Synthetic Adjunctions Skill: Universal Construction Generation

Status: ✅ Production Ready Trit: +1 (PLUS - generator) Color: #D82626 (Red) Principle: Adjunctions generate universal structures Frame: Directed type theory with adjoint functors

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Overview

Synthetic Adjunctions generates adjunction data in directed type theory. Adjunctions are the fundamental generators of universal constructions—limits, colimits, Kan extensions, and monads all arise from adjunctions.

1. Unit/counit: Natural transformations η, ε
2. Triangle identities: Coherence conditions
3. Mate correspondence: Bijection between hom-sets
4. Universal properties: Initial/terminal characterizations

Core Formula

L ⊣ R adjunction:
  η : Id → R ∘ L       (unit)
  ε : L ∘ R → Id       (counit)
  
Triangle identities:
  (εL) ∘ (Lη) = id_L
  (Rε) ∘ (ηR) = id_R

-- Generate adjunction from universal property
generate_adjunction :: FreeConstruction → Adjunction
generate_adjunction (Free F) = Adjunction {
    left = F,
    right = Forgetful,
    unit = η_universal,
    counit = ε_evaluation
}

Key Concepts

1. Adjunction Generation

-- Construct adjunction from representability
representable-adjunction : 
  (F : A → B) → (G : B → A) →
  ((a : A) (b : B) → Hom_B(F a, b) ≃ Hom_A(a, G b)) →
  Adjunction F G
representable-adjunction F G iso = record
  { unit = λ a → iso.inv (id (F a))
  ; counit = λ b → iso.to (id (G b))
  ; triangle-L = from-iso-naturality
  ; triangle-R = from-iso-naturality
  }

2. Free-Forgetful Generation

-- Generate free algebra adjunction
free-forgetful : (T : Monad) → Adjunction (Free T) (Forgetful T)
free-forgetful T = record
  { unit = T.η
  ; counit = T.μ ∘ T.map(eval)
  ; triangle-L = T.left-unit
  ; triangle-R = T.right-unit
  }

-- Free monoid on sets
Free-Mon : Adjunction Free Underlying
Free-Mon = free-forgetful List-Monad

3. Kan Extension via Adjunction

-- Left Kan extension as left adjoint to restriction
Lan : (K : A → B) → Adjunction (Lan_K) (Res_K)
Lan K = record
  { left = λ F → colim_{K/b} F ∘ proj
  ; right = λ G → G ∘ K
  ; unit = universal-arrow
  ; counit = eval-at-colimit
  }

4. Generate Limits from Adjunctions

-- Diagonal adjunction gives limits
limit-adjunction : Adjunction Δ lim
limit-adjunction = record
  { left = Δ         -- diagonal functor
  ; right = lim      -- limit functor
  ; unit = proj      -- projections
  ; counit = univ    -- universal property
  }

Commands

# Generate adjunction from free construction
just adjunction-generate --free-on Monoid

# Synthesize unit/counit
just adjunction-unit-counit L R

# Verify triangle identities
just adjunction-verify adj.rzk

Integration with GF(3) Triads

covariant-fibrations (-1) ⊗ directed-interval (0) ⊗ synthetic-adjunctions (+1) = 0 ✓  [Transport]
yoneda-directed (-1) ⊗ elements-infinity-cats (0) ⊗ synthetic-adjunctions (+1) = 0 ✓  [Yoneda-Adjunction]
segal-types (-1) ⊗ directed-interval (0) ⊗ synthetic-adjunctions (+1) = 0 ✓  [Segal Adjunctions]

Related Skills

• elements-infinity-cats (0): Coordinate ∞-categorical adjunctions
• covariant-fibrations (-1): Validate fibration conditions
• free-monad-gen (+1): Generate free monads from adjunctions

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Skill Name: synthetic-adjunctions Type: Universal Construction Generator Trit: +1 (PLUS) Color: #D82626 (Red)

Scientific Skill Interleaving

This skill connects to the K-Dense-AI/claude-scientific-skills ecosystem:

Graph Theory

• networkx [○] via bicomodule
  • Universal graph hub

Bibliography References

• category-theory

  : 139 citations in bib.duckdb

Cat# Integration

This skill maps to Cat# = Comod(P) as a bicomodule in the equipment structure:

Trit: 0 (ERGODIC)
Home: Prof
Poly Op: ⊗
Kan Role: Adj
Color: #26D826

GF(3) Naturality

The skill participates in triads satisfying:

(-1) + (0) + (+1) ≡ 0 (mod 3)

This ensures compositional coherence in the Cat# equipment structure.