moo/stix/lib/Stix.st

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#class Apex(nil)
{
#dcl(#class) sysdic.
#method(#class) yourself
{
^self.
}
#method yourself
{
^self.
}
#method(#class) dump
{
<primitive: #dump>
}
#method dump
{
<primitive: #dump>
}
#method(#class) new
{
## <primitive: 1>
<primitive: #new>
}
#method(#class) new: anInteger
{
## <primitive: 2>
<primitive: #newWithSize>
}
#method basicSize
{
## <primitive: 3>
<primitive: #basicSize>
^0
}
#method basicAt: anInteger
{
## <primitive: 4>
<primitive: #basicAt>
## self error: 'out of range'.
}
#method basicAt: anInteger put: anObject
{
## <primitive: 5>
<primitive: #basicAtPut>
## self error: 'out of range'.
}
#method badReturnError
{
## TODO: implement this
}
#method mustBeBoolean
{
## TODO: implement this
}
#method doesNotUnderstand: aMessageSymbol
{
## TODO: implement this
}
#method error: anErrorString
{
anErrorString dump.
}
}
#class Object(Apex)
{
}
#class UndefinedObject(Apex)
{
}
#class(#pointer) Class(Apex)
{
#dcl spec selfspec superclass subclasses name instvars classvars classinstvars pooldics instmthdic classmthdic.
}
#class Magnitude(Object)
{
}
#class Association(Magnitude)
{
#dcl key value.
}
#class Character(Magnitude)
{
}
#class Number(Magnitude)
{
#method add: aNumber
{
<primitive: #integerAdd>
}
#method + aNumber
{
<primitive: #integerAdd>
}
#method - aNumber
{
<primitive: #integerSub>
}
#method * aNumber
{
<primitive: #integerMul>
}
#method = aNumber
{
<primitive: #integerEQ>
}
#method < aNumber
{
<primitive: #integerLT>
}
#method > aNumber
{
<primitive: #integerGT>
}
}
#class SmallInteger(Number)
{
}
#class Boolean(Object)
{
}
#class True(Boolean)
{
#method ifTrue: trueBlock ifFalse: falseBlock
{
^trueBlock value.
}
#method ifTrue: trueBlock
{
^trueBlock value.
}
#method ifFalse: falseBlock
{
^nil.
}
}
#class False(Boolean)
{
#method ifTrue: trueBlock ifFalse: falseBlock
{
^falseBlock value.
}
#method ifTrue: trueBlock
{
^nil.
}
#method ifFalse: falseBlock
{
^falseBlock value.
}
}
#class Collection(Object)
{
}
#class(#byte) ByteArray(Collection)
{
#method at: anInteger
{
^self basicAt: anInteger.
}
#method at: anInteger put: aValue
{
^self basicAt: anInteger put: aValue.
}
}
#class(#pointer) Array(Collection)
{
#method at: anInteger
{
^self basicAt: anInteger.
}
#method at: anInteger put: aValue
{
^self basicAt: anInteger put: aValue.
}
}
#class(#character) String(Array)
{
}
#class(#character) Symbol(Array)
{
}
#class Set(Collection)
{
#dcl tally bucket.
}
#class SymbolSet(Set)
{
}
#class Dictionary(Set)
{
}
#class SystemDictionary(Dictionary)
{
}
#class Namespace(Set)
{
}
#class PoolDictionary(Set)
{
}
#class MethodDictionary(Dictionary)
{
}
#class(#pointer) Context(Apex)
{
}
#class(#pointer) MethodContext(Context)
{
#dcl sender ip sp ntmprs method receiver home origin.
#method pc
{
^ip
}
#method pc: anInteger
{
ip := anInteger.
"sp := sp - 1." "whould this always work??? "
}
#method sp
{
^sp.
}
#method sp: anInteger
{
sp := anInteger.
}
#method pc: aPC sp: aSP
{
ip := aPC.
sp := aSP.
##sp := sp - 1.
}
}
#class(#pointer) BlockContext(Context)
{
#dcl caller ip sp ntmprs nargs source home origin.
#method value
{
<primitive: #blockValue>
}
#method value: a
{
<primitive: #blockValue>
}
#method value: a value: b
{
<primitive: #blockValue>
}
#method value: a value: b value: c
{
<primitive: #blockValue>
}
#method whileTrue: aBlock
{
## http://stackoverflow.com/questions/2500483/is-there-a-way-in-a-message-only-language-to-define-a-whiletrue-message-without
## ----------------------------------------------------------------------------
## ^(self value) ifTrue: [aBlock value. self whileTrue: aBlock].
## ----------------------------------------------------------------------------
## less block context before whileTrue: is recursively sent.
## whileTrue: is sent in a method context.
## (self value) ifFalse: [^nil].
## aBlock value.
## self whileTrue: aBlock.
## ----------------------------------------------------------------------------
## ----------------------------------------------------------------------------
| pc sp xsp |
sp := thisContext sp.
sp := sp - 1. "decrement sp by 1 becuase thisContext pushed above affects the sp method"
pc := thisContext pc.
self value ifFalse: [ ^nil "^self" ].
aBlock value.
##thisContext pc: pc - 3 sp: sp.
##thisContext pc: pc + 2 sp: sp.
thisContext pc: pc + 1 sp: sp.
## this +2 or - 3 above is dependent on the byte code instruction size used for 'store'
## +2 to skip STORE_INTO_TEMP(pc) and POP_STACKTOP.
## TODO: make it independent of the byte code size
## ----------------------------------------------------------------------------
## #<label>:
## thisContext pc: #<label> sp: sp.
##
## | pc |
## pc := thisContext pc.
## ^self value ifTrue: [aBlock value. thisContext pc: pc]
## ----------------------------------------------------------------------------
## self value ifTrue: [ aBlock value. thisContext restart. ].
}
#method pc
{
^ip
}
#method pc: anInteger
{
ip := anInteger.
}
#method sp
{
^sp
}
#method sp: anInteger
{
sp := anInteger.
}
#method restart
{
ip := source pc.
}
}
#class(#pointer) CompiledMethod(Object)
{
#dcl owner preamble ntmprs nargs code source.
}
#class FFI(Object)
{
#dcl name handle funcs.
#method(#class) new: aString
{
^self new open: aString.
}
#method open: aString
{
self.funcs := Dictionary new.
self.name := aString.
self.handle := self privateOpen: self.name.
}
#method close
{
self privateClose: self.handle.
self.handle := nil.
}
#method call: aFunctionName withSig: aString withArgs: anArray
{
| f |
## f := self.funcs at: aFunctionName.
## f isNil ifTrue: [
## f := self privateGetSymbol: aFunctionName in: self.handle.
## f isNil ifTrue: [ self error: 'No such function' ].
## self.funcs at: aFunctionName put: f.
## ].
f := self privateGetSymbol: aFunctionName in: self.handle.
## f isNil ifTrue: [ self error: 'No such function' ].
^self privateCall: f withSig: aString withArgs: anArray
}
#method privateOpen: aString
{
<primitive: #ffiOpen>
## throw an exception here.
}
#method privateClose: aHandle
{
<primitive: #ffiClose>
}
#method privateCall: aSymbol withSig: aString withArgs: anArray
{
<primitive: #ffiCall>
}
#method privateGetSymbol: aString in: aHandle
{
<primitive: #ffiGetSym>
}
}