Azure AI Search SDK for Python. Use for vector search, hybrid search, semantic ranking, indexing, and skillsets.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add sickn33/agentic-awesome-skills --skill "azure-search-documents-py" -g -a claude-code -yOr manually — copy the SKILL.md below into:
~/.claude/skills/azure-search-documents-py-sickn33/SKILL.md---
name: azure-search-documents-py
description: Azure AI Search SDK for Python. Use for vector search, hybrid search, semantic ranking, indexing, and skillsets.
risk: unknown
source: community
date_added: '2026-02-27'
---
# Azure AI Search SDK for Python
Full-text, vector, and hybrid search with AI enrichment capabilities.
## Installation
```bash
pip install azure-search-documents
```
## Environment Variables
```bash
AZURE_SEARCH_ENDPOINT=https://<service-name>.search.windows.net
AZURE_SEARCH_API_KEY=<your-api-key>
AZURE_SEARCH_INDEX_NAME=<your-index-name>
```
## Authentication
### API Key
```python
from azure.search.documents import SearchClient
from azure.core.credentials import AzureKeyCredential
client = SearchClient(
endpoint=os.environ["AZURE_SEARCH_ENDPOINT"],
index_name=os.environ["AZURE_SEARCH_INDEX_NAME"],
credential=AzureKeyCredential(os.environ["AZURE_SEARCH_API_KEY"])
)
```
### Entra ID (Recommended)
```python
from azure.search.documents import SearchClient
from azure.identity import DefaultAzureCredential
client = SearchClient(
endpoint=os.environ["AZURE_SEARCH_ENDPOINT"],
index_name=os.environ["AZURE_SEARCH_INDEX_NAME"],
credential=DefaultAzureCredential()
)
```
## Client Types
| Client | Purpose |
|--------|---------|
| `SearchClient` | Search and document operations |
| `SearchIndexClient` | Index management, synonym maps |
| `SearchIndexerClient` | Indexers, data sources, skillsets |
## Create Index with Vector Field
```python
from azure.search.documents.indexes import SearchIndexClient
from azure.search.documents.indexes.models import (
SearchIndex,
SearchField,
SearchFieldDataType,
VectorSearch,
HnswAlgorithmConfiguration,
VectorSearchProfile,
SearchableField,
SimpleField
)
index_client = SearchIndexClient(endpoint, AzureKeyCredential(key))
fields = [
SimpleField(name="id", type=SearchFieldDataType.String, key=True),
SearchableField(name="title", type=SearchFieldDataType.String),
SearchableField(name="content", type=SearchFieldDataType.String),
SearchField(
name="content_vector",
type=SearchFieldDataType.Collection(SearchFieldDataType.Single),
searchable=True,
vector_search_dimensions=1536,
vector_search_profile_name="my-vector-profile"
)
]
vector_search = VectorSearch(
algorithms=[
HnswAlgorithmConfiguration(name="my-hnsw")
],
profiles=[
VectorSearchProfile(
name="my-vector-profile",
algorithm_configuration_name="my-hnsw"
)
]
)
index = SearchIndex(
name="my-index",
fields=fields,
vector_search=vector_search
)
index_client.create_or_update_index(index)
```
## Upload Documents
```python
from azure.search.documents import SearchClient
client = SearchClient(endpoint, "my-index", AzureKeyCredential(key))
documents = [
{
"id": "1",
"title": "Azure AI Search",
"content": "Full-text and vector search service",
"content_vector": [0.1, 0.2, ...] # 1536 dimensions
}
]
result = client.upload_documents(documents)
print(f"Uploaded {len(result)} documents")
```
## Keyword Search
```python
results = client.search(
search_text="azure search",
select=["id", "title", "content"],
top=10
)
for result in results:
print(f"{result['title']}: {result['@search.score']}")
```
## Vector Search
```python
from azure.search.documents.models import VectorizedQuery
# Your query embedding (1536 dimensions)
query_vector = get_embedding("semantic search capabilities")
vector_query = VectorizedQuery(
vector=query_vector,
k_nearest_neighbors=10,
fields="content_vector"
)
results = client.search(
vector_queries=[vector_query],
select=["id", "title", "content"]
)
for result in results:
print(f"{result['title']}: {result['@search.score']}")
```
## Hybrid Search (Vector + Keyword)
```python
from azure.search.documents.models import VectorizedQuery
vector_query = VectorizedQuery(
vector=query_vector,
k_nearest_neighbors=10,
fields="content_vector"
)
results = client.search(
search_text="azure search",
vector_queries=[vector_query],
select=["id", "title", "content"],
top=10
)
```
## Semantic Ranking
```python
from azure.search.documents.models import QueryType
results = client.search(
search_text="what is azure search",
query_type=QueryType.SEMANTIC,
semantic_configuration_name="my-semantic-config",
select=["id", "title", "content"],
top=10
)
for result in results:
print(f"{result['title']}")
if result.get("@search.captions"):
print(f" Caption: {result['@search.captions'][0].text}")
```
## Filters
```python
results = client.search(
search_text="*",
filter="category eq 'Technology' and rating gt 4",
order_by=["rating desc"],
select=["id", "title", "category", "rating"]
)
```
## Facets
```python
results = client.search(
search_text="*",
facets=["category,count:10", "rating"],
top=0 # Only get facets, no documents
)
for facet_name, facet_values in results.get_facets().items():
print(f"{facet_name}:")
for facet in facet_values:
print(f" {facet['value']}: {facet['count']}")
```
## Autocomplete & Suggest
```python
# Autocomplete
results = client.autocomplete(
search_text="sea",
suggester_name="my-suggester",
mode="twoTerms"
)
# Suggest
results = client.suggest(
search_text="sea",
suggester_name="my-suggester",
select=["title"]
)
```
## Indexer with Skillset
```python
from azure.search.documents.indexes import SearchIndexerClient
from azure.search.documents.indexes.models import (
SearchIndexer,
SearchIndexerDataSourceConnection,
SearchIndexerSkillset,
EntityRecognitionSkill,
InputFieldMappingEntry,
OutputFieldMappingEntry
)
indexer_client = SearchIndexerClient(endpoint, AzureKeyCredential(key))
# Create data source
data_source = SearchIndexerDataSourceConnection(
name="my-datasource",
type="azureblob",
connection_string=connection_string,
container={"name": "documents"}
)
indexer_client.create_or_update_data_source_connection(data_source)
# Create skillset
skillset = SearchIndexerSkillset(
name="my-skillset",
skills=[
EntityRecognitionSkill(
inputs=[InputFieldMappingEntry(name="text", source="/document/content")],
outputs=[OutputFieldMappingEntry(name="organizations", target_name="organizations")]
)
]
)
indexer_client.create_or_update_skillset(skillset)
# Create indexer
indexer = SearchIndexer(
name="my-indexer",
data_source_name="my-datasource",
target_index_name="my-index",
skillset_name="my-skillset"
)
indexer_client.create_or_update_indexer(indexer)
```
## Best Practices
1. **Use hybrid search** for best relevance combining vector and keyword
2. **Enable semantic ranking** for natural language queries
3. **Index in batches** of 100-1000 documents for efficiency
4. **Use filters** to narrow results before ranking
5. **Configure vector dimensions** to match your embedding model
6. **Use HNSW algorithm** for large-scale vector search
7. **Create suggesters** at index creation time (cannot add later)
## Reference Files
| File | Contents |
|------|----------|
| references/vector-search.md | HNSW configuration, integrated vectorization, multi-vector queries |
| references/semantic-ranking.md | Semantic configuration, captions, answers, hybrid patterns |
| scripts/setup_vector_index.py | CLI script to create vector-enabled search index |
---
## Additional Azure AI Search Patterns
### Additional SDK Focus
Write clean, idiomatic Python code for Azure AI Search using `azure-search-documents`.
## Installation for Additional Patterns
```bash
pip install azure-search-documents azure-identity
```
## Environment Variables for Additional Patterns
```bash
AZURE_SEARCH_ENDPOINT=https://<search-service>.search.windows.net
AZURE_SEARCH_INDEX_NAME=<index-name>
# For API key auth (not recommended for production)
AZURE_SEARCH_API_KEY=<api-key>
```
## Authentication for Additional Patterns
**DefaultAzureCredential (preferred)**:
```python
from azure.identity import DefaultAzureCredential
from azure.search.documents import SearchClient
credential = DefaultAzureCredential()
client = SearchClient(endpoint, index_name, credential)
```
**API Key**:
```python
from azure.core.credentials import AzureKeyCredential
from azure.search.documents import SearchClient
client = SearchClient(endpoint, index_name, AzureKeyCredential(api_key))
```
## Client Selection
| Client | Purpose |
|--------|---------|
| `SearchClient` | Query indexes, upload/update/delete documents |
| `SearchIndexClient` | Create/manage indexes, knowledge sources, knowledge bases |
| `SearchIndexerClient` | Manage indexers, skillsets, data sources |
| `KnowledgeBaseRetrievalClient` | Agentic retrieval with LLM-powered Q&A |
## Index Creation Pattern
```python
from azure.search.documents.indexes import SearchIndexClient
from azure.search.documents.indexes.models import (
SearchIndex, SearchField, VectorSearch, VectorSearchProfile,
HnswAlgorithmConfiguration, AzureOpenAIVectorizer,
AzureOpenAIVectorizerParameters, SemanticSearch,
SemanticConfiguration, SemanticPrioritizedFields, SemanticField
)
index = SearchIndex(
name=index_name,
fields=[
SearchField(name="id", type="Edm.String", key=True),
SearchField(name="content", type="Edm.String", searchable=True),
SearchField(name="embedding", type="Collection(Edm.Single)",
vector_search_dimensions=3072,
vector_search_profile_name="vector-profile"),
],
vector_search=VectorSearch(
profiles=[VectorSearchProfile(
name="vector-profile",
algorithm_configuration_name="hnsw-algo",
vectorizer_name="openai-vectorizer"
)],
algorithms=[HnswAlgorithmConfiguration(name="hnsw-algo")],
vectorizers=[AzureOpenAIVectorizer(
vectorizer_name="openai-vectorizer",
parameters=AzureOpenAIVectorizerParameters(
resource_url=aoai_endpoint,
deployment_name=embedding_deployment,
model_name=embedding_model
)
)]
),
semantic_search=SemanticSearch(
default_configuration_name="semantic-config",
configurations=[SemanticConfiguration(
name="semantic-config",
prioritized_fields=SemanticPrioritizedFields(
content_fields=[SemanticField(field_name="content")]
)
)]
)
)
index_client = SearchIndexClient(endpoint, credential)
index_client.create_or_update_index(index)
```
## Document Operations
```python
from azure.search.documents import SearchIndexingBufferedSender
# Batch upload with automatic batching
with SearchIndexingBufferedSender(endpoint, index_name, credential) as sender:
sender.upload_documents(documents)
# Direct operations via SearchClient
search_client = SearchClient(endpoint, index_name, credential)
search_client.upload_documents(documents) # Add new
search_client.merge_documents(documents) # Update existing
search_client.merge_or_upload_documents(documents) # Upsert
search_client.delete_documents(documents) # Remove
```
## Search Patterns
```python
# Basic search
results = search_client.search(search_text="query")
# Vector search
from azure.search.documents.models import VectorizedQuery
results = search_client.search(
search_text=None,
vector_queries=[VectorizedQuery(
vector=embedding,
k_nearest_neighbors=5,
fields="embedding"
)]
)
# Hybrid search (vector + keyword)
results = search_client.search(
search_text="query",
vector_queries=[VectorizedQuery(vector=embedding, k_nearest_neighbors=5, fields="embedding")],
query_type="semantic",
semantic_configuration_name="semantic-config"
)
# With filters
results = search_client.search(
search_text="query",
filter="category eq 'technology'",
select=["id", "title", "content"],
top=10
)
```
## Agentic Retrieval (Knowledge Bases)
For LLM-powered Q&A with answer synthesis, see references/agentic-retrieval.md.
Key concepts:
- **Knowledge Source**: Points to a search index
- **Knowledge Base**: Wraps knowledge sources + LLM for query planning and synthesis
- **Output modes**: `EXTRACTIVE_DATA` (raw chunks) or `ANSWER_SYNTHESIS` (LLM-generated answers)
## Async Pattern
```python
from azure.search.documents.aio import SearchClient
async with SearchClient(endpoint, index_name, credential) as client:
results = await client.search(search_text="query")
async for result in results:
print(result["title"])
```
## Best Practices for Additional Patterns
1. **Use environment variables** for endpoints, keys, and deployment names
2. **Prefer `DefaultAzureCredential`** over API keys for production
3. **Use `SearchIndexingBufferedSender`** for batch uploads (handles batching/retries)
4. **Always define semantic configuration** for agentic retrieval indexes
5. **Use `create_or_update_index`** for idempotent index creation
6. **Close clients** with context managers or explicit `close()`
## Field Types Reference
| EDM Type | Python | Notes |
|----------|--------|-------|
| `Edm.String` | str | Searchable text |
| `Edm.Int32` | int | Integer |
| `Edm.Int64` | int | Long integer |
| `Edm.Double` | float | Floating point |
| `Edm.Boolean` | bool | True/False |
| `Edm.DateTimeOffset` | datetime | ISO 8601 |
| `Collection(Edm.Single)` | List[float] | Vector embeddings |
| `Collection(Edm.String)` | List[str] | String arrays |
## Error Handling
```python
from azure.core.exceptions import (
HttpResponseError,
ResourceNotFoundError,
ResourceExistsError
)
try:
result = search_client.get_document(key="123")
except ResourceNotFoundError:
print("Document not found")
except HttpResponseError as e:
print(f"Search error: {e.message}")
```
## When to Use
This skill is applicable to execute the workflow or actions described in the overview.
## Limitations
- Use this skill only when the task clearly matches the scope described above.
- Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
- Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.
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