--- page_title: templatefile - Functions - Configuration Language description: |- The templatefile function reads the file at the given path and renders its content as a template. sidebar_title: templatefile --- # `templatefile` Function `templatefile` reads the file at the given path and renders its content as a template using a supplied set of template variables. ```hcl templatefile(path, vars) ``` The template syntax is the same as for [string templates](/language/expressions/strings#string-templates) in the main Terraform language, including interpolation sequences delimited with `${` ... `}`. This function just allows longer template sequences to be factored out into a separate file for readability. The "vars" argument must be a map. Within the template file, each of the keys in the map is available as a variable for interpolation. The template may also use any other function available in the Terraform language, except that recursive calls to `templatefile` are not permitted. Variable names must each start with a letter, followed by zero or more letters, digits, or underscores. Strings in the Terraform language are sequences of Unicode characters, so this function will interpret the file contents as UTF-8 encoded text and return the resulting Unicode characters. If the file contains invalid UTF-8 sequences then this function will produce an error. This function can be used only with files that already exist on disk at the beginning of a Terraform run. Functions do not participate in the dependency graph, so this function cannot be used with files that are generated dynamically during a Terraform operation. `*.tftpl` is the recommended naming pattern to use for your template files. Terraform will not prevent you from using other names, but following this convention will help your editor understand the content and likely provide better editing experience as a result. ## Examples ### Lists Given a template file `backends.tftpl` with the following content: ``` %{ for addr in ip_addrs ~} backend ${addr}:${port} %{ endfor ~} ``` The `templatefile` function renders the template: ``` > templatefile("${path.module}/backends.tftpl", { port = 8080, ip_addrs = ["10.0.0.1", "10.0.0.2"] }) backend 10.0.0.1:8080 backend 10.0.0.2:8080 ``` ### Maps Given a template file `config.tftpl` with the following content: ``` %{ for config_key, config_value in config } set ${config_key} = ${config_value} %{ endfor ~} ``` The `templatefile` function renders the template: ``` > templatefile( "${path.module}/config.tftpl", { config = { "x" = "y" "foo" = "bar" "key" = "value" } } ) set foo = bar set key = value set x = y ``` ### Generating JSON or YAML from a template If the string you want to generate will be in JSON or YAML syntax, it's often tricky and tedious to write a template that will generate valid JSON or YAML that will be interpreted correctly when using lots of individual interpolation sequences and directives. Instead, you can write a template that consists only of a single interpolated call to either [`jsonencode`](/language/functions/jsonencode) or [`yamlencode`](/language/functions/yamlencode), specifying the value to encode using [normal Terraform expression syntax](/language/expressions/) as in the following examples: ``` ${jsonencode({ "backends": [for addr in ip_addrs : "${addr}:${port}"], })} ``` ``` ${yamlencode({ "backends": [for addr in ip_addrs : "${addr}:${port}"], })} ``` Given the same input as the `backends.tftpl` example in the previous section, this will produce a valid JSON or YAML representation of the given data structure, without the need to manually handle escaping or delimiters. In the latest examples above, the repetition based on elements of `ip_addrs` is achieved by using a [`for` expression](/language/expressions/for) rather than by using [template directives](/language/expressions/strings#directives). ```json {"backends":["10.0.0.1:8080","10.0.0.2:8080"]} ``` If the resulting template is small, you can choose instead to write `jsonencode` or `yamlencode` calls inline in your main configuration files, and avoid creating separate template files at all: ```hcl locals { backend_config_json = jsonencode({ "backends": [for addr in ip_addrs : "${addr}:${port}"], }) } ``` For more information, see the main documentation for [`jsonencode`](/language/functions/jsonencode) and [`yamlencode`](/language/functions/yamlencode). ## Related Functions * [`file`](/language/functions/file) reads a file from disk and returns its literal contents without any template interpretation.