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factor/core/classes/tuple/tuple.factor

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! Copyright (C) 2005, 2008 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: arrays definitions hashtables kernel kernel.private math
namespaces make sequences sequences.private strings vectors
words quotations memory combinators generic classes
classes.algebra classes.builtin classes.private slots.private
slots compiler.units math.private accessors assocs effects ;
IN: classes.tuple
PREDICATE: tuple-class < class
"metaclass" word-prop tuple-class eq? ;
ERROR: not-a-tuple object ;
: check-tuple ( object -- tuple )
dup tuple? [ not-a-tuple ] unless ; inline
: all-slots ( class -- slots )
superclasses [ "slots" word-prop ] map concat ;
PREDICATE: immutable-tuple-class < tuple-class ( class -- ? )
all-slots [ read-only>> ] all? ;
<PRIVATE
: tuple-layout ( class -- layout )
"layout" word-prop ;
: layout-of ( tuple -- layout )
1 slot { array } declare ; inline
M: tuple class layout-of 2 slot { word } declare ;
: tuple-size ( tuple -- size )
layout-of second ; inline
: prepare-tuple>array ( tuple -- n tuple layout )
check-tuple [ tuple-size ] [ ] [ layout-of ] tri ;
: copy-tuple-slots ( n tuple -- array )
[ array-nth ] curry map ;
: check-slots ( seq class -- seq class )
[ ] [
2dup all-slots [
class>> 2dup instance?
[ 2drop ] [ bad-slot-value ] if
] 2each
] if-bootstrapping ; inline
PRIVATE>
: initial-values ( class -- slots )
all-slots [ initial>> ] map ;
: pad-slots ( slots class -- slots' class )
[ initial-values over length tail append ] keep ; inline
: tuple>array ( tuple -- array )
prepare-tuple>array
>r copy-tuple-slots r>
first prefix ;
: tuple-slots ( tuple -- seq )
prepare-tuple>array drop copy-tuple-slots ;
GENERIC: slots>tuple ( seq class -- tuple )
M: tuple-class slots>tuple
check-slots pad-slots
tuple-layout <tuple> [
[ tuple-size ]
[ [ set-array-nth ] curry ]
bi 2each
] keep ;
: >tuple ( seq -- tuple )
unclip slots>tuple ;
ERROR: bad-superclass class ;
<PRIVATE
: tuple= ( tuple1 tuple2 -- ? )
2dup [ layout-of ] bi@ eq? [
[ drop tuple-size ]
[ [ [ drop array-nth ] [ nip array-nth ] 3bi = ] 2curry ]
2bi all-integers?
] [
2drop f
] if ; inline
: tuple-instance-1? ( object class -- ? )
swap dup tuple? [
layout-of 7 slot eq?
] [ 2drop f ] if ; inline
: tuple-instance? ( object class offset -- ? )
rot dup tuple? [
layout-of
2dup 1 slot fixnum<=
[ swap slot eq? ] [ 3drop f ] if
] [ 3drop f ] if ; inline
: layout-class-offset ( echelon -- n )
2 * 5 + ;
: echelon-of ( class -- n )
tuple-layout third ;
: define-tuple-predicate ( class -- )
dup dup echelon-of {
{ 1 [ [ tuple-instance-1? ] curry ] }
[ layout-class-offset [ tuple-instance? ] 2curry ]
} case define-predicate ;
: class-size ( class -- n )
superclasses [ "slots" word-prop length ] sigma ;
: (instance-check-quot) ( class -- quot )
[
\ dup ,
[ "predicate" word-prop % ]
[ [ bad-slot-value ] curry , ] bi
\ unless ,
] [ ] make ;
: (fixnum-check-quot) ( class -- quot )
(instance-check-quot) fixnum "coercer" word-prop prepend ;
: instance-check-quot ( class -- quot )
{
{ [ dup object bootstrap-word eq? ] [ drop [ ] ] }
{ [ dup "coercer" word-prop ] [ "coercer" word-prop ] }
{ [ dup \ fixnum class<= ] [ (fixnum-check-quot) ] }
[ (instance-check-quot) ]
} cond ;
: boa-check-quot ( class -- quot )
all-slots [ class>> instance-check-quot ] map spread>quot
f like ;
: define-boa-check ( class -- )
dup boa-check-quot "boa-check" set-word-prop ;
: tuple-prototype ( class -- prototype )
[ initial-values ] keep
over [ ] contains? [ slots>tuple ] [ 2drop f ] if ;
: define-tuple-prototype ( class -- )
dup tuple-prototype "prototype" set-word-prop ;
: prepare-slots ( slots superclass -- slots' )
[ make-slots ] [ class-size 2 + ] bi* finalize-slots ;
: define-tuple-slots ( class -- )
dup "slots" word-prop over superclass prepare-slots
define-accessors ;
: make-tuple-layout ( class -- layout )
[
{
[ , ]
[ [ superclass class-size ] [ "slots" word-prop length ] bi + , ]
[ superclasses length 1- , ]
[ superclasses [ [ , ] [ hashcode , ] bi ] each ]
} cleave
] { } make ;
: define-tuple-layout ( class -- )
dup make-tuple-layout "layout" set-word-prop ;
: compute-slot-permutation ( new-slots old-slots -- triples )
[ [ [ name>> ] map ] bi@ [ index ] curry map ]
[ drop [ class>> ] map ]
[ drop [ initial>> ] map ]
2tri 3array flip ;
: update-slot ( old-values n class initial -- value )
pick [
>r >r swap nth dup r> instance? r> swap
[ drop ] [ nip ] if
] [ >r 3drop r> ] if ;
: apply-slot-permutation ( old-values triples -- new-values )
[ first3 update-slot ] with map ;
: permute-slots ( old-values layout -- new-values )
[ first all-slots ] [ outdated-tuples get at ] bi
compute-slot-permutation
apply-slot-permutation ;
: update-tuple ( tuple -- newtuple )
[ tuple-slots ] [ layout-of ] bi
[ permute-slots ] [ first ] bi
slots>tuple ;
: outdated-tuple? ( tuple assoc -- ? )
over tuple? [
[ [ layout-of ] dip key? ]
[ drop class "forgotten" word-prop not ]
2bi and
] [ 2drop f ] if ;
: update-tuples ( -- )
outdated-tuples get
dup assoc-empty? [ drop ] [
[ outdated-tuple? ] curry instances
dup [ update-tuple ] map become
] if ;
[ update-tuples ] update-tuples-hook set-global
: update-tuples-after ( class -- )
[ all-slots ] [ tuple-layout ] bi outdated-tuples get set-at ;
M: tuple-class update-class
{
[ define-boa-check ]
[ define-tuple-layout ]
[ define-tuple-slots ]
[ define-tuple-predicate ]
[ define-tuple-prototype ]
} cleave ;
: define-new-tuple-class ( class superclass slots -- )
[ drop f f tuple-class define-class ]
[ nip "slots" set-word-prop ]
[ 2drop update-classes ]
3tri ;
: subclasses ( class -- classes )
class-usages [ tuple-class? ] filter ;
: each-subclass ( class quot -- )
>r subclasses r> each ; inline
: redefine-tuple-class ( class superclass slots -- )
[
2drop
[
[ update-tuples-after ]
[ redefined ]
bi
] each-subclass
]
[ define-new-tuple-class ]
3bi ;
: tuple-class-unchanged? ( class superclass slots -- ? )
rot tuck [ superclass = ] [ "slots" word-prop = ] 2bi* and ;
: valid-superclass? ( class -- ? )
[ tuple-class? ] [ tuple eq? ] bi or ;
: check-superclass ( superclass -- )
dup valid-superclass? [ bad-superclass ] unless drop ;
GENERIC# (define-tuple-class) 2 ( class superclass slots -- )
PRIVATE>
: define-tuple-class ( class superclass slots -- )
over check-superclass
over prepare-slots
(define-tuple-class) ;
M: word (define-tuple-class)
define-new-tuple-class ;
M: tuple-class (define-tuple-class)
3dup tuple-class-unchanged?
[ 3drop ] [ redefine-tuple-class ] if ;
: thrower-effect ( slots -- effect )
[ dup array? [ first ] when ] map f <effect> t >>terminated? ;
: define-error-class ( class superclass slots -- )
[ define-tuple-class ]
[ 2drop reset-generic ]
[
[ dup [ boa throw ] curry ]
[ drop ]
[ thrower-effect ]
tri* define-declared
] 3tri ;
M: tuple-class reset-class
[
dup "slots" word-prop [
name>>
[ reader-word method forget ]
[ writer-word method forget ] 2bi
] with each
] [
[ call-next-method ]
[ { "layout" "slots" "boa-check" "prototype" } reset-props ]
bi
] bi ;
M: tuple-class rank-class drop 0 ;
M: tuple-class instance?
dup echelon-of layout-class-offset tuple-instance? ;
M: tuple-class (flatten-class) dup set ;
M: tuple-class (classes-intersect?)
{
{ [ over tuple eq? ] [ 2drop t ] }
{ [ over builtin-class? ] [ 2drop f ] }
{ [ over tuple-class? ] [ [ class<= ] [ swap class<= ] 2bi or ] }
[ swap classes-intersect? ]
} cond ;
M: tuple clone (clone) ;
M: tuple equal? over tuple? [ tuple= ] [ 2drop f ] if ;
M: tuple hashcode*
[
[ class hashcode ] [ tuple-size ] [ ] tri
>r rot r> [
swapd array-nth hashcode* sequence-hashcode-step
] 2curry each
] recursive-hashcode ;
M: tuple-class new
dup "prototype" word-prop
[ (clone) ] [ tuple-layout <tuple> ] ?if ;
M: tuple-class boa
[ "boa-check" word-prop [ call ] when* ]
[ tuple-layout ]
bi <tuple-boa> ;
M: tuple-class initial-value* new ;
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