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4eca697b2d
* src/stringprep/uni_parse.tcl: Now handle all Unicode code points up to U+10FFFF * src/stringprep/uni_parse2.tcl: Likewise * src/stringprep/uni_data.c: Regenerated * src/stringprep/uni_norm.c: Likewise SVN Revision: 343
438 lines
10 KiB
Tcl
438 lines
10 KiB
Tcl
# uni_parse.tcl --
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#
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# This program parses the UnicodeData file and generates the
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# corresponding uni_data.c file with compressed character
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# data tables. The input to this program should be rfc3454.txt
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#
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# Copyright (c) 1998-1999 by Scriptics Corporation.
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# All rights reserved.
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#
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# Modified for ejabberd by Alexey Shchepin
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#
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# RCS: @(#) $Id$
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namespace eval uni {
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set shift 8; # number of bits of data within a page
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# This value can be adjusted to find the
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# best split to minimize table size
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variable pMap; # map from page to page index, each entry is
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# an index into the pages table, indexed by
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# page number
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variable pages; # map from page index to page info, each
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# entry is a list of indices into the groups
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# table, the list is indexed by the offset
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variable groups; # list of character info values, indexed by
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# group number, initialized with the
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# unassigned character group
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}
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proc uni::getValue {i} {
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variable casemap
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variable casemap2
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variable tablemap
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if {[info exists tablemap($i)]} {
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set tables $tablemap($i)
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} else {
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set tables {}
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}
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if {[info exists casemap2($i)]} {
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set multicase 1
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set delta $casemap2($i)
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} else {
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set multicase 0
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if {[info exists casemap($i)]} {
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set delta $casemap($i)
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} else {
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set delta 0
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}
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}
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if {abs($delta) > 0xFFFFF} {
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puts "delta must be less than 22 bits wide"
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exit
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}
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set ac 0
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set c11 0
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set c21 0
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set b1 0
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set d1 0
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set d2 0
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set xnp 0
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foreach tab $tables {
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switch -glob -- $tab {
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C.1.1 {set c11 1}
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C.2.1 {set c21 1}
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C.* {set ac 1}
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A.1 {set ac 1}
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B.1 {set b1 1}
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D.1 {set d1 1}
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D.2 {set d2 1}
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XNP {set xnp 1}
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}
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}
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set val [expr {($ac << 0) |
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($c11 << 1) |
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($c21 << 2) |
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($b1 << 3) |
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($d1 << 4) |
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($d2 << 5) |
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($xnp << 6) |
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($multicase << 7) |
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($delta << 11)}]
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return $val
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}
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proc uni::getGroup {value} {
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variable groups
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set gIndex [lsearch -exact $groups $value]
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if {$gIndex == -1} {
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set gIndex [llength $groups]
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lappend groups $value
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}
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return $gIndex
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}
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proc uni::addPage {info} {
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variable pMap
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variable pages
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variable pages_map
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if {[info exists pages_map($info)]} {
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lappend pMap $pages_map($info)
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} else {
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set pIndex [llength $pages]
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lappend pages $info
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set pages_map($info) $pIndex
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lappend pMap $pIndex
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}
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return
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}
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proc uni::load_tables {data} {
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variable casemap
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variable casemap2
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variable multicasemap
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variable tablemap
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set multicasemap {}
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set table ""
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foreach line [split $data \n] {
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if {$table == ""} {
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if {[regexp { ----- Start Table (.*) -----} $line temp table]} {
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#puts "Start table '$table'"
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}
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} else {
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if {[regexp { ----- End Table (.*) -----} $line temp table1]} {
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set table ""
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} else {
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if {$table == "B.1"} {
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if {[regexp {^ ([[:xdigit:]]+); ;} $line \
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temp val]} {
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scan $val %x val
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if {$val <= 0x10ffff} {
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lappend tablemap($val) $table
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}
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}
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} elseif {$table == "B.2"} {
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if {[regexp {^ ([[:xdigit:]]+); ([[:xdigit:]]+);} $line \
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temp from to]} {
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scan $from %x from
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scan $to %x to
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if {$from <= 0x10ffff && $to <= 0x10ffff} {
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set casemap($from) [expr {$to - $from}]
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}
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} elseif {[regexp {^ ([[:xdigit:]]+); ([[:xdigit:]]+) ([[:xdigit:]]+);} $line \
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temp from to1 to2]} {
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scan $from %x from
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scan $to1 %x to1
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scan $to2 %x to2
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if {$from <= 0x10ffff && \
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$to1 <= 0x10ffff && $to2 <= 0x10ffff} {
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set casemap2($from) [llength $multicasemap]
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lappend multicasemap [list $to1 $to2]
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}
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} elseif {[regexp {^ ([[:xdigit:]]+); ([[:xdigit:]]+) ([[:xdigit:]]+) ([[:xdigit:]]+);} $line \
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temp from to1 to2 to3]} {
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scan $from %x from
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scan $to1 %x to1
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scan $to2 %x to2
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scan $to3 %x to3
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if {$from <= 0x10ffff && \
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$to1 <= 0x10ffff && $to2 <= 0x10ffff && \
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$to3 <= 0x10ffff} {
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set casemap2($from) [llength $multicasemap]
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lappend multicasemap [list $to1 $to2 $to3]
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}
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} else {
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#puts "missed: $line"
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}
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} elseif {$table != "B.3"} {
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if {[regexp {^ ([[:xdigit:]]+)-([[:xdigit:]]+)} $line \
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temp from to]} {
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scan $from %x from
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scan $to %x to
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for {set i $from} {$i <= $to && $i <= 0x10ffff} {incr i} {
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lappend tablemap($i) $table
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}
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} elseif {[regexp {^ ([[:xdigit:]]+)} $line \
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temp val]} {
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scan $val %x val
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if {$val <= 0x10ffff} {
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lappend tablemap($val) $table
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}
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}
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}
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}
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}
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}
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# XMPP nodeprep prohibited
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foreach val {22 26 27 2f 3a 3c 3e 40} {
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scan $val %x val
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lappend tablemap($val) XNP
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}
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}
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proc uni::buildTables {} {
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variable shift
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variable casemap
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variable tablemap
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variable pMap {}
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variable pages {}
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variable groups {}
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set info {} ;# temporary page info
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set mask [expr {(1 << $shift) - 1}]
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set next 0
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for {set i 0} {$i <= 0x10ffff} {incr i} {
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set gIndex [getGroup [getValue $i]]
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# Split character index into offset and page number
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set offset [expr {$i & $mask}]
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set page [expr {($i >> $shift)}]
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# Add the group index to the info for the current page
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lappend info $gIndex
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# If this is the last entry in the page, add the page
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if {$offset == $mask} {
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addPage $info
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set info {}
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}
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}
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return
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}
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proc uni::main {} {
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global argc argv0 argv
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variable pMap
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variable pages
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variable groups
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variable shift
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variable multicasemap
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if {$argc != 2} {
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puts stderr "\nusage: $argv0 <datafile> <outdir>\n"
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exit 1
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}
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set f [open [lindex $argv 0] r]
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set data [read $f]
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close $f
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load_tables $data
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buildTables
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puts "X = [llength $pMap] Y= [llength $pages] A= [llength $groups]"
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set size [expr {[llength $pMap] + [llength $pages]*(1<<$shift)}]
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puts "shift = $shift, space = $size"
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set f [open [file join [lindex $argv 1] uni_data.c] w]
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fconfigure $f -translation lf
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puts $f "/*
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* uni_data.c --
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*
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* Declarations of Unicode character information tables. This file is
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* automatically generated by the uni_parse.tcl script. Do not
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* modify this file by hand.
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*
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* Copyright (c) 1998 by Scriptics Corporation.
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* All rights reserved.
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*
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* Modified for ejabberd by Alexey Shchepin
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*
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* RCS: @(#) \$Id\$
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*/
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/*
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* A 16-bit Unicode character is split into two parts in order to index
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* into the following tables. The lower OFFSET_BITS comprise an offset
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* into a page of characters. The upper bits comprise the page number.
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*/
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#define OFFSET_BITS $shift
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/*
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* The pageMap is indexed by page number and returns an alternate page number
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* that identifies a unique page of characters. Many Unicode characters map
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* to the same alternate page number.
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*/
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static unsigned char pageMap\[\] = {"
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set line " "
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set last [expr {[llength $pMap] - 1}]
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for {set i 0} {$i <= $last} {incr i} {
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append line [lindex $pMap $i]
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if {$i != $last} {
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append line ", "
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}
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if {[string length $line] > 70} {
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puts $f $line
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set line " "
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}
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}
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puts $f $line
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puts $f "};
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/*
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* The groupMap is indexed by combining the alternate page number with
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* the page offset and returns a group number that identifies a unique
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* set of character attributes.
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*/
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static unsigned short int groupMap\[\] = {"
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set line " "
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set lasti [expr {[llength $pages] - 1}]
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for {set i 0} {$i <= $lasti} {incr i} {
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set page [lindex $pages $i]
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set lastj [expr {[llength $page] - 1}]
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for {set j 0} {$j <= $lastj} {incr j} {
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append line [lindex $page $j]
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if {$j != $lastj || $i != $lasti} {
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append line ", "
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}
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if {[string length $line] > 70} {
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puts $f $line
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set line " "
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}
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}
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}
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puts $f $line
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puts $f "};
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/*
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* Each group represents a unique set of character attributes. The attributes
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* are encoded into a 32-bit value as follows:
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*
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* Bit 0 A.1 | C.1.2 | C.2.2 | C.3 -- C.9
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*
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* Bit 1 C.1.1
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*
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* Bit 2 C.2.1
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*
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* Bit 3 B.1
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*
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* Bit 4 D.1
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*
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* Bit 5 D.2
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*
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* Bit 6 XNP
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*
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* Bit 7 Case maps to several characters
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*
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* Bits 8-10 Reserved for future use.
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*
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* Bits 11-31 Case delta: delta for case conversions. This should be the
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* highest field so we can easily sign extend.
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*/
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static int groups\[\] = {"
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set line " "
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set last [expr {[llength $groups] - 1}]
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for {set i 0} {$i <= $last} {incr i} {
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set val [lindex $groups $i]
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append line [format "%d" $val]
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if {$i != $last} {
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append line ", "
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}
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if {[string length $line] > 65} {
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puts $f $line
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set line " "
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}
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}
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puts $f $line
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puts $f "};
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/*
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* Table for characters that lowercased to multiple ones
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*/
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static int multiCaseTable\[\]\[4\] = {"
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set last [expr {[llength $multicasemap] - 1}]
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for {set i 0} {$i <= $last} {incr i} {
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set val [lindex $multicasemap $i]
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set line " "
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append line [format "{%d, %s}" [llength $val] [join $val ", "]]
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if {$i != $last} {
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append line ", "
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}
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puts $f $line
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}
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puts $f "};
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/*
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* The following constants are used to determine the category of a
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* Unicode character.
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*/
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#define ACMask (1 << 0)
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#define C11Mask (1 << 1)
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#define C21Mask (1 << 2)
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#define B1Mask (1 << 3)
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#define D1Mask (1 << 4)
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#define D2Mask (1 << 5)
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#define XNPMask (1 << 6)
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#define MCMask (1 << 7)
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/*
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* The following macros extract the fields of the character info. The
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* GetDelta() macro is complicated because we can't rely on the C compiler
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* to do sign extension on right shifts.
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*/
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#define GetCaseType(info) (((info) & 0xE0) >> 5)
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#define GetCategory(info) ((info) & 0x1F)
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#define GetDelta(info) (((info) > 0) ? ((info) >> 11) : (~(~((info)) >> 11)))
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#define GetMC(info) (multiCaseTable\[GetDelta(info)\])
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/*
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* This macro extracts the information about a character from the
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* Unicode character tables.
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*/
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#define GetUniCharInfo(ch) (groups\[groupMap\[(pageMap\[(((int)(ch)) & 0x1fffff) >> OFFSET_BITS\] << OFFSET_BITS) | ((ch) & ((1 << OFFSET_BITS)-1))\]\])
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"
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close $f
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}
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uni::main
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return
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