# ------------------------------------------------------------ # Some tcl scripts used from erlang # By Ola Samuelsson in May 1995 # © Ericsson Software Technology / Erlang System # ------------------------------------------------------------ package require Tk 8.3 # Scrolled object. # This is a script that creates a # scrolled object of specified type # and connects it with scrollbars. # # Give a name for the frame and you'll find # name.z, # name.sy, # name.pad.sx # name.pad.it # proc so_create {type w} { set parent [frame $w] eval {$type $parent.z -highlightt 0} $parent.z config -yscrollcommand [list $parent.sy set] \ -xscrollcommand [list $parent.pad.sx set] scrollbar $parent.sy -orient vertical -takefocus 0 \ -command [list $parent.z yview] # create extra frame to hold pad frame $parent.pad scrollbar $parent.pad.sx -orient horizontal -takefocus 0 \ -command [list $parent.z xview] #create padding based on the scrollbars width set pad [expr [$parent.sy cget -width] + 2 * \ ([$parent.sy cget -bd] + \ [$parent.sy cget -highlightthickness])] frame $parent.pad.it -width $pad -height $pad # Arrange everything so_plain $parent return $parent } proc so_top_right {w} { so_unpack $w pack $w.pad -side top -fill x pack $w.pad.it -side right pack $w.pad.sx -side top -fill x pack $w.sy -side right -fill y pack $w.z -side left -fill both -expand true } proc so_top_left {w} { so_unpack $w pack $w.pad -side top -fill x pack $w.pad.it -side left pack $w.pad.sx -side top -fill x pack $w.sy -side left -fill y pack $w.z -side right -fill both -expand true } proc so_bottom_right {w} { so_unpack $w pack $w.pad -side bottom -fill x pack $w.pad.it -side right pack $w.pad.sx -side bottom -fill x pack $w.sy -side right -fill y pack $w.z -side left -fill both -expand true } proc so_bottom_left {w} { so_unpack $w pack $w.pad -side bottom -fill x pack $w.pad.it -side left pack $w.pad.sx -side bottom -fill x pack $w.sy -side left -fill y pack $w.z -side right -fill both -expand true } proc so_bottom {w} { so_unpack $w pack $w.pad -side bottom -fill x pack $w.pad.sx -side bottom -fill x pack $w.z -side left -fill both -expand true } proc so_top {w} { so_unpack $w pack $w.pad -side top -fill x pack $w.pad.sx -side top -fill x pack $w.z -side left -fill both -expand true } proc so_right {w} { so_unpack $w pack $w.sy -side right -fill y pack $w.z -side left -fill both -expand true } proc so_left {w} { so_unpack $w pack $w.sy -side left -fill y pack $w.z -side right -fill both -expand true } proc so_plain {w} { so_unpack $w pack $w.z -side left -fill both -expand true } proc so_unpack {w} { pack forget $w.pad.it pack forget $w.pad.sx pack forget $w.pad pack forget $w.sy pack forget $w.z } # ------------------------------------------------------------ # editor stuff proc ed_load {w file} { if [catch {open $file r} fileId] { report "$fileId" return -code error } else { $w delete 1.0 end while {![eof $fileId]} { $w insert end [read $fileId 1000] } close $fileId } } proc ed_save {w file} { if [catch {open $file w} fileId] { report "$fileId" return -code error } else { puts -nonewline $fileId [$w get 1.0 end] close $fileId } } # returns rect1 text1 rect2 text2 ... proc mkgrid {canvas colws startrow endrow height font fg bg} { set res [list] set ncols [llength $colws] set y [expr ($startrow-1)*$height+$startrow] for {set row $startrow} {$row <= $endrow} {incr row} { set x 1 for {set col 0} {$col < $ncols} {incr col} { set colw [lindex $colws $col] # each object is tagged q # is this (ugly) way we can find to what column an object belongs # even later... set r [$canvas create re $x $y [expr $x+$colw] [expr $y+$height]\ -f $bg -outline $fg -tag "q$col"] set t [$canvas create te [expr $x+2] [expr $y+2]\ -anch nw -fo $font -fi $fg -tag "q$col"] $canvas raise $t lappend res $r $t set x [expr $x+$colw+1] } set y [expr $y+$height+1] } return $res } # new x values proc calc_new_xs {colws} { set ncols [llength $colws] set res [list] set x 1 for {set col 0} {$col < $ncols} {incr col} { lappend res $x set x [expr $x+1+[lindex $colws $col]] } lappend res $x return $res } proc resize_grid_cols {canvas colws} { set item 1 set xs [calc_new_xs $colws] while {[set nbr_of_coords\ [llength [set coords [$canvas coords $item]]]] > 0} { set tags [$canvas itemcget $item -tag] set first [string first "q" $tags] # find the column of the current object by # searching for the q tag. set col [string range $tags [expr 1 + $first]\ [expr [string wordend $tags $first] -1]] switch $nbr_of_coords { 2 { # a text object set y [lindex $coords 1] set newx [expr [lindex $xs $col] + 2] $canvas coords $item $newx $y } 4 { # a rectangle object set y1 [lindex $coords 1] set y2 [lindex $coords 3] set newx1 [lindex $xs $col] set newx2 [expr [lindex $xs [expr $col + 1]]-1] $canvas coords $item $newx1 $y1 $newx2 $y2 } } set item [expr $item+1] } } # ------------------------------------------------------------ # A wish init script to make it possible for # Tcl/Tk and erlang to communicate. # Written by Ola Samuelsson in August 1995 # © Ericsson Software Technology AB / Erlang Systems # ------------------------------------------------------------ # Protocol: # \1 = it's an event # \2 = it's a reply for a call # \3 = it's a error reply for call # \4 = it's an error # \5 = stopbyte (end of message) proc erlsend {args} { global outstream set msg [join $args] puts -nonewline $outstream [binary format Ica* \ [expr 1 + [string length $msg]] 1 $msg] flush $outstream } proc erlcall {w} { global outstream set errcode [catch $w result] if {$errcode == 0} { puts -nonewline $outstream [binary format Ica* \ [expr 1 + [string length $result]] 2 $result] flush $outstream } else { puts -nonewline $outstream [binary format Ica* \ [expr 1 + [string length $result]] 3 $result] flush $outstream } } proc erlexec {w} { set errcode [catch $w result] if {$errcode != 0} { global outstream puts -nonewline $outstream [binary format Ica* \ [expr 1 + [string length $result]] 4 $result] flush $outstream } } proc erlerror {w} { global outstream puts -nonewline $outstream [binary format Ica* \ [expr 1 + [string length $w]] 4 $w] flush $outstream } proc report {s} { catch {console show} puts -nonewline stderr "$s\r\n" } wm withdraw . # The stdin stream is by default in line buffering mode. # We set non blocking so that if the line is large we are # not blocked until we get all data. The gets command # will never give us a line until we have read it all # so we do nothing if we get the return code -1. # Note that -1 also means eof so we check that. # FIXME: What is the default encoding on Unix? # Do we need to set "-encoding iso8859-1" ? # FIXME: If pipe we should do "catch {close $pipe}" # but we don't do that on stdin do we? If not how # do we unregister from 'fileevent'? # The ending "vwait forever" will block # until all streams are closed. # FIXME: How are we terminated? No check for eof? # If we got something on the command line after -- # we have a port number and we are to use sockets # for the communication. set privdir [lindex $argv 0] set portno [lindex $argv 1] #report $argv #report $privdir #report $portno set resfile [file join $privdir gs-xdefaults] # FIXME we may use 'startupFile' as priority level to enable the user # to use .Xdefaults to override things but I think this require that # we change gs-xdefaults to use Tk*Option format? if [catch {option readfile $resfile} err] { report "Error reading $resfile: $err" } if {$portno == ""} { global use_socket set use_socket 0 set instream stdin set outstream stdout # We are only allowed to set non blocking output # for pipes because sockets are bidirectional # and the fconfigure sets both input and output. fconfigure stdout -buffering none -blocking false \ -translation binary -encoding binary } else { global use_socket set use_socket 1 set sock [socket 127.0.0.1 $portno] set instream $sock set outstream $sock } fconfigure $instream -buffering none -blocking true \ -translation binary -encoding binary fileevent $instream readable do_read proc do_read {} { global instream binary scan [read $instream 4] I len if {[eof $instream]} { catch {close $instream} exit } # report {"LEN $len"} # FIXME need to read again if less then $len ????? set command [read $instream $len] if {[eof $instream]} { catch {close $instream} exit } # report {"INMSG $command EOMSG"} if [catch {uplevel #0 $command} msg] { report {$msg} } else { if {[string length $msg] != 0} { # report {"OUTMSG $msg EOMSG"} puts -nonewline $instream [binary format Ia* \ [string length $msg] $msg] } } }