factor/basis/compiler/tree/propagation/propagation-tests.factor

USING: accessors alien alien.accessors alien.c-types alien.data arrays assocs
byte-arrays classes classes.algebra classes.struct classes.tuple.private
combinators.short-circuit compiler.tree compiler.tree.builder
compiler.tree.checker compiler.tree.debugger compiler.tree.def-use
compiler.tree.normalization compiler.tree.optimizer compiler.tree.propagation
compiler.tree.propagation.info compiler.tree.recursive effects fry
generic.single hashtables kernel kernel.private layouts locals math
math.floats.private math.functions math.integers.private math.intervals
math.libm math.order math.private quotations sets sequences sequences.private
slots.private sorting specialized-arrays strings strings.private system
tools.test vectors vocabs words ;
FROM: math => float ;
SPECIALIZED-ARRAY: double
SPECIALIZED-ARRAY: void*
IN: compiler.tree.propagation.tests

{ { } } [
    all-words [
        "input-classes" word-prop [ class? ] all? not
    ] filter
] unit-test

! The value interval should be limited for these.
{ t t } [
    [ fixnum>bignum ] final-info first interval>> fixnum-interval =
    [ fixnum>float ] final-info first interval>> fixnum-interval =
] unit-test

{ V{ } } [ [ ] final-classes ] unit-test

{ V{ fixnum } } [ [ 1 ] final-classes ] unit-test

{ V{ fixnum } } [ [ 1 [ ] dip ] final-classes ] unit-test

{ V{ fixnum object } } [ [ 1 swap ] final-classes ] unit-test

{ V{ array } } [ [ 10 f <array> ] final-classes ] unit-test

{ V{ array } } [ [ { array } declare ] final-classes ] unit-test

{ V{ array } } [ [ 10 f <array> swap [ ] [ ] if ] final-classes ] unit-test

{ V{ fixnum } } [ [ dup fixnum? [ ] [ drop 3 ] if ] final-classes ] unit-test

{ V{ 69 } } [ [ [ 69 ] [ 69 ] if ] final-literals ] unit-test

{ V{ integer } } [ [ bitnot ] final-classes ] unit-test

{ V{ fixnum } } [ [ { fixnum } declare bitnot ] final-classes ] unit-test

! Test type propagation for math ops
: cleanup-math-class ( obj -- class )
    { null fixnum bignum integer ratio rational float real complex number }
    [ class= ] with find nip ;

: final-math-class ( quot -- class )
    final-classes first cleanup-math-class ;

{ number } [ [ + ] final-math-class ] unit-test

{ bignum } [ [ { fixnum bignum } declare + ] final-math-class ] unit-test

{ integer } [ [ { fixnum integer } declare + ] final-math-class ] unit-test

{ bignum } [ [ { integer bignum } declare + ] final-math-class ] unit-test

{ integer } [ [ { fixnum fixnum } declare + ] final-math-class ] unit-test

{ float } [ [ { float integer } declare + ] final-math-class ] unit-test

{ float } [ [ { real float } declare + ] final-math-class ] unit-test

{ float } [ [ { float real } declare + ] final-math-class ] unit-test

{ rational } [ [ { ratio ratio } declare + ] final-math-class ] unit-test

{ rational } [ [ { rational ratio } declare + ] final-math-class ] unit-test

{ number } [ [ { complex complex } declare + ] final-math-class ] unit-test

{ float } [ [ /f ] final-math-class ] unit-test

{ float } [ [ { real real } declare /f ] final-math-class ] unit-test

{ integer } [ [ /i ] final-math-class ] unit-test

{ integer } [ [ { integer float } declare /i ] final-math-class ] unit-test

{ integer } [ [ { float float } declare /i ] final-math-class ] unit-test

{ integer } [ [ { integer } declare bitnot ] final-math-class ] unit-test

{ null } [ [ { null null } declare + ] final-math-class ] unit-test

{ null } [ [ { null fixnum } declare + ] final-math-class ] unit-test

{ float } [ [ { float fixnum } declare + ] final-math-class ] unit-test

{ bignum } [ [ { bignum bignum } declare bitxor ] final-math-class ] unit-test

{ bignum } [ [ { integer } declare 123 >bignum bitand ] final-math-class ] unit-test

{ float } [ [ { float float } declare mod ] final-math-class ] unit-test

{ V{ integer float } } [ [ { float float } declare [ /i ] keep ] final-classes ] unit-test

{ V{ fixnum } } [ [ 255 bitand ] final-classes ] unit-test

{ V{ fixnum } } [
    [ [ 255 bitand ] [ 65535 bitand ] bi + ] final-classes
] unit-test

{ V{ fixnum } } [
    [
        { fixnum } declare [ 255 bitand ] [ 65535 bitand ] bi +
    ] final-classes
] unit-test

{ V{ integer } } [
    [ { fixnum } declare [ 255 bitand ] keep + ] final-classes
] unit-test

{ V{ integer } } [
    [ { fixnum } declare 615949 * ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 255 bitand >fixnum 3 bitor ] final-classes
] unit-test

{ V{ 0 } } [
    [ >fixnum 1 mod ] final-literals
] unit-test

{ V{ 69 } } [
    [ >fixnum swap [ 1 mod 69 + ] [ drop 69 ] if ] final-literals
] unit-test

{ V{ fixnum } } [
    [ >fixnum dup 10 > [ 1 - ] when ] final-classes
] unit-test

{ V{ integer } } [ [ >fixnum 2 * ] final-classes ] unit-test

{ V{ integer } } [
    [ >fixnum dup 10 < drop 2 * ] final-classes
] unit-test

{ V{ integer } } [
    [ >fixnum dup 10 < [ 2 * ] when ] final-classes
] unit-test

{ V{ integer } } [
    [ >fixnum dup 10 < [ 2 * ] [ 2 * ] if ] final-classes
] unit-test

{ V{ fixnum } } [
    [ >fixnum dup 10 < [ dup -10 > [ 2 * ] when ] when ] final-classes
] unit-test

{ V{ f } } [
    [ dup 10 < [ dup 8 > [ drop 9 ] unless ] [ drop 9 ] if ] final-literals
] unit-test

{ V{ 9 } } [
    [
        123 bitand
        dup 10 < [ dup 8 > [ drop 9 ] unless ] [ drop 9 ] if
    ] final-literals
] unit-test

{ V{ t } } [ [ 40 mod 40 < ] final-literals ] unit-test

{ V{ f } } [ [ 40 mod 0 >= ] final-literals ] unit-test

{ V{ t } } [ [ 40 rem 0 >= ] final-literals ] unit-test

{ V{ t } } [ [ abs 40 mod 0 >= ] final-literals ] unit-test

{ t } [ [ abs ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ absq ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { fixnum } declare abs ] final-info first interval>> [0,inf] interval-subset? ] unit-test

{ t } [ [ { fixnum } declare absq ] final-info first interval>> [0,inf] interval-subset? ] unit-test

{ V{ integer } } [ [ { fixnum } declare abs ] final-classes ] unit-test

{ V{ integer } } [ [ { fixnum } declare absq ] final-classes ] unit-test

{ t } [ [ { bignum } declare abs ] final-info first interval>> [0,inf] interval-subset? ] unit-test

{ t } [ [ { bignum } declare absq ] final-info first interval>> [0,inf] interval-subset? ] unit-test

{ t } [ [ { float } declare abs ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { float } declare absq ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { complex } declare abs ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { complex } declare absq ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { float float } declare rect> C{ 0.0 0.0 } + absq ] final-info first interval>> [0,inf] = ] unit-test

{ V{ float } } [ [ { float float } declare rect> C{ 0.0 0.0 } + absq ] final-classes ] unit-test

{ t } [ [ [ - absq ] [ + ] 2map-reduce ] final-info first interval>> [0,inf] = ] unit-test

{ t } [ [ { double-array double-array } declare [ - absq ] [ + ] 2map-reduce ] final-info first interval>> [0,inf] = ] unit-test

{ V{ string } } [
    [ dup string? not [ "Oops" throw ] [ ] if ] final-classes
] unit-test

{ V{ string } } [
    [ dup string? not not >boolean [ ] [ "Oops" throw ] if ] final-classes
] unit-test

{ f } [ [ t xor ] final-classes first null-class? ] unit-test

{ t } [ [ t or ] final-classes first true-class? ] unit-test

{ t } [ [ t swap or ] final-classes first true-class? ] unit-test

{ t } [ [ f and ] final-classes first false-class? ] unit-test

{ t } [ [ f swap and ] final-classes first false-class? ] unit-test

{ t } [ [ dup not or ] final-classes first true-class? ] unit-test

{ t } [ [ dup not swap or ] final-classes first true-class? ] unit-test

{ t } [ [ dup not and ] final-classes first false-class? ] unit-test

{ t } [ [ dup not swap and ] final-classes first false-class? ] unit-test

{ t } [ [ over [ drop f ] when [ "A" throw ] unless ] final-classes first false-class? ] unit-test

{ V{ fixnum } } [
    [
        [ { fixnum } declare ] [ drop f ] if
        dup [ dup 13 eq? [ t ] [ f ] if ] [ t ] if
        [ "Oops" throw ] when
    ] final-classes
] unit-test

{ V{ fixnum } } [
    [
        >fixnum
        dup [ 10 < ] [ -10 > ] bi and not [ 2 * ] unless
    ] final-classes
] unit-test

{ } [
    [
        dup dup dup [ 100 < ] [ drop f ] if dup
        [ 2drop f ] [ 2drop f ] if
        [ ] [ dup [ ] [ ] if ] if
    ] final-info drop
] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare (clone) ] final-classes
] unit-test

{ V{ vector } } [
    [ vector new ] final-classes
] unit-test

{ V{ fixnum } } [
    [
        { fixnum byte-array } declare
        [ nth-unsafe ] 2keep [ nth-unsafe ] 2keep nth-unsafe
        [ [ 298 * ] dip 100 * - ] dip 208 * - 128 + -8 shift
        0 255 clamp
    ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 0 dup 10 > [ 2 * ] when ] final-classes
] unit-test

{ V{ f } } [
    [ [ 0.0 ] [ -0.0 ] if ] final-literals
] unit-test

{ V{ 1.5 } } [
    [ /f 1.5 1.5 clamp ] final-literals
] unit-test

{ V{ 1.5 } } [
    [
        /f
        dup 1.5 <= [ dup 1.5 >= [ ] [ drop 1.5 ] if ] [ drop 1.5 ] if
    ] final-literals
] unit-test

{ V{ 1.5 } } [
    [
        /f
        dup 1.5 u<= [ dup 1.5 u>= [ ] [ drop 1.5 ] if ] [ drop 1.5 ] if
    ] final-literals
] unit-test

{ V{ 1.5 } } [
    [
        /f
        dup 1.5 <= [ dup 10 >= [ ] [ drop 1.5 ] if ] [ drop 1.5 ] if
    ] final-literals
] unit-test

{ V{ 1.5 } } [
    [
        /f
        dup 1.5 u<= [ dup 10 u>= [ ] [ drop 1.5 ] if ] [ drop 1.5 ] if
    ] final-literals
] unit-test

{ V{ f } } [
    [
        /f
        dup 0.0 <= [ dup 0.0 >= [ drop 0.0 ] unless ] [ drop 0.0 ] if
    ] final-literals
] unit-test

{ V{ f } } [
    [
        /f
        dup 0.0 u<= [ dup 0.0 u>= [ drop 0.0 ] unless ] [ drop 0.0 ] if
    ] final-literals
] unit-test

{ V{ fixnum } } [
    [ 0 dup 10 > [ 100 * ] when ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 0 dup 10 > [ drop "foo" ] when ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 0 dup 10 u> [ 100 * ] when ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 0 dup 10 u> [ drop "foo" ] when ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare 3 3 - + ] final-classes
] unit-test

{ V{ t } } [
    [ dup 10 < [ 3 * 30 < ] [ drop t ] if ] final-literals
] unit-test

{ V{ t } } [
    [ dup 10 u< [ 3 * 30 u< ] [ drop t ] if ] final-literals
] unit-test

{ V{ "d" } } [
    [
        3 {
            [ "a" ]
            [ "b" ]
            [ "c" ]
            [ "d" ]
            [ "e" ]
            [ "f" ]
            [ "g" ]
            [ "h" ]
        } dispatch
    ] final-literals
] unit-test

{ V{ "hi" } } [
    [ [ "hi" ] [ 123 3 throw ] if ] final-literals
] unit-test

{ V{ fixnum } } [
    [ >fixnum dup 100 < [ 1 + ] [ "Oops" throw ] if ] final-classes
] unit-test

{ V{ fixnum } } [
    [ >fixnum dup 100 u< [ 1 + ] [ "Oops" throw ] if ] final-classes
] unit-test

{ V{ -1 } } [
    [ 0 dup 100 < not [ 1 + ] [ 1 - ] if ] final-literals
] unit-test

{ V{ -1 } } [
    [ 0 dup 100 u< not [ 1 + ] [ 1 - ] if ] final-literals
] unit-test

{ V{ 2 } } [
    [ [ 1 ] [ 1 ] if 1 + ] final-literals
] unit-test

{ V{ object } } [
    [ 0 * 10 < ] final-classes
] unit-test

{ V{ object } } [
    [ 0 * 10 u< ] final-classes
] unit-test

{ V{ 27 } } [
    [
        123 bitand dup 10 < over 8 > and [ 3 * ] [ "B" throw ] if
    ] final-literals
] unit-test

{ V{ 27 } } [
    [
        123 bitand dup 10 u< over 8 u> and [ 3 * ] [ "B" throw ] if
    ] final-literals
] unit-test

{ V{ string string } } [
    [
        2dup [ dup string? [ "Oops" throw ] unless ] bi@ 2drop
    ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum fixnum } declare 7 bitand neg shift ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum fixnum } declare 7 bitand neg >bignum shift ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare 1 swap 7 bitand shift ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare 1 swap 7 bitand >bignum shift ] final-classes
] unit-test

cell-bits 32 = [
    [ V{ integer } ] [
        [ { fixnum } declare 1 swap 31 bitand shift ]
        final-classes
    ] unit-test
] when

! Array length propagation
{ V{ t } } [ [ 10 f <array> length 10 = ] final-literals ] unit-test

{ V{ t } } [ [ [ 10 f <array> length ] [ 10 <byte-array> length ] if 10 = ] final-literals ] unit-test

{ V{ t } } [ [ [ 1 f <array> ] [ 2 f <array> ] if length 3 < ] final-literals ] unit-test

{ V{ 10 } } [
    [ { fixnum } declare dup 10 eq? [ "A" throw ] unless ] final-literals
] unit-test

{ V{ 3 } } [ [ [ { 1 2 3 } ] [ { 4 5 6 } ] if length ] final-literals ] unit-test

{ V{ 3 } } [ [ [ B{ 1 2 3 } ] [ B{ 4 5 6 } ] if length ] final-literals ] unit-test

{ V{ 3 } } [ [ [ "yay" ] [ "hah" ] if length ] final-literals ] unit-test

{ V{ 3 } } [ [ 3 <byte-array> length ] final-literals ] unit-test

{ V{ 3 } } [ [ 3 f <string> length ] final-literals ] unit-test

! Slot propagation
TUPLE: prop-test-tuple { x integer } ;

{ V{ integer } } [ [ { prop-test-tuple } declare x>> ] final-classes ] unit-test

TUPLE: fold-boa-test-tuple { x read-only } { y read-only } { z read-only } ;

{ V{ T{ fold-boa-test-tuple f 1 2 3 } } }
[ [ 1 2 3 fold-boa-test-tuple boa ] final-literals ]
unit-test

TUPLE: don't-fold-boa-test-tuple < identity-tuple ;

{ V{ f } }
[ [ don't-fold-boa-test-tuple boa ] final-literals ]
unit-test

TUPLE: immutable-prop-test-tuple { x sequence read-only } ;

{ V{ T{ immutable-prop-test-tuple f "hey" } } } [
    [ "hey" immutable-prop-test-tuple boa ] final-literals
] unit-test

{ V{ { 1 2 } } } [
    [ { 1 2 } immutable-prop-test-tuple boa x>> ] final-literals
] unit-test

{ V{ array } } [
    [ { array } declare immutable-prop-test-tuple boa x>> ] final-classes
] unit-test

{ V{ complex } } [
    [ complex boa ] final-classes
] unit-test

{ V{ complex } } [
    [ { float float } declare dup 0.0 <= [ "Oops" throw ] [ rect> ] if ] final-classes
] unit-test

{ V{ float float } } [
    [
        { float float } declare
        dup 0.0 <= [ "Oops" throw ] when rect>
        [ real>> ] [ imaginary>> ] bi
    ] final-classes
] unit-test

{ V{ complex } } [
    [
        { float float object } declare
        [ "Oops" throw ] [ complex boa ] if
    ] final-classes
] unit-test

{ } [ [ dup 3 slot swap 4 slot dup 3 slot swap 4 slot ] final-info drop ] unit-test

{ V{ number } } [ [ [ "Oops" throw ] [ 2 + ] if ] final-classes ] unit-test
{ V{ number } } [ [ [ 2 + ] [ "Oops" throw ] if ] final-classes ] unit-test

{ V{ POSTPONE: f } } [
    [ dup 1.0 <= [ drop f ] [ 0 number= ] if ] final-classes
] unit-test

! Don't fold this
TUPLE: mutable-tuple-test { x sequence } ;

{ V{ sequence } } [
    [ "hey" mutable-tuple-test boa x>> ] final-classes
] unit-test

{ V{ sequence } } [
    [ T{ mutable-tuple-test f "hey" } x>> ] final-classes
] unit-test

{ V{ array } } [
    [ T{ mutable-tuple-test f "hey" } layout-of ] final-classes
] unit-test

! Mixed mutable and immutable slots
TUPLE: mixed-mutable-immutable { x integer } { y sequence read-only } ;

{ V{ integer array } } [
    [
        3 { 2 1 } mixed-mutable-immutable boa [ x>> ] [ y>> ] bi
    ] final-classes
] unit-test

{ V{ array integer } } [
    [
        3 { 2 1 } mixed-mutable-immutable boa [ y>> ] [ x>> ] bi
    ] final-classes
] unit-test

{ V{ integer array } } [
    [
        [ 2drop T{ mixed-mutable-immutable f 3 { } } ]
        [ { array } declare mixed-mutable-immutable boa ] if
        [ x>> ] [ y>> ] bi
    ] final-classes
] unit-test

{ V{ f { } } } [
    [
        T{ mixed-mutable-immutable f 3 { } }
        [ x>> ] [ y>> ] bi
    ] final-literals
] unit-test

! Recursive propagation
: recursive-test-1 ( a -- b ) recursive-test-1 ; inline recursive

{ V{ null } } [ [ recursive-test-1 ] final-classes ] unit-test

: recursive-test-2 ( a -- b ) dup 10 < [ recursive-test-2 ] when ; inline recursive

{ V{ real } } [ [ recursive-test-2 ] final-classes ] unit-test

: recursive-test-3 ( a -- b ) dup 10 < drop ; inline recursive

{ V{ real } } [ [ recursive-test-3 ] final-classes ] unit-test

{ V{ real } } [ [ [ dup 10 < ] [ ] while ] final-classes ] unit-test

{ V{ float } } [
    [ { float } declare 10 [ 2.3 * ] times ] final-classes
] unit-test

{ V{ fixnum } } [
    [ 0 10 [ nip ] each-integer ] final-classes
] unit-test

{ V{ t } } [
    [ t 10 [ nip 0 >= ] each-integer ] final-literals
] unit-test

: recursive-test-4 ( i n -- )
    2dup < [ [ 1 + ] dip recursive-test-4 ] [ 2drop ] if ; inline recursive

{ } [ [ recursive-test-4 ] final-info drop ] unit-test

: recursive-test-5 ( a -- b )
    dup 1 <= [ drop 1 ] [ dup 1 - recursive-test-5 * ] if ; inline recursive

{ V{ integer } } [ [ { integer } declare recursive-test-5 ] final-classes ] unit-test

: recursive-test-6 ( a -- b )
    dup 1 <= [ drop 1 ] [ dup 1 - recursive-test-6 swap 2 - recursive-test-6 + ] if ; inline recursive

{ V{ integer } } [ [ { fixnum } declare recursive-test-6 ] final-classes ] unit-test

: recursive-test-7 ( a -- b )
    dup 10 < [ 1 + recursive-test-7 ] when ; inline recursive

{ V{ fixnum } } [ [ 0 recursive-test-7 ] final-classes ] unit-test

{ V{ fixnum } } [ [ 1 10 [ dup 10 < [ 2 * ] when ] times ] final-classes ] unit-test

{ V{ integer } } [ [ 0 2 100 ^ [ nip ] each-integer ] final-classes ] unit-test

{ } [ [ [ ] [ ] compose curry call ] final-info drop ] unit-test

{ V{ } } [
    [ [ drop ] [ drop ] compose curry (each-integer) ] final-classes
] unit-test

GENERIC: iterate ( obj -- next-obj ? )
M: fixnum iterate f ; inline
M: array iterate first t ; inline

: dead-loop ( obj -- final-obj )
    iterate [ dead-loop ] when ; inline recursive

{ V{ fixnum } } [ [ { fixnum } declare dead-loop ] final-classes ] unit-test

: hang-1 ( m -- x )
    dup 0 number= [ hang-1 ] unless ; inline recursive

{ } [ [ 3 hang-1 ] final-info drop ] unit-test

: hang-2 ( m n -- x )
    over 0 number= [
        nip
    ] [
        dup [
            drop 1 hang-2
        ] [
            dupd hang-2 hang-2
        ] if
    ] if ; inline recursive

{ } [ [ 3 over hang-2 ] final-info drop ] unit-test

{ } [
    [
        dup fixnum? [ 3 over hang-2 ] [ 3 over hang-2 ] if
    ] final-info drop
] unit-test

{ V{ t } } [
    [ { hashtable } declare hashtable instance? ] final-classes
] unit-test

{ V{ POSTPONE: f } } [
    [ { vector } declare hashtable instance? ] final-classes
] unit-test

{ V{ object } } [
    [ { assoc } declare hashtable instance? ] final-classes
] unit-test

{ V{ t } } [
    [ { string } declare string? ] final-classes
] unit-test

{ V{ POSTPONE: f } } [
    [ 3 string? ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare [ ] curry obj>> ] final-classes
] unit-test

{ V{ fixnum } } [
    [ { fixnum fixnum } declare iota [ nth-unsafe ] curry call ] final-classes
] unit-test

{ V{ f } } [
    [ 10 eq? [ drop 3 ] unless ] final-literals
] unit-test

GENERIC: bad-generic ( a -- b )
M: fixnum bad-generic 1 fixnum+fast ; inline
: bad-behavior ( -- b ) 4 bad-generic ; inline recursive

{ V{ fixnum } } [ [ bad-behavior ] final-classes ] unit-test

{ V{ number } } [
    [
        0 10 [ bad-generic dup 123 bitand drop bad-generic 1 + ] times
    ] final-classes
] unit-test

GENERIC: infinite-loop ( a -- b )
M: integer infinite-loop infinite-loop ;

{ } [ [ { integer } declare infinite-loop ] final-classes drop ] unit-test

{ V{ tuple } } [ [ tuple-layout <tuple> ] final-classes ] unit-test

{ } [ [ instance? ] final-classes drop ] unit-test

{ f } [ [ V{ } clone ] final-info first literal?>> ] unit-test

: fold-throw-test ( a -- b ) "A" throw ; foldable

{ } [ [ 0 fold-throw-test ] final-info drop ] unit-test

: too-deep ( a b -- c )
    dup [ drop ] [ 2dup too-deep too-deep * ] if ; inline recursive

{ } [ [ too-deep ] final-info drop ] unit-test

{ } [ [ reversed boa slice boa nth-unsafe * ] final-info drop ] unit-test

MIXIN: empty-mixin

{ } [ [ { empty-mixin } declare empty-mixin? ] final-info drop ] unit-test

{ V{ fixnum } } [ [ [ bignum-shift drop ] keep ] final-classes ] unit-test

{ V{ float } } [
    [
        [ { float float } declare complex boa ]
        [ 2drop C{ 0.0 0.0 } ]
        if real-part
    ] final-classes
] unit-test

{ V{ POSTPONE: f } } [
    [ { float } declare 0 eq? ] final-classes
] unit-test

{
    { fixnum integer integer fixnum }
} [
    {
        { integer fixnum }
        ! These two are tricky. Possibly, they will always be
        ! fixnums. But that requires a better interval-mod.
        { fixnum integer }
        { fixnum bignum }
        { bignum fixnum }
    } [ '[ _ declare mod ] final-classes first ] map
] unit-test

! Due to downpromotion, we lose the type here.
{ V{ integer } } [
    [ { bignum bignum } declare bignum-mod ] final-classes
] unit-test

! And here
{ V{ bignum integer } } [
    [ { bignum bignum } declare /mod ] final-classes
] unit-test

! So this code gets worse than it was.
{
    [
        bignum-mod 20 over tag 0 eq?
        [ fixnum+ ] [ fixnum>bignum bignum+ ] if
    ]
} [
    [ { bignum bignum } declare bignum-mod 20 + ]
    build-tree optimize-tree nodes>quot
] unit-test

{ V{ fixnum } } [
    [ fixnum-mod ] final-classes
] unit-test

{ V{ integer } } [
    [ { fixnum integer } declare bitand ] final-classes
] unit-test

{ V{ double-array } } [ [| | double-array{ } ] final-classes ] unit-test

{ V{ t } } [ [ macosx unix? ] final-literals ] unit-test

{ V{ array } } [ [ [ <=> ] sort [ <=> ] sort ] final-classes ] unit-test

{ V{ float } } [ [ fsqrt ] final-classes ] unit-test

{ V{ t } } [ [ { fixnum } declare 10 mod >float -20 > ] final-literals ] unit-test

{ T{ interval f { 0 t } { 127 t } } } [
    [ { integer } declare 127 bitand ] final-info first interval>>
] unit-test

{ V{ t } } [
    [ [ 123 bitand ] [ drop f ] if dup [ 0 >= ] [ not ] if ] final-literals
] unit-test

{ V{ bignum } } [
    [ { bignum } declare dup 1 - bitxor ] final-classes
] unit-test

{ V{ bignum integer } } [
    [ { bignum integer } declare [ shift ] keep ] final-classes
] unit-test

{ V{ fixnum } } [ [ >fixnum 15 bitand 1 swap shift ] final-classes ] unit-test

{ V{ fixnum } } [ [ 15 bitand 1 swap shift ] final-classes ] unit-test

{ V{ fixnum } } [
    [ { fixnum } declare log2 ] final-classes
] unit-test

{ V{ t } } [
    [ { fixnum } declare log2 0 >= ] final-classes
] unit-test

{ V{ POSTPONE: f } } [
    [ { word object } declare equal? ] final-classes
] unit-test

{ V{ string } } [
    [ dup string? t xor [ "A" throw ] [ ] if ] final-classes
] unit-test

{ t } [ [ dup t xor or ] final-classes first true-class? ] unit-test

{ t } [ [ dup t xor swap or ] final-classes first true-class? ] unit-test

{ t } [ [ dup t xor and ] final-classes first false-class? ] unit-test

{ t } [ [ dup t xor swap and ] final-classes first false-class? ] unit-test

! generalize-counter-interval wasn't being called in all the right places.
! bug found by littledan

TUPLE: littledan-1 { a read-only } ;

: (littledan-1-test) ( a -- ) a>> 1 + littledan-1 boa (littledan-1-test) ; inline recursive

: littledan-1-test ( -- ) 0 littledan-1 boa (littledan-1-test) ; inline

{ } [ [ littledan-1-test ] final-classes drop ] unit-test

TUPLE: littledan-2 { from read-only } { to read-only } ;

: (littledan-2-test) ( x -- i elt )
    [ from>> ] [ to>> ] bi + dup littledan-2 boa (littledan-2-test) ; inline recursive

: littledan-2-test ( x -- i elt )
    [ 0 ] dip { array-capacity } declare littledan-2 boa (littledan-2-test) ; inline

{ } [ [ littledan-2-test ] final-classes drop ] unit-test

: (littledan-3-test) ( x -- )
    length 1 + f <array> (littledan-3-test) ; inline recursive

: littledan-3-test ( -- )
    0 f <array> (littledan-3-test) ; inline

{ } [ [ littledan-3-test ] final-classes drop ] unit-test

{ V{ 0 } } [ [ { } length ] final-literals ] unit-test

{ V{ 1 } } [ [ { } length 1 + f <array> length ] final-literals ] unit-test

! generalize-counter is not tight enough
{ V{ fixnum } } [ [ 0 10 [ 1 + >fixnum ] times ] final-classes ] unit-test

{ V{ fixnum } } [ [ 0 10 [ 1 + >fixnum ] times 0 + ] final-classes ] unit-test

! Coercions need to update intervals
{ V{ f } } [ [ 1 2 ? 100 shift >fixnum 1 = ] final-literals ] unit-test

{ V{ t } } [ [ >fixnum 1 + >fixnum most-positive-fixnum <= ] final-literals ] unit-test

{ V{ t } } [ [ >fixnum 1 + >fixnum most-negative-fixnum >= ] final-literals ] unit-test

{ V{ f } } [ [ >fixnum 1 + >fixnum most-negative-fixnum > ] final-literals ] unit-test

! Mutable tuples with circularity should not cause problems
TUPLE: circle me ;

{ } [ circle new dup >>me 1quotation final-info drop ] unit-test

! Joe found an oversight
{ V{ integer } } [ [ >integer ] final-classes ] unit-test

TUPLE: foo bar ;

{ t } [ [ foo new ] { new } inlined? ] unit-test

GENERIC: whatever ( x -- y )
M: number whatever drop foo ; inline

{ t } [ [ 1 whatever new ] { new } inlined? ] unit-test

: that-thing ( -- class ) foo ;

{ f } [ [ that-thing new ] { new } inlined? ] unit-test

GENERIC: whatever2 ( x -- y )
M: number whatever2 drop H{ { 1 1 } { 2 2 } { 3 3 } { 4 4 } { 5 6 } } ; inline
M: f whatever2 ; inline

{ t } [ [ 1 whatever2 at ] { at* hashcode* } inlined? ] unit-test
{ f } [ [ whatever2 at ] { at* hashcode* } inlined? ] unit-test

SYMBOL: not-an-assoc

{ f } [ [ not-an-assoc at ] { at* } inlined? ] unit-test

{ t } [ [ { 1 2 3 } member? ] { member? } inlined? ] unit-test
{ f } [ [ { 1 2 3 } swap member? ] { member? } inlined? ] unit-test

{ t } [ [ { 1 2 3 } member-eq? ] { member-eq? } inlined? ] unit-test
{ f } [ [ { 1 2 3 } swap member-eq? ] { member-eq? } inlined? ] unit-test

{ t } [ [ V{ } clone ] { clone (clone) } inlined? ] unit-test
{ f } [ [ { } clone ] { clone (clone) } inlined? ] unit-test

{ f } [ [ instance? ] { instance? } inlined? ] unit-test
{ f } [ [ 5 instance? ] { instance? } inlined? ] unit-test
{ t } [ [ array instance? ] { instance? } inlined? ] unit-test

{ t } [ [ ( a b c -- c b a ) shuffle ] { shuffle } inlined? ] unit-test
{ f } [ [ { 1 2 3 } swap shuffle ] { shuffle } inlined? ] unit-test

! Type function for 'clone' had a subtle issue
TUPLE: tuple-with-read-only-slot { x read-only } ;

M: tuple-with-read-only-slot clone
    x>> clone tuple-with-read-only-slot boa ; inline

{ V{ object } } [
    [ { 1 2 3 } dup tuple-with-read-only-slot boa clone x>> eq? ] final-classes
] unit-test

! alien-cell outputs a alien or f
{ t } [
    [ { byte-array fixnum } declare alien-cell dup [ "OOPS" throw ] unless ] final-classes
    first alien class=
] unit-test

! Don't crash if bad literal inputs are passed to unsafe words
{ f } [ [ { } 1 fixnum+fast ] final-info first literal?>> ] unit-test

! Converting /i to shift
{ t } [ [ >fixnum dup 0 >= [ 16 /i ] when ] { /i fixnum/i fixnum/i-fast } inlined? ] unit-test
{ f } [ [ >fixnum dup 0 >= [ 16 /i ] when ] { fixnum-shift-fast } inlined? ] unit-test
{ f } [ [ >float dup 0 >= [ 16 /i ] when ] { /i float/f } inlined? ] unit-test

! We want this to inline
{ t } [ [ void* <c-direct-array> ] { <c-direct-array> } inlined? ] unit-test
{ V{ void*-array } } [ [ void* <c-direct-array> ] final-classes ] unit-test

! bitand identities
{ t } [ [ alien-unsigned-1 255 bitand ] { bitand fixnum-bitand } inlined? ] unit-test
{ t } [ [ alien-unsigned-1 255 swap bitand ] { bitand fixnum-bitand } inlined? ] unit-test

{ t } [ [ { fixnum } declare 256 rem -256 bitand ] { fixnum-bitand } inlined? ] unit-test
{ t } [ [ { fixnum } declare 250 rem -256 bitand ] { fixnum-bitand } inlined? ] unit-test
{ f } [ [ { fixnum } declare 257 rem -256 bitand ] { fixnum-bitand } inlined? ] unit-test

{ V{ fixnum } } [ [ >bignum 10 mod 2^ ] final-classes ] unit-test
{ V{ bignum } } [ [ >bignum 10 bitand ] final-classes ] unit-test
{ V{ bignum } } [ [ >bignum 10 >bignum bitand ] final-classes ] unit-test
{ V{ fixnum } } [ [ >bignum 10 mod ] final-classes ] unit-test
{ V{ bignum } } [ [ { fixnum } declare -1 >bignum bitand ] final-classes ] unit-test
{ V{ bignum } } [ [ { fixnum } declare -1 >bignum swap bitand ] final-classes ] unit-test

! Could be bignum not integer but who cares
{ V{ integer } } [ [ 10 >bignum bitand ] final-classes ] unit-test

{ t } [ [ { fixnum fixnum } declare min ] { min } inlined? ] unit-test
{ f } [ [ { fixnum fixnum } declare min ] { fixnum-min } inlined? ] unit-test

{ t } [ [ { float float } declare min ] { min } inlined? ] unit-test
{ f } [ [ { float float } declare min ] { float-min } inlined? ] unit-test

{ t } [ [ { fixnum fixnum } declare max ] { max } inlined? ] unit-test
{ f } [ [ { fixnum fixnum } declare max ] { fixnum-max } inlined? ] unit-test

{ t } [ [ { float float } declare max ] { max } inlined? ] unit-test
{ f } [ [ { float float } declare max ] { float-max } inlined? ] unit-test

! Propagation should not call equal?, hashcode, etc on literals in user code
{ V{ } } [ [ 4 <reversed> [ 2drop ] with each ] final-info ] unit-test

! Reduction
{ 1 } [ [ 4 <reversed> [ nth-unsafe ] [ ] unless ] final-info length ] unit-test

! Optimization on bit?
{ t } [ [ 3 bit? ] { bit? } inlined? ] unit-test
{ f } [ [ 500 bit? ] { bit? } inlined? ] unit-test

{ t } [ [ { 1 } intersect ] { intersect } inlined? ] unit-test
{ f } [ [ { 1 } swap intersect ] { intersect } inlined? ] unit-test ! We could do this

{ t } [ [ { 1 } intersects? ] { intersects? } inlined? ] unit-test
{ f } [ [ { 1 } swap intersects? ] { intersects? } inlined? ] unit-test ! We could do this

{ t } [ [ { 1 } diff ] { diff } inlined? ] unit-test
{ f } [ [ { 1 } swap diff ] { diff } inlined? ] unit-test ! We could do this

! Output range for string-nth now that string-nth is a library word and
! not a primitive
{ t } [
    ! Should actually be 0 23 2^ 1 - [a,b]
    [ string-nth ] final-info first interval>> 0 23 2^ [a,b] =
] unit-test

! Non-zero displacement for <displaced-alien> restricts the output type
{ t } [
    [ { byte-array } declare <displaced-alien> ] final-classes
    first byte-array alien class-or class=
] unit-test

{ V{ alien } } [
    [ { alien } declare <displaced-alien> ] final-classes
] unit-test

{ t } [
    [ { POSTPONE: f } declare <displaced-alien> ] final-classes
    first \ f alien class-or class=
] unit-test

{ V{ alien } } [
    [ { byte-array } declare [ 10 bitand 2 + ] dip <displaced-alien> ] final-classes
] unit-test

! 'tag' should have a declared output interval
{ V{ t } } [
    [ tag 0 15 between? ] final-literals
] unit-test

{ t } [
    [ maybe{ integer } instance? ] { instance? } inlined?
] unit-test

TUPLE: inline-please a ;
{ t } [
    [ maybe{ inline-please } instance? ] { instance? } inlined?
] unit-test

GENERIC: derp ( obj -- obj' )

M: integer derp 5 + ;
M: f derp drop t ;

{ t }
[
    [ dup maybe{ integer } instance? [ derp ] when ] { instance? } inlined?
] unit-test

! Type-check ratios with bitand operators

: bitand-ratio0 ( x -- y )
    1 bitand zero? ;

: bitand-ratio1 ( x -- y )
    1 swap bitand zero? ;

[ 2+1/2 bitand-ratio0 ] [ no-method? ] must-fail-with
[ 2+1/2 bitand-ratio1 ] [ no-method? ] must-fail-with

: shift-test0 ( x -- y )
    4.3 shift ;

[ 1 shift-test0 ] [ no-method? ] must-fail-with

! Test for the #1370 bug
STRUCT: bar { s bar* } ;

{ t } [
    [ bar <struct> [ s>> ] follow ] build-tree optimize-tree
    [ #recursive? ] find nip
    child>> [ { [ #call? ] [ word>> \ alien-cell = ] } 1&& ] find nip
    >boolean
] unit-test