You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

1205 lines
32 KiB

# text.tcl --
#
# This file defines the default bindings for Tk text widgets and provides
# procedures that help in implementing the bindings.
#
# Copyright (c) 1992-1994 The Regents of the University of California.
# Copyright (c) 1994-1997 Sun Microsystems, Inc.
# Copyright (c) 1998 by Scriptics Corporation.
#
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
#
#-------------------------------------------------------------------------
# Elements of ::tk::Priv that are used in this file:
#
# afterId - If non-null, it means that auto-scanning is underway
# and it gives the "after" id for the next auto-scan
# command to be executed.
# char - Character position on the line; kept in order
# to allow moving up or down past short lines while
# still remembering the desired position.
# mouseMoved - Non-zero means the mouse has moved a significant
# amount since the button went down (so, for example,
# start dragging out a selection).
# prevPos - Used when moving up or down lines via the keyboard.
# Keeps track of the previous insert position, so
# we can distinguish a series of ups and downs, all
# in a row, from a new up or down.
# selectMode - The style of selection currently underway:
# char, word, or line.
# x, y - Last known mouse coordinates for scanning
# and auto-scanning.
#
#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
# The code below creates the default class bindings for text widgets.
#-------------------------------------------------------------------------
# Standard Motif bindings:
bind Text <1> {
tk::TextButton1 %W %x %y
%W tag remove sel 0.0 end
}
bind Text <B1-Motion> {
set tk::Priv(x) %x
set tk::Priv(y) %y
tk::TextSelectTo %W %x %y
}
bind Text <Double-1> {
set tk::Priv(selectMode) word
tk::TextSelectTo %W %x %y
catch {%W mark set insert sel.first}
}
bind Text <Triple-1> {
set tk::Priv(selectMode) line
tk::TextSelectTo %W %x %y
catch {%W mark set insert sel.first}
}
bind Text <Shift-1> {
tk::TextResetAnchor %W @%x,%y
set tk::Priv(selectMode) char
tk::TextSelectTo %W %x %y
}
bind Text <Double-Shift-1> {
set tk::Priv(selectMode) word
tk::TextSelectTo %W %x %y 1
}
bind Text <Triple-Shift-1> {
set tk::Priv(selectMode) line
tk::TextSelectTo %W %x %y
}
bind Text <B1-Leave> {
set tk::Priv(x) %x
set tk::Priv(y) %y
tk::TextAutoScan %W
}
bind Text <B1-Enter> {
tk::CancelRepeat
}
bind Text <ButtonRelease-1> {
tk::CancelRepeat
}
bind Text <Control-1> {
%W mark set insert @%x,%y
# An operation that moves the insert mark without making it
# one end of the selection must insert an autoseparator
if {[%W cget -autoseparators]} {
%W edit separator
}
}
# stop an accidental double click triggering <Double-Button-1>
bind Text <Double-Control-1> { # nothing }
# stop an accidental movement triggering <B1-Motion>
bind Text <Control-B1-Motion> { # nothing }
bind Text <<PrevChar>> {
tk::TextSetCursor %W insert-1displayindices
}
bind Text <<NextChar>> {
tk::TextSetCursor %W insert+1displayindices
}
bind Text <<PrevLine>> {
tk::TextSetCursor %W [tk::TextUpDownLine %W -1]
}
bind Text <<NextLine>> {
tk::TextSetCursor %W [tk::TextUpDownLine %W 1]
}
bind Text <<SelectPrevChar>> {
tk::TextKeySelect %W [%W index {insert - 1displayindices}]
}
bind Text <<SelectNextChar>> {
tk::TextKeySelect %W [%W index {insert + 1displayindices}]
}
bind Text <<SelectPrevLine>> {
tk::TextKeySelect %W [tk::TextUpDownLine %W -1]
}
bind Text <<SelectNextLine>> {
tk::TextKeySelect %W [tk::TextUpDownLine %W 1]
}
bind Text <<PrevWord>> {
tk::TextSetCursor %W [tk::TextPrevPos %W insert tcl_startOfPreviousWord]
}
bind Text <<NextWord>> {
tk::TextSetCursor %W [tk::TextNextWord %W insert]
}
bind Text <<PrevPara>> {
tk::TextSetCursor %W [tk::TextPrevPara %W insert]
}
bind Text <<NextPara>> {
tk::TextSetCursor %W [tk::TextNextPara %W insert]
}
bind Text <<SelectPrevWord>> {
tk::TextKeySelect %W [tk::TextPrevPos %W insert tcl_startOfPreviousWord]
}
bind Text <<SelectNextWord>> {
tk::TextKeySelect %W [tk::TextNextWord %W insert]
}
bind Text <<SelectPrevPara>> {
tk::TextKeySelect %W [tk::TextPrevPara %W insert]
}
bind Text <<SelectNextPara>> {
tk::TextKeySelect %W [tk::TextNextPara %W insert]
}
bind Text <Prior> {
tk::TextSetCursor %W [tk::TextScrollPages %W -1]
}
bind Text <Shift-Prior> {
tk::TextKeySelect %W [tk::TextScrollPages %W -1]
}
bind Text <Next> {
tk::TextSetCursor %W [tk::TextScrollPages %W 1]
}
bind Text <Shift-Next> {
tk::TextKeySelect %W [tk::TextScrollPages %W 1]
}
bind Text <Control-Prior> {
%W xview scroll -1 page
}
bind Text <Control-Next> {
%W xview scroll 1 page
}
bind Text <<LineStart>> {
tk::TextSetCursor %W {insert display linestart}
}
bind Text <<SelectLineStart>> {
tk::TextKeySelect %W {insert display linestart}
}
bind Text <<LineEnd>> {
tk::TextSetCursor %W {insert display lineend}
}
bind Text <<SelectLineEnd>> {
tk::TextKeySelect %W {insert display lineend}
}
bind Text <Control-Home> {
tk::TextSetCursor %W 1.0
}
bind Text <Control-Shift-Home> {
tk::TextKeySelect %W 1.0
}
bind Text <Control-End> {
tk::TextSetCursor %W {end - 1 indices}
}
bind Text <Control-Shift-End> {
tk::TextKeySelect %W {end - 1 indices}
}
bind Text <Tab> {
if {[%W cget -state] eq "normal"} {
tk::TextInsert %W \t
focus %W
break
}
}
bind Text <Shift-Tab> {
# Needed only to keep <Tab> binding from triggering; doesn't
# have to actually do anything.
break
}
bind Text <Control-Tab> {
focus [tk_focusNext %W]
}
bind Text <Control-Shift-Tab> {
focus [tk_focusPrev %W]
}
bind Text <Control-i> {
tk::TextInsert %W \t
}
bind Text <Return> {
tk::TextInsert %W \n
if {[%W cget -autoseparators]} {
%W edit separator
}
}
bind Text <Delete> {
if {[tk::TextCursorInSelection %W]} {
%W delete sel.first sel.last
} else {
if {[%W compare end != insert+1c]} {
%W delete insert
}
%W see insert
}
}
bind Text <BackSpace> {
if {[tk::TextCursorInSelection %W]} {
%W delete sel.first sel.last
} else {
if {[%W compare insert != 1.0]} {
%W delete insert-1c
}
%W see insert
}
}
bind Text <Control-space> {
%W mark set [tk::TextAnchor %W] insert
}
bind Text <Select> {
%W mark set [tk::TextAnchor %W] insert
}
bind Text <Control-Shift-space> {
set tk::Priv(selectMode) char
tk::TextKeyExtend %W insert
}
bind Text <Shift-Select> {
set tk::Priv(selectMode) char
tk::TextKeyExtend %W insert
}
bind Text <<SelectAll>> {
%W tag add sel 1.0 end
}
bind Text <<SelectNone>> {
%W tag remove sel 1.0 end
# An operation that clears the selection must insert an autoseparator,
# because the selection operation may have moved the insert mark
if {[%W cget -autoseparators]} {
%W edit separator
}
}
bind Text <<Cut>> {
tk_textCut %W
}
bind Text <<Copy>> {
tk_textCopy %W
}
bind Text <<Paste>> {
tk_textPaste %W
}
bind Text <<Clear>> {
# Make <<Clear>> an atomic operation on the Undo stack,
# i.e. separate it from other delete operations on either side
if {[%W cget -autoseparators]} {
%W edit separator
}
catch {%W delete sel.first sel.last}
if {[%W cget -autoseparators]} {
%W edit separator
}
}
bind Text <<PasteSelection>> {
if {$tk_strictMotif || ![info exists tk::Priv(mouseMoved)]
|| !$tk::Priv(mouseMoved)} {
tk::TextPasteSelection %W %x %y
}
}
bind Text <Insert> {
catch {tk::TextInsert %W [::tk::GetSelection %W PRIMARY]}
}
bind Text <KeyPress> {
tk::TextInsert %W %A
}
# Ignore all Alt, Meta, and Control keypresses unless explicitly bound.
# Otherwise, if a widget binding for one of these is defined, the
# <KeyPress> class binding will also fire and insert the character,
# which is wrong. Ditto for <Escape>.
bind Text <Alt-KeyPress> {# nothing }
bind Text <Meta-KeyPress> {# nothing}
bind Text <Control-KeyPress> {# nothing}
bind Text <Escape> {# nothing}
bind Text <KP_Enter> {# nothing}
if {[tk windowingsystem] eq "aqua"} {
bind Text <Command-KeyPress> {# nothing}
}
# Additional emacs-like bindings:
bind Text <Control-d> {
if {!$tk_strictMotif && [%W compare end != insert+1c]} {
%W delete insert
}
}
bind Text <Control-k> {
if {!$tk_strictMotif && [%W compare end != insert+1c]} {
if {[%W compare insert == {insert lineend}]} {
%W delete insert
} else {
%W delete insert {insert lineend}
}
}
}
bind Text <Control-o> {
if {!$tk_strictMotif} {
%W insert insert \n
%W mark set insert insert-1c
}
}
bind Text <Control-t> {
if {!$tk_strictMotif} {
tk::TextTranspose %W
}
}
bind Text <<Undo>> {
# An Undo operation may remove the separator at the top of the Undo stack.
# Then the item at the top of the stack gets merged with the subsequent changes.
# Place separators before and after Undo to prevent this.
if {[%W cget -autoseparators]} {
%W edit separator
}
catch { %W edit undo }
if {[%W cget -autoseparators]} {
%W edit separator
}
}
bind Text <<Redo>> {
catch { %W edit redo }
}
bind Text <Meta-b> {
if {!$tk_strictMotif} {
tk::TextSetCursor %W [tk::TextPrevPos %W insert tcl_startOfPreviousWord]
}
}
bind Text <Meta-d> {
if {!$tk_strictMotif && [%W compare end != insert+1c]} {
%W delete insert [tk::TextNextWord %W insert]
}
}
bind Text <Meta-f> {
if {!$tk_strictMotif} {
tk::TextSetCursor %W [tk::TextNextWord %W insert]
}
}
bind Text <Meta-less> {
if {!$tk_strictMotif} {
tk::TextSetCursor %W 1.0
}
}
bind Text <Meta-greater> {
if {!$tk_strictMotif} {
tk::TextSetCursor %W end-1c
}
}
bind Text <Meta-BackSpace> {
if {!$tk_strictMotif} {
%W delete [tk::TextPrevPos %W insert tcl_startOfPreviousWord] insert
}
}
bind Text <Meta-Delete> {
if {!$tk_strictMotif} {
%W delete [tk::TextPrevPos %W insert tcl_startOfPreviousWord] insert
}
}
# Macintosh only bindings:
if {[tk windowingsystem] eq "aqua"} {
bind Text <Control-v> {
tk::TextScrollPages %W 1
}
# End of Mac only bindings
}
# A few additional bindings of my own.
bind Text <Control-h> {
if {!$tk_strictMotif && [%W compare insert != 1.0]} {
%W delete insert-1c
%W see insert
}
}
bind Text <2> {
if {!$tk_strictMotif} {
tk::TextScanMark %W %x %y
}
}
bind Text <B2-Motion> {
if {!$tk_strictMotif} {
tk::TextScanDrag %W %x %y
}
}
set ::tk::Priv(prevPos) {}
# The MouseWheel will typically only fire on Windows and MacOS X.
# However, someone could use the "event generate" command to produce one
# on other platforms. We must be careful not to round -ve values of %D
# down to zero.
if {[tk windowingsystem] eq "aqua"} {
bind Text <MouseWheel> {
%W yview scroll [expr {-15 * (%D)}] pixels
}
bind Text <Option-MouseWheel> {
%W yview scroll [expr {-150 * (%D)}] pixels
}
bind Text <Shift-MouseWheel> {
%W xview scroll [expr {-15 * (%D)}] pixels
}
bind Text <Shift-Option-MouseWheel> {
%W xview scroll [expr {-150 * (%D)}] pixels
}
} else {
# We must make sure that positive and negative movements are rounded
# equally to integers, avoiding the problem that
# (int)1/3 = 0,
# but
# (int)-1/3 = -1
# The following code ensure equal +/- behaviour.
bind Text <MouseWheel> {
if {%D >= 0} {
%W yview scroll [expr {-%D/3}] pixels
} else {
%W yview scroll [expr {(2-%D)/3}] pixels
}
}
bind Text <Shift-MouseWheel> {
if {%D >= 0} {
%W xview scroll [expr {-%D/3}] pixels
} else {
%W xview scroll [expr {(2-%D)/3}] pixels
}
}
}
if {"x11" eq [tk windowingsystem]} {
# Support for mousewheels on Linux/Unix commonly comes through mapping
# the wheel to the extended buttons. If you have a mousewheel, find
# Linux configuration info at:
# http://www.inria.fr/koala/colas/mouse-wheel-scroll/
bind Text <4> {
if {!$tk_strictMotif} {
%W yview scroll -50 pixels
}
}
bind Text <5> {
if {!$tk_strictMotif} {
%W yview scroll 50 pixels
}
}
bind Text <Shift-4> {
if {!$tk_strictMotif} {
%W xview scroll -50 pixels
}
}
bind Text <Shift-5> {
if {!$tk_strictMotif} {
%W xview scroll 50 pixels
}
}
}
# ::tk::TextClosestGap --
# Given x and y coordinates, this procedure finds the closest boundary
# between characters to the given coordinates and returns the index
# of the character just after the boundary.
#
# Arguments:
# w - The text window.
# x - X-coordinate within the window.
# y - Y-coordinate within the window.
proc ::tk::TextClosestGap {w x y} {
set pos [$w index @$x,$y]
set bbox [$w bbox $pos]
if {$bbox eq ""} {
return $pos
}
if {($x - [lindex $bbox 0]) < ([lindex $bbox 2]/2)} {
return $pos
}
$w index "$pos + 1 char"
}
# ::tk::TextButton1 --
# This procedure is invoked to handle button-1 presses in text
# widgets. It moves the insertion cursor, sets the selection anchor,
# and claims the input focus.
#
# Arguments:
# w - The text window in which the button was pressed.
# x - The x-coordinate of the button press.
# y - The x-coordinate of the button press.
proc ::tk::TextButton1 {w x y} {
variable ::tk::Priv
set Priv(selectMode) char
set Priv(mouseMoved) 0
set Priv(pressX) $x
set anchorname [tk::TextAnchor $w]
$w mark set insert [TextClosestGap $w $x $y]
$w mark set $anchorname insert
# Set the anchor mark's gravity depending on the click position
# relative to the gap
set bbox [$w bbox [$w index $anchorname]]
if {$x > [lindex $bbox 0]} {
$w mark gravity $anchorname right
} else {
$w mark gravity $anchorname left
}
# Allow focus in any case on Windows, because that will let the
# selection be displayed even for state disabled text widgets.
if {[tk windowingsystem] eq "win32" \
|| [$w cget -state] eq "normal"} {
focus $w
}
if {[$w cget -autoseparators]} {
$w edit separator
}
}
# ::tk::TextSelectTo --
# This procedure is invoked to extend the selection, typically when
# dragging it with the mouse. Depending on the selection mode (character,
# word, line) it selects in different-sized units. This procedure
# ignores mouse motions initially until the mouse has moved from
# one character to another or until there have been multiple clicks.
#
# Note that the 'anchor' is implemented programmatically using
# a text widget mark, and uses a name that will be unique for each
# text widget (even when there are multiple peers). Currently the
# anchor is considered private to Tk, hence the name 'tk::anchor$w'.
#
# Arguments:
# w - The text window in which the button was pressed.
# x - Mouse x position.
# y - Mouse y position.
set ::tk::Priv(textanchoruid) 0
proc ::tk::TextAnchor {w} {
variable Priv
if {![info exists Priv(textanchor,$w)]} {
set Priv(textanchor,$w) tk::anchor[incr Priv(textanchoruid)]
}
return $Priv(textanchor,$w)
}
proc ::tk::TextSelectTo {w x y {extend 0}} {
variable ::tk::Priv
set anchorname [tk::TextAnchor $w]
set cur [TextClosestGap $w $x $y]
if {[catch {$w index $anchorname}]} {
$w mark set $anchorname $cur
}
set anchor [$w index $anchorname]
if {[$w compare $cur != $anchor] || (abs($Priv(pressX) - $x) >= 3)} {
set Priv(mouseMoved) 1
}
switch -- $Priv(selectMode) {
char {
if {[$w compare $cur < $anchorname]} {
set first $cur
set last $anchorname
} else {
set first $anchorname
set last $cur
}
}
word {
# Set initial range based only on the anchor (1 char min width)
if {[$w mark gravity $anchorname] eq "right"} {
set first $anchorname
set last "$anchorname + 1c"
} else {
set first "$anchorname - 1c"
set last $anchorname
}
# Extend range (if necessary) based on the current point
if {[$w compare $cur < $first]} {
set first $cur
} elseif {[$w compare $cur > $last]} {
set last $cur
}
# Now find word boundaries
set first [TextPrevPos $w "$first + 1c" tcl_wordBreakBefore]
set last [TextNextPos $w "$last - 1c" tcl_wordBreakAfter]
}
line {
# Set initial range based only on the anchor
set first "$anchorname linestart"
set last "$anchorname lineend"
# Extend range (if necessary) based on the current point
if {[$w compare $cur < $first]} {
set first "$cur linestart"
} elseif {[$w compare $cur > $last]} {
set last "$cur lineend"
}
set first [$w index $first]
set last [$w index "$last + 1c"]
}
}
if {$Priv(mouseMoved) || ($Priv(selectMode) ne "char")} {
$w tag remove sel 0.0 end
$w mark set insert $cur
$w tag add sel $first $last
$w tag remove sel $last end
update idletasks
}
}
# ::tk::TextKeyExtend --
# This procedure handles extending the selection from the keyboard,
# where the point to extend to is really the boundary between two
# characters rather than a particular character.
#
# Arguments:
# w - The text window.
# index - The point to which the selection is to be extended.
proc ::tk::TextKeyExtend {w index} {
set anchorname [tk::TextAnchor $w]
set cur [$w index $index]
if {[catch {$w index $anchorname}]} {
$w mark set $anchorname $cur
}
set anchor [$w index $anchorname]
if {[$w compare $cur < $anchorname]} {
set first $cur
set last $anchorname
} else {
set first $anchorname
set last $cur
}
$w tag remove sel 0.0 $first
$w tag add sel $first $last
$w tag remove sel $last end
}
# ::tk::TextPasteSelection --
# This procedure sets the insertion cursor to the mouse position,
# inserts the selection, and sets the focus to the window.
#
# Arguments:
# w - The text window.
# x, y - Position of the mouse.
proc ::tk::TextPasteSelection {w x y} {
$w mark set insert [TextClosestGap $w $x $y]
if {![catch {::tk::GetSelection $w PRIMARY} sel]} {
set oldSeparator [$w cget -autoseparators]
if {$oldSeparator} {
$w configure -autoseparators 0
$w edit separator
}
$w insert insert $sel
if {$oldSeparator} {
$w edit separator
$w configure -autoseparators 1
}
}
if {[$w cget -state] eq "normal"} {
focus $w
}
}
# ::tk::TextAutoScan --
# This procedure is invoked when the mouse leaves a text window
# with button 1 down. It scrolls the window up, down, left, or right,
# depending on where the mouse is (this information was saved in
# ::tk::Priv(x) and ::tk::Priv(y)), and reschedules itself as an "after"
# command so that the window continues to scroll until the mouse
# moves back into the window or the mouse button is released.
#
# Arguments:
# w - The text window.
proc ::tk::TextAutoScan {w} {
variable ::tk::Priv
if {![winfo exists $w]} {
return
}
if {$Priv(y) >= [winfo height $w]} {
$w yview scroll [expr {1 + $Priv(y) - [winfo height $w]}] pixels
} elseif {$Priv(y) < 0} {
$w yview scroll [expr {-1 + $Priv(y)}] pixels
} elseif {$Priv(x) >= [winfo width $w]} {
$w xview scroll 2 units
} elseif {$Priv(x) < 0} {
$w xview scroll -2 units
} else {
return
}
TextSelectTo $w $Priv(x) $Priv(y)
set Priv(afterId) [after 50 [list tk::TextAutoScan $w]]
}
# ::tk::TextSetCursor
# Move the insertion cursor to a given position in a text. Also
# clears the selection, if there is one in the text, and makes sure
# that the insertion cursor is visible. Also, don't let the insertion
# cursor appear on the dummy last line of the text.
#
# Arguments:
# w - The text window.
# pos - The desired new position for the cursor in the window.
proc ::tk::TextSetCursor {w pos} {
if {[$w compare $pos == end]} {
set pos {end - 1 chars}
}
$w mark set insert $pos
$w tag remove sel 1.0 end
$w see insert
if {[$w cget -autoseparators]} {
$w edit separator
}
}
# ::tk::TextKeySelect
# This procedure is invoked when stroking out selections using the
# keyboard. It moves the cursor to a new position, then extends
# the selection to that position.
#
# Arguments:
# w - The text window.
# new - A new position for the insertion cursor (the cursor hasn't
# actually been moved to this position yet).
proc ::tk::TextKeySelect {w new} {
set anchorname [tk::TextAnchor $w]
if {[$w tag nextrange sel 1.0 end] eq ""} {
if {[$w compare $new < insert]} {
$w tag add sel $new insert
} else {
$w tag add sel insert $new
}
$w mark set $anchorname insert
} else {
if {[$w compare $new < $anchorname]} {
set first $new
set last $anchorname
} else {
set first $anchorname
set last $new
}
$w tag remove sel 1.0 $first
$w tag add sel $first $last
$w tag remove sel $last end
}
$w mark set insert $new
$w see insert
update idletasks
}
# ::tk::TextResetAnchor --
# Set the selection anchor to whichever end is farthest from the
# index argument. One special trick: if the selection has two or
# fewer characters, just leave the anchor where it is. In this
# case it doesn't matter which point gets chosen for the anchor,
# and for the things like Shift-Left and Shift-Right this produces
# better behavior when the cursor moves back and forth across the
# anchor.
#
# Arguments:
# w - The text widget.
# index - Position at which mouse button was pressed, which determines
# which end of selection should be used as anchor point.
proc ::tk::TextResetAnchor {w index} {
if {[$w tag ranges sel] eq ""} {
# Don't move the anchor if there is no selection now; this
# makes the widget behave "correctly" when the user clicks
# once, then shift-clicks somewhere -- ie, the area between
# the two clicks will be selected. [Bug: 5929].
return
}
set anchorname [tk::TextAnchor $w]
set a [$w index $index]
set b [$w index sel.first]
set c [$w index sel.last]
if {[$w compare $a < $b]} {
$w mark set $anchorname sel.last
return
}
if {[$w compare $a > $c]} {
$w mark set $anchorname sel.first
return
}
scan $a "%d.%d" lineA chA
scan $b "%d.%d" lineB chB
scan $c "%d.%d" lineC chC
if {$lineB < $lineC+2} {
set total [string length [$w get $b $c]]
if {$total <= 2} {
return
}
if {[string length [$w get $b $a]] < ($total/2)} {
$w mark set $anchorname sel.last
} else {
$w mark set $anchorname sel.first
}
return
}
if {($lineA-$lineB) < ($lineC-$lineA)} {
$w mark set $anchorname sel.last
} else {
$w mark set $anchorname sel.first
}
}
# ::tk::TextCursorInSelection --
# Check whether the selection exists and contains the insertion cursor. Note
# that it assumes that the selection is contiguous.
#
# Arguments:
# w - The text widget whose selection is to be checked
proc ::tk::TextCursorInSelection {w} {
expr {
[llength [$w tag ranges sel]]
&& [$w compare sel.first <= insert]
&& [$w compare sel.last >= insert]
}
}
# ::tk::TextInsert --
# Insert a string into a text at the point of the insertion cursor.
# If there is a selection in the text, and it covers the point of the
# insertion cursor, then delete the selection before inserting.
#
# Arguments:
# w - The text window in which to insert the string
# s - The string to insert (usually just a single character)
proc ::tk::TextInsert {w s} {
if {$s eq "" || [$w cget -state] eq "disabled"} {
return
}
set compound 0
if {[TextCursorInSelection $w]} {
set oldSeparator [$w cget -autoseparators]
if {$oldSeparator} {
$w configure -autoseparators 0
$w edit separator
set compound 1
}
$w delete sel.first sel.last
}
$w insert insert $s
$w see insert
if {$compound && $oldSeparator} {
$w edit separator
$w configure -autoseparators 1
}
}
# ::tk::TextUpDownLine --
# Returns the index of the character one display line above or below the
# insertion cursor. There are two tricky things here. First, we want to
# maintain the original x position across repeated operations, even though
# some lines that will get passed through don't have enough characters to
# cover the original column. Second, don't try to scroll past the
# beginning or end of the text.
#
# Arguments:
# w - The text window in which the cursor is to move.
# n - The number of display lines to move: -1 for up one line,
# +1 for down one line.
proc ::tk::TextUpDownLine {w n} {
variable ::tk::Priv
set i [$w index insert]
if {$Priv(prevPos) ne $i} {
set Priv(textPosOrig) $i
}
set lines [$w count -displaylines $Priv(textPosOrig) $i]
set new [$w index \
"$Priv(textPosOrig) + [expr {$lines + $n}] displaylines"]
if {[$w compare $new == end] \
|| [$w compare $new == "insert display linestart"]} {
set new $i
}
set Priv(prevPos) $new
return $new
}
# ::tk::TextPrevPara --
# Returns the index of the beginning of the paragraph just before a given
# position in the text (the beginning of a paragraph is the first non-blank
# character after a blank line).
#
# Arguments:
# w - The text window in which the cursor is to move.
# pos - Position at which to start search.
proc ::tk::TextPrevPara {w pos} {
set pos [$w index "$pos linestart"]
while {1} {
if {([$w get "$pos - 1 line"] eq "\n" && ([$w get $pos] ne "\n")) \
|| $pos eq "1.0"} {
if {[regexp -indices -- {^[ \t]+(.)} \
[$w get $pos "$pos lineend"] -> index]} {
set pos [$w index "$pos + [lindex $index 0] chars"]
}
if {[$w compare $pos != insert] || [lindex [split $pos .] 0]==1} {
return $pos
}
}
set pos [$w index "$pos - 1 line"]
}
}
# ::tk::TextNextPara --
# Returns the index of the beginning of the paragraph just after a given
# position in the text (the beginning of a paragraph is the first non-blank
# character after a blank line).
#
# Arguments:
# w - The text window in which the cursor is to move.
# start - Position at which to start search.
proc ::tk::TextNextPara {w start} {
set pos [$w index "$start linestart + 1 line"]
while {[$w get $pos] ne "\n"} {
if {[$w compare $pos == end]} {
return [$w index "end - 1c"]
}
set pos [$w index "$pos + 1 line"]
}
while {[$w get $pos] eq "\n"} {
set pos [$w index "$pos + 1 line"]
if {[$w compare $pos == end]} {
return [$w index "end - 1c"]
}
}
if {[regexp -indices -- {^[ \t]+(.)} \
[$w get $pos "$pos lineend"] -> index]} {
return [$w index "$pos + [lindex $index 0] chars"]
}
return $pos
}
# ::tk::TextScrollPages --
# This is a utility procedure used in bindings for moving up and down
# pages and possibly extending the selection along the way. It scrolls
# the view in the widget by the number of pages, and it returns the
# index of the character that is at the same position in the new view
# as the insertion cursor used to be in the old view.
#
# Arguments:
# w - The text window in which the cursor is to move.
# count - Number of pages forward to scroll; may be negative
# to scroll backwards.
proc ::tk::TextScrollPages {w count} {
set bbox [$w bbox insert]
$w yview scroll $count pages
if {$bbox eq ""} {
return [$w index @[expr {[winfo height $w]/2}],0]
}
return [$w index @[lindex $bbox 0],[lindex $bbox 1]]
}
# ::tk::TextTranspose --
# This procedure implements the "transpose" function for text widgets.
# It tranposes the characters on either side of the insertion cursor,
# unless the cursor is at the end of the line. In this case it
# transposes the two characters to the left of the cursor. In either
# case, the cursor ends up to the right of the transposed characters.
#
# Arguments:
# w - Text window in which to transpose.
proc ::tk::TextTranspose w {
set pos insert
if {[$w compare $pos != "$pos lineend"]} {
set pos [$w index "$pos + 1 char"]
}
set new [$w get "$pos - 1 char"][$w get "$pos - 2 char"]
if {[$w compare "$pos - 1 char" == 1.0]} {
return
}
# ensure this is seen as an atomic op to undo
set autosep [$w cget -autoseparators]
if {$autosep} {
$w configure -autoseparators 0
$w edit separator
}
$w delete "$pos - 2 char" $pos
$w insert insert $new
$w see insert
if {$autosep} {
$w edit separator
$w configure -autoseparators $autosep
}
}
# ::tk_textCopy --
# This procedure copies the selection from a text widget into the
# clipboard.
#
# Arguments:
# w - Name of a text widget.
proc ::tk_textCopy w {
if {![catch {set data [$w get sel.first sel.last]}]} {
clipboard clear -displayof $w
clipboard append -displayof $w $data
}
}
# ::tk_textCut --
# This procedure copies the selection from a text widget into the
# clipboard, then deletes the selection (if it exists in the given
# widget).
#
# Arguments:
# w - Name of a text widget.
proc ::tk_textCut w {
if {![catch {set data [$w get sel.first sel.last]}]} {
# make <<Cut>> an atomic operation on the Undo stack,
# i.e. separate it from other delete operations on either side
set oldSeparator [$w cget -autoseparators]
if {$oldSeparator} {
$w edit separator
}
clipboard clear -displayof $w
clipboard append -displayof $w $data
$w delete sel.first sel.last
if {$oldSeparator} {
$w edit separator
}
}
}
# ::tk_textPaste --
# This procedure pastes the contents of the clipboard to the insertion
# point in a text widget.
#
# Arguments:
# w - Name of a text widget.
proc ::tk_textPaste w {
if {![catch {::tk::GetSelection $w CLIPBOARD} sel]} {
set oldSeparator [$w cget -autoseparators]
if {$oldSeparator} {
$w configure -autoseparators 0
$w edit separator
}
if {[tk windowingsystem] ne "x11"} {
catch { $w delete sel.first sel.last }
}
$w insert insert $sel
if {$oldSeparator} {
$w edit separator
$w configure -autoseparators 1
}
}
}
# ::tk::TextNextWord --
# Returns the index of the next word position after a given position in the
# text. The next word is platform dependent and may be either the next
# end-of-word position or the next start-of-word position after the next
# end-of-word position.
#
# Arguments:
# w - The text window in which the cursor is to move.
# start - Position at which to start search.
if {[tk windowingsystem] eq "win32"} {
proc ::tk::TextNextWord {w start} {
TextNextPos $w [TextNextPos $w $start tcl_endOfWord] \
tcl_startOfNextWord
}
} else {
proc ::tk::TextNextWord {w start} {
TextNextPos $w $start tcl_endOfWord
}
}
# ::tk::TextNextPos --
# Returns the index of the next position after the given starting
# position in the text as computed by a specified function.
#
# Arguments:
# w - The text window in which the cursor is to move.
# start - Position at which to start search.
# op - Function to use to find next position.
proc ::tk::TextNextPos {w start op} {
set text ""
set cur $start
while {[$w compare $cur < end]} {
set text $text[$w get -displaychars $cur "$cur lineend + 1c"]
set pos [$op $text 0]
if {$pos >= 0} {
return [$w index "$start + $pos display chars"]
}
set cur [$w index "$cur lineend +1c"]
}
return end
}
# ::tk::TextPrevPos --
# Returns the index of the previous position before the given starting
# position in the text as computed by a specified function.
#
# Arguments:
# w - The text window in which the cursor is to move.
# start - Position at which to start search.
# op - Function to use to find next position.
proc ::tk::TextPrevPos {w start op} {
set text ""
set cur $start
while {[$w compare $cur > 0.0]} {
set text [$w get -displaychars "$cur linestart - 1c" $cur]$text
set pos [$op $text end]
if {$pos >= 0} {
return [$w index "$cur linestart - 1c + $pos display chars"]
}
set cur [$w index "$cur linestart - 1c"]
}
return 0.0
}
# ::tk::TextScanMark --
#
# Marks the start of a possible scan drag operation
#
# Arguments:
# w - The text window from which the text to get
# x - x location on screen
# y - y location on screen
proc ::tk::TextScanMark {w x y} {
variable ::tk::Priv
$w scan mark $x $y
set Priv(x) $x
set Priv(y) $y
set Priv(mouseMoved) 0
}
# ::tk::TextScanDrag --
#
# Marks the start of a possible scan drag operation
#
# Arguments:
# w - The text window from which the text to get
# x - x location on screen
# y - y location on screen
proc ::tk::TextScanDrag {w x y} {
variable ::tk::Priv
# Make sure these exist, as some weird situations can trigger the
# motion binding without the initial press. [Bug #220269]
if {![info exists Priv(x)]} {
set Priv(x) $x
}
if {![info exists Priv(y)]} {
set Priv(y) $y
}
if {($x != $Priv(x)) || ($y != $Priv(y))} {
set Priv(mouseMoved) 1
}
if {[info exists Priv(mouseMoved)] && $Priv(mouseMoved)} {
$w scan dragto $x $y
}
}