exa-data-handling | exa-pack

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exa-data-handling | exa-pack

Exa Data Handling

Overview

Manage search result data from Exa's neural search API. Covers content extraction scope control (text vs highlights vs summary), result caching with TTL, citation deduplication, token budget management for LLM context windows, and structured summary extraction.

Prerequisites

exa-js SDK installed and configured
Optional: lru-cache for in-memory caching, ioredis for Redis
Understanding of Exa content options (text, highlights, summary)

Instructions

Step 1: Control Content Extraction Scope

import Exa from "exa-js";

const exa = new Exa(process.env.EXA_API_KEY);

// Tier 1: Metadata only (cheapest, fastest)
async function searchMetadataOnly(query: string) {
  return exa.search(query, {
    type: "auto",
    numResults: 10,
    // No content options — returns URLs, titles, scores only
  });
}

// Tier 2: Highlights only (balanced cost/value)
async function searchWithHighlights(query: string) {
  return exa.searchAndContents(query, {
    numResults: 10,
    highlights: {
      maxCharacters: 500,
      query: query,  // focus highlights on the original query
    },
  });
}

// Tier 3: Full text with character limit
async function searchWithText(query: string, maxChars = 2000) {
  return exa.searchAndContents(query, {
    numResults: 5,
    text: { maxCharacters: maxChars },
    highlights: { maxCharacters: 300 },
  });
}

// Tier 4: Structured summary (LLM-generated per result)
async function searchWithSummary(query: string) {
  return exa.searchAndContents(query, {
    numResults: 5,
    summary: { query: query },
    // summary returns a concise LLM-generated summary per result
  });
}

Step 2: Result Caching with TTL

import { LRUCache } from "lru-cache";
import { createHash } from "crypto";

const searchCache = new LRUCache<string, any>({
  max: 500,
  ttl: 1000 * 60 * 60, // 1 hour default
});

function cacheKey(query: string, options: any): string {
  return createHash("sha256")
    .update(JSON.stringify({ query, ...options }))
    .digest("hex");
}

async function cachedSearch(query: string, options: any = {}, ttlMs?: number) {
  const key = cacheKey(query, options);
  const cached = searchCache.get(key);
  if (cached) return cached;

  const results = await exa.searchAndContents(query, options);
  searchCache.set(key, results, { ttl: ttlMs });
  return results;
}

Step 3: Token Budget Management for RAG

interface ProcessedResult {
  url: string;
  title: string;
  score: number;
  snippet: string;
  tokenEstimate: number;
}

function processForRAG(results: any[], maxSnippetLength = 500): ProcessedResult[] {
  return results.map(r => {
    const snippet = (r.text || r.highlights?.join(" ") || r.summary || "")
      .slice(0, maxSnippetLength);
    return {
      url: r.url,
      title: r.title || "Untitled",
      score: r.score,
      snippet,
      tokenEstimate: Math.ceil(snippet.length / 4),
    };
  });
}

function fitToTokenBudget(results: ProcessedResult[], maxTokens: number) {
  const sorted = [...results].sort((a, b) => b.score - a.score);
  const selected: ProcessedResult[] = [];
  let tokenCount = 0;

  for (const result of sorted) {
    if (tokenCount + result.tokenEstimate > maxTokens) break;
    selected.push(result);
    tokenCount += result.tokenEstimate;
  }

  return { selected, tokenCount, dropped: sorted.length - selected.length };
}

// Usage: fit search results into a 4K token context window
const results = await exa.searchAndContents("query", {
  numResults: 15,
  text: { maxCharacters: 1500 },
});
const processed = processForRAG(results.results);
const { selected, tokenCount } = fitToTokenBudget(processed, 4000);

Step 4: Citation Deduplication

function deduplicateResults(results: any[]): any[] {
  const seen = new Map<string, any>();

  for (const result of results) {
    const domain = new URL(result.url).hostname;
    const key = `${domain}:${result.title}`;
    if (!seen.has(key) || result.score > seen.get(key).score) {
      seen.set(key, result);
    }
  }

  return Array.from(seen.values());
}

Step 5: Structured Summary Extraction

// Use summary.schema for structured data extraction
const results = await exa.searchAndContents(
  "YC-backed AI startups Series A 2025",
  {
    numResults: 10,
    category: "company",
    summary: {
      query: "company name, funding amount, what they do",
      // schema can define JSON structure for the summary output
    },
  }
);

// Each result.summary contains a structured summary
for (const r of results.results) {
  console.log(`${r.title}: ${r.summary}`);
}

Error Handling

Issue	Cause	Solution
Large response payload	Full text for many URLs	Use highlights or limit `maxCharacters`
Cache stale for news	Default TTL too long	Use 5-minute TTL for time-sensitive queries
Duplicate sources	Same article syndicated	Deduplicate by domain + title
Token budget exceeded	Too much context for LLM	Use `fitToTokenBudget` to trim by score
Missing `.text` field	Content not requested	Use `searchAndContents` not `search`

Examples

RAG-Optimized Search Pipeline

async function ragSearch(query: string, tokenBudget = 4000) {
  const results = await cachedSearch(query, {
    numResults: 15,
    type: "neural",
    text: { maxCharacters: 1500 },
    highlights: { maxCharacters: 300, query },
  });

  const deduped = deduplicateResults(results.results);
  const processed = processForRAG(deduped);
  const { selected, tokenCount } = fitToTokenBudget(processed, tokenBudget);

  return {
    context: selected.map((r, i) =>
      `[${i + 1}] ${r.title} (${r.url})\n${r.snippet}`
    ).join("\n\n---\n\n"),
    sources: selected.map(r => ({ title: r.title, url: r.url })),
    tokenCount,
  };
}

Resources

Next Steps

For rate limit handling, see exa-rate-limits. For cost optimization, see exa-cost-tuning.