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|
{ scope }' =*globalScope
<
map ==seenThings # from .hu of rawAddress to some name
map ==usedNames # from name to rawAddress
{ ==suggested ==thing
thing sys .asm .rawAddress _ ==a txt .produce .hu ==as
globalScope keys { ==name
globalScope name .| sys .asm .rawAddress _ ==a txt .produce .hu ==as
"\e[2m" name cat "\e[0m" cat =name
name as seenThings =[]
a name usedNames =[]
} each
{ ==i
i 0 eq {
i suggested *
} {
i suggested len math .base suggested * |cat fold
} ? *
} /toName deffst
as seenThings .has {
as seenThings *
} {
0 ==i
{
i toName ==name
name usedNames .has
}' {
{ 1 add } |=i
}' loop
name as seenThings =[]
a name usedNames =[]
name
} ? *
}
> -- /niceName deffd
{ [ "α" "β" "γ" "δ" "ε" "π" "φ" ] niceName } /niceScopeName deffd
<
[ 0 11 range {
sys .asm .intToFloat
}' each ] =*:FLOAT
sys .out .|writeall =*out
"0123456789" ==:base10digits
"0123456789ABCDEF" ==:base16digits
{ _ 0 lt { neg "-" }' { "" }' ? * -01
[ -01 16 { _ 16 umod base16digits * -01 16 udiv }' rep -- ] reverse str .fromArray cat
}' /base16encode64 deffd
{ "\e[1;31m<???>\e[0m" out }" /unknown defvd
[
{ "\e[31m" o txt .produce .i cat "\e[0m" cat out }" # integer
{ "\e[31m\"" o "\"\e[0m" cat cat out }" # string
{ "\e[31m" out o { ==f 0 ==e "+" ==s 0 ==i
f 0 FLOAT lt { 0 FLOAT f sub =f "-" =s }' rep
{ f 1 FLOAT lt i 500 lt and }' { f 10 FLOAT mul =f e 1 sub =e i 1 add =i }' loop
{ f 10 FLOAT ge i 500 lt and }' { f 10 FLOAT div =f e 1 add =e i 1 add =i }' loop
i 500 eq {
s
f 1 FLOAT lt "0.0e0" "inf" ?
cat out
}' {
{
0 ==d
1 10 range { ==i f i FLOAT gt { i =d }' rep } each
f d sub =f
f 10 FLOAT mul =f
d base10digits *
} /extractDigit deffst
[
0 s *
extractDigit
0 "." *
10 |extractDigit rep
0 "e" *
e 0 lt {
0 e sub =e
0 "-" *
} rep
e 0 eq {
0 "0" *
} rep
[
{ e } {
e 10 mod base10digits *
e 10 div =e
} loop
] reverse _ len dearray
] str .fromArray out
}' ? *
} * "\e[0m" out }" # float
unknown
unknown # extension area
{ "\e[32m{"
o [ /f /g /h /a /b /c /d /e ] niceName cat
"\e[32m}\e[0m" cat out
}"
unknown
{ "\e[36m["
o [ /A /B /C /D /E /F /G /H ] niceName cat
"\e[36m]\e[0m" cat out
}" # array
unknown # function type
{ "\e[35m<"
o niceScopeName cat
"\e[35m>\e[0m" cat out
}"
unknown # name table
unknown # stack
{ "<coroutine: " o sys .asm .rawAddress base16encode64 cat ">" cat out }"
unknown
unknown
unknown
{ "[" out }"
{ "{" out }"
{ "\e[34m|\e[0m" out }"
unknown
] /dumpActions deffd
# dump top stack element
{ _ ==o sys .typed .type dumpActions * " " out }
# dump entire stack
{ 0 ==i "" ==x
{ x sys .typed .type 18 neq } {
i _' =x
{ 1 add } |=i
} loop
{ 1 sub } |=i
{ i 0 ge } {
i _' =x
{ 1 sub } |=i
x objectdump
" " out
} loop
"\n" out
}
> -- /stackdump deffd /objectdump deffd
"Welcome to elymas.\n" sys .out .writeall
{ _ ==openedScope enincludeLine =*eval
1 ==running
{ 0 =running } =*quit
{ running } {
"\n" sys .out .writeall
"\e[35m" "scope" eval niceScopeName cat "\e[34m:\e[0m" cat sys .out .writeall
"scope" eval _ ==curScope keys { ==name
name existingGlobals .has not {
" " sys .out .writeall name "=" cat sys .out .writeall curScope name .| objectdump
} rep
} each
"\n" sys .out .writeall
stackdump
[ "\e[34m>" sys .out .writeall
quoted { "\e[32m{" } rep "\e[0m \e[1m" ] |cat fold sys .out .writeall
65536 sys .in .read "\e[0m" sys .out .writeall _ len { ==line
line "^(.*)\n$" regex {
eval
} {
"non-terminal input" dump
} ? *
} { --
0 =running
} ? *
} loop
} /open deffd
map ==existingGlobals
globalScope keys { ==name
1 name existingGlobals =[]
} each
scope open
"\n" sys .out .writeall
# vim: syn=elymas
|
