- """Client for QCi's optimization API."""
- import concurrent.futures
- import time
- from typing import Optional, Union
- import warnings
- import requests
- from requests.adapters import HTTPAdapter, Retry
- from requests.compat import urljoin
- from requests_futures.sessions import FuturesSession
- from qci_client.utilities import log_to_console
- import qci_client.auth.client
- from qci_client.optimization import utilities
- from qci_client.optimization.data_converter import data_to_json
- from qci_client.optimization import enum
- from qci_client.utilities import raise_for_status
- RESULTS_CHECK_INTERVAL_S = 2.5
- RETRY_TOTAL = 7
- BACKOFF_FACTOR = 2
- STATUS_FORCELIST = [502, 503, 504]
- class OptimizationClient:
- """Used to run optimization jobs against QCi hardware."""
- def __init__(
- self,
- *,
- url: Optional[str] = None,
- api_token: Optional[str] = None,
- timeout: Optional[float] = None,
- max_workers: int = 8,
- compress: bool = False,
- ):
- """
- Provides access to QCi's public API for running optimization problems on Dirac
- devices, including file uploads/downloads and submitting/retrieving entire jobs.
- :param url: url basepath to API endpoint, including scheme, if None, then falls
- back to QCI_API_URL environment variable
- :param api_token: refresh token for authenticating to API, if None, then falls
- back to QCI_TOKEN environment variable
- :param timeout: number of seconds before timing out requests, None waits
- indefinitely
- :param max_workers: number of threads for concurrent file download calls
- :param compress: compress file metadata and parts before uploading
- """
-
- self._auth_client = qci_client.auth.client.AuthClient(
- url=url, api_token=api_token, timeout=timeout
- )
- self._max_workers = max_workers
- self._compress = compress
-
- self._session = requests.Session()
- self._session.mount(
- "https://",
- HTTPAdapter(
- max_retries=Retry(
- total=RETRY_TOTAL,
- backoff_factor=BACKOFF_FACTOR,
- status_forcelist=STATUS_FORCELIST,
- )
- ),
- )
- @property
- def url(self) -> str:
- """Return API URL."""
- return self._auth_client.url
- @property
- def api_token(self) -> str:
- """Return API token."""
- return self._auth_client.api_token
- @property
- def timeout(self) -> Optional[float]:
- """Return timeout setting."""
- return self._auth_client.timeout
- @property
- def max_workers(self) -> int:
- """Return maximum number of concurrent workers for file operations."""
- return self._max_workers
- @property
- def compress(self) -> bool:
- """Return file compression usage flag."""
- return self._compress
- @property
- def jobs_url(self):
- """Get jobs URL."""
- return urljoin(self.url, "optimization/v1/jobs")
- def get_job_id_url(self, *, job_id: str) -> str:
- """Get job URL with job ID."""
- return f"{self.jobs_url}/{job_id}"
- def get_job_status_url(self, *, job_id: str) -> str:
- """Get job-status URL using job ID."""
- return f"{self.get_job_id_url(job_id=job_id)}/status"
- def get_job_metrics_url(self, job_id: str) -> str:
- """Get legacy job-metrics URL using job ID."""
- return f"{self.get_job_id_url(job_id=job_id)}/metrics"
- def get_job_metrics_v1_url(self, job_id: str) -> str:
- """Get v1 job-metrics URL using job ID."""
- return f"{self.get_job_id_url(job_id=job_id)}/metrics/v1"
- def get_job_metrics_v2_url(self, job_id: str) -> str:
- """Get v2 job-metrics URL using job ID."""
- return f"{self.get_job_id_url(job_id=job_id)}/metrics/v2"
- def get_job_allocations_url(self) -> str:
- """Get job-allocations URL."""
- return f"{self.jobs_url}/allocations"
- @property
- def files_url(self):
- """Get files URL."""
- return urljoin(self.url, "optimization/v1/files")
- def get_file_id_url(self, *, file_id: str) -> str:
- """Get file URL with file ID."""
- return f"{self.files_url}/{file_id}"
- def get_file_contents_url(self, *, file_id: str, part_number: int) -> str:
- """Get file contents URL with file ID and file part number."""
- return f"{self.get_file_id_url(file_id=file_id)}/contents/{str(part_number)}"
- def upload_file(self, *, file: dict) -> dict:
- """
- Upload file (metadata and then parts concurrently). Returns dict with file ID.
- """
-
-
- file = data_to_json(file=file)
- with FuturesSession(max_workers=self.max_workers) as session:
- session.mount(
- "https://",
- HTTPAdapter(
- max_retries=Retry(
- total=RETRY_TOTAL,
- backoff_factor=BACKOFF_FACTOR,
- status_forcelist=STATUS_FORCELIST,
- )
- ),
- )
- post_response_future = session.post(
- self.files_url,
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- json=utilities.get_post_request_body(file=file),
- )
- for response_future in concurrent.futures.as_completed(
- [post_response_future], self.timeout
- ):
- response = response_future.result()
- raise_for_status(response=response)
- file_id = response.json()["file_id"]
- file_part_generator = utilities.file_part_generator(
- file=file, compress=self.compress
- )
- patch_response_futures = []
- if self.compress:
- for part_body, part_number in file_part_generator:
- patch_response_futures.append(
- session.patch(
- self.get_file_contents_url(
- file_id=file_id, part_number=part_number
- ),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- data=utilities.zip_payload(
- payload=utilities.get_patch_request_body(file=part_body)
- ),
- )
- )
- else:
- for part_body, part_number in file_part_generator:
- patch_response_futures.append(
- session.patch(
- self.get_file_contents_url(
- file_id=file_id, part_number=part_number
- ),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- json=utilities.get_patch_request_body(file=part_body),
- )
- )
-
-
- for response_future in concurrent.futures.as_completed(
- patch_response_futures
- ):
- raise_for_status(response=response_future.result())
- return {"file_id": file_id}
- def download_file(self, *, file_id: str) -> dict:
- """Download file (metadata and then parts concurrently)."""
-
-
- with FuturesSession(max_workers=self.max_workers) as session:
- session.mount(
- "https://",
- HTTPAdapter(
- max_retries=Retry(
- total=RETRY_TOTAL,
- backoff_factor=BACKOFF_FACTOR,
- status_forcelist=STATUS_FORCELIST,
- )
- ),
- )
- get_response_future = session.get(
- self.get_file_id_url(file_id=file_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- for response_future in concurrent.futures.as_completed(
- [get_response_future], self.timeout
- ):
- response = response_future.result()
- raise_for_status(response=response_future.result())
-
- file = {**response.json()}
-
- file.pop("last_accessed_rfc3339")
- file.pop("upload_date_rfc3339")
- get_response_futures = [
- session.get(
- self.get_file_contents_url(
- file_id=file_id, part_number=part_number
- ),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- for part_number in range(1, file["num_parts"] + 1)
- ]
-
- for response_future in concurrent.futures.as_completed(
- get_response_futures
- ):
- raise_for_status(response=response_future.result())
-
- for response_future in get_response_futures:
- file_part = response_future.result().json()
-
- for file_type, file_type_config in file_part["file_config"].items():
- if file_type not in file["file_config"]:
- file["file_config"][file_type] = {}
- for key, value in file_type_config.items():
- if key not in file["file_config"][file_type]:
- file["file_config"][file_type][key] = []
- file["file_config"][file_type][key] += value
- return file
- def submit_job(self, *, job_body: dict) -> dict:
- """
- Submit a job via a request to QCi's optimization API.
- Args:
- job_body: formatted json body that includes all parameters for the job
- Returns:
- Response from POST call to API (see :meth:`get_job_results`)
- """
- response = self._session.post(
- self.jobs_url,
- json=job_body,
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()
- def get_job_results(self, *, job_id: str) -> dict:
- """
- Get job_info, status, and results of a (possibly uncompleted) job by its ID.
- Args:
- job_id: ID of job
- Returns:
- Dictionary with latest job_info, status, and results.
- """
- job_info = self.get_job_response(job_id=job_id)
- status = enum.JobStatus(self.get_job_status(job_id=job_id)["status"])
- if status == enum.JobStatus.COMPLETED:
-
- file = self.download_file(file_id=job_info["job_result"]["file_id"])
- results = utilities.get_file_config(file=file)[0]
- else:
- results = None
- return {"job_info": job_info, "status": status.value, "results": results}
- def get_job_status(self, *, job_id: str) -> dict:
- """
- Get the status of a job by its ID.
- Args:
- job_id: ID of job
- Returns:
- Response from GET call to API
- """
- response = self._session.get(
- self.get_job_status_url(job_id=job_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()
- def get_job_metrics(self, *, job_id: str) -> dict:
- """
- Get the metrics for a job by its ID. v2 metrics are tried first, then
- legacy/v1 metrics.
- Args:
- job_id: ID of job
- Returns:
- Response from GET call to API
- """
-
- response = self._session.get(
- self.get_job_metrics_v2_url(job_id=job_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
-
- if response.status_code == requests.codes["not_found"]:
- response = self._session.get(
- self.get_job_metrics_url(job_id=job_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
-
-
-
- if response.json().get("job_metrics") is None:
- response = self._session.get(
- self.get_job_metrics_url(job_id=job_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()
- def get_job_response(self, *, job_id: str) -> dict:
- """
- Get a response for a job by id, which may/may not be finished.
- :param job_id: ID of job
- :return dict: json response
- """
- response = self._session.get(
- self.get_job_id_url(job_id=job_id),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()
- def get_allocations(self) -> dict:
- """
- Get allocations for running jobs on different device classes.
- :return dict: json response
- """
- response = self._session.get(
- self.get_job_allocations_url(),
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()
- def build_job_body(
- self,
- *,
- job_type: Union[enum.JobType, str],
- job_params: dict,
- qubo_file_id: Optional[str] = None,
- graph_file_id: Optional[str] = None,
- hamiltonian_file_id: Optional[str] = None,
- objective_file_id: Optional[str] = None,
- constraints_file_id: Optional[str] = None,
- polynomial_file_id: Optional[str] = None,
- job_name: Optional[str] = None,
- job_tags: Optional[list] = None,
- ) -> dict:
- """
- Constructs body for job submission requests.
- Args:
- job_type: an enum.JobType or one of the string values defined in enum.JobType
- job_params: dict of params to be passed to job submission in "params" key
- qubo_file_id: file id from files API for uploaded qubo
- graph_file_id: file id from files API for uploaded graph
- hamiltonian_file_id: file id from files API for uploaded hamiltonian
- objective_file_id: file id from files API for uploaded objective
- constraints_file_id: file id from files API for uploaded constraints
- polynomial_file_id: file id from files API for uploaded polynomial
- job_name: user specified name for job submission
- job_tags: user specified labels for classifying and filtering user jobs after submission
- Returns:
- None
- """
- problem_config = {}
- device_config = {}
-
- job_type = enum.JobType(job_type)
- device_type_param = job_params.get("device_type")
- if device_type_param is None:
- if "sampler_type" in job_params:
- warnings.warn(
- "the 'sampler_type' key is deprecated, please update your usage to "
- "'device_type'"
- )
- device_type_param = job_params["sampler_type"]
- if device_type_param is None:
- raise ValueError(
- "no 'device_type' specified in job_params, must be one of "
- f"{enum.DEVICE_TYPES_SORTED}"
- )
-
- device_type = enum.DeviceType(device_type_param)
- num_samples = job_params.get("num_samples")
- if num_samples is None:
-
- if "n_samples" in job_params:
- warnings.warn(
- "the 'n_samples' key is deprecated, please update your usage to "
- "'num_samples'"
- )
- num_samples = job_params["n_samples"]
- elif "nsamples" in job_params:
- warnings.warn(
- "the 'nsamples' key is deprecated, please update your usage to "
- "'num_samples'"
- )
- num_samples = job_params["nsamples"]
- elif "num_solutions" in job_params:
- warnings.warn(
- "the 'num_solutions' key is deprecated, please update your usage "
- "to 'num_samples'"
- )
- num_samples = job_params["num_solutions"]
- if num_samples is not None:
-
- device_config["num_samples"] = num_samples
- if job_type == enum.JobType.GRAPH_PARTITIONING:
- if device_type not in enum.DEVICE_TYPES_QUBIT:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- problem_type = enum.ProblemType.GP
- if not graph_file_id:
- raise AssertionError(
- "graph_file_id must be specified for the given job_type "
- f"'{job_type.value}'"
- )
- problem_config["graph_file_id"] = graph_file_id
- if "num_paritions" in job_params:
-
- problem_config["num_paritions"] = job_params["num_paritions"]
- if "alpha" in job_params:
-
- problem_config["alpha"] = job_params["alpha"]
- if "gamma" in job_params:
-
- problem_config["gamma"] = job_params["gamma"]
- elif job_type == enum.JobType.SAMPLE_CONTRAINT:
- if device_type not in enum.DEVICE_TYPES_QUBIT:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- problem_type = enum.ProblemType.QLCBO
- if not constraints_file_id:
- raise AssertionError(
- "At least constraints_file_id must be specified for job_type "
- f"'{job_type.value}'"
- )
- problem_config["constraints_file_id"] = constraints_file_id
- problem_config["objective_file_id"] = objective_file_id
- if "alpha" in job_params:
-
- problem_config["alpha"] = job_params["alpha"]
- if "atol" in job_params:
-
- problem_config["atol"] = job_params["atol"]
- elif job_type == enum.JobType.SAMPLE_HAMILTONIAN:
- if device_type not in enum.DEVICE_TYPES_QUDIT:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- if device_type == enum.DeviceType.DIRAC2:
- if job_params.get("solution_precision") != 1:
- problem_type = enum.ProblemType.NQHO_CONTINUOUS
- else:
- problem_type = enum.ProblemType.NQHO_INTEGER
- elif device_type == enum.DeviceType.DIRAC3:
- problem_type = enum.ProblemType.NQHO
- if "relaxation_schedule" in job_params:
-
- device_config["relaxation_schedule"] = job_params[
- "relaxation_schedule"
- ]
- if "solution_precision" in job_params:
-
- device_config["solution_precision"] = job_params[
- "solution_precision"
- ]
- if "sum_constraint" in job_params:
-
- device_config["sum_constraint"] = job_params["sum_constraint"]
- else:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- if (not hamiltonian_file_id and not polynomial_file_id) or (
- hamiltonian_file_id and polynomial_file_id
- ):
- raise AssertionError(
- "exactly one of hamiltonian_file_id or polynomial_file_id must be "
- f"specified for job_type='{job_type.value}'"
- )
- if hamiltonian_file_id:
- problem_config["hamiltonian_file_id"] = (
- hamiltonian_file_id
- )
- else:
- problem_config["polynomial_file_id"] = polynomial_file_id
- elif job_type == enum.JobType.SAMPLE_HAMILTONIAN_ISING:
- if device_type not in enum.DEVICE_TYPES_QUBIT:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- problem_type = enum.ProblemType.IHO
- if (not hamiltonian_file_id and not polynomial_file_id) or (
- hamiltonian_file_id and polynomial_file_id
- ):
- raise AssertionError(
- "exactly one of hamiltonian_file_id or polynomial_file_id must be "
- f"specified for job_type='{job_type.value}'"
- )
- if hamiltonian_file_id:
- problem_config["hamiltonian_file_id"] = (
- hamiltonian_file_id
- )
- else:
- problem_config["polynomial_file_id"] = polynomial_file_id
- elif job_type == enum.JobType.SAMPLE_QUBO:
- if device_type not in enum.DEVICE_TYPES_QUBIT:
- raise ValueError(
- f"{job_type.value} not supported on {device_type.value}."
- )
- problem_type = enum.ProblemType.QUBO
- if not qubo_file_id:
- raise AssertionError(
- f"qubo_file_id must be specified for job_type '{job_type.value}'"
- )
- problem_config["qubo_file_id"] = qubo_file_id
- else:
- raise ValueError(f"unsupported job_type '{job_type.value}'.")
- job_submission: dict = {
- "problem_config": {problem_type.value: problem_config},
- "device_config": {device_type.value: device_config},
- }
- if job_name is not None:
-
- job_submission["job_name"] = job_name
- if job_tags is not None:
-
- job_submission["job_tags"] = job_tags
- return {"job_submission": job_submission}
- def process_job(
- self, *, job_body: dict, wait: bool = True, verbose: bool = True
- ) -> dict:
- """
- :param job_body: formatted json dict for body of job submission request
- :param wait: wait synchronously for job to complete
- :param verbose: track operations' progress using timestamped console logs
- :return:
- if wait is True, then dict with job_info, status, and results and results
- fields (results is None if job is not successfully COMPLETED)
- if wait is False, then response dict from submitted job, which includes
- job_id for subsequent retrieval (see :meth:`get_job_results`)
- """
- dirac_allocation = self.get_allocations()["allocations"]["dirac"]
- dirac_allocation_s = dirac_allocation["seconds"]
- log = f"Dirac allocation balance = {dirac_allocation_s} s"
- if not dirac_allocation["metered"]:
- log += " (unmetered)"
- log_to_console(log=log, verbose=verbose)
- submit_job_response = self.submit_job(job_body=job_body)
- job_id = submit_job_response["job_id"]
- log_to_console(log=f"Job submitted: job_id='{job_id}'", verbose=verbose)
- if wait:
- status = enum.JobStatus.SUBMITTED
- while status not in enum.JOB_STATUSES_FINAL:
- latest_status = enum.JobStatus(
- self.get_job_status(job_id=job_id)["status"]
- )
- if latest_status != status:
- status = latest_status
- log_to_console(log=status.value, verbose=verbose)
- time.sleep(RESULTS_CHECK_INTERVAL_S)
- dirac_allocation = self.get_allocations()["allocations"]["dirac"]
- dirac_allocation_s = dirac_allocation["seconds"]
- log = f"Dirac allocation balance = {dirac_allocation_s} s"
- if not dirac_allocation["metered"]:
- log += " (unmetered)"
- log_to_console(log=log, verbose=verbose)
- return self.get_job_results(job_id=job_id)
- return submit_job_response
- def list_files(self) -> dict:
- """
- List files (metadata only).
- :return: dict containing list of files
- """
- response = self._session.get(
- self.files_url,
- headers=self._auth_client.headers_without_connection_close,
- timeout=self.timeout,
- )
- raise_for_status(response=response)
- return response.json()