convex-patterns

Code organization patterns and TypeScript best practices for Convex. Use when structuring a Convex project, writing helper functions, defining schemas, working with types like QueryCtx/MutationCtx/ActionCtx, or organizing code in a convex/model directory.

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Обновлено 1/19/2026

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convex-patterns

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Convex Patterns

Always Define Return Validators

Every function should have a returns validator:

export const getUser = 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);
  },
});

Project Structure

convex/
├── _generated/
├── lib/              # Shared utilities
│   └── auth.ts       # Auth helpers
├── model/            # Business logic
│   ├── users.ts
│   └── tasks.ts
├── schema.ts         # Database schema
├── users.ts          # Public API (thin wrappers)
└── tasks.ts

Helper Functions Pattern

Business logic in model/, thin wrappers in public API:

// convex/model/users.ts
import { QueryCtx, MutationCtx } from '../_generated/server';
import { Doc, Id } from '../_generated/dataModel';
import { ConvexError } from "convex/values";

export async function getCurrentUser(ctx: QueryCtx | MutationCtx): Promise<Doc<"users">> {
  const identity = await ctx.auth.getUserIdentity();
  if (!identity) {
    throw new ConvexError({ code: "UNAUTHENTICATED", message: "Not logged in" });
  }

  const user = await ctx.db
    .query("users")
    .withIndex("by_tokenIdentifier", (q) => q.eq("tokenIdentifier", identity.tokenIdentifier))
    .unique();

  if (!user) {
    throw new ConvexError({ code: "NOT_FOUND", message: "User not found" });
  }
  return user;
}

export async function getById(ctx: QueryCtx, userId: Id<"users">): Promise<Doc<"users"> | null> {
  return await ctx.db.get("users", userId);
}

// convex/users.ts (thin wrapper)
import { query } from "./_generated/server";
import { v } from "convex/values";
import * as Users from "./model/users";

export const get = query({
  args: { userId: v.id("users") },
  returns: v.union(v.object({ _id: v.id("users"), name: v.string() }), v.null()),
  handler: async (ctx, args) => Users.getById(ctx, args.userId),
});

Schema Definition

// convex/schema.ts
import { defineSchema, defineTable } from "convex/server";
import { v } from "convex/values";

export default defineSchema({
  users: defineTable({
    tokenIdentifier: v.string(),
    name: v.string(),
    email: v.string(),
    role: v.union(v.literal("user"), v.literal("admin")),
  })
    .index("by_tokenIdentifier", ["tokenIdentifier"])
    .index("by_email", ["email"]),

  tasks: defineTable({
    title: v.string(),
    description: v.optional(v.string()),
    userId: v.id("users"),
    status: v.union(v.literal("pending"), v.literal("done")),
    priority: v.union(v.literal("low"), v.literal("medium"), v.literal("high")),
  })
    .index("by_user", ["userId"])
    .index("by_user_and_status", ["userId", "status"]),
});

TypeScript Types

// Context types
import { QueryCtx, MutationCtx, ActionCtx } from "./_generated/server";

// Document and ID types
import { Doc, Id } from "./_generated/dataModel";
type User = Doc<"users">;
type UserId = Id<"users">;

// Infer types from validators
import { Infer, v } from "convex/values";
const priorityValidator = v.union(v.literal("low"), v.literal("medium"), v.literal("high"));
type Priority = Infer<typeof priorityValidator>;  // "low" | "medium" | "high"

// Without system fields (for inserts)
import { WithoutSystemFields } from "convex/server";
type NewUser = WithoutSystemFields<Doc<"users">>;

// Client-side return types
import { FunctionReturnType } from "convex/server";
type UserData = FunctionReturnType<typeof api.users.get>;

Validator Types Reference

Validator	TypeScript	Example
`v.string()`	`string`	`"hello"`
`v.number()`	`number`	`42`
`v.boolean()`	`boolean`	`true`
`v.null()`	`null`	`null`
`v.id("table")`	`Id<"table">`	Document reference
`v.array(v)`	`T[]`	`[1, 2, 3]`
`v.object({})`	`{ ... }`	`{ name: "..." }`
`v.optional(v)`	`T \| undefined`	Optional field
`v.union(...)`	`T1 \| T2`	Multiple types
`v.literal(x)`	`"x"`	Exact value

Reusable Validators

// convex/validators.ts
import { v } from "convex/values";

export const userValidator = v.object({
  _id: v.id("users"),
  _creationTime: v.number(),
  name: v.string(),
  email: v.string(),
  role: v.union(v.literal("user"), v.literal("admin")),
});

export const taskValidator = v.object({
  _id: v.id("tasks"),
  _creationTime: v.number(),
  title: v.string(),
  userId: v.id("users"),
  status: v.union(v.literal("pending"), v.literal("done")),
});

References

TypeScript: https://docs.convex.dev/understanding/best-practices/typescript
Schemas: https://docs.convex.dev/database/schemas

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convex-patterns

Convex Patterns

Always Define Return Validators

Project Structure

Helper Functions Pattern

Schema Definition

TypeScript Types

Validator Types Reference

Reusable Validators

References

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