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Stack.go
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package awscdk
import (
_init_ "github.com/aws/aws-cdk-go/awscdk/v2/jsii"
_jsii_ "github.com/aws/jsii-runtime-go/runtime"
"github.com/aws/aws-cdk-go/awscdk/v2/cloudassemblyschema"
"github.com/aws/aws-cdk-go/awscdk/v2/internal"
"github.com/aws/constructs-go/constructs/v10"
)
// A root construct which represents a single CloudFormation stack.
//
// Example:
// import "github.com/aws/aws-cdk-go/awscdk"
// import s3 "github.com/aws/aws-cdk-go/awscdk"
//
// var bucket iBucket
//
//
// app := cdk.NewApp()
// stack := cdk.NewStack(app, jsii.String("Stack"))
//
// dynamodb.NewTable(stack, jsii.String("Table"), &TableProps{
// PartitionKey: &Attribute{
// Name: jsii.String("id"),
// Type: dynamodb.AttributeType_STRING,
// },
// ImportSource: &ImportSourceSpecification{
// CompressionType: dynamodb.InputCompressionType_GZIP,
// InputFormat: dynamodb.InputFormat_Csv(&CsvOptions{
// Delimiter: jsii.String(","),
// HeaderList: []*string{
// jsii.String("id"),
// jsii.String("name"),
// },
// }),
// Bucket: *Bucket,
// KeyPrefix: jsii.String("prefix"),
// },
// })
//
type Stack interface {
constructs.Construct
ITaggable
// The AWS account into which this stack will be deployed.
//
// This value is resolved according to the following rules:
//
// 1. The value provided to `env.account` when the stack is defined. This can
// either be a concrete account (e.g. `585695031111`) or the
// `Aws.ACCOUNT_ID` token.
// 3. `Aws.ACCOUNT_ID`, which represents the CloudFormation intrinsic reference
// `{ "Ref": "AWS::AccountId" }` encoded as a string token.
//
// Preferably, you should use the return value as an opaque string and not
// attempt to parse it to implement your logic. If you do, you must first
// check that it is a concrete value an not an unresolved token. If this
// value is an unresolved token (`Token.isUnresolved(stack.account)` returns
// `true`), this implies that the user wishes that this stack will synthesize
// into a **account-agnostic template**. In this case, your code should either
// fail (throw an error, emit a synth error using `Annotations.of(construct).addError()`) or
// implement some other region-agnostic behavior.
Account() *string
// The ID of the cloud assembly artifact for this stack.
ArtifactId() *string
// Returns the list of AZs that are available in the AWS environment (account/region) associated with this stack.
//
// If the stack is environment-agnostic (either account and/or region are
// tokens), this property will return an array with 2 tokens that will resolve
// at deploy-time to the first two availability zones returned from CloudFormation's
// `Fn::GetAZs` intrinsic function.
//
// If they are not available in the context, returns a set of dummy values and
// reports them as missing, and let the CLI resolve them by calling EC2
// `DescribeAvailabilityZones` on the target environment.
//
// To specify a different strategy for selecting availability zones override this method.
AvailabilityZones() *[]*string
// Indicates whether the stack requires bundling or not.
BundlingRequired() *bool
// Return the stacks this stack depends on.
Dependencies() *[]Stack
// The environment coordinates in which this stack is deployed.
//
// In the form
// `aws://account/region`. Use `stack.account` and `stack.region` to obtain
// the specific values, no need to parse.
//
// You can use this value to determine if two stacks are targeting the same
// environment.
//
// If either `stack.account` or `stack.region` are not concrete values (e.g.
// `Aws.ACCOUNT_ID` or `Aws.REGION`) the special strings `unknown-account` and/or
// `unknown-region` will be used respectively to indicate this stack is
// region/account-agnostic.
Environment() *string
// Indicates if this is a nested stack, in which case `parentStack` will include a reference to it's parent.
Nested() *bool
// If this is a nested stack, returns it's parent stack.
NestedStackParent() Stack
// If this is a nested stack, this represents its `AWS::CloudFormation::Stack` resource.
//
// `undefined` for top-level (non-nested) stacks.
NestedStackResource() CfnResource
// The tree node.
Node() constructs.Node
// Returns the list of notification Amazon Resource Names (ARNs) for the current stack.
NotificationArns() *[]*string
// The partition in which this stack is defined.
Partition() *string
// The AWS region into which this stack will be deployed (e.g. `us-west-2`).
//
// This value is resolved according to the following rules:
//
// 1. The value provided to `env.region` when the stack is defined. This can
// either be a concrete region (e.g. `us-west-2`) or the `Aws.REGION`
// token.
// 3. `Aws.REGION`, which is represents the CloudFormation intrinsic reference
// `{ "Ref": "AWS::Region" }` encoded as a string token.
//
// Preferably, you should use the return value as an opaque string and not
// attempt to parse it to implement your logic. If you do, you must first
// check that it is a concrete value an not an unresolved token. If this
// value is an unresolved token (`Token.isUnresolved(stack.region)` returns
// `true`), this implies that the user wishes that this stack will synthesize
// into a **region-agnostic template**. In this case, your code should either
// fail (throw an error, emit a synth error using `Annotations.of(construct).addError()`) or
// implement some other region-agnostic behavior.
Region() *string
// The ID of the stack.
//
// Example:
// // After resolving, looks like
// "arn:aws:cloudformation:us-west-2:123456789012:stack/teststack/51af3dc0-da77-11e4-872e-1234567db123"
//
StackId() *string
// The concrete CloudFormation physical stack name.
//
// This is either the name defined explicitly in the `stackName` prop or
// allocated based on the stack's location in the construct tree. Stacks that
// are directly defined under the app use their construct `id` as their stack
// name. Stacks that are defined deeper within the tree will use a hashed naming
// scheme based on the construct path to ensure uniqueness.
//
// If you wish to obtain the deploy-time AWS::StackName intrinsic,
// you can use `Aws.STACK_NAME` directly.
StackName() *string
// Synthesis method for this stack.
Synthesizer() IStackSynthesizer
// Tags to be applied to the stack.
Tags() TagManager
// The name of the CloudFormation template file emitted to the output directory during synthesis.
//
// Example value: `MyStack.template.json`
TemplateFile() *string
// Options for CloudFormation template (like version, transform, description).
TemplateOptions() ITemplateOptions
// Whether termination protection is enabled for this stack.
TerminationProtection() *bool
SetTerminationProtection(val *bool)
// The Amazon domain suffix for the region in which this stack is defined.
UrlSuffix() *string
// Add a dependency between this stack and another stack.
//
// This can be used to define dependencies between any two stacks within an
// app, and also supports nested stacks.
AddDependency(target Stack, reason *string)
// Adds an arbitary key-value pair, with information you want to record about the stack.
//
// These get translated to the Metadata section of the generated template.
// See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html
//
AddMetadata(key *string, value interface{})
// Add a Transform to this stack. A Transform is a macro that AWS CloudFormation uses to process your template.
//
// Duplicate values are removed when stack is synthesized.
//
// Example:
// var stack stack
//
//
// stack.AddTransform(jsii.String("AWS::Serverless-2016-10-31"))
//
// See: https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/transform-section-structure.html
//
AddTransform(transform *string)
// Returns the naming scheme used to allocate logical IDs.
//
// By default, uses
// the `HashedAddressingScheme` but this method can be overridden to customize
// this behavior.
//
// In order to make sure logical IDs are unique and stable, we hash the resource
// construct tree path (i.e. toplevel/secondlevel/.../myresource) and add it as
// a suffix to the path components joined without a separator (CloudFormation
// IDs only allow alphanumeric characters).
//
// The result will be:
//
// <path.join('')><md5(path.join('/')>
// "human" "hash"
//
// If the "human" part of the ID exceeds 240 characters, we simply trim it so
// the total ID doesn't exceed CloudFormation's 255 character limit.
//
// We only take 8 characters from the md5 hash (0.000005 chance of collision).
//
// Special cases:
//
// - If the path only contains a single component (i.e. it's a top-level
// resource), we won't add the hash to it. The hash is not needed for
// disambiguation and also, it allows for a more straightforward migration an
// existing CloudFormation template to a CDK stack without logical ID changes
// (or renames).
// - For aesthetic reasons, if the last components of the path are the same
// (i.e. `L1/L2/Pipeline/Pipeline`), they will be de-duplicated to make the
// resulting human portion of the ID more pleasing: `L1L2Pipeline<HASH>`
// instead of `L1L2PipelinePipeline<HASH>`
// - If a component is named "Default" it will be omitted from the path. This
// allows refactoring higher level abstractions around constructs without affecting
// the IDs of already deployed resources.
// - If a component is named "Resource" it will be omitted from the user-visible
// path, but included in the hash. This reduces visual noise in the human readable
// part of the identifier.
AllocateLogicalId(cfnElement CfnElement) *string
// Create a CloudFormation Export for a string list value.
//
// Returns a string list representing the corresponding `Fn.importValue()`
// expression for this Export. The export expression is automatically wrapped with an
// `Fn::Join` and the import value with an `Fn::Split`, since CloudFormation can only
// export strings. You can control the name for the export by passing the `name` option.
//
// If you don't supply a value for `name`, the value you're exporting must be
// a Resource attribute (for example: `bucket.bucketName`) and it will be
// given the same name as the automatic cross-stack reference that would be created
// if you used the attribute in another Stack.
//
// One of the uses for this method is to *remove* the relationship between
// two Stacks established by automatic cross-stack references. It will
// temporarily ensure that the CloudFormation Export still exists while you
// remove the reference from the consuming stack. After that, you can remove
// the resource and the manual export.
//
// See `exportValue` for an example of this process.
ExportStringListValue(exportedValue interface{}, options *ExportValueOptions) *[]*string
// Create a CloudFormation Export for a string value.
//
// Returns a string representing the corresponding `Fn.importValue()`
// expression for this Export. You can control the name for the export by
// passing the `name` option.
//
// If you don't supply a value for `name`, the value you're exporting must be
// a Resource attribute (for example: `bucket.bucketName`) and it will be
// given the same name as the automatic cross-stack reference that would be created
// if you used the attribute in another Stack.
//
// One of the uses for this method is to *remove* the relationship between
// two Stacks established by automatic cross-stack references. It will
// temporarily ensure that the CloudFormation Export still exists while you
// remove the reference from the consuming stack. After that, you can remove
// the resource and the manual export.
//
// ## Example
//
// Here is how the process works. Let's say there are two stacks,
// `producerStack` and `consumerStack`, and `producerStack` has a bucket
// called `bucket`, which is referenced by `consumerStack` (perhaps because
// an AWS Lambda Function writes into it, or something like that).
//
// It is not safe to remove `producerStack.bucket` because as the bucket is being
// deleted, `consumerStack` might still be using it.
//
// Instead, the process takes two deployments:
//
// ### Deployment 1: break the relationship
//
// - Make sure `consumerStack` no longer references `bucket.bucketName` (maybe the consumer
// stack now uses its own bucket, or it writes to an AWS DynamoDB table, or maybe you just
// remove the Lambda Function altogether).
// - In the `ProducerStack` class, call `this.exportValue(this.bucket.bucketName)`. This
// will make sure the CloudFormation Export continues to exist while the relationship
// between the two stacks is being broken.
// - Deploy (this will effectively only change the `consumerStack`, but it's safe to deploy both).
//
// ### Deployment 2: remove the bucket resource
//
// - You are now free to remove the `bucket` resource from `producerStack`.
// - Don't forget to remove the `exportValue()` call as well.
// - Deploy again (this time only the `producerStack` will be changed -- the bucket will be deleted).
ExportValue(exportedValue interface{}, options *ExportValueOptions) *string
// Creates an ARN from components.
//
// If `partition`, `region` or `account` are not specified, the stack's
// partition, region and account will be used.
//
// If any component is the empty string, an empty string will be inserted
// into the generated ARN at the location that component corresponds to.
//
// The ARN will be formatted as follows:
//
// arn:{partition}:{service}:{region}:{account}:{resource}{sep}{resource-name}
//
// The required ARN pieces that are omitted will be taken from the stack that
// the 'scope' is attached to. If all ARN pieces are supplied, the supplied scope
// can be 'undefined'.
FormatArn(components *ArnComponents) *string
// Allocates a stack-unique CloudFormation-compatible logical identity for a specific resource.
//
// This method is called when a `CfnElement` is created and used to render the
// initial logical identity of resources. Logical ID renames are applied at
// this stage.
//
// This method uses the protected method `allocateLogicalId` to render the
// logical ID for an element. To modify the naming scheme, extend the `Stack`
// class and override this method.
GetLogicalId(element CfnElement) *string
// Look up a fact value for the given fact for the region of this stack.
//
// Will return a definite value only if the region of the current stack is resolved.
// If not, a lookup map will be added to the stack and the lookup will be done at
// CDK deployment time.
//
// What regions will be included in the lookup map is controlled by the
// `@aws-cdk/core:target-partitions` context value: it must be set to a list
// of partitions, and only regions from the given partitions will be included.
// If no such context key is set, all regions will be included.
//
// This function is intended to be used by construct library authors. Application
// builders can rely on the abstractions offered by construct libraries and do
// not have to worry about regional facts.
//
// If `defaultValue` is not given, it is an error if the fact is unknown for
// the given region.
RegionalFact(factName *string, defaultValue *string) *string
// Rename a generated logical identities.
//
// To modify the naming scheme strategy, extend the `Stack` class and
// override the `allocateLogicalId` method.
RenameLogicalId(oldId *string, newId *string)
// Indicate that a context key was expected.
//
// Contains instructions which will be emitted into the cloud assembly on how
// the key should be supplied.
ReportMissingContextKey(report *cloudassemblyschema.MissingContext)
// Resolve a tokenized value in the context of the current stack.
Resolve(obj interface{}) interface{}
// Splits the provided ARN into its components.
//
// Works both if 'arn' is a string like 'arn:aws:s3:::bucket',
// and a Token representing a dynamic CloudFormation expression
// (in which case the returned components will also be dynamic CloudFormation expressions,
// encoded as Tokens).
SplitArn(arn *string, arnFormat ArnFormat) *ArnComponents
// Convert an object, potentially containing tokens, to a JSON string.
ToJsonString(obj interface{}, space *float64) *string
// Returns a string representation of this construct.
ToString() *string
// Convert an object, potentially containing tokens, to a YAML string.
ToYamlString(obj interface{}) *string
}
// The jsii proxy struct for Stack
type jsiiProxy_Stack struct {
internal.Type__constructsConstruct
jsiiProxy_ITaggable
}
func (j *jsiiProxy_Stack) Account() *string {
var returns *string
_jsii_.Get(
j,
"account",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) ArtifactId() *string {
var returns *string
_jsii_.Get(
j,
"artifactId",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) AvailabilityZones() *[]*string {
var returns *[]*string
_jsii_.Get(
j,
"availabilityZones",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) BundlingRequired() *bool {
var returns *bool
_jsii_.Get(
j,
"bundlingRequired",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Dependencies() *[]Stack {
var returns *[]Stack
_jsii_.Get(
j,
"dependencies",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Environment() *string {
var returns *string
_jsii_.Get(
j,
"environment",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Nested() *bool {
var returns *bool
_jsii_.Get(
j,
"nested",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) NestedStackParent() Stack {
var returns Stack
_jsii_.Get(
j,
"nestedStackParent",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) NestedStackResource() CfnResource {
var returns CfnResource
_jsii_.Get(
j,
"nestedStackResource",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Node() constructs.Node {
var returns constructs.Node
_jsii_.Get(
j,
"node",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) NotificationArns() *[]*string {
var returns *[]*string
_jsii_.Get(
j,
"notificationArns",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Partition() *string {
var returns *string
_jsii_.Get(
j,
"partition",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Region() *string {
var returns *string
_jsii_.Get(
j,
"region",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) StackId() *string {
var returns *string
_jsii_.Get(
j,
"stackId",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) StackName() *string {
var returns *string
_jsii_.Get(
j,
"stackName",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Synthesizer() IStackSynthesizer {
var returns IStackSynthesizer
_jsii_.Get(
j,
"synthesizer",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) Tags() TagManager {
var returns TagManager
_jsii_.Get(
j,
"tags",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) TemplateFile() *string {
var returns *string
_jsii_.Get(
j,
"templateFile",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) TemplateOptions() ITemplateOptions {
var returns ITemplateOptions
_jsii_.Get(
j,
"templateOptions",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) TerminationProtection() *bool {
var returns *bool
_jsii_.Get(
j,
"terminationProtection",
&returns,
)
return returns
}
func (j *jsiiProxy_Stack) UrlSuffix() *string {
var returns *string
_jsii_.Get(
j,
"urlSuffix",
&returns,
)
return returns
}
// Creates a new stack.
func NewStack(scope constructs.Construct, id *string, props *StackProps) Stack {
_init_.Initialize()
if err := validateNewStackParameters(props); err != nil {
panic(err)
}
j := jsiiProxy_Stack{}
_jsii_.Create(
"aws-cdk-lib.Stack",
[]interface{}{scope, id, props},
&j,
)
return &j
}
// Creates a new stack.
func NewStack_Override(s Stack, scope constructs.Construct, id *string, props *StackProps) {
_init_.Initialize()
_jsii_.Create(
"aws-cdk-lib.Stack",
[]interface{}{scope, id, props},
s,
)
}
func (j *jsiiProxy_Stack)SetTerminationProtection(val *bool) {
if err := j.validateSetTerminationProtectionParameters(val); err != nil {
panic(err)
}
_jsii_.Set(
j,
"terminationProtection",
val,
)
}
// 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`.
func Stack_IsConstruct(x interface{}) *bool {
_init_.Initialize()
if err := validateStack_IsConstructParameters(x); err != nil {
panic(err)
}
var returns *bool
_jsii_.StaticInvoke(
"aws-cdk-lib.Stack",
"isConstruct",
[]interface{}{x},
&returns,
)
return returns
}
// Return whether the given object is a Stack.
//
// We do attribute detection since we can't reliably use 'instanceof'.
func Stack_IsStack(x interface{}) *bool {
_init_.Initialize()
if err := validateStack_IsStackParameters(x); err != nil {
panic(err)
}
var returns *bool
_jsii_.StaticInvoke(
"aws-cdk-lib.Stack",
"isStack",
[]interface{}{x},
&returns,
)
return returns
}
// Looks up the first stack scope in which `construct` is defined.
//
// Fails if there is no stack up the tree.
func Stack_Of(construct constructs.IConstruct) Stack {
_init_.Initialize()
if err := validateStack_OfParameters(construct); err != nil {
panic(err)
}
var returns Stack
_jsii_.StaticInvoke(
"aws-cdk-lib.Stack",
"of",
[]interface{}{construct},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) AddDependency(target Stack, reason *string) {
if err := s.validateAddDependencyParameters(target); err != nil {
panic(err)
}
_jsii_.InvokeVoid(
s,
"addDependency",
[]interface{}{target, reason},
)
}
func (s *jsiiProxy_Stack) AddMetadata(key *string, value interface{}) {
if err := s.validateAddMetadataParameters(key, value); err != nil {
panic(err)
}
_jsii_.InvokeVoid(
s,
"addMetadata",
[]interface{}{key, value},
)
}
func (s *jsiiProxy_Stack) AddTransform(transform *string) {
if err := s.validateAddTransformParameters(transform); err != nil {
panic(err)
}
_jsii_.InvokeVoid(
s,
"addTransform",
[]interface{}{transform},
)
}
func (s *jsiiProxy_Stack) AllocateLogicalId(cfnElement CfnElement) *string {
if err := s.validateAllocateLogicalIdParameters(cfnElement); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"allocateLogicalId",
[]interface{}{cfnElement},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) ExportStringListValue(exportedValue interface{}, options *ExportValueOptions) *[]*string {
if err := s.validateExportStringListValueParameters(exportedValue, options); err != nil {
panic(err)
}
var returns *[]*string
_jsii_.Invoke(
s,
"exportStringListValue",
[]interface{}{exportedValue, options},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) ExportValue(exportedValue interface{}, options *ExportValueOptions) *string {
if err := s.validateExportValueParameters(exportedValue, options); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"exportValue",
[]interface{}{exportedValue, options},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) FormatArn(components *ArnComponents) *string {
if err := s.validateFormatArnParameters(components); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"formatArn",
[]interface{}{components},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) GetLogicalId(element CfnElement) *string {
if err := s.validateGetLogicalIdParameters(element); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"getLogicalId",
[]interface{}{element},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) RegionalFact(factName *string, defaultValue *string) *string {
if err := s.validateRegionalFactParameters(factName); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"regionalFact",
[]interface{}{factName, defaultValue},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) RenameLogicalId(oldId *string, newId *string) {
if err := s.validateRenameLogicalIdParameters(oldId, newId); err != nil {
panic(err)
}
_jsii_.InvokeVoid(
s,
"renameLogicalId",
[]interface{}{oldId, newId},
)
}
func (s *jsiiProxy_Stack) ReportMissingContextKey(report *cloudassemblyschema.MissingContext) {
if err := s.validateReportMissingContextKeyParameters(report); err != nil {
panic(err)
}
_jsii_.InvokeVoid(
s,
"reportMissingContextKey",
[]interface{}{report},
)
}
func (s *jsiiProxy_Stack) Resolve(obj interface{}) interface{} {
if err := s.validateResolveParameters(obj); err != nil {
panic(err)
}
var returns interface{}
_jsii_.Invoke(
s,
"resolve",
[]interface{}{obj},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) SplitArn(arn *string, arnFormat ArnFormat) *ArnComponents {
if err := s.validateSplitArnParameters(arn, arnFormat); err != nil {
panic(err)
}
var returns *ArnComponents
_jsii_.Invoke(
s,
"splitArn",
[]interface{}{arn, arnFormat},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) ToJsonString(obj interface{}, space *float64) *string {
if err := s.validateToJsonStringParameters(obj); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"toJsonString",
[]interface{}{obj, space},
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) ToString() *string {
var returns *string
_jsii_.Invoke(
s,
"toString",
nil, // no parameters
&returns,
)
return returns
}
func (s *jsiiProxy_Stack) ToYamlString(obj interface{}) *string {
if err := s.validateToYamlStringParameters(obj); err != nil {
panic(err)
}
var returns *string
_jsii_.Invoke(
s,
"toYamlString",
[]interface{}{obj},
&returns,
)
return returns
}