SENAITE API
Project description
SENAITE.API: The Swiss-Army-Knife for SENAITE Core and Add-on developers
About
SENAITE API is the Swiss-Army-Knife for SENAITE Core and Add-on developers. It provides a sane interface for common tasks in SENAITE, like e.g. object creation, lookup by ID/UID, search etc.
Please see the doctests for further details and usage:
Installation
Please follow the installations instructions for Plone 4 and senaite.lims.
To install SENAITE API, you have to add senaite.api into the eggs list inside the [buildout] section of your buildout.cfg:
[buildout] parts = instance extends = http://dist.plone.org/release/4.3.17/versions.cfg find-links = http://dist.plone.org/release/4.3.17 http://dist.plone.org/thirdparty eggs = Plone Pillow senaite.lims senaite.api zcml = eggs-directory = ${buildout:directory}/eggs [instance] recipe = plone.recipe.zope2instance user = admin:admin http-address = 0.0.0.0:8080 eggs = ${buildout:eggs} zcml = ${buildout:zcml} [versions] setuptools = zc.buildout =
Note
The above example works for the buildout created by the unified installer. If you however have a custom buildout you might need to add the egg to the eggs list in the [instance] section rather than adding it in the [buildout] section.
Also see this section of the Plone documentation for further details: https://docs.plone.org/4/en/manage/installing/installing_addons.html
Important
For the changes to take effect you need to re-run buildout from your console:
bin/buildout
SENAITE API DOCTEST
The SENAITE LIMS API provides single functions for single purposes. This Test builds completely on the API without any further imports needed.
Running this test from the buildout directory:
bin/test test_doctests -t API
Introduction
The purpose of this API is to help coders to follow the DRY principle (Don’t Repeat Yourself). It also ensures that the most effective and efficient method is used to achieve a task.
Import it first:
>>> from senaite import api
Getting the Portal
The Portal is the SENAITE LIMS root object:
>>> portal = api.get_portal() >>> portal <PloneSite at /plone>
Getting the Setup object
The Setup object gives access to all of the Bika configuration settings:
>>> bika_setup = api.get_setup() >>> bika_setup <BikaSetup at /plone/bika_setup>
Creating new Content
Creating new contents in Bika LIMS requires some special knowledge. This function helps to do it right and creates a content for you.
Here we create a new Client in the plone/clients folder:
>>> client = api.create(portal.clients, "Client", title="Test Client") >>> client <Client at /plone/clients/client-1> >>> client.Title() 'Test Client'
Getting a Tool
There are many ways to get a tool in Bika LIMS / Plone. This function centralizes this functionality and makes it painless:
>>> api.get_tool("bika_setup_catalog") <BikaSetupCatalog at /plone/bika_setup_catalog>
Trying to fetch an non-existing tool raises a custom SenaiteAPIError:
>>> api.get_tool("NotExistingTool") Traceback (most recent call last): [...] SenaiteAPIError: No tool named 'NotExistingTool' found.
This error can also be used for custom methods with the fail function:
>>> api.fail("This failed badly") Traceback (most recent call last): [...] SenaiteAPIError: This failed badly
Getting an Object
Getting a tool from a catalog brain is a common task in Bika LIMS. This function provides an unified interface to portal objects and brains. Furthermore it is idempotent, so it can be called multiple times in a row.
We will demonstrate the usage on the client object we created above:
>>> api.get_object(client) <Client at /plone/clients/client-1> >>> api.get_object(api.get_object(client)) <Client at /plone/clients/client-1>
Now we show it with catalog results:
>>> portal_catalog = api.get_tool("portal_catalog") >>> brains = portal_catalog(portal_type="Client") >>> brains [<Products.ZCatalog.Catalog.mybrains object at 0x...>] >>> brain = brains[0] >>> api.get_object(brain) <Client at /plone/clients/client-1> >>> api.get_object(api.get_object(brain)) <Client at /plone/clients/client-1>
No supported objects raise an error:
>>> api.get_object(object()) Traceback (most recent call last): [...] SenaiteAPIError: <object object at 0x...> is not supported.
To check if an object is supported, e.g. is an ATCT, Dexterity, ZCatalog or Portal object, we can use the is_object function:
>>> api.is_object(client) True >>> api.is_object(brain) True >>> api.is_object(api.get_portal()) True >>> api.is_object(None) False >>> api.is_object(object()) False
Checking if an Object is the Portal
Sometimes it can be handy to check if the current object is the portal:
>>> api.is_portal(portal) True >>> api.is_portal(client) False >>> api.is_portal(object()) False
Checking if an Object is a Catalog Brain
Knowing if we have an object or a brain can be handy. This function checks this for you:
>>> api.is_brain(brain) True >>> api.is_brain(api.get_object(brain)) False >>> api.is_brain(object()) False
Checking if an Object is a Dexterity Content
This function checks if an object is a Dexterity content type:
>>> api.is_dexterity_content(client) False >>> api.is_dexterity_content(portal) False
We currently have no Dexterity contents, so testing this comes later…
Checking if an Object is an AT Content
This function checks if an object is an Archetypes content type:
>>> api.is_at_content(client) True >>> api.is_at_content(portal) False >>> api.is_at_content(object()) False
Getting the Schema of a Content
The schema contains the fields of a content object. Getting the schema is a common task, but differs between ATContentType based objects and Dexterity based objects. This function brings it under one umbrella:
>>> schema = api.get_schema(client) >>> schema <Products.Archetypes.Schema.Schema object at 0x...>
Catalog brains are also supported:
>>> api.get_schema(brain) <Products.Archetypes.Schema.Schema object at 0x...>
Getting the Fields of a Content
The fields contain all the values that an object holds and are therefore responsible for getting and setting the information.
This function returns the fields as a dictionary mapping of {“key”: value}:
>>> fields = api.get_fields(client) >>> fields.get("ClientID") <Field ClientID(string:rw)>
Catalog brains are also supported:
>>> api.get_fields(brain).get("ClientID") <Field ClientID(string:rw)>
Getting the ID of a Content
Getting the ID is a common task in Bika LIMS. This function takes care that catalog brains are not waked up for this task:
>>> api.get_id(portal) 'plone' >>> api.get_id(client) 'client-1' >>> api.get_id(brain) 'client-1'
Getting the Title of a Content
Getting the Title is a common task in Bika LIMS. This function takes care that catalog brains are not waked up for this task:
>>> api.get_title(portal) u'Plone site' >>> api.get_title(client) 'Test Client' >>> api.get_title(brain) 'Test Client'
Getting the Description of a Content
Getting the Description is a common task in Bika LIMS. This function takes care that catalog brains are not waked up for this task:
>>> api.get_description(portal) '' >>> api.get_description(client) '' >>> api.get_description(brain) ''
Getting the UID of a Content
Getting the UID is a common task in Bika LIMS. This function takes care that catalog brains are not waked up for this task.
The portal object actually has no UID. This funciton defines it therfore to be 0:
>>> api.get_uid(portal) '0' >>> uid_client = api.get_uid(client) >>> uid_client_brain = api.get_uid(brain) >>> uid_client is uid_client_brain True
Getting the URL of a Content
Getting the URL is a common task in Bika LIMS. This function takes care that catalog brains are not waked up for this task:
>>> api.get_url(portal) 'http://nohost/plone' >>> api.get_url(client) 'http://nohost/plone/clients/client-1' >>> api.get_url(brain) 'http://nohost/plone/clients/client-1'
Getting the Icon of a Content
>>> api.get_icon(client) '<img width="16" height="16" src="http://nohost/plone/++resource++bika.lims.images/client.png" title="Test Client" />' >>> api.get_icon(brain) '<img width="16" height="16" src="http://nohost/plone/++resource++bika.lims.images/client.png" title="Test Client" />' >>> api.get_icon(client, html_tag=False) 'http://nohost/plone/++resource++bika.lims.images/client.png' >>> api.get_icon(client, html_tag=False) 'http://nohost/plone/++resource++bika.lims.images/client.png'
Getting an object by UID
This function finds an object by its uinique ID (UID). The portal object with the defined UId of ‘0’ is also supported:
>>> api.get_object_by_uid('0') <PloneSite at /plone> >>> api.get_object_by_uid(uid_client) <Client at /plone/clients/client-1> >>> api.get_object_by_uid(uid_client_brain) <Client at /plone/clients/client-1>
If a default value is provided, the function will never fail. Any exception or error will result in the default value being returned:
>>> api.get_object_by_uid('invalid uid', 'default') 'default' >>> api.get_object_by_uid(None, 'default') 'default'
Getting an object by Path
This function finds an object by its physical path:
>>> api.get_object_by_path('/plone') <PloneSite at /plone> >>> api.get_object_by_path('/plone/clients/client-1') <Client at /plone/clients/client-1>
Paths outside the portal raise an error:
>>> api.get_object_by_path('/root') Traceback (most recent call last): [...] SenaiteAPIError: Not a physical path inside the portal.
Any exception returns default value:
>>> api.get_object_by_path('/invaid/path', 'default') 'default' >>> api.get_object_by_path(None, 'default') 'default'
Getting the Physical Path of an Object
The physical path describes exactly where an object is located inside the portal. This function unifies the different approaches to get the physical path and does so in the most efficient way:
>>> api.get_path(portal) '/plone' >>> api.get_path(client) '/plone/clients/client-1' >>> api.get_path(brain) '/plone/clients/client-1' >>> api.get_path(object()) Traceback (most recent call last): [...] SenaiteAPIError: <object object at 0x...> is not supported.
Getting the Physical Parent Path of an Object
This function returns the physical path of the parent object:
>>> api.get_parent_path(client) '/plone/clients' >>> api.get_parent_path(brain) '/plone/clients'
However, this function goes only up to the portal object:
>>> api.get_parent_path(portal) '/plone'
Like with the other functions, only portal objects are supported:
>>> api.get_parent_path(object()) Traceback (most recent call last): [...] SenaiteAPIError: <object object at 0x...> is not supported.
Getting the Parent Object
This function returns the parent object:
>>> api.get_parent(client) <ClientFolder at /plone/clients>
Brains are also supported:
>>> api.get_parent(brain) <ClientFolder at /plone/clients>
The function can also use a catalog query on the portal_catalog and return a brain, if the passed parameter catalog_search was set to true.
>>> api.get_parent(client, catalog_search=True) <Products.ZCatalog.Catalog.mybrains object at 0x...> >>> api.get_parent(brain, catalog_search=True) <Products.ZCatalog.Catalog.mybrains object at 0x...>
However, this function goes only up to the portal object:
>>> api.get_parent(portal) <PloneSite at /plone>
Like with the other functions, only portal objects are supported:
>>> api.get_parent(object()) Traceback (most recent call last): [...] SenaiteAPIError: <object object at 0x...> is not supported.
Searching Objects
Searching in Bika LIMS requires knowledge in which catalog the object is indexed. This function unifies all Bika LIMS catalog to a single search interface:
>>> results = api.search({'portal_type': 'Client'}) >>> results [<Products.ZCatalog.Catalog.mybrains object at 0x...>]
Multiple content types are also supported:
>>> results = api.search({'portal_type': ['Client', 'ClientFolder'], 'sort_on': 'getId'}) >>> map(api.get_id, results) ['client-1', 'clients']
Now we create some objects which are located in the bika_setup_catalog:
>>> instruments = bika_setup.bika_instruments >>> instrument1 = api.create(instruments, "Instrument", title="Instrument-1") >>> instrument2 = api.create(instruments, "Instrument", title="Instrument-2") >>> instrument3 = api.create(instruments, "Instrument", title="Instrument-3") >>> results = api.search({'portal_type': 'Instrument', 'sort_on': 'getId'}) >>> len(results) 3 >>> map(api.get_id, results) ['instrument-1', 'instrument-2', 'instrument-3']
Queries which result in multiple catalogs will be refused, as it would require manual merging and sorting of the results afterwards. Thus, we fail here:
>>> results = api.search({'portal_type': ['Client', 'ClientFolder', 'Instrument'], 'sort_on': 'getId'}) Traceback (most recent call last): [...] SenaiteAPIError: Multi Catalog Queries are not supported, please specify a catalog.
Catalog queries w/o any portal_type, default to the portal_catalog, which will not find the following items:
>>> analysiscategories = bika_setup.bika_analysiscategories >>> analysiscategory1 = api.create(analysiscategories, "AnalysisCategory", title="AC-1") >>> analysiscategory2 = api.create(analysiscategories, "AnalysisCategory", title="AC-2") >>> analysiscategory3 = api.create(analysiscategories, "AnalysisCategory", title="AC-3") >>> results = api.search({"id": "analysiscategory-1"}) >>> len(results) 0
Would we add the portal_type, the search function would ask the archetype_tool for the right catalog, and it would return a result:
>>> results = api.search({"portal_type": "AnalysisCategory", "id": "analysiscategory-1"}) >>> len(results) 1
We could also explicitly define a catalog to achieve the same:
>>> results = api.search({"id": "analysiscategory-1"}, catalog="bika_setup_catalog") >>> len(results) 1
To see inactive or dormant items, we must explicitly query them of filter them afterwars manually:
>>> results = api.search({"portal_type": "AnalysisCategory", "id": "analysiscategory-1"}) >>> len(results) 1
Now we deactivate the item:
>>> analysiscategory1 = api.do_transition_for(analysiscategory1, 'deactivate') >>> api.is_active(analysiscategory1) False
The search will still find the item:
>>> results = api.search({"portal_type": "AnalysisCategory", "id": "analysiscategory-1"}) >>> len(results) 1
Unless we filter it out manually:
>>> len(filter(api.is_active, results)) 0
Or provide a correct query:
>>> results = api.search({"portal_type": "AnalysisCategory", "id": "analysiscategory-1", "inactive_status": "active"}) >>> len(results) 1
Getting the registered Catalogs
Bika LIMS uses multiple catalogs registered via the Archetype Tool. This function returns a list of registered catalogs for a brain or object:
>>> api.get_catalogs_for(client) [<CatalogTool at /plone/portal_catalog>] >>> api.get_catalogs_for(instrument1) [<BikaSetupCatalog at /plone/bika_setup_catalog>, <CatalogTool at /plone/portal_catalog>] >>> api.get_catalogs_for(analysiscategory1) [<BikaSetupCatalog at /plone/bika_setup_catalog>]
Getting an Attribute of an Object
This function handles attributes and methods the same and returns their value. It also handles security and is able to return a default value instead of raising an Unauthorized error:
>>> uid_brain = api.safe_getattr(brain, "UID") >>> uid_obj = api.safe_getattr(client, "UID") >>> uid_brain == uid_obj True >>> api.safe_getattr(brain, "review_state") 'active' >>> api.safe_getattr(brain, "NONEXISTING") Traceback (most recent call last): [...] SenaiteAPIError: Attribute 'NONEXISTING' not found. >>> api.safe_getattr(brain, "NONEXISTING", "") ''
Getting the Portal Catalog
This tool is needed so often, that this function just returns it:
>>> api.get_portal_catalog() <CatalogTool at /plone/portal_catalog>
Getting the Review History of an Object
The review history gives information about the objects’ workflow changes:
>>> review_history = api.get_review_history(client) >>> sorted(review_history[0].items()) [('action', None), ('actor', 'test_user_1_'), ('comments', ''), ('review_state', 'active'), ('time', DateTime('...'))]
Getting the Revision History of an Object
The review history gives information about the objects’ workflow changes:
>>> revision_history = api.get_revision_history(client) >>> sorted(revision_history[0]) ['action', 'actor', 'actor_home', 'actorid', 'comments', 'review_state', 'state_title', 'time', 'transition_title', 'type'] >>> revision_history[0]["transition_title"] u'Create'
Getting the assigned Workflows of an Object
This function returns all assigned workflows for a given object:
>>> api.get_workflows_for(bika_setup) ('bika_one_state_workflow',) >>> api.get_workflows_for(client) ('bika_client_workflow', 'bika_inactive_workflow')
This function also supports the portal_type as parameter:
>>> api.get_workflows_for(api.get_portal_type(client)) ('bika_client_workflow', 'bika_inactive_workflow')
Getting the Workflow Status of an Object
This function returns the state of a given object:
>>> api.get_workflow_status_of(client) 'active'
It is also capable to get the state of another state variable:
>>> api.get_workflow_status_of(client, "inactive_state") 'active'
Deactivate the client:
>>> api.do_transition_for(client, "deactivate") <Client at /plone/clients/client-1> >>> api.get_workflow_status_of(client, "inactive_state") 'inactive' >>> api.get_workflow_status_of(client) 'active'
Reactivate the client:
>>> api.do_transition_for(client, "activate") <Client at /plone/clients/client-1> >>> api.get_workflow_status_of(client, "inactive_state") 'active'
Getting the available transitions for an object
This function returns all possible transitions from all workflows in the object’s workflow chain.
Let’s create a Batch. It should allow us to invoke transitions from two workflows; ‘close’ from the bika_batch_workflow, and ‘cancel’ from the bika_cancellation_workflow:
>>> batch1 = api.create(portal.batches, "Batch", title="Test Batch") >>> transitions = api.get_transitions_for(batch1) >>> len(transitions) 2
The transitions are returned as a list of dictionaries. Since we cannot rely on the order of dictionary keys, we will have to satisfy ourselves here with checking that the two expected transitions are present in the return value:
>>> 'Close' in [t['title'] for t in transitions] True >>> 'Cancel' in [t['title'] for t in transitions] True
Getting the creation date of an object
This function returns the creation date of a given object:
>>> created = api.get_creation_date(client) >>> created DateTime('...')
Getting the modification date of an object
This function returns the modification date of a given object:
>>> modified = api.get_modification_date(client) >>> modified DateTime('...')
Getting the review state of an object
This function returns the review state of a given object:
>>> review_state = api.get_review_status(client) >>> review_state 'active'
It should also work for catalog brains:
>>> portal_catalog = api.get_tool("portal_catalog") >>> results = portal_catalog({"portal_type": "Client", "UID": api.get_uid(client)}) >>> len(results) 1 >>> api.get_review_status(results[0]) == review_state True
Getting the registered Catalogs of an Object
This function returns a list of all registered catalogs within the archetype_tool for a given portal_type or object:
>>> api.get_catalogs_for(client) [<CatalogTool at /plone/portal_catalog>]
It also supports the portal_type as a parameter:
>>> api.get_catalogs_for("Analysis") [<BikaAnalysisCatalog at /plone/bika_analysis_catalog>]
Transitioning an Object
This function performs a workflow transition and returns the object:
>>> client = api.do_transition_for(client, "deactivate") >>> api.is_active(client) False >>> client = api.do_transition_for(client, "activate") >>> api.is_active(client) True
Getting inactive/cancellation state of different workflows
There are two workflows allowing an object to be set inactive. We provide the is_active function to return False if an item is set inactive with either of these workflows.
In the search() test above, the is_active function’s handling of brain states is tested. Here, I just want to test if object states are handled correctly.
For setup types, we use bika_inctive_workflow:
>>> method1 = api.create(portal.methods, "Method", title="Test Method") >>> api.is_active(method1) True >>> method1 = api.do_transition_for(method1, 'deactivate') >>> api.is_active(method1) False
For transactional types, bika_cancellation_workflow is used:
>>> batch1 = api.create(portal.batches, "Batch", title="Test Batch") >>> api.is_active(batch1) True >>> batch1 = api.do_transition_for(batch1, 'cancel') >>> api.is_active(batch1) False
Getting the granted Roles for a certain Permission on an Object
This function returns a list of Roles, which are granted the given Permission for the passed in object:
>>> api.get_roles_for_permission("Modify portal content", bika_setup) ['LabManager', 'Manager']
Checking if an Object is Versionable
Some contents in Bika LIMS support versioning. This function checks this for you.
Instruments are not versionable:
>>> api.is_versionable(instrument1) False
Analysisservices are versionable:
>>> analysisservices = bika_setup.bika_analysisservices >>> analysisservice1 = api.create(analysisservices, "AnalysisService", title="AnalysisService-1") >>> analysisservice2 = api.create(analysisservices, "AnalysisService", title="AnalysisService-2") >>> analysisservice3 = api.create(analysisservices, "AnalysisService", title="AnalysisService-3") >>> api.is_versionable(analysisservice1) True
Getting the Version of an Object
This function returns the version as an integer:
>>> api.get_version(analysisservice1) 0
Calling processForm bumps the version:
>>> analysisservice1.processForm() >>> api.get_version(analysisservice1) 1
Getting a Browser View
Getting a browser view is a common task in Bika LIMS:
>>> api.get_view("plone") <Products.Five.metaclass.Plone object at 0x...> >>> api.get_view("workflow_action") <Products.Five.metaclass.WorkflowAction object at 0x...>
Getting the Request
This function will return the global request object:
>>> api.get_request() <HTTPRequest, URL=http://nohost>
Getting a Group
Users in Bika LIMS are managed in groups. A common group is the Clients group, where all users of client contacts are grouped. This function gives easy access and is also idempotent:
>>> clients_group = api.get_group("Clients") >>> clients_group <GroupData at /plone/portal_groupdata/Clients used for /plone/acl_users/source_groups> >>> api.get_group(clients_group) <GroupData at /plone/portal_groupdata/Clients used for /plone/acl_users/source_groups>
Non-existing groups are not found:
>>> api.get_group("NonExistingGroup")
Getting a User
Users can be fetched by their user id. The function is idempotent and handles user objects as well:
>>> from plone.app.testing import TEST_USER_ID >>> user = api.get_user(TEST_USER_ID) >>> user <MemberData at /plone/portal_memberdata/test_user_1_ used for /plone/acl_users> >>> api.get_user(api.get_user(TEST_USER_ID)) <MemberData at /plone/portal_memberdata/test_user_1_ used for /plone/acl_users>
Non-existing users are not found:
>>> api.get_user("NonExistingUser")
Getting User Properties
User properties, like the email or full name, are stored as user properties. This means that they are not on the user object. This function retrieves these properties for you:
>>> properties = api.get_user_properties(TEST_USER_ID) >>> sorted(properties.items()) [('description', ''), ('email', ''), ('error_log_update', 0.0), ('ext_editor', False), ...] >>> sorted(api.get_user_properties(user).items()) [('description', ''), ('email', ''), ('error_log_update', 0.0), ('ext_editor', False), ...]
An empty property dict is returned if no user could be found:
>>> api.get_user_properties("NonExistingUser") {} >>> api.get_user_properties(None) {}
Getting Users by their Roles
>>> from operator import methodcaller
Roles in Bika LIMS are basically a name for one or more permissions. For example, a LabManager describes a role which is granted the most permissions.
To see which users are granted a certain role, you can use this function:
>>> labmanagers = api.get_users_by_roles(["LabManager"]) >>> sorted(labmanagers, key=methodcaller('getId')) [<PloneUser 'test_labmanager'>, <PloneUser 'test_labmanager1'>, <PloneUser 'test-user'>]
A single value can also be passed into this function:
>>> sorted(api.get_users_by_roles("LabManager"), key=methodcaller('getId')) [<PloneUser 'test_labmanager'>, <PloneUser 'test_labmanager1'>, <PloneUser 'test-user'>]
Getting the Current User
Getting the current logged in user:
>>> api.get_current_user() <MemberData at /plone/portal_memberdata/test_user_1_ used for /plone/acl_users>
Getting the Contact associated to a Plone user
Getting a Plone user previously registered with no contact assigned:
>>> user = api.get_user('test_labmanager1') >>> contact = api.get_user_contact(user) >>> contact is None True
Assign a new contact to this user:
>>> labcontacts = bika_setup.bika_labcontacts >>> labcontact = api.create(labcontacts, "LabContact", Firstname="Lab", Lastname="Manager") >>> labcontact.setUser(user) True
And get the contact associated to the user:
>>> api.get_user_contact(user) <LabContact at /plone/bika_setup/bika_labcontacts/labcontact-1>
As well as if we specify only LabContact type:
>>> api.get_user_contact(user, ['LabContact']) <LabContact at /plone/bika_setup/bika_labcontacts/labcontact-1>
But fails if we specify only Contact type:
>>> nuser = api.get_user_contact(user, ['Contact']) >>> nuser is None True
Creating a Cache Key
This function creates a good cache key for a generic object or brain:
>>> key1 = api.get_cache_key(client) >>> key1 'Client-client-1-...'
This can be also done for a catalog result brain:
>>> portal_catalog = api.get_tool("portal_catalog") >>> brains = portal_catalog({"portal_type": "Client", "UID": api.get_uid(client)}) >>> key2 = api.get_cache_key(brains[0]) >>> key2 'Client-client-1-...'
The two keys should be equal:
>>> key1 == key2 True
The key should change when the object get modified:
>>> from zope.lifecycleevent import modified >>> client.setClientID("TESTCLIENT") >>> modified(client) >>> portal.aq_parent._p_jar.sync() >>> key3 = api.get_cache_key(client) >>> key3 != key1 True
A workflow transition should also change the cache key:
>>> _ = api.do_transition_for(client, transition="deactivate") >>> api.get_inactive_status(client) 'inactive' >>> key4 = api.get_cache_key(client) >>> key4 != key3 True
Cache Key decorator
This decorator can be used for plone.memoize cache decorators in classes. The decorator expects that the first argument is the class instance (self) and the second argument a brain or object:
>>> from plone.memoize.volatile import cache >>> class BikaClass(object): ... @cache(api.bika_cache_key_decorator) ... def get_very_expensive_calculation(self, obj): ... print "very expensive calculation" ... return "calculation result"
Calling the (expensive) method of the class does the calculation just once:
>>> instance = BikaClass() >>> instance.get_very_expensive_calculation(client) very expensive calculation 'calculation result' >>> instance.get_very_expensive_calculation(client) 'calculation result'
The decorator can also handle brains:
>>> instance = BikaClass() >>> portal_catalog = api.get_tool("portal_catalog") >>> brain = portal_catalog(portal_type="Client")[0] >>> instance.get_very_expensive_calculation(brain) very expensive calculation 'calculation result' >>> instance.get_very_expensive_calculation(brain) 'calculation result'
ID Normalizer
Normalizes a string to be usable as a system ID:
>>> api.normalize_id("My new ID") 'my-new-id' >>> api.normalize_id("Really/Weird:Name;") 'really-weird-name' >>> api.normalize_id(None) Traceback (most recent call last): [...] SenaiteAPIError: Type of argument must be string, found '<type 'NoneType'>'
File Normalizer
Normalizes a string to be usable as a file name:
>>> api.normalize_filename("My new ID") 'My new ID' >>> api.normalize_filename("Really/Weird:Name;") 'Really-Weird-Name' >>> api.normalize_filename(None) Traceback (most recent call last): [...] SenaiteAPIError: Type of argument must be string, found '<type 'NoneType'>'
Check if an UID is valid
Checks if an UID is a valid 23 alphanumeric uid:
>>> api.is_uid("ajw2uw9") False >>> api.is_uid(None) False >>> api.is_uid("") False >>> api.is_uid("0") False >>> api.is_uid('0e1dfc3d10d747bf999948a071bc161e') True
Checks if an UID is a valid 23 alphanumeric uid and with a brain:
>>> api.is_uid("ajw2uw9", validate=True) False >>> api.is_uid(None, validate=True) False >>> api.is_uid("", validate=True) False >>> api.is_uid("0", validate=True) False >>> api.is_uid('0e1dfc3d10d747bf999948a071bc161e', validate=True) False >>> asfolder = self.portal.bika_setup.bika_analysisservices >>> serv = api.create(asfolder, "AnalysisService", title="AS test") >>> serv.setKeyword("as_test") >>> uid = serv.UID() >>> api.is_uid(uid, validate=True) True
Check if a Date is valid
Do some imports first:
>>> from datetime import datetime >>> from DateTime import DateTime
Checks if a DateTime is valid:
>>> now = DateTime() >>> api.is_date(now) True >>> now = datetime.now() >>> api.is_date(now) True >>> now = DateTime(now) >>> api.is_date(now) True >>> api.is_date(None) False >>> api.is_date('2018-04-23') False
Try conversions to Date
Try to convert to DateTime:
>>> now = DateTime() >>> zpdt = api.to_date(now) >>> zpdt.ISO8601() == now.ISO8601() True >>> now = datetime.now() >>> zpdt = api.to_date(now) >>> pydt = zpdt.asdatetime()
Note that here, for the comparison between dates, we convert DateTime to python datetime, cause DateTime.strftime() is broken for timezones (always looks at system time zone, ignores the timezone and offset of the DateTime instance itself):
>>> pydt.strftime('%Y-%m-%dT%H:%M:%S') == now.strftime('%Y-%m-%dT%H:%M:%S') True
Try the same, but with utcnow() instead:
>>> now = datetime.utcnow() >>> zpdt = api.to_date(now) >>> pydt = zpdt.asdatetime() >>> pydt.strftime('%Y-%m-%dT%H:%M:%S') == now.strftime('%Y-%m-%dT%H:%M:%S') True
Now we convert just a string formatted date:
>>> strd = "2018-12-01 17:50:34" >>> zpdt = api.to_date(strd) >>> zpdt.ISO8601() '2018-12-01T17:50:34'
Now we convert just a string formatted date, but with timezone:
>>> strd = "2018-12-01 17:50:34 GMT+1" >>> zpdt = api.to_date(strd) >>> zpdt.ISO8601() '2018-12-01T17:50:34+01:00'
We also check a bad date here (note the month is 13):
>>> strd = "2018-13-01 17:50:34" >>> zpdt = api.to_date(strd) >>> api.is_date(zpdt) False
And with European format:
>>> strd = "01.12.2018 17:50:34" >>> zpdt = api.to_date(strd) >>> zpdt.ISO8601() '2018-12-01T17:50:34' >>> zpdt = api.to_date(None) >>> zpdt is None True
Use a string formatted date as fallback:
>>> strd = "2018-13-01 17:50:34" >>> default_date = "2018-01-01 19:30:30" >>> zpdt = api.to_date(strd, default_date) >>> zpdt.ISO8601() '2018-01-01T19:30:30'
Use a DateTime object as fallback:
>>> strd = "2018-13-01 17:50:34" >>> default_date = "2018-01-01 19:30:30" >>> default_date = api.to_date(default_date) >>> zpdt = api.to_date(strd, default_date) >>> zpdt.ISO8601() == default_date.ISO8601() True
Use a datetime object as fallback:
>>> strd = "2018-13-01 17:50:34" >>> default_date = datetime.now() >>> zpdt = api.to_date(strd, default_date) >>> dzpdt = api.to_date(default_date) >>> zpdt.ISO8601() == dzpdt.ISO8601() True
Use a non-conversionable value as fallback:
>>> strd = "2018-13-01 17:50:34" >>> default_date = "something wrong here" >>> zpdt = api.to_date(strd, default_date) >>> zpdt is None True
Check if floatable
>>> api.is_floatable(None) False >>> api.is_floatable("") False >>> api.is_floatable("31") True >>> api.is_floatable("31.23") True >>> api.is_floatable("-13") True >>> api.is_floatable("12,35") False
Convert to a float number
>>> api.to_float("2") 2.0 >>> api.to_float("2.234") 2.234
With default fallback:
>>> api.to_float(None, 2) 2.0 >>> api.to_float(None, "2") 2.0 >>> api.to_float("", 2) 2.0 >>> api.to_float("", "2") 2.0 >>> api.to_float(2.1, 2) 2.1 >>> api.to_float("2.1", 2) 2.1 >>> api.to_float("2.1", "2") 2.1
API Analysis
The api_analysis provides single functions for single purposes especifically related with analyses.
Running this test from the buildout directory:
bin/test test_textual_doctests -t API_analysis
Test Setup
Needed Imports:
>>> import re >>> from AccessControl.PermissionRole import rolesForPermissionOn >>> from bika.lims import api >>> from bika.lims.api.analysis import is_out_of_range >>> from bika.lims.content.analysisrequest import AnalysisRequest >>> from bika.lims.content.sample import Sample >>> from bika.lims.content.samplepartition import SamplePartition >>> from bika.lims.utils.analysisrequest import create_analysisrequest >>> from bika.lims.utils.sample import create_sample >>> from bika.lims.utils import tmpID >>> from bika.lims.workflow import doActionFor >>> from bika.lims.workflow import getCurrentState >>> from bika.lims.workflow import getAllowedTransitions >>> from DateTime import DateTime >>> from plone.app.testing import TEST_USER_ID >>> from plone.app.testing import TEST_USER_PASSWORD >>> from plone.app.testing import setRoles
Functional Helpers:
>>> def start_server(): ... from Testing.ZopeTestCase.utils import startZServer ... ip, port = startZServer() ... return "http://{}:{}/{}".format(ip, port, portal.id)
Variables:
>>> portal = self.portal >>> request = self.request >>> bikasetup = portal.bika_setup
We need to create some basic objects for the test:
>>> setRoles(portal, TEST_USER_ID, ['LabManager',]) >>> date_now = DateTime().strftime("%Y-%m-%d") >>> date_future = (DateTime() + 5).strftime("%Y-%m-%d") >>> client = api.create(portal.clients, "Client", Name="Happy Hills", ClientID="HH", MemberDiscountApplies=True) >>> contact = api.create(client, "Contact", Firstname="Rita", Lastname="Mohale") >>> sampletype = api.create(bikasetup.bika_sampletypes, "SampleType", title="Water", Prefix="W") >>> labcontact = api.create(bikasetup.bika_labcontacts, "LabContact", Firstname="Lab", Lastname="Manager") >>> department = api.create(bikasetup.bika_departments, "Department", title="Chemistry", Manager=labcontact) >>> category = api.create(bikasetup.bika_analysiscategories, "AnalysisCategory", title="Metals", Department=department) >>> supplier = api.create(bikasetup.bika_suppliers, "Supplier", Name="Naralabs") >>> Cu = api.create(bikasetup.bika_analysisservices, "AnalysisService", title="Copper", Keyword="Cu", Price="15", Category=category.UID(), DuplicateVariation="0.5") >>> Fe = api.create(bikasetup.bika_analysisservices, "AnalysisService", title="Iron", Keyword="Fe", Price="10", Category=category.UID(), DuplicateVariation="0.5") >>> Au = api.create(bikasetup.bika_analysisservices, "AnalysisService", title="Gold", Keyword="Au", Price="20", Category=category.UID(), DuplicateVariation="0.5") >>> Mg = api.create(bikasetup.bika_analysisservices, "AnalysisService", title="Magnesium", Keyword="Mg", Price="20", Category=category.UID(), DuplicateVariation="0.5") >>> service_uids = [api.get_uid(an) for an in [Cu, Fe, Au, Mg]]
Create an Analysis Specification for Water:
>>> sampletype_uid = api.get_uid(sampletype) >>> rr1 = {"keyword": "Au", "min": "-5", "max": "5", "warn_min": "-5.5", "warn_max": "5.5"} >>> rr2 = {"keyword": "Cu", "min": "10", "max": "20", "warn_min": "9.5", "warn_max": "20.5"} >>> rr3 = {"keyword": "Fe", "min": "0", "max": "10", "warn_min": "-0.5", "warn_max": "10.5"} >>> rr4 = {"keyword": "Mg", "min": "10", "max": "10"} >>> rr = [rr1, rr2, rr3, rr4] >>> specification = api.create(bikasetup.bika_analysisspecs, "AnalysisSpec", title="Lab Water Spec", SampleType=sampletype_uid, ResultsRange=rr) >>> spec_uid = api.get_uid(specification)
Create a Reference Definition for blank:
>>> blankdef = api.create(bikasetup.bika_referencedefinitions, "ReferenceDefinition", title="Blank definition", Blank=True) >>> blank_refs = [{'uid': Au.UID(), 'result': '0', 'min': '0', 'max': '0'},] >>> blankdef.setReferenceResults(blank_refs)
And for control:
>>> controldef = api.create(bikasetup.bika_referencedefinitions, "ReferenceDefinition", title="Control definition") >>> control_refs = [{'uid': Au.UID(), 'result': '10', 'min': '9.99', 'max': '10.01'}, ... {'uid': Cu.UID(), 'result': '-0.9','min': '-1.08', 'max': '-0.72'},] >>> controldef.setReferenceResults(control_refs) >>> blank = api.create(supplier, "ReferenceSample", title="Blank", ... ReferenceDefinition=blankdef, ... Blank=True, ExpiryDate=date_future, ... ReferenceResults=blank_refs) >>> control = api.create(supplier, "ReferenceSample", title="Control", ... ReferenceDefinition=controldef, ... Blank=False, ExpiryDate=date_future, ... ReferenceResults=control_refs)
Create an Analysis Request:
>>> values = { ... 'Client': api.get_uid(client), ... 'Contact': api.get_uid(contact), ... 'DateSampled': date_now, ... 'SampleType': sampletype_uid, ... 'Specification': spec_uid, ... 'Priority': '1', ... } >>> ar = create_analysisrequest(client, request, values, service_uids) >>> success = doActionFor(ar, 'receive')
Create a new Worksheet and add the analyses:
>>> worksheet = api.create(portal.worksheets, "Worksheet") >>> analyses = map(api.get_object, ar.getAnalyses()) >>> for analysis in analyses: ... worksheet.addAnalysis(analysis)
Add a duplicate for Cu:
>>> position = worksheet.get_slot_position(ar, 'a') >>> duplicates = worksheet.addDuplicateAnalyses(position) >>> duplicates.sort(key=lambda analysis: analysis.getKeyword(), reverse=False)
Add a blank and a control:
>>> blanks = worksheet.addReferenceAnalyses(blank, service_uids) >>> blanks.sort(key=lambda analysis: analysis.getKeyword(), reverse=False) >>> controls = worksheet.addReferenceAnalyses(control, service_uids) >>> controls.sort(key=lambda analysis: analysis.getKeyword(), reverse=False)
Check if results are out of range
First, get the analyses from slot 1 and sort them asc:
>>> analyses = worksheet.get_analyses_at(1) >>> analyses.sort(key=lambda analysis: analysis.getKeyword(), reverse=False)
Set results for analysis Au (min: -5, max: 5, warn_min: -5.5, warn_max: 5.5):
>>> au_analysis = analyses[0] >>> au_analysis.setResult(2) >>> is_out_of_range(au_analysis) (False, False) >>> au_analysis.setResult(-2) >>> is_out_of_range(au_analysis) (False, False) >>> au_analysis.setResult(-5) >>> is_out_of_range(au_analysis) (False, False) >>> au_analysis.setResult(5) >>> is_out_of_range(au_analysis) (False, False) >>> au_analysis.setResult(10) >>> is_out_of_range(au_analysis) (True, True) >>> au_analysis.setResult(-10) >>> is_out_of_range(au_analysis) (True, True)
Results in shoulders?:
>>> au_analysis.setResult(-5.2) >>> is_out_of_range(au_analysis) (True, False) >>> au_analysis.setResult(-5.5) >>> is_out_of_range(au_analysis) (True, False) >>> au_analysis.setResult(-5.6) >>> is_out_of_range(au_analysis) (True, True) >>> au_analysis.setResult(5.2) >>> is_out_of_range(au_analysis) (True, False) >>> au_analysis.setResult(5.5) >>> is_out_of_range(au_analysis) (True, False) >>> au_analysis.setResult(5.6) >>> is_out_of_range(au_analysis) (True, True)
Check if results for duplicates are out of range
Get the first duplicate analysis that comes from Au:
>>> duplicate = duplicates[0]
A Duplicate will be considered out of range if its result does not match with the result set to the analysis that was duplicated from, with the Duplicate Variation in % as the margin error. The Duplicate Variation assigned in the Analysis Service Au is 0.5%:
>>> dup_variation = au_analysis.getDuplicateVariation() >>> dup_variation = api.to_float(dup_variation) >>> dup_variation 0.5
Set an in-range result (between -5 and 5) for routine analysis and check all variants on it’s duplicate. Given that the duplicate variation is 0.5, the valid range for the duplicate must be Au +-0.5%:
>>> result = 2.0 >>> au_analysis.setResult(result) >>> is_out_of_range(au_analysis) (False, False) >>> duplicate.setResult(result) >>> is_out_of_range(duplicate) (False, False) >>> dup_min_range = result - (result*(dup_variation/100)) >>> duplicate.setResult(dup_min_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_min_range - 0.5) >>> is_out_of_range(duplicate) (True, True) >>> dup_max_range = result + (result*(dup_variation/100)) >>> duplicate.setResult(dup_max_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_max_range + 0.5) >>> is_out_of_range(duplicate) (True, True)
Set an out-of-range result, but within shoulders, for routine analysis and check all variants on it’s duplicate. Given that the duplicate variation is 0.5, the valid range for the duplicate must be Au +-0.5%:
>>> result = 5.5 >>> au_analysis.setResult(result) >>> is_out_of_range(au_analysis) (True, False) >>> duplicate.setResult(result) >>> is_out_of_range(duplicate) (False, False) >>> dup_min_range = result - (result*(dup_variation/100)) >>> duplicate.setResult(dup_min_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_min_range - 0.5) >>> is_out_of_range(duplicate) (True, True) >>> dup_max_range = result + (result*(dup_variation/100)) >>> duplicate.setResult(dup_max_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_max_range + 0.5) >>> is_out_of_range(duplicate) (True, True)
Set an out-of-range and out-of-shoulders result, for routine analysis and check all variants on it’s duplicate. Given that the duplicate variation is 0.5, the valid range for the duplicate must be Au +-0.5%:
>>> result = -7.0 >>> au_analysis.setResult(result) >>> is_out_of_range(au_analysis) (True, True) >>> duplicate.setResult(result) >>> is_out_of_range(duplicate) (False, False) >>> dup_min_range = result - (abs(result)*(dup_variation/100)) >>> duplicate.setResult(dup_min_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_min_range - 0.5) >>> is_out_of_range(duplicate) (True, True) >>> dup_max_range = result + (abs(result)*(dup_variation/100)) >>> duplicate.setResult(dup_max_range) >>> is_out_of_range(duplicate) (False, False) >>> duplicate.setResult(dup_max_range + 0.5) >>> is_out_of_range(duplicate) (True, True)
Check if results for Reference Analyses (blanks + controls) are out of range
Reference Analyses (controls and blanks) do not use the result ranges defined in the specifications, rather they use the result range defined in the Reference Sample they have been generated from. In turn, the result ranges defined in Reference Samples can be set manually or acquired from the Reference Definition they might be associated with. Another difference from routine analyses is that reference analyses don’t expect a valid range, rather a discrete value, so shoulders are built based on % error.
Blank Analyses
The first blank analysis corresponds to Au:
>>> au_blank = blanks[0]
For Au blank, as per the reference definition used above, the expected result is 0 +/- 0.1%. Since the expected result is 0, no shoulders will be considered regardless of the % of error. Thus, result will always be “out-of-shoulders” when out of range:
>>> au_blank.setResult(0.0) >>> is_out_of_range(au_blank) (False, False) >>> au_blank.setResult("0") >>> is_out_of_range(au_blank) (False, False) >>> au_blank.setResult(0.0001) >>> is_out_of_range(au_blank) (True, True) >>> au_blank.setResult("0.0001") >>> is_out_of_range(au_blank) (True, True) >>> au_blank.setResult(-0.0001) >>> is_out_of_range(au_blank) (True, True) >>> au_blank.setResult("-0.0001") >>> is_out_of_range(au_blank) (True, True)
Control Analyses
The first control analysis corresponds to Au:
>>> au_control = controls[0]
For Au control, as per the reference definition used above, the expected result is 10 +/- 0.1% = 10 +/- 0.01
First, check for in-range values:
>>> au_control.setResult(10) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult(10.0) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("10") >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("10.0") >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult(9.995) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("9.995") >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult(10.005) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("10.005") >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult(9.99) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("9.99") >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult(10.01) >>> is_out_of_range(au_control) (False, False) >>> au_control.setResult("10.01") >>> is_out_of_range(au_control) (False, False)
Now, check for out-of-range results:
>>> au_control.setResult(9.98) >>> is_out_of_range(au_control) (True, True) >>> au_control.setResult("9.98") >>> is_out_of_range(au_control) (True, True) >>> au_control.setResult(10.011) >>> is_out_of_range(au_control) (True, True) >>> au_control.setResult("10.011") >>> is_out_of_range(au_control) (True, True)
And do the same with the control for Cu that expects -0.9 +/- 20%:
>>> cu_control = controls[1]
First, check for in-range values:
>>> cu_control.setResult(-0.9) >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult("-0.9") >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult(-1.08) >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult("-1.08") >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult(-1.07) >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult("-1.07") >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult(-0.72) >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult("-0.72") >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult(-0.73) >>> is_out_of_range(cu_control) (False, False) >>> cu_control.setResult("-0.73") >>> is_out_of_range(cu_control) (False, False)
Now, check for out-of-range results:
>>> cu_control.setResult(0) >>> is_out_of_range(cu_control) (True, True) >>> cu_control.setResult("0") >>> is_out_of_range(cu_control) (True, True) >>> cu_control.setResult(-0.71) >>> is_out_of_range(cu_control) (True, True) >>> cu_control.setResult("-0.71") >>> is_out_of_range(cu_control) (True, True) >>> cu_control.setResult(-1.09) >>> is_out_of_range(cu_control) (True, True) >>> cu_control.setResult("-1.09") >>> is_out_of_range(cu_control) (True, True)
Changelog
1.2.3 (2018-06-23)
More PyPI fixtures
1.2.2 (2018-06-23)
PyPI Documentation Page fixtures
1.2.1 (2018-06-23)
Better Documentation Page for PyPI
Fixed formatting of Doctests
1.2.0 (2018-06-23)
Added
Added is_uid function
Removed
Changed
Added SENAITE CORE API functions
Fixed
Fixed Tests
Security
1.1.0 (2018-01-03)
Added
Removed
Changed
License changed to GPLv2
Integration to SENAITE CORE
Fixed
Fixed Tests
Security
1.0.2 (2017-11-24)
#397(bika.lims) Fix Issue-396: AttributeError: uid_catalog on AR publication
1.0.1 (2017-09-30)
Fixed broken release (missing MANIFEST.in)
1.0.0 (2017-09-30)
First release
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