137 lines
4.4 KiB
Text
137 lines
4.4 KiB
Text
/-
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Copyright (c) 2018 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Authors: Leonardo de Moura
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-/
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prelude
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import init.lean.name init.data.option.basic init.data.int
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namespace Lean
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inductive DataValue
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| ofString (v : String)
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| ofBool (v : Bool)
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| ofName (v : Name)
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| ofNat (v : Nat)
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| ofInt (v : Int)
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def DataValue.beq : DataValue → DataValue → Bool
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| (DataValue.ofString s₁) (DataValue.ofString s₂) := s₁ = s₂
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| (DataValue.ofNat n₁) (DataValue.ofNat n₂) := n₂ = n₂
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| (DataValue.ofBool b₁) (DataValue.ofBool b₂) := b₁ = b₂
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| _ _ := false
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instance DataValue.HasBeq : HasBeq DataValue := ⟨DataValue.beq⟩
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instance string2DataValue : HasCoe String DataValue := ⟨DataValue.ofString⟩
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instance bool2DataValue : HasCoe Bool DataValue := ⟨DataValue.ofBool⟩
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instance name2DataValue : HasCoe Name DataValue := ⟨DataValue.ofName⟩
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instance nat2DataValue : HasCoe Nat DataValue := ⟨DataValue.ofNat⟩
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instance int2DataValue : HasCoe Int DataValue := ⟨DataValue.ofInt⟩
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/- Remark: we do not use RBMap here because we need to manipulate KVMap objects in
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C++ and RBMap is implemented in Lean. So, we use just a List until we can
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generate C++ code from Lean code. -/
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structure KVMap :=
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(entries : List (Name × DataValue) := [])
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namespace KVMap
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def findCore : List (Name × DataValue) → Name → Option DataValue
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| [] k' := none
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| ((k,v)::m) k' := if k = k' then some v else findCore m k'
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def find : KVMap → Name → Option DataValue
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| ⟨m⟩ k := findCore m k
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def insertCore : List (Name × DataValue) → Name → DataValue → List (Name × DataValue)
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| [] k' v' := [(k',v')]
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| ((k,v)::m) k' v' := if k = k' then (k, v') :: m else (k, v) :: insertCore m k' v'
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def insert : KVMap → Name → DataValue → KVMap
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| ⟨m⟩ k v := ⟨insertCore m k v⟩
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def contains (m : KVMap) (n : Name) : Bool :=
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(m.find n).isSome
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def getString (m : KVMap) (k : Name) (defVal := "") : String :=
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match m.find k with
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| some (DataValue.ofString v) := v
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| _ := defVal
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def getNat (m : KVMap) (k : Name) (defVal := 0) : Nat :=
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match m.find k with
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| some (DataValue.ofNat v) := v
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| _ := defVal
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def getInt (m : KVMap) (k : Name) (defVal : Int := 0) : Int :=
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match m.find k with
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| some (DataValue.ofInt v) := v
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| _ := defVal
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def getBool (m : KVMap) (k : Name) (defVal := false) : Bool :=
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match m.find k with
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| some (DataValue.ofBool v) := v
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| _ := defVal
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def getName (m : KVMap) (k : Name) (defVal := Name.anonymous) : Name :=
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match m.find k with
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| some (DataValue.ofName v) := v
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| _ := defVal
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def setString (m : KVMap) (k : Name) (v : String) : KVMap :=
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m.insert k (DataValue.ofString v)
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def setNat (m : KVMap) (k : Name) (v : Nat) : KVMap :=
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m.insert k (DataValue.ofNat v)
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def setInt (m : KVMap) (k : Name) (v : Int) : KVMap :=
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m.insert k (DataValue.ofInt v)
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def setBool (m : KVMap) (k : Name) (v : Bool) : KVMap :=
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m.insert k (DataValue.ofBool v)
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def setName (m : KVMap) (k : Name) (v : Name) : KVMap :=
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m.insert k (DataValue.ofName v)
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def subsetAux : List (Name × DataValue) → KVMap → Bool
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| [] m₂ := true
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| ((k, v₁)::m₁) m₂ :=
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match m₂.find k with
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| some v₂ := v₁ == v₂ && subsetAux m₁ m₂
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| none := false
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def subset : KVMap → KVMap → Bool
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| ⟨m₁⟩ m₂ := subsetAux m₁ m₂
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def eqv (m₁ m₂ : KVMap) : Bool :=
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subset m₁ m₂ && subset m₂ m₁
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instance : HasBeq KVMap := ⟨eqv⟩
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class isKVMapVal (α : Type) :=
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(defVal : α)
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(set : KVMap → Name → α → KVMap)
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(get : KVMap → Name → α → α)
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export isKVMapVal (set)
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@[inline] def get {α : Type} [isKVMapVal α] (m : KVMap) (k : Name) (defVal := isKVMapVal.defVal α) : α :=
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isKVMapVal.get m k defVal
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instance boolVal : isKVMapVal Bool :=
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{ defVal := false, set := setBool, get := fun k n v => getBool k n v }
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instance natVal : isKVMapVal Nat :=
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{ defVal := 0, set := setNat, get := fun k n v => getNat k n v }
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instance intVal : isKVMapVal Int :=
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{ defVal := 0, set := setInt, get := fun k n v => getInt k n v }
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instance nameVal : isKVMapVal Name :=
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{ defVal := Name.anonymous, set := setName, get := fun k n v => getName k n v }
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instance stringVal : isKVMapVal String :=
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{ defVal := "", set := setString, get := fun k n v => getString k n v }
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end KVMap
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end Lean
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