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---
layout: "docs"
page_title: "Interpolation Syntax"
sidebar_current: "docs-config-interpolation"
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description: |-
Embedded within strings in Terraform, whether you're using the Terraform syntax or JSON syntax, you can interpolate other values into strings. These interpolations are wrapped in `${}` , such as `${var.foo}` .
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---
# Interpolation Syntax
Embedded within strings in Terraform, whether you're using the
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Terraform syntax or JSON syntax, you can interpolate other values. These
interpolations are wrapped in `${}` , such as `${var.foo}` .
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The interpolation syntax is powerful and allows you to reference
variables, attributes of resources, call functions, etc.
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You can also perform [simple math ](#math ) in interpolations, allowing
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you to write expressions such as `${count.index + 1}` .
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You can escape interpolation with double dollar signs: `$${foo}`
will be rendered as a literal `${foo}` .
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## Available Variables
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There are a variety of available variable references you can use.
### User string variables
Use the `var.` prefix followed by the variable name. For example,
`${var.foo}` will interpolate the `foo` variable value.
### User map variables
The syntax is `var.MAP["KEY"]` . For example, `${var.amis["us-east-1"]}`
would get the value of the `us-east-1` key within the `amis` map
variable.
### User list variables
The syntax is `["${var.LIST}"]` . For example, `["${var.subnets}"]`
would get the value of the `subnets` list, as a list. You can also
return list elements by index: `${var.subnets[idx]}` .
### Attributes of your own resource
The syntax is `self.ATTRIBUTE` . For example `${self.private_ip_address}`
will interpolate that resource's private IP address.
-> **Note** : The `self.ATTRIBUTE` syntax is only allowed and valid within
provisioners.
### Attributes of other resources
The syntax is `TYPE.NAME.ATTRIBUTE` . For example,
`${aws_instance.web.id}` will interpolate the ID attribute from the
`aws\_instance` resource named `web` . If the resource has a `count`
attribute set, you can access individual attributes with a zero-based
index, such as `${aws_instance.web.0.id}` . You can also use the splat
syntax to get a list of all the attributes: `${aws_instance.web.*.id}` .
This is documented in more detail in the [resource configuration
page](/docs/configuration/resources.html).
### Outputs from a module
The syntax is `MODULE.NAME.OUTPUT` . For example `${module.foo.bar}` will
interpolate the `bar` output from the `foo`
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[module ](/docs/modules/index.html ).
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### Count information
The syntax is `count.FIELD` . For example, `${count.index}` will
interpolate the current index in a multi-count resource. For more
information on `count` , see the [resource configuration
page](/docs/configuration/resources.html).
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< a id = "path-variables" > < / a >
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### Path information
The syntax is `path.TYPE` . TYPE can be `cwd` , `module` , or `root` .
`cwd` will interpolate the current working directory. `module` will
interpolate the path to the current module. `root` will interpolate the
path of the root module. In general, you probably want the
`path.module` variable.
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< a id = "functions" > < / a >
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## Built-in Functions
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Terraform ships with built-in functions. Functions are called with the
syntax `name(arg, arg2, ...)` . For example, to read a file:
`${file("path.txt")}` .
### Supported built-in functions
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The supported built-in functions are:
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* `base64decode(string)` - Given a base64-encoded string, decodes it and
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returns the original string.
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* `base64encode(string)` - Returns a base64-encoded representation of the
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given string.
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* `base64sha256(string)` - Returns a base64-encoded representation of raw
SHA-256 sum of the given string.
**This is not equivalent** of `base64encode(sha256(string))`
since `sha256()` returns hexadecimal representation.
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* `ceil(float)` - Returns the least integer value greater than or equal
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to the argument.
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* `cidrhost(iprange, hostnum)` - Takes an IP address range in CIDR notation
and creates an IP address with the given host number. For example,
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`cidrhost("10.0.0.0/8", 2)` returns `10.0.0.2` .
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* `cidrnetmask(iprange)` - Takes an IP address range in CIDR notation
and returns the address-formatted subnet mask format that some
systems expect for IPv4 interfaces. For example,
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`cidrmask("10.0.0.0/8")` returns `255.0.0.0` . Not applicable
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to IPv6 networks since CIDR notation is the only valid notation for
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IPv4.
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* `cidrsubnet(iprange, newbits, netnum)` - Takes an IP address range in
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CIDR notation (like `10.0.0.0/8` ) and extends its prefix to include an
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additional subnet number. For example,
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`cidrsubnet("10.0.0.0/8", 8, 2)` returns `10.2.0.0/16` ;
`cidrsubnet("2607:f298:6051:516c::/64", 8, 2)` returns
`2607:f298:6051:516c:200::/72` .
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* `coalesce(string1, string2, ...)` - Returns the first non-empty value from
the given arguments. At least two arguments must be provided.
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* `compact(list)` - Removes empty string elements from a list. This can be
useful in some cases, for example when passing joined lists as module
variables or when parsing module outputs.
Example: `compact(module.my_asg.load_balancer_names)`
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* `concat(list1, list2, ...)` - Combines two or more lists into a single list.
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Example: `concat(aws_instance.db.*.tags.Name, aws_instance.web.*.tags.Name)`
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* `distinct(list)` - Removes duplicate items from a list. Keeps the first
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occurrence of each element, and removes subsequent occurrences. This
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function is only valid for flat lists. Example: `distinct(var.usernames)`
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* `element(list, index)` - Returns a single element from a list
at the given index. If the index is greater than the number of
elements, this function will wrap using a standard mod algorithm.
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This function only works on flat lists. Examples:
* `element(aws_subnet.foo.*.id, count.index)`
* `element(var.list_of_strings, 2)`
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* `file(path)` - Reads the contents of a file into the string. Variables
in this file are _not_ interpolated. The contents of the file are
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read as-is. The `path` is interpreted relative to the working directory.
[Path variables ](#path-variables ) can be used to reference paths relative
to other base locations. For example, when using `file()` from inside a
module, you generally want to make the path relative to the module base,
like this: `file("${path.module}/file")` .
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* `floor(float)` - Returns the greatest integer value less than or equal to
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the argument.
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* `format(format, args, ...)` - Formats a string according to the given
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format. The syntax for the format is standard `sprintf` syntax.
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Good documentation for the syntax can be [found here ](https://golang.org/pkg/fmt/ ).
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Example to zero-prefix a count, used commonly for naming servers:
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`format("web-%03d", count.index + 1)` .
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* `formatlist(format, args, ...)` - Formats each element of a list
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according to the given format, similarly to `format` , and returns a list.
Non-list arguments are repeated for each list element.
For example, to convert a list of DNS addresses to a list of URLs, you might use:
`formatlist("https://%s:%s/", aws_instance.foo.*.public_dns, var.port)` .
If multiple args are lists, and they have the same number of elements, then the formatting is applied to the elements of the lists in parallel.
Example:
`formatlist("instance %v has private ip %v", aws_instance.foo.*.id, aws_instance.foo.*.private_ip)` .
Passing lists with different lengths to formatlist results in an error.
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* `index(list, elem)` - Finds the index of a given element in a list.
This function only works on flat lists.
Example: `index(aws_instance.foo.*.tags.Name, "foo-test")`
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* `join(delim, list)` - Joins the list with the delimiter for a resultant string.
This function works only on flat lists.
Examples:
* `join(",", aws_instance.foo.*.id)`
* `join(",", var.ami_list)`
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* `jsonencode(item)` - Returns a JSON-encoded representation of the given
item, which may be a string, list of strings, or map from string to string.
Note that if the item is a string, the return value includes the double
quotes.
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* `keys(map)` - Returns a lexically sorted list of the map keys.
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* `length(list)` - Returns the number of members in a given list or map, or the number of characters in a given string.
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* `${length(split(",", "a,b,c"))}` = 3
* `${length("a,b,c")}` = 5
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* `${length(map("key", "val"))}` = 1
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* `list(items, ...)` - Returns a list consisting of the arguments to the function.
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This function provides a way of representing list literals in interpolation.
* `${list("a", "b", "c")}` returns a list of `"a", "b", "c"` .
* `${list()}` returns an empty list.
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* `lookup(map, key [, default])` - Performs a dynamic lookup into a map
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variable. The `map` parameter should be another variable, such
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as `var.amis` . If `key` does not exist in `map` , the interpolation will
fail unless you specify a third argument, `default` , which should be a
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string value to return if no `key` is found in `map` . This function
only works on flat maps and will return an error for maps that
include nested lists or maps.
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* `lower(string)` - Returns a copy of the string with all Unicode letters mapped to their lower case.
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config: Add map() interpolation function
* `map(key, value, ...)` - Returns a map consisting of the key/value pairs
specified as arguments. Every odd argument must be a string key, and every
even argument must have the same type as the other values specified.
Duplicate keys are not allowed. Examples:
* `map("hello", "world")`
* `map("us-east", list("a", "b", "c"), "us-west", list("b", "c", "d"))`
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* `map(key, value, ...)` - Returns a map consisting of the key/value pairs
specified as arguments. Every odd argument must be a string key, and every
even argument must have the same type as the other values specified.
Duplicate keys are not allowed. Examples:
* `map("hello", "world")`
* `map("us-east", list("a", "b", "c"), "us-west", list("b", "c", "d"))`
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* `max(float1, float2, ...)` - Returns the largest of the floats.
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* `merge(map1, map2, ...)` - Returns the union of 2 or more maps. The maps
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are consumed in the order provided, and duplicate keys overwrite previous
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entries.
* `${merge(map("a", "b"), map("c", "d"))}` returns `{"a": "b", "c": "d"}`
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* `min(float1, float2, ...)` - Returns the smallest of the floats.
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* `md5(string)` - Returns a (conventional) hexadecimal representation of the
MD5 hash of the given string.
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* `replace(string, search, replace)` - Does a search and replace on the
given string. All instances of `search` are replaced with the value
of `replace` . If `search` is wrapped in forward slashes, it is treated
as a regular expression. If using a regular expression, `replace`
can reference subcaptures in the regular expression by using `$n` where
`n` is the index or name of the subcapture. If using a regular expression,
the syntax conforms to the [re2 regular expression syntax ](https://code.google.com/p/re2/wiki/Syntax ).
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* `sha1(string)` - Returns a (conventional) hexadecimal representation of the
SHA-1 hash of the given string.
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Example: `"${sha1("${aws_vpc.default.tags.customer}-s3-bucket")}"`
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* `sha256(string)` - Returns a (conventional) hexadecimal representation of the
SHA-256 hash of the given string.
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Example: `"${sha256("${aws_vpc.default.tags.customer}-s3-bucket")}"`
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* `signum(int)` - Returns `-1` for negative numbers, `0` for `0` and `1` for positive numbers.
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This function is useful when you need to set a value for the first resource and
a different value for the rest of the resources.
Example: `element(split(",", var.r53_failover_policy), signum(count.index))`
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where the 0th index points to `PRIMARY` and 1st to `FAILOVER`
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* `sort(list)` - Returns a lexicographically sorted list of the strings contained in
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the list passed as an argument. Sort may only be used with lists which contain only
strings.
Examples: `sort(aws_instance.foo.*.id)` , `sort(var.list_of_strings)`
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* `split(delim, string)` - Splits the string previously created by `join`
back into a list. This is useful for pushing lists through module
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outputs since they currently only support string values. Depending on the
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use, the string this is being performed within may need to be wrapped
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in brackets to indicate that the output is actually a list, e.g.
`a_resource_param = ["${split(",", var.CSV_STRING)}"]` .
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Example: `split(",", module.amod.server_ids)`
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* `title(string)` - Returns a copy of the string with the first characters of all the words capitalized.
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* `trimspace(string)` - Returns a copy of the string with all leading and trailing white spaces removed.
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* `upper(string)` - Returns a copy of the string with all Unicode letters mapped to their upper case.
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* `uuid()` - Returns a UUID string in RFC 4122 v4 format. This string will change with every invocation of the function, so in order to prevent diffs on every plan & apply, it must be used with the [`ignore_changes` ](/docs/configuration/resources.html#ignore-changes ) lifecycle attribute.
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* `values(map)` - Returns a list of the map values, in the order of the keys
returned by the `keys` function. This function only works on flat maps and
will return an error for maps that include nested lists or maps.
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* `zipmap(list, list)` - Creates a map from a list of keys and a list of
values. The keys must all be of type string, and the length of the lists
must be the same.
For example, to output a mapping of AWS IAM user names to the fingerprint
of the key used to encrypt their initial password, you might use:
`zipmap(aws_iam_user.users.*.name, aws_iam_user_login_profile.users.*.key_fingerprint)` .
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< a id = "templates" > < / a >
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## Templates
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Long strings can be managed using templates.
[Templates ](/docs/providers/template/index.html ) are
[data-sources ](/docs/configuration/data-sources.html ) defined by a
filename and some variables to use during interpolation. They have a
computed `rendered` attribute containing the result.
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A template data source looks like:
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```
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data "template_file" "example" {
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template = "${hello} ${world}!"
vars {
hello = "goodnight"
world = "moon"
}
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}
output "rendered" {
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value = "${data.template_file.example.rendered}"
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}
```
Then the rendered value would be `goodnight moon!` .
You may use any of the built-in functions in your template.
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### Using Templates with Count
Here is an example that combines the capabilities of templates with the interpolation
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from `count` to give us a parameterized template, unique to each resource instance:
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```
variable "count" {
default = 2
}
variable "hostnames" {
default = {
"0" = "example1.org"
"1" = "example2.net"
}
}
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data "template_file" "web_init" {
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// here we expand multiple template_files - the same number as we have instances
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count = "${var.count}"
template = "${file("templates/web_init.tpl")}"
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vars {
// that gives us access to use count.index to do the lookup
hostname = "${lookup(var.hostnames, count.index)}"
}
}
resource "aws_instance" "web" {
// ...
count = "${var.count}"
// here we link each web instance to the proper template_file
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user_data = "${element(data.template_file.web_init.*.rendered, count.index)}"
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}
```
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With this, we will build a list of `template_file.web_init` data sources which we can
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use in combination with our list of `aws_instance.web` resources.
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< a id = "math" > < / a >
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## Math
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Simple math can be performed in interpolations:
```
variable "count" {
default = 2
}
resource "aws_instance" "web" {
// ...
count = "${var.count}"
// tag the instance with a counter starting at 1, ie. web-001
tags {
Name = "${format("web-%03d", count.index + 1)}"
}
}
```
The supported operations are:
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- *Add* (`+`), *Subtract* (`-`), *Multiply* (`*`), and *Divide* (`/`) for **float** types
- *Add* (`+`), *Subtract* (`-`), *Multiply* (`*`), *Divide* (`/`), and *Modulo* (`%`) for **integer** types
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-> **Note:** Since Terraform allows hyphens in resource and variable names,
it's best to use spaces between math operators to prevent confusion or unexpected
behavior. For example, `${var.instance-count - 1}` will subtract **1** from the
`instance-count` variable value, while `${var.instance-count-1}` will interpolate
the `instance-count-1` variable value.
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-> **Note:** Operator precedence is not the usual one where *Multiply* (`*`),
*Divide* (`/`), and *Modulo* (`%`) have precedence over *Add* (`+`) and *Subtract* (`-`).
The operations are made in the order they appear. Parenthesis can be used to force ordering :
```
"${2 * 4 + 3 * 3}" # computes to 33
"${3 * 3 + 2 * 4}" # computes to 44
"${(2 * 4) + (3 * 3)}" # computes to 17
"${(3 * 3) + (2 * 4)}" # computes to 17
```