convex best practices

📁 waynesutton/convexskills 📅 Jan 24, 2026

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安装命令

npx skills add https://github.com/waynesutton/convexskills --skill convex-best-practices

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Skill 文档

Convex Best Practices

Build production-ready Convex applications by following established patterns for function organization, query optimization, validation, TypeScript usage, and error handling.

Code Quality

All patterns in this skill comply with @convex-dev/eslint-plugin. Install it for build-time validation:

npm i @convex-dev/eslint-plugin --save-dev

// eslint.config.js
import { defineConfig } from "eslint/config";
import convexPlugin from "@convex-dev/eslint-plugin";

export default defineConfig([
  ...convexPlugin.configs.recommended,
]);

The plugin enforces four rules:

Rule	What it enforces
`no-old-registered-function-syntax`	Object syntax with `handler`
`require-argument-validators`	`args: {}` on all functions
`explicit-table-ids`	Table name in db operations
`import-wrong-runtime`	No Node imports in Convex runtime

Docs: https://docs.convex.dev/eslint

Documentation Sources

Before implementing, do not assume; fetch the latest documentation:

Primary: https://docs.convex.dev/understanding/best-practices/
Error Handling: https://docs.convex.dev/functions/error-handling
Write Conflicts: https://docs.convex.dev/error#1
For broader context: https://docs.convex.dev/llms.txt

Instructions

The Zen of Convex

Convex manages the hard parts – Let Convex handle caching, real-time sync, and consistency
Functions are the API – Design your functions as your application’s interface
Schema is truth – Define your data model explicitly in schema.ts
TypeScript everywhere – Leverage end-to-end type safety
Queries are reactive – Think in terms of subscriptions, not requests

Function Organization

Organize your Convex functions by domain:

// convex/users.ts - User-related functions
import { query, mutation } from "./_generated/server";
import { v } from "convex/values";

export const get = query({
  args: { userId: v.id("users") },
  returns: v.union(
    v.object({
      _id: v.id("users"),
      _creationTime: v.number(),
      name: v.string(),
      email: v.string(),
    }),
    v.null(),
  ),
  handler: async (ctx, args) => {
    return await ctx.db.get("users", args.userId);
  },
});

Argument and Return Validation

Always define validators for arguments AND return types:

export const createTask = mutation({
  args: {
    title: v.string(),
    description: v.optional(v.string()),
    priority: v.union(v.literal("low"), v.literal("medium"), v.literal("high")),
  },
  returns: v.id("tasks"),
  handler: async (ctx, args) => {
    return await ctx.db.insert("tasks", {
      title: args.title,
      description: args.description,
      priority: args.priority,
      completed: false,
      createdAt: Date.now(),
    });
  },
});

Query Patterns

Use indexes instead of filters for efficient queries:

// Schema with index
export default defineSchema({
  tasks: defineTable({
    userId: v.id("users"),
    status: v.string(),
    createdAt: v.number(),
  })
    .index("by_user", ["userId"])
    .index("by_user_and_status", ["userId", "status"]),
});

// Query using index
export const getTasksByUser = query({
  args: { userId: v.id("users") },
  returns: v.array(
    v.object({
      _id: v.id("tasks"),
      _creationTime: v.number(),
      userId: v.id("users"),
      status: v.string(),
      createdAt: v.number(),
    }),
  ),
  handler: async (ctx, args) => {
    return await ctx.db
      .query("tasks")
      .withIndex("by_user", (q) => q.eq("userId", args.userId))
      .order("desc")
      .collect();
  },
});

Error Handling

Use ConvexError for user-facing errors:

import { ConvexError } from "convex/values";

export const updateTask = mutation({
  args: {
    taskId: v.id("tasks"),
    title: v.string(),
  },
  returns: v.null(),
  handler: async (ctx, args) => {
    const task = await ctx.db.get("tasks", args.taskId);

    if (!task) {
      throw new ConvexError({
        code: "NOT_FOUND",
        message: "Task not found",
      });
    }

    await ctx.db.patch("tasks", args.taskId, { title: args.title });
    return null;
  },
});

Avoiding Write Conflicts (Optimistic Concurrency Control)

Convex uses OCC. Follow these patterns to minimize conflicts:

// GOOD: Make mutations idempotent
export const completeTask = mutation({
  args: { taskId: v.id("tasks") },
  returns: v.null(),
  handler: async (ctx, args) => {
    const task = await ctx.db.get("tasks", args.taskId);

    // Early return if already complete (idempotent)
    if (!task || task.status === "completed") {
      return null;
    }

    await ctx.db.patch("tasks", args.taskId, {
      status: "completed",
      completedAt: Date.now(),
    });
    return null;
  },
});

// GOOD: Patch directly without reading first when possible
export const updateNote = mutation({
  args: { id: v.id("notes"), content: v.string() },
  returns: v.null(),
  handler: async (ctx, args) => {
    // Patch directly - ctx.db.patch throws if document doesn't exist
    await ctx.db.patch("notes", args.id, { content: args.content });
    return null;
  },
});

// GOOD: Use Promise.all for parallel independent updates
export const reorderItems = mutation({
  args: { itemIds: v.array(v.id("items")) },
  returns: v.null(),
  handler: async (ctx, args) => {
    const updates = args.itemIds.map((id, index) =>
      ctx.db.patch("items", id, { order: index }),
    );
    await Promise.all(updates);
    return null;
  },
});

TypeScript Best Practices

import { Id, Doc } from "./_generated/dataModel";

// Use Id type for document references
type UserId = Id<"users">;

// Use Doc type for full documents
type User = Doc<"users">;

// Define Record types properly
const userScores: Record<Id<"users">, number> = {};

Internal vs Public Functions

// Public function - exposed to clients
export const getUser = query({
  args: { userId: v.id("users") },
  returns: v.union(
    v.null(),
    v.object({
      /* ... */
    }),
  ),
  handler: async (ctx, args) => {
    // ...
  },
});

// Internal function - only callable from other Convex functions
export const _updateUserStats = internalMutation({
  args: { userId: v.id("users") },
  returns: v.null(),
  handler: async (ctx, args) => {
    // ...
  },
});

Examples

Complete CRUD Pattern

// convex/tasks.ts
import { query, mutation } from "./_generated/server";
import { v } from "convex/values";
import { ConvexError } from "convex/values";

const taskValidator = v.object({
  _id: v.id("tasks"),
  _creationTime: v.number(),
  title: v.string(),
  completed: v.boolean(),
  userId: v.id("users"),
});

export const list = query({
  args: { userId: v.id("users") },
  returns: v.array(taskValidator),
  handler: async (ctx, args) => {
    return await ctx.db
      .query("tasks")
      .withIndex("by_user", (q) => q.eq("userId", args.userId))
      .collect();
  },
});

export const create = mutation({
  args: {
    title: v.string(),
    userId: v.id("users"),
  },
  returns: v.id("tasks"),
  handler: async (ctx, args) => {
    return await ctx.db.insert("tasks", {
      title: args.title,
      completed: false,
      userId: args.userId,
    });
  },
});

export const update = mutation({
  args: {
    taskId: v.id("tasks"),
    title: v.optional(v.string()),
    completed: v.optional(v.boolean()),
  },
  returns: v.null(),
  handler: async (ctx, args) => {
    const { taskId, ...updates } = args;

    // Remove undefined values
    const cleanUpdates = Object.fromEntries(
      Object.entries(updates).filter(([_, v]) => v !== undefined),
    );

    if (Object.keys(cleanUpdates).length > 0) {
      await ctx.db.patch("tasks", taskId, cleanUpdates);
    }
    return null;
  },
});

export const remove = mutation({
  args: { taskId: v.id("tasks") },
  returns: v.null(),
  handler: async (ctx, args) => {
    await ctx.db.delete("tasks", args.taskId);
    return null;
  },
});

Best Practices

Never run npx convex deploy unless explicitly instructed
Never run any git commands unless explicitly instructed
Always define return validators for functions
Use indexes for all queries that filter data
Make mutations idempotent to handle retries gracefully
Use ConvexError for user-facing error messages
Organize functions by domain (users.ts, tasks.ts, etc.)
Use internal functions for sensitive operations
Leverage TypeScript’s Id and Doc types

Common Pitfalls

Using filter instead of withIndex – Always define indexes and use withIndex
Missing return validators – Always specify the returns field
Non-idempotent mutations – Check current state before updating
Reading before patching unnecessarily – Patch directly when possible
Not handling null returns – Document IDs might not exist

References

Convex Documentation: https://docs.convex.dev/
Convex LLMs.txt: https://docs.convex.dev/llms.txt
Best Practices: https://docs.convex.dev/understanding/best-practices/
Error Handling: https://docs.convex.dev/functions/error-handling
Write Conflicts: https://docs.convex.dev/error#1

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