The notation3 macro, simulating Lean 3's notation. #
Expands binders into nested combinators.
For example, the familiar exists is given by:
expand_binders% (p => Exists p) x y : Nat, x < y
which expands to the same expression as
∃ x y : Nat, x < y
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Keywording indicating whether to use a left- or right-fold.
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notation3 argument matching extBinders.
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notation3 argument simulating a Lean 3 fold notation.
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notation3 argument binding a name.
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notation3 argument.
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Expression matching #
A more complicated part of notation3 is the delaborator generator.
While notation relies on generating app unexpanders, we instead generate a
delaborator directly so that we can control how binders are formatted (we want
to be able to know the types of binders, whether a lambda is a constant function,
and whether it is Prop-valued, which are not things we can answer once we pass
to app unexpanders).
This stores the assignments of variables to subexpressions (and their contexts) that have been found so far during the course of the matching algorithm. We store the contexts since we need to delaborate expressions after we leave scoping constructs.
- scopeState : Option (Array (Lean.TSyntax `Std.ExtendedBinder.extBinderParenthesized))
The binders accumulated while matching a
scopedexpression. - foldState : Lean.HashMap Lean.Name (Array Lean.Term)
The dynamic state of a Matcher.
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The initial state.
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- Mathlib.Notation3.MatchState.empty = { vars := ∅, scopeState := none, foldState := ∅ }
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Evaluate f with the given variable's value as the SubExpr and within that subexpression's
saved context. Fails if the variable has no value.
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Delaborate the given variable's value. Fails if the variable has no value.
If checkNot is provided, then checks that the expression being delaborated is not
the given one (this is used to prevent infinite loops).
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Assign a variable to the current SubExpr, capturing the local context.
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Get the accumulated array of delaborated terms for a given foldr/foldl.
Returns #[] if nothing has been pushed yet.
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- Mathlib.Notation3.MatchState.getFoldArray s name = Option.getD (Lean.HashMap.find? s.foldState name) #[]
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Get the accumulated array of delaborated terms for a given foldr/foldl.
Returns #[] if nothing has been pushed yet.
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- Mathlib.Notation3.MatchState.getBinders s = Option.getD s.scopeState #[]
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Push a delaborated term onto a foldr/foldl array.
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Matcher that assigns the current SubExpr into the match state;
if a value already exists, then it checks for equality.
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Matcher for Expr.const.
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- Mathlib.Notation3.matchConst c s = do let __do_lift ← Lean.PrettyPrinter.Delaborator.SubExpr.getExpr guard (Lean.Expr.isConstOf __do_lift c = true) pure s
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Matcher for Expr.fvar. This is only used for local notation3.
It checks that the user name agrees, which isn't completely accurate, but probably sufficient.
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Matches raw nat lits and OfNat.ofNat expressions.
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Given an identifier f, returns
(1) the resolved constant (if it's not an fvar)
(2) a Term for a matcher for the function
(3) the arity
(4) the positions at which the function takes an explicit argument
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A matcher that runs matchf for the function and the matchers for the associated
argument indices. Fails if the function doesn't have exactly arity arguments.
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Returns a Term that represents a Matcher for the given pattern stx.
The boundNames set determines which identifiers are variables in the pattern.
Fails in the OptionT sense if it comes across something it's unable to handle.
Also returns constant names that could serve as a key for a delaborator.
For example, if it's for a function f, then app.f.
Matcher for processing scoped syntax. Assumes the expression to be matched
against is in the lit variable.
Runs smatcher, extracts the resulting scopeId variable, processes this value
(which must be a lambda) to produce a binder, and loops.
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- Mathlib.Notation3.matchScoped lit scopeId smatcher = Mathlib.Notation3.matchScoped.go lit scopeId smatcher #[]
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Variant of matchScoped after some number of binders have already been captured.
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Matcher for expressions produced by foldl.
Create a Term that represents a matcher for foldl notation.
Reminder: ( lit ","* => foldl (x y => scopedTerm) init)
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Create a Term that represents a matcher for foldr notation.
Reminder: ( lit ","* => foldr (x y => scopedTerm) init)
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Create a name that we can use for the syntax definition, using the
algorithm from notation.
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- normal: Mathlib.Notation3.BoundValueType
A normal variable, delaborate its expression.
- foldl: Mathlib.Notation3.BoundValueType
A fold variable, use the fold state (but reverse the array).
- foldr: Mathlib.Notation3.BoundValueType
A fold variable, use the fold state (do not reverse the array).
Used when processing different kinds of variables when building the final delaborator.
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Interpret a prettyPrintOpt. The default value is true.
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notation3 declares notation using Lean-3-style syntax.
Examples:
notation3 "∀ᶠ " (...) " in " f ", " r:(scoped p => Filter.eventually p f) => r
notation3 "MyList[" (x", "* => foldr (a b => MyList.cons a b) MyList.nil) "]" => x
By default notation is unable to mention any variables defined using variable, but
local notation3 is able to use such local variables.
Use notation3 (prettyPrint := false) to keep the command from generating a pretty printer
for the notation.
This command can be used in mathlib4 but it has an uncertain future and was created primarily for backward compatibility.
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