# Questions tagged [lean]

Lean is an open source theorem prover being developed at Microsoft Research, and its standard library at Carnegie Mellon University. The Lean Theorem Prover aims to bridge the gap between interactive and automated theorem proving.

92
questions

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### Nested pattern matching in Lean for destructing hypothesis

Let us look at the example of some lemma (whose statement and whether it is true or not is irrelevant for this discussion):
lemma L1 : forall (n m: ℕ) (p : ℕ → Prop), (p n ∧ ∃ (u:ℕ), p u ∧ p m) ∨ (¬p ...

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**1**answer

24 views

### Proving that two strings are different in Lean

As I was carrying out my normal course of lean theorem proving, I realized my current file
was taking an awfully long time to compile. I then narrowed down the issue to the
part where I was attempting ...

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votes

**1**answer

20 views

### “failed to synthesize type class instance” in rewrite subproof

The code below fails verification with "failed to synthesize type class instance for ... ⊢ has_pow R R".
This seems weird because I used the same operator (^) on the same types in the ...

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votes

**1**answer

21 views

### Problem with types in a definition in lean

If I make the definition
definition f (x : nat) := λ m, x + m
then #check f returns f:nat -> nat -> nat, as expected.
If instead I try to define
definition f (x : nat) : nat -> nat -> ...

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**1**answer

32 views

### prove p or q iff q or p in Lean

Trying to do the chapter 3 exercises in the lean documentation, but having a hard time understanding all the terminology as I know almost 0 about writing proofs. I want to learn more, but need some ...

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votes

**2**answers

65 views

### How enter symbols in VS Code for Lean (macOS)

I'm using Lean in VS Code under macOS Catalina with a U.S. keyboard. How do I enter symbols such as for the implication arrow, union, intersection, subset?
Is there some built-in or add-on palette ...

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vote

**1**answer

24 views

### Why was the second inductive hypothesis not needed in this nested induction proof?

I'm working through the Natural Number game and I've completed a proof for mul_add. The proof looks like this:
lemma mul_add (t a b : mynat) : t * (a + b) = t * a + t * b :=
begin
induction b ...

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**1**answer

16 views

### Resolving goals containing existential quantifiers

In the natural number game, the use keyword resolves goals which contain existential quantifiers by assigning a concrete value to the quantified variable. Using Lean by itself it looks like use isn't ...

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**2**answers

50 views

### How do I easily rewrite nat.succ (nat.succ 0) as 2?

Say my proof goal includes nat.succ (nat.succ 0), and I want to quickly rewrite it to say 2; I can define a whole new theorem:
theorem succ_succ_zero_eq_two : nat.succ (nat.succ 0) = 2 := rfl
then ...

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votes

**1**answer

24 views

### What is the equivalent of Coq's 'fix' keyword to create fixpoints in Lean

I am trying to make literal translation of Coq terms into Lean terms but realize I am not aware of how to translate the Coq primitive fix as in:
Definition Fac : nat -> nat :=
fix f (n:nat) : ...

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36 views

### How to prove reverse nil is nil in Lean

I have defined a reverse function on lists, and I am trying to prove the trivial property that reverse of an empty list is empty. It should be provable by reflexivity:
def reverse (t : list α) : ...

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**1**answer

23 views

### destruct tactic failed, can only eliminate into Prop

Given a custom type to represent embeddings from type b to a:
inductive Embedding (b a:Sort u) : Sort u
| Embed : forall (j:b -> a), (forall (x y:b), j x = j y -> x = y) -> Embedding
I am ...

**0**

votes

**1**answer

20 views

### How to perform multiple exists-eliminations that all share a single multivariate universally-quantified hypothesis?

The Lean documentation shows the following two examples with just a single variable:
from Theorem Proving in Lean: Existential Quantifiers:
variables (α : Type) (p q : α → Prop)
example (h : ∃ x, p ...

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**1**answer

62 views

### How to use `exists.elim` in Lean?

This proof is a tactics-based version of the one in "Logic and Proof" by Avigad et al.
import data.nat.prime
open nat
theorem sqrt_two_irrational_V2 {a b : ℕ} (co : gcd a b = 1) : a^2 ≠ 2 * b^2 :=
...

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votes

**1**answer

74 views

### extending or inferring (PID / UFD) in a Lean class definition

Why is mathlib's definition of UFD this:
class unique_factorization_domain (α : Type*) [integral_domain α] :=
(factors : α → multiset α)
(factors_prod : ∀{a : α}, a ≠ 0 → (factors a).prod ~ᵤ a)
(...

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**1**answer

36 views

### How can one prove (¬ ∀ x, p x) → (∃ x, ¬ p x) from first principles in LEAN?

The proof of this basic implication from first principles, an exercise in "Theorem proving in Lean" 4.4, beats all my attempts so far:
open classical
variables (α : Type) (p q : α → Prop)
variable a :...

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**1**answer

28 views

### How to prove (∀ x, p x ∨ r) ↔ (∀ x, p x) ∨ r in Lean?

My prove is below but it's wrong,
and i don't know how to corrrect this
assume h : ∀ x, p x ∨ r, assume a: α,
or.elim (h a)
(assume hl: p a,
show p a ∨ r, from
or....

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votes

**1**answer

34 views

### Why does `rewrite` of associativity fail in binomial theorem proof in LEAN?

The Natural Number Game developed at Imperial College is a great idea that helped tremendously with the basics of proof writing in LEAN. After going through most of it there is however an "extra" ...

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**1**answer

61 views

### How to prove two statements in propositional logic using LEAN?

Two proofs at the end of chapter 3 in the LEAN tutorial that I still struggle with (and hence prevent me from going further with reading the manual) are the following:
theorem T11 : ¬(p ↔ ¬p) := ...

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40 views

### How to prove distributivity (propositional validity property 6) in LEAN?

Having gone through most exercises and also solved/proved in LEAN the first five propositional validities/properties at the end of chapter 3 in the LEAN manual, I still have trouble with the following ...

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53 views

### How to switch types in Lean theorem prover when constants are involved?

For a newcomer working through the LEAN documentation, it is sometimes quite frustrating to see that some simple problems turn into real bottlenecks when more difficult ones have apparently been ...

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**1**answer

101 views

### How to prove mathematical induction formulae in LEAN theorem prover?

Can anyone help me understand how to write the proof of a simple result that can be easily obtained by induction, for example the formula for the sum of the first n natural numbers: 1+2+...+n = n(n+1)/...

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23 views

### Run a automatic proof checking program in Lean from terminal

On Lean's official tutorials, I have seen how to play with Lean programs in Vscode and Emacs. I would like to know how to run a Lean from terminal. For example, say I wrote a program to check there ...

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vote

**2**answers

89 views

### Some basic Propositional Logic Proofs in Lean

I just read though the documentation of Lean, and try to do the 3.7. Exercises, didn't finish all of them yet, but here are the first four exercises (without classical reasoning):
variables p q r : ...

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38 views

### Making one step (in top-down, bottom-up) in Microsoft Lean theorem prover in the natural deduction formalism?

Natural deduction formalism allows to apply inference rules in any direction - both in top-down and bottom-up direction. That is in opposite to the sequent calculus whose inference rules are mean for ...

**2**

votes

**1**answer

29 views

### Induction issue

I have defined a type of trees, together with a fusion operation as follows:
open nat
inductive tree : Type
| lf : tree
| nd : tree -> nat -> tree -> tree
open tree
def fusion : tree ->...

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90 views

### Simple refl-based proof problem in Lean (but not in Agda)

In an attempt to define skew heaps in Lean and prove some results, I have defined a type for trees together with a fusion operation:
inductive tree : Type
| lf : tree
| nd : tree -> nat -> tree ...

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**1**answer

60 views

### Well-founded recursion in Lean

I am trying to to formalize Skew Heaps in Lean. I have defined the straightforward tree type:
inductive tree : Type
| leaf : tree
| node : tree -> nat -> tree -> tree
Next, I want to define ...

**0**

votes

**1**answer

59 views

### How to prove r → (∃ x : α, r) in Lean

I'm trying to prove the logical statement r → (∃ x : α, r), where r is a Prop (a proposition or statement) and α is a Type. I've proved a few things in Lean, going through the exercises of the book, ...

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**1**answer

108 views

### Trying to install lean in ubuntu

I got the following error and I don't know how to fix this issue.
m0nst3r@m0nst3r-G3:~/logical_verification_2019$ leanpkg configure
leanpkg: command not found
m0nst3r@m0nst3r-G3:~/...

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**0**answers

51 views

### TPIL 4.4: example : ¬ (∀ x, ¬ p x) → (∃ x, p x)

Section 4.4 of Theorem Proving in Lean shows the following:
(∃ x, p x) ↔ ¬ (∀ x, ¬ p x) := sorry
Here I'll focus on the right-to-left case:
¬ (∀ x, ¬ p x) → (∃ x, p x)
We know we'll have a ...

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**0**answers

48 views

### TPIL 4.4: example : ¬ (∃ x, ¬ p x) → (∀ x, p x)

Section 4.4 of Theorem Proving in Lean shows the following:
example : (∀ x, p x) ↔ ¬ (∃ x, ¬ p x) := sorry
Here I'll focus on the right-to-left case:
¬ (∃ x, ¬ p x) → (∀ x, p x)
Approach 1
We ...

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vote

**1**answer

52 views

### How is Agda inferring the implicit argument to `Vec.foldl`?

foldl : ∀ {a b} {A : Set a} (B : ℕ → Set b) {m} →
(∀ {n} → B n → A → B (suc n)) →
B zero →
Vec A m → B m
foldl b _⊕_ n [] = n
foldl b _⊕_ n (x ∷ xs) = foldl (λ n → b (suc ...

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76 views

### TPIL 3.6: example : ¬(p → q) → p ∧ ¬q

Section 3.6 of Theorem Proving in Lean shows the following:
example : ¬(p → q) → p ∧ ¬q
Let's rewrite the ¬ expressions in terms of →:
example : ((p → q) → false) → p ∧ (q → false)
At this point, ...

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vote

**1**answer

79 views

### TPIL 3.6: example : ¬(p ↔ ¬p)

Section 3.6 of Theorem Proving in Lean shows the following:
example : ¬(p ↔ ¬p) := sorry
Let's start with the original type:
¬(p ↔ ¬p)
Rewrite the outer ¬ in terms of →:
(p ↔ ¬p) → false
Then ...

**0**

votes

**1**answer

107 views

### example : ((p ∨ q) → r) → (p → r) ∧ (q → r)

Section 3.6 of Theorem Proving in Lean shows the following:
example : ((p ∨ q) → r) ↔ (p → r) ∧ (q → r) := sorry
Let's focus on the left-to-right direction:
example : ((p ∨ q) → r) → (p → r) ∧ (q → ...

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73 views

### Lean : Proof that \ not p \to (p \ to q) or similar false \to p

I am new at lean - prover and I am trying to solve the examples on the online tutorial.
I am stuck at this example and I need to prove that "false implies q" or something like that.
My code is :
...

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**1**answer

91 views

### example: (p ∨ q) ∧ (p ∨ r) → p ∨ (q ∧ r)

Section 3.6 of Theorem Proving in Lean shows the following:
example : p ∨ (q ∧ r) ↔ (p ∨ q) ∧ (p ∨ r) := sorry
Since this involves iff, let's demonstrate one direction first, left to right:
example ...

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**1**answer

32 views

### How to switch to HoTT-mode for Lean 2 in Emacs

I compiled Lean 2 from the github repository. Then, as instructed in scr/emacs/README.md, I modified my .emacs file, opened a file, clicked on 'Create new project', clicked on 'Open', typed 'hott' and ...

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votes

**1**answer

68 views

### Defining a function to a subset of the codomain

I am trying to define the image restriction of a function
f : A → B as f': A → f[A], where f'(a) = f(a) . However, I am not sure how to define it in a lean.
In my opinion, the most ...

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**1**answer

212 views

### How to simplify a proof by induction in Lean?

I'd like to simplify a proof by induction in Lean.
I've defined an inductive type with 3 constructors in Lean and a binary relation on this type. I've included the axioms because Lean wouldn't let me ...

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**1**answer

37 views

### Difference between the curly and round brackets for propositions in a theorem

I'm very confused by the use of braces for propositions in a theorem. See the following four snippets:
theorem contrapositive_1 : ∀ (P Q : Prop),
(P -> Q) -> (¬ Q -> ¬ P) := sorry
theorem ...

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**1**answer

96 views

### Lean: define product of R-ideal and R-module

I am trying to learn Lean and I am trying to figure out how one would create a new R-module I*M = {i*m | i in I, m in M} from an ideal I and an R-module M.
So my attempt was to define first a map ...

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**1**answer

107 views

### How to remove a universal quantifier in Lean?

I am working with two binary relations: g_o and pw_o, and I've defined pw_o below:
constants {A : Type} (g_o : A → A → Prop)
def pw_o (x y : A) : Prop := ∀ w : A, (g_o w x → g_o w y) ∧ (g_o y w → ...

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**1**answer

129 views

### Definition of choice in Lean

In Lean `choice' is implemented according to:
Our axiom of choice is now expressed simply as follows:
axiom choice {α : Sort u} : nonempty α → α
Given only the assertion h that α is nonempty, ...

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**1**answer

196 views

### Lean Mergesort using increasing well founded relation

I am trying to create the mergesort definition in Lean and have created the following code:
def mergesort (a: ℕ): list ℕ → list ℕ
| [] := []
| [a] := [a]
| (x::xs) := merge (...

**0**

votes

**1**answer

33 views

### Does lean have syntax for declaration of signatures?

I've looked but haven't found any mechanism described in the documentation which allows you to describe a section by it's signature. For example, in the section below the syntax of def requires the ...

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**3**answers

135 views

### How to eliminate parenthesis in algebraic expressions using Lean

I am trying to prove one algebraic theorem using Lean. My code is
import algebra.group
import algebra.ring
open algebra
variable {A : Type}
variables [s : ring A] (a b c : A)
include s
theorem ...

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votes

**0**answers

91 views

### What is the difference between Type and Type*?

I have seen some instance of Type* in this project. Running #check Type* gives Type u_1 : Type (u_1+1) and #check Type gives Type : Type 1.
Performing a search over the language reference and Ctrl-...

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**1**answer

60 views

### What makes the natural numbers so special with regards to timing out?

In a previous question I asked about formalizing subsets of Euclidean Spaces I received the following response for how to create n-dimensional Euclidean space:
def euclidean_space (n : ℕ) : Type := ...