# Template Ollama provides a powerful templating engine backed by Go's built-in templating engine to construct prompts for your large language model. This feature is a valuable tool to get the most out of your models. ## Basic Template Structure A basic Go template consists of three main parts: * **Layout**: The overall structure of the template. * **Variables**: Placeholders for dynamic data that will be replaced with actual values when the template is rendered. * **Functions**: Custom functions or logic that can be used to manipulate the template's content. Here's an example of a simple chat template: ```gotmpl {{- range .Messages }} {{ .Role }}: {{ .Content }} {{- end }} ``` In this example, we have: * A basic messages structure (layout) * Three variables: `Messages`, `Role`, and `Content` (variables) * A custom function (action) that iterates over an array of items (`range .Messages`) and displays each item ## Adding templates to your model By default, models imported into Ollama have a default template of `{{ .Prompt }}`, i.e. user inputs are sent verbatim to the LLM. This is appropriate for text or code completion models but lacks essential markers for chat or instruction models. Omitting a template in these models puts the responsibility of correctly templating input onto the user. Adding a template allows users to easily get the best results from the model. To add templates in your model, you'll need to add a `TEMPLATE` command to the Modelfile. Here's an example using Meta's Llama 3. ```dockerfile FROM llama3.2 TEMPLATE """{{- if .System }}<|start_header_id|>system<|end_header_id|> {{ .System }}<|eot_id|> {{- end }} {{- range .Messages }}<|start_header_id|>{{ .Role }}<|end_header_id|> {{ .Content }}<|eot_id|> {{- end }}<|start_header_id|>assistant<|end_header_id|> """ ``` ## Variables `System` (string): system prompt `Prompt` (string): user prompt `Response` (string): assistant response `Suffix` (string): text inserted after the assistant's response `Messages` (list): list of messages `Messages[].Role` (string): role which can be one of `system`, `user`, `assistant`, or `tool` `Messages[].Content` (string): message content `Messages[].ToolCalls` (list): list of tools the model wants to call `Messages[].ToolCalls[].Function` (object): function to call `Messages[].ToolCalls[].Function.Name` (string): function name `Messages[].ToolCalls[].Function.Arguments` (map): mapping of argument name to argument value `Tools` (list): list of tools the model can access `Tools[].Type` (string): schema type. `type` is always `function` `Tools[].Function` (object): function definition `Tools[].Function.Name` (string): function name `Tools[].Function.Description` (string): function description `Tools[].Function.Parameters` (object): function parameters `Tools[].Function.Parameters.Type` (string): schema type. `type` is always `object` `Tools[].Function.Parameters.Required` (list): list of required properties `Tools[].Function.Parameters.Properties` (map): mapping of property name to property definition `Tools[].Function.Parameters.Properties[].Type` (string): property type `Tools[].Function.Parameters.Properties[].Description` (string): property description `Tools[].Function.Parameters.Properties[].Enum` (list): list of valid values ## Tips and Best Practices Keep the following tips and best practices in mind when working with Go templates: * **Be mindful of dot**: Control flow structures like `range` and `with` changes the value `.` * **Out-of-scope variables**: Use `$.` to reference variables not currently in scope, starting from the root * **Whitespace control**: Use `-` to trim leading (`{{-`) and trailing (`-}}`) whitespace ## Examples ### Example Messages #### ChatML ChatML is a popular template format. It can be used for models such as Databrick's DBRX, Intel's Neural Chat, and Microsoft's Orca 2. ```gotmpl {{- range .Messages }}<|im_start|>{{ .Role }} {{ .Content }}<|im_end|> {{ end }}<|im_start|>assistant ``` ### Example Tools Tools support can be added to a model by adding a `{{ .Tools }}` node to the template. This feature is useful for models trained to call external tools and can a powerful tool for retrieving real-time data or performing complex tasks. #### Mistral Mistral v0.3 and Mixtral 8x22B supports tool calling. ```gotmpl {{- range $index, $_ := .Messages }} {{- if eq .Role "user" }} {{- if and (le (len (slice $.Messages $index)) 2) $.Tools }}[AVAILABLE_TOOLS] {{ json $.Tools }}[/AVAILABLE_TOOLS] {{- end }}[INST] {{ if and (eq (len (slice $.Messages $index)) 1) $.System }}{{ $.System }} {{ end }}{{ .Content }}[/INST] {{- else if eq .Role "assistant" }} {{- if .Content }} {{ .Content }} {{- else if .ToolCalls }}[TOOL_CALLS] [ {{- range .ToolCalls }}{"name": "{{ .Function.Name }}", "arguments": {{ json .Function.Arguments }}} {{- end }}] {{- end }} {{- else if eq .Role "tool" }}[TOOL_RESULTS] {"content": {{ .Content }}}[/TOOL_RESULTS] {{- end }} {{- end }} ``` ### Example Fill-in-Middle Fill-in-middle support can be added to a model by adding a `{{ .Suffix }}` node to the template. This feature is useful for models that are trained to generate text in the middle of user input, such as code completion models. #### CodeLlama CodeLlama [7B](https://ollama.com/library/codellama:7b-code) and [13B](https://ollama.com/library/codellama:13b-code) code completion models support fill-in-middle. ```gotmpl 
 {{ .Prompt }} {{ .Suffix }} 
```

> [!NOTE]
> CodeLlama 34B and 70B code completion and all instruct and Python fine-tuned models do not support fill-in-middle.

#### Codestral

Codestral [22B](https://ollama.com/library/codestral:22b) supports fill-in-middle.

```gotmpl
[SUFFIX]{{ .Suffix }}[PREFIX] {{ .Prompt }}
```