| Commit message (Collapse) | Author | Age | Files | Lines |
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Closes ticket #17820.
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Type-checking plugins can now directly rewrite type-families.
The TcPlugin record is given a new field, tcPluginRewrite.
The plugin specifies how to rewrite certain type-families with a value
of type `UniqFM TyCon TcPluginRewriter`, where:
type TcPluginRewriter
= RewriteEnv -- Rewriter environment
-> [Ct] -- Givens
-> [TcType] -- type family arguments
-> TcPluginM TcPluginRewriteResult
data TcPluginRewriteResult
= TcPluginNoRewrite
| TcPluginRewriteTo
{ tcPluginRewriteTo :: Reduction
, tcRewriterNewWanteds :: [Ct]
}
When rewriting an exactly-saturated type-family application,
GHC will first query type-checking plugins for possible rewritings
before proceeding.
Includes some changes to the TcPlugin API, e.g. removal
of the EvBindsVar parameter to the TcPluginM monad.
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* Make mkDependencies pure
* Use Sets instead of sorted lists
Notable perf changes:
MultiLayerModules(normal) ghc/alloc 4130851520.0 2981473072.0 -27.8%
T13719(normal) ghc/alloc 4313296052.0 4151647512.0 -3.7%
Metric Decrease:
MultiLayerModules
T13719
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Parts of HsStmtContext were split into a separate data structure
HsDoFlavour. Before this change HsDo used to have HsStmtContext
inside, but in reality only parts of HsStmtContext were used and other
cases were invariants handled with panics. Separating those parts
into its own data structure helps us to get rid of those panics as
well as HsDoRn type family.
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We define Reduction = Reduction Coercion !Type.
A reduction of the form 'Reduction co new_ty' witnesses an
equality ty ~co~> new_ty.
That is, the rewriting happens left-to-right: the right-hand-side
type of the coercion is the rewritten type, and the left-hand-side
type the original type.
Sticking to this convention makes the codebase more consistent,
helping to avoid certain applications of SymCo.
This replaces the parts of the codebase which represented reductions as
pairs, (Coercion,Type) or (Type,Coercion).
Reduction being strict in the Type argument improves performance
in some programs that rewrite many type families (such as T9872).
Fixes #20161
-------------------------
Metric Decrease:
T5321Fun
T9872a
T9872b
T9872c
T9872d
-------------------------
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Use DiagOpts for diagnostic options instead of directly querying
DynFlags (#17957).
Surprising performance improvements on CI:
T4801(normal) ghc/alloc 313236344.0 306515216.0 -2.1% GOOD
T9961(normal) ghc/alloc 384502736.0 380584384.0 -1.0% GOOD
ManyAlternatives(normal) ghc/alloc 797356128.0 786644928.0 -1.3%
ManyConstructors(normal) ghc/alloc 4389732432.0 4317740880.0 -1.6%
T783(normal) ghc/alloc 408142680.0 402812176.0 -1.3%
Metric Decrease:
T4801
T9961
T783
ManyAlternatives
ManyConstructors
Bump haddock submodule
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This commit tries to untangle the zoo of diagnostic-related functions
in `Tc.Utils.Monad` so that we can have the interfaces mentions only
`TcRnMessage`s while we push the creation of these messages upstream.
It also ports TcRnMessage diagnostics to use the new API, in particular
this commit switch to use TcRnMessage in the external interfaces
of the diagnostic functions, and port the old SDoc to be wrapped
into TcRnUnknownMessage.
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This adds constructors to TcRnMessage to replace use of
TcRnUnknownMessage in Ghc.Tc.Module.
Adds a test case for the UnsafeDueToPlugin warning.
Closes #19926
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fixes #19756, updates haddock submodule
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Introduce LogFlags as a independent subset of DynFlags used for logging.
As a consequence in many places we don't have to pass both Logger and
DynFlags anymore.
The main reason for this refactoring is that I want to refactor the
systools interfaces: for now many systools functions use DynFlags both
to use the Logger and to fetch their parameters (e.g. ldInputs for the
linker). I'm interested in refactoring the way they fetch their
parameters (i.e. use dedicated XxxOpts data types instead of DynFlags)
for #19877. But if I did this refactoring before refactoring the Logger,
we would have duplicate parameters (e.g. ldInputs from DynFlags and
linkerInputs from LinkerOpts). Hence this patch first.
Some flags don't really belong to LogFlags because they are subsystem
specific (e.g. most DumpFlags). For example -ddump-asm should better be
passed in NCGConfig somehow. This patch doesn't fix this tight coupling:
the dump flags are part of the UI but they are passed all the way down
for example to infer the file name for the dumps.
Because LogFlags are a subset of the DynFlags, we must update the former
when the latter changes (not so often). As a consequence we now use
accessors to read/write DynFlags in HscEnv instead of using `hsc_dflags`
directly.
In the process I've also made some subsystems less dependent on DynFlags:
- CmmToAsm: by passing some missing flags via NCGConfig (see new fields
in GHC.CmmToAsm.Config)
- Core.Opt.*:
- by passing -dinline-check value into UnfoldingOpts
- by fixing some Core passes interfaces (e.g. CallArity, FloatIn)
that took DynFlags argument for no good reason.
- as a side-effect GHC.Core.Opt.Pipeline.doCorePass is much less
convoluted.
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This commit extends the GHC diagnostic hierarchy with a `GhcHint` type,
modelling helpful suggestions emitted by GHC which can be used to deal
with a particular warning or error.
As a direct consequence of this, the `Diagnostic` typeclass has been extended
with a `diagnosticHints` method, which returns a `[GhcHint]`. This means
that now we can clearly separate out the printing of the diagnostic
message with the suggested fixes.
This is done by extending the `printMessages` function in
`GHC.Driver.Errors`.
On top of that, the old `PsHint` type has been superseded by the new `GhcHint`
type, which de-duplicates some hints in favour of a general `SuggestExtension`
constructor that takes a `GHC.LanguageExtensions.Extension`.
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The check bypass is no longer necessary and the check would have avoided #19638.
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This commit modifies interface files so that *only* direct information
about modules and packages is stored in the interface file.
* Only direct module and direct package dependencies are stored in the
interface files.
* Trusted packages are now stored separately as they need to be checked
transitively.
* hs-boot files below the compiled module in the home module are stored
so that eps_is_boot can be calculated in one-shot mode without loading
all interface files in the home package.
* The transitive closure of signatures is stored separately
This is important for two reasons
* Less recompilation is needed, as motivated by #16885, a lot of
redundant compilation was triggered when adding new imports deep in the
module tree as all the parent interface files had to be redundantly
updated.
* Checking an interface file is cheaper because you don't have to
perform a transitive traversal to check the dependencies are up-to-date.
In the code, places where we would have used the transitive closure, we
instead compute the necessary transitive closure. The closure is not
computed very often, was already happening in checkDependencies, and
was already happening in getLinkDeps.
Fixes #16885
-------------------------
Metric Decrease:
MultiLayerModules
T13701
T13719
-------------------------
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Replace uses of WARN macro with calls to:
warnPprTrace :: Bool -> SDoc -> a -> a
Remove the now unused HsVersions.h
Bump haddock submodule
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There is no reason to use CPP. __LINE__ and __FILE__ macros are now
better replaced with GHC's CallStack. As a bonus, assert error messages
now contain more information (function name, column).
Here is the mapping table (HasCallStack omitted):
* ASSERT: assert :: Bool -> a -> a
* MASSERT: massert :: Bool -> m ()
* ASSERTM: assertM :: m Bool -> m ()
* ASSERT2: assertPpr :: Bool -> SDoc -> a -> a
* MASSERT2: massertPpr :: Bool -> SDoc -> m ()
* ASSERTM2: assertPprM :: m Bool -> SDoc -> m ()
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It is possible that the type variables bound by a class header will map to
something different in the typechecker in the presence of
`StandaloneKindSignatures`. `tcClassDecl2` was not aware of this, however,
leading to #19738. To fix it, in `tcTyClDecls` we map each class `TcTyCon` to
its `tcTyConScopedTyVars` as a `ClassScopedTVEnv`. We then plumb that
`ClassScopedTVEnv` to `tcClassDecl2` where it can be used.
Fixes #19738.
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This commit adds GhcMessage and ancillary (PsMessage, TcRnMessage, ..)
types.
These types will be expanded to represent more errors generated
by different subsystems within GHC. Right now, they are underused,
but more will come in the glorious future.
See
https://gitlab.haskell.org/ghc/ghc/-/wikis/Errors-as-(structured)-values
for a design overview.
Along the way, lots of other things had to happen:
* Adds Semigroup and Monoid instance for Bag
* Fixes #19746 by parsing OPTIONS_GHC pragmas into Located Strings.
See GHC.Parser.Header.toArgs (moved from GHC.Utils.Misc, where it
didn't belong anyway).
* Addresses (but does not completely fix) #19709, now reporting
desugarer warnings and errors appropriately for TH splices.
Not done: reporting type-checker warnings for TH splices.
* Some small refactoring around Safe Haskell inference, in order
to keep separate classes of messages separate.
* Some small refactoring around initDsTc, in order to keep separate
classes of messages separate.
* Separate out the generation of messages (that is, the construction
of the text block) from the wrapping of messages (that is, assigning
a SrcSpan). This is more modular than the previous design, which
mixed the two.
Close #19746.
This was a collaborative effort by Alfredo di Napoli and
Richard Eisenberg, with a key assist on #19746 by Iavor
Diatchki.
Metric Increase:
MultiLayerModules
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We want an accurate SrcSpan for redundant constraints:
• Redundant constraint: Eq a
• In the type signature for:
f :: forall a. Eq a => a -> ()
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5 | f :: Eq a => a -> ()
| ^^^^
This patch adds some plumbing to achieve this
* New data type GHC.Tc.Types.Origin.ReportRedundantConstraints (RRC)
* This RRC value is kept inside
- FunSigCtxt
- ExprSigCtxt
* Then, when reporting the error in GHC.Tc.Errors, use this SrcSpan
to control the error message: GHC.Tc.Errors.warnRedundantConstraints
Quite a lot of files are touched in a boring way.
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This commit introduces a new `Severity` type constructor called
`SevIgnore`, which can be used to classify diagnostic messages which are
not meant to be displayed to the user, for example suppressed warnings.
This extra constructor allows us to get rid of a bunch of redundant
checks when emitting diagnostics, typically in the form of the pattern:
```
when (optM Opt_XXX) $
addDiagnosticTc (WarningWithFlag Opt_XXX) ...
```
Fair warning! Not all checks should be omitted/skipped, as evaluating some data
structures used to produce a diagnostic might still be expensive (e.g.
zonking, etc). Therefore, a case-by-case analysis must be conducted when
deciding if a check can be removed or not.
Last but not least, we remove the unnecessary `CmdLine.WarnReason` type, which is now
redundant with `DiagnosticReason`.
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This commit further expand on the design for #18516 by getting rid of
the `defaultReasonSeverity` in favour of a function called
`diagReasonSeverity` which correctly takes the `DynFlags` as input. The
idea is to compute the `Severity` and the `DiagnosticReason` of each
message "at birth", without doing any later re-classifications, which
are potentially error prone, as the `DynFlags` might evolve during the
course of the program.
In preparation for a proper refactoring, now `pprWarning` from the
Parser.Ppr module has been renamed to `mkParserWarn`, which now takes a
`DynFlags` as input.
We also get rid of the reclassification we were performing inside `printOrThrowWarnings`.
Last but not least, this commit removes the need for reclassify inside GHC.Tc.Errors,
and also simplifies the implementation of `maybeReportError`.
Update Haddock submodule
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Follow-up from !2418, see #19579
Updates haddock submodule
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Other than that:
* Fix T16167,json,json2,T7478,T10637 tests to reflect the introduction of
the `MessageClass` type
* Remove `makeIntoWarning`
* Remove `warningsToMessages`
* Refactor GHC.Tc.Errors
1. Refactors GHC.Tc.Errors so that we use `DiagnosticReason` for "choices"
(defer types errors, holes, etc);
2. We get rid of `reportWarning` and `reportError` in favour of a general
`reportDiagnostic`.
* Introduce `DiagnosticReason`, `Severity` is an enum: This big commit makes
`Severity` a simple enumeration, and introduces the concept of `DiagnosticReason`,
which classifies the /reason/ why we are emitting a particular diagnostic.
It also adds a monomorphic `DiagnosticMessage` type which is used for
generic messages.
* The `Severity` is computed (for now) from the reason, statically.
Later improvement will add a `diagReasonSeverity` function to compute
the `Severity` taking `DynFlags` into account.
* Rename `logWarnings` into `logDiagnostics`
* Add note and expand description of the `mkHoleError` function
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Metric Increase:
T10370
parsing001
Updates haddock submodule
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This adds two new methods to the Quasi class, putDoc and getDoc. They
allow Haddock documentation to be added to declarations, module headers,
function arguments and class/type family instances, as well as looked
up.
It works by building up a map of names to attach pieces of
documentation to, which are then added in the extractDocs function in
GHC.HsToCore.Docs. However because these template haskell names need to
be resolved to GHC names at the time they are added, putDoc cannot
directly add documentation to declarations that are currently being
spliced. To remedy this, withDecDoc/withDecsDoc wraps the operation with
addModFinalizer, and provides a more ergonomic interface for doing so.
Similarly, the funD_doc, dataD_doc etc. combinators provide a more
ergonomic interface for documenting functions and their arguments
simultaneously.
This also changes ArgDocMap to use an IntMap rather than an Map Int, for
efficiency.
Part of the work towards #5467
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It's surprisingly tricky to deal with 'main' (#19397). This
patch does quite bit of refactoring do to it right. Well,
more-right anyway!
The moving parts are documented in GHC.Tc.Module
Note [Dealing with main]
Some other oddments:
* Rename tcRnExports to rnExports; no typechecking here!
* rnExports now uses checkNoErrs rather than failIfErrsM;
the former fails only if rnExports itself finds errors
* Small improvements to tcTyThingCategory, which ultimately
weren't important to the patch, but I've retained as
a minor improvement.
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Found with ghc-debug on the ManyConstructors test
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When implementing Quick Look I'd failed to remember that overloaded
labels, like #foo, should be treated as a "head", so that they can be
instantiated with Visible Type Application. This caused #19154.
A very similar ticket covers overloaded literals: #19167.
This patch fixes both problems, but (annoyingly, albeit temporarily)
in two different ways.
Overloaded labels
I dealt with overloaded labels by buying fully into the
Rebindable Syntax approach described in GHC.Hs.Expr
Note [Rebindable syntax and HsExpansion].
There is a good overview in GHC.Rename.Expr
Note [Handling overloaded and rebindable constructs].
That module contains much of the payload for this patch.
Specifically:
* Overloaded labels are expanded in the renamer, fixing #19154.
See Note [Overloaded labels] in GHC.Rename.Expr.
* Left and right sections used to have special code paths in the
typechecker and desugarer. Now we just expand them in the
renamer. This is harder than it sounds. See GHC.Rename.Expr
Note [Left and right sections].
* Infix operator applications are expanded in the typechecker,
specifically in GHC.Tc.Gen.App.splitHsApps. See
Note [Desugar OpApp in the typechecker] in that module
* ExplicitLists are expanded in the renamer, when (and only when)
OverloadedLists is on.
* HsIf is expanded in the renamer when (and only when) RebindableSyntax
is on. Reason: the coverage checker treats HsIf specially. Maybe
we could instead expand it unconditionally, and fix up the coverage
checker, but I did not attempt that.
Overloaded literals
Overloaded literals, like numbers (3, 4.2) and strings with
OverloadedStrings, were not working correctly with explicit type
applications (see #19167). Ideally I'd also expand them in the
renamer, like the stuff above, but I drew back on that because they
can occur in HsPat as well, and I did not want to to do the HsExpanded
thing for patterns.
But they *can* now be the "head" of an application in the typechecker,
and hence something like ("foo" @T) works now. See
GHC.Tc.Gen.Head.tcInferOverLit. It's also done a bit more elegantly,
rather than by constructing a new HsExpr and re-invoking the
typechecker. There is some refactoring around tcShortCutLit.
Ultimately there is more to do here, following the Rebindable Syntax
story.
There are a lot of knock-on effects:
* HsOverLabel and ExplicitList no longer need funny (Maybe SyntaxExpr)
fields to support rebindable syntax -- good!
* HsOverLabel, OpApp, SectionL, SectionR all become impossible in the
output of the typecheker, GhcTc; so we set their extension fields to
Void. See GHC.Hs.Expr Note [Constructor cannot occur]
* Template Haskell quotes for HsExpanded is a bit tricky. See
Note [Quotation and rebindable syntax] in GHC.HsToCore.Quote.
* In GHC.HsToCore.Match.viewLExprEq, which groups equal HsExprs for the
purpose of pattern-match overlap checking, I found that dictionary
evidence for the same type could have two different names. Easily
fixed by comparing types not names.
* I did quite a bit of annoying fiddling around in GHC.Tc.Gen.Head and
GHC.Tc.Gen.App to get error message locations and contexts right,
esp in splitHsApps, and the HsExprArg type. Tiresome and not very
illuminating. But at least the tricky, higher order, Rebuilder
function is gone.
* Some refactoring in GHC.Tc.Utils.Monad around contexts and locations
for rebindable syntax.
* Incidentally fixes #19346, because we now print renamed, rather than
typechecked, syntax in error mesages about applications.
The commit removes the vestigial module GHC.Builtin.RebindableNames,
and thus triggers a 2.4% metric decrease for test MultiLayerModules
(#19293).
Metric Decrease:
MultiLayerModules
T12545
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The roughMatchTcs function enables a quick definitely-no-match test
in lookupInstEnv. Unfortunately, it didn't account for type families.
This didn't matter when type families were flattened away, but now
they aren't flattened it matters a lot.
The fix is very easy. See INVARIANT in GHC.Core.InstEnv
Note [ClsInst laziness and the rough-match fields]
Fixes #19336
The change makes compiler perf worse on two very-type-family-heavy
benchmarks, T9872{a,d}:
T9872a(normal) ghc/alloc 2172536442.7 2216337648.0 +2.0%
T9872d(normal) ghc/alloc 614584024.0 621081384.0 +1.1%
(Everything else is 0.0% or at most 0.1%.)
I think we just have to put up with this. Some cases were being
wrongly filtered out by roughMatchTcs that might actually match, which
could lead to false apartness checks. And it only affects these very
type-family-heavy cases.
Metric Increase:
T9872a
T9872d
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Before this patch, the only way to override GHC's default logging
behavior was to set `log_action`, `dump_action` and `trace_action`
fields in DynFlags. This patch introduces a new Logger abstraction and
stores it in HscEnv instead.
This is part of #17957 (avoid storing state in DynFlags). DynFlags are
duplicated and updated per-module (because of OPTIONS_GHC pragma), so
we shouldn't store global state in them.
This patch also fixes a race in parallel "--make" mode which updated
the `generatedDumps` IORef concurrently.
Bump haddock submodule
The increase in MultilayerModules is tracked in #19293.
Metric Increase:
MultiLayerModules
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This commit introduces a DecoratedSDoc type which replaces the old
ErrDoc, and hopefully better reflects the intent.
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Updates Haddock submodule
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This commit boldly removes the ErrDoc and the MsgDoc from the codebase.
The former was introduced with the only purpose of classifying errors
according to their importance, but a similar result can be obtained just
by having a simple [SDoc], and placing bullets after each of them.
On top of that I have taken the perhaps controversial decision to also
banish MsgDoc, as it was merely a type alias over an SDoc and as such it wasn't
offering any extra type safety. Granted, it was perhaps making type
signatures slightly more "focused", but at the expense of cognitive
burden: if it's really just an SDoc, let's call it with its proper name.
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This commit paves the way to a richer and more structured representation
of GHC error messages, as per GHC proposal #306. More specifically
'Messages' from 'GHC.Types.Error' now gains an extra type parameter,
that we instantiate to 'ErrDoc' for now. Later, this will allow us to
replace ErrDoc with something more structure (for example messages
coming from the parser, the typechecker etc).
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Parameterize collect*Binders functions with a flag indicating if
evidence binders should be collected.
The related note in GHC.Hs.Utils has been updated.
Bump haddock submodule
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Missing this caused #19197. Easily fixed.
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This commit removes the errShortString field from the ErrMsg type,
allowing us to cleanup a lot of dynflag-dependent error functions, and
move them in a more specialised 'GHC.Driver.Errors' closer to the
driver, where they are actually used.
Metric Increase:
T4801
T9961
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This patch establishes invariant (GivenInv) from GHC.Tc.Utils.TcType
Note [TcLevel invariants]. (GivenInv) says that unification variables
from level 'n' should not appear in the Givens for level 'n'. See
Note [GivenInv] in teh same module.
This invariant was already very nearly true, but a dark corner of
partial type signatures made it false. The patch re-jigs partial type
signatures a bit to avoid the problem, and documents the invariant
much more thorughly
Fixes #18646 along the way: see Note [Extra-constraints wildcards]
in GHC.Tc.Gen.Bind
I also simplified the interface to tcSimplifyInfer slightly, so that
it /emits/ the residual constraint, rather than /returning/ it.
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This patch significantly refactors key renamer datastructures (primarily Avail
and GlobalRdrElt) in order to treat DuplicateRecordFields in a more robust way.
In particular it allows the extension to be used with pattern synonyms (fixes
where mangled record selector names could be printed instead of field labels
(e.g. with -Wpartial-fields or hole fits, see new tests).
The key idea is the introduction of a new type GreName for names that may
represent either normal entities or field labels. This is then used in
GlobalRdrElt and AvailInfo, in place of the old way of representing fields
using FldParent (yuck) and an extra list in AvailTC.
Updates the haddock submodule.
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The unit database cache, the home unit and the unit state were stored in
DynFlags while they ought to be stored in the compiler session state
(HscEnv). This patch fixes this.
It introduces a new UnitEnv type that should be used in the future to
handle separate unit environments (especially host vs target units).
Related to #17957
Bump haddock submodule
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Loaded plugins have nothing to do in DynFlags so this patch moves them
into HscEnv (session state).
"DynFlags plugins" become "Driver plugins" to still be able to register
static plugins.
Bump haddock submodule
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This refactors the GHC AST to remove `HsImplicitBndrs` and replace it with
`HsOuterTyVarBndrs`, a type which records whether the outermost quantification
in a type is explicit (i.e., with an outermost, invisible `forall`) or
implicit. As a result of this refactoring, it is now evident in the AST where
the `forall`-or-nothing rule applies: it's all the places that use
`HsOuterTyVarBndrs`. See the revamped `Note [forall-or-nothing rule]` in
`GHC.Hs.Type` (previously in `GHC.Rename.HsType`).
Moreover, the places where `ScopedTypeVariables` brings lexically scoped type
variables into scope are a subset of the places that adhere to the
`forall`-or-nothing rule, so this also makes places that interact with
`ScopedTypeVariables` easier to find. See the revamped
`Note [Lexically scoped type variables]` in `GHC.Hs.Type` (previously in
`GHC.Tc.Gen.Sig`).
`HsOuterTyVarBndrs` are used in type signatures (see `HsOuterSigTyVarBndrs`)
and type family equations (see `HsOuterFamEqnTyVarBndrs`). The main difference
between the former and the latter is that the former cares about specificity
but the latter does not.
There are a number of knock-on consequences:
* There is now a dedicated `HsSigType` type, which is the combination of
`HsOuterSigTyVarBndrs` and `HsType`. `LHsSigType` is now an alias for an
`XRec` of `HsSigType`.
* Working out the details led us to a substantial refactoring of
the handling of explicit (user-written) and implicit type-variable
bindings in `GHC.Tc.Gen.HsType`.
Instead of a confusing family of higher order functions, we now
have a local data type, `SkolemInfo`, that controls how these
binders are kind-checked.
It remains very fiddly, not fully satisfying. But it's better
than it was.
Fixes #16762. Bumps the Haddock submodule.
Co-authored-by: Simon Peyton Jones <simonpj@microsoft.com>
Co-authored-by: Richard Eisenberg <rae@richarde.dev>
Co-authored-by: Zubin Duggal <zubin@cmi.ac.in>
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The User's Guide claims that `:kind!` should expand type synonyms,
but GHCi wasn't doing this in practice. Let's just update the implementation
to match the specification in the User's Guide.
Fixes #13795. Fixes #18828.
Co-authored-by: Ryan Scott <ryan.gl.scott@gmail.com>
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Previously, the functions in `GHC.Core.Lint` used a patchwork of
different ways to display Core Lint errors:
* `lintPassResult` (which is the source of most Core Lint errors) renders
Core Lint errors with a distinctive banner (e.g.,
`*** Core Lint errors : in result of ... ***`) that sets them apart
from ordinary GHC error messages.
* `lintAxioms`, in contrast, uses a completely different code path that
displays Core Lint errors in a rather confusing manner. For example,
the program in #18770 would give these results:
```
Bug.hs:1:1: error:
Bug.hs:12:1: warning:
Non-*-like kind when *-like expected: RuntimeRep
when checking the body of forall: 'TupleRep '[r]
In the coercion axiom Bug.N:T :: []. Bug.T ~_R Any
Substitution: [TCvSubst
In scope: InScope {r}
Type env: [axl :-> r]
Co env: []]
|
1 | {-# LANGUAGE DataKinds #-}
| ^
```
* Further digging reveals that `GHC.IfaceToCore` displays Core Lint
errors for iface unfoldings as though they were a GHC panic. See, for
example, this excerpt from #17723:
```
ghc: panic! (the 'impossible' happened)
(GHC version 8.8.2 for x86_64-unknown-linux):
Iface Lint failure
In interface for Lib
...
```
This patch makes all of these code paths display Core Lint errors and
warnings consistently. I decided to adopt the conventions that
`lintPassResult` currently uses, as they appear to have been around the
longest (and look the best, in my subjective opinion). We now use the
`displayLintResult` function for all three scenarios mentioned above.
For example, here is what the Core Lint error for the program in #18770 looks
like after this patch:
```
[1 of 1] Compiling Bug ( Bug.hs, Bug.o )
*** Core Lint errors : in result of TcGblEnv axioms ***
Bug.hs:12:1: warning:
Non-*-like kind when *-like expected: RuntimeRep
when checking the body of forall: 'TupleRep '[r_axn]
In the coercion axiom N:T :: []. T ~_R Any
Substitution: [TCvSubst
In scope: InScope {r_axn}
Type env: [axn :-> r_axn]
Co env: []]
*** Offending Program ***
axiom N:T :: T = Any -- Defined at Bug.hs:12:1
*** End of Offense ***
<no location info>: error:
Compilation had errors
```
Fixes #18770.
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I was working on making DynFlags stateless (#17957), especially by
storing loaded plugins into HscEnv instead of DynFlags. It turned out to
be complicated because HscEnv is in GHC.Driver.Types but LoadedPlugin
isn't: it is in GHC.Driver.Plugins which depends on GHC.Driver.Types. I
didn't feel like introducing yet another hs-boot file to break the loop.
Additionally I remember that while we introduced the module hierarchy
(#13009) we talked about splitting GHC.Driver.Types because it contained
various unrelated types and functions, but we never executed. I didn't
feel like making GHC.Driver.Types bigger with more unrelated Plugins
related types, so finally I bit the bullet and split GHC.Driver.Types.
As a consequence this patch moves a lot of things. I've tried to put
them into appropriate modules but nothing is set in stone.
Several other things moved to avoid loops.
* Removed Binary instances from GHC.Utils.Binary for random compiler
things
* Moved Typeable Binary instances into GHC.Utils.Binary.Typeable: they
import a lot of things that users of GHC.Utils.Binary don't want to
depend on.
* put everything related to Units/Modules under GHC.Unit:
GHC.Unit.Finder, GHC.Unit.Module.{ModGuts,ModIface,Deps,etc.}
* Created several modules under GHC.Types: GHC.Types.Fixity, SourceText,
etc.
* Split GHC.Utils.Error (into GHC.Types.Error)
* Finally removed GHC.Driver.Types
Note that this patch doesn't put loaded plugins into HscEnv. It's left
for another patch.
Bump haddock submodule
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The linear arrow can be parsed as `%1 ->` or a direct single token unicode
equivalent.
Make sure that this distinction is captured in the parsed AST by using
IsUnicodeSyntax where it appears, and introduce a new API Annotation,
AnnMult to represent its location when unicode is not used.
Updated haddock submodule
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Instead of recreating the HomeUnit from the DynFlags every time we need
it, we store it in the HscEnv.
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