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IntegraChat / backend /api /services /tool_selector.py

nothingworry

feat: add caching, query expansion, improved streaming, and enhanced error handling

ddc5c21 15 days ago

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	from dataclasses import dataclass, field
	import json
	import re
	from typing import Dict, Any, Optional, List
	from .tool_metadata import (
	get_tool_latency_estimate,
	estimate_path_latency,
	get_fastest_path,
	validate_tool_output
	)


	@dataclass
	class ToolSelector:
	llm_client: any = None

	async def select(self, intent: str, text: str, ctx):
	msg = text.lower().strip()
	tool_scores = ctx.get("tool_scores", {})
	rag_score = tool_scores.get("rag_fitness", 0.0)
	web_score = tool_scores.get("web_fitness", 0.0)
	llm_score = tool_scores.get("llm_only", 0.0)

	# Context-aware routing: Check previous outputs
	rag_results = ctx.get("rag_results", [])
	memory = ctx.get("memory", []) # Recent tool outputs from conversation memory
	admin_violations = ctx.get("admin_violations", [])

	# Context-aware decisions
	context_hints = self._analyze_context(rag_results, memory, admin_violations, tool_scores)

	# ---------------------------------
	# 1. Detect ADMIN RULES FIRST
	# ---------------------------------
	if intent == "admin":
	# Context-aware: If severe violation, skip agent reasoning
	if context_hints.get("skip_agent_reasoning"):
	return _multi_step([
	step("admin", {"query": text})
	], "admin critical violation → immediate block (latency: ~10ms)")

	# Estimate latency for admin path
	admin_latency = get_tool_latency_estimate("admin", {"query_length": len(text)})
	llm_latency = get_tool_latency_estimate("llm", {"query_length": len(text)})
	total_latency = admin_latency + llm_latency

	return _multi_step([
	step("admin", {"query": text}),
	step("llm", {"query": text})
	], f"admin safety rule triggered → llm (est. latency: {total_latency}ms)")

	steps = []
	needs_rag = False
	needs_web = False

	# ---------------------------------
	# 2. PRIORITY: Check for news/current events queries FIRST
	# ---------------------------------
	# This must happen BEFORE RAG check to prevent news queries from using RAG
	freshness_keywords = ["latest", "today", "news", "current", "recent",
	"now", "updates", "breaking", "trending", "happening",
	"what's new", "what is new", "what happened"]
	news_patterns = [
	r"latest news", r"current news", r"today's news", r"breaking news",
	r"news about", r"news on", r"news of", r"what's happening",
	r"what happened", r"recent news", r"news update"
	]

	is_news_query = any(k in msg for k in freshness_keywords) or any(re.search(p, msg) for p in news_patterns)

	# If it's a news query, skip RAG entirely and go straight to web
	if is_news_query:
	needs_web = True
	needs_rag = False # News queries should NEVER use RAG

	# For news queries, enhance the query to be more specific
	web_query = text
	if len(text.split()) <= 4: # Short queries like "latest news about Al"
	# Expand the query for better results
	if "news" not in msg:
	web_query = f"{text} news latest"
	elif "about" not in msg and "on" not in msg:
	# If query is just "latest news Al", expand to "latest news about Al"
	web_query = f"latest news about {text.replace('latest', '').replace('news', '').strip()}"

	# Estimate latency for web search
	web_latency = get_tool_latency_estimate("web", {
	"query_length": len(web_query),
	"query_complexity": "high" if len(web_query.split()) > 10 else "medium"
	})
	steps.append(step("web", {"query": web_query, "_estimated_latency_ms": web_latency}))

	# ---------------------------------
	# 3. Check RAG results (pre-fetch) with context-aware routing
	# ---------------------------------
	# Only check RAG if it's NOT a news query
	if not is_news_query:
	rag_has_data = len(rag_results) > 0

	# Context-aware: If RAG returned high score, skip web search
	rag_high_score = False
	if rag_results:
	top_score = max((r.get("similarity", 0) for r in rag_results), default=0)
	rag_high_score = top_score >= 0.8
	if rag_high_score and context_hints.get("skip_web_if_rag_high"):
	# High confidence RAG result, skip web
	needs_web = False

	# Context-aware: If agent already has relevant memory, skip RAG
	has_relevant_memory = context_hints.get("has_relevant_memory", False)
	if has_relevant_memory and context_hints.get("skip_rag_if_memory"):
	needs_rag = False
	else:
	# RAG patterns: internal knowledge, company-specific, documentation
	rag_patterns = [
	r"company", r"internal", r"documentation", r"our ", r"your ",
	r"knowledge base", r"private", r"internal docs", r"corporate",
	r"admin", r"administrator"
	]
	# Exclude "who is" and "what is" from RAG patterns if they're part of news queries
	# But keep them for non-news queries
	if not is_news_query:
	rag_patterns.extend([r"who is", r"what is"])

	if rag_has_data or rag_score >= 0.55 or any(re.search(p, msg) for p in rag_patterns):
	needs_rag = True
	if not any(s.get("tool") == "rag" for s in steps):
	# Estimate latency for RAG
	rag_latency = get_tool_latency_estimate("rag", {"query_length": len(text)})
	steps.append(step("rag", {"query": text, "_estimated_latency_ms": rag_latency}))

	# ---------------------------------
	# 4. Fact lookup / definition → Web (with context-aware routing)
	# ---------------------------------
	# Only check fact patterns if it's NOT a news query (news already handled above)
	if not is_news_query:
	# Skip web if RAG already provided high-quality results
	rag_high_score = False
	if rag_results:
	top_score = max((r.get("similarity", 0) for r in rag_results), default=0)
	rag_high_score = top_score >= 0.8

	if not (rag_high_score and context_hints.get("skip_web_if_rag_high")):
	fact_patterns = [
	r"what is ", r"who is ", r"where is ",
	r"tell me about ", r"define ", r"explain ",
	r"history of ", r"information about", r"details about"
	]
	if web_score >= 0.55 or any(re.search(p, msg) for p in fact_patterns):
	needs_web = True
	# Avoid duplicate web steps
	if not any(s.get("tool") == "web" for s in steps):
	# Estimate latency for web search
	web_latency = get_tool_latency_estimate("web", {
	"query_length": len(text),
	"query_complexity": "high" if len(text.split()) > 10 else "medium"
	})
	steps.append(step("web", {"query": text, "_estimated_latency_ms": web_latency}))

	# ---------------------------------
	# 5. Complex queries that need multiple sources
	# ---------------------------------
	complex_patterns = [
	r"compare", r"difference between", r"versus", r"vs",
	r"both", r"and also", r"as well as", r"in addition"
	]
	needs_multiple = any(re.search(p, msg) for p in complex_patterns)

	# ---------------------------------
	# 6. Use LLM to enhance plan if we have partial steps or complex query
	# ---------------------------------
	# Check if we should use parallel execution (both RAG and Web needed)
	should_parallel = needs_rag and needs_web and (needs_multiple or rag_score >= 0.55 and web_score >= 0.55)

	if self.llm_client and (needs_multiple or (needs_rag and needs_web) or len(steps) == 0):
	plan_prompt = f"""
	You are an enterprise MCP agent.
	You can select MULTIPLE tools in sequence OR in parallel to provide comprehensive answers.

	TOOLS:
	- rag → private knowledge retrieval (use for internal/company docs)
	- web → online factual lookup (use for public facts, current info)
	- llm → final reasoning and synthesis (always include at end)

	Current context:
	- RAG available: {rag_has_data}
	- User message: "{text}"
	- Tool scores: {json.dumps(tool_scores)}

	Determine which tools are needed. You can select:
	- Just LLM (simple questions)
	- RAG + LLM (internal knowledge questions)
	- Web + LLM (public fact questions)
	- RAG + Web + LLM (comprehensive questions needing both sources)

	IMPORTANT: If the query needs BOTH internal docs (RAG) AND current/live info (Web),
	you can mark them for parallel execution by using a "parallel" step.

	Return a JSON list describing the steps. For parallel execution, use:
	[
	{{
	"parallel": {{
	"rag": "query for internal docs",
	"web": "query for live info"
	}},
	"reason": "Need both internal and live information simultaneously"
	}},
	{{"tool": "llm", "reason": "Synthesize all information"}}
	]

	For sequential execution, use:
	[
	{{"tool": "rag", "reason": "Need internal documentation"}},
	{{"tool": "web", "reason": "Need current public information"}},
	{{"tool": "llm", "reason": "Synthesize all information"}}
	]

	Only return the JSON array. Do not include markdown formatting.
	"""
	try:
	out = await self.llm_client.simple_call(plan_prompt)
	# Clean the output in case LLM adds markdown
	out = out.strip()
	if out.startswith("```json"):
	out = out[7:]
	if out.startswith("```"):
	out = out[3:]
	if out.endswith("```"):
	out = out[:-3]
	out = out.strip()

	steps_json = json.loads(out)

	# Check if LLM returned a parallel step
	has_parallel = any("parallel" in s for s in steps_json)

	if has_parallel:
	# Extract parallel step and convert to our format
	parallel_step = None
	other_steps = []
	for s in steps_json:
	if "parallel" in s:
	parallel_step = {"parallel": s["parallel"]}
	elif s.get("tool") != "llm":
	other_steps.append(step(s["tool"], {"query": text}))

	if parallel_step:
	steps = [parallel_step] + other_steps
	else:
	# Fallback: convert to regular steps
	steps = [
	step(s["tool"], {"query": text})
	for s in steps_json if s.get("tool") != "llm"
	]
	else:
	# Replace steps with LLM-planned steps (excluding LLM, we'll add it at end)
	steps = [
	step(s["tool"], {"query": text})
	for s in steps_json if s.get("tool") != "llm"
	]
	except Exception as e:
	# If LLM planning fails, check if we should create parallel step manually
	if should_parallel and needs_rag and needs_web:
	# Create parallel step manually
	steps = [{
	"parallel": {
	"rag": text,
	"web": text
	}
	}]
	elif not steps:
	steps = []

	# ---------------------------------
	# 7. If we have both RAG and Web but no parallel step, consider creating one
	# ---------------------------------
	if should_parallel and needs_rag and needs_web:
	# Check if we already have a parallel step
	has_parallel = any("parallel" in s for s in steps)
	if not has_parallel:
	# Replace sequential RAG and Web steps with a parallel step
	new_steps = []
	rag_query = text
	web_query = text

	# Extract queries from existing steps if available
	for s in steps:
	if s.get("tool") == "rag":
	rag_query = s.get("input", {}).get("query", text)
	elif s.get("tool") == "web":
	web_query = s.get("input", {}).get("query", text)

	# Create parallel step
	new_steps.append({
	"parallel": {
	"rag": rag_query,
	"web": web_query
	}
	})

	# Keep other non-RAG/Web steps
	for s in steps:
	if s.get("tool") not in ["rag", "web"]:
	new_steps.append(s)

	steps = new_steps

	# ---------------------------------
	# 8. Always end with LLM synthesis
	# ---------------------------------
	if not steps or (isinstance(steps[-1], dict) and steps[-1].get("tool") != "llm" and "parallel" not in steps[-1]):
	steps.append(step("llm", {
	"rag_data": rag_results if rag_has_data else None,
	"query": text
	}))

	# Optimize tool order for latency (fastest first when possible)
	if len(steps) > 1:
	# Reorder steps by estimated latency (except LLM which should be last)
	llm_step = None
	other_steps = []
	for s in steps:
	if isinstance(s, dict) and s.get("tool") == "llm":
	llm_step = s
	else:
	other_steps.append(s)

	# Sort other steps by latency
	other_steps.sort(key=lambda s: s.get("input", {}).get("_estimated_latency_ms", 1000))

	# Rebuild steps with LLM last
	steps = other_steps
	if llm_step:
	steps.append(llm_step)

	# Calculate total estimated latency
	tool_names = []
	total_latency = 0
	for s in steps:
	if "parallel" in s:
	tool_names.append("parallel(RAG+Web)")
	# Parallel execution: use max latency
	rag_lat = get_tool_latency_estimate("rag")
	web_lat = get_tool_latency_estimate("web")
	total_latency += max(rag_lat, web_lat)
	elif isinstance(s, dict) and "tool" in s:
	tool_name = s["tool"]
	tool_names.append(tool_name)
	est_latency = s.get("input", {}).get("_estimated_latency_ms")
	if est_latency:
	total_latency += est_latency
	else:
	total_latency += get_tool_latency_estimate(tool_name)

	# Build reason with latency and context hints
	context_info = []
	if context_hints.get("skip_web_if_rag_high"):
	context_info.append("RAG high score → skip web")
	if context_hints.get("skip_rag_if_memory"):
	context_info.append("memory available → skip RAG")
	if context_hints.get("skip_agent_reasoning"):
	context_info.append("critical violation → skip reasoning")

	context_str = f" \| context: {', '.join(context_info)}" if context_info else ""
	reason = f"multi-tool plan: {' → '.join(tool_names)} \| est. latency: {total_latency}ms \| scores={tool_scores}{context_str}"

	return _multi_step(steps, reason)

	def _analyze_context(
	self,
	rag_results: List[Dict],
	memory: List[Dict],
	admin_violations: List[Dict],
	tool_scores: Dict[str, float]
	) -> Dict[str, Any]:
	"""
	Analyze context from previous outputs to make routing decisions.

	Returns context hints for intelligent tool selection.
	"""
	hints = {}

	# Check RAG results quality
	if rag_results:
	top_score = max((r.get("similarity", 0) for r in rag_results), default=0)
	if top_score >= 0.8:
	hints["skip_web_if_rag_high"] = True
	hints["rag_high_confidence"] = True

	# Check if relevant memory exists
	if memory:
	# Check if memory contains relevant RAG results
	has_rag_memory = any(
	m.get("tool") == "rag" and m.get("result", {}).get("results")
	for m in memory[-5:] # Check last 5 memory entries
	)
	if has_rag_memory:
	hints["has_relevant_memory"] = True
	# Only skip RAG if memory is very recent and high quality
	recent_memory = memory[-1] if memory else {}
	if recent_memory.get("tool") == "rag":
	mem_results = recent_memory.get("result", {}).get("results", [])
	if mem_results:
	mem_top_score = max((r.get("similarity", 0) for r in mem_results), default=0)
	if mem_top_score >= 0.75:
	hints["skip_rag_if_memory"] = True

	# Check admin violations severity
	if admin_violations:
	max_severity = max(
	(v.get("severity", "low") for v in admin_violations),
	key=lambda s: ["low", "medium", "high", "critical"].index(s) if s in ["low", "medium", "high", "critical"] else 0
	)
	if max_severity in ["high", "critical"]:
	hints["skip_agent_reasoning"] = True
	hints["critical_violation"] = True

	return hints



	def step(tool, input_data):
	return {"tool": tool, "input": input_data}


	def _multi_step(steps, reason):
	from ..models.agent import AgentDecision
	return AgentDecision(
	action="multi_step",
	tool=None,
	tool_input={"steps": steps},
	reason=reason
	)