# -*- Tcl -*- # testing mixinof package require nx package require nx::test nx::test configure -count 100 ########################################### # testing simple per object mixins ########################################### nx::test case simple-pom { nx::Class create A nx::Object create o -object-mixin A ? {o object mixin get} ::A ? {o info object mixin classes} ::A ? {A info mixinof} ::o o destroy ? {A info mixinof} "" } ########################################### # testing transitive per object mixins ########################################### nx::test case transitive-pom { nx::Class create B nx::Class create C -superclass B nx::Class create M B mixin set M nx::Object create o -object-mixin C nx::Object create o1 -object-mixin B ? {C info mixinof} ::o ? {lsort [B info mixinof -closure]} "::o ::o1" ? {lsort [B info mixinof -closure ::o1]} "::o1" ? {lsort [B info mixinof -closure ::o*]} "::o ::o1" ? {lsort [C info mixinof -closure ::o*]} "::o" # A class is mixed into a per-object mixin class ? {lsort [M info mixinof -closure ::o*]} "::o ::o1" ? {lsort [M info mixinof -scope object]} "" } ########################################### # testing per object mixins with redefinition ########################################### nx::test case recreate-mixin-class { nx::Class create M {:method foo args {puts x;next}} nx::Object create o -object-mixin M ? {o info object mixin classes} ::M ? {o info precedence} "::M ::nx::Object" ? {o info lookup method foo} "::nsf::classes::M::foo" nx::Class create M {:method foo args next} ? {o info object mixin classes} ::M ? {o info precedence} "::M ::nx::Object" ? {o info lookup method foo} "::nsf::classes::M::foo" M destroy ? {o info object mixin classes} "" ? {o info precedence} "::nx::Object" ? {o info lookup method foo} "" } ########################################### # testing simple per class mixins ########################################### nx::test case pcm { nx::Class create A nx::Class create B -mixin A nx::Class create C -superclass B C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof} ::B ? {c1 info precedence} "::A ::C ::B ::nx::Object" B destroy ? {A info mixinof} "" ? {c1 info precedence} "::C ::nx::Object" } ########################################### # testing simple per class mixins with guards ########################################### nx::test case pcm2 { nx::Class create M1 nx::Class create M2 nx::Class create X nx::Class create A -mixin {M1 M2 X} A mixin guard M1 "test" nx::Class create B -superclass A ? {A info mixin classes M2} ::M2 ? {A info mixin classes M*} "::M1 ::M2" ? {A info mixin classes -guards} "{::M1 -guard test} ::M2 ::X" ? {B info mixin classes} "" ? {B info mixin classes -closure} "::M1 ::M2 ::X" ? {B info mixin classes -closure M2} ::M2 ? {B info mixin classes -closure M*} "::M1 ::M2" ? {B info mixin classes -closure -guards} "{::M1 -guard test} ::M2 ::X" ? {B info mixin classes -closure -guards M1} "{::M1 -guard test}" ? {B info mixin classes -closure -guards M*} "{::M1 -guard test} ::M2" } ########################################### # testing transitive per class mixins ########################################### nx::test case trans-pcm1 { nx::Class create A nx::Class create B -mixin A nx::Class create C -superclass B A mixin set [nx::Class create M] A create a1 B create b1 C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {a1 info precedence} "::M ::A ::nx::Object" ? {b1 info precedence} "::M ::A ::B ::nx::Object" ? {c1 info precedence} "::M ::A ::C ::B ::nx::Object" ? {M info mixinof -scope class} "::A" # since M is an instmixin of A and A is a instmixin of B, # M is a instmixin of B as well, and of its subclasses ? {M info mixinof -scope class -closure} "::A ::B ::C" ? {A info mixinof -scope class} "::B" ? {A info mixinof -scope class -closure} "::B ::C" ? {B info mixinof -scope class} "" ? {B info mixinof -scope class -closure} "" # and now destroy mixin classes M destroy ? {a1 info precedence} "::A ::nx::Object" ? {b1 info precedence} "::A ::B ::nx::Object" ? {c1 info precedence} "::A ::C ::B ::nx::Object" B destroy ? {A info mixinof -scope class} "" ? {c1 info precedence} "::C ::nx::Object" } ########################################### # testing transitive per class mixins with subclasses ########################################### nx::test case trans-pcm2 { nx::Class create X nx::Class create D nx::Class create C -superclass D nx::Class create A -mixin C nx::Class create B -superclass A B create b1 # ::C and ::D come to ::A and B as mixin classes ? {A info heritage} "::C ::D ::nx::Object" ? {B info heritage} "::C ::D ::A ::nx::Object" ? {C info mixinof -scope class -closure} "::A ::B" ? {D info mixinof -scope class -closure} "::A ::B" ? {A info mixinof -scope class -closure} "" ? {B info mixinof -scope class -closure} "" ? {X info mixinof -scope class -closure} "" D mixin set X ? {C info mixinof -scope class -closure} "::A ::B" ? {D info mixinof -scope class -closure} "::A ::B" ? {A info mixinof -scope class -closure} "" ? {B info mixinof -scope class -closure} "" ? {X info mixinof -scope class -closure} "::D ::C ::A ::B" ? {b1 info precedence} "::C ::X ::D ::B ::A ::nx::Object" B create b2 ? {b2 info precedence} "::C ::X ::D ::B ::A ::nx::Object" } ########################################### # testing transitive per class mixins with subclasses ########################################### nx::test case trans-pcm3 { nx::Class create A3 -superclass [nx::Class create A2 -superclass [nx::Class create A1]] nx::Class create B3 -superclass [nx::Class create B2 -superclass [nx::Class create B1 -superclass [nx::Class create B0]]] nx::Class create C3 -superclass [nx::Class create C2 -superclass [nx::Class create C1]] A2 mixin set B2 B1 mixin set C2 ? {A1 info mixinof -scope class -closure} "" ? {A2 info mixinof -scope class -closure} "" ? {A3 info mixinof -scope class -closure} "" ? {A1 info heritage} "::nx::Object" ? {A2 info heritage} "::B2 ::C2 ::C1 ::B1 ::B0 ::A1 ::nx::Object" ? {A3 info heritage} "::B2 ::C2 ::C1 ::B1 ::B0 ::A2 ::A1 ::nx::Object" ? {B0 info mixinof -scope class -closure} "::A2 ::A3" ? {B1 info mixinof -scope class -closure} "::A2 ::A3" ? {B2 info mixinof -scope class -closure} "::A2 ::A3" ? {B3 info mixinof -scope class -closure} "" ? {C1 info mixinof -scope class -closure} "::B1 ::B2 ::B3 ::A2 ::A3" ? {C2 info mixinof -scope class -closure} "::B1 ::B2 ::B3 ::A2 ::A3" ? {C3 info mixinof -scope class -closure} "" } ########################################### # testing transitive per class mixins with destroy ########################################### nx::test case pcm-trans-destroy-A { nx::Class create A -mixin [nx::Class create M] nx::Class create B -mixin A nx::Class create C -superclass B A create a1 B create b1 C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {a1 info precedence} "::M ::A ::nx::Object" ? {b1 info precedence} "::M ::A ::B ::nx::Object" ? {c1 info precedence} "::M ::A ::C ::B ::nx::Object" # and now destroy A A destroy ? {a1 info precedence} "::nx::Object" ? {b1 info precedence} "::B ::nx::Object" ? {c1 info precedence} "::C ::B ::nx::Object" ? {M info mixinof} "" ? {M info mixinof -closure} "" B destroy ? {M info mixinof -scope class} "" ? {c1 info precedence} "::C ::nx::Object" } ########################################### # testing transitive per class mixins with destroy ########################################### nx::test case pcm-trans-destroy-B { nx::Class create A -mixin [nx::Class create M] nx::Class create B -mixin A nx::Class create C -superclass B A create a1 B create b1 C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {a1 info precedence} "::M ::A ::nx::Object" ? {b1 info precedence} "::M ::A ::B ::nx::Object" ? {c1 info precedence} "::M ::A ::C ::B ::nx::Object" B destroy ? {a1 info precedence} "::M ::A ::nx::Object" ? {b1 info precedence} "::nx::Object" ? {c1 info precedence} "::C ::nx::Object" ? {M info mixinof -scope class} "::A" ? {M info mixinof -scope class -closure} "::A" ? {A info mixinof -scope class} "" } ########################################### # testing simple per class mixins with redefinition ########################################### nx::test case pcm-redefine { nx::Class create A nx::Class create B -mixin A nx::Class create C -superclass B C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {c1 info precedence} "::A ::C ::B ::nx::Object" ? {B info superclass -closure} "::nx::Object" ? {C info superclass -closure} "::B ::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {C info heritage} "::A ::B ::nx::Object" nx::Class create B -mixin A ? {B info superclass -closure} "::nx::Object" ? {C info superclass -closure} "::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {C info heritage} "::nx::Object" ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof} ::B ? {c1 info precedence} "::C ::nx::Object" B destroy ? {A info mixinof} "" ? {c1 info precedence} "::C ::nx::Object" } ########################################### # testing simple per class mixins with # redefinition and softrecreate ########################################### nx::test case pcm-redefine-soft { ::nsf::configure softrecreate true nx::Class create A nx::Class create B -mixin A nx::Class create C -superclass B C create c1 ? {B mixin get} ::A ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {c1 info precedence} "::A ::C ::B ::nx::Object" ? {B info superclass -closure} "::nx::Object" ? {C info superclass -closure} "::B ::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {C info heritage} "::A ::B ::nx::Object" nx::Class create B -mixin A ? {B info superclass -closure} "::nx::Object" ? {C info superclass -closure} "::B ::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {C info heritage} "::A ::B ::nx::Object" ? {B info mixin classes} ::A ? {A info mixinof -scope class} ::B ? {c1 info precedence} "::A ::C ::B ::nx::Object" B destroy ? {A info mixinof -scope class} "" ? {c1 info precedence} "::C ::nx::Object" } ########################################### # test of recreate with same superclass, # with softrecreate off ########################################### nx::test case precedence { ::nsf::configure softrecreate false nx::Class create O nx::Class create A -superclass O nx::Class create B -superclass A B create b1 A create a1 O create o1 ? {A info superclass} "::O" ? {B info heritage} "::A ::O ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::O ::nx::Object" ? {b1 info precedence} "::B ::A ::O ::nx::Object" # we recreate the class new, with the same superclass nx::Class create A -superclass O ? {A info superclass} "::O" ? {B info heritage} "::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "{} {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::nx::Object ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::nx::Object ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::nx::Object" ? {b1 info precedence} "::B ::nx::Object" } ########################################### # test of recreate with different superclass # with softrecreate on ########################################### nx::test case alternate-precedence { ::nsf::configure softrecreate false nx::Class create O nx::Class create A -superclass O nx::Class create B -superclass A B create b1 A create a1 O create o1 ? {A info superclass} "::O" ? {B info heritage} "::A ::O ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::O ::nx::Object" ? {b1 info precedence} "::B ::A ::O ::nx::Object" # we recreate the class new, with a different superclass nx::Class create A ? {A info superclass} "::nx::Object" ? {B info heritage} "::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "{} {} {}" ? {list [A info superclass] [B info superclass] [O info superclass]} "::nx::Object ::nx::Object ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::nx::Object ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::nx::Object" ? {b1 info precedence} "::B ::nx::Object" } ########################################### # test of recreate with same superclass, # with softrecreate on ########################################### nx::test case recreate-precedence { ::nsf::configure softrecreate true nx::Class create O nx::Class create A -superclass O nx::Class create B -superclass A B create b1 A create a1 O create o1 ? {A info superclass} "::O" ? {B info heritage} "::A ::O ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::O ::nx::Object" ? {b1 info precedence} "::B ::A ::O ::nx::Object" # we recreate the class new, with the same superclass nx::Class create A -superclass O ? {A info superclass} "::O" ? {B info heritage} "::A ::O ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::O ::nx::Object" ? {b1 info precedence} "::B ::A ::O ::nx::Object" } ########################################### # test of recreate with different superclass # with softrecreate on ########################################### nx::test case recreate-alternate-precedence { ::nsf::configure softrecreate true nx::Class create O nx::Class create A -superclass O nx::Class create B -superclass A B create b1 A create a1 O create o1 ? {B info heritage} "::A ::O ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} ::A" ? {list [A info superclass] [B info superclass] [O info superclass]} "::O ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::O ::nx::Object" ? {b1 info precedence} "::B ::A ::O ::nx::Object" # we recreate the class new, with a different superclass nx::Class create A ? {A info superclass} "::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {B info heritage} "::A ::nx::Object" ? {list [A info subclass] [B info subclass] [O info subclass]} "::B {} {}" ? {list [A info superclass] [B info superclass] [O info superclass]} "::nx::Object ::A ::nx::Object" ? {list [a1 info class] [b1 info class] [o1 info class]} "::A ::B ::O" ? {o1 info precedence} "::O ::nx::Object" ? {a1 info precedence} "::A ::nx::Object" ? {b1 info precedence} "::B ::A ::nx::Object" } ########################################### # testing simple per object mixins ########################################### nx::test case nx-mixinof { nx::Class create M nx::Class create A nx::Class create C C create c1 -object-mixin A C create c2 nx::Class create C2 -mixin A C2 create c22 ? {c1 object mixin get} ::A ? {c1 info object mixin classes} ::A ? {lsort [A info mixinof]} "::C2 ::c1" ? {M info mixinof} "" C mixin set M #? {M info mixinof -scope object} "::c1 ::c2" ? {M info mixinof -scope object} "" ? {M info mixinof -scope class} "::C" ? {M info mixinof -scope all} "::C" ? {M info mixinof} "::C" ? {lsort [A info mixinof]} "::C2 ::c1" ? {A info mixinof -scope object} "::c1" ? {A info mixinof -scope class} "::C2" c1 destroy ? {A info mixinof} "::C2" ? {M info mixinof} "::C" C destroy ? {M info mixinof} "" } # # Local variables: # mode: tcl # tcl-indent-level: 2 # indent-tabs-mode: nil # End: