427 lines
16 KiB
Plaintext
427 lines
16 KiB
Plaintext
---
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layout: docs
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page_title: Expressions - Configuration Language
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description: |-
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HCL allows the use of expressions to access data exported
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by sources and to transform and combine that data to produce other values.
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---
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# Expressions
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_Expressions_ are used to refer to or compute values within a configuration.
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The simplest expressions are just literal values, like `"hello"` or `5`, but
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HCL also allows more complex expressions such as arithmetic, conditional
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evaluation, and a number of built-in functions.
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Expressions can be used in a number of places in HCL, particularly as attribute
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values. Attribute value expressions must adhere to the attribute type. Block
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labels must be string literals without any interpolation. Each language
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feature's documentation describes any restrictions it places on expressions.
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The rest of this page describes all of the features of Nomad's
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expression syntax.
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## Types and Values
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The result of an expression is a _value_. All values have a _type_, which
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dictates where that value can be used and what transformations can be
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applied to it.
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HCL uses the following types for its values:
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- `string`: a sequence of Unicode characters representing some text, like
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`"hello"`.
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- `number`: a numeric value. The `number` type can represent both whole
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numbers like `15` and fractional values like `6.283185`.
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- `bool`: either `true` or `false`. `bool` values can be used in conditional
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logic.
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- `list` (or `tuple`): a sequence of values, like
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`["us-west-1a", "us-west-1c"]`. Elements in a list or tuple are identified by
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consecutive whole numbers, starting with zero.
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- `map` (or `object`): a group of values identified by named labels, like
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`{name = "Mabel", age = 52}`.
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Strings, numbers, and bools are sometimes called _primitive types._
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Lists/tuples and maps/objects are sometimes called _complex types,_ _structural
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types,_ or _collection types._
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Finally, there is one special value that has _no_ type:
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- `null`: a value that represents _absence_ or _omission._ If you set an
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argument to `null`, Nomad behaves as though you
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had completely omitted it — it will use the argument's default value if it has
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one, or raise an error if the argument is mandatory. `null` is most useful in
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conditional expressions, so you can dynamically omit an argument if a
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condition isn't met.
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### Advanced Type Details
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In most situations, lists and tuples behave identically, as do maps and objects.
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Whenever the distinction isn't relevant, the Nomad documentation uses each
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pair of terms interchangeably (with a historical preference for "list" and
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"map").
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### Type Conversion
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Expressions are most often used to set values for arguments. In these cases,
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the argument has an expected type and the given expression must produce a value
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of that type.
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Where possible, Nomad automatically converts values from one type to
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another in order to produce the expected type. If this isn't possible, Nomad
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will produce a type mismatch error and you must update the configuration with a
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more suitable expression.
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Nomad automatically converts number and bool values to strings when needed.
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It also converts strings to numbers or bools, as long as the string contains a
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valid representation of a number or bool value.
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- `true` converts to `"true"`, and vice-versa
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- `false` converts to `"false"`, and vice-versa
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- `15` converts to `"15"`, and vice-versa
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## Literal Expressions
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A _literal expression_ is an expression that directly represents a particular
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constant value. Nomad has a literal expression syntax for each of the value
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types described above:
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- Strings are usually represented by a double-quoted sequence of Unicode
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characters, `"like this"`. There is also a "heredoc" syntax for more complex
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strings. String literals are the most complex kind of literal expression in
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Nomad, and have additional documentation on this page:
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- See [String Literals](#string-literals) below for information about escape
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sequences and the heredoc syntax.
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- See [String Templates](#string-templates) below for information about
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interpolation and template directives.
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- Numbers are represented by unquoted sequences of digits with or without a
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decimal point, like `15` or `6.283185`.
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- Bools are represented by the unquoted symbols `true` and `false`.
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- The null value is represented by the unquoted symbol `null`.
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- Lists/tuples are represented by a pair of square brackets containing a
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comma-separated sequence of values, like `["a", 15, true]`.
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List literals can be split into multiple lines for readability, but always
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require a comma between values. A comma after the final value is allowed,
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but not required. Values in a list can be arbitrary expressions.
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- Maps/objects are represented by a pair of curly braces containing a series of
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`<KEY> = <VALUE>` pairs:
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```hcl
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{
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name = "John"
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age = 52
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}
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```
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Key/value pairs can be separated by either a comma or a line break. Values
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can be arbitrary expressions. Keys are strings; they can be left unquoted if
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they are a valid [identifier](/docs/job-specification/hcl2/syntax#identifiers), but must be quoted
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otherwise. You can use a non-literal expression as a key by wrapping it in
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parentheses, like `(var.business_unit_tag_name) = "SRE"`.
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### Available Functions
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For a full list of available functions, see [the function
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reference](/docs/job-specification/hcl2/functions).
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## `for` Expressions
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A _`for` expression_ creates a complex type value by transforming
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another complex type value. Each element in the input value
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can correspond to either one or zero values in the result, and an arbitrary
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expression can be used to transform each input element into an output element.
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For example, if `var.list` is a list of strings, then the following expression
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produces a list of strings with all-uppercase letters:
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```hcl
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[for s in var.list : upper(s)]
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```
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This `for` expression iterates over each element of `var.list`, and then
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evaluates the expression `upper(s)` with `s` set to each respective element.
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It then builds a new tuple value with all of the results of executing that
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expression in the same order.
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The type of brackets around the `for` expression decide what type of result
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it produces. The above example uses `[` and `]`, which produces a tuple. If
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`{` and `}` are used instead, the result is an object, and two result
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expressions must be provided separated by the `=>` symbol:
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```hcl
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{for s in var.list : s => upper(s)}
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```
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This expression produces an object whose attributes are the original elements
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from `var.list` and their corresponding values are the uppercase versions.
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A `for` expression can also include an optional `if` clause to filter elements
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from the source collection, which can produce a value with fewer elements than
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the source:
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```text
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[for s in var.list : upper(s) if s != ""]
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```
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The source value can also be an object or map value, in which case two
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temporary variable names can be provided to access the keys and values
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respectively:
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```text
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[for k, v in var.map : length(k) + length(v)]
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```
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Finally, if the result type is an object (using `{` and `}` delimiters) then
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the value result expression can be followed by the `...` symbol to group
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together results that have a common key:
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```text
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{for s in var.list : substr(s, 0, 1) => s... if s != ""}
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```
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<!---
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## TODO: revamp this section
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## Splat Expressions
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A _splat expression_ provides a more concise way to express a common operation
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that could otherwise be performed with a `for` expression.
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If `var.list` is a list of objects that all have an attribute `id`, then a list
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of the ids could be produced with the following `for` expression:
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```hcl
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[for o in var.list : o.id]
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```
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This is equivalent to the following _splat expression:_
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```hcl
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var.list[*].id
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```
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The special `[*]` symbol iterates over all of the elements of the list given to
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its left and accesses from each one the attribute name given on its right. A
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splat expression can also be used to access attributes and indexes from lists
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of complex types by extending the sequence of operations to the right of the
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symbol:
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```hcl
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var.list[*].interfaces[0].name
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```
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The above expression is equivalent to the following `for` expression:
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```hcl
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[for o in var.list : o.interfaces[0].name]
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```
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Splat expressions are for lists only (and thus cannot be used [to reference
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resources created with
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`for_each`](https://www.terraform.io/docs/configuration/resources.html#referring-to-instances), which
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are represented as maps). However, if a splat expression is applied to a value
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that is _not_ a list or tuple then the value is automatically wrapped in a
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single-element list before processing.
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For example, `var.single_object[*].id` is equivalent to
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`[var.single_object][*].id`, or effectively `[var.single_object.id]`. This
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behavior is not interesting in most cases, but it is particularly useful when
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referring to resources that may or may not have `count` set, and thus may or
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may not produce a tuple value:
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```hcl
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aws_instance.example[*].id
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```
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The above will produce a list of ids whether `aws_instance.example` has `count`
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set or not, avoiding the need to revise various other expressions in the
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configuration when a particular resource switches to and from having `count`
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set.
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--->
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## `dynamic` blocks
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Within top-level block constructs like sources, expressions can usually be used
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only when assigning a value to an argument using the `name = expression` or
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`key = expression` form. This covers many uses, but some source types include
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repeatable _nested blocks_ in their arguments, which do not accept expressions:
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```hcl
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network {
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mode = "host" # can use expressions here
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port "label" {
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# but the "port" block is always a literal block
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}
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}
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```
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You can dynamically construct repeatable nested blocks like `port` using a
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special `dynamic` block type, which is supported anywhere, example:
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```hcl
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locals {
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ports = [
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{
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port_label = "api"
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port = 80
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},
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{
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port_label = "ui"
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port = 8080
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}
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]
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}
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job "example" {
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datacenters = ["dc1"]
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group "cache" {
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network {
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mode = "host"
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dynamic "port" {
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for_each = local.ports
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labels = [port.value.port_label]
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content {
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to = port.value.port
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}
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}
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}
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...
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```
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A `dynamic` block acts much like a `for` expression, but produces nested blocks
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instead of a complex typed value. It iterates over a given complex value, and
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generates a nested block for each element of that complex value.
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- The label of the dynamic block (`"port"` in the example above) specifies
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what kind of nested block to generate.
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- The `for_each` argument provides the complex value to iterate over.
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- The `iterator` argument (optional) sets the name of a temporary variable
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that represents the current element of the complex value. If omitted, the name
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of the variable defaults to the label of the `dynamic` block (`"port"` in
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the example above).
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- The `labels` argument (optional) is a list of strings that specifies the block
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labels, in order, to use for each generated block. You can use the temporary
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iterator variable in this value. Nomad currently only has blocks that support
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a single label such as `port`.
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- The nested `content` block defines the body of each generated block. You can
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use the temporary iterator variable inside this block.
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Since the `for_each` argument accepts any collection or structural value,
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you can use a `for` expression or splat expression to transform an existing
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collection.
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The iterator object (`port` in the example above) has two attributes:
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- `key` is the map key or list element index for the current element. If the
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`for_each` expression produces a _set_ value then `key` is identical to
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`value` and should not be used.
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- `value` is the value of the current element.
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The `for_each` value must be a map or set with one element per desired nested
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block. If you need to declare resource instances based on a nested data
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structure or combinations of elements from multiple data structures you can use
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expressions and functions to derive a suitable value. For some common examples
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of such situations, see the
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[`flatten`](/docs/job-specification/hcl2/functions/collection/flatten) and
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[`setproduct`](/docs/job-specification/hcl2/functions/collection/setproduct)
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functions.
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### Best Practices for `dynamic` Blocks
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Overuse of `dynamic` blocks can make configuration hard to read and maintain,
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so we recommend using them only when you need to hide details in order to build
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a clean user interface for a re-usable code. Always write nested blocks out
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literally where possible.
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## String Literals
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HCL has two different syntaxes for string literals. The
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most common is to delimit the string with quote characters (`"`), like
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`"hello"`. In quoted strings, the backslash character serves as an escape
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sequence, with the following characters selecting the escape behavior:
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| Sequence | Replacement |
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| ------------ | ----------------------------------------------------------------------------- |
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| `\n` | Newline |
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| `\r` | Carriage Return |
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| `\t` | Tab |
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| `\"` | Literal quote (without terminating the string) |
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| `\\` | Literal backslash |
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| `\uNNNN` | Unicode character from the basic multilingual plane (NNNN is four hex digits) |
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| `\UNNNNNNNN` | Unicode character from supplementary planes (NNNNNNNN is eight hex digits) |
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The alternative syntax for string literals is the so-called Here Documents or
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"heredoc" style, inspired by Unix shell languages. This style allows multi-line
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strings to be expressed more clearly by using a custom delimiter word on a line
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of its own to close the string:
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```hcl
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<<EOF
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hello
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world
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EOF
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```
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The `<<` marker followed by any identifier at the end of a line introduces the
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sequence. Nomad then processes the following lines until it finds one that
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consists entirely of the identifier given in the introducer. In the above
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example, `EOF` is the identifier selected. Any identifier is allowed, but
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conventionally this identifier is in all-uppercase and begins with `EO`, meaning
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"end of". `EOF` in this case stands for "end of text".
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The "heredoc" form shown above requires that the lines following be flush with
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the left margin, which can be awkward when an expression is inside an indented
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block:
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```hcl
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block {
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value = <<EOF
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hello
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world
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EOF
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}
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```
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To improve on this, Nomad also accepts an _indented_ heredoc string variant
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that is introduced by the `<<-` sequence:
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```hcl
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block {
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value = <<-EOF
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hello
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world
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EOF
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}
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```
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In this case, Nomad analyses the lines in the sequence to find the one
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with the smallest number of leading spaces, and then trims that many spaces
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from the beginning of all of the lines, leading to the following result:
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```text
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hello
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world
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```
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Backslash sequences are not interpreted in a heredoc string expression.
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Instead, the backslash character is interpreted literally.
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In both quoted and heredoc string expressions, Nomad supports template
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sequences that begin with `${` and `%{`. These are described in more detail
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in the following section. To include these sequences _literally_ without
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beginning a template sequence, double the leading character: `$${` or `%%{`.
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## String Templates
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Within quoted and heredoc string expressions, the sequences `${` and `%{` begin
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_template sequences_. Templates let you directly embed expressions into a string
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literal, to dynamically construct strings from other values.
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