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xmpp.chapril.org-ejabberd/src/stringprep/uni_parse2.tcl
Alexey Shchepin 77f681b320 * src/mod_pubsub/mod_pubsub.erl: Now possible to subscribe to a
pubsub node with a JID that includes a resource (thanks to Martijn
van Beers)

* src/stringprep/uni_parse2.tcl: Bugfix
* src/stringprep/stringprep_drv.c: Likewise
* src/stringprep/uni_norm.c: Regenerated

SVN Revision: 350
2005-05-18 23:47:33 +00:00

703 lines
17 KiB
Tcl

# uni_parse2.tcl --
#
# This program parses the UnicodeData file and generates the
# corresponding uni_norm.c file with compressed character
# data tables. The input to this program should be
# UnicodeData-3.2.0.txt and CompositionExclusions-3.2.0.txt files from:
# ftp://ftp.unicode.org/Public/UNIDATA/
#
# Copyright (c) 1998-1999 by Scriptics Corporation.
# All rights reserved.
#
# Modified for ejabberd by Alexey Shchepin
#
# RCS: @(#) $Id$
namespace eval uni {
set cclass_shift 8
set decomp_shift 8
set comp_shift 8
set shift 5; # number of bits of data within a page
# This value can be adjusted to find the
# best split to minimize table size
variable pMap; # map from page to page index, each entry is
# an index into the pages table, indexed by
# page number
variable pages; # map from page index to page info, each
# entry is a list of indices into the groups
# table, the list is indexed by the offset
variable groups; # list of character info values, indexed by
# group number, initialized with the
# unassigned character group
variable categories {
Cn Lu Ll Lt Lm Lo Mn Me Mc Nd Nl No Zs Zl Zp
Cc Cf Co Cs Pc Pd Ps Pe Pi Pf Po Sm Sc Sk So
}; # Ordered list of character categories, must
# match the enumeration in the header file.
variable titleCount 0; # Count of the number of title case
# characters. This value is used in the
# regular expression code to allocate enough
# space for the title case variants.
}
proc uni::getValue {items index} {
variable categories
variable titleCount
# Extract character info
set category [lindex $items 2]
if {[scan [lindex $items 12] %4x toupper] == 1} {
set toupper [expr {$index - $toupper}]
} else {
set toupper {}
}
if {[scan [lindex $items 13] %4x tolower] == 1} {
set tolower [expr {$tolower - $index}]
} else {
set tolower {}
}
if {[scan [lindex $items 14] %4x totitle] == 1} {
set totitle [expr {$index - $totitle}]
} else {
set totitle {}
}
set categoryIndex [lsearch -exact $categories $category]
if {$categoryIndex < 0} {
puts "Unexpected character category: $index($category)"
set categoryIndex 0
} elseif {$category == "Lt"} {
incr titleCount
}
return "$categoryIndex,$toupper,$tolower,$totitle"
}
proc uni::getGroup {value} {
variable groups
set gIndex [lsearch -exact $groups $value]
if {$gIndex == -1} {
set gIndex [llength $groups]
lappend groups $value
}
return $gIndex
}
proc uni::addPage {info} {
variable pMap
variable pages
set pIndex [lsearch -exact $pages $info]
if {$pIndex == -1} {
set pIndex [llength $pages]
lappend pages $info
}
lappend pMap $pIndex
return
}
proc uni::addPage {map_var pages_var info} {
variable $map_var
variable $pages_var
set pIndex [lsearch -exact [set $pages_var] $info]
if {$pIndex == -1} {
set pIndex [llength [set $pages_var]]
lappend $pages_var $info
}
lappend $map_var $pIndex
return
}
proc uni::load_exclusions {data} {
variable exclusions
foreach line [split $data \n] {
if {$line == ""} continue
set items [split $line " "]
if {[lindex $items 0] == "#"} continue
scan [lindex $items 0] %x index
set exclusions($index) ""
}
}
proc uni::load_tables {data} {
variable cclass_map
variable decomp_map
variable comp_map
variable comp_first
variable comp_second
variable exclusions
foreach line [split $data \n] {
if {$line == ""} continue
set items [split $line \;]
scan [lindex $items 0] %x index
set cclass [lindex $items 3]
set decomp [lindex $items 5]
set cclass_map($index) $cclass
#set decomp_map($index) $cclass
if {$decomp != ""} {
if {[string index [lindex $decomp 0] 0] == "<"} {
set decomp1 [lreplace $decomp 0 0]
set decomp {}
foreach ch $decomp1 {
scan $ch %x ch
lappend decomp $ch
}
set decomp_map($index) $decomp
} else {
switch -- [llength $decomp] {
1 {
scan $decomp %x ch
set decomp_map($index) $ch
}
2 {
scan $decomp "%x %x" ch1 ch2
set decomp [list $ch1 $ch2]
set decomp_map($index) $decomp
# hackish
if {(![info exists cclass_map($ch1)] || \
$cclass_map($ch1) == 0) && \
![info exists exclusions($index)]} {
if {[info exists comp_first($ch1)]} {
incr comp_first($ch1)
} else {
set comp_first($ch1) 1
}
if {[info exists comp_second($ch2)]} {
incr comp_second($ch2)
} else {
set comp_second($ch2) 1
}
set comp_map($decomp) $index
} else {
puts "Excluded $index"
}
}
default {
puts "Bad canonical decomposition: $line"
}
}
}
#puts "[format 0x%0.4x $index]\t$cclass\t$decomp_map($index)"
}
}
#puts [array get comp_first]
#puts [array get comp_second]
}
proc uni::buildTables {} {
variable cclass_shift
variable decomp_shift
variable comp_shift
variable cclass_map
variable cclass_pmap {}
variable cclass_pages {}
variable decomp_map
variable decomp_pmap {}
variable decomp_pages {}
variable decomp_list {}
variable comp_map
variable comp_pmap {}
variable comp_pages {}
variable comp_first
variable comp_second
variable comp_first_list {}
variable comp_second_list {}
variable comp_x_list {}
variable comp_y_list {}
variable comp_both_map {}
set cclass_info {}
set decomp_info {}
set comp_info {}
set cclass_mask [expr {(1 << $cclass_shift) - 1}]
set decomp_mask [expr {(1 << $decomp_shift) - 1}]
set comp_mask [expr {(1 << $comp_shift) - 1}]
foreach comp [array names comp_map] {
set ch1 [lindex $comp 0]
if {[info exists comp_first($ch1)] && $comp_first($ch1) > 0 && \
[info exists comp_second($ch1)] && $comp_second($ch1) > 0} {
if {[lsearch -exact $comp_x_list $ch1] < 0} {
set i [llength $comp_x_list]
lappend comp_x_list $ch1
set comp_info_map($ch1) $i
lappend comp_y_list $ch1
set comp_info_map($ch1) $i
puts "There should be no symbols which appears on"
puts "both first and second place in composition"
exit
}
}
}
foreach comp [array names comp_map] {
set ch1 [lindex $comp 0]
set ch2 [lindex $comp 1]
if {$comp_first($ch1) == 1 && ![info exists comp_second($ch1)]} {
set i [llength $comp_first_list]
lappend comp_first_list [list $ch2 $comp_map($comp)]
set comp_info_map($ch1) [expr {$i | (1 << 16)}]
} elseif {$comp_second($ch2) == 1 && ![info exists comp_first($ch2)]} {
set i [llength $comp_second_list]
lappend comp_second_list [list $ch1 $comp_map($comp)]
set comp_info_map($ch2) [expr {$i | (1 << 16) | (1 << 17)}]
} else {
if {[lsearch -exact $comp_x_list $ch1] < 0} {
set i [llength $comp_x_list]
lappend comp_x_list $ch1
set comp_info_map($ch1) $i
}
if {[lsearch -exact $comp_y_list $ch2] < 0} {
set i [llength $comp_y_list]
lappend comp_y_list $ch2
set comp_info_map($ch2) [expr {$i | (1 << 17)}]
}
}
}
set next 0
for {set i 0} {$i <= 0x10ffff} {incr i} {
#set gIndex [getGroup [getValue $i]]
set cclass_offset [expr {$i & $cclass_mask}]
if {[info exists cclass_map($i)]} {
set cclass $cclass_map($i)
} else {
set cclass 0
}
lappend cclass_info $cclass
if {$cclass_offset == $cclass_mask} {
addPage cclass_pmap cclass_pages $cclass_info
set cclass_info {}
}
set decomp_offset [expr {$i & $decomp_mask}]
if {[info exists decomp_map($i)]} {
set decomp $decomp_map($i)
set b 1
while {$b} {
set b 0
for {set j 0} {$j < [llength $decomp]} {incr j} {
if {[info exists \
decomp_map([set ch1 [lindex $decomp $j]])]} {
#puts -$decomp
set decomp [eval [list lreplace $decomp $j $j] \
$decomp_map($ch1)]
#puts +$decomp
set b 1
}
}
}
if {[info exists decomp_used($decomp)]} {
lappend decomp_info $decomp_used($decomp)
} else {
set val [expr {([llength $decomp] << 16) + \
[llength $decomp_list]}]
#set val [expr {[llength $decomp_list]}]
lappend decomp_info $val
set decomp_used($decomp) $val
#puts "$val $decomp"
foreach d $decomp {
lappend decomp_list $d
}
}
} else {
lappend decomp_info -1
}
if {$decomp_offset == $decomp_mask} {
addPage decomp_pmap decomp_pages $decomp_info
set decomp_info {}
}
set comp_offset [expr {$i & $comp_mask}]
if {[info exists comp_info_map($i)]} {
set comp $comp_info_map($i)
} else {
set comp -1
}
lappend comp_info $comp
if {$comp_offset == $comp_mask} {
addPage comp_pmap comp_pages $comp_info
set comp_info {}
}
}
#puts [array get decomp_map]
#puts $decomp_list
return
}
proc uni::main {} {
global argc argv0 argv
variable cclass_shift
variable cclass_pmap
variable cclass_pages
variable decomp_shift
variable decomp_pmap
variable decomp_pages
variable decomp_list
variable comp_shift
variable comp_map
variable comp_pmap
variable comp_pages
variable comp_first_list
variable comp_second_list
variable comp_x_list
variable comp_y_list
variable pages
variable groups {}
variable titleCount
if {$argc != 3} {
puts stderr "\nusage: $argv0 <datafile> <exclusionsfile> <outdir>\n"
exit 1
}
set f [open [lindex $argv 1] r]
set data [read $f]
close $f
load_exclusions $data
set f [open [lindex $argv 0] r]
set data [read $f]
close $f
load_tables $data
buildTables
#puts "X = [llength $pMap] Y= [llength $pages] A= [llength $groups]"
#set size [expr {[llength $pMap] + [llength $pages]*(1<<$shift)}]
#puts "shift = 6, space = $size"
#puts "title case count = $titleCount"
set f [open [file join [lindex $argv 2] uni_norm.c] w]
fconfigure $f -translation lf
puts $f "/*
* uni_norm.c --
*
* Declarations of Unicode character information tables. This file is
* automatically generated by the uni_parse2.tcl script. Do not
* modify this file by hand.
*
* Copyright (c) 1998 by Scriptics Corporation.
* All rights reserved.
*
* Modified for ejabberd by Alexey Shchepin
*
* RCS: @(#) \$Id\$
*/
/*
* A 16-bit Unicode character is split into two parts in order to index
* into the following tables. The lower CCLASS_OFFSET_BITS comprise an offset
* into a page of characters. The upper bits comprise the page number.
*/
#define CCLASS_OFFSET_BITS $cclass_shift
/*
* The pageMap is indexed by page number and returns an alternate page number
* that identifies a unique page of characters. Many Unicode characters map
* to the same alternate page number.
*/
static unsigned char cclassPageMap\[\] = {"
set line " "
set last [expr {[llength $cclass_pmap] - 1}]
for {set i 0} {$i <= $last} {incr i} {
append line [lindex $cclass_pmap $i]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
/*
* The cclassGroupMap is indexed by combining the alternate page number with
* the page offset and returns a combining class number.
*/
static unsigned char cclassGroupMap\[\] = {"
set line " "
set lasti [expr {[llength $cclass_pages] - 1}]
for {set i 0} {$i <= $lasti} {incr i} {
set page [lindex $cclass_pages $i]
set lastj [expr {[llength $page] - 1}]
for {set j 0} {$j <= $lastj} {incr j} {
append line [lindex $page $j]
if {$j != $lastj || $i != $lasti} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
}
puts $f $line
puts $f "};
#define GetUniCharCClass(ch) (cclassGroupMap\[(cclassPageMap\[(((int)(ch)) & 0x1fffff) >> CCLASS_OFFSET_BITS\] << CCLASS_OFFSET_BITS) | ((ch) & ((1 << CCLASS_OFFSET_BITS)-1))\])
#define DECOMP_OFFSET_BITS $decomp_shift
/*
* The pageMap is indexed by page number and returns an alternate page number
* that identifies a unique page of characters. Many Unicode characters map
* to the same alternate page number.
*/
static unsigned char decompPageMap\[\] = {"
set line " "
set last [expr {[llength $decomp_pmap] - 1}]
for {set i 0} {$i <= $last} {incr i} {
append line [lindex $decomp_pmap $i]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
/*
* The decompGroupMap is indexed by combining the alternate page number with
* the page offset and returns a group number that identifies a length and
* shift of decomposition sequence in decompList
*/
static int decompGroupMap\[\] = {"
set line " "
set lasti [expr {[llength $decomp_pages] - 1}]
for {set i 0} {$i <= $lasti} {incr i} {
set page [lindex $decomp_pages $i]
set lastj [expr {[llength $page] - 1}]
for {set j 0} {$j <= $lastj} {incr j} {
append line [lindex $page $j]
if {$j != $lastj || $i != $lasti} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
}
puts $f $line
puts $f "};
/*
* List of decomposition sequences
*/
static int decompList\[\] = {"
set line " "
set last [expr {[llength $decomp_list] - 1}]
for {set i 0} {$i <= $last} {incr i} {
set val [lindex $decomp_list $i]
append line [format "%d" $val]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
/*
* This macro extracts the information about a character from the
* Unicode character tables.
*/
#define GetUniCharDecompInfo(ch) (decompGroupMap\[(decompPageMap\[(((int)(ch)) & 0x1fffff) >> DECOMP_OFFSET_BITS\] << DECOMP_OFFSET_BITS) | ((ch) & ((1 << DECOMP_OFFSET_BITS)-1))\])
#define GetDecompShift(info) ((info) & 0xffff)
#define GetDecompLen(info) ((info) >> 16)
#define COMP_OFFSET_BITS $comp_shift
/*
* The pageMap is indexed by page number and returns an alternate page number
* that identifies a unique page of characters. Many Unicode characters map
* to the same alternate page number.
*/
static unsigned char compPageMap\[\] = {"
set line " "
set last [expr {[llength $comp_pmap] - 1}]
for {set i 0} {$i <= $last} {incr i} {
append line [lindex $comp_pmap $i]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
/*
* The groupMap is indexed by combining the alternate page number with
* the page offset and returns a group number that identifies a unique
* set of character attributes.
*/
static int compGroupMap\[\] = {"
set line " "
set lasti [expr {[llength $comp_pages] - 1}]
for {set i 0} {$i <= $lasti} {incr i} {
set page [lindex $comp_pages $i]
set lastj [expr {[llength $page] - 1}]
for {set j 0} {$j <= $lastj} {incr j} {
append line [lindex $page $j]
if {$j != $lastj || $i != $lasti} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
}
puts $f $line
puts $f "};
/*
* Lists of compositions for characters that appears only in one composition
*/
static int compFirstList\[\]\[2\] = {"
set line " "
set last [expr {[llength $comp_first_list] - 1}]
for {set i 0} {$i <= $last} {incr i} {
set val [lindex $comp_first_list $i]
append line [format "{%d, %d}" [lindex $val 0] [lindex $val 1]]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 60} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
static int compSecondList\[\]\[2\] = {"
set line " "
set last [expr {[llength $comp_second_list] - 1}]
for {set i 0} {$i <= $last} {incr i} {
set val [lindex $comp_second_list $i]
append line [format "{%d, %d}" [lindex $val 0] [lindex $val 1]]
if {$i != $last} {
append line ", "
}
if {[string length $line] > 60} {
puts $f $line
set line " "
}
}
puts $f $line
puts $f "};
/*
* Compositions matrix
*/
static int compBothList\[[llength $comp_x_list]\]\[[llength $comp_y_list]\] = {"
set lastx [expr {[llength $comp_x_list] - 1}]
set lasty [expr {[llength $comp_y_list] - 1}]
for {set i 0} {$i <= $lastx} {incr i} {
puts $f " \{"
set line " "
for {set j 0} {$j <= $lasty} {incr j} {
set comp [list [lindex $comp_x_list $i] [lindex $comp_y_list $j]]
if {[info exists comp_map($comp)]} {
set val $comp_map($comp)
} else {
set val 0
}
append line [format "%d" $val]
if {$j != $lasty} {
append line ", "
}
if {[string length $line] > 70} {
puts $f $line
set line " "
}
}
puts $f $line
if {$j != $lasty} {
puts $f " \},"
} else {
puts $f " \}"
}
}
puts $f "};
#define GetUniCharCompInfo(ch) (compGroupMap\[(compPageMap\[(((int)(ch)) & 0x1fffff) >> COMP_OFFSET_BITS\] << COMP_OFFSET_BITS) | ((ch) & ((1 << COMP_OFFSET_BITS)-1))\])
#define CompSingleMask (1 << 16)
#define CompMask ((1 << 16) - 1)
#define CompSecondMask (1 << 17)
"
close $f
}
uni::main
return