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authorSimon Peyton Jones <simonpj@microsoft.com>2020-06-13 00:23:16 +0100
committerSimon Peyton Jones <simonpj@microsoft.com>2020-07-03 08:37:42 +0100
commit4bf18646acbb5a59ad8716aedc32acfe2ead0f58 (patch)
tree7704e27c8aad62e8e6aabbc70c2c9815a3aacac8 /docs
parentedc8d22b2eea5d43dd6c3d0e4b2f85fc02ffa5ce (diff)
downloadhaskell-4bf18646acbb5a59ad8716aedc32acfe2ead0f58.tar.gz
Improve handling of data type return kindswip/T18300
Following a long conversation with Richard, this patch tidies up the handling of return kinds for data/newtype declarations (vanilla, family, and instance). I have substantially edited the Notes in TyCl, so they would bear careful reading. Fixes #18300, #18357 In GHC.Tc.Instance.Family.newFamInst we were checking some Lint-like properties with ASSSERT. Instead Richard and I have added a proper linter for axioms, and called it from lintGblEnv, which in turn is called in tcRnModuleTcRnM New tests (T18300, T18357) cause an ASSERT failure in HEAD.
Diffstat (limited to 'docs')
-rw-r--r--docs/core-spec/CoreLint.ott40
-rw-r--r--docs/core-spec/CoreSyn.ott15
-rw-r--r--docs/core-spec/core-spec.mng31
-rw-r--r--docs/core-spec/core-spec.pdfbin373114 -> 376701 bytes
4 files changed, 83 insertions, 3 deletions
diff --git a/docs/core-spec/CoreLint.ott b/docs/core-spec/CoreLint.ott
index 6aff07c499..092c894690 100644
--- a/docs/core-spec/CoreLint.ott
+++ b/docs/core-spec/CoreLint.ott
@@ -656,3 +656,43 @@ unify(</ tj // j />, </ t'j // j />) = subst
subst(s) = subst(s')
----------------------------------------- :: CompatCoincident
no_conflict(C, </ sj // j />, ind1, ind2)
+
+defn |- axiom C ok :: :: lint_axiom :: 'Ax_'
+ {{ com Coercion axiom linting, \coderef{GHC/Core/Lint.hs}{lint\_axiom} }}
+ {{ tex \labeledjudge{axiom} [[C]] [[ok]] }}
+by
+
+isNewTyCon T
+</ Ri // i /> = tyConRoles T
+</ alphai_ki // i /> |-ty T </ alphai$ // i /> : k0
+</ alphai_ki // i /> |-ty s : k0
+------------------------------ :: Newtype
+|-axiom T_Rep forall </ alphai_ki RAi // i />. (</ alphai$ // i /> ~> s) ok
+
+isOpenTypeFamilyTyCon T
+T |-branch b ok
+------------------------------ :: OpenTypeFamily
+|-axiom T_Nom b ok
+
+isClosedTypeFamilyTyCon T
+</ T |-branch bi ok // i />
+--------------------------- :: ClosedTypeFamily
+|-axiom T_Nom </ bi // i /> ok
+
+isDataFamilyTyCon T
+T |-branch b ok
+--------------------------- :: DataFamily
+|-axiom T_Rep b ok
+
+defn T |- branch b ok :: :: lint_family_branch :: 'Br_'
+ {{ com Type family branch linting, \coderef{GHC/Core/Lint.hs}{lint\_family\_branch} }}
+ {{ tex [[T]] \labeledjudge{branch} [[b]] [[ok]] }}
+by
+
+</ Ri = Nom // i />
+</ isTyFamFree tj // j />
+fv(</ tj // j />) = </ alphai$ // i />
+</ alphai_ki // i /> |-ty T </ tj // j /> : k0
+</ alphai_ki // i /> |-ty s : k0
+---------------------------------------------------------------- :: OK
+T |-branch forall </ alphai_ki RAi // i />. (</ tj // j /> ~> s) ok
diff --git a/docs/core-spec/CoreSyn.ott b/docs/core-spec/CoreSyn.ott
index 0b9893c3a9..aa1bec8ef9 100644
--- a/docs/core-spec/CoreSyn.ott
+++ b/docs/core-spec/CoreSyn.ott
@@ -52,10 +52,10 @@ l :: 'Label_' ::= {{ com Labels for join points, also \coderef{GHC/Types/Var.hs}
vars :: 'Vars_' ::= {{ com List of variables }}
| </ ni // , // i /> :: :: List
- | fv ( t ) :: M :: fv_t
- {{ tex \textit{fv}([[t]]) }}
| fv ( e ) :: M :: fv_e
{{ tex \textit{fv}([[e]]) }}
+ | fv ( types ) :: M :: fv_types
+ {{ tex \textit{fv}([[types]]) }}
| empty :: M :: empty
| vars1 \inter vars2 :: M :: intersection
{{ tex [[vars1]] \cap [[vars2]] }}
@@ -197,7 +197,7 @@ R {{ tex \rho }} :: 'Role_' ::= {{ com Roles, \coderef{GHC/Core/Coercion/Axiom.h
axBranch, b :: 'CoAxBranch_' ::= {{ com Axiom branches, \coderef{GHC/Core/TyCon.hs}{CoAxBranch} }}
| forall </ ni RAi // i /> . ( </ tj // j /> ~> s ) :: :: CoAxBranch {{ com \ctor{CoAxBranch}: Axiom branch }}
- | ( </ axBranchi // i /> ) [ ind ] :: M :: lookup {{ com List lookup }}
+ | ( </ axBranchi // i /> ) [ ind ] :: M :: lookup {{ com List lookup }}
mu {{ tex \mu }} :: 'CoAxiomRule_' ::= {{ com CoAxiomRules, \coderef{GHC/Core/Coercion/Axiom.hs}{CoAxiomRule} }}
| M ( I , role_list , R' ) :: :: CoAxiomRule {{ com Named rule, with parameter info }}
@@ -376,6 +376,10 @@ terminals :: 'terminals_' ::=
| dataConTyCon :: :: dataConTyCon {{ tex \textsf{dataConTyCon} }}
| dataConRepType :: :: dataConRepType {{ tex \textsf{dataConRepType} }}
| isNewTyCon :: :: isNewTyCon {{ tex \textsf{isNewTyCon} }}
+ | isOpenTypeFamilyTyCon :: :: isOpenTypeFamilyTyCon {{ tex \textsf{isOpenTypeFamilyTyCon} }}
+ | isClosedTypeFamilyTyCon :: :: isClosedTypeFamilyTyCon {{ tex \textsf{isClosedTypeFamilyTyCon} }}
+ | isDataFamilyTyCon :: :: isDataFamilyTyCon {{ tex \textsf{isDataFamilyTyCon} }}
+ | isTyFamFree :: :: isTyFamFree {{ tex \textsf{isTyFamFree} }}
| Constraint :: :: Constraint {{ tex \textsf{Constraint} }}
| TYPE :: :: TYPE {{ tex \textsf{TYPE} }}
| RuntimeRep :: :: RuntimeRep {{ tex \textsf{RuntimeRep} }}
@@ -449,6 +453,10 @@ formula :: 'formula_' ::=
| G |- tylit lit : k :: :: lintTyLit
{{ tex [[G]] \labeledjudge{tylit} [[lit]] : [[k]] }}
| isNewTyCon T :: :: isNewTyCon
+ | isOpenTypeFamilyTyCon T :: :: isOpenTypeFamilyTyCon
+ | isClosedTypeFamilyTyCon T :: :: isClosedTypeFamilyTyCon
+ | isDataFamilyTyCon T :: :: isDataFamilyTyCon
+ | isTyFamFree t :: :: isTyFamFree
| k1 elt { </ ki // , // i /> } :: :: kind_elt
| e is_a_type :: :: is_a_type
{{ tex \exists \tau \text{ s.t.~} [[e]] = \tau }}
@@ -526,3 +534,4 @@ Expr_Coercion <= Subst_TmMapping
Type_CastTy <= Var_IdOrTyVar
+Expr_Type <= Vars_fv_e
diff --git a/docs/core-spec/core-spec.mng b/docs/core-spec/core-spec.mng
index 18a856f4e6..1e77f3b4de 100644
--- a/docs/core-spec/core-spec.mng
+++ b/docs/core-spec/core-spec.mng
@@ -573,6 +573,37 @@ taking care to map identical type family applications to the same fresh variable
The algorithm $[[unify]]$ is implemented in \coderef{GHC/Core/Unify.hs}{tcUnifyTys}.
It performs a standard unification, returning a substitution upon success.
+\subsection{Axioms}
+
+After type-checking the type and class declarations of a file, the axioms
+in the file are optionally linted. This is done from \coderef{GHC/Tc/Types.hs}{lintGblEnv},
+which calls \coderef{GHC/Core/Lint.hs}{lintAxioms}. That function ensures
+the following judgement on each axiom:
+
+\ottdefnlintXXaxiom{}
+
+\ottdefnlintXXfamilyXXbranch{}
+
+In addition to these checks, the linter will also check several other conditions:
+
+\begin{itemize}
+\item Every \texttt{CoAxBranch} has a \texttt{cab\_cvs} field. This is unused
+currently and should always be empty.
+\item Every \texttt{CoAxBranch} has a \texttt{cab\_eta\_tvs} field. This is used
+only for data family instances, but is not involved in type correctness. (It is
+used for pretty-printing.) The implemented linter checks to make sure this field
+is empty for axioms that are not associated with data family instances.
+\item Every \texttt{CoAxBranch} has a \texttt{cab\_incomps} field that stores
+a list of incompatible branches. The implemented linter checks that these
+branches are indeed incompatible with the current one.
+\item The linter checks that newtypes are associated with exactly one axiom,
+as are closed type families.
+\item The linter checks that all instances of the same open family are compatible.
+\end{itemize}
+
+A nice summary of the required checks is in Section F.1 of the \emph{Safe Coercions}
+paper (JFP'16).
+
\section{Operational semantics}
\subsection{Disclaimer}
diff --git a/docs/core-spec/core-spec.pdf b/docs/core-spec/core-spec.pdf
index 97da6c89f1..8d77a63f5f 100644
--- a/docs/core-spec/core-spec.pdf
+++ b/docs/core-spec/core-spec.pdf
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