"""Use the Public API to export or update data that you have saved to W&B. Before using this API, you'll want to log data from your script — check the [Quickstart](https://docs.wandb.ai/quickstart) for more details. You might use the Public API to - update metadata or metrics for an experiment after it has been completed, - pull down your results as a dataframe for post-hoc analysis in a Jupyter notebook, or - check your saved model artifacts for those tagged as `ready-to-deploy`. For more on using the Public API, check out [our guide](https://docs.wandb.com/guides/track/public-api-guide). """ import json import logging import os import urllib from http import HTTPStatus from typing import ( TYPE_CHECKING, Any, Dict, Iterator, List, Literal, Optional, Set, Union, ) import requests from pydantic import ValidationError from typing_extensions import Unpack from wandb_gql import Client, gql from wandb_gql.client import RetryError import wandb from wandb import env, util from wandb._iterutils import one from wandb.apis import public from wandb.apis.normalize import normalize_exceptions from wandb.apis.public.const import RETRY_TIMEDELTA from wandb.apis.public.registries.registries_search import Registries from wandb.apis.public.registries.registry import Registry from wandb.apis.public.registries.utils import _fetch_org_entity_from_organization from wandb.apis.public.utils import ( PathType, fetch_org_from_settings_or_entity, gql_compat, parse_org_from_registry_path, ) from wandb.proto.wandb_deprecated import Deprecated from wandb.proto.wandb_internal_pb2 import ServerFeature from wandb.sdk.artifacts._validators import is_artifact_registry_project from wandb.sdk.internal.internal_api import Api as InternalApi from wandb.sdk.internal.thread_local_settings import _thread_local_api_settings from wandb.sdk.launch.utils import LAUNCH_DEFAULT_PROJECT from wandb.sdk.lib import retry, runid from wandb.sdk.lib.deprecate import deprecate from wandb.sdk.lib.gql_request import GraphQLSession if TYPE_CHECKING: from wandb.automations import ( ActionType, Automation, EventType, Integration, NewAutomation, SlackIntegration, WebhookIntegration, ) from wandb.automations._utils import WriteAutomationsKwargs logger = logging.getLogger(__name__) class RetryingClient: INFO_QUERY = gql( """ query ServerInfo{ serverInfo { cliVersionInfo latestLocalVersionInfo { outOfDate latestVersionString versionOnThisInstanceString } } } """ ) def __init__(self, client: Client): self._server_info = None self._client = client @property def app_url(self): return util.app_url(self._client.transport.url.replace("/graphql", "")) + "/" @retry.retriable( retry_timedelta=RETRY_TIMEDELTA, check_retry_fn=util.no_retry_auth, retryable_exceptions=(RetryError, requests.RequestException), ) def execute( self, *args, **kwargs ): # User not encouraged to use this class directly try: return self._client.execute(*args, **kwargs) except requests.exceptions.ReadTimeout: if "timeout" not in kwargs: timeout = self._client.transport.default_timeout wandb.termwarn( f"A graphql request initiated by the public wandb API timed out (timeout={timeout} sec). " f"Create a new API with an integer timeout larger than {timeout}, e.g., `api = wandb.Api(timeout={timeout + 10})` " f"to increase the graphql timeout." ) raise @property def server_info(self): if self._server_info is None: self._server_info = self.execute(self.INFO_QUERY).get("serverInfo") return self._server_info def version_supported( self, min_version: str ) -> bool: # User not encouraged to use this class directly from packaging.version import parse return parse(min_version) <= parse( self.server_info["cliVersionInfo"]["max_cli_version"] ) class Api: """Used for querying the wandb server. Examples: Most common way to initialize >>> wandb.Api() Args: overrides: (dict) You can set `base_url` if you are using a wandb server other than https://api.wandb.ai. You can also set defaults for `entity`, `project`, and `run`. """ _HTTP_TIMEOUT = env.get_http_timeout(19) DEFAULT_ENTITY_QUERY = gql( """ query Viewer{ viewer { id entity } } """ ) VIEWER_QUERY = gql( """ query Viewer{ viewer { id flags entity username email admin apiKeys { edges { node { id name description } } } teams { edges { node { name } } } } } """ ) USERS_QUERY = gql( """ query SearchUsers($query: String) { users(query: $query) { edges { node { id flags entity admin email deletedAt username apiKeys { edges { node { id name description } } } teams { edges { node { name } } } } } } } """ ) CREATE_PROJECT = gql( """ mutation upsertModel( $description: String $entityName: String $id: String $name: String $framework: String $access: String $views: JSONString ) { upsertModel( input: { description: $description entityName: $entityName id: $id name: $name framework: $framework access: $access views: $views } ) { project { id name entityName description access views } model { id name entityName description access views } inserted } } """ ) def __init__( self, overrides: Optional[Dict[str, Any]] = None, timeout: Optional[int] = None, api_key: Optional[str] = None, ) -> None: self.settings = InternalApi().settings() _overrides = overrides or {} self.settings.update(_overrides) self.settings["base_url"] = self.settings["base_url"].rstrip("/") if "organization" in _overrides: self.settings["organization"] = _overrides["organization"] if "username" in _overrides and "entity" not in _overrides: wandb.termwarn( 'Passing "username" to Api is deprecated. please use "entity" instead.' ) self.settings["entity"] = _overrides["username"] self._api_key = api_key if self.api_key is None and _thread_local_api_settings.cookies is None: wandb.login(host=_overrides.get("base_url")) self._viewer = None self._projects = {} self._runs = {} self._sweeps = {} self._reports = {} self._default_entity = None self._timeout = timeout if timeout is not None else self._HTTP_TIMEOUT auth = None if not _thread_local_api_settings.cookies: auth = ("api", self.api_key) proxies = self.settings.get("_proxies") or json.loads( os.environ.get("WANDB__PROXIES", "{}") ) self._base_client = Client( transport=GraphQLSession( headers={ "User-Agent": self.user_agent, "Use-Admin-Privileges": "true", **(_thread_local_api_settings.headers or {}), }, use_json=True, # this timeout won't apply when the DNS lookup fails. in that case, it will be 60s # https://bugs.python.org/issue22889 timeout=self._timeout, auth=auth, url="{}/graphql".format(self.settings["base_url"]), cookies=_thread_local_api_settings.cookies, proxies=proxies, ) ) self._client = RetryingClient(self._base_client) def create_project(self, name: str, entity: str) -> None: """Create a new project. Args: name: (str) The name of the new project. entity: (str) The entity of the new project. """ self.client.execute(self.CREATE_PROJECT, {"entityName": entity, "name": name}) def create_run( self, *, run_id: Optional[str] = None, project: Optional[str] = None, entity: Optional[str] = None, ) -> "public.Run": """Create a new run. Args: run_id: (str, optional) The ID to assign to the run, if given. The run ID is automatically generated by default, so in general, you do not need to specify this and should only do so at your own risk. project: (str, optional) If given, the project of the new run. entity: (str, optional) If given, the entity of the new run. Returns: The newly created `Run`. """ if entity is None: entity = self.default_entity return public.Run.create(self, run_id=run_id, project=project, entity=entity) def create_run_queue( self, name: str, type: "public.RunQueueResourceType", entity: Optional[str] = None, prioritization_mode: Optional["public.RunQueuePrioritizationMode"] = None, config: Optional[dict] = None, template_variables: Optional[dict] = None, ) -> "public.RunQueue": """Create a new run queue (launch). Args: name: (str) Name of the queue to create type: (str) Type of resource to be used for the queue. One of "local-container", "local-process", "kubernetes", "sagemaker", or "gcp-vertex". entity: (str) Optional name of the entity to create the queue. If None, will use the configured or default entity. prioritization_mode: (str) Optional version of prioritization to use. Either "V0" or None config: (dict) Optional default resource configuration to be used for the queue. Use handlebars (eg. `{{var}}`) to specify template variables. template_variables: (dict) A dictionary of template variable schemas to be used with the config. Expected format of: `{ "var-name": { "schema": { "type": ("string", "number", or "integer"), "default": (optional value), "minimum": (optional minimum), "maximum": (optional maximum), "enum": [..."(options)"] } } }` Returns: The newly created `RunQueue` Raises: ValueError if any of the parameters are invalid wandb.Error on wandb API errors """ # TODO(np): Need to check server capabilities for this feature # 0. assert params are valid/normalized if entity is None: entity = self.settings["entity"] or self.default_entity if entity is None: raise ValueError( "entity must be passed as a parameter, or set in settings" ) if len(name) == 0: raise ValueError("name must be non-empty") if len(name) > 64: raise ValueError("name must be less than 64 characters") if type not in [ "local-container", "local-process", "kubernetes", "sagemaker", "gcp-vertex", ]: raise ValueError( "resource_type must be one of 'local-container', 'local-process', 'kubernetes', 'sagemaker', or 'gcp-vertex'" ) if prioritization_mode: prioritization_mode = prioritization_mode.upper() if prioritization_mode not in ["V0"]: raise ValueError("prioritization_mode must be 'V0' if present") if config is None: config = {} # 1. create required default launch project in the entity self.create_project(LAUNCH_DEFAULT_PROJECT, entity) api = InternalApi( default_settings={ "entity": entity, "project": self.project(LAUNCH_DEFAULT_PROJECT), }, retry_timedelta=RETRY_TIMEDELTA, ) # 2. create default resource config, receive config id config_json = json.dumps({"resource_args": {type: config}}) create_config_result = api.create_default_resource_config( entity, type, config_json, template_variables ) if not create_config_result["success"]: raise wandb.Error("failed to create default resource config") config_id = create_config_result["defaultResourceConfigID"] # 3. create run queue create_queue_result = api.create_run_queue( entity, LAUNCH_DEFAULT_PROJECT, name, "PROJECT", prioritization_mode, config_id, ) if not create_queue_result["success"]: raise wandb.Error("failed to create run queue") return public.RunQueue( client=self.client, name=name, entity=entity, prioritization_mode=prioritization_mode, _access="PROJECT", _default_resource_config_id=config_id, _default_resource_config=config, ) def upsert_run_queue( self, name: str, resource_config: dict, resource_type: "public.RunQueueResourceType", entity: Optional[str] = None, template_variables: Optional[dict] = None, external_links: Optional[dict] = None, prioritization_mode: Optional["public.RunQueuePrioritizationMode"] = None, ): """Upsert a run queue (launch). Args: name: (str) Name of the queue to create entity: (str) Optional name of the entity to create the queue. If None, will use the configured or default entity. resource_config: (dict) Optional default resource configuration to be used for the queue. Use handlebars (eg. `{{var}}`) to specify template variables. resource_type: (str) Type of resource to be used for the queue. One of "local-container", "local-process", "kubernetes", "sagemaker", or "gcp-vertex". template_variables: (dict) A dictionary of template variable schemas to be used with the config. Expected format of: `{ "var-name": { "schema": { "type": ("string", "number", or "integer"), "default": (optional value), "minimum": (optional minimum), "maximum": (optional maximum), "enum": [..."(options)"] } } }` external_links: (dict) Optional dictionary of external links to be used with the queue. Expected format of: `{ "name": "url" }` prioritization_mode: (str) Optional version of prioritization to use. Either "V0" or None Returns: The upserted `RunQueue`. Raises: ValueError if any of the parameters are invalid wandb.Error on wandb API errors """ if entity is None: entity = self.settings["entity"] or self.default_entity if entity is None: raise ValueError( "entity must be passed as a parameter, or set in settings" ) if len(name) == 0: raise ValueError("name must be non-empty") if len(name) > 64: raise ValueError("name must be less than 64 characters") prioritization_mode = prioritization_mode or "DISABLED" prioritization_mode = prioritization_mode.upper() if prioritization_mode not in ["V0", "DISABLED"]: raise ValueError( "prioritization_mode must be 'V0' or 'DISABLED' if present" ) if resource_type not in [ "local-container", "local-process", "kubernetes", "sagemaker", "gcp-vertex", ]: raise ValueError( "resource_type must be one of 'local-container', 'local-process', 'kubernetes', 'sagemaker', or 'gcp-vertex'" ) self.create_project(LAUNCH_DEFAULT_PROJECT, entity) api = InternalApi( default_settings={ "entity": entity, "project": self.project(LAUNCH_DEFAULT_PROJECT), }, retry_timedelta=RETRY_TIMEDELTA, ) # User provides external_links as a dict with name: url format # but backend stores it as a list of dicts with url and label keys. external_links = external_links or {} external_links = { "links": [ { "label": key, "url": value, } for key, value in external_links.items() ] } upsert_run_queue_result = api.upsert_run_queue( name, entity, resource_type, {"resource_args": {resource_type: resource_config}}, template_variables=template_variables, external_links=external_links, prioritization_mode=prioritization_mode, ) if not upsert_run_queue_result["success"]: raise wandb.Error("failed to create run queue") schema_errors = ( upsert_run_queue_result.get("configSchemaValidationErrors") or [] ) for error in schema_errors: wandb.termwarn(f"resource config validation: {error}") return public.RunQueue( client=self.client, name=name, entity=entity, ) def create_user(self, email, admin=False): """Create a new user. Args: email: (str) The email address of the user admin: (bool) Whether this user should be a global instance admin Returns: A `User` object """ return public.User.create(self, email, admin) def sync_tensorboard(self, root_dir, run_id=None, project=None, entity=None): """Sync a local directory containing tfevent files to wandb.""" from wandb.sync import SyncManager # TODO: circular import madness run_id = run_id or runid.generate_id() project = project or self.settings.get("project") or "uncategorized" entity = entity or self.default_entity # TODO: pipe through log_path to inform the user how to debug sm = SyncManager( project=project, entity=entity, run_id=run_id, mark_synced=False, app_url=self.client.app_url, view=False, verbose=False, sync_tensorboard=True, ) sm.add(root_dir) sm.start() while not sm.is_done(): _ = sm.poll() return self.run("/".join([entity, project, run_id])) @property def client(self) -> RetryingClient: return self._client @property def user_agent(self) -> str: return "W&B Public Client {}".format(wandb.__version__) @property def api_key(self) -> Optional[str]: # just use thread local api key if it's set if _thread_local_api_settings.api_key: return _thread_local_api_settings.api_key if self._api_key is not None: return self._api_key auth = requests.utils.get_netrc_auth(self.settings["base_url"]) key = None if auth: key = auth[-1] # Environment should take precedence if os.getenv("WANDB_API_KEY"): key = os.environ["WANDB_API_KEY"] self._api_key = key # memoize key return key @property def default_entity(self) -> Optional[str]: if self._default_entity is None: res = self._client.execute(self.DEFAULT_ENTITY_QUERY) self._default_entity = (res.get("viewer") or {}).get("entity") return self._default_entity @property def viewer(self) -> "public.User": if self._viewer is None: self._viewer = public.User( self._client, self._client.execute(self.VIEWER_QUERY).get("viewer") ) self._default_entity = self._viewer.entity return self._viewer def flush(self): """Flush the local cache. The api object keeps a local cache of runs, so if the state of the run may change while executing your script you must clear the local cache with `api.flush()` to get the latest values associated with the run. """ self._runs = {} def from_path(self, path): """Return a run, sweep, project or report from a path. Examples: ``` project = api.from_path("my_project") team_project = api.from_path("my_team/my_project") run = api.from_path("my_team/my_project/runs/id") sweep = api.from_path("my_team/my_project/sweeps/id") report = api.from_path("my_team/my_project/reports/My-Report-Vm11dsdf") ``` Args: path: (str) The path to the project, run, sweep or report Returns: A `Project`, `Run`, `Sweep`, or `BetaReport` instance. Raises: wandb.Error if path is invalid or the object doesn't exist """ parts = path.strip("/ ").split("/") if len(parts) == 1: return self.project(path) elif len(parts) == 2: return self.project(parts[1], parts[0]) elif len(parts) == 3: return self.run(path) elif len(parts) == 4: if parts[2].startswith("run"): return self.run(path) elif parts[2].startswith("sweep"): return self.sweep(path) elif parts[2].startswith("report"): if "--" not in parts[-1]: if "-" in parts[-1]: raise wandb.Error( "Invalid report path, should be team/project/reports/Name--XXXX" ) else: parts[-1] = "--" + parts[-1] name, id = parts[-1].split("--") return public.BetaReport( self.client, { "display_name": urllib.parse.unquote(name.replace("-", " ")), "id": id, "spec": "{}", }, parts[0], parts[1], ) raise wandb.Error( "Invalid path, should be TEAM/PROJECT/TYPE/ID where TYPE is runs, sweeps, or reports" ) def _parse_project_path(self, path): """Return project and entity for project specified by path.""" project = self.settings["project"] or "uncategorized" entity = self.settings["entity"] or self.default_entity if path is None: return entity, project parts = path.split("/", 1) if len(parts) == 1: return entity, path return parts def _parse_path(self, path): """Parse url, filepath, or docker paths. Allows paths in the following formats: - url: entity/project/runs/id - path: entity/project/id - docker: entity/project:id Entity is optional and will fall back to the current logged-in user. """ project = self.settings["project"] or "uncategorized" entity = self.settings["entity"] or self.default_entity parts = ( path.replace("/runs/", "/").replace("/sweeps/", "/").strip("/ ").split("/") ) if ":" in parts[-1]: id = parts[-1].split(":")[-1] parts[-1] = parts[-1].split(":")[0] elif parts[-1]: id = parts[-1] if len(parts) == 1 and project != "uncategorized": pass elif len(parts) > 1: project = parts[1] if entity and id == project: project = parts[0] else: entity = parts[0] if len(parts) == 3: entity = parts[0] else: project = parts[0] return entity, project, id def _parse_artifact_path(self, path): """Return project, entity and artifact name for project specified by path.""" project = self.settings["project"] or "uncategorized" entity = self.settings["entity"] or self.default_entity if path is None: return entity, project path, colon, alias = path.partition(":") full_alias = colon + alias parts = path.split("/") if len(parts) > 3: raise ValueError("Invalid artifact path: {}".format(path)) elif len(parts) == 1: return entity, project, path + full_alias elif len(parts) == 2: return entity, parts[0], parts[1] + full_alias parts[-1] += full_alias return parts def projects( self, entity: Optional[str] = None, per_page: int = 200 ) -> "public.Projects": """Get projects for a given entity. Args: entity: (str) Name of the entity requested. If None, will fall back to the default entity passed to `Api`. If no default entity, will raise a `ValueError`. per_page: (int) Sets the page size for query pagination. Usually there is no reason to change this. Returns: A `Projects` object which is an iterable collection of `Project` objects. """ if entity is None: entity = self.settings["entity"] or self.default_entity if entity is None: raise ValueError( "entity must be passed as a parameter, or set in settings" ) if entity not in self._projects: self._projects[entity] = public.Projects( self.client, entity, per_page=per_page ) return self._projects[entity] def project(self, name: str, entity: Optional[str] = None) -> "public.Project": """Return the `Project` with the given name (and entity, if given). Args: name: (str) The project name. entity: (str) Name of the entity requested. If None, will fall back to the default entity passed to `Api`. If no default entity, will raise a `ValueError`. Returns: A `Project` object. """ # For registry artifacts, capture potential org user inputted before resolving entity org = entity if is_artifact_registry_project(name) else "" if entity is None: entity = self.settings["entity"] or self.default_entity # For registry artifacts, resolve org-based entity if is_artifact_registry_project(name): settings_entity = self.settings["entity"] or self.default_entity entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) return public.Project(self.client, entity, name, {}) def reports( self, path: str = "", name: Optional[str] = None, per_page: int = 50 ) -> "public.Reports": """Get reports for a given project path. WARNING: This api is in beta and will likely change in a future release Args: path: (str) path to project the report resides in, should be in the form: "entity/project" name: (str, optional) optional name of the report requested. per_page: (int) Sets the page size for query pagination. Usually there is no reason to change this. Returns: A `Reports` object which is an iterable collection of `BetaReport` objects. """ entity, project, _ = self._parse_path(path + "/fake_run") if name: name = urllib.parse.unquote(name) key = "/".join([entity, project, str(name)]) else: key = "/".join([entity, project]) if key not in self._reports: self._reports[key] = public.Reports( self.client, public.Project(self.client, entity, project, {}), name=name, per_page=per_page, ) return self._reports[key] def create_team(self, team, admin_username=None): """Create a new team. Args: team: (str) The name of the team admin_username: (str) optional username of the admin user of the team, defaults to the current user. Returns: A `Team` object """ return public.Team.create(self, team, admin_username) def team(self, team: str) -> "public.Team": """Return the matching `Team` with the given name. Args: team: (str) The name of the team. Returns: A `Team` object. """ return public.Team(self.client, team) def user(self, username_or_email: str) -> Optional["public.User"]: """Return a user from a username or email address. Note: This function only works for Local Admins, if you are trying to get your own user object, please use `api.viewer`. Args: username_or_email: (str) The username or email address of the user Returns: A `User` object or None if a user couldn't be found """ res = self._client.execute(self.USERS_QUERY, {"query": username_or_email}) if len(res["users"]["edges"]) == 0: return None elif len(res["users"]["edges"]) > 1: wandb.termwarn( "Found multiple users, returning the first user matching {}".format( username_or_email ) ) return public.User(self._client, res["users"]["edges"][0]["node"]) def users(self, username_or_email: str) -> List["public.User"]: """Return all users from a partial username or email address query. Note: This function only works for Local Admins, if you are trying to get your own user object, please use `api.viewer`. Args: username_or_email: (str) The prefix or suffix of the user you want to find Returns: An array of `User` objects """ res = self._client.execute(self.USERS_QUERY, {"query": username_or_email}) return [ public.User(self._client, edge["node"]) for edge in res["users"]["edges"] ] def runs( self, path: Optional[str] = None, filters: Optional[Dict[str, Any]] = None, order: str = "+created_at", per_page: int = 50, include_sweeps: bool = True, ): """Return a set of runs from a project that match the filters provided. Fields you can filter by include: - `createdAt`: The timestamp when the run was created. (in ISO 8601 format, e.g. "2023-01-01T12:00:00Z") - `displayName`: The human-readable display name of the run. (e.g. "eager-fox-1") - `duration`: The total runtime of the run in seconds. - `group`: The group name used to organize related runs together. - `host`: The hostname where the run was executed. - `jobType`: The type of job or purpose of the run. - `name`: The unique identifier of the run. (e.g. "a1b2cdef") - `state`: The current state of the run. - `tags`: The tags associated with the run. - `username`: The username of the user who initiated the run Additionally, you can filter by items in the run config or summary metrics. Such as `config.experiment_name`, `summary_metrics.loss`, etc. For more complex filtering, you can use MongoDB query operators. For details, see: https://docs.mongodb.com/manual/reference/operator/query The following operations are supported: - `$and` - `$or` - `$nor` - `$eq` - `$ne` - `$gt` - `$gte` - `$lt` - `$lte` - `$in` - `$nin` - `$exists` - `$regex` Examples: Find runs in my_project where config.experiment_name has been set to "foo" ``` api.runs( path="my_entity/my_project", filters={"config.experiment_name": "foo"}, ) ``` Find runs in my_project where config.experiment_name has been set to "foo" or "bar" ``` api.runs( path="my_entity/my_project", filters={ "$or": [ {"config.experiment_name": "foo"}, {"config.experiment_name": "bar"}, ] }, ) ``` Find runs in my_project where config.experiment_name matches a regex (anchors are not supported) ``` api.runs( path="my_entity/my_project", filters={"config.experiment_name": {"$regex": "b.*"}}, ) ``` Find runs in my_project where the run name matches a regex (anchors are not supported) ``` api.runs( path="my_entity/my_project", filters={"display_name": {"$regex": "^foo.*"}}, ) ``` Find runs in my_project where config.experiment contains a nested field "category" with value "testing" ``` api.runs( path="my_entity/my_project", filters={"config.experiment.category": "testing"}, ) ``` Find runs in my_project with a loss value of 0.5 nested in a dictionary under model1 in the summary metrics ``` api.runs( path="my_entity/my_project", filters={"summary_metrics.model1.loss": 0.5}, ) ``` Find runs in my_project sorted by ascending loss ``` api.runs(path="my_entity/my_project", order="+summary_metrics.loss") ``` Args: path: (str) path to project, should be in the form: "entity/project" filters: (dict) queries for specific runs using the MongoDB query language. You can filter by run properties such as config.key, summary_metrics.key, state, entity, createdAt, etc. For example: `{"config.experiment_name": "foo"}` would find runs with a config entry of experiment name set to "foo" order: (str) Order can be `created_at`, `heartbeat_at`, `config.*.value`, or `summary_metrics.*`. If you prepend order with a + order is ascending. If you prepend order with a - order is descending (default). The default order is run.created_at from oldest to newest. per_page: (int) Sets the page size for query pagination. include_sweeps: (bool) Whether to include the sweep runs in the results. Returns: A `Runs` object, which is an iterable collection of `Run` objects. """ entity, project = self._parse_project_path(path) filters = filters or {} key = (path or "") + str(filters) + str(order) if not self._runs.get(key): self._runs[key] = public.Runs( self.client, entity, project, filters=filters, order=order, per_page=per_page, include_sweeps=include_sweeps, ) return self._runs[key] @normalize_exceptions def run(self, path=""): """Return a single run by parsing path in the form entity/project/run_id. Args: path: (str) path to run in the form `entity/project/run_id`. If `api.entity` is set, this can be in the form `project/run_id` and if `api.project` is set this can just be the run_id. Returns: A `Run` object. """ entity, project, run_id = self._parse_path(path) if not self._runs.get(path): self._runs[path] = public.Run(self.client, entity, project, run_id) return self._runs[path] def queued_run( self, entity, project, queue_name, run_queue_item_id, project_queue=None, priority=None, ): """Return a single queued run based on the path. Parses paths of the form entity/project/queue_id/run_queue_item_id. """ return public.QueuedRun( self.client, entity, project, queue_name, run_queue_item_id, project_queue=project_queue, priority=priority, ) def run_queue( self, entity, name, ): """Return the named `RunQueue` for entity. To create a new `RunQueue`, use `wandb.Api().create_run_queue(...)`. """ return public.RunQueue( self.client, name, entity, ) @normalize_exceptions def sweep(self, path=""): """Return a sweep by parsing path in the form `entity/project/sweep_id`. Args: path: (str, optional) path to sweep in the form entity/project/sweep_id. If `api.entity` is set, this can be in the form project/sweep_id and if `api.project` is set this can just be the sweep_id. Returns: A `Sweep` object. """ entity, project, sweep_id = self._parse_path(path) if not self._sweeps.get(path): self._sweeps[path] = public.Sweep(self.client, entity, project, sweep_id) return self._sweeps[path] @normalize_exceptions def artifact_types(self, project: Optional[str] = None) -> "public.ArtifactTypes": """Return a collection of matching artifact types. Args: project: (str, optional) If given, a project name or path to filter on. Returns: An iterable `ArtifactTypes` object. """ project_path = project entity, project = self._parse_project_path(project_path) # If its a Registry project, the entity is considered to be an org instead if is_artifact_registry_project(project): settings_entity = self.settings["entity"] or self.default_entity org = parse_org_from_registry_path(project_path, PathType.PROJECT) entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) return public.ArtifactTypes(self.client, entity, project) @normalize_exceptions def artifact_type( self, type_name: str, project: Optional[str] = None ) -> "public.ArtifactType": """Return the matching `ArtifactType`. Args: type_name: (str) The name of the artifact type to retrieve. project: (str, optional) If given, a project name or path to filter on. Returns: An `ArtifactType` object. """ project_path = project entity, project = self._parse_project_path(project_path) # If its an Registry artifact, the entity is an org instead if is_artifact_registry_project(project): org = parse_org_from_registry_path(project_path, PathType.PROJECT) settings_entity = self.settings["entity"] or self.default_entity entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) return public.ArtifactType(self.client, entity, project, type_name) @normalize_exceptions def artifact_collections( self, project_name: str, type_name: str, per_page: int = 50 ) -> "public.ArtifactCollections": """Return a collection of matching artifact collections. Args: project_name: (str) The name of the project to filter on. type_name: (str) The name of the artifact type to filter on. per_page: (int) Sets the page size for query pagination. Usually there is no reason to change this. Returns: An iterable `ArtifactCollections` object. """ entity, project = self._parse_project_path(project_name) # If iterating through Registry project, the entity is considered to be an org instead if is_artifact_registry_project(project): org = parse_org_from_registry_path(project_name, PathType.PROJECT) settings_entity = self.settings["entity"] or self.default_entity entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) return public.ArtifactCollections( self.client, entity, project, type_name, per_page=per_page ) @normalize_exceptions def artifact_collection( self, type_name: str, name: str ) -> "public.ArtifactCollection": """Return a single artifact collection by type and parsing path in the form `entity/project/name`. Args: type_name: (str) The type of artifact collection to fetch. name: (str) An artifact collection name. May be prefixed with entity/project. Returns: An `ArtifactCollection` object. """ entity, project, collection_name = self._parse_artifact_path(name) # If its an Registry artifact, the entity is considered to be an org instead if is_artifact_registry_project(project): org = parse_org_from_registry_path(name, PathType.ARTIFACT) settings_entity = self.settings["entity"] or self.default_entity entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) if entity is None: raise ValueError( "Could not determine entity. Please include the entity as part of the collection name path." ) return public.ArtifactCollection( self.client, entity, project, collection_name, type_name ) @normalize_exceptions def artifact_versions(self, type_name, name, per_page=50): """Deprecated, use `artifacts(type_name, name)` instead.""" deprecate( field_name=Deprecated.api__artifact_versions, warning_message=( "Api.artifact_versions(type_name, name) is deprecated, " "use Api.artifacts(type_name, name) instead." ), ) return self.artifacts(type_name, name, per_page=per_page) @normalize_exceptions def artifacts( self, type_name: str, name: str, per_page: int = 50, tags: Optional[List[str]] = None, ) -> "public.Artifacts": """Return an `Artifacts` collection from the given parameters. Args: type_name: (str) The type of artifacts to fetch. name: (str) An artifact collection name. May be prefixed with entity/project. per_page: (int) Sets the page size for query pagination. Usually there is no reason to change this. tags: (list[str], optional) Only return artifacts with all of these tags. Returns: An iterable `Artifacts` object. """ entity, project, collection_name = self._parse_artifact_path(name) # If its an Registry project, the entity is considered to be an org instead if is_artifact_registry_project(project): org = parse_org_from_registry_path(name, PathType.ARTIFACT) settings_entity = self.settings["entity"] or self.default_entity entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=org ) return public.Artifacts( self.client, entity, project, collection_name, type_name, per_page=per_page, tags=tags, ) @normalize_exceptions def _artifact( self, name: str, type: Optional[str] = None, enable_tracking: bool = False ): if name is None: raise ValueError("You must specify name= to fetch an artifact.") entity, project, artifact_name = self._parse_artifact_path(name) # If its an Registry artifact, the entity is an org instead if is_artifact_registry_project(project): organization = ( name.split("/")[0] if name.count("/") == 2 else self.settings["organization"] ) # set entity to match the settings since in above code it was potentially set to an org settings_entity = self.settings["entity"] or self.default_entity # Registry artifacts are under the org entity. Because we offer a shorthand and alias for this path, # we need to fetch the org entity to for the user behind the scenes. entity = InternalApi()._resolve_org_entity_name( entity=settings_entity, organization=organization ) if entity is None: raise ValueError( "Could not determine entity. Please include the entity as part of the artifact name path." ) artifact = wandb.Artifact._from_name( entity=entity, project=project, name=artifact_name, client=self.client, enable_tracking=enable_tracking, ) if type is not None and artifact.type != type: raise ValueError( f"type {type} specified but this artifact is of type {artifact.type}" ) return artifact @normalize_exceptions def artifact(self, name: str, type: Optional[str] = None): """Return a single artifact by parsing path in the form `project/name` or `entity/project/name`. Args: name: (str) An artifact name. May be prefixed with project/ or entity/project/. If no entity is specified in the name, the Run or API setting's entity is used. Valid names can be in the following forms: name:version name:alias type: (str, optional) The type of artifact to fetch. Returns: An `Artifact` object. Raises: ValueError: If the artifact name is not specified. ValueError: If the artifact type is specified but does not match the type of the fetched artifact. Note: This method is intended for external use only. Do not call `api.artifact()` within the wandb repository code. """ return self._artifact(name=name, type=type, enable_tracking=True) @normalize_exceptions def job(self, name: Optional[str], path: Optional[str] = None) -> "public.Job": """Return a `Job` from the given parameters. Args: name: (str) The job name. path: (str, optional) If given, the root path in which to download the job artifact. Returns: A `Job` object. """ if name is None: raise ValueError("You must specify name= to fetch a job.") elif name.count("/") != 2 or ":" not in name: raise ValueError( "Invalid job specification. A job must be of the form: //:" ) return public.Job(self, name, path) @normalize_exceptions def list_jobs(self, entity: str, project: str) -> List[Dict[str, Any]]: """Return a list of jobs, if any, for the given entity and project. Args: entity: (str) The entity for the listed job(s). project: (str) The project for the listed job(s). Returns: A list of matching jobs. """ if entity is None: raise ValueError("Specify an entity when listing jobs") if project is None: raise ValueError("Specify a project when listing jobs") query = gql( """ query ArtifactOfType( $entityName: String!, $projectName: String!, $artifactTypeName: String!, ) { project(name: $projectName, entityName: $entityName) { artifactType(name: $artifactTypeName) { artifactCollections { edges { node { artifacts { edges { node { id state aliases { alias } artifactSequence { name } } } } } } } } } } """ ) try: artifact_query = self._client.execute( query, { "projectName": project, "entityName": entity, "artifactTypeName": "job", }, ) if not artifact_query or not artifact_query["project"]: wandb.termerror( f"Project: '{project}' not found in entity: '{entity}' or access denied." ) return [] if artifact_query["project"]["artifactType"] is None: return [] artifacts = artifact_query["project"]["artifactType"][ "artifactCollections" ]["edges"] return [x["node"]["artifacts"] for x in artifacts] except requests.exceptions.HTTPError: return False @normalize_exceptions def artifact_exists(self, name: str, type: Optional[str] = None) -> bool: """Return whether an artifact version exists within a specified project and entity. Args: name: (str) An artifact name. May be prefixed with entity/project. If entity or project is not specified, it will be inferred from the override params if populated. Otherwise, entity will be pulled from the user settings and project will default to "uncategorized". Valid names can be in the following forms: name:version name:alias type: (str, optional) The type of artifact Returns: True if the artifact version exists, False otherwise. """ try: self._artifact(name, type) except wandb.errors.CommError: return False return True @normalize_exceptions def artifact_collection_exists(self, name: str, type: str) -> bool: """Return whether an artifact collection exists within a specified project and entity. Args: name: (str) An artifact collection name. May be prefixed with entity/project. If entity or project is not specified, it will be inferred from the override params if populated. Otherwise, entity will be pulled from the user settings and project will default to "uncategorized". type: (str) The type of artifact collection Returns: True if the artifact collection exists, False otherwise. """ try: self.artifact_collection(type, name) except wandb.errors.CommError: return False return True def registries( self, organization: Optional[str] = None, filter: Optional[Dict[str, Any]] = None, ) -> Registries: """Returns a Registry iterator. Use the iterator to search and filter registries, collections, or artifact versions across your organization's registry. Examples: Find all registries with the names that contain "model" ```python import wandb api = wandb.Api() # specify an org if your entity belongs to multiple orgs api.registries(filter={"name": {"$regex": "model"}}) ``` Find all collections in the registries with the name "my_collection" and the tag "my_tag" ```python api.registries().collections(filter={"name": "my_collection", "tag": "my_tag"}) ``` Find all artifact versions in the registries with a collection name that contains "my_collection" and a version that has the alias "best" ```python api.registries().collections( filter={"name": {"$regex": "my_collection"}} ).versions(filter={"alias": "best"}) ``` Find all artifact versions in the registries that contain "model" and have the tag "prod" or alias "best" ```python api.registries(filter={"name": {"$regex": "model"}}).versions( filter={"$or": [{"tag": "prod"}, {"alias": "best"}]} ) ``` Args: organization: (str, optional) The organization of the registry to fetch. If not specified, use the organization specified in the user's settings. filter: (dict, optional) MongoDB-style filter to apply to each object in the registry iterator. Fields available to filter for collections are `name`, `description`, `created_at`, `updated_at`. Fields available to filter for collections are `name`, `tag`, `description`, `created_at`, `updated_at` Fields available to filter for versions are `tag`, `alias`, `created_at`, `updated_at`, `metadata` Returns: A registry iterator. """ if not InternalApi()._server_supports(ServerFeature.ARTIFACT_REGISTRY_SEARCH): raise RuntimeError( "Registry search API is not enabled on this wandb server version. " "Please upgrade your server version or contact support at support@wandb.com." ) organization = organization or fetch_org_from_settings_or_entity( self.settings, self.default_entity ) return Registries(self.client, organization, filter) def registry(self, name: str, organization: Optional[str] = None) -> Registry: """Return a registry given a registry name. Args: name: The name of the registry. This is without the `wandb-registry-` prefix. organization: The organization of the registry. If no organization is set in the settings, the organization will be fetched from the entity if the entity only belongs to one organization. Returns: A registry object. Examples: Fetch and update a registry ```python import wandb api = wandb.Api() registry = api.registry(name="my-registry", organization="my-org") registry.description = "This is an updated description" registry.save() ``` """ if not InternalApi()._server_supports(ServerFeature.ARTIFACT_REGISTRY_SEARCH): raise RuntimeError( "api.registry() is not enabled on this wandb server version. " "Please upgrade your server version or contact support at support@wandb.com." ) organization = organization or fetch_org_from_settings_or_entity( self.settings, self.default_entity ) org_entity = _fetch_org_entity_from_organization(self.client, organization) registry = Registry(self.client, organization, org_entity, name) registry.load() return registry def create_registry( self, name: str, visibility: Literal["organization", "restricted"], organization: Optional[str] = None, description: Optional[str] = None, artifact_types: Optional[List[str]] = None, ) -> Registry: """Create a new registry. Args: name: The name of the registry. Name must be unique within the organization. visibility: The visibility of the registry. organization: Anyone in the organization can view this registry. You can edit their roles later from the settings in the UI. restricted: Only invited members via the UI can access this registry. Public sharing is disabled. organization: The organization of the registry. If no organization is set in the settings, the organization will be fetched from the entity if the entity only belongs to one organization. description: The description of the registry. artifact_types: The accepted artifact types of the registry. A type is no more than 128 characters and do not include characters `/` or `:`. If not specified, all types are accepted. Allowed types added to the registry cannot be removed later. Returns: A registry object. Examples: ```python import wandb api = wandb.Api() registry = api.create_registry( name="my-registry", visibility="restricted", organization="my-org", description="This is a test registry", artifact_types=["model"], ) ``` """ if not InternalApi()._server_supports( ServerFeature.INCLUDE_ARTIFACT_TYPES_IN_REGISTRY_CREATION ): raise RuntimeError( "create_registry api is not enabled on this wandb server version. " "Please upgrade your server version or contact support at support@wandb.com." ) organization = organization or fetch_org_from_settings_or_entity( self.settings, self.default_entity ) try: existing_registry = self.registry(name=name, organization=organization) except ValueError: existing_registry = None if existing_registry: raise ValueError( f"Registry {name!r} already exists in organization {organization!r}," " please use a different name." ) return Registry.create( self.client, organization, name, visibility, description, artifact_types, ) def integrations( self, entity: Optional[str] = None, *, per_page: int = 50, ) -> Iterator["Integration"]: """Return an iterator of all integrations for an entity. Args: entity: The entity (e.g. team name) for which to fetch integrations. If not provided, the user's default entity will be used. per_page: Number of integrations to fetch per page. Defaults to 50. Usually there is no reason to change this. Yields: Iterator[SlackIntegration | WebhookIntegration]: An iterator of any supported integrations. """ from wandb.apis.public.integrations import Integrations params = {"entityName": entity or self.default_entity} return Integrations(client=self.client, variables=params, per_page=per_page) def webhook_integrations( self, entity: Optional[str] = None, *, per_page: int = 50 ) -> Iterator["WebhookIntegration"]: """Returns an iterator of webhook integrations for an entity. Args: entity: The entity (e.g. team name) for which to fetch integrations. If not provided, the user's default entity will be used. per_page: Number of integrations to fetch per page. Defaults to 50. Usually there is no reason to change this. Yields: Iterator[WebhookIntegration]: An iterator of webhook integrations. Examples: Get all registered webhook integrations for the team "my-team": ```python import wandb api = wandb.Api() webhook_integrations = api.webhook_integrations(entity="my-team") ``` Find only webhook integrations that post requests to "https://my-fake-url.com": ```python webhook_integrations = api.webhook_integrations(entity="my-team") my_webhooks = [ ig for ig in webhook_integrations if ig.url_endpoint.startswith("https://my-fake-url.com") ] ``` """ from wandb.apis.public.integrations import WebhookIntegrations params = {"entityName": entity or self.default_entity} return WebhookIntegrations( client=self.client, variables=params, per_page=per_page ) def slack_integrations( self, *, entity: Optional[str] = None, per_page: int = 50 ) -> Iterator["SlackIntegration"]: """Returns an iterator of Slack integrations for an entity. Args: entity: The entity (e.g. team name) for which to fetch integrations. If not provided, the user's default entity will be used. per_page: Number of integrations to fetch per page. Defaults to 50. Usually there is no reason to change this. Yields: Iterator[SlackIntegration]: An iterator of Slack integrations. Examples: Get all registered Slack integrations for the team "my-team": ```python import wandb api = wandb.Api() slack_integrations = api.slack_integrations(entity="my-team") ``` Find only Slack integrations that post to channel names starting with "team-alerts-": ```python slack_integrations = api.slack_integrations(entity="my-team") team_alert_integrations = [ ig for ig in slack_integrations if ig.channel_name.startswith("team-alerts-") ] ``` """ from wandb.apis.public.integrations import SlackIntegrations params = {"entityName": entity or self.default_entity} return SlackIntegrations( client=self.client, variables=params, per_page=per_page ) def _supports_automation( self, *, event: Optional["EventType"] = None, action: Optional["ActionType"] = None, ) -> bool: """Returns whether the server recognizes the automation event and/or action.""" from wandb.automations._utils import ( ALWAYS_SUPPORTED_ACTIONS, ALWAYS_SUPPORTED_EVENTS, ) api = InternalApi() supports_event = ( (event is None) or (event in ALWAYS_SUPPORTED_EVENTS) or api._server_supports(f"AUTOMATION_EVENT_{event.value}") ) supports_action = ( (action is None) or (action in ALWAYS_SUPPORTED_ACTIONS) or api._server_supports(f"AUTOMATION_ACTION_{action.value}") ) return supports_event and supports_action def _omitted_automation_fragments(self) -> Set[str]: """Returns the names of unsupported automation-related fragments. Older servers won't recognize newer GraphQL types, so a valid request may unnecessarily error out because it won't recognize fragments defined on those types. So e.g. if a server does not support `NO_OP` action types, then the following need to be removed from the body of the GraphQL request: - Fragment definition: ``` fragment NoOpActionFields on NoOpTriggeredAction { noOp } ``` - Fragment spread in selection set: ``` { ...NoOpActionFields # ... other fields ... } ``` """ from wandb.automations import ActionType from wandb.automations._generated import ( GenericWebhookActionFields, NoOpActionFields, NotificationActionFields, QueueJobActionFields, ) # Note: we can't currently define this as a constant outside the method # and still keep it nearby in this module, because it relies on pydantic v2-only imports fragment_names: dict[ActionType, str] = { ActionType.NO_OP: NoOpActionFields.__name__, ActionType.QUEUE_JOB: QueueJobActionFields.__name__, ActionType.NOTIFICATION: NotificationActionFields.__name__, ActionType.GENERIC_WEBHOOK: GenericWebhookActionFields.__name__, } return set( name for action in ActionType if (not self._supports_automation(action=action)) and (name := fragment_names.get(action)) ) def automation( self, name: str, *, entity: Optional[str] = None, ) -> "Automation": """Returns the only Automation matching the parameters. Args: name: The name of the automation to fetch. entity: The entity to fetch the automation for. Raises: ValueError: If zero or multiple Automations match the search criteria. Examples: Get an existing automation named "my-automation": ```python import wandb api = wandb.Api() automation = api.automation(name="my-automation") ``` Get an existing automation named "other-automation", from the entity "my-team": ```python automation = api.automation(name="other-automation", entity="my-team") ``` """ return one( self.automations(entity=entity, name=name), too_short=ValueError("No automations found"), too_long=ValueError("Multiple automations found"), ) def automations( self, entity: Optional[str] = None, *, name: Optional[str] = None, per_page: int = 50, ) -> Iterator["Automation"]: """Returns an iterator over all Automations that match the given parameters. If no parameters are provided, the returned iterator will contain all Automations that the user has access to. Args: entity: The entity to fetch the automations for. name: The name of the automation to fetch. per_page: The number of automations to fetch per page. Defaults to 50. Usually there is no reason to change this. Returns: A list of automations. Examples: Fetch all existing automations for the entity "my-team": ```python import wandb api = wandb.Api() automations = api.automations(entity="my-team") ``` """ from wandb.apis.public.automations import Automations from wandb.automations._generated import ( GET_AUTOMATIONS_BY_ENTITY_GQL, GET_AUTOMATIONS_GQL, ) # For now, we need to use different queries depending on whether entity is given variables = {"entityName": entity} if entity is None: gql_str = GET_AUTOMATIONS_GQL # Automations for viewer else: gql_str = GET_AUTOMATIONS_BY_ENTITY_GQL # Automations for entity # If needed, rewrite the GraphQL field selection set to omit unsupported fields/fragments/types omit_fragments = self._omitted_automation_fragments() query = gql_compat(gql_str, omit_fragments=omit_fragments) iterator = Automations( client=self.client, variables=variables, per_page=per_page, _query=query ) # FIXME: this is crude, move this client-side filtering logic into backend if name is not None: iterator = filter(lambda x: x.name == name, iterator) yield from iterator @normalize_exceptions def create_automation( self, obj: "NewAutomation", *, fetch_existing: bool = False, **kwargs: Unpack["WriteAutomationsKwargs"], ) -> "Automation": """Create a new Automation. Args: obj: The automation to create. fetch_existing: If True, and a conflicting automation already exists, attempt to fetch the existing automation instead of raising an error. **kwargs: Any additional values to assign to the automation before creating it. If given, these will override any values that may already be set on the automation: - `name`: The name of the automation. - `description`: The description of the automation. - `enabled`: Whether the automation is enabled. - `scope`: The scope of the automation. - `event`: The event that triggers the automation. - `action`: The action that is triggered by the automation. Returns: The saved Automation. Examples: Create a new automation named "my-automation" that sends a Slack notification when a run within a specific project logs a metric exceeding a custom threshold: ```python import wandb from wandb.automations import OnRunMetric, RunEvent, SendNotification api = wandb.Api() project = api.project("my-project", entity="my-team") # Use the first Slack integration for the team slack_hook = next(api.slack_integrations(entity="my-team")) event = OnRunMetric( scope=project, filter=RunEvent.metric("custom-metric") > 10, ) action = SendNotification.from_integration(slack_hook) automation = api.create_automation( event >> action, name="my-automation", description="Send a Slack message whenever 'custom-metric' exceeds 10.", ) ``` """ from wandb.automations import Automation from wandb.automations._generated import CREATE_AUTOMATION_GQL, CreateAutomation from wandb.automations._utils import prepare_to_create gql_input = prepare_to_create(obj, **kwargs) if not self._supports_automation( event=(event := gql_input.triggering_event_type), action=(action := gql_input.triggered_action_type), ): raise ValueError( f"Automation event or action ({event!r} -> {action!r}) " "is not supported on this wandb server version. " "Please upgrade your server version, or contact support at " "support@wandb.com." ) # If needed, rewrite the GraphQL field selection set to omit unsupported fields/fragments/types omit_fragments = self._omitted_automation_fragments() mutation = gql_compat(CREATE_AUTOMATION_GQL, omit_fragments=omit_fragments) variables = {"params": gql_input.model_dump(exclude_none=True)} name = gql_input.name try: data = self.client.execute(mutation, variable_values=variables) except requests.HTTPError as e: status = HTTPStatus(e.response.status_code) if status is HTTPStatus.CONFLICT: # 409 if fetch_existing: wandb.termlog(f"Automation {name!r} exists. Fetching it instead.") return self.automation(name=name) raise ValueError( f"Automation {name!r} exists. Unable to create another with the same name." ) from None raise try: result = CreateAutomation.model_validate(data).result except ValidationError as e: msg = f"Invalid response while creating automation {name!r}" raise RuntimeError(msg) from e if (result is None) or (result.trigger is None): msg = f"Empty response while creating automation {name!r}" raise RuntimeError(msg) return Automation.model_validate(result.trigger) @normalize_exceptions def update_automation( self, obj: "Automation", *, create_missing: bool = False, **kwargs: Unpack["WriteAutomationsKwargs"], ) -> "Automation": """Update an existing automation. Args: obj: The automation to update. Must be an existing automation. create_missing (bool): If True, and the automation does not exist, create it. **kwargs: Any additional values to assign to the automation before updating it. If given, these will override any values that may already be set on the automation: - `name`: The name of the automation. - `description`: The description of the automation. - `enabled`: Whether the automation is enabled. - `scope`: The scope of the automation. - `event`: The event that triggers the automation. - `action`: The action that is triggered by the automation. Returns: The updated automation. Examples: Disable and edit the description of an existing automation ("my-automation"): ```python import wandb api = wandb.Api() automation = api.automation(name="my-automation") automation.enabled = False automation.description = "Kept for reference, but no longer used." updated_automation = api.update_automation(automation) ``` OR: ```python import wandb api = wandb.Api() automation = api.automation(name="my-automation") updated_automation = api.update_automation( automation, enabled=False, description="Kept for reference, but no longer used.", ) ``` """ from wandb.automations import ActionType, Automation from wandb.automations._generated import UPDATE_AUTOMATION_GQL, UpdateAutomation from wandb.automations._utils import prepare_to_update # Check if the server even supports updating automations. # # NOTE: Unfortunately, there is no current server feature flag for this. As a workaround, # we check whether the server supports the NO_OP action, which is a reasonably safe proxy # for whether it supports updating automations. if not self._supports_automation(action=ActionType.NO_OP): raise RuntimeError( "Updating existing automations is not enabled on this wandb server version. " "Please upgrade your server version, or contact support at support@wandb.com." ) gql_input = prepare_to_update(obj, **kwargs) if not self._supports_automation( event=(event := gql_input.triggering_event_type), action=(action := gql_input.triggered_action_type), ): raise ValueError( f"Automation event or action ({event.value} -> {action.value}) " "is not supported on this wandb server version. " "Please upgrade your server version, or contact support at " "support@wandb.com." ) # If needed, rewrite the GraphQL field selection set to omit unsupported fields/fragments/types omit_fragments = self._omitted_automation_fragments() mutation = gql_compat(UPDATE_AUTOMATION_GQL, omit_fragments=omit_fragments) variables = {"params": gql_input.model_dump(exclude_none=True)} name = gql_input.name try: data = self.client.execute(mutation, variable_values=variables) except requests.HTTPError as e: status = HTTPStatus(e.response.status_code) if status is HTTPStatus.NOT_FOUND: # 404 if create_missing: wandb.termlog(f"Automation {name!r} not found. Creating it.") return self.create_automation(obj) raise ValueError( f"Automation {name!r} not found. Unable to edit it." ) from e # Not a (known) recoverable HTTP error wandb.termerror(f"Got response status {status!r}: {e.response.text!r}") raise try: result = UpdateAutomation.model_validate(data).result except ValidationError as e: msg = f"Invalid response while updating automation {name!r}" raise RuntimeError(msg) from e if (result is None) or (result.trigger is None): msg = f"Empty response while updating automation {name!r}" raise RuntimeError(msg) return Automation.model_validate(result.trigger) @normalize_exceptions def delete_automation(self, obj: Union["Automation", str]) -> Literal[True]: """Delete an automation. Args: obj: The automation to delete, or its ID. Returns: True if the automation was deleted successfully. """ from wandb.automations._generated import DELETE_AUTOMATION_GQL, DeleteAutomation from wandb.automations._utils import extract_id id_ = extract_id(obj) mutation = gql(DELETE_AUTOMATION_GQL) variables = {"id": id_} data = self.client.execute(mutation, variable_values=variables) try: result = DeleteAutomation.model_validate(data).result except ValidationError as e: msg = f"Invalid response while deleting automation {id_!r}" raise RuntimeError(msg) from e if result is None: msg = f"Empty response while deleting automation {id_!r}" raise RuntimeError(msg) if not result.success: raise RuntimeError(f"Failed to delete automation: {id_!r}") return result.success