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vm2825
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repo_bench_python-dataset

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362
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1
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Predict the next line for this snippet: <|code_start|> @login_required def detail(request, id): orgs = get_my_orgs(request) worker = get_object_or_404(Worker, owner__in=orgs, id=id) return JsonResponse({ 'id': worker.id, 'status': worker.status, 'status_display': worker.get_status_display(), <|code_end|> with the help of current file imports: from django.http import JsonResponse from django.shortcuts import get_object_or_404 from django.contrib.auth.decorators import login_required from threebot.models import Worker from threebot.utils import get_my_orgs and context from other files: # Path: threebot/models.py # class Worker(models.Model): # ACCESS_REQUEST_TIMEOUT = 1 # STATUS_OFFLINE = 0 # STATUS_ONLINE = 1 # STATUS_BUSY = 9 # STATUS_MUTED = 10 # STATUS_CHOICES = ( # (STATUS_OFFLINE, 'offline'), # (STATUS_ONLINE, 'online'), # (STATUS_BUSY, 'busy'), # (STATUS_MUTED, 'muted'), # ) # # owner = models.ForeignKey(Organization, help_text="Worker owner") # title = models.CharField(max_length=255) # slug = models.SlugField(_('slug'), max_length=50, unique=True) # # date_created = models.DateTimeField(auto_now_add=True) # date_modified = models.DateTimeField(auto_now=True) # # ip = models.GenericIPAddressField("IP-Address",) # addr = models.CharField(max_length=200, null=True, blank=True, help_text='For now we use the IP to connect to the worker') # port = models.PositiveIntegerField(default=55555) # secret_key = models.CharField(max_length=200, null=True, blank=True, help_text='The Secret Key. Never share yours.') # # muted = models.BooleanField(default=False, help_text="Mute a Worker to prevent accessibility checks and improve performance.") # # pre_task = models.TextField(null=True, blank=True, help_text='this will run as a Script before the worker performs a workflow') # post_task = models.TextField(null=True, blank=True, help_text='this will run as a Script after the worker has performed a workflow') # # class Meta(): # ordering = ['owner', 'title'] # verbose_name = _("Worker") # verbose_name_plural = _("Workers") # # def get_status_display(self): # choices = dict(self.STATUS_CHOICES) # return choices[self.status] # # @cached_property # def status(self): # if self.muted: # return self.STATUS_MUTED # if self.is_busy: # return self.STATUS_BUSY # if self.is_accessible: # return self.STATUS_ONLINE # else: # return self.STATUS_OFFLINE # # @cached_property # def is_busy(self): # """Identifies is a Worfkflow is currently blocking this worker.""" # return WorkflowLog.objects.filter(exit_code=WorkflowLog.PENDING, performed_on=self).exists() # # @cached_property # def is_accessible(self): # if self.muted: # return False # # try: # from .botconnection import BotConnection # from .tasks import send_script # # protocol = "tcp" # WORKER_ENDPOINT = "%s://%s:%s" % (protocol, self.ip, str(self.port)) # WORKER_SECRET_KEY = str(self.secret_key) # conn = BotConnection(WORKER_ENDPOINT, WORKER_SECRET_KEY) # conn.connect() # # req = {'type': 'ACC'} # resp = send_script(req, conn, REQUEST_TIMEOUT=1000, REQUEST_RETRIES=1) # conn.close() # # if resp and resp['type'] == 'ACK': # return True # except Exception as e: # logger.error(e, exc_info=True) # return False # # def save(self, *args, **kwargs): # if not self.pk: # first save # self.slug = random.randint(1000, 9999) # super(Worker, self).save(*args, **kwargs) # # s = str(self.owner.id) + "-" + str(self.id) + "-" + slugify(self.title) # self.slug = s[:50] # super(Worker, self).save(*args, **kwargs) # # @models.permalink # def get_absolute_url(self): # return ('core_worker_detail', (), { # 'slug': self.slug}) # # def permalink(self): # return reverse('core_worker_permalink', kwargs={'id': self.id}) # # def __str__(self): # return self.title # # Path: threebot/utils.py # @login_required # def get_my_orgs(request, an_user=None): # if request is not None and an_user is None: # an_user = request.user # # default_org, created = Organization.objects.get_or_create(slug='3bot', name="3bot") # # if not OrganizationUser.objects.filter(organization=default_org, user=an_user).exists(): # # we create an OrganizationUser, so each user is member of our default_org # # if default_org was just created, we also mark this user as admin and create an OrganizationOwner # org_user = OrganizationUser(organization=default_org, user=an_user, is_admin=created) # org_user.save() # if created: # org_owner = OrganizationOwner(organization=default_org, organization_user=org_user) # org_owner.save() # # orgs = Organization.objects.filter(users=an_user) # # return orgs , which may contain function names, class names, or code. Output only the next line.
})
Continue the code snippet: <|code_start|># -*- coding: utf-8 -*- from __future__ import print_function User = get_user_model() NO_ORG = 10 NO_WF = 10 NO_WFL = 1000 class OrganizationFactory(DjangoModelFactory): class Meta: model = Organization name = FuzzyText(length=12) slug = FuzzyText(length=12) class WorkflowFactory(DjangoModelFactory): <|code_end|> . Use current file imports: import time from django.contrib.auth import get_user_model from django.test import Client from django.core.urlresolvers import reverse from django.test import TestCase from factory.django import DjangoModelFactory from factory.fuzzy import FuzzyInteger, FuzzyText from threebot.models import Workflow, WorkflowLog from organizations.models import Organization from organizations.utils import create_organization from tests.data import inputs, outputs and context (classes, functions, or code) from other files: # Path: threebot/models.py # class Workflow(models.Model): # unique_identifier = models.CharField(max_length=255, null=True, blank=True, help_text="Unique Identifier to group multiple Workflow Versions") # version_major = models.PositiveIntegerField(null=True, blank=True, default=0) # version_minor = models.PositiveIntegerField(null=True, blank=True, default=0) # # date_created = models.DateTimeField(auto_now_add=True) # date_modified = models.DateTimeField(auto_now=True) # # owner = models.ForeignKey(Organization, help_text="Workflow owner") # title = models.CharField(max_length=255) # slug = models.SlugField(_('slug'), max_length=50, unique=True) # desc = models.TextField(null=True, blank=True) # # pre_task = models.TextField(null=True, blank=True, help_text='This will run as a Script before the worker runs a task of the current workflow. (Runs before each task)') # post_task = models.TextField(null=True, blank=True, help_text='This will run as a Script after the worker has executed a task of the current workflow. (Runs after each task)') # # tasks = models.ManyToManyField(Task, through='WorkflowTask') # # class Meta(): # ordering = ['owner', 'title'] # verbose_name = _("Workflow") # verbose_name_plural = _("Workflows") # unique_together = (('unique_identifier', 'version_major', 'version_minor'),) # # def number_of_tasks(self): # return WorkflowTask.objects.filter(workflow=self).count() # # def save(self, *args, **kwargs): # if not self.pk: # first save # self.slug = random.randint(1000, 9999) # super(Workflow, self).save(*args, **kwargs) # # if not self.unique_identifier: # md_hash = hashlib.md5() # md_hash.update(self.title.encode('utf-8') + str(datetime.datetime.now())) # self.unique_identifier = md_hash.hexdigest() # # s = str(self.owner_id) + "-" + str(self.id) + "-" + slugify(self.title) # self.slug = s[:50] # super(Workflow, self).save(*args, **kwargs) # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_detail', (), { # 'slug': self.slug}) # # def permalink(self): # return reverse('core_workflow_permalink', kwargs={'id': self.id}) # # def __str__(self): # return self.title or self.desc or str(self.pk) # # class WorkflowLog(models.Model): # SUCCESS = 0 # ERROR = 1 # PENDING = 2 # # EXIT_CODE_CHOICES = ( # (SUCCESS, 'Success'), # (ERROR, 'Error'), # (PENDING, 'Pending'), # ) # # workflow = models.ForeignKey(Workflow, verbose_name=_("Workflow")) # date_created = models.DateTimeField(auto_now_add=True, help_text='Date the workflow was performed') # date_started = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # date_finished = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # exit_code = models.PositiveIntegerField(choices=EXIT_CODE_CHOICES, default=PENDING) # performed_by = models.ForeignKey(settings.AUTH_USER_MODEL, help_text="The User who performed the Worfkflow") # performed_on = models.ForeignKey(Worker, help_text="The Worker Worfkflow was performed on") # # inputs = JSONField() # outputs = JSONField(null=True, blank=True) # # class Meta(): # ordering = ['-date_created', ] # verbose_name = _("Workflow Log") # verbose_name_plural = _("Workflow Logs") # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_log_detail', (), { # 'slug': self.workflow.slug, # 'id': self.id}) # # def permalink(self): # return reverse('core_workflow_log_permalink', kwargs={'id': self.id}) # # def __str__(self): # return "%s - %s logged %s" % (self.date_created.strftime('%d.%m.%y %H:%M'), str(self.performed_by), self.workflow.title, ) # # Path: tests/data.py . Output only the next line.
class Meta:
Next line prediction: <|code_start|># -*- coding: utf-8 -*- from __future__ import print_function User = get_user_model() NO_ORG = 10 NO_WF = 10 NO_WFL = 1000 class OrganizationFactory(DjangoModelFactory): class Meta: model = Organization name = FuzzyText(length=12) slug = FuzzyText(length=12) class WorkflowFactory(DjangoModelFactory): class Meta: model = Workflow owner_id = FuzzyInteger(0, 10) title = FuzzyText(length=12) <|code_end|> . Use current file imports: (import time from django.contrib.auth import get_user_model from django.test import Client from django.core.urlresolvers import reverse from django.test import TestCase from factory.django import DjangoModelFactory from factory.fuzzy import FuzzyInteger, FuzzyText from threebot.models import Workflow, WorkflowLog from organizations.models import Organization from organizations.utils import create_organization from tests.data import inputs, outputs) and context including class names, function names, or small code snippets from other files: # Path: threebot/models.py # class Workflow(models.Model): # unique_identifier = models.CharField(max_length=255, null=True, blank=True, help_text="Unique Identifier to group multiple Workflow Versions") # version_major = models.PositiveIntegerField(null=True, blank=True, default=0) # version_minor = models.PositiveIntegerField(null=True, blank=True, default=0) # # date_created = models.DateTimeField(auto_now_add=True) # date_modified = models.DateTimeField(auto_now=True) # # owner = models.ForeignKey(Organization, help_text="Workflow owner") # title = models.CharField(max_length=255) # slug = models.SlugField(_('slug'), max_length=50, unique=True) # desc = models.TextField(null=True, blank=True) # # pre_task = models.TextField(null=True, blank=True, help_text='This will run as a Script before the worker runs a task of the current workflow. (Runs before each task)') # post_task = models.TextField(null=True, blank=True, help_text='This will run as a Script after the worker has executed a task of the current workflow. (Runs after each task)') # # tasks = models.ManyToManyField(Task, through='WorkflowTask') # # class Meta(): # ordering = ['owner', 'title'] # verbose_name = _("Workflow") # verbose_name_plural = _("Workflows") # unique_together = (('unique_identifier', 'version_major', 'version_minor'),) # # def number_of_tasks(self): # return WorkflowTask.objects.filter(workflow=self).count() # # def save(self, *args, **kwargs): # if not self.pk: # first save # self.slug = random.randint(1000, 9999) # super(Workflow, self).save(*args, **kwargs) # # if not self.unique_identifier: # md_hash = hashlib.md5() # md_hash.update(self.title.encode('utf-8') + str(datetime.datetime.now())) # self.unique_identifier = md_hash.hexdigest() # # s = str(self.owner_id) + "-" + str(self.id) + "-" + slugify(self.title) # self.slug = s[:50] # super(Workflow, self).save(*args, **kwargs) # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_detail', (), { # 'slug': self.slug}) # # def permalink(self): # return reverse('core_workflow_permalink', kwargs={'id': self.id}) # # def __str__(self): # return self.title or self.desc or str(self.pk) # # class WorkflowLog(models.Model): # SUCCESS = 0 # ERROR = 1 # PENDING = 2 # # EXIT_CODE_CHOICES = ( # (SUCCESS, 'Success'), # (ERROR, 'Error'), # (PENDING, 'Pending'), # ) # # workflow = models.ForeignKey(Workflow, verbose_name=_("Workflow")) # date_created = models.DateTimeField(auto_now_add=True, help_text='Date the workflow was performed') # date_started = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # date_finished = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # exit_code = models.PositiveIntegerField(choices=EXIT_CODE_CHOICES, default=PENDING) # performed_by = models.ForeignKey(settings.AUTH_USER_MODEL, help_text="The User who performed the Worfkflow") # performed_on = models.ForeignKey(Worker, help_text="The Worker Worfkflow was performed on") # # inputs = JSONField() # outputs = JSONField(null=True, blank=True) # # class Meta(): # ordering = ['-date_created', ] # verbose_name = _("Workflow Log") # verbose_name_plural = _("Workflow Logs") # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_log_detail', (), { # 'slug': self.workflow.slug, # 'id': self.id}) # # def permalink(self): # return reverse('core_workflow_log_permalink', kwargs={'id': self.id}) # # def __str__(self): # return "%s - %s logged %s" % (self.date_created.strftime('%d.%m.%y %H:%M'), str(self.performed_by), self.workflow.title, ) # # Path: tests/data.py . Output only the next line.
class WorkflowLogFactory(DjangoModelFactory):
Continue the code snippet: <|code_start|> class WorkflowFactory(DjangoModelFactory): class Meta: model = Workflow owner_id = FuzzyInteger(0, 10) title = FuzzyText(length=12) class WorkflowLogFactory(DjangoModelFactory): class Meta: model = WorkflowLog workflow_id = FuzzyInteger(0, 10,) performed_by_id = FuzzyInteger(0, 10,) performed_on_id = FuzzyInteger(0, 10,) inputs = inputs outputs = outputs class HelperTestCase(TestCase): def setUp(self): OrganizationFactory.create_batch(NO_ORG) # WorkflowFactory.create_batch(NO_WF) valid_user_name = "valid" valid_user_password = "pass" self.valid_user = User.objects.create_user( <|code_end|> . Use current file imports: import time from django.contrib.auth import get_user_model from django.test import Client from django.core.urlresolvers import reverse from django.test import TestCase from factory.django import DjangoModelFactory from factory.fuzzy import FuzzyInteger, FuzzyText from threebot.models import Workflow, WorkflowLog from organizations.models import Organization from organizations.utils import create_organization from tests.data import inputs, outputs and context (classes, functions, or code) from other files: # Path: threebot/models.py # class Workflow(models.Model): # unique_identifier = models.CharField(max_length=255, null=True, blank=True, help_text="Unique Identifier to group multiple Workflow Versions") # version_major = models.PositiveIntegerField(null=True, blank=True, default=0) # version_minor = models.PositiveIntegerField(null=True, blank=True, default=0) # # date_created = models.DateTimeField(auto_now_add=True) # date_modified = models.DateTimeField(auto_now=True) # # owner = models.ForeignKey(Organization, help_text="Workflow owner") # title = models.CharField(max_length=255) # slug = models.SlugField(_('slug'), max_length=50, unique=True) # desc = models.TextField(null=True, blank=True) # # pre_task = models.TextField(null=True, blank=True, help_text='This will run as a Script before the worker runs a task of the current workflow. (Runs before each task)') # post_task = models.TextField(null=True, blank=True, help_text='This will run as a Script after the worker has executed a task of the current workflow. (Runs after each task)') # # tasks = models.ManyToManyField(Task, through='WorkflowTask') # # class Meta(): # ordering = ['owner', 'title'] # verbose_name = _("Workflow") # verbose_name_plural = _("Workflows") # unique_together = (('unique_identifier', 'version_major', 'version_minor'),) # # def number_of_tasks(self): # return WorkflowTask.objects.filter(workflow=self).count() # # def save(self, *args, **kwargs): # if not self.pk: # first save # self.slug = random.randint(1000, 9999) # super(Workflow, self).save(*args, **kwargs) # # if not self.unique_identifier: # md_hash = hashlib.md5() # md_hash.update(self.title.encode('utf-8') + str(datetime.datetime.now())) # self.unique_identifier = md_hash.hexdigest() # # s = str(self.owner_id) + "-" + str(self.id) + "-" + slugify(self.title) # self.slug = s[:50] # super(Workflow, self).save(*args, **kwargs) # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_detail', (), { # 'slug': self.slug}) # # def permalink(self): # return reverse('core_workflow_permalink', kwargs={'id': self.id}) # # def __str__(self): # return self.title or self.desc or str(self.pk) # # class WorkflowLog(models.Model): # SUCCESS = 0 # ERROR = 1 # PENDING = 2 # # EXIT_CODE_CHOICES = ( # (SUCCESS, 'Success'), # (ERROR, 'Error'), # (PENDING, 'Pending'), # ) # # workflow = models.ForeignKey(Workflow, verbose_name=_("Workflow")) # date_created = models.DateTimeField(auto_now_add=True, help_text='Date the workflow was performed') # date_started = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # date_finished = models.DateTimeField(help_text='Date the workflow was performed', blank=True, null=True) # exit_code = models.PositiveIntegerField(choices=EXIT_CODE_CHOICES, default=PENDING) # performed_by = models.ForeignKey(settings.AUTH_USER_MODEL, help_text="The User who performed the Worfkflow") # performed_on = models.ForeignKey(Worker, help_text="The Worker Worfkflow was performed on") # # inputs = JSONField() # outputs = JSONField(null=True, blank=True) # # class Meta(): # ordering = ['-date_created', ] # verbose_name = _("Workflow Log") # verbose_name_plural = _("Workflow Logs") # # @models.permalink # def get_absolute_url(self): # return ('core_workflow_log_detail', (), { # 'slug': self.workflow.slug, # 'id': self.id}) # # def permalink(self): # return reverse('core_workflow_log_permalink', kwargs={'id': self.id}) # # def __str__(self): # return "%s - %s logged %s" % (self.date_created.strftime('%d.%m.%y %H:%M'), str(self.performed_by), self.workflow.title, ) # # Path: tests/data.py . Output only the next line.
username=valid_user_name, email='foo@bar.com', password=valid_user_password
Given the following code snippet before the placeholder: <|code_start|> self.field = field self.query = queryset @classmethod def make_from_field(cls, model=None, field_name=None, field=None): assert (model and field_name) or field, ( 'make_from_field required model+field_name or field' ) # For nested prefetch, only handle first level. field_parts = field_name.split('__') field_name = field_parts[0] nested_prefetches = '__'.join(field_parts[1:]) field, ftype = get_model_field_and_type(model, field_name) if not ftype: raise RuntimeError("%s is not prefetchable" % field_name) qs = get_remote_model(field).objects.all() field_name = field_name or field.name prefetch = cls(field_name, qs) # For nested prefetch, recursively pass down remainder if nested_prefetches: prefetch.query.prefetch_related(nested_prefetches) return prefetch @classmethod <|code_end|> , predict the next line using imports from the current file: from collections import defaultdict from django.db import models from django.db.models import Prefetch, QuerySet from dynamic_rest.meta import ( get_model_field_and_type, get_remote_model, reverse_m2m_field_name, reverse_o2o_field_name ) import copy import traceback and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/meta.py # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_o2o_field_name(o2or_field): # try: # # Django 1.9 # return o2or_field.remote_field.attname # except BaseException: # # Django 1.7 # return o2or_field.field.attname . Output only the next line.
def make_from_prefetch(cls, prefetch, parent_model):
Here is a snippet: <|code_start|> class FastObject(dict): def __init__(self, *args, **kwargs): self.pk_field = kwargs.pop('pk_field', 'id') return super(FastObject, self).__init__(*args) @property def pk(self): return self[self.pk_field] def _slow_getattr(self, name): if '.' in name: parts = name.split('.') obj = self for part in parts: obj = obj[part] return obj <|code_end|> . Write the next line using the current file imports: from collections import defaultdict from django.db import models from django.db.models import Prefetch, QuerySet from dynamic_rest.meta import ( get_model_field_and_type, get_remote_model, reverse_m2m_field_name, reverse_o2o_field_name ) import copy import traceback and context from other files: # Path: dynamic_rest/meta.py # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_o2o_field_name(o2or_field): # try: # # Django 1.9 # return o2or_field.remote_field.attname # except BaseException: # # Django 1.7 # return o2or_field.field.attname , which may include functions, classes, or code. Output only the next line.
elif name == '*':
Given snippet: <|code_start|> class FastObject(dict): def __init__(self, *args, **kwargs): self.pk_field = kwargs.pop('pk_field', 'id') return super(FastObject, self).__init__(*args) @property def pk(self): return self[self.pk_field] def _slow_getattr(self, name): if '.' in name: parts = name.split('.') obj = self for part in parts: obj = obj[part] <|code_end|> , continue by predicting the next line. Consider current file imports: from collections import defaultdict from django.db import models from django.db.models import Prefetch, QuerySet from dynamic_rest.meta import ( get_model_field_and_type, get_remote_model, reverse_m2m_field_name, reverse_o2o_field_name ) import copy import traceback and context: # Path: dynamic_rest/meta.py # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_o2o_field_name(o2or_field): # try: # # Django 1.9 # return o2or_field.remote_field.attname # except BaseException: # # Django 1.7 # return o2or_field.field.attname which might include code, classes, or functions. Output only the next line.
return obj
Given the following code snippet before the placeholder: <|code_start|> class FastObject(dict): def __init__(self, *args, **kwargs): self.pk_field = kwargs.pop('pk_field', 'id') return super(FastObject, self).__init__(*args) @property def pk(self): return self[self.pk_field] <|code_end|> , predict the next line using imports from the current file: from collections import defaultdict from django.db import models from django.db.models import Prefetch, QuerySet from dynamic_rest.meta import ( get_model_field_and_type, get_remote_model, reverse_m2m_field_name, reverse_o2o_field_name ) import copy import traceback and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/meta.py # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_o2o_field_name(o2or_field): # try: # # Django 1.9 # return o2or_field.remote_field.attname # except BaseException: # # Django 1.7 # return o2or_field.field.attname . Output only the next line.
def _slow_getattr(self, name):
Predict the next line after this snippet: <|code_start|> }] zebras = [{ 'name': 'Ralph', 'origin': 'new york' }, { 'name': 'Ted', 'origin': 'africa' }] events = [{ 'name': 'Event 1', 'status': 'archived', 'location': 2 }, { 'name': 'Event 2', 'status': 'current', 'location': 1 }, { 'name': 'Event 3', 'status': 'current', 'location': 1 }, { 'name': 'Event 4', 'status': 'archived', 'location': 2 }, { 'name': 'Event 5', 'status': 'current', 'location': 2 <|code_end|> using the current file's imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and any relevant context from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
}]
Given the code snippet: <|code_start|> 'name': 'Event 5', 'status': 'current', 'location': 2 }] for dog in dogs: fixture.dogs.append(Dog.objects.create( name=dog.get('name'), fur_color=dog.get('fur_color'), origin=dog.get('origin') )) for horse in horses: fixture.horses.append(Horse.objects.create( name=horse.get('name'), origin=horse.get('origin') )) for zebra in zebras: fixture.zebras.append(Zebra.objects.create( name=zebra.get('name'), origin=zebra.get('origin') )) for event in events: fixture.events.append(Event.objects.create( name=event['name'], status=event['status'], location_id=event['location'] )) <|code_end|> , generate the next line using the imports in this file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context (functions, classes, or occasionally code) from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
fixture.events[1].users.add(fixture.users[0])
Here is a snippet: <|code_start|> name=str(i), last_name=str(i))) for i in range(0, 4): fixture.permissions.append( Permission.objects.create( name=str(i), code=i)) for i in range(0, 2): fixture.groups.append(Group.objects.create(name=str(i))) for i in range(0, 3): fixture.locations.append(Location.objects.create(name=str(i))) for i in range(0, 2): fixture.cats.append(Cat.objects.create( name=str(i), home_id=fixture.locations[i].id, backup_home_id=( fixture.locations[len(fixture.locations) - 1 - i].id))) dogs = [{ 'name': 'Clifford', 'fur_color': 'red', 'origin': 'Clifford the big red dog' }, { 'name': 'Air-Bud', 'fur_color': 'gold', 'origin': 'Air Bud 4: Seventh Inning Fetch' <|code_end|> . Write the next line using the current file imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may include functions, classes, or code. Output only the next line.
}, {
Predict the next line for this snippet: <|code_start|> for i in range(0, 3): fixture.locations.append(Location.objects.create(name=str(i))) for i in range(0, 2): fixture.cats.append(Cat.objects.create( name=str(i), home_id=fixture.locations[i].id, backup_home_id=( fixture.locations[len(fixture.locations) - 1 - i].id))) dogs = [{ 'name': 'Clifford', 'fur_color': 'red', 'origin': 'Clifford the big red dog' }, { 'name': 'Air-Bud', 'fur_color': 'gold', 'origin': 'Air Bud 4: Seventh Inning Fetch' }, { 'name': 'Spike', 'fur_color': 'brown', 'origin': 'Rugrats' }, { 'name': 'Pluto', 'fur_color': 'brown and white', 'origin': 'Mickey Mouse' }, { 'name': 'Spike', 'fur_color': 'light-brown', 'origin': 'Tom and Jerry' <|code_end|> with the help of current file imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
}]
Given the following code snippet before the placeholder: <|code_start|> for i in range(0, 4): fixture.users.append( User.objects.create( name=str(i), last_name=str(i))) for i in range(0, 4): fixture.permissions.append( Permission.objects.create( name=str(i), code=i)) for i in range(0, 2): fixture.groups.append(Group.objects.create(name=str(i))) for i in range(0, 3): fixture.locations.append(Location.objects.create(name=str(i))) for i in range(0, 2): fixture.cats.append(Cat.objects.create( name=str(i), home_id=fixture.locations[i].id, backup_home_id=( fixture.locations[len(fixture.locations) - 1 - i].id))) dogs = [{ 'name': 'Clifford', 'fur_color': 'red', 'origin': 'Clifford the big red dog' }, { <|code_end|> , predict the next line using imports from the current file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context including class names, function names, and sometimes code from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'name': 'Air-Bud',
Given the following code snippet before the placeholder: <|code_start|> 'origin': 'africa' }] events = [{ 'name': 'Event 1', 'status': 'archived', 'location': 2 }, { 'name': 'Event 2', 'status': 'current', 'location': 1 }, { 'name': 'Event 3', 'status': 'current', 'location': 1 }, { 'name': 'Event 4', 'status': 'archived', 'location': 2 }, { 'name': 'Event 5', 'status': 'current', 'location': 2 }] for dog in dogs: fixture.dogs.append(Dog.objects.create( name=dog.get('name'), fur_color=dog.get('fur_color'), origin=dog.get('origin') <|code_end|> , predict the next line using imports from the current file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context including class names, function names, and sometimes code from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
))
Given the following code snippet before the placeholder: <|code_start|> fixture.users.append( User.objects.create( name=str(i), last_name=str(i))) for i in range(0, 4): fixture.permissions.append( Permission.objects.create( name=str(i), code=i)) for i in range(0, 2): fixture.groups.append(Group.objects.create(name=str(i))) for i in range(0, 3): fixture.locations.append(Location.objects.create(name=str(i))) for i in range(0, 2): fixture.cats.append(Cat.objects.create( name=str(i), home_id=fixture.locations[i].id, backup_home_id=( fixture.locations[len(fixture.locations) - 1 - i].id))) dogs = [{ 'name': 'Clifford', 'fur_color': 'red', 'origin': 'Clifford the big red dog' }, { 'name': 'Air-Bud', <|code_end|> , predict the next line using imports from the current file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context including class names, function names, and sometimes code from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'fur_color': 'gold',
Given the code snippet: <|code_start|> 'country': 1 }] parts = [{ 'car': 1, 'name': 'wheel', 'country': 1 }, { 'car': 1, 'name': 'tire', 'country': 2 }] for country in countries: fixture.countries.append(Country.objects.create(**country)) for car in cars: fixture.cars.append(Car.objects.create( id=car.get('id'), name=car.get('name'), country_id=car.get('country') )) for part in parts: fixture.parts.append(Part.objects.create( car_id=part.get('car'), name=part.get('name'), country_id=part.get('country') )) <|code_end|> , generate the next line using the imports in this file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context (functions, classes, or occasionally code) from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
return fixture
Given the following code snippet before the placeholder: <|code_start|> fixture.users[0].save() fixture.users[0].groups.add(fixture.groups[0]) fixture.users[0].groups.add(fixture.groups[1]) fixture.users[0].permissions.add(fixture.permissions[0]) fixture.users[0].permissions.add(fixture.permissions[1]) fixture.users[1].location = fixture.locations[0] fixture.users[1].save() fixture.users[1].groups.add(fixture.groups[0]) fixture.users[1].groups.add(fixture.groups[1]) fixture.users[1].permissions.add(fixture.permissions[2]) fixture.users[1].permissions.add(fixture.permissions[3]) fixture.users[2].location = fixture.locations[1] fixture.users[2].save() fixture.users[2].groups.add(fixture.groups[0]) fixture.users[2].groups.add(fixture.groups[1]) fixture.users[2].permissions.add(fixture.permissions[0]) fixture.users[2].permissions.add(fixture.permissions[3]) fixture.users[3].location = fixture.locations[2] fixture.users[3].save() fixture.users[3].groups.add(fixture.groups[0]) fixture.users[3].groups.add(fixture.groups[1]) fixture.users[3].permissions.add(fixture.permissions[1]) fixture.users[3].permissions.add(fixture.permissions[2]) fixture.groups[0].permissions.add(fixture.permissions[0]) fixture.groups[1].permissions.add(fixture.permissions[1]) <|code_end|> , predict the next line using imports from the current file: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context including class names, function names, and sometimes code from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
countries = [{
Predict the next line for this snippet: <|code_start|> fixture.locations[len(fixture.locations) - 1 - i].id))) dogs = [{ 'name': 'Clifford', 'fur_color': 'red', 'origin': 'Clifford the big red dog' }, { 'name': 'Air-Bud', 'fur_color': 'gold', 'origin': 'Air Bud 4: Seventh Inning Fetch' }, { 'name': 'Spike', 'fur_color': 'brown', 'origin': 'Rugrats' }, { 'name': 'Pluto', 'fur_color': 'brown and white', 'origin': 'Mickey Mouse' }, { 'name': 'Spike', 'fur_color': 'light-brown', 'origin': 'Tom and Jerry' }] horses = [{ 'name': 'Seabiscuit', 'origin': 'LA' }, { 'name': 'Secretariat', 'origin': 'Kentucky' <|code_end|> with the help of current file imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
}]
Given snippet: <|code_start|> )) for event in events: fixture.events.append(Event.objects.create( name=event['name'], status=event['status'], location_id=event['location'] )) fixture.events[1].users.add(fixture.users[0]) fixture.events[1].users.add(fixture.users[1]) fixture.events[2].users.add(fixture.users[0]) fixture.events[3].users.add(fixture.users[0]) fixture.events[3].users.add(fixture.users[2]) fixture.events[4].users.add(fixture.users[0]) fixture.events[4].users.add(fixture.users[1]) fixture.events[4].users.add(fixture.users[2]) fixture.locations[0].blob = 'here' fixture.locations[0].save() fixture.users[0].location = fixture.locations[0] fixture.users[0].save() fixture.users[0].groups.add(fixture.groups[0]) fixture.users[0].groups.add(fixture.groups[1]) fixture.users[0].permissions.add(fixture.permissions[0]) fixture.users[0].permissions.add(fixture.permissions[1]) fixture.users[1].location = fixture.locations[0] fixture.users[1].save() fixture.users[1].groups.add(fixture.groups[0]) <|code_end|> , continue by predicting the next line. Consider current file imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and context: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() which might include code, classes, or functions. Output only the next line.
fixture.users[1].groups.add(fixture.groups[1])
Predict the next line after this snippet: <|code_start|> 'fur_color': 'brown', 'origin': 'Rugrats' }, { 'name': 'Pluto', 'fur_color': 'brown and white', 'origin': 'Mickey Mouse' }, { 'name': 'Spike', 'fur_color': 'light-brown', 'origin': 'Tom and Jerry' }] horses = [{ 'name': 'Seabiscuit', 'origin': 'LA' }, { 'name': 'Secretariat', 'origin': 'Kentucky' }] zebras = [{ 'name': 'Ralph', 'origin': 'new york' }, { 'name': 'Ted', 'origin': 'africa' }] events = [{ 'name': 'Event 1', <|code_end|> using the current file's imports: from collections import namedtuple from tests.models import ( Car, Cat, Country, Dog, Event, Group, Horse, Location, Part, Permission, User, Zebra ) and any relevant context from other files: # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Event(models.Model): # """ # Event model -- Intentionally missing serializer and viewset, so they # can be added as part of a codelab. # """ # # name = models.TextField() # status = models.TextField(default='current') # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # users = models.ManyToManyField('User') # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'status': 'archived',
Based on the snippet: <|code_start|> class TestMeta(TestCase): def test_get_remote_model(self): tests = [ (Location, 'user_set', User), (User, 'location', Location), (User, 'profile', Profile), (User, 'groups', Group), (Group, 'users', User), (Profile, 'user', User), ] for model, field_name, expected in tests: remote_model = get_remote_model( get_model_field(model, field_name) ) self.assertEqual( expected, remote_model, "For %s.%s expected %s got %s" % ( model, field_name, <|code_end|> , predict the immediate next line with the help of imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context (classes, functions, sometimes code) from other files: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
expected,
Predict the next line after this snippet: <|code_start|> self.assertEqual( expected, remote_model, "For %s.%s expected %s got %s" % ( model, field_name, expected, remote_model ) ) def test_model_field_and_type(self): tests = [ (Location, 'user_set', 'm2o'), (User, 'location', 'fk'), (User, 'profile', 'o2or'), (User, 'groups', 'm2m'), (Group, 'users', 'm2m'), (Profile, 'user', 'o2o'), (User, 'id', '') ] for model, field_name, expected in tests: field, typestr = get_model_field_and_type(model, field_name) self.assertEqual( expected, typestr, "%s.%s should be '%s', got '%s'" % ( model, <|code_end|> using the current file's imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and any relevant context from other files: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
field_name,
Here is a snippet: <|code_start|> class TestMeta(TestCase): def test_get_remote_model(self): tests = [ (Location, 'user_set', User), (User, 'location', Location), (User, 'profile', Profile), (User, 'groups', Group), (Group, 'users', User), (Profile, 'user', User), ] for model, field_name, expected in tests: remote_model = get_remote_model( get_model_field(model, field_name) ) self.assertEqual( expected, remote_model, <|code_end|> . Write the next line using the current file imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context from other files: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) , which may include functions, classes, or code. Output only the next line.
"For %s.%s expected %s got %s" % (
Given snippet: <|code_start|> class TestMeta(TestCase): def test_get_remote_model(self): tests = [ (Location, 'user_set', User), (User, 'location', Location), (User, 'profile', Profile), (User, 'groups', Group), (Group, 'users', User), (Profile, 'user', User), ] for model, field_name, expected in tests: remote_model = get_remote_model( get_model_field(model, field_name) ) self.assertEqual( expected, remote_model, "For %s.%s expected %s got %s" % ( model, field_name, expected, remote_model <|code_end|> , continue by predicting the next line. Consider current file imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) which might include code, classes, or functions. Output only the next line.
)
Using the snippet: <|code_start|> class TestMeta(TestCase): def test_get_remote_model(self): tests = [ (Location, 'user_set', User), (User, 'location', Location), (User, 'profile', Profile), (User, 'groups', Group), (Group, 'users', User), (Profile, 'user', User), ] for model, field_name, expected in tests: remote_model = get_remote_model( get_model_field(model, field_name) ) self.assertEqual( <|code_end|> , determine the next line of code. You have imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context (class names, function names, or code) available: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
expected,
Given the code snippet: <|code_start|> self.assertEqual( expected, remote_model, "For %s.%s expected %s got %s" % ( model, field_name, expected, remote_model ) ) def test_model_field_and_type(self): tests = [ (Location, 'user_set', 'm2o'), (User, 'location', 'fk'), (User, 'profile', 'o2or'), (User, 'groups', 'm2m'), (Group, 'users', 'm2m'), (Profile, 'user', 'o2o'), (User, 'id', '') ] for model, field_name, expected in tests: field, typestr = get_model_field_and_type(model, field_name) self.assertEqual( expected, typestr, "%s.%s should be '%s', got '%s'" % ( model, <|code_end|> , generate the next line using the imports in this file: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context (functions, classes, or occasionally code) from other files: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
field_name,
Using the snippet: <|code_start|> class TestMeta(TestCase): def test_get_remote_model(self): tests = [ (Location, 'user_set', User), (User, 'location', Location), (User, 'profile', Profile), (User, 'groups', Group), (Group, 'users', User), (Profile, 'user', User), ] <|code_end|> , determine the next line of code. You have imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context (class names, function names, or code) available: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
for model, field_name, expected in tests:
Based on the snippet: <|code_start|> remote_model = get_remote_model( get_model_field(model, field_name) ) self.assertEqual( expected, remote_model, "For %s.%s expected %s got %s" % ( model, field_name, expected, remote_model ) ) def test_model_field_and_type(self): tests = [ (Location, 'user_set', 'm2o'), (User, 'location', 'fk'), (User, 'profile', 'o2or'), (User, 'groups', 'm2m'), (Group, 'users', 'm2m'), (Profile, 'user', 'o2o'), (User, 'id', '') ] for model, field_name, expected in tests: field, typestr = get_model_field_and_type(model, field_name) self.assertEqual( expected, <|code_end|> , predict the immediate next line with the help of imports: from django.test import TestCase from dynamic_rest.meta import ( get_model_field, get_model_field_and_type, get_remote_model, reverse_m2m_field_name ) from tests.models import Group, Location, Profile, User and context (classes, functions, sometimes code) from other files: # Path: dynamic_rest/meta.py # def get_model_field(model, field_name): # """Return a field given a model and field name. # # Arguments: # model: a Django model # field_name: the name of a field # # Returns: # A Django field if `field_name` is a valid field for `model`, # None otherwise. # """ # meta = model._meta # try: # return meta.get_field(field_name) # except BaseException: # related_objs = ( # f for f in meta.get_fields() # if (f.one_to_many or f.one_to_one) # and f.auto_created and not f.concrete # ) # related_m2m_objs = ( # f for f in meta.get_fields(include_hidden=True) # if f.many_to_many and f.auto_created # ) # # related_objects = { # o.get_accessor_name(): o # for o in chain(related_objs, related_m2m_objs) # } # if field_name in related_objects: # return related_objects[field_name] # else: # # check virtual fields (1.7) # if hasattr(meta, 'virtual_fields'): # for field in meta.virtual_fields: # if field.name == field_name: # return field # # raise AttributeError( # '%s is not a valid field for %s' % (field_name, model) # ) # # def get_model_field_and_type(model, field_name): # field = get_model_field(model, field_name) # # # Django 1.7 (and 1.8?) # if isinstance(field, RelatedObject): # if isinstance(field.field, OneToOneField): # return field, 'o2or' # elif isinstance(field.field, ManyToManyField): # return field, 'm2m' # elif isinstance(field.field, ForeignKey): # return field, 'm2o' # else: # raise RuntimeError("Unexpected field type") # # # Django 1.9 # type_map = [ # (OneToOneField, 'o2o'), # (OneToOneRel, 'o2or'), # is subclass of m2o so check first # (ManyToManyField, 'm2m'), # (ManyToOneRel, 'm2o'), # (ManyToManyRel, 'm2m'), # (ForeignKey, 'fk'), # check last # ] # for cls, type_str in type_map: # if isinstance(field, cls): # return field, type_str, # # return field, '', # # def get_remote_model(field): # try: # # Django 1.9 # return field.remote_field.model # except BaseException: # # Django 1.7 # if hasattr(field, 'field'): # return field.field.model # elif hasattr(field, 'rel'): # return field.rel.to # elif field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # def reverse_m2m_field_name(m2m_field): # try: # # Django 1.9 # return m2m_field.remote_field.name # except BaseException: # # Django 1.7 # if hasattr(m2m_field, 'rel'): # return m2m_field.rel.related_name # elif hasattr(m2m_field, 'field'): # return m2m_field.field.name # elif m2m_field.__class__.__name__ == 'GenericForeignKey': # return None # else: # raise # # Path: tests/models.py # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
typestr,
Predict the next line for this snippet: <|code_start|> 'loc1usersLambda' ) permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True) members = DynamicRelationField( 'UserSerializer', source='users', many=True, deferred=True) # Intentional duplicate of 'users': users = DynamicRelationField( 'UserSerializer', many=True, deferred=True) # For testing default queryset on relations: loc1users = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=User.objects.filter(location_id=1), deferred=True) loc1usersLambda = DynamicRelationField( 'UserSerializer', source='users', <|code_end|> with the help of current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
many=True,
Predict the next line after this snippet: <|code_start|> class UserSerializer(DynamicModelSerializer): class Meta: model = User name = 'user' fields = ( 'id', 'name', 'permissions', 'groups', 'location', 'last_name', 'display_name', 'thumbnail_url', 'number_of_cats', 'profile', 'date_of_birth', 'favorite_pet_id', 'favorite_pet', 'is_dead', ) deferred_fields = ( 'last_name', 'date_of_birth', 'display_name', 'profile', 'thumbnail_url', 'favorite_pet_id', <|code_end|> using the current file's imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and any relevant context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'favorite_pet',
Given the following code snippet before the placeholder: <|code_start|> class GroupSerializer(DynamicModelSerializer): class Meta: model = Group name = 'group' fields = ( 'id', 'name', 'permissions', 'members', 'users', 'loc1users', 'loc1usersLambda' ) permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True) members = DynamicRelationField( 'UserSerializer', source='users', many=True, deferred=True) # Intentional duplicate of 'users': users = DynamicRelationField( 'UserSerializer', many=True, <|code_end|> , predict the next line using imports from the current file: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
deferred=True)
Given the code snippet: <|code_start|> name = 'permission' fields = ('id', 'name', 'code', 'users', 'groups') deferred_fields = ('code',) users = DynamicRelationField('UserSerializer', many=True, deferred=False) groups = DynamicRelationField('GroupSerializer', many=True) class GroupSerializer(DynamicModelSerializer): class Meta: model = Group name = 'group' fields = ( 'id', 'name', 'permissions', 'members', 'users', 'loc1users', 'loc1usersLambda' ) permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True) members = DynamicRelationField( 'UserSerializer', source='users', <|code_end|> , generate the next line using the imports in this file: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context (functions, classes, or occasionally code) from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
many=True,
Given snippet: <|code_start|> thumbnail_url = DynamicField( source='profile.thumbnail_url', read_only=True ) number_of_cats = DynamicMethodField( requires=['location.cat_set.*'], deferred=True ) # Don't set read_only on this field directly. Used in test for # Meta.read_only_fields. profile = DynamicRelationField( 'ProfileSerializer', deferred=True ) favorite_pet = DynamicGenericRelationField(required=False) def get_number_of_cats(self, user): if not self.context.get('request'): # Used in test_api.py::test_relation_includes_context raise Exception("No request object in context") location = user.location return len(location.cat_set.all()) if location else 0 class ProfileSerializer(DynamicModelSerializer): class Meta: model = Profile name = 'profile' <|code_end|> , continue by predicting the next line. Consider current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() which might include code, classes, or functions. Output only the next line.
fields = (
Predict the next line for this snippet: <|code_start|> users = DynamicRelationField( 'UserSerializer', source='user_set', many=True, deferred=True ) user_count = CountField('users', required=False, deferred=True) address = DynamicField(source='blob', required=False, deferred=True) cats = DynamicRelationField( 'CatSerializer', source='cat_set', many=True, deferred=True) friendly_cats = DynamicRelationField( 'CatSerializer', many=True, deferred=True) bad_cats = DynamicRelationField( 'CatSerializer', source='annoying_cats', many=True, deferred=True) def filter_queryset(self, query): return query.exclude(name='Atlantis') class PermissionSerializer(DynamicModelSerializer): class Meta: defer_many_relations = True model = Permission name = 'permission' fields = ('id', 'name', 'code', 'users', 'groups') deferred_fields = ('code',) users = DynamicRelationField('UserSerializer', many=True, deferred=False) <|code_end|> with the help of current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
groups = DynamicRelationField('GroupSerializer', many=True)
Using the snippet: <|code_start|> 'last_name', 'date_of_birth', 'display_name', 'profile', 'thumbnail_url', 'favorite_pet_id', 'favorite_pet', 'is_dead', ) read_only_fields = ('profile',) location = DynamicRelationField('LocationSerializer') permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True ) groups = DynamicRelationField('GroupSerializer', many=True, deferred=True) display_name = DynamicField(source='profile.display_name', read_only=True) thumbnail_url = DynamicField( source='profile.thumbnail_url', read_only=True ) number_of_cats = DynamicMethodField( requires=['location.cat_set.*'], deferred=True ) # Don't set read_only on this field directly. Used in test for # Meta.read_only_fields. <|code_end|> , determine the next line of code. You have imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context (class names, function names, or code) available: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
profile = DynamicRelationField(
Continue the code snippet: <|code_start|> class Meta: model = Cat name = 'cat' fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') deferred_fields = ('home', 'backup_home', 'foobar', 'parent') immutable_fields = ('name',) untrimmed_fields = ('name',) class LocationSerializer(DynamicModelSerializer): class Meta: defer_many_relations = False model = Location name = 'location' fields = ( 'id', 'name', 'users', 'user_count', 'address', 'cats', 'friendly_cats', 'bad_cats' ) users = DynamicRelationField( 'UserSerializer', source='user_set', many=True, deferred=True ) user_count = CountField('users', required=False, deferred=True) address = DynamicField(source='blob', required=False, deferred=True) cats = DynamicRelationField( 'CatSerializer', source='cat_set', many=True, deferred=True) <|code_end|> . Use current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context (classes, functions, or code) from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
friendly_cats = DynamicRelationField(
Predict the next line for this snippet: <|code_start|> 'last_name', 'display_name', 'thumbnail_url', 'number_of_cats', 'profile', 'date_of_birth', 'favorite_pet_id', 'favorite_pet', 'is_dead', ) deferred_fields = ( 'last_name', 'date_of_birth', 'display_name', 'profile', 'thumbnail_url', 'favorite_pet_id', 'favorite_pet', 'is_dead', ) read_only_fields = ('profile',) location = DynamicRelationField('LocationSerializer') permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True ) groups = DynamicRelationField('GroupSerializer', many=True, deferred=True) display_name = DynamicField(source='profile.display_name', read_only=True) <|code_end|> with the help of current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
thumbnail_url = DynamicField(
Predict the next line for this snippet: <|code_start|> deferred=True) # For testing default queryset on relations: loc1users = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=User.objects.filter(location_id=1), deferred=True) loc1usersLambda = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=lambda srlzr: User.objects.filter(location_id=1), deferred=True) class UserSerializer(DynamicModelSerializer): class Meta: model = User name = 'user' fields = ( 'id', 'name', 'permissions', 'groups', 'location', 'last_name', <|code_end|> with the help of current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
'display_name',
Using the snippet: <|code_start|> model = Cat name = 'cat' fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') deferred_fields = ('home', 'backup_home', 'foobar', 'parent') immutable_fields = ('name',) untrimmed_fields = ('name',) class LocationSerializer(DynamicModelSerializer): class Meta: defer_many_relations = False model = Location name = 'location' fields = ( 'id', 'name', 'users', 'user_count', 'address', 'cats', 'friendly_cats', 'bad_cats' ) users = DynamicRelationField( 'UserSerializer', source='user_set', many=True, deferred=True ) user_count = CountField('users', required=False, deferred=True) address = DynamicField(source='blob', required=False, deferred=True) cats = DynamicRelationField( 'CatSerializer', source='cat_set', many=True, deferred=True) friendly_cats = DynamicRelationField( <|code_end|> , determine the next line of code. You have imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context (class names, function names, or code) available: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'CatSerializer', many=True, deferred=True)
Based on the snippet: <|code_start|> # For testing default queryset on relations: loc1users = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=User.objects.filter(location_id=1), deferred=True) loc1usersLambda = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=lambda srlzr: User.objects.filter(location_id=1), deferred=True) class UserSerializer(DynamicModelSerializer): class Meta: model = User name = 'user' fields = ( 'id', 'name', 'permissions', 'groups', 'location', 'last_name', 'display_name', <|code_end|> , predict the immediate next line with the help of imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context (classes, functions, sometimes code) from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
'thumbnail_url',
Given the following code snippet before the placeholder: <|code_start|> 'name', 'permissions', 'members', 'users', 'loc1users', 'loc1usersLambda' ) permissions = DynamicRelationField( 'PermissionSerializer', many=True, deferred=True) members = DynamicRelationField( 'UserSerializer', source='users', many=True, deferred=True) # Intentional duplicate of 'users': users = DynamicRelationField( 'UserSerializer', many=True, deferred=True) # For testing default queryset on relations: loc1users = DynamicRelationField( 'UserSerializer', source='users', many=True, queryset=User.objects.filter(location_id=1), <|code_end|> , predict the next line using imports from the current file: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() . Output only the next line.
deferred=True)
Predict the next line for this snippet: <|code_start|> deferred=True ) user_count = CountField('users', required=False, deferred=True) address = DynamicField(source='blob', required=False, deferred=True) cats = DynamicRelationField( 'CatSerializer', source='cat_set', many=True, deferred=True) friendly_cats = DynamicRelationField( 'CatSerializer', many=True, deferred=True) bad_cats = DynamicRelationField( 'CatSerializer', source='annoying_cats', many=True, deferred=True) def filter_queryset(self, query): return query.exclude(name='Atlantis') class PermissionSerializer(DynamicModelSerializer): class Meta: defer_many_relations = True model = Permission name = 'permission' fields = ('id', 'name', 'code', 'users', 'groups') deferred_fields = ('code',) users = DynamicRelationField('UserSerializer', many=True, deferred=False) groups = DynamicRelationField('GroupSerializer', many=True) class GroupSerializer(DynamicModelSerializer): <|code_end|> with the help of current file imports: from rest_framework.serializers import CharField from dynamic_rest.fields import ( CountField, DynamicField, DynamicGenericRelationField, DynamicMethodField, DynamicRelationField ) from dynamic_rest.serializers import ( DynamicEphemeralSerializer, DynamicModelSerializer ) from tests.models import ( Car, Cat, Country, Dog, Group, Horse, Location, Part, Permission, Profile, User, Zebra, ) and context from other files: # Path: dynamic_rest/serializers.py # class DynamicEphemeralSerializer( # WithDynamicSerializerMixin, # serializers.Serializer # ): # # """DREST-compatible baseclass for non-model serializers.""" # # def to_representation(self, instance): # """ # Provides post processing. Sub-classes should implement their own # to_representation method, but pass the resulting dict through # this function to get tagging and field selection. # # Arguments: # instance: Serialized dict, or object. If object, # it will be serialized by the super class's # to_representation() method. # """ # # if not isinstance(instance, dict): # data = super( # DynamicEphemeralSerializer, # self # ).to_representation(instance) # else: # data = instance # instance = EphemeralObject(data) # # if self.id_only(): # return data # else: # return tag_dict(data, serializer=self, instance=instance) # # class DynamicModelSerializer( # WithDynamicModelSerializerMixin, # serializers.ModelSerializer # ): # # """DREST-compatible model-based serializer.""" # pass # # Path: tests/models.py # class Car(models.Model): # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Cat(models.Model): # name = models.TextField() # home = models.ForeignKey('Location', on_delete=models.CASCADE) # backup_home = models.ForeignKey( # 'Location', # related_name='friendly_cats', # on_delete=models.CASCADE # ) # hunting_grounds = models.ManyToManyField( # 'Location', # related_name='annoying_cats', # related_query_name='getoffmylawn' # ) # parent = models.ForeignKey( # 'Cat', # null=True, # blank=True, # related_name='kittens', # on_delete=models.CASCADE # ) # # class Country(models.Model): # name = models.CharField(max_length=60) # short_name = models.CharField(max_length=30) # # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # class Group(models.Model): # name = models.TextField(unique=True) # permissions = models.ManyToManyField('Permission', related_name='groups') # # class Horse(models.Model): # name = models.TextField() # origin = models.TextField() # # class Location(models.Model): # name = models.TextField() # blob = models.TextField() # # class Part(models.Model): # car = models.ForeignKey(Car, on_delete=models.CASCADE) # name = models.CharField(max_length=60) # country = models.ForeignKey(Country, on_delete=models.CASCADE) # # class Permission(models.Model): # name = models.TextField() # code = models.IntegerField() # # class Profile(models.Model): # user = models.OneToOneField(User, on_delete=models.CASCADE) # display_name = models.TextField() # thumbnail_url = models.TextField(null=True, blank=True) # # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) # # class Zebra(models.Model): # name = models.TextField() # origin = models.TextField() , which may contain function names, class names, or code. Output only the next line.
class Meta:
Given snippet: <|code_start|> class DynamicRestConfig(AppConfig): name = "dynamic_rest" verbose_name = "Django Dynamic Rest" <|code_end|> , continue by predicting the next line. Consider current file imports: from django.apps import AppConfig from django.core.exceptions import ImproperlyConfigured from dynamic_rest.conf import settings and context: # Path: dynamic_rest/conf.py # DYNAMIC_REST = { # # DEBUG: enable/disable internal debugging # 'DEBUG': False, # # # ENABLE_BROWSABLE_API: enable/disable the browsable API. # # It can be useful to disable it in production. # 'ENABLE_BROWSABLE_API': True, # # # ENABLE_LINKS: enable/disable relationship links # 'ENABLE_LINKS': True, # # # ENABLE_SERIALIZER_CACHE: enable/disable caching of related serializers # 'ENABLE_SERIALIZER_CACHE': True, # # # ENABLE_SERIALIZER_OBJECT_CACHE: enable/disable caching of serialized # # objects within a serializer instance/context. This can yield # # significant performance improvements in cases where the same objects # # are sideloaded repeatedly. # 'ENABLE_SERIALIZER_OBJECT_CACHE': True, # # # ENABLE_SERIALIZER_OPTIMIZATIONS: enable/disable representation speedups # 'ENABLE_SERIALIZER_OPTIMIZATIONS': True, # # # ENABLE_BULK_PARTIAL_CREATION: enable/disable partial creation in bulk # 'ENABLE_BULK_PARTIAL_CREATION': False, # # # ENABLE_BULK_UPDATE: enable/disable update in bulk # 'ENABLE_BULK_UPDATE': True, # # # ENABLE_PATCH_ALL: enable/disable patch by queryset # 'ENABLE_PATCH_ALL': False, # # # DEFER_MANY_RELATIONS: automatically defer many-relations, unless # # `deferred=False` is explicitly set on the field. # 'DEFER_MANY_RELATIONS': False, # # # LIST_SERIALIZER_CLASS: Globally override the list serializer class. # # Default is `DynamicListSerializer` and also can be overridden for # # each serializer class by setting `Meta.list_serializer_class`. # 'LIST_SERIALIZER_CLASS': None, # # # MAX_PAGE_SIZE: global setting for max page size. # # Can be overriden at the viewset level. # 'MAX_PAGE_SIZE': None, # # # PAGE_QUERY_PARAM: global setting for the pagination query parameter. # # Can be overriden at the viewset level. # 'PAGE_QUERY_PARAM': 'page', # # # PAGE_SIZE: global setting for page size. # # Can be overriden at the viewset level. # 'PAGE_SIZE': None, # # # PAGE_SIZE_QUERY_PARAM: global setting for the page size query parameter. # # Can be overriden at the viewset level. # 'PAGE_SIZE_QUERY_PARAM': 'per_page', # # # ADDITIONAL_PRIMARY_RESOURCE_PREFIX: String to prefix additional # # instances of the primary resource when sideloading. # 'ADDITIONAL_PRIMARY_RESOURCE_PREFIX': '+', # # # Enables host-relative links. Only compatible with resources registered # # through the dynamic router. If a resource doesn't have a canonical # # path registered, links will default back to being resource-relative urls # 'ENABLE_HOST_RELATIVE_LINKS': True, # # # Enables caching of serializer fields to speed up serializer usage # # Needs to also be configured on a per-serializer basis # 'ENABLE_FIELDS_CACHE': False, # # # Enables use of hashid fields # 'ENABLE_HASHID_FIELDS': False, # # # Salt value to salt hash ids. # # Needs to be non-nullable if 'ENABLE_HASHID_FIELDS' is set to True # 'HASHIDS_SALT': None, # } # CLASS_ATTRS = [ # 'LIST_SERIALIZER_CLASS', # ] # class Settings(object): # def __init__(self, name, defaults, settings, class_attrs=None): # def _reload(self, value): # def _load_class(self, attr, val): # def __getattr__(self, attr): # def _settings_changed(self, *args, **kwargs): which might include code, classes, or functions. Output only the next line.
def ready(self):
Given the code snippet: <|code_start|> class TestDynamicRouter(APITestCase): def test_get_canonical_path(self): rsrc_key = DogSerializer().get_resource_key() self.assertEqual( '/dogs', DynamicRouter.get_canonical_path(rsrc_key) ) def test_get_canonical_path_with_prefix(self): set_script_prefix('/v2/') rsrc_key = DogSerializer().get_resource_key() self.assertEqual( '/v2/dogs', DynamicRouter.get_canonical_path(rsrc_key) ) <|code_end|> , generate the next line using the imports in this file: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context (functions, classes, or occasionally code) from other files: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py . Output only the next line.
clear_script_prefix()
Using the snippet: <|code_start|> class TestDynamicRouter(APITestCase): def test_get_canonical_path(self): rsrc_key = DogSerializer().get_resource_key() self.assertEqual( '/dogs', DynamicRouter.get_canonical_path(rsrc_key) <|code_end|> , determine the next line of code. You have imports: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context (class names, function names, or code) available: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py . Output only the next line.
)
Here is a snippet: <|code_start|> self.assertEqual( '/v2/cats', DynamicRouter.get_canonical_path(rsrc_key) ) def test_get_canonical_serializer(self): rsrc_key = get_model_table(Dog) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(rsrc_key) ) def test_get_canonical_serializer_by_model(self): self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, model=Dog) ) def test_get_canonical_serializer_by_instance(self): dog = Dog.objects.create( name='Snoopy', fur_color='black and white', origin='' ) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, instance=dog) ) def test_rest_framework_router_unmodified(self): <|code_end|> . Write the next line using the current file imports: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context from other files: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py , which may include functions, classes, or code. Output only the next line.
if hasattr(self, 'assertCountEqual'):
Given the following code snippet before the placeholder: <|code_start|> DynamicRouter.get_canonical_serializer(None, model=Dog) ) def test_get_canonical_serializer_by_instance(self): dog = Dog.objects.create( name='Snoopy', fur_color='black and white', origin='' ) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, instance=dog) ) def test_rest_framework_router_unmodified(self): if hasattr(self, 'assertCountEqual'): method = self.assertCountEqual else: method = self.assertItemsEqual method( [ { 'post': 'create', 'get': 'list' }, { 'put': 'update', 'patch': 'partial_update', 'delete': 'destroy', <|code_end|> , predict the next line using imports from the current file: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py . Output only the next line.
'get': 'retrieve'
Continue the code snippet: <|code_start|> def test_get_canonical_serializer(self): rsrc_key = get_model_table(Dog) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(rsrc_key) ) def test_get_canonical_serializer_by_model(self): self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, model=Dog) ) def test_get_canonical_serializer_by_instance(self): dog = Dog.objects.create( name='Snoopy', fur_color='black and white', origin='' ) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, instance=dog) ) def test_rest_framework_router_unmodified(self): if hasattr(self, 'assertCountEqual'): method = self.assertCountEqual else: method = self.assertItemsEqual <|code_end|> . Use current file imports: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context (classes, functions, or code) from other files: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py . Output only the next line.
method(
Given the following code snippet before the placeholder: <|code_start|> def test_get_canonical_serializer_by_instance(self): dog = Dog.objects.create( name='Snoopy', fur_color='black and white', origin='' ) self.assertEqual( DogSerializer, DynamicRouter.get_canonical_serializer(None, instance=dog) ) def test_rest_framework_router_unmodified(self): if hasattr(self, 'assertCountEqual'): method = self.assertCountEqual else: method = self.assertItemsEqual method( [ { 'post': 'create', 'get': 'list' }, { 'put': 'update', 'patch': 'partial_update', 'delete': 'destroy', 'get': 'retrieve' } ], <|code_end|> , predict the next line using imports from the current file: from django.urls import set_script_prefix, clear_script_prefix from rest_framework.test import APITestCase from rest_framework.routers import DefaultRouter from dynamic_rest.meta import get_model_table from dynamic_rest.routers import DynamicRouter, Route from tests.models import Dog from tests.serializers import CatSerializer, DogSerializer from tests.urls import urlpatterns # noqa force route registration and context including class names, function names, and sometimes code from other files: # Path: dynamic_rest/meta.py # def get_model_table(model): # try: # return model._meta.db_table # except BaseException: # return None # # Path: dynamic_rest/routers.py # def replace_methodname(format_string, methodname): # def get_directory(request): # def get_url(url): # def is_active_url(path, url): # def sort_key(r): # def modify_list_route(routes): # def __init__(self, *args, **kwargs): # def get_api_root_view(self, **kwargs): # def get(self, request, *args, **kwargs): # def register(self, prefix, viewset, base_name=None): # def register_resource(self, viewset, namespace=None): # def get_canonical_path(resource_key, pk=None): # def get_canonical_serializer( # resource_key, # model=None, # instance=None, # resource_name=None # ): # def get_routes(self, viewset): # def get_relation_routes(self, viewset): # class DynamicRouter(DefaultRouter): # class API(views.APIView): # # Path: tests/models.py # class Dog(models.Model): # name = models.TextField() # fur_color = models.TextField() # origin = models.TextField() # # Path: tests/serializers.py # class CatSerializer(DynamicModelSerializer): # home = DynamicRelationField('LocationSerializer', link=None) # backup_home = DynamicRelationField( # 'LocationSerializer', link=backup_home_link) # foobar = DynamicRelationField( # 'LocationSerializer', source='hunting_grounds', many=True) # parent = DynamicRelationField('CatSerializer', immutable=True) # # class Meta: # model = Cat # name = 'cat' # fields = ('id', 'name', 'home', 'backup_home', 'foobar', 'parent') # deferred_fields = ('home', 'backup_home', 'foobar', 'parent') # immutable_fields = ('name',) # untrimmed_fields = ('name',) # # class DogSerializer(DynamicModelSerializer): # # class Meta: # model = Dog # fields = ('id', 'name', 'origin', 'fur', 'is_red') # # fur = CharField(source='fur_color') # is_red = DynamicMethodField(deferred=True, requires=['fur_color']) # # def get_is_red(self, instance): # return instance.fur_color == 'red' # # Path: tests/urls.py . Output only the next line.
[
Next line prediction: <|code_start|> def test_is_truthy(self): self.assertTrue(is_truthy("faux")) self.assertTrue(is_truthy(1)) self.assertFalse(is_truthy("0")) self.assertFalse(is_truthy("False")) self.assertFalse(is_truthy("false")) self.assertFalse(is_truthy("")) def test_unpack_empty_value(self): self.assertIsNone(unpack(None)) def test_unpack_non_empty_value(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertIsNotNone(unpack(content)) def test_unpack_meta_first_key(self): content = {"meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "a 't'") def test_unpack_meta_not_first_key(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "world") @override_settings( ENABLE_HASHID_FIELDS=True, HASHIDS_SALT="If my calculations are correct, " "when this vaby hits 88 miles per hour, " "you're gonna see some serious s***.", ) <|code_end|> . Use current file imports: (from django.test import TestCase, override_settings from dynamic_rest.utils import ( is_truthy, unpack, internal_id_from_model_and_external_id, model_from_definition ) from tests.models import User) and context including class names, function names, or small code snippets from other files: # Path: dynamic_rest/utils.py # def is_truthy(x): # if isinstance(x, string_types): # return x.lower() not in FALSEY_STRINGS # return bool(x) # # def unpack(content): # if not content: # # empty values pass through # return content # # keys = [k for k in content.keys() if k != 'meta'] # unpacked = content[keys[0]] # return unpacked # # def internal_id_from_model_and_external_id(model, external_id): # """ # Return the internal ID from the external ID and model combination. # # Because the HashId is a combination of the model's content type and the # internal ID, we validate here that the external ID decodes as expected, # and that the content type corresponds to the model we're expecting. # """ # hashids = Hashids(salt=settings.HASHIDS_SALT) # # if hashids is None: # raise AssertionError( # "To use hashids features you must set " # "ENABLE_HASHID_FIELDS to true " # "and provide a HASHIDS_SALT in your dynamic_rest settings.") # # try: # content_type_id, instance_id = hashids.decode(external_id) # except (TypeError, ValueError): # raise model.DoesNotExist # # content_type = ContentType.objects.get_for_id(content_type_id) # # if content_type.model_class() != model: # raise model.DoesNotExist # # return instance_id # # def model_from_definition(model_definition): # """ # Return a Django model corresponding to model_definition. # # Model definition can either be a string defining how to import the model, # or a model class. # # Arguments: # model_definition: (str|django.db.models.Model) # # Returns: # (django.db.models.Model) # # Implementation from # https://github.com/evenicoulddoit/django-rest-framework-serializer-extensions # """ # if isinstance(model_definition, str): # model = import_string(model_definition) # else: # model = model_definition # # try: # assert issubclass(model, models.Model) # except (AssertionError, TypeError): # raise AssertionError( # '"{0}"" is not a Django model'.format(model_definition)) # # return model # # Path: tests/models.py # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
def test_int_id_from_model_ext_id_obj_does_not_exits(
Continue the code snippet: <|code_start|> content = {"meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "a 't'") def test_unpack_meta_not_first_key(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "world") @override_settings( ENABLE_HASHID_FIELDS=True, HASHIDS_SALT="If my calculations are correct, " "when this vaby hits 88 miles per hour, " "you're gonna see some serious s***.", ) def test_int_id_from_model_ext_id_obj_does_not_exits( self): self.assertRaises( User.DoesNotExist, internal_id_from_model_and_external_id, model=User, external_id="skdkahh", ) def test_model_from_definition(self): self.assertEqual(model_from_definition('tests.models.User'), User) self.assertEqual(model_from_definition(User), User) self.assertRaises( AssertionError, model_from_definition, model_definition='django.test.override_settings' ) <|code_end|> . Use current file imports: from django.test import TestCase, override_settings from dynamic_rest.utils import ( is_truthy, unpack, internal_id_from_model_and_external_id, model_from_definition ) from tests.models import User and context (classes, functions, or code) from other files: # Path: dynamic_rest/utils.py # def is_truthy(x): # if isinstance(x, string_types): # return x.lower() not in FALSEY_STRINGS # return bool(x) # # def unpack(content): # if not content: # # empty values pass through # return content # # keys = [k for k in content.keys() if k != 'meta'] # unpacked = content[keys[0]] # return unpacked # # def internal_id_from_model_and_external_id(model, external_id): # """ # Return the internal ID from the external ID and model combination. # # Because the HashId is a combination of the model's content type and the # internal ID, we validate here that the external ID decodes as expected, # and that the content type corresponds to the model we're expecting. # """ # hashids = Hashids(salt=settings.HASHIDS_SALT) # # if hashids is None: # raise AssertionError( # "To use hashids features you must set " # "ENABLE_HASHID_FIELDS to true " # "and provide a HASHIDS_SALT in your dynamic_rest settings.") # # try: # content_type_id, instance_id = hashids.decode(external_id) # except (TypeError, ValueError): # raise model.DoesNotExist # # content_type = ContentType.objects.get_for_id(content_type_id) # # if content_type.model_class() != model: # raise model.DoesNotExist # # return instance_id # # def model_from_definition(model_definition): # """ # Return a Django model corresponding to model_definition. # # Model definition can either be a string defining how to import the model, # or a model class. # # Arguments: # model_definition: (str|django.db.models.Model) # # Returns: # (django.db.models.Model) # # Implementation from # https://github.com/evenicoulddoit/django-rest-framework-serializer-extensions # """ # if isinstance(model_definition, str): # model = import_string(model_definition) # else: # model = model_definition # # try: # assert issubclass(model, models.Model) # except (AssertionError, TypeError): # raise AssertionError( # '"{0}"" is not a Django model'.format(model_definition)) # # return model # # Path: tests/models.py # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
self.assertRaises(
Using the snippet: <|code_start|> content = {"meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "a 't'") def test_unpack_meta_not_first_key(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "world") @override_settings( ENABLE_HASHID_FIELDS=True, HASHIDS_SALT="If my calculations are correct, " "when this vaby hits 88 miles per hour, " "you're gonna see some serious s***.", ) def test_int_id_from_model_ext_id_obj_does_not_exits( self): self.assertRaises( User.DoesNotExist, internal_id_from_model_and_external_id, model=User, external_id="skdkahh", ) def test_model_from_definition(self): self.assertEqual(model_from_definition('tests.models.User'), User) self.assertEqual(model_from_definition(User), User) self.assertRaises( AssertionError, model_from_definition, model_definition='django.test.override_settings' ) <|code_end|> , determine the next line of code. You have imports: from django.test import TestCase, override_settings from dynamic_rest.utils import ( is_truthy, unpack, internal_id_from_model_and_external_id, model_from_definition ) from tests.models import User and context (class names, function names, or code) available: # Path: dynamic_rest/utils.py # def is_truthy(x): # if isinstance(x, string_types): # return x.lower() not in FALSEY_STRINGS # return bool(x) # # def unpack(content): # if not content: # # empty values pass through # return content # # keys = [k for k in content.keys() if k != 'meta'] # unpacked = content[keys[0]] # return unpacked # # def internal_id_from_model_and_external_id(model, external_id): # """ # Return the internal ID from the external ID and model combination. # # Because the HashId is a combination of the model's content type and the # internal ID, we validate here that the external ID decodes as expected, # and that the content type corresponds to the model we're expecting. # """ # hashids = Hashids(salt=settings.HASHIDS_SALT) # # if hashids is None: # raise AssertionError( # "To use hashids features you must set " # "ENABLE_HASHID_FIELDS to true " # "and provide a HASHIDS_SALT in your dynamic_rest settings.") # # try: # content_type_id, instance_id = hashids.decode(external_id) # except (TypeError, ValueError): # raise model.DoesNotExist # # content_type = ContentType.objects.get_for_id(content_type_id) # # if content_type.model_class() != model: # raise model.DoesNotExist # # return instance_id # # def model_from_definition(model_definition): # """ # Return a Django model corresponding to model_definition. # # Model definition can either be a string defining how to import the model, # or a model class. # # Arguments: # model_definition: (str|django.db.models.Model) # # Returns: # (django.db.models.Model) # # Implementation from # https://github.com/evenicoulddoit/django-rest-framework-serializer-extensions # """ # if isinstance(model_definition, str): # model = import_string(model_definition) # else: # model = model_definition # # try: # assert issubclass(model, models.Model) # except (AssertionError, TypeError): # raise AssertionError( # '"{0}"" is not a Django model'.format(model_definition)) # # return model # # Path: tests/models.py # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) . Output only the next line.
self.assertRaises(
Predict the next line for this snippet: <|code_start|>class UtilsTestCase(TestCase): def setUp(self): User.objects.create(name="Marie") User.objects.create(name="Rosalind") def test_is_truthy(self): self.assertTrue(is_truthy("faux")) self.assertTrue(is_truthy(1)) self.assertFalse(is_truthy("0")) self.assertFalse(is_truthy("False")) self.assertFalse(is_truthy("false")) self.assertFalse(is_truthy("")) def test_unpack_empty_value(self): self.assertIsNone(unpack(None)) def test_unpack_non_empty_value(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertIsNotNone(unpack(content)) def test_unpack_meta_first_key(self): content = {"meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "a 't'") def test_unpack_meta_not_first_key(self): content = {"hello": "world", "meta": "worldpeace", "missed": "a 't'"} self.assertEqual(unpack(content), "world") @override_settings( ENABLE_HASHID_FIELDS=True, <|code_end|> with the help of current file imports: from django.test import TestCase, override_settings from dynamic_rest.utils import ( is_truthy, unpack, internal_id_from_model_and_external_id, model_from_definition ) from tests.models import User and context from other files: # Path: dynamic_rest/utils.py # def is_truthy(x): # if isinstance(x, string_types): # return x.lower() not in FALSEY_STRINGS # return bool(x) # # def unpack(content): # if not content: # # empty values pass through # return content # # keys = [k for k in content.keys() if k != 'meta'] # unpacked = content[keys[0]] # return unpacked # # def internal_id_from_model_and_external_id(model, external_id): # """ # Return the internal ID from the external ID and model combination. # # Because the HashId is a combination of the model's content type and the # internal ID, we validate here that the external ID decodes as expected, # and that the content type corresponds to the model we're expecting. # """ # hashids = Hashids(salt=settings.HASHIDS_SALT) # # if hashids is None: # raise AssertionError( # "To use hashids features you must set " # "ENABLE_HASHID_FIELDS to true " # "and provide a HASHIDS_SALT in your dynamic_rest settings.") # # try: # content_type_id, instance_id = hashids.decode(external_id) # except (TypeError, ValueError): # raise model.DoesNotExist # # content_type = ContentType.objects.get_for_id(content_type_id) # # if content_type.model_class() != model: # raise model.DoesNotExist # # return instance_id # # def model_from_definition(model_definition): # """ # Return a Django model corresponding to model_definition. # # Model definition can either be a string defining how to import the model, # or a model class. # # Arguments: # model_definition: (str|django.db.models.Model) # # Returns: # (django.db.models.Model) # # Implementation from # https://github.com/evenicoulddoit/django-rest-framework-serializer-extensions # """ # if isinstance(model_definition, str): # model = import_string(model_definition) # else: # model = model_definition # # try: # assert issubclass(model, models.Model) # except (AssertionError, TypeError): # raise AssertionError( # '"{0}"" is not a Django model'.format(model_definition)) # # return model # # Path: tests/models.py # class User(models.Model): # name = models.TextField() # last_name = models.TextField() # groups = models.ManyToManyField('Group', related_name='users') # permissions = models.ManyToManyField('Permission', related_name='users') # date_of_birth = models.DateField(null=True, blank=True) # # 'related_name' intentionally left unset in location field below: # location = models.ForeignKey( # 'Location', # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_type = models.ForeignKey( # ContentType, # null=True, # blank=True, # on_delete=models.CASCADE # ) # favorite_pet_id = models.TextField(null=True, blank=True) # favorite_pet = GenericForeignKey( # 'favorite_pet_type', # 'favorite_pet_id', # ) # is_dead = models.BooleanField(null=True, default=False) , which may contain function names, class names, or code. Output only the next line.
HASHIDS_SALT="If my calculations are correct, "
Using the snippet: <|code_start|> self.assertFalse(self.oldkernel_plugin.is_old_kernel_package('linux-image-2.6.38-11')) @mock.patch('os.uname', mock.Mock(side_effect=Exception)) def test_init_exception(self): plugin = OldKernelPlugin() self.assertEqual(plugin.current_kernel_version, 'undefined') def test_get_cruft(self): with mock.patch.object(OldKernelPlugin, 'emit') as mocked_emit: self.oldkernel_plugin.get_cruft() mocked_emit.assert_called_with('scan_finished', True, mocked_emit.call_count - 1, 0) @mock.patch('ubuntucleaner.janitor.oldkernel_plugin.OldKernelPlugin.is_old_kernel_package', mock.Mock(side_effect=Exception)) def test_get_cruft_exception(self): with mock.patch('ubuntucleaner.janitor.oldkernel_plugin.get_traceback') as mocked_traceback: self.oldkernel_plugin.get_cruft() mocked_traceback.assert_called_once_with() def test_get_summary(self): self.assertEqual( self.oldkernel_plugin.get_summary(1), '[1] Old Kernel' ) def test_get_summary_empty(self): self.assertEqual( self.oldkernel_plugin.get_summary(0), <|code_end|> , determine the next line of code. You have imports: import unittest import mock from ubuntucleaner.janitor.oldkernel_plugin import OldKernelPlugin and context (class names, function names, or code) available: # Path: ubuntucleaner/janitor/oldkernel_plugin.py # class OldKernelPlugin(JanitorPlugin): # __title__ = _('Old Kernel') # __category__ = 'system' # # p_kernel_version = re.compile('[.\d]+-\d+') # p_kernel_package = re.compile('linux-[a-z\-]+') # # def __init__(self): # JanitorPlugin.__init__(self) # try: # self.current_kernel_version = self.p_kernel_version.findall('-'.join(os.uname()[2].split('-')[:2]))[0] # log.debug("the current_kernel_version is %s" % self.current_kernel_version) # except Exception as e: # log.error(e) # self.current_kernel_version = 'undefined' # # def get_cruft(self): # try: # cache = AptWorker.get_cache() # count = 0 # size = 0 # # if cache: # for pkg in cache: # if pkg.is_installed and self.is_old_kernel_package(pkg.name): # log.debug("Find old kernerl: %s" % pkg.name) # count += 1 # size += pkg.installed.size # self.emit('find_object', # PackageObject(pkg.name, pkg.name, pkg.installed.size), # count) # # self.emit('scan_finished', True, count, size) # except Exception as e: # error = get_traceback() # log.error(error) # self.emit('scan_error', error) # # def clean_cruft(self, cruft_list=[], parent=None): # set_busy(parent) # worker = AptWorker(parent, # finish_handler=self.on_clean_finished, # error_handler=self.on_error, # data=parent) # worker.remove_packages([cruft.get_package_name() for cruft in cruft_list]) # # def on_error(self, error): # log.error('AptWorker error with: %s' % error) # self.emit('clean_error', error) # # def on_clean_finished(self, transaction, status, parent): # unset_busy(parent) # AptWorker.update_apt_cache(True) # self.emit('all_cleaned', True) # # def is_old_kernel_package(self, pkg): # basenames = ['linux-image', 'linux-image-extra', 'linux-headers', # 'linux-image-debug', 'linux-ubuntu-modules', 'linux-modules', # 'linux-header-lum', 'linux-backport-modules', 'linux-modules-extra', # 'linux-header-lbm', 'linux-restricted-modules'] # # if pkg.startswith('linux'): # package = self.p_kernel_package.findall(pkg) # if package: # package = package[0].rstrip('-') # else: # return False # # if package in basenames: # match = self.p_kernel_version.findall(pkg) # if match and self._compare_kernel_version(match[0]): # return True # return False # # @log_func(log) # def _compare_kernel_version(self, version): # c1, c2 = self.current_kernel_version.split('-') # p1, p2 = version.split('-') # if c1 == p1: # return int(c2) > int(p2) # else: # return LooseVersion(c1) > LooseVersion(p1) # # def get_summary(self, count): # if count: # return '[%d] %s' % (count, self.__title__) # else: # return _('Old Kernel Packages (No old kernel package to be removed)') . Output only the next line.
'Old Kernel Packages (No old kernel package to be removed)'
Given the code snippet: <|code_start|> class TestDaemonService(unittest.TestCase): def test_get_cmd_pipe_no_process(self): with mock.patch.object(DaemonService, '__init__') as mocked_service: mocked_service.return_value = None mocked_service = DaemonService() assert mocked_service.get_cmd_pipe() == ('', 'None') def test_get_cmd_pipe_terminaled_none(self): with mock.patch.object(DaemonService, '__init__') as mocked_service: mocked_service.return_value = None mocked_service = DaemonService() mocked_service.p = mock.Mock() mocked_service.p.poll.return_value = None mocked_service.p.stdout.readline.return_value = "test" assert mocked_service.get_cmd_pipe() == ('test', 'None') def test_get_cmd_pipe_terminaled(self): with mock.patch.object(DaemonService, '__init__') as mocked_service: mocked_service.return_value = None mocked_service = DaemonService() <|code_end|> , generate the next line using the imports in this file: import mock import unittest from ubuntucleaner.daemon.service import DaemonService and context (functions, classes, or occasionally code) from other files: # Path: ubuntucleaner/daemon/service.py # class DaemonService(PolicyKitService): # p = None # # def __init__(self, bus, mainloop): # bus_name = dbus.service.BusName(INTERFACE, bus=bus) # PolicyKitService.__init__(self, bus_name, PATH) # self.mainloop = mainloop # # def _setup_non_block_io(self, io): # outfd = io.fileno() # file_flags = fcntl.fcntl(outfd, fcntl.F_GETFL) # fcntl.fcntl(outfd, fcntl.F_SETFL, file_flags | os.O_NDELAY) # # @dbus.service.method(INTERFACE, # in_signature='s', out_signature='b', # sender_keyword='sender') # def delete_apt_cache_file(self, file_name, sender=None): # self._check_permission(sender, PK_ACTION_CLEAN) # # full_path = os.path.join('/var/cache/apt/archives/', file_name) # if os.path.exists(full_path): # os.remove(full_path) # # return not os.path.exists(full_path) # # @dbus.service.method(INTERFACE, # in_signature='s', out_signature='', # sender_keyword='sender') # def clean_configs(self, pkg, sender=None): # self._check_permission(sender, PK_ACTION_CLEAN) # cmd = ['sudo', 'dpkg', '--purge'] # cmd.append(pkg) # self.p = subprocess.Popen(cmd, stdout=subprocess.PIPE) # self._setup_non_block_io(self.p.stdout) # # @dbus.service.method(INTERFACE, # in_signature='', out_signature='v') # def get_cmd_pipe(self): # if self.p: # terminaled = self.p.poll() # if terminaled == None: # try: # return self.p.stdout.readline(), str(terminaled) # except: # return '', 'None' # else: # strings, returncode = b' '.join(self.p.stdout.readlines()), str(terminaled) # self.p = None # return strings, returncode # else: # return '', 'None' # # @dbus.service.method(INTERFACE, # in_signature='', out_signature='') # def exit(self): # self.mainloop.quit() . Output only the next line.
mocked_service.p = mock.Mock()
Predict the next line after this snippet: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): return mock.patch("ubuntucleaner.utils.icon.log") def patch_get_from_name(): return mock.patch("ubuntucleaner.utils.icon.get_from_name") class TestSystemModule(unittest.TestCase): def test_get_distro(self): with mock.patch("ubuntucleaner.utils.system.os.popen") as m_popen: m_popen.return_value.read.return_value = 'Ubuntu 18.04.4 LTS\n' distro = get_distro() <|code_end|> using the current file's imports: import unittest import mock from ubuntucleaner.utils.system import get_codename, get_desktop, get_distro and any relevant context from other files: # Path: ubuntucleaner/utils/system.py # def get_codename(): # return os.popen('lsb_release -cs').read().strip() # # def get_desktop(): # ''' # ubuntu # ubuntu-2d # gnome-classic # gnome-shell # ''' # return os.getenv('DESKTOP_SESSION') # # def get_distro(): # return os.popen('lsb_release -ds').read().strip() . Output only the next line.
self.assertEqual(
Next line prediction: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): return mock.patch("ubuntucleaner.utils.icon.log") def patch_get_from_name(): return mock.patch("ubuntucleaner.utils.icon.get_from_name") class TestSystemModule(unittest.TestCase): def test_get_distro(self): with mock.patch("ubuntucleaner.utils.system.os.popen") as m_popen: m_popen.return_value.read.return_value = 'Ubuntu 18.04.4 LTS\n' distro = get_distro() <|code_end|> . Use current file imports: (import unittest import mock from ubuntucleaner.utils.system import get_codename, get_desktop, get_distro) and context including class names, function names, or small code snippets from other files: # Path: ubuntucleaner/utils/system.py # def get_codename(): # return os.popen('lsb_release -cs').read().strip() # # def get_desktop(): # ''' # ubuntu # ubuntu-2d # gnome-classic # gnome-shell # ''' # return os.getenv('DESKTOP_SESSION') # # def get_distro(): # return os.popen('lsb_release -ds').read().strip() . Output only the next line.
self.assertEqual(
Given the code snippet: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): return mock.patch("ubuntucleaner.utils.icon.log") def patch_get_from_name(): return mock.patch("ubuntucleaner.utils.icon.get_from_name") class TestSystemModule(unittest.TestCase): def test_get_distro(self): with mock.patch("ubuntucleaner.utils.system.os.popen") as m_popen: <|code_end|> , generate the next line using the imports in this file: import unittest import mock from ubuntucleaner.utils.system import get_codename, get_desktop, get_distro and context (functions, classes, or occasionally code) from other files: # Path: ubuntucleaner/utils/system.py # def get_codename(): # return os.popen('lsb_release -cs').read().strip() # # def get_desktop(): # ''' # ubuntu # ubuntu-2d # gnome-classic # gnome-shell # ''' # return os.getenv('DESKTOP_SESSION') # # def get_distro(): # return os.popen('lsb_release -ds').read().strip() . Output only the next line.
m_popen.return_value.read.return_value = 'Ubuntu 18.04.4 LTS\n'
Predict the next line after this snippet: <|code_start|> gi.require_version("Notify", "0.7") #The terminal has 8 colors with codes from 0 to 7 BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE = range(8) #These are the sequences need to get colored ouput RESET_SEQ = "\033[0m" COLOR_SEQ = "\033[1;%dm" BOLD_SEQ = "\033[1m" #The background is set with 40 plus the number of the color, #and the foreground with 30 COLORS = { 'WARNING': COLOR_SEQ % (30 + YELLOW) + 'WARNING' + RESET_SEQ, 'INFO': COLOR_SEQ % (30 + WHITE) + 'INFO' + RESET_SEQ, 'DEBUG': COLOR_SEQ % (30 + BLUE) + 'DEBUG' + RESET_SEQ, 'CRITICAL': COLOR_SEQ % (30 + YELLOW) + 'CRITICAL' + RESET_SEQ, 'ERROR': COLOR_SEQ % (30 + RED) + 'ERROR' + RESET_SEQ, } def on_copy_button_clicked(widget, text): notify = Notify.Notification() <|code_end|> using the current file's imports: import logging import os import traceback import gi from io import StringIO from gi.repository import Gdk, Gtk, Notify from ubuntucleaner.settings.constants import CONFIG_ROOT from ubuntucleaner.utils import system from ubuntucleaner.gui import GuiBuilder and any relevant context from other files: # Path: ubuntucleaner/settings/constants.py # CONFIG_ROOT = os.path.join(GLib.get_user_config_dir(), 'ubuntu-cleaner') # # Path: ubuntucleaner/utils/system.py # def get_distro(): # def get_codename(): # def get_desktop(): # def get_app(): # DISTRO = get_distro() # CODENAME = get_codename() # DESKTOP = get_desktop() # APP = get_app() . Output only the next line.
notify.update(summary=_('Error message has been copied'),
Given snippet: <|code_start|> gi.require_version("Notify", "0.7") #The terminal has 8 colors with codes from 0 to 7 BLACK, RED, GREEN, YELLOW, BLUE, MAGENTA, CYAN, WHITE = range(8) #These are the sequences need to get colored ouput RESET_SEQ = "\033[0m" <|code_end|> , continue by predicting the next line. Consider current file imports: import logging import os import traceback import gi from io import StringIO from gi.repository import Gdk, Gtk, Notify from ubuntucleaner.settings.constants import CONFIG_ROOT from ubuntucleaner.utils import system from ubuntucleaner.gui import GuiBuilder and context: # Path: ubuntucleaner/settings/constants.py # CONFIG_ROOT = os.path.join(GLib.get_user_config_dir(), 'ubuntu-cleaner') # # Path: ubuntucleaner/utils/system.py # def get_distro(): # def get_codename(): # def get_desktop(): # def get_app(): # DISTRO = get_distro() # CODENAME = get_codename() # DESKTOP = get_desktop() # APP = get_app() which might include code, classes, or functions. Output only the next line.
COLOR_SEQ = "\033[1;%dm"
Predict the next line for this snippet: <|code_start|> class TestBaseDialog(unittest.TestCase): def test_base(self): dialog = BaseDialog() self.assertTrue(isinstance(dialog, Gtk.Dialog)) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), '') self.assertIsNone(dialog.get_property('secondary-text')) def test_title(self): init_params = {'title': 'title'} dialog = BaseDialog(**init_params) self.assertEqual(dialog.get_title(), '') <|code_end|> with the help of current file imports: import mock import unittest from gi.repository import Gtk from ubuntucleaner.gui.dialogs import ( BaseDialog, ErrorDialog, InfoDialog, WarningDialog, QuestionDialog) and context from other files: # Path: ubuntucleaner/gui/dialogs.py # class BaseDialog(Gtk.MessageDialog): # def __init__(self, **kwargs): # title = kwargs.pop('title', '') # message = kwargs.pop('message', '') # # GObject.GObject.__init__(self, **kwargs) # # if title: # self.set_title(title) # # if message: # self.set_content(message) # # def set_title(self, title): # self.set_markup('<big><b>%s</b></big>' % title) # # def set_content(self, message): # if self.get_property('text'): # self.format_secondary_markup(message) # else: # self.set_markup(message) # # def launch(self): # self.run() # self.destroy() # # class ErrorDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class InfoDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.INFO, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class WarningDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.WARNING, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class QuestionDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.QUESTION, buttons=Gtk.ButtonsType.YES_NO): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) , which may contain function names, class names, or code. Output only the next line.
self.assertEqual(dialog.get_property('text'), '<big><b>title</b></big>')
Next line prediction: <|code_start|> dialog = BaseDialog(**init_params) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), 'message') self.assertIsNone(dialog.get_property('secondary-text')) def test_title_message(self): init_params = {'title': 'title', 'message': 'message'} dialog = BaseDialog(**init_params) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), '<big><b>title</b></big>') self.assertEqual(dialog.get_property('secondary-text'), 'message') def test_launch(self): dialog = BaseDialog() with mock.patch("ubuntucleaner.gui.dialogs.BaseDialog.run") as m_run: dialog.launch() self.assertEqual(m_run.call_args_list, [mock.call()]) def test_error_dialog(self): dialog = ErrorDialog() self.assertTrue(isinstance(dialog, BaseDialog)) def test_info_dialog(self): dialog = InfoDialog() self.assertTrue(isinstance(dialog, BaseDialog)) def test_warning_dialog(self): dialog = WarningDialog() self.assertTrue(isinstance(dialog, BaseDialog)) <|code_end|> . Use current file imports: (import mock import unittest from gi.repository import Gtk from ubuntucleaner.gui.dialogs import ( BaseDialog, ErrorDialog, InfoDialog, WarningDialog, QuestionDialog)) and context including class names, function names, or small code snippets from other files: # Path: ubuntucleaner/gui/dialogs.py # class BaseDialog(Gtk.MessageDialog): # def __init__(self, **kwargs): # title = kwargs.pop('title', '') # message = kwargs.pop('message', '') # # GObject.GObject.__init__(self, **kwargs) # # if title: # self.set_title(title) # # if message: # self.set_content(message) # # def set_title(self, title): # self.set_markup('<big><b>%s</b></big>' % title) # # def set_content(self, message): # if self.get_property('text'): # self.format_secondary_markup(message) # else: # self.set_markup(message) # # def launch(self): # self.run() # self.destroy() # # class ErrorDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class InfoDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.INFO, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class WarningDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.WARNING, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class QuestionDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.QUESTION, buttons=Gtk.ButtonsType.YES_NO): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) . Output only the next line.
def test_question_dialog(self):
Based on the snippet: <|code_start|> class TestBaseDialog(unittest.TestCase): def test_base(self): dialog = BaseDialog() self.assertTrue(isinstance(dialog, Gtk.Dialog)) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), '') <|code_end|> , predict the immediate next line with the help of imports: import mock import unittest from gi.repository import Gtk from ubuntucleaner.gui.dialogs import ( BaseDialog, ErrorDialog, InfoDialog, WarningDialog, QuestionDialog) and context (classes, functions, sometimes code) from other files: # Path: ubuntucleaner/gui/dialogs.py # class BaseDialog(Gtk.MessageDialog): # def __init__(self, **kwargs): # title = kwargs.pop('title', '') # message = kwargs.pop('message', '') # # GObject.GObject.__init__(self, **kwargs) # # if title: # self.set_title(title) # # if message: # self.set_content(message) # # def set_title(self, title): # self.set_markup('<big><b>%s</b></big>' % title) # # def set_content(self, message): # if self.get_property('text'): # self.format_secondary_markup(message) # else: # self.set_markup(message) # # def launch(self): # self.run() # self.destroy() # # class ErrorDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class InfoDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.INFO, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class WarningDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.WARNING, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class QuestionDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.QUESTION, buttons=Gtk.ButtonsType.YES_NO): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) . Output only the next line.
self.assertIsNone(dialog.get_property('secondary-text'))
Predict the next line for this snippet: <|code_start|> class TestBaseDialog(unittest.TestCase): def test_base(self): dialog = BaseDialog() self.assertTrue(isinstance(dialog, Gtk.Dialog)) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), '') self.assertIsNone(dialog.get_property('secondary-text')) def test_title(self): init_params = {'title': 'title'} dialog = BaseDialog(**init_params) self.assertEqual(dialog.get_title(), '') <|code_end|> with the help of current file imports: import mock import unittest from gi.repository import Gtk from ubuntucleaner.gui.dialogs import ( BaseDialog, ErrorDialog, InfoDialog, WarningDialog, QuestionDialog) and context from other files: # Path: ubuntucleaner/gui/dialogs.py # class BaseDialog(Gtk.MessageDialog): # def __init__(self, **kwargs): # title = kwargs.pop('title', '') # message = kwargs.pop('message', '') # # GObject.GObject.__init__(self, **kwargs) # # if title: # self.set_title(title) # # if message: # self.set_content(message) # # def set_title(self, title): # self.set_markup('<big><b>%s</b></big>' % title) # # def set_content(self, message): # if self.get_property('text'): # self.format_secondary_markup(message) # else: # self.set_markup(message) # # def launch(self): # self.run() # self.destroy() # # class ErrorDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class InfoDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.INFO, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class WarningDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.WARNING, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class QuestionDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.QUESTION, buttons=Gtk.ButtonsType.YES_NO): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) , which may contain function names, class names, or code. Output only the next line.
self.assertEqual(dialog.get_property('text'), '<big><b>title</b></big>')
Given the following code snippet before the placeholder: <|code_start|> class TestBaseDialog(unittest.TestCase): def test_base(self): dialog = BaseDialog() self.assertTrue(isinstance(dialog, Gtk.Dialog)) self.assertEqual(dialog.get_title(), '') self.assertEqual(dialog.get_property('text'), '') self.assertIsNone(dialog.get_property('secondary-text')) def test_title(self): init_params = {'title': 'title'} dialog = BaseDialog(**init_params) <|code_end|> , predict the next line using imports from the current file: import mock import unittest from gi.repository import Gtk from ubuntucleaner.gui.dialogs import ( BaseDialog, ErrorDialog, InfoDialog, WarningDialog, QuestionDialog) and context including class names, function names, and sometimes code from other files: # Path: ubuntucleaner/gui/dialogs.py # class BaseDialog(Gtk.MessageDialog): # def __init__(self, **kwargs): # title = kwargs.pop('title', '') # message = kwargs.pop('message', '') # # GObject.GObject.__init__(self, **kwargs) # # if title: # self.set_title(title) # # if message: # self.set_content(message) # # def set_title(self, title): # self.set_markup('<big><b>%s</b></big>' % title) # # def set_content(self, message): # if self.get_property('text'): # self.format_secondary_markup(message) # else: # self.set_markup(message) # # def launch(self): # self.run() # self.destroy() # # class ErrorDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.ERROR, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class InfoDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.INFO, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class WarningDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.WARNING, buttons=Gtk.ButtonsType.OK): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) # # class QuestionDialog(BaseDialog): # def __init__(self, title='', message='', parent=None, # type=Gtk.MessageType.QUESTION, buttons=Gtk.ButtonsType.YES_NO): # BaseDialog.__init__(self, title=title, message=message, # parent=parent, message_type=type, buttons=buttons) . Output only the next line.
self.assertEqual(dialog.get_title(), '')
Using the snippet: <|code_start|> log = logging.getLogger('package') class NewAptProgressDialog(AptProgressDialog): def run(self, attach=False, close_on_finished=True, show_error=True, <|code_end|> , determine the next line of code. You have imports: import logging import apt import apt_pkg import aptdaemon.client import aptdaemon.errors from aptdaemon.enums import * from aptdaemon.gtk3widgets import AptErrorDialog, AptProgressDialog, AptConfirmDialog from gi.repository import Gtk, Gdk from defer import inline_callbacks from ubuntucleaner.gui.gtk import post_ui from ubuntucleaner.settings.debug import log_func and context (class names, function names, or code) available: # Path: ubuntucleaner/gui/gtk.py # @log_func(log) # def post_ui(func): # def func_wrapper(*args, **kwargs): # Gdk.threads_enter() # func(*args, **kwargs) # Gdk.threads_leave() # # return func_wrapper # # Path: ubuntucleaner/settings/debug.py # def log_func(log): # def wrap(func): # def func_wrapper(*args, **kwargs): # log.debug("%s:" % func) # for i, arg in enumerate(args): # log.debug("\targs-%d: %s" % (i + 1, arg)) # for k, v in enumerate(kwargs): # log.debug("\tdict args-%d: %s: %s" % (k, v, kwargs[v])) # return func(*args, **kwargs) # return func_wrapper # return wrap . Output only the next line.
reply_handler=None, error_handler=None):
Given the code snippet: <|code_start|> log = logging.getLogger('package') class NewAptProgressDialog(AptProgressDialog): def run(self, attach=False, close_on_finished=True, show_error=True, <|code_end|> , generate the next line using the imports in this file: import logging import apt import apt_pkg import aptdaemon.client import aptdaemon.errors from aptdaemon.enums import * from aptdaemon.gtk3widgets import AptErrorDialog, AptProgressDialog, AptConfirmDialog from gi.repository import Gtk, Gdk from defer import inline_callbacks from ubuntucleaner.gui.gtk import post_ui from ubuntucleaner.settings.debug import log_func and context (functions, classes, or occasionally code) from other files: # Path: ubuntucleaner/gui/gtk.py # @log_func(log) # def post_ui(func): # def func_wrapper(*args, **kwargs): # Gdk.threads_enter() # func(*args, **kwargs) # Gdk.threads_leave() # # return func_wrapper # # Path: ubuntucleaner/settings/debug.py # def log_func(log): # def wrap(func): # def func_wrapper(*args, **kwargs): # log.debug("%s:" % func) # for i, arg in enumerate(args): # log.debug("\targs-%d: %s" % (i + 1, arg)) # for k, v in enumerate(kwargs): # log.debug("\tdict args-%d: %s: %s" % (k, v, kwargs[v])) # return func(*args, **kwargs) # return func_wrapper # return wrap . Output only the next line.
reply_handler=None, error_handler=None):
Given the code snippet: <|code_start|> log = logging.getLogger("gtk") @log_func(log) def set_busy(window): if window and window.get_parent_window(): window.get_parent_window().set_cursor(Gdk.Cursor.new(Gdk.CursorType.WATCH)) window.set_sensitive(False) @log_func(log) def unset_busy(window): if window and window.get_parent_window(): <|code_end|> , generate the next line using the imports in this file: import logging from gi.repository import Gdk from ubuntucleaner.settings.debug import log_func and context (functions, classes, or occasionally code) from other files: # Path: ubuntucleaner/settings/debug.py # def log_func(log): # def wrap(func): # def func_wrapper(*args, **kwargs): # log.debug("%s:" % func) # for i, arg in enumerate(args): # log.debug("\targs-%d: %s" % (i + 1, arg)) # for k, v in enumerate(kwargs): # log.debug("\tdict args-%d: %s: %s" % (k, v, kwargs[v])) # return func(*args, **kwargs) # return func_wrapper # return wrap . Output only the next line.
window.get_parent_window().set_cursor(None)
Predict the next line for this snippet: <|code_start|> class TestPackageConfigObject(unittest.TestCase): def setUp(self): self.packageconfig = PackageConfigObject('test') def test_get_icon(self): <|code_end|> with the help of current file imports: import unittest import mock from gi.repository import GdkPixbuf from ubuntucleaner.janitor.packageconfigs_plugin import (PackageConfigObject, PackageConfigsPlugin) and context from other files: # Path: ubuntucleaner/janitor/packageconfigs_plugin.py # class PackageConfigObject(PackageObject): # def __init__(self, name): # self.name = name # # def get_icon(self): # return icon.get_from_name('text-plain') # # def get_size_display(self): # return '' # # def get_size(self): # return 0 # # class PackageConfigsPlugin(JanitorPlugin): # __title__ = _('Package Configs') # __category__ = 'system' # # def get_cruft(self): # count = 0 # # for line in os.popen('dpkg -l'): # try: # temp_list = line.split() # status, pkg = temp_list[0], temp_list[1] # if status == 'rc': # des = temp_list[3:] # count += 1 # self.emit('find_object', # PackageConfigObject(pkg), # count) # except: # pass # # self.emit('scan_finished', True, count, 0) # # def clean_cruft(self, cruft_list=[], parent=None): # for index, cruft in enumerate(cruft_list): # log.debug('Cleaning...%s' % cruft.get_name()) # proxy.clean_configs(cruft.get_name()) # line, returncode = proxy.get_cmd_pipe() # while returncode == 'None': # log.debug('output: %s, returncode: %s' % (line, returncode)) # time.sleep(0.2) # line, returncode = proxy.get_cmd_pipe() # # if returncode != '0': # self.emit('clean_error', returncode) # break # else: # self.emit('object_cleaned', cruft, index + 1) # # self.emit('all_cleaned', True) # # def get_summary(self, count): # if count: # return '[%d] %s' % (count, self.__title__) # else: # return _('Packages Configs (No package config to be removed)') , which may contain function names, class names, or code. Output only the next line.
self.assertTrue(type(self.packageconfig.get_icon()), GdkPixbuf.Pixbuf)
Given snippet: <|code_start|> def test_get_size(self): self.assertEqual(self.packageconfig.get_size(), 0) class TestPackageConfigsPlugin(unittest.TestCase): def setUp(self): self.packageconfig_plugin = PackageConfigsPlugin() def test_get_cruft(self): with mock.patch.object(PackageConfigsPlugin, 'emit') as mocked_emit: self.packageconfig_plugin.get_cruft() mocked_emit.assert_called_with('scan_finished', True, mocked_emit.call_count - 1, 0) def test_clean_empty_cruft(self): with mock.patch.object(PackageConfigsPlugin, 'emit') as mocked_emit: self.packageconfig_plugin.clean_cruft() mocked_emit.assert_called_with('all_cleaned', True) def test_get_summary(self): self.assertEqual( self.packageconfig_plugin.get_summary(1), '[1] Package Configs' ) def test_get_summary_empty(self): self.assertEqual( self.packageconfig_plugin.get_summary(0), <|code_end|> , continue by predicting the next line. Consider current file imports: import unittest import mock from gi.repository import GdkPixbuf from ubuntucleaner.janitor.packageconfigs_plugin import (PackageConfigObject, PackageConfigsPlugin) and context: # Path: ubuntucleaner/janitor/packageconfigs_plugin.py # class PackageConfigObject(PackageObject): # def __init__(self, name): # self.name = name # # def get_icon(self): # return icon.get_from_name('text-plain') # # def get_size_display(self): # return '' # # def get_size(self): # return 0 # # class PackageConfigsPlugin(JanitorPlugin): # __title__ = _('Package Configs') # __category__ = 'system' # # def get_cruft(self): # count = 0 # # for line in os.popen('dpkg -l'): # try: # temp_list = line.split() # status, pkg = temp_list[0], temp_list[1] # if status == 'rc': # des = temp_list[3:] # count += 1 # self.emit('find_object', # PackageConfigObject(pkg), # count) # except: # pass # # self.emit('scan_finished', True, count, 0) # # def clean_cruft(self, cruft_list=[], parent=None): # for index, cruft in enumerate(cruft_list): # log.debug('Cleaning...%s' % cruft.get_name()) # proxy.clean_configs(cruft.get_name()) # line, returncode = proxy.get_cmd_pipe() # while returncode == 'None': # log.debug('output: %s, returncode: %s' % (line, returncode)) # time.sleep(0.2) # line, returncode = proxy.get_cmd_pipe() # # if returncode != '0': # self.emit('clean_error', returncode) # break # else: # self.emit('object_cleaned', cruft, index + 1) # # self.emit('all_cleaned', True) # # def get_summary(self, count): # if count: # return '[%d] %s' % (count, self.__title__) # else: # return _('Packages Configs (No package config to be removed)') which might include code, classes, or functions. Output only the next line.
'Packages Configs (No package config to be removed)'
Continue the code snippet: <|code_start|> class TestUbuntuCleanerWindow(unittest.TestCase): def setUp(self): self.window = UbuntuCleanerWindow() def tearDown(self): del self.window def test_app(self): self.assertEqual(self.window.feature_dict, {'janitor': 0}) self.assertIsNotNone(self.window.aboutdialog) def test_on_about_button_clicked(self): with mock.patch("ubuntucleaner.main.Gtk.AboutDialog.run") as m_run: self.window.about_button.clicked() self.assertEqual(m_run.call_args_list, [mock.call()]) <|code_end|> . Use current file imports: import mock import unittest from ubuntucleaner.main import UbuntuCleanerWindow and context (classes, functions, or code) from other files: # Path: ubuntucleaner/main.py # class UbuntuCleanerWindow(GuiBuilder): # feature_dict = {} # # def __init__(self): # GuiBuilder.__init__(self, file_name='mainwindow.xml') # self.load_janitor() # self.mainwindow.show() # # def on_mainwindow_destroy(self, widget=None): # Gtk.main_quit() # exit() # # def on_about_button_clicked(self, widget): # self.aboutdialog.set_version(VERSION) # self.aboutdialog.set_transient_for(self.mainwindow) # self.aboutdialog.run() # self.aboutdialog.hide() # # def load_janitor(self): # janitor_page = JanitorPage() # self.feature_dict['janitor'] = self.notebook.append_page(janitor_page, Gtk.Label('janitor')) # self.module_image.set_from_pixbuf(icon.get_from_name('computerjanitor', size=48)) # self.title_label.set_markup('<b><big>%s</big></b>' % _('Computer Janitor')) # self.description_label.set_text(_("Clean up a system so it's more like a freshly installed one")) . Output only the next line.
def test_on_mainwindow_destroy(self):
Predict the next line after this snippet: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): return mock.patch("ubuntucleaner.utils.icon.log") def patch_get_from_name(): return mock.patch("ubuntucleaner.utils.icon.get_from_name") def patch_get_from_list(): <|code_end|> using the current file's imports: import unittest import mock from gi.repository import Gtk, GdkPixbuf from ubuntucleaner.utils.icon import get_from_name, get_from_list, get_from_mime_type, get_from_file, DEFAULT_SIZE and any relevant context from other files: # Path: ubuntucleaner/utils/icon.py # def get_from_name(name='gtk-execute', # alter='gtk-execute', # size=DEFAULT_SIZE, # force_reload=False, # only_path=False): # pixbuf = None # # if force_reload: # global icontheme # icontheme = Gtk.IconTheme.get_default() # # if only_path: # path = icontheme.lookup_icon(name, size, Gtk.IconLookupFlags.USE_BUILTIN) # return path # # try: # pixbuf = icontheme.load_icon(name, size, 0) # except Exception as e: # log.warning(e) # # if the alter name isn't here, so use random icon # # while not pixbuf: # try: # pixbuf = icontheme.load_icon(alter, size, 0) # except Exception as e: # log.error(e) # icons = icontheme.list_icons(None) # alter = icons[random.randint(0, len(icons) - 1)] # # if pixbuf.get_height() != size: # return pixbuf.scale_simple(size, size, GdkPixbuf.InterpType.BILINEAR) # # return pixbuf # # def get_from_list(list, size=DEFAULT_SIZE): # pixbuf = None # for name in list: # try: # pixbuf = icontheme.load_icon(name, # size, # Gtk.IconLookupFlags.USE_BUILTIN) # except Exception: # log.warning('get_from_list for %s failed, try next' % name) # continue # # return pixbuf or get_from_name('application-x-executable', size=size) # # def get_from_mime_type(mime, size=DEFAULT_SIZE): # try: # gicon = Gio.content_type_get_icon(mime) # # return get_from_list(gicon.get_names(), size=size) # except Exception as e: # log.error('get_from_mime_type failed: %s' % e) # return get_from_name(size=size) # # def get_from_file(file, size=DEFAULT_SIZE, only_path=False): # try: # return GdkPixbuf.Pixbuf.new_from_file_at_size(file, size, size) # except Exception as e: # log.error('get_from_file failed: %s' % e) # return get_from_name(size=size, only_path=only_path) # # DEFAULT_SIZE = 24 . Output only the next line.
return mock.patch("ubuntucleaner.utils.icon.get_from_list")
Next line prediction: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): return mock.patch("ubuntucleaner.utils.icon.log") def patch_get_from_name(): return mock.patch("ubuntucleaner.utils.icon.get_from_name") def patch_get_from_list(): return mock.patch("ubuntucleaner.utils.icon.get_from_list") <|code_end|> . Use current file imports: (import unittest import mock from gi.repository import Gtk, GdkPixbuf from ubuntucleaner.utils.icon import get_from_name, get_from_list, get_from_mime_type, get_from_file, DEFAULT_SIZE) and context including class names, function names, or small code snippets from other files: # Path: ubuntucleaner/utils/icon.py # def get_from_name(name='gtk-execute', # alter='gtk-execute', # size=DEFAULT_SIZE, # force_reload=False, # only_path=False): # pixbuf = None # # if force_reload: # global icontheme # icontheme = Gtk.IconTheme.get_default() # # if only_path: # path = icontheme.lookup_icon(name, size, Gtk.IconLookupFlags.USE_BUILTIN) # return path # # try: # pixbuf = icontheme.load_icon(name, size, 0) # except Exception as e: # log.warning(e) # # if the alter name isn't here, so use random icon # # while not pixbuf: # try: # pixbuf = icontheme.load_icon(alter, size, 0) # except Exception as e: # log.error(e) # icons = icontheme.list_icons(None) # alter = icons[random.randint(0, len(icons) - 1)] # # if pixbuf.get_height() != size: # return pixbuf.scale_simple(size, size, GdkPixbuf.InterpType.BILINEAR) # # return pixbuf # # def get_from_list(list, size=DEFAULT_SIZE): # pixbuf = None # for name in list: # try: # pixbuf = icontheme.load_icon(name, # size, # Gtk.IconLookupFlags.USE_BUILTIN) # except Exception: # log.warning('get_from_list for %s failed, try next' % name) # continue # # return pixbuf or get_from_name('application-x-executable', size=size) # # def get_from_mime_type(mime, size=DEFAULT_SIZE): # try: # gicon = Gio.content_type_get_icon(mime) # # return get_from_list(gicon.get_names(), size=size) # except Exception as e: # log.error('get_from_mime_type failed: %s' % e) # return get_from_name(size=size) # # def get_from_file(file, size=DEFAULT_SIZE, only_path=False): # try: # return GdkPixbuf.Pixbuf.new_from_file_at_size(file, size, size) # except Exception as e: # log.error('get_from_file failed: %s' % e) # return get_from_name(size=size, only_path=only_path) # # DEFAULT_SIZE = 24 . Output only the next line.
def patch_new_from_file_at_size():
Predict the next line for this snippet: <|code_start|> def patch_load_icon(side_effect=None): return mock.patch( "ubuntucleaner.utils.icon.Gtk.IconTheme.load_icon", side_effect=side_effect) def patch_log(): <|code_end|> with the help of current file imports: import unittest import mock from gi.repository import Gtk, GdkPixbuf from ubuntucleaner.utils.icon import get_from_name, get_from_list, get_from_mime_type, get_from_file, DEFAULT_SIZE and context from other files: # Path: ubuntucleaner/utils/icon.py # def get_from_name(name='gtk-execute', # alter='gtk-execute', # size=DEFAULT_SIZE, # force_reload=False, # only_path=False): # pixbuf = None # # if force_reload: # global icontheme # icontheme = Gtk.IconTheme.get_default() # # if only_path: # path = icontheme.lookup_icon(name, size, Gtk.IconLookupFlags.USE_BUILTIN) # return path # # try: # pixbuf = icontheme.load_icon(name, size, 0) # except Exception as e: # log.warning(e) # # if the alter name isn't here, so use random icon # # while not pixbuf: # try: # pixbuf = icontheme.load_icon(alter, size, 0) # except Exception as e: # log.error(e) # icons = icontheme.list_icons(None) # alter = icons[random.randint(0, len(icons) - 1)] # # if pixbuf.get_height() != size: # return pixbuf.scale_simple(size, size, GdkPixbuf.InterpType.BILINEAR) # # return pixbuf # # def get_from_list(list, size=DEFAULT_SIZE): # pixbuf = None # for name in list: # try: # pixbuf = icontheme.load_icon(name, # size, # Gtk.IconLookupFlags.USE_BUILTIN) # except Exception: # log.warning('get_from_list for %s failed, try next' % name) # continue # # return pixbuf or get_from_name('application-x-executable', size=size) # # def get_from_mime_type(mime, size=DEFAULT_SIZE): # try: # gicon = Gio.content_type_get_icon(mime) # # return get_from_list(gicon.get_names(), size=size) # except Exception as e: # log.error('get_from_mime_type failed: %s' % e) # return get_from_name(size=size) # # def get_from_file(file, size=DEFAULT_SIZE, only_path=False): # try: # return GdkPixbuf.Pixbuf.new_from_file_at_size(file, size, size) # except Exception as e: # log.error('get_from_file failed: %s' % e) # return get_from_name(size=size, only_path=only_path) # # DEFAULT_SIZE = 24 , which may contain function names, class names, or code. Output only the next line.
return mock.patch("ubuntucleaner.utils.icon.log")
Continue the code snippet: <|code_start|> def main(): target_string = "Genetic Algorithm" population_size = 100 mutation_rate = 0.05 genetic_algorithm = GeneticAlgorithm(target_string, population_size, mutation_rate) print ("") print ("+--------+") print ("| GA |") print ("+--------+") print ("Description: Implementation of a Genetic Algorithm which aims to produce") print ("the user specified target string. This implementation calculates each") print ("candidate's fitness based on the alphabetical distance between the candidate") print ("and the target. A candidate is selected as a parent with probabilities proportional") print ("to the candidate's fitness. Reproduction is implemented as a single-point") print ("crossover between pairs of parents. Mutation is done by randomly assigning") print ("new characters with uniform probability.") print ("") print ("Parameters") print ("----------") print ("Target String: '%s'" % target_string) print ("Population Size: %d" % population_size) <|code_end|> . Use current file imports: from mlfromscratch.unsupervised_learning import GeneticAlgorithm and context (classes, functions, or code) from other files: # Path: mlfromscratch/unsupervised_learning/genetic_algorithm.py # class GeneticAlgorithm(): # """An implementation of a Genetic Algorithm which will try to produce the user # specified target string. # # Parameters: # ----------- # target_string: string # The string which the GA should try to produce. # population_size: int # The number of individuals (possible solutions) in the population. # mutation_rate: float # The rate (or probability) of which the alleles (chars in this case) should be # randomly changed. # """ # def __init__(self, target_string, population_size, mutation_rate): # self.target = target_string # self.population_size = population_size # self.mutation_rate = mutation_rate # self.letters = [" "] + list(string.ascii_letters) # # def _initialize(self): # """ Initialize population with random strings """ # self.population = [] # for _ in range(self.population_size): # # Select random letters as new individual # individual = "".join(np.random.choice(self.letters, size=len(self.target))) # self.population.append(individual) # # def _calculate_fitness(self): # """ Calculates the fitness of each individual in the population """ # population_fitness = [] # for individual in self.population: # # Calculate loss as the alphabetical distance between # # the characters in the individual and the target string # loss = 0 # for i in range(len(individual)): # letter_i1 = self.letters.index(individual[i]) # letter_i2 = self.letters.index(self.target[i]) # loss += abs(letter_i1 - letter_i2) # fitness = 1 / (loss + 1e-6) # population_fitness.append(fitness) # return population_fitness # # def _mutate(self, individual): # """ Randomly change the individual's characters with probability # self.mutation_rate """ # individual = list(individual) # for j in range(len(individual)): # # Make change with probability mutation_rate # if np.random.random() < self.mutation_rate: # individual[j] = np.random.choice(self.letters) # # Return mutated individual as string # return "".join(individual) # # def _crossover(self, parent1, parent2): # """ Create children from parents by crossover """ # # Select random crossover point # cross_i = np.random.randint(0, len(parent1)) # child1 = parent1[:cross_i] + parent2[cross_i:] # child2 = parent2[:cross_i] + parent1[cross_i:] # return child1, child2 # # def run(self, iterations): # # Initialize new population # self._initialize() # # for epoch in range(iterations): # population_fitness = self._calculate_fitness() # # fittest_individual = self.population[np.argmax(population_fitness)] # highest_fitness = max(population_fitness) # # # If we have found individual which matches the target => Done # if fittest_individual == self.target: # break # # # Set the probability that the individual should be selected as a parent # # proportionate to the individual's fitness. # parent_probabilities = [fitness / sum(population_fitness) for fitness in population_fitness] # # # Determine the next generation # new_population = [] # for i in np.arange(0, self.population_size, 2): # # Select two parents randomly according to probabilities # parent1, parent2 = np.random.choice(self.population, size=2, p=parent_probabilities, replace=False) # # Perform crossover to produce offspring # child1, child2 = self._crossover(parent1, parent2) # # Save mutated offspring for next generation # new_population += [self._mutate(child1), self._mutate(child2)] # # print ("[%d Closest Candidate: '%s', Fitness: %.2f]" % (epoch, fittest_individual, highest_fitness)) # self.population = new_population # # print ("[%d Answer: '%s']" % (epoch, fittest_individual)) . Output only the next line.
print ("Mutation Rate: %s" % mutation_rate)
Using the snippet: <|code_start|> def main(): # Demo of how to reduce the dimensionality of the data to two dimension # and plot the results. # Load the dataset data = datasets.load_digits() X = data.data y = data.target # Project the data onto the 2 primary principal components X_trans = PCA().transform(X, 2) x1 = X_trans[:, 0] x2 = X_trans[:, 1] cmap = plt.get_cmap('viridis') colors = [cmap(i) for i in np.linspace(0, 1, len(np.unique(y)))] class_distr = [] # Plot the different class distributions for i, l in enumerate(np.unique(y)): _x1 = x1[y == l] _x2 = x2[y == l] _y = y[y == l] class_distr.append(plt.scatter(_x1, _x2, color=colors[i])) # Add a legend <|code_end|> , determine the next line of code. You have imports: from sklearn import datasets from mlfromscratch.unsupervised_learning import PCA import matplotlib.pyplot as plt import matplotlib.cm as cmx import matplotlib.colors as colors import numpy as np and context (class names, function names, or code) available: # Path: mlfromscratch/unsupervised_learning/principal_component_analysis.py # class PCA(): # """A method for doing dimensionality reduction by transforming the feature # space to a lower dimensionality, removing correlation between features and # maximizing the variance along each feature axis. This class is also used throughout # the project to plot data. # """ # def transform(self, X, n_components): # """ Fit the dataset to the number of principal components specified in the # constructor and return the transformed dataset """ # covariance_matrix = calculate_covariance_matrix(X) # # # Where (eigenvector[:,0] corresponds to eigenvalue[0]) # eigenvalues, eigenvectors = np.linalg.eig(covariance_matrix) # # # Sort the eigenvalues and corresponding eigenvectors from largest # # to smallest eigenvalue and select the first n_components # idx = eigenvalues.argsort()[::-1] # eigenvalues = eigenvalues[idx][:n_components] # eigenvectors = np.atleast_1d(eigenvectors[:, idx])[:, :n_components] # # # Project the data onto principal components # X_transformed = X.dot(eigenvectors) # # return X_transformed . Output only the next line.
plt.legend(class_distr, y, loc=1)
Next line prediction: <|code_start|> elif legend["type"] == "scatter" and scatter: plt.legend(scatter_plots, scatter_labels, loc=legend["loc"]) plt.show() # Plot the dataset X and the corresponding labels y in 2D using PCA. def plot_in_2d(self, X, y=None, title=None, accuracy=None, legend_labels=None): X_transformed = self._transform(X, dim=2) x1 = X_transformed[:, 0] x2 = X_transformed[:, 1] class_distr = [] y = np.array(y).astype(int) colors = [self.cmap(i) for i in np.linspace(0, 1, len(np.unique(y)))] # Plot the different class distributions for i, l in enumerate(np.unique(y)): _x1 = x1[y == l] _x2 = x2[y == l] _y = y[y == l] class_distr.append(plt.scatter(_x1, _x2, color=colors[i])) # Plot legend if not legend_labels is None: plt.legend(class_distr, legend_labels, loc=1) # Plot title <|code_end|> . Use current file imports: (import progressbar import matplotlib.pyplot as plt import matplotlib.cm as cmx import matplotlib.colors as colors import numpy as np from mpl_toolkits.mplot3d import Axes3D from mlfromscratch.utils.data_operation import calculate_covariance_matrix from mlfromscratch.utils.data_operation import calculate_correlation_matrix from mlfromscratch.utils.data_manipulation import standardize) and context including class names, function names, or small code snippets from other files: # Path: mlfromscratch/utils/data_operation.py # def calculate_covariance_matrix(X, Y=None): # """ Calculate the covariance matrix for the dataset X """ # if Y is None: # Y = X # n_samples = np.shape(X)[0] # covariance_matrix = (1 / (n_samples-1)) * (X - X.mean(axis=0)).T.dot(Y - Y.mean(axis=0)) # # return np.array(covariance_matrix, dtype=float) # # Path: mlfromscratch/utils/data_operation.py # def calculate_correlation_matrix(X, Y=None): # """ Calculate the correlation matrix for the dataset X """ # if Y is None: # Y = X # n_samples = np.shape(X)[0] # covariance = (1 / n_samples) * (X - X.mean(0)).T.dot(Y - Y.mean(0)) # std_dev_X = np.expand_dims(calculate_std_dev(X), 1) # std_dev_y = np.expand_dims(calculate_std_dev(Y), 1) # correlation_matrix = np.divide(covariance, std_dev_X.dot(std_dev_y.T)) # # return np.array(correlation_matrix, dtype=float) # # Path: mlfromscratch/utils/data_manipulation.py # def standardize(X): # """ Standardize the dataset X """ # X_std = X # mean = X.mean(axis=0) # std = X.std(axis=0) # for col in range(np.shape(X)[1]): # if std[col]: # X_std[:, col] = (X_std[:, col] - mean[col]) / std[col] # # X_std = (X - X.mean(axis=0)) / X.std(axis=0) # return X_std . Output only the next line.
if title:
Given snippet: <|code_start|> from __future__ import print_function, division class Layer(object): def set_input_shape(self, shape): """ Sets the shape that the layer expects of the input in the forward pass method """ self.input_shape = shape def layer_name(self): """ The name of the layer. Used in model summary. """ return self.__class__.__name__ def parameters(self): """ The number of trainable parameters used by the layer """ return 0 def forward_pass(self, X, training): """ Propogates the signal forward in the network """ raise NotImplementedError() def backward_pass(self, accum_grad): """ Propogates the accumulated gradient backwards in the network. If the has trainable weights then these weights are also tuned in this method. As input (accum_grad) it receives the gradient with respect to the output of the layer and returns the gradient with respect to the output of the previous layer. """ <|code_end|> , continue by predicting the next line. Consider current file imports: import math import numpy as np import copy from mlfromscratch.deep_learning.activation_functions import Sigmoid, ReLU, SoftPlus, LeakyReLU from mlfromscratch.deep_learning.activation_functions import TanH, ELU, SELU, Softmax and context: # Path: mlfromscratch/deep_learning/activation_functions.py # class Sigmoid(): # def __call__(self, x): # return 1 / (1 + np.exp(-x)) # # def gradient(self, x): # return self.__call__(x) * (1 - self.__call__(x)) # # class ReLU(): # def __call__(self, x): # return np.where(x >= 0, x, 0) # # def gradient(self, x): # return np.where(x >= 0, 1, 0) # # class SoftPlus(): # def __call__(self, x): # return np.log(1 + np.exp(x)) # # def gradient(self, x): # return 1 / (1 + np.exp(-x)) # # class LeakyReLU(): # def __init__(self, alpha=0.2): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0, x, self.alpha * x) # # def gradient(self, x): # return np.where(x >= 0, 1, self.alpha) # # Path: mlfromscratch/deep_learning/activation_functions.py # class TanH(): # def __call__(self, x): # return 2 / (1 + np.exp(-2*x)) - 1 # # def gradient(self, x): # return 1 - np.power(self.__call__(x), 2) # # class ELU(): # def __init__(self, alpha=0.1): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0.0, x, self.alpha * (np.exp(x) - 1)) # # def gradient(self, x): # return np.where(x >= 0.0, 1, self.__call__(x) + self.alpha) # # class SELU(): # # Reference : https://arxiv.org/abs/1706.02515, # # https://github.com/bioinf-jku/SNNs/blob/master/SelfNormalizingNetworks_MLP_MNIST.ipynb # def __init__(self): # self.alpha = 1.6732632423543772848170429916717 # self.scale = 1.0507009873554804934193349852946 # # def __call__(self, x): # return self.scale * np.where(x >= 0.0, x, self.alpha*(np.exp(x)-1)) # # def gradient(self, x): # return self.scale * np.where(x >= 0.0, 1, self.alpha * np.exp(x)) # # class Softmax(): # def __call__(self, x): # e_x = np.exp(x - np.max(x, axis=-1, keepdims=True)) # return e_x / np.sum(e_x, axis=-1, keepdims=True) # # def gradient(self, x): # p = self.__call__(x) # return p * (1 - p) which might include code, classes, or functions. Output only the next line.
raise NotImplementedError()
Based on the snippet: <|code_start|> from __future__ import print_function, division class Layer(object): def set_input_shape(self, shape): """ Sets the shape that the layer expects of the input in the forward pass method """ self.input_shape = shape def layer_name(self): """ The name of the layer. Used in model summary. """ return self.__class__.__name__ def parameters(self): """ The number of trainable parameters used by the layer """ return 0 def forward_pass(self, X, training): """ Propogates the signal forward in the network """ raise NotImplementedError() def backward_pass(self, accum_grad): """ Propogates the accumulated gradient backwards in the network. If the has trainable weights then these weights are also tuned in this method. As input (accum_grad) it receives the gradient with respect to the output of the layer and returns the gradient with respect to the output of the previous layer. """ raise NotImplementedError() <|code_end|> , predict the immediate next line with the help of imports: import math import numpy as np import copy from mlfromscratch.deep_learning.activation_functions import Sigmoid, ReLU, SoftPlus, LeakyReLU from mlfromscratch.deep_learning.activation_functions import TanH, ELU, SELU, Softmax and context (classes, functions, sometimes code) from other files: # Path: mlfromscratch/deep_learning/activation_functions.py # class Sigmoid(): # def __call__(self, x): # return 1 / (1 + np.exp(-x)) # # def gradient(self, x): # return self.__call__(x) * (1 - self.__call__(x)) # # class ReLU(): # def __call__(self, x): # return np.where(x >= 0, x, 0) # # def gradient(self, x): # return np.where(x >= 0, 1, 0) # # class SoftPlus(): # def __call__(self, x): # return np.log(1 + np.exp(x)) # # def gradient(self, x): # return 1 / (1 + np.exp(-x)) # # class LeakyReLU(): # def __init__(self, alpha=0.2): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0, x, self.alpha * x) # # def gradient(self, x): # return np.where(x >= 0, 1, self.alpha) # # Path: mlfromscratch/deep_learning/activation_functions.py # class TanH(): # def __call__(self, x): # return 2 / (1 + np.exp(-2*x)) - 1 # # def gradient(self, x): # return 1 - np.power(self.__call__(x), 2) # # class ELU(): # def __init__(self, alpha=0.1): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0.0, x, self.alpha * (np.exp(x) - 1)) # # def gradient(self, x): # return np.where(x >= 0.0, 1, self.__call__(x) + self.alpha) # # class SELU(): # # Reference : https://arxiv.org/abs/1706.02515, # # https://github.com/bioinf-jku/SNNs/blob/master/SelfNormalizingNetworks_MLP_MNIST.ipynb # def __init__(self): # self.alpha = 1.6732632423543772848170429916717 # self.scale = 1.0507009873554804934193349852946 # # def __call__(self, x): # return self.scale * np.where(x >= 0.0, x, self.alpha*(np.exp(x)-1)) # # def gradient(self, x): # return self.scale * np.where(x >= 0.0, 1, self.alpha * np.exp(x)) # # class Softmax(): # def __call__(self, x): # e_x = np.exp(x - np.max(x, axis=-1, keepdims=True)) # return e_x / np.sum(e_x, axis=-1, keepdims=True) # # def gradient(self, x): # p = self.__call__(x) # return p * (1 - p) . Output only the next line.
def output_shape(self):
Here is a snippet: <|code_start|> from __future__ import print_function, division class Layer(object): def set_input_shape(self, shape): """ Sets the shape that the layer expects of the input in the forward pass method """ self.input_shape = shape <|code_end|> . Write the next line using the current file imports: import math import numpy as np import copy from mlfromscratch.deep_learning.activation_functions import Sigmoid, ReLU, SoftPlus, LeakyReLU from mlfromscratch.deep_learning.activation_functions import TanH, ELU, SELU, Softmax and context from other files: # Path: mlfromscratch/deep_learning/activation_functions.py # class Sigmoid(): # def __call__(self, x): # return 1 / (1 + np.exp(-x)) # # def gradient(self, x): # return self.__call__(x) * (1 - self.__call__(x)) # # class ReLU(): # def __call__(self, x): # return np.where(x >= 0, x, 0) # # def gradient(self, x): # return np.where(x >= 0, 1, 0) # # class SoftPlus(): # def __call__(self, x): # return np.log(1 + np.exp(x)) # # def gradient(self, x): # return 1 / (1 + np.exp(-x)) # # class LeakyReLU(): # def __init__(self, alpha=0.2): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0, x, self.alpha * x) # # def gradient(self, x): # return np.where(x >= 0, 1, self.alpha) # # Path: mlfromscratch/deep_learning/activation_functions.py # class TanH(): # def __call__(self, x): # return 2 / (1 + np.exp(-2*x)) - 1 # # def gradient(self, x): # return 1 - np.power(self.__call__(x), 2) # # class ELU(): # def __init__(self, alpha=0.1): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0.0, x, self.alpha * (np.exp(x) - 1)) # # def gradient(self, x): # return np.where(x >= 0.0, 1, self.__call__(x) + self.alpha) # # class SELU(): # # Reference : https://arxiv.org/abs/1706.02515, # # https://github.com/bioinf-jku/SNNs/blob/master/SelfNormalizingNetworks_MLP_MNIST.ipynb # def __init__(self): # self.alpha = 1.6732632423543772848170429916717 # self.scale = 1.0507009873554804934193349852946 # # def __call__(self, x): # return self.scale * np.where(x >= 0.0, x, self.alpha*(np.exp(x)-1)) # # def gradient(self, x): # return self.scale * np.where(x >= 0.0, 1, self.alpha * np.exp(x)) # # class Softmax(): # def __call__(self, x): # e_x = np.exp(x - np.max(x, axis=-1, keepdims=True)) # return e_x / np.sum(e_x, axis=-1, keepdims=True) # # def gradient(self, x): # p = self.__call__(x) # return p * (1 - p) , which may include functions, classes, or code. Output only the next line.
def layer_name(self):
Next line prediction: <|code_start|> from __future__ import print_function, division class Layer(object): def set_input_shape(self, shape): """ Sets the shape that the layer expects of the input in the forward pass method """ <|code_end|> . Use current file imports: (import math import numpy as np import copy from mlfromscratch.deep_learning.activation_functions import Sigmoid, ReLU, SoftPlus, LeakyReLU from mlfromscratch.deep_learning.activation_functions import TanH, ELU, SELU, Softmax) and context including class names, function names, or small code snippets from other files: # Path: mlfromscratch/deep_learning/activation_functions.py # class Sigmoid(): # def __call__(self, x): # return 1 / (1 + np.exp(-x)) # # def gradient(self, x): # return self.__call__(x) * (1 - self.__call__(x)) # # class ReLU(): # def __call__(self, x): # return np.where(x >= 0, x, 0) # # def gradient(self, x): # return np.where(x >= 0, 1, 0) # # class SoftPlus(): # def __call__(self, x): # return np.log(1 + np.exp(x)) # # def gradient(self, x): # return 1 / (1 + np.exp(-x)) # # class LeakyReLU(): # def __init__(self, alpha=0.2): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0, x, self.alpha * x) # # def gradient(self, x): # return np.where(x >= 0, 1, self.alpha) # # Path: mlfromscratch/deep_learning/activation_functions.py # class TanH(): # def __call__(self, x): # return 2 / (1 + np.exp(-2*x)) - 1 # # def gradient(self, x): # return 1 - np.power(self.__call__(x), 2) # # class ELU(): # def __init__(self, alpha=0.1): # self.alpha = alpha # # def __call__(self, x): # return np.where(x >= 0.0, x, self.alpha * (np.exp(x) - 1)) # # def gradient(self, x): # return np.where(x >= 0.0, 1, self.__call__(x) + self.alpha) # # class SELU(): # # Reference : https://arxiv.org/abs/1706.02515, # # https://github.com/bioinf-jku/SNNs/blob/master/SelfNormalizingNetworks_MLP_MNIST.ipynb # def __init__(self): # self.alpha = 1.6732632423543772848170429916717 # self.scale = 1.0507009873554804934193349852946 # # def __call__(self, x): # return self.scale * np.where(x >= 0.0, x, self.alpha*(np.exp(x)-1)) # # def gradient(self, x): # return self.scale * np.where(x >= 0.0, 1, self.alpha * np.exp(x)) # # class Softmax(): # def __call__(self, x): # e_x = np.exp(x - np.max(x, axis=-1, keepdims=True)) # return e_x / np.sum(e_x, axis=-1, keepdims=True) # # def gradient(self, x): # p = self.__call__(x) # return p * (1 - p) . Output only the next line.
self.input_shape = shape
Here is a snippet: <|code_start|> custom_urls = patterns('', url(r'^$', custom.index, name="index"), url(r'^login/$', custom.login_page, name="login"), url(r'^logout/$', custom.logout_admin, name="logout"), url(r'^sys_info/$', custom.sys_info, name="sys_info"), url(r'^documents_stats/$', stats.documents_stats, name="documents_stats"), url(r'^stats/status/$', stats.get_stats_status, name="get_stats_status"), url(r'^stats/start/$', stats.start_stats, name="start_stats"), <|code_end|> . Write the next line using the current file imports: from django.conf.urls import url, patterns, include from cntapp.views import views, custom, stats and context from other files: # Path: cntapp/views/custom.py # def index(request): # def login_page(request): # def logout_admin(request): # def sys_info(request): , which may include functions, classes, or code. Output only the next line.
url(r'^stats/$', stats.stats, name="stats"),
Given the code snippet: <|code_start|> class ModelsHelpersTest(TestCase): def test_get_url_by_path(self): init_test_dirs() d = get_dir_by_path('a/ab_a/ab_a_a') <|code_end|> , generate the next line using the imports in this file: from django.test import TestCase from cntapp.tests.helpers import init_test_dirs from cntapp.helpers import get_dir_by_path and context (functions, classes, or occasionally code) from other files: # Path: cntapp/tests/helpers.py # def init_test_dirs(): # """ # create the dir graph: # a b c # \ | | # ab_a / # / \ / # ab_a_a ab_a_b # """ # a = create_dir('a') # b = create_dir('b') # c = create_dir('c') # ab_a = create_dir('ab_a') # ab_a_a = create_dir('ab_a_a') # ab_a_b = create_dir('ab_a_b') # # a.add_sub_dir(ab_a) # b.add_sub_dir(ab_a) # ab_a.add_sub_dir(ab_a_a).add_sub_dir(ab_a_b) # c.add_sub_dir(ab_a_b) . Output only the next line.
self.assertEqual('ab_a_a', d.name)
Based on the snippet: <|code_start|> def index(request): user = request.user if user is not None and user.is_superuser and user.is_authenticated(): return render(request, 'cntapp/custom/index.html') else: return HttpResponseRedirect(reverse('cntapp:login')) def login_page(request): if request.method != 'POST': return render(request, 'cntapp/custom/login.html') try: username = request.POST['username'] password = request.POST['password'] user = authenticate(username=username, password=password) if user is not None: if user.is_active: login(request, user) return HttpResponseRedirect(reverse('cntapp:index')) else: # the user is not authenticated with the given username and password return HttpResponseRedirect(reverse('cntapp:login')) except Exception as e: return HttpResponseRedirect(reverse('cntapp:login')) <|code_end|> , predict the immediate next line with the help of imports: import subprocess from django.shortcuts import render from django.core.urlresolvers import reverse from django.http import HttpResponseRedirect, JsonResponse from django.contrib.auth import authenticate, login, logout from django.conf import settings from edupi import VERSION from cntapp.models import Document, Directory and context (classes, functions, sometimes code) from other files: # Path: cntapp/models.py # class Document(models.Model): # TYPE_VIDEO = 'v' # TYPE_PDF = 'p' # TYPE_IMAGE = 'i' # TYPE_AUDIO = 'a' # TYPE_GOOGLE_APK = 'g' # for google ;) # TYPE_OTHERS = 'o' # TYPES = ( # (TYPE_VIDEO, 'video'), # (TYPE_AUDIO, 'sound'), # (TYPE_PDF, 'pdf'), # (TYPE_GOOGLE_APK, 'google_apk'), # (TYPE_IMAGE, 'image'), # (TYPE_OTHERS, 'others'), # ) # # name = models.CharField(max_length=100) # type = models.CharField(max_length=2, choices=TYPES, blank=True) # description = models.CharField(max_length=250, blank=True) # file = models.FileField() # thumbnail = ProcessedImageField(upload_to='thumbnails', blank=True, null=True, # processors=[ResizeToFill(150, 150)], # format='PNG', # options={'quality': 50}) # # def __str__(self): # return self.name # # class Directory(models.Model): # MAX_NAME_LEN = 255 # name = models.CharField(max_length=MAX_NAME_LEN) # documents = models.ManyToManyField(Document, blank=True) # sub_dirs = models.ManyToManyField( # 'self', # blank=True, # symmetrical=False, # through='SubDirRelation', # through_fields=('parent', 'child')) # # def get_sub_dirs(self): # return self.sub_dirs.all() # # def get_sub_dir_by_name(self, name): # dirs = self.get_sub_dirs() # return dirs.get(name=name) # # def get_parents(self): # return self.directory_set.all() # # def get_paths(self): # """ return paths recursively # """ # parents = self.get_parents() # if parents.count() == 0: # return [[self]] # # paths = [] # for p in parents: # p_paths = p.get_paths() # for p_path in p_paths: # p_path.append(self) # paths.extend(p_paths) # return paths # # def add_sub_dir(self, sub_dir): # if len(SubDirRelation.objects.filter(parent=self, child=sub_dir)) > 0: # logger.warn('SubDirRelation already exists between parent_id=%d and child_id=%d' % ( # self.id, sub_dir.id)) # return self # SubDirRelation.objects.create(parent=self, child=sub_dir) # return self # # @transaction.atomic # def remove_sub_dir(self, sub_dir): # """ Remove recursively a sub directory. # # Delete the directories that have only one parent. # Only delete the parent-child relation for the directories that have multiple parents.""" # l = SubDirRelation.objects.get(parent=self, child=sub_dir) # l.delete() # if len(sub_dir.get_parents()) == 0: # for d in sub_dir.get_sub_dirs(): # sub_dir.remove_sub_dir(d) # Directory.objects.get(pk=sub_dir.pk).delete() # # def unlink_sub_dir(self, sub_dir): # try: # l = SubDirRelation.objects.get(parent=self, child=sub_dir) # l.delete() # return True # except models.ObjectDoesNotExist as e: # logger.warn('No SubDirRelation found between parent_id=%d and child_id=%d: %s' % ( # self.id, sub_dir.id, e # )) # return False # # def __str__(self): # return self.name . Output only the next line.
def logout_admin(request):
Given snippet: <|code_start|> def index(request): user = request.user if user is not None and user.is_superuser and user.is_authenticated(): return render(request, 'cntapp/custom/index.html') else: return HttpResponseRedirect(reverse('cntapp:login')) def login_page(request): if request.method != 'POST': return render(request, 'cntapp/custom/login.html') try: username = request.POST['username'] password = request.POST['password'] user = authenticate(username=username, password=password) if user is not None: if user.is_active: login(request, user) <|code_end|> , continue by predicting the next line. Consider current file imports: import subprocess from django.shortcuts import render from django.core.urlresolvers import reverse from django.http import HttpResponseRedirect, JsonResponse from django.contrib.auth import authenticate, login, logout from django.conf import settings from edupi import VERSION from cntapp.models import Document, Directory and context: # Path: cntapp/models.py # class Document(models.Model): # TYPE_VIDEO = 'v' # TYPE_PDF = 'p' # TYPE_IMAGE = 'i' # TYPE_AUDIO = 'a' # TYPE_GOOGLE_APK = 'g' # for google ;) # TYPE_OTHERS = 'o' # TYPES = ( # (TYPE_VIDEO, 'video'), # (TYPE_AUDIO, 'sound'), # (TYPE_PDF, 'pdf'), # (TYPE_GOOGLE_APK, 'google_apk'), # (TYPE_IMAGE, 'image'), # (TYPE_OTHERS, 'others'), # ) # # name = models.CharField(max_length=100) # type = models.CharField(max_length=2, choices=TYPES, blank=True) # description = models.CharField(max_length=250, blank=True) # file = models.FileField() # thumbnail = ProcessedImageField(upload_to='thumbnails', blank=True, null=True, # processors=[ResizeToFill(150, 150)], # format='PNG', # options={'quality': 50}) # # def __str__(self): # return self.name # # class Directory(models.Model): # MAX_NAME_LEN = 255 # name = models.CharField(max_length=MAX_NAME_LEN) # documents = models.ManyToManyField(Document, blank=True) # sub_dirs = models.ManyToManyField( # 'self', # blank=True, # symmetrical=False, # through='SubDirRelation', # through_fields=('parent', 'child')) # # def get_sub_dirs(self): # return self.sub_dirs.all() # # def get_sub_dir_by_name(self, name): # dirs = self.get_sub_dirs() # return dirs.get(name=name) # # def get_parents(self): # return self.directory_set.all() # # def get_paths(self): # """ return paths recursively # """ # parents = self.get_parents() # if parents.count() == 0: # return [[self]] # # paths = [] # for p in parents: # p_paths = p.get_paths() # for p_path in p_paths: # p_path.append(self) # paths.extend(p_paths) # return paths # # def add_sub_dir(self, sub_dir): # if len(SubDirRelation.objects.filter(parent=self, child=sub_dir)) > 0: # logger.warn('SubDirRelation already exists between parent_id=%d and child_id=%d' % ( # self.id, sub_dir.id)) # return self # SubDirRelation.objects.create(parent=self, child=sub_dir) # return self # # @transaction.atomic # def remove_sub_dir(self, sub_dir): # """ Remove recursively a sub directory. # # Delete the directories that have only one parent. # Only delete the parent-child relation for the directories that have multiple parents.""" # l = SubDirRelation.objects.get(parent=self, child=sub_dir) # l.delete() # if len(sub_dir.get_parents()) == 0: # for d in sub_dir.get_sub_dirs(): # sub_dir.remove_sub_dir(d) # Directory.objects.get(pk=sub_dir.pk).delete() # # def unlink_sub_dir(self, sub_dir): # try: # l = SubDirRelation.objects.get(parent=self, child=sub_dir) # l.delete() # return True # except models.ObjectDoesNotExist as e: # logger.warn('No SubDirRelation found between parent_id=%d and child_id=%d: %s' % ( # self.id, sub_dir.id, e # )) # return False # # def __str__(self): # return self.name which might include code, classes, or functions. Output only the next line.
return HttpResponseRedirect(reverse('cntapp:index'))
Here is a snippet: <|code_start|>#!/usr/bin/env python from __future__ import absolute_import, division, print_function, unicode_literals def _extract_gates(x): r = x.reshape((len(x), x.shape[1] // 4, 4) + x.shape[2:]) return [r[:, :, i] for i in six.moves.range(4)] def _sigmoid(x): half = x.dtype.type(0.5) return numpy.tanh(x * half) * half + half def _grad_sigmoid(x): return x * (1 - x) def _grad_tanh(x): return 1 - x * x <|code_end|> . Write the next line using the current file imports: import numpy import six import numpy import six import chainer from chainer import cuda from chainer import function from chainer.utils import type_check from chainer import cuda from chainer.functions import lstm from chainer.functions.array import concat from chainer.functions.array import split_axis from chainer import initializers from chainer import link from chainer.links.connection import linear from chainer import variable from nmt_chainer.additional_links.layer_normalization import LayerNormalizationLink as LayerNormalization and context from other files: # Path: nmt_chainer/additional_links/layer_normalization.py # class LayerNormalizationLink(link.Link): # # """Layer normalization layer on outputs of linear functions. # This link implements a "layer normalization" layer # which normalizes the input units by statistics # that are computed along the second axis, # scales and shifts them. # Parameter initialization will be deferred until # the first forward data pass at which time the size will be determined. # Args: # size (int): Size of input units. If ``None``, parameter initialization # will be deferred until the first forward data pass at which time # the size will be determined. # eps (float): Epsilon value for numerical stability of normalization. # initial_gamma (~chainer.Initializer): Initializer for scaling vector. # If ``None``, then the vector is filled by 1. # If a scalar, the vector is filled by it. # If ``numpy.ndarray``, the vector is set by it. # initial_beta (~chainer.Initializer): Initializer for shifting vector. # If ``None``, then the vector is filled by 0. # If a scalar, the vector is filled by it. # If ``numpy.ndarray``, the vector is set by it. # Attributes: # gamma (~chainer.Parameter): Scaling parameter. # beta (~chainer.Parameter): Shifting parameter. # eps (float): Epsilon value for numerical stability. # See: `Layer Normalization <https://arxiv.org/abs/1607.06450>`_ # """ # # def __init__(self, size=None, eps=1e-6, initial_gamma=None, # initial_beta=None): # super(LayerNormalizationLink, self).__init__() # self.add_uninitialized_param('gamma') # self.add_uninitialized_param('beta') # if initial_gamma is None: # initial_gamma = initializers.One() # self._gamma_initializer = initial_gamma # if initial_beta is None: # initial_beta = initializers.Zero() # self._beta_initializer = initial_beta # self.eps = eps # # if size is not None: # self._initialize_params(size) # # def _initialize_params(self, size): # self.add_param('gamma', (1,size)) # initializers.init_weight(self.gamma.data, self._gamma_initializer) # self.add_param('beta', (1,size)) # initializers.init_weight(self.beta.data, self._beta_initializer) # # def __call__(self, x): # """Apply layer normalization to given input. # Args: # x (~chainer.Variable): Batch vectors. # Shape of this value must be `(batch_size, unit_size)`, # e.g., the output of :func:`~chainer.functions.linear`. # Returns: # ~chainer.Variable: Output of the layer normalization. # """ # # if self.gamma.data is None: # # self._initialize_params(x.size // x.shape[0]) # # if self.has_uninitialized_params: # with cuda.get_device_from_id(self._device_id): # self._initialize_params(x.size // x.shape[0]) # # return layer_normalization( # x, self.gamma, self.beta, self.eps) , which may include functions, classes, or code. Output only the next line.
_preamble = '''
Given the code snippet: <|code_start|> if pdb._user_requested_quit: break print("The program finished and will be restarted") except pdb_module.Restart: print("Restarting with arguments:") print("\t" + " ".join(sys.argv[1:])) except SystemExit: # In most cases SystemExit does not warrant a post-mortem session. print("The program exited via sys.exit(). Exit status: ",) print(sys.exc_info()[1]) except SyntaxError: traceback.print_exc() sys.exit(1) except BaseException: traceback.print_exc() print("Uncaught exception. Entering post mortem debugging") print("Running 'cont' or 'step' will restart the program") t = sys.exc_info()[2] pdb.interaction(None, t) print("Post mortem debugger finished. The program will be restarted") def main(arguments=None): # create the top-level parser parser = argparse.ArgumentParser(description="Kyoto-NMT: an Implementation of the RNNSearch model", formatter_class=argparse.ArgumentDefaultsHelpFormatter, prog="knmt") parser.add_argument("--run_in_pdb", default=False, action="store_true", help="run knmt in pdb (python debugger)") <|code_end|> , generate the next line using the imports in this file: import argparse import nmt_chainer.training_module.train_config as train import nmt_chainer.translation.eval_config as eval_module import nmt_chainer.dataprocessing.make_data_conf as make_data import nmt_chainer.utilities.utils_command as utils_command import sys import argcomplete import ipdb as pdb import pdb import ipdb import pdb import signal import pdb as pdb_module import sys import traceback import ipdb import cProfile from nmt_chainer.utilities import versioning_tools and context (functions, classes, or occasionally code) from other files: # Path: nmt_chainer/utilities/versioning_tools.py # def get_installed_path(): # def get_current_git_hash(): # def get_current_git_diff(): # def is_current_git_dirty(): # def get_chainer_infos(): # def get_package_git_hash(): # def get_package_dirty_status(): # def get_package_git_diff(): # def get_version_dict(): # def main(options=None): # DEVNULL = open(os.devnull, 'wb') . Output only the next line.
parser.add_argument("--run_in_cprofile", default=False, action="store_true", help="run knmt in cProfile")
Based on the snippet: <|code_start|># def make_batch_mask(mb_size, n_head, max_length_1, max_length_2, key_seq_lengths=None, future_mask=False, mask_value=-10000): if future_mask: assert max_length_1 == max_length_2 mask = np.array( np.broadcast_to(( (-mask_value) * (np.tri(max_length_1, dtype = np.float32)-1))[None,None,:,:], (mb_size, n_head, max_length_1, max_length_2)) ) else: mask = np.zeros((mb_size, n_head, max_length_1, max_length_2), dtype = np.float32) if key_seq_lengths is not None: assert mb_size == len(key_seq_lengths) assert min(key_seq_lengths) > 0 assert max(key_seq_lengths) <= max_length_2 for num_batch, length in enumerate(key_seq_lengths): mask[num_batch, :, :, length:] = mask_value return mask def pad_data(data, pad_value=0, add_eos=None): mb_size = len(data) padded_length = max(len(x) for x in data) if add_eos is not None: padded_length += 1 <|code_end|> , predict the immediate next line with the help of imports: import chainer import numpy as np import chainer.functions as F import chainer.links as L from chainer import Variable, Chain, ChainList from nmt_chainer.additional_links.layer_normalization import get_layer_normalization_class and context (classes, functions, sometimes code) from other files: # Path: nmt_chainer/additional_links/layer_normalization.py # def get_layer_normalization_class(): # global use_chainer_layer_normalization # if use_chainer_layer_normalization: # return L.LayerNormalization # else: # log.info("using faster LayerNormalization") # return LayerNormalizationLink . Output only the next line.
padded_array = np.zeros((mb_size, padded_length), dtype=np.int32)
Given the code snippet: <|code_start|> def get_parse_option_orderer(): description_to_config_section = dict((v, k) for (k, v) in six.iteritems(_CONFIG_SECTION_TO_DESCRIPTION)) por = argument_parsing_tools.ParseOptionRecorder(group_title_to_section=description_to_config_section, ignore_positional_arguments=set(["save_prefix", "data_prefix"])) define_parser(por) return por def make_data_config(args): parse_option_orderer = get_parse_option_orderer() config = parse_option_orderer.convert_args_to_ordered_dict(args) config.add_metadata_infos(1.0, overwrite=True) config.set_readonly() if config["data"]["src_fn"] is None or config["data"]["tgt_fn"] is None or config["data"]["save_prefix"] is None: raise CommandLineValuesException("src_fn, tgt_fn and save_prefix need to be set either on the command line or in a config file") if not ((config.data.test_src is None) == (config.data.test_tgt is None)): raise CommandLineValuesException( "Command Line Error: either specify both --test_src and --test_tgt or neither") if not ((config.data.dev_src is None) == (config.data.dev_tgt is None)): raise CommandLineValuesException("Command Line Error: either specify both --dev_src and --dev_tgt or neither") if config.processing.joint_bpe is not None and (config.processing.bpe_src is not None or config.processing.bpe_tgt is not None): raise CommandLineValuesException("Command Line Error: --joint_bpe is incompatible with --bpe_src and --bpe_tgt") return config <|code_end|> , generate the next line using the imports in this file: from nmt_chainer.utilities import argument_parsing_tools import logging import six import sys import argparse import nmt_chainer.dataprocessing.make_data and context (functions, classes, or occasionally code) from other files: # Path: nmt_chainer/utilities/argument_parsing_tools.py # class OrderedNamespace(OrderedDict): # class ParseOptionRecorder(object): # class ParserWithNoneDefaultAndNoGroup(object): # class ArgumentActionNotOverwriteWithNone(argparse.Action): # def __init__(self, *args, **kwargs): # def set_readonly(self): # def __setitem__(self, *args, **kwargs): # def __getattr__(self, key): # def save_to(self, filename): # def load_from(cls, filename): # def convert_to_ordered_namespace(cls, ordered_dict): # def update_recursive(self, other, valid_keys, add_absent_keys=False): # def pretty_print(self, indent=4, discard_section=("metadata",)): # def copy(self, readonly=None): # def add_section(self, name, keep_at_bottom=None, overwrite=False): # def insert_section(self, name, content, even_if_readonly=False, keep_at_bottom=None, overwrite=False): # def add_metadata_infos(self, version_num, overwrite=False): # def set_metadata_modified_time(self): # def __init__(self, name=None, group_title_to_section=None, ignore_positional_arguments=set()): # def add_argument(self, argument_name, *args, **kwargs): # def add_argument_group(self, title, desc=None): # def convert_args_to_ordered_dict(self, args, args_is_namespace=True): # def __init__(self): # def add_argument(self, *args, **kwargs): # def add_argument_group(self, *args, **kwargs): # def get_args_given(self, arglist): # def __call__(self, parser, namespace, values, option_string=None): . Output only the next line.
def load_config(filename):
Given snippet: <|code_start|>from __future__ import absolute_import, division, print_function, unicode_literals # from nmt_chainer.models import char_encdec def define_parser(parser): subparsers = parser.add_subparsers(dest="__sub_subcommand_name") graph_parser = subparsers.add_parser('graph', description="Create a graph of the training data.", help="Create a graph of the training data.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) graph_training.define_parser(graph_parser) replace_tgt_parser = subparsers.add_parser('replace_tgt_unk', description="Replace UNK tags using a dictionnary.", help="Replace UNK tags using a dictionnary.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) replace_tgt_unk.define_parser(replace_tgt_parser) recap_parser = subparsers.add_parser('recap', description="Generate recap of experiments.", help="Generate recap of experimets.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) expe_recap.define_parser(recap_parser) <|code_end|> , continue by predicting the next line. Consider current file imports: import argparse from nmt_chainer.utilities import graph_training from nmt_chainer.utilities import replace_tgt_unk from nmt_chainer.utilities import expe_recap from nmt_chainer.utilities import bleu_computer from nmt_chainer.utilities import extract_processed_data and context: # Path: nmt_chainer/utilities/graph_training.py # def build_prefix_list(lst, op=max): # def define_parser(parser): # def do_graph(args): # def commandline(): # def none_safe_op(op): # def safe_op(x, y): # def generate_graph(sqldb, dest, title="Training Evolution"): # # Path: nmt_chainer/utilities/replace_tgt_unk.py # def replace_unk_from_string(translation_str, src_str, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def replace_unk(translations, src_file, dest, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def define_parser(parser): # def do_replace(args): # def commandline(): # # Path: nmt_chainer/utilities/expe_recap.py # def filenamize(path): # def process_eval_config(config_fn, dest_dir): # def process_data_config(config_fn, dest_dir, data_to_train): # def process_train_config(config_fn, dest_dir): # def define_parser(parser): # def do_recap(args): # def commandline(): # # Path: nmt_chainer/utilities/bleu_computer.py # class BleuComputer(object): # def __init__(self): # def copy(self): # def __repr__(self): # def bleu(self): # def bleu_plus_alpha(self, alpha=1.0): # def update(self, reference, translation): # def update_plus(self, diff): # def update_minus(self, diff): # def compute_ngram_info(sentence): # def compute_update_diff_from__infos(reference_info, translation_info): # def compute_update_diff(reference, translation): # def sample_bleu(ref_fn, trans_fn): # def get_bc_from_files(ref_fn, trans_fn): # def compute_confidence_interval_from_sampler(bleu_sampler, nb_resampling, confidence_interval=0.95): # def compute_pairwise_superiority_from_sampler_pair(bleu_sampler, other_bleu_sampler, nb_resampling): # def define_parser(parser): # def do_bleu(args): # def command_line(): # # Path: nmt_chainer/utilities/extract_processed_data.py # def define_parser(parser): # def do_extract(args): which might include code, classes, or functions. Output only the next line.
bleu_parser = subparsers.add_parser('bleu', description="Compute BLEU score.",
Next line prediction: <|code_start|> help="Create a graph of the training data.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) graph_training.define_parser(graph_parser) replace_tgt_parser = subparsers.add_parser('replace_tgt_unk', description="Replace UNK tags using a dictionnary.", help="Replace UNK tags using a dictionnary.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) replace_tgt_unk.define_parser(replace_tgt_parser) recap_parser = subparsers.add_parser('recap', description="Generate recap of experiments.", help="Generate recap of experimets.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) expe_recap.define_parser(recap_parser) bleu_parser = subparsers.add_parser('bleu', description="Compute BLEU score.", help="Compute BLEU score.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) bleu_computer.define_parser(bleu_parser) # charenc_parser = subparsers.add_parser('charenc', description="Compute CharEnc.", # help="Compute CharEnc.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) # char_encdec.define_parser(charenc_parser) extract_data_parser = subparsers.add_parser('extract_data', description="Extract processed data.", help="Extract processed data.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) extract_processed_data.define_parser(extract_data_parser) def do_utils(args): func = {"graph": graph_training.do_graph, "replace_tgt_unk": replace_tgt_unk.do_replace, "recap": expe_recap.do_recap, "bleu": bleu_computer.do_bleu, # "charenc": char_encdec.do_command, "extract_data": extract_processed_data.do_extract <|code_end|> . Use current file imports: (import argparse from nmt_chainer.utilities import graph_training from nmt_chainer.utilities import replace_tgt_unk from nmt_chainer.utilities import expe_recap from nmt_chainer.utilities import bleu_computer from nmt_chainer.utilities import extract_processed_data) and context including class names, function names, or small code snippets from other files: # Path: nmt_chainer/utilities/graph_training.py # def build_prefix_list(lst, op=max): # def define_parser(parser): # def do_graph(args): # def commandline(): # def none_safe_op(op): # def safe_op(x, y): # def generate_graph(sqldb, dest, title="Training Evolution"): # # Path: nmt_chainer/utilities/replace_tgt_unk.py # def replace_unk_from_string(translation_str, src_str, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def replace_unk(translations, src_file, dest, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def define_parser(parser): # def do_replace(args): # def commandline(): # # Path: nmt_chainer/utilities/expe_recap.py # def filenamize(path): # def process_eval_config(config_fn, dest_dir): # def process_data_config(config_fn, dest_dir, data_to_train): # def process_train_config(config_fn, dest_dir): # def define_parser(parser): # def do_recap(args): # def commandline(): # # Path: nmt_chainer/utilities/bleu_computer.py # class BleuComputer(object): # def __init__(self): # def copy(self): # def __repr__(self): # def bleu(self): # def bleu_plus_alpha(self, alpha=1.0): # def update(self, reference, translation): # def update_plus(self, diff): # def update_minus(self, diff): # def compute_ngram_info(sentence): # def compute_update_diff_from__infos(reference_info, translation_info): # def compute_update_diff(reference, translation): # def sample_bleu(ref_fn, trans_fn): # def get_bc_from_files(ref_fn, trans_fn): # def compute_confidence_interval_from_sampler(bleu_sampler, nb_resampling, confidence_interval=0.95): # def compute_pairwise_superiority_from_sampler_pair(bleu_sampler, other_bleu_sampler, nb_resampling): # def define_parser(parser): # def do_bleu(args): # def command_line(): # # Path: nmt_chainer/utilities/extract_processed_data.py # def define_parser(parser): # def do_extract(args): . Output only the next line.
}[args.__sub_subcommand_name]
Here is a snippet: <|code_start|>from __future__ import absolute_import, division, print_function, unicode_literals # from nmt_chainer.models import char_encdec def define_parser(parser): subparsers = parser.add_subparsers(dest="__sub_subcommand_name") graph_parser = subparsers.add_parser('graph', description="Create a graph of the training data.", help="Create a graph of the training data.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) graph_training.define_parser(graph_parser) replace_tgt_parser = subparsers.add_parser('replace_tgt_unk', description="Replace UNK tags using a dictionnary.", help="Replace UNK tags using a dictionnary.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) replace_tgt_unk.define_parser(replace_tgt_parser) <|code_end|> . Write the next line using the current file imports: import argparse from nmt_chainer.utilities import graph_training from nmt_chainer.utilities import replace_tgt_unk from nmt_chainer.utilities import expe_recap from nmt_chainer.utilities import bleu_computer from nmt_chainer.utilities import extract_processed_data and context from other files: # Path: nmt_chainer/utilities/graph_training.py # def build_prefix_list(lst, op=max): # def define_parser(parser): # def do_graph(args): # def commandline(): # def none_safe_op(op): # def safe_op(x, y): # def generate_graph(sqldb, dest, title="Training Evolution"): # # Path: nmt_chainer/utilities/replace_tgt_unk.py # def replace_unk_from_string(translation_str, src_str, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def replace_unk(translations, src_file, dest, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def define_parser(parser): # def do_replace(args): # def commandline(): # # Path: nmt_chainer/utilities/expe_recap.py # def filenamize(path): # def process_eval_config(config_fn, dest_dir): # def process_data_config(config_fn, dest_dir, data_to_train): # def process_train_config(config_fn, dest_dir): # def define_parser(parser): # def do_recap(args): # def commandline(): # # Path: nmt_chainer/utilities/bleu_computer.py # class BleuComputer(object): # def __init__(self): # def copy(self): # def __repr__(self): # def bleu(self): # def bleu_plus_alpha(self, alpha=1.0): # def update(self, reference, translation): # def update_plus(self, diff): # def update_minus(self, diff): # def compute_ngram_info(sentence): # def compute_update_diff_from__infos(reference_info, translation_info): # def compute_update_diff(reference, translation): # def sample_bleu(ref_fn, trans_fn): # def get_bc_from_files(ref_fn, trans_fn): # def compute_confidence_interval_from_sampler(bleu_sampler, nb_resampling, confidence_interval=0.95): # def compute_pairwise_superiority_from_sampler_pair(bleu_sampler, other_bleu_sampler, nb_resampling): # def define_parser(parser): # def do_bleu(args): # def command_line(): # # Path: nmt_chainer/utilities/extract_processed_data.py # def define_parser(parser): # def do_extract(args): , which may include functions, classes, or code. Output only the next line.
recap_parser = subparsers.add_parser('recap', description="Generate recap of experiments.",
Continue the code snippet: <|code_start|>from __future__ import absolute_import, division, print_function, unicode_literals # from nmt_chainer.models import char_encdec def define_parser(parser): subparsers = parser.add_subparsers(dest="__sub_subcommand_name") <|code_end|> . Use current file imports: import argparse from nmt_chainer.utilities import graph_training from nmt_chainer.utilities import replace_tgt_unk from nmt_chainer.utilities import expe_recap from nmt_chainer.utilities import bleu_computer from nmt_chainer.utilities import extract_processed_data and context (classes, functions, or code) from other files: # Path: nmt_chainer/utilities/graph_training.py # def build_prefix_list(lst, op=max): # def define_parser(parser): # def do_graph(args): # def commandline(): # def none_safe_op(op): # def safe_op(x, y): # def generate_graph(sqldb, dest, title="Training Evolution"): # # Path: nmt_chainer/utilities/replace_tgt_unk.py # def replace_unk_from_string(translation_str, src_str, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def replace_unk(translations, src_file, dest, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def define_parser(parser): # def do_replace(args): # def commandline(): # # Path: nmt_chainer/utilities/expe_recap.py # def filenamize(path): # def process_eval_config(config_fn, dest_dir): # def process_data_config(config_fn, dest_dir, data_to_train): # def process_train_config(config_fn, dest_dir): # def define_parser(parser): # def do_recap(args): # def commandline(): # # Path: nmt_chainer/utilities/bleu_computer.py # class BleuComputer(object): # def __init__(self): # def copy(self): # def __repr__(self): # def bleu(self): # def bleu_plus_alpha(self, alpha=1.0): # def update(self, reference, translation): # def update_plus(self, diff): # def update_minus(self, diff): # def compute_ngram_info(sentence): # def compute_update_diff_from__infos(reference_info, translation_info): # def compute_update_diff(reference, translation): # def sample_bleu(ref_fn, trans_fn): # def get_bc_from_files(ref_fn, trans_fn): # def compute_confidence_interval_from_sampler(bleu_sampler, nb_resampling, confidence_interval=0.95): # def compute_pairwise_superiority_from_sampler_pair(bleu_sampler, other_bleu_sampler, nb_resampling): # def define_parser(parser): # def do_bleu(args): # def command_line(): # # Path: nmt_chainer/utilities/extract_processed_data.py # def define_parser(parser): # def do_extract(args): . Output only the next line.
graph_parser = subparsers.add_parser('graph', description="Create a graph of the training data.",
Using the snippet: <|code_start|>from __future__ import absolute_import, division, print_function, unicode_literals # from nmt_chainer.models import char_encdec def define_parser(parser): subparsers = parser.add_subparsers(dest="__sub_subcommand_name") graph_parser = subparsers.add_parser('graph', description="Create a graph of the training data.", help="Create a graph of the training data.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) graph_training.define_parser(graph_parser) replace_tgt_parser = subparsers.add_parser('replace_tgt_unk', description="Replace UNK tags using a dictionnary.", help="Replace UNK tags using a dictionnary.", formatter_class=argparse.ArgumentDefaultsHelpFormatter) replace_tgt_unk.define_parser(replace_tgt_parser) recap_parser = subparsers.add_parser('recap', description="Generate recap of experiments.", <|code_end|> , determine the next line of code. You have imports: import argparse from nmt_chainer.utilities import graph_training from nmt_chainer.utilities import replace_tgt_unk from nmt_chainer.utilities import expe_recap from nmt_chainer.utilities import bleu_computer from nmt_chainer.utilities import extract_processed_data and context (class names, function names, or code) available: # Path: nmt_chainer/utilities/graph_training.py # def build_prefix_list(lst, op=max): # def define_parser(parser): # def do_graph(args): # def commandline(): # def none_safe_op(op): # def safe_op(x, y): # def generate_graph(sqldb, dest, title="Training Evolution"): # # Path: nmt_chainer/utilities/replace_tgt_unk.py # def replace_unk_from_string(translation_str, src_str, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def replace_unk(translations, src_file, dest, dic_fn, remove_unk, normalize_unicode_unk, # attempt_to_relocate_unk_source): # def define_parser(parser): # def do_replace(args): # def commandline(): # # Path: nmt_chainer/utilities/expe_recap.py # def filenamize(path): # def process_eval_config(config_fn, dest_dir): # def process_data_config(config_fn, dest_dir, data_to_train): # def process_train_config(config_fn, dest_dir): # def define_parser(parser): # def do_recap(args): # def commandline(): # # Path: nmt_chainer/utilities/bleu_computer.py # class BleuComputer(object): # def __init__(self): # def copy(self): # def __repr__(self): # def bleu(self): # def bleu_plus_alpha(self, alpha=1.0): # def update(self, reference, translation): # def update_plus(self, diff): # def update_minus(self, diff): # def compute_ngram_info(sentence): # def compute_update_diff_from__infos(reference_info, translation_info): # def compute_update_diff(reference, translation): # def sample_bleu(ref_fn, trans_fn): # def get_bc_from_files(ref_fn, trans_fn): # def compute_confidence_interval_from_sampler(bleu_sampler, nb_resampling, confidence_interval=0.95): # def compute_pairwise_superiority_from_sampler_pair(bleu_sampler, other_bleu_sampler, nb_resampling): # def define_parser(parser): # def do_bleu(args): # def command_line(): # # Path: nmt_chainer/utilities/extract_processed_data.py # def define_parser(parser): # def do_extract(args): . Output only the next line.
help="Generate recap of experimets.", formatter_class=argparse.ArgumentDefaultsHelpFormatter)
Next line prediction: <|code_start|> class BasePostFeedMixin(): title = "Latest Startup Organizer Blog Posts" link = reverse_lazy('blog_post_list') description = subtitle = ( "Stay up to date on the " "hottest startup news.") def items(self): # uses Post.Meta.ordering return Post.objects.published()[:10] def item_title(self, item): return item.formatted_title() def item_description(self, item): return item.short_text() def item_link(self, item): return item.get_absolute_url() class AtomPostFeed(BasePostFeedMixin, Feed): feed_type = Atom1Feed <|code_end|> . Use current file imports: (from datetime import datetime from django.contrib.syndication.views import Feed from django.core.urlresolvers import reverse_lazy from django.utils.feedgenerator import ( Atom1Feed, Rss201rev2Feed) from .models import Post) and context including class names, function names, or small code snippets from other files: # Path: blog/models.py # class Post(models.Model): # title = models.CharField(max_length=63) # slug = models.SlugField( # max_length=63, # help_text='A label for URL config', # unique_for_month='pub_date') # author = models.ForeignKey( # settings.AUTH_USER_MODEL, # related_name='blog_posts') # text = models.TextField() # pub_date = models.DateField( # 'date published', # auto_now_add=True) # tags = models.ManyToManyField( # Tag, # blank=True, # related_name='blog_posts') # startups = models.ManyToManyField( # Startup, # blank=True, # related_name='blog_posts') # # objects = PostManager() # # class Meta: # verbose_name = 'blog post' # ordering = ['-pub_date', 'title'] # get_latest_by = 'pub_date' # permissions = ( # ("view_future_post", # "Can view unpublished Post"), # ) # index_together = ( # ('slug', 'pub_date'), # ) # # def __str__(self): # return "{} on {}".format( # self.title, # self.pub_date.strftime('%Y-%m-%d')) # # def get_absolute_url(self): # return reverse( # 'blog_post_detail', # kwargs={'year': self.pub_date.year, # 'month': self.pub_date.month, # 'slug': self.slug}) # # def get_archive_month_url(self): # return reverse( # 'blog_post_archive_month', # kwargs={'year': self.pub_date.year, # 'month': self.pub_date.month}) # # def get_archive_year_url(self): # return reverse( # 'blog_post_archive_year', # kwargs={'year': self.pub_date.year}) # # def get_delete_url(self): # return reverse( # 'blog_post_delete', # kwargs={'year': self.pub_date.year, # 'month': self.pub_date.month, # 'slug': self.slug}) # # def get_update_url(self): # return reverse( # 'blog_post_update', # kwargs={'year': self.pub_date.year, # 'month': self.pub_date.month, # 'slug': self.slug}) # # def natural_key(self): # return ( # self.pub_date, # self.slug) # natural_key.dependencies = [ # 'organizer.startup', # 'organizer.tag', # 'user.user', # ] # # def formatted_title(self): # return self.title.title() # # def short_text(self): # if len(self.text) > 20: # short = ' '.join(self.text.split()[:20]) # short += ' ...' # else: # short = self.text # return short . Output only the next line.
class Rss2PostFeed(BasePostFeedMixin, Feed):
Predict the next line after this snippet: <|code_start|> class PublicProfileDetail(DetailView): model = Profile @class_login_required class ProfileUpdate( ProfileGetObjectMixin, UpdateView): fields = ('about',) model = Profile class ResendActivationEmail( MailContextViewMixin, View): form_class = ResendActivationEmailForm success_url = reverse_lazy('dj-auth:login') template_name = 'user/resend_activation.html' @method_decorator(csrf_protect) def get(self, request): return TemplateResponse( request, self.template_name, {'form': self.form_class()}) @method_decorator(csrf_protect) def post(self, request): bound_form = self.form_class(request.POST) if bound_form.is_valid(): user = bound_form.save( <|code_end|> using the current file's imports: from django.conf import settings from django.contrib.auth import ( get_user, get_user_model, logout) from django.contrib.auth.decorators import \ login_required from django.contrib.auth.tokens import \ default_token_generator as token_generator from django.contrib.messages import error, success from django.core.urlresolvers import reverse_lazy from django.shortcuts import redirect from django.template.response import \ TemplateResponse from django.utils.decorators import \ method_decorator from django.utils.encoding import force_text from django.utils.http import \ urlsafe_base64_decode from django.views.decorators.cache import \ never_cache from django.views.decorators.csrf import \ csrf_protect from django.views.decorators.debug import \ sensitive_post_parameters from django.views.generic import DetailView, View from core.utils import UpdateView from .decorators import class_login_required from .forms import ( ResendActivationEmailForm, UserCreationForm) from .models import Profile from .utils import ( MailContextViewMixin, ProfileGetObjectMixin) and any relevant context from other files: # Path: core/utils.py # class UpdateView(BaseUpdateView): # template_name_suffix = '_form_update' # # Path: user/decorators.py # def class_login_required(cls): # if (not isinstance(cls, type) # or not issubclass(cls, View)): # raise ImproperlyConfigured( # "class_login_required" # " must be applied to subclasses " # "of View class.") # decorator = method_decorator(login_required) # cls.dispatch = decorator(cls.dispatch) # return cls # # Path: user/forms.py # class ResendActivationEmailForm( # ActivationMailFormMixin, forms.Form): # # email = forms.EmailField() # # mail_validation_error = ( # 'Could not re-send activation email. ' # 'Please try again later. (Sorry!)') # # def save(self, **kwargs): # User = get_user_model() # try: # user = User.objects.get( # email=self.cleaned_data['email']) # except: # logger.warning( # 'Resend Activation: No user with ' # 'email: {} .'.format( # self.cleaned_data['email'])) # return None # self.send_mail(user=user, **kwargs) # return user # # class UserCreationForm( # ActivationMailFormMixin, # BaseUserCreationForm): # # name = forms.CharField( # max_length=255, # help_text=( # "The name displayed on your " # "public profile.")) # # mail_validation_error = ( # 'User created. Could not send activation ' # 'email. Please try again later. (Sorry!)') # # class Meta(BaseUserCreationForm.Meta): # model = get_user_model() # fields = ('name', 'email') # # def clean_name(self): # name = self.cleaned_data['name'] # disallowed = ( # 'activate', # 'create', # 'disable', # 'login', # 'logout', # 'password', # 'profile', # ) # if name in disallowed: # raise ValidationError( # "A user with that name" # " already exists.") # return name # # def save(self, **kwargs): # user = super().save(commit=False) # if not user.pk: # user.is_active = False # send_mail = True # else: # send_mail = False # user.save() # self.save_m2m() # Profile.objects.update_or_create( # user=user, # defaults={ # 'name': self.cleaned_data['name'], # 'slug': slugify( # self.cleaned_data['name']), # }) # if send_mail: # self.send_mail(user=user, **kwargs) # return user # # Path: user/models.py # class Profile(models.Model): # user = models.OneToOneField( # settings.AUTH_USER_MODEL) # name = models.CharField( # max_length=255) # slug = models.SlugField( # max_length=30, # unique=True) # about = models.TextField() # joined = models.DateTimeField( # "Date Joined", # auto_now_add=True) # # objects = ProfileManager() # # def __str__(self): # return self.user.get_username() # # def get_absolute_url(self): # return reverse( # 'dj-auth:public_profile', # kwargs={'slug': self.slug}) # # def get_update_url(self): # return reverse('dj-auth:profile_update') # # def natural_key(self): # return (self.slug,) # natural_key.dependencies = ['user.user'] # # Path: user/utils.py # class MailContextViewMixin: # email_template_name = 'user/email_create.txt' # subject_template_name = ( # 'user/subject_create.txt') # # def get_save_kwargs(self, request): # return { # 'email_template_name': # self.email_template_name, # 'request': request, # 'subject_template_name': # self.subject_template_name, # } # # class ProfileGetObjectMixin: # # def get_object(self, queryset=None): # current_user = get_user(self.request) # return current_user.profile . Output only the next line.
**self.get_save_kwargs(request))
Using the snippet: <|code_start|> class ActivateAccount(View): success_url = reverse_lazy('dj-auth:login') template_name = 'user/user_activate.html' @method_decorator(never_cache) def get(self, request, uidb64, token): User = get_user_model() try: # urlsafe_base64_decode() # -> bytestring in Py3 uid = force_text( urlsafe_base64_decode(uidb64)) user = User.objects.get(pk=uid) except (TypeError, ValueError, OverflowError, User.DoesNotExist): user = None if (user is not None <|code_end|> , determine the next line of code. You have imports: from django.conf import settings from django.contrib.auth import ( get_user, get_user_model, logout) from django.contrib.auth.decorators import \ login_required from django.contrib.auth.tokens import \ default_token_generator as token_generator from django.contrib.messages import error, success from django.core.urlresolvers import reverse_lazy from django.shortcuts import redirect from django.template.response import \ TemplateResponse from django.utils.decorators import \ method_decorator from django.utils.encoding import force_text from django.utils.http import \ urlsafe_base64_decode from django.views.decorators.cache import \ never_cache from django.views.decorators.csrf import \ csrf_protect from django.views.decorators.debug import \ sensitive_post_parameters from django.views.generic import DetailView, View from core.utils import UpdateView from .decorators import class_login_required from .forms import ( ResendActivationEmailForm, UserCreationForm) from .models import Profile from .utils import ( MailContextViewMixin, ProfileGetObjectMixin) and context (class names, function names, or code) available: # Path: core/utils.py # class UpdateView(BaseUpdateView): # template_name_suffix = '_form_update' # # Path: user/decorators.py # def class_login_required(cls): # if (not isinstance(cls, type) # or not issubclass(cls, View)): # raise ImproperlyConfigured( # "class_login_required" # " must be applied to subclasses " # "of View class.") # decorator = method_decorator(login_required) # cls.dispatch = decorator(cls.dispatch) # return cls # # Path: user/forms.py # class ResendActivationEmailForm( # ActivationMailFormMixin, forms.Form): # # email = forms.EmailField() # # mail_validation_error = ( # 'Could not re-send activation email. ' # 'Please try again later. (Sorry!)') # # def save(self, **kwargs): # User = get_user_model() # try: # user = User.objects.get( # email=self.cleaned_data['email']) # except: # logger.warning( # 'Resend Activation: No user with ' # 'email: {} .'.format( # self.cleaned_data['email'])) # return None # self.send_mail(user=user, **kwargs) # return user # # class UserCreationForm( # ActivationMailFormMixin, # BaseUserCreationForm): # # name = forms.CharField( # max_length=255, # help_text=( # "The name displayed on your " # "public profile.")) # # mail_validation_error = ( # 'User created. Could not send activation ' # 'email. Please try again later. (Sorry!)') # # class Meta(BaseUserCreationForm.Meta): # model = get_user_model() # fields = ('name', 'email') # # def clean_name(self): # name = self.cleaned_data['name'] # disallowed = ( # 'activate', # 'create', # 'disable', # 'login', # 'logout', # 'password', # 'profile', # ) # if name in disallowed: # raise ValidationError( # "A user with that name" # " already exists.") # return name # # def save(self, **kwargs): # user = super().save(commit=False) # if not user.pk: # user.is_active = False # send_mail = True # else: # send_mail = False # user.save() # self.save_m2m() # Profile.objects.update_or_create( # user=user, # defaults={ # 'name': self.cleaned_data['name'], # 'slug': slugify( # self.cleaned_data['name']), # }) # if send_mail: # self.send_mail(user=user, **kwargs) # return user # # Path: user/models.py # class Profile(models.Model): # user = models.OneToOneField( # settings.AUTH_USER_MODEL) # name = models.CharField( # max_length=255) # slug = models.SlugField( # max_length=30, # unique=True) # about = models.TextField() # joined = models.DateTimeField( # "Date Joined", # auto_now_add=True) # # objects = ProfileManager() # # def __str__(self): # return self.user.get_username() # # def get_absolute_url(self): # return reverse( # 'dj-auth:public_profile', # kwargs={'slug': self.slug}) # # def get_update_url(self): # return reverse('dj-auth:profile_update') # # def natural_key(self): # return (self.slug,) # natural_key.dependencies = ['user.user'] # # Path: user/utils.py # class MailContextViewMixin: # email_template_name = 'user/email_create.txt' # subject_template_name = ( # 'user/subject_create.txt') # # def get_save_kwargs(self, request): # return { # 'email_template_name': # self.email_template_name, # 'request': request, # 'subject_template_name': # self.subject_template_name, # } # # class ProfileGetObjectMixin: # # def get_object(self, queryset=None): # current_user = get_user(self.request) # return current_user.profile . Output only the next line.
and token_generator
Predict the next line after this snippet: <|code_start|> def post(self, request): user = get_user(request) user.set_unusable_password() user.is_active = False user.save() logout(request) return redirect(self.success_url) @class_login_required class ProfileDetail( ProfileGetObjectMixin, DetailView): model = Profile class PublicProfileDetail(DetailView): model = Profile @class_login_required class ProfileUpdate( ProfileGetObjectMixin, UpdateView): fields = ('about',) model = Profile class ResendActivationEmail( MailContextViewMixin, View): form_class = ResendActivationEmailForm success_url = reverse_lazy('dj-auth:login') <|code_end|> using the current file's imports: from django.conf import settings from django.contrib.auth import ( get_user, get_user_model, logout) from django.contrib.auth.decorators import \ login_required from django.contrib.auth.tokens import \ default_token_generator as token_generator from django.contrib.messages import error, success from django.core.urlresolvers import reverse_lazy from django.shortcuts import redirect from django.template.response import \ TemplateResponse from django.utils.decorators import \ method_decorator from django.utils.encoding import force_text from django.utils.http import \ urlsafe_base64_decode from django.views.decorators.cache import \ never_cache from django.views.decorators.csrf import \ csrf_protect from django.views.decorators.debug import \ sensitive_post_parameters from django.views.generic import DetailView, View from core.utils import UpdateView from .decorators import class_login_required from .forms import ( ResendActivationEmailForm, UserCreationForm) from .models import Profile from .utils import ( MailContextViewMixin, ProfileGetObjectMixin) and any relevant context from other files: # Path: core/utils.py # class UpdateView(BaseUpdateView): # template_name_suffix = '_form_update' # # Path: user/decorators.py # def class_login_required(cls): # if (not isinstance(cls, type) # or not issubclass(cls, View)): # raise ImproperlyConfigured( # "class_login_required" # " must be applied to subclasses " # "of View class.") # decorator = method_decorator(login_required) # cls.dispatch = decorator(cls.dispatch) # return cls # # Path: user/forms.py # class ResendActivationEmailForm( # ActivationMailFormMixin, forms.Form): # # email = forms.EmailField() # # mail_validation_error = ( # 'Could not re-send activation email. ' # 'Please try again later. (Sorry!)') # # def save(self, **kwargs): # User = get_user_model() # try: # user = User.objects.get( # email=self.cleaned_data['email']) # except: # logger.warning( # 'Resend Activation: No user with ' # 'email: {} .'.format( # self.cleaned_data['email'])) # return None # self.send_mail(user=user, **kwargs) # return user # # class UserCreationForm( # ActivationMailFormMixin, # BaseUserCreationForm): # # name = forms.CharField( # max_length=255, # help_text=( # "The name displayed on your " # "public profile.")) # # mail_validation_error = ( # 'User created. Could not send activation ' # 'email. Please try again later. (Sorry!)') # # class Meta(BaseUserCreationForm.Meta): # model = get_user_model() # fields = ('name', 'email') # # def clean_name(self): # name = self.cleaned_data['name'] # disallowed = ( # 'activate', # 'create', # 'disable', # 'login', # 'logout', # 'password', # 'profile', # ) # if name in disallowed: # raise ValidationError( # "A user with that name" # " already exists.") # return name # # def save(self, **kwargs): # user = super().save(commit=False) # if not user.pk: # user.is_active = False # send_mail = True # else: # send_mail = False # user.save() # self.save_m2m() # Profile.objects.update_or_create( # user=user, # defaults={ # 'name': self.cleaned_data['name'], # 'slug': slugify( # self.cleaned_data['name']), # }) # if send_mail: # self.send_mail(user=user, **kwargs) # return user # # Path: user/models.py # class Profile(models.Model): # user = models.OneToOneField( # settings.AUTH_USER_MODEL) # name = models.CharField( # max_length=255) # slug = models.SlugField( # max_length=30, # unique=True) # about = models.TextField() # joined = models.DateTimeField( # "Date Joined", # auto_now_add=True) # # objects = ProfileManager() # # def __str__(self): # return self.user.get_username() # # def get_absolute_url(self): # return reverse( # 'dj-auth:public_profile', # kwargs={'slug': self.slug}) # # def get_update_url(self): # return reverse('dj-auth:profile_update') # # def natural_key(self): # return (self.slug,) # natural_key.dependencies = ['user.user'] # # Path: user/utils.py # class MailContextViewMixin: # email_template_name = 'user/email_create.txt' # subject_template_name = ( # 'user/subject_create.txt') # # def get_save_kwargs(self, request): # return { # 'email_template_name': # self.email_template_name, # 'request': request, # 'subject_template_name': # self.subject_template_name, # } # # class ProfileGetObjectMixin: # # def get_object(self, queryset=None): # current_user = get_user(self.request) # return current_user.profile . Output only the next line.
template_name = 'user/resend_activation.html'
Based on the snippet: <|code_start|> class ActivateAccount(View): success_url = reverse_lazy('dj-auth:login') template_name = 'user/user_activate.html' @method_decorator(never_cache) def get(self, request, uidb64, token): User = get_user_model() try: # urlsafe_base64_decode() # -> bytestring in Py3 uid = force_text( urlsafe_base64_decode(uidb64)) user = User.objects.get(pk=uid) except (TypeError, ValueError, OverflowError, User.DoesNotExist): user = None if (user is not None and token_generator .check_token(user, token)): user.is_active = True <|code_end|> , predict the immediate next line with the help of imports: from django.conf import settings from django.contrib.auth import ( get_user, get_user_model, logout) from django.contrib.auth.decorators import \ login_required from django.contrib.auth.tokens import \ default_token_generator as token_generator from django.contrib.messages import error, success from django.core.urlresolvers import reverse_lazy from django.shortcuts import redirect from django.template.response import \ TemplateResponse from django.utils.decorators import \ method_decorator from django.utils.encoding import force_text from django.utils.http import \ urlsafe_base64_decode from django.views.decorators.cache import \ never_cache from django.views.decorators.csrf import \ csrf_protect from django.views.decorators.debug import \ sensitive_post_parameters from django.views.generic import DetailView, View from core.utils import UpdateView from .decorators import class_login_required from .forms import ( ResendActivationEmailForm, UserCreationForm) from .models import Profile from .utils import ( MailContextViewMixin, ProfileGetObjectMixin) and context (classes, functions, sometimes code) from other files: # Path: core/utils.py # class UpdateView(BaseUpdateView): # template_name_suffix = '_form_update' # # Path: user/decorators.py # def class_login_required(cls): # if (not isinstance(cls, type) # or not issubclass(cls, View)): # raise ImproperlyConfigured( # "class_login_required" # " must be applied to subclasses " # "of View class.") # decorator = method_decorator(login_required) # cls.dispatch = decorator(cls.dispatch) # return cls # # Path: user/forms.py # class ResendActivationEmailForm( # ActivationMailFormMixin, forms.Form): # # email = forms.EmailField() # # mail_validation_error = ( # 'Could not re-send activation email. ' # 'Please try again later. (Sorry!)') # # def save(self, **kwargs): # User = get_user_model() # try: # user = User.objects.get( # email=self.cleaned_data['email']) # except: # logger.warning( # 'Resend Activation: No user with ' # 'email: {} .'.format( # self.cleaned_data['email'])) # return None # self.send_mail(user=user, **kwargs) # return user # # class UserCreationForm( # ActivationMailFormMixin, # BaseUserCreationForm): # # name = forms.CharField( # max_length=255, # help_text=( # "The name displayed on your " # "public profile.")) # # mail_validation_error = ( # 'User created. Could not send activation ' # 'email. Please try again later. (Sorry!)') # # class Meta(BaseUserCreationForm.Meta): # model = get_user_model() # fields = ('name', 'email') # # def clean_name(self): # name = self.cleaned_data['name'] # disallowed = ( # 'activate', # 'create', # 'disable', # 'login', # 'logout', # 'password', # 'profile', # ) # if name in disallowed: # raise ValidationError( # "A user with that name" # " already exists.") # return name # # def save(self, **kwargs): # user = super().save(commit=False) # if not user.pk: # user.is_active = False # send_mail = True # else: # send_mail = False # user.save() # self.save_m2m() # Profile.objects.update_or_create( # user=user, # defaults={ # 'name': self.cleaned_data['name'], # 'slug': slugify( # self.cleaned_data['name']), # }) # if send_mail: # self.send_mail(user=user, **kwargs) # return user # # Path: user/models.py # class Profile(models.Model): # user = models.OneToOneField( # settings.AUTH_USER_MODEL) # name = models.CharField( # max_length=255) # slug = models.SlugField( # max_length=30, # unique=True) # about = models.TextField() # joined = models.DateTimeField( # "Date Joined", # auto_now_add=True) # # objects = ProfileManager() # # def __str__(self): # return self.user.get_username() # # def get_absolute_url(self): # return reverse( # 'dj-auth:public_profile', # kwargs={'slug': self.slug}) # # def get_update_url(self): # return reverse('dj-auth:profile_update') # # def natural_key(self): # return (self.slug,) # natural_key.dependencies = ['user.user'] # # Path: user/utils.py # class MailContextViewMixin: # email_template_name = 'user/email_create.txt' # subject_template_name = ( # 'user/subject_create.txt') # # def get_save_kwargs(self, request): # return { # 'email_template_name': # self.email_template_name, # 'request': request, # 'subject_template_name': # self.subject_template_name, # } # # class ProfileGetObjectMixin: # # def get_object(self, queryset=None): # current_user = get_user(self.request) # return current_user.profile . Output only the next line.
user.save()
Given snippet: <|code_start|> class ActivateAccount(View): success_url = reverse_lazy('dj-auth:login') template_name = 'user/user_activate.html' @method_decorator(never_cache) def get(self, request, uidb64, token): User = get_user_model() try: # urlsafe_base64_decode() # -> bytestring in Py3 uid = force_text( urlsafe_base64_decode(uidb64)) user = User.objects.get(pk=uid) except (TypeError, ValueError, OverflowError, User.DoesNotExist): user = None if (user is not None and token_generator .check_token(user, token)): user.is_active = True user.save() success( request, <|code_end|> , continue by predicting the next line. Consider current file imports: from django.conf import settings from django.contrib.auth import ( get_user, get_user_model, logout) from django.contrib.auth.decorators import \ login_required from django.contrib.auth.tokens import \ default_token_generator as token_generator from django.contrib.messages import error, success from django.core.urlresolvers import reverse_lazy from django.shortcuts import redirect from django.template.response import \ TemplateResponse from django.utils.decorators import \ method_decorator from django.utils.encoding import force_text from django.utils.http import \ urlsafe_base64_decode from django.views.decorators.cache import \ never_cache from django.views.decorators.csrf import \ csrf_protect from django.views.decorators.debug import \ sensitive_post_parameters from django.views.generic import DetailView, View from core.utils import UpdateView from .decorators import class_login_required from .forms import ( ResendActivationEmailForm, UserCreationForm) from .models import Profile from .utils import ( MailContextViewMixin, ProfileGetObjectMixin) and context: # Path: core/utils.py # class UpdateView(BaseUpdateView): # template_name_suffix = '_form_update' # # Path: user/decorators.py # def class_login_required(cls): # if (not isinstance(cls, type) # or not issubclass(cls, View)): # raise ImproperlyConfigured( # "class_login_required" # " must be applied to subclasses " # "of View class.") # decorator = method_decorator(login_required) # cls.dispatch = decorator(cls.dispatch) # return cls # # Path: user/forms.py # class ResendActivationEmailForm( # ActivationMailFormMixin, forms.Form): # # email = forms.EmailField() # # mail_validation_error = ( # 'Could not re-send activation email. ' # 'Please try again later. (Sorry!)') # # def save(self, **kwargs): # User = get_user_model() # try: # user = User.objects.get( # email=self.cleaned_data['email']) # except: # logger.warning( # 'Resend Activation: No user with ' # 'email: {} .'.format( # self.cleaned_data['email'])) # return None # self.send_mail(user=user, **kwargs) # return user # # class UserCreationForm( # ActivationMailFormMixin, # BaseUserCreationForm): # # name = forms.CharField( # max_length=255, # help_text=( # "The name displayed on your " # "public profile.")) # # mail_validation_error = ( # 'User created. Could not send activation ' # 'email. Please try again later. (Sorry!)') # # class Meta(BaseUserCreationForm.Meta): # model = get_user_model() # fields = ('name', 'email') # # def clean_name(self): # name = self.cleaned_data['name'] # disallowed = ( # 'activate', # 'create', # 'disable', # 'login', # 'logout', # 'password', # 'profile', # ) # if name in disallowed: # raise ValidationError( # "A user with that name" # " already exists.") # return name # # def save(self, **kwargs): # user = super().save(commit=False) # if not user.pk: # user.is_active = False # send_mail = True # else: # send_mail = False # user.save() # self.save_m2m() # Profile.objects.update_or_create( # user=user, # defaults={ # 'name': self.cleaned_data['name'], # 'slug': slugify( # self.cleaned_data['name']), # }) # if send_mail: # self.send_mail(user=user, **kwargs) # return user # # Path: user/models.py # class Profile(models.Model): # user = models.OneToOneField( # settings.AUTH_USER_MODEL) # name = models.CharField( # max_length=255) # slug = models.SlugField( # max_length=30, # unique=True) # about = models.TextField() # joined = models.DateTimeField( # "Date Joined", # auto_now_add=True) # # objects = ProfileManager() # # def __str__(self): # return self.user.get_username() # # def get_absolute_url(self): # return reverse( # 'dj-auth:public_profile', # kwargs={'slug': self.slug}) # # def get_update_url(self): # return reverse('dj-auth:profile_update') # # def natural_key(self): # return (self.slug,) # natural_key.dependencies = ['user.user'] # # Path: user/utils.py # class MailContextViewMixin: # email_template_name = 'user/email_create.txt' # subject_template_name = ( # 'user/subject_create.txt') # # def get_save_kwargs(self, request): # return { # 'email_template_name': # self.email_template_name, # 'request': request, # 'subject_template_name': # self.subject_template_name, # } # # class ProfileGetObjectMixin: # # def get_object(self, queryset=None): # current_user = get_user(self.request) # return current_user.profile which might include code, classes, or functions. Output only the next line.
'User Activated! '