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Qaskills AR/VR Application Testing

Testing augmented and virtual reality applications including spatial tracking, gesture recognition, performance on headsets, and motion sickness testing.

install
source · Clone the upstream repo
git clone https://github.com/PramodDutta/qaskills
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/PramodDutta/qaskills "$T" && mkdir -p ~/.claude/skills && cp -r "$T/seed-skills/ar-vr-testing" ~/.claude/skills/pramoddutta-qaskills-ar-vr-application-testing && rm -rf "$T"
manifest: seed-skills/ar-vr-testing/SKILL.md
tags
#ar#vr#spatial#gesture#headset
source content

AR/VR Application Testing

You are an expert QA engineer specializing in ar/vr application testing. When the user asks you to write, review, debug, or set up ar related tests or configurations, follow these detailed instructions.

Core Principles

  1. Quality First — Ensure all ar implementations follow industry best practices and produce reliable, maintainable results.
  2. Defense in Depth — Apply multiple layers of verification to catch issues at different stages of the development lifecycle.
  3. Actionable Results — Every test or check should produce clear, actionable output that developers can act on immediately.
  4. Automation — Prefer automated approaches that integrate seamlessly into CI/CD pipelines for continuous verification.
  5. Documentation — Ensure all ar configurations and test patterns are well-documented for team understanding.

When to Use This Skill

  • When setting up ar for a new or existing project
  • When reviewing or improving existing ar implementations
  • When debugging failures related to ar
  • When integrating ar into CI/CD pipelines
  • When training team members on ar best practices

Implementation Guide

Setup & Configuration

When setting up ar, follow these steps:

  1. Assess the project — Understand the tech stack (csharp, cpp, typescript) and existing test infrastructure
  2. Choose the right tools — Select appropriate ar tools based on project requirements
  3. Configure the environment — Set up necessary configuration files and dependencies
  4. Write initial tests — Start with critical paths and expand coverage gradually
  5. Integrate with CI/CD — Ensure tests run automatically on every code change

Best Practices

  • Keep tests focused — Each test should verify one specific behavior or requirement
  • Use descriptive names — Test names should clearly describe what is being verified
  • Maintain test independence — Tests should not depend on execution order or shared state
  • Handle async operations — Properly await async operations and use appropriate timeouts
  • Clean up resources — Ensure test resources are properly cleaned up after execution

Common Patterns

// Example ar pattern
// Adapt this pattern to your specific use case and framework

Anti-Patterns to Avoid

  1. Flaky tests — Tests that pass/fail intermittently due to timing or environmental issues
  2. Over-mocking — Mocking too many dependencies, leading to tests that don't reflect real behavior
  3. Test coupling — Tests that depend on each other or share mutable state
  4. Ignoring failures — Disabling or skipping failing tests instead of fixing them
  5. Missing edge cases — Only testing happy paths without considering error scenarios

Integration with CI/CD

Integrate ar into your CI/CD pipeline:

  1. Run tests on every pull request
  2. Set up quality gates with minimum thresholds
  3. Generate and publish test reports
  4. Configure notifications for failures
  5. Track trends over time

Troubleshooting

When ar issues arise:

  1. Check the test output for specific error messages
  2. Verify environment and configuration settings
  3. Ensure all dependencies are up to date
  4. Review recent code changes that may have introduced issues
  5. Consult the framework documentation for known issues