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factor/core/io/encodings/encodings.factor

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! Copyright (C) 2008 Daniel Ehrenberg.
! See http://factorcode.org/license.txt for BSD license.
USING: math kernel sequences sbufs vectors namespaces
growable strings io classes continuations combinators
io.styles io.streams.plain io.encodings.binary splitting
io.streams.duplex byte-arrays ;
IN: io.encodings
! The encoding descriptor protocol
GENERIC: decode-step ( buf char encoding -- )
M: object decode-step drop swap push ;
GENERIC: init-decoder ( stream encoding -- encoding )
M: tuple-class init-decoder construct-empty init-decoder ;
M: object init-decoder nip ;
GENERIC: stream-write-encoded ( string stream encoding -- byte-array )
M: object stream-write-encoded drop stream-write ;
! Decoding
TUPLE: decode-error ;
: decode-error ( -- * ) \ decode-error construct-empty throw ;
SYMBOL: begin
: push-decoded ( buf ch -- buf ch state )
over push 0 begin ;
: push-replacement ( buf -- buf ch state )
! This is the replacement character
HEX: fffd push-decoded ;
: space ( resizable -- room-left )
dup underlying swap [ length ] 2apply - ;
: full? ( resizable -- ? ) space zero? ;
: end-read-loop ( buf ch state stream quot -- string/f )
2drop 2drop >string f like ;
: decode-read-loop ( buf stream encoding -- string/f )
pick full? [ 2drop >string ] [
over stream-read1 [
-rot tuck >r >r >r dupd r> decode-step r> r>
decode-read-loop
] [ 2drop >string f like ] if*
] if ;
: decode-read ( length stream encoding -- string )
rot <sbuf> -rot decode-read-loop ;
TUPLE: decoder code cr ;
: <decoder> ( stream encoding -- newstream )
dup binary eq? [ drop ] [
dupd init-decoder { set-delegate set-decoder-code }
decoder construct
] if ;
: cr+ t swap set-decoder-cr ; inline
: cr- f swap set-decoder-cr ; inline
: line-ends/eof ( stream str -- str ) f like swap cr- ; inline
: line-ends\r ( stream str -- str ) swap cr+ ; inline
: line-ends\n ( stream str -- str )
over decoder-cr over empty? and
[ drop dup cr- stream-readln ] [ swap cr- ] if ; inline
: handle-readln ( stream str ch -- str )
{
{ f [ line-ends/eof ] }
{ CHAR: \r [ line-ends\r ] }
{ CHAR: \n [ line-ends\n ] }
} case ;
: fix-read ( stream string -- string )
over decoder-cr [
over cr-
"\n" ?head [
swap stream-read1 [ add ] when*
] [ nip ] if
] [ nip ] if ;
M: decoder stream-read
tuck { delegate decoder-code } get-slots decode-read fix-read ;
M: decoder stream-read-partial stream-read ;
: decoder-read-until ( stream delim -- ch )
! Copied from { c-reader stream-read-until }!!!
over stream-read1 dup [
dup pick memq? [ 2nip ] [ , decoder-read-until ] if
] [
2nip
] if ;
M: decoder stream-read-until
! Copied from { c-reader stream-read-until }!!!
[ swap decoder-read-until ] "" make
swap over empty? over not and [ 2drop f f ] when ;
: fix-read1 ( stream char -- char )
over decoder-cr [
over cr-
dup CHAR: \n = [
drop stream-read1
] [ nip ] if
] [ nip ] if ;
M: decoder stream-read1
1 swap stream-read f like [ first ] [ f ] if* ;
M: decoder stream-readln ( stream -- str )
"\r\n" over stream-read-until handle-readln ;
! Encoding
TUPLE: encode-error ;
: encode-error ( -- * ) \ encode-error construct-empty throw ;
TUPLE: encoder code ;
: <encoder> ( stream encoding -- newstream )
dup binary eq? [ drop ] [
construct-empty { set-delegate set-encoder-code }
encoder construct
] if ;
M: encoder stream-write1
>r 1string r> stream-write ;
M: encoder stream-write
{ delegate encoder-code } get-slots stream-write-encoded ;
M: encoder dispose delegate dispose ;
INSTANCE: encoder plain-writer
! Rebinding duplex streams which have not read anything yet
: reencode ( stream encoding -- newstream )
over encoder? [ >r delegate r> ] when <encoder> ;
: redecode ( stream encoding -- newstream )
over decoder? [ >r delegate r> ] when <decoder> ;
: <encoder-duplex> ( stream-in stream-out encoding -- duplex )
tuck reencode >r redecode r> <duplex-stream> ;
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