Add files using upload-large-folder tool

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	from __future__ import annotations

	import datetime
	import functools
	import json
	import logging
	import numbers
	import os
	import warnings
	from collections import defaultdict
	from contextlib import contextmanager
	from typing import TYPE_CHECKING, Any, Callable, Generator

	from aws_lambda_powertools.metrics.exceptions import (
	MetricResolutionError,
	MetricUnitError,
	MetricValueError,
	SchemaValidationError,
	)
	from aws_lambda_powertools.metrics.functions import convert_timestamp_to_emf_format, validate_emf_timestamp
	from aws_lambda_powertools.metrics.provider import cold_start
	from aws_lambda_powertools.metrics.provider.cloudwatch_emf.constants import MAX_DIMENSIONS, MAX_METRICS
	from aws_lambda_powertools.metrics.provider.cloudwatch_emf.metric_properties import MetricResolution, MetricUnit
	from aws_lambda_powertools.metrics.provider.cold_start import (
	reset_cold_start_flag, # noqa: F401 # backwards compatibility
	)
	from aws_lambda_powertools.shared import constants
	from aws_lambda_powertools.shared.functions import resolve_env_var_choice

	if TYPE_CHECKING:
	from aws_lambda_powertools.metrics.types import MetricNameUnitResolution

	logger = logging.getLogger(__name__)

	# Maintenance: alias due to Hyrum's law
	is_cold_start = cold_start.is_cold_start


	class MetricManager:
	"""Base class for metric functionality (namespace, metric, dimension, serialization)

	MetricManager creates metrics asynchronously thanks to CloudWatch Embedded Metric Format (EMF).
	CloudWatch EMF can create up to 100 metrics per EMF object
	and metrics, dimensions, and namespace created via MetricManager
	will adhere to the schema, will be serialized and validated against EMF Schema.

	**Use `aws_lambda_powertools.metrics.metrics.Metrics` or
	`aws_lambda_powertools.metrics.metric.single_metric` to create EMF metrics.**

	Environment variables
	---------------------
	POWERTOOLS_METRICS_NAMESPACE : str
	metric namespace to be set for all metrics
	POWERTOOLS_SERVICE_NAME : str
	service name used for default dimension

	Raises
	------
	MetricUnitError
	When metric unit isn't supported by CloudWatch
	MetricResolutionError
	When metric resolution isn't supported by CloudWatch
	MetricValueError
	When metric value isn't a number
	SchemaValidationError
	When metric object fails EMF schema validation
	"""

	def __init__(
	self,
	metric_set: dict[str, Any] \| None = None,
	dimension_set: dict \| None = None,
	namespace: str \| None = None,
	metadata_set: dict[str, Any] \| None = None,
	service: str \| None = None,
	):
	self.metric_set = metric_set if metric_set is not None else {}
	self.dimension_set = dimension_set if dimension_set is not None else {}
	self.namespace = resolve_env_var_choice(choice=namespace, env=os.getenv(constants.METRICS_NAMESPACE_ENV))
	self.service = resolve_env_var_choice(choice=service, env=os.getenv(constants.SERVICE_NAME_ENV))
	self.metadata_set = metadata_set if metadata_set is not None else {}
	self.timestamp: int \| None = None

	self._metric_units = [unit.value for unit in MetricUnit]
	self._metric_unit_valid_options = list(MetricUnit.__members__)
	self._metric_resolutions = [resolution.value for resolution in MetricResolution]

	def add_metric(
	self,
	name: str,
	unit: MetricUnit \| str,
	value: float,
	resolution: MetricResolution \| int = 60,
	) -> None:
	"""Adds given metric

	Example
	-------
	Add given metric using MetricUnit enum

	metric.add_metric(name="BookingConfirmation", unit=MetricUnit.Count, value=1)

	Add given metric using plain string as value unit

	metric.add_metric(name="BookingConfirmation", unit="Count", value=1)

	Add given metric with MetricResolution non default value

	metric.add_metric(name="BookingConfirmation", unit="Count", value=1, resolution=MetricResolution.High)

	Parameters
	----------
	name : str
	Metric name
	unit : MetricUnit \| str
	`aws_lambda_powertools.helper.models.MetricUnit`
	value : float
	Metric value
	resolution : MetricResolution \| int
	`aws_lambda_powertools.helper.models.MetricResolution`

	Raises
	------
	MetricUnitError
	When metric unit is not supported by CloudWatch
	MetricResolutionError
	When metric resolution is not supported by CloudWatch
	"""
	if not isinstance(value, numbers.Number):
	raise MetricValueError(f"{value} is not a valid number")

	unit = self._extract_metric_unit_value(unit=unit)
	resolution = self._extract_metric_resolution_value(resolution=resolution)
	metric: dict = self.metric_set.get(name, defaultdict(list))
	metric["Unit"] = unit
	metric["StorageResolution"] = resolution
	metric["Value"].append(float(value))
	logger.debug(f"Adding metric: {name} with {metric}")
	self.metric_set[name] = metric

	if len(self.metric_set) == MAX_METRICS or len(metric["Value"]) == MAX_METRICS:
	logger.debug(f"Exceeded maximum of {MAX_METRICS} metrics - Publishing existing metric set")
	metrics = self.serialize_metric_set()
	print(json.dumps(metrics))

	# clear metric set only as opposed to metrics and dimensions set
	# since we could have more than 100 metrics
	self.metric_set.clear()

	def serialize_metric_set(
	self,
	metrics: dict \| None = None,
	dimensions: dict \| None = None,
	metadata: dict \| None = None,
	) -> dict:
	"""Serializes metric and dimensions set

	Parameters
	----------
	metrics : dict, optional
	Dictionary of metrics to serialize, by default None
	dimensions : dict, optional
	Dictionary of dimensions to serialize, by default None
	metadata: dict, optional
	Dictionary of metadata to serialize, by default None

	Example
	-------
	Serialize metrics into EMF format

	metrics = MetricManager()
	# ...add metrics, dimensions, namespace
	ret = metrics.serialize_metric_set()

	Returns
	-------
	dict
	Serialized metrics following EMF specification

	Raises
	------
	SchemaValidationError
	Raised when serialization fail schema validation
	"""
	if metrics is None: # pragma: no cover
	metrics = self.metric_set

	if dimensions is None: # pragma: no cover
	dimensions = self.dimension_set

	if metadata is None: # pragma: no cover
	metadata = self.metadata_set

	if self.service and not self.dimension_set.get("service"):
	# self.service won't be a float
	self.add_dimension(name="service", value=self.service)

	if len(metrics) == 0:
	raise SchemaValidationError("Must contain at least one metric.")

	if self.namespace is None:
	raise SchemaValidationError("Must contain a metric namespace.")

	logger.debug({"details": "Serializing metrics", "metrics": metrics, "dimensions": dimensions})

	# For standard resolution metrics, don't add StorageResolution field to avoid unnecessary ingestion of data into cloudwatch # noqa E501
	# Example: [ { "Name": "metric_name", "Unit": "Count"} ] # noqa ERA001
	#
	# In case using high-resolution metrics, add StorageResolution field
	# Example: [ { "Name": "metric_name", "Unit": "Count", "StorageResolution": 1 } ] # noqa ERA001
	metric_definition: list[MetricNameUnitResolution] = []
	metric_names_and_values: dict[str, float] = {} # { "metric_name": 1.0 }

	for metric_name in metrics:
	metric: dict = metrics[metric_name]
	metric_value: int = metric.get("Value", 0)
	metric_unit: str = metric.get("Unit", "")
	metric_resolution: int = metric.get("StorageResolution", 60)

	metric_definition_data: MetricNameUnitResolution = {"Name": metric_name, "Unit": metric_unit}

	# high-resolution metrics
	if metric_resolution == 1:
	metric_definition_data["StorageResolution"] = metric_resolution

	metric_definition.append(metric_definition_data)

	metric_names_and_values.update({metric_name: metric_value})

	return {
	"_aws": {
	"Timestamp": self.timestamp or int(datetime.datetime.now().timestamp() * 1000), # epoch
	"CloudWatchMetrics": [
	{
	"Namespace": self.namespace, # "test_namespace"
	"Dimensions": [list(dimensions.keys())], # [ "service" ]
	"Metrics": metric_definition,
	},
	],
	},
	**dimensions, # "service": "test_service"
	**metadata, # "username": "test"
	**metric_names_and_values, # "single_metric": 1.0
	}

	def add_dimension(self, name: str, value: str) -> None:
	"""Adds given dimension to all metrics

	Example
	-------
	Add a metric dimensions

	metric.add_dimension(name="operation", value="confirm_booking")

	Parameters
	----------
	name : str
	Dimension name
	value : str
	Dimension value
	"""
	logger.debug(f"Adding dimension: {name}:{value}")
	if len(self.dimension_set) == MAX_DIMENSIONS:
	raise SchemaValidationError(
	f"Maximum number of dimensions exceeded ({MAX_DIMENSIONS}): Unable to add dimension {name}.",
	)
	# Cast value to str according to EMF spec
	# Majority of values are expected to be string already, so
	# checking before casting improves performance in most cases
	self.dimension_set[name] = value if isinstance(value, str) else str(value)

	def add_metadata(self, key: str, value: Any) -> None:
	"""Adds high cardinal metadata for metrics object

	This will not be available during metrics visualization.
	Instead, this will be searchable through logs.

	If you're looking to add metadata to filter metrics, then
	use add_dimensions method.

	Example
	-------
	Add metrics metadata

	metric.add_metadata(key="booking_id", value="booking_id")

	Parameters
	----------
	key : str
	Metadata key
	value : any
	Metadata value
	"""
	logger.debug(f"Adding metadata: {key}:{value}")

	# Cast key to str according to EMF spec
	# Majority of keys are expected to be string already, so
	# checking before casting improves performance in most cases
	if isinstance(key, str):
	self.metadata_set[key] = value
	else:
	self.metadata_set[str(key)] = value

	def set_timestamp(self, timestamp: int \| datetime.datetime):
	"""
	Set the timestamp for the metric.

	Parameters:
	-----------
	timestamp: int \| datetime.datetime
	The timestamp to create the metric.
	If an integer is provided, it is assumed to be the epoch time in milliseconds.
	If a datetime object is provided, it will be converted to epoch time in milliseconds.
	"""
	# The timestamp must be a Datetime object or an integer representing an epoch time.
	# This should not exceed 14 days in the past or be more than 2 hours in the future.
	# Any metrics failing to meet this criteria will be skipped by Amazon CloudWatch.
	# See: https://docs.aws.amazon.com/AmazonCloudWatch/latest/monitoring/CloudWatch_Embedded_Metric_Format_Specification.html
	# See: https://docs.aws.amazon.com/AmazonCloudWatch/latest/logs/CloudWatch-Logs-Monitoring-CloudWatch-Metrics.html
	if not validate_emf_timestamp(timestamp):
	warnings.warn(
	"This metric doesn't meet the requirements and will be skipped by Amazon CloudWatch. "
	"Ensure the timestamp is within 14 days past or 2 hours future.",
	stacklevel=2,
	)

	self.timestamp = convert_timestamp_to_emf_format(timestamp)

	def clear_metrics(self) -> None:
	logger.debug("Clearing out existing metric set from memory")
	self.metric_set.clear()
	self.dimension_set.clear()
	self.metadata_set.clear()

	def flush_metrics(self, raise_on_empty_metrics: bool = False) -> None:
	"""Manually flushes the metrics. This is normally not necessary,
	unless you're running on other runtimes besides Lambda, where the @log_metrics
	decorator already handles things for you.

	Parameters
	----------
	raise_on_empty_metrics : bool, optional
	raise exception if no metrics are emitted, by default False
	"""
	if not raise_on_empty_metrics and not self.metric_set:
	warnings.warn(
	"No application metrics to publish. The cold-start metric may be published if enabled. "
	"If application metrics should never be empty, consider using 'raise_on_empty_metrics'",
	stacklevel=2,
	)
	else:
	logger.debug("Flushing existing metrics")
	metrics = self.serialize_metric_set()
	print(json.dumps(metrics, separators=(",", ":")))
	self.clear_metrics()

	def log_metrics(
	self,
	lambda_handler: Callable[[dict, Any], Any] \| Callable[[dict, Any, dict \| None], Any] \| None = None,
	capture_cold_start_metric: bool = False,
	raise_on_empty_metrics: bool = False,
	default_dimensions: dict[str, str] \| None = None,
	):
	"""Decorator to serialize and publish metrics at the end of a function execution.

	Be aware that the log_metrics *does call the decorated function (e.g. lambda_handler).

	Example
	-------
	Lambda function using tracer and metrics decorators

	from aws_lambda_powertools import Metrics, Tracer

	metrics = Metrics(service="payment")
	tracer = Tracer(service="payment")

	@tracer.capture_lambda_handler
	@metrics.log_metrics
	def handler(event, context):
	...

	Parameters
	----------
	lambda_handler : Callable[[Any, Any], Any], optional
	lambda function handler, by default None
	capture_cold_start_metric : bool, optional
	captures cold start metric, by default False
	raise_on_empty_metrics : bool, optional
	raise exception if no metrics are emitted, by default False
	default_dimensions: dict[str, str], optional
	metric dimensions as key=value that will always be present

	Raises
	------
	e
	Propagate error received
	"""

	# If handler is None we've been called with parameters
	# Return a partial function with args filled
	if lambda_handler is None:
	logger.debug("Decorator called with parameters")
	return functools.partial(
	self.log_metrics,
	capture_cold_start_metric=capture_cold_start_metric,
	raise_on_empty_metrics=raise_on_empty_metrics,
	default_dimensions=default_dimensions,
	)

	@functools.wraps(lambda_handler)
	def decorate(event, context, args, *kwargs):
	try:
	if default_dimensions:
	self.set_default_dimensions(**default_dimensions)
	response = lambda_handler(event, context, args, *kwargs)
	if capture_cold_start_metric:
	self._add_cold_start_metric(context=context)
	finally:
	self.flush_metrics(raise_on_empty_metrics=raise_on_empty_metrics)

	return response

	return decorate

	def _extract_metric_resolution_value(self, resolution: int \| MetricResolution) -> int:
	"""Return metric value from metric unit whether that's str or MetricResolution enum

	Parameters
	----------
	unit : int \| MetricResolution
	Metric resolution

	Returns
	-------
	int
	Metric resolution value must be 1 or 60

	Raises
	------
	MetricResolutionError
	When metric resolution is not supported by CloudWatch
	"""
	if isinstance(resolution, MetricResolution):
	return resolution.value

	if isinstance(resolution, int) and resolution in self._metric_resolutions:
	return resolution

	raise MetricResolutionError(
	f"Invalid metric resolution '{resolution}', expected either option: {self._metric_resolutions}", # noqa: E501
	)

	def _extract_metric_unit_value(self, unit: str \| MetricUnit) -> str:
	"""Return metric value from metric unit whether that's str or MetricUnit enum

	Parameters
	----------
	unit : str \| MetricUnit
	Metric unit

	Returns
	-------
	str
	Metric unit value (e.g. "Seconds", "Count/Second")

	Raises
	------
	MetricUnitError
	When metric unit is not supported by CloudWatch
	"""

	if isinstance(unit, str):
	if unit in self._metric_unit_valid_options:
	unit = MetricUnit[unit].value

	if unit not in self._metric_units:
	raise MetricUnitError(
	f"Invalid metric unit '{unit}', expected either option: {self._metric_unit_valid_options}",
	)

	if isinstance(unit, MetricUnit):
	unit = unit.value

	return unit

	def _add_cold_start_metric(self, context: Any) -> None:
	"""Add cold start metric and function_name dimension

	Parameters
	----------
	context : Any
	Lambda context
	"""
	global is_cold_start
	if is_cold_start:
	logger.debug("Adding cold start metric and function_name dimension")
	with single_metric(name="ColdStart", unit=MetricUnit.Count, value=1, namespace=self.namespace) as metric:
	metric.add_dimension(name="function_name", value=context.function_name)
	if self.service:
	metric.add_dimension(name="service", value=str(self.service))
	is_cold_start = False


	class SingleMetric(MetricManager):
	"""SingleMetric creates an EMF object with a single metric.

	EMF specification doesn't allow metrics with different dimensions.
	SingleMetric overrides MetricManager's add_metric method to do just that.

	Use `single_metric` when you need to create metrics with different dimensions,
	otherwise `aws_lambda_powertools.metrics.metrics.Metrics` is
	a more cost effective option

	Environment variables
	---------------------
	POWERTOOLS_METRICS_NAMESPACE : str
	metric namespace

	Example
	-------
	Creates cold start metric with function_version as dimension

	import json
	from aws_lambda_powertools.metrics import single_metric, MetricUnit, MetricResolution
	metric = single_metric(namespace="ServerlessAirline")

	metric.add_metric(name="ColdStart", unit=MetricUnit.Count, value=1, resolution=MetricResolution.Standard)
	metric.add_dimension(name="function_version", value=47)

	print(json.dumps(metric.serialize_metric_set(), indent=4))

	Parameters
	----------
	MetricManager : MetricManager
	Inherits from `aws_lambda_powertools.metrics.base.MetricManager`
	"""

	def add_metric(
	self,
	name: str,
	unit: MetricUnit \| str,
	value: float,
	resolution: MetricResolution \| int = 60,
	) -> None:
	"""Method to prevent more than one metric being created

	Parameters
	----------
	name : str
	Metric name (e.g. BookingConfirmation)
	unit : MetricUnit
	Metric unit (e.g. "Seconds", MetricUnit.Seconds)
	value : float
	Metric value
	resolution : MetricResolution
	Metric resolution (e.g. 60, MetricResolution.Standard)
	"""
	if len(self.metric_set) > 0:
	logger.debug(f"Metric {name} already set, skipping...")
	return
	return super().add_metric(name, unit, value, resolution)


	@contextmanager
	def single_metric(
	name: str,
	unit: MetricUnit,
	value: float,
	resolution: MetricResolution \| int = 60,
	namespace: str \| None = None,
	default_dimensions: dict[str, str] \| None = None,
	) -> Generator[SingleMetric, None, None]:
	"""Context manager to simplify creation of a single metric

	Example
	-------
	Creates cold start metric with function_version as dimension

	from aws_lambda_powertools import single_metric
	from aws_lambda_powertools.metrics import MetricUnit
	from aws_lambda_powertools.metrics import MetricResolution

	with single_metric(name="ColdStart", unit=MetricUnit.Count, value=1, resolution=MetricResolution.Standard, namespace="ServerlessAirline") as metric:
	metric.add_dimension(name="function_version", value="47")

	Same as above but set namespace using environment variable

	$ export POWERTOOLS_METRICS_NAMESPACE="ServerlessAirline"

	from aws_lambda_powertools import single_metric
	from aws_lambda_powertools.metrics import MetricUnit
	from aws_lambda_powertools.metrics import MetricResolution

	with single_metric(name="ColdStart", unit=MetricUnit.Count, value=1, resolution=MetricResolution.Standard) as metric:
	metric.add_dimension(name="function_version", value="47")

	Parameters
	----------
	name : str
	Metric name
	unit : MetricUnit
	`aws_lambda_powertools.helper.models.MetricUnit`
	resolution : MetricResolution
	`aws_lambda_powertools.helper.models.MetricResolution`
	value : float
	Metric value
	namespace: str
	Namespace for metrics
	default_dimensions: dict[str, str], optional
	Metric dimensions as key=value that will always be present


	Yields
	-------
	SingleMetric
	SingleMetric class instance

	Raises
	------
	MetricUnitError
	When metric metric isn't supported by CloudWatch
	MetricResolutionError
	When metric resolution isn't supported by CloudWatch
	MetricValueError
	When metric value isn't a number
	SchemaValidationError
	When metric object fails EMF schema validation
	""" # noqa: E501
	metric_set: dict \| None = None
	try:
	metric: SingleMetric = SingleMetric(namespace=namespace)
	metric.add_metric(name=name, unit=unit, value=value, resolution=resolution)

	if default_dimensions:
	for dim_name, dim_value in default_dimensions.items():
	metric.add_dimension(name=dim_name, value=dim_value)

	yield metric
	metric_set = metric.serialize_metric_set()
	finally:
	print(json.dumps(metric_set, separators=(",", ":")))