Mise Expert Skill
Purpose
Specialized skill for mise - a unified development environment manager combining tool version management (asdf replacement), environment variable management (direnv replacement), and task running (make/npm scripts replacement).
When to Use This Skill
Tool & Runtime Management
- •Installing and managing runtime versions (node, python, go, ruby, rust, etc.)
- •Setting up project-specific tool versions for reproducibility
- •Switching between multiple language versions in polyglot projects
- •Managing global vs project-local tool installations
- •Migrating from asdf, nvm, pyenv, rbenv, or similar version managers
- •Troubleshooting tool version conflicts
Project Setup & Onboarding
- •Bootstrapping new project development environments
- •Creating mise.toml for team consistency
- •Setting up monorepo tool configurations
- •Configuring per-directory environment switching
- •Establishing project development standards
- •Simplifying onboarding for new team members
Task Runner & Build Systems
- •Creating or optimizing mise.toml task configurations
- •Designing task workflows with dependency chains
- •Implementing parallel task execution strategies
- •Adding intelligent caching with sources/outputs
- •Converting from make, npm scripts, just, or other task runners
- •Building cross-platform compatible task systems
- •Optimizing build performance with incremental builds
Environment Management
- •Configuring per-directory environment variables
- •Managing secrets and configuration across environments
- •Setting up development/staging/production environment switching
- •Replacing direnv with mise
- •Loading environment from .env files
- •Creating environment-specific task behaviors
CI/CD Integration
- •Setting up mise in GitHub Actions, GitLab CI, CircleCI
- •Ensuring consistent environments between local and CI
- •Optimizing CI builds with mise caching
- •Managing tool versions in containerized environments
Troubleshooting & Optimization
- •Debugging mise task execution issues
- •Diagnosing tool version problems
- •Resolving environment variable loading issues
- •Optimizing task caching and performance
- •Fixing cross-platform compatibility issues
Core Capabilities
<capabilities> - **Tool Version Management**: Install, configure, and switch between runtime versions - **Task Design**: Create efficient, cacheable, and maintainable task configurations - **Environment Setup**: Configure tools, variables, and per-directory environments - **Workflow Optimization**: Design parallel execution and intelligent dependency chains - **Migration Support**: Convert from asdf, make, npm, direnv, and other tools - **Troubleshooting**: Diagnose and resolve mise configuration issues - **Best Practices**: Apply mise patterns for modern development workflows - **CI/CD Integration**: Configure mise for continuous integration pipelines </capabilities>Operational Guidelines
Task Configuration Principles
<task_design_principles>
- •Caching First: Always define
sourcesandoutputsfor cacheable tasks - •Parallel by Default: Use
dependsarrays for parallel execution - •Single Responsibility: Each task should have one clear purpose
- •Namespacing: Group related tasks with prefixes (e.g.,
db:migrate,test:unit) - •Idempotency: Tasks should be safe to run multiple times
- •Platform Awareness: Use
run_windowsfor cross-platform compatibility - •Watch Mode Ready: Design tasks compatible with
mise watch</task_design_principles>
Decision Framework
<when_to_use_mise> Choose mise for:
- •Multi-language projects requiring version management (Python + Node + Go)
- •Projects needing per-directory environment variables
- •Cross-platform development teams (Linux/Mac/Windows)
- •Replacing complex Makefiles or npm scripts
- •Projects with parallel task execution needs
- •Teams wanting consistent dev environments (new dev onboarding)
- •Replacing multiple tools (asdf + direnv + make) with one
- •CI/CD pipelines requiring reproducible builds
Skip mise for:
- •Single-language projects with simple build steps
- •Projects where npm scripts are sufficient
- •Teams unfamiliar with TOML and no bandwidth for learning
- •Projects with existing, working task systems and no pain points
- •Embedded systems or constrained environments </when_to_use_mise>
Tool Version Management Patterns
<tool_installation_patterns> Project-Specific Tools
# mise.toml - Project root configuration
[tools]
# Exact versions for reproducibility
node = "20.10.0"
python = "3.11.6"
go = "1.21.5"
terraform = "1.6.6"
# Read from version file
ruby = { file = ".ruby-version" }
java = { file = ".java-version" }
# Latest patch version
postgres = "16"
redis = "7"
# Multiple versions (switch with mise use)
# mise use node@18 (temporarily override)
Global Development Tools
# Install globally useful CLI tools mise use -g ripgrep@latest # Better grep mise use -g bat@latest # Better cat
Version File Migration
# Migrate from existing version files
echo "20.10.0" > .node-version
echo "3.11.6" > .python-version
# mise.toml
[tools]
node = { file = ".node-version" }
python = { file = ".python-version" }
</tool_installation_patterns>
Project Setup Workflows
<project_setup_patterns> New Project Bootstrap
# mise.toml
[tools]
node = "20"
python = "3.11"
[env]
PROJECT_ROOT = "{{cwd}}"
LOG_LEVEL = "debug"
[vars]
project_name = "my-app"
[tasks.setup]
description = "Setup development environment"
run = [
"mise install",
"npm install",
"pip install -r requirements.txt",
"cp .env.example .env"
]
[tasks.dev]
alias = "d"
description = "Start development server"
depends = ["setup"]
env = { NODE_ENV = "development" }
run = "npm run dev"
Monorepo Configuration
# Root mise.toml
[tools]
node = "20"
go = "1.21"
[tasks.install]
description = "Install all dependencies"
run = [
"cd frontend && npm install",
"cd backend && go mod download"
]
# frontend/mise.toml
[tasks.dev]
dir = "{{cwd}}/frontend"
run = "npm run dev"
# backend/mise.toml
[tools]
go = "1.21"
[tasks.dev]
dir = "{{cwd}}/backend"
run = "go run main.go"
</project_setup_patterns>
Configuration Patterns
<common_patterns> Development Workflow
[tasks.dev]
alias = "d"
description = "Start development server with hot reload"
env = { NODE_ENV = "development", DEBUG = "true" }
run = "npm run dev"
[tasks.dev-watch]
description = "Watch and rebuild on changes"
run = "mise watch build"
Build Pipeline with Caching
[tasks.clean]
description = "Remove build artifacts"
run = "rm -rf dist"
[tasks.build]
alias = "b"
description = "Build production bundle"
depends = ["clean"]
sources = ["src/**/*", "package.json", "tsconfig.json"]
outputs = ["dist/**/*"]
env = { NODE_ENV = "production" }
run = "npm run build"
[tasks.build-watch]
description = "Rebuild on source changes"
run = "mise watch build"
Testing Suite
[tasks.test] alias = "t" description = "Run all tests" depends = ["test:unit", "test:integration"] # Runs in parallel [tasks."test:unit"] description = "Run unit tests" sources = ["src/**/*.ts", "tests/unit/**/*.ts"] run = "npm test -- --testPathPattern=unit" [tasks."test:integration"] description = "Run integration tests" sources = ["src/**/*.ts", "tests/integration/**/*.ts"] run = "npm test -- --testPathPattern=integration" [tasks."test:watch"] description = "Run tests in watch mode" run = "npm test -- --watch" [tasks."test:coverage"] description = "Generate coverage report" run = "npm test -- --coverage" [tasks."test:e2e"] description = "Run end-to-end tests" depends = ["build"] run = "playwright test"
Database Workflow
[tasks."db:migrate"] description = "Run database migrations" run = "npx prisma migrate deploy" [tasks."db:seed"] description = "Seed database with test data" depends = ["db:migrate"] run = "npx prisma db seed" [tasks."db:reset"] description = "Reset database to clean state" run = ["npx prisma migrate reset --force", "mise run db:seed"] [tasks."db:studio"] description = "Open Prisma Studio" run = "npx prisma studio"
Linting & Formatting
[tasks.lint] description = "Lint code" sources = ["src/**/*.ts"] run = "eslint src" [tasks.format] description = "Format code" sources = ["src/**/*.ts"] run = "prettier --write src" [tasks."lint:fix"] description = "Lint and auto-fix issues" run = "eslint src --fix" [tasks.check] description = "Run all checks" depends = ["lint", "format", "test"] # Runs in parallel
Deployment Pipeline
[tasks.deploy]
description = "Deploy to production"
usage = '''
arg "environment" description="Target environment" default="staging"
flag "-f --force" description="Skip confirmation"
'''
depends = ["build", "test"]
depends_post = ["notify:slack"]
run = './scripts/deploy.sh {{arg(name="environment")}} {{flag(name="force")}}'
[tasks."deploy:staging"]
description = "Deploy to staging"
depends = ["build", "test"]
run = "./scripts/deploy.sh staging"
[tasks."deploy:production"]
description = "Deploy to production"
depends = ["build", "test"]
run = "./scripts/deploy.sh production"
[tasks."notify:slack"]
hide = true
run = 'curl -X POST $SLACK_WEBHOOK -d "Deployment complete"'
Docker Integration
[tasks."docker:build"] description = "Build Docker image" sources = ["Dockerfile", "src/**/*"] run = "docker build -t myapp:latest ." [tasks."docker:run"] description = "Run Docker container" depends = ["docker:build"] run = "docker run -p 3000:3000 myapp:latest" [tasks."docker:compose"] description = "Start services with docker-compose" run = "docker-compose up -d"
Go Plugin Build System
[tasks."build:plugins"] description = "Build all Go plugins in parallel" sources = ["plugins/**/*.go"] outputs = ["plugins/**/main.so"] run = ''' for plugin in plugins/*/; do (cd "$plugin" && go build -buildmode=plugin -o main.so main.go) & done wait ''' [tasks."rebuild:plugins"] description = "Rebuild plugins when engine changes" sources = ["engine/**/*.go"] depends = ["build:engine"] run = "mise run build:plugins"
</common_patterns>
Variables and Environment Management
<environment_patterns> Environment-Specific Variables
[vars]
# Default development values
api_url = "http://localhost:3000"
db_host = "localhost"
db_port = "5432"
debug_mode = "true"
# Load additional vars from .env
_.file = ".env"
[env]
# Static environment variables
NODE_ENV = "development"
LOG_LEVEL = "debug"
# Reference variables
API_URL = "{{vars.api_url}}"
DATABASE_URL = "postgres://{{vars.db_host}}:{{vars.db_port}}/myapp"
DEBUG = "{{vars.debug_mode}}"
[tasks.dev]
env = {
NODE_ENV = "development",
API_URL = "{{vars.api_url}}"
}
run = "npm run dev"
Multi-Environment Setup
# mise.toml (base development config) [vars] environment = "development" api_url = "http://localhost:3000" [env] NODE_ENV = "development" # mise.staging.toml [vars] environment = "staging" api_url = "https://api.staging.example.com" [env] NODE_ENV = "staging" # mise.production.toml [vars] environment = "production" api_url = "https://api.example.com" debug_mode = "false" [env] NODE_ENV = "production"
Secret Management
# mise.toml (checked into git)
[vars]
# Non-sensitive defaults
api_url = "http://localhost:3000"
# Load secrets from .env (gitignored)
_.file = ".env"
[env]
# Reference secrets loaded from .env
API_KEY = "{{vars.api_key}}"
DATABASE_PASSWORD = "{{vars.db_password}}"
# .env (NOT in git)
api_key=secret-key-here
db_password=secret-password
</environment_patterns>
Workflow Process
<workflow_steps> When helping with mise configurations:
- •
Assess Current State
- •Read existing mise.toml if present
- •Identify current task runner (make, npm, etc.)
- •Check for version managers (asdf, nvm, pyenv)
- •Understand project structure and requirements
- •
Design Architecture
- •Determine tool version requirements
- •Map out task dependencies and relationships
- •Identify parallel execution opportunities
- •Plan caching strategy with sources/outputs
- •Consider cross-platform needs
- •
Implement Configuration
- •Start with tool versions and environment setup
- •Create simple tasks, add complexity incrementally
- •Use namespacing for related tasks
- •Add aliases for frequently used tasks
- •Document complex tasks with descriptions
- •
Optimize Performance
- •Add sources/outputs for caching
- •Leverage parallel execution via depends
- •Set appropriate
jobslimit - •Use watch mode for development workflows
- •
Validate and Test
- •Run
mise installto verify tool installation - •Run
mise tasks lsto verify task registration - •Test task execution:
mise run <task> - •Verify caching behavior
- •Test cross-platform if applicable
- •Run
mise doctorfor diagnostics </workflow_steps>
- •Run
Migration Strategies
<migration_from_asdf> From .tool-versions to mise.toml
.tool-versions:
nodejs 20.10.0 python 3.11.6 golang 1.21.5 terraform 1.6.6
mise.toml:
[tools] node = "20.10.0" python = "3.11.6" go = "1.21.5" terraform = "1.6.6"
Migration command:
# Mise can read .tool-versions directly mise install # Or convert to mise.toml mise use node@20.10.0 python@3.11.6 go@1.21.5 terraform@1.6.6
</migration_from_asdf>
<migration_from_make> From Makefile to mise.toml
Makefile:
.PHONY: build test clean deploy clean: rm -rf dist build: clean npm run build test: build npm test deploy: build test ./deploy.sh
mise.toml:
[tasks.clean] description = "Remove build artifacts" run = "rm -rf dist" [tasks.build] alias = "b" description = "Build production bundle" depends = ["clean"] sources = ["src/**/*", "package.json"] outputs = ["dist/**/*"] run = "npm run build" [tasks.test] alias = "t" description = "Run tests" depends = ["build"] run = "npm test" [tasks.deploy] description = "Deploy to production" depends = ["build", "test"] # build and test run in parallel run = "./deploy.sh"
Advantages:
- •Automatic caching via sources/outputs
- •Parallel execution of independent tasks
- •Cross-platform compatibility
- •Environment variable management
- •Tool version management integrated </migration_from_make>
<migration_from_npm> From package.json scripts to mise.toml
package.json:
{
"scripts": {
"dev": "NODE_ENV=development npm start",
"build": "webpack --mode production",
"test": "jest",
"lint": "eslint src",
"deploy": "npm run build && npm run test && ./deploy.sh"
}
}
mise.toml:
[tasks.dev]
alias = "d"
description = "Start development server"
env = { NODE_ENV = "development" }
run = "npm start"
[tasks.build]
alias = "b"
description = "Build production bundle"
sources = ["src/**/*", "webpack.config.js"]
outputs = ["dist/**/*"]
run = "webpack --mode production"
[tasks.test]
alias = "t"
description = "Run tests"
run = "jest"
[tasks.lint]
description = "Lint code"
sources = ["src/**/*.js"]
run = "eslint src"
[tasks.deploy]
description = "Deploy to production"
depends = ["build", "test"] # Runs in parallel
run = "./deploy.sh"
Advantages:
- •Better dependency management (build + test run in parallel)
- •Caching prevents unnecessary rebuilds
- •Environment variables in configuration
- •Consistent interface across different project types
- •Works with any language, not just Node.js </migration_from_npm>
<migration_from_direnv> From .envrc to mise.toml
.envrc:
export NODE_ENV=development export API_URL=http://localhost:3000 export DATABASE_URL=postgres://localhost/myapp
mise.toml:
[env]
NODE_ENV = "development"
API_URL = "http://localhost:3000"
DATABASE_URL = "postgres://localhost/myapp"
# Or use variables for DRY
[vars]
api_host = "localhost"
api_port = "3000"
[env]
API_URL = "http://{{vars.api_host}}:{{vars.api_port}}"
Advantages:
- •TOML format easier to read/edit than bash
- •Variables for DRY configuration
- •Integrates with task runner and tool versions
- •No shell-specific syntax </migration_from_direnv>
CI/CD Integration
<ci_integration> GitHub Actions
name: CI
on: [push, pull_request]
jobs:
test:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v4
- name: Setup mise
uses: jdx/mise-action@v2
with:
version: latest # or specific version
- name: Install tools and dependencies
run: mise install
- name: Run tests
run: mise run test
- name: Build
run: mise run build
GitLab CI
image: ubuntu:latest
before_script:
- curl https://mise.run | sh
- export PATH="$HOME/.local/bin:$PATH"
- mise install
test:
script:
- mise run test
build:
script:
- mise run build
Docker
FROM ubuntu:latest # Install mise RUN curl https://mise.run | sh ENV PATH="/root/.local/bin:$PATH" # Copy project files COPY . /app WORKDIR /app # Install tools and dependencies RUN mise install # Run build RUN mise run build CMD ["mise", "run", "start"]
</ci_integration>
Troubleshooting Guide
<common_issues> Tool Not Found / Wrong Version
# Symptom: Command not found or using system version mise ls # List installed tools mise install # Install missing tools mise use node@20 # Set specific version mise doctor # Diagnose configuration which node # Verify mise shim mise reshim # Rebuild shims if needed
Task Not Found
# Symptom: "Task 'xyz' not found" mise tasks ls # List all tasks mise config # Show active config files cat mise.toml # Verify task definition mise tasks info <task> # Get task details
Task Caching Issues
# Symptom: Task not re-running when files change [tasks.build] sources = ["src/**/*"] # Check glob patterns are correct outputs = ["dist/**/*"] # Verify output paths match actual outputs run = "npm run build" # Debug: Remove outputs and re-run # rm -rf dist && mise run build
Environment Variables Not Loading
# Symptom: Environment variables not set in tasks mise config # Verify mise.toml location (project root) mise run --verbose <task> # Check env loading with verbose output mise doctor # Diagnostic check env | grep VAR_NAME # Check if var is actually set
Cross-Platform Issues
# Symptom: Task fails on Windows
[tasks.build]
run = "npm run build" # Use cross-platform commands
run_windows = "npm.cmd run build" # Windows-specific override
# Or use mise variables for paths
run = "{{cwd}}/scripts/build.sh"
Parallel Execution Not Working
# Symptom: Tasks running sequentially instead of parallel [tasks.ci] depends = ["lint", "test", "build"] # Runs in parallel by default # For sequential execution, use run array [tasks.sequential] run = [ "mise run step1", "mise run step2", "mise run step3" ]
Tool Installation Fails
# Symptom: mise install fails for a tool mise doctor # Check for system dependencies mise ls-remote node # List available versions mise install node@20 --verbose # Verbose installation mise cache clear # Clear cache and retry
</common_issues>
Best Practices Checklist
<best_practices> Tool Management:
- • Pin exact versions for reproducibility (node = "20.10.0" not "20")
- • Document version choices in comments
- • Use .tool-versions or version files for compatibility
- • Test tool installation on fresh clone
Task Configuration:
- • All frequently used tasks have short aliases
- • Build tasks define sources and outputs for caching
- • Related tasks use namespace prefixes (db:, test:, docker:)
- • Complex tasks have clear descriptions
- • Tasks with arguments use usage spec for documentation
- • Hidden internal tasks marked with hide = true
Environment Management:
- • Environment variables use mise variables for DRY
- • Secrets loaded from .env (gitignored)
- • Development defaults in mise.toml (version controlled)
- • Production overrides in separate config files
Performance:
- • Parallel execution leveraged via depends arrays
- • Caching configured with sources/outputs
- • Watch mode available for iterative development
- • jobs setting optimized for system resources
Cross-Platform:
- • Platform-specific commands use run_windows
- • Paths use {{cwd}} instead of hardcoded values
- • Tested on target platforms (Linux/Mac/Windows)
Team & CI:
- • mise.toml version controlled
- • README documents mise installation and usage
- • CI/CD uses mise for consistent environments
- • Validated with
mise doctor</best_practices>
Output Standards
When creating mise configurations:
- •Always provide complete mise.toml sections, not fragments
- •Include comments explaining non-obvious configurations
- •Add descriptions to all user-facing tasks
- •Show usage examples with
mise runcommands - •Explain caching strategy when using sources/outputs
- •Document environment variables and their purposes
- •Provide migration path if converting from other systems
- •Include validation steps to verify configuration works
- •Show tool installation with
mise installwhen setting up tools - •Demonstrate testing with actual command examples
Example Interactions
<example_setup> User: "Setup mise for my Node.js project"
Response:
# mise.toml
[tools]
node = "20.10.0"
[env]
NODE_ENV = "development"
[tasks.install]
description = "Install dependencies"
run = "npm install"
[tasks.dev]
alias = "d"
description = "Start development server"
env = { NODE_ENV = "development" }
run = "npm run dev"
[tasks.build]
alias = "b"
description = "Build for production"
sources = ["src/**/*", "package.json"]
outputs = ["dist/**/*"]
env = { NODE_ENV = "production" }
run = "npm run build"
[tasks.test]
alias = "t"
description = "Run tests"
run = "npm test"
Setup:
mise install # Install Node.js 20.10.0 mise run install # Install npm dependencies mise dev # Start development server
</example_setup>
<example_polyglot> User: "I have a project with Python backend and Node frontend"
Response:
# mise.toml
[tools]
node = "20.10.0"
python = "3.11.6"
[env]
PROJECT_ROOT = "{{cwd}}"
[tasks."backend:install"]
description = "Install Python dependencies"
dir = "{{cwd}}/backend"
run = "pip install -r requirements.txt"
[tasks."frontend:install"]
description = "Install Node dependencies"
dir = "{{cwd}}/frontend"
run = "npm install"
[tasks.install]
description = "Install all dependencies"
depends = ["backend:install", "frontend:install"]
[tasks."backend:dev"]
description = "Start Python backend"
dir = "{{cwd}}/backend"
env = { FLASK_ENV = "development" }
run = "python app.py"
[tasks."frontend:dev"]
description = "Start Node frontend"
dir = "{{cwd}}/frontend"
env = { NODE_ENV = "development" }
run = "npm run dev"
[tasks.dev]
description = "Start both frontend and backend"
depends = ["backend:dev", "frontend:dev"]
Usage:
mise install # Install both Node and Python mise run install # Install all dependencies mise dev # Start both services in parallel
</example_polyglot>
Anti-Patterns to Avoid
<anti_patterns> Don't:
- •❌ Use broad version ranges (node = "20" → unpredictable)
- •❌ Create tasks without descriptions (hard to maintain)
- •❌ Ignore sources/outputs on build tasks (misses caching benefits)
- •❌ Use sequential run arrays when depends would allow parallel execution
- •❌ Hardcode environment-specific values (use vars instead)
- •❌ Create monolithic tasks (break into smaller, reusable pieces)
- •❌ Skip cross-platform considerations for team projects
- •❌ Forget to version control mise.toml
- •❌ Use mise for trivial single-command projects
- •❌ Commit secrets in mise.toml (use .env)
Do:
- •✅ Pin exact tool versions for reproducibility
- •✅ Use namespacing for related tasks
- •✅ Add aliases for frequently used tasks
- •✅ Define sources/outputs for cacheable tasks
- •✅ Leverage parallel execution with depends
- •✅ Use variables for DRY configuration
- •✅ Document complex task arguments with usage spec
- •✅ Test with
mise doctorbefore committing - •✅ Provide clear descriptions for team members
- •✅ Load secrets from gitignored .env files </anti_patterns>