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|
(.module:
lux
(lux (control [monad #+ do]
["p" parser "parser/" Monad<Parser>]
["ex" exception #+ exception:])
(data [product]
["e" error]
[text "text/" Eq<Text>]
(text format
["l" lexer])
(coll [list "list/" Functor<List>]
[dict #+ Dict]))
[macro "macro/" Monad<Meta>]
(macro [code]
["s" syntax #+ syntax:])
[host])
(luxc ["&" lang]
(lang [".L" host]
(host ["$" jvm]
(jvm ["$t" type]
["$d" def]
["$i" inst]))
["la" analysis]
(extension (analysis ["&." host]))
["ls" synthesis]))
(// ["@" common]))
(exception: #export Invalid-Syntax-For-JVM-Type)
(exception: #export Invalid-Syntax-For-Argument-Generation)
(do-template [<name> <inst>]
[(def: <name>
$.Inst
<inst>)]
[L2S (|>> $i.L2I $i.I2S)]
[L2B (|>> $i.L2I $i.I2B)]
[L2C (|>> $i.L2I $i.I2C)]
)
(do-template [<name> <unwrap> <conversion> <wrap>]
[(def: (<name> inputI)
@.Unary
(if (is $i.NOP <conversion>)
(|>> inputI
($i.unwrap <unwrap>)
($i.wrap <wrap>))
(|>> inputI
($i.unwrap <unwrap>)
<conversion>
($i.wrap <wrap>))))]
[convert//double-to-float #$.Double $i.D2F #$.Float]
[convert//double-to-int #$.Double $i.D2I #$.Int]
[convert//double-to-long #$.Double $i.D2L #$.Long]
[convert//float-to-double #$.Float $i.F2D #$.Double]
[convert//float-to-int #$.Float $i.F2I #$.Int]
[convert//float-to-long #$.Float $i.F2L #$.Long]
[convert//int-to-byte #$.Int $i.I2B #$.Byte]
[convert//int-to-char #$.Int $i.I2C #$.Char]
[convert//int-to-double #$.Int $i.I2D #$.Double]
[convert//int-to-float #$.Int $i.I2F #$.Float]
[convert//int-to-long #$.Int $i.I2L #$.Long]
[convert//int-to-short #$.Int $i.I2S #$.Short]
[convert//long-to-double #$.Long $i.L2D #$.Double]
[convert//long-to-float #$.Long $i.L2F #$.Float]
[convert//long-to-int #$.Long $i.L2I #$.Int]
[convert//long-to-short #$.Long L2S #$.Short]
[convert//long-to-byte #$.Long L2B #$.Byte]
[convert//long-to-char #$.Long L2C #$.Char]
[convert//char-to-byte #$.Char $i.I2B #$.Byte]
[convert//char-to-short #$.Char $i.I2S #$.Short]
[convert//char-to-int #$.Char $i.NOP #$.Int]
[convert//char-to-long #$.Char $i.I2L #$.Long]
[convert//byte-to-long #$.Byte $i.I2L #$.Long]
[convert//short-to-long #$.Short $i.I2L #$.Long]
)
(def: conversion-procs
@.Bundle
(<| (@.prefix "convert")
(|> (dict.new text.Hash<Text>)
(@.install "double-to-float" (@.unary convert//double-to-float))
(@.install "double-to-int" (@.unary convert//double-to-int))
(@.install "double-to-long" (@.unary convert//double-to-long))
(@.install "float-to-double" (@.unary convert//float-to-double))
(@.install "float-to-int" (@.unary convert//float-to-int))
(@.install "float-to-long" (@.unary convert//float-to-long))
(@.install "int-to-byte" (@.unary convert//int-to-byte))
(@.install "int-to-char" (@.unary convert//int-to-char))
(@.install "int-to-double" (@.unary convert//int-to-double))
(@.install "int-to-float" (@.unary convert//int-to-float))
(@.install "int-to-long" (@.unary convert//int-to-long))
(@.install "int-to-short" (@.unary convert//int-to-short))
(@.install "long-to-double" (@.unary convert//long-to-double))
(@.install "long-to-float" (@.unary convert//long-to-float))
(@.install "long-to-int" (@.unary convert//long-to-int))
(@.install "long-to-short" (@.unary convert//long-to-short))
(@.install "long-to-byte" (@.unary convert//long-to-byte))
(@.install "long-to-char" (@.unary convert//long-to-char))
(@.install "char-to-byte" (@.unary convert//char-to-byte))
(@.install "char-to-short" (@.unary convert//char-to-short))
(@.install "char-to-int" (@.unary convert//char-to-int))
(@.install "char-to-long" (@.unary convert//char-to-long))
(@.install "byte-to-long" (@.unary convert//byte-to-long))
(@.install "short-to-long" (@.unary convert//short-to-long))
)))
(do-template [<name> <op> <unwrapX> <unwrapY> <wrap>]
[(def: (<name> [xI yI])
@.Binary
(|>> xI ($i.unwrap <unwrapX>)
yI ($i.unwrap <unwrapY>)
<op> ($i.wrap <wrap>)))]
[int//+ $i.IADD #$.Int #$.Int #$.Int]
[int//- $i.ISUB #$.Int #$.Int #$.Int]
[int//* $i.IMUL #$.Int #$.Int #$.Int]
[int/// $i.IDIV #$.Int #$.Int #$.Int]
[int//% $i.IREM #$.Int #$.Int #$.Int]
[int//and $i.IAND #$.Int #$.Int #$.Int]
[int//or $i.IOR #$.Int #$.Int #$.Int]
[int//xor $i.IXOR #$.Int #$.Int #$.Int]
[int//shl $i.ISHL #$.Int #$.Int #$.Int]
[int//shr $i.ISHR #$.Int #$.Int #$.Int]
[int//ushr $i.IUSHR #$.Int #$.Int #$.Int]
[long//+ $i.LADD #$.Long #$.Long #$.Long]
[long//- $i.LSUB #$.Long #$.Long #$.Long]
[long//* $i.LMUL #$.Long #$.Long #$.Long]
[long/// $i.LDIV #$.Long #$.Long #$.Long]
[long//% $i.LREM #$.Long #$.Long #$.Long]
[long//and $i.LAND #$.Long #$.Long #$.Long]
[long//or $i.LOR #$.Long #$.Long #$.Long]
[long//xor $i.LXOR #$.Long #$.Long #$.Long]
[long//shl $i.LSHL #$.Long #$.Int #$.Long]
[long//shr $i.LSHR #$.Long #$.Int #$.Long]
[long//ushr $i.LUSHR #$.Long #$.Int #$.Long]
[float//+ $i.FADD #$.Float #$.Float #$.Float]
[float//- $i.FSUB #$.Float #$.Float #$.Float]
[float//* $i.FMUL #$.Float #$.Float #$.Float]
[float/// $i.FDIV #$.Float #$.Float #$.Float]
[float//% $i.FREM #$.Float #$.Float #$.Float]
[double//+ $i.DADD #$.Double #$.Double #$.Double]
[double//- $i.DSUB #$.Double #$.Double #$.Double]
[double//* $i.DMUL #$.Double #$.Double #$.Double]
[double/// $i.DDIV #$.Double #$.Double #$.Double]
[double//% $i.DREM #$.Double #$.Double #$.Double]
)
(do-template [<name> <op> <unwrapX> <unwrapY> <wrap>]
[(def: (<name> [xI yI])
@.Binary
(<| $i.with-label (function [@then])
$i.with-label (function [@end])
(|>> xI ($i.unwrap <unwrapX>)
yI ($i.unwrap <unwrapY>)
(<op> @then)
($i.GETSTATIC "java.lang.Boolean" "FALSE" ($t.class "java.lang.Boolean" (list)))
($i.GOTO @end)
($i.label @then)
($i.GETSTATIC "java.lang.Boolean" "TRUE" ($t.class "java.lang.Boolean" (list)))
($i.label @end))))]
[int//= $i.IF_ICMPEQ #$.Int #$.Int #$.Boolean]
[int//< $i.IF_ICMPLT #$.Int #$.Int #$.Boolean]
[char//= $i.IF_ICMPEQ #$.Char #$.Char #$.Boolean]
[char//< $i.IF_ICMPLT #$.Char #$.Char #$.Boolean]
)
(do-template [<name> <op> <reference> <unwrapX> <unwrapY> <wrap>]
[(def: (<name> [xI yI])
@.Binary
(<| $i.with-label (function [@then])
$i.with-label (function [@end])
(|>> xI ($i.unwrap <unwrapX>)
yI ($i.unwrap <unwrapY>)
<op>
($i.int <reference>)
($i.IF_ICMPEQ @then)
($i.GETSTATIC "java.lang.Boolean" "FALSE" ($t.class "java.lang.Boolean" (list)))
($i.GOTO @end)
($i.label @then)
($i.GETSTATIC "java.lang.Boolean" "TRUE" ($t.class "java.lang.Boolean" (list)))
($i.label @end))))]
[long//= $i.LCMP 0 #$.Long #$.Long #$.Boolean]
[long//< $i.LCMP -1 #$.Long #$.Long #$.Boolean]
[float//= $i.FCMPG 0 #$.Float #$.Float #$.Boolean]
[float//< $i.FCMPG -1 #$.Float #$.Float #$.Boolean]
[double//= $i.DCMPG 0 #$.Double #$.Double #$.Boolean]
[double//< $i.DCMPG -1 #$.Double #$.Double #$.Boolean]
)
(def: int-procs
@.Bundle
(<| (@.prefix "int")
(|> (dict.new text.Hash<Text>)
(@.install "+" (@.binary int//+))
(@.install "-" (@.binary int//-))
(@.install "*" (@.binary int//*))
(@.install "/" (@.binary int///))
(@.install "%" (@.binary int//%))
(@.install "=" (@.binary int//=))
(@.install "<" (@.binary int//<))
(@.install "and" (@.binary int//and))
(@.install "or" (@.binary int//or))
(@.install "xor" (@.binary int//xor))
(@.install "shl" (@.binary int//shl))
(@.install "shr" (@.binary int//shr))
(@.install "ushr" (@.binary int//ushr))
)))
(def: long-procs
@.Bundle
(<| (@.prefix "long")
(|> (dict.new text.Hash<Text>)
(@.install "+" (@.binary long//+))
(@.install "-" (@.binary long//-))
(@.install "*" (@.binary long//*))
(@.install "/" (@.binary long///))
(@.install "%" (@.binary long//%))
(@.install "=" (@.binary long//=))
(@.install "<" (@.binary long//<))
(@.install "and" (@.binary long//and))
(@.install "or" (@.binary long//or))
(@.install "xor" (@.binary long//xor))
(@.install "shl" (@.binary long//shl))
(@.install "shr" (@.binary long//shr))
(@.install "ushr" (@.binary long//ushr))
)))
(def: float-procs
@.Bundle
(<| (@.prefix "float")
(|> (dict.new text.Hash<Text>)
(@.install "+" (@.binary float//+))
(@.install "-" (@.binary float//-))
(@.install "*" (@.binary float//*))
(@.install "/" (@.binary float///))
(@.install "%" (@.binary float//%))
(@.install "=" (@.binary float//=))
(@.install "<" (@.binary float//<))
)))
(def: double-procs
@.Bundle
(<| (@.prefix "double")
(|> (dict.new text.Hash<Text>)
(@.install "+" (@.binary double//+))
(@.install "-" (@.binary double//-))
(@.install "*" (@.binary double//*))
(@.install "/" (@.binary double///))
(@.install "%" (@.binary double//%))
(@.install "=" (@.binary double//=))
(@.install "<" (@.binary double//<))
)))
(def: char-procs
@.Bundle
(<| (@.prefix "char")
(|> (dict.new text.Hash<Text>)
(@.install "=" (@.binary char//=))
(@.install "<" (@.binary char//<))
)))
(def: (array//length arrayI)
@.Unary
(|>> arrayI
$i.ARRAYLENGTH
$i.I2L
($i.wrap #$.Long)))
(def: (array//new proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Nat level)] [_ (#.Text class)] lengthS))
(do macro.Monad<Meta>
[lengthI (translate lengthS)
#let [arrayJT ($t.array level (case class
"boolean" $t.boolean
"byte" $t.byte
"short" $t.short
"int" $t.int
"long" $t.long
"float" $t.float
"double" $t.double
"char" $t.char
_ ($t.class class (list))))]]
(wrap (|>> lengthI
($i.unwrap #$.Long)
$i.L2I
($i.array arrayJT))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (array//read proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] idxS arrayS))
(do macro.Monad<Meta>
[arrayI (translate arrayS)
idxI (translate idxS)
#let [loadI (case class
"boolean" (|>> $i.BALOAD ($i.wrap #$.Boolean))
"byte" (|>> $i.BALOAD ($i.wrap #$.Byte))
"short" (|>> $i.SALOAD ($i.wrap #$.Short))
"int" (|>> $i.IALOAD ($i.wrap #$.Int))
"long" (|>> $i.LALOAD ($i.wrap #$.Long))
"float" (|>> $i.FALOAD ($i.wrap #$.Float))
"double" (|>> $i.DALOAD ($i.wrap #$.Double))
"char" (|>> $i.CALOAD ($i.wrap #$.Char))
_ $i.AALOAD)]]
(wrap (|>> arrayI
idxI
($i.unwrap #$.Long)
$i.L2I
loadI)))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (array//write proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] idxS valueS arrayS))
(do macro.Monad<Meta>
[arrayI (translate arrayS)
idxI (translate idxS)
valueI (translate valueS)
#let [storeI (case class
"boolean" (|>> ($i.unwrap #$.Boolean) $i.BASTORE)
"byte" (|>> ($i.unwrap #$.Byte) $i.BASTORE)
"short" (|>> ($i.unwrap #$.Short) $i.SASTORE)
"int" (|>> ($i.unwrap #$.Int) $i.IASTORE)
"long" (|>> ($i.unwrap #$.Long) $i.LASTORE)
"float" (|>> ($i.unwrap #$.Float) $i.FASTORE)
"double" (|>> ($i.unwrap #$.Double) $i.DASTORE)
"char" (|>> ($i.unwrap #$.Char) $i.CASTORE)
_ $i.AASTORE)]]
(wrap (|>> arrayI
$i.DUP
idxI
($i.unwrap #$.Long)
$i.L2I
valueI
storeI)))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: array-procs
@.Bundle
(<| (@.prefix "array")
(|> (dict.new text.Hash<Text>)
(@.install "length" (@.unary array//length))
(@.install "new" array//new)
(@.install "read" array//read)
(@.install "write" array//write)
)))
(def: (object//null _)
@.Nullary
$i.NULL)
(def: (object//null? objectI)
@.Unary
(<| $i.with-label (function [@then])
$i.with-label (function [@end])
(|>> objectI
($i.IFNULL @then)
($i.GETSTATIC "java.lang.Boolean" "FALSE" ($t.class "java.lang.Boolean" (list)))
($i.GOTO @end)
($i.label @then)
($i.GETSTATIC "java.lang.Boolean" "TRUE" ($t.class "java.lang.Boolean" (list)))
($i.label @end))))
(def: (object//synchronized [monitorI exprI])
@.Binary
(|>> monitorI
$i.DUP
$i.MONITORENTER
exprI
$i.SWAP
$i.MONITOREXIT))
(def: (object//throw exceptionI)
@.Unary
(|>> exceptionI
$i.ATHROW))
(def: (object//class proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)]))
(do macro.Monad<Meta>
[]
(wrap (|>> ($i.string class)
($i.INVOKESTATIC "java.lang.Class" "forName"
($t.method (list ($t.class "java.lang.String" (list)))
(#.Some ($t.class "java.lang.Class" (list)))
(list))
false))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (object//instance? proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] objectS))
(do macro.Monad<Meta>
[objectI (translate objectS)]
(wrap (|>> objectI
($i.INSTANCEOF class)
($i.wrap #$.Boolean))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: object-procs
@.Bundle
(<| (@.prefix "object")
(|> (dict.new text.Hash<Text>)
(@.install "null" (@.nullary object//null))
(@.install "null?" (@.unary object//null?))
(@.install "synchronized" (@.binary object//synchronized))
(@.install "throw" (@.unary object//throw))
(@.install "class" object//class)
(@.install "instance?" object//instance?)
)))
(def: primitives
(Dict Text $.Primitive)
(|> (list ["boolean" #$.Boolean]
["byte" #$.Byte]
["short" #$.Short]
["int" #$.Int]
["long" #$.Long]
["float" #$.Float]
["double" #$.Double]
["char" #$.Char])
(dict.from-list text.Hash<Text>)))
(def: (static//get proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] [_ (#.Text field)] [_ (#.Text unboxed)]))
(do macro.Monad<Meta>
[]
(case (dict.get unboxed primitives)
(#.Some primitive)
(let [primitive (case unboxed
"boolean" #$.Boolean
"byte" #$.Byte
"short" #$.Short
"int" #$.Int
"long" #$.Long
"float" #$.Float
"double" #$.Double
"char" #$.Char
_ (undefined))]
(wrap (|>> ($i.GETSTATIC class field (#$.Primitive primitive))
($i.wrap primitive))))
#.None
(wrap ($i.GETSTATIC class field ($t.class unboxed (list))))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (static//put proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] [_ (#.Text field)] [_ (#.Text unboxed)] valueS))
(do macro.Monad<Meta>
[valueI (translate valueS)]
(case (dict.get unboxed primitives)
(#.Some primitive)
(let [primitive (case unboxed
"boolean" #$.Boolean
"byte" #$.Byte
"short" #$.Short
"int" #$.Int
"long" #$.Long
"float" #$.Float
"double" #$.Double
"char" #$.Char
_ (undefined))]
(wrap (|>> valueI
($i.unwrap primitive)
($i.PUTSTATIC class field (#$.Primitive primitive))
($i.string hostL.unit))))
#.None
(wrap (|>> valueI
($i.CHECKCAST class)
($i.PUTSTATIC class field ($t.class class (list)))
($i.string hostL.unit)))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (virtual//get proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] [_ (#.Text field)] [_ (#.Text unboxed)] objectS))
(do macro.Monad<Meta>
[objectI (translate objectS)]
(case (dict.get unboxed primitives)
(#.Some primitive)
(let [primitive (case unboxed
"boolean" #$.Boolean
"byte" #$.Byte
"short" #$.Short
"int" #$.Int
"long" #$.Long
"float" #$.Float
"double" #$.Double
"char" #$.Char
_ (undefined))]
(wrap (|>> objectI
($i.CHECKCAST class)
($i.GETFIELD class field (#$.Primitive primitive))
($i.wrap primitive))))
#.None
(wrap (|>> objectI
($i.CHECKCAST class)
($i.GETFIELD class field ($t.class unboxed (list)))))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: (virtual//put proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list [_ (#.Text class)] [_ (#.Text field)] [_ (#.Text unboxed)] valueS objectS))
(do macro.Monad<Meta>
[valueI (translate valueS)
objectI (translate objectS)]
(case (dict.get unboxed primitives)
(#.Some primitive)
(let [primitive (case unboxed
"boolean" #$.Boolean
"byte" #$.Byte
"short" #$.Short
"int" #$.Int
"long" #$.Long
"float" #$.Float
"double" #$.Double
"char" #$.Char
_ (undefined))]
(wrap (|>> objectI
($i.CHECKCAST class)
$i.DUP
valueI
($i.unwrap primitive)
($i.PUTFIELD class field (#$.Primitive primitive)))))
#.None
(wrap (|>> objectI
($i.CHECKCAST class)
$i.DUP
valueI
($i.CHECKCAST unboxed)
($i.PUTFIELD class field ($t.class unboxed (list)))))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: base-type
(l.Lexer $.Type)
($_ p.either
(p.after (l.this "boolean") (parser/wrap $t.boolean))
(p.after (l.this "byte") (parser/wrap $t.byte))
(p.after (l.this "short") (parser/wrap $t.short))
(p.after (l.this "int") (parser/wrap $t.int))
(p.after (l.this "long") (parser/wrap $t.long))
(p.after (l.this "float") (parser/wrap $t.float))
(p.after (l.this "double") (parser/wrap $t.double))
(p.after (l.this "char") (parser/wrap $t.char))
(parser/map (function [name]
($t.class name (list)))
(l.many (l.none-of "[")))
))
(def: java-type
(l.Lexer $.Type)
(do p.Monad<Parser>
[raw base-type
nesting (p.some (l.this "[]"))]
(wrap ($t.array (list.size nesting) raw))))
(def: (translate-type argD)
(-> Text (Meta $.Type))
(case (l.run argD java-type)
(#e.Error error)
(&.throw Invalid-Syntax-For-JVM-Type argD)
(#e.Success type)
(macro/wrap type)))
(def: (prepare-input inputT inputI)
(-> $.Type $.Inst $.Inst)
(case inputT
(#$.Primitive primitive)
(|>> inputI ($i.unwrap primitive))
(#$.Generic generic)
(case generic
(^or (#$.Var _) (#$.Wildcard _))
(|>> inputI ($i.CHECKCAST "java.lang.Object"))
(#$.Class class-name _)
(|>> inputI ($i.CHECKCAST class-name)))
_
(|>> inputI ($i.CHECKCAST ($t.descriptor inputT)))))
(def: (translate-args translate argsS)
(-> (-> ls.Synthesis (Meta $.Inst)) (List ls.Synthesis)
(Meta (List [$.Type $.Inst])))
(case argsS
#.Nil
(macro/wrap #.Nil)
(^ (list& [_ (#.Tuple (list [_ (#.Text argD)] argS))] tail))
(do macro.Monad<Meta>
[argT (translate-type argD)
argI (:: @ map (prepare-input argT) (translate argS))
=tail (translate-args translate tail)]
(wrap (list& [argT argI] =tail)))
_
(&.throw Invalid-Syntax-For-Argument-Generation "")))
(def: (method-return-type description)
(-> Text (Meta (Maybe $.Type)))
(case description
"void"
(macro/wrap #.None)
_
(macro/map (|>> #.Some) (translate-type description))))
(def: (prepare-return returnT returnI)
(-> (Maybe $.Type) $.Inst $.Inst)
(case returnT
#.None
(|>> returnI
($i.string hostL.unit))
(#.Some type)
(case type
(#$.Primitive primitive)
(|>> returnI ($i.wrap primitive))
_
returnI)))
(def: (invoke//static proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list& [_ (#.Text class)] [_ (#.Text method)]
[_ (#.Text unboxed)] argsS))
(do macro.Monad<Meta>
[argsTI (translate-args translate argsS)
returnT (method-return-type unboxed)
#let [callI (|>> ($i.fuse (list/map product.right argsTI))
($i.INVOKESTATIC class method
($t.method (list/map product.left argsTI) returnT (list))
false))]]
(wrap (prepare-return returnT callI)))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(do-template [<name> <invoke> <interface?>]
[(def: (<name> proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list& [_ (#.Text class)] [_ (#.Text method)]
[_ (#.Text unboxed)] objectS argsS))
(do macro.Monad<Meta>
[objectI (translate objectS)
argsTI (translate-args translate argsS)
returnT (method-return-type unboxed)
#let [callI (|>> objectI
($i.CHECKCAST class)
($i.fuse (list/map product.right argsTI))
(<invoke> class method
($t.method (list/map product.left argsTI) returnT (list))
<interface?>))]]
(wrap (prepare-return returnT callI)))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))]
[invoke//virtual $i.INVOKEVIRTUAL false]
[invoke//special $i.INVOKESPECIAL false]
[invoke//interface $i.INVOKEINTERFACE true]
)
(def: (invoke//constructor proc translate inputs)
(-> Text @.Proc)
(case inputs
(^ (list& [_ (#.Text class)] argsS))
(do macro.Monad<Meta>
[argsTI (translate-args translate argsS)]
(wrap (|>> ($i.NEW class)
$i.DUP
($i.fuse (list/map product.right argsTI))
($i.INVOKESPECIAL class "<init>"
($t.method (list/map product.left argsTI) #.None (list))
false))))
_
(&.throw @.Wrong-Syntax (@.wrong-syntax proc inputs))))
(def: member-procs
@.Bundle
(<| (@.prefix "member")
(|> (dict.new text.Hash<Text>)
(dict.merge (<| (@.prefix "static")
(|> (dict.new text.Hash<Text>)
(@.install "get" static//get)
(@.install "put" static//put))))
(dict.merge (<| (@.prefix "virtual")
(|> (dict.new text.Hash<Text>)
(@.install "get" virtual//get)
(@.install "put" virtual//put))))
(dict.merge (<| (@.prefix "invoke")
(|> (dict.new text.Hash<Text>)
(@.install "static" invoke//static)
(@.install "virtual" invoke//virtual)
(@.install "special" invoke//special)
(@.install "interface" invoke//interface)
(@.install "constructor" invoke//constructor))))
)))
(def: #export procedures
@.Bundle
(<| (@.prefix "jvm")
(|> conversion-procs
(dict.merge int-procs)
(dict.merge long-procs)
(dict.merge float-procs)
(dict.merge double-procs)
(dict.merge char-procs)
(dict.merge array-procs)
(dict.merge object-procs)
(dict.merge member-procs)
)))
|