v1.5.7/website/docs/language/modules/develop/refactoring.mdx - terraform - Git at Google

 ---
 page_title: Refactoring
 description: How to make backward-compatible changes to modules already in use.
 ---

 # Refactoring

 -> **Note:** Explicit refactoring declarations with `moved` blocks is available in Terraform v1.1 and later. For earlier Terraform versions or for refactoring actions too complex to express as `moved` blocks, you can
 use the [`terraform state mv` CLI command](/terraform/cli/commands/state/mv)
 as a separate step.

 In shared modules and long-lived configurations, you may eventually outgrow
 your initial module structure and resource names. For example, you might decide
 that what was previously one child module makes more sense as two separate
 modules and move a subset of the existing resources to the new one.

 Terraform compares previous state with new configuration, correlating by
 each module or resource's unique address. Therefore _by default_ Terraform
 understands moving or renaming an object as an intent to destroy the object
 at the old address and to create a new object at the new address.

 When you add `moved` blocks in your configuration to record where you've
 historically moved or renamed an object, Terraform treats an existing object at
 the old address as if it now belongs to the new address.

 > **Hands On:** Try the [Use Configuration to Move Resources](/terraform/tutorials/configuration-language/move-config) tutorial.

 ## `moved` Block Syntax

 A `moved` block expects no labels and contains only `from` and `to` arguments:

 ```hcl
 moved {
   from = aws_instance.a
   to   = aws_instance.b
 }
 ```

 The example above records that the resource currently known as `aws_instance.b`
 was known as `aws_instance.a` in a previous version of this module.

 Before creating a new plan for `aws_instance.b`, Terraform first checks
 whether there is an existing object for `aws_instance.a` recorded in the state.
 If there is an existing object, Terraform renames that object to
 `aws_instance.b` and then proceeds with creating a plan. The resulting plan is
 as if the object had originally been created at `aws_instance.b`, avoiding any
 need to destroy it during apply.

 The `from` and `to` addresses both use a special addressing syntax that allows
 selecting modules, resources, and resources inside child modules. Below, we
 describe several refactoring use-cases and the appropriate addressing syntax
 for each situation.

 * [Renaming a Resource](#renaming-a-resource)
 * [Enabling `count` or `for_each` For a Resource](#enabling-count-or-for_each-for-a-resource)
 * [Renaming a Module Call](#renaming-a-module-call)
 * [Enabling `count` or `for_each` For a Module Call](#enabling-count-or-for_each-for-a-module-call)
 * [Splitting One Module into Multiple](#splitting-one-module-into-multiple)
 * [Removing `moved` blocks](#removing-moved-blocks)

 ## Renaming a Resource

 Consider this example module with a resource configuration:

 ```hcl
 resource "aws_instance" "a" {
   count = 2

   # (resource-type-specific configuration)
 }
 ```

 Applying this configuration for the first time would cause Terraform to
 create `aws_instance.a[0]` and `aws_instance.a[1]`.

 If you later choose a different name for this resource, then you can change the
 name label in the `resource` block and record the old name inside a `moved` block:

 ```hcl
 resource "aws_instance" "b" {
   count = 2

   # (resource-type-specific configuration)
 }

 moved {
   from = aws_instance.a
   to   = aws_instance.b
 }
 ```

 When creating the next plan for each configuration using this module, Terraform
 treats any existing objects belonging to `aws_instance.a` as if they had
 been created for `aws_instance.b`: `aws_instance.a[0]` will be treated as
 `aws_instance.b[0]`, and `aws_instance.a[1]` as `aws_instance.b[1]`.

 New instances of the module, which _never_ had an
 `aws_instance.a`, will ignore the `moved` block and propose to create
 `aws_instance.b[0]` and `aws_instance.b[1]` as normal.

 Both of the addresses in this example referred to a resource as a whole, and
 so Terraform recognizes the move for all instances of the resource. That is,
 it covers both `aws_instance.a[0]` and `aws_instance.a[1]` without the need
 to identify each one separately.

 Each resource type has a separate schema and so objects of different types
 are not compatible. Therefore, although you can use `moved` to change the name
 of a resource, you _cannot_ use `moved` to change to a different resource type
 or to change a managed resource (a `resource` block) into a data resource
 (a `data` block).

 ## Enabling `count` or `for_each` For a Resource

 Consider this example module containing a single-instance resource:

 ```hcl
 resource "aws_instance" "a" {
   # (resource-type-specific configuration)
 }
 ```

 Applying this configuration would lead to Terraform creating an object
 bound to the address `aws_instance.a`.

 Later, you use [`for_each`](/terraform/language/meta-arguments/for_each) with this
 resource to systematically declare multiple instances. To preserve an object
 that was previously associated with `aws_instance.a` alone, you must add a
 `moved` block to specify which instance key the object will take in the new
 configuration:

 ```hcl
 locals {
   instances = tomap({
     big = {
       instance_type = "m3.large"
     }
     small = {
       instance_type = "t2.medium"
     }
   })
 }

 resource "aws_instance" "a" {
   for_each = local.instances

   instance_type = each.value.instance_type
   # (other resource-type-specific configuration)
 }

 moved {
   from = aws_instance.a
   to   = aws_instance.a["small"]
 }
 ```

 The above will keep Terraform from planning to destroy any existing object at
 `aws_instance.a`, treating that object instead as if it were originally
 created as `aws_instance.a["small"]`.

 When at least one of the two addresses includes an instance key, like
 `["small"]` in the above example, Terraform understands both addresses as
 referring to specific _instances_ of a resource rather than the resource as a
 whole. That means you can use `moved` to switch between keys and to add and
 remove keys as you switch between `count`, `for_each`, or neither.

 The following are some other examples of valid `moved` blocks that record
 changes to resource instance keys in a similar way:

 ```hcl
 # Both old and new configuration used "for_each", but the
 # "small" element was renamed to "tiny".
 moved {
   from = aws_instance.b["small"]
   to   = aws_instance.b["tiny"]
 }

 # The old configuration used "count" and the new configuration
 # uses "for_each", with the following mappings from
 # index to key:
 moved {
   from = aws_instance.c[0]
   to   = aws_instance.c["small"]
 }
 moved {
   from = aws_instance.c[1]
   to   = aws_instance.c["tiny"]
 }

 # The old configuration used "count", and the new configuration
 # uses neither "count" nor "for_each", and you want to keep
 # only the object at index 2.
 moved {
   from = aws_instance.d[2]
   to   = aws_instance.d
 }
 ```

 -> **Note:** When you add `count` to an existing resource that didn't use it,
 Terraform automatically proposes to move the original object to instance zero,
 unless you write an `moved` block explicitly mentioning that resource.
 However, we recommend still writing out the corresponding `moved` block
 explicitly, to make the change clearer to future readers of the module.

 ## Renaming a Module Call

 You can rename a call to a module in a similar way as renaming a resource.
 Consider the following original module version:

 ```hcl
 module "a" {
   source = "../modules/example"

   # (module arguments)
 }
 ```

 When applying this configuration, Terraform would prefix the addresses for
 any resources declared in this module with the module path `module.a`.
 For example, a resource `aws_instance.example` would have the full address
 `module.a.aws_instance.example`.

 If you later choose a better name for this module call, then you can change the
 name label in the `module` block and record the old name inside a `moved` block:

 ```hcl
 module "b" {
   source = "../modules/example"

   # (module arguments)
 }

 moved {
   from = module.a
   to   = module.b
 }
 ```

 When creating the next plan for each configuration using this module, Terraform
 will treat any existing object addresses beginning with `module.a` as if
 they had instead been created in `module.b`. `module.a.aws_instance.example`
 would be treated as `module.b.aws_instance.example`.

 Both of the addresses in this example referred to a module call as a whole, and
 so Terraform recognizes the move for all instances of the call. If this
 module call used `count` or `for_each` then it would apply to all of the
 instances, without the need to specify each one separately.

 ## Enabling `count` or `for_each` For a Module Call

 Consider this example of a single-instance module:

 ```hcl
 module "a" {
   source = "../modules/example"

   # (module arguments)
 }
 ```

 Applying this configuration would cause Terraform to create objects whose
 addresses begin with `module.a`.

 In later module versions, you may need to use
 [`count`](/terraform/language/meta-arguments/count) with this resource to systematically
 declare multiple instances. To preserve an object that was previously associated
 with `aws_instance.a` alone, you can add a `moved` block to specify which
 instance key that object will take in the new configuration:

 ```hcl
 module "a" {
   source = "../modules/example"
   count  = 3

   # (module arguments)
 }

 moved {
   from = module.a
   to   = module.a[2]
 }
 ```

 The configuration above directs Terraform to treat all objects in `module.a` as
 if they were originally created in `module.a[2]`. As a result, Terraform plans
 to create new objects only for `module.a[0]` and `module.a[1]`.

 When at least one of the two addresses includes an instance key, like
 `[2]` in the above example, Terraform will understand both addresses as
 referring to specific _instances_ of a module call rather than the module
 call as a whole. That means you can use `moved` to switch between keys and to
 add and remove keys as you switch between `count`, `for_each`, or neither.

 For more examples of recording moves associated with instances, refer to
 the similar section
 [Enabling `count` and `for_each` For a Resource](#enabling-count-or-for_each-for-a-resource).

 # Splitting One Module into Multiple

 As a module grows to support new requirements, it might eventually grow big
 enough to warrant splitting into two separate modules.

 Consider this example module:

 ```hcl
 resource "aws_instance" "a" {
   # (other resource-type-specific configuration)
 }

 resource "aws_instance" "b" {
   # (other resource-type-specific configuration)
 }

 resource "aws_instance" "c" {
   # (other resource-type-specific configuration)
 }
 ```

 You can split this into two modules as follows:

 * `aws_instance.a` now belongs to module "x".
 * `aws_instance.b` also belongs to module "x".
 * `aws_instance.c` belongs module "y".

 To achieve this refactoring without replacing existing objects bound to the
 old resource addresses, you must:

 1. Write module "x", copying over the two resources it should contain.
 1. Write module "y", copying over the one resource it should contain.
 1. Edit the original module to no longer include any of these resources, and
    instead to contain only shim configuration to migrate existing users.

 The new modules "x" and "y" should contain only `resource` blocks:

 ```hcl
 # module "x"

 resource "aws_instance" "a" {
   # (other resource-type-specific configuration)
 }

 resource "aws_instance" "b" {
   # (other resource-type-specific configuration)
 }
 ```

 ```hcl
 # module "y"

 resource "aws_instance" "c" {
   # (other resource-type-specific configuration)
 }
 ```

 The original module, now only a shim for backward-compatibility, calls the
 two new modules and indicates that the resources moved into them:

 ```hcl
 module "x" {
   source = "../modules/x"

   # ...
 }

 module "y" {
   source = "../modules/y"

   # ...
 }

 moved {
   from = aws_instance.a
   to   = module.x.aws_instance.a
 }

 moved {
   from = aws_instance.b
   to   = module.x.aws_instance.b
 }

 moved {
   from = aws_instance.c
   to   = module.y.aws_instance.c
 }
 ```

 When an existing user of the original module upgrades to the new "shim"
 version, Terraform notices these three `moved` blocks and behaves
 as if the objects associated with the three old resource addresses were
 originally created inside the two new modules.

 New users of this family of modules may use either the combined shim module
 _or_ the two new modules separately. You may wish to communicate to your
 existing users that the old module is now deprecated and so they should use
 the two separate modules for any new needs.

 The multi-module refactoring situation is unusual in that it violates the
 typical rule that a parent module sees its child module as a "closed box",
 unaware of exactly which resources are declared inside it. This compromise
 assumes that all three of these modules are maintained by the same people
 and distributed together in a single
 [module package](/terraform/language/modules/sources#modules-in-package-sub-directories).

 Terraform resolves module references in `moved` blocks relative to the module
 instance they are defined in. For example, if the original module above were
 already a child module named `module.original`, the reference to
 `module.x.aws_instance.a` would resolve as
 `module.original.module.x.aws_instance.a`. A module may only make `moved`
 statements about its own objects and objects of its child modules.

 If you need to refer to resources within a module that was called using
 `count` or `for_each` meta-arguments, you must specify a specific instance
 key to use in order to match with the new location of the resource
 configuration:

 ```hcl
 moved {
   from = aws_instance.example
   to   = module.new[2].aws_instance.example
 }
 ```

 ## Removing `moved` Blocks

 Over time, a long-lasting module may accumulate many `moved` blocks.

 Removing a `moved` block is a generally breaking change because any configurations that refer to the old address will plan to delete that existing object instead of move it. We strongly recommend that you retain all historical `moved` blocks from earlier versions of your modules to preserve the upgrade path for users of any previous version.

 If you do decide to remove `moved` blocks, proceed with caution. It can be safe to remove `moved` blocks when you are maintaining private modules within an organization and you are certain that all users have successfully run `terraform apply` with your new module version.

 If you need to rename or move the same object twice, we recommend documenting the full history
 using _chained_ `moved` blocks, where the new block refers to the existing block:

 ```hcl
 moved {
   from = aws_instance.a
   to   = aws_instance.b
 }

 moved {
   from = aws_instance.b
   to   = aws_instance.c
 }
 ```

 Recording a sequence of moves in this way allows for successful upgrades for
 both configurations with objects at `aws_instance.a` _and_ configurations with
 objects at `aws_instance.b`. In both cases, Terraform treats the existing
 object as if it had been originally created as `aws_instance.c`.
	---
	page_title: Refactoring
	description: How to make backward-compatible changes to modules already in use.
	---

	# Refactoring

	-> Note: Explicit refactoring declarations with `moved` blocks is available in Terraform v1.1 and later. For earlier Terraform versions or for refactoring actions too complex to express as `moved` blocks, you can
	use the [`terraform state mv` CLI command](/terraform/cli/commands/state/mv)
	as a separate step.

	In shared modules and long-lived configurations, you may eventually outgrow
	your initial module structure and resource names. For example, you might decide
	that what was previously one child module makes more sense as two separate
	modules and move a subset of the existing resources to the new one.

	Terraform compares previous state with new configuration, correlating by
	each module or resource's unique address. Therefore _by default_ Terraform
	understands moving or renaming an object as an intent to destroy the object
	at the old address and to create a new object at the new address.

	When you add `moved` blocks in your configuration to record where you've
	historically moved or renamed an object, Terraform treats an existing object at
	the old address as if it now belongs to the new address.

	> Hands On: Try the [Use Configuration to Move Resources](/terraform/tutorials/configuration-language/move-config) tutorial.

	## `moved` Block Syntax

	A `moved` block expects no labels and contains only `from` and `to` arguments:

	```hcl
	moved {
	from = aws_instance.a
	to = aws_instance.b
	}
	```

	The example above records that the resource currently known as `aws_instance.b`
	was known as `aws_instance.a` in a previous version of this module.

	Before creating a new plan for `aws_instance.b`, Terraform first checks
	whether there is an existing object for `aws_instance.a` recorded in the state.
	If there is an existing object, Terraform renames that object to
	`aws_instance.b` and then proceeds with creating a plan. The resulting plan is
	as if the object had originally been created at `aws_instance.b`, avoiding any
	need to destroy it during apply.

	The `from` and `to` addresses both use a special addressing syntax that allows
	selecting modules, resources, and resources inside child modules. Below, we
	describe several refactoring use-cases and the appropriate addressing syntax
	for each situation.

	* [Renaming a Resource](#renaming-a-resource)
	* [Enabling `count` or `for_each` For a Resource](#enabling-count-or-for_each-for-a-resource)
	* [Renaming a Module Call](#renaming-a-module-call)
	* [Enabling `count` or `for_each` For a Module Call](#enabling-count-or-for_each-for-a-module-call)
	* [Splitting One Module into Multiple](#splitting-one-module-into-multiple)
	* [Removing `moved` blocks](#removing-moved-blocks)

	## Renaming a Resource

	Consider this example module with a resource configuration:

	```hcl
	resource "aws_instance" "a" {
	count = 2

	# (resource-type-specific configuration)
	}
	```

	Applying this configuration for the first time would cause Terraform to
	create `aws_instance.a[0]` and `aws_instance.a[1]`.

	If you later choose a different name for this resource, then you can change the
	name label in the `resource` block and record the old name inside a `moved` block:

	```hcl
	resource "aws_instance" "b" {
	count = 2

	# (resource-type-specific configuration)
	}

	moved {
	from = aws_instance.a
	to = aws_instance.b
	}
	```

	When creating the next plan for each configuration using this module, Terraform
	treats any existing objects belonging to `aws_instance.a` as if they had
	been created for `aws_instance.b`: `aws_instance.a[0]` will be treated as
	`aws_instance.b[0]`, and `aws_instance.a[1]` as `aws_instance.b[1]`.

	New instances of the module, which _never_ had an
	`aws_instance.a`, will ignore the `moved` block and propose to create
	`aws_instance.b[0]` and `aws_instance.b[1]` as normal.

	Both of the addresses in this example referred to a resource as a whole, and
	so Terraform recognizes the move for all instances of the resource. That is,
	it covers both `aws_instance.a[0]` and `aws_instance.a[1]` without the need
	to identify each one separately.

	Each resource type has a separate schema and so objects of different types
	are not compatible. Therefore, although you can use `moved` to change the name
	of a resource, you _cannot_ use `moved` to change to a different resource type
	or to change a managed resource (a `resource` block) into a data resource
	(a `data` block).

	## Enabling `count` or `for_each` For a Resource

	Consider this example module containing a single-instance resource:

	```hcl
	resource "aws_instance" "a" {
	# (resource-type-specific configuration)
	}
	```

	Applying this configuration would lead to Terraform creating an object
	bound to the address `aws_instance.a`.

	Later, you use [`for_each`](/terraform/language/meta-arguments/for_each) with this
	resource to systematically declare multiple instances. To preserve an object
	that was previously associated with `aws_instance.a` alone, you must add a
	`moved` block to specify which instance key the object will take in the new
	configuration:

	```hcl
	locals {
	instances = tomap({
	big = {
	instance_type = "m3.large"
	}
	small = {
	instance_type = "t2.medium"
	}
	})
	}

	resource "aws_instance" "a" {
	for_each = local.instances

	instance_type = each.value.instance_type
	# (other resource-type-specific configuration)
	}

	moved {
	from = aws_instance.a
	to = aws_instance.a["small"]
	}
	```

	The above will keep Terraform from planning to destroy any existing object at
	`aws_instance.a`, treating that object instead as if it were originally
	created as `aws_instance.a["small"]`.

	When at least one of the two addresses includes an instance key, like
	`["small"]` in the above example, Terraform understands both addresses as
	referring to specific _instances_ of a resource rather than the resource as a
	whole. That means you can use `moved` to switch between keys and to add and
	remove keys as you switch between `count`, `for_each`, or neither.

	The following are some other examples of valid `moved` blocks that record
	changes to resource instance keys in a similar way:

	```hcl
	# Both old and new configuration used "for_each", but the
	# "small" element was renamed to "tiny".
	moved {
	from = aws_instance.b["small"]
	to = aws_instance.b["tiny"]
	}

	# The old configuration used "count" and the new configuration
	# uses "for_each", with the following mappings from
	# index to key:
	moved {
	from = aws_instance.c[0]
	to = aws_instance.c["small"]
	}
	moved {
	from = aws_instance.c[1]
	to = aws_instance.c["tiny"]
	}

	# The old configuration used "count", and the new configuration
	# uses neither "count" nor "for_each", and you want to keep
	# only the object at index 2.
	moved {
	from = aws_instance.d[2]
	to = aws_instance.d
	}
	```

	-> Note: When you add `count` to an existing resource that didn't use it,
	Terraform automatically proposes to move the original object to instance zero,
	unless you write an `moved` block explicitly mentioning that resource.
	However, we recommend still writing out the corresponding `moved` block
	explicitly, to make the change clearer to future readers of the module.

	## Renaming a Module Call

	You can rename a call to a module in a similar way as renaming a resource.
	Consider the following original module version:

	```hcl
	module "a" {
	source = "../modules/example"

	# (module arguments)
	}
	```

	When applying this configuration, Terraform would prefix the addresses for
	any resources declared in this module with the module path `module.a`.
	For example, a resource `aws_instance.example` would have the full address
	`module.a.aws_instance.example`.

	If you later choose a better name for this module call, then you can change the
	name label in the `module` block and record the old name inside a `moved` block:

	```hcl
	module "b" {
	source = "../modules/example"

	# (module arguments)
	}

	moved {
	from = module.a
	to = module.b
	}
	```

	When creating the next plan for each configuration using this module, Terraform
	will treat any existing object addresses beginning with `module.a` as if
	they had instead been created in `module.b`. `module.a.aws_instance.example`
	would be treated as `module.b.aws_instance.example`.

	Both of the addresses in this example referred to a module call as a whole, and
	so Terraform recognizes the move for all instances of the call. If this
	module call used `count` or `for_each` then it would apply to all of the
	instances, without the need to specify each one separately.

	## Enabling `count` or `for_each` For a Module Call

	Consider this example of a single-instance module:

	```hcl
	module "a" {
	source = "../modules/example"

	# (module arguments)
	}
	```

	Applying this configuration would cause Terraform to create objects whose
	addresses begin with `module.a`.

	In later module versions, you may need to use
	[`count`](/terraform/language/meta-arguments/count) with this resource to systematically
	declare multiple instances. To preserve an object that was previously associated
	with `aws_instance.a` alone, you can add a `moved` block to specify which
	instance key that object will take in the new configuration:

	```hcl
	module "a" {
	source = "../modules/example"
	count = 3

	# (module arguments)
	}

	moved {
	from = module.a
	to = module.a[2]
	}
	```

	The configuration above directs Terraform to treat all objects in `module.a` as
	if they were originally created in `module.a[2]`. As a result, Terraform plans
	to create new objects only for `module.a[0]` and `module.a[1]`.

	When at least one of the two addresses includes an instance key, like
	`[2]` in the above example, Terraform will understand both addresses as
	referring to specific _instances_ of a module call rather than the module
	call as a whole. That means you can use `moved` to switch between keys and to
	add and remove keys as you switch between `count`, `for_each`, or neither.

	For more examples of recording moves associated with instances, refer to
	the similar section
	[Enabling `count` and `for_each` For a Resource](#enabling-count-or-for_each-for-a-resource).

	# Splitting One Module into Multiple

	As a module grows to support new requirements, it might eventually grow big
	enough to warrant splitting into two separate modules.

	Consider this example module:

	```hcl
	resource "aws_instance" "a" {
	# (other resource-type-specific configuration)
	}

	resource "aws_instance" "b" {
	# (other resource-type-specific configuration)
	}

	resource "aws_instance" "c" {
	# (other resource-type-specific configuration)
	}
	```

	You can split this into two modules as follows:

	* `aws_instance.a` now belongs to module "x".
	* `aws_instance.b` also belongs to module "x".
	* `aws_instance.c` belongs module "y".

	To achieve this refactoring without replacing existing objects bound to the
	old resource addresses, you must:

	1. Write module "x", copying over the two resources it should contain.
	1. Write module "y", copying over the one resource it should contain.
	1. Edit the original module to no longer include any of these resources, and
	instead to contain only shim configuration to migrate existing users.

	The new modules "x" and "y" should contain only `resource` blocks:

	```hcl
	# module "x"

	resource "aws_instance" "a" {
	# (other resource-type-specific configuration)
	}

	resource "aws_instance" "b" {
	# (other resource-type-specific configuration)
	}
	```

	```hcl
	# module "y"

	resource "aws_instance" "c" {
	# (other resource-type-specific configuration)
	}
	```

	The original module, now only a shim for backward-compatibility, calls the
	two new modules and indicates that the resources moved into them:

	```hcl
	module "x" {
	source = "../modules/x"

	# ...
	}

	module "y" {
	source = "../modules/y"

	# ...
	}

	moved {
	from = aws_instance.a
	to = module.x.aws_instance.a
	}

	moved {
	from = aws_instance.b
	to = module.x.aws_instance.b
	}

	moved {
	from = aws_instance.c
	to = module.y.aws_instance.c
	}
	```

	When an existing user of the original module upgrades to the new "shim"
	version, Terraform notices these three `moved` blocks and behaves
	as if the objects associated with the three old resource addresses were
	originally created inside the two new modules.

	New users of this family of modules may use either the combined shim module
	_or_ the two new modules separately. You may wish to communicate to your
	existing users that the old module is now deprecated and so they should use
	the two separate modules for any new needs.

	The multi-module refactoring situation is unusual in that it violates the
	typical rule that a parent module sees its child module as a "closed box",
	unaware of exactly which resources are declared inside it. This compromise
	assumes that all three of these modules are maintained by the same people
	and distributed together in a single
	[module package](/terraform/language/modules/sources#modules-in-package-sub-directories).

	Terraform resolves module references in `moved` blocks relative to the module
	instance they are defined in. For example, if the original module above were
	already a child module named `module.original`, the reference to
	`module.x.aws_instance.a` would resolve as
	`module.original.module.x.aws_instance.a`. A module may only make `moved`
	statements about its own objects and objects of its child modules.

	If you need to refer to resources within a module that was called using
	`count` or `for_each` meta-arguments, you must specify a specific instance
	key to use in order to match with the new location of the resource
	configuration:

	```hcl
	moved {
	from = aws_instance.example
	to = module.new[2].aws_instance.example
	}
	```

	## Removing `moved` Blocks

	Over time, a long-lasting module may accumulate many `moved` blocks.

	Removing a `moved` block is a generally breaking change because any configurations that refer to the old address will plan to delete that existing object instead of move it. We strongly recommend that you retain all historical `moved` blocks from earlier versions of your modules to preserve the upgrade path for users of any previous version.

	If you do decide to remove `moved` blocks, proceed with caution. It can be safe to remove `moved` blocks when you are maintaining private modules within an organization and you are certain that all users have successfully run `terraform apply` with your new module version.

	If you need to rename or move the same object twice, we recommend documenting the full history
	using _chained_ `moved` blocks, where the new block refers to the existing block:

	```hcl
	moved {
	from = aws_instance.a
	to = aws_instance.b
	}

	moved {
	from = aws_instance.b
	to = aws_instance.c
	}
	```

	Recording a sequence of moves in this way allows for successful upgrades for
	both configurations with objects at `aws_instance.a` _and_ configurations with
	objects at `aws_instance.b`. In both cases, Terraform treats the existing
	object as if it had been originally created as `aws_instance.c`.