package awscdkkinesisanalyticsflinkalpha

import (
	_init_ "github.com/aws/aws-cdk-go/awscdkkinesisanalyticsflinkalpha/v2/jsii"
	_jsii_ "github.com/aws/jsii-runtime-go/runtime"

	"github.com/aws/aws-cdk-go/awscdk/v2"
	"github.com/aws/aws-cdk-go/awscdk/v2/awscloudwatch"
	"github.com/aws/aws-cdk-go/awscdk/v2/awsec2"
	"github.com/aws/aws-cdk-go/awscdk/v2/awsiam"
	"github.com/aws/aws-cdk-go/awscdkkinesisanalyticsflinkalpha/v2/internal"
	"github.com/aws/constructs-go/constructs/v10"
)

// The L2 construct for Flink Kinesis Data Applications.
//
// Example:
//   import path "github.com/aws-samples/dummy/path"
//   import cloudwatch "github.com/aws/aws-cdk-go/awscdk"
//   import "github.com/aws/aws-cdk-go/awscdk"
//   import "github.com/aws/aws-cdk-go/awscdkkinesisanalyticsflinkalpha"
//
//   app := core.NewApp()
//   stack := core.NewStack(app, jsii.String("FlinkAppTest"))
//
//   flinkApp := flink.NewApplication(stack, jsii.String("App"), &ApplicationProps{
//   	Code: flink.ApplicationCode_FromAsset(path.join(__dirname, jsii.String("code-asset"))),
//   	Runtime: flink.Runtime_FLINK_1_11(),
//   })
//
//   cloudwatch.NewAlarm(stack, jsii.String("Alarm"), &AlarmProps{
//   	Metric: flinkApp.metricFullRestarts(),
//   	EvaluationPeriods: jsii.Number(1),
//   	Threshold: jsii.Number(3),
//   })
//
//   app.Synth()
//
// Experimental.
type Application interface {
	awscdk.Resource
	IApplication
	// The application ARN.
	// Experimental.
	ApplicationArn() *string
	// The name of the Flink application.
	// Experimental.
	ApplicationName() *string
	// The network connections associated with this resource.
	// Experimental.
	Connections() awsec2.Connections
	// The environment this resource belongs to.
	//
	// For resources that are created and managed by the CDK
	// (generally, those created by creating new class instances like Role, Bucket, etc.),
	// this is always the same as the environment of the stack they belong to;
	// however, for imported resources
	// (those obtained from static methods like fromRoleArn, fromBucketName, etc.),
	// that might be different than the stack they were imported into.
	// Experimental.
	Env() *awscdk.ResourceEnvironment
	// The principal to grant permissions to.
	// Experimental.
	GrantPrincipal() awsiam.IPrincipal
	// The tree node.
	// Experimental.
	Node() constructs.Node
	// Returns a string-encoded token that resolves to the physical name that should be passed to the CloudFormation resource.
	//
	// This value will resolve to one of the following:
	// - a concrete value (e.g. `"my-awesome-bucket"`)
	// - `undefined`, when a name should be generated by CloudFormation
	// - a concrete name generated automatically during synthesis, in
	//   cross-environment scenarios.
	// Experimental.
	PhysicalName() *string
	// The application IAM role.
	// Experimental.
	Role() awsiam.IRole
	// The stack in which this resource is defined.
	// Experimental.
	Stack() awscdk.Stack
	// Implement the convenience `IApplication.addToPrincipalPolicy` method.
	// Experimental.
	AddToRolePolicy(policyStatement awsiam.PolicyStatement) *bool
	// Apply the given removal policy to this resource.
	//
	// The Removal Policy controls what happens to this resource when it stops
	// being managed by CloudFormation, either because you've removed it from the
	// CDK application or because you've made a change that requires the resource
	// to be replaced.
	//
	// The resource can be deleted (`RemovalPolicy.DESTROY`), or left in your AWS
	// account for data recovery and cleanup later (`RemovalPolicy.RETAIN`).
	// Experimental.
	ApplyRemovalPolicy(policy awscdk.RemovalPolicy)
	// Experimental.
	GeneratePhysicalName() *string
	// Returns an environment-sensitive token that should be used for the resource's "ARN" attribute (e.g. `bucket.bucketArn`).
	//
	// Normally, this token will resolve to `arnAttr`, but if the resource is
	// referenced across environments, `arnComponents` will be used to synthesize
	// a concrete ARN with the resource's physical name. Make sure to reference
	// `this.physicalName` in `arnComponents`.
	// Experimental.
	GetResourceArnAttribute(arnAttr *string, arnComponents *awscdk.ArnComponents) *string
	// Returns an environment-sensitive token that should be used for the resource's "name" attribute (e.g. `bucket.bucketName`).
	//
	// Normally, this token will resolve to `nameAttr`, but if the resource is
	// referenced across environments, it will be resolved to `this.physicalName`,
	// which will be a concrete name.
	// Experimental.
	GetResourceNameAttribute(nameAttr *string) *string
	// Return a CloudWatch metric associated with this Flink application.
	// Experimental.
	Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time (in milliseconds) this task or operator is back pressured per second.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Operator, Task, Parallelism.
	// Experimental.
	MetricBackPressuredTimeMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time (in milliseconds) this task or operator is busy (neither idle nor back pressured) per second.
	//
	// Can be NaN, if the value could not be
	// calculated.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Operator, Task, Parallelism.
	// Experimental.
	MetricBusyTimePerMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The overall percentage of CPU utilization across task managers.
	//
	// For
	// example, if there are five task managers, Kinesis Data Analytics publishes
	// five samples of this metric per reporting interval.
	//
	// Units: Percentage
	//
	// Reporting Level: Application.
	// Experimental.
	MetricCpuUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The last watermark this application/operator/task/thread has received.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricCurrentInputWatermark(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The last watermark this application/operator/task/thread has received.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricCurrentOutputWatermark(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time elapsed during an outage for failing/recovering jobs.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application.
	// Experimental.
	MetricDowntime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of times this job has fully restarted since it was submitted.
	//
	// This metric does not measure fine-grained restarts.
	//
	// Units: Count
	//
	// Reporting Level: Application.
	// Experimental.
	MetricFullRestarts(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// Overall heap memory utilization across task managers.
	//
	// For example, if there
	// are five task managers, Kinesis Data Analytics publishes five samples of
	// this metric per reporting interval.
	//
	// Units: Percentage
	//
	// Reporting Level: Application.
	// Experimental.
	MetricHeapMemoryUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time (in milliseconds) this task or operator is idle (has no data to process) per second.
	//
	// Idle time excludes back pressured time, so if the task
	// is back pressured it is not idle.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Operator, Task, Parallelism.
	// Experimental.
	MetricIdleTimeMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The number of Kinesis Processing Units that are used to run your stream processing application.
	//
	// The average number of KPUs used each hour
	// determines the billing for your application.
	//
	// Units: Count
	//
	// Reporting Level: Application.
	// Experimental.
	MetricKpus(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time it took to complete the last checkpoint.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application.
	// Experimental.
	MetricLastCheckpointDuration(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total size of the last checkpoint.
	//
	// Units: Bytes
	//
	// Reporting Level: Application.
	// Experimental.
	MetricLastCheckpointSize(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total amount of managed memory.
	//
	// Units: Bytes
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricManagedMemoryTotal(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The amount of managed memory currently used.
	//
	// Units: Bytes
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricManagedMemoryUsed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// Derived from managedMemoryUsed/managedMemoryTotal.
	//
	// Units: Percentage
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricManagedMemoryUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The number of times checkpointing has failed.
	//
	// Units: Count
	//
	// Reporting Level: Application.
	// Experimental.
	MetricNumberOfFailedCheckpoints(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The number of records this operator or task has dropped due to arriving late.
	//
	// Units: Count
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricNumLateRecordsDropped(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of records this application, operator, or task has received.
	//
	// Units: Count
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricNumRecordsIn(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of records this application, operator or task has received per second.
	//
	// Units: Count/Second
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricNumRecordsInPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of records this application, operator or task has emitted.
	//
	// Units: Count
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricNumRecordsOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of records this application, operator or task has emitted per second.
	//
	// Units: Count/Second
	//
	// Reporting Level: Application, Operator, Task, Parallelism.
	// Experimental.
	MetricNumRecordsOutPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of old garbage collection operations that have occurred across all task managers.
	//
	// Units: Count
	//
	// Reporting Level: Application.
	// Experimental.
	MetricOldGenerationGCCount(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total time spent performing old garbage collection operations.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application.
	// Experimental.
	MetricOldGenerationGCTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The total number of live threads used by the application.
	//
	// Units: Count
	//
	// Reporting Level: Application.
	// Experimental.
	MetricThreadsCount(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// The time that the job has been running without interruption.
	//
	// Units: Milliseconds
	//
	// Reporting Level: Application.
	// Experimental.
	MetricUptime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric
	// Returns a string representation of this construct.
	// Experimental.
	ToString() *string
}

// The jsii proxy struct for Application
type jsiiProxy_Application struct {
	internal.Type__awscdkResource
	jsiiProxy_IApplication
}

func (j *jsiiProxy_Application) ApplicationArn() *string {
	var returns *string
	_jsii_.Get(
		j,
		"applicationArn",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) ApplicationName() *string {
	var returns *string
	_jsii_.Get(
		j,
		"applicationName",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) Connections() awsec2.Connections {
	var returns awsec2.Connections
	_jsii_.Get(
		j,
		"connections",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) Env() *awscdk.ResourceEnvironment {
	var returns *awscdk.ResourceEnvironment
	_jsii_.Get(
		j,
		"env",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) GrantPrincipal() awsiam.IPrincipal {
	var returns awsiam.IPrincipal
	_jsii_.Get(
		j,
		"grantPrincipal",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) Node() constructs.Node {
	var returns constructs.Node
	_jsii_.Get(
		j,
		"node",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) PhysicalName() *string {
	var returns *string
	_jsii_.Get(
		j,
		"physicalName",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) Role() awsiam.IRole {
	var returns awsiam.IRole
	_jsii_.Get(
		j,
		"role",
		&returns,
	)
	return returns
}

func (j *jsiiProxy_Application) Stack() awscdk.Stack {
	var returns awscdk.Stack
	_jsii_.Get(
		j,
		"stack",
		&returns,
	)
	return returns
}


// Experimental.
func NewApplication(scope constructs.Construct, id *string, props *ApplicationProps) Application {
	_init_.Initialize()

	if err := validateNewApplicationParameters(scope, id, props); err != nil {
		panic(err)
	}
	j := jsiiProxy_Application{}

	_jsii_.Create(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		[]interface{}{scope, id, props},
		&j,
	)

	return &j
}

// Experimental.
func NewApplication_Override(a Application, scope constructs.Construct, id *string, props *ApplicationProps) {
	_init_.Initialize()

	_jsii_.Create(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		[]interface{}{scope, id, props},
		a,
	)
}

// Import an existing application defined outside of CDK code by applicationArn.
// Experimental.
func Application_FromApplicationArn(scope constructs.Construct, id *string, applicationArn *string) IApplication {
	_init_.Initialize()

	if err := validateApplication_FromApplicationArnParameters(scope, id, applicationArn); err != nil {
		panic(err)
	}
	var returns IApplication

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"fromApplicationArn",
		[]interface{}{scope, id, applicationArn},
		&returns,
	)

	return returns
}

// Import an existing application defined outside of CDK code.
// Experimental.
func Application_FromApplicationAttributes(scope constructs.Construct, id *string, attrs *ApplicationAttributes) IApplication {
	_init_.Initialize()

	if err := validateApplication_FromApplicationAttributesParameters(scope, id, attrs); err != nil {
		panic(err)
	}
	var returns IApplication

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"fromApplicationAttributes",
		[]interface{}{scope, id, attrs},
		&returns,
	)

	return returns
}

// Import an existing Flink application defined outside of CDK code by applicationName.
// Experimental.
func Application_FromApplicationName(scope constructs.Construct, id *string, applicationName *string) IApplication {
	_init_.Initialize()

	if err := validateApplication_FromApplicationNameParameters(scope, id, applicationName); err != nil {
		panic(err)
	}
	var returns IApplication

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"fromApplicationName",
		[]interface{}{scope, id, applicationName},
		&returns,
	)

	return returns
}

// Checks if `x` is a construct.
//
// Use this method instead of `instanceof` to properly detect `Construct`
// instances, even when the construct library is symlinked.
//
// Explanation: in JavaScript, multiple copies of the `constructs` library on
// disk are seen as independent, completely different libraries. As a
// consequence, the class `Construct` in each copy of the `constructs` library
// is seen as a different class, and an instance of one class will not test as
// `instanceof` the other class. `npm install` will not create installations
// like this, but users may manually symlink construct libraries together or
// use a monorepo tool: in those cases, multiple copies of the `constructs`
// library can be accidentally installed, and `instanceof` will behave
// unpredictably. It is safest to avoid using `instanceof`, and using
// this type-testing method instead.
//
// Returns: true if `x` is an object created from a class which extends `Construct`.
// Experimental.
func Application_IsConstruct(x interface{}) *bool {
	_init_.Initialize()

	if err := validateApplication_IsConstructParameters(x); err != nil {
		panic(err)
	}
	var returns *bool

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"isConstruct",
		[]interface{}{x},
		&returns,
	)

	return returns
}

// Returns true if the construct was created by CDK, and false otherwise.
// Experimental.
func Application_IsOwnedResource(construct constructs.IConstruct) *bool {
	_init_.Initialize()

	if err := validateApplication_IsOwnedResourceParameters(construct); err != nil {
		panic(err)
	}
	var returns *bool

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"isOwnedResource",
		[]interface{}{construct},
		&returns,
	)

	return returns
}

// Check whether the given construct is a Resource.
// Experimental.
func Application_IsResource(construct constructs.IConstruct) *bool {
	_init_.Initialize()

	if err := validateApplication_IsResourceParameters(construct); err != nil {
		panic(err)
	}
	var returns *bool

	_jsii_.StaticInvoke(
		"@aws-cdk/aws-kinesisanalytics-flink-alpha.Application",
		"isResource",
		[]interface{}{construct},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) AddToRolePolicy(policyStatement awsiam.PolicyStatement) *bool {
	if err := a.validateAddToRolePolicyParameters(policyStatement); err != nil {
		panic(err)
	}
	var returns *bool

	_jsii_.Invoke(
		a,
		"addToRolePolicy",
		[]interface{}{policyStatement},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) ApplyRemovalPolicy(policy awscdk.RemovalPolicy) {
	if err := a.validateApplyRemovalPolicyParameters(policy); err != nil {
		panic(err)
	}
	_jsii_.InvokeVoid(
		a,
		"applyRemovalPolicy",
		[]interface{}{policy},
	)
}

func (a *jsiiProxy_Application) GeneratePhysicalName() *string {
	var returns *string

	_jsii_.Invoke(
		a,
		"generatePhysicalName",
		nil, // no parameters
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) GetResourceArnAttribute(arnAttr *string, arnComponents *awscdk.ArnComponents) *string {
	if err := a.validateGetResourceArnAttributeParameters(arnAttr, arnComponents); err != nil {
		panic(err)
	}
	var returns *string

	_jsii_.Invoke(
		a,
		"getResourceArnAttribute",
		[]interface{}{arnAttr, arnComponents},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) GetResourceNameAttribute(nameAttr *string) *string {
	if err := a.validateGetResourceNameAttributeParameters(nameAttr); err != nil {
		panic(err)
	}
	var returns *string

	_jsii_.Invoke(
		a,
		"getResourceNameAttribute",
		[]interface{}{nameAttr},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) Metric(metricName *string, props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricParameters(metricName, props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metric",
		[]interface{}{metricName, props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricBackPressuredTimeMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricBackPressuredTimeMsPerSecondParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricBackPressuredTimeMsPerSecond",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricBusyTimePerMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricBusyTimePerMsPerSecondParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricBusyTimePerMsPerSecond",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricCpuUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricCpuUtilizationParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricCpuUtilization",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricCurrentInputWatermark(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricCurrentInputWatermarkParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricCurrentInputWatermark",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricCurrentOutputWatermark(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricCurrentOutputWatermarkParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricCurrentOutputWatermark",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricDowntime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricDowntimeParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricDowntime",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricFullRestarts(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricFullRestartsParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricFullRestarts",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricHeapMemoryUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricHeapMemoryUtilizationParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricHeapMemoryUtilization",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricIdleTimeMsPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricIdleTimeMsPerSecondParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricIdleTimeMsPerSecond",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricKpus(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricKpusParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricKpus",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricLastCheckpointDuration(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricLastCheckpointDurationParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricLastCheckpointDuration",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricLastCheckpointSize(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricLastCheckpointSizeParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricLastCheckpointSize",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricManagedMemoryTotal(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricManagedMemoryTotalParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricManagedMemoryTotal",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricManagedMemoryUsed(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricManagedMemoryUsedParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricManagedMemoryUsed",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricManagedMemoryUtilization(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricManagedMemoryUtilizationParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricManagedMemoryUtilization",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumberOfFailedCheckpoints(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumberOfFailedCheckpointsParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumberOfFailedCheckpoints",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumLateRecordsDropped(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumLateRecordsDroppedParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumLateRecordsDropped",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumRecordsIn(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumRecordsInParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumRecordsIn",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumRecordsInPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumRecordsInPerSecondParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumRecordsInPerSecond",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumRecordsOut(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumRecordsOutParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumRecordsOut",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricNumRecordsOutPerSecond(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricNumRecordsOutPerSecondParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricNumRecordsOutPerSecond",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricOldGenerationGCCount(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricOldGenerationGCCountParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricOldGenerationGCCount",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricOldGenerationGCTime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricOldGenerationGCTimeParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricOldGenerationGCTime",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricThreadsCount(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricThreadsCountParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricThreadsCount",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) MetricUptime(props *awscloudwatch.MetricOptions) awscloudwatch.Metric {
	if err := a.validateMetricUptimeParameters(props); err != nil {
		panic(err)
	}
	var returns awscloudwatch.Metric

	_jsii_.Invoke(
		a,
		"metricUptime",
		[]interface{}{props},
		&returns,
	)

	return returns
}

func (a *jsiiProxy_Application) ToString() *string {
	var returns *string

	_jsii_.Invoke(
		a,
		"toString",
		nil, // no parameters
		&returns,
	)

	return returns
}