argument_fs_elem.attrib['type'] = 'argument'
write_roles(argument_fs_elem, arg)
write_selective_preferences(argument_fs_elem, arg, arg_base_id)
def write_roles(parent_elem, arg):
for role in arg.roles.order_by('gradient'):
if role.gradient:
attribute_f_elem = etree.SubElement(parent_elem, 'f')
attribute_f_elem.attrib['name'] = 'role_attribute'
attribute_symbol_elem = etree.SubElement(attribute_f_elem, 'symbol')
attribute_symbol_elem.attrib['value'] = unicode(role)
else:
role_f_elem = etree.SubElement(parent_elem, 'f')
role_f_elem.attrib['name'] = 'role'
role_symbol_elem = etree.SubElement(role_f_elem, 'symbol')
role_symbol_elem.attrib['value'] = unicode(role)
def write_selective_preferences(parent_elem, arg, arg_base_id):
if(arg.selective_preference):
sel_prefs_f_elem = etree.SubElement(parent_elem, 'f')
sel_prefs_f_elem.attrib['name'] = 'sel_prefs'
sel_prefs_groups_fs_elem = etree.SubElement(sel_prefs_f_elem, 'fs')
sel_prefs_groups_fs_elem.attrib['type'] = 'sel_prefs_groups'
write_synsets_sel_prefs(sel_prefs_groups_fs_elem, arg)
write_predefined_sel_prefs(sel_prefs_groups_fs_elem, arg)
write_relation_sel_prefs(sel_prefs_groups_fs_elem, arg, arg_base_id)
write_synset_relation_sel_prefs(sel_prefs_groups_fs_elem, arg)
def write_synsets_sel_prefs(parent_elem, arg):
synsets = arg.selective_preference.synsets
if synsets.exists():
synsets_f_elem = etree.SubElement(parent_elem, 'f')
synsets_f_elem.attrib['name'] = 'synsets'
vColl_elem = etree.SubElement(synsets_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for synset in synsets.all():
write_synset(vColl_elem, synset)
def write_synset(parent_elem, synset):
id_numeric_elem = etree.SubElement(parent_elem, 'numeric')
id_numeric_elem.attrib['value'] = str(synset.id)
def write_predefined_sel_prefs(parent_elem, arg):
generals = arg.selective_preference.generals
if generals.exists():
predefs_f_elem = etree.SubElement(parent_elem, 'f')
predefs_f_elem.attrib['name'] = 'predefs'
vColl_elem = etree.SubElement(predefs_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for predef in generals.all():
write_predef(vColl_elem, predef)
def write_predef(parent_elem, predef):
name_symbol_elem = etree.SubElement(parent_elem, 'symbol')
name_symbol_elem.attrib['value'] = predef.name
def write_relation_sel_prefs(parent_elem, arg, arg_base_id):
relations = arg.selective_preference.relations
if relations.exists():
relations_f_elem = etree.SubElement(parent_elem, 'f')
relations_f_elem.attrib['name'] = 'relations'
vColl_elem = etree.SubElement(relations_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for relation in relations.all():
write_relation(vColl_elem, relation, arg_base_id)
def write_relation(parent_elem, relation, arg_base_id):
relation_fs_elem = etree.SubElement(parent_elem, 'fs')
relation_fs_elem.attrib['type'] = 'relation'
relation_f_elem = etree.SubElement(relation_fs_elem, 'f')
relation_f_elem.attrib['name'] = 'type'
type_symbol_elem = etree.SubElement(relation_f_elem, 'symbol')
type_symbol_elem.attrib['value'] = relation.relation.name
to_f_elem = etree.SubElement(relation_fs_elem, 'f')
to_f_elem.attrib['name'] = 'to'
to_xml_link = '#%s.%d-arg' % (arg_base_id, relation.to.id)
arg_link_elem = etree.SubElement(to_f_elem, 'fs')
arg_link_elem.attrib['sameAs'] = to_xml_link
arg_link_elem.attrib['type'] = 'argument'
def write_synset_relation_sel_prefs(parent_elem, arg):
relations = arg.selective_preference.synset_relations
if relations.exists():
relations_f_elem = etree.SubElement(parent_elem, 'f')
relations_f_elem.attrib['name'] = 'synset_relations'
vColl_elem = etree.SubElement(relations_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for relation in relations.all():
write_synset_relation(vColl_elem, relation)
def write_synset_relation(parent_elem, relation):
relation_fs_elem = etree.SubElement(parent_elem, 'fs')
relation_fs_elem.attrib['type'] = 'synset_relation'
relation_f_elem = etree.SubElement(relation_fs_elem, 'f')
relation_f_elem.attrib['name'] = 'type'
type_symbol_elem = etree.SubElement(relation_f_elem, 'symbol')
type_symbol_elem.attrib['value'] = relation.relation.name
to_f_elem = etree.SubElement(relation_fs_elem, 'f')
to_f_elem.attrib['name'] = 'to'
write_synset(to_f_elem, relation.to)
def write_meanings_layer(parent_elem, lemma):
meanings_layer_elem = etree.SubElement(parent_elem, 'fs')
meanings_layer_elem.attrib['type'] = 'meanings_layer'
meanings_f_elem = etree.SubElement(meanings_layer_elem, 'f')
meanings_f_elem.attrib['name'] = 'meanings'
vColl_elem = etree.SubElement(meanings_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
write_meanings(vColl_elem, lemma)
def write_meanings(parent_elem, lemma):
entry = lemma.entry_obj
for lex_unit in entry.meanings.all():
write_meaning(parent_elem, entry, lex_unit)
def write_meaning(parent_elem, entry, lex_unit):
meaning_xml_id = u'wal_%d.%d-mng' % (entry.id, lex_unit.id)
meaning_fs_elem = etree.SubElement(parent_elem, 'fs')
meaning_fs_elem.attrib[etree.QName(XML_NAMESPACE, 'id')] = meaning_xml_id
meaning_fs_elem.attrib['type'] = 'lexical_unit'
name_f_elem = etree.SubElement(meaning_fs_elem, 'f')
name_f_elem.attrib['name'] = 'name'
name_content_elem = etree.SubElement(name_f_elem, 'string')
name_content_elem.text = lex_unit.base
variant_f_elem = etree.SubElement(meaning_fs_elem, 'f')
variant_f_elem.attrib['name'] = 'variant'
variant_string_elem = etree.SubElement(variant_f_elem, 'string')
variant_string_elem.text = lex_unit.sense
plwnluid_f_elem = etree.SubElement(meaning_fs_elem, 'f')
plwnluid_f_elem.attrib['name'] = 'plwnluid'
plwnluid_numeric_elem = etree.SubElement(plwnluid_f_elem, 'numeric')
plwnluid_numeric_elem.attrib['value'] = str(lex_unit.luid)
if lex_unit.glossa:
gloss_f_elem = etree.SubElement(meaning_fs_elem, 'f')
gloss_f_elem.attrib['name'] = 'gloss'
gloss_content_elem = etree.SubElement(gloss_f_elem, 'string')
gloss_content_elem.text = lex_unit.glossa
def write_connections_layer(parent_elem, lemma):
connections_layer_elem = etree.SubElement(parent_elem, 'fs')
connections_layer_elem.attrib['type'] = 'connections_layer'
alternations_f_elem = etree.SubElement(connections_layer_elem, 'f')
alternations_f_elem.attrib['name'] = 'alternations'
vColl_elem = etree.SubElement(alternations_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
write_alternations(vColl_elem, lemma)
def write_alternations(parent_elem, lemma):
entry = lemma.entry_obj
frames = entry.actual_frames()
for schema in lemma.frames.all():
for frame in frames:
matching_complements = frame.complements.filter(realizations__frame=schema).distinct()
write_alternation(parent_elem, entry, schema, frame, matching_complements, 1)
write_alternation(parent_elem, entry, schema, frame, matching_complements, 2)
def write_alternation(parent_elem, entry, schema, frame, complements, alternation):
alternation_compls = complements.filter(realizations__alternation=alternation)
if alternation_compls.exists():
first_connection = True
for arg in alternation_compls.all():
alt_realizations = arg.realizations.filter(frame=schema, alternation=alternation)
if alt_realizations.exists():
if first_connection:
alternation_fs_elem = etree.SubElement(parent_elem, 'fs')
alternation_fs_elem.attrib['type'] = 'alternation'
connections_f_elem = etree.SubElement(alternation_fs_elem, 'f')
connections_f_elem.attrib['name'] = 'connections'
vColl_elem = etree.SubElement(connections_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
first_connection = False
write_connection(vColl_elem, entry, frame, arg, alt_realizations)
def write_connection(parent_elem, entry, frame, arg, realizations):
connection_fs_elem = etree.SubElement(parent_elem, 'fs')
connection_fs_elem.attrib['type'] = 'connection'
write_argument(connection_fs_elem, entry, frame, arg)
write_phrases(connection_fs_elem, entry, realizations)
def write_argument(parent_elem, entry, frame, arg):
arg_f_elem = etree.SubElement(parent_elem, 'f')
arg_f_elem.attrib['name'] = 'argument'
arg_link = u'#wal_%d.%d.%d-arg' % (entry.id, frame.id, arg.id)
arg_link_fs_elem = etree.SubElement(arg_f_elem, 'fs')
arg_link_fs_elem.attrib['sameAs'] = arg_link
arg_link_fs_elem.attrib['type'] = 'argument'
def write_phrases(parent_elem, entry, realizations):
phrases_f_elem = etree.SubElement(parent_elem, 'f')
phrases_f_elem.attrib['name'] = 'phrases'
vColl_elem = etree.SubElement(phrases_f_elem, 'vColl')
vColl_elem.attrib['org'] = 'set'
for realization in realizations:
phrase_xml_link = u'#wal_%d.%d.%d.%d-phr' % (entry.id, realization.frame.id,
realization.position.id, realization.argument.id)
phrase_link_elem = etree.SubElement(vColl_elem, 'fs')
phrase_link_elem.attrib['sameAs'] = phrase_xml_link
phrase_link_elem.attrib['type'] = 'phrase'