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#Optique 1.0.0 is shaping up, and three API changes are worth knowing about in advance.

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#Optique 1.0.0 is shaping up, and three API changes are worth knowing about in advance.

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  • hongminhee@hackers.pubundefined

    Building CLI apps with TypeScript in 2026

    Uncategorized javascript typescript cli node.js deno bun optique commander
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    hongminhee@hackers.pubundefined
    We've all been there. You start a quick TypeScript CLI with process.argv.slice(2), add a couple of options, and before you know it you're drowning in if/else blocks and parseInt calls. It works, until it doesn't. In this guide, we'll move from manual argument parsing to a fully type-safe CLI with subcommands, mutually exclusive options, and shell completion. The naïve approach: parsing process.argv Let's start with the most basic approach. Say we want a greeting program that takes a name and optionally repeats the greeting: // greet.ts const args = process.argv.slice(2); let name: string | undefined; let count = 1; for (let i = 0; i < args.length; i++) { if (args[i] === "--name" || args[i] === "-n") { name = args[++i]; } else if (args[i] === "--count" || args[i] === "-c") { count = parseInt(args[++i], 10); } } if (!name) { console.error("Error: --name is required"); process.exit(1); } for (let i = 0; i < count; i++) { console.log(`Hello, ${name}!`); } Run node greet.js --name Alice --count 3 and you'll get three greetings. But this approach is fragile. count could be NaN if someone passes --count foo, and we'd silently proceed. There's no help text. If someone passes --name without a value, we'd read the next option as the name. And the boilerplate grows fast with each new option. The traditional libraries You've probably heard of Commander.js and Yargs. They've been around for years and solve the basic problems: // With Commander.js import { program } from "commander"; program .requiredOption("-n, --name <n>", "Name to greet") .option("-c, --count <number>", "Number of times to greet", "1") .parse(); const opts = program.opts(); These libraries handle help text, option parsing, and basic validation. But they were designed before TypeScript became mainstream, and the type safety is bolted on rather than built in. The real problem shows up when you need mutually exclusive options. Say your CLI works either in "server mode" (with --port and --host) or "client mode" (with --url). With these libraries, you end up with a config object where all options are potentially present, and you're left writing runtime checks to ensure the user didn't mix incompatible flags. TypeScript can't help you because the types don't reflect the actual constraints. Enter Optique Optique takes a different approach. Instead of configuring options declaratively, you build parsers by composing smaller parsers together. The types flow naturally from this composition, so TypeScript always knows exactly what shape your parsed result will have. Optique works across JavaScript runtimes: Node.js, Deno, and Bun are all supported. The core parsing logic has no runtime-specific dependencies, so you can even use it in browsers if you need to parse CLI-like arguments in a web context. Let's rebuild our greeting program: import { object } from "@optique/core/constructs"; import { option } from "@optique/core/primitives"; import { integer, string } from "@optique/core/valueparser"; import { withDefault } from "@optique/core/modifiers"; import { run } from "@optique/run"; const parser = object({ name: option("-n", "--name", string()), count: withDefault(option("-c", "--count", integer({ min: 1 })), 1), }); const config = run(parser); // config is typed as { name: string; count: number } for (let i = 0; i < config.count; i++) { console.log(`Hello, ${config.name}!`); } Types are inferred automatically. config.name is string, not string | undefined. config.count is number, guaranteed to be at least 1. Validation is built in: integer({ min: 1 }) rejects non-integers and values below 1 with clear error messages. Help text is generated automatically, and the run() function handles errors and exits with appropriate codes. Install it with your package manager of choice: npm add @optique/core @optique/run # or: pnpm add, yarn add, bun add, deno add jsr:@optique/core jsr:@optique/run Building up: a file converter Let's build something more realistic: a file converter that reads from an input file, converts to a specified format, and writes to an output file. import { object } from "@optique/core/constructs"; import { optional, withDefault } from "@optique/core/modifiers"; import { argument, option } from "@optique/core/primitives"; import { choice, string } from "@optique/core/valueparser"; import { run } from "@optique/run"; const parser = object({ input: argument(string({ metavar: "INPUT" })), output: option("-o", "--output", string({ metavar: "FILE" })), format: withDefault( option("-f", "--format", choice(["json", "yaml", "toml"])), "json" ), pretty: option("-p", "--pretty"), verbose: option("-v", "--verbose"), }); const config = run(parser, { help: "both", version: { mode: "both", value: "1.0.0" }, }); // config.input: string // config.output: string // config.format: "json" | "yaml" | "toml" // config.pretty: boolean // config.verbose: boolean The type of config.format isn't just string. It's the union "json" | "yaml" | "toml". TypeScript will catch typos like config.format === "josn" at compile time. The choice() parser is useful for any option with a fixed set of valid values: log levels, output formats, environment names, and so on. You get both runtime validation (invalid values are rejected with helpful error messages) and compile-time checking (TypeScript knows the exact set of possible values). Mutually exclusive options Now let's tackle the case that trips up most CLI libraries: mutually exclusive options. Say our tool can either run as a server or connect as a client, but not both: import { object, or } from "@optique/core/constructs"; import { withDefault } from "@optique/core/modifiers"; import { argument, constant, option } from "@optique/core/primitives"; import { integer, string, url } from "@optique/core/valueparser"; import { run } from "@optique/run"; const parser = or( // Server mode object({ mode: constant("server"), port: option("-p", "--port", integer({ min: 1, max: 65535 })), host: withDefault(option("-h", "--host", string()), "0.0.0.0"), }), // Client mode object({ mode: constant("client"), url: argument(url()), }), ); const config = run(parser); The or() combinator tries each alternative in order. The first one that successfully parses wins. The constant() parser adds a literal value to the result without consuming any input, which serves as a discriminator. TypeScript infers a discriminated union: type Config = | { mode: "server"; port: number; host: string } | { mode: "client"; url: URL }; Now you can write type-safe code that handles each mode: if (config.mode === "server") { console.log(`Starting server on ${config.host}:${config.port}`); } else { console.log(`Connecting to ${config.url.hostname}`); } Try accessing config.url in the server branch. TypeScript won't let you. The compiler knows that when mode is "server", only port and host exist. This is the key difference from configuration-based libraries. With Commander or Yargs, you'd get a type like { port?: number; host?: string; url?: string } and have to check at runtime which combination of fields is actually present. With Optique, the types match the actual constraints of your CLI. Subcommands For larger tools, you'll want subcommands. Optique handles this with the command() parser: import { object, or } from "@optique/core/constructs"; import { optional } from "@optique/core/modifiers"; import { argument, command, constant, option } from "@optique/core/primitives"; import { string } from "@optique/core/valueparser"; import { run } from "@optique/run"; const parser = or( command("add", object({ action: constant("add"), key: argument(string({ metavar: "KEY" })), value: argument(string({ metavar: "VALUE" })), })), command("remove", object({ action: constant("remove"), key: argument(string({ metavar: "KEY" })), })), command("list", object({ action: constant("list"), pattern: optional(option("-p", "--pattern", string())), })), ); const result = run(parser, { help: "both" }); switch (result.action) { case "add": console.log(`Adding ${result.key}=${result.value}`); break; case "remove": console.log(`Removing ${result.key}`); break; case "list": console.log(`Listing${result.pattern ? ` (filter: ${result.pattern})` : ""}`); break; } Each subcommand gets its own help text. Run myapp add --help and you'll see only the options relevant to add. Run myapp --help and you'll see a summary of all available commands. The pattern here is the same as mutually exclusive options: or() to combine alternatives, constant() to add a discriminator. This consistency is one of Optique's strengths. Once you understand the basic combinators, you can build arbitrarily complex CLI structures by composing them. Shell completion Optique has built-in shell completion for Bash, zsh, fish, PowerShell, and Nushell. Enable it by passing completion: "both" to run(): const config = run(parser, { help: "both", version: { mode: "both", value: "1.0.0" }, completion: "both", }); Users can then generate completion scripts: $ myapp --completion bash >> ~/.bashrc $ myapp --completion zsh >> ~/.zshrc $ myapp --completion fish > ~/.config/fish/completions/myapp.fish The completions are context-aware. They know about your subcommands, option values, and choice() alternatives. Type myapp --format <TAB> and you'll see json, yaml, toml as suggestions. Type myapp a<TAB> and it'll complete to myapp add. Completion support is often an afterthought in CLI tools, but it makes a real difference in user experience. With Optique, you get it essentially for free. Integrating with validation libraries Already using Zod for validation in your project? The @optique/zod package lets you reuse those schemas as CLI value parsers: import { z } from "zod"; import { zod } from "@optique/zod"; import { option } from "@optique/core/primitives"; const email = option("--email", zod(z.string().email())); const port = option("--port", zod(z.coerce.number().int().min(1).max(65535))); Your existing validation logic just works. The Zod error messages are passed through to the user, so you get the same helpful feedback you're used to. Prefer Valibot? The @optique/valibot package works the same way: import * as v from "valibot"; import { valibot } from "@optique/valibot"; import { option } from "@optique/core/primitives"; const email = option("--email", valibot(v.pipe(v.string(), v.email()))); Valibot's bundle size is significantly smaller than Zod's (~10KB vs ~52KB), which can matter for CLI tools where startup time is noticeable. Tips A few things I've learned building CLIs with Optique: Start simple. Begin with object() and basic options. Add or() for mutually exclusive groups only when you need them. It's easy to over-engineer CLI parsers. Use descriptive metavars. Instead of string(), write string({ metavar: "FILE" }) or string({ metavar: "URL" }). The metavar appears in help text and error messages, so it's worth the extra few characters. Leverage withDefault(). It's better than making options optional and checking for undefined everywhere. Your code becomes cleaner when you can assume values are always present. Test your parser. Optique's core parsing functions work without process.argv, so you can unit test your parser logic: import { parse } from "@optique/core/parser"; const result = parse(parser, ["--name", "Alice", "--count", "3"]); if (result.success) { assert.equal(result.value.name, "Alice"); assert.equal(result.value.count, 3); } This is especially valuable for complex parsers with many edge cases. Going further We've covered the fundamentals, but Optique has more to offer: Async value parsers for validating against external sources, like checking if a Git branch exists or if a URL is reachable Path validation with path() for checking file existence, directory structure, and file extensions Custom value parsers for domain-specific types (though Zod/Valibot integration is usually easier) Reusable option groups with merge() for sharing common options across subcommands The @optique/temporal package for parsing dates and times using the Temporal API Check out the documentation for the full picture. The tutorial walks through the concepts in more depth, and the cookbook has patterns for common scenarios. That's it Building CLIs in TypeScript doesn't have to mean fighting with types or writing endless runtime validation. Optique lets you express constraints in a way that TypeScript actually understands, so the compiler catches mistakes before they reach production. The source is on GitHub, and packages are available on both npm and JSR. Questions or feedback? Find me on the fediverse or open an issue on the GitHub repo.
  • hongminhee@hackers.pubundefined

    Optique 0.8.0: Conditional parsing, pass-through options, and LogTape integration

    Uncategorized optique cli command-line logtape logging typescript javascript
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    hongminhee@hackers.pubundefined
    We're excited to announce Optique 0.8.0! This release introduces powerful new features for building sophisticated CLI applications: the conditional() combinator for discriminated union patterns, the passThrough() parser for wrapper tools, and the new @optique/logtape package for seamless logging configuration. Optique is a type-safe combinatorial CLI parser for TypeScript, providing a functional approach to building command-line interfaces with composable parsers and full type inference. New conditional parsing with conditional() Ever needed to enable different sets of options based on a discriminator value? The new conditional() combinator makes this pattern first-class. It creates discriminated unions where certain options only become valid when a specific discriminator value is selected. import { conditional, object } from "@optique/core/constructs"; import { option } from "@optique/core/primitives"; import { choice, string } from "@optique/core/valueparser"; const parser = conditional( option("--reporter", choice(["console", "junit", "html"])), { console: object({}), junit: object({ outputFile: option("--output-file", string()) }), html: object({ outputFile: option("--output-file", string()) }), } ); // Result type: ["console", {}] | ["junit", { outputFile: string }] | ... Key features: Explicit discriminator option determines which branch is selected Tuple result [discriminator, branchValue] for clear type narrowing Optional default branch for when discriminator is not provided Clear error messages indicating which options are required for each discriminator value The conditional() parser provides a more structured alternative to or() for discriminated union patterns. Use it when you have an explicit discriminator option that determines which set of options is valid. See the conditional() documentation for more details and examples. Pass-through options with passThrough() Building wrapper CLI tools that need to forward unrecognized options to an underlying tool? The new passThrough() parser enables legitimate wrapper/proxy patterns by capturing unknown options without validation errors. import { object } from "@optique/core/constructs"; import { option, passThrough } from "@optique/core/primitives"; const parser = object({ debug: option("--debug"), extra: passThrough(), }); // mycli --debug --foo=bar --baz=qux // → { debug: true, extra: ["--foo=bar", "--baz=qux"] } Key features: Three capture formats: "equalsOnly" (default, safest), "nextToken" (captures --opt val pairs), and "greedy" (captures all remaining tokens) Lowest priority (−10) ensures explicit parsers always match first Respects -- options terminator in "equalsOnly" and "nextToken" modes Works seamlessly with object(), subcommands, and other combinators This feature is designed for building Docker-like CLIs, build tool wrappers, or any tool that proxies commands to another process. See the passThrough() documentation for usage patterns and best practices. LogTape logging integration The new @optique/logtape package provides seamless integration with LogTape, enabling you to configure logging through command-line arguments with various parsing strategies. # Deno deno add --jsr @optique/logtape @logtape/logtape # npm npm add @optique/logtape @logtape/logtape Quick start with the loggingOptions() preset: import { loggingOptions, createLoggingConfig } from "@optique/logtape"; import { object } from "@optique/core/constructs"; import { parse } from "@optique/core/parser"; import { configure } from "@logtape/logtape"; const parser = object({ logging: loggingOptions({ level: "verbosity" }), }); const args = ["-vv", "--log-output=-"]; const result = parse(parser, args); if (result.success) { const config = await createLoggingConfig(result.value.logging); await configure(config); } The package offers multiple approaches to control log verbosity: verbosity() parser: The classic -v/-vv/-vvv pattern where each flag increases verbosity (no flags → "warning", -v → "info", -vv → "debug", -vvv → "trace") debug() parser: Simple --debug/-d flag that toggles between normal and debug levels logLevel() value parser: Explicit --log-level=debug option for direct level selection logOutput() parser: Log output destination with - for console or file path for file output See the LogTape integration documentation for complete examples and configuration options. Bug fix: negative integers now accepted Fixed an issue where the integer() value parser rejected negative integers when using type: "number". The regex pattern has been updated from /^\d+$/ to /^-?\d+$/ to correctly handle values like -42. Note that type: "bigint" already accepted negative integers, so this change brings consistency between the two types. Installation # Deno deno add jsr:@optique/core # npm npm add @optique/core # pnpm pnpm add @optique/core # Yarn yarn add @optique/core # Bun bun add @optique/core For the LogTape integration: # Deno deno add --jsr @optique/logtape @logtape/logtape # npm npm add @optique/logtape @logtape/logtape # pnpm pnpm add @optique/logtape @logtape/logtape # Yarn yarn add @optique/logtape @logtape/logtape # Bun bun add @optique/logtape @logtape/logtape Looking forward Optique 0.8.0 continues our focus on making CLI development more expressive and type-safe. The conditional() combinator brings discriminated union patterns to the forefront, passThrough() enables new wrapper tool use cases, and the LogTape integration makes logging configuration a breeze. As always, all new features maintain full backward compatibility—your existing parsers continue to work unchanged. We're grateful to the community for feedback and suggestions. If you have ideas for future improvements or encounter any issues, please let us know through GitHub Issues. For more information about Optique and its features, visit the documentation or check out the full changelog.
  • hongminhee@hackers.pubundefined

    Optique 0.7.0: Smarter error messages and validation library integrations

    Uncategorized optique cli command-line parser parser-combinators zod valibot typescript
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    hongminhee@hackers.pubundefined
    We're thrilled to announce Optique 0.7.0, a release focused on developer experience improvements and expanding Optique's ecosystem with validation library integrations. Optique is a type-safe, combinatorial CLI argument parser for TypeScript. Unlike traditional CLI libraries that rely on configuration objects, Optique lets you compose parsers from small, reusable functions—bringing the same functional composition patterns that make Zod powerful to CLI development. If you're new to Optique, check out Why Optique? to learn how this approach unlocks possibilities that configuration-based libraries simply can't match. This release introduces automatic “Did you mean?” suggestions for typos, seamless integration with Zod and Valibot validation libraries, duplicate option name detection for catching configuration bugs early, and context-aware error messages that help users understand exactly what went wrong. “Did you mean?”: Automatic typo suggestions We've all been there: you type --verbos instead of --verbose, and the CLI responds with an unhelpful “unknown option” error. Optique 0.7.0 changes this by automatically suggesting similar options when users make typos: const parser = object({ verbose: option("-v", "--verbose"), version: option("--version"), }); // User types: --verbos (typo) const result = parse(parser, ["--verbos"]); // Error: Unexpected option or argument: --verbos. // // Did you mean one of these? // --verbose // --version The suggestion system uses Levenshtein distance to find similar names, suggesting up to 3 alternatives when the edit distance is within a reasonable threshold. Suggestions work automatically for both option names and subcommand names across all parser types—option(), flag(), command(), object(), or(), and longestMatch(). See the automatic suggestions documentation for more details. Customizing suggestions You can customize how suggestions are formatted or disable them entirely through the errors option: // Custom suggestion format for option/flag parsers const portOption = option("--port", integer(), { errors: { noMatch: (invalidOption, suggestions) => suggestions.length > 0 ? message`Unknown option ${invalidOption}. Try: ${values(suggestions)}` : message`Unknown option ${invalidOption}.` } }); // Custom suggestion format for combinators const config = object({ host: option("--host", string()), port: option("--port", integer()) }, { errors: { suggestions: (suggestions) => suggestions.length > 0 ? message`Available options: ${values(suggestions)}` : [] } }); Zod and Valibot integrations Two new packages join the Optique family, bringing powerful validation capabilities from the TypeScript ecosystem to your CLI parsers. @optique/zod The new @optique/zod package lets you use Zod schemas directly as value parsers: import { option, object } from "@optique/core"; import { zod } from "@optique/zod"; import { z } from "zod"; const parser = object({ email: option("--email", zod(z.string().email())), port: option("--port", zod(z.coerce.number().int().min(1).max(65535))), format: option("--format", zod(z.enum(["json", "yaml", "xml"]))), }); The package supports both Zod v3.25.0+ and v4.0.0+, with automatic error formatting that integrates seamlessly with Optique's message system. See the Zod integration guide for complete usage examples. @optique/valibot For those who prefer a lighter bundle, @optique/valibot integrates with Valibot—a validation library with a significantly smaller footprint (~10KB vs Zod's ~52KB): import { option, object } from "@optique/core"; import { valibot } from "@optique/valibot"; import * as v from "valibot"; const parser = object({ email: option("--email", valibot(v.pipe(v.string(), v.email()))), port: option("--port", valibot(v.pipe( v.string(), v.transform(Number), v.integer(), v.minValue(1), v.maxValue(65535) ))), }); Both packages support custom error messages through their respective error handler options (zodError and valibotError), giving you full control over how validation failures are presented to users. See the Valibot integration guide for complete usage examples. Duplicate option name detection A common source of bugs in CLI applications is accidentally using the same option name in multiple places. Previously, this would silently cause ambiguous parsing where the first matching parser consumed the option. Optique 0.7.0 now validates option names at parse time and fails with a clear error message when duplicates are detected: const parser = object({ input: option("-i", "--input", string()), interactive: option("-i", "--interactive"), // Oops! -i is already used }); // Error: Duplicate option name -i found in fields: input, interactive. // Each option name must be unique within a parser combinator. This validation applies to object(), tuple(), merge(), and group() combinators. The or() combinator continues to allow duplicate option names since its branches are mutually exclusive. See the duplicate detection documentation for more details. If you have a legitimate use case for duplicate option names, you can opt out with allowDuplicates: true: const parser = object({ input: option("-i", "--input", string()), interactive: option("-i", "--interactive"), }, { allowDuplicates: true }); Context-aware error messages Error messages from combinators are now smarter about what they report. Instead of generic "No matching option or command found" messages, Optique now analyzes what the parser expects and provides specific feedback: // When only arguments are expected const parser1 = or(argument(string()), argument(integer())); // Error: Missing required argument. // When only commands are expected const parser2 = or(command("add", addParser), command("remove", removeParser)); // Error: No matching command found. // When both options and arguments are expected const parser3 = object({ port: option("--port", integer()), file: argument(string()), }); // Error: No matching option or argument found. Dynamic error messages with NoMatchContext For applications that need internationalization or context-specific messaging, the errors.noMatch option now accepts a function that receives a NoMatchContext object: const parser = or( command("add", addParser), command("remove", removeParser), { errors: { noMatch: ({ hasOptions, hasCommands, hasArguments }) => { if (hasCommands && !hasOptions && !hasArguments) { return message`일치하는 명령을 찾을 수 없습니다.`; // Korean } return message`잘못된 입력입니다.`; } } } ); Shell completion naming conventions The run() function now supports configuring whether shell completions use singular or plural naming conventions: run(parser, { completion: { name: "plural", // Uses "completions" and "--completions" } }); // Or for singular only run(parser, { completion: { name: "singular", // Uses "completion" and "--completion" } }); The default "both" accepts either form, maintaining backward compatibility while letting you enforce a consistent style in your CLI. Additional improvements Line break handling: formatMessage() now distinguishes between soft breaks (single \n, converted to spaces) and hard breaks (double \n\n, creating paragraph separations), improving multi-line error message formatting. New utility functions: Added extractOptionNames() and extractArgumentMetavars() to the @optique/core/usage module for programmatic access to parser metadata. Installation deno add --jsr @optique/core @optique/run npm add @optique/core @optique/run pnpm add @optique/core @optique/run yarn add @optique/core @optique/run bun add @optique/core @optique/run For validation library integrations: # Zod integration deno add jsr:@optique/zod # Deno npm add @optique/zod # npm/pnpm/yarn/bun # Valibot integration deno add jsr:@optique/valibot # Deno npm add @optique/valibot # npm/pnpm/yarn/bun Looking forward This release represents our commitment to making CLI development in TypeScript as smooth as possible. The “Did you mean?” suggestions and validation library integrations were among the most requested features, and we're excited to see how they improve your CLI applications. For detailed documentation and examples, visit the Optique documentation. We welcome your feedback and contributions on GitHub!
  • hongminhee@hackers.pubundefined

    Optique 0.5.0: Enhanced error handling and message customization

    Uncategorized optique cli parser cli-parser typescript javascript deno bun
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    hongminhee@hackers.pubundefined
    We're pleased to announce the release of Optique 0.5.0, which brings significant improvements to error handling, help text generation, and overall developer experience. This release maintains full backward compatibility, so you can upgrade without modifying existing code. Better code organization through module separation The large @optique/core/parser module has been refactored into three focused modules that better reflect their purposes. Primitive parsers like option() and argument() now live in @optique/core/primitives, modifier functions such as optional() and withDefault() have moved to @optique/core/modifiers, and combinator functions including object() and or() are now in @optique/core/constructs. // Before: everything from one module import { option, flag, argument, // primitives optional, withDefault, multiple, // modifiers object, or, merge // constructs } from "@optique/core/parser"; // After: organized imports (recommended) import { option, flag, argument } from "@optique/core/primitives"; import { optional, withDefault, multiple } from "@optique/core/modifiers"; import { object, or, merge } from "@optique/core/constructs"; While we recommend importing from these specialized modules for better clarity, all functions continue to be re-exported from the original @optique/core/parser module to ensure your existing code works unchanged. This reorganization makes the codebase more maintainable and helps developers understand the relationships between different parser types. Smarter error handling with automatic conversion One of the most requested features has been better error handling for default value callbacks in withDefault(). Previously, if your callback threw an error—say, when an environment variable wasn't set—that error would bubble up as a runtime exception. Starting with 0.5.0, these errors are automatically caught and converted to parser-level errors, providing consistent error formatting and proper exit codes. // Before (0.4.x): runtime exception that crashes the app const parser = object({ apiUrl: withDefault(option("--url", url()), () => { if (!process.env.API_URL) { throw new Error("API_URL not set"); // Uncaught exception! } return new URL(process.env.API_URL); }) }); // After (0.5.0): graceful parser error const parser = object({ apiUrl: withDefault(option("--url", url()), () => { if (!process.env.API_URL) { throw new Error("API_URL not set"); // Automatically caught and formatted } return new URL(process.env.API_URL); }) }); We've also introduced the WithDefaultError class, which accepts structured messages instead of plain strings. This means you can now throw errors with rich formatting that matches the rest of Optique's error output: import { WithDefaultError, message, envVar } from "@optique/core"; const parser = object({ // Plain error - automatically converted to text databaseUrl: withDefault(option("--db", url()), () => { if (!process.env.DATABASE_URL) { throw new Error("Database URL not configured"); } return new URL(process.env.DATABASE_URL); }), // Rich error with structured message apiToken: withDefault(option("--token", string()), () => { if (!process.env.API_TOKEN) { throw new WithDefaultError( message`Environment variable ${envVar("API_TOKEN")} is required for authentication` ); } return process.env.API_TOKEN; }) }); The new envVar message component ensures environment variables are visually distinct in error messages, appearing bold and underlined in colored output or wrapped in backticks in plain text. More helpful help text with custom default descriptions Default values in help text can sometimes be misleading, especially when they come from environment variables or are computed at runtime. Optique 0.5.0 allows you to customize how default values appear in help output through an optional third parameter to withDefault(). import { withDefault, message, envVar } from "@optique/core"; const parser = object({ // Before: shows actual URL value in help apiUrl: withDefault( option("--api-url", url()), new URL("https://api.example.com") ), // Help shows: --api-url URL [https://api.example.com] // After: shows descriptive text apiUrl: withDefault( option("--api-url", url()), new URL("https://api.example.com"), { message: message`Default API endpoint` } ), // Help shows: --api-url URL [Default API endpoint] }); This is particularly useful for environment variables and computed defaults: const parser = object({ // Environment variable authToken: withDefault( option("--token", string()), () => process.env.AUTH_TOKEN || "anonymous", { message: message`${envVar("AUTH_TOKEN")} or anonymous` } ), // Help shows: --token STRING [AUTH_TOKEN or anonymous] // Computed value workers: withDefault( option("--workers", integer()), () => os.cpus().length, { message: message`Number of CPU cores` } ), // Help shows: --workers INT [Number of CPU cores] // Sensitive information apiKey: withDefault( option("--api-key", string()), () => process.env.SECRET_KEY || "", { message: message`From secure storage` } ), // Help shows: --api-key STRING [From secure storage] }); Instead of displaying the actual default value, you can now show descriptive text that better explains where the value comes from. This is particularly useful for sensitive information like API tokens or for computed defaults like the number of CPU cores. The help system now properly handles ANSI color codes in default value displays, maintaining dim styling even when inner components have their own color formatting. This ensures default values remain visually distinct from the main help text. Comprehensive error message customization We've added a systematic way to customize error messages across all parser types and combinators. Every parser now accepts an errors option that lets you provide context-specific feedback instead of generic error messages. This applies to primitive parsers, value parsers, combinators, and even specialized parsers in companion packages. Primitive parser errors import { option, flag, argument, command } from "@optique/core/primitives"; import { message, optionName, metavar } from "@optique/core/message"; // Option parser with custom errors const serverPort = option("--port", integer(), { errors: { missing: message`Server port is required. Use ${optionName("--port")} to specify.`, invalidValue: (error) => message`Invalid port number: ${error}`, endOfInput: message`${optionName("--port")} requires a ${metavar("PORT")} number.` } }); // Command parser with custom errors const deployCommand = command("deploy", deployParser, { errors: { notMatched: (expected, actual) => message`Unknown command "${actual}". Did you mean "${expected}"?` } }); Value parser errors Error customization can be static messages for consistent errors or dynamic functions that incorporate the problematic input: import { integer, choice, string } from "@optique/core/valueparser"; // Integer with range validation const port = integer({ min: 1024, max: 65535, errors: { invalidInteger: message`Port must be a valid number.`, belowMinimum: (value, min) => message`Port ${String(value)} is reserved. Use ${String(min)} or higher.`, aboveMaximum: (value, max) => message`Port ${String(value)} exceeds maximum. Use ${String(max)} or lower.` } }); // Choice with helpful suggestions const logLevel = choice(["debug", "info", "warn", "error"], { errors: { invalidChoice: (input, choices) => message`"${input}" is not a valid log level. Choose from: ${values(choices)}.` } }); // String with pattern validation const email = string({ pattern: /^[^@]+@[^@]+\.[^@]+$/, errors: { patternMismatch: (input) => message`"${input}" is not a valid email address. Use format: user@example.com` } }); Combinator errors import { or, multiple, object } from "@optique/core/constructs"; // Or combinator with custom no-match error const format = or( flag("--json"), flag("--yaml"), flag("--xml"), { errors: { noMatch: message`Please specify an output format: --json, --yaml, or --xml.`, unexpectedInput: (token) => message`Unknown format option "${token}".` } } ); // Multiple parser with count validation const inputFiles = multiple(argument(string()), { min: 1, max: 5, errors: { tooFew: (count, min) => message`At least ${String(min)} file required, but got ${String(count)}.`, tooMany: (count, max) => message`Maximum ${String(max)} files allowed, but got ${String(count)}.` } }); Package-specific errors Both @optique/run and @optique/temporal packages have been updated with error customization support for their specialized parsers: // @optique/run path parser import { path } from "@optique/run/valueparser"; const configFile = option("--config", path({ mustExist: true, type: "file", extensions: [".json", ".yaml"], errors: { pathNotFound: (input) => message`Configuration file "${input}" not found. Please check the path.`, notAFile: (input) => message`"${input}" is a directory. Please specify a file.`, invalidExtension: (input, extensions, actual) => message`Invalid config format "${actual}". Use ${values(extensions)}.` } })); // @optique/temporal instant parser import { instant, duration } from "@optique/temporal"; const timestamp = option("--time", instant({ errors: { invalidFormat: (input) => message`"${input}" is not a valid timestamp. Use ISO 8601 format: 2024-01-01T12:00:00Z` } })); const timeout = option("--timeout", duration({ errors: { invalidFormat: (input) => message`"${input}" is not a valid duration. Use ISO 8601 format: PT30S (30 seconds), PT5M (5 minutes)` } })); Error customization integrates seamlessly with Optique's structured message format, ensuring consistent styling across all error output. The system helps you provide helpful, actionable feedback that guides users toward correct usage rather than leaving them confused by generic error messages. Looking forward This release focuses on improving the developer experience without breaking existing code. Every new feature is opt-in, and all changes maintain backward compatibility. We believe these improvements make Optique more pleasant to work with, especially when building user-friendly CLI applications that need clear error messages and helpful documentation. We're grateful to the community members who suggested these improvements and helped shape this release through discussions and issue reports. Your feedback continues to drive Optique's evolution toward being a more capable and ergonomic CLI parser for TypeScript. To upgrade to Optique 0.5.0, simply update your dependencies: npm update @optique/core @optique/run # or deno update For detailed migration guidance and API documentation, please refer to the official documentation. While no code changes are required, we encourage you to explore the new error customization options and help text improvements to enhance your CLI applications.