Init.Data.Nat.Bitwise.Basic

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theorem Nat.bitwise_rec_lemma {n : Nat} (hNe : n ≠ 0) :

n / 2 < n

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@[irreducible]

def Nat.bitwise (f : Bool → Bool → Bool) (n : Nat) (m : Nat) :

Nat

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

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@[extern lean_nat_land]

def Nat.land :

Nat → Nat → Nat

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Nat.land = Nat.bitwise and

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@[extern lean_nat_lor]

def Nat.lor :

Nat → Nat → Nat

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Nat.lor = Nat.bitwise or

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@[extern lean_nat_lxor]

def Nat.xor :

Nat → Nat → Nat

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Nat.xor = Nat.bitwise bne

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@[extern lean_nat_shiftl]

def Nat.shiftLeft :

Nat → Nat → Nat

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x.shiftLeft 0 = x
x.shiftLeft m.succ = (2 * x).shiftLeft m

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@[extern lean_nat_shiftr]

def Nat.shiftRight :

Nat → Nat → Nat

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x.shiftRight 0 = x
x.shiftRight m.succ = x.shiftRight m / 2

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instance Nat.instAndOp :

AndOp Nat

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Nat.instAndOp = { and := Nat.land }

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instance Nat.instOrOp :

OrOp Nat

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Nat.instOrOp = { or := Nat.lor }

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instance Nat.instXor :

Xor Nat

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Nat.instXor = { xor := Nat.xor }

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instance Nat.instShiftLeft :

ShiftLeft Nat

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Nat.instShiftLeft = { shiftLeft := Nat.shiftLeft }

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instance Nat.instShiftRight :

ShiftRight Nat

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Nat.instShiftRight = { shiftRight := Nat.shiftRight }

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theorem Nat.shiftLeft_eq (a : Nat) (b : Nat) :

a <<< b = a * 2 ^ b

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@[simp]

theorem Nat.shiftRight_zero {n : Nat} :

n >>> 0 = n

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theorem Nat.shiftRight_succ (m : Nat) (n : Nat) :

m >>> (n + 1) = m >>> n / 2

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theorem Nat.shiftRight_add (m : Nat) (n : Nat) (k : Nat) :

m >>> (n + k) = m >>> n >>> k

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theorem Nat.shiftRight_eq_div_pow (m : Nat) (n : Nat) :

m >>> n = m / 2 ^ n

testBit #

We define an operation for testing individual bits in the binary representation of a number.

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def Nat.testBit (m : Nat) (n : Nat) :

Bool

testBit m n returns whether the (n+1) least significant bit is 1 or 0

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m.testBit n = (1 &&& m >>> n != 0)