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Previously existing in 'DynFlags', 'nextWrapperNum' is a global
variable mapping a Module to a number for name generation for FFI calls.
This is not the right location for 'nextWrapperNum', as 'DynFlags'
should not contain just about any global variable.
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When -dynamic-too is enabled, there are two result files, .o and .dyn_o,
therefore we should check both to decide whether to set SourceModified
or not.
The whole recompilation logic is very messy, a more thorough refactor
would be beneficial in this area but this is the minimal patch to fix
this more high priority problem.
Fixes #17968 and hopefully #17534
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This vastly reduces memory usage when compiling with `--make` mode, from
about 900M when compiling Cabal to about 300M.
As a matter of uniformity, it also ensures that reading from an
interface performs the same as using the in-memory cache. We can also
delete all the horrible knot-tying in updateIdInfos.
Goes some way to fixing #13586
Accept new output of tests fixing some bugs along the way
-------------------------
Metric Decrease:
T12545
-------------------------
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With this patch we switch from reading the globally installed
platformConstants file to reading the DerivedConstants.h header file
that is bundled in the RTS unit. When we build the RTS unit itself, we
get it from its includes directories.
The new parser is more efficient and strict than the Read instance for
PlatformConstants and we get about 2.2MB less allocations in every
cases. However it only really shows in tests that don't allocate much,
hence the following metric decreases.
Metric Decrease:
Naperian
T10421
T10547
T12150
T12234
T12425
T13035
T18304
T18923
T5837
T6048
T18140
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Dynamic-by-default was a mechanism to automatically select the -dynamic
way for some targets.
It was implemented in a convoluted way: it was defined as a flavour
option, hence it couldn't be passed as a global settings (which are
produced by `configure` before considering flavours), so a build system
rule was used to pass -DDYNAMIC_BY_DEFAULT to the C compiler so that
deriveConstants could infer it.
* Make build system has it disabled for 8 years (951e28c0625ece7e0db6ac9d4a1e61e2737b10de)
* It has never been implemented in Hadrian
* Last time someone tried to enable it 1 year ago it didn't work (!2436)
* Having this as a global constant impedes making GHC multi-target (see !5427)
This commit fully removes support for dynamic-by-default. If someone
wants to reimplement something like this, it would probably need to move
the logic in the compiler.
(Doing this would probably need some refactoring of the way the compiler
handles DynFlags: DynFlags are used to store and to pass enabled ways to
many parts of the compiler. It can be set by command-line flags, GHC
API, global settings. In multi-target GHC, we will use DynFlags to load
the target platform and its constants: but at this point with the
current DynFlags implementation we can't easily update the existing
DynFlags with target-specific options such as dynamic-by-default without
overriding ways previously set by the user.)
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Fixes #19616.
This commit changes the `GHC.Driver.Errors.handleFlagWarnings` function
to rely on the newly introduced `DiagnosticReason`. This allows us to
correctly pretty-print the flags which triggered some warnings and in
turn remove the cruft around this function (like the extra filtering
and the `shouldPrintWarning` function.
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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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Also make the HomeUnit optional to keep the field strict and prepare for
UnitEnvs without a HomeUnit (e.g. in Plugins envs, cf #14335).
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Follow-up from !2418, see #19579
Updates haddock submodule
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Metric Increase:
T11276
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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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In the future, we want `HscEnv` to support multiple home units
at the same time. This means, that there will be 'Target's that do
not belong to the current 'HomeUnit'.
This is an API change without changing behaviour.
Update haddock submodule to incorporate API changes.
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As suggested by @alexbiehl, this patch replaces the always updated
UniqSupply in NameCache with a fixed Char and use it with `uniqFromMask`
to generate uniques.
This required some refactoring because getting a new unique from the
NameCache can't be done in pure code anymore, in particular not in an
atomic update function for `atomicModifyIORef`. So we use an MVar
instead to store the OrigNameCache field.
For some reason, T12545 increases (+1%) on i386 while it decreases on
other CI runners.
T9630 ghc/peak increases only with the dwarf build on CI (+16%).
Metric Decrease:
T12425
T12545
T9198
T12234
Metric Increase:
T12545
T9630
Update haddock submodule
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* Make NameCache the mutable one and replace NameCacheUpdater with it
* Remove NameCache related code duplicated into haddock
Bump haddock submodule
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Fixes #19564
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All the comments are now captured in the AST, there is no need for a
side-channel structure for them.
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This commit adds the `lint:compiler` Hadrian target to the CI runner.
It does also fixes hints in the compiler/ and libraries/base/ codebases.
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The loader state was stored into HscEnv. As we need to have two
interpreters and one loader state per interpreter in #14335, it's
natural to make the loader state a field of the Interp type.
As a side effect, many functions now only require a Interp parameter
instead of HscEnv. Sadly we can't fully free GHC.Linker.Loader of HscEnv
yet because the loader is initialised lazily from the HscEnv the first
time it is used. This is left as future work.
HscEnv may not contain an Interp value (i.e. hsc_interp :: Maybe Interp).
So a side effect of the previous side effect is that callers of the
modified functions now have to provide an Interp. It is satisfying as it
pushes upstream the handling of the case where HscEnv doesn't contain an
Interpreter. It is better than raising a panic (less partial functions,
"parse, don't validate", etc.).
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tuples and sums.
fixes #1257
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Metric Increase:
T10370
parsing001
Updates haddock submodule
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When we use `withTiming` we need to force the results of each timed pass
to better represent the time spent in each phase. This patch forces
some results that weren't before.
It also retrieve timings for the CoreToStg and WriteIface passes.
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GHC Proposal: 0265-unlifted-datatypes.rst
Discussion: https://github.com/ghc-proposals/ghc-proposals/pull/265
Issues: https://gitlab.haskell.org/ghc/ghc/-/issues/19523
Implementation Details: Note [Implementation of UnliftedDatatypes]
This patch introduces the `UnliftedDatatypes` extension. When this extension is
enabled, GHC relaxes the restrictions around what result kinds are allowed in
data declarations. This allows data types for which an unlifted or
levity-polymorphic result kind is inferred.
The most significant changes are in `GHC.Tc.TyCl`, where
`Note [Implementation of UnliftedDatatypes]` describes the details of the
implementation.
Fixes #19523.
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This adds support for -XGHC2021, as described in Proposal 0380 [1].
[1] https://github.com/ghc-proposals/ghc-proposals/blob/master/proposals/0380-ghc2021.rst
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This enables a registerised build for the riscv64 architecture.
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Part of #17804.
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The `-fdistinct-constructor-tables` flag will generate a fresh info
table for the usage of any data constructor. This is useful for
debugging as now by inspecting the info table, you can determine which
usage of a constructor caused that allocation rather than the old
situation where the info table always mapped to the definition site of
the data constructor which is useless.
In conjunction with `-hi` and `-finfo-table-map` this gives a more fine
grained understanding of where constructor allocations arise from in a
program.
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This new flag embeds a lookup table from the address of an info table
to information about that info table.
The main interface for consulting the map is the `lookupIPE` C function
> InfoProvEnt * lookupIPE(StgInfoTable *info)
The `InfoProvEnt` has the following structure:
> typedef struct InfoProv_{
> char * table_name;
> char * closure_desc;
> char * ty_desc;
> char * label;
> char * module;
> char * srcloc;
> } InfoProv;
>
> typedef struct InfoProvEnt_ {
> StgInfoTable * info;
> InfoProv prov;
> struct InfoProvEnt_ *link;
> } InfoProvEnt;
The source positions are approximated in a similar way to the source
positions for DWARF debugging information. They are only approximate but
in our experience provide a good enough hint about where the problem
might be. It is therefore recommended to use this flag in conjunction
with `-g<n>` for more accurate locations.
The lookup table is also emitted into the eventlog when it is available
as it is intended to be used with the `-hi` profiling mode.
Using this flag will significantly increase the size of the resulting
object file but only by a factor of 2-3x in our experience.
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'Stream' is implemented in the "yoneda" style for efficiency. By
representing a stream in this manner 'fmap' and '>>=' operations are
accumulated in the function parameters before being applied once when
the stream is destroyed. In the old implementation each usage of 'mapM'
and '>>=' would traverse the entire stream in order to apply the
substitution at the leaves. It is well-known for free monads that this
representation can improve performance, and the test results
demonstrate this for GHC as well.
The operation mapAccumL is not used in the compiler and can't be
implemented efficiently because it requires destroying and rebuilding
the stream.
I removed one use of mapAccumL_ which has similar problems but the other
use was difficult to remove. In the future it may be worth exploring
whether the 'Stream' encoding could be modified further to capture the
mapAccumL pattern, and likewise defer the passing of accumulation
parameter until the stream is finally consumed.
The >>= operation for 'Stream' was a hot-spot in the ticky profile for
the "ManyConstructors" test which called the 'cg' function many times in
"StgToCmm.hs"
Metric Decrease:
ManyConstructors
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Fixes #18966. Adds a new warning -Wambiguous-fields for uses of field selectors
or record updates that will be rejected in the future, when the DuplicateRecordFields
extension is simplified per https://github.com/ghc-proposals/ghc-proposals/pull/366.
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It makes the external package state independent of the home unit which
is needed to make several home units share the EPS.
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Fixes #5972. This adds an extension NoFieldSelectors to disable the generation
of selector functions corresponding to record fields. When this extension is
enabled, record field selectors are not accessible as functions, but users are
still able to use them for record construction, pattern matching and updates.
See Note [NoFieldSelectors] in GHC.Rename.Env for details.
Defining the same field multiple times requires the DuplicateRecordFields
extension to be enabled, even when NoFieldSelectors is in use.
Along the way, this fixes the use of non-imported DuplicateRecordFields in GHCi
with -fimplicit-import-qualified (fixes #18729).
Moreover, it extends DisambiguateRecordFields to ignore non-fields when looking
up fields in record updates (fixes #18999), as described by
Note [DisambiguateRecordFields for updates].
Co-authored-by: Simon Hafner <hafnersimon@gmail.com>
Co-authored-by: Fumiaki Kinoshita <fumiexcel@gmail.com>
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In GHC.Core.SimpleOpt, I found that its inlining could duplicate
an arbitary redex inside a lambda! Consider (\xyz. x+y). The
occurrence-analysis treats the lamdda as a group, and says that
both x and y occur once, even though the occur under the lambda-z.
See Note [Occurrence analysis for lambda binders] in OccurAnal.
When the lambda is under-applied in a call, the Simplifier is
careful to zap the occ-info on x,y, because they appear under the \z.
(See the call to zapLamBndrs in simplExprF1.) But SimpleOpt
missed this test, resulting in #19347.
So this patch
* commons up the binder-zapping in GHC.Core.Utils.zapLamBndrs.
* Calls this new function from GHC.Core.Opt.Simplify
* Adds a call to zapLamBndrs to GHC.Core.SimpleOpt.simple_app
This change makes test T12990 regress somewhat, but it was always
very delicate, so I'm going to put up with that.
In this voyage I also discovered a small, rather unrelated infelicity
in the Simplifier:
* In GHC.Core.Opt.Simplify.simplNonRecX we should apply isStrictId
to the OutId not the InId. See Note [Dark corner with levity polymorphism]
It may never "bite", because SimpleOpt should have inlined all
the levity-polymorphic compulsory inlnings already, but somehow
it bit me at one point and it's generally a more solid thing
to do.
Fixing the main bug increases runtime allocation in test
perf/should_run/T12990, for (acceptable) reasons explained in a
comement on
Metric Increase:
T12990
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They have no effect since 2011 (GHC 7.2/7.4),
commits cb698570b2b and 49dbe60558.
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previously, `safeFlagCheck` would be happy to switch the `safeFlag` to
`False`, but not the other way around. This meant that after
:set -XGeneralizedNewtypeDeriving
:set -XNoGeneralizedNewtypeDeriving
in GHCi all loaded files would be still be infered as unsafe.
This fixes #19243.
This is a corner case, but somewhat relevant once ghci by default starts
with `GeneralizedNewtypeDeriving` on (due to GHC2021).
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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 adds a new heuristic, controllable via two new flags to
better tune inlining behaviour.
The new flags are -funfolding-case-threshold and
-funfolding-case-scaling which are document both
in the user guide and in
Note [Avoid inlining into deeply nested cases].
Co-authored-by: Andreas Klebinger <klebinger.andreas@gmx.at>
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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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