package template import ( "bytes" "embed" "encoding/json" "errors" "fmt" "io" "math" "slices" "strings" "sync" "text/template" "text/template/parse" "github.com/agnivade/levenshtein" "github.com/ollama/ollama/api" "golang.org/x/exp/maps" ) //go:embed index.json var indexBytes []byte //go:embed *.gotmpl var templatesFS embed.FS var templatesOnce = sync.OnceValues(func() ([]*named, error) { var templates []*named if err := json.Unmarshal(indexBytes, &templates); err != nil { return nil, err } for _, t := range templates { bts, err := templatesFS.ReadFile(t.Name + ".gotmpl") if err != nil { return nil, err } // normalize line endings t.Bytes = bytes.ReplaceAll(bts, []byte("\r\n"), []byte("\n")) } return templates, nil }) type named struct { Name string `json:"name"` Template string `json:"template"` Bytes []byte } func (t named) Reader() io.Reader { return bytes.NewReader(t.Bytes) } func Named(s string) (*named, error) { templates, err := templatesOnce() if err != nil { return nil, err } var template *named score := math.MaxInt for _, t := range templates { if s := levenshtein.ComputeDistance(s, t.Template); s < score { score = s template = t } } if score < 100 { return template, nil } return nil, errors.New("no matching template found") } var DefaultTemplate, _ = Parse("{{ .Prompt }}") type Template struct { *template.Template raw string } // response is a template node that can be added to templates that don't already have one var response = parse.ActionNode{ NodeType: parse.NodeAction, Pipe: &parse.PipeNode{ NodeType: parse.NodePipe, Cmds: []*parse.CommandNode{ { NodeType: parse.NodeCommand, Args: []parse.Node{ &parse.FieldNode{ NodeType: parse.NodeField, Ident: []string{"Response"}, }, }, }, }, }, } func Parse(s string) (*Template, error) { tmpl := template.New("").Option("missingkey=zero") tmpl, err := tmpl.Parse(s) if err != nil { return nil, err } t := Template{Template: tmpl, raw: s} if vars := t.Vars(); !slices.Contains(vars, "messages") && !slices.Contains(vars, "response") { // touch up the template and append {{ .Response }} tmpl.Tree.Root.Nodes = append(tmpl.Tree.Root.Nodes, &response) } return &t, nil } func (t *Template) String() string { return t.raw } func (t *Template) Vars() []string { var vars []string for _, tt := range t.Templates() { for _, n := range tt.Root.Nodes { vars = append(vars, parseNode(n)...) } } set := make(map[string]struct{}) for _, n := range vars { set[strings.ToLower(n)] = struct{}{} } vars = maps.Keys(set) slices.Sort(vars) return vars } type Values struct { Messages []api.Message } func (t *Template) Execute(w io.Writer, v Values) error { system, collated := collate(v.Messages) if slices.Contains(t.Vars(), "messages") { return t.Template.Execute(w, map[string]any{ "System": system, "Messages": collated, }) } var b bytes.Buffer var prompt, response string for i, m := range collated { if m.Role == "user" { prompt = m.Content } else { response = m.Content } if i != len(collated)-1 && prompt != "" && response != "" { if err := t.Template.Execute(&b, map[string]any{ "System": "", "Prompt": prompt, "Response": response, }); err != nil { return err } prompt = "" response = "" } } var cut bool tree := t.Template.Copy() // for the last message, cut everything after "{{ .Response }}" tree.Root.Nodes = slices.DeleteFunc(tree.Root.Nodes, func(n parse.Node) bool { if slices.Contains(parseNode(n), "Response") { cut = true } return cut }) if err := template.Must(template.New("").AddParseTree("", tree)).Execute(&b, map[string]any{ "System": system, "Prompt": prompt, }); err != nil { return err } _, err := io.Copy(w, &b) return err } type messages []*api.Message // collate messages based on role. consecutive messages of the same role are merged // into a single message. collate also pulls out and merges messages with Role == "system" // which are templated separately. As a side effect, it mangles message content adding image // tags ([img-%d]) as needed func collate(msgs []api.Message) (system string, collated messages) { var n int for i := range msgs { msg := msgs[i] if msg.Role == "system" { if system != "" { system += "\n\n" } system += msg.Content continue } for range msg.Images { imageTag := fmt.Sprintf("[img-%d]", n) if !strings.Contains(msg.Content, "[img]") { msg.Content = strings.TrimSpace("[img] " + msg.Content) } msg.Content = strings.Replace(msg.Content, "[img]", imageTag, 1) n++ } if len(collated) > 0 && collated[len(collated)-1].Role == msg.Role { collated[len(collated)-1].Content += "\n\n" + msg.Content } else { collated = append(collated, &msg) } } return } func parseNode(n parse.Node) []string { switch n := n.(type) { case *parse.ActionNode: return parseNode(n.Pipe) case *parse.IfNode: names := parseNode(n.Pipe) names = append(names, parseNode(n.List)...) if n.ElseList != nil { names = append(names, parseNode(n.ElseList)...) } return names case *parse.RangeNode: names := parseNode(n.Pipe) names = append(names, parseNode(n.List)...) if n.ElseList != nil { names = append(names, parseNode(n.ElseList)...) } return names case *parse.WithNode: names := parseNode(n.Pipe) names = append(names, parseNode(n.List)...) if n.ElseList != nil { names = append(names, parseNode(n.ElseList)...) } return names case *parse.PipeNode: var names []string for _, c := range n.Cmds { for _, a := range c.Args { names = append(names, parseNode(a)...) } } return names case *parse.ListNode: var names []string for _, n := range n.Nodes { names = append(names, parseNode(n)...) } return names case *parse.FieldNode: return n.Ident case *parse.TemplateNode: return parseNode(n.Pipe) } return nil }