Documentation

Mathlib.Tactic.NormNum.Core

norm_num core functionality #

This file sets up the norm_num tactic and the @[norm_num] attribute, which allow for plugging in new normalization functionality around a simp-based driver. The actual behavior is in @[norm_num]-tagged definitions in Tactic.NormNum.Basic and elsewhere.

Attribute for identifying norm_num extensions.

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    An extension for norm_num.

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      Read a norm_num extension from a declaration of the right type.

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        @[inline, reducible]

        Each norm_num extension is labelled with a collection of patterns which determine the expressions to which it should be applied.

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          The state of the norm_num extension environment

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            Run each registered norm_num extension on an expression, returning a NormNum.Result.

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              def Mathlib.Meta.NormNum.deriveNat {u : Lean.Level} {α : Q(Type u)} (e : Q(«$α»)) (_inst : autoParam Q(AddMonoidWithOne «$α») _auto✝) :
              Lean.MetaM ((lit : Q()) × Q(Mathlib.Meta.NormNum.IsNat «$e» «$lit»))

              Run each registered norm_num extension on a typed expression e : α, returning a typed expression lit : ℕ, and a proof of isNat e lit.

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                def Mathlib.Meta.NormNum.deriveInt {u : Lean.Level} {α : Q(Type u)} (e : Q(«$α»)) (_inst : autoParam Q(Ring «$α») _auto✝) :
                Lean.MetaM ((lit : Q()) × Q(Mathlib.Meta.NormNum.IsInt «$e» «$lit»))

                Run each registered norm_num extension on a typed expression e : α, returning a typed expression lit : ℤ, and a proof of IsInt e lit in expression form.

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                  def Mathlib.Meta.NormNum.deriveRat {u : Lean.Level} {α : Q(Type u)} (e : Q(«$α»)) (_inst : autoParam Q(DivisionRing «$α») _auto✝) :
                  Lean.MetaM ( × (n : Q()) × (d : Q()) × Q(Mathlib.Meta.NormNum.IsRat «$e» «$n» «$d»))

                  Run each registered norm_num extension on a typed expression e : α, returning a rational number, typed expressions n : ℚ and d : ℚ for the numerator and denominator, and a proof of IsRat e n d in expression form.

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                    Run each registered norm_num extension on a typed expression p : Prop, and returning the truth or falsity of p' : Prop from an equivalence p ↔ p'.

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                      def Mathlib.Meta.NormNum.deriveBoolOfIff (p : Q(Prop)) (p' : Q(Prop)) (hp : Q(«$p» «$p'»)) :

                      Run each registered norm_num extension on a typed expression p : Prop, and returning the truth or falsity of p' : Prop from an equivalence p ↔ p'.

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                        Run each registered norm_num extension on an expression, returning a Simp.Result.

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                          Erases a name marked norm_num by adding it to the state's erased field and removing it from the state's list of Entrys.

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                            Erase a name marked as a norm_num attribute.

                            Check that it does in fact have the norm_num attribute by making sure it names a NormNumExt found somewhere in the state's tree, and is not erased.

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                              A simp plugin which calls NormNum.eval.

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                                A Methods implementation which calls norm_num.

                                Traverses the given expression using simp and normalises any numbers it finds.

                                The core of norm_num as a tactic in MetaM.

                                • g: The goal to simplify
                                • ctx: The simp context, constructed by mkSimpContext and containing any additional simp rules we want to use
                                • fvarIdsToSimp: The selected set of hypotheses used in the location argument
                                • simplifyTarget: true if the target is selected in the location argument
                                • useSimp: true if we used norm_num instead of norm_num1
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                                  Constructs a simp context from the simp argument syntax.

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                                    Elaborates a call to norm_num only? [args] or norm_num1.

                                    • args: the (simpArgs)? syntax for simp arguments
                                    • loc: the (location)? syntax for the optional location argument
                                    • simpOnly: true if only was used in norm_num
                                    • useSimp: false if norm_num1 was used, in which case only the structural parts of simp will be used, not any of the post-processing that simp only does without lemmas
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                                      Normalize numerical expressions. Supports the operations + - * / ⁻¹ ^ and % over numerical types such as , , , , and some general algebraic types, and can prove goals of the form A = B, A ≠ B, A < B and A ≤ B, where A and B are numerical expressions. It also has a relatively simple primality prover.

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                                        Basic version of norm_num that does not call simp.

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                                          Basic version of norm_num that does not call simp.

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                                            Elaborator for norm_num1 conv tactic.

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                                              Normalize numerical expressions. Supports the operations + - * / ⁻¹ ^ and % over numerical types such as , , , , and some general algebraic types, and can prove goals of the form A = B, A ≠ B, A < B and A ≤ B, where A and B are numerical expressions. It also has a relatively simple primality prover.

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                                                Elaborator for norm_num conv tactic.

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                                                  The basic usage is #norm_num e, where e is an expression, which will print the norm_num form of e.

                                                  Syntax: #norm_num (only)? ([ simp lemma list ])? :? expression

                                                  This accepts the same options as the #simp command. You can specify additional simp lemmas as usual, for example using #norm_num [f, g] : e. (The colon is optional but helpful for the parser.) The only restricts norm_num to using only the provided lemmas, and so #norm_num only : e behaves similarly to norm_num1.

                                                  Unlike norm_num, this command does not fail when no simplifications are made.

                                                  #norm_num understands local variables, so you can use them to introduce parameters.

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