
redis-search
✓ Official★ 82by redis · part of redis/agent-skills
Redis Search guidance covering FT.CREATE schema design, field type selection (TEXT, TAG, NUMERIC, GEO, GEOSHAPE, VECTOR, JSON path), DIALECT 2 query syntax, FT.SEARCH / FT.AGGREGATE / FT.HYBRID command selection, vector similarity with HNSW or FLAT, hybrid retrieval combining lexical and vector ranking, RAG pipelines, zero-downtime index updates via aliases, and debugging with FT.PROFILE and FT.EXPLAIN. Use when defining a search index on Hash or JSON documents, writing FT.SEARCH queries with fi
This is the playbook your agent receives when the skill activates — you don't need to read it to use the skill, but it's here to audit before installing.
Redis Search
Single source of guidance for Redis Search — the retrieval surface that spans lexical, numeric, geo, JSON-path, and vector queries. Vector fields are part of the same FT.CREATE machinery as TEXT/TAG/NUMERIC fields, and FT.HYBRID blends lexical and vector ranking in one command, so this skill covers them together.
When to apply
- Creating, modifying, or reviewing a Redis Search index (
FT.CREATE,FT.ALTER). - Writing or optimizing
FT.SEARCH,FT.AGGREGATE, orFT.HYBRIDqueries. - Picking between
TEXT,TAG,NUMERIC,GEO,GEOSHAPE,VECTOR, or JSON-path fields. - Defining a
VECTORfield, choosing HNSW vs FLAT, tuning HNSW parameters. - Building a retrieval-augmented generation (RAG) pipeline.
- Rolling out a new index schema without downtime.
- Troubleshooting empty results, slow queries, or tokenization issues with
FT.EXPLAIN,FT.PROFILE,FT.INFO.
1. Pick the right command
Three query commands. Reach for the narrowest one that fits.
| Command | When to use | Mental model | Minimum Redis |
|---|---|---|---|
| FT.SEARCH | Document retrieval, ranked or sorted. Best default. | Returns matching docs directly. | 2.0 (module) / 8.0 (built-in) |
| FT.AGGREGATE | Faceting, computed fields, custom output shape, analytics. | Declarative pipeline: LOAD, APPLY, GROUPBY, REDUCE, SORTBY. | 2.0 / 8.0 |
| FT.HYBRID | Blend lexical (BM25) with vector similarity, with configurable fusion. | Pipeline with explicit SEARCH + VSIM legs and a COMBINE fusion stage. | 8.4.0 |
# FT.SEARCH — most common
FT.SEARCH idx:products "@category:{electronics} @price:[100 500]" LIMIT 0 20 RETURN 3 name price category
# FT.AGGREGATE — top categories by avg price
FT.AGGREGATE idx:products "*" GROUPBY 1 @category REDUCE AVG 1 @price AS avg_price SORTBY 2 @avg_price DESC
# FT.HYBRID (Redis ≥ 8.4) — lexical + vector fusion
FT.HYBRID idx:docs
SEARCH "@title:transformers" SCORER BM25 YIELD_SCORE_AS lexscore
VSIM embedding $vec KNN count 1 K 50 YIELD_SCORE_AS vecscore
COMBINE RRF 2 CONSTANT 60
PARAMS 2 vec "..."
DIALECT 2For Redis < 8.4 the lexical+vector blend is approximated with FT.SEARCH pre-filter + =>[KNN ...]. See references/command-selection.md and references/hybrid-search.md.
2. Schema basics — FT.CREATE
FT.CREATE indexes Hash or JSON documents matching a PREFIX. Always set PREFIX. Use DIALECT 2 (the default since Redis 8; required for vector queries).
FT.CREATE idx:products ON HASH PREFIX 1 product:
SCHEMA
name TEXT WEIGHT 2.0
category TAG SORTABLE
price NUMERIC SORTABLE
location GEO
embedding VECTOR HNSW 6
TYPE FLOAT32
DIM 1536
DISTANCE_METRIC COSINEPick the narrowest field type that supports your access pattern:
| Field type | Use when | Notes |
|---|---|---|
TEXT | Full-text search | Tokenized + stemmed; not for exact match |
TAG | Exact match / filtering | Add SORTABLE UNF for fastest tag queries |
NUMERIC | Range queries, sorting | Prices, counts, timestamps |
GEO | Lat/long points | Stores, users |
GEOSHAPE | Polygon / area queries | Delivery zones, regions |
VECTOR | Similarity search | HNSW or FLAT; see §4 |
JSON $.path AS alias | Nested JSON fields | ON JSON; see references/json-indexing.md |
The classic mistake is TEXT for a category or status field "because it's a string" — TAG is roughly 10× faster for exact-match filtering.
See references/index-creation.md, references/field-types.md, references/dialect.md, references/ft-create-options.md, references/json-indexing.md.
3. Common queries
Narrow with filters; return only what you need.
# Tag filter + numeric range, sorted by price
FT.SEARCH idx:products "@category:{electronics} @price:[100 500]"
SORTBY price ASC
LIMIT 0 20
RETURN 3 name price category
# Text + tag filter
FT.SEARCH idx:products "wireless headphones @category:{audio}"
# Negation and OR
FT.SEARCH idx:products "@category:{audio} -@brand:{generic} (@price:[0 100] | @on_sale:{true})"Operators worth remembering: space = AND, | = OR, - = NOT, ~ = optional (scoring boost), =>{$weight: N} = boost. Escape hyphens and special characters inside TAG values (@sku:{ABC\\-123}). See references/query-syntax.md and references/search-syntax-primitives.md for the DSL vocabulary.
For tokenization gotchas (stemming, stopwords, language) see references/text-tokenization.md. For result shaping (SORTBY, RETURN, HIGHLIGHT, SUMMARIZE, NOCONTENT) see references/result-shaping.md. For performance levers (pre-filters, SORTABLE fields, tight RETURN, FT.PROFILE) see references/query-optimization.md.
4. Vector basics
Three vector settings have to match the embedding model exactly:
DIM— output dimensionality (e.g. 1536 for OpenAItext-embedding-3-small). Mismatch produces silent garbage.DISTANCE_METRIC—COSINEfor normalized text embeddings (common case),IPfor unnormalized inner-product,L2for raw Euclidean.TYPE— usuallyFLOAT32. UseFLOAT16or quantized variants only when memory is the binding constraint.
# Index
FT.CREATE idx:docs ON HASH PREFIX 1 doc:
SCHEMA
content TEXT
embedding VECTOR HNSW 6 TYPE FLOAT32 DIM 1536 DISTANCE_METRIC COSINE
# Pure KNN query (top 5 by cosine similarity)
FT.SEARCH idx:docs "*=>[KNN 5 @embedding $vec AS score]"
PARAMS 2 vec "..."
SORTBY score
DIALECT 2| Algorithm | Speed | Accuracy | Memory | Use for |
|---|---|---|---|---|
| HNSW | Fast (approximate) | ~95%+ recall (tunable) | Higher | Production: >10k vectors, latency-sensitive |
| FLAT | Slow (exact) | 100% | Lower | Small corpora (<10k), exact-match required |
HNSW tuning levers: M (16–64, connections per node), EF_CONSTRUCTION (100–500, build quality), EF_RUNTIME (query-time candidate list).
See references/vector-query.md, references/algorithm-choice.md.
5. Hybrid retrieval
Two distinct patterns get called "hybrid." Pick by intent.
Filter-then-vector (any Redis version) — apply attribute filters so the engine narrows the search space before the vector comparison.
FT.SEARCH idx:docs "(@category:{tech} @date:[2024 +inf])=>[KNN 10 @embedding $vec AS score]"
PARAMS 2 vec "..."
SORTBY score
DIALECT 2Lexical + vector fusion (Redis ≥ 8.4) — blend BM25 text scoring with vector similarity, fuse with RRF or LINEAR. Use FT.HYBRID (see §1).
Don't fetch a wide unfiltered result and filter client-side — slower and less accurate. See references/hybrid-search.md.
6. Aggregations and shaping
FT.AGGREGATE is the declarative result-shaping command. Build a pipeline of stages.
# Top 5 categories by total revenue
FT.AGGREGATE idx:orders "@status:{shipped}"
LOAD 2 @category @amount
GROUPBY 1 @category
REDUCE SUM 1 @amount AS revenue
SORTBY 2 @revenue DESC
LIMIT 0 5Common stages: LOAD, APPLY (computed fields), FILTER (post-query), GROUPBY + REDUCE (SUM, COUNT, AVG, FIRST_VALUE, TOLIST), SORTBY, LIMIT.
For long-running result sets use WITHCURSOR + FT.CURSOR READ to page server-side. See references/aggregate-pipeline.md and references/aggregate-cursors.md.
7. RAG pattern
Standard pipeline: embed the query, vector-search Redis, pass top-K context to the LLM.
Practical tips:
- Match the metric to the embedding model (almost always
COSINEfor normalized text models). - Chunk long documents (200–500-token chunks usually beat indexing whole pages).
- Batch inserts rather than one call per record.
- Pre-filter with attributes (tenant, recency, document type) before the vector search — see §5.
- Re-rank at the top of the funnel if precision matters more than recall.
See references/rag-pattern.md.
8. Operations
Zero-downtime schema changes: keep app queries pointed at an alias and swap the underlying index.
FT.CREATE idx:products_v2 ON HASH PREFIX 1 product: SCHEMA ...
FT.ALIASUPDATE products idx:products_v2
# App queries are stable:
FT.SEARCH products "@category:{electronics}"Useful management commands: FT.INFO, FT.DROPINDEX, FT._LIST, FT.ALIASADD/UPDATE/DEL. See references/index-management.md.
Debug empty or slow queries with FT.EXPLAIN (shows how the query was parsed) and FT.PROFILE (shows execution stats). See references/debugging.md.
9. Client examples
Inline examples in this SKILL.md are CLI / RESP form — the wire protocol every client serializes to. For idiomatic snippets in a specific client:
- redis-py (Python, raw client): references/clients/python-redis-py.md
- Jedis (Java): references/clients/java-jedis.md
- RedisVL (Python, higher-level SDK on top of redis-py): references/clients/python-redisvl.md
Other clients (Lettuce, node-redis, go-redis, NRedisStack, .NET) translate the same CLI form; coverage is tracked as a follow-up.
References
npx skills add https://github.com/redis/agent-skills --skill redis-searchRun this in your project — your agent picks the skill up automatically.
No common issues documented yet. If you hit a problem, the repository's GitHub Issues page is the best place to look.
Licensed under MIT— you can use, modify, and redistribute it under that license's terms.
View the full license file on GitHub →