! Copyright (C) 2005, 2006 Slava Pestov. ! See http://factorcode.org/license.txt for BSD license. IN: gadgets-layouts USING: errors gadgets generic hashtables kernel lists math namespaces sequences ; : invalidate ( gadget -- ) t swap set-gadget-relayout? ; : forget-pref-dim ( gadget -- ) f swap set-gadget-pref-dim ; : invalidate* ( gadget -- ) dup invalidate forget-pref-dim ; : relayout ( gadget -- ) #! Relayout and redraw a gadget and its parent before the #! next iteration of the event loop. Should be used when the #! gadget's size has potentially changed. See relayout-1. dup gadget-relayout? [ drop ] [ dup invalidate* dup gadget-root? [ add-invalid ] [ gadget-parent [ relayout ] when* ] if ] if ; : relayout-1 ( gadget -- ) #! Relayout and redraw a gadget before th next iteration of #! the event loop. Should be used if the gadget should be #! repainted, or if its internal layout changed, but its #! preferred size did not change. dup gadget-relayout? [ drop ] [ dup invalidate add-invalid ] if ; : toggle-visible ( gadget -- ) dup gadget-visible? not over set-gadget-visible? relayout-1 ; : set-gadget-dim ( dim gadget -- ) 2dup rect-dim = [ 2drop ] [ [ set-rect-dim ] keep dup add-invalid invalidate ] if ; GENERIC: pref-dim* ( gadget -- dim ) : pref-dim ( gadget -- dim ) dup gadget-pref-dim [ ] [ dup pref-dim* dup rot set-gadget-pref-dim ] ?if ; M: gadget pref-dim* rect-dim ; GENERIC: layout* ( gadget -- ) M: gadget layout* drop ; : prefer ( gadget -- ) dup pref-dim swap set-gadget-dim ; DEFER: layout : layout-children ( gadget -- ) [ layout ] each-child ; : layout ( gadget -- ) #! Position the children of the gadget inside the gadget. #! Note that nothing is done if the gadget does not need to #! be laid out. dup gadget-relayout? [ f over set-gadget-relayout? dup layout* dup layout-children ] when drop ; TUPLE: pack align fill gap ; : pref-dims ( gadget -- list ) [ pref-dim ] map ; : orient ( gadget seq1 seq2 -- seq ) >r >r gadget-orientation r> r> [ pick set-axis ] 2map nip ; : packed-dim-2 ( gadget sizes -- list ) [ over rect-dim over v- rot pack-fill v*n v+ ] map-with ; : packed-dims ( gadget sizes -- seq ) 2dup packed-dim-2 swap orient ; : packed-loc-1 ( gadget sizes -- seq ) { 0 0 0 } [ v+ over pack-gap v+ ] accumulate nip ; : packed-loc-2 ( gadget sizes -- seq ) [ >r dup pack-align swap rect-dim r> v- n*v [ >fixnum ] map ] map-with ; : packed-locs ( gadget sizes -- seq ) 2dup packed-loc-1 >r dupd packed-loc-2 r> orient ; : packed-layout ( gadget sizes -- ) over gadget-children >r dupd packed-dims r> 2dup [ set-gadget-dim ] 2each >r packed-locs r> [ set-rect-loc ] 2each ; C: pack ( vector -- pack ) #! gap: between each child. #! fill: 0 leaves default width, 1 fills to pack width. #! align: 0 left, 1/2 center, 1 right. dup delegate>gadget [ set-gadget-orientation ] keep 0 over set-pack-align 0 over set-pack-fill { 0 0 0 } over set-pack-gap ; : delegate>pack ( vector tuple -- ) >r r> set-delegate ; : ( -- pack ) { 0 1 0 } ; : ( -- pack ) { 1 0 0 } ; : pack-pref-dim ( children gadget -- dim ) [ >r [ max-dim ] keep [ { 0 0 0 } [ v+ ] reduce ] keep length 1 - 0 max r> pack-gap n*v v+ ] keep gadget-orientation set-axis ; M: pack pref-dim* ( pack -- dim ) [ gadget-children pref-dims ] keep pack-pref-dim ; M: pack layout* ( pack -- ) dup gadget-children pref-dims packed-layout ; : fast-children-on ( dim axis gadgets -- i ) swapd [ rect-loc origin get v+ v- over v. ] binsearch nip ; M: pack children-on ( rect pack -- list ) dup gadget-orientation swap gadget-children [ 3dup >r >r dup rect-loc swap rect-dim v+ r> r> fast-children-on 1+ >r >r >r rect-loc r> r> fast-children-on 0 max r> ] keep ; TUPLE: stack ; C: stack ( -- gadget ) #! A stack lays out all its children on top of each other. { 0 0 1 } over delegate>pack 1 over set-pack-fill ; M: stack children-on ( point stack -- gadget ) nip gadget-children ;