This module implements the equivalence between the types
(x : a) → (y : b) → r1[x,y], (x : c) → (y : d) → r2[x,y]
(the “curried form”) and
(p : (a ⊗' b) ⊕' (c ⊗' d)) → r'[p]
where
r'[p] = match p with | inl (x,y) => r1[x,y] | inr (x,y) => r2[x,y]
(the “packed form”).
The ArgsPacker
data structure (defined in Lean.Meta.ArgsPacker.Basic
for fewer module
dependencies) contains necessary information to pack and unpack reliably. Care is taken that the
code is not confused even if the user intentionally uses a PSigma
or PSum
type, e.g. as the
ast parameter. Additionaly, “good” variable names are stored here.
It is used in the transation of a possibly mutual, possibly n-ary recursive function to a single
unary function, which can then be made non-recursive using WellFounded.fix
. Additional users are
the GuessLex
and FunInd
modules, which also have to deal with this encoding.
Ideally, only this module has to know the precise encoding using PSigma
and PSigma
; all other
modules should only use the high-level functions at the bottom of this file. At the same time,
this module should be independent of WF-specific data structures (like EqnInfos
).
The subnamespaces Unary
and Mutual
take care of PSigma
resp. PSum
packing, and are
intended to be local to this module.
Helpers for iterated PSigma
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Create a unary application by packing the given arguments using PSigma.mk
.
The type
should be the the expected type of the packed argument, as created with packType
.
Equations
- Lean.Meta.ArgsPacker.Unary.pack type args = Lean.Meta.ArgsPacker.Unary.pack.go args 0 type
Instances For
Unpacks a unary packed argument created with Unary.pack
.
Throws an error if the expression is not of that form.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given a type t
of the form (x : A) → (y : B[x]) → … → (z : D[x,y]) → R[x,y,z]
returns the curried type (x : A ⊗' B ⊗' … ⊗' D) → R[x.1, x.2.1, x.2.2]
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given expression e
of type (x : A) → (y : B[x]) → … → (z : D[x,y]) → R[x,y,z]
returns an expression of type (x : A ⊗' B ⊗' … ⊗' D) → R[x.1, x.2.1, x.2.2]
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Helpers for iterated PSum
.
Given types #[t₁, t₂,…]
, returns the type t₁ ⊕' t₂ …
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
If arg
is the argument to the fidx
th of the argsPacker.numFuncs
in the recursive group,
then mk
packs that argument in PSum.inl
and PSum.inr
constructors
to create the mutual-packed argument of type domain
.
Equations
- Lean.Meta.ArgsPacker.Mutual.pack numFuncs domain fidx arg = Lean.Meta.ArgsPacker.Mutual.pack.go numFuncs fidx arg 0 domain
Instances For
Unpacks a mutually packed argument created with Mutual.mk
returning the
argument and function index.
Throws an error if the expression is not of that form.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given unary types (x : Aᵢ) → Rᵢ[x]
, and (x : A₁ ⊕ A₂ …)
, calculate the packed codomain
match x with | inl x₁ => R₁[x₁] | inr x₂ => R₂[x₂] | …
This function assumes (and does not check) that Rᵢ
all have the same level.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Equations
- One or more equations did not get rendered due to their size.
Instances For
Equations
- One or more equations did not get rendered due to their size.
Instances For
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given unary expressions e₁
, e₂
with types (x : A) → R₁[x]
and (z : C) → R₂[z]
, returns an expression of type
(x : A ⊕' C) → (match x with | .inl x => R₁[x] | .inr R₂[z])
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given unary expressions e₁
, e₂
with types (x : A) → R
and (z : C) → R
, returns an expression of type
(x : A ⊕' C) → R
Equations
- One or more equations did not get rendered due to their size.
Instances For
Equations
- One or more equations did not get rendered due to their size.
Instances For
The number of functions being packed
Equations
- argsPacker.numFuncs = argsPacker.varNamess.size
Instances For
The arities of the functions being packed
Instances For
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given the packed argument of a (possibly) mutual and (possibly) nary call, return the function index that is called and the arguments individually.
We expect precisely the expressions produced by pack
, with manifest
PSum.inr
, PSum.inl
and PSigma.mk
constructors, and thus take them apart
rather than using projectinos.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given types (x : A) → (y : B[x]) → R₁[x,y]
and (z : C) → R₂[z]
, returns the type uncurried type
(x : (A ⊗ B) ⊕ C) → (match x with | .inl (x, y) => R₁[x,y] | .inr R₂[z]
Equations
- argsPacker.uncurryType types = do let unary ← Array.mapM id (argsPacker.varNamess.zipWith types Lean.Meta.ArgsPacker.Unary.uncurryType) Lean.Meta.ArgsPacker.Mutual.uncurryType unary
Instances For
Given expressions e₁
, e₂
with types (x : A) → (y : B[x]) → R₁[x,y]
and (z : C) → R₂[z]
, returns an expression of type
(x : (A ⊗ B) ⊕ C) → (match x with | .inl (x, y) => R₁[x,y] | .inr R₂[z]
Equations
- argsPacker.uncurry es = do let unary ← Array.mapM id (argsPacker.varNamess.zipWith es Lean.Meta.ArgsPacker.Unary.uncurry) Lean.Meta.ArgsPacker.Mutual.uncurry unary
Instances For
Given expressions e₁
, e₂
with types (x : A) → (y : B[x]) → R
and (z : C) → R
, returns an expression of type
(x : (A ⊗ B) ⊕ C) → R
Equations
- argsPacker.uncurryND es = do let unary ← Array.mapM id (argsPacker.varNamess.zipWith es Lean.Meta.ArgsPacker.Unary.uncurry) Lean.Meta.ArgsPacker.Mutual.uncurryND unary
Instances For
Given expression e
of type (x : a₁ ⊗' b₁ ⊕' a₂ ⊗' d₂ …) → e[x]
, uncurries the expression and
projects to the i
th function of type,
((x : aᵢ) → (y : bᵢ) → e[.inr….inl (x,y)])
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given type (x : a ⊗' b ⊕' c ⊗' d) → R
(non-dependent), return types
#[(x: a) → (y : b) → R, (x : c) → (y : d) → R]
Equations
- argsPacker.curryType t = do let unary ← Lean.Meta.ArgsPacker.Mutual.curryType argsPacker.numFuncs t Array.mapM id (argsPacker.varNamess.zipWith unary Lean.Meta.ArgsPacker.Unary.curryType)
Instances For
Given expression e
of type (x : a ⊗' b ⊕' c ⊗' d) → e[x]
, wraps that expression
to produce an expression of the isomorphic type
((x: a) → (y : b) → e[.inl (x,y)]) ∧ ((x : c) → (y : d) → e[.inr (x,y)])
Equations
- One or more equations did not get rendered due to their size.
Instances For
Given value : type
where type
is
(m : a ⊗' b ⊕' c ⊗' d → s) → r[m]
brings m1 : a → b → s
and m2 : c → d → s
into scope. The continuation receives
- FVars for
m1
… e[m]
t[m]
where m : a ⊗' b ⊕' c ⊗' d → s
is the uncurried form of m1
and m2
.
The variable names m1
and m2
are taken from the paramter name in t
, with numbers added
unless numFuns = 1
Equations
- One or more equations did not get rendered due to their size.