from __future__ import annotations
from functools import partial
from pathlib import Path
import asyncio
import json
import json_repair
from typing import Any, AsyncIterator, overload, Literal
from collections import Counter, defaultdict
from lightrag.exceptions import (
PipelineCancelledException,
ChunkTokenLimitExceededError,
)
from lightrag.utils import (
logger,
compute_mdhash_id,
Tokenizer,
is_float_regex,
sanitize_and_normalize_extracted_text,
pack_user_ass_to_openai_messages,
split_string_by_multi_markers,
truncate_list_by_token_size,
compute_args_hash,
handle_cache,
save_to_cache,
CacheData,
use_llm_func_with_cache,
update_chunk_cache_list,
remove_think_tags,
pick_by_weighted_polling,
pick_by_vector_similarity,
process_chunks_unified,
safe_vdb_operation_with_exception,
create_prefixed_exception,
fix_tuple_delimiter_corruption,
convert_to_user_format,
generate_reference_list_from_chunks,
apply_source_ids_limit,
merge_source_ids,
make_relation_chunk_key,
)
from lightrag.base import (
BaseGraphStorage,
BaseKVStorage,
BaseVectorStorage,
TextChunkSchema,
QueryParam,
QueryResult,
QueryContextResult,
)
from lightrag.prompt import PROMPTS
from lightrag.constants import (
GRAPH_FIELD_SEP,
DEFAULT_MAX_ENTITY_TOKENS,
DEFAULT_MAX_RELATION_TOKENS,
DEFAULT_MAX_TOTAL_TOKENS,
DEFAULT_RELATED_CHUNK_NUMBER,
DEFAULT_KG_CHUNK_PICK_METHOD,
DEFAULT_ENTITY_TYPES,
DEFAULT_SUMMARY_LANGUAGE,
SOURCE_IDS_LIMIT_METHOD_KEEP,
SOURCE_IDS_LIMIT_METHOD_FIFO,
DEFAULT_FILE_PATH_MORE_PLACEHOLDER,
DEFAULT_MAX_FILE_PATHS,
DEFAULT_ENTITY_NAME_MAX_LENGTH,
)
from lightrag.kg.shared_storage import get_storage_keyed_lock
import time
from dotenv import load_dotenv
# use the .env that is inside the current folder
# allows to use different .env file for each lightrag instance
# the OS environment variables take precedence over the .env file
load_dotenv(dotenv_path=Path(__file__).resolve().parent / ".env", override=False)
def _truncate_entity_identifier(
identifier: str, limit: int, chunk_key: str, identifier_role: str
) -> str:
"""Truncate entity identifiers that exceed the configured length limit."""
if len(identifier) <= limit:
return identifier
display_value = identifier[:limit]
preview = identifier[:20] # Show first 20 characters as preview
logger.warning(
"%s: %s len %d > %d chars (Name: '%s...')",
chunk_key,
identifier_role,
len(identifier),
limit,
preview,
)
return display_value
def chunking_by_token_size(
tokenizer: Tokenizer,
content: str,
split_by_character: str | None = None,
split_by_character_only: bool = False,
chunk_overlap_token_size: int = 100,
chunk_token_size: int = 1200,
) -> list[dict[str, Any]]:
tokens = tokenizer.encode(content)
results: list[dict[str, Any]] = []
if split_by_character:
raw_chunks = content.split(split_by_character)
new_chunks = []
if split_by_character_only:
for chunk in raw_chunks:
_tokens = tokenizer.encode(chunk)
if len(_tokens) > chunk_token_size:
logger.warning(
"Chunk split_by_character exceeds token limit: len=%d limit=%d",
len(_tokens),
chunk_token_size,
)
raise ChunkTokenLimitExceededError(
chunk_tokens=len(_tokens),
chunk_token_limit=chunk_token_size,
chunk_preview=chunk[:120],
)
new_chunks.append((len(_tokens), chunk))
else:
for chunk in raw_chunks:
_tokens = tokenizer.encode(chunk)
if len(_tokens) > chunk_token_size:
for start in range(
0, len(_tokens), chunk_token_size - chunk_overlap_token_size
):
chunk_content = tokenizer.decode(
_tokens[start : start + chunk_token_size]
)
new_chunks.append(
(min(chunk_token_size, len(_tokens) - start), chunk_content)
)
else:
new_chunks.append((len(_tokens), chunk))
for index, (_len, chunk) in enumerate(new_chunks):
results.append(
{
"tokens": _len,
"content": chunk.strip(),
"chunk_order_index": index,
}
)
else:
for index, start in enumerate(
range(0, len(tokens), chunk_token_size - chunk_overlap_token_size)
):
chunk_content = tokenizer.decode(tokens[start : start + chunk_token_size])
results.append(
{
"tokens": min(chunk_token_size, len(tokens) - start),
"content": chunk_content.strip(),
"chunk_order_index": index,
}
)
return results
async def _handle_entity_relation_summary(
description_type: str,
entity_or_relation_name: str,
description_list: list[str],
seperator: str,
global_config: dict,
llm_response_cache: BaseKVStorage | None = None,
) -> tuple[str, bool]:
"""Handle entity relation description summary using map-reduce approach.
This function summarizes a list of descriptions using a map-reduce strategy:
1. If total tokens < summary_context_size and len(description_list) < force_llm_summary_on_merge, no need to summarize
2. If total tokens < summary_max_tokens, summarize with LLM directly
3. Otherwise, split descriptions into chunks that fit within token limits
4. Summarize each chunk, then recursively process the summaries
5. Continue until we get a final summary within token limits or num of descriptions is less than force_llm_summary_on_merge
Args:
entity_or_relation_name: Name of the entity or relation being summarized
description_list: List of description strings to summarize
global_config: Global configuration containing tokenizer and limits
llm_response_cache: Optional cache for LLM responses
Returns:
Tuple of (final_summarized_description_string, llm_was_used_boolean)
"""
# Handle empty input
if not description_list:
return "", False
# If only one description, return it directly (no need for LLM call)
if len(description_list) == 1:
return description_list[0], False
# Get configuration
tokenizer: Tokenizer = global_config["tokenizer"]
summary_context_size = global_config["summary_context_size"]
summary_max_tokens = global_config["summary_max_tokens"]
force_llm_summary_on_merge = global_config["force_llm_summary_on_merge"]
current_list = description_list[:] # Copy the list to avoid modifying original
llm_was_used = False # Track whether LLM was used during the entire process
# Iterative map-reduce process
while True:
# Calculate total tokens in current list
total_tokens = sum(len(tokenizer.encode(desc)) for desc in current_list)
# If total length is within limits, perform final summarization
if total_tokens <= summary_context_size or len(current_list) <= 2:
if (
len(current_list) < force_llm_summary_on_merge
and total_tokens < summary_max_tokens
):
# no LLM needed, just join the descriptions
final_description = seperator.join(current_list)
return final_description if final_description else "", llm_was_used
else:
if total_tokens > summary_context_size and len(current_list) <= 2:
logger.warning(
f"Summarizing {entity_or_relation_name}: Oversize descpriton found"
)
# Final summarization of remaining descriptions - LLM will be used
final_summary = await _summarize_descriptions(
description_type,
entity_or_relation_name,
current_list,
global_config,
llm_response_cache,
)
return final_summary, True # LLM was used for final summarization
# Need to split into chunks - Map phase
# Ensure each chunk has minimum 2 descriptions to guarantee progress
chunks = []
current_chunk = []
current_tokens = 0
# Currently least 3 descriptions in current_list
for i, desc in enumerate(current_list):
desc_tokens = len(tokenizer.encode(desc))
# If adding current description would exceed limit, finalize current chunk
if current_tokens + desc_tokens > summary_context_size and current_chunk:
# Ensure we have at least 2 descriptions in the chunk (when possible)
if len(current_chunk) == 1:
# Force add one more description to ensure minimum 2 per chunk
current_chunk.append(desc)
chunks.append(current_chunk)
logger.warning(
f"Summarizing {entity_or_relation_name}: Oversize descpriton found"
)
current_chunk = [] # next group is empty
current_tokens = 0
else: # curren_chunk is ready for summary in reduce phase
chunks.append(current_chunk)
current_chunk = [desc] # leave it for next group
current_tokens = desc_tokens
else:
current_chunk.append(desc)
current_tokens += desc_tokens
# Add the last chunk if it exists
if current_chunk:
chunks.append(current_chunk)
logger.info(
f" Summarizing {entity_or_relation_name}: Map {len(current_list)} descriptions into {len(chunks)} groups"
)
# Reduce phase: summarize each group from chunks
new_summaries = []
for chunk in chunks:
if len(chunk) == 1:
# Optimization: single description chunks don't need LLM summarization
new_summaries.append(chunk[0])
else:
# Multiple descriptions need LLM summarization
summary = await _summarize_descriptions(
description_type,
entity_or_relation_name,
chunk,
global_config,
llm_response_cache,
)
new_summaries.append(summary)
llm_was_used = True # Mark that LLM was used in reduce phase
# Update current list with new summaries for next iteration
current_list = new_summaries
async def _summarize_descriptions(
description_type: str,
description_name: str,
description_list: list[str],
global_config: dict,
llm_response_cache: BaseKVStorage | None = None,
) -> str:
"""Helper function to summarize a list of descriptions using LLM.
Args:
entity_or_relation_name: Name of the entity or relation being summarized
descriptions: List of description strings to summarize
global_config: Global configuration containing LLM function and settings
llm_response_cache: Optional cache for LLM responses
Returns:
Summarized description string
"""
use_llm_func: callable = global_config["llm_model_func"]
# Apply higher priority (8) to entity/relation summary tasks
use_llm_func = partial(use_llm_func, _priority=8)
language = global_config["addon_params"].get("language", DEFAULT_SUMMARY_LANGUAGE)
summary_length_recommended = global_config["summary_length_recommended"]
prompt_template = PROMPTS["summarize_entity_descriptions"]
# Convert descriptions to JSONL format and apply token-based truncation
tokenizer = global_config["tokenizer"]
summary_context_size = global_config["summary_context_size"]
# Create list of JSON objects with "Description" field
json_descriptions = [{"Description": desc} for desc in description_list]
# Use truncate_list_by_token_size for length truncation
truncated_json_descriptions = truncate_list_by_token_size(
json_descriptions,
key=lambda x: json.dumps(x, ensure_ascii=False),
max_token_size=summary_context_size,
tokenizer=tokenizer,
)
# Convert to JSONL format (one JSON object per line)
joined_descriptions = "\n".join(
json.dumps(desc, ensure_ascii=False) for desc in truncated_json_descriptions
)
# Prepare context for the prompt
context_base = dict(
description_type=description_type,
description_name=description_name,
description_list=joined_descriptions,
summary_length=summary_length_recommended,
language=language,
)
use_prompt = prompt_template.format(**context_base)
# Use LLM function with cache (higher priority for summary generation)
summary, _ = await use_llm_func_with_cache(
use_prompt,
use_llm_func,
llm_response_cache=llm_response_cache,
cache_type="summary",
)
# Check summary token length against embedding limit
embedding_token_limit = global_config.get("embedding_token_limit")
if embedding_token_limit is not None and summary:
tokenizer = global_config["tokenizer"]
summary_token_count = len(tokenizer.encode(summary))
threshold = int(embedding_token_limit)
if summary_token_count > threshold:
logger.warning(
f"Summary tokens({summary_token_count}) exceeds embedding_token_limit({embedding_token_limit}) "
f" for {description_type}: {description_name}"
)
return summary
async def _handle_single_entity_extraction(
record_attributes: list[str],
chunk_key: str,
timestamp: int,
file_path: str = "unknown_source",
):
if len(record_attributes) != 4 or "entity" not in record_attributes[0]:
if len(record_attributes) > 1 and "entity" in record_attributes[0]:
logger.warning(
f"{chunk_key}: LLM output format error; found {len(record_attributes)}/4 feilds on ENTITY `{record_attributes[1]}` @ `{record_attributes[2] if len(record_attributes) > 2 else 'N/A'}`"
)
logger.debug(record_attributes)
return None
try:
entity_name = sanitize_and_normalize_extracted_text(
record_attributes[1], remove_inner_quotes=True
)
# Validate entity name after all cleaning steps
if not entity_name or not entity_name.strip():
logger.info(
f"Empty entity name found after sanitization. Original: '{record_attributes[1]}'"
)
return None
# Process entity type with same cleaning pipeline
entity_type = sanitize_and_normalize_extracted_text(
record_attributes[2], remove_inner_quotes=True
)
if not entity_type.strip() or any(
char in entity_type for char in ["'", "(", ")", "<", ">", "|", "/", "\\"]
):
logger.warning(
f"Entity extraction error: invalid entity type in: {record_attributes}"
)
return None
# Remove spaces and convert to lowercase
entity_type = entity_type.replace(" ", "").lower()
# Process entity description with same cleaning pipeline
entity_description = sanitize_and_normalize_extracted_text(record_attributes[3])
if not entity_description.strip():
logger.warning(
f"Entity extraction error: empty description for entity '{entity_name}' of type '{entity_type}'"
)
return None
return dict(
entity_name=entity_name,
entity_type=entity_type,
description=entity_description,
source_id=chunk_key,
file_path=file_path,
timestamp=timestamp,
)
except ValueError as e:
logger.error(
f"Entity extraction failed due to encoding issues in chunk {chunk_key}: {e}"
)
return None
except Exception as e:
logger.error(
f"Entity extraction failed with unexpected error in chunk {chunk_key}: {e}"
)
return None
async def _handle_single_relationship_extraction(
record_attributes: list[str],
chunk_key: str,
timestamp: int,
file_path: str = "unknown_source",
):
if (
len(record_attributes) != 5 or "relation" not in record_attributes[0]
): # treat "relationship" and "relation" interchangeable
if len(record_attributes) > 1 and "relation" in record_attributes[0]:
logger.warning(
f"{chunk_key}: LLM output format error; found {len(record_attributes)}/5 fields on REALTION `{record_attributes[1]}`~`{record_attributes[2] if len(record_attributes) > 2 else 'N/A'}`"
)
logger.debug(record_attributes)
return None
try:
source = sanitize_and_normalize_extracted_text(
record_attributes[1], remove_inner_quotes=True
)
target = sanitize_and_normalize_extracted_text(
record_attributes[2], remove_inner_quotes=True
)
# Validate entity names after all cleaning steps
if not source:
logger.info(
f"Empty source entity found after sanitization. Original: '{record_attributes[1]}'"
)
return None
if not target:
logger.info(
f"Empty target entity found after sanitization. Original: '{record_attributes[2]}'"
)
return None
if source == target:
logger.debug(
f"Relationship source and target are the same in: {record_attributes}"
)
return None
# Process keywords with same cleaning pipeline
edge_keywords = sanitize_and_normalize_extracted_text(
record_attributes[3], remove_inner_quotes=True
)
edge_keywords = edge_keywords.replace(",", ",")
# Process relationship description with same cleaning pipeline
edge_description = sanitize_and_normalize_extracted_text(record_attributes[4])
edge_source_id = chunk_key
weight = (
float(record_attributes[-1].strip('"').strip("'"))
if is_float_regex(record_attributes[-1].strip('"').strip("'"))
else 1.0
)
return dict(
src_id=source,
tgt_id=target,
weight=weight,
description=edge_description,
keywords=edge_keywords,
source_id=edge_source_id,
file_path=file_path,
timestamp=timestamp,
)
except ValueError as e:
logger.warning(
f"Relationship extraction failed due to encoding issues in chunk {chunk_key}: {e}"
)
return None
except Exception as e:
logger.warning(
f"Relationship extraction failed with unexpected error in chunk {chunk_key}: {e}"
)
return None
async def rebuild_knowledge_from_chunks(
entities_to_rebuild: dict[str, list[str]],
relationships_to_rebuild: dict[tuple[str, str], list[str]],
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
relationships_vdb: BaseVectorStorage,
text_chunks_storage: BaseKVStorage,
llm_response_cache: BaseKVStorage,
global_config: dict[str, str],
pipeline_status: dict | None = None,
pipeline_status_lock=None,
entity_chunks_storage: BaseKVStorage | None = None,
relation_chunks_storage: BaseKVStorage | None = None,
) -> None:
"""Rebuild entity and relationship descriptions from cached extraction results with parallel processing
This method uses cached LLM extraction results instead of calling LLM again,
following the same approach as the insert process. Now with parallel processing
controlled by llm_model_max_async and using get_storage_keyed_lock for data consistency.
Args:
entities_to_rebuild: Dict mapping entity_name -> list of remaining chunk_ids
relationships_to_rebuild: Dict mapping (src, tgt) -> list of remaining chunk_ids
knowledge_graph_inst: Knowledge graph storage
entities_vdb: Entity vector database
relationships_vdb: Relationship vector database
text_chunks_storage: Text chunks storage
llm_response_cache: LLM response cache
global_config: Global configuration containing llm_model_max_async
pipeline_status: Pipeline status dictionary
pipeline_status_lock: Lock for pipeline status
entity_chunks_storage: KV storage maintaining full chunk IDs per entity
relation_chunks_storage: KV storage maintaining full chunk IDs per relation
"""
if not entities_to_rebuild and not relationships_to_rebuild:
return
# Get all referenced chunk IDs
all_referenced_chunk_ids = set()
for chunk_ids in entities_to_rebuild.values():
all_referenced_chunk_ids.update(chunk_ids)
for chunk_ids in relationships_to_rebuild.values():
all_referenced_chunk_ids.update(chunk_ids)
status_message = f"Rebuilding knowledge from {len(all_referenced_chunk_ids)} cached chunk extractions (parallel processing)"
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
# Get cached extraction results for these chunks using storage
# cached_results: chunk_id -> [list of (extraction_result, create_time) from LLM cache sorted by create_time of the first extraction_result]
cached_results = await _get_cached_extraction_results(
llm_response_cache,
all_referenced_chunk_ids,
text_chunks_storage=text_chunks_storage,
)
if not cached_results:
status_message = "No cached extraction results found, cannot rebuild"
logger.warning(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
return
# Process cached results to get entities and relationships for each chunk
chunk_entities = {} # chunk_id -> {entity_name: [entity_data]}
chunk_relationships = {} # chunk_id -> {(src, tgt): [relationship_data]}
for chunk_id, results in cached_results.items():
try:
# Handle multiple extraction results per chunk
chunk_entities[chunk_id] = defaultdict(list)
chunk_relationships[chunk_id] = defaultdict(list)
# process multiple LLM extraction results for a single chunk_id
for result in results:
entities, relationships = await _rebuild_from_extraction_result(
text_chunks_storage=text_chunks_storage,
chunk_id=chunk_id,
extraction_result=result[0],
timestamp=result[1],
)
# Merge entities and relationships from this extraction result
# Compare description lengths and keep the better version for the same chunk_id
for entity_name, entity_list in entities.items():
if entity_name not in chunk_entities[chunk_id]:
# New entity for this chunk_id
chunk_entities[chunk_id][entity_name].extend(entity_list)
elif len(chunk_entities[chunk_id][entity_name]) == 0:
# Empty list, add the new entities
chunk_entities[chunk_id][entity_name].extend(entity_list)
else:
# Compare description lengths and keep the better one
existing_desc_len = len(
chunk_entities[chunk_id][entity_name][0].get(
"description", ""
)
or ""
)
new_desc_len = len(entity_list[0].get("description", "") or "")
if new_desc_len > existing_desc_len:
# Replace with the new entity that has longer description
chunk_entities[chunk_id][entity_name] = list(entity_list)
# Otherwise keep existing version
# Compare description lengths and keep the better version for the same chunk_id
for rel_key, rel_list in relationships.items():
if rel_key not in chunk_relationships[chunk_id]:
# New relationship for this chunk_id
chunk_relationships[chunk_id][rel_key].extend(rel_list)
elif len(chunk_relationships[chunk_id][rel_key]) == 0:
# Empty list, add the new relationships
chunk_relationships[chunk_id][rel_key].extend(rel_list)
else:
# Compare description lengths and keep the better one
existing_desc_len = len(
chunk_relationships[chunk_id][rel_key][0].get(
"description", ""
)
or ""
)
new_desc_len = len(rel_list[0].get("description", "") or "")
if new_desc_len > existing_desc_len:
# Replace with the new relationship that has longer description
chunk_relationships[chunk_id][rel_key] = list(rel_list)
# Otherwise keep existing version
except Exception as e:
status_message = (
f"Failed to parse cached extraction result for chunk {chunk_id}: {e}"
)
logger.info(status_message) # Per requirement, change to info
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
continue
# Get max async tasks limit from global_config for semaphore control
graph_max_async = global_config.get("llm_model_max_async", 4) * 2
semaphore = asyncio.Semaphore(graph_max_async)
# Counters for tracking progress
rebuilt_entities_count = 0
rebuilt_relationships_count = 0
failed_entities_count = 0
failed_relationships_count = 0
async def _locked_rebuild_entity(entity_name, chunk_ids):
nonlocal rebuilt_entities_count, failed_entities_count
async with semaphore:
workspace = global_config.get("workspace", "")
namespace = f"{workspace}:GraphDB" if workspace else "GraphDB"
async with get_storage_keyed_lock(
[entity_name], namespace=namespace, enable_logging=False
):
try:
await _rebuild_single_entity(
knowledge_graph_inst=knowledge_graph_inst,
entities_vdb=entities_vdb,
entity_name=entity_name,
chunk_ids=chunk_ids,
chunk_entities=chunk_entities,
llm_response_cache=llm_response_cache,
global_config=global_config,
entity_chunks_storage=entity_chunks_storage,
)
rebuilt_entities_count += 1
except Exception as e:
failed_entities_count += 1
status_message = f"Failed to rebuild `{entity_name}`: {e}"
logger.info(status_message) # Per requirement, change to info
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
async def _locked_rebuild_relationship(src, tgt, chunk_ids):
nonlocal rebuilt_relationships_count, failed_relationships_count
async with semaphore:
workspace = global_config.get("workspace", "")
namespace = f"{workspace}:GraphDB" if workspace else "GraphDB"
# Sort src and tgt to ensure order-independent lock key generation
sorted_key_parts = sorted([src, tgt])
async with get_storage_keyed_lock(
sorted_key_parts,
namespace=namespace,
enable_logging=False,
):
try:
await _rebuild_single_relationship(
knowledge_graph_inst=knowledge_graph_inst,
relationships_vdb=relationships_vdb,
entities_vdb=entities_vdb,
src=src,
tgt=tgt,
chunk_ids=chunk_ids,
chunk_relationships=chunk_relationships,
llm_response_cache=llm_response_cache,
global_config=global_config,
relation_chunks_storage=relation_chunks_storage,
entity_chunks_storage=entity_chunks_storage,
pipeline_status=pipeline_status,
pipeline_status_lock=pipeline_status_lock,
)
rebuilt_relationships_count += 1
except Exception as e:
failed_relationships_count += 1
status_message = f"Failed to rebuild `{src}`~`{tgt}`: {e}"
logger.info(status_message) # Per requirement, change to info
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
# Create tasks for parallel processing
tasks = []
# Add entity rebuilding tasks
for entity_name, chunk_ids in entities_to_rebuild.items():
task = asyncio.create_task(_locked_rebuild_entity(entity_name, chunk_ids))
tasks.append(task)
# Add relationship rebuilding tasks
for (src, tgt), chunk_ids in relationships_to_rebuild.items():
task = asyncio.create_task(_locked_rebuild_relationship(src, tgt, chunk_ids))
tasks.append(task)
# Log parallel processing start
status_message = f"Starting parallel rebuild of {len(entities_to_rebuild)} entities and {len(relationships_to_rebuild)} relationships (async: {graph_max_async})"
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
# Execute all tasks in parallel with semaphore control and early failure detection
done, pending = await asyncio.wait(tasks, return_when=asyncio.FIRST_EXCEPTION)
# Check if any task raised an exception and ensure all exceptions are retrieved
first_exception = None
for task in done:
try:
exception = task.exception()
if exception is not None:
if first_exception is None:
first_exception = exception
else:
# Task completed successfully, retrieve result to mark as processed
task.result()
except Exception as e:
if first_exception is None:
first_exception = e
# If any task failed, cancel all pending tasks and raise the first exception
if first_exception is not None:
# Cancel all pending tasks
for pending_task in pending:
pending_task.cancel()
# Wait for cancellation to complete
if pending:
await asyncio.wait(pending)
# Re-raise the first exception to notify the caller
raise first_exception
# Final status report
status_message = f"KG rebuild completed: {rebuilt_entities_count} entities and {rebuilt_relationships_count} relationships rebuilt successfully."
if failed_entities_count > 0 or failed_relationships_count > 0:
status_message += f" Failed: {failed_entities_count} entities, {failed_relationships_count} relationships."
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
async def _get_cached_extraction_results(
llm_response_cache: BaseKVStorage,
chunk_ids: set[str],
text_chunks_storage: BaseKVStorage,
) -> dict[str, list[str]]:
"""Get cached extraction results for specific chunk IDs
This function retrieves cached LLM extraction results for the given chunk IDs and returns
them sorted by creation time. The results are sorted at two levels:
1. Individual extraction results within each chunk are sorted by create_time (earliest first)
2. Chunks themselves are sorted by the create_time of their earliest extraction result
Args:
llm_response_cache: LLM response cache storage
chunk_ids: Set of chunk IDs to get cached results for
text_chunks_storage: Text chunks storage for retrieving chunk data and LLM cache references
Returns:
Dict mapping chunk_id -> list of extraction_result_text, where:
- Keys (chunk_ids) are ordered by the create_time of their first extraction result
- Values (extraction results) are ordered by create_time within each chunk
"""
cached_results = {}
# Collect all LLM cache IDs from chunks
all_cache_ids = set()
# Read from storage
chunk_data_list = await text_chunks_storage.get_by_ids(list(chunk_ids))
for chunk_data in chunk_data_list:
if chunk_data and isinstance(chunk_data, dict):
llm_cache_list = chunk_data.get("llm_cache_list", [])
if llm_cache_list:
all_cache_ids.update(llm_cache_list)
else:
logger.warning(f"Chunk data is invalid or None: {chunk_data}")
if not all_cache_ids:
logger.warning(f"No LLM cache IDs found for {len(chunk_ids)} chunk IDs")
return cached_results
# Batch get LLM cache entries
cache_data_list = await llm_response_cache.get_by_ids(list(all_cache_ids))
# Process cache entries and group by chunk_id
valid_entries = 0
for cache_entry in cache_data_list:
if (
cache_entry is not None
and isinstance(cache_entry, dict)
and cache_entry.get("cache_type") == "extract"
and cache_entry.get("chunk_id") in chunk_ids
):
chunk_id = cache_entry["chunk_id"]
extraction_result = cache_entry["return"]
create_time = cache_entry.get(
"create_time", 0
) # Get creation time, default to 0
valid_entries += 1
# Support multiple LLM caches per chunk
if chunk_id not in cached_results:
cached_results[chunk_id] = []
# Store tuple with extraction result and creation time for sorting
cached_results[chunk_id].append((extraction_result, create_time))
# Sort extraction results by create_time for each chunk and collect earliest times
chunk_earliest_times = {}
for chunk_id in cached_results:
# Sort by create_time (x[1]), then extract only extraction_result (x[0])
cached_results[chunk_id].sort(key=lambda x: x[1])
# Store the earliest create_time for this chunk (first item after sorting)
chunk_earliest_times[chunk_id] = cached_results[chunk_id][0][1]
# Sort cached_results by the earliest create_time of each chunk
sorted_chunk_ids = sorted(
chunk_earliest_times.keys(), key=lambda chunk_id: chunk_earliest_times[chunk_id]
)
# Rebuild cached_results in sorted order
sorted_cached_results = {}
for chunk_id in sorted_chunk_ids:
sorted_cached_results[chunk_id] = cached_results[chunk_id]
logger.info(
f"Found {valid_entries} valid cache entries, {len(sorted_cached_results)} chunks with results"
)
return sorted_cached_results # each item: list(extraction_result, create_time)
async def _process_extraction_result(
result: str,
chunk_key: str,
timestamp: int,
file_path: str = "unknown_source",
tuple_delimiter: str = "<|#|>",
completion_delimiter: str = "<|COMPLETE|>",
) -> tuple[dict, dict]:
"""Process a single extraction result (either initial or gleaning)
Args:
result (str): The extraction result to process
chunk_key (str): The chunk key for source tracking
file_path (str): The file path for citation
tuple_delimiter (str): Delimiter for tuple fields
record_delimiter (str): Delimiter for records
completion_delimiter (str): Delimiter for completion
Returns:
tuple: (nodes_dict, edges_dict) containing the extracted entities and relationships
"""
maybe_nodes = defaultdict(list)
maybe_edges = defaultdict(list)
if completion_delimiter not in result:
logger.warning(
f"{chunk_key}: Complete delimiter can not be found in extraction result"
)
# Split LLL output result to records by "\n"
records = split_string_by_multi_markers(
result,
["\n", completion_delimiter, completion_delimiter.lower()],
)
# Fix LLM output format error which use tuple_delimiter to seperate record instead of "\n"
fixed_records = []
for record in records:
record = record.strip()
if record is None:
continue
entity_records = split_string_by_multi_markers(
record, [f"{tuple_delimiter}entity{tuple_delimiter}"]
)
for entity_record in entity_records:
if not entity_record.startswith("entity") and not entity_record.startswith(
"relation"
):
entity_record = f"entity<|{entity_record}"
entity_relation_records = split_string_by_multi_markers(
# treat "relationship" and "relation" interchangeable
entity_record,
[
f"{tuple_delimiter}relationship{tuple_delimiter}",
f"{tuple_delimiter}relation{tuple_delimiter}",
],
)
for entity_relation_record in entity_relation_records:
if not entity_relation_record.startswith(
"entity"
) and not entity_relation_record.startswith("relation"):
entity_relation_record = (
f"relation{tuple_delimiter}{entity_relation_record}"
)
fixed_records = fixed_records + [entity_relation_record]
if len(fixed_records) != len(records):
logger.warning(
f"{chunk_key}: LLM output format error; find LLM use {tuple_delimiter} as record seperators instead new-line"
)
for record in fixed_records:
record = record.strip()
if record is None:
continue
# Fix various forms of tuple_delimiter corruption from the LLM output using the dedicated function
delimiter_core = tuple_delimiter[2:-2] # Extract "#" from "<|#|>"
record = fix_tuple_delimiter_corruption(record, delimiter_core, tuple_delimiter)
if delimiter_core != delimiter_core.lower():
# change delimiter_core to lower case, and fix again
delimiter_core = delimiter_core.lower()
record = fix_tuple_delimiter_corruption(
record, delimiter_core, tuple_delimiter
)
record_attributes = split_string_by_multi_markers(record, [tuple_delimiter])
# Try to parse as entity
entity_data = await _handle_single_entity_extraction(
record_attributes, chunk_key, timestamp, file_path
)
if entity_data is not None:
truncated_name = _truncate_entity_identifier(
entity_data["entity_name"],
DEFAULT_ENTITY_NAME_MAX_LENGTH,
chunk_key,
"Entity name",
)
entity_data["entity_name"] = truncated_name
maybe_nodes[truncated_name].append(entity_data)
continue
# Try to parse as relationship
relationship_data = await _handle_single_relationship_extraction(
record_attributes, chunk_key, timestamp, file_path
)
if relationship_data is not None:
truncated_source = _truncate_entity_identifier(
relationship_data["src_id"],
DEFAULT_ENTITY_NAME_MAX_LENGTH,
chunk_key,
"Relation entity",
)
truncated_target = _truncate_entity_identifier(
relationship_data["tgt_id"],
DEFAULT_ENTITY_NAME_MAX_LENGTH,
chunk_key,
"Relation entity",
)
relationship_data["src_id"] = truncated_source
relationship_data["tgt_id"] = truncated_target
maybe_edges[(truncated_source, truncated_target)].append(relationship_data)
return dict(maybe_nodes), dict(maybe_edges)
async def _rebuild_from_extraction_result(
text_chunks_storage: BaseKVStorage,
extraction_result: str,
chunk_id: str,
timestamp: int,
) -> tuple[dict, dict]:
"""Parse cached extraction result using the same logic as extract_entities
Args:
text_chunks_storage: Text chunks storage to get chunk data
extraction_result: The cached LLM extraction result
chunk_id: The chunk ID for source tracking
Returns:
Tuple of (entities_dict, relationships_dict)
"""
# Get chunk data for file_path from storage
chunk_data = await text_chunks_storage.get_by_id(chunk_id)
file_path = (
chunk_data.get("file_path", "unknown_source")
if chunk_data
else "unknown_source"
)
# Call the shared processing function
return await _process_extraction_result(
extraction_result,
chunk_id,
timestamp,
file_path,
tuple_delimiter=PROMPTS["DEFAULT_TUPLE_DELIMITER"],
completion_delimiter=PROMPTS["DEFAULT_COMPLETION_DELIMITER"],
)
async def _rebuild_single_entity(
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
entity_name: str,
chunk_ids: list[str],
chunk_entities: dict,
llm_response_cache: BaseKVStorage,
global_config: dict[str, str],
entity_chunks_storage: BaseKVStorage | None = None,
pipeline_status: dict | None = None,
pipeline_status_lock=None,
) -> None:
"""Rebuild a single entity from cached extraction results"""
# Get current entity data
current_entity = await knowledge_graph_inst.get_node(entity_name)
if not current_entity:
return
# Helper function to update entity in both graph and vector storage
async def _update_entity_storage(
final_description: str,
entity_type: str,
file_paths: list[str],
source_chunk_ids: list[str],
truncation_info: str = "",
):
try:
# Update entity in graph storage (critical path)
updated_entity_data = {
**current_entity,
"description": final_description,
"entity_type": entity_type,
"source_id": GRAPH_FIELD_SEP.join(source_chunk_ids),
"file_path": GRAPH_FIELD_SEP.join(file_paths)
if file_paths
else current_entity.get("file_path", "unknown_source"),
"created_at": int(time.time()),
"truncate": truncation_info,
}
await knowledge_graph_inst.upsert_node(entity_name, updated_entity_data)
# Update entity in vector database (equally critical)
entity_vdb_id = compute_mdhash_id(entity_name, prefix="ent-")
entity_content = f"{entity_name}\n{final_description}"
vdb_data = {
entity_vdb_id: {
"content": entity_content,
"entity_name": entity_name,
"source_id": updated_entity_data["source_id"],
"description": final_description,
"entity_type": entity_type,
"file_path": updated_entity_data["file_path"],
}
}
# Use safe operation wrapper - VDB failure must throw exception
await safe_vdb_operation_with_exception(
operation=lambda: entities_vdb.upsert(vdb_data),
operation_name="rebuild_entity_upsert",
entity_name=entity_name,
max_retries=3,
retry_delay=0.1,
)
except Exception as e:
error_msg = f"Failed to update entity storage for `{entity_name}`: {e}"
logger.error(error_msg)
raise # Re-raise exception
# normalized_chunk_ids = merge_source_ids([], chunk_ids)
normalized_chunk_ids = chunk_ids
if entity_chunks_storage is not None and normalized_chunk_ids:
await entity_chunks_storage.upsert(
{
entity_name: {
"chunk_ids": normalized_chunk_ids,
"count": len(normalized_chunk_ids),
}
}
)
limit_method = (
global_config.get("source_ids_limit_method") or SOURCE_IDS_LIMIT_METHOD_KEEP
)
limited_chunk_ids = apply_source_ids_limit(
normalized_chunk_ids,
global_config["max_source_ids_per_entity"],
limit_method,
identifier=f"`{entity_name}`",
)
# Collect all entity data from relevant (limited) chunks
all_entity_data = []
for chunk_id in limited_chunk_ids:
if chunk_id in chunk_entities and entity_name in chunk_entities[chunk_id]:
all_entity_data.extend(chunk_entities[chunk_id][entity_name])
if not all_entity_data:
logger.warning(
f"No entity data found for `{entity_name}`, trying to rebuild from relationships"
)
# Get all edges connected to this entity
edges = await knowledge_graph_inst.get_node_edges(entity_name)
if not edges:
logger.warning(f"No relations attached to entity `{entity_name}`")
return
# Collect relationship data to extract entity information
relationship_descriptions = []
file_paths = set()
# Get edge data for all connected relationships
for src_id, tgt_id in edges:
edge_data = await knowledge_graph_inst.get_edge(src_id, tgt_id)
if edge_data:
if edge_data.get("description"):
relationship_descriptions.append(edge_data["description"])
if edge_data.get("file_path"):
edge_file_paths = edge_data["file_path"].split(GRAPH_FIELD_SEP)
file_paths.update(edge_file_paths)
# deduplicate descriptions
description_list = list(dict.fromkeys(relationship_descriptions))
# Generate final description from relationships or fallback to current
if description_list:
final_description, _ = await _handle_entity_relation_summary(
"Entity",
entity_name,
description_list,
GRAPH_FIELD_SEP,
global_config,
llm_response_cache=llm_response_cache,
)
else:
final_description = current_entity.get("description", "")
entity_type = current_entity.get("entity_type", "UNKNOWN")
await _update_entity_storage(
final_description,
entity_type,
file_paths,
limited_chunk_ids,
)
return
# Process cached entity data
descriptions = []
entity_types = []
file_paths_list = []
seen_paths = set()
for entity_data in all_entity_data:
if entity_data.get("description"):
descriptions.append(entity_data["description"])
if entity_data.get("entity_type"):
entity_types.append(entity_data["entity_type"])
if entity_data.get("file_path"):
file_path = entity_data["file_path"]
if file_path and file_path not in seen_paths:
file_paths_list.append(file_path)
seen_paths.add(file_path)
# Apply MAX_FILE_PATHS limit
max_file_paths = global_config.get("max_file_paths")
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
limit_method = global_config.get("source_ids_limit_method")
original_count = len(file_paths_list)
if original_count > max_file_paths:
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
# FIFO: keep tail (newest), discard head
file_paths_list = file_paths_list[-max_file_paths:]
else:
# KEEP: keep head (earliest), discard tail
file_paths_list = file_paths_list[:max_file_paths]
file_paths_list.append(
f"...{file_path_placeholder}...({limit_method} {max_file_paths}/{original_count})"
)
logger.info(
f"Limited `{entity_name}`: file_path {original_count} -> {max_file_paths} ({limit_method})"
)
# Remove duplicates while preserving order
description_list = list(dict.fromkeys(descriptions))
entity_types = list(dict.fromkeys(entity_types))
# Get most common entity type
entity_type = (
max(set(entity_types), key=entity_types.count)
if entity_types
else current_entity.get("entity_type", "UNKNOWN")
)
# Generate final description from entities or fallback to current
if description_list:
final_description, _ = await _handle_entity_relation_summary(
"Entity",
entity_name,
description_list,
GRAPH_FIELD_SEP,
global_config,
llm_response_cache=llm_response_cache,
)
else:
final_description = current_entity.get("description", "")
if len(limited_chunk_ids) < len(normalized_chunk_ids):
truncation_info = (
f"{limit_method} {len(limited_chunk_ids)}/{len(normalized_chunk_ids)}"
)
else:
truncation_info = ""
await _update_entity_storage(
final_description,
entity_type,
file_paths_list,
limited_chunk_ids,
truncation_info,
)
# Log rebuild completion with truncation info
status_message = f"Rebuild `{entity_name}` from {len(chunk_ids)} chunks"
if truncation_info:
status_message += f" ({truncation_info})"
logger.info(status_message)
# Update pipeline status
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
async def _rebuild_single_relationship(
knowledge_graph_inst: BaseGraphStorage,
relationships_vdb: BaseVectorStorage,
entities_vdb: BaseVectorStorage,
src: str,
tgt: str,
chunk_ids: list[str],
chunk_relationships: dict,
llm_response_cache: BaseKVStorage,
global_config: dict[str, str],
relation_chunks_storage: BaseKVStorage | None = None,
entity_chunks_storage: BaseKVStorage | None = None,
pipeline_status: dict | None = None,
pipeline_status_lock=None,
) -> None:
"""Rebuild a single relationship from cached extraction results
Note: This function assumes the caller has already acquired the appropriate
keyed lock for the relationship pair to ensure thread safety.
"""
# Get current relationship data
current_relationship = await knowledge_graph_inst.get_edge(src, tgt)
if not current_relationship:
return
# normalized_chunk_ids = merge_source_ids([], chunk_ids)
normalized_chunk_ids = chunk_ids
if relation_chunks_storage is not None and normalized_chunk_ids:
storage_key = make_relation_chunk_key(src, tgt)
await relation_chunks_storage.upsert(
{
storage_key: {
"chunk_ids": normalized_chunk_ids,
"count": len(normalized_chunk_ids),
}
}
)
limit_method = (
global_config.get("source_ids_limit_method") or SOURCE_IDS_LIMIT_METHOD_KEEP
)
limited_chunk_ids = apply_source_ids_limit(
normalized_chunk_ids,
global_config["max_source_ids_per_relation"],
limit_method,
identifier=f"`{src}`~`{tgt}`",
)
# Collect all relationship data from relevant chunks
all_relationship_data = []
for chunk_id in limited_chunk_ids:
if chunk_id in chunk_relationships:
# Check both (src, tgt) and (tgt, src) since relationships can be bidirectional
for edge_key in [(src, tgt), (tgt, src)]:
if edge_key in chunk_relationships[chunk_id]:
all_relationship_data.extend(
chunk_relationships[chunk_id][edge_key]
)
if not all_relationship_data:
logger.warning(f"No relation data found for `{src}-{tgt}`")
return
# Merge descriptions and keywords
descriptions = []
keywords = []
weights = []
file_paths_list = []
seen_paths = set()
for rel_data in all_relationship_data:
if rel_data.get("description"):
descriptions.append(rel_data["description"])
if rel_data.get("keywords"):
keywords.append(rel_data["keywords"])
if rel_data.get("weight"):
weights.append(rel_data["weight"])
if rel_data.get("file_path"):
file_path = rel_data["file_path"]
if file_path and file_path not in seen_paths:
file_paths_list.append(file_path)
seen_paths.add(file_path)
# Apply count limit
max_file_paths = global_config.get("max_file_paths")
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
limit_method = global_config.get("source_ids_limit_method")
original_count = len(file_paths_list)
if original_count > max_file_paths:
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
# FIFO: keep tail (newest), discard head
file_paths_list = file_paths_list[-max_file_paths:]
else:
# KEEP: keep head (earliest), discard tail
file_paths_list = file_paths_list[:max_file_paths]
file_paths_list.append(
f"...{file_path_placeholder}...({limit_method} {max_file_paths}/{original_count})"
)
logger.info(
f"Limited `{src}`~`{tgt}`: file_path {original_count} -> {max_file_paths} ({limit_method})"
)
# Remove duplicates while preserving order
description_list = list(dict.fromkeys(descriptions))
keywords = list(dict.fromkeys(keywords))
combined_keywords = (
", ".join(set(keywords))
if keywords
else current_relationship.get("keywords", "")
)
weight = sum(weights) if weights else current_relationship.get("weight", 1.0)
# Generate final description from relations or fallback to current
if description_list:
final_description, _ = await _handle_entity_relation_summary(
"Relation",
f"{src}-{tgt}",
description_list,
GRAPH_FIELD_SEP,
global_config,
llm_response_cache=llm_response_cache,
)
else:
# fallback to keep current(unchanged)
final_description = current_relationship.get("description", "")
if len(limited_chunk_ids) < len(normalized_chunk_ids):
truncation_info = (
f"{limit_method} {len(limited_chunk_ids)}/{len(normalized_chunk_ids)}"
)
else:
truncation_info = ""
# Update relationship in graph storage
updated_relationship_data = {
**current_relationship,
"description": final_description
if final_description
else current_relationship.get("description", ""),
"keywords": combined_keywords,
"weight": weight,
"source_id": GRAPH_FIELD_SEP.join(limited_chunk_ids),
"file_path": GRAPH_FIELD_SEP.join([fp for fp in file_paths_list if fp])
if file_paths_list
else current_relationship.get("file_path", "unknown_source"),
"truncate": truncation_info,
}
# Ensure both endpoint nodes exist before writing the edge back
# (certain storage backends require pre-existing nodes).
node_description = (
updated_relationship_data["description"]
if updated_relationship_data.get("description")
else current_relationship.get("description", "")
)
node_source_id = updated_relationship_data.get("source_id", "")
node_file_path = updated_relationship_data.get("file_path", "unknown_source")
for node_id in {src, tgt}:
if not (await knowledge_graph_inst.has_node(node_id)):
node_created_at = int(time.time())
node_data = {
"entity_id": node_id,
"source_id": node_source_id,
"description": node_description,
"entity_type": "UNKNOWN",
"file_path": node_file_path,
"created_at": node_created_at,
"truncate": "",
}
await knowledge_graph_inst.upsert_node(node_id, node_data=node_data)
# Update entity_chunks_storage for the newly created entity
if entity_chunks_storage is not None and limited_chunk_ids:
await entity_chunks_storage.upsert(
{
node_id: {
"chunk_ids": limited_chunk_ids,
"count": len(limited_chunk_ids),
}
}
)
# Update entity_vdb for the newly created entity
if entities_vdb is not None:
entity_vdb_id = compute_mdhash_id(node_id, prefix="ent-")
entity_content = f"{node_id}\n{node_description}"
vdb_data = {
entity_vdb_id: {
"content": entity_content,
"entity_name": node_id,
"source_id": node_source_id,
"entity_type": "UNKNOWN",
"file_path": node_file_path,
}
}
await safe_vdb_operation_with_exception(
operation=lambda payload=vdb_data: entities_vdb.upsert(payload),
operation_name="rebuild_added_entity_upsert",
entity_name=node_id,
max_retries=3,
retry_delay=0.1,
)
await knowledge_graph_inst.upsert_edge(src, tgt, updated_relationship_data)
# Update relationship in vector database
# Sort src and tgt to ensure consistent ordering (smaller string first)
if src > tgt:
src, tgt = tgt, src
try:
rel_vdb_id = compute_mdhash_id(src + tgt, prefix="rel-")
rel_vdb_id_reverse = compute_mdhash_id(tgt + src, prefix="rel-")
# Delete old vector records first (both directions to be safe)
try:
await relationships_vdb.delete([rel_vdb_id, rel_vdb_id_reverse])
except Exception as e:
logger.debug(
f"Could not delete old relationship vector records {rel_vdb_id}, {rel_vdb_id_reverse}: {e}"
)
# Insert new vector record
rel_content = f"{combined_keywords}\t{src}\n{tgt}\n{final_description}"
vdb_data = {
rel_vdb_id: {
"src_id": src,
"tgt_id": tgt,
"source_id": updated_relationship_data["source_id"],
"content": rel_content,
"keywords": combined_keywords,
"description": final_description,
"weight": weight,
"file_path": updated_relationship_data["file_path"],
}
}
# Use safe operation wrapper - VDB failure must throw exception
await safe_vdb_operation_with_exception(
operation=lambda: relationships_vdb.upsert(vdb_data),
operation_name="rebuild_relationship_upsert",
entity_name=f"{src}-{tgt}",
max_retries=3,
retry_delay=0.2,
)
except Exception as e:
error_msg = f"Failed to rebuild relationship storage for `{src}-{tgt}`: {e}"
logger.error(error_msg)
raise # Re-raise exception
# Log rebuild completion with truncation info
status_message = f"Rebuild `{src}`~`{tgt}` from {len(chunk_ids)} chunks"
if truncation_info:
status_message += f" ({truncation_info})"
# Add truncation info from apply_source_ids_limit if truncation occurred
if len(limited_chunk_ids) < len(normalized_chunk_ids):
truncation_info = (
f" ({limit_method}:{len(limited_chunk_ids)}/{len(normalized_chunk_ids)})"
)
status_message += truncation_info
logger.info(status_message)
# Update pipeline status
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
async def _merge_nodes_then_upsert(
entity_name: str,
nodes_data: list[dict],
knowledge_graph_inst: BaseGraphStorage,
entity_vdb: BaseVectorStorage | None,
global_config: dict,
pipeline_status: dict = None,
pipeline_status_lock=None,
llm_response_cache: BaseKVStorage | None = None,
entity_chunks_storage: BaseKVStorage | None = None,
):
"""Get existing nodes from knowledge graph use name,if exists, merge data, else create, then upsert."""
already_entity_types = []
already_source_ids = []
already_description = []
already_file_paths = []
# 1. Get existing node data from knowledge graph
already_node = await knowledge_graph_inst.get_node(entity_name)
if already_node:
already_entity_types.append(already_node["entity_type"])
already_source_ids.extend(already_node["source_id"].split(GRAPH_FIELD_SEP))
already_file_paths.extend(already_node["file_path"].split(GRAPH_FIELD_SEP))
already_description.extend(already_node["description"].split(GRAPH_FIELD_SEP))
new_source_ids = [dp["source_id"] for dp in nodes_data if dp.get("source_id")]
existing_full_source_ids = []
if entity_chunks_storage is not None:
stored_chunks = await entity_chunks_storage.get_by_id(entity_name)
if stored_chunks and isinstance(stored_chunks, dict):
existing_full_source_ids = [
chunk_id for chunk_id in stored_chunks.get("chunk_ids", []) if chunk_id
]
if not existing_full_source_ids:
existing_full_source_ids = [
chunk_id for chunk_id in already_source_ids if chunk_id
]
# 2. Merging new source ids with existing ones
full_source_ids = merge_source_ids(existing_full_source_ids, new_source_ids)
if entity_chunks_storage is not None and full_source_ids:
await entity_chunks_storage.upsert(
{
entity_name: {
"chunk_ids": full_source_ids,
"count": len(full_source_ids),
}
}
)
# 3. Finalize source_id by applying source ids limit
limit_method = global_config.get("source_ids_limit_method")
max_source_limit = global_config.get("max_source_ids_per_entity")
source_ids = apply_source_ids_limit(
full_source_ids,
max_source_limit,
limit_method,
identifier=f"`{entity_name}`",
)
# 4. Only keep nodes not filter by apply_source_ids_limit if limit_method is KEEP
if limit_method == SOURCE_IDS_LIMIT_METHOD_KEEP:
allowed_source_ids = set(source_ids)
filtered_nodes = []
for dp in nodes_data:
source_id = dp.get("source_id")
# Skip descriptions sourced from chunks dropped by the limitation cap
if (
source_id
and source_id not in allowed_source_ids
and source_id not in existing_full_source_ids
):
continue
filtered_nodes.append(dp)
nodes_data = filtered_nodes
else: # In FIFO mode, keep all nodes - truncation happens at source_ids level only
nodes_data = list(nodes_data)
# 5. Check if we need to skip summary due to source_ids limit
if (
limit_method == SOURCE_IDS_LIMIT_METHOD_KEEP
and len(existing_full_source_ids) >= max_source_limit
and not nodes_data
):
if already_node:
logger.info(
f"Skipped `{entity_name}`: KEEP old chunks {already_source_ids}/{len(full_source_ids)}"
)
existing_node_data = dict(already_node)
return existing_node_data
else:
logger.error(f"Internal Error: already_node missing for `{entity_name}`")
raise ValueError(
f"Internal Error: already_node missing for `{entity_name}`"
)
# 6.1 Finalize source_id
source_id = GRAPH_FIELD_SEP.join(source_ids)
# 6.2 Finalize entity type by highest count
entity_type = sorted(
Counter(
[dp["entity_type"] for dp in nodes_data] + already_entity_types
).items(),
key=lambda x: x[1],
reverse=True,
)[0][0]
# 7. Deduplicate nodes by description, keeping first occurrence in the same document
unique_nodes = {}
for dp in nodes_data:
desc = dp.get("description")
if not desc:
continue
if desc not in unique_nodes:
unique_nodes[desc] = dp
# Sort description by timestamp, then by description length when timestamps are the same
sorted_nodes = sorted(
unique_nodes.values(),
key=lambda x: (x.get("timestamp", 0), -len(x.get("description", ""))),
)
sorted_descriptions = [dp["description"] for dp in sorted_nodes]
# Combine already_description with sorted new sorted descriptions
description_list = already_description + sorted_descriptions
if not description_list:
logger.error(f"Entity {entity_name} has no description")
raise ValueError(f"Entity {entity_name} has no description")
# Check for cancellation before LLM summary
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException("User cancelled during entity summary")
# 8. Get summary description an LLM usage status
description, llm_was_used = await _handle_entity_relation_summary(
"Entity",
entity_name,
description_list,
GRAPH_FIELD_SEP,
global_config,
llm_response_cache,
)
# 9. Build file_path within MAX_FILE_PATHS
file_paths_list = []
seen_paths = set()
has_placeholder = False # Indicating file_path has been truncated before
max_file_paths = global_config.get("max_file_paths", DEFAULT_MAX_FILE_PATHS)
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
# Collect from already_file_paths, excluding placeholder
for fp in already_file_paths:
if fp and fp.startswith(f"...{file_path_placeholder}"): # Skip placeholders
has_placeholder = True
continue
if fp and fp not in seen_paths:
file_paths_list.append(fp)
seen_paths.add(fp)
# Collect from new data
for dp in nodes_data:
file_path_item = dp.get("file_path")
if file_path_item and file_path_item not in seen_paths:
file_paths_list.append(file_path_item)
seen_paths.add(file_path_item)
# Apply count limit
if len(file_paths_list) > max_file_paths:
limit_method = global_config.get(
"source_ids_limit_method", SOURCE_IDS_LIMIT_METHOD_KEEP
)
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
# Add + sign to indicate actual file count is higher
original_count_str = (
f"{len(file_paths_list)}+" if has_placeholder else str(len(file_paths_list))
)
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
# FIFO: keep tail (newest), discard head
file_paths_list = file_paths_list[-max_file_paths:]
file_paths_list.append(f"...{file_path_placeholder}...(FIFO)")
else:
# KEEP: keep head (earliest), discard tail
file_paths_list = file_paths_list[:max_file_paths]
file_paths_list.append(f"...{file_path_placeholder}...(KEEP Old)")
logger.info(
f"Limited `{entity_name}`: file_path {original_count_str} -> {max_file_paths} ({limit_method})"
)
# Finalize file_path
file_path = GRAPH_FIELD_SEP.join(file_paths_list)
# 10.Log based on actual LLM usage
num_fragment = len(description_list)
already_fragment = len(already_description)
if llm_was_used:
status_message = f"LLMmrg: `{entity_name}` | {already_fragment}+{num_fragment - already_fragment}"
else:
status_message = f"Merged: `{entity_name}` | {already_fragment}+{num_fragment - already_fragment}"
truncation_info = truncation_info_log = ""
if len(source_ids) < len(full_source_ids):
# Add truncation info from apply_source_ids_limit if truncation occurred
truncation_info_log = f"{limit_method} {len(source_ids)}/{len(full_source_ids)}"
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
truncation_info = truncation_info_log
else:
truncation_info = "KEEP Old"
deduplicated_num = already_fragment + len(nodes_data) - num_fragment
dd_message = ""
if deduplicated_num > 0:
# Duplicated description detected across multiple trucks for the same entity
dd_message = f"dd {deduplicated_num}"
if dd_message or truncation_info_log:
status_message += (
f" ({', '.join(filter(None, [truncation_info_log, dd_message]))})"
)
# Add message to pipeline satus when merge happens
if already_fragment > 0 or llm_was_used:
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
else:
logger.debug(status_message)
# 11. Update both graph and vector db
node_data = dict(
entity_id=entity_name,
entity_type=entity_type,
description=description,
source_id=source_id,
file_path=file_path,
created_at=int(time.time()),
truncate=truncation_info,
)
await knowledge_graph_inst.upsert_node(
entity_name,
node_data=node_data,
)
node_data["entity_name"] = entity_name
if entity_vdb is not None:
entity_vdb_id = compute_mdhash_id(str(entity_name), prefix="ent-")
entity_content = f"{entity_name}\n{description}"
data_for_vdb = {
entity_vdb_id: {
"entity_name": entity_name,
"entity_type": entity_type,
"content": entity_content,
"source_id": source_id,
"file_path": file_path,
}
}
await safe_vdb_operation_with_exception(
operation=lambda payload=data_for_vdb: entity_vdb.upsert(payload),
operation_name="entity_upsert",
entity_name=entity_name,
max_retries=3,
retry_delay=0.1,
)
return node_data
async def _merge_edges_then_upsert(
src_id: str,
tgt_id: str,
edges_data: list[dict],
knowledge_graph_inst: BaseGraphStorage,
relationships_vdb: BaseVectorStorage | None,
entity_vdb: BaseVectorStorage | None,
global_config: dict,
pipeline_status: dict = None,
pipeline_status_lock=None,
llm_response_cache: BaseKVStorage | None = None,
added_entities: list = None, # New parameter to track entities added during edge processing
relation_chunks_storage: BaseKVStorage | None = None,
entity_chunks_storage: BaseKVStorage | None = None,
):
if src_id == tgt_id:
return None
already_edge = None
already_weights = []
already_source_ids = []
already_description = []
already_keywords = []
already_file_paths = []
# 1. Get existing edge data from graph storage
if await knowledge_graph_inst.has_edge(src_id, tgt_id):
already_edge = await knowledge_graph_inst.get_edge(src_id, tgt_id)
# Handle the case where get_edge returns None or missing fields
if already_edge:
# Get weight with default 1.0 if missing
already_weights.append(already_edge.get("weight", 1.0))
# Get source_id with empty string default if missing or None
if already_edge.get("source_id") is not None:
already_source_ids.extend(
already_edge["source_id"].split(GRAPH_FIELD_SEP)
)
# Get file_path with empty string default if missing or None
if already_edge.get("file_path") is not None:
already_file_paths.extend(
already_edge["file_path"].split(GRAPH_FIELD_SEP)
)
# Get description with empty string default if missing or None
if already_edge.get("description") is not None:
already_description.extend(
already_edge["description"].split(GRAPH_FIELD_SEP)
)
# Get keywords with empty string default if missing or None
if already_edge.get("keywords") is not None:
already_keywords.extend(
split_string_by_multi_markers(
already_edge["keywords"], [GRAPH_FIELD_SEP]
)
)
new_source_ids = [dp["source_id"] for dp in edges_data if dp.get("source_id")]
storage_key = make_relation_chunk_key(src_id, tgt_id)
existing_full_source_ids = []
if relation_chunks_storage is not None:
stored_chunks = await relation_chunks_storage.get_by_id(storage_key)
if stored_chunks and isinstance(stored_chunks, dict):
existing_full_source_ids = [
chunk_id for chunk_id in stored_chunks.get("chunk_ids", []) if chunk_id
]
if not existing_full_source_ids:
existing_full_source_ids = [
chunk_id for chunk_id in already_source_ids if chunk_id
]
# 2. Merge new source ids with existing ones
full_source_ids = merge_source_ids(existing_full_source_ids, new_source_ids)
if relation_chunks_storage is not None and full_source_ids:
await relation_chunks_storage.upsert(
{
storage_key: {
"chunk_ids": full_source_ids,
"count": len(full_source_ids),
}
}
)
# 3. Finalize source_id by applying source ids limit
limit_method = global_config.get("source_ids_limit_method")
max_source_limit = global_config.get("max_source_ids_per_relation")
source_ids = apply_source_ids_limit(
full_source_ids,
max_source_limit,
limit_method,
identifier=f"`{src_id}`~`{tgt_id}`",
)
limit_method = (
global_config.get("source_ids_limit_method") or SOURCE_IDS_LIMIT_METHOD_KEEP
)
# 4. Only keep edges with source_id in the final source_ids list if in KEEP mode
if limit_method == SOURCE_IDS_LIMIT_METHOD_KEEP:
allowed_source_ids = set(source_ids)
filtered_edges = []
for dp in edges_data:
source_id = dp.get("source_id")
# Skip relationship fragments sourced from chunks dropped by keep oldest cap
if (
source_id
and source_id not in allowed_source_ids
and source_id not in existing_full_source_ids
):
continue
filtered_edges.append(dp)
edges_data = filtered_edges
else: # In FIFO mode, keep all edges - truncation happens at source_ids level only
edges_data = list(edges_data)
# 5. Check if we need to skip summary due to source_ids limit
if (
limit_method == SOURCE_IDS_LIMIT_METHOD_KEEP
and len(existing_full_source_ids) >= max_source_limit
and not edges_data
):
if already_edge:
logger.info(
f"Skipped `{src_id}`~`{tgt_id}`: KEEP old chunks {already_source_ids}/{len(full_source_ids)}"
)
existing_edge_data = dict(already_edge)
return existing_edge_data
else:
logger.error(
f"Internal Error: already_node missing for `{src_id}`~`{tgt_id}`"
)
raise ValueError(
f"Internal Error: already_node missing for `{src_id}`~`{tgt_id}`"
)
# 6.1 Finalize source_id
source_id = GRAPH_FIELD_SEP.join(source_ids)
# 6.2 Finalize weight by summing new edges and existing weights
weight = sum([dp["weight"] for dp in edges_data] + already_weights)
# 6.2 Finalize keywords by merging existing and new keywords
all_keywords = set()
# Process already_keywords (which are comma-separated)
for keyword_str in already_keywords:
if keyword_str: # Skip empty strings
all_keywords.update(k.strip() for k in keyword_str.split(",") if k.strip())
# Process new keywords from edges_data
for edge in edges_data:
if edge.get("keywords"):
all_keywords.update(
k.strip() for k in edge["keywords"].split(",") if k.strip()
)
# Join all unique keywords with commas
keywords = ",".join(sorted(all_keywords))
# 7. Deduplicate by description, keeping first occurrence in the same document
unique_edges = {}
for dp in edges_data:
description_value = dp.get("description")
if not description_value:
continue
if description_value not in unique_edges:
unique_edges[description_value] = dp
# Sort description by timestamp, then by description length (largest to smallest) when timestamps are the same
sorted_edges = sorted(
unique_edges.values(),
key=lambda x: (x.get("timestamp", 0), -len(x.get("description", ""))),
)
sorted_descriptions = [dp["description"] for dp in sorted_edges]
# Combine already_description with sorted new descriptions
description_list = already_description + sorted_descriptions
if not description_list:
logger.error(f"Relation {src_id}~{tgt_id} has no description")
raise ValueError(f"Relation {src_id}~{tgt_id} has no description")
# Check for cancellation before LLM summary
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException(
"User cancelled during relation summary"
)
# 8. Get summary description an LLM usage status
description, llm_was_used = await _handle_entity_relation_summary(
"Relation",
f"({src_id}, {tgt_id})",
description_list,
GRAPH_FIELD_SEP,
global_config,
llm_response_cache,
)
# 9. Build file_path within MAX_FILE_PATHS limit
file_paths_list = []
seen_paths = set()
has_placeholder = False # Track if already_file_paths contains placeholder
max_file_paths = global_config.get("max_file_paths", DEFAULT_MAX_FILE_PATHS)
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
# Collect from already_file_paths, excluding placeholder
for fp in already_file_paths:
# Check if this is a placeholder record
if fp and fp.startswith(f"...{file_path_placeholder}"): # Skip placeholders
has_placeholder = True
continue
if fp and fp not in seen_paths:
file_paths_list.append(fp)
seen_paths.add(fp)
# Collect from new data
for dp in edges_data:
file_path_item = dp.get("file_path")
if file_path_item and file_path_item not in seen_paths:
file_paths_list.append(file_path_item)
seen_paths.add(file_path_item)
# Apply count limit
max_file_paths = global_config.get("max_file_paths")
if len(file_paths_list) > max_file_paths:
limit_method = global_config.get(
"source_ids_limit_method", SOURCE_IDS_LIMIT_METHOD_KEEP
)
file_path_placeholder = global_config.get(
"file_path_more_placeholder", DEFAULT_FILE_PATH_MORE_PLACEHOLDER
)
# Add + sign to indicate actual file count is higher
original_count_str = (
f"{len(file_paths_list)}+" if has_placeholder else str(len(file_paths_list))
)
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
# FIFO: keep tail (newest), discard head
file_paths_list = file_paths_list[-max_file_paths:]
file_paths_list.append(f"...{file_path_placeholder}...(FIFO)")
else:
# KEEP: keep head (earliest), discard tail
file_paths_list = file_paths_list[:max_file_paths]
file_paths_list.append(f"...{file_path_placeholder}...(KEEP Old)")
logger.info(
f"Limited `{src_id}`~`{tgt_id}`: file_path {original_count_str} -> {max_file_paths} ({limit_method})"
)
# Finalize file_path
file_path = GRAPH_FIELD_SEP.join(file_paths_list)
# 10. Log based on actual LLM usage
num_fragment = len(description_list)
already_fragment = len(already_description)
if llm_was_used:
status_message = f"LLMmrg: `{src_id}`~`{tgt_id}` | {already_fragment}+{num_fragment - already_fragment}"
else:
status_message = f"Merged: `{src_id}`~`{tgt_id}` | {already_fragment}+{num_fragment - already_fragment}"
truncation_info = truncation_info_log = ""
if len(source_ids) < len(full_source_ids):
# Add truncation info from apply_source_ids_limit if truncation occurred
truncation_info_log = f"{limit_method} {len(source_ids)}/{len(full_source_ids)}"
if limit_method == SOURCE_IDS_LIMIT_METHOD_FIFO:
truncation_info = truncation_info_log
else:
truncation_info = "KEEP Old"
deduplicated_num = already_fragment + len(edges_data) - num_fragment
dd_message = ""
if deduplicated_num > 0:
# Duplicated description detected across multiple trucks for the same entity
dd_message = f"dd {deduplicated_num}"
if dd_message or truncation_info_log:
status_message += (
f" ({', '.join(filter(None, [truncation_info_log, dd_message]))})"
)
# Add message to pipeline satus when merge happens
if already_fragment > 0 or llm_was_used:
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
else:
logger.debug(status_message)
# 11. Update both graph and vector db
for need_insert_id in [src_id, tgt_id]:
# Optimization: Use get_node instead of has_node + get_node
existing_node = await knowledge_graph_inst.get_node(need_insert_id)
if existing_node is None:
# Node doesn't exist - create new node
node_created_at = int(time.time())
node_data = {
"entity_id": need_insert_id,
"source_id": source_id,
"description": description,
"entity_type": "UNKNOWN",
"file_path": file_path,
"created_at": node_created_at,
"truncate": "",
}
await knowledge_graph_inst.upsert_node(need_insert_id, node_data=node_data)
# Update entity_chunks_storage for the newly created entity
if entity_chunks_storage is not None:
chunk_ids = [chunk_id for chunk_id in full_source_ids if chunk_id]
if chunk_ids:
await entity_chunks_storage.upsert(
{
need_insert_id: {
"chunk_ids": chunk_ids,
"count": len(chunk_ids),
}
}
)
if entity_vdb is not None:
entity_vdb_id = compute_mdhash_id(need_insert_id, prefix="ent-")
entity_content = f"{need_insert_id}\n{description}"
vdb_data = {
entity_vdb_id: {
"content": entity_content,
"entity_name": need_insert_id,
"source_id": source_id,
"entity_type": "UNKNOWN",
"file_path": file_path,
}
}
await safe_vdb_operation_with_exception(
operation=lambda payload=vdb_data: entity_vdb.upsert(payload),
operation_name="added_entity_upsert",
entity_name=need_insert_id,
max_retries=3,
retry_delay=0.1,
)
# Track entities added during edge processing
if added_entities is not None:
entity_data = {
"entity_name": need_insert_id,
"entity_type": "UNKNOWN",
"description": description,
"source_id": source_id,
"file_path": file_path,
"created_at": node_created_at,
}
added_entities.append(entity_data)
else:
# Node exists - update its source_ids by merging with new source_ids
updated = False # Track if any update occurred
# 1. Get existing full source_ids from entity_chunks_storage
existing_full_source_ids = []
if entity_chunks_storage is not None:
stored_chunks = await entity_chunks_storage.get_by_id(need_insert_id)
if stored_chunks and isinstance(stored_chunks, dict):
existing_full_source_ids = [
chunk_id
for chunk_id in stored_chunks.get("chunk_ids", [])
if chunk_id
]
# If not in entity_chunks_storage, get from graph database
if not existing_full_source_ids:
if existing_node.get("source_id"):
existing_full_source_ids = existing_node["source_id"].split(
GRAPH_FIELD_SEP
)
# 2. Merge with new source_ids from this relationship
new_source_ids_from_relation = [
chunk_id for chunk_id in source_ids if chunk_id
]
merged_full_source_ids = merge_source_ids(
existing_full_source_ids, new_source_ids_from_relation
)
# 3. Save merged full list to entity_chunks_storage (conditional)
if (
entity_chunks_storage is not None
and merged_full_source_ids != existing_full_source_ids
):
updated = True
await entity_chunks_storage.upsert(
{
need_insert_id: {
"chunk_ids": merged_full_source_ids,
"count": len(merged_full_source_ids),
}
}
)
# 4. Apply source_ids limit for graph and vector db
limit_method = global_config.get(
"source_ids_limit_method", SOURCE_IDS_LIMIT_METHOD_KEEP
)
max_source_limit = global_config.get("max_source_ids_per_entity")
limited_source_ids = apply_source_ids_limit(
merged_full_source_ids,
max_source_limit,
limit_method,
identifier=f"`{need_insert_id}`",
)
# 5. Update graph database and vector database with limited source_ids (conditional)
limited_source_id_str = GRAPH_FIELD_SEP.join(limited_source_ids)
if limited_source_id_str != existing_node.get("source_id", ""):
updated = True
updated_node_data = {
**existing_node,
"source_id": limited_source_id_str,
}
await knowledge_graph_inst.upsert_node(
need_insert_id, node_data=updated_node_data
)
# Update vector database
if entity_vdb is not None:
entity_vdb_id = compute_mdhash_id(need_insert_id, prefix="ent-")
entity_content = (
f"{need_insert_id}\n{existing_node.get('description', '')}"
)
vdb_data = {
entity_vdb_id: {
"content": entity_content,
"entity_name": need_insert_id,
"source_id": limited_source_id_str,
"entity_type": existing_node.get("entity_type", "UNKNOWN"),
"file_path": existing_node.get(
"file_path", "unknown_source"
),
}
}
await safe_vdb_operation_with_exception(
operation=lambda payload=vdb_data: entity_vdb.upsert(payload),
operation_name="existing_entity_update",
entity_name=need_insert_id,
max_retries=3,
retry_delay=0.1,
)
# 6. Log once at the end if any update occurred
if updated:
status_message = f"Chunks appended from relation: `{need_insert_id}`"
logger.info(status_message)
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = status_message
pipeline_status["history_messages"].append(status_message)
edge_created_at = int(time.time())
await knowledge_graph_inst.upsert_edge(
src_id,
tgt_id,
edge_data=dict(
weight=weight,
description=description,
keywords=keywords,
source_id=source_id,
file_path=file_path,
created_at=edge_created_at,
truncate=truncation_info,
),
)
edge_data = dict(
src_id=src_id,
tgt_id=tgt_id,
description=description,
keywords=keywords,
source_id=source_id,
file_path=file_path,
created_at=edge_created_at,
truncate=truncation_info,
weight=weight,
)
# Sort src_id and tgt_id to ensure consistent ordering (smaller string first)
if src_id > tgt_id:
src_id, tgt_id = tgt_id, src_id
if relationships_vdb is not None:
rel_vdb_id = compute_mdhash_id(src_id + tgt_id, prefix="rel-")
rel_vdb_id_reverse = compute_mdhash_id(tgt_id + src_id, prefix="rel-")
try:
await relationships_vdb.delete([rel_vdb_id, rel_vdb_id_reverse])
except Exception as e:
logger.debug(
f"Could not delete old relationship vector records {rel_vdb_id}, {rel_vdb_id_reverse}: {e}"
)
rel_content = f"{keywords}\t{src_id}\n{tgt_id}\n{description}"
vdb_data = {
rel_vdb_id: {
"src_id": src_id,
"tgt_id": tgt_id,
"source_id": source_id,
"content": rel_content,
"keywords": keywords,
"description": description,
"weight": weight,
"file_path": file_path,
}
}
await safe_vdb_operation_with_exception(
operation=lambda payload=vdb_data: relationships_vdb.upsert(payload),
operation_name="relationship_upsert",
entity_name=f"{src_id}-{tgt_id}",
max_retries=3,
retry_delay=0.2,
)
return edge_data
async def merge_nodes_and_edges(
chunk_results: list,
knowledge_graph_inst: BaseGraphStorage,
entity_vdb: BaseVectorStorage,
relationships_vdb: BaseVectorStorage,
global_config: dict[str, str],
full_entities_storage: BaseKVStorage = None,
full_relations_storage: BaseKVStorage = None,
doc_id: str = None,
pipeline_status: dict = None,
pipeline_status_lock=None,
llm_response_cache: BaseKVStorage | None = None,
entity_chunks_storage: BaseKVStorage | None = None,
relation_chunks_storage: BaseKVStorage | None = None,
current_file_number: int = 0,
total_files: int = 0,
file_path: str = "unknown_source",
) -> None:
"""Two-phase merge: process all entities first, then all relationships
This approach ensures data consistency by:
1. Phase 1: Process all entities concurrently
2. Phase 2: Process all relationships concurrently (may add missing entities)
3. Phase 3: Update full_entities and full_relations storage with final results
Args:
chunk_results: List of tuples (maybe_nodes, maybe_edges) containing extracted entities and relationships
knowledge_graph_inst: Knowledge graph storage
entity_vdb: Entity vector database
relationships_vdb: Relationship vector database
global_config: Global configuration
full_entities_storage: Storage for document entity lists
full_relations_storage: Storage for document relation lists
doc_id: Document ID for storage indexing
pipeline_status: Pipeline status dictionary
pipeline_status_lock: Lock for pipeline status
llm_response_cache: LLM response cache
entity_chunks_storage: Storage tracking full chunk lists per entity
relation_chunks_storage: Storage tracking full chunk lists per relation
current_file_number: Current file number for logging
total_files: Total files for logging
file_path: File path for logging
"""
# Check for cancellation at the start of merge
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException("User cancelled during merge phase")
# Collect all nodes and edges from all chunks
all_nodes = defaultdict(list)
all_edges = defaultdict(list)
for maybe_nodes, maybe_edges in chunk_results:
# Collect nodes
for entity_name, entities in maybe_nodes.items():
all_nodes[entity_name].extend(entities)
# Collect edges with sorted keys for undirected graph
for edge_key, edges in maybe_edges.items():
sorted_edge_key = tuple(sorted(edge_key))
all_edges[sorted_edge_key].extend(edges)
total_entities_count = len(all_nodes)
total_relations_count = len(all_edges)
log_message = f"Merging stage {current_file_number}/{total_files}: {file_path}"
logger.info(log_message)
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
# Get max async tasks limit from global_config for semaphore control
graph_max_async = global_config.get("llm_model_max_async", 4) * 2
semaphore = asyncio.Semaphore(graph_max_async)
# ===== Phase 1: Process all entities concurrently =====
log_message = f"Phase 1: Processing {total_entities_count} entities from {doc_id} (async: {graph_max_async})"
logger.info(log_message)
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
async def _locked_process_entity_name(entity_name, entities):
async with semaphore:
# Check for cancellation before processing entity
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException(
"User cancelled during entity merge"
)
workspace = global_config.get("workspace", "")
namespace = f"{workspace}:GraphDB" if workspace else "GraphDB"
async with get_storage_keyed_lock(
[entity_name], namespace=namespace, enable_logging=False
):
try:
logger.debug(f"Processing entity {entity_name}")
entity_data = await _merge_nodes_then_upsert(
entity_name,
entities,
knowledge_graph_inst,
entity_vdb,
global_config,
pipeline_status,
pipeline_status_lock,
llm_response_cache,
entity_chunks_storage,
)
return entity_data
except Exception as e:
error_msg = f"Error processing entity `{entity_name}`: {e}"
logger.error(error_msg)
# Try to update pipeline status, but don't let status update failure affect main exception
try:
if (
pipeline_status is not None
and pipeline_status_lock is not None
):
async with pipeline_status_lock:
pipeline_status["latest_message"] = error_msg
pipeline_status["history_messages"].append(error_msg)
except Exception as status_error:
logger.error(
f"Failed to update pipeline status: {status_error}"
)
# Re-raise the original exception with a prefix
prefixed_exception = create_prefixed_exception(
e, f"`{entity_name}`"
)
raise prefixed_exception from e
# Create entity processing tasks
entity_tasks = []
for entity_name, entities in all_nodes.items():
task = asyncio.create_task(_locked_process_entity_name(entity_name, entities))
entity_tasks.append(task)
# Execute entity tasks with error handling
processed_entities = []
if entity_tasks:
done, pending = await asyncio.wait(
entity_tasks, return_when=asyncio.FIRST_EXCEPTION
)
first_exception = None
processed_entities = []
for task in done:
try:
result = task.result()
except BaseException as e:
if first_exception is None:
first_exception = e
else:
processed_entities.append(result)
if pending:
for task in pending:
task.cancel()
pending_results = await asyncio.gather(*pending, return_exceptions=True)
for result in pending_results:
if isinstance(result, BaseException):
if first_exception is None:
first_exception = result
else:
processed_entities.append(result)
if first_exception is not None:
raise first_exception
# ===== Phase 2: Process all relationships concurrently =====
log_message = f"Phase 2: Processing {total_relations_count} relations from {doc_id} (async: {graph_max_async})"
logger.info(log_message)
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
async def _locked_process_edges(edge_key, edges):
async with semaphore:
# Check for cancellation before processing edges
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException(
"User cancelled during relation merge"
)
workspace = global_config.get("workspace", "")
namespace = f"{workspace}:GraphDB" if workspace else "GraphDB"
sorted_edge_key = sorted([edge_key[0], edge_key[1]])
async with get_storage_keyed_lock(
sorted_edge_key,
namespace=namespace,
enable_logging=False,
):
try:
added_entities = [] # Track entities added during edge processing
logger.debug(f"Processing relation {sorted_edge_key}")
edge_data = await _merge_edges_then_upsert(
edge_key[0],
edge_key[1],
edges,
knowledge_graph_inst,
relationships_vdb,
entity_vdb,
global_config,
pipeline_status,
pipeline_status_lock,
llm_response_cache,
added_entities, # Pass list to collect added entities
relation_chunks_storage,
entity_chunks_storage, # Add entity_chunks_storage parameter
)
if edge_data is None:
return None, []
return edge_data, added_entities
except Exception as e:
error_msg = f"Error processing relation `{sorted_edge_key}`: {e}"
logger.error(error_msg)
# Try to update pipeline status, but don't let status update failure affect main exception
try:
if (
pipeline_status is not None
and pipeline_status_lock is not None
):
async with pipeline_status_lock:
pipeline_status["latest_message"] = error_msg
pipeline_status["history_messages"].append(error_msg)
except Exception as status_error:
logger.error(
f"Failed to update pipeline status: {status_error}"
)
# Re-raise the original exception with a prefix
prefixed_exception = create_prefixed_exception(
e, f"{sorted_edge_key}"
)
raise prefixed_exception from e
# Create relationship processing tasks
edge_tasks = []
for edge_key, edges in all_edges.items():
task = asyncio.create_task(_locked_process_edges(edge_key, edges))
edge_tasks.append(task)
# Execute relationship tasks with error handling
processed_edges = []
all_added_entities = []
if edge_tasks:
done, pending = await asyncio.wait(
edge_tasks, return_when=asyncio.FIRST_EXCEPTION
)
first_exception = None
for task in done:
try:
edge_data, added_entities = task.result()
except BaseException as e:
if first_exception is None:
first_exception = e
else:
if edge_data is not None:
processed_edges.append(edge_data)
all_added_entities.extend(added_entities)
if pending:
for task in pending:
task.cancel()
pending_results = await asyncio.gather(*pending, return_exceptions=True)
for result in pending_results:
if isinstance(result, BaseException):
if first_exception is None:
first_exception = result
else:
edge_data, added_entities = result
if edge_data is not None:
processed_edges.append(edge_data)
all_added_entities.extend(added_entities)
if first_exception is not None:
raise first_exception
# ===== Phase 3: Update full_entities and full_relations storage =====
if full_entities_storage and full_relations_storage and doc_id:
try:
# Merge all entities: original entities + entities added during edge processing
final_entity_names = set()
# Add original processed entities
for entity_data in processed_entities:
if entity_data and entity_data.get("entity_name"):
final_entity_names.add(entity_data["entity_name"])
# Add entities that were added during relationship processing
for added_entity in all_added_entities:
if added_entity and added_entity.get("entity_name"):
final_entity_names.add(added_entity["entity_name"])
# Collect all relation pairs
final_relation_pairs = set()
for edge_data in processed_edges:
if edge_data:
src_id = edge_data.get("src_id")
tgt_id = edge_data.get("tgt_id")
if src_id and tgt_id:
relation_pair = tuple(sorted([src_id, tgt_id]))
final_relation_pairs.add(relation_pair)
log_message = f"Phase 3: Updating final {len(final_entity_names)}({len(processed_entities)}+{len(all_added_entities)}) entities and {len(final_relation_pairs)} relations from {doc_id}"
logger.info(log_message)
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
# Update storage
if final_entity_names:
await full_entities_storage.upsert(
{
doc_id: {
"entity_names": list(final_entity_names),
"count": len(final_entity_names),
}
}
)
if final_relation_pairs:
await full_relations_storage.upsert(
{
doc_id: {
"relation_pairs": [
list(pair) for pair in final_relation_pairs
],
"count": len(final_relation_pairs),
}
}
)
logger.debug(
f"Updated entity-relation index for document {doc_id}: {len(final_entity_names)} entities (original: {len(processed_entities)}, added: {len(all_added_entities)}), {len(final_relation_pairs)} relations"
)
except Exception as e:
logger.error(
f"Failed to update entity-relation index for document {doc_id}: {e}"
)
# Don't raise exception to avoid affecting main flow
log_message = f"Completed merging: {len(processed_entities)} entities, {len(all_added_entities)} extra entities, {len(processed_edges)} relations"
logger.info(log_message)
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
async def extract_entities(
chunks: dict[str, TextChunkSchema],
global_config: dict[str, str],
pipeline_status: dict = None,
pipeline_status_lock=None,
llm_response_cache: BaseKVStorage | None = None,
text_chunks_storage: BaseKVStorage | None = None,
) -> list:
# Check for cancellation at the start of entity extraction
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException(
"User cancelled during entity extraction"
)
use_llm_func: callable = global_config["llm_model_func"]
entity_extract_max_gleaning = global_config["entity_extract_max_gleaning"]
ordered_chunks = list(chunks.items())
# add language and example number params to prompt
language = global_config["addon_params"].get("language", DEFAULT_SUMMARY_LANGUAGE)
entity_types = global_config["addon_params"].get(
"entity_types", DEFAULT_ENTITY_TYPES
)
examples = "\n".join(PROMPTS["entity_extraction_examples"])
example_context_base = dict(
tuple_delimiter=PROMPTS["DEFAULT_TUPLE_DELIMITER"],
completion_delimiter=PROMPTS["DEFAULT_COMPLETION_DELIMITER"],
entity_types=", ".join(entity_types),
language=language,
)
# add example's format
examples = examples.format(**example_context_base)
context_base = dict(
tuple_delimiter=PROMPTS["DEFAULT_TUPLE_DELIMITER"],
completion_delimiter=PROMPTS["DEFAULT_COMPLETION_DELIMITER"],
entity_types=",".join(entity_types),
examples=examples,
language=language,
)
processed_chunks = 0
total_chunks = len(ordered_chunks)
async def _process_single_content(chunk_key_dp: tuple[str, TextChunkSchema]):
"""Process a single chunk
Args:
chunk_key_dp (tuple[str, TextChunkSchema]):
("chunk-xxxxxx", {"tokens": int, "content": str, "full_doc_id": str, "chunk_order_index": int})
Returns:
tuple: (maybe_nodes, maybe_edges) containing extracted entities and relationships
"""
nonlocal processed_chunks
chunk_key = chunk_key_dp[0]
chunk_dp = chunk_key_dp[1]
content = chunk_dp["content"]
# Get file path from chunk data or use default
file_path = chunk_dp.get("file_path", "unknown_source")
# Create cache keys collector for batch processing
cache_keys_collector = []
# Get initial extraction
# Format system prompt without input_text for each chunk (enables OpenAI prompt caching across chunks)
entity_extraction_system_prompt = PROMPTS[
"entity_extraction_system_prompt"
].format(**context_base)
# Format user prompts with input_text for each chunk
entity_extraction_user_prompt = PROMPTS["entity_extraction_user_prompt"].format(
**{**context_base, "input_text": content}
)
entity_continue_extraction_user_prompt = PROMPTS[
"entity_continue_extraction_user_prompt"
].format(**{**context_base, "input_text": content})
final_result, timestamp = await use_llm_func_with_cache(
entity_extraction_user_prompt,
use_llm_func,
system_prompt=entity_extraction_system_prompt,
llm_response_cache=llm_response_cache,
cache_type="extract",
chunk_id=chunk_key,
cache_keys_collector=cache_keys_collector,
)
history = pack_user_ass_to_openai_messages(
entity_extraction_user_prompt, final_result
)
# Process initial extraction with file path
maybe_nodes, maybe_edges = await _process_extraction_result(
final_result,
chunk_key,
timestamp,
file_path,
tuple_delimiter=context_base["tuple_delimiter"],
completion_delimiter=context_base["completion_delimiter"],
)
# Process additional gleaning results only 1 time when entity_extract_max_gleaning is greater than zero.
if entity_extract_max_gleaning > 0:
glean_result, timestamp = await use_llm_func_with_cache(
entity_continue_extraction_user_prompt,
use_llm_func,
system_prompt=entity_extraction_system_prompt,
llm_response_cache=llm_response_cache,
history_messages=history,
cache_type="extract",
chunk_id=chunk_key,
cache_keys_collector=cache_keys_collector,
)
# Process gleaning result separately with file path
glean_nodes, glean_edges = await _process_extraction_result(
glean_result,
chunk_key,
timestamp,
file_path,
tuple_delimiter=context_base["tuple_delimiter"],
completion_delimiter=context_base["completion_delimiter"],
)
# Merge results - compare description lengths to choose better version
for entity_name, glean_entities in glean_nodes.items():
if entity_name in maybe_nodes:
# Compare description lengths and keep the better one
original_desc_len = len(
maybe_nodes[entity_name][0].get("description", "") or ""
)
glean_desc_len = len(glean_entities[0].get("description", "") or "")
if glean_desc_len > original_desc_len:
maybe_nodes[entity_name] = list(glean_entities)
# Otherwise keep original version
else:
# New entity from gleaning stage
maybe_nodes[entity_name] = list(glean_entities)
for edge_key, glean_edges in glean_edges.items():
if edge_key in maybe_edges:
# Compare description lengths and keep the better one
original_desc_len = len(
maybe_edges[edge_key][0].get("description", "") or ""
)
glean_desc_len = len(glean_edges[0].get("description", "") or "")
if glean_desc_len > original_desc_len:
maybe_edges[edge_key] = list(glean_edges)
# Otherwise keep original version
else:
# New edge from gleaning stage
maybe_edges[edge_key] = list(glean_edges)
# Batch update chunk's llm_cache_list with all collected cache keys
if cache_keys_collector and text_chunks_storage:
await update_chunk_cache_list(
chunk_key,
text_chunks_storage,
cache_keys_collector,
"entity_extraction",
)
processed_chunks += 1
entities_count = len(maybe_nodes)
relations_count = len(maybe_edges)
log_message = f"Chunk {processed_chunks} of {total_chunks} extracted {entities_count} Ent + {relations_count} Rel {chunk_key}"
logger.info(log_message)
if pipeline_status is not None:
async with pipeline_status_lock:
pipeline_status["latest_message"] = log_message
pipeline_status["history_messages"].append(log_message)
# Return the extracted nodes and edges for centralized processing
return maybe_nodes, maybe_edges
# Get max async tasks limit from global_config
chunk_max_async = global_config.get("llm_model_max_async", 4)
semaphore = asyncio.Semaphore(chunk_max_async)
async def _process_with_semaphore(chunk):
async with semaphore:
# Check for cancellation before processing chunk
if pipeline_status is not None and pipeline_status_lock is not None:
async with pipeline_status_lock:
if pipeline_status.get("cancellation_requested", False):
raise PipelineCancelledException(
"User cancelled during chunk processing"
)
try:
return await _process_single_content(chunk)
except Exception as e:
chunk_id = chunk[0] # Extract chunk_id from chunk[0]
prefixed_exception = create_prefixed_exception(e, chunk_id)
raise prefixed_exception from e
tasks = []
for c in ordered_chunks:
task = asyncio.create_task(_process_with_semaphore(c))
tasks.append(task)
# Wait for tasks to complete or for the first exception to occur
# This allows us to cancel remaining tasks if any task fails
done, pending = await asyncio.wait(tasks, return_when=asyncio.FIRST_EXCEPTION)
# Check if any task raised an exception and ensure all exceptions are retrieved
first_exception = None
chunk_results = []
for task in done:
try:
exception = task.exception()
if exception is not None:
if first_exception is None:
first_exception = exception
else:
chunk_results.append(task.result())
except Exception as e:
if first_exception is None:
first_exception = e
# If any task failed, cancel all pending tasks and raise the first exception
if first_exception is not None:
# Cancel all pending tasks
for pending_task in pending:
pending_task.cancel()
# Wait for cancellation to complete
if pending:
await asyncio.wait(pending)
# Add progress prefix to the exception message
progress_prefix = f"C[{processed_chunks + 1}/{total_chunks}]"
# Re-raise the original exception with a prefix
prefixed_exception = create_prefixed_exception(first_exception, progress_prefix)
raise prefixed_exception from first_exception
# If all tasks completed successfully, chunk_results already contains the results
# Return the chunk_results for later processing in merge_nodes_and_edges
return chunk_results
async def kg_query(
query: str,
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
relationships_vdb: BaseVectorStorage,
text_chunks_db: BaseKVStorage,
query_param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
system_prompt: str | None = None,
chunks_vdb: BaseVectorStorage = None,
) -> QueryResult | None:
"""
Execute knowledge graph query and return unified QueryResult object.
Args:
query: Query string
knowledge_graph_inst: Knowledge graph storage instance
entities_vdb: Entity vector database
relationships_vdb: Relationship vector database
text_chunks_db: Text chunks storage
query_param: Query parameters
global_config: Global configuration
hashing_kv: Cache storage
system_prompt: System prompt
chunks_vdb: Document chunks vector database
Returns:
QueryResult | None: Unified query result object containing:
- content: Non-streaming response text content
- response_iterator: Streaming response iterator
- raw_data: Complete structured data (including references and metadata)
- is_streaming: Whether this is a streaming result
Based on different query_param settings, different fields will be populated:
- only_need_context=True: content contains context string
- only_need_prompt=True: content contains complete prompt
- stream=True: response_iterator contains streaming response, raw_data contains complete data
- default: content contains LLM response text, raw_data contains complete data
Returns None when no relevant context could be constructed for the query.
"""
if not query:
return QueryResult(content=PROMPTS["fail_response"])
if query_param.model_func:
use_model_func = query_param.model_func
else:
use_model_func = global_config["llm_model_func"]
# Apply higher priority (5) to query relation LLM function
use_model_func = partial(use_model_func, _priority=5)
hl_keywords, ll_keywords = await get_keywords_from_query(
query, query_param, global_config, hashing_kv
)
logger.debug(f"High-level keywords: {hl_keywords}")
logger.debug(f"Low-level keywords: {ll_keywords}")
# Handle empty keywords
if ll_keywords == [] and query_param.mode in ["local", "hybrid", "mix"]:
logger.warning("low_level_keywords is empty")
if hl_keywords == [] and query_param.mode in ["global", "hybrid", "mix"]:
logger.warning("high_level_keywords is empty")
if hl_keywords == [] and ll_keywords == []:
if len(query) < 50:
logger.warning(f"Forced low_level_keywords to origin query: {query}")
ll_keywords = [query]
else:
return QueryResult(content=PROMPTS["fail_response"])
ll_keywords_str = ", ".join(ll_keywords) if ll_keywords else ""
hl_keywords_str = ", ".join(hl_keywords) if hl_keywords else ""
# Build query context (unified interface)
context_result = await _build_query_context(
query,
ll_keywords_str,
hl_keywords_str,
knowledge_graph_inst,
entities_vdb,
relationships_vdb,
text_chunks_db,
query_param,
chunks_vdb,
)
if context_result is None:
logger.info("[kg_query] No query context could be built; returning no-result.")
return None
# Return different content based on query parameters
if query_param.only_need_context and not query_param.only_need_prompt:
return QueryResult(
content=context_result.context, raw_data=context_result.raw_data
)
user_prompt = f"\n\n{query_param.user_prompt}" if query_param.user_prompt else "n/a"
response_type = (
query_param.response_type
if query_param.response_type
else "Multiple Paragraphs"
)
# Build system prompt
sys_prompt_temp = system_prompt if system_prompt else PROMPTS["rag_response"]
sys_prompt = sys_prompt_temp.format(
response_type=response_type,
user_prompt=user_prompt,
context_data=context_result.context,
)
user_query = query
if query_param.only_need_prompt:
prompt_content = "\n\n".join([sys_prompt, "---User Query---", user_query])
return QueryResult(content=prompt_content, raw_data=context_result.raw_data)
# Call LLM
tokenizer: Tokenizer = global_config["tokenizer"]
len_of_prompts = len(tokenizer.encode(query + sys_prompt))
logger.debug(
f"[kg_query] Sending to LLM: {len_of_prompts:,} tokens (Query: {len(tokenizer.encode(query))}, System: {len(tokenizer.encode(sys_prompt))})"
)
# Handle cache
args_hash = compute_args_hash(
query_param.mode,
query,
query_param.response_type,
query_param.top_k,
query_param.chunk_top_k,
query_param.max_entity_tokens,
query_param.max_relation_tokens,
query_param.max_total_tokens,
hl_keywords_str,
ll_keywords_str,
query_param.user_prompt or "",
query_param.enable_rerank,
)
cached_result = await handle_cache(
hashing_kv, args_hash, user_query, query_param.mode, cache_type="query"
)
if cached_result is not None:
cached_response, _ = cached_result # Extract content, ignore timestamp
logger.info(
" == LLM cache == Query cache hit, using cached response as query result"
)
response = cached_response
else:
response = await use_model_func(
user_query,
system_prompt=sys_prompt,
history_messages=query_param.conversation_history,
enable_cot=True,
stream=query_param.stream,
)
if hashing_kv and hashing_kv.global_config.get("enable_llm_cache"):
queryparam_dict = {
"mode": query_param.mode,
"response_type": query_param.response_type,
"top_k": query_param.top_k,
"chunk_top_k": query_param.chunk_top_k,
"max_entity_tokens": query_param.max_entity_tokens,
"max_relation_tokens": query_param.max_relation_tokens,
"max_total_tokens": query_param.max_total_tokens,
"hl_keywords": hl_keywords_str,
"ll_keywords": ll_keywords_str,
"user_prompt": query_param.user_prompt or "",
"enable_rerank": query_param.enable_rerank,
}
await save_to_cache(
hashing_kv,
CacheData(
args_hash=args_hash,
content=response,
prompt=query,
mode=query_param.mode,
cache_type="query",
queryparam=queryparam_dict,
),
)
# Return unified result based on actual response type
if isinstance(response, str):
# Non-streaming response (string)
if len(response) > len(sys_prompt):
response = (
response.replace(sys_prompt, "")
.replace("user", "")
.replace("model", "")
.replace(query, "")
.replace("", "")
.replace("", "")
.strip()
)
return QueryResult(content=response, raw_data=context_result.raw_data)
else:
# Streaming response (AsyncIterator)
return QueryResult(
response_iterator=response,
raw_data=context_result.raw_data,
is_streaming=True,
)
async def get_keywords_from_query(
query: str,
query_param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
) -> tuple[list[str], list[str]]:
"""
Retrieves high-level and low-level keywords for RAG operations.
This function checks if keywords are already provided in query parameters,
and if not, extracts them from the query text using LLM.
Args:
query: The user's query text
query_param: Query parameters that may contain pre-defined keywords
global_config: Global configuration dictionary
hashing_kv: Optional key-value storage for caching results
Returns:
A tuple containing (high_level_keywords, low_level_keywords)
"""
# Check if pre-defined keywords are already provided
if query_param.hl_keywords or query_param.ll_keywords:
return query_param.hl_keywords, query_param.ll_keywords
# Extract keywords using extract_keywords_only function which already supports conversation history
hl_keywords, ll_keywords = await extract_keywords_only(
query, query_param, global_config, hashing_kv
)
return hl_keywords, ll_keywords
async def extract_keywords_only(
text: str,
param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
) -> tuple[list[str], list[str]]:
"""
Extract high-level and low-level keywords from the given 'text' using the LLM.
This method does NOT build the final RAG context or provide a final answer.
It ONLY extracts keywords (hl_keywords, ll_keywords).
"""
# 1. Build the examples
examples = "\n".join(PROMPTS["keywords_extraction_examples"])
language = global_config["addon_params"].get("language", DEFAULT_SUMMARY_LANGUAGE)
# 2. Handle cache if needed - add cache type for keywords
args_hash = compute_args_hash(
param.mode,
text,
language,
)
cached_result = await handle_cache(
hashing_kv, args_hash, text, param.mode, cache_type="keywords"
)
if cached_result is not None:
cached_response, _ = cached_result # Extract content, ignore timestamp
try:
keywords_data = json_repair.loads(cached_response)
return keywords_data.get("high_level_keywords", []), keywords_data.get(
"low_level_keywords", []
)
except (json.JSONDecodeError, KeyError):
logger.warning(
"Invalid cache format for keywords, proceeding with extraction"
)
# 3. Build the keyword-extraction prompt
kw_prompt = PROMPTS["keywords_extraction"].format(
query=text,
examples=examples,
language=language,
)
tokenizer: Tokenizer = global_config["tokenizer"]
len_of_prompts = len(tokenizer.encode(kw_prompt))
logger.debug(
f"[extract_keywords] Sending to LLM: {len_of_prompts:,} tokens (Prompt: {len_of_prompts})"
)
# 4. Call the LLM for keyword extraction
if param.model_func:
use_model_func = param.model_func
else:
use_model_func = global_config["llm_model_func"]
# Apply higher priority (5) to query relation LLM function
use_model_func = partial(use_model_func, _priority=5)
result = await use_model_func(kw_prompt, keyword_extraction=True)
# 5. Parse out JSON from the LLM response
result = remove_think_tags(result)
try:
keywords_data = json_repair.loads(result)
if not keywords_data:
logger.error("No JSON-like structure found in the LLM respond.")
return [], []
except json.JSONDecodeError as e:
logger.error(f"JSON parsing error: {e}")
logger.error(f"LLM respond: {result}")
return [], []
hl_keywords = keywords_data.get("high_level_keywords", [])
ll_keywords = keywords_data.get("low_level_keywords", [])
# 6. Cache only the processed keywords with cache type
if hl_keywords or ll_keywords:
cache_data = {
"high_level_keywords": hl_keywords,
"low_level_keywords": ll_keywords,
}
if hashing_kv.global_config.get("enable_llm_cache"):
# Save to cache with query parameters
queryparam_dict = {
"mode": param.mode,
"response_type": param.response_type,
"top_k": param.top_k,
"chunk_top_k": param.chunk_top_k,
"max_entity_tokens": param.max_entity_tokens,
"max_relation_tokens": param.max_relation_tokens,
"max_total_tokens": param.max_total_tokens,
"user_prompt": param.user_prompt or "",
"enable_rerank": param.enable_rerank,
}
await save_to_cache(
hashing_kv,
CacheData(
args_hash=args_hash,
content=json.dumps(cache_data),
prompt=text,
mode=param.mode,
cache_type="keywords",
queryparam=queryparam_dict,
),
)
return hl_keywords, ll_keywords
async def _get_vector_context(
query: str,
chunks_vdb: BaseVectorStorage,
query_param: QueryParam,
query_embedding: list[float] = None,
) -> list[dict]:
"""
Retrieve text chunks from the vector database without reranking or truncation.
This function performs vector search to find relevant text chunks for a query.
Reranking and truncation will be handled later in the unified processing.
Args:
query: The query string to search for
chunks_vdb: Vector database containing document chunks
query_param: Query parameters including chunk_top_k and ids
query_embedding: Optional pre-computed query embedding to avoid redundant embedding calls
Returns:
List of text chunks with metadata
"""
try:
# Use chunk_top_k if specified, otherwise fall back to top_k
search_top_k = query_param.chunk_top_k or query_param.top_k
cosine_threshold = chunks_vdb.cosine_better_than_threshold
results = await chunks_vdb.query(
query, top_k=search_top_k, query_embedding=query_embedding
)
if not results:
logger.info(
f"Naive query: 0 chunks (chunk_top_k:{search_top_k} cosine:{cosine_threshold})"
)
return []
valid_chunks = []
for result in results:
if "content" in result:
chunk_with_metadata = {
"content": result["content"],
"created_at": result.get("created_at", None),
"file_path": result.get("file_path", "unknown_source"),
"source_type": "vector", # Mark the source type
"chunk_id": result.get("id"), # Add chunk_id for deduplication
}
valid_chunks.append(chunk_with_metadata)
logger.info(
f"Naive query: {len(valid_chunks)} chunks (chunk_top_k:{search_top_k} cosine:{cosine_threshold})"
)
return valid_chunks
except Exception as e:
logger.error(f"Error in _get_vector_context: {e}")
return []
async def _perform_kg_search(
query: str,
ll_keywords: str,
hl_keywords: str,
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
relationships_vdb: BaseVectorStorage,
text_chunks_db: BaseKVStorage,
query_param: QueryParam,
chunks_vdb: BaseVectorStorage = None,
) -> dict[str, Any]:
"""
Pure search logic that retrieves raw entities, relations, and vector chunks.
No token truncation or formatting - just raw search results.
"""
# Initialize result containers
local_entities = []
local_relations = []
global_entities = []
global_relations = []
vector_chunks = []
chunk_tracking = {}
# Handle different query modes
# Track chunk sources and metadata for final logging
chunk_tracking = {} # chunk_id -> {source, frequency, order}
# Pre-compute query embedding once for all vector operations
kg_chunk_pick_method = text_chunks_db.global_config.get(
"kg_chunk_pick_method", DEFAULT_KG_CHUNK_PICK_METHOD
)
query_embedding = None
if query and (kg_chunk_pick_method == "VECTOR" or chunks_vdb):
actual_embedding_func = text_chunks_db.embedding_func
if actual_embedding_func:
try:
query_embedding = await actual_embedding_func([query])
query_embedding = query_embedding[
0
] # Extract first embedding from batch result
logger.debug("Pre-computed query embedding for all vector operations")
except Exception as e:
logger.warning(f"Failed to pre-compute query embedding: {e}")
query_embedding = None
# Handle local and global modes
if query_param.mode == "local" and len(ll_keywords) > 0:
local_entities, local_relations = await _get_node_data(
ll_keywords,
knowledge_graph_inst,
entities_vdb,
query_param,
)
elif query_param.mode == "global" and len(hl_keywords) > 0:
global_relations, global_entities = await _get_edge_data(
hl_keywords,
knowledge_graph_inst,
relationships_vdb,
query_param,
)
else: # hybrid or mix mode
if len(ll_keywords) > 0:
local_entities, local_relations = await _get_node_data(
ll_keywords,
knowledge_graph_inst,
entities_vdb,
query_param,
)
if len(hl_keywords) > 0:
global_relations, global_entities = await _get_edge_data(
hl_keywords,
knowledge_graph_inst,
relationships_vdb,
query_param,
)
# Get vector chunks for mix mode
if query_param.mode == "mix" and chunks_vdb:
vector_chunks = await _get_vector_context(
query,
chunks_vdb,
query_param,
query_embedding,
)
# Track vector chunks with source metadata
for i, chunk in enumerate(vector_chunks):
chunk_id = chunk.get("chunk_id") or chunk.get("id")
if chunk_id:
chunk_tracking[chunk_id] = {
"source": "C",
"frequency": 1, # Vector chunks always have frequency 1
"order": i + 1, # 1-based order in vector search results
}
else:
logger.warning(f"Vector chunk missing chunk_id: {chunk}")
# Round-robin merge entities
final_entities = []
seen_entities = set()
max_len = max(len(local_entities), len(global_entities))
for i in range(max_len):
# First from local
if i < len(local_entities):
entity = local_entities[i]
entity_name = entity.get("entity_name")
if entity_name and entity_name not in seen_entities:
final_entities.append(entity)
seen_entities.add(entity_name)
# Then from global
if i < len(global_entities):
entity = global_entities[i]
entity_name = entity.get("entity_name")
if entity_name and entity_name not in seen_entities:
final_entities.append(entity)
seen_entities.add(entity_name)
# Round-robin merge relations
final_relations = []
seen_relations = set()
max_len = max(len(local_relations), len(global_relations))
for i in range(max_len):
# First from local
if i < len(local_relations):
relation = local_relations[i]
# Build relation unique identifier
if "src_tgt" in relation:
rel_key = tuple(sorted(relation["src_tgt"]))
else:
rel_key = tuple(
sorted([relation.get("src_id"), relation.get("tgt_id")])
)
if rel_key not in seen_relations:
final_relations.append(relation)
seen_relations.add(rel_key)
# Then from global
if i < len(global_relations):
relation = global_relations[i]
# Build relation unique identifier
if "src_tgt" in relation:
rel_key = tuple(sorted(relation["src_tgt"]))
else:
rel_key = tuple(
sorted([relation.get("src_id"), relation.get("tgt_id")])
)
if rel_key not in seen_relations:
final_relations.append(relation)
seen_relations.add(rel_key)
logger.info(
f"Raw search results: {len(final_entities)} entities, {len(final_relations)} relations, {len(vector_chunks)} vector chunks"
)
return {
"final_entities": final_entities,
"final_relations": final_relations,
"vector_chunks": vector_chunks,
"chunk_tracking": chunk_tracking,
"query_embedding": query_embedding,
}
async def _apply_token_truncation(
search_result: dict[str, Any],
query_param: QueryParam,
global_config: dict[str, str],
) -> dict[str, Any]:
"""
Apply token-based truncation to entities and relations for LLM efficiency.
"""
tokenizer = global_config.get("tokenizer")
if not tokenizer:
logger.warning("No tokenizer found, skipping truncation")
return {
"entities_context": [],
"relations_context": [],
"filtered_entities": search_result["final_entities"],
"filtered_relations": search_result["final_relations"],
"entity_id_to_original": {},
"relation_id_to_original": {},
}
# Get token limits from query_param with fallbacks
max_entity_tokens = getattr(
query_param,
"max_entity_tokens",
global_config.get("max_entity_tokens", DEFAULT_MAX_ENTITY_TOKENS),
)
max_relation_tokens = getattr(
query_param,
"max_relation_tokens",
global_config.get("max_relation_tokens", DEFAULT_MAX_RELATION_TOKENS),
)
final_entities = search_result["final_entities"]
final_relations = search_result["final_relations"]
# Create mappings from entity/relation identifiers to original data
entity_id_to_original = {}
relation_id_to_original = {}
# Generate entities context for truncation
entities_context = []
for i, entity in enumerate(final_entities):
entity_name = entity["entity_name"]
created_at = entity.get("created_at", "UNKNOWN")
if isinstance(created_at, (int, float)):
created_at = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime(created_at))
# Store mapping from entity name to original data
entity_id_to_original[entity_name] = entity
entities_context.append(
{
"entity": entity_name,
"type": entity.get("entity_type", "UNKNOWN"),
"description": entity.get("description", "UNKNOWN"),
"created_at": created_at,
"file_path": entity.get("file_path", "unknown_source"),
}
)
# Generate relations context for truncation
relations_context = []
for i, relation in enumerate(final_relations):
created_at = relation.get("created_at", "UNKNOWN")
if isinstance(created_at, (int, float)):
created_at = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime(created_at))
# Handle different relation data formats
if "src_tgt" in relation:
entity1, entity2 = relation["src_tgt"]
else:
entity1, entity2 = relation.get("src_id"), relation.get("tgt_id")
# Store mapping from relation pair to original data
relation_key = (entity1, entity2)
relation_id_to_original[relation_key] = relation
relations_context.append(
{
"entity1": entity1,
"entity2": entity2,
"description": relation.get("description", "UNKNOWN"),
"created_at": created_at,
"file_path": relation.get("file_path", "unknown_source"),
}
)
logger.debug(
f"Before truncation: {len(entities_context)} entities, {len(relations_context)} relations"
)
# Apply token-based truncation
if entities_context:
# Remove file_path and created_at for token calculation
entities_context_for_truncation = []
for entity in entities_context:
entity_copy = entity.copy()
entity_copy.pop("file_path", None)
entity_copy.pop("created_at", None)
entities_context_for_truncation.append(entity_copy)
entities_context = truncate_list_by_token_size(
entities_context_for_truncation,
key=lambda x: "\n".join(
json.dumps(item, ensure_ascii=False) for item in [x]
),
max_token_size=max_entity_tokens,
tokenizer=tokenizer,
)
if relations_context:
# Remove file_path and created_at for token calculation
relations_context_for_truncation = []
for relation in relations_context:
relation_copy = relation.copy()
relation_copy.pop("file_path", None)
relation_copy.pop("created_at", None)
relations_context_for_truncation.append(relation_copy)
relations_context = truncate_list_by_token_size(
relations_context_for_truncation,
key=lambda x: "\n".join(
json.dumps(item, ensure_ascii=False) for item in [x]
),
max_token_size=max_relation_tokens,
tokenizer=tokenizer,
)
logger.info(
f"After truncation: {len(entities_context)} entities, {len(relations_context)} relations"
)
# Create filtered original data based on truncated context
filtered_entities = []
filtered_entity_id_to_original = {}
if entities_context:
final_entity_names = {e["entity"] for e in entities_context}
seen_nodes = set()
for entity in final_entities:
name = entity.get("entity_name")
if name in final_entity_names and name not in seen_nodes:
filtered_entities.append(entity)
filtered_entity_id_to_original[name] = entity
seen_nodes.add(name)
filtered_relations = []
filtered_relation_id_to_original = {}
if relations_context:
final_relation_pairs = {(r["entity1"], r["entity2"]) for r in relations_context}
seen_edges = set()
for relation in final_relations:
src, tgt = relation.get("src_id"), relation.get("tgt_id")
if src is None or tgt is None:
src, tgt = relation.get("src_tgt", (None, None))
pair = (src, tgt)
if pair in final_relation_pairs and pair not in seen_edges:
filtered_relations.append(relation)
filtered_relation_id_to_original[pair] = relation
seen_edges.add(pair)
return {
"entities_context": entities_context,
"relations_context": relations_context,
"filtered_entities": filtered_entities,
"filtered_relations": filtered_relations,
"entity_id_to_original": filtered_entity_id_to_original,
"relation_id_to_original": filtered_relation_id_to_original,
}
async def _merge_all_chunks(
filtered_entities: list[dict],
filtered_relations: list[dict],
vector_chunks: list[dict],
query: str = "",
knowledge_graph_inst: BaseGraphStorage = None,
text_chunks_db: BaseKVStorage = None,
query_param: QueryParam = None,
chunks_vdb: BaseVectorStorage = None,
chunk_tracking: dict = None,
query_embedding: list[float] = None,
) -> list[dict]:
"""
Merge chunks from different sources: vector_chunks + entity_chunks + relation_chunks.
"""
if chunk_tracking is None:
chunk_tracking = {}
# Get chunks from entities
entity_chunks = []
if filtered_entities and text_chunks_db:
entity_chunks = await _find_related_text_unit_from_entities(
filtered_entities,
query_param,
text_chunks_db,
knowledge_graph_inst,
query,
chunks_vdb,
chunk_tracking=chunk_tracking,
query_embedding=query_embedding,
)
# Get chunks from relations
relation_chunks = []
if filtered_relations and text_chunks_db:
relation_chunks = await _find_related_text_unit_from_relations(
filtered_relations,
query_param,
text_chunks_db,
entity_chunks, # For deduplication
query,
chunks_vdb,
chunk_tracking=chunk_tracking,
query_embedding=query_embedding,
)
# Round-robin merge chunks from different sources with deduplication
merged_chunks = []
seen_chunk_ids = set()
max_len = max(len(vector_chunks), len(entity_chunks), len(relation_chunks))
origin_len = len(vector_chunks) + len(entity_chunks) + len(relation_chunks)
for i in range(max_len):
# Add from vector chunks first (Naive mode)
if i < len(vector_chunks):
chunk = vector_chunks[i]
chunk_id = chunk.get("chunk_id") or chunk.get("id")
if chunk_id and chunk_id not in seen_chunk_ids:
seen_chunk_ids.add(chunk_id)
merged_chunks.append(
{
"content": chunk["content"],
"file_path": chunk.get("file_path", "unknown_source"),
"chunk_id": chunk_id,
}
)
# Add from entity chunks (Local mode)
if i < len(entity_chunks):
chunk = entity_chunks[i]
chunk_id = chunk.get("chunk_id") or chunk.get("id")
if chunk_id and chunk_id not in seen_chunk_ids:
seen_chunk_ids.add(chunk_id)
merged_chunks.append(
{
"content": chunk["content"],
"file_path": chunk.get("file_path", "unknown_source"),
"chunk_id": chunk_id,
}
)
# Add from relation chunks (Global mode)
if i < len(relation_chunks):
chunk = relation_chunks[i]
chunk_id = chunk.get("chunk_id") or chunk.get("id")
if chunk_id and chunk_id not in seen_chunk_ids:
seen_chunk_ids.add(chunk_id)
merged_chunks.append(
{
"content": chunk["content"],
"file_path": chunk.get("file_path", "unknown_source"),
"chunk_id": chunk_id,
}
)
logger.info(
f"Round-robin merged chunks: {origin_len} -> {len(merged_chunks)} (deduplicated {origin_len - len(merged_chunks)})"
)
return merged_chunks
async def _build_context_str(
entities_context: list[dict],
relations_context: list[dict],
merged_chunks: list[dict],
query: str,
query_param: QueryParam,
global_config: dict[str, str],
chunk_tracking: dict = None,
entity_id_to_original: dict = None,
relation_id_to_original: dict = None,
) -> tuple[str, dict[str, Any]]:
"""
Build the final LLM context string with token processing.
This includes dynamic token calculation and final chunk truncation.
"""
tokenizer = global_config.get("tokenizer")
if not tokenizer:
logger.error("Missing tokenizer, cannot build LLM context")
# Return empty raw data structure when no tokenizer
empty_raw_data = convert_to_user_format(
[],
[],
[],
[],
query_param.mode,
)
empty_raw_data["status"] = "failure"
empty_raw_data["message"] = "Missing tokenizer, cannot build LLM context."
return "", empty_raw_data
# Get token limits
max_total_tokens = getattr(
query_param,
"max_total_tokens",
global_config.get("max_total_tokens", DEFAULT_MAX_TOTAL_TOKENS),
)
# Get the system prompt template from PROMPTS or global_config
sys_prompt_template = global_config.get(
"system_prompt_template", PROMPTS["rag_response"]
)
kg_context_template = PROMPTS["kg_query_context"]
user_prompt = query_param.user_prompt if query_param.user_prompt else ""
response_type = (
query_param.response_type
if query_param.response_type
else "Multiple Paragraphs"
)
entities_str = "\n".join(
json.dumps(entity, ensure_ascii=False) for entity in entities_context
)
relations_str = "\n".join(
json.dumps(relation, ensure_ascii=False) for relation in relations_context
)
# Calculate preliminary kg context tokens
pre_kg_context = kg_context_template.format(
entities_str=entities_str,
relations_str=relations_str,
text_chunks_str="",
reference_list_str="",
)
kg_context_tokens = len(tokenizer.encode(pre_kg_context))
# Calculate preliminary system prompt tokens
pre_sys_prompt = sys_prompt_template.format(
context_data="", # Empty for overhead calculation
response_type=response_type,
user_prompt=user_prompt,
)
sys_prompt_tokens = len(tokenizer.encode(pre_sys_prompt))
# Calculate available tokens for text chunks
query_tokens = len(tokenizer.encode(query))
buffer_tokens = 200 # reserved for reference list and safety buffer
available_chunk_tokens = max_total_tokens - (
sys_prompt_tokens + kg_context_tokens + query_tokens + buffer_tokens
)
logger.debug(
f"Token allocation - Total: {max_total_tokens}, SysPrompt: {sys_prompt_tokens}, Query: {query_tokens}, KG: {kg_context_tokens}, Buffer: {buffer_tokens}, Available for chunks: {available_chunk_tokens}"
)
# Apply token truncation to chunks using the dynamic limit
truncated_chunks = await process_chunks_unified(
query=query,
unique_chunks=merged_chunks,
query_param=query_param,
global_config=global_config,
source_type=query_param.mode,
chunk_token_limit=available_chunk_tokens, # Pass dynamic limit
)
# Generate reference list from truncated chunks using the new common function
reference_list, truncated_chunks = generate_reference_list_from_chunks(
truncated_chunks
)
# Rebuild chunks_context with truncated chunks
# The actual tokens may be slightly less than available_chunk_tokens due to deduplication logic
chunks_context = []
for i, chunk in enumerate(truncated_chunks):
chunks_context.append(
{
"reference_id": chunk["reference_id"],
"content": chunk["content"],
}
)
text_units_str = "\n".join(
json.dumps(text_unit, ensure_ascii=False) for text_unit in chunks_context
)
reference_list_str = "\n".join(
f"[{ref['reference_id']}] {ref['file_path']}"
for ref in reference_list
if ref["reference_id"]
)
logger.info(
f"Final context: {len(entities_context)} entities, {len(relations_context)} relations, {len(chunks_context)} chunks"
)
# not necessary to use LLM to generate a response
if not entities_context and not relations_context and not chunks_context:
# Return empty raw data structure when no entities/relations
empty_raw_data = convert_to_user_format(
[],
[],
[],
[],
query_param.mode,
)
empty_raw_data["status"] = "failure"
empty_raw_data["message"] = "Query returned empty dataset."
return "", empty_raw_data
# output chunks tracking infomations
# format: / (e.g., E5/2 R2/1 C1/1)
if truncated_chunks and chunk_tracking:
chunk_tracking_log = []
for chunk in truncated_chunks:
chunk_id = chunk.get("chunk_id")
if chunk_id and chunk_id in chunk_tracking:
tracking_info = chunk_tracking[chunk_id]
source = tracking_info["source"]
frequency = tracking_info["frequency"]
order = tracking_info["order"]
chunk_tracking_log.append(f"{source}{frequency}/{order}")
else:
chunk_tracking_log.append("?0/0")
if chunk_tracking_log:
logger.info(f"Final chunks S+F/O: {' '.join(chunk_tracking_log)}")
result = kg_context_template.format(
entities_str=entities_str,
relations_str=relations_str,
text_chunks_str=text_units_str,
reference_list_str=reference_list_str,
)
# Always return both context and complete data structure (unified approach)
logger.debug(
f"[_build_context_str] Converting to user format: {len(entities_context)} entities, {len(relations_context)} relations, {len(truncated_chunks)} chunks"
)
final_data = convert_to_user_format(
entities_context,
relations_context,
truncated_chunks,
reference_list,
query_param.mode,
entity_id_to_original,
relation_id_to_original,
)
logger.debug(
f"[_build_context_str] Final data after conversion: {len(final_data.get('entities', []))} entities, {len(final_data.get('relationships', []))} relationships, {len(final_data.get('chunks', []))} chunks"
)
return result, final_data
# Now let's update the old _build_query_context to use the new architecture
async def _build_query_context(
query: str,
ll_keywords: str,
hl_keywords: str,
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
relationships_vdb: BaseVectorStorage,
text_chunks_db: BaseKVStorage,
query_param: QueryParam,
chunks_vdb: BaseVectorStorage = None,
) -> QueryContextResult | None:
"""
Main query context building function using the new 4-stage architecture:
1. Search -> 2. Truncate -> 3. Merge chunks -> 4. Build LLM context
Returns unified QueryContextResult containing both context and raw_data.
"""
if not query:
logger.warning("Query is empty, skipping context building")
return None
# Stage 1: Pure search
search_result = await _perform_kg_search(
query,
ll_keywords,
hl_keywords,
knowledge_graph_inst,
entities_vdb,
relationships_vdb,
text_chunks_db,
query_param,
chunks_vdb,
)
if not search_result["final_entities"] and not search_result["final_relations"]:
if query_param.mode != "mix":
return None
else:
if not search_result["chunk_tracking"]:
return None
# Stage 2: Apply token truncation for LLM efficiency
truncation_result = await _apply_token_truncation(
search_result,
query_param,
text_chunks_db.global_config,
)
# Stage 3: Merge chunks using filtered entities/relations
merged_chunks = await _merge_all_chunks(
filtered_entities=truncation_result["filtered_entities"],
filtered_relations=truncation_result["filtered_relations"],
vector_chunks=search_result["vector_chunks"],
query=query,
knowledge_graph_inst=knowledge_graph_inst,
text_chunks_db=text_chunks_db,
query_param=query_param,
chunks_vdb=chunks_vdb,
chunk_tracking=search_result["chunk_tracking"],
query_embedding=search_result["query_embedding"],
)
if (
not merged_chunks
and not truncation_result["entities_context"]
and not truncation_result["relations_context"]
):
return None
# Stage 4: Build final LLM context with dynamic token processing
# _build_context_str now always returns tuple[str, dict]
context, raw_data = await _build_context_str(
entities_context=truncation_result["entities_context"],
relations_context=truncation_result["relations_context"],
merged_chunks=merged_chunks,
query=query,
query_param=query_param,
global_config=text_chunks_db.global_config,
chunk_tracking=search_result["chunk_tracking"],
entity_id_to_original=truncation_result["entity_id_to_original"],
relation_id_to_original=truncation_result["relation_id_to_original"],
)
# Convert keywords strings to lists and add complete metadata to raw_data
hl_keywords_list = hl_keywords.split(", ") if hl_keywords else []
ll_keywords_list = ll_keywords.split(", ") if ll_keywords else []
# Add complete metadata to raw_data (preserve existing metadata including query_mode)
if "metadata" not in raw_data:
raw_data["metadata"] = {}
# Update keywords while preserving existing metadata
raw_data["metadata"]["keywords"] = {
"high_level": hl_keywords_list,
"low_level": ll_keywords_list,
}
raw_data["metadata"]["processing_info"] = {
"total_entities_found": len(search_result.get("final_entities", [])),
"total_relations_found": len(search_result.get("final_relations", [])),
"entities_after_truncation": len(
truncation_result.get("filtered_entities", [])
),
"relations_after_truncation": len(
truncation_result.get("filtered_relations", [])
),
"merged_chunks_count": len(merged_chunks),
"final_chunks_count": len(raw_data.get("data", {}).get("chunks", [])),
}
logger.debug(
f"[_build_query_context] Context length: {len(context) if context else 0}"
)
logger.debug(
f"[_build_query_context] Raw data entities: {len(raw_data.get('data', {}).get('entities', []))}, relationships: {len(raw_data.get('data', {}).get('relationships', []))}, chunks: {len(raw_data.get('data', {}).get('chunks', []))}"
)
return QueryContextResult(context=context, raw_data=raw_data)
async def _get_node_data(
query: str,
knowledge_graph_inst: BaseGraphStorage,
entities_vdb: BaseVectorStorage,
query_param: QueryParam,
):
# get similar entities
logger.info(
f"Query nodes: {query} (top_k:{query_param.top_k}, cosine:{entities_vdb.cosine_better_than_threshold})"
)
results = await entities_vdb.query(query, top_k=query_param.top_k)
if not len(results):
return [], []
# Extract all entity IDs from your results list
node_ids = [r["entity_name"] for r in results]
# Call the batch node retrieval and degree functions concurrently.
nodes_dict, degrees_dict = await asyncio.gather(
knowledge_graph_inst.get_nodes_batch(node_ids),
knowledge_graph_inst.node_degrees_batch(node_ids),
)
# Now, if you need the node data and degree in order:
node_datas = [nodes_dict.get(nid) for nid in node_ids]
node_degrees = [degrees_dict.get(nid, 0) for nid in node_ids]
if not all([n is not None for n in node_datas]):
logger.warning("Some nodes are missing, maybe the storage is damaged")
node_datas = [
{
**n,
"entity_name": k["entity_name"],
"rank": d,
"created_at": k.get("created_at"),
}
for k, n, d in zip(results, node_datas, node_degrees)
if n is not None
]
use_relations = await _find_most_related_edges_from_entities(
node_datas,
query_param,
knowledge_graph_inst,
)
logger.info(
f"Local query: {len(node_datas)} entites, {len(use_relations)} relations"
)
# Entities are sorted by cosine similarity
# Relations are sorted by rank + weight
return node_datas, use_relations
async def _find_most_related_edges_from_entities(
node_datas: list[dict],
query_param: QueryParam,
knowledge_graph_inst: BaseGraphStorage,
):
node_names = [dp["entity_name"] for dp in node_datas]
batch_edges_dict = await knowledge_graph_inst.get_nodes_edges_batch(node_names)
all_edges = []
seen = set()
for node_name in node_names:
this_edges = batch_edges_dict.get(node_name, [])
for e in this_edges:
sorted_edge = tuple(sorted(e))
if sorted_edge not in seen:
seen.add(sorted_edge)
all_edges.append(sorted_edge)
# Prepare edge pairs in two forms:
# For the batch edge properties function, use dicts.
edge_pairs_dicts = [{"src": e[0], "tgt": e[1]} for e in all_edges]
# For edge degrees, use tuples.
edge_pairs_tuples = list(all_edges) # all_edges is already a list of tuples
# Call the batched functions concurrently.
edge_data_dict, edge_degrees_dict = await asyncio.gather(
knowledge_graph_inst.get_edges_batch(edge_pairs_dicts),
knowledge_graph_inst.edge_degrees_batch(edge_pairs_tuples),
)
# Reconstruct edge_datas list in the same order as the deduplicated results.
all_edges_data = []
for pair in all_edges:
edge_props = edge_data_dict.get(pair)
if edge_props is not None:
if "weight" not in edge_props:
logger.warning(
f"Edge {pair} missing 'weight' attribute, using default value 1.0"
)
edge_props["weight"] = 1.0
combined = {
"src_tgt": pair,
"rank": edge_degrees_dict.get(pair, 0),
**edge_props,
}
all_edges_data.append(combined)
all_edges_data = sorted(
all_edges_data, key=lambda x: (x["rank"], x["weight"]), reverse=True
)
return all_edges_data
async def _find_related_text_unit_from_entities(
node_datas: list[dict],
query_param: QueryParam,
text_chunks_db: BaseKVStorage,
knowledge_graph_inst: BaseGraphStorage,
query: str = None,
chunks_vdb: BaseVectorStorage = None,
chunk_tracking: dict = None,
query_embedding=None,
):
"""
Find text chunks related to entities using configurable chunk selection method.
This function supports two chunk selection strategies:
1. WEIGHT: Linear gradient weighted polling based on chunk occurrence count
2. VECTOR: Vector similarity-based selection using embedding cosine similarity
"""
logger.debug(f"Finding text chunks from {len(node_datas)} entities")
if not node_datas:
return []
# Step 1: Collect all text chunks for each entity
entities_with_chunks = []
for entity in node_datas:
if entity.get("source_id"):
chunks = split_string_by_multi_markers(
entity["source_id"], [GRAPH_FIELD_SEP]
)
if chunks:
entities_with_chunks.append(
{
"entity_name": entity["entity_name"],
"chunks": chunks,
"entity_data": entity,
}
)
if not entities_with_chunks:
logger.warning("No entities with text chunks found")
return []
kg_chunk_pick_method = text_chunks_db.global_config.get(
"kg_chunk_pick_method", DEFAULT_KG_CHUNK_PICK_METHOD
)
max_related_chunks = text_chunks_db.global_config.get(
"related_chunk_number", DEFAULT_RELATED_CHUNK_NUMBER
)
# Step 2: Count chunk occurrences and deduplicate (keep chunks from earlier positioned entities)
chunk_occurrence_count = {}
for entity_info in entities_with_chunks:
deduplicated_chunks = []
for chunk_id in entity_info["chunks"]:
chunk_occurrence_count[chunk_id] = (
chunk_occurrence_count.get(chunk_id, 0) + 1
)
# If this is the first occurrence (count == 1), keep it; otherwise skip (duplicate from later position)
if chunk_occurrence_count[chunk_id] == 1:
deduplicated_chunks.append(chunk_id)
# count > 1 means this chunk appeared in an earlier entity, so skip it
# Update entity's chunks to deduplicated chunks
entity_info["chunks"] = deduplicated_chunks
# Step 3: Sort chunks for each entity by occurrence count (higher count = higher priority)
total_entity_chunks = 0
for entity_info in entities_with_chunks:
sorted_chunks = sorted(
entity_info["chunks"],
key=lambda chunk_id: chunk_occurrence_count.get(chunk_id, 0),
reverse=True,
)
entity_info["sorted_chunks"] = sorted_chunks
total_entity_chunks += len(sorted_chunks)
selected_chunk_ids = [] # Initialize to avoid UnboundLocalError
# Step 4: Apply the selected chunk selection algorithm
# Pick by vector similarity:
# The order of text chunks aligns with the naive retrieval's destination.
# When reranking is disabled, the text chunks delivered to the LLM tend to favor naive retrieval.
if kg_chunk_pick_method == "VECTOR" and query and chunks_vdb:
num_of_chunks = int(max_related_chunks * len(entities_with_chunks) / 2)
# Get embedding function from global config
actual_embedding_func = text_chunks_db.embedding_func
if not actual_embedding_func:
logger.warning("No embedding function found, falling back to WEIGHT method")
kg_chunk_pick_method = "WEIGHT"
else:
try:
selected_chunk_ids = await pick_by_vector_similarity(
query=query,
text_chunks_storage=text_chunks_db,
chunks_vdb=chunks_vdb,
num_of_chunks=num_of_chunks,
entity_info=entities_with_chunks,
embedding_func=actual_embedding_func,
query_embedding=query_embedding,
)
if selected_chunk_ids == []:
kg_chunk_pick_method = "WEIGHT"
logger.warning(
"No entity-related chunks selected by vector similarity, falling back to WEIGHT method"
)
else:
logger.info(
f"Selecting {len(selected_chunk_ids)} from {total_entity_chunks} entity-related chunks by vector similarity"
)
except Exception as e:
logger.error(
f"Error in vector similarity sorting: {e}, falling back to WEIGHT method"
)
kg_chunk_pick_method = "WEIGHT"
if kg_chunk_pick_method == "WEIGHT":
# Pick by entity and chunk weight:
# When reranking is disabled, delivered more solely KG related chunks to the LLM
selected_chunk_ids = pick_by_weighted_polling(
entities_with_chunks, max_related_chunks, min_related_chunks=1
)
logger.info(
f"Selecting {len(selected_chunk_ids)} from {total_entity_chunks} entity-related chunks by weighted polling"
)
if not selected_chunk_ids:
return []
# Step 5: Batch retrieve chunk data
unique_chunk_ids = list(
dict.fromkeys(selected_chunk_ids)
) # Remove duplicates while preserving order
chunk_data_list = await text_chunks_db.get_by_ids(unique_chunk_ids)
# Step 6: Build result chunks with valid data and update chunk tracking
result_chunks = []
for i, (chunk_id, chunk_data) in enumerate(zip(unique_chunk_ids, chunk_data_list)):
if chunk_data is not None and "content" in chunk_data:
chunk_data_copy = chunk_data.copy()
chunk_data_copy["source_type"] = "entity"
chunk_data_copy["chunk_id"] = chunk_id # Add chunk_id for deduplication
result_chunks.append(chunk_data_copy)
# Update chunk tracking if provided
if chunk_tracking is not None:
chunk_tracking[chunk_id] = {
"source": "E",
"frequency": chunk_occurrence_count.get(chunk_id, 1),
"order": i + 1, # 1-based order in final entity-related results
}
return result_chunks
async def _get_edge_data(
keywords,
knowledge_graph_inst: BaseGraphStorage,
relationships_vdb: BaseVectorStorage,
query_param: QueryParam,
):
logger.info(
f"Query edges: {keywords} (top_k:{query_param.top_k}, cosine:{relationships_vdb.cosine_better_than_threshold})"
)
results = await relationships_vdb.query(keywords, top_k=query_param.top_k)
if not len(results):
return [], []
# Prepare edge pairs in two forms:
# For the batch edge properties function, use dicts.
edge_pairs_dicts = [{"src": r["src_id"], "tgt": r["tgt_id"]} for r in results]
edge_data_dict = await knowledge_graph_inst.get_edges_batch(edge_pairs_dicts)
# Reconstruct edge_datas list in the same order as results.
edge_datas = []
for k in results:
pair = (k["src_id"], k["tgt_id"])
edge_props = edge_data_dict.get(pair)
if edge_props is not None:
if "weight" not in edge_props:
logger.warning(
f"Edge {pair} missing 'weight' attribute, using default value 1.0"
)
edge_props["weight"] = 1.0
# Keep edge data without rank, maintain vector search order
combined = {
"src_id": k["src_id"],
"tgt_id": k["tgt_id"],
"created_at": k.get("created_at", None),
**edge_props,
}
edge_datas.append(combined)
# Relations maintain vector search order (sorted by similarity)
use_entities = await _find_most_related_entities_from_relationships(
edge_datas,
query_param,
knowledge_graph_inst,
)
logger.info(
f"Global query: {len(use_entities)} entites, {len(edge_datas)} relations"
)
return edge_datas, use_entities
async def _find_most_related_entities_from_relationships(
edge_datas: list[dict],
query_param: QueryParam,
knowledge_graph_inst: BaseGraphStorage,
):
entity_names = []
seen = set()
for e in edge_datas:
if e["src_id"] not in seen:
entity_names.append(e["src_id"])
seen.add(e["src_id"])
if e["tgt_id"] not in seen:
entity_names.append(e["tgt_id"])
seen.add(e["tgt_id"])
# Only get nodes data, no need for node degrees
nodes_dict = await knowledge_graph_inst.get_nodes_batch(entity_names)
# Rebuild the list in the same order as entity_names
node_datas = []
for entity_name in entity_names:
node = nodes_dict.get(entity_name)
if node is None:
logger.warning(f"Node '{entity_name}' not found in batch retrieval.")
continue
# Combine the node data with the entity name, no rank needed
combined = {**node, "entity_name": entity_name}
node_datas.append(combined)
return node_datas
async def _find_related_text_unit_from_relations(
edge_datas: list[dict],
query_param: QueryParam,
text_chunks_db: BaseKVStorage,
entity_chunks: list[dict] = None,
query: str = None,
chunks_vdb: BaseVectorStorage = None,
chunk_tracking: dict = None,
query_embedding=None,
):
"""
Find text chunks related to relationships using configurable chunk selection method.
This function supports two chunk selection strategies:
1. WEIGHT: Linear gradient weighted polling based on chunk occurrence count
2. VECTOR: Vector similarity-based selection using embedding cosine similarity
"""
logger.debug(f"Finding text chunks from {len(edge_datas)} relations")
if not edge_datas:
return []
# Step 1: Collect all text chunks for each relationship
relations_with_chunks = []
for relation in edge_datas:
if relation.get("source_id"):
chunks = split_string_by_multi_markers(
relation["source_id"], [GRAPH_FIELD_SEP]
)
if chunks:
# Build relation identifier
if "src_tgt" in relation:
rel_key = tuple(sorted(relation["src_tgt"]))
else:
rel_key = tuple(
sorted([relation.get("src_id"), relation.get("tgt_id")])
)
relations_with_chunks.append(
{
"relation_key": rel_key,
"chunks": chunks,
"relation_data": relation,
}
)
if not relations_with_chunks:
logger.warning("No relation-related chunks found")
return []
kg_chunk_pick_method = text_chunks_db.global_config.get(
"kg_chunk_pick_method", DEFAULT_KG_CHUNK_PICK_METHOD
)
max_related_chunks = text_chunks_db.global_config.get(
"related_chunk_number", DEFAULT_RELATED_CHUNK_NUMBER
)
# Step 2: Count chunk occurrences and deduplicate (keep chunks from earlier positioned relationships)
# Also remove duplicates with entity_chunks
# Extract chunk IDs from entity_chunks for deduplication
entity_chunk_ids = set()
if entity_chunks:
for chunk in entity_chunks:
chunk_id = chunk.get("chunk_id")
if chunk_id:
entity_chunk_ids.add(chunk_id)
chunk_occurrence_count = {}
# Track unique chunk_ids that have been removed to avoid double counting
removed_entity_chunk_ids = set()
for relation_info in relations_with_chunks:
deduplicated_chunks = []
for chunk_id in relation_info["chunks"]:
# Skip chunks that already exist in entity_chunks
if chunk_id in entity_chunk_ids:
# Only count each unique chunk_id once
removed_entity_chunk_ids.add(chunk_id)
continue
chunk_occurrence_count[chunk_id] = (
chunk_occurrence_count.get(chunk_id, 0) + 1
)
# If this is the first occurrence (count == 1), keep it; otherwise skip (duplicate from later position)
if chunk_occurrence_count[chunk_id] == 1:
deduplicated_chunks.append(chunk_id)
# count > 1 means this chunk appeared in an earlier relationship, so skip it
# Update relationship's chunks to deduplicated chunks
relation_info["chunks"] = deduplicated_chunks
# Check if any relations still have chunks after deduplication
relations_with_chunks = [
relation_info
for relation_info in relations_with_chunks
if relation_info["chunks"]
]
if not relations_with_chunks:
logger.info(
f"Find no additional relations-related chunks from {len(edge_datas)} relations"
)
return []
# Step 3: Sort chunks for each relationship by occurrence count (higher count = higher priority)
total_relation_chunks = 0
for relation_info in relations_with_chunks:
sorted_chunks = sorted(
relation_info["chunks"],
key=lambda chunk_id: chunk_occurrence_count.get(chunk_id, 0),
reverse=True,
)
relation_info["sorted_chunks"] = sorted_chunks
total_relation_chunks += len(sorted_chunks)
logger.info(
f"Find {total_relation_chunks} additional chunks in {len(relations_with_chunks)} relations (deduplicated {len(removed_entity_chunk_ids)})"
)
# Step 4: Apply the selected chunk selection algorithm
selected_chunk_ids = [] # Initialize to avoid UnboundLocalError
if kg_chunk_pick_method == "VECTOR" and query and chunks_vdb:
num_of_chunks = int(max_related_chunks * len(relations_with_chunks) / 2)
# Get embedding function from global config
actual_embedding_func = text_chunks_db.embedding_func
if not actual_embedding_func:
logger.warning("No embedding function found, falling back to WEIGHT method")
kg_chunk_pick_method = "WEIGHT"
else:
try:
selected_chunk_ids = await pick_by_vector_similarity(
query=query,
text_chunks_storage=text_chunks_db,
chunks_vdb=chunks_vdb,
num_of_chunks=num_of_chunks,
entity_info=relations_with_chunks,
embedding_func=actual_embedding_func,
query_embedding=query_embedding,
)
if selected_chunk_ids == []:
kg_chunk_pick_method = "WEIGHT"
logger.warning(
"No relation-related chunks selected by vector similarity, falling back to WEIGHT method"
)
else:
logger.info(
f"Selecting {len(selected_chunk_ids)} from {total_relation_chunks} relation-related chunks by vector similarity"
)
except Exception as e:
logger.error(
f"Error in vector similarity sorting: {e}, falling back to WEIGHT method"
)
kg_chunk_pick_method = "WEIGHT"
if kg_chunk_pick_method == "WEIGHT":
# Apply linear gradient weighted polling algorithm
selected_chunk_ids = pick_by_weighted_polling(
relations_with_chunks, max_related_chunks, min_related_chunks=1
)
logger.info(
f"Selecting {len(selected_chunk_ids)} from {total_relation_chunks} relation-related chunks by weighted polling"
)
logger.debug(
f"KG related chunks: {len(entity_chunks)} from entitys, {len(selected_chunk_ids)} from relations"
)
if not selected_chunk_ids:
return []
# Step 5: Batch retrieve chunk data
unique_chunk_ids = list(
dict.fromkeys(selected_chunk_ids)
) # Remove duplicates while preserving order
chunk_data_list = await text_chunks_db.get_by_ids(unique_chunk_ids)
# Step 6: Build result chunks with valid data and update chunk tracking
result_chunks = []
for i, (chunk_id, chunk_data) in enumerate(zip(unique_chunk_ids, chunk_data_list)):
if chunk_data is not None and "content" in chunk_data:
chunk_data_copy = chunk_data.copy()
chunk_data_copy["source_type"] = "relationship"
chunk_data_copy["chunk_id"] = chunk_id # Add chunk_id for deduplication
result_chunks.append(chunk_data_copy)
# Update chunk tracking if provided
if chunk_tracking is not None:
chunk_tracking[chunk_id] = {
"source": "R",
"frequency": chunk_occurrence_count.get(chunk_id, 1),
"order": i + 1, # 1-based order in final relation-related results
}
return result_chunks
@overload
async def naive_query(
query: str,
chunks_vdb: BaseVectorStorage,
query_param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
system_prompt: str | None = None,
return_raw_data: Literal[True] = True,
) -> dict[str, Any]: ...
@overload
async def naive_query(
query: str,
chunks_vdb: BaseVectorStorage,
query_param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
system_prompt: str | None = None,
return_raw_data: Literal[False] = False,
) -> str | AsyncIterator[str]: ...
async def naive_query(
query: str,
chunks_vdb: BaseVectorStorage,
query_param: QueryParam,
global_config: dict[str, str],
hashing_kv: BaseKVStorage | None = None,
system_prompt: str | None = None,
) -> QueryResult | None:
"""
Execute naive query and return unified QueryResult object.
Args:
query: Query string
chunks_vdb: Document chunks vector database
query_param: Query parameters
global_config: Global configuration
hashing_kv: Cache storage
system_prompt: System prompt
Returns:
QueryResult | None: Unified query result object containing:
- content: Non-streaming response text content
- response_iterator: Streaming response iterator
- raw_data: Complete structured data (including references and metadata)
- is_streaming: Whether this is a streaming result
Returns None when no relevant chunks are retrieved.
"""
if not query:
return QueryResult(content=PROMPTS["fail_response"])
if query_param.model_func:
use_model_func = query_param.model_func
else:
use_model_func = global_config["llm_model_func"]
# Apply higher priority (5) to query relation LLM function
use_model_func = partial(use_model_func, _priority=5)
tokenizer: Tokenizer = global_config["tokenizer"]
if not tokenizer:
logger.error("Tokenizer not found in global configuration.")
return QueryResult(content=PROMPTS["fail_response"])
chunks = await _get_vector_context(query, chunks_vdb, query_param, None)
if chunks is None or len(chunks) == 0:
logger.info(
"[naive_query] No relevant document chunks found; returning no-result."
)
return None
# Calculate dynamic token limit for chunks
max_total_tokens = getattr(
query_param,
"max_total_tokens",
global_config.get("max_total_tokens", DEFAULT_MAX_TOTAL_TOKENS),
)
# Calculate system prompt template tokens (excluding content_data)
user_prompt = f"\n\n{query_param.user_prompt}" if query_param.user_prompt else "n/a"
response_type = (
query_param.response_type
if query_param.response_type
else "Multiple Paragraphs"
)
# Use the provided system prompt or default
sys_prompt_template = (
system_prompt if system_prompt else PROMPTS["naive_rag_response"]
)
# Create a preliminary system prompt with empty content_data to calculate overhead
pre_sys_prompt = sys_prompt_template.format(
response_type=response_type,
user_prompt=user_prompt,
content_data="", # Empty for overhead calculation
)
# Calculate available tokens for chunks
sys_prompt_tokens = len(tokenizer.encode(pre_sys_prompt))
query_tokens = len(tokenizer.encode(query))
buffer_tokens = 200 # reserved for reference list and safety buffer
available_chunk_tokens = max_total_tokens - (
sys_prompt_tokens + query_tokens + buffer_tokens
)
logger.debug(
f"Naive query token allocation - Total: {max_total_tokens}, SysPrompt: {sys_prompt_tokens}, Query: {query_tokens}, Buffer: {buffer_tokens}, Available for chunks: {available_chunk_tokens}"
)
# Process chunks using unified processing with dynamic token limit
processed_chunks = await process_chunks_unified(
query=query,
unique_chunks=chunks,
query_param=query_param,
global_config=global_config,
source_type="vector",
chunk_token_limit=available_chunk_tokens, # Pass dynamic limit
)
# Generate reference list from processed chunks using the new common function
reference_list, processed_chunks_with_ref_ids = generate_reference_list_from_chunks(
processed_chunks
)
logger.info(f"Final context: {len(processed_chunks_with_ref_ids)} chunks")
# Build raw data structure for naive mode using processed chunks with reference IDs
raw_data = convert_to_user_format(
[], # naive mode has no entities
[], # naive mode has no relationships
processed_chunks_with_ref_ids,
reference_list,
"naive",
)
# Add complete metadata for naive mode
if "metadata" not in raw_data:
raw_data["metadata"] = {}
raw_data["metadata"]["keywords"] = {
"high_level": [], # naive mode has no keyword extraction
"low_level": [], # naive mode has no keyword extraction
}
raw_data["metadata"]["processing_info"] = {
"total_chunks_found": len(chunks),
"final_chunks_count": len(processed_chunks_with_ref_ids),
}
# Build chunks_context from processed chunks with reference IDs
chunks_context = []
for i, chunk in enumerate(processed_chunks_with_ref_ids):
chunks_context.append(
{
"reference_id": chunk["reference_id"],
"content": chunk["content"],
}
)
text_units_str = "\n".join(
json.dumps(text_unit, ensure_ascii=False) for text_unit in chunks_context
)
reference_list_str = "\n".join(
f"[{ref['reference_id']}] {ref['file_path']}"
for ref in reference_list
if ref["reference_id"]
)
naive_context_template = PROMPTS["naive_query_context"]
context_content = naive_context_template.format(
text_chunks_str=text_units_str,
reference_list_str=reference_list_str,
)
if query_param.only_need_context and not query_param.only_need_prompt:
return QueryResult(content=context_content, raw_data=raw_data)
sys_prompt = sys_prompt_template.format(
response_type=query_param.response_type,
user_prompt=user_prompt,
content_data=context_content,
)
user_query = query
if query_param.only_need_prompt:
prompt_content = "\n\n".join([sys_prompt, "---User Query---", user_query])
return QueryResult(content=prompt_content, raw_data=raw_data)
# Handle cache
args_hash = compute_args_hash(
query_param.mode,
query,
query_param.response_type,
query_param.top_k,
query_param.chunk_top_k,
query_param.max_entity_tokens,
query_param.max_relation_tokens,
query_param.max_total_tokens,
query_param.user_prompt or "",
query_param.enable_rerank,
)
cached_result = await handle_cache(
hashing_kv, args_hash, user_query, query_param.mode, cache_type="query"
)
if cached_result is not None:
cached_response, _ = cached_result # Extract content, ignore timestamp
logger.info(
" == LLM cache == Query cache hit, using cached response as query result"
)
response = cached_response
else:
response = await use_model_func(
user_query,
system_prompt=sys_prompt,
history_messages=query_param.conversation_history,
enable_cot=True,
stream=query_param.stream,
)
if hashing_kv and hashing_kv.global_config.get("enable_llm_cache"):
queryparam_dict = {
"mode": query_param.mode,
"response_type": query_param.response_type,
"top_k": query_param.top_k,
"chunk_top_k": query_param.chunk_top_k,
"max_entity_tokens": query_param.max_entity_tokens,
"max_relation_tokens": query_param.max_relation_tokens,
"max_total_tokens": query_param.max_total_tokens,
"user_prompt": query_param.user_prompt or "",
"enable_rerank": query_param.enable_rerank,
}
await save_to_cache(
hashing_kv,
CacheData(
args_hash=args_hash,
content=response,
prompt=query,
mode=query_param.mode,
cache_type="query",
queryparam=queryparam_dict,
),
)
# Return unified result based on actual response type
if isinstance(response, str):
# Non-streaming response (string)
if len(response) > len(sys_prompt):
response = (
response[len(sys_prompt) :]
.replace(sys_prompt, "")
.replace("user", "")
.replace("model", "")
.replace(query, "")
.replace("", "")
.replace("", "")
.strip()
)
return QueryResult(content=response, raw_data=raw_data)
else:
# Streaming response (AsyncIterator)
return QueryResult(
response_iterator=response, raw_data=raw_data, is_streaming=True
)