def build_intent_examples(acc, intent, name):
def build_sentence(sentence):
entities = []
def reduce_sentence(result, cur):
if not utils.is_entity(cur):
return result + cur.get('value')
entity_name = get_real_entity(cur.get('value'))
value = augment.get_entity(entity_name).next(
cur.get('variant'))
nonlocal entities
entities.append({
'start': len(result),
'end': len(result) + len(value),
'entity': cur.get('value'),
# Check if its a synonym here
'value': synonyms_lookup.get(value, value),
})
return result + value
return {
'intent': name,
'text': fp.reduce(reduce_sentence, '')(sentence),
'entities': entities,
}
return fp.append(*fp.map(build_sentence)(intent.get('data', [])))(acc)
def reduce_sentence(result, cur):
if not is_synonym(cur):
return fp.append(fp.clone(cur))(result)
nonlocal idx
value = permutation[idx]
idx += 1
# Check if it's not an empty value
if value:
return fp.append({
'type': 'text',
'value': value,
})(result)
return result
def build_regex_features(acc, _, name):
pattern = get_regex_prop(get_real_entity(name))
if pattern:
return fp.append({
'name': name,
'pattern': pattern,
})(acc)
return acc
def reduce_entity(result, cur):
synonyms = augment.get_synonyms(cur)
if not synonyms:
return result
return fp.append({
'value': cur,
'synonyms': synonyms,
})(result)
def build_lookup_table(acc, _, name):
entity_name = get_real_entity(name)
# Entity has regex feature, returns now
if get_regex_prop(entity_name):
return acc
return fp.append({
'name': name,
'elements': augment.get_entity(entity_name).all(),
})(acc)
def build_lookup_table(acc, _, name):
entity_name = get_real_entity(name)
# Entity reference to another or has regex feature, returns now
if entity_name != name or get_regex_prop(name):
return acc
return fp.append({
'name': name,
'elements': augment.get_entity(name).all(),
})(acc)
def build_entity_synonyms(acc, _, name):
def reduce_entity(result, cur):
synonyms = augment.get_synonyms(cur)
if not synonyms:
return result
return fp.append({
'value': cur,
'synonyms': synonyms,
})(result)
return fp.append(
*fp.reduce(reduce_entity)(augment.get_entity(name).all()))(acc)
def build_entity(acc, entity, name):
ent_type = get_entity_type(entity)
if ent_type:
if SNIPS_PREFIX in ent_type:
return fp.append({
ent_type: {},
})(acc)
# It has a type present in the dataset, it should be considered as a slot
return acc
use_synonyms = False
def build_entity_value(ent_name):
nonlocal use_synonyms
synonyms = augment.get_synonyms(ent_name)
use_synonyms = use_synonyms or len(synonyms) > 0
return {
'value': ent_name,
'synonyms': synonyms,
}
values = fp.map(build_entity_value)(augment.get_entity(name).all())
return fp.append({
name: {
'data':
values,
'automatically_extensible':
entity['props'].get('extensible', 'true') == 'true',
'matching_strictness':
float(entity['props'].get('strictness', '1')),
'use_synonyms':
use_synonyms,
},
})(acc)
def reduce_whitespaces_in_part(result, part):
cur = fp.clone(part)
nonlocal part_idx
# First element
if part_idx == 0:
cur['value'] = cur['value'].lstrip()
# Last element or the following one starts with a space
if part_idx == (len(parts) -
1) or parts[part_idx +
1]['value'][0] == ' ':
cur['value'] = cur['value'].rstrip()
part_idx += 1
if not cur['value']:
return result
return fp.append(cur)(result)
def test_it_should_correctly_transform_data(self):
tests = [
{
'it': 'should provide a function which always returns the given value',
'given': lambda d: fp.always(5)(d),
'with': 1,
'expected': 5,
},
{
'it': 'should provide a function to extract a prop from an object',
'given': lambda o: fp.prop('value')(o),
'with': {'some': 'thing', 'value': 'five'},
'expected': 'five',
},
{
'it': 'should provide a function to instantiate a class',
'given': lambda d: fp.instantiate(SayHello)(d),
'with': 'jean',
'expected': SayHello('jean'),
},
{
'it': 'should instantiate a class with additional parameters if any',
'given': lambda d: fp.instantiate(SayHello, 'other value')(d),
'with': 'jean',
'expected': SayHello('jean', 'other value'),
},
{
'it': 'should provide a function to map on an array',
'given': lambda d: fp.map(lambda s: s.upper())(d),
'with': ['one', 'two', 'three'],
'expected': ['ONE', 'TWO', 'THREE'],
},
{
'it': 'should map on object values if given an object',
'given': lambda d: fp.map(lambda s: s.upper())(d),
'with': {'a': 'one', 'b': 'two', 'c': 'three'},
'expected': {'a': 'ONE', 'b': 'TWO', 'c': 'THREE'},
},
{
'it': 'should provide a function to reduce an array',
'given': lambda d: fp.reduce(lambda p, c: (p.append(c) or p) if c > 5 else p)(d),
'with': [1, 2, 3, 4, 5, 6, 7],
'expected': [6, 7],
},
{
'it': 'should reduce an object too',
'given': lambda o: fp.reduce(lambda p, c, key: (p.update({
key: c,
}) or p) if c > 5 else p)(o),
'with': {'a': 1, 'b': 2, 'c': 3, 'd': 4, 'e': 5, 'f': 6, 'g': 7},
'expected': {'f': 6, 'g': 7},
},
{
'it': 'should reduce with a given accumulator',
'given': lambda d: fp.reduce(lambda p, c: p.update({c: c}) or p, {})(d),
'with': [1, 2, 3],
'expected': {1: 1, 2: 2, 3: 3},
},
{
'it': 'should provide a way to pipe functions',
'given': lambda d: fp.pipe(fp.always('test'), lambda s: s.upper())(d),
'with': 'something',
'expected': 'TEST',
},
{
'it': 'should provide a way to flatten an array',
'given': lambda d: fp.flatten(d),
'with': [[1, 2], [3, 4]],
'expected': [1, 2, 3, 4],
},
{
'it': 'should flatten an object too',
'given': lambda d: fp.flatten(d),
'with': {'a': [1, 2], 'b': [3, 4]},
'expected': [1, 2, 3, 4],
},
{
'it': 'should append to an array',
'given': lambda d: fp.append(3, 4)(d),
'with': [1, 2],
'expected': [1, 2, 3, 4],
},
{
'it': 'should append to an object',
'given': lambda d: fp.append({'some': 'value'}, {'else': 'too'})(d),
'with': {'an': 'object'},
'expected': {'an': 'object', 'some': 'value', 'else': 'too'},
},
{
'it': 'should filter array elements',
'given': lambda d: fp.filter(lambda a: (a % 2) == 0)(d),
'with': [1, 2, 3, 4],
'expected': [2, 4],
},
{
'it': 'should clone an object',
'given': lambda o: fp.clone(o),
'with': {'an': 'object', 'with': {'nested': 'prop'}},
'expected': {'an': 'object', 'with': {'nested': 'prop'}},
},
]
for test in tests:
yield self.it_should_correctly_transform_data, \
test['it'], test['given'], test['with'], test['expected']
def rasa(chatl, **options):
"""Convert a chatl dataset to a rasa representation as per
https://rasa.com/docs/rasa/1.1.4/nlu/training-data-format/
"""
augment = Augment(chatl, True)
def get_real_entity(name):
entity_type = augment.entities.get(name, {}).get('props',
{}).get('type')
if entity_type and entity_type in augment.entities:
return entity_type
return name
def get_regex_prop(name):
return augment.entities.get(name, {}).get('props', {}).get('regex')
# For rasa, we need a map of synonyms -> value
synonyms_lookup = fp.reduce(lambda acc, synonyms, value: fp.append(*fp.map(
lambda s: {s: value})(synonyms))(acc))(augment.synonyms_values)
def build_lookup_table(acc, _, name):
entity_name = get_real_entity(name)
# Entity has regex feature, returns now
if get_regex_prop(entity_name):
return acc
return fp.append({
'name': name,
'elements': augment.get_entity(entity_name).all(),
})(acc)
def build_intent_examples(acc, intent, name):
def build_sentence(sentence):
entities = []
def reduce_sentence(result, cur):
if not utils.is_entity(cur):
return result + cur.get('value')
entity_name = get_real_entity(cur.get('value'))
value = augment.get_entity(entity_name).next(
cur.get('variant'))
nonlocal entities
entities.append({
'start': len(result),
'end': len(result) + len(value),
'entity': cur.get('value'),
# Check if its a synonym here
'value': synonyms_lookup.get(value, value),
})
return result + value
return {
'intent': name,
'text': fp.reduce(reduce_sentence, '')(sentence),
'entities': entities,
}
return fp.append(*fp.map(build_sentence)(intent.get('data', [])))(acc)
def build_entity_synonyms(acc, _, name):
def reduce_entity(result, cur):
synonyms = augment.get_synonyms(cur)
if not synonyms:
return result
return fp.append({
'value': cur,
'synonyms': synonyms,
})(result)
return fp.append(
*fp.reduce(reduce_entity)(augment.get_entity(name).all()))(acc)
def build_regex_features(acc, _, name):
pattern = get_regex_prop(get_real_entity(name))
if pattern:
return fp.append({
'name': name,
'pattern': pattern,
})(acc)
return acc
return utils.merge(
{
'rasa_nlu_data': {
'common_examples':
fp.reduce(build_intent_examples, [])(augment.get_intents()),
'regex_features':
fp.reduce(build_regex_features, [])(augment.entities),
'lookup_tables':
fp.reduce(build_lookup_table, [])(augment.entities),
'entity_synonyms':
fp.reduce(build_entity_synonyms, [])(augment.entities),
},
}, options)
def reduce_synonyms(result, synonym_data):
return fp.append(
([''] if synonym_data.get('optional') else []) +
self.get_synonyms(synonym_data['value']))(result)
def process_sentence_data(acc, sentence):
sentence_synonyms = fp.filter(is_synonym)(sentence)
# No synonyms, just returns now
if not sentence_synonyms:
return fp.append(sentence)(acc)
# Get all synonyms values to generate permutations
# For optional synonyms, add an empty entry.
def reduce_synonyms(result, synonym_data):
return fp.append(
([''] if synonym_data.get('optional') else []) +
self.get_synonyms(synonym_data['value']))(result)
synonyms_data = fp.reduce(reduce_synonyms)(sentence_synonyms)
def process_permutation(permutation):
idx = 0
def reduce_sentence(result, cur):
if not is_synonym(cur):
return fp.append(fp.clone(cur))(result)
nonlocal idx
value = permutation[idx]
idx += 1
# Check if it's not an empty value
if value:
return fp.append({
'type': 'text',
'value': value,
})(result)
return result
parts = fp.reduce(reduce_sentence)(sentence)
part_idx = 0
def reduce_whitespaces_in_part(result, part):
cur = fp.clone(part)
nonlocal part_idx
# First element
if part_idx == 0:
cur['value'] = cur['value'].lstrip()
# Last element or the following one starts with a space
if part_idx == (len(parts) -
1) or parts[part_idx +
1]['value'][0] == ' ':
cur['value'] = cur['value'].rstrip()
part_idx += 1
if not cur['value']:
return result
return fp.append(cur)(result)
# Remove uneeded whitespaces introduced by optional synonyms
stripped_parts = fp.reduce(reduce_whitespaces_in_part)(parts)
return stripped_parts
return fp.append(
*fp.map(process_permutation)(list(product(
*synonyms_data))))(acc)
def process_intent_data(intent_data):
return fp.append({
'data':
fp.reduce(process_sentence_data)(intent_data.get('data', [])),
})(intent_data)