Files
ragflow/internal/agent/component/categorize.go
2026-07-16 13:10:29 +08:00

649 lines
19 KiB
Go

// Package component — Categorize (T3).
//
// LLM-based classifier. The component asks the model to pick exactly
// one of the configured categories, returns the chosen category name
// plus a uniform score map (1.0 for the chosen category, 0.0 for the
// rest). The MultiBranch wiring in canvas/multibranch.go consumes
// outputs["_next"] for runtime routing; the field is reserved for
// that consumer.
package component
import (
"context"
"fmt"
"sort"
"strings"
"github.com/cloudwego/eino/schema"
"ragflow/internal/agent/runtime"
)
// CategorizeComponent is an LLM classifier.
type CategorizeComponent struct {
param CategorizeParam
}
// CategorizeParam captures the (resolved) DSL parameters for a Categorize node.
type CategorizeParam struct {
ModelID string
Query string
Items []string
Categories []string
CategoryRoutes map[string]string
CategoryDescriptions map[string]string
CategoryExamples map[string][]string
SysPrompt string
DefaultCategory string
MessageHistoryWindowSize int
Driver string
APIKey string
BaseURL string
}
// CategorizeOutput mirrors the outputs map (per plan §2.11.3 row 6):
//
// "category" string — chosen category name (or default if
// model returned something not in list)
// "scores" map[string]float64
// "_next" []string — reserved for canvas/multibranch.go routing
type CategorizeOutput struct {
Category string
Scores map[string]float64
Next []string
}
// NewCategorizeComponent builds a CategorizeComponent from raw params.
func NewCategorizeComponent(p CategorizeParam) *CategorizeComponent {
return &CategorizeComponent{param: p}
}
// Name returns the registered component name.
func (c *CategorizeComponent) Name() string { return "Categorize" }
// Invoke calls the chat model, parses the response for a category, and
// returns the chosen category (or the default if the model returned
// something outside the configured set).
func (c *CategorizeComponent) Invoke(ctx context.Context, inputs map[string]any) (map[string]any, error) {
p := mergeCategorizeParam(c.param, inputs)
var err error
p.ModelID, p.Driver, p.APIKey, p.BaseURL, err = resolveChatModelRef(ctx, p.ModelID, p.Driver, p.APIKey, p.BaseURL)
if err != nil {
return nil, err
}
if p.ModelID == "" {
return nil, &ParamError{Field: "model_id", Reason: "required"}
}
if len(p.Categories) == 0 {
return nil, &ParamError{Field: "categories", Reason: "at least one category is required"}
}
if p.MessageHistoryWindowSize < 0 {
return nil, &ParamError{Field: "message_history_window_size", Reason: "cannot be negative"}
}
if p.DefaultCategory == "" {
// Fall back to the first category so the run never fails purely
// because the user omitted the default.
p.DefaultCategory = p.Categories[0]
}
inv := getDefaultChatInvoker()
sysPrompt := p.SysPrompt
if sysPrompt == "" {
sysPrompt = buildCategorizeSystemPrompt(p)
}
query := resolveCategorizeQuery(ctx, p, inputs)
userPrompt := buildCategorizePrompt(categorizeHistory(ctx, p.MessageHistoryWindowSize, query))
msgs := []schema.Message{
{Role: schema.System, Content: sysPrompt},
{Role: schema.User, Content: userPrompt},
}
resp, err := inv.Invoke(ctx, ChatInvokeRequest{
Driver: p.Driver,
ModelName: p.ModelID,
APIKey: p.APIKey,
BaseURL: p.BaseURL,
Messages: msgs,
})
if err != nil {
return nil, fmt.Errorf("component: Categorize.Invoke: %w", err)
}
chosen, score := pickCategory(resp.Content, p.Categories, p.DefaultCategory)
next := []string{}
if route := p.CategoryRoutes[chosen]; route != "" {
next = []string{route}
}
return map[string]any{
"category": chosen,
"category_name": chosen,
"scores": score,
"_next": next,
}, nil
}
// Stream mirrors Invoke as a single chunk.
func (c *CategorizeComponent) Stream(ctx context.Context, inputs map[string]any) (<-chan map[string]any, error) {
out := make(chan map[string]any, 1)
go func() {
defer close(out)
result, err := c.Invoke(ctx, inputs)
if err != nil {
out <- map[string]any{"error": err.Error()}
return
}
out <- result
}()
return out, nil
}
// Inputs returns parameter metadata for tooling.
func (c *CategorizeComponent) Inputs() map[string]string {
return map[string]string{
"model_id": "Provider-side model identifier",
"query": "Variable reference or literal text to classify. Defaults to sys.query.",
"items": "Optional list of items to classify (added to the prompt as context)",
"categories": "List of allowed category names (response must match one)",
"sys_prompt": "Optional system prompt; defaults to a strict classifier instruction",
"default_category": "Category returned if the model's answer is not in `categories` (defaults to categories[0])",
"message_history_window_size": "How many prior conversation turns to include in the Real Data prompt.",
"driver": "Provider driver name",
"api_key": "Override API key",
}
}
func (c *CategorizeComponent) GetInputForm() map[string]any {
return map[string]any{
"query": map[string]any{
"type": "line",
"name": "Query",
},
}
}
// Outputs returns output metadata.
func (c *CategorizeComponent) Outputs() map[string]string {
return map[string]string{
"category": "Chosen category name (one of the configured list, or the default)",
"category_name": "Alias of category for v1 canvas templates",
"scores": "Score map (1.0 for the chosen category, 0.0 for the rest)",
"_next": "Downstream route handle(s) selected from categorize item uuids",
}
}
func buildCategorizeSystemPrompt(p CategorizeParam) string {
cats := append([]string(nil), p.Categories...)
sort.Strings(cats)
var b strings.Builder
b.WriteString("You are an advanced classification system that categorizes user questions into specific types. Analyze the input question and classify it into ONE of the following categories:\n")
for _, c := range cats {
b.WriteString("- ")
b.WriteString(c)
b.WriteString("\n")
}
if len(p.CategoryDescriptions) > 0 {
b.WriteString("\nHere's description of each category:\n")
for _, c := range cats {
desc := strings.TrimSpace(p.CategoryDescriptions[c])
if desc == "" {
continue
}
b.WriteString("\n------\nCategory: ")
b.WriteString(c)
b.WriteString("\nDescription: ")
b.WriteString(desc)
b.WriteString("\n")
}
}
b.WriteString("\n---- Instructions ----\n")
b.WriteString("- Consider both explicit mentions and implied context\n")
b.WriteString("- Prioritize the most specific applicable category\n")
b.WriteString("- Return only the category name without explanations\n")
if containsCategory(cats, "Other") {
b.WriteString("- Use \"Other\" only when no other category fits\n")
}
examples := categorizeExamples(p, cats)
if len(examples) > 0 {
b.WriteString("\n---- Examples ----\n")
for _, line := range examples {
b.WriteString(line)
b.WriteString("\n")
}
}
return b.String()
}
func containsCategory(categories []string, target string) bool {
for _, c := range categories {
if c == target {
return true
}
}
return false
}
func categorizeExamples(p CategorizeParam, cats []string) []string {
var lines []string
for _, c := range cats {
for _, example := range p.CategoryExamples[c] {
example = strings.TrimSpace(strings.ReplaceAll(example, "\n", " "))
if example == "" {
continue
}
lines = append(lines, fmt.Sprintf("USER: %q -> %s", example, c))
}
}
for _, it := range p.Items {
it = strings.TrimSpace(strings.ReplaceAll(it, "\n", " "))
if it == "" {
continue
}
lines = append(lines, fmt.Sprintf("USER: %q", it))
}
return lines
}
type categorizeHistoryMessage struct {
Role string
Content string
}
func categorizeHistory(ctx context.Context, window int, query string) []categorizeHistoryMessage {
msgs := []categorizeHistoryMessage{}
if window > 0 {
if state, _, err := runtime.GetStateFromContext[*runtime.CanvasState](ctx); err == nil && state != nil {
start := 0
if len(state.History) > window {
start = len(state.History) - window
}
for i := start; i < len(state.History); i++ {
entry := state.History[i]
role, _ := entry["role"].(string)
content, _ := entry["content"].(string)
if role == "" || content == "" {
continue
}
msgs = append(msgs, categorizeHistoryMessage{Role: role, Content: content})
}
}
}
if len(msgs) == 0 {
msgs = append(msgs, categorizeHistoryMessage{Role: "user"})
}
msgs[len(msgs)-1].Content = query
return msgs
}
func buildCategorizePrompt(history []categorizeHistoryMessage) string {
parts := make([]string, 0, len(history))
for _, msg := range history {
role := strings.ToUpper(strings.TrimSpace(msg.Role))
if role == "" {
role = "USER"
}
content := strings.NewReplacer("\r\n", "", "\n", "", "\r", "").Replace(msg.Content)
parts = append(parts, fmt.Sprintf("%s: %q", role, content))
}
return fmt.Sprintf("\n---- Real Data ----\n%s ->\n", strings.Join(parts, " | "))
}
func resolveCategorizeQuery(ctx context.Context, p CategorizeParam, inputs map[string]any) string {
if v, ok := stringValueFromAny(inputs["query"]); ok {
return v
}
queryRef := strings.TrimSpace(p.Query)
if queryRef == "" {
queryRef = "sys.query"
}
if v, ok := stringValueFromAny(inputs[queryRef]); ok && strings.TrimSpace(v) != "" {
return v
}
if state, _, err := runtime.GetStateFromContext[*runtime.CanvasState](ctx); err == nil && state != nil {
if v, err := state.GetVar(queryRef); err == nil {
if s, ok := stringValueFromAny(v); ok {
return s
}
}
}
return ""
}
func stringValueFromAny(v any) (string, bool) {
if v == nil {
return "", false
}
switch t := v.(type) {
case string:
return t, true
default:
return fmt.Sprint(t), true
}
}
// pickCategory extracts a category from the model's response. Strategy:
// 1. exact match (case-sensitive)
// 2. case-insensitive match
// 3. fall back to default
//
// Substring matching is intentionally avoided — it makes the picker too
// eager ("I have no idea" would match a category named "a"). If the model
// can't produce one of the categories verbatim, the default is used.
//
// Scores are 1.0 for the chosen category, 0.0 for the rest.
func pickCategory(response string, categories []string, def string) (string, map[string]float64) {
scores := make(map[string]float64, len(categories))
for _, c := range categories {
scores[c] = 0
}
resp := strings.TrimSpace(response)
resp = strings.Trim(resp, "\"'`\n\r\t ")
resp = strings.TrimPrefix(resp, "category:")
resp = strings.TrimPrefix(resp, "Category:")
resp = strings.TrimSpace(resp)
for _, c := range categories {
if resp == c {
scores[c] = 1
return c, scores
}
}
lower := strings.ToLower(resp)
for _, c := range categories {
if strings.ToLower(c) == lower {
scores[c] = 1
return c, scores
}
}
scores[def] = 1
return def, scores
}
// mergeCategorizeParam layers raw inputs over the receiver's default param set.
//
// v1 aliases accepted alongside the v2 names: "llm_id" → "model_id",
// "category_description" (a map[string]string) → "categories" (the keys
// of the map), and "base_url" → "BaseURL". v1 fixtures use the
// short / dict forms; without these aliases the v1→v2 conversion step
// would have to run before the factory builds the component.
func mergeCategorizeParam(base CategorizeParam, inputs map[string]any) CategorizeParam {
p := base
if v, ok := stringFrom(inputs, "model_id"); ok {
p.ModelID = v
} else if v, ok := stringFrom(inputs, "llm_id"); ok {
p.ModelID = v
}
if v, ok := stringFrom(inputs, "query"); ok {
p.Query = v
}
if v, ok := sliceFrom(inputs, "items"); ok {
p.Items = v
}
if v, ok := sliceFrom(inputs, "categories"); ok {
p.Categories = v
}
if meta, ok := categoryMetadataFrom(inputs, "category_description"); ok && len(meta.Names) > 0 {
if len(p.Categories) == 0 {
p.Categories = meta.Names
}
p.CategoryDescriptions = mergeStringMap(p.CategoryDescriptions, meta.Descriptions)
p.CategoryExamples = mergeStringSliceMap(p.CategoryExamples, meta.Examples)
}
if routes, ok := categoryRoutesFrom(inputs, "category_description"); ok {
p.CategoryRoutes = mergeStringMap(p.CategoryRoutes, routes)
}
if v, ok := stringFrom(inputs, "sys_prompt"); ok {
p.SysPrompt = v
} else if v, ok := stringFrom(inputs, "system_prompt"); ok {
p.SysPrompt = v
}
if v, ok := stringFrom(inputs, "default_category"); ok {
p.DefaultCategory = v
}
if v, ok := intFrom(inputs, "message_history_window_size"); ok {
p.MessageHistoryWindowSize = v
}
if v, ok := stringFrom(inputs, "driver"); ok {
p.Driver = v
}
if v, ok := stringFrom(inputs, "api_key"); ok {
p.APIKey = v
}
if v, ok := stringFrom(inputs, "base_url"); ok {
p.BaseURL = v
}
return p
}
type categorizeMetadata struct {
Names []string
Descriptions map[string]string
Examples map[string][]string
}
func categoryMetadataFrom(inputs map[string]any, name string) (categorizeMetadata, bool) {
v, ok := inputs[name]
if !ok {
return categorizeMetadata{}, false
}
raw, ok := v.(map[string]any)
if !ok {
return categorizeMetadata{}, false
}
out := categorizeMetadata{
Names: make([]string, 0, len(raw)),
Descriptions: make(map[string]string, len(raw)),
Examples: make(map[string][]string, len(raw)),
}
for k, child := range raw {
out.Names = append(out.Names, k)
if s, ok := child.(string); ok {
out.Descriptions[k] = s
continue
}
if nested, ok := child.(map[string]any); ok {
if s, ok := nested["description"].(string); ok {
out.Descriptions[k] = s
}
out.Examples[k] = examplesFromAny(nested["examples"])
continue
}
}
sort.Strings(out.Names)
return out, true
}
func examplesFromAny(v any) []string {
raw, ok := v.([]any)
if !ok {
return nil
}
out := make([]string, 0, len(raw))
for _, item := range raw {
switch t := item.(type) {
case string:
if t != "" {
out = append(out, t)
}
case map[string]any:
if s, _ := t["value"].(string); s != "" {
out = append(out, s)
}
}
}
return out
}
func mergeStringMap(base, override map[string]string) map[string]string {
if len(override) == 0 {
return base
}
out := make(map[string]string, len(base)+len(override))
for k, v := range base {
out[k] = v
}
for k, v := range override {
out[k] = v
}
return out
}
func mergeStringSliceMap(base, override map[string][]string) map[string][]string {
if len(override) == 0 {
return base
}
out := make(map[string][]string, len(base)+len(override))
for k, v := range base {
out[k] = append([]string(nil), v...)
}
for k, v := range override {
out[k] = append([]string(nil), v...)
}
return out
}
func categoryRoutesFrom(inputs map[string]any, name string) (map[string]string, bool) {
raw, ok := inputs[name]
if !ok {
return nil, false
}
src, ok := raw.(map[string]any)
if !ok || len(src) == 0 {
return nil, false
}
out := make(map[string]string, len(src))
for category, child := range src {
nested, ok := child.(map[string]any)
if !ok {
continue
}
if s, ok := firstRouteTarget(nested["to"]); ok {
out[category] = s
continue
}
if s, ok := nested["uuid"].(string); ok && s != "" {
out[category] = s
}
}
return out, len(out) > 0
}
// init registers CategorizeComponent with the orchestrator-owned registry.
func init() {
Register("Categorize", func(params map[string]any) (Component, error) {
p := CategorizeParam{MessageHistoryWindowSize: 1}
if v, ok := stringFrom(params, "model_id"); ok {
p.ModelID = v
} else if v, ok := stringFrom(params, "llm_id"); ok {
p.ModelID = v
}
if v, ok := stringFrom(params, "query"); ok {
p.Query = v
}
// Check the object-style []any of maps first. sliceFrom would
// otherwise match the same []any input and return (empty, true)
// for non-string elements, making the object branch unreachable.
if items, ok := params["items"].([]any); ok && len(items) > 0 {
names := make([]string, 0, len(items))
routes := make(map[string]string, len(items))
for _, item := range items {
m, ok := item.(map[string]any)
if !ok {
continue
}
name, _ := m["name"].(string)
if name == "" {
continue
}
names = append(names, name)
if desc, _ := m["description"].(string); desc != "" {
if p.CategoryDescriptions == nil {
p.CategoryDescriptions = map[string]string{}
}
p.CategoryDescriptions[name] = desc
}
if route, ok := firstRouteTarget(m["to"]); ok {
routes[name] = route
} else if uuid, _ := m["uuid"].(string); uuid != "" {
routes[name] = uuid
}
if examples, ok := m["examples"].([]any); ok {
for _, example := range examples {
if p.CategoryExamples == nil {
p.CategoryExamples = map[string][]string{}
}
switch em := example.(type) {
case map[string]any:
if v, _ := em["value"].(string); v != "" {
p.CategoryExamples[name] = append(p.CategoryExamples[name], v)
}
case string:
if em != "" {
p.CategoryExamples[name] = append(p.CategoryExamples[name], em)
}
}
}
}
}
if len(names) > 0 {
p.Categories = names
}
if len(routes) > 0 {
p.CategoryRoutes = routes
}
} else if v, ok := sliceFrom(params, "items"); ok {
p.Items = v
}
if v, ok := sliceFrom(params, "categories"); ok {
p.Categories = v
}
if meta, ok := categoryMetadataFrom(params, "category_description"); ok && len(meta.Names) > 0 {
if len(p.Categories) == 0 {
p.Categories = meta.Names
}
p.CategoryDescriptions = mergeStringMap(p.CategoryDescriptions, meta.Descriptions)
p.CategoryExamples = mergeStringSliceMap(p.CategoryExamples, meta.Examples)
if routes, ok := categoryRoutesFrom(params, "category_description"); ok {
p.CategoryRoutes = mergeStringMap(p.CategoryRoutes, routes)
}
}
if v, ok := stringFrom(params, "sys_prompt"); ok {
p.SysPrompt = v
} else if v, ok := stringFrom(params, "system_prompt"); ok {
p.SysPrompt = v
}
if v, ok := stringFrom(params, "default_category"); ok {
p.DefaultCategory = v
}
if v, ok := intFrom(params, "message_history_window_size"); ok {
p.MessageHistoryWindowSize = v
}
if v, ok := stringFrom(params, "driver"); ok {
p.Driver = v
}
if v, ok := stringFrom(params, "api_key"); ok {
p.APIKey = v
}
if v, ok := stringFrom(params, "base_url"); ok {
p.BaseURL = v
}
return NewCategorizeComponent(p), nil
})
}
func firstRouteTarget(v any) (string, bool) {
if s, ok := v.(string); ok && s != "" {
return s, true
}
items, ok := v.([]any)
if !ok || len(items) == 0 {
return "", false
}
s, ok := items[0].(string)
if !ok || s == "" {
return "", false
}
return s, true
}