By default :class:`~import_export.resources.ModelResource` introspects model fields and creates :class:`~import_export.fields.Field` attributes with an appropriate :class:`~import_export.widgets.Widget` for each field.
Fields are generated automatically by introspection on the declared model class. The field defines the relationship between the resource we are importing (for example, a csv row) and the instance we want to update. Typically, the row data will map onto a single model instance. The row data will be set onto model instance attributes (including instance relations) during the import process.
In a simple case, the name of the row headers will map exactly onto the names of the model attributes, and the import process will handle this mapping. In more complex cases, model attributes and row headers may differ, and we will need to declare explicitly declare this mapping. See :ref:`field_declaration` for more information.
You can optionally use the fields
declaration to affect which fields are handled during import.
To affect which model fields will be included in a resource, use the fields
option to whitelist fields:
class BookResource(resources.ModelResource): class Meta: model = Book fields = ('id', 'name', 'price',)
Or the exclude
option to blacklist fields:
class BookResource(resources.ModelResource): class Meta: model = Book exclude = ('imported', )
If both fields
and exclude
are declared, the fields
declaration takes precedence, and exclude
is
ignored.
The precedence for the order of fields for import / export is defined as follows:
import_order
orexport_order
(if defined)fields
(if defined)- The order derived from the underlying model instance.
When importing or exporting, the ordering defined by fields
is used, however an explicit order for importing or
exporting fields can be set using the either the import_order
or export_order
options:
class BookResource(resources.ModelResource): class Meta: model = Book fields = ('id', 'name', 'author', 'price',) import_order = ('id', 'price',) export_order = ('id', 'price', 'author', 'name')
Where import_order
or export_order
contains a subset of fields
then the import_order
and
export_order
fields will be processed first.
If no fields
, import_order
or export_order
is defined then fields are created via introspection of the model
class. The order of declared fields in the model instance is preserved, and any non-model fields are last in the
ordering.
When defining :class:`~import_export.resources.ModelResource` fields it is possible to follow model relationships:
class BookResource(resources.ModelResource): class Meta: model = Book fields = ('author__name',)
This example declares that the Author.name
value (which has a foreign key relation to Book
) will appear in the
export.
Note that declaring the relationship using this syntax sets field
as readonly, meaning this field will be skipped
when importing data. To understand how to import model relations, see :ref:`import_model_relations`.
We can declare fields explicitly to give us more control over the relationship between the row and the model attribute.
In the example below, we use the attribute
kwarg to define the model attribute, and column_name
to define the
column name (i.e. row header):
from import_export.fields import Field class BookResource(resources.ModelResource): published = Field(attribute='published', column_name='published_date') class Meta: model = Book
.. seealso:: :doc:`/api_fields` Available field types and options.
You can extend the import process to add workflow based on changes to persisted model instances.
For example, suppose you are importing a list of books and you require additional workflow on the date of publication. In this example, we assume there is an existing unpublished book instance which has a null 'published' field.
There will be a one-off operation to take place on the date of publication, which will be identified by the presence of the 'published' field in the import file.
To achieve this, we need to test the existing value taken from the persisted instance (i.e. prior to import
changes) against the incoming value on the updated instance.
Both instance
and original
are attributes of :class:`~import_export.results.RowResult`.
You can override the :meth:`~import_export.resources.Resource.after_import_row` method to check if the value changes:
class BookResource(resources.ModelResource): def after_import_row(self, row, row_result, **kwargs): if getattr(row_result.original, "published") is None \ and getattr(row_result.instance, "published") is not None: # import value is different from stored value. # exec custom workflow... class Meta: model = Book store_instance = True
Note
- The
original
attribute will be null if :attr:`~import_export.options.ResourceOptions.skip_diff` is True. - The
instance
attribute will be null if :attr:`~import_export.options.ResourceOptions.store_instance` is False.
A widget is an object associated with each field declaration. The widget has two roles:
- Transform the raw import data into a python object which is associated with the instance (see :meth:`.clean`).
- Export persisted data into a suitable export format (see :meth:`.render`).
There are widgets associated with character data, numeric values, dates, foreign keys. You can also define your own widget and associate it with the field.
A :class:`~import_export.resources.ModelResource` creates fields with a default widget for a given field type via introspection. If the widget should be initialized with different arguments, this can be done via an explicit declaration or via the widgets dict.
For example, the published
field is overridden to use a different date format. This format will be used both for
importing and exporting resource:
class BookResource(resources.ModelResource): published = Field(attribute='published', column_name='published_date', widget=DateWidget(format='%d.%m.%Y')) class Meta: model = Book
Declaring fields may affect the export order of the fields. If this is an issue, you can either declare the :attr:`~import_export.options.ResourceOptions.export_order` attribute, or declare widget parameters using the widgets dict declaration:
class BookResource(resources.ModelResource): class Meta: model = Book widgets = { 'published': {'format': '%d.%m.%Y'}, }
Modify :meth:`.render` return type
By default, :meth:`.render` will return a string type for export. There may be use cases where a native type is
required from export. If so, you can use the coerce_to_string
parameter if the widget supports it.
By default, coerce_to_string
is True
, but if you set this to False
, then the native type will be returned
during export:
class BookResource(resources.ModelResource): published = Field(attribute='published', column_name='published_date', widget=DateWidget(format='%Y-%m-%d', coerce_to_string=False)) class Meta: model = Book
.. seealso:: :doc:`/api_widgets` Available widget types and options.
The import process will include basic validation during import. This validation can be customized or extended if required.
The import process distinguishes between:
- Validation errors which arise when failing to parse import data correctly.
- General exceptions which arise during processing.
Errors are retained in each :class:`~import_export.results.RowResult` instance which is stored in the single :class:`~import_export.results.Result` instance which is returned from the import process.
The :meth:`~import_export.resources.Resource.import_data` method takes optional parameters which can be used to customize the handling of errors. Refer to the method documentation for specific details.
During import of a row, each field is iterated and any ValueError errors raised by Widgets are stored in an instance of Django's ValidationError.
Validation errors are retained within the :attr:`~import_export.results.Result.invalid_rows` list as a :class:`~import_export.results.InvalidRow` instance.
If importing programmatically, you can set the raise_errors
parameter of :meth:`~import_export.resources.Resource.import_data`
to True
, which will mean the process will exit at the first row which has errors:
rows = [ (1, 'Lord of the Rings', '1996-01-01'), (2, 'The Hobbit', '1996-01-02x'), ] dataset = tablib.Dataset(*rows, headers=['id', 'name', 'published']) resource = BookResource() self.resource.import_data(self.dataset, raise_errors=True)
The above process will exit with a row number and error (formatted for clarity):
ImportError: 2: {'published': ['Value could not be parsed using defined date formats.']} (OrderedDict({'id': 2, 'name': 'The Hobbit', 'published': 'x'}))
To iterate over all validation errors produced from an import, pass False
to raise_errors
:
result = self.resource.import_data(self.dataset, raise_errors=False) for row in result.invalid_rows: print(f"--- row {row.number} ---") for field, error in row.error.error_dict.items(): print(f"{field}: {error} ({row.values})")
If using the :ref:`Admin UI<admin-integration>`, errors are presented to the user during import (see below).
Generic errors are raised during import for cases which are not validation errors. For example, generic errors are usually raised at the point the model instance is saved, such as attempt to save a float to a int field. Because generic errors are raised from a lower point in the stack, it is not always possible to identify which field caused the error.
Generic errors are retained within the :attr:`~import_export.results.Result.error_rows` list as a :class:`~import_export.results.ErrorRow` instance.
The raise_errors
parameter can be used during programmatic import to halt the import at the first error:
rows = [ (1, 'Lord of the Rings', '999'), (2, 'The Hobbit', 'x'), ] dataset = tablib.Dataset(*rows, headers=['id', 'name', 'price']) resource = BookResource() result = resource.import_data( dataset, raise_errors=True )
The above process will exit with a row number and error (formatted for clarity):
ImportError: 1: [<class 'decimal.ConversionSyntax'>] (OrderedDict({'id': 1, 'name': 'Lord of the Rings', 'price': '1x'}))
To iterate over all generic errors produced from an import, pass False
to raise_errors
:
result = self.resource.import_data(self.dataset, raise_errors=False) for row in result.error_rows: print(f"--- row {row.number} ---") for field, error in row.error.error_dict.items(): print(f"{field}: {error} ({error.row})")
Validation of input can be performed during import by a widget's :meth:`~import_export.widgets.Widget.clean` method by raising a ValueError. Consult the :doc:`widget documentation </api_widgets>` for more information.
You can supply your own field level validation by overriding :meth:`~import_export.widgets.Widget.clean`, for example:
class PositiveIntegerWidget(IntegerWidget): """Returns a positive integer value""" def clean(self, value, row=None, **kwargs): val = super().clean(value, row=row, **kwargs) if val < 0: raise ValueError("value must be positive") return val
Field level errors will be presented in the :ref:`Admin UI<admin-integration>`, for example:
You can optionally configure import-export to perform model instance validation during import by enabling the :attr:`~import_export.options.ResourceOptions.clean_model_instances` attribute.
You can override the full_clean(). method to provide extra validation, either at field or instance level:
class Book(models.Model): def full_clean(self, exclude=None, validate_unique=True): super().full_clean(exclude, validate_unique) # non field specific validation if self.published < date(1900, 1, 1): raise ValidationError("book is out of print") # field specific validation if self.name == "Ulysses": raise ValidationError({"name": "book has been banned"})
If you are importing data for a model instance which has a foreign key relationship to another model then import-export can handle the lookup and linking to the related model.
ForeignKeyWidget
allows you to declare a reference to a related model. For example, if we are importing a 'book'
csv file, then we can have a single field which references an author by name.
id,title,author 1,The Hobbit, J. R. R. Tolkien
We would have to declare our BookResource
to use the author name as the foreign key reference:
from import_export import fields, resources from import_export.widgets import ForeignKeyWidget class BookResource(resources.ModelResource): author = fields.Field( column_name='author', attribute='author', widget=ForeignKeyWidget(Author, field='name')) class Meta: model = Book fields = ('author',)
By default, ForeignKeyWidget
will use 'pk' as the lookup field, hence we have to pass 'name' as the lookup field.
This relies on 'name' being a unique identifier for the related model instance, meaning that a lookup on the related
table using the field value will return exactly one result.
This is implemented as a Model.objects.get()
query, so if the instance in not uniquely identifiable based on the
given arg, then the import process will raise either DoesNotExist
or MultipleObjectsReturned
errors.
See also :ref:`advanced_usage:Creating non existent relations`.
Refer to the :class:`~.ForeignKeyWidget` documentation for more detailed information.
ManyToManyWidget
allows you to import m2m references. For example, we can import associated categories with our
book import. The categories refer to existing data in a Category
table, and are uniquely referenced by category
name. We use the pipe separator in the import file, which means we have to declare this in the ManyToManyWidget
declaration.
id,title,categories 1,The Hobbit,Fantasy|Classic|Movies
class BookResource(resources.ModelResource): categories = fields.Field( column_name='categories', attribute='categories', widget=widgets.ManyToManyWidget(Category, field='name', separator='|') ) class Meta: model = Book
The examples above rely on the relation data being present prior to the import. It is a common use-case to create the data if it does not already exist. It is possible to achieve this as follows:
class BookResource(resources.ModelResource): def before_import_row(self, row, **kwargs): author_name = row["author"] Author.objects.get_or_create(name=author_name, defaults={"name": author_name}) class Meta: model = Book
The code above can be adapted to handle m2m relationships.
You can also achieve similar by subclassing the widget :meth:`~import_export.widgets.ForeignKeyWidget.clean` method to create the object if it does not already exist. An example for :class:`~import_export.widgets.ManyToManyWidget` is here.
The ForeignKeyWidget
and ManyToManyWidget
widgets will look for relations by searching the entire relation
table for the imported value. This is implemented in the :meth:`~import_export.widgets.ForeignKeyWidget.get_queryset`
method. For example, for an Author
relation, the lookup calls Author.objects.all()
.
In some cases, you may want to customize this behaviour, and it can be a requirement to pass dynamic values in.
For example, suppose we want to look up authors associated with a certain publisher id. We can achieve this by passing
the publisher id into the Resource
constructor, which can then be passed to the widget:
class BookResource(resources.ModelResource): def __init__(self, publisher_id): super().__init__() self.fields["author"] = fields.Field( attribute="author", column_name="author", widget=AuthorForeignKeyWidget(publisher_id), )
The corresponding ForeignKeyWidget
subclass:
class AuthorForeignKeyWidget(ForeignKeyWidget): model = Author field = 'name' def __init__(self, publisher_id, **kwargs): super().__init__(self.model, field=self.field, **kwargs) self.publisher_id = publisher_id def get_queryset(self, value, row, *args, **kwargs): return self.model.objects.filter(publisher_id=self.publisher_id)
Then if the import was being called from another module, we would pass the publisher_id
into the Resource:
>>> resource = BookResource(publisher_id=1)
If you need to pass dynamic values to the Resource from an `Admin integration`_, refer to :ref:`advanced_usage:How to dynamically set resource values`.
The ForeignKeyWidget
also supports using Django's natural key functions. A
manager class with the get_by_natural_key
function is required for importing
foreign key relationships by the field model's natural key, and the model must
have a natural_key
function that can be serialized as a JSON list in order to
export data.
The primary utility for natural key functionality is to enable exporting data that can be imported into other Django environments with different numerical primary key sequences. The natural key functionality enables handling more complex data than specifying either a single field or the PK.
The example below illustrates how to create a field on the BookResource
that
imports and exports its author relationships using the natural key functions
on the Author
model and modelmanager.
The resource _meta option use_natural_foreign_keys
enables this setting
for all Models that support it.
from import_export.fields import Field from import_export.widgets import ForeignKeyWidget class AuthorManager(models.Manager): def get_by_natural_key(self, name): return self.get(name=name) class Author(models.Model): objects = AuthorManager() name = models.CharField(max_length=100) birthday = models.DateTimeField(auto_now_add=True) def natural_key(self): return (self.name,) # Only the author field uses natural foreign keys. class BookResource(resources.ModelResource): author = Field( column_name = "author", attribute = "author", widget = ForeignKeyWidget(Author, use_natural_foreign_keys=True) ) class Meta: model = Book # All widgets with foreign key functions use them. class BookResource(resources.ModelResource): class Meta: model = Book use_natural_foreign_keys = True
Read more at Django Serialization.
When you are importing a file using import-export, the file is processed row by row. For each row, the import process is going to test whether the row corresponds to an existing stored instance, or whether a new instance is to be created.
If an existing instance is found, then the instance is going to be updated with the values from the imported row, otherwise a new row will be created.
In order to test whether the instance already exists, import-export needs to use a field (or a combination of fields) in the row being imported. The idea is that the field (or fields) will uniquely identify a single instance of the model type you are importing.
To define which fields identify an instance, use the import_id_fields
meta attribute. You can use this declaration
to indicate which field (or fields) should be used to uniquely identify the row. If you don't declare
import_id_fields
, then a default declaration is used, in which there is only one field: 'id'.
For example, you can use the 'isbn' number instead of 'id' to uniquely identify a Book as follows:
class BookResource(resources.ModelResource): class Meta: model = Book import_id_fields = ('isbn',) fields = ('isbn', 'name', 'author', 'price',)
Note
If setting import_id_fields
, you must ensure that the data can uniquely identify a single row. If the chosen
field(s) select more than one row, then a MultipleObjectsReturned
exception will be raised. If no row is
identified, then DoesNotExist
exception will be raised.
The instance pk and representation (i.e. output from repr()
) can be accessed after import:
rows = [ (1, 'Lord of the Rings'), ] dataset = tablib.Dataset(*rows, headers=['id', 'name']) resource = BookResource() result = resource.import_data(dataset) for row_result in result: print("%d: %s" % (row_result.object_id, row_result.object_repr))
All 'new', 'updated' and 'deleted' instances can be accessed after import if the :attr:`~import_export.options.ResourceOptions.store_instance` meta attribute is set.
For example, this snippet shows how you can retrieve persisted row data from a result:
class BookResourceWithStoreInstance(resources.ModelResource): class Meta: model = Book store_instance = True rows = [ (1, 'Lord of the Rings'), ] dataset = tablib.Dataset(*rows, headers=['id', 'name']) resource = BookResourceWithStoreInstance() result = resource.import_data(dataset) for row_result in result: print(row_result.instance.pk)
If an existing instance is identified during import, then the existing instance will be updated, regardless of whether the data in the import row is the same as the persisted data or not. You can configure the import process to skip the row if it is duplicate by using setting :attr:`~import_export.options.ResourceOptions.skip_unchanged`.
If :attr:`~import_export.options.ResourceOptions.skip_unchanged` is enabled, then the import process will check each ns defined import field and perform a simple comparison with the existing instance, and if all comparisons are equal, then the row is skipped. Skipped rows are recorded in the row :class:`~import_export.results.RowResult` object.
You can override the :meth:`~.skip_row` method to have full control over the skip row implementation.
Also, the :attr:`~import_export.options.ResourceOptions.report_skipped` option controls whether skipped records appear in the import :class:`~import_export.results.RowResult` object, and whether skipped records will show in the import preview page in the Admin UI:
class BookResource(resources.ModelResource): class Meta: model = Book skip_unchanged = True report_skipped = False fields = ('id', 'name', 'price',)
.. seealso:: :doc:`/api_resources`
You may have a use-case where you need to set the same value on each instance created during import. For example, it might be that you need to set a value read at runtime on all instances during import.
You can define your resource to take the associated instance as a param, and then set it on each import instance:
class BookResource(ModelResource): def __init__(self, publisher_id): self.publisher_id = publisher_id def before_save_instance(self, instance, row, **kwargs): instance.publisher_id = self.publisher_id class Meta: model = Book
See also :ref:`advanced_usage:How to dynamically set resource values`.
Not all data can be easily extracted from an object/model attribute.
In order to turn complicated data model into a (generally simpler) processed
data structure on export, dehydrate_<fieldname>
method should be defined:
from import_export.fields import Field class BookResource(resources.ModelResource): full_title = Field() class Meta: model = Book def dehydrate_full_title(self, book): book_name = getattr(book, "name", "unknown") author_name = getattr(book.author, "name", "unknown") return '%s by %s' % (book_name, author_name)
In this case, the export looks like this:
>>> from app.admin import BookResource >>> dataset = BookResource().export() >>> print(dataset.csv) full_title,id,name,author,author_email,imported,published,price,categories Some book by 1,2,Some book,1,,0,2012-12-05,8.85,1
It is also possible to pass a method name in to the :meth:`~import_export.fields.Field` constructor. If this method name is supplied, then that method will be called as the 'dehydrate' method.
You can use :meth:`~import_export.resources.Resource.filter_export` to filter querysets during export. See also `Customize admin export forms`_.
To hook in the import-export workflow, you can connect to post_import
,
post_export
signals:
from django.dispatch import receiver from import_export.signals import post_import, post_export @receiver(post_import, dispatch_uid='balabala...') def _post_import(model, **kwargs): # model is the actual model instance which after import pass @receiver(post_export, dispatch_uid='balabala...') def _post_export(model, **kwargs): # model is the actual model instance which after export pass
There is specific consideration required if your application allows concurrent writes to data during imports.
For example, consider this scenario:
- An import process is run to import new books identified by title.
- The :meth:`~import_export.resources.Resource.get_or_init_instance` is called and identifies that there is no existing book with this title, hence the import process will create it as a new record.
- At that exact moment, another process inserts a book with the same title.
- As the row import process completes, :meth:`~import_export.resources.Resource.save` is called and an error is thrown because the book already exists in the database.
By default, import-export does not prevent this situation from occurring, therefore you need to consider what processes might be modifying shared tables during imports, and how you can mitigate risks. If your database enforces integrity, then you may get errors raised, if not then you may get duplicate data.
Potential solutions are:
- Use one of the :doc:`import workflow<import_workflow>` methods to lock a table during import if the database supports
it.
- This should only be done in exceptional cases because there will be a performance impact.
- You will need to release the lock both in normal workflow and if there are errors.
- Override :meth:`~import_export.resources.Resource.do_instance_save` to perform a update_or_create(). This can ensure that data integrity is maintained if there is concurrent access.
- Modify working practices so that there is no risk of concurrent writes. For example, you could schedule imports to only run at night.
This issue may be more prevalent if using :doc:`bulk imports<bulk_import>`. This is because instances are held in memory for longer before being written in bulk, therefore there is potentially more risk of another process modifying an instance before it has been persisted.