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14 Commits
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Author SHA1 Message Date
rhiannon morris 95a0b38d74 update pretty-printing tests 2024-04-12 22:00:08 +02:00
rhiannon morris 7883a3cae7 pretty printing fixes 2024-04-12 21:54:25 +02:00
rhiannon morris a1d8fd4ab5 %inline 2024-04-12 21:53:54 +02:00
rhiannon morris 9d60f366cf add #![log] pragma 2024-04-12 21:53:54 +02:00
rhiannon morris f56f594839 push multiple loglevel changes at once 2024-04-12 21:53:54 +02:00
rhiannon morris fca75377a0 MakeName ⇒ MkName for consistency 2024-04-12 21:53:50 +02:00
rhiannon morris 11b0ab6a25 remove default from `FromParser.fromParserPure` and `Main.step` 2024-04-07 03:20:42 +02:00
rhiannon morris 7a0bc73d25 approximate log stack in handleLogDiscard 2024-04-06 20:14:24 +02:00
rhiannon morris 567176e076 log refactors 2024-04-05 18:43:00 +02:00
rhiannon morris 3b6ae36e4e add logging to core 2024-04-04 19:26:41 +02:00
rhiannon morris 861bd55f94 add log effects to FromParser 2024-04-04 19:26:41 +02:00
rhiannon morris e6ad16813e add log effects to executable 2024-04-04 19:26:41 +02:00
rhiannon morris 78555711ce add Q.Log 2024-04-04 19:26:41 +02:00
rhiannon morris ec839a1d48 big Main refactor 2024-04-04 19:26:41 +02:00
35 changed files with 1333 additions and 512 deletions
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164
exe/CompileMonad.idr Normal file
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@ -0,0 +1,164 @@
module CompileMonad
import Quox.Syntax as Q
import Quox.Definition as Q
import Quox.Untyped.Syntax as U
import Quox.Parser
import Quox.Untyped.Erase
import Quox.Untyped.Scheme
import Quox.Pretty
import Quox.Log
import Options
import Output
import Error
import System.File
import Data.IORef
import Data.Maybe
import Control.Eff
%default total
%hide Doc.(>>=)
%hide Core.(>>=)
%hide FromParser.Error
%hide Erase.Error
%hide Lexer.Error
%hide Parser.Error
public export
record State where
constructor MkState
seen : IORef SeenSet
defs : IORef Q.Definitions
ns : IORef Mods
suf : IORef NameSuf
%name CompileMonad.State state
export %inline
newState : HasIO io => io State
newState = pure $ MkState {
seen = !(newIORef empty),
defs = !(newIORef empty),
ns = !(newIORef [<]),
suf = !(newIORef 0)
}
public export
data CompileTag = OPTS | STATE
public export
Compile : List (Type -> Type)
Compile =
[Except Error,
ReaderL STATE State, ReaderL OPTS Options, Log,
LoadFile, IO]
export %inline
handleLog : IORef LevelStack -> OpenFile -> LogL x a -> IOErr Error a
handleLog ref f l = case f of
OConsole ch => handleLogIO (const $ pure ()) ref (consoleHandle ch) l
OFile _ h => handleLogIO (const $ pure ()) ref h l
ONone => do
lvls <- readIORef ref
lenRef <- newIORef (length lvls)
res <- handleLogDiscardIO lenRef l
writeIORef ref $ fixupDiscardedLog !(readIORef lenRef) lvls
pure res
private %inline
withLogFile : Options ->
(IORef LevelStack -> OpenFile -> IO (Either Error a)) ->
IO (Either Error a)
withLogFile opts act = do
lvlStack <- newIORef $ singleton opts.logLevels
withOutFile CErr opts.logFile fromError $ act lvlStack
where
fromError : String -> FileError -> IO (Either Error a)
fromError file err = pure $ Left $ WriteError file err
export covering %inline
runCompile : Options -> State -> Eff Compile a -> IO (Either Error a)
runCompile opts state act = do
withLogFile opts $ \lvls, logFile =>
fromIOErr $ runEff act $ with Union.(::)
[handleExcept (\e => ioLeft e),
handleReaderConst state,
handleReaderConst opts,
handleLog lvls logFile,
handleLoadFileIOE loadError ParseError state.seen opts.include,
liftIO]
private %inline
rethrowFileC : String -> Either FileError a -> Eff Compile a
rethrowFileC f = rethrow . mapFst (WriteError f)
export %inline
outputStr : OpenFile -> Lazy String -> Eff Compile ()
outputStr ONone _ = pure ()
outputStr (OConsole COut) str = putStr str
outputStr (OConsole CErr) str = fPutStr stderr str >>= rethrowFileC "<stderr>"
outputStr (OFile f h) str = fPutStr h str >>= rethrowFileC f
export %inline
outputDocs : OpenFile ->
({opts : LayoutOpts} -> Eff Pretty (List (Doc opts))) ->
Eff Compile ()
outputDocs file docs = do
opts <- askAt OPTS
for_ (runPretty opts (toOutFile file) docs) $ \x =>
outputStr file $ render (Opts opts.width) x
export %inline
outputDoc : OpenFile ->
({opts : LayoutOpts} -> Eff Pretty (Doc opts)) -> Eff Compile ()
outputDoc file doc = outputDocs file $ singleton <$> doc
public export
data StopTag = STOP
public export
CompileStop : List (Type -> Type)
CompileStop = FailL STOP :: Compile
export %inline
withEarlyStop : Eff CompileStop () -> Eff Compile ()
withEarlyStop = ignore . runFailAt STOP
export %inline
stopHere : Has (FailL STOP) fs => Eff fs ()
stopHere = failAt STOP
export %inline
liftFromParser : Eff FromParserIO a -> Eff Compile a
liftFromParser act =
runEff act $ with Union.(::)
[handleExcept $ \err => throw $ FromParserError err,
handleStateIORef !(asksAt STATE defs),
handleStateIORef !(asksAt STATE ns),
handleStateIORef !(asksAt STATE suf),
\g => send g,
\g => send g]
export %inline
liftErase : Q.Definitions -> Eff Erase a -> Eff Compile a
liftErase defs act =
runEff act
[handleExcept $ \err => throw $ EraseError err,
handleStateIORef !(asksAt STATE suf),
\g => send g]
export %inline
liftScheme : Eff Scheme a -> Eff Compile (a, List Id)
liftScheme act = do
runEff [|MkPair act (getAt MAIN)|]
[handleStateIORef !(newIORef empty),
handleStateIORef !(newIORef [])]

49
exe/Error.idr Normal file
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@ -0,0 +1,49 @@
module Error
import Quox.Pretty
import Quox.Parser
import Quox.Untyped.Erase
import Quox.Untyped.Scheme
import Options
import Output
import System.File
public export
data Error =
ParseError String Parser.Error
| FromParserError FromParser.Error
| EraseError Erase.Error
| WriteError FilePath FileError
| NoMain
| MultipleMains (List Scheme.Id)
%hide FromParser.Error
%hide Erase.Error
%hide Lexer.Error
%hide Parser.Error
export
loadError : Loc -> FilePath -> FileError -> Error
loadError loc file err = FromParserError $ LoadError loc file err
export
prettyError : {opts : LayoutOpts} -> Error -> Eff Pretty (Doc opts)
prettyError (ParseError file e) = prettyParseError file e
prettyError (FromParserError e) = FromParser.prettyError True e
prettyError (EraseError e) = Erase.prettyError True e
prettyError NoMain = pure "no #[main] function given"
prettyError (MultipleMains xs) =
pure $ sep ["multiple #[main] functions given:",
separateLoose "," !(traverse prettyId xs)]
prettyError (WriteError file e) = pure $
hangSingle 2 (text "couldn't write file \{file}:") (pshow e)
export
dieError : Options -> Error -> IO a
dieError opts e =
die (Opts opts.width) $
runPretty ({outFile := Console} opts) Console $
prettyError e

253
exe/Main.idr
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@ -7,7 +7,11 @@ import Quox.Parser
import Quox.Untyped.Erase
import Quox.Untyped.Scheme
import Quox.Pretty
import Quox.Log
import Options
import Output
import Error
import CompileMonad
import System
import System.File
@ -19,227 +23,26 @@ import Control.Eff
%hide Doc.(>>=)
%hide Core.(>>=)
private
die : HasIO io => (opts : LayoutOpts) -> Doc opts -> io a
die opts err = do
ignore $ fPutStr stderr $ render opts err
exitFailure
private
hlFor : HLType -> OutFile -> HL -> Highlight
hlFor Guess Console = highlightSGR
hlFor Guess _ = noHighlight
hlFor NoHL _ = noHighlight
hlFor Term _ = highlightSGR
hlFor Html _ = highlightHtml
private
runPretty : Options -> OutFile -> Eff Pretty a -> a
runPretty opts file act =
runPrettyWith Outer opts.flavor (hlFor opts.hlType file) 2 act
private
record State where
constructor MkState
seen : IORef SeenSet
defs : IORef Q.Definitions
ns : IORef Mods
suf : IORef NameSuf
%name Main.State state
private
newState : HasIO io => io State
newState = pure $ MkState {
seen = !(newIORef empty),
defs = !(newIORef empty),
ns = !(newIORef [<]),
suf = !(newIORef 0)
}
private
data Error =
ParseError String Parser.Error
| FromParserError FromParser.Error
| EraseError Erase.Error
| WriteError FilePath FileError
| NoMain
| MultipleMains (List Id)
%hide FromParser.Error
%hide Erase.Error
%hide Lexer.Error
%hide Parser.Error
private
loadError : Loc -> FilePath -> FileError -> Error
loadError loc file err = FromParserError $ LoadError loc file err
private
prettyError : {opts : LayoutOpts} -> Error -> Eff Pretty (Doc opts)
prettyError (ParseError file e) = prettyParseError file e
prettyError (FromParserError e) = FromParser.prettyError True e
prettyError (EraseError e) = Erase.prettyError True e
prettyError NoMain = pure "no #[main] function given"
prettyError (MultipleMains xs) =
pure $ sep ["multiple #[main] functions given:",
separateLoose "," !(traverse prettyId xs)]
prettyError (WriteError file e) = pure $
hangSingle 2 (text "couldn't write file \{file}:") (pshow e)
private
dieError : Options -> Error -> IO a
dieError opts e =
die (Opts opts.width) $
runPretty ({outFile := Console} opts) Console $
prettyError e
private
data CompileTag = OPTS | STATE
private
Compile : List (Type -> Type)
Compile =
[Except Error,
ReaderL STATE State, ReaderL OPTS Options,
LoadFile, IO]
private covering
runCompile : Options -> State -> Eff Compile a -> IO (Either Error a)
runCompile opts state act =
fromIOErr $ runEff act $ with Union.(::)
[handleExcept (\e => ioLeft e),
handleReaderConst state,
handleReaderConst opts,
handleLoadFileIOE loadError ParseError state.seen opts.include,
liftIO]
private
data StopTag = STOP
private
CompileStop : List (Type -> Type)
CompileStop = FailL STOP :: Compile
private
withEarlyStop : Has (FailL STOP) fs => Eff fs () -> Eff (fs - FailL STOP) ()
withEarlyStop = ignore . runFailAt STOP
private
stopHere : Has (FailL STOP) fs => Eff fs ()
stopHere = failAt STOP
private
data ConsoleChannel = COut | CErr
private
data OpenFile = OConsole ConsoleChannel | OFile String File | ONone
private
rethrowFile : String -> Either FileError a -> Eff Compile a
rethrowFile f = rethrow . mapFst (WriteError f)
private
toOutFile : OpenFile -> OutFile
toOutFile (OConsole _) = Console
toOutFile (OFile f _) = File f
toOutFile ONone = NoOut
private
withFileC : String -> (OpenFile -> Eff Compile a) -> Eff Compile a
withFileC f act =
withFile f WriteTruncate pure (Prelude.map Right . act . OFile f) >>=
rethrowFile f
private
withOutFile : ConsoleChannel -> OutFile ->
(OpenFile -> Eff Compile a) -> Eff Compile a
withOutFile _ (File f) act = withFileC f act
withOutFile ch Console act = act $ OConsole ch
withOutFile _ NoOut act = act ONone
private
outputStr : OpenFile -> Lazy String -> Eff Compile ()
outputStr ONone _ = pure ()
outputStr (OConsole COut) str = putStr str
outputStr (OConsole CErr) str = fPutStr stderr str >>= rethrowFile "<stderr>"
outputStr (OFile f h) str = fPutStr h str >>= rethrowFile f
private
outputDocs : OpenFile ->
({opts : LayoutOpts} -> Eff Pretty (List (Doc opts))) ->
Eff Compile ()
outputDocs file docs = do
opts <- askAt OPTS
for_ (runPretty opts (toOutFile file) docs) $ \x =>
outputStr file $ render (Opts opts.width) x
private
outputDoc : OpenFile ->
({opts : LayoutOpts} -> Eff Pretty (Doc opts)) -> Eff Compile ()
outputDoc file doc = outputDocs file $ singleton <$> doc
private
liftFromParser : Eff FromParserIO a -> Eff Compile a
liftFromParser act =
runEff act $ with Union.(::)
[handleExcept $ \err => throw $ FromParserError err,
handleStateIORef !(asksAt STATE defs),
handleStateIORef !(asksAt STATE ns),
handleStateIORef !(asksAt STATE suf),
\g => send g]
private
liftErase : Q.Definitions -> Eff Erase a -> Eff Compile a
liftErase defs act =
runEff act
[handleExcept $ \err => throw $ EraseError err,
handleStateIORef !(asksAt STATE suf)]
private
liftScheme : Eff Scheme a -> Eff Compile (a, List Id)
liftScheme act = do
runEff [|MkPair act (getAt MAIN)|]
[handleStateIORef !(newIORef empty),
handleStateIORef !(newIORef [])]
private
Step : Type -> Type -> Type
Step i o = OpenFile -> i -> Eff Compile o
-- private
-- processFile : String -> Eff Compile ()
-- processFile file = withEarlyStop $ do
-- Just ast <- loadFile noLoc file
-- | Nothing => pure ()
-- -- putErrLn "checking \{file}"
-- when (!(asksAt OPTS until) == Just Parse) $ do
-- lift $ outputStr $ show ast
-- stopHere
-- defList <- liftFromParser $ concat <$> traverse fromPTopLevel ast
-- outputDocStopIf Check $
-- traverse (uncurry Q.prettyDef) defList
-- let defs = SortedMap.fromList defList
-- erased <- liftErase defs $
-- traverse (\(x, d) => (x,) <$> eraseDef defs x d) defList
-- outputDocStopIf Erase $
-- traverse (uncurry U.prettyDef) erased
-- (scheme, mains) <- liftScheme $ map catMaybes $
-- traverse (uncurry defToScheme) erased
-- outputDocStopIf Scheme $
-- intersperse empty <$> traverse prettySexp scheme
Step a b = OpenFile -> a -> Eff Compile b
private
step : {default CErr console : ConsoleChannel} ->
Phase -> OutFile -> Step i o -> i -> Eff CompileStop o
step phase file act x = do
step : ConsoleChannel -> Phase -> OutFile -> Step a b -> a -> Eff CompileStop b
step console phase file act x = do
opts <- askAt OPTS
res <- lift $ withOutFile console file $ \h => act h x
res <- withOutFile console file fromError $ \h => lift $ act h x
when (opts.until == Just phase) stopHere
pure res
where
fromError : String -> FileError -> Eff CompileStop c
fromError file err = throw $ WriteError file err
private covering
@ -268,25 +71,23 @@ erase h defList =
where defs = SortedMap.fromList defList
private covering
scheme : Step (List U.NDefinition) (List Sexp, Id)
scheme : Step (List U.NDefinition) (List Sexp, List Id)
scheme h defs = do
sexps' <- for defs $ \(x, d) => do
(msexp, mains) <- liftScheme $ defToScheme x d
outputDoc h $ maybe (sayErased x) prettySexp msexp
outputDoc h $ case msexp of
Just s => prettySexp s
Nothing => pure $ hsep [";;", prettyName x, "erased"]
pure (msexp, mains)
bitraverse (pure . catMaybes) (oneMain . concat) $ unzip sexps'
where
sayErased : {opts : LayoutOpts} -> Name -> Eff Pretty (Doc opts)
sayErased x = pure $ hsep [";;", prettyName x, "erased"]
oneMain : List Id -> Eff Compile Id
oneMain [m] = pure m
oneMain [] = throw NoMain
oneMain ms = throw $ MultipleMains ms
pure $ bimap catMaybes concat $ unzip sexps'
private covering
output : Step (List Sexp, Id) ()
output h (sexps, main) =
output : Step (List Sexp, List Id) ()
output h (sexps, mains) = do
main <- case mains of
[m] => pure m
[] => throw NoMain
_ => throw $ MultipleMains mains
lift $ outputDocs h $ do
res <- traverse prettySexp sexps
runner <- makeRunMain main
@ -297,11 +98,11 @@ processFile : String -> Eff Compile ()
processFile file = withEarlyStop $ pipeline !(askAt OPTS) file where
pipeline : Options -> String -> Eff CompileStop ()
pipeline opts =
step Parse opts.dump.parse Main.parse >=>
step Check opts.dump.check Main.check >=>
step Erase opts.dump.erase Main.erase >=>
step Scheme opts.dump.scheme Main.scheme >=>
step End opts.outFile Main.output {console = COut}
step CErr Parse opts.dump.parse Main.parse >=>
step CErr Check opts.dump.check Main.check >=>
step CErr Erase opts.dump.erase Main.erase >=>
step CErr Scheme opts.dump.scheme Main.scheme >=>
step COut End opts.outFile Main.output
export covering

100
exe/Options.idr
View File

@ -1,6 +1,9 @@
module Options
import Quox.Pretty
import Quox.Log
import Data.DPair
import Data.SortedMap
import System
import System.Console.GetOpt
import System.File
@ -42,13 +45,15 @@ record Dump where
public export
record Options where
constructor MkOpts
hlType : HLType
dump : Dump
outFile : OutFile
until : Maybe Phase
flavor : Pretty.Flavor
width : Nat
include : List String
include : List String
dump : Dump
outFile : OutFile
until : Maybe Phase
hlType : HLType
flavor : Pretty.Flavor
width : Nat
logLevels : LogLevels
logFile : OutFile
%name Options opts
%runElab derive "Options" [Show]
@ -61,13 +66,15 @@ defaultWidth = do
export
defaultOpts : IO Options
defaultOpts = pure $ MkOpts {
hlType = Guess,
dump = MkDump NoOut NoOut NoOut NoOut,
outFile = Console,
until = Nothing,
flavor = Unicode,
width = !defaultWidth,
include = ["."]
include = ["."],
dump = MkDump NoOut NoOut NoOut NoOut,
outFile = Console,
until = Nothing,
hlType = Guess,
flavor = Unicode,
width = !defaultWidth,
logLevels = defaultLogLevels,
logFile = Console
}
private
@ -118,11 +125,52 @@ toHLType str = case toLower str of
"html" => Ok {hlType := Html}
_ => Err "unknown highlighting type \{show str}\ntypes: term, html, none"
||| like ghc, -i '' clears the search path; -i a:b:c adds a,b,c to the end
||| like ghc, `-i ""` clears the search path;
||| `-i a:b:c` adds `a`, `b`, `c` to the end
private
dirListFlag : String -> List String -> List String
dirListFlag arg val =
if null arg then [] else val ++ toList (split (== ':') arg)
dirListFlag "" val = []
dirListFlag dirs val = val ++ toList (split (== ':') dirs)
private
splitLogFlag : String -> Either String (List (Maybe LogCategory, LogLevel))
splitLogFlag = traverse flag1 . toList . split (== ':') where
parseLogCategory : String -> Either String LogCategory
parseLogCategory cat = do
let Just cat = toLogCategory cat
| _ => let catList = joinBy ", " logCategories in
Left "unknown log category. categories are:\n\{catList}"
pure cat
parseLogLevel : String -> Either String LogLevel
parseLogLevel lvl = do
let Just lvl = parsePositive lvl
| _ => Left "log level \{lvl} not a number"
let Just lvl = toLogLevel lvl
| _ => Left "log level \{show lvl} out of range 0\{show maxLogLevel}"
pure lvl
flag1 : String -> Either String (Maybe LogCategory, LogLevel)
flag1 str = do
let (first, second) = break (== '=') str
case strM second of
StrCons '=' lvl => do
cat <- parseLogCategory first
lvl <- parseLogLevel lvl
pure (Just cat, lvl)
StrNil => (Nothing,) <$> parseLogLevel first
_ => Left "invalid log flag \{str}"
private
setLogFlag : LogLevels -> (Maybe LogCategory, LogLevel) -> LogLevels
setLogFlag lvls (Nothing, lvl) = {defLevel := lvl} lvls
setLogFlag lvls (Just name, lvl) = {levels $= ((name, lvl) ::)} lvls
private
logFlag : String -> OptAction
logFlag str = case splitLogFlag str of
Left err => Err err
Right flags => Ok $ \o => {logLevels := foldl setLogFlag o.logLevels flags} o
private
commonOptDescrs' : List (OptDescr OptAction)
@ -133,7 +181,11 @@ commonOptDescrs' = [
MkOpt ['o'] ["output"] (ReqArg (\s => Ok {outFile := toOutFile s}) "<file>")
"output file (\"-\" for stdout, \"\" for no output)",
MkOpt ['P'] ["phase"] (ReqArg toPhase "<phase>")
"stop after the given phase"
"stop after the given phase",
MkOpt ['l'] ["log"] (ReqArg logFlag "[<cat>=]<n>:...")
"set log level",
MkOpt ['L'] ["log-file"] (ReqArg (\s => Ok {logFile := toOutFile s}) "<file>")
"set log output file"
]
private
@ -148,13 +200,17 @@ extraOptDescrs = [
MkOpt [] ["color", "colour"] (ReqArg toHLType "<type>")
"select highlighting type",
MkOpt [] ["dparse"] (ReqArg (\s => Ok {dump.parse := toOutFile s}) "<file>")
MkOpt [] ["dump-parse"]
(ReqArg (\s => Ok {dump.parse := toOutFile s}) "<file>")
"dump AST",
MkOpt [] ["dcheck"] (ReqArg (\s => Ok {dump.check := toOutFile s}) "<file>")
MkOpt [] ["dump-check"]
(ReqArg (\s => Ok {dump.check := toOutFile s}) "<file>")
"dump typechecker output",
MkOpt [] ["derase"] (ReqArg (\s => Ok {dump.erase := toOutFile s}) "<file>")
MkOpt [] ["dump-erase"]
(ReqArg (\s => Ok {dump.erase := toOutFile s}) "<file>")
"dump erasure output",
MkOpt [] ["dscheme"] (ReqArg (\s => Ok {dump.scheme := toOutFile s}) "<file>")
MkOpt [] ["dump-scheme"]
(ReqArg (\s => Ok {dump.scheme := toOutFile s}) "<file>")
"dump scheme output (without prelude)"
]

59
exe/Output.idr Normal file
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@ -0,0 +1,59 @@
module Output
import Quox.Pretty
import Options
import System.File
import System
public export
data ConsoleChannel = COut | CErr
export
consoleHandle : ConsoleChannel -> File
consoleHandle COut = stdout
consoleHandle CErr = stderr
public export
data OpenFile = OConsole ConsoleChannel | OFile String File | ONone
export
toOutFile : OpenFile -> OutFile
toOutFile (OConsole _) = Console
toOutFile (OFile f _) = File f
toOutFile ONone = NoOut
export
withFile : HasIO m => String -> (String -> FileError -> m a) ->
(OpenFile -> m a) -> m a
withFile f catch act = Prelude.do
res <- withFile f WriteTruncate pure (Prelude.map Right . act . OFile f)
either (catch f) pure res
export
withOutFile : HasIO m => ConsoleChannel -> OutFile ->
(String -> FileError -> m a) -> (OpenFile -> m a) -> m a
withOutFile _ (File f) catch act = withFile f catch act
withOutFile ch Console catch act = act $ OConsole ch
withOutFile _ NoOut catch act = act ONone
private
hlFor : HLType -> OutFile -> HL -> Highlight
hlFor Guess Console = highlightSGR
hlFor Guess _ = noHighlight
hlFor NoHL _ = noHighlight
hlFor Term _ = highlightSGR
hlFor Html _ = highlightHtml
export
runPretty : Options -> OutFile -> Eff Pretty a -> a
runPretty opts file act =
runPrettyWith Outer opts.flavor (hlFor opts.hlType file) 2 act
export
die : HasIO io => (opts : LayoutOpts) -> Doc opts -> io a
die opts err = do
ignore $ fPutStr stderr $ render opts err
exitFailure

18
lib/Control/Monad/ST/Extra.idr
View File

@ -62,3 +62,21 @@ export %inline HasST (STErr e) where liftST = STE . map Right
export
stLeft : e -> STErr e s a
stLeft e = STE $ pure $ Left e
parameters {auto _ : HasST m}
export %inline
newSTRef' : a -> m s (STRef s a)
newSTRef' x = liftST $ newSTRef x
export %inline
readSTRef' : STRef s a -> m s a
readSTRef' r = liftST $ readSTRef r
export %inline
writeSTRef' : STRef s a -> a -> m s ()
writeSTRef' r x = liftST $ writeSTRef r x
export %inline
modifySTRef' : STRef s a -> (a -> a) -> m s ()
modifySTRef' r f = liftST $ modifySTRef r f

14
lib/Quox/EffExtra.idr
View File

@ -36,6 +36,15 @@ gets : Has (State s) fs => (s -> a) -> Eff fs a
gets = getsAt ()
export %inline
stateAt : (0 lbl : tag) -> Has (StateL lbl s) fs => (s -> (a, s)) -> Eff fs a
stateAt lbl f = do (res, x) <- getsAt lbl f; putAt lbl x $> res
export %inline
state : Has (State s) fs => (s -> (a, s)) -> Eff fs a
state = stateAt ()
export
handleStateIORef : HasIO m => IORef st -> StateL lbl st a -> m a
handleStateIORef r Get = readIORef r
@ -47,7 +56,6 @@ handleStateSTRef r Get = liftST $ readSTRef r
handleStateSTRef r (Put s) = liftST $ writeSTRef r s
public export
data Length : List a -> Type where
Z : Length []
@ -97,6 +105,10 @@ export
handleReaderConst : Applicative m => r -> ReaderL lbl r a -> m a
handleReaderConst x Ask = pure x
export
handleWriterSTRef : HasST m => STRef s (SnocList w) -> WriterL lbl w a -> m s a
handleWriterSTRef ref (Tell w) = liftST $ modifySTRef ref (:< w)
public export
record IOErr e a where

195
lib/Quox/Equal.idr
View File

@ -2,9 +2,12 @@ module Quox.Equal
import Quox.BoolExtra
import public Quox.Typing
import Data.Maybe
import Quox.EffExtra
import Quox.FreeVars
import Quox.Pretty
import Quox.EffExtra
import Data.List1
import Data.Maybe
%default total
@ -15,11 +18,11 @@ EqModeState = State EqMode
public export
Equal : List (Type -> Type)
Equal = [ErrorEff, DefsReader, NameGen]
Equal = [ErrorEff, DefsReader, NameGen, Log]
public export
EqualInner : List (Type -> Type)
EqualInner = [ErrorEff, NameGen, EqModeState]
EqualInner = [ErrorEff, NameGen, EqModeState, Log]
export %inline
@ -74,9 +77,25 @@ sameTyCon (E {}) _ = False
||| * `[π.A]` is empty if `A` is.
||| * that's it.
public export covering
isEmpty : Definitions -> EqContext n -> SQty -> Term 0 n ->
Eff EqualInner Bool
isEmpty defs ctx sg ty0 = do
isEmpty :
{default 30 logLevel : Nat} -> (0 _ : So (isLogLevel logLevel)) =>
Definitions -> EqContext n -> SQty -> Term 0 n -> Eff EqualInner Bool
private covering
isEmptyNoLog :
Definitions -> EqContext n -> SQty -> Term 0 n -> Eff EqualInner Bool
isEmpty defs ctx sg ty = do
sayMany "equal" ty.loc
[logLevel :> "isEmpty",
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
logLevel :> hsep ["ty =", runPretty $ prettyTerm [<] ctx.tnames ty]]
res <- isEmptyNoLog defs ctx sg ty
say "equal" logLevel ty.loc $ hsep ["isEmpty ⇝", pshow res]
pure res
isEmptyNoLog defs ctx sg ty0 = do
Element ty0 nc <- whnf defs ctx sg ty0.loc ty0
let Left y = choose $ isTyConE ty0
| Right n => pure False
@ -85,16 +104,17 @@ isEmpty defs ctx sg ty0 = do
IOState {} => pure False
Pi {arg, res, _} => pure False
Sig {fst, snd, _} =>
isEmpty defs ctx sg fst `orM`
isEmpty defs (extendTy0 snd.name fst ctx) sg snd.term
isEmpty defs ctx sg fst {logLevel = 90} `orM`
isEmpty defs (extendTy0 snd.name fst ctx) sg snd.term {logLevel = 90}
Enum {cases, _} =>
pure $ null cases
Eq {} => pure False
NAT {} => pure False
STRING {} => pure False
BOX {ty, _} => isEmpty defs ctx sg ty
BOX {ty, _} => isEmpty defs ctx sg ty {logLevel = 90}
E _ => pure False
||| true if a type is known to be a subsingleton purely by its form.
||| a subsingleton is a type with only zero or one possible values.
||| equality/subtyping accepts immediately on values of subsingleton types.
@ -106,27 +126,42 @@ isEmpty defs ctx sg ty0 = do
||| * an enum type is a subsingleton if it has zero or one tags.
||| * a box type is a subsingleton if its content is
public export covering
isSubSing : Definitions -> EqContext n -> SQty -> Term 0 n ->
Eff EqualInner Bool
isSubSing defs ctx sg ty0 = do
isSubSing :
{default 30 logLevel : Nat} -> (0 _ : So (isLogLevel logLevel)) =>
Definitions -> EqContext n -> SQty -> Term 0 n -> Eff EqualInner Bool
private covering
isSubSingNoLog :
Definitions -> EqContext n -> SQty -> Term 0 n -> Eff EqualInner Bool
isSubSing defs ctx sg ty = do
sayMany "equal" ty.loc
[logLevel :> "isSubSing",
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
logLevel :> hsep ["ty =", runPretty $ prettyTerm [<] ctx.tnames ty]]
res <- isSubSingNoLog defs ctx sg ty
say "equal" logLevel ty.loc $ hsep ["isSubsing ⇝", pshow res]
pure res
isSubSingNoLog defs ctx sg ty0 = do
Element ty0 nc <- whnf defs ctx sg ty0.loc ty0
let Left y = choose $ isTyConE ty0
| Right n => pure False
let Left y = choose $ isTyConE ty0 | _ => pure False
case ty0 of
TYPE {} => pure False
IOState {} => pure False
Pi {arg, res, _} =>
isEmpty defs ctx sg arg `orM`
isSubSing defs (extendTy0 res.name arg ctx) sg res.term
isEmpty defs ctx sg arg {logLevel = 90} `orM`
isSubSing defs (extendTy0 res.name arg ctx) sg res.term {logLevel = 90}
Sig {fst, snd, _} =>
isSubSing defs ctx sg fst `andM`
isSubSing defs (extendTy0 snd.name fst ctx) sg snd.term
isSubSing defs ctx sg fst {logLevel = 90} `andM`
isSubSing defs (extendTy0 snd.name fst ctx) sg snd.term {logLevel = 90}
Enum {cases, _} =>
pure $ length (SortedSet.toList cases) <= 1
Eq {} => pure True
NAT {} => pure False
STRING {} => pure False
BOX {ty, _} => isSubSing defs ctx sg ty
BOX {ty, _} => isSubSing defs ctx sg ty {logLevel = 90}
E _ => pure False
@ -137,12 +172,21 @@ bigger l r = gets $ \case Super => l; _ => r
export
ensureTyCon : Has ErrorEff fs =>
(loc : Loc) -> (ctx : EqContext n) -> (t : Term 0 n) ->
Eff fs (So (isTyConE t))
ensureTyCon loc ctx t = case nchoose $ isTyConE t of
Left y => pure y
Right n => throw $ NotType loc (toTyContext ctx) (t // shift0 ctx.dimLen)
ensureTyCon, ensureTyConNoLog :
(Has Log fs, Has ErrorEff fs) =>
(loc : Loc) -> (ctx : EqContext n) -> (t : Term 0 n) ->
Eff fs (So (isTyConE t))
ensureTyConNoLog loc ctx ty = do
case nchoose $ isTyConE ty of
Left y => pure y
Right n => throw $ NotType loc (toTyContext ctx) (ty // shift0 ctx.dimLen)
ensureTyCon loc ctx ty = do
sayMany "equal" ty.loc
[60 :> "ensureTyCon",
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
60 :> hsep ["ty =", runPretty $ prettyTerm [<] ctx.tnames ty]]
ensureTyConNoLog loc ctx ty
namespace Term
@ -750,7 +794,11 @@ namespace Elim
namespace Term
compare0 defs ctx sg ty s t =
export covering %inline
compare0NoLog :
Definitions -> EqContext n -> SQty -> (ty, s, t : Term 0 n) ->
Eff EqualInner ()
compare0NoLog defs ctx sg ty s t =
wrapErr (WhileComparingT ctx !mode sg ty s t) $ do
Element ty' _ <- whnf defs ctx SZero ty.loc ty
Element s' _ <- whnf defs ctx sg s.loc s
@ -758,20 +806,72 @@ namespace Term
tty <- ensureTyCon ty.loc ctx ty'
compare0' defs ctx sg ty' s' t'
compare0 defs ctx sg ty s t = do
sayMany "equal" s.loc
[30 :> "Term.compare0",
30 :> hsep ["mode =", pshow !mode],
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
31 :> hsep ["ty =", runPretty $ prettyTerm [<] ctx.tnames ty],
30 :> hsep ["s =", runPretty $ prettyTerm [<] ctx.tnames s],
30 :> hsep ["t =", runPretty $ prettyTerm [<] ctx.tnames t]]
compare0NoLog defs ctx sg ty s t
namespace Elim
compare0 defs ctx sg e f = do
export covering %inline
compare0NoLog :
Definitions -> EqContext n -> SQty -> (e, f : Elim 0 n) ->
Eff EqualInner (Term 0 n)
compare0NoLog defs ctx sg e f = do
(ty, err) <- runStateAt InnerErr Nothing $ compare0Inner defs ctx sg e f
maybe (pure ty) throw err
compareType defs ctx s t = do
compare0 defs ctx sg e f = do
sayMany "equal" e.loc
[30 :> "Elim.compare0",
30 :> hsep ["mode =", pshow !mode],
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
30 :> hsep ["e =", runPretty $ prettyElim [<] ctx.tnames e],
30 :> hsep ["f =", runPretty $ prettyElim [<] ctx.tnames f]]
ty <- compare0NoLog defs ctx sg e f
say "equal" 31 e.loc $
hsep ["Elim.compare0 ⇝", runPretty $ prettyTerm [<] ctx.tnames ty]
pure ty
export covering %inline
compareTypeNoLog :
Definitions -> EqContext n -> (s, t : Term 0 n) -> Eff EqualInner ()
compareTypeNoLog defs ctx s t = do
Element s' _ <- whnf defs ctx SZero s.loc s
Element t' _ <- whnf defs ctx SZero t.loc t
ts <- ensureTyCon s.loc ctx s'
tt <- ensureTyCon t.loc ctx t'
st <- either pure (const $ clashTy s.loc ctx s' t') $
nchoose $ sameTyCon s' t'
let Left _ = choose $ sameTyCon s' t' | _ => clashTy s.loc ctx s' t'
compareType' defs ctx s' t'
compareType defs ctx s t = do
sayMany "equal" s.loc
[30 :> "compareType",
30 :> hsep ["mode =", pshow !mode],
95 :> hsep ["ctx =", runPretty $ prettyEqContext ctx],
30 :> hsep ["s =", runPretty $ prettyTerm [<] ctx.tnames s],
30 :> hsep ["t =", runPretty $ prettyTerm [<] ctx.tnames t]]
compareTypeNoLog defs ctx s t
private
getVars : TyContext d _ -> FreeVars d -> List BindName
getVars ctx (FV fvs) = case ctx.dctx of
ZeroIsOne => []
C eqs => toList $ getVars' ctx.dnames eqs fvs
where
getVars' : BContext d' -> DimEq' d' -> FreeVars' d' -> SnocList BindName
getVars' (names :< name) (eqs :< eq) (fvs :< fv) =
let rest = getVars' names eqs fvs in
case eq of Nothing => rest :< name
Just _ => rest
getVars' [<] [<] [<] = [<]
parameters (loc : Loc) (ctx : TyContext d n)
parameters (mode : EqMode)
@ -780,9 +880,11 @@ parameters (loc : Loc) (ctx : TyContext d n)
fromInner = lift . map fst . runState mode
private
eachFace : Applicative f => FreeVars d ->
(EqContext n -> DSubst d 0 -> f ()) -> f ()
eachFace fvs act =
eachCorner : Has Log fs => Loc -> FreeVars d ->
(EqContext n -> DSubst d 0 -> Eff fs ()) -> Eff fs ()
eachCorner loc fvs act = do
say "equal" 50 loc $
hsep $ "eachCorner: split on" :: map prettyBind' (getVars ctx fvs)
for_ (splits loc ctx.dctx fvs) $ \th =>
act (makeEqContext ctx th) th
@ -792,31 +894,36 @@ parameters (loc : Loc) (ctx : TyContext d n)
Definitions -> EqContext n -> DSubst d 0 -> Eff EqualInner ()
private
runCompare : FreeVars d -> CompareAction d n -> Eff Equal ()
runCompare fvs act = fromInner $ eachFace fvs $ act !(askAt DEFS)
runCompare : Loc -> FreeVars d -> CompareAction d n -> Eff Equal ()
runCompare loc fvs act = fromInner $ eachCorner loc fvs $ act !(askAt DEFS)
private
fdvAll : HasFreeDVars t => List (t d n) -> FreeVars d
fdvAll = let Val d = ctx.dimLen in foldMap (fdvWith [|d|] ctx.termLen)
foldMap1 : Semigroup b => (a -> b) -> List1 a -> b
foldMap1 f = foldl1By (\x, y => x <+> f y) f
private
fdvAll : HasFreeDVars t => (xs : List (t d n)) -> (0 _ : NonEmpty xs) =>
FreeVars d
fdvAll (x :: xs) = foldMap1 (fdvWith ctx.dimLen ctx.termLen) (x ::: xs)
namespace Term
export covering
compare : SQty -> (ty, s, t : Term d n) -> Eff Equal ()
compare sg ty s t = runCompare (fdvAll [ty, s, t]) $ \defs, ectx, th =>
compare0 defs ectx sg (ty // th) (s // th) (t // th)
compare sg ty s t = runCompare s.loc (fdvAll [ty, s, t]) $
\defs, ectx, th => compare0 defs ectx sg (ty // th) (s // th) (t // th)
export covering
compareType : (s, t : Term d n) -> Eff Equal ()
compareType s t = runCompare (fdvAll [s, t]) $ \defs, ectx, th =>
compareType defs ectx (s // th) (t // th)
compareType s t = runCompare s.loc (fdvAll [s, t]) $
\defs, ectx, th => compareType defs ectx (s // th) (t // th)
namespace Elim
||| you don't have to pass the type in but the arguments must still be
||| of the same type!!
export covering
compare : SQty -> (e, f : Elim d n) -> Eff Equal ()
compare sg e f = runCompare (fdvAll [e, f]) $ \defs, ectx, th =>
ignore $ compare0 defs ectx sg (e // th) (f // th)
compare sg e f = runCompare e.loc (fdvAll [e, f]) $
\defs, ectx, th => ignore $ compare0 defs ectx sg (e // th) (f // th)
namespace Term
export covering %inline

317
lib/Quox/Log.idr Normal file
View File

@ -0,0 +1,317 @@
module Quox.Log
import Quox.Loc
import Quox.Pretty
import Quox.PrettyValExtra
import Data.So
import Data.DPair
import Data.Maybe
import Data.List1
import Control.Eff
import Control.Monad.ST.Extra
import Data.IORef
import System.File
import Derive.Prelude
%default total
%language ElabReflection
public export %inline
maxLogLevel : Nat
maxLogLevel = 100
public export %inline
logCategories : List String
logCategories = ["whnf", "equal", "check"]
public export %inline
isLogLevel : Nat -> Bool
isLogLevel l = l <= maxLogLevel
public export
IsLogLevel : Nat -> Type
IsLogLevel l = So $ isLogLevel l
public export %inline
isLogCategory : String -> Bool
isLogCategory cat = cat `elem` logCategories
public export
IsLogCategory : String -> Type
IsLogCategory cat = So $ isLogCategory cat
-- Q: why are you using `So` instead of `LT` and `Elem`
-- A: ① proof search gives up before finding a proof of e.g. ``99 `LT` 100``
-- (i.e. `LTESucc⁹⁹ LTEZero`)
-- ② the proofs aren't looked at in any way, i just wanted to make sure the
-- list of categories was consistent everywhere
||| a verbosity level from 0100. higher is noisier. each log entry has a
||| verbosity level above which it will be printed, chosen, uh, based on vibes.
public export
LogLevel : Type
LogLevel = Subset Nat IsLogLevel
||| a logging category, like "check" (type checking), "whnf", or whatever.
public export
LogCategory : Type
LogCategory = Subset String IsLogCategory
public export %inline
toLogLevel : Nat -> Maybe LogLevel
toLogLevel l =
case choose $ isLogLevel l of
Left y => Just $ Element l y
Right _ => Nothing
public export %inline
toLogCategory : String -> Maybe LogCategory
toLogCategory c =
case choose $ isLogCategory c of
Left y => Just $ Element c y
Right _ => Nothing
||| verbosity levels for each category, if they differ from the default
public export
LevelMap : Type
LevelMap = List (LogCategory, LogLevel)
-- Q: why `List` instead of `SortedMap`
-- A: oof ouch my constant factors (maybe this one was more obvious)
public export
record LogLevels where
constructor MkLogLevels
defLevel : LogLevel
levels : LevelMap
%name LogLevels lvls
%runElab derive "LogLevels" [Eq, Show, PrettyVal]
public export
LevelStack : Type
LevelStack = List LogLevels
public export %inline
defaultLevel : LogLevel
defaultLevel = Element 0 Oh
export %inline
defaultLogLevels : LogLevels
defaultLogLevels = MkLogLevels defaultLevel []
export %inline
initStack : LevelStack
initStack = []
export %inline
getLevel1 : LogCategory -> LogLevels -> LogLevel
getLevel1 cat (MkLogLevels def lvls) = fromMaybe def $ lookup cat lvls
export %inline
getLevel : LogCategory -> LevelStack -> LogLevel
getLevel cat (lvls :: _) = getLevel1 cat lvls
getLevel cat [] = defaultLevel
export %inline
getCurLevels : LevelStack -> LogLevels
getCurLevels (lvls :: _) = lvls
getCurLevels [] = defaultLogLevels
public export
LogDoc : Type
LogDoc = Doc (Opts {lineLength = 80})
private %inline
replace : Eq a => a -> b -> List (a, b) -> List (a, b)
replace k v kvs = (k, v) :: filter (\y => fst y /= k) kvs
private %inline
mergeLeft : Eq a => List (a, b) -> List (a, b) -> List (a, b)
mergeLeft l r = foldl (\lst, (k, v) => replace k v lst) r l
public export
data PushArg =
SetDefault LogLevel
| SetCat LogCategory LogLevel
| SetAll LogLevel
%runElab derive "PushArg" [Eq, Ord, Show, PrettyVal]
%name PushArg push
export %inline
applyPush : LogLevels -> PushArg -> LogLevels
applyPush lvls (SetDefault def) = {defLevel := def} lvls
applyPush lvls (SetCat cat lvl) = {levels $= replace cat lvl} lvls
applyPush lvls (SetAll lvl) = MkLogLevels lvl []
export %inline
fromPush : PushArg -> LogLevels
fromPush = applyPush defaultLogLevels
public export
record LogMsg where
constructor (:>)
level : Nat
{auto 0 levelOk : IsLogLevel level}
message : Lazy LogDoc
infix 0 :>
%name Log.LogMsg msg
public export
data LogL : (lbl : tag) -> Type -> Type where
||| print some log messages
SayMany : (cat : LogCategory) -> (loc : Loc) ->
(msgs : List LogMsg) -> LogL lbl ()
||| set some verbosity levels
Push : (push : List PushArg) -> LogL lbl ()
||| restore the previous verbosity levels.
||| returns False if the stack was already empty
Pop : LogL lbl Bool
||| returns the current verbosity levels
CurLevels : LogL lbl LogLevels
public export
Log : Type -> Type
Log = LogL ()
parameters (0 lbl : tag) {auto _ : Has (LogL lbl) fs}
public export %inline
sayManyAt : (cat : String) -> (0 catOk : IsLogCategory cat) =>
Loc -> List LogMsg -> Eff fs ()
sayManyAt cat loc msgs {catOk} =
send $ SayMany {lbl} (Element cat catOk) loc msgs
public export %inline
sayAt : (cat : String) -> (0 catOk : IsLogCategory cat) =>
(lvl : Nat) -> (0 lvlOk : IsLogLevel lvl) =>
Loc -> Lazy LogDoc -> Eff fs ()
sayAt cat lvl loc msg = sayManyAt cat loc [lvl :> msg]
public export %inline
pushAt : List PushArg -> Eff fs ()
pushAt lvls = send $ Push {lbl} lvls
public export %inline
push1At : PushArg -> Eff fs ()
push1At lvl = pushAt [lvl]
public export %inline
popAt : Eff fs Bool
popAt = send $ Pop {lbl}
public export %inline
curLevelsAt : Eff fs LogLevels
curLevelsAt = send $ CurLevels {lbl}
parameters {auto _ : Has Log fs}
public export %inline
sayMany : (cat : String) -> (0 catOk : IsLogCategory cat) =>
Loc -> List LogMsg -> Eff fs ()
sayMany = sayManyAt ()
public export %inline
say : (cat : String) -> (0 _ : IsLogCategory cat) =>
(lvl : Nat) -> (0 _ : IsLogLevel lvl) =>
Loc -> Lazy LogDoc -> Eff fs ()
say = sayAt ()
public export %inline
push : List PushArg -> Eff fs ()
push = pushAt ()
public export %inline
push1 : PushArg -> Eff fs ()
push1 = push1At ()
public export %inline
pop : Eff fs Bool
pop = popAt ()
public export %inline
curLevels : Eff fs LogLevels
curLevels = curLevelsAt ()
||| handles a `Log` effect with an existing `State` and `Writer`
export %inline
handleLogSW : (0 s : ts) -> (0 w : tw) ->
Has (StateL s LevelStack) fs => Has (WriterL w LogDoc) fs =>
LogL tag a -> Eff fs a
handleLogSW s w = \case
Push push => modifyAt s $ \lst =>
foldl applyPush (fromMaybe defaultLogLevels (head' lst)) push :: lst
Pop => stateAt s $ maybe (False, []) (True,) . tail'
SayMany cat loc msgs => do
catLvl <- getsAt s $ fst . getLevel cat
let loc = runPretty $ prettyLoc loc
for_ msgs $ \(lvl :> msg) => when (lvl <= catLvl) $ tellAt w $
hcat [loc, text cat.fst, "@", pshow lvl, ":"] <++> msg
CurLevels =>
getsAt s getCurLevels
export %inline
handleLogSW_ : LogL tag a -> Eff [State LevelStack, Writer LogDoc] a
handleLogSW_ = handleLogSW () ()
export %inline
handleLogIO : HasIO m => MonadRec m =>
(FileError -> m ()) -> IORef LevelStack -> File ->
LogL tag a -> m a
handleLogIO th lvls h act =
runEff (handleLogSW_ act) [handleStateIORef lvls, handleWriter {m} printMsg]
where printMsg : LogDoc -> m ()
printMsg msg = fPutStr h (render _ msg) >>= either th pure
export %inline
handleLogST : HasST m => MonadRec (m s) =>
STRef s (SnocList LogDoc) -> STRef s LevelStack ->
LogL tag a -> m s a
handleLogST docs lvls act =
runEff (handleLogSW_ act) [handleStateSTRef lvls, handleWriterSTRef docs]
export %inline
handleLogDiscard : (0 s : ts) -> Has (StateL s Nat) fs =>
LogL tag a -> Eff fs a
handleLogDiscard s = \case
Push _ => modifyAt s S
Pop => stateAt s $ \k => (k > 0, pred k)
SayMany {} => pure ()
CurLevels => pure defaultLogLevels
export %inline
handleLogDiscard_ : LogL tag a -> Eff [State Nat] a
handleLogDiscard_ = handleLogDiscard ()
export %inline
handleLogDiscardST : HasST m => MonadRec (m s) => STRef s Nat ->
LogL tag a -> m s a
handleLogDiscardST ref act =
runEff (handleLogDiscard_ act) [handleStateSTRef ref]
export %inline
handleLogDiscardIO : HasIO m => MonadRec m => IORef Nat ->
LogL tag a -> m a
handleLogDiscardIO ref act =
runEff (handleLogDiscard_ act) [handleStateIORef ref]
||| approximate the push/pop effects in a discarded log by trimming a stack or
||| repeating its most recent element
export %inline
fixupDiscardedLog : Nat -> LevelStack -> LevelStack
fixupDiscardedLog want lvls =
let len = length lvls in
case compare len want of
EQ => lvls
GT => drop (len `minus` want) lvls
LT => let new = fromMaybe defaultLogLevels $ head' lvls in
replicate (want `minus` len) new ++ lvls

18
lib/Quox/Name.idr
View File

@ -43,14 +43,14 @@ Mods = SnocList String
public export
record Name where
constructor MakeName
constructor MkName
mods : Mods
base : BaseName
%runElab derive "Name" [Eq, Ord]
public export %inline
unq : BaseName -> Name
unq = MakeName [<]
unq = MkName [<]
||| add some namespaces to the beginning of a name
public export %inline
@ -64,31 +64,31 @@ PBaseName = String
public export
record PName where
constructor MakePName
constructor MkPName
mods : Mods
base : PBaseName
%runElab derive "PName" [Eq, Ord, PrettyVal]
export %inline
fromPName : PName -> Name
fromPName p = MakeName p.mods $ UN p.base
fromPName p = MkName p.mods $ UN p.base
export %inline
toPName : Name -> PName
toPName p = MakePName p.mods $ baseStr p.base
toPName p = MkPName p.mods $ baseStr p.base
export %inline
fromPBaseName : PBaseName -> Name
fromPBaseName = MakeName [<] . UN
fromPBaseName = MkName [<] . UN
export
Show PName where
show (MakePName mods base) =
show (MkPName mods base) =
show $ concat $ intersperse "." $ toList $ mods :< base
export Show Name where show = show . toPName
export FromString PName where fromString = MakePName [<]
export FromString PName where fromString = MkPName [<]
export FromString Name where fromString = fromPBaseName
@ -116,7 +116,7 @@ export
fromListP : List1 String -> PName
fromListP (x ::: xs) = go [<] x xs where
go : SnocList String -> String -> List String -> PName
go mods x [] = MakePName mods x
go mods x [] = MkPName mods x
go mods x (y :: ys) = go (mods :< x) y ys
export %inline

66
lib/Quox/Parser/FromParser.idr
View File

@ -32,48 +32,50 @@ data StateTag = NS | SEEN
public export
FromParserPure : List (Type -> Type)
FromParserPure = [Except Error, DefsState, StateL NS Mods, NameGen]
FromParserPure = [Except Error, DefsState, StateL NS Mods, NameGen, Log]
public export
FromParserIO : List (Type -> Type)
FromParserIO = FromParserPure ++ [LoadFile]
public export
record PureParserResult a where
constructor MkPureParserResult
val : a
suf : NameSuf
defs : Definitions
log : SnocList LogDoc
logLevels : LevelStack
export
fromParserPure : {default [<] ns : Mods} ->
NameSuf -> Definitions ->
Eff FromParserPure a ->
Either Error (a, NameSuf, Definitions)
fromParserPure suf defs act = runSTErr $ do
suf <- liftST $ newSTRef suf
defs <- liftST $ newSTRef defs
fromParserPure : Mods -> NameSuf -> Definitions -> LevelStack ->
Eff FromParserPure a -> Either Error (PureParserResult a)
fromParserPure ns suf defs lvls act = runSTErr $ do
suf <- newSTRef' suf
defs <- newSTRef' defs
log <- newSTRef' [<]
lvls <- newSTRef' lvls
res <- runEff act $ with Union.(::)
[handleExcept (\e => stLeft e),
[handleExcept $ \e => stLeft e,
handleStateSTRef defs,
handleStateSTRef !(liftST $ newSTRef ns),
handleStateSTRef suf]
pure (res, !(liftST $ readSTRef suf), !(liftST $ readSTRef defs))
export covering
fromParserIO : (MonadRec io, HasIO io) =>
IncludePath -> IORef SeenSet ->
IORef NameSuf -> IORef Definitions ->
Eff FromParserIO a -> io (Either Error a)
fromParserIO inc seen suf defs act =
liftIO $ fromIOErr $ runEff act $ with Union.(::)
[handleExcept (\e => ioLeft e),
handleStateIORef defs,
handleStateIORef !(newIORef [<]),
handleStateIORef suf,
handleLoadFileIOE LoadError WrapParseError seen inc]
handleStateSTRef !(newSTRef' ns),
handleStateSTRef suf,
handleLogST log lvls]
pure $ MkPureParserResult {
val = res,
suf = !(readSTRef' suf),
defs = !(readSTRef' defs),
log = !(readSTRef' log),
logLevels = !(readSTRef' lvls)
}
parameters {auto _ : Functor m} (b : Var n -> m a) (f : PName -> m a)
(xs : Context' PatVar n)
private
fromBaseName : PBaseName -> m a
fromBaseName x = maybe (f $ MakePName [<] x) b $
fromBaseName x = maybe (f $ MkPName [<] x) b $
Context.find (\y => y.name == Just x) xs
private
@ -328,6 +330,7 @@ liftTC : Eff TC a -> Eff FromParserPure a
liftTC tc = runEff tc $ with Union.(::)
[handleExcept $ \e => throw $ WrapTypeError e,
handleReaderConst !(getAt DEFS),
\g => send g,
\g => send g]
private
@ -370,8 +373,9 @@ data HasFail = NoFail | AnyFail | FailWith String
export covering
expectFail : Loc -> Eff FromParserPure a -> Eff FromParserPure Error
expectFail loc act =
case fromParserPure !(getAt GEN) !(getAt DEFS) {ns = !(getAt NS)} act of
expectFail loc act = do
gen <- getAt GEN; defs <- getAt DEFS; ns <- getAt NS; lvl <- curLevels
case fromParserPure ns gen defs (singleton lvl) act of
Left err => pure err
Right _ => throw $ ExpectedFail loc
@ -394,6 +398,10 @@ fromPDecl (PDef def) =
fromPDecl (PNs ns) =
maybeFail ns.fail ns.loc $
localAt NS (<+> ns.name) $ concat <$> traverse fromPDecl ns.decls
fromPDecl (PPrag prag) =
case prag of
PLogPush p _ => Log.push p $> []
PLogPop _ => Log.pop $> []
mutual
export covering

2
lib/Quox/Parser/Lexer.idr
View File

@ -247,7 +247,7 @@ public export
reserved : List Reserved
reserved =
[Punc1 "(", Punc1 ")", Punc1 "[", Punc1 "]", Punc1 "{", Punc1 "}",
Punc1 ",", Punc1 ";", Punc1 "#[",
Punc1 ",", Punc1 ";", Punc1 "#[", Punc1 "#![",
Sym1 "@",
Sym1 ":",
Sym "" `Or` Sym "=>",

113
lib/Quox/Parser/Parser.idr
View File

@ -124,7 +124,7 @@ qname = terminalMatch "name" `(Name n) `(n)
||| unqualified name
export
baseName : Grammar True PBaseName
baseName = terminalMatch "unqualified name" `(Name (MakePName [<] b)) `(b)
baseName = terminalMatch "unqualified name" `(Name (MkPName [<] b)) `(b)
||| dimension constant (0 or 1)
export
@ -152,8 +152,8 @@ qty fname = withLoc fname [|PQ qtyVal|]
export
exactName : String -> Grammar True ()
exactName name = terminal "expected '\{name}'" $ \case
Name (MakePName [<] x) => guard $ x == name
_ => Nothing
Name (MkPName [<] x) => guard $ x == name
_ => Nothing
||| pattern var (unqualified name or _)
@ -626,14 +626,19 @@ term fname = lamTerm fname
export
attr : FileName -> Grammar True PAttr
attr fname = withLoc fname $ do
resC "#["
attr' : FileName -> (o : String) -> (0 _ : IsReserved o) =>
Grammar True PAttr
attr' fname o = withLoc fname $ do
resC o
name <- baseName
args <- many $ termArg fname
mustWork $ resC "]"
pure $ PA name args
export %inline
attr : FileName -> Grammar True PAttr
attr fname = attr' fname "#["
export
findDups : List PAttr -> List String
findDups attrs =
@ -658,44 +663,48 @@ attrList fname = do
noDups res $> res
public export
data AttrMatch a = Matched a | NoMatch String | Malformed String String
data AttrMatch a =
Matched a
| NoMatch String (List String)
| Malformed String String
export
Functor AttrMatch where
map f (Matched x) = Matched $ f x
map f (NoMatch s) = NoMatch s
map f (NoMatch s w) = NoMatch s w
map f (Malformed a e) = Malformed a e
export
(<|>) : AttrMatch a -> AttrMatch a -> AttrMatch a
Matched x <|> _ = Matched x
NoMatch _ <|> y = y
NoMatch {} <|> y = y
Malformed a e <|> _ = Malformed a e
export
isFail : PAttr -> AttrMatch PFail
isFail (PA "fail" [] _) = Matched PFailAny
isFail (PA "fail" [Str s _] _) = Matched $ PFailMatch s
isFail (PA "fail" _ _) = Malformed "fail" "be absent or a string literal"
isFail a = NoMatch a.name
isFail : PAttr -> List String -> AttrMatch PFail
isFail (PA "fail" [] _) _ = Matched PFailAny
isFail (PA "fail" [Str s _] _) _ = Matched $ PFailMatch s
isFail (PA "fail" _ _) _ = Malformed "fail" "be absent or a string literal"
isFail a w = NoMatch a.name w
export
isMain : PAttr -> AttrMatch ()
isMain (PA "main" [] _) = Matched ()
isMain (PA "main" _ _) = Malformed "main" "have no arguments"
isMain a = NoMatch a.name
isMain : PAttr -> List String -> AttrMatch ()
isMain (PA "main" [] _) _ = Matched ()
isMain (PA "main" _ _) _ = Malformed "main" "have no arguments"
isMain a w = NoMatch a.name w
export
isScheme : PAttr -> AttrMatch String
isScheme (PA "compile-scheme" [Str s _] _) = Matched s
isScheme (PA "compile-scheme" _ _) =
isScheme : PAttr -> List String -> AttrMatch String
isScheme (PA "compile-scheme" [Str s _] _) _ = Matched s
isScheme (PA "compile-scheme" _ _) _ =
Malformed "compile-scheme" "be a string literal"
isScheme a = NoMatch a.name
isScheme a w = NoMatch a.name w
export
matchAttr : String -> AttrMatch a -> Either String a
matchAttr _ (Matched x) = Right x
matchAttr d (NoMatch a) = Left "unrecognised \{d} attribute \{a}"
matchAttr d (NoMatch a w) = Left $ unlines
["unrecognised \{d} attribute \{a}", "expected one of: \{show w}"]
matchAttr _ (Malformed a s) = Left $ unlines
["invalid \{a} attribute", "(should \{s})"]
@ -710,10 +719,12 @@ where
data PDefAttr = DefFail PFail | DefMain | DefScheme String
isDefAttr : PAttr -> Either String PDefAttr
isDefAttr attr = matchAttr "definition" $
DefFail <$> isFail attr
<|> DefMain <$ isMain attr
<|> DefScheme <$> isScheme attr
isDefAttr attr =
let defAttrs = ["fail", "main", "compile-scheme"] in
matchAttr "definition" $
DefFail <$> isFail attr defAttrs
<|> DefMain <$ isMain attr defAttrs
<|> DefScheme <$> isScheme attr defAttrs
addAttr : PDefinition -> PAttr -> Either String PDefinition
addAttr def attr =
@ -730,7 +741,7 @@ mkPNamespace attrs name decls = do
res <- foldlM addAttr start attrs
pure $ \l => {loc_ := l} (the PNamespace res)
where
isNsAttr = matchAttr "namespace" . isFail
isNsAttr a = matchAttr "namespace" $ isFail a ["fail"]
addAttr : PNamespace -> PAttr -> Either String PNamespace
addAttr ns attr = pure $ {fail := !(isNsAttr attr)} ns
@ -785,6 +796,48 @@ export
nsname : Grammar True Mods
nsname = do ns <- qname; pure $ ns.mods :< ns.base
export
pragma : FileName -> Grammar True PPragma
pragma fname = do
a <- attr' fname "#!["
either fatalError pure $ case a.name of
"log" => logArgs a.args a.loc
_ => Left $
#"unrecognised pragma "\#{a.name}"\n"# ++
#"known pragmas: ["log"]"#
where
levelOOB : Nat -> Either String a
levelOOB n = Left $
"log level \{show n} out of bounds\n" ++
"expected number in range 0\{show maxLogLevel} inclusive"
toLevel : Nat -> Either String LogLevel
toLevel lvl = maybe (levelOOB lvl) Right $ toLogLevel lvl
unknownCat : String -> Either String a
unknownCat cat = Left $
"unknown log category \{show cat}\n" ++
"known categories: \{show $ ["all", "default"] ++ logCategories}"
toCat : String -> Either String LogCategory
toCat cat = maybe (unknownCat cat) Right $ toLogCategory cat
fromPair : PTerm -> Either String (String, Nat)
fromPair (Pair (V (MkPName [<] x) Nothing _) (Nat n _) _) = Right (x, n)
fromPair _ = Left "invalid argument to log pragma"
logCatArg : (String, Nat) -> Either String Log.PushArg
logCatArg ("default", lvl) = [|SetDefault $ toLevel lvl|]
logCatArg ("all", lvl) = [|SetAll $ toLevel lvl|]
logCatArg (cat, lvl) = [|SetCat (toCat cat) (toLevel lvl)|]
logArgs : List PTerm -> Loc -> Either String PPragma
logArgs [] _ = Left "missing arguments to log pragma"
logArgs [V "pop" Nothing _] loc = Right $ PLogPop loc
logArgs other loc = do
args <- traverse (logCatArg <=< fromPair) other
pure $ PLogPush args loc
export
decl : FileName -> Grammar True PDecl
@ -806,7 +859,9 @@ declBody fname attrs =
[|PDef $ definition fname attrs|] <|> [|PNs $ namespace_ fname attrs|]
-- decl : FileName -> Grammar True PDecl
decl fname = attrList fname >>= declBody fname
decl fname =
(attrList fname >>= declBody fname)
<|> PPrag <$> pragma fname
export
load : FileName -> Grammar True PTopLevel

43
lib/Quox/Parser/Syntax.idr
View File

@ -4,6 +4,7 @@ import public Quox.Loc
import public Quox.Syntax
import public Quox.Definition
import Quox.PrettyValExtra
import public Quox.Log
import Derive.Prelude
%hide TT.Name
@ -17,7 +18,7 @@ data PatVar = Unused Loc | PV PBaseName Loc
%name PatVar v
%runElab derive "PatVar" [Eq, Ord, Show, PrettyVal]
export
export %inline
Located PatVar where
(Unused loc).loc = loc
(PV _ loc).loc = loc
@ -41,7 +42,7 @@ record PQty where
%name PQty qty
%runElab derive "PQty" [Eq, Ord, Show, PrettyVal]
export Located PQty where q.loc = q.loc_
export %inline Located PQty where q.loc = q.loc_
namespace PDim
public export
@ -49,7 +50,7 @@ namespace PDim
%name PDim p, q
%runElab derive "PDim" [Eq, Ord, Show, PrettyVal]
export
export %inline
Located PDim where
(K _ loc).loc = loc
(V _ loc).loc = loc
@ -118,7 +119,7 @@ namespace PTerm
%runElab deriveMutual ["PTerm", "PCaseBody"] [Eq, Ord, Show, PrettyVal]
export
export %inline
Located PTerm where
(TYPE _ loc).loc = loc
(IOState loc).loc = loc
@ -148,7 +149,7 @@ Located PTerm where
(Comp _ _ _ _ _ _ _ loc).loc = loc
(Let _ _ loc).loc = loc
export
export %inline
Located PCaseBody where
(CasePair _ _ loc).loc = loc
(CaseEnum _ loc).loc = loc
@ -182,7 +183,19 @@ record PDefinition where
%name PDefinition def
%runElab derive "PDefinition" [Eq, Ord, Show, PrettyVal]
export Located PDefinition where def.loc = def.loc_
export %inline Located PDefinition where def.loc = def.loc_
public export
data PPragma =
PLogPush (List Log.PushArg) Loc
| PLogPop Loc
%name PPragma prag
%runElab derive "PPragma" [Eq, Ord, Show, PrettyVal]
export %inline
Located PPragma where
(PLogPush _ loc).loc = loc
(PLogPop loc).loc = loc
mutual
public export
@ -196,24 +209,26 @@ mutual
public export
data PDecl =
PDef PDefinition
| PNs PNamespace
PDef PDefinition
| PNs PNamespace
| PPrag PPragma
%name PDecl decl
%runElab deriveMutual ["PNamespace", "PDecl"] [Eq, Ord, Show, PrettyVal]
export Located PNamespace where ns.loc = ns.loc_
export %inline Located PNamespace where ns.loc = ns.loc_
export
export %inline
Located PDecl where
(PDef d).loc = d.loc
(PNs ns).loc = ns.loc
(PDef d).loc = d.loc
(PNs ns).loc = ns.loc
(PPrag prag).loc = prag.loc
public export
data PTopLevel = PD PDecl | PLoad String Loc
%name PTopLevel t
%runElab derive "PTopLevel" [Eq, Ord, Show, PrettyVal]
export
export %inline
Located PTopLevel where
(PD decl).loc = decl.loc
(PLoad _ loc).loc = loc
@ -228,7 +243,7 @@ record PAttr where
%name PAttr attr
%runElab derive "PAttr" [Eq, Ord, Show, PrettyVal]
export Located PAttr where attr.loc = attr.loc_
export %inline Located PAttr where attr.loc = attr.loc_
public export

10
lib/Quox/PrettyValExtra.idr
View File

@ -1,5 +1,6 @@
module Quox.PrettyValExtra
import Data.DPair
import Derive.Prelude
import public Text.Show.Value
import public Text.Show.PrettyVal
@ -8,3 +9,12 @@ import public Text.Show.PrettyVal.Derive
%language ElabReflection
%runElab derive "SnocList" [PrettyVal]
export %inline
PrettyVal a => PrettyVal (Subset a p) where
prettyVal (Element x _) = Con "Element" [prettyVal x, Con "_" []]
export %inline
(forall x. PrettyVal (p x)) => PrettyVal (Exists p) where
prettyVal (Evidence _ p) = Con "Evidence" [Con "_" [], prettyVal p]

9
lib/Quox/Syntax/DimEq.idr
View File

@ -59,10 +59,15 @@ Traversable (IfConsistent eqs) where
traverse f Nothing = pure Nothing
traverse f (Just x) = Just <$> f x
public export
ifConsistentElse : Applicative f => (eqs : DimEq d) ->
f a -> f () -> f (IfConsistent eqs a)
ifConsistentElse ZeroIsOne yes no = Nothing <$ no
ifConsistentElse (C _) yes no = Just <$> yes
public export
ifConsistent : Applicative f => (eqs : DimEq d) -> f a -> f (IfConsistent eqs a)
ifConsistent ZeroIsOne act = pure Nothing
ifConsistent (C _) act = Just <$> act
ifConsistent eqs act = ifConsistentElse eqs act (pure ())
public export
toMaybe : IfConsistent eqs a -> Maybe a

24
lib/Quox/Syntax/Term/Pretty.idr
View File

@ -229,7 +229,6 @@ prettyDTApps dnames tnames f xs = do
private
record CaseArm opts d n where
constructor MkCaseArm
{0 dinner, ninner : Nat}
pat : Doc opts
dbinds : BTelescope d dinner -- 🍴
tbinds : BTelescope n ninner
@ -297,7 +296,7 @@ prettyCase_ : {opts : _} ->
Doc opts -> Elim d n -> ScopeTerm d n -> List (CaseArm opts d n) ->
Eff Pretty (Doc opts)
prettyCase_ dnames tnames intro head ret body = do
head <- assert_total prettyElim dnames tnames head
head <- withPrec Outer $ assert_total prettyElim dnames tnames head
ret <- prettyCaseRet dnames tnames ret
bodys <- prettyCaseBody dnames tnames body
return <- returnD; of_ <- ofD
@ -325,11 +324,6 @@ private
LetExpr : Nat -> Nat -> Nat -> Type
LetExpr d n n' = (Telescope (LetBinder d) n n', Term d n')
private
PrettyLetResult : LayoutOpts -> Nat -> Type
PrettyLetResult opts d =
Exists $ \n => (BContext n, Term d n, SnocList (Doc opts))
-- [todo] factor out this and the untyped version somehow
export
splitLet : Telescope (LetBinder d) n n' -> Term d n' -> Exists (LetExpr d n)
@ -364,9 +358,10 @@ prettyLets dnames xs lets = snd <$> go lets where
Nothing => do
e <- withPrec Outer $ assert_total prettyElim dnames tnames e
eq <- cstD; d <- askAt INDENT
inn <- inD
pure $ ifMultiline
(hsep [hdr, eq, e])
(vsep [hdr, indent d $ hsep [eq, e]])
(hsep [hdr, eq, e, inn])
(vsep [hdr, indent d $ hsep [eq, e, inn]])
go : forall b. Telescope (LetBinder d) a b ->
Eff Pretty (BContext b, SnocList (Doc opts))
@ -437,13 +432,10 @@ prettyDisp u = map Just $ hl Universe =<<
ifUnicode (text $ superscript $ show u) (text $ "^" ++ show u)
prettyTerm dnames tnames (TYPE l _) =
case !(askAt FLAVOR) of
Unicode => do
star <- hl Syntax ""
level <- hl Universe $ text $ superscript $ show l
pure $ hcat [star, level]
Ascii => [|hl Syntax "Type" <++> hl Universe (text $ show l)|]
prettyTerm dnames tnames (TYPE l _) = do
type <- hl Syntax . text =<< ifUnicode "" "Type"
level <- prettyDisp l
pure $ maybe type (type <+>) level
prettyTerm dnames tnames (IOState _) =
ioStateD

40
lib/Quox/Typechecker.idr
View File

@ -3,6 +3,7 @@ module Quox.Typechecker
import public Quox.Typing
import public Quox.Equal
import Quox.Displace
import Quox.Pretty
import Data.List
import Data.SnocVect
@ -14,7 +15,7 @@ import Quox.EffExtra
public export
0 TC : List (Type -> Type)
TC = [ErrorEff, DefsReader, NameGen]
TC = [ErrorEff, DefsReader, NameGen, Log]
parameters (loc : Loc)
@ -41,6 +42,24 @@ lubs ctx [] = zeroFor ctx
lubs ctx (x :: xs) = lubs1 $ x ::: xs
private
prettyTermTC : {opts : LayoutOpts} ->
TyContext d n -> Term d n -> Eff Pretty (Doc opts)
prettyTermTC ctx s = prettyTerm ctx.dnames ctx.tnames s
private
checkLogs : String -> TyContext d n -> SQty ->
Term d n -> Maybe (Term d n) -> Eff TC ()
checkLogs fun ctx sg subj ty = do
let tyDoc = delay $ maybe (text "none") (runPretty . prettyTermTC ctx) ty
sayMany "check" subj.loc
[10 :> text fun,
95 :> hsep ["ctx =", runPretty $ prettyTyContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
10 :> hsep ["subj =", runPretty $ prettyTermTC ctx subj],
10 :> hsep ["ty =", tyDoc]]
mutual
||| "Ψ | Γ ⊢ σ · s ⇐ A ⊳ Σ"
|||
@ -53,7 +72,11 @@ mutual
export covering %inline
check : (ctx : TyContext d n) -> SQty -> Term d n -> Term d n ->
Eff TC (CheckResult ctx.dctx n)
check ctx sg subj ty = ifConsistent ctx.dctx $ checkC ctx sg subj ty
check ctx sg subj ty =
ifConsistentElse ctx.dctx
(do checkLogs "check" ctx sg subj (Just ty)
checkC ctx sg subj ty)
(say "check" 20 subj.loc "check: 0=1")
||| "Ψ | Γ ⊢₀ s ⇐ A"
|||
@ -84,7 +107,12 @@ mutual
||| universe doesn't matter, only that a term is _a_ type, so it is optional.
export covering %inline
checkType : TyContext d n -> Term d n -> Maybe Universe -> Eff TC ()
checkType ctx subj l = ignore $ ifConsistent ctx.dctx $ checkTypeC ctx subj l
checkType ctx subj l = do
let univ = TYPE <$> l <*> pure noLoc
ignore $ ifConsistentElse ctx.dctx
(do checkLogs "checkType" ctx SZero subj univ
checkTypeC ctx subj l)
(say "check" 20 subj.loc "checkType: 0=1")
export covering %inline
checkTypeC : TyContext d n -> Term d n -> Maybe Universe -> Eff TC ()
@ -107,7 +135,11 @@ mutual
export covering %inline
infer : (ctx : TyContext d n) -> SQty -> Elim d n ->
Eff TC (InferResult ctx.dctx d n)
infer ctx sg subj = ifConsistent ctx.dctx $ inferC ctx sg subj
infer ctx sg subj = do
ifConsistentElse ctx.dctx
(do checkLogs "infer" ctx sg (E subj) Nothing
inferC ctx sg subj)
(say "check" 20 subj.loc "infer: 0=1")
||| `infer`, assuming the dimension context is consistent
export covering %inline

49
lib/Quox/Typing.idr
View File

@ -7,6 +7,7 @@ import public Quox.Typing.Error as Typing
import public Quox.Syntax
import public Quox.Definition
import public Quox.Whnf
import public Quox.Pretty
import Language.Reflection
import Control.Eff
@ -46,16 +47,15 @@ lookupFree x loc defs = maybe (throw $ NotInScope loc x) pure $ lookup x defs
public export
substCasePairRet : BContext 2 -> Term d n -> ScopeTerm d n -> Term d (2 + n)
substCasePairRet [< x, y] dty retty =
let tm = Pair (BVT 1 x.loc) (BVT 0 y.loc) $ x.loc `extendL` y.loc
arg = Ann tm (dty // fromNat 2) tm.loc
in
let tm = Pair (BVT 1 x.loc) (BVT 0 y.loc) $ x.loc `extendL` y.loc
arg = Ann tm (dty // fromNat 2) tm.loc in
retty.term // (arg ::: shift 2)
public export
substCaseSuccRet : BContext 2 -> ScopeTerm d n -> Term d (2 + n)
substCaseSuccRet [< p, ih] retty =
let arg = Ann (Succ (BVT 1 p.loc) p.loc) (NAT p.loc) $ p.loc `extendL` ih.loc
in
let loc = p.loc `extendL` ih.loc
arg = Ann (Succ (BVT 1 p.loc) p.loc) (NAT p.loc) loc in
retty.term // (arg ::: shift 2)
public export
@ -65,23 +65,31 @@ substCaseBoxRet x dty retty =
retty.term // (arg ::: shift 1)
parameters (defs : Definitions) {auto _ : (Has ErrorEff fs, Has NameGen fs)}
private
0 ExpectErrorConstructor : Type
ExpectErrorConstructor =
forall d, n. Loc -> NameContexts d n -> Term d n -> Error
parameters (defs : Definitions)
{auto _ : (Has ErrorEff fs, Has NameGen fs, Has Log fs)}
namespace TyContext
parameters (ctx : TyContext d n) (sg : SQty) (loc : Loc)
export covering
whnf : {0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
tm d n -> Eff fs (NonRedex tm d n defs ? sg)
tm d n -> Eff fs (NonRedex tm d n defs (toWhnfContext ctx) sg)
whnf tm = do
let Val n = ctx.termLen; Val d = ctx.dimLen
res <- lift $ runExcept $ whnf defs (toWhnfContext ctx) sg tm
rethrow res
private covering %macro
expect : (forall d, n. Loc -> NameContexts d n -> Term d n -> Error) ->
TTImp -> TTImp -> Elab (Term d n -> Eff fs a)
expect k l r = do
f <- check `(\case ~(l) => Just ~(r); _ => Nothing)
pure $ \t => maybe (throw $ k loc ctx.names t) pure . f . fst =<< whnf t
expect : ExpectErrorConstructor -> TTImp -> TTImp ->
Elab (Term d n -> Eff fs a)
expect err pat rhs = Prelude.do
match <- check `(\case ~(pat) => Just ~(rhs); _ => Nothing)
pure $ \term => do
res <- whnf term
maybe (throw $ err loc ctx.names term) pure $ match $ fst res
export covering %inline
expectTYPE : Term d n -> Eff fs Universe
@ -120,19 +128,20 @@ parameters (defs : Definitions) {auto _ : (Has ErrorEff fs, Has NameGen fs)}
parameters (ctx : EqContext n) (sg : SQty) (loc : Loc)
export covering
whnf : {0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
tm 0 n -> Eff fs (NonRedex tm 0 n defs ? sg)
tm 0 n -> Eff fs (NonRedex tm 0 n defs (toWhnfContext ctx) sg)
whnf tm = do
res <- lift $ runExcept $ whnf defs (toWhnfContext ctx) sg tm
rethrow res
private covering %macro
expect : (forall d, n. Loc -> NameContexts d n -> Term d n -> Error) ->
TTImp -> TTImp -> Elab (Term 0 n -> Eff fs a)
expect k l r = do
f <- check `(\case ~(l) => Just ~(r); _ => Nothing)
pure $ \t =>
let err = throw $ k loc ctx.names (t // shift0 ctx.dimLen) in
maybe err pure . f . fst =<< whnf t
expect : ExpectErrorConstructor -> TTImp -> TTImp ->
Elab (Term 0 n -> Eff fs a)
expect err pat rhs = do
match <- check `(\case ~(pat) => Just ~(rhs); _ => Nothing)
pure $ \term => do
res <- whnf term
let t0 = delay $ term // shift0 ctx.dimLen
maybe (throw $ err loc ctx.names t0) pure $ match $ fst res
export covering %inline
expectTYPE : Term 0 n -> Eff fs Universe

15
lib/Quox/Typing/Context.idr
View File

@ -339,9 +339,10 @@ namespace WhnfContext
private
prettyTContextElt : {opts : _} ->
BContext d -> BContext n ->
Qty -> BindName -> LocalVar d n -> Eff Pretty (Doc opts)
Doc opts -> BindName -> LocalVar d n ->
Eff Pretty (Doc opts)
prettyTContextElt dnames tnames q x s = do
q <- prettyQty q; dot <- dotD
dot <- dotD
x <- prettyTBind x; colon <- colonD
ty <- withPrec Outer $ prettyTerm dnames tnames s.type; eq <- cstD
tm <- traverse (withPrec Outer . prettyTerm dnames tnames) s.term
@ -356,7 +357,7 @@ prettyTContextElt dnames tnames q x s = do
private
prettyTContext' : {opts : _} ->
BContext d -> QContext n -> BContext n ->
BContext d -> Context' (Doc opts) n -> BContext n ->
TContext d n -> Eff Pretty (SnocList (Doc opts))
prettyTContext' _ [<] [<] [<] = pure [<]
prettyTContext' dnames (qtys :< q) (tnames :< x) (tys :< t) =
@ -369,6 +370,7 @@ prettyTContext : {opts : _} ->
TContext d n -> Eff Pretty (Doc opts)
prettyTContext dnames qtys tnames tys = do
comma <- commaD
qtys <- traverse prettyQty qtys
sepSingle . exceptLast (<+> comma) . toList <$>
prettyTContext' dnames qtys tnames tys
@ -384,3 +386,10 @@ prettyTyContext (MkTyContext dctx dnames tctx tnames qtys) =
export
prettyEqContext : {opts : _} -> EqContext n -> Eff Pretty (Doc opts)
prettyEqContext ctx = prettyTyContext $ toTyContext ctx
export
prettyWhnfContext : {opts : _} -> WhnfContext d n -> Eff Pretty (Doc opts)
prettyWhnfContext ctx =
let Val n = ctx.termLen in
sepSingle . exceptLast (<+> comma) . toList <$>
prettyTContext' ctx.dnames (replicate n "_") ctx.tnames ctx.tctx

2
lib/Quox/Untyped/Erase.idr
View File

@ -88,7 +88,7 @@ parameters {opts : LayoutOpts} (showContext : Bool)
public export
Erase : List (Type -> Type)
Erase = [Except Error, NameGen]
Erase = [Except Error, NameGen, Log]
export
liftWhnf : Eff Whnf a -> Eff Erase a

8
lib/Quox/Untyped/Scheme.idr
View File

@ -113,13 +113,13 @@ makeIdBase mods str = joinBy "." $ toList $ mods :< str
export
makeId : Name -> Id
makeId (MakeName mods (UN str)) = I (makeIdBase mods str) 0
makeId (MakeName mods (MN str k)) = I (makeIdBase mods str) 0
makeId (MakeName mods Unused) = I (makeIdBase mods "_") 0
makeId (MkName mods (UN str)) = I (makeIdBase mods str) 0
makeId (MkName mods (MN str k)) = I (makeIdBase mods str) 0
makeId (MkName mods Unused) = I (makeIdBase mods "_") 0
export
makeIdB : BindName -> Id
makeIdB (BN name _) = makeId $ MakeName [<] name
makeIdB (BN name _) = makeId $ MkName [<] name
private
bump : Id -> Id

36
lib/Quox/Whnf/ComputeElimType.idr
View File

@ -2,6 +2,7 @@ module Quox.Whnf.ComputeElimType
import Quox.Whnf.Interface
import Quox.Displace
import Quox.Pretty
%default total
@ -18,7 +19,6 @@ computeElimType :
(e : Elim d n) -> (0 ne : No (isRedexE defs ctx sg e)) =>
Eff Whnf (Term d n)
||| computes a type and then reduces it to whnf
export covering
computeWhnfElimType0 :
@ -28,7 +28,16 @@ computeWhnfElimType0 :
(e : Elim d n) -> (0 ne : No (isRedexE defs ctx sg e)) =>
Eff Whnf (Term d n)
computeElimType defs ctx sg e =
private covering
computeElimTypeNoLog, computeWhnfElimType0NoLog :
CanWhnf Term Interface.isRedexT =>
CanWhnf Elim Interface.isRedexE =>
(defs : Definitions) -> WhnfContext d n -> (0 sg : SQty) ->
(e : Elim d n) -> (0 ne : No (isRedexE defs ctx sg e)) =>
Eff Whnf (Term d n)
computeElimTypeNoLog defs ctx sg e =
case e of
F x u loc => do
let Just def = lookup x defs
@ -39,7 +48,7 @@ computeElimType defs ctx sg e =
pure (ctx.tctx !! i).type
App f s loc =>
case !(computeWhnfElimType0 defs ctx sg f {ne = noOr1 ne}) of
case !(computeWhnfElimType0NoLog defs ctx sg f {ne = noOr1 ne}) of
Pi {arg, res, _} => pure $ sub1 res $ Ann s arg loc
ty => throw $ ExpectedPi loc ctx.names ty
@ -47,12 +56,12 @@ computeElimType defs ctx sg e =
pure $ sub1 ret pair
Fst pair loc =>
case !(computeWhnfElimType0 defs ctx sg pair {ne = noOr1 ne}) of
case !(computeWhnfElimType0NoLog defs ctx sg pair {ne = noOr1 ne}) of
Sig {fst, _} => pure fst
ty => throw $ ExpectedSig loc ctx.names ty
Snd pair loc =>
case !(computeWhnfElimType0 defs ctx sg pair {ne = noOr1 ne}) of
case !(computeWhnfElimType0NoLog defs ctx sg pair {ne = noOr1 ne}) of
Sig {snd, _} => pure $ sub1 snd $ Fst pair loc
ty => throw $ ExpectedSig loc ctx.names ty
@ -66,7 +75,7 @@ computeElimType defs ctx sg e =
pure $ sub1 ret box
DApp {fun = f, arg = p, loc} =>
case !(computeWhnfElimType0 defs ctx sg f {ne = noOr1 ne}) of
case !(computeWhnfElimType0NoLog defs ctx sg f {ne = noOr1 ne}) of
Eq {ty, _} => pure $ dsub1 ty p
t => throw $ ExpectedEq loc ctx.names t
@ -82,5 +91,20 @@ computeElimType defs ctx sg e =
TypeCase {ret, _} =>
pure ret
computeElimType defs ctx sg e {ne} = do
let Val n = ctx.termLen
sayMany "whnf" e.loc
[90 :> "computeElimType",
95 :> hsep ["ctx =", runPretty $ prettyWhnfContext ctx],
90 :> hsep ["e =", runPretty $ prettyElim ctx.dnames ctx.tnames e]]
res <- computeElimTypeNoLog defs ctx sg e {ne}
say "whnf" 91 e.loc $
hsep ["computeElimType ⇝",
runPretty $ prettyTerm ctx.dnames ctx.tnames res]
pure res
computeWhnfElimType0 defs ctx sg e =
computeElimType defs ctx sg e >>= whnf0 defs ctx SZero
computeWhnfElimType0NoLog defs ctx sg e {ne} =
computeElimTypeNoLog defs ctx sg e {ne} >>= whnf0 defs ctx SZero

16
lib/Quox/Whnf/Interface.idr
View File

@ -1,6 +1,7 @@
module Quox.Whnf.Interface
import public Quox.No
import public Quox.Log
import public Quox.Syntax
import public Quox.Definition
import public Quox.Typing.Context
@ -13,7 +14,7 @@ import public Control.Eff
public export
Whnf : List (Type -> Type)
Whnf = [Except Error, NameGen]
Whnf = [Except Error, NameGen, Log]
public export
@ -24,17 +25,20 @@ RedexTest tm =
public export
interface CanWhnf (0 tm : TermLike) (0 isRedex : RedexTest tm) | tm
where
whnf : (defs : Definitions) -> (ctx : WhnfContext d n) -> (q : SQty) ->
tm d n -> Eff Whnf (Subset (tm d n) (No . isRedex defs ctx q))
whnf, whnfNoLog :
(defs : Definitions) -> (ctx : WhnfContext d n) -> (q : SQty) ->
tm d n -> Eff Whnf (Subset (tm d n) (No . isRedex defs ctx q))
-- having isRedex be part of the class header, and needing to be explicitly
-- quantified on every use since idris can't infer its type, is a little ugly.
-- but none of the alternatives i've thought of so far work. e.g. in some
-- cases idris can't tell that `isRedex` and `isRedexT` are the same thing
public export %inline
whnf0 : {0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
Definitions -> WhnfContext d n -> SQty -> tm d n -> Eff Whnf (tm d n)
whnf0 defs ctx q t = fst <$> whnf defs ctx q t
whnf0, whnfNoLog0 :
{0 isRedex : RedexTest tm} -> CanWhnf tm isRedex =>
Definitions -> WhnfContext d n -> SQty -> tm d n -> Eff Whnf (tm d n)
whnf0 defs ctx q t = fst <$> whnf defs ctx q t
whnfNoLog0 defs ctx q t = fst <$> whnfNoLog defs ctx q t
public export
0 IsRedex, NotRedex : {isRedex : RedexTest tm} -> CanWhnf tm isRedex =>

109
lib/Quox/Whnf/Main.idr
View File

@ -4,6 +4,7 @@ import Quox.Whnf.Interface
import Quox.Whnf.ComputeElimType
import Quox.Whnf.TypeCase
import Quox.Whnf.Coercion
import Quox.Pretty
import Quox.Displace
import Data.SnocVect
@ -14,19 +15,43 @@ export covering CanWhnf Term Interface.isRedexT
export covering CanWhnf Elim Interface.isRedexE
-- the String is what to call the "s" argument in logs (maybe "s", or "e")
private %inline
whnfDefault :
{0 isRedex : RedexTest tm} ->
(CanWhnf tm isRedex, Located2 tm) =>
String ->
(forall d, n. WhnfContext d n -> tm d n -> Eff Pretty LogDoc) ->
(defs : Definitions) ->
(ctx : WhnfContext d n) ->
(sg : SQty) ->
(s : tm d n) ->
Eff Whnf (Subset (tm d n) (No . isRedex defs ctx sg))
whnfDefault name ppr defs ctx sg s = do
sayMany "whnf" s.loc
[10 :> "whnf",
95 :> hsep ["ctx =", runPretty $ prettyWhnfContext ctx],
95 :> hsep ["sg =", runPretty $ prettyQty sg.qty],
10 :> hsep [text name, "=", runPretty $ ppr ctx s]]
res <- whnfNoLog defs ctx sg s
say "whnf" 11 s.loc $ hsep ["whnf ⇝", runPretty $ ppr ctx res.fst]
pure res
covering
CanWhnf Elim Interface.isRedexE where
whnf defs ctx sg (F x u loc) with (lookupElim0 x u defs) proof eq
whnf = whnfDefault "e" $ \ctx, e => prettyElim ctx.dnames ctx.tnames e
whnfNoLog defs ctx sg (F x u loc) with (lookupElim0 x u defs) proof eq
_ | Just y = whnf defs ctx sg $ setLoc loc $ injElim ctx y
_ | Nothing = pure $ Element (F x u loc) $ rewrite eq in Ah
whnf defs ctx sg (B i loc) with (ctx.tctx !! i) proof eq1
whnfNoLog defs ctx sg (B i loc) with (ctx.tctx !! i) proof eq1
_ | l with (l.term) proof eq2
_ | Just y = whnf defs ctx sg $ Ann y l.type loc
_ | Nothing = pure $ Element (B i loc) $ rewrite eq1 in rewrite eq2 in Ah
-- ((λ x ⇒ t) ∷ (π.x : A) → B) s ⇝ t[s∷A/x] ∷ B[s∷A/x]
whnf defs ctx sg (App f s appLoc) = do
whnfNoLog defs ctx sg (App f s appLoc) = do
Element f fnf <- whnf defs ctx sg f
case nchoose $ isLamHead f of
Left _ => case f of
@ -41,7 +66,7 @@ CanWhnf Elim Interface.isRedexE where
--
-- 0 · case e return p ⇒ C of { (a, b) ⇒ u } ⇝
-- u[fst e/a, snd e/b] ∷ C[e/p]
whnf defs ctx sg (CasePair pi pair ret body caseLoc) = do
whnfNoLog defs ctx sg (CasePair pi pair ret body caseLoc) = do
Element pair pairnf <- whnf defs ctx sg pair
case nchoose $ isPairHead pair of
Left _ => case pair of
@ -64,7 +89,7 @@ CanWhnf Elim Interface.isRedexE where
(pairnf `orNo` np `orNo` notYesNo n0)
-- fst ((s, t) ∷ (x : A) × B) ⇝ s ∷ A
whnf defs ctx sg (Fst pair fstLoc) = do
whnfNoLog defs ctx sg (Fst pair fstLoc) = do
Element pair pairnf <- whnf defs ctx sg pair
case nchoose $ isPairHead pair of
Left _ => case pair of
@ -76,7 +101,7 @@ CanWhnf Elim Interface.isRedexE where
pure $ Element (Fst pair fstLoc) (pairnf `orNo` np)
-- snd ((s, t) ∷ (x : A) × B) ⇝ t ∷ B[(s ∷ A)/x]
whnf defs ctx sg (Snd pair sndLoc) = do
whnfNoLog defs ctx sg (Snd pair sndLoc) = do
Element pair pairnf <- whnf defs ctx sg pair
case nchoose $ isPairHead pair of
Left _ => case pair of
@ -89,7 +114,7 @@ CanWhnf Elim Interface.isRedexE where
-- case 'a ∷ {a,…} return p ⇒ C of { 'a ⇒ u } ⇝
-- u ∷ C['a∷{a,…}/p]
whnf defs ctx sg (CaseEnum pi tag ret arms caseLoc) = do
whnfNoLog defs ctx sg (CaseEnum pi tag ret arms caseLoc) = do
Element tag tagnf <- whnf defs ctx sg tag
case nchoose $ isTagHead tag of
Left _ => case tag of
@ -110,7 +135,7 @@ CanWhnf Elim Interface.isRedexE where
--
-- case succ n ∷ return p ⇒ C of { succ n', π.ih ⇒ u; … } ⇝
-- u[n∷/n', (case n ∷ ⋯)/ih] ∷ C[succ n ∷ /p]
whnf defs ctx sg (CaseNat pi piIH nat ret zer suc caseLoc) = do
whnfNoLog defs ctx sg (CaseNat pi piIH nat ret zer suc caseLoc) = do
Element nat natnf <- whnf defs ctx sg nat
case nchoose $ isNatHead nat of
Left _ =>
@ -137,7 +162,7 @@ CanWhnf Elim Interface.isRedexE where
-- case [t] ∷ [π.A] return p ⇒ C of { [x] ⇒ u } ⇝
-- u[t∷A/x] ∷ C[[t] ∷ [π.A]/p]
whnf defs ctx sg (CaseBox pi box ret body caseLoc) = do
whnfNoLog defs ctx sg (CaseBox pi box ret body caseLoc) = do
Element box boxnf <- whnf defs ctx sg box
case nchoose $ isBoxHead box of
Left _ => case box of
@ -153,7 +178,7 @@ CanWhnf Elim Interface.isRedexE where
-- e : Eq (𝑗 ⇒ A) t u ⊢ e @1 ⇝ u ∷ A1/𝑗
--
-- ((δ 𝑖 ⇒ s) ∷ Eq (𝑗 ⇒ A) t u) @𝑘 ⇝ s𝑘/𝑖 ∷ A𝑘/𝑗
whnf defs ctx sg (DApp f p appLoc) = do
whnfNoLog defs ctx sg (DApp f p appLoc) = do
Element f fnf <- whnf defs ctx sg f
case nchoose $ isDLamHead f of
Left _ => case f of
@ -173,7 +198,7 @@ CanWhnf Elim Interface.isRedexE where
B {} => pure $ Element (DApp f p appLoc) (fnf `orNo` ndlh `orNo` Ah)
-- e ∷ A ⇝ e
whnf defs ctx sg (Ann s a annLoc) = do
whnfNoLog defs ctx sg (Ann s a annLoc) = do
Element s snf <- whnf defs ctx sg s
case nchoose $ isE s of
Left _ => let E e = s in pure $ Element e $ noOr2 snf
@ -181,7 +206,7 @@ CanWhnf Elim Interface.isRedexE where
Element a anf <- whnf defs ctx SZero a
pure $ Element (Ann s a annLoc) (ne `orNo` snf `orNo` anf)
whnf defs ctx sg (Coe sty p q val coeLoc) =
whnfNoLog defs ctx sg (Coe sty p q val coeLoc) =
-- 𝑖 ∉ fv(A)
-- -------------------------------
-- coe (𝑖 ⇒ A) @p @q s ⇝ s ∷ A
@ -201,7 +226,7 @@ CanWhnf Elim Interface.isRedexE where
(_, Right ty) =>
whnf defs ctx sg $ Ann val ty coeLoc
whnf defs ctx sg (Comp ty p q val r zero one compLoc) =
whnfNoLog defs ctx sg (Comp ty p q val r zero one compLoc) =
case p `decEqv` q of
-- comp [A] @p @p s @r { ⋯ } ⇝ s ∷ A
Yes y => whnf defs ctx sg $ Ann val ty compLoc
@ -213,7 +238,7 @@ CanWhnf Elim Interface.isRedexE where
B {} => pure $ Element (Comp ty p q val r zero one compLoc)
(notYesNo npq `orNo` Ah)
whnf defs ctx sg (TypeCase ty ret arms def tcLoc) =
whnfNoLog defs ctx sg (TypeCase ty ret arms def tcLoc) =
case sg `decEq` SZero of
Yes Refl => do
Element ty tynf <- whnf defs ctx SZero ty
@ -226,48 +251,50 @@ CanWhnf Elim Interface.isRedexE where
No _ =>
throw $ ClashQ tcLoc sg.qty Zero
whnf defs ctx sg (CloE (Sub el th)) =
whnf defs ctx sg $ pushSubstsWith' id th el
whnf defs ctx sg (DCloE (Sub el th)) =
whnf defs ctx sg $ pushSubstsWith' th id el
whnfNoLog defs ctx sg (CloE (Sub el th)) =
whnfNoLog defs ctx sg $ pushSubstsWith' id th el
whnfNoLog defs ctx sg (DCloE (Sub el th)) =
whnfNoLog defs ctx sg $ pushSubstsWith' th id el
covering
CanWhnf Term Interface.isRedexT where
whnf _ _ _ t@(TYPE {}) = pure $ nred t
whnf _ _ _ t@(IOState {}) = pure $ nred t
whnf _ _ _ t@(Pi {}) = pure $ nred t
whnf _ _ _ t@(Lam {}) = pure $ nred t
whnf _ _ _ t@(Sig {}) = pure $ nred t
whnf _ _ _ t@(Pair {}) = pure $ nred t
whnf _ _ _ t@(Enum {}) = pure $ nred t
whnf _ _ _ t@(Tag {}) = pure $ nred t
whnf _ _ _ t@(Eq {}) = pure $ nred t
whnf _ _ _ t@(DLam {}) = pure $ nred t
whnf _ _ _ t@(NAT {}) = pure $ nred t
whnf _ _ _ t@(Nat {}) = pure $ nred t
whnf _ _ _ t@(STRING {}) = pure $ nred t
whnf _ _ _ t@(Str {}) = pure $ nred t
whnf _ _ _ t@(BOX {}) = pure $ nred t
whnf _ _ _ t@(Box {}) = pure $ nred t
whnf = whnfDefault "e" $ \ctx, s => prettyTerm ctx.dnames ctx.tnames s
whnf _ _ _ (Succ p loc) =
whnfNoLog _ _ _ t@(TYPE {}) = pure $ nred t
whnfNoLog _ _ _ t@(IOState {}) = pure $ nred t
whnfNoLog _ _ _ t@(Pi {}) = pure $ nred t
whnfNoLog _ _ _ t@(Lam {}) = pure $ nred t
whnfNoLog _ _ _ t@(Sig {}) = pure $ nred t
whnfNoLog _ _ _ t@(Pair {}) = pure $ nred t
whnfNoLog _ _ _ t@(Enum {}) = pure $ nred t
whnfNoLog _ _ _ t@(Tag {}) = pure $ nred t
whnfNoLog _ _ _ t@(Eq {}) = pure $ nred t
whnfNoLog _ _ _ t@(DLam {}) = pure $ nred t
whnfNoLog _ _ _ t@(NAT {}) = pure $ nred t
whnfNoLog _ _ _ t@(Nat {}) = pure $ nred t
whnfNoLog _ _ _ t@(STRING {}) = pure $ nred t
whnfNoLog _ _ _ t@(Str {}) = pure $ nred t
whnfNoLog _ _ _ t@(BOX {}) = pure $ nred t
whnfNoLog _ _ _ t@(Box {}) = pure $ nred t
whnfNoLog _ _ _ (Succ p loc) =
case nchoose $ isNatConst p of
Left _ => case p of
Nat p _ => pure $ nred $ Nat (S p) loc
E (Ann (Nat p _) _ _) => pure $ nred $ Nat (S p) loc
Right nc => pure $ nred $ Succ p loc
whnf defs ctx sg (Let _ rhs body _) =
whnfNoLog defs ctx sg (Let _ rhs body _) =
whnf defs ctx sg $ sub1 body rhs
-- s ∷ A ⇝ s (in term context)
whnf defs ctx sg (E e) = do
whnfNoLog defs ctx sg (E e) = do
Element e enf <- whnf defs ctx sg e
case nchoose $ isAnn e of
Left _ => let Ann {tm, _} = e in pure $ Element tm $ noOr1 $ noOr2 enf
Right na => pure $ Element (E e) $ na `orNo` enf
whnf defs ctx sg (CloT (Sub tm th)) =
whnf defs ctx sg $ pushSubstsWith' id th tm
whnf defs ctx sg (DCloT (Sub tm th)) =
whnf defs ctx sg $ pushSubstsWith' th id tm
whnfNoLog defs ctx sg (CloT (Sub tm th)) =
whnfNoLog defs ctx sg $ pushSubstsWith' id th tm
whnfNoLog defs ctx sg (DCloT (Sub tm th)) =
whnfNoLog defs ctx sg $ pushSubstsWith' th id tm

1
lib/quox-lib.ipkg
View File

@ -19,6 +19,7 @@ modules =
Quox.PrettyValExtra,
Quox.Decidable,
Quox.No,
Quox.Log,
Quox.Loc,
Quox.Var,
Quox.Scoped,

2
tests/Tests/DimEq.idr
View File

@ -97,7 +97,7 @@ tests = "dimension constraints" :- [
testPrettyD iijj ZeroIsOne "𝑖, 𝑗, 0 = 1",
testPrettyD [<] new "" {label = "[empty output from empty context]"},
testPrettyD ii new "𝑖",
testPrettyD iijj (fromGround [< "𝑖", "𝑗"] [< Zero, One])
testPrettyD iijj (fromGround iijj [< Zero, One])
"𝑖, 𝑗, 𝑖 = 0, 𝑗 = 1",
testPrettyD iijj (C [< Just (^K Zero), Nothing])
"𝑖, 𝑗, 𝑖 = 0",

2
tests/Tests/Equal.idr
View File

@ -27,7 +27,7 @@ parameters (label : String) (act : Eff Equal ())
testEq = test label $ runEqual globals act
testNeq : Test
testNeq = testThrows label (const True) $ runTC globals act $> "()"
testNeq = testThrows label (const True) $ runTC globals act $> "ok"
parameters (ctx : TyContext d n)

2
tests/Tests/FromPTerm.idr
View File

@ -68,7 +68,7 @@ parameters {c : Bool} {auto _ : Show b}
runFromParser : {default empty defs : Definitions} ->
Eff FromParserPure a -> Either FromParser.Error a
runFromParser = map fst . fromParserPure 0 defs
runFromParser = map val . fromParserPure [<] 0 defs initStack
export
tests : Test

10
tests/Tests/Lexer.idr
View File

@ -71,7 +71,7 @@ tests = "lexer" :- [
lexes "δελτα" [Name "δελτα"],
lexes "★★" [Name "★★"],
lexes "Types" [Name "Types"],
lexes "a.b.c.d.e" [Name $ MakePName [< "a","b","c","d"] "e"],
lexes "a.b.c.d.e" [Name $ MkPName [< "a","b","c","d"] "e"],
lexes "normalïse" [Name "normalïse"],
-- ↑ replace i + combining ¨ with precomposed ï
lexes "map#" [Name "map#"],
@ -90,16 +90,16 @@ tests = "lexer" :- [
lexes "***" [Name "***"],
lexes "+**" [Name "+**"],
lexes "+#" [Name "+#"],
lexes "+.+.+" [Name $ MakePName [< "+", "+"] "+"],
lexes "a.+" [Name $ MakePName [< "a"] "+"],
lexes "+.a" [Name $ MakePName [< "+"] "a"],
lexes "+.+.+" [Name $ MkPName [< "+", "+"] "+"],
lexes "a.+" [Name $ MkPName [< "a"] "+"],
lexes "+.a" [Name $ MkPName [< "+"] "a"],
lexes "+a" [Name "+", Name "a"],
lexes "x." [Name "x", Reserved "."],
lexes "&." [Name "&", Reserved "."],
lexes ".x" [Reserved ".", Name "x"],
lexes "a.b.c." [Name $ MakePName [< "a", "b"] "c", Reserved "."],
lexes "a.b.c." [Name $ MkPName [< "a", "b"] "c", Reserved "."],
lexes "case" [Reserved "case"],
lexes "caseω" [Reserved "caseω"],

56
tests/Tests/Parser.idr
View File

@ -63,9 +63,9 @@ tests = "parser" :- [
"names" :- [
parsesAs (const qname) "x"
(MakePName [<] "x"),
(MkPName [<] "x"),
parsesAs (const qname) "Data.List.length"
(MakePName [< "Data", "List"] "length"),
(MkPName [< "Data", "List"] "length"),
parseFails (const qname) "_"
],
@ -124,7 +124,7 @@ tests = "parser" :- [
parseMatch term "f"
`(V "f" {}),
parseMatch term "f.x.y"
`(V (MakePName [< "f", "x"] "y") {}),
`(V (MkPName [< "f", "x"] "y") {}),
parseMatch term "f x"
`(App (V "f" {}) (V "x" {}) _),
parseMatch term "f x y"
@ -526,12 +526,56 @@ tests = "parser" :- [
PSucceed False Nothing _]
PSucceed _),
PD (PDef $ MkPDef (PQ Any _) "y"
(PConcrete Nothing (V (MakePName [< "a"] "x") Nothing _))
(PConcrete Nothing (V (MkPName [< "a"] "x") Nothing _))
PSucceed False Nothing _)]),
parseMatch input #" load "a.quox"; def b = a.b "#
`([PLoad "a.quox" _,
PD (PDef $ MkPDef (PQ Any _) "b"
(PConcrete Nothing (V (MakePName [< "a"] "b") Nothing _))
PSucceed False Nothing _)])
(PConcrete Nothing (V (MkPName [< "a"] "b") Nothing _))
PSucceed False Nothing _)]),
parseMatch input #" #[main] postulate hi : String "#
`([PD (PDef $ MkPDef (PQ Any _) "hi"
(PPostulate (STRING _))
PSucceed True Nothing _)]),
parseMatch input #" #[compile-scheme "hi"] postulate hi : String "#
`([PD (PDef $ MkPDef (PQ Any _) "hi"
(PPostulate (STRING _))
PSucceed False (Just "hi") _)]),
parseMatch input #" #[main] #[compile-scheme "hi"] postulate hi : String "#
`([PD (PDef $ MkPDef (PQ Any _) "hi"
(PPostulate (STRING _))
PSucceed True (Just "hi") _)]),
parseMatch input #" #[fail] def hi = "hi!!!! uwu" "#
`([PD (PDef $ MkPDef (PQ Any _) "hi"
(PConcrete Nothing (Str "hi!!!! uwu" _))
PFailAny False Nothing _)]),
parseMatch input #" #[fail "type"] def hi = "hi!!!! uwu" "#
`([PD (PDef $ MkPDef (PQ Any _) "hi"
(PConcrete Nothing (Str "hi!!!! uwu" _))
(PFailMatch "type") False Nothing _)]),
parseMatch input #" #[fail] namespace ns { } "#
`([PD (PNs $ MkPNamespace [< "ns"] [] PFailAny _)]),
parseFails input #" #[fail 69] namespace ns { } "#,
parseFails input "#[main]",
parseFails input "#[main] namespace a { } ",
parseFails input #" #[not-an-attr] postulate hi : String "#,
parseFails input #" #[log pop] postulate hi : String "#,
parseMatch input #" #![log pop] "#
`([PD (PPrag (PLogPop _))]),
parseMatch input #" #![log (all, 5)] "#
`([PD (PPrag (PLogPush [SetAll (Element 5 _)] _))]),
parseMatch input #" #![log (default, 69)] "#
`([PD (PPrag (PLogPush [SetDefault (Element 69 _)] _))]),
parseMatch input #" #![log (whnf, 100)] "#
`([PD (PPrag (PLogPush [SetCat (Element "whnf" _) (Element 100 _)] _))]),
parseMatch input #" #![log (all, 5) (default, 69) (whnf, 100)] "#
`([PD (PPrag (PLogPush
[SetAll (Element 5 _), SetDefault (Element 69 _),
SetCat (Element "whnf" _) (Element 100 _)] _))]),
parseFails input #" #![log] "#,
parseFails input #" #![log (non-category, 5)] "#,
parseFails input #" #![log (whnf, 50000000)] "#,
parseFails input #" #![log [0.★⁵]] "#,
parseFails input #" #![main] "#
]
]

28
tests/Tests/PrettyTerm.idr
View File

@ -37,8 +37,8 @@ tests = "pretty printing terms" :- [
"free vars" :- [
testPrettyE1 [<] [<] (^F "x" 0) "x",
testPrettyE [<] [<] (^F "x" 1) "" "x^1",
testPrettyE1 [<] [<] (^F (MakeName [< "A", "B", "C"] "x") 0) "A.B.C.x",
testPrettyE [<] [<] (^F (MakeName [< "A", "B", "C"] "x") 2)
testPrettyE1 [<] [<] (^F (MkName [< "A", "B", "C"] "x") 0) "A.B.C.x",
testPrettyE [<] [<] (^F (MkName [< "A", "B", "C"] "x") 2)
"A.B.C.x²"
"A.B.C.x^2"
],
@ -105,8 +105,8 @@ tests = "pretty printing terms" :- [
],
"type universes" :- [
testPrettyT [<] [<] (^TYPE 0) "" "Type 0",
testPrettyT [<] [<] (^TYPE 100) "★¹⁰⁰" "Type 100"
testPrettyT [<] [<] (^TYPE 0) "" "Type",
testPrettyT [<] [<] (^TYPE 100) "★¹⁰⁰" "Type^100"
],
"function types" :- [
@ -120,8 +120,8 @@ tests = "pretty printing terms" :- [
"1.(x : A) -> B x",
testPrettyT [<] [<]
(^PiY Zero "A" (^TYPE 0) (^Arr Any (^BVT 0) (^BVT 0)))
"0.(A : ★) → ω.A → A"
"0.(A : Type 0) -> #.A -> A",
"0.(A : ★) → ω.A → A"
"0.(A : Type) -> #.A -> A",
testPrettyT [<] [<]
(^Arr Any (^Arr Any (^FT "A" 0) (^FT "A" 0)) (^FT "A" 0))
"ω.(ω.A → A) → A"
@ -133,8 +133,8 @@ tests = "pretty printing terms" :- [
testPrettyT [<] [<]
(^PiY Zero "P" (^Arr Zero (^FT "A" 0) (^TYPE 0))
(E $ ^App (^BV 0) (^FT "a" 0)))
"0.(P : 0.A → ★) → P a"
"0.(P : 0.A -> Type 0) -> P a"
"0.(P : 0.A → ★) → P a"
"0.(P : 0.A -> Type) -> P a"
],
"pair types" :- [
@ -193,8 +193,8 @@ tests = "pretty printing terms" :- [
"case" :- [
testPrettyE [<] [<]
(^CasePair One (^F "a" 0) (SN $ ^TYPE 1) (SN $ ^TYPE 0))
"case1 a return ★¹ of { (_, _) ⇒ ★ }"
"case1 a return Type 1 of { (_, _) => Type 0 }",
"case1 a return ★¹ of { (_, _) ⇒ ★ }"
"case1 a return Type^1 of { (_, _) => Type }",
testPrettyT [<] [<]
(^LamY "u" (E $
^CaseEnum One (^F "u" 0)
@ -209,10 +209,10 @@ tests = "pretty printing terms" :- [
"type-case" :- [
testPrettyE [<] [<]
{label = "type-case ∷ ★ return ★ of { ⋯ }"}
{label = "type-case ∷ ★ return ★ of { ⋯ }"}
(^TypeCase (^Ann (^NAT) (^TYPE 0)) (^TYPE 0) empty (^NAT))
"type-case ∷ ★ return ★ of { _ ⇒ }"
"type-case Nat :: Type 0 return Type 0 of { _ => Nat }"
"type-case ∷ ★ return ★ of { _ ⇒ }"
"type-case Nat :: Type return Type of { _ => Nat }"
],
skipWith "(todo: print user-written redundant annotations)" $
@ -236,6 +236,6 @@ tests = "pretty printing terms" :- [
testPrettyE [<] [<]
(^Ann (^Arr One (^FT "A" 0) (^FT "A" 0)) (^TYPE 7))
"(1.A → A) ∷ ★⁷"
"(1.A -> A) :: Type 7"
"(1.A -> A) :: Type^7"
]
]

6
tests/Tests/Reduce.idr
View File

@ -14,8 +14,10 @@ import Control.Eff
runWhnf : Eff Whnf a -> Either Error a
runWhnf act = runSTErr $ do
runEff act [handleExcept (\e => stLeft e),
handleStateSTRef !(liftST $ newSTRef 0)]
runEff act $ with Union.(::)
[handleExcept (\e => stLeft e),
handleStateSTRef !(newSTRef' 0),
handleLogDiscardST !(newSTRef' 0)]
parameters {0 isRedex : RedexTest tm} {auto _ : CanWhnf tm isRedex} {d, n : Nat}
{auto _ : (Eq (tm d n), Show (tm d n))}

4
tests/Tests/Typechecker.idr
View File

@ -114,11 +114,11 @@ parameters (label : String) (act : Lazy (Eff Test ()))
{default defGlobals globals : Definitions}
testTC : Test
testTC = test label {e = Error', a = ()} $
extract $ runExcept $ runReaderAt DEFS globals act
runEff act [handleExcept (\e => Left e), handleReaderConst globals]
testTCFail : Test
testTCFail = testThrows label (const True) $
(extract $ runExcept $ runReaderAt DEFS globals act) $> "()"
runEff act [handleExcept (\e => Left e), handleReaderConst globals] $> "ok"
inferredTypeEq : TyContext d n -> (exp, got : Term d n) -> Eff Test ()

5
tests/TypingImpls.idr
View File

@ -22,10 +22,11 @@ ToInfo Error where
export
runEqual : Definitions -> Eff Equal a -> Either Error a
runEqual defs act = runSTErr $ do
runEff act
runEff act $ with Union.(::)
[handleExcept (\e => stLeft e),
handleReaderConst defs,
handleStateSTRef !(liftST $ newSTRef 0)]
handleStateSTRef !(newSTRef' 0),
handleLogDiscardST !(newSTRef' 0)]
export
runTC : Definitions -> Eff TC a -> Either Error a