def get_handler(self):
"""Get mapper handler instance.
Returns:
handler instance as callable.
"""
return util.handler_for_name(self.handler_spec)
def get_handler(self):
"""Get mapper handler instance.
Returns:
handler instance as callable.
"""
return util.handler_for_name(self.handler_spec)
def get_handler(self):
"""Get mapper handler instance.
Returns:
cached handler instance as callable.
"""
if self.__handler is None:
self.__handler = util.handler_for_name(self.handler_spec)
return self.__handler
def post(self):
from mapreduce.util import handler_for_name
data = json.loads(self.request.body)
model_name = data['model']
filters = data.get('filters', None)
model = handler_for_name(model_name)
query = to_ndb_query(model, filters=filters)
csv_str = query_to_csv(query, model)
self.serve_csv(csv_str, filename='report.csv')
def get_handler(self):
"""Get mapper handler instance.
Returns:
cached handler instance as callable.
"""
if self.__handler is None:
self.__handler = util.handler_for_name(self.handler_spec)
return self.__handler
def get_handler(self):
"""Get mapper handler instance.
This always creates a new instance of the handler. If the handler is a
callable instance, MR only wants to create a new instance at the
beginning of a shard or shard retry. The pickled callable instance
should be accessed from TransientShardState.
Returns:
handler instance as callable.
"""
return util.handler_for_name(self.handler_spec)
def get_handler(self):
"""Get mapper handler instance.
This always creates a new instance of the handler. If the handler is a
callable instance, MR only wants to create a new instance at the
beginning of a shard or shard retry. The pickled callable instance
should be accessed from TransientShardState.
Returns:
handler instance as callable.
"""
return util.handler_for_name(self.handler_spec)
def __iter__(self):
ctx = context.get()
combiner = None
if ctx:
combiner_spec = ctx.mapreduce_spec.mapper.params.get("combiner_spec")
if combiner_spec:
combiner = util.handler_for_name(combiner_spec)
self.current_key = None
self.current_values = None
for binary_record in super(_ReducerReader, self).__iter__():
proto = file_service_pb.KeyValues()
proto.ParseFromString(binary_record)
if self.current_key is None:
self.current_key = proto.key()
self.current_values = []
else:
assert proto.key() == self.current_key, (
"inconsistent key sequence. Expected %s but got %s" %
(self.current_key, proto.key()))
if combiner:
combiner_result = combiner(
self.current_key, proto.value_list(), self.current_values)
if not util.is_generator(combiner_result):
raise errors.BadCombinerOutputError(
"Combiner %s should yield values instead of returning them (%s)" %
(combiner, combiner_result))
self.current_values = []
for value in combiner_result:
if isinstance(value, operation.Operation):
value(ctx)
else:
# with combiner current values always come from combiner
self.current_values.append(value)
else:
# without combiner we just accumulate values.
self.current_values.extend(proto.value_list())
if not proto.partial():
key = self.current_key
values = self.current_values
# This is final value, don't try to serialize it.
self.current_key = None
self.current_values = None
yield (key, values)
else:
yield input_readers.ALLOW_CHECKPOINT
def _extract_content_urls_map(data):
"""Map function of extract outlinks from content.
Function to be extracted and parsed to extract contents url with UDF.
For example, You specified parser UDF for HTML, would like to
fetch content from target page, and storing outlinks.
implement default like this::
def htmlParser(key, content):
outlinks = re.findall(r'href=[\'"]?([^\'" >]+)', content)
link_datums = []
for link in outlinks:
link_datum = LinkDbDatum(parent=key, link_url=link)
link_datums.append(link_datum)
ndb.put_multi_async(link_datums)
content_links = re.findall(r'src=[\'"]?([^\'" >]+)', content)
return content_links
Note:Note:The above function to return the URL of the target of
url that will fetch in the next job(FetchContentPipeline)
Args:
data: key value data, that key is position, value is url.
Returns:
url: The page url.
"""
k, url = data
query = CrawlDbDatum.query(CrawlDbDatum.url == url)
crawl_db_datum = query.fetch()
key = crawl_db_datum[0].key
fetched_datums = FetchedDbDatum.query(ancestor=key).fetch()
fetched_datum = fetched_datums[0]
content = None
if fetched_datum is not None:
content = fetched_datum.fetched_content
mime_type = fetched_datum.content_type
if content is not None:
parsed_obj = None
try:
params = _get_parser_param(_PARSER_PARAM_KEY)
parsed_obj = util.handler_for_name(params[mime_type])(key,
content)
except Exception as e:
logging.warning("Can not handle for %s[params:%s]:%s" %
(mime_type, params, e.message))
if parsed_obj is not None:
for content_urls in parsed_obj:
yield (url, content_urls)
def _extract_content_urls_map(data):
"""Map function of extract outlinks from content.
Function to be extracted and parsed to extract contents url with UDF.
For example, You specified parser UDF for HTML, would like to
fetch content from target page, and storing outlinks.
implement default like this::
def htmlParser(key, content):
outlinks = re.findall(r'href=[\'"]?([^\'" >]+)', content)
link_datums = []
for link in outlinks:
link_datum = LinkDbDatum(parent=key, link_url=link)
link_datums.append(link_datum)
ndb.put_multi_async(link_datums)
content_links = re.findall(r'src=[\'"]?([^\'" >]+)', content)
return content_links
Note:Note:The above function to return the URL of the target of
url that will fetch in the next job(FetchContentPipeline)
Args:
data: key value data, that key is position, value is url.
Returns:
url: The page url.
"""
k, url = data
query = CrawlDbDatum.query(CrawlDbDatum.url==url)
crawl_db_datum = query.fetch()
key = crawl_db_datum[0].key
fetched_datums = FetchedDbDatum.query(ancestor=key).fetch()
fetched_datum = fetched_datums[0]
content = None
if fetched_datum is not None:
content = fetched_datum.fetched_content
mime_type = fetched_datum.content_type
if content is not None:
parsed_obj = None
try:
params = _get_parser_param(_PARSER_PARAM_KEY)
parsed_obj = util.handler_for_name(params[mime_type])(key, content)
except Exception as e:
logging.warning("Can not handle for %s[params:%s]:%s"%(mime_type, params, e.message))
if parsed_obj is not None:
for content_urls in parsed_obj:
yield (url, content_urls)
def source_model_post_save(sender, instance, created, **kwargs):
# for clarity
source_model = sender
source_instance = instance
affected_targets = source_instance._denorm_affected_targets
if not affected_targets:
# nothing to denorm
return
#
# create a task for each affected target to update its instances
#
for target_model, affected_target in affected_targets.iteritems():
# if storage is shared_dict, then task will pluralize related_field_name to get target model's list field
related_field_name = affected_target['related']
strategy = affected_target['strategy']
storage = affected_target['storage']
shards = affected_target['shards']
affected_fields = affected_target['fields']
#logging.info('affected target %s.%s for source %s: %s' % (target_model, related_field_name, source_model, affected_fields))
# for each affected target, create a separate task
instance_id = source_instance.id
tag = 'DENORM_SOURCE_%s_%s_TARGET_%s' % (util.get_model_name(
source_model), instance_id, util.get_model_name(target_model))
payload = {
'created': timezone.now().isoformat(),
'strategy': strategy,
'storage': storage,
'instance_id': instance_id,
'source_model': util.get_model_name(source_model),
'target_model': util.get_model_name(target_model),
'related_field': related_field_name,
'fields': affected_fields,
# TODO: queue name should be configurable
'queue_name': 'denorm'
}
if strategy == 'mapreduce':
payload['shards'] = handler_for_name(shards)(
source_instance) if shards else DEFAULT_MAP_REDUCE_SHARDS
payload_string = util.dump_json(payload)
logging.info(
'[denorm source_model_post_save] queue task payload = %s' %
payload_string)
# create a pull task per target
taskqueue.Queue('pull-denorm').add(
taskqueue.Task(payload=payload_string, tag=tag, method='PULL'))
# create ** one ** Task model instance used to track denorm tasks per source, particularly for throttling
models.get_task_model().objects.create(
source_model=util.get_model_name(source_model),
source_instance_id=source_instance.id,
user=source_instance._denorm_user,
label=source_instance._denorm_label)
# re-run post_init to reset _denorm_orig_values in case this instance gets saved again
source_model_post_init(source_model, source_instance)
def source_model_post_save(sender, instance, created, **kwargs):
# for clarity
source_model = sender
source_instance = instance
affected_targets = source_instance._denorm_affected_targets
if not affected_targets:
# nothing to denorm
return
#
# create a task for each affected target to update its instances
#
for target_model, affected_target in affected_targets.iteritems():
# if storage is shared_dict, then task will pluralize related_field_name to get target model's list field
related_field_name = affected_target['related']
strategy = affected_target['strategy']
storage = affected_target['storage']
shards = affected_target['shards']
affected_fields = affected_target['fields']
#logging.info('affected target %s.%s for source %s: %s' % (target_model, related_field_name, source_model, affected_fields))
# for each affected target, create a separate task
instance_id = source_instance.id
tag = 'DENORM_SOURCE_%s_%s_TARGET_%s' % (util.get_model_name(source_model), instance_id, util.get_model_name(target_model))
payload = {
'created': timezone.now().isoformat(),
'strategy': strategy,
'storage': storage,
'instance_id': instance_id,
'source_model': util.get_model_name(source_model),
'target_model': util.get_model_name(target_model),
'related_field': related_field_name,
'fields': affected_fields,
# TODO: queue name should be configurable
'queue_name': 'denorm'
}
if strategy == 'mapreduce':
payload['shards'] = handler_for_name(shards)(source_instance) if shards else DEFAULT_MAP_REDUCE_SHARDS
payload_string = util.dump_json(payload)
logging.info('[denorm source_model_post_save] queue task payload = %s' % payload_string)
# create a pull task per target
taskqueue.Queue('pull-denorm').add(
taskqueue.Task(payload=payload_string, tag=tag, method='PULL')
)
# create ** one ** Task model instance used to track denorm tasks per source, particularly for throttling
models.get_task_model().objects.create(
source_model=util.get_model_name(source_model),
source_instance_id=source_instance.id,
user=source_instance._denorm_user,
label=source_instance._denorm_label
)
# re-run post_init to reset _denorm_orig_values in case this instance gets saved again
source_model_post_init(source_model, source_instance)
