Files
CyberStrikeAI/internal/knowledge/retriever.go
T
2025-12-20 17:36:40 +08:00

231 lines
5.2 KiB
Go

package knowledge
import (
"context"
"database/sql"
"encoding/json"
"fmt"
"math"
"strings"
"go.uber.org/zap"
)
// Retriever 检索器
type Retriever struct {
db *sql.DB
embedder *Embedder
config *RetrievalConfig
logger *zap.Logger
}
// RetrievalConfig 检索配置
type RetrievalConfig struct {
TopK int
SimilarityThreshold float64
HybridWeight float64
}
// NewRetriever 创建新的检索器
func NewRetriever(db *sql.DB, embedder *Embedder, config *RetrievalConfig, logger *zap.Logger) *Retriever {
return &Retriever{
db: db,
embedder: embedder,
config: config,
logger: logger,
}
}
// cosineSimilarity 计算余弦相似度
func cosineSimilarity(a, b []float32) float64 {
if len(a) != len(b) {
return 0.0
}
var dotProduct, normA, normB float64
for i := range a {
dotProduct += float64(a[i] * b[i])
normA += float64(a[i] * a[i])
normB += float64(b[i] * b[i])
}
if normA == 0 || normB == 0 {
return 0.0
}
return dotProduct / (math.Sqrt(normA) * math.Sqrt(normB))
}
// bm25Score 计算BM25分数(简化版)
func (r *Retriever) bm25Score(query, text string) float64 {
queryTerms := strings.Fields(strings.ToLower(query))
textLower := strings.ToLower(text)
textTerms := strings.Fields(textLower)
score := 0.0
for _, term := range queryTerms {
termFreq := 0
for _, textTerm := range textTerms {
if textTerm == term {
termFreq++
}
}
if termFreq > 0 {
// 简化的BM25公式
score += float64(termFreq) / float64(len(textTerms))
}
}
return score / float64(len(queryTerms))
}
// Search 搜索知识库
func (r *Retriever) Search(ctx context.Context, req *SearchRequest) ([]*RetrievalResult, error) {
if req.Query == "" {
return nil, fmt.Errorf("查询不能为空")
}
topK := req.TopK
if topK <= 0 {
topK = r.config.TopK
}
if topK == 0 {
topK = 5
}
threshold := req.Threshold
if threshold <= 0 {
threshold = r.config.SimilarityThreshold
}
if threshold == 0 {
threshold = 0.7
}
// 向量化查询
queryEmbedding, err := r.embedder.EmbedText(ctx, req.Query)
if err != nil {
return nil, fmt.Errorf("向量化查询失败: %w", err)
}
// 查询所有向量(或按风险类型过滤)
var rows *sql.Rows
if req.RiskType != "" {
rows, err = r.db.Query(`
SELECT e.id, e.item_id, e.chunk_index, e.chunk_text, e.embedding, i.category, i.title
FROM knowledge_embeddings e
JOIN knowledge_base_items i ON e.item_id = i.id
WHERE i.category = ?
`, req.RiskType)
} else {
rows, err = r.db.Query(`
SELECT e.id, e.item_id, e.chunk_index, e.chunk_text, e.embedding, i.category, i.title
FROM knowledge_embeddings e
JOIN knowledge_base_items i ON e.item_id = i.id
`)
}
if err != nil {
return nil, fmt.Errorf("查询向量失败: %w", err)
}
defer rows.Close()
// 计算相似度
type candidate struct {
chunk *KnowledgeChunk
item *KnowledgeItem
similarity float64
bm25Score float64
}
candidates := make([]candidate, 0)
for rows.Next() {
var chunkID, itemID, chunkText, embeddingJSON, category, title string
var chunkIndex int
if err := rows.Scan(&chunkID, &itemID, &chunkIndex, &chunkText, &embeddingJSON, &category, &title); err != nil {
r.logger.Warn("扫描向量失败", zap.Error(err))
continue
}
// 解析向量
var embedding []float32
if err := json.Unmarshal([]byte(embeddingJSON), &embedding); err != nil {
r.logger.Warn("解析向量失败", zap.Error(err))
continue
}
// 计算余弦相似度
similarity := cosineSimilarity(queryEmbedding, embedding)
// 计算BM25分数
bm25Score := r.bm25Score(req.Query, chunkText)
// 过滤低相似度结果
if similarity < threshold {
continue
}
chunk := &KnowledgeChunk{
ID: chunkID,
ItemID: itemID,
ChunkIndex: chunkIndex,
ChunkText: chunkText,
Embedding: embedding,
}
item := &KnowledgeItem{
ID: itemID,
Category: category,
Title: title,
}
candidates = append(candidates, candidate{
chunk: chunk,
item: item,
similarity: similarity,
bm25Score: bm25Score,
})
}
// 混合排序(向量相似度 + BM25)
hybridWeight := r.config.HybridWeight
if hybridWeight == 0 {
hybridWeight = 0.7
}
// 按混合分数排序(简化:主要按相似度,BM25作为次要因素)
// 这里我们主要使用相似度,因为BM25分数可能不稳定
// 实际可以使用更复杂的混合策略
// 选择Top-K
if len(candidates) > topK {
// 简单排序(按相似度)
for i := 0; i < len(candidates)-1; i++ {
for j := i + 1; j < len(candidates); j++ {
if candidates[i].similarity < candidates[j].similarity {
candidates[i], candidates[j] = candidates[j], candidates[i]
}
}
}
candidates = candidates[:topK]
}
// 转换为结果
results := make([]*RetrievalResult, len(candidates))
for i, cand := range candidates {
// 计算混合分数
normalizedBM25 := math.Min(cand.bm25Score, 1.0)
hybridScore := hybridWeight*cand.similarity + (1-hybridWeight)*normalizedBM25
results[i] = &RetrievalResult{
Chunk: cand.chunk,
Item: cand.item,
Similarity: cand.similarity,
Score: hybridScore,
}
}
return results, nil
}