building-clis

// Build professional command-line interfaces in Python, Go, and Rust using modern frameworks like Typer, Cobra, and clap. Use when creating developer tools, automation scripts, or infrastructure management CLIs with robust argument parsing, interactive features, and multi-platform distribution.

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updated:December 11, 2025

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SKILL.md Frontmatter

namebuilding-clis

descriptionBuild professional command-line interfaces in Python, Go, and Rust using modern frameworks like Typer, Cobra, and clap. Use when creating developer tools, automation scripts, or infrastructure management CLIs with robust argument parsing, interactive features, and multi-platform distribution.

Building CLIs

Build professional command-line interfaces across Python, Go, and Rust using modern frameworks with robust argument parsing, configuration management, and shell integration.

When to Use This Skill

Use this skill when:

Building developer tooling or automation CLIs
Creating infrastructure management tools (deployment, monitoring)
Implementing API client command-line tools
Adding CLI capabilities to existing projects
Packaging utilities for distribution (PyPI, Homebrew, binary releases)

Common triggers: "create a CLI tool", "build a command-line interface", "add CLI arguments", "parse command-line options", "generate shell completions"

Framework Selection

Quick Decision Guide

Python Projects:

Typer (recommended): Modern type-safe CLIs with minimal boilerplate
Click: Mature, flexible CLIs for complex command hierarchies

Go Projects:

Cobra (recommended): Industry standard for enterprise tools (Kubernetes, Docker, GitHub CLI)
urfave/cli: Lightweight alternative for simple CLIs

Rust Projects:

clap v4 (recommended): Type-safe with derive API or builder API for runtime flexibility

For detailed framework comparison and selection criteria, see references/framework-selection.md.

Core Patterns

Arguments vs. Options vs. Flags

Positional Arguments:

Primary input, identified by position
Use for required inputs (max 2-3 arguments)
Example: convert input.jpg output.png

Options:

Named parameters with values
Use for configuration and optional inputs
Example: --output file.txt, --config app.yaml

Flags:

Boolean options (presence = true)
Use for switches and toggles
Example: --verbose, --dry-run, --force

Decision Matrix:

Use Case	Type	Example
Primary required input	Positional Argument	`git commit -m "message"`
Optional configuration	Option	`--config app.yaml`
Boolean setting	Flag	`--verbose`, `--force`
Multiple values	Variadic Argument	`files...`

See references/argument-patterns.md for comprehensive parsing patterns.

Subcommand Organization

Flat Structure (1 Level):

app command1 [args]
app command2 [args]

Use for: Small CLIs with 5-10 operations

Grouped Structure (2 Levels):

app group subcommand [args]

Use for: Medium CLIs with logical groupings (10-30 commands) Example: kubectl get pods, kubectl create deployment

Nested Structure (3+ Levels):

app group subgroup command [args]

Use for: Large CLIs with deep hierarchies (30+ commands) Example: gcloud compute instances create

See references/subcommand-design.md for structuring strategies.

Configuration Management

Standard Precedence (Highest to Lowest):

CLI Arguments/Flags (explicit user input)
Environment Variables (session overrides)
Config File - Local (./config.yaml)
Config File - User (~/.config/app/config.yaml)
Config File - System (/etc/app/config.yaml)
Built-in Defaults (hardcoded)

Best Practices:

Document precedence in --help
Validate config files before execution
Provide --print-config to show effective configuration
Use XDG Base Directory (~/.config/app/) for config files

See references/configuration-management.md for implementation patterns across languages.

Output Formatting

Format Selection:

Use Case	Format	When
Human consumption	Colored text, tables	Default interactive mode
Machine consumption	JSON, YAML	`--output json`, piping
Logging/debugging	Plain text	`--verbose`, stderr
Progress tracking	Progress bars, spinners	Long operations

Best Practices:

Default to human-readable output
Provide --output flag (json, yaml, table)
Use stderr for logs, stdout for data
Auto-detect TTY (disable colors if not interactive)
Use exit codes: 0 = success, 1 = error, 2 = usage error

See references/output-formatting.md for formatting strategies.

Language-Specific Quick Starts

Python with Typer

Installation:

pip install "typer[all]"  # Includes rich for colored output

Basic Example:

import typer
from typing import Annotated

app = typer.Typer()

@app.command()
def greet(
    name: Annotated[str, typer.Argument(help="Name to greet")],
    formal: Annotated[bool, typer.Option(help="Use formal greeting")] = False
):
    """Greet someone with a message."""
    greeting = "Good day" if formal else "Hello"
    typer.echo(f"{greeting}, {name}!")

if __name__ == "__main__":
    app()

Key Features:

Type hints for automatic validation
Minimal boilerplate with decorators
Auto-generated help text
Rich integration for colored output

See examples/python/ for complete working examples including subcommands, config management, and interactive features.

Go with Cobra

Installation:

go get -u github.com/spf13/cobra@latest

Basic Example:

var rootCmd = &cobra.Command{
    Use:   "greet [name]",
    Args:  cobra.ExactArgs(1),
    Run: func(cmd *cobra.Command, args []string) {
        fmt.Printf("Hello, %s!\n", args[0])
    },
}

rootCmd.Flags().Bool("formal", false, "Use formal greeting")
rootCmd.Execute()

Key Features:

POSIX-compliant flags
Viper integration for configuration
Subcommand architecture
Shell completion generation

See examples/go/ for complete working examples including Viper config and multi-level subcommands.

Rust with clap

Installation (Cargo.toml):

[dependencies]
clap = { version = "4.5", features = ["derive"] }

Basic Example (Derive API):

use clap::Parser;

#[derive(Parser)]
#[command(about = "Greet someone")]
struct Cli {
    /// Name to greet
    name: String,

    /// Use formal greeting
    #[arg(long)]
    formal: bool,
}

fn main() {
    let cli = Cli::parse();
    let greeting = if cli.formal { "Good day" } else { "Hello" };
    println!("{}, {}!", greeting, cli.name);
}

Key Features:

Compile-time type safety
Derive API (declarative) or Builder API (programmatic)
Comprehensive validation
Performance optimized

See examples/rust/ for complete working examples including subcommands and builder API patterns.

Interactive Features

Progress Indicators

Python (rich):

from rich.progress import track
for _ in track(range(100), description="Processing..."):
    time.sleep(0.01)

Go (progressbar):

import "github.com/schollz/progressbar/v3"
bar := progressbar.Default(100)
for i := 0; i < 100; i++ {
    bar.Add(1)
}

Rust (indicatif):

use indicatif::ProgressBar;
let bar = ProgressBar::new(100);
for _ in 0..100 {
    bar.inc(1);
}

Prompts and Confirmations

Python:

confirm = typer.confirm("Are you sure?")
if not confirm:
    raise typer.Abort()

Go:

reader := bufio.NewReader(os.Stdin)
fmt.Print("Are you sure? (y/n): ")
response, _ := reader.ReadString('\n')

Rust:

use dialoguer::Confirm;
if Confirm::new().with_prompt("Are you sure?").interact()? {
    // Proceed
}

Shell Completion

Generating Completions

Python (Typer):

_MYAPP_COMPLETE=bash_source myapp > ~/.myapp-complete.bash
_MYAPP_COMPLETE=zsh_source myapp > ~/.myapp-complete.zsh

Go (Cobra):

rootCmd.AddCommand(&cobra.Command{
    Use:   "completion [bash|zsh|fish|powershell]",
    Args:  cobra.ExactArgs(1),
    Run: func(cmd *cobra.Command, args []string) {
        switch args[0] {
        case "bash":
            rootCmd.GenBashCompletion(os.Stdout)
        case "zsh":
            rootCmd.GenZshCompletion(os.Stdout)
        }
    },
})

Rust (clap):

use clap_complete::{generate, shells::Bash};
generate(Bash, &mut Cli::command(), "myapp", &mut io::stdout())

See references/shell-completion.md for installation instructions.

Distribution and Packaging

Python (PyPI)

pyproject.toml:

[project]
name = "myapp"
version = "1.0.0"
scripts = { myapp = "myapp.cli:app" }

Publish:

pip install build twine
python -m build
twine upload dist/*

Go (Homebrew)

Formula:

class Myapp < Formula
  desc "My CLI application"
  url "https://github.com/user/myapp/archive/v1.0.0.tar.gz"

  def install
    system "go", "build", "-o", bin/"myapp"
  end
end

Rust (Cargo)

Publish:

cargo login
cargo publish

Installation:

cargo install myapp

See references/distribution.md for comprehensive packaging strategies including binary releases.

Best Practices

Universal CLI Conventions

Always Provide:

--help and -h for usage information
--version and -V for version display
Clear error messages with actionable suggestions

Argument Handling:

Use -- separator for options vs. positional args
Support both short (-v) and long (--verbose) forms
Validate and sanitize all user inputs

Error Handling:

Exit code 0 for success
Exit code 1 for general errors
Exit code 2 for usage errors
Write errors to stderr, data to stdout

Interactivity:

Detect TTY (interactive vs. piped input)
Provide --yes/--force to skip prompts for automation
Show progress for operations longer than 2 seconds

Configuration Best Practices

File Formats:

Use YAML, TOML, or JSON consistently
Separate files per environment (dev, staging, prod)
Validate configuration in CI/CD with --check-config

Secret Management:

Never commit secrets to config files
Use environment variables or secret managers
Document required environment variables

Precedence:

CLI args > env vars > config file > defaults
Document precedence in help text
Provide --print-config to show effective configuration

Integration with Other Skills

testing-strategies:

CLI testing with mocks and fixtures
Integration tests for end-to-end workflows
See examples/python/test_cli.py

building-ci-pipelines:

Binary builds for multiple platforms
Automated releases via GitHub Actions
See references/distribution.md

api-patterns:

Building API client CLIs
Authentication and token management
Formatting API responses

secret-management:

Secure credential storage
Environment variable integration
Vault/secrets manager integration

Reference Files

Decision Frameworks:

framework-selection.md - Which framework to choose
argument-patterns.md - Arguments vs. options vs. flags
subcommand-design.md - Structuring command hierarchies

Implementation Guides:

configuration-management.md - Config files and precedence
output-formatting.md - Human vs. machine-readable output
shell-completion.md - Generating completions
distribution.md - Packaging and releasing CLIs

Code Examples:

examples/python/ - Typer examples (basic, subcommands, config, interactive)
examples/go/ - Cobra examples (basic, subcommands, Viper integration)
examples/rust/ - clap examples (derive, builder, subcommands)

Quick Reference

Framework Recommendations:

Python: Typer (modern) or Click (mature)
Go: Cobra (enterprise) or urfave/cli (simple)
Rust: clap v4 (derive or builder)

Common Patterns:

Arguments: Primary inputs (max 2-3)
Options: Named parameters with values
Flags: Boolean switches
Subcommands: Group related operations
Config: CLI args > env vars > files > defaults

Output Standards:

Default: Human-readable (colored, tables)
Machine: JSON/YAML via --output flag
Errors: stderr, data: stdout
Exit: 0 = success, 1 = error, 2 = usage

Distribution:

Python: PyPI (pip install)
Go: Homebrew, binary releases
Rust: Cargo (cargo install), binary releases