def __init__(self,
xform_raw=None,
xform_path=None,
instance_raw=None,
instance_path=None,
preload_data={},
extensions=[],
nav_mode='prompt'):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
def content_or_path(content, path):
if content != None:
return content
elif path != None:
with codecs.open(path, encoding='utf-8') as f:
return f.read()
else:
return None
xform = content_or_path(xform_raw, xform_path)
instance = content_or_path(instance_raw, instance_path)
self.form = load_form(xform, instance, extensions, preload_data)
self.fem = FormEntryModel(self.form,
FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
self._parse_current_event()
self.update_last_activity()
def __init__(self, xform_raw=None, xform_path=None, instance_raw=None, instance_path=None,
init_lang=None, preload_data={}, extensions=[], nav_mode='prompt'):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
def content_or_path(content, path):
if content != None:
return content
elif path != None:
with codecs.open(path, encoding='utf-8') as f:
return f.read()
else:
return None
xform = content_or_path(xform_raw, xform_path)
instance = content_or_path(instance_raw, instance_path)
self.form = load_form(xform, instance, extensions, preload_data)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if init_lang is not None:
self.fec.setLanguage(init_lang)
self._parse_current_event()
self.update_last_activity()
def __init__(self, xform, instance=None, **params):
self.uuid = params.get('uuid', uuid.uuid4().hex)
self.lock = threading.Lock()
self.nav_mode = params.get('nav_mode', 'prompt')
self.seq_id = params.get('seq_id', 0)
self.form = load_form(xform, instance, params.get('extensions', []), params.get('session_data', {}), params.get('api_auth'))
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get('init_lang'):
try:
self.fec.setLanguage(params.get('init_lang'))
except UnregisteredLocaleException:
pass # just use default language
if params.get('cur_index'):
self.fec.jumpToIndex(self.parse_ix(params.get('cur_index')))
self._parse_current_event()
self.staleness_window = 3600. * params['staleness_window']
self.persist = params.get('persist', settings.PERSIST_SESSIONS)
self.orig_params = {
'xform': xform,
'nav_mode': params.get('nav_mode'),
'session_data': params.get('session_data'),
'api_auth': params.get('api_auth'),
'staleness_window': params['staleness_window'],
}
self.update_last_activity()
def __init__(self, xform, instance=None, **params):
self.uuid = params.get('uuid', uuid.uuid4().hex)
self.nav_mode = params.get('nav_mode', 'prompt')
self.seq_id = params.get('seq_id', 0)
self.uses_sql_backend = params.get('uses_sql_backend')
self.form = load_form(
xform,
instance,
params.get('extensions', []),
params.get('session_data', {}),
params.get('api_auth'),
params.get('form_context', None),
self.uses_sql_backend,
)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get('init_lang'):
try:
self.fec.setLanguage(params.get('init_lang'))
except UnregisteredLocaleException:
pass # just use default language
if params.get('cur_index'):
self.fec.jumpToIndex(self.parse_ix(params.get('cur_index')))
self._parse_current_event()
self.staleness_window = 3600. * params['staleness_window']
self.persist = params.get('persist', settings.PERSIST_SESSIONS)
self.orig_params = {
'xform': xform,
'nav_mode': params.get('nav_mode'),
'session_data': params.get('session_data'),
'api_auth': params.get('api_auth'),
'staleness_window': params['staleness_window'],
}
self.update_last_activity()
def __init__(self,
xform,
instance=None,
init_lang=None,
session_data={},
extensions=[],
nav_mode='prompt',
api_auth=None):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
self.form = load_form(xform, instance, extensions, session_data,
api_auth)
self.fem = FormEntryModel(self.form,
FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if init_lang is not None:
self.fec.setLanguage(init_lang)
self._parse_current_event()
self.update_last_activity()
def __init__(self, xform, instance=None, init_lang=None, session_data={}, extensions=[], nav_mode='prompt', api_auth=None):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
self.form = load_form(xform, instance, extensions, session_data, api_auth)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if init_lang is not None:
self.fec.setLanguage(init_lang)
self._parse_current_event()
self.update_last_activity()
def __init__(self, xform, instance=None, **params):
self.uuid = params.get("uuid", uuid.uuid4().hex)
self.nav_mode = params.get("nav_mode", "prompt")
self.seq_id = params.get("seq_id", 0)
self.uses_sql_backend = params.get("uses_sql_backend")
self.form = load_form(
xform,
instance,
params.get("extensions", []),
params.get("session_data", {}),
params.get("api_auth"),
params.get("form_context", None),
self.uses_sql_backend,
)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get("init_lang"):
try:
self.fec.setLanguage(params.get("init_lang"))
except UnregisteredLocaleException:
pass # just use default language
if params.get("cur_index"):
self.fec.jumpToIndex(self.parse_ix(params.get("cur_index")))
self._parse_current_event()
self.staleness_window = 3600.0 * params["staleness_window"]
self.persist = params.get("persist", settings.PERSIST_SESSIONS)
self.orig_params = {
"xform": xform,
"nav_mode": params.get("nav_mode"),
"session_data": params.get("session_data"),
"api_auth": params.get("api_auth"),
"staleness_window": params["staleness_window"],
}
self.update_last_activity()
class XFormSession:
def __init__(self, xform_raw=None, xform_path=None, instance_raw=None, instance_path=None,
preload_data={}, extensions=[], nav_mode='prompt'):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
def content_or_path(content, path):
if content != None:
return content
elif path != None:
with codecs.open(path, encoding='utf-8') as f:
return f.read()
else:
return None
xform = content_or_path(xform_raw, xform_path)
instance = content_or_path(instance_raw, instance_path)
self.form = load_form(xform, instance, extensions, preload_data)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
self._parse_current_event()
self.update_last_activity()
def __enter__(self):
if self.nav_mode == 'fao':
self.lock.acquire()
else:
if not self.lock.acquire(False):
raise SequencingException()
self.seq_id += 1
self.update_last_activity()
return self
def __exit__(self, *_):
self.lock.release()
def update_last_activity(self):
self.last_activity = time.time()
def output(self):
if self.cur_event['type'] != 'form-complete':
#warn that not at end of form
pass
instance_bytes = FormSerializer().serializeInstance(self.form.getInstance())
return unicode(''.join(chr(b) for b in instance_bytes.tolist()), 'utf-8')
def walk(self):
form_ix = FormIndex.createBeginningOfFormIndex()
tree = []
self._walk(form_ix, tree)
return tree
def _walk(self, parent_ix, siblings):
def ix_in_scope(form_ix):
if form_ix.isEndOfFormIndex():
return False
elif parent_ix.isBeginningOfFormIndex():
return True
else:
return FormIndex.isSubElement(parent_ix, form_ix)
form_ix = self.fem.incrementIndex(parent_ix, True)
while ix_in_scope(form_ix):
relevant = self.fem.isIndexRelevant(form_ix)
if not relevant:
form_ix = self.fem.incrementIndex(form_ix, False)
continue
evt = self.__parse_event(form_ix)
evt['relevant'] = relevant
if evt['type'] == 'sub-group':
presentation_group = (evt['caption'] != None)
if presentation_group:
siblings.append(evt)
evt['children'] = []
form_ix = self._walk(form_ix, evt['children'] if presentation_group else siblings)
elif evt['type'] == 'repeat-juncture':
siblings.append(evt)
evt['children'] = []
for i in range(0, self.fem.getForm().getNumRepetitions(form_ix)):
subevt = {
'type': 'sub-group',
'ix': self.fem.getForm().descendIntoRepeat(form_ix, i),
'caption': evt['repetitions'][i],
'repeatable': True,
'children': [],
}
# ghettoooo; if this pays off, this should be better incorporated into the form entry API
subevt['uuid'] = self.form.getInstance().resolveReference(subevt['ix'].getReference()).uuid
evt['children'].append(subevt)
self._walk(subevt['ix'], subevt['children'])
for key in ['repetitions', 'del-choice', 'del-header', 'done-choice']:
del evt[key]
form_ix = self.fem.incrementIndex(form_ix, True) # why True?
else:
siblings.append(evt)
form_ix = self.fem.incrementIndex(form_ix, True) # why True?
return form_ix
def _parse_current_event(self):
self.cur_event = self.__parse_event(self.fem.getFormIndex())
return self.cur_event
def __parse_event (self, form_ix):
event = {'ix': form_ix}
status = self.fem.getEvent(form_ix)
if status == self.fec.EVENT_BEGINNING_OF_FORM:
event['type'] = 'form-start'
elif status == self.fec.EVENT_END_OF_FORM:
event['type'] = 'form-complete'
self.fem.getForm().postProcessInstance()
elif status == self.fec.EVENT_QUESTION:
event['type'] = 'question'
self._parse_question(event)
elif status == self.fec.EVENT_REPEAT_JUNCTURE:
event['type'] = 'repeat-juncture'
self._parse_repeat_juncture(event)
else:
event['type'] = 'sub-group'
event['caption'] = self.fem.getCaptionPrompt(form_ix).getLongText()
if status == self.fec.EVENT_GROUP:
event['repeatable'] = False
elif status == self.fec.EVENT_REPEAT:
event['repeatable'] = True
event['exists'] = True
elif status == self.fec.EVENT_PROMPT_NEW_REPEAT: #obsolete
event['repeatable'] = True
event['exists'] = False
return event
def _get_question_choices(self, q):
return [choice(q, ch) for ch in q.getSelectChoices()]
def _parse_style_info(self, rawstyle):
info = {}
if rawstyle != None:
info['raw'] = rawstyle
try:
info.update([[p.strip() for p in f.split(':')][:2] for f in rawstyle.split(';') if f.strip()])
except ValueError:
pass
return info
def _parse_question (self, event):
q = self.fem.getQuestionPrompt(event['ix'])
event['caption'] = q.getLongText()
event['help'] = q.getHelpText()
event['style'] = self._parse_style_info(q.getAppearanceHint())
if q.getControlType() == Constants.CONTROL_TRIGGER:
event['datatype'] = 'info'
else:
try:
event['datatype'] = {
Constants.DATATYPE_NULL: 'str',
Constants.DATATYPE_TEXT: 'str',
Constants.DATATYPE_INTEGER: 'int',
Constants.DATATYPE_DECIMAL: 'float',
Constants.DATATYPE_DATE: 'date',
Constants.DATATYPE_TIME: 'time',
Constants.DATATYPE_CHOICE: 'select',
Constants.DATATYPE_CHOICE_LIST: 'multiselect',
# not supported yet
Constants.DATATYPE_DATE_TIME: 'datetime',
Constants.DATATYPE_GEOPOINT: 'geo',
Constants.DATATYPE_BARCODE: 'barcode',
Constants.DATATYPE_BINARY: 'binary',
Constants.DATATYPE_LONG: 'longint',
}[q.getDataType()]
except KeyError:
event['datatype'] = 'unrecognized'
if event['datatype'] in ('select', 'multiselect'):
event['choices'] = self._get_question_choices(q)
event['required'] = q.isRequired()
value = q.getAnswerValue()
if value == None:
event['answer'] = None
elif event['datatype'] == 'int':
event['answer'] = value.getValue()
elif event['datatype'] == 'float':
event['answer'] = value.getValue()
elif event['datatype'] == 'str':
event['answer'] = value.getValue()
elif event['datatype'] == 'date':
event['answer'] = to_pdate(value.getValue())
elif event['datatype'] == 'time':
event['answer'] = to_ptime(value.getValue())
elif event['datatype'] == 'select':
event['answer'] = value.getValue().index + 1
elif event['datatype'] == 'multiselect':
event['answer'] = [sel.index + 1 for sel in value.getValue()]
def _parse_repeat_juncture(self, event):
r = self.fem.getCaptionPrompt(event['ix'])
ro = r.getRepeatOptions()
event['main-header'] = ro.header
event['repetitions'] = list(r.getRepetitionsText())
event['add-choice'] = ro.add
event['del-choice'] = ro.delete
event['del-header'] = ro.delete_header
event['done-choice'] = ro.done
def next_event (self):
self.fec.stepToNextEvent()
return self._parse_current_event()
def back_event (self):
self.fec.stepToPreviousEvent()
return self._parse_current_event()
def answer_question (self, answer, _ix=None):
ix = self.parse_ix(_ix)
event = self.cur_event if ix is None else self.__parse_event(ix)
if event['type'] != 'question':
raise ValueError('not currently on a question')
datatype = event['datatype']
if datatype == 'unrecognized':
# don't commit answers to unrecognized questions, since we
# couldn't parse what was originally there. whereas for
# _unsupported_ questions, we're parsing and re-committing the
# answer verbatim
return {'status': 'success'}
if answer == None or str(answer).strip() == '' or answer == [] or datatype == 'info':
ans = None
elif datatype == 'int':
ans = IntegerData(int(answer))
elif datatype == 'float':
ans = DecimalData(float(answer))
elif datatype == 'str':
ans = StringData(str(answer))
elif datatype == 'date':
ans = DateData(to_jdate(datetime.strptime(str(answer), '%Y-%m-%d').date()))
elif datatype == 'time':
ans = TimeData(to_jtime(datetime.strptime(str(answer), '%H:%M').time()))
elif datatype == 'select':
ans = SelectOneData(event['choices'][int(answer) - 1].to_sel())
elif datatype == 'multiselect':
if hasattr(answer, '__iter__'):
ans_list = answer
else:
ans_list = str(answer).split()
ans = SelectMultiData(to_vect(event['choices'][int(k) - 1].to_sel() for k in ans_list))
result = self.fec.answerQuestion(*([ans] if ix is None else [ix, ans]))
if result == self.fec.ANSWER_REQUIRED_BUT_EMPTY:
return {'status': 'error', 'type': 'required'}
elif result == self.fec.ANSWER_CONSTRAINT_VIOLATED:
q = self.fem.getQuestionPrompt(*([] if ix is None else [ix]))
return {'status': 'error', 'type': 'constraint', 'reason': q.getConstraintText()}
elif result == self.fec.ANSWER_OK:
return {'status': 'success'}
def descend_repeat (self, rep_ix=None, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
if rep_ix:
self.fec.descendIntoRepeat(rep_ix - 1)
else:
self.fec.descendIntoNewRepeat()
return self._parse_current_event()
def delete_repeat (self, rep_ix, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
self.fec.deleteRepeat(rep_ix - 1)
return self._parse_current_event()
#sequential (old-style) repeats only
def new_repetition (self):
#currently in the form api this always succeeds, but theoretically there could
#be unsatisfied constraints that make it fail. how to handle them here?
self.fec.newRepeat(self.fem.getFormIndex())
def parse_ix(self, s_ix):
return index_from_str(s_ix, self.form)
def form_title(self):
return self.form.getTitle()
def response(self, resp, ev_next=None, no_next=False):
if no_next:
navinfo = {}
elif self.nav_mode == 'prompt':
if ev_next is None:
ev_next = next_event(self)
navinfo = {'event': ev_next}
elif self.nav_mode == 'fao':
navinfo = {'tree': self.walk()}
if DEBUG:
print '=== walking ==='
print_tree(self.walk())
print '==============='
resp.update(navinfo)
resp.update({'seq_id': self.seq_id})
return resp
class XFormSession:
def __init__(self,
xform_raw=None,
xform_path=None,
instance_raw=None,
instance_path=None,
preload_data={},
extensions=[],
nav_mode='prompt'):
self.lock = threading.Lock()
self.nav_mode = nav_mode
self.seq_id = 0
def content_or_path(content, path):
if content != None:
return content
elif path != None:
with codecs.open(path, encoding='utf-8') as f:
return f.read()
else:
return None
xform = content_or_path(xform_raw, xform_path)
instance = content_or_path(instance_raw, instance_path)
self.form = load_form(xform, instance, extensions, preload_data)
self.fem = FormEntryModel(self.form,
FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
self._parse_current_event()
self.update_last_activity()
def __enter__(self):
if self.nav_mode == 'fao':
self.lock.acquire()
else:
if not self.lock.acquire(False):
raise SequencingException()
self.seq_id += 1
self.update_last_activity()
return self
def __exit__(self, *_):
self.lock.release()
def update_last_activity(self):
self.last_activity = time.time()
def output(self):
if self.cur_event['type'] != 'form-complete':
#warn that not at end of form
pass
instance_bytes = FormSerializer().serializeInstance(
self.form.getInstance())
return unicode(''.join(chr(b) for b in instance_bytes.tolist()),
'utf-8')
def walk(self):
form_ix = FormIndex.createBeginningOfFormIndex()
tree = []
self._walk(form_ix, tree)
return tree
def _walk(self, parent_ix, siblings):
def ix_in_scope(form_ix):
if form_ix.isEndOfFormIndex():
return False
elif parent_ix.isBeginningOfFormIndex():
return True
else:
return FormIndex.isSubElement(parent_ix, form_ix)
form_ix = self.fem.incrementIndex(parent_ix, True)
while ix_in_scope(form_ix):
relevant = self.fem.isIndexRelevant(form_ix)
if not relevant:
form_ix = self.fem.incrementIndex(form_ix, False)
continue
evt = self.__parse_event(form_ix)
evt['relevant'] = relevant
if evt['type'] == 'sub-group':
presentation_group = (evt['caption'] != None)
if presentation_group:
siblings.append(evt)
evt['children'] = []
form_ix = self._walk(
form_ix,
evt['children'] if presentation_group else siblings)
elif evt['type'] == 'repeat-juncture':
siblings.append(evt)
evt['children'] = []
for i in range(0,
self.fem.getForm().getNumRepetitions(form_ix)):
subevt = {
'type': 'sub-group',
'ix': self.fem.getForm().descendIntoRepeat(form_ix, i),
'caption': evt['repetitions'][i],
'repeatable': True,
'children': [],
}
# ghettoooo; if this pays off, this should be better incorporated into the form entry API
subevt['uuid'] = self.form.getInstance().resolveReference(
subevt['ix'].getReference()).uuid
evt['children'].append(subevt)
self._walk(subevt['ix'], subevt['children'])
for key in [
'repetitions', 'del-choice', 'del-header',
'done-choice'
]:
del evt[key]
form_ix = self.fem.incrementIndex(form_ix, True) # why True?
else:
siblings.append(evt)
form_ix = self.fem.incrementIndex(form_ix, True) # why True?
return form_ix
def _parse_current_event(self):
self.cur_event = self.__parse_event(self.fem.getFormIndex())
return self.cur_event
def __parse_event(self, form_ix):
event = {'ix': form_ix}
status = self.fem.getEvent(form_ix)
if status == self.fec.EVENT_BEGINNING_OF_FORM:
event['type'] = 'form-start'
elif status == self.fec.EVENT_END_OF_FORM:
event['type'] = 'form-complete'
self.fem.getForm().postProcessInstance()
elif status == self.fec.EVENT_QUESTION:
event['type'] = 'question'
self._parse_question(event)
elif status == self.fec.EVENT_REPEAT_JUNCTURE:
event['type'] = 'repeat-juncture'
self._parse_repeat_juncture(event)
else:
event['type'] = 'sub-group'
event['caption'] = self.fem.getCaptionPrompt(form_ix).getLongText()
if status == self.fec.EVENT_GROUP:
event['repeatable'] = False
elif status == self.fec.EVENT_REPEAT:
event['repeatable'] = True
event['exists'] = True
elif status == self.fec.EVENT_PROMPT_NEW_REPEAT: #obsolete
event['repeatable'] = True
event['exists'] = False
return event
def _get_question_choices(self, q):
return [choice(q, ch) for ch in q.getSelectChoices()]
def _parse_style_info(self, rawstyle):
info = {}
if rawstyle != None:
info['raw'] = rawstyle
try:
info.update([[p.strip() for p in f.split(':')][:2]
for f in rawstyle.split(';') if f.strip()])
except ValueError:
pass
return info
def _parse_question(self, event):
q = self.fem.getQuestionPrompt(event['ix'])
event['caption'] = q.getLongText()
event['help'] = q.getHelpText()
event['style'] = self._parse_style_info(q.getAppearanceHint())
if q.getControlType() == Constants.CONTROL_TRIGGER:
event['datatype'] = 'info'
else:
try:
event['datatype'] = {
Constants.DATATYPE_NULL: 'str',
Constants.DATATYPE_TEXT: 'str',
Constants.DATATYPE_INTEGER: 'int',
Constants.DATATYPE_DECIMAL: 'float',
Constants.DATATYPE_DATE: 'date',
Constants.DATATYPE_TIME: 'time',
Constants.DATATYPE_CHOICE: 'select',
Constants.DATATYPE_CHOICE_LIST: 'multiselect',
# not supported yet
Constants.DATATYPE_DATE_TIME: 'datetime',
Constants.DATATYPE_GEOPOINT: 'geo',
Constants.DATATYPE_BARCODE: 'barcode',
Constants.DATATYPE_BINARY: 'binary',
Constants.DATATYPE_LONG: 'longint',
}[q.getDataType()]
except KeyError:
event['datatype'] = 'unrecognized'
if event['datatype'] in ('select', 'multiselect'):
event['choices'] = self._get_question_choices(q)
event['required'] = q.isRequired()
value = q.getAnswerValue()
if value == None:
event['answer'] = None
elif event['datatype'] == 'int':
event['answer'] = value.getValue()
elif event['datatype'] == 'float':
event['answer'] = value.getValue()
elif event['datatype'] == 'str':
event['answer'] = value.getValue()
elif event['datatype'] == 'date':
event['answer'] = to_pdate(value.getValue())
elif event['datatype'] == 'time':
event['answer'] = to_ptime(value.getValue())
elif event['datatype'] == 'select':
event['answer'] = value.getValue().index + 1
elif event['datatype'] == 'multiselect':
event['answer'] = [sel.index + 1 for sel in value.getValue()]
def _parse_repeat_juncture(self, event):
r = self.fem.getCaptionPrompt(event['ix'])
ro = r.getRepeatOptions()
event['main-header'] = ro.header
event['repetitions'] = list(r.getRepetitionsText())
event['add-choice'] = ro.add
event['del-choice'] = ro.delete
event['del-header'] = ro.delete_header
event['done-choice'] = ro.done
def next_event(self):
self.fec.stepToNextEvent()
return self._parse_current_event()
def back_event(self):
self.fec.stepToPreviousEvent()
return self._parse_current_event()
def answer_question(self, answer, _ix=None):
ix = self.parse_ix(_ix)
event = self.cur_event if ix is None else self.__parse_event(ix)
if event['type'] != 'question':
raise ValueError('not currently on a question')
datatype = event['datatype']
if datatype == 'unrecognized':
# don't commit answers to unrecognized questions, since we
# couldn't parse what was originally there. whereas for
# _unsupported_ questions, we're parsing and re-committing the
# answer verbatim
return {'status': 'success'}
if answer == None or str(
answer).strip() == '' or answer == [] or datatype == 'info':
ans = None
elif datatype == 'int':
ans = IntegerData(int(answer))
elif datatype == 'float':
ans = DecimalData(float(answer))
elif datatype == 'str':
ans = StringData(str(answer))
elif datatype == 'date':
ans = DateData(
to_jdate(datetime.strptime(str(answer), '%Y-%m-%d').date()))
elif datatype == 'time':
ans = TimeData(
to_jtime(datetime.strptime(str(answer), '%H:%M').time()))
elif datatype == 'select':
ans = SelectOneData(event['choices'][int(answer) - 1].to_sel())
elif datatype == 'multiselect':
if hasattr(answer, '__iter__'):
ans_list = answer
else:
ans_list = str(answer).split()
ans = SelectMultiData(
to_vect(event['choices'][int(k) - 1].to_sel()
for k in ans_list))
result = self.fec.answerQuestion(*([ans] if ix is None else [ix, ans]))
if result == self.fec.ANSWER_REQUIRED_BUT_EMPTY:
return {'status': 'error', 'type': 'required'}
elif result == self.fec.ANSWER_CONSTRAINT_VIOLATED:
q = self.fem.getQuestionPrompt(*([] if ix is None else [ix]))
return {
'status': 'error',
'type': 'constraint',
'reason': q.getConstraintText()
}
elif result == self.fec.ANSWER_OK:
return {'status': 'success'}
def descend_repeat(self, rep_ix=None, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
if rep_ix:
self.fec.descendIntoRepeat(rep_ix - 1)
else:
self.fec.descendIntoNewRepeat()
return self._parse_current_event()
def delete_repeat(self, rep_ix, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
self.fec.deleteRepeat(rep_ix - 1)
return self._parse_current_event()
#sequential (old-style) repeats only
def new_repetition(self):
#currently in the form api this always succeeds, but theoretically there could
#be unsatisfied constraints that make it fail. how to handle them here?
self.fec.newRepeat(self.fem.getFormIndex())
def parse_ix(self, s_ix):
return index_from_str(s_ix, self.form)
def form_title(self):
return self.form.getTitle()
def response(self, resp, ev_next=None, no_next=False):
if no_next:
navinfo = {}
elif self.nav_mode == 'prompt':
if ev_next is None:
ev_next = next_event(self)
navinfo = {'event': ev_next}
elif self.nav_mode == 'fao':
navinfo = {'tree': self.walk()}
if DEBUG:
print '=== walking ==='
print_tree(self.walk())
print '==============='
resp.update(navinfo)
resp.update({'seq_id': self.seq_id})
return resp
class XFormSession:
def __init__(self, xform, instance=None, **params):
self.uuid = params.get('uuid', uuid.uuid4().hex)
self.lock = threading.Lock()
self.nav_mode = params.get('nav_mode', 'prompt')
self.seq_id = params.get('seq_id', 0)
self.form = load_form(xform, instance, params.get('extensions', []), params.get('session_data', {}), params.get('api_auth'))
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get('init_lang'):
try:
self.fec.setLanguage(params.get('init_lang'))
except UnregisteredLocaleException:
pass # just use default language
if params.get('cur_index'):
self.fec.jumpToIndex(self.parse_ix(params.get('cur_index')))
self._parse_current_event()
self.staleness_window = 3600. * params['staleness_window']
self.persist = params.get('persist', settings.PERSIST_SESSIONS)
self.orig_params = {
'xform': xform,
'nav_mode': params.get('nav_mode'),
'session_data': params.get('session_data'),
'api_auth': params.get('api_auth'),
'staleness_window': params['staleness_window'],
}
self.update_last_activity()
def __enter__(self):
if self.nav_mode == 'fao':
self.lock.acquire()
else:
if not self.lock.acquire(False):
raise SequencingException()
self.seq_id += 1
self.update_last_activity()
return self
def __exit__(self, *_):
if self.persist:
# TODO should this be done async? we must dump state before releasing the lock, however
persistence.persist(self)
self.lock.release()
def update_last_activity(self):
self.last_activity = time.time()
def session_state(self):
# workaround
def get_lang():
if self.fem.getForm().getLocalizer() is not None:
return self.fem.getLanguage()
else:
return None
state = dict(self.orig_params)
state.update({
'instance': self.output(),
'init_lang': get_lang(),
'cur_index': str(self.fem.getFormIndex()) if self.nav_mode != 'fao' else None,
'seq_id': self.seq_id,
})
# prune entries with null value, so that defaults will take effect when the session is re-created
state = dict((k, v) for k, v in state.iteritems() if v is not None)
return state
def output(self):
if self.cur_event['type'] != 'form-complete':
#warn that not at end of form
pass
instance_bytes = FormSerializer().serializeInstance(self.form.getInstance())
return unicode(''.join(chr(b) for b in instance_bytes.tolist()), 'utf-8')
def walk(self):
form_ix = FormIndex.createBeginningOfFormIndex()
tree = []
self._walk(form_ix, tree)
return tree
def _walk(self, parent_ix, siblings):
def step(ix, descend):
next_ix = self.fem.incrementIndex(ix, descend)
self.fem.setQuestionIndex(next_ix) # needed to trigger events in form engine
return next_ix
def ix_in_scope(form_ix):
if form_ix.isEndOfFormIndex():
return False
elif parent_ix.isBeginningOfFormIndex():
return True
else:
return FormIndex.isSubElement(parent_ix, form_ix)
form_ix = step(parent_ix, True)
while ix_in_scope(form_ix):
relevant = self.fem.isIndexRelevant(form_ix)
if not relevant:
form_ix = step(form_ix, False)
continue
evt = self.__parse_event(form_ix)
evt['relevant'] = relevant
if evt['type'] == 'sub-group':
presentation_group = (evt['caption'] != None)
if presentation_group:
siblings.append(evt)
evt['children'] = []
form_ix = self._walk(form_ix, evt['children'] if presentation_group else siblings)
elif evt['type'] == 'repeat-juncture':
siblings.append(evt)
evt['children'] = []
for i in range(0, self.fem.getForm().getNumRepetitions(form_ix)):
subevt = {
'type': 'sub-group',
'ix': self.fem.getForm().descendIntoRepeat(form_ix, i),
'caption': evt['repetitions'][i],
'repeatable': True,
'children': [],
}
# kinda ghetto; we need to be able to track distinct repeat instances, even if their position
# within the list of repetitions changes (such as by deleting a rep in the middle)
# would be nice to have proper FormEntryAPI support for this
java_uid = self.form.getInstance().resolveReference(subevt['ix'].getReference()).hashCode()
subevt['uuid'] = hashlib.sha1(str(java_uid)).hexdigest()[:12]
evt['children'].append(subevt)
self._walk(subevt['ix'], subevt['children'])
for key in ['repetitions', 'del-choice', 'del-header', 'done-choice']:
del evt[key]
form_ix = step(form_ix, True) # why True?
else:
siblings.append(evt)
form_ix = step(form_ix, True) # why True?
return form_ix
def _parse_current_event(self):
self.cur_event = self.__parse_event(self.fem.getFormIndex())
return self.cur_event
def __parse_event (self, form_ix):
event = {'ix': form_ix}
status = self.fem.getEvent(form_ix)
if status == self.fec.EVENT_BEGINNING_OF_FORM:
event['type'] = 'form-start'
elif status == self.fec.EVENT_END_OF_FORM:
event['type'] = 'form-complete'
elif status == self.fec.EVENT_QUESTION:
event['type'] = 'question'
self._parse_question(event)
elif status == self.fec.EVENT_REPEAT_JUNCTURE:
event['type'] = 'repeat-juncture'
self._parse_repeat_juncture(event)
else:
event['type'] = 'sub-group'
event['caption'] = self.fem.getCaptionPrompt(form_ix).getLongText()
if status == self.fec.EVENT_GROUP:
event['repeatable'] = False
elif status == self.fec.EVENT_REPEAT:
event['repeatable'] = True
event['exists'] = True
elif status == self.fec.EVENT_PROMPT_NEW_REPEAT: #obsolete
event['repeatable'] = True
event['exists'] = False
return event
def _get_question_choices(self, q):
return [choice(q, ch) for ch in q.getSelectChoices()]
def _parse_style_info(self, rawstyle):
info = {}
if rawstyle != None:
info['raw'] = rawstyle
try:
info.update([[p.strip() for p in f.split(':')][:2] for f in rawstyle.split(';') if f.strip()])
except ValueError:
pass
return info
def _parse_question (self, event):
q = self.fem.getQuestionPrompt(event['ix'])
event['caption'] = q.getLongText()
event['help'] = q.getHelpText()
event['style'] = self._parse_style_info(q.getAppearanceHint())
event['binding'] = q.getQuestion().getBind().getReference().toString()
if q.getControlType() == Constants.CONTROL_TRIGGER:
event['datatype'] = 'info'
else:
try:
event['datatype'] = {
Constants.DATATYPE_NULL: 'str',
Constants.DATATYPE_TEXT: 'str',
Constants.DATATYPE_INTEGER: 'int',
Constants.DATATYPE_LONG: 'longint',
Constants.DATATYPE_DECIMAL: 'float',
Constants.DATATYPE_DATE: 'date',
Constants.DATATYPE_TIME: 'time',
Constants.DATATYPE_CHOICE: 'select',
Constants.DATATYPE_CHOICE_LIST: 'multiselect',
Constants.DATATYPE_GEOPOINT: 'geo',
# not supported yet
Constants.DATATYPE_DATE_TIME: 'datetime',
Constants.DATATYPE_BARCODE: 'barcode',
Constants.DATATYPE_BINARY: 'binary',
}[q.getDataType()]
except KeyError:
event['datatype'] = 'unrecognized'
if event['datatype'] in ('select', 'multiselect'):
event['choices'] = self._get_question_choices(q)
event['required'] = q.isRequired()
value = q.getAnswerValue()
if value == None:
event['answer'] = None
elif event['datatype'] in ('int', 'float', 'str', 'longint'):
event['answer'] = value.getValue()
elif event['datatype'] == 'date':
event['answer'] = to_pdate(value.getValue())
elif event['datatype'] == 'time':
event['answer'] = to_ptime(value.getValue())
elif event['datatype'] == 'select':
event['answer'] = choice(q, selection=value.getValue()).ordinal()
elif event['datatype'] == 'multiselect':
event['answer'] = [choice(q, selection=sel).ordinal() for sel in value.getValue()]
elif event['datatype'] == 'geo':
event['answer'] = list(value.getValue())[:2]
def _parse_repeat_juncture(self, event):
r = self.fem.getCaptionPrompt(event['ix'])
ro = r.getRepeatOptions()
event['main-header'] = ro.header
event['repetitions'] = list(r.getRepetitionsText())
event['add-choice'] = ro.add
event['del-choice'] = ro.delete
event['del-header'] = ro.delete_header
event['done-choice'] = ro.done
def next_event (self):
self.fec.stepToNextEvent()
return self._parse_current_event()
def back_event (self):
self.fec.stepToPreviousEvent()
return self._parse_current_event()
def answer_question (self, answer, _ix=None):
ix = self.parse_ix(_ix)
event = self.cur_event if ix is None else self.__parse_event(ix)
if event['type'] != 'question':
raise ValueError('not currently on a question')
datatype = event['datatype']
if datatype == 'unrecognized':
# don't commit answers to unrecognized questions, since we
# couldn't parse what was originally there. whereas for
# _unsupported_ questions, we're parsing and re-committing the
# answer verbatim
return {'status': 'success'}
def multians(a):
if hasattr(a, '__iter__'):
return a
else:
return str(a).split()
if answer == None or str(answer).strip() == '' or answer == []:
ans = None
elif datatype == 'int':
ans = IntegerData(int(answer))
elif datatype == 'longint':
ans = LongData(int(answer))
elif datatype == 'float':
ans = DecimalData(float(answer))
elif datatype == 'str' or datatype == 'info':
ans = StringData(str(answer))
elif datatype == 'date':
ans = DateData(to_jdate(datetime.strptime(str(answer), '%Y-%m-%d').date()))
elif datatype == 'time':
ans = TimeData(to_jtime(datetime.strptime(str(answer), '%H:%M').time()))
elif datatype == 'select':
ans = SelectOneData(event['choices'][int(answer) - 1].to_sel())
elif datatype == 'multiselect':
ans = SelectMultiData(to_vect(event['choices'][int(k) - 1].to_sel() for k in multians(answer)))
elif datatype == 'geo':
ans = GeoPointData(to_arr((float(x) for x in multians(answer)), 'd'))
result = self.fec.answerQuestion(*([ans] if ix is None else [ix, ans]))
if result == self.fec.ANSWER_REQUIRED_BUT_EMPTY:
return {'status': 'error', 'type': 'required'}
elif result == self.fec.ANSWER_CONSTRAINT_VIOLATED:
q = self.fem.getQuestionPrompt(*([] if ix is None else [ix]))
return {'status': 'error', 'type': 'constraint', 'reason': q.getConstraintText()}
elif result == self.fec.ANSWER_OK:
return {'status': 'success'}
def descend_repeat (self, rep_ix=None, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
if rep_ix:
self.fec.descendIntoRepeat(rep_ix - 1)
else:
self.fec.descendIntoNewRepeat()
return self._parse_current_event()
def delete_repeat (self, rep_ix, _junc_ix=None):
junc_ix = self.parse_ix(_junc_ix)
if (junc_ix):
self.fec.jumpToIndex(junc_ix)
self.fec.deleteRepeat(rep_ix - 1)
return self._parse_current_event()
#sequential (old-style) repeats only
def new_repetition (self):
#currently in the form api this always succeeds, but theoretically there could
#be unsatisfied constraints that make it fail. how to handle them here?
self.fec.newRepeat(self.fem.getFormIndex())
def set_locale(self, lang):
self.fec.setLanguage(lang)
return self._parse_current_event()
def get_locales(self):
return self.fem.getLanguages() or []
def finalize(self):
self.fem.getForm().postProcessInstance()
def parse_ix(self, s_ix):
return index_from_str(s_ix, self.form)
def form_title(self):
return self.form.getTitle()
def response(self, resp, ev_next=None, no_next=False):
if no_next:
navinfo = {}
elif self.nav_mode == 'prompt':
if ev_next is None:
ev_next = next_event(self)
navinfo = {'event': ev_next}
elif self.nav_mode == 'fao':
navinfo = {'tree': self.walk()}
if DEBUG:
print '=== walking ==='
print_tree(self.walk())
print '==============='
resp.update(navinfo)
resp.update({'seq_id': self.seq_id})
return resp
class XFormSession(object):
def __init__(self, xform, instance=None, **params):
self.uuid = params.get("uuid", uuid.uuid4().hex)
self.nav_mode = params.get("nav_mode", "prompt")
self.seq_id = params.get("seq_id", 0)
self.uses_sql_backend = params.get("uses_sql_backend")
self.form = load_form(
xform,
instance,
params.get("extensions", []),
params.get("session_data", {}),
params.get("api_auth"),
params.get("form_context", None),
self.uses_sql_backend,
)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get("init_lang"):
try:
self.fec.setLanguage(params.get("init_lang"))
except UnregisteredLocaleException:
pass # just use default language
if params.get("cur_index"):
self.fec.jumpToIndex(self.parse_ix(params.get("cur_index")))
self._parse_current_event()
self.staleness_window = 3600.0 * params["staleness_window"]
self.persist = params.get("persist", settings.PERSIST_SESSIONS)
self.orig_params = {
"xform": xform,
"nav_mode": params.get("nav_mode"),
"session_data": params.get("session_data"),
"api_auth": params.get("api_auth"),
"staleness_window": params["staleness_window"],
}
self.update_last_activity()
def _assert_locked(self):
if not global_state.get_lock(self.uuid).locked():
# note that this isn't a perfect check that we have the lock
# but is hopefully a good enough proxy. this is basically an
# assertion.
raise Exception("Tried to update XFormSession without the lock!")
def __enter__(self):
self._assert_locked()
self.seq_id += 1
self.update_last_activity()
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self._assert_locked()
if self.persist:
# TODO should this be done async? we must dump state before releasing the lock, however
persistence.persist(self)
def update_last_activity(self):
self.last_activity = time.time()
def session_state(self):
state = dict(self.orig_params)
state.update(
{
"instance": self.output(),
"init_lang": self.get_lang(),
"cur_index": str(self.fem.getFormIndex()) if self.nav_mode != "fao" else None,
"seq_id": self.seq_id,
}
)
# prune entries with null value, so that defaults will take effect when the session is re-created
state = dict((k, v) for k, v in state.iteritems() if v is not None)
return state
def get_xmlns(self):
"""
:return: the xmlns header for the instance of the current session
"""
metadata = self.fem.getForm().getMainInstance().getMetaData()
return metadata.get("XMLNS")
def evaluate_xpath(self, xpath):
"""
:param xpath: the xpath expression to be evaluated EG "/data/question1"
:return: the value stored in the referenced path
at the moment only supports single values IE won't return nodesets
We use the JavaRosa "Text" type as a factory to turn our String into and XPath
"""
evaluation_context = self.fem.getForm().exprEvalContext
args = JHashtable()
result = {}
try:
m_text = JRText.XPathText(xpath, args)
result["status"] = "success"
result["output"] = m_text.evaluate(evaluation_context)
except XPathException, e:
result["status"] = "failure"
result["output"] = e.getMessage()
return result
class XFormSession(object):
def __init__(self, xform, instance=None, **params):
self.uuid = params.get('uuid', uuid.uuid4().hex)
self.nav_mode = params.get('nav_mode', 'prompt')
self.seq_id = params.get('seq_id', 0)
self.uses_sql_backend = params.get('uses_sql_backend')
self.form = load_form(
xform,
instance,
params.get('extensions', []),
params.get('session_data', {}),
params.get('api_auth'),
params.get('form_context', None),
self.uses_sql_backend,
)
self.fem = FormEntryModel(self.form, FormEntryModel.REPEAT_STRUCTURE_NON_LINEAR)
self.fec = FormEntryController(self.fem)
if params.get('init_lang'):
try:
self.fec.setLanguage(params.get('init_lang'))
except UnregisteredLocaleException:
pass # just use default language
if params.get('cur_index'):
self.fec.jumpToIndex(self.parse_ix(params.get('cur_index')))
self._parse_current_event()
self.staleness_window = 3600. * params['staleness_window']
self.persist = params.get('persist', settings.PERSIST_SESSIONS)
self.orig_params = {
'xform': xform,
'nav_mode': params.get('nav_mode'),
'session_data': params.get('session_data'),
'api_auth': params.get('api_auth'),
'staleness_window': params['staleness_window'],
}
self.update_last_activity()
def _assert_locked(self):
if not global_state.get_lock(self.uuid).locked():
# note that this isn't a perfect check that we have the lock
# but is hopefully a good enough proxy. this is basically an
# assertion.
raise Exception('Tried to update XFormSession without the lock!')
def __enter__(self):
self._assert_locked()
self.seq_id += 1
self.update_last_activity()
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self._assert_locked()
if self.persist:
# TODO should this be done async? we must dump state before releasing the lock, however
persistence.persist(self)
def update_last_activity(self):
self.last_activity = time.time()
def session_state(self):
state = dict(self.orig_params)
state.update({
'instance': self.output(),
'init_lang': self.get_lang(),
'cur_index': str(self.fem.getFormIndex()) if self.nav_mode != 'fao' else None,
'seq_id': self.seq_id,
})
# prune entries with null value, so that defaults will take effect when the session is re-created
state = dict((k, v) for k, v in state.iteritems() if v is not None)
return state
def get_xmlns(self):
"""
:return: the xmlns header for the instance of the current session
"""
metadata = self.fem.getForm().getMainInstance().getMetaData()
return metadata.get("XMLNS")
def evaluate_xpath(self, xpath):
"""
:param xpath: the xpath expression to be evaluated EG "/data/question1"
:return: the value stored in the referenced path
at the moment only supports single values IE won't return nodesets
We use the JavaRosa "Text" type as a factory to turn our String into and XPath
"""
evaluation_context = self.fem.getForm().exprEvalContext
args = JHashtable()
result = {}
try:
m_text = JRText.XPathText(xpath, args)
result['status'] = 'success'
result['output'] = m_text.evaluate(evaluation_context)
except XPathException, e:
result['status'] = 'failure'
result['output'] = e.getMessage()
return result
