Std.Sat.AIG.RefVecOperator.Map

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class Std.Sat.AIG.RefVec.LawfulMapOperator (α : Type) [Hashable α] [DecidableEq α] (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] :

Prop

chainable : ∀ (aig : Std.Sat.AIG α) (input1 input2 : aig.Ref) (h : aig.decls.size ≤ (f aig input1).aig.decls.size) (assign : α → Bool), ⟦assign, f (f aig input1).aig (input2.cast h)⟧ = ⟦assign, f aig input2⟧

Instances

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theorem Std.Sat.AIG.RefVec.LawfulMapOperator.chainable {α : Type} [Hashable α] [DecidableEq α] {f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α} [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [self : Std.Sat.AIG.RefVec.LawfulMapOperator α f] (aig : Std.Sat.AIG α) (input1 : aig.Ref) (input2 : aig.Ref) (h : aig.decls.size ≤ (f aig input1).aig.decls.size) (assign : α → Bool) :

⟦assign, f (f aig input1).aig (input2.cast h)⟧ = ⟦assign, f aig input2⟧

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theorem Std.Sat.AIG.RefVec.LawfulMapOperator.denote_prefix_cast_ref {α : Type} [Hashable α] [DecidableEq α] {assign : α → Bool} {aig : Std.Sat.AIG α} {input1 : aig.Ref} {input2 : aig.Ref} {f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α} [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] {h : aig.decls.size ≤ (f aig input1).aig.decls.size} :

⟦assign, f (f aig input1).aig (input2.cast h)⟧ = ⟦assign, f aig input2⟧

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instance Std.Sat.AIG.RefVec.LawfulMapOperator.instMkNotCached {α : Type} [Hashable α] [DecidableEq α] :

Std.Sat.AIG.RefVec.LawfulMapOperator α Std.Sat.AIG.mkNotCached

Equations

⋯ = ⋯

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structure Std.Sat.AIG.RefVec.MapTarget {α : Type} [Hashable α] [DecidableEq α] (aig : Std.Sat.AIG α) (len : Nat) :

Type

vec : aig.RefVec len
func : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α
lawful : Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref self.func
chainable : Std.Sat.AIG.RefVec.LawfulMapOperator α self.func

Instances For

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theorem Std.Sat.AIG.RefVec.MapTarget.chainable {α : Type} [Hashable α] [DecidableEq α] {aig : Std.Sat.AIG α} {len : Nat} (self : Std.Sat.AIG.RefVec.MapTarget aig len) :

Std.Sat.AIG.RefVec.LawfulMapOperator α self.func

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@[specialize #[]]

def Std.Sat.AIG.RefVec.map {α : Type} [Hashable α] [DecidableEq α] {len : Nat} (aig : Std.Sat.AIG α) (target : Std.Sat.AIG.RefVec.MapTarget aig len) :

Std.Sat.AIG.RefVecEntry α len

Equations

Std.Sat.AIG.RefVec.map aig target = Std.Sat.AIG.RefVec.map.go aig 0 ⋯ Std.Sat.AIG.RefVec.empty target.vec target.func

Instances For

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@[irreducible, specialize #[]]

def Std.Sat.AIG.RefVec.map.go {α : Type} [Hashable α] [DecidableEq α] {len : Nat} (aig : Std.Sat.AIG α) (idx : Nat) (hidx : idx ≤ len) (s : aig.RefVec idx) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] :

Std.Sat.AIG.RefVecEntry α len

Equations

One or more equations did not get rendered due to their size.

Instances For

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@[irreducible]

theorem Std.Sat.AIG.RefVec.map.go_le_size {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (idx : Nat) (hidx : idx ≤ len) (s : aig.RefVec idx) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] :

aig.decls.size ≤ (Std.Sat.AIG.RefVec.map.go aig idx hidx s input f).aig.decls.size

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theorem Std.Sat.AIG.RefVec.map_le_size {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (target : Std.Sat.AIG.RefVec.MapTarget aig len) :

aig.decls.size ≤ (Std.Sat.AIG.RefVec.map aig target).aig.decls.size

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@[irreducible]

theorem Std.Sat.AIG.RefVec.map.go_decl_eq {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (i : Nat) (hi : i ≤ len) (s : aig.RefVec i) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] (idx : Nat) (h1 : idx < aig.decls.size) (h2 : idx < (Std.Sat.AIG.RefVec.map.go aig i hi s input f).aig.decls.size) :

(Std.Sat.AIG.RefVec.map.go aig i hi s input f).aig.decls[idx] = aig.decls[idx]

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theorem Std.Sat.AIG.RefVec.map_decl_eq {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (target : Std.Sat.AIG.RefVec.MapTarget aig len) (idx : Nat) (h1 : idx < aig.decls.size) (h2 : idx < (Std.Sat.AIG.RefVec.map aig target).aig.decls.size) :

(Std.Sat.AIG.RefVec.map aig target).aig.decls[idx] = aig.decls[idx]

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instance Std.Sat.AIG.RefVec.instLawfulVecOperatorMapTargetMap {α : Type} [Hashable α] [DecidableEq α] :

Std.Sat.AIG.LawfulVecOperator α Std.Sat.AIG.RefVec.MapTarget fun {len : Nat} => Std.Sat.AIG.RefVec.map

Equations

Std.Sat.AIG.RefVec.instLawfulVecOperatorMapTargetMap = { le_size := ⋯, decl_eq := ⋯ }

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@[irreducible]

theorem Std.Sat.AIG.RefVec.map.go_get_aux {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (curr : Nat) (hcurr : curr ≤ len) (s : aig.RefVec curr) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] (idx : Nat) (hidx : idx < curr) (hfoo : aig.decls.size ≤ (Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).aig.decls.size) :

(Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).vec.get idx ⋯ = (s.get idx hidx).cast hfoo

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theorem Std.Sat.AIG.RefVec.map.go_get {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {aig : Std.Sat.AIG α} (curr : Nat) (hcurr : curr ≤ len) (s : aig.RefVec curr) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] (idx : Nat) (hidx : idx < curr) :

(Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).vec.get idx ⋯ = (s.get idx hidx).cast ⋯

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theorem Std.Sat.AIG.RefVec.map.go_denote_mem_prefix {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {assign : α → Bool} {aig : Std.Sat.AIG α} (curr : Nat) (hcurr : curr ≤ len) (s : aig.RefVec curr) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] (start : Nat) (hstart : start < aig.decls.size) :

⟦assign, { aig := (Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).aig, ref := { gate := start, hgate := ⋯ } }⟧ = ⟦assign, { aig := aig, ref := { gate := start, hgate := hstart } }⟧

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@[irreducible]

theorem Std.Sat.AIG.RefVec.map.denote_go {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {assign : α → Bool} {aig : Std.Sat.AIG α} (curr : Nat) (hcurr : curr ≤ len) (s : aig.RefVec curr) (input : aig.RefVec len) (f : (aig : Std.Sat.AIG α) → aig.Ref → Std.Sat.AIG.Entrypoint α) [Std.Sat.AIG.LawfulOperator α Std.Sat.AIG.Ref f] [Std.Sat.AIG.RefVec.LawfulMapOperator α f] (idx : Nat) (hidx1 : idx < len) :

curr ≤ idx → ⟦assign, { aig := (Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).aig, ref := (Std.Sat.AIG.RefVec.map.go aig curr hcurr s input f).vec.get idx hidx1 }⟧ = ⟦assign, f aig (input.get idx hidx1)⟧

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@[simp]

theorem Std.Sat.AIG.RefVec.denote_map {α : Type} [Hashable α] [DecidableEq α] {len : Nat} {assign : α → Bool} {aig : Std.Sat.AIG α} (target : Std.Sat.AIG.RefVec.MapTarget aig len) (idx : Nat) (hidx : idx < len) :

⟦assign, { aig := (Std.Sat.AIG.RefVec.map aig target).aig, ref := (Std.Sat.AIG.RefVec.map aig target).vec.get idx hidx }⟧ = ⟦assign, target.func aig (target.vec.get idx hidx)⟧