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Direktori : /proc/self/root/proc/thread-self/root/proc/self/root/usr/lib64/tcl8.5/Tix8.4.3/ |
Current File : //proc/self/root/proc/thread-self/root/proc/self/root/usr/lib64/tcl8.5/Tix8.4.3/SWindow.tcl |
# -*- mode: TCL; fill-column: 75; tab-width: 8; coding: iso-latin-1-unix -*- # # $Id: SWindow.tcl,v 1.4 2001/12/09 05:04:02 idiscovery Exp $ # # SWindow.tcl -- # # This file implements Scrolled Window widgets # # Copyright (c) 1993-1999 Ioi Kim Lam. # Copyright (c) 2000-2001 Tix Project Group. # # See the file "license.terms" for information on usage and redistribution # of this file, and for a DISCLAIMER OF ALL WARRANTIES. # # # # Example: # # tixScrolledWindow .w # set window [.w subwidget window] # # Now you can put a whole widget hierachy inside $window. # # # button $window.b # pack $window.b # # Author's note # # Note, the current implementation does not allow the child window # to be outside of the parent window when the parent's size is larger # than the child's size. This is fine for normal operations. However, # it is not suitable for an MDI master window. Therefore, you will notice # that the MDI master window is not a subclass of ScrolledWidget at all. # # tixWidgetClass tixScrolledWindow { -classname TixScrolledWindow -superclass tixScrolledWidget -method { } -flag { -expandmode -shrink -xscrollincrement -yscrollincrement } -static { } -configspec { {-expandmode expandMode ExpandMode expand} {-shrink shrink Shrink ""} {-xscrollincrement xScrollIncrement ScrollIncrement ""} {-yscrollincrement yScrollIncrement ScrollIncrement ""} {-scrollbarspace scrollbarSpace ScrollbarSpace {both}} } -default { {.scrollbar auto} {*window.borderWidth 1} {*f1.borderWidth 1} {*Scrollbar.borderWidth 1} {*Scrollbar.takeFocus 0} } } proc tixScrolledWindow:InitWidgetRec {w} { upvar #0 $w data tixChainMethod $w InitWidgetRec set data(dx) 0 set data(dy) 0 } proc tixScrolledWindow:ConstructWidget {w} { upvar #0 $w data global tcl_platform tixChainMethod $w ConstructWidget set data(pw:f1) \ [frame $w.f1 -relief sunken] set data(pw:f2) \ [frame $w.f2 -bd 0] set data(w:window) \ [frame $w.f2.window -bd 0] pack $data(pw:f2) -in $data(pw:f1) -expand yes -fill both set data(w:hsb) \ [scrollbar $w.hsb -orient horizontal -takefocus 0] set data(w:vsb) \ [scrollbar $w.vsb -orient vertical -takefocus 0] # set data(w:pann) \ # [frame $w.pann -bd 2 -relief groove] $data(pw:f1) config -highlightthickness \ [$data(w:hsb) cget -highlightthickness] set data(pw:client) $data(pw:f1) } proc tixScrolledWindow:SetBindings {w} { upvar #0 $w data tixChainMethod $w SetBindings $data(w:hsb) config -command "tixScrolledWindow:ScrollBarCB $w x" $data(w:vsb) config -command "tixScrolledWindow:ScrollBarCB $w y" tixManageGeometry $data(w:window) "tixScrolledWindow:WindowGeomProc $w" } # This guy just keeps asking for a same size as the w:window # proc tixScrolledWindow:WindowGeomProc {w args} { upvar #0 $w data set rw [winfo reqwidth $data(w:window)] set rh [winfo reqheight $data(w:window)] if {$rw != [winfo reqwidth $data(pw:f2)] || $rh != [winfo reqheight $data(pw:f2)]} { tixGeometryRequest $data(pw:f2) $rw $rh } } proc tixScrolledWindow:Scroll {w axis total window first args} { upvar #0 $w data case [lindex $args 0] { "scroll" { set amt [lindex $args 1] set unit [lindex $args 2] case $unit { "units" { set incr $axis\scrollincrement if {$data(-$incr) != ""} { set by $data(-$incr) } else { set by [expr $window / 16] } set first [expr $first + $amt * $by] } "pages" { set first [expr $first + $amt * $window] } } } "moveto" { set to [lindex $args 1] set first [expr int($to * $total)] } } if {[expr $first + $window] > $total} { set first [expr $total - $window] } if {$first < 0} { set first 0 } return $first } proc tixScrolledWindow:ScrollBarCB {w axis args} { upvar #0 $w data set bd \ [expr [$data(pw:f1) cget -bd] + [$data(pw:f1) cget -highlightthickness]] set fw [expr [winfo width $data(pw:f1)] - 2*$bd] set fh [expr [winfo height $data(pw:f1)] - 2*$bd] set ww [winfo reqwidth $data(w:window)] set wh [winfo reqheight $data(w:window)] if {$axis == "x"} { set data(dx) \ [eval tixScrolledWindow:Scroll $w $axis $ww $fw $data(dx) $args] } else { set data(dy) \ [eval tixScrolledWindow:Scroll $w $axis $wh $fh $data(dy) $args] } tixWidgetDoWhenIdle tixScrolledWindow:PlaceWindow $w } proc tixScrolledWindow:PlaceWindow {w} { upvar #0 $w data set bd \ [expr [$data(pw:f1) cget -bd] + [$data(pw:f1) cget -highlightthickness]] set fw [expr [winfo width $data(pw:f1)] - 2*$bd] set fh [expr [winfo height $data(pw:f1)] - 2*$bd] set ww [winfo reqwidth $data(w:window)] set wh [winfo reqheight $data(w:window)] tixMapWindow $data(w:window) if {$data(-expandmode) == "expand"} { if {$ww < $fw} { set ww $fw } if {$wh < $fh} { set wh $fh } } if {$data(-shrink) == "x"} { if {$fw < $ww} { set ww $fw } } tixMoveResizeWindow $data(w:window) -$data(dx) -$data(dy) $ww $wh set first [expr $data(dx).0 / $ww.0] set last [expr $first + ($fw.0 / $ww.0)] $data(w:hsb) set $first $last set first [expr $data(dy).0 / $wh.0] set last [expr $first + ($fh.0 / $wh.0)] $data(w:vsb) set $first $last } #---------------------------------------------------------------------- # virtual functions to query the client window's scroll requirement # # When this function is called, the scrolled window is going to be # mapped, if it is still unmapped. Also, it is going to change its # size. Therefore, it is a good time to check whether the w:window needs # to be re-positioned due to the new parent window size. #---------------------------------------------------------------------- proc tixScrolledWindow:GeometryInfo {w mW mH} { upvar #0 $w data set bd \ [expr [$data(pw:f1) cget -bd] + [$data(pw:f1) cget -highlightthickness]] set fw [expr $mW -2*$bd] set fh [expr $mH -2*$bd] set ww [winfo reqwidth $data(w:window)] set wh [winfo reqheight $data(w:window)] # Calculate the X info # if {$fw >= $ww} { if {$data(dx) > 0} { set data(dx) 0 } set xinfo [list 0.0 1.0] } else { set maxdx [expr $ww - $fw] if {$data(dx) > $maxdx} { set data(dx) $maxdx } set first [expr $data(dx).0 / $ww.0] set last [expr $first + ($fw.0 / $ww.0)] set xinfo [list $first $last] } # Calculate the Y info # if {$fh >= $wh} { if {$data(dy) > 0} { set data(dy) 0 } set yinfo [list 0.0 1.0] } else { set maxdy [expr $wh - $fh] if {$data(dy) > $maxdy} { set data(dy) $maxdy } set first [expr $data(dy).0 / $wh.0] set last [expr $first + ($fh.0 / $wh.0)] set yinfo [list $first $last] } return [list $xinfo $yinfo] }