chrysopoeia

pjt222

Mis à jour 2 days ago

8 vues

Designapi

À propos

Chrysopoeia optimise et affine systématiquement les bases de code existantes et fonctionnelles en identifiant et en améliorant les modèles porteurs de valeur. Elle se concentre sur le réglage des performances, le nettoyage de la surface d'API et l'élimination du code mort pour réduire la taille du bundle ou l'empreinte mémoire. Utilisez cette compétence lorsque votre code fonctionne mais nécessite d'être poli – par exemple pour préparer une publication open-source – plutôt que pour une réécriture complète.

Installation rapide

Claude Code

Recommandé

Principal

npx skills add pjt222/agent-almanac -a claude-code

Commande PluginAlternatif

/plugin add https://github.com/pjt222/agent-almanac

Git CloneAlternatif

git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/chrysopoeia

Copiez et collez cette commande dans Claude Code pour installer cette compétence

Documentation

クリソポエイア

Systematically extract maximum value from existing code — identify what's golden (high-value, well-designed), what's lead (resource-heavy, poorly optimized), and what's dross (dead weight). Then amplify the gold, transmute the lead, and remove the dross.

使用タイミング

Optimizing a working but sluggish codebase for performance
Refining an API surface that has accumulated cruft over iterations
Reducing bundle size, memory footprint, or startup time
Preparing code for open-source release (extracting the valuable core)
When code works correctly but doesn't shine — it needs polish, not rewrite

入力

必須: Codebase or module to optimize (file paths)
必須: Value metric (performance, API clarity, bundle size, readability)
任意: Profiling data or benchmarks showing current performance
任意: Budget or target (e.g., "reduce bundle by 40%", "sub-100ms response")
任意: Constraints (can't change public API, must maintain backward compat)

手順

ステップ1: Assay — Classify the Material

Systematically classify every element by its value contribution.

Define the value metric from Inputs (performance, clarity, size, etc.)
Inventory the codebase elements (functions, modules, exports, dependencies)
Classify each element:

Value Classification:
+--------+---------------------------------------------------------+
| Gold   | High value, well-designed. Amplify and protect.         |
| Silver | Good value, minor imperfections. Polish.                |
| Lead   | Functional but heavy — poor performance, complex API.   |
|        | Transmute into something lighter.                       |
| Dross  | Dead code, unused exports, vestigial features.          |
|        | Remove entirely.                                        |
+--------+---------------------------------------------------------+

For performance optimization, profile first:
- Identify hot paths (where time is spent)
- Identify cold paths (rarely executed code that may be dross)
- Measure memory allocation patterns
Produce the Assay Report: element-by-element classification with evidence

期待結果: Every significant element classified with evidence. Gold elements are identified for protection during optimization. Lead elements are prioritized by impact.

失敗時: If profiling tools aren't available, use static analysis: function complexity (cyclomatic), dependency count, and code size as proxies. If the codebase is too large, focus on the critical path first.

ステップ2: Refine — Amplify the Gold

Protect and enhance the highest-value elements.

For each Gold element:
- Ensure it has comprehensive tests (these are your most valuable assets)
- Document its interface clearly if not already done
- Consider whether it could be extracted as a reusable module
For each Silver element:
- Apply targeted improvements (better naming, clearer types, minor optimizations)
- Bring test coverage to Gold-level
- Resolve minor code smells without restructuring
Do not modify Gold/Silver behavior — only improve their polish and protection

期待結果: Gold and Silver elements are better tested, documented, and protected. No behavioral changes, only quality improvements.

失敗時: If a "Gold" element reveals hidden problems during closer inspection, reclassify it. Better to be honest about value than to protect flawed code.

ステップ3: Transmute — Convert Lead to Gold

Transform heavy, inefficient elements into optimized equivalents.

Prioritize Lead elements by impact (highest resource consumption first)
For each Lead element, choose a transmutation strategy:
- Algorithm optimization: Replace O(n^2) with O(n log n), eliminate redundant computation
- Caching/memoization: Store expensive results that are requested repeatedly
- Lazy evaluation: Defer computation until results are actually needed
- Batch processing: Combine many small operations into fewer large ones
- Structural simplification: Reduce cyclomatic complexity, flatten deep nesting
Apply the strategy and measure the improvement:
- Before/after benchmarks for performance changes
- Before/after line counts for complexity changes
- Before/after dependency counts for coupling changes
Verify behavioral equivalence after each transmutation

期待結果: Measurable improvement on the target value metric. Each transmuted element performs better than its Lead predecessor while maintaining identical behavior.

失敗時: If a Lead element resists optimization within its current interface, consider whether the interface itself is the problem. Sometimes the transmutation requires changing how the element is called, not just how it's implemented.

ステップ4: Purge — Remove the Dross

Eliminate dead weight systematically.

For each Dross element, verify it's truly unused:
- Search for all references (grep, IDE find-usages)
- Check for dynamic references (string-based dispatch, reflection)
- Check for external consumers (if the code is a library)
Remove confirmed dross:
- Delete dead code, unused exports, vestigial features
- Remove unused dependencies from package manifests
- Clean up configuration for removed features
Verify nothing breaks after each removal (run tests)
Document what was removed and why (in commit messages, not in code)

期待結果: The codebase is lighter. Bundle size, dependency count, or code volume measurably reduced. All tests still pass.

失敗時: If removing an element breaks something, it wasn't dross — reclassify it. If dynamic references make it hard to verify usage, add temporary logging before deletion to confirm no runtime access.

ステップ5: Verify — Weigh the Gold

Measure the overall improvement.

Run the same benchmarks/metrics used in Step 1
Compare before/after on the target value metric
Document the chrysopoeia results:
- Elements refined (Gold/Silver improvements)
- Elements transmuted (Lead → Gold conversions with measurements)
- Elements purged (Dross removed with size/count impact)
- Overall metric improvement (e.g., "47% faster", "32% smaller bundle")

期待結果: Measurable, documented improvement on the target value metric. The codebase is demonstrably more valuable than before.

失敗時: If overall improvement is marginal, the original code may have been better than assumed. Document what was learned — knowing that code is already near-optimal is itself valuable.

バリデーション Checklist

Assay report classifies all significant elements with evidence
Gold elements have comprehensive tests and documentation
Lead transmutations show measurable before/after improvement
Dross removal verified with reference checks before deletion
All tests pass after each stage
Overall improvement measured and documented
No behavioral regressions introduced
Constraints from Inputs are satisfied

よくある落とし穴

Premature optimization: Optimizing without profiling. Always measure first, optimize the hot paths
Polishing dross: Spending effort improving code that should be deleted. Classify before refining
Breaking Gold: Optimization that degrades the best code. Gold elements should only get better, never worse
Unmeasured claims: "It feels faster" is not chrysopoeia. Every improvement must be quantified
Optimizing cold paths: Spending effort on code that runs once at startup when the bottleneck is the request loop

Dépôt GitHub

pjt222/agent-almanac

Chemin: i18n/ja/skills/chrysopoeia

agentsagentskillsai-assisted-developmentclaude-codeskillsteams

Compétences associées

executing-plans

Design

Utilisez la compétence executing-plans lorsque vous disposez d'un plan de mise en œuvre complet à exécuter par lots contrôlés avec des points de contrôle de revue. Elle charge et examine le plan de manière critique, puis exécute les tâches par petits lots (3 tâches par défaut) tout en rapportant la progression entre chaque lot pour une revue par l'architecte. Cela garantit une mise en œuvre systématique avec des points de contrôle de qualité intégrés.

Voir la compétence

requesting-code-review

Design

Cette compétence délègue un sous-agent réviseur de code pour analyser les modifications apportées au code par rapport aux exigences avant de poursuivre. Elle doit être utilisée après avoir terminé des tâches, implémenté des fonctionnalités majeures, ou avant une fusion vers la branche principale. La revue aide à détecter précocement les problèmes en comparant l'implémentation actuelle avec le plan initial.

Voir la compétence

connect-mcp-server

Design

Cette compétence fournit un guide complet permettant aux développeurs de connecter des serveurs MCP à Claude Code via les transports HTTP, stdio ou SSE. Elle couvre l'installation, la configuration, l'authentification et la sécurité pour intégrer des services externes tels que GitHub, Notion et des API personnalisées. Utilisez-la lors de la configuration d'intégrations MCP, de la configuration d'outils externes ou du travail avec le Protocole de Contexte de Modèle de Claude.

Voir la compétence

web-cli-teleport

Design

Cette compétence aide les développeurs à choisir entre les interfaces Web et CLI de Claude Code en fonction de l'analyse des tâches, puis permet une téléportation transparente des sessions entre ces environnements. Elle optimise le flux de travail en gérant l'état et le contexte de la session lors du passage entre le web, la CLI ou le mobile. Utilisez-la pour des projets complexes nécessitant différents outils à diverses étapes.

Voir la compétence

chrysopoeia

À propos

Installation rapide

Claude Code

Documentation

クリソポエイア

使用タイミング

入力

手順

ステップ1: Assay — Classify the Material

ステップ2: Refine — Amplify the Gold

ステップ3: Transmute — Convert Lead to Gold

ステップ4: Purge — Remove the Dross

ステップ5: Verify — Weigh the Gold

バリデーション Checklist

よくある落とし穴

関連スキル

Dépôt GitHub

Compétences associées

executing-plans

requesting-code-review

connect-mcp-server

web-cli-teleport