v1.4.7/website/docs/language/functions/range.mdx - terraform - Git at Google

 ---
 page_title: range - Functions - Configuration Language
 description: The range function generates sequences of numbers.
 ---

 # `range` Function

 `range` generates a list of numbers using a start value, a limit value,
 and a step value.

 ```hcl
 range(max)
 range(start, limit)
 range(start, limit, step)
 ```

 The `start` and `step` arguments can be omitted, in which case `start` defaults
 to zero and `step` defaults to either one or negative one depending on whether
 `limit` is greater than or less than `start`.

 The resulting list is created by starting with the given `start` value and
 repeatedly adding `step` to it until the result is equal to or beyond `limit`.

 The interpretation of `limit` depends on the direction of `step`: for a positive
 step, the sequence is complete when the next number is greater than or equal
 to `limit`. For a negative step, it's complete when less than or equal.

 The sequence-building algorithm follows the following pseudocode:

 ```
 let num = start
 while num < limit: (or, for negative step, num > limit)
   append num to the sequence
   num = num + step
 return the sequence
 ```

 Because the sequence is created as a physical list in memory, Terraform imposes
 an artificial limit of 1024 numbers in the resulting sequence in order to avoid
 unbounded memory usage if, for example, a very large value were accidentally
 passed as the limit or a very small value as the step. If the algorithm above
 would append the 1025th number to the sequence, the function immediately exits
 with an error.

 We recommend iterating over existing collections where possible, rather than
 creating ranges. However, creating small numerical sequences can sometimes
 be useful when combined with other collections in collection-manipulation
 functions or `for` expressions.

 ## Examples

 ```
 > range(3)
 [
   0,
   1,
   2,
 ]

 > range(1, 4)
 [
   1,
   2,
   3,
 ]

 > range(1, 8, 2)
 [
   1,
   3,
   5,
   7,
 ]

 > range(1, 4, 0.5)
 [
   1,
   1.5,
   2,
   2.5,
   3,
   3.5,
 ]

 > range(4, 1)
 [
   4,
   3,
   2,
 ]

 > range(10, 5, -2)
 [
   10,
   8,
   6,
 ]
 ```

 The `range` function is primarily useful when working with other collections
 to produce a certain number of instances of something. For example:

 ```hcl
 variable "name_counts" {
   type    = map(number)
   default = {
     "foo" = 2
     "bar" = 4
   }
 }

 locals {
   expanded_names = {
     for name, count in var.name_counts : name => [
       for i in range(count) : format("%s%02d", name, i)
     ]
   }
 }

 output "expanded_names" {
   value = local.expanded_names
 }

 # Produces the following expanded_names value when run with the default
 # "name_counts":
 #
 # {
 #   "bar" = [
 #     "bar00",
 #     "bar01",
 #     "bar02",
 #     "bar03",
 #   ]
 #   "foo" = [
 #     "foo00",
 #     "foo01",
 #   ]
 # }
 ```
	---
	page_title: range - Functions - Configuration Language
	description: The range function generates sequences of numbers.
	---

	# `range` Function

	`range` generates a list of numbers using a start value, a limit value,
	and a step value.

	```hcl
	range(max)
	range(start, limit)
	range(start, limit, step)
	```

	The `start` and `step` arguments can be omitted, in which case `start` defaults
	to zero and `step` defaults to either one or negative one depending on whether
	`limit` is greater than or less than `start`.

	The resulting list is created by starting with the given `start` value and
	repeatedly adding `step` to it until the result is equal to or beyond `limit`.

	The interpretation of `limit` depends on the direction of `step`: for a positive
	step, the sequence is complete when the next number is greater than or equal
	to `limit`. For a negative step, it's complete when less than or equal.

	The sequence-building algorithm follows the following pseudocode:

	```
	let num = start
	while num < limit: (or, for negative step, num > limit)
	append num to the sequence
	num = num + step
	return the sequence
	```

	Because the sequence is created as a physical list in memory, Terraform imposes
	an artificial limit of 1024 numbers in the resulting sequence in order to avoid
	unbounded memory usage if, for example, a very large value were accidentally
	passed as the limit or a very small value as the step. If the algorithm above
	would append the 1025th number to the sequence, the function immediately exits
	with an error.

	We recommend iterating over existing collections where possible, rather than
	creating ranges. However, creating small numerical sequences can sometimes
	be useful when combined with other collections in collection-manipulation
	functions or `for` expressions.

	## Examples

	```
	> range(3)
	[
	0,
	1,
	2,
	]

	> range(1, 4)
	[
	1,
	2,
	3,
	]

	> range(1, 8, 2)
	[
	1,
	3,
	5,
	7,
	]

	> range(1, 4, 0.5)
	[
	1,
	1.5,
	2,
	2.5,
	3,
	3.5,
	]

	> range(4, 1)
	[
	4,
	3,
	2,
	]

	> range(10, 5, -2)
	[
	10,
	8,
	6,
	]
	```

	The `range` function is primarily useful when working with other collections
	to produce a certain number of instances of something. For example:

	```hcl
	variable "name_counts" {
	type = map(number)
	default = {
	"foo" = 2
	"bar" = 4
	}
	}

	locals {
	expanded_names = {
	for name, count in var.name_counts : name => [
	for i in range(count) : format("%s%02d", name, i)
	]
	}
	}

	output "expanded_names" {
	value = local.expanded_names
	}

	# Produces the following expanded_names value when run with the default
	# "name_counts":
	#
	# {
	# "bar" = [
	# "bar00",
	# "bar01",
	# "bar02",
	# "bar03",
	# ]
	# "foo" = [
	# "foo00",
	# "foo01",
	# ]
	# }
	```