Idris2/libs/base/System/File.idr

410 lines
12 KiB
Idris

module System.File
import public Data.Fuel
import Data.List
import Data.String
import System.Info
import System.Errno
%default total
public export
data Mode = Read | WriteTruncate | Append | ReadWrite | ReadWriteTruncate | ReadAppend
public export
FilePtr : Type
FilePtr = AnyPtr
support : String -> String
support fn = "C:" ++ fn ++ ", libidris2_support, idris_file.h"
%foreign support "idris2_openFile"
"node:support:openFile,support_system_file"
prim__open : String -> String -> PrimIO FilePtr
%foreign support "idris2_closeFile"
"node:lambda:(fp) => require('fs').closeSync(fp.fd)"
prim__close : FilePtr -> PrimIO ()
%foreign support "idris2_fileError"
"node:lambda:x=>(x===1?1:0)"
prim__error : FilePtr -> PrimIO Int
%foreign support "idris2_fileErrno"
"node:support:fileErrno,support_system_file"
prim__fileErrno : PrimIO Int
%foreign support "idris2_seekLine"
"node:support:seekLine,support_system_file"
prim__seekLine : FilePtr -> PrimIO Int
%foreign support "idris2_readLine"
"node:support:readLine,support_system_file"
prim__readLine : FilePtr -> PrimIO (Ptr String)
%foreign support "idris2_readChars"
prim__readChars : Int -> FilePtr -> PrimIO (Ptr String)
%foreign "C:fgetc,libc 6"
prim__readChar : FilePtr -> PrimIO Int
%foreign support "idris2_writeLine"
"node:lambda:(filePtr, line) => require('fs').writeSync(filePtr.fd, line, undefined, 'utf-8')"
prim__writeLine : FilePtr -> String -> PrimIO Int
%foreign support "idris2_eof"
"node:lambda:x=>(x.eof?1:0)"
prim__eof : FilePtr -> PrimIO Int
%foreign "C:fflush,libc 6"
prim__flush : FilePtr -> PrimIO Int
%foreign support "idris2_popen"
prim__popen : String -> String -> PrimIO FilePtr
%foreign support "idris2_pclose"
prim__pclose : FilePtr -> PrimIO ()
%foreign support "idris2_removeFile"
prim__removeFile : String -> PrimIO Int
%foreign support "idris2_fileSize"
"node:lambda:fp=>require('fs').fstatSync(fp.fd).size"
prim__fileSize : FilePtr -> PrimIO Int
%foreign support "idris2_fileSize"
prim__fPoll : FilePtr -> PrimIO Int
%foreign support "idris2_fileAccessTime"
prim__fileAccessTime : FilePtr -> PrimIO Int
%foreign support "idris2_fileModifiedTime"
"node:lambda:fp=>require('fs').fstatSync(fp.fd).mtimeMs / 1000"
prim__fileModifiedTime : FilePtr -> PrimIO Int
%foreign support "idris2_fileStatusTime"
prim__fileStatusTime : FilePtr -> PrimIO Int
%foreign support "idris2_stdin"
"node:lambda:x=>({fd:0, buffer: Buffer.alloc(0), name:'<stdin>', eof: false})"
prim__stdin : FilePtr
%foreign support "idris2_stdout"
"node:lambda:x=>({fd:1, buffer: Buffer.alloc(0), name:'<stdout>', eof: false})"
prim__stdout : FilePtr
%foreign support "idris2_stderr"
"node:lambda:x=>({fd:2, buffer: Buffer.alloc(0), name:'<stderr>', eof: false})"
prim__stderr : FilePtr
%foreign support "idris2_chmod"
"node:support:chmod,support_system_file"
prim__chmod : String -> Int -> PrimIO Int
modeStr : Mode -> String
modeStr Read = if isWindows then "rb" else "r"
modeStr WriteTruncate = if isWindows then "wb" else "w"
modeStr Append = if isWindows then "ab" else "a"
modeStr ReadWrite = if isWindows then "rb+" else "r+"
modeStr ReadWriteTruncate = if isWindows then "wb+" else "w+"
modeStr ReadAppend = if isWindows then "ab+" else "a+"
public export
data FileError = GenericFileError Int -- errno
| FileReadError
| FileWriteError
| FileNotFound
| PermissionDenied
| FileExists
returnError : HasIO io => io (Either FileError a)
returnError
= do err <- primIO prim__fileErrno
pure $ Left $
case err of
0 => FileReadError
1 => FileWriteError
2 => FileNotFound
3 => PermissionDenied
4 => FileExists
_ => GenericFileError (err-5)
export
Show FileError where
show (GenericFileError errno) = strerror errno
show FileReadError = "File Read Error"
show FileWriteError = "File Write Error"
show FileNotFound = "File Not Found"
show PermissionDenied = "Permission Denied"
show FileExists = "File Exists"
ok : HasIO io => a -> io (Either FileError a)
ok x = pure (Right x)
public export
data File : Type where
FHandle : FilePtr -> File
export
stdin : File
stdin = FHandle prim__stdin
export
stdout : File
stdout = FHandle prim__stdout
export
stderr : File
stderr = FHandle prim__stderr
export
openFile : HasIO io => String -> Mode -> io (Either FileError File)
openFile f m
= do res <- primIO (prim__open f (modeStr m))
if prim__nullAnyPtr res /= 0
then returnError
else ok (FHandle res)
export
closeFile : HasIO io => File -> io ()
closeFile (FHandle f) = primIO (prim__close f)
||| Check if a file exists for reading.
export
exists : HasIO io => String -> io Bool
exists f
= do Right ok <- openFile f Read
| Left err => pure False
closeFile ok
pure True
||| Pick the first existing file
export
firstExists : HasIO io => List String -> io (Maybe String)
firstExists [] = pure Nothing
firstExists (x :: xs) = if !(exists x) then pure (Just x) else firstExists xs
export
fileError : HasIO io => File -> io Bool
fileError (FHandle f)
= do x <- primIO $ prim__error f
pure (x /= 0)
||| Seek through the next newline.
||| This is @fGetLine@ without the overhead of copying
||| any characters.
export
fSeekLine : HasIO io => (h : File) -> io (Either FileError ())
fSeekLine (FHandle f)
= do res <- primIO (prim__seekLine f)
if res /= 0
then returnError
else ok ()
export
fGetLine : HasIO io => (h : File) -> io (Either FileError String)
fGetLine (FHandle f)
= do res <- primIO (prim__readLine f)
if prim__nullPtr res /= 0
then returnError
else ok (prim__getString res)
export
fGetChars : HasIO io => (h : File) -> Int -> io (Either FileError String)
fGetChars (FHandle f) max
= do res <- primIO (prim__readChars max f)
if prim__nullPtr res /= 0
then returnError
else ok (prim__getString res)
export
fGetChar : HasIO io => (h : File) -> io (Either FileError Char)
fGetChar (FHandle h)
= do c <- primIO (prim__readChar h)
ferr <- primIO (prim__error h)
if (ferr /= 0)
then returnError
else ok (cast c)
export
fPutStr : HasIO io => (h : File) -> String -> io (Either FileError ())
fPutStr (FHandle f) str
= do res <- primIO (prim__writeLine f str)
if res == 0
then returnError
else ok ()
export
fPutStrLn : HasIO io => (h : File) -> String -> io (Either FileError ())
fPutStrLn f str = fPutStr f (str ++ "\n")
export
fEOF : HasIO io => (h : File) -> io Bool
fEOF (FHandle f)
= do res <- primIO (prim__eof f)
pure (res /= 0)
export
fflush : HasIO io => (h : File) -> io ()
fflush (FHandle f)
= ignore $ primIO (prim__flush f)
export
popen : HasIO io => String -> Mode -> io (Either FileError File)
popen f m = do
ptr <- primIO (prim__popen f (modeStr m))
if prim__nullAnyPtr ptr /= 0
then returnError
else pure (Right (FHandle ptr))
export
pclose : HasIO io => File -> io ()
pclose (FHandle h) = primIO (prim__pclose h)
export
fileAccessTime : HasIO io => (h : File) -> io (Either FileError Int)
fileAccessTime (FHandle f)
= do res <- primIO (prim__fileAccessTime f)
if res > 0
then ok res
else returnError
export
fileModifiedTime : HasIO io => (h : File) -> io (Either FileError Int)
fileModifiedTime (FHandle f)
= do res <- primIO (prim__fileModifiedTime f)
if res > 0
then ok res
else returnError
export
fileStatusTime : HasIO io => (h : File) -> io (Either FileError Int)
fileStatusTime (FHandle f)
= do res <- primIO (prim__fileStatusTime f)
if res > 0
then ok res
else returnError
export
removeFile : HasIO io => String -> io (Either FileError ())
removeFile fname
= do res <- primIO (prim__removeFile fname)
if res == 0
then ok ()
else returnError
export
fileSize : HasIO io => (h : File) -> io (Either FileError Int)
fileSize (FHandle f)
= do res <- primIO (prim__fileSize f)
if res >= 0
then ok res
else returnError
export
fPoll : HasIO io => File -> io Bool
fPoll (FHandle f)
= do p <- primIO (prim__fPoll f)
pure (p > 0)
||| Perform a given operation on successful file open
||| and ensure the file is closed afterwards or perform
||| a different operation if the file fails to open.
export
withFile : HasIO io => (filename : String) ->
Mode ->
(onError : FileError -> io a) ->
(onOpen : File -> io (Either a b)) ->
io (Either a b)
withFile filename mode onError onOpen =
do Right h <- openFile filename mode
| Left err => Left <$> onError err
res <- onOpen h
closeFile h
pure res
readLinesOnto : HasIO io => (acc : List String) ->
(offset : Nat) ->
(fuel : Fuel) ->
File ->
io (Either FileError (Bool, List String))
readLinesOnto acc _ Dry h = pure (Right (False, reverse acc))
readLinesOnto acc offset (More fuel) h
= do False <- fEOF h
| True => pure $ Right (True, reverse acc)
case offset of
(S offset') => (fSeekLine h *> readLinesOnto acc offset' (More fuel) h) @{Applicative.Compose}
0 => (fGetLine h >>= \str => readLinesOnto (str :: acc) 0 fuel h) @{Monad.Compose}
||| Read a chunk of a file in a line-delimited fashion.
||| You can use this function to read an entire file
||| as with @readFile@ by reading until @forever@ or by
||| iterating through pages until hitting the end of
||| the file.
|||
||| The @limit@ function can provide you with enough
||| fuel to read exactly a given number of lines.
|||
||| On success, returns a tuple of whether the end of
||| the file was reached or not and the lines read in
||| from the file.
|||
||| Note that each line will still have a newline
||| character at the end.
|||
||| Important: because we are chunking by lines, this
||| function's totality depends on the assumption that
||| no single line in the input file is infinite.
export
readFilePage : HasIO io => (offset : Nat) -> (until : Fuel) -> String -> io (Either FileError (Bool, List String))
readFilePage offset fuel file
= withFile file Read pure $
readLinesOnto [] offset fuel
export
partial
readFile : HasIO io => String -> io (Either FileError String)
readFile = (map $ map (fastConcat . snd)) . readFilePage 0 forever
||| Write a string to a file
export
writeFile : HasIO io =>
(filepath : String) -> (contents : String) ->
io (Either FileError ())
writeFile file contents
= withFile file WriteTruncate pure $
(flip fPutStr contents)
namespace FileMode
public export
data FileMode = Read | Write | Execute
public export
record Permissions where
constructor MkPermissions
user : List FileMode
group : List FileMode
others : List FileMode
mkMode : Permissions -> Int
mkMode p
= getMs (user p) * 64 + getMs (group p) * 8 + getMs (others p)
where
getM : FileMode -> Int
getM Read = 4
getM Write = 2
getM Execute = 1
getMs : List FileMode -> Int
getMs = sum . map getM
export
chmodRaw : HasIO io => String -> Int -> io (Either FileError ())
chmodRaw fname p
= do ok <- primIO $ prim__chmod fname p
if ok == 0
then pure (Right ())
else returnError
export
chmod : HasIO io => String -> Permissions -> io (Either FileError ())
chmod fname p = chmodRaw fname (mkMode p)