# This file contains a collection of tests for tclEncoding.c # Sourcing this file into Tcl runs the tests and generates output for # errors. No output means no errors were found. # # Copyright (c) 1997 Sun Microsystems, Inc. # Copyright (c) 1998-1999 by Scriptics Corporation. # # See the file "license.terms" for information on usage and redistribution # of this file, and for a DISCLAIMER OF ALL WARRANTIES. # # RCS: @(#) $Id: encoding.test,v 1.16.2.4 2009/11/16 17:03:29 ferrieux Exp $ package require tcltest 2 namespace import -force ::tcltest::* proc toutf {args} { global x lappend x "toutf $args" } proc fromutf {args} { global x lappend x "fromutf $args" } # Some tests require the testencoding command testConstraint testencoding [llength [info commands testencoding]] testConstraint exec [llength [info commands exec]] # TclInitEncodingSubsystem is tested by the rest of this file # TclFinalizeEncodingSubsystem is not currently tested test encoding-1.1 {Tcl_GetEncoding: system encoding} {testencoding} { testencoding create foo toutf fromutf set old [encoding system] encoding system foo set x {} encoding convertto abcd encoding system $old testencoding delete foo set x } {{fromutf }} test encoding-1.2 {Tcl_GetEncoding: existing encoding} {testencoding} { testencoding create foo toutf fromutf set x {} encoding convertto foo abcd testencoding delete foo set x } {{fromutf }} test encoding-1.3 {Tcl_GetEncoding: load encoding} { list [encoding convertto jis0208 \u4e4e] \ [encoding convertfrom jis0208 8C] } "8C \u4e4e" test encoding-2.1 {Tcl_FreeEncoding: refcount == 0} { encoding convertto jis0208 \u4e4e } {8C} test encoding-2.2 {Tcl_FreeEncoding: refcount != 0} {testencoding} { set system [encoding system] set path [testencoding path] encoding system shiftjis ;# incr ref count testencoding path [list [pwd]] set x [encoding convertto shiftjis \u4e4e] ;# old one found encoding system identity lappend x [catch {encoding convertto shiftjis \u4e4e} msg] $msg encoding system identity testencoding path $path encoding system $system set x } "\u008c\u00c1 1 {unknown encoding \"shiftjis\"}" test encoding-3.1 {Tcl_GetEncodingName, NULL} { set old [encoding system] encoding system shiftjis set x [encoding system] encoding system $old set x } {shiftjis} test encoding-3.2 {Tcl_GetEncodingName, non-null} { set old [fconfigure stdout -encoding] fconfigure stdout -encoding jis0208 set x [fconfigure stdout -encoding] fconfigure stdout -encoding $old set x } {jis0208} test encoding-4.1 {Tcl_GetEncodingNames} {testencoding} { cd [makeDirectory tmp] makeDirectory [file join tmp encoding] makeFile {} [file join tmp encoding junk.enc] makeFile {} [file join tmp encoding junk2.enc] set path [testencoding path] testencoding path {} catch {unset encodings} catch {unset x} foreach encoding [encoding names] { set encodings($encoding) 1 } testencoding path [list [pwd]] foreach encoding [encoding names] { if {![info exists encodings($encoding)]} { lappend x $encoding } } testencoding path $path cd [workingDirectory] removeFile [file join tmp encoding junk2.enc] removeFile [file join tmp encoding junk.enc] removeDirectory [file join tmp encoding] removeDirectory tmp lsort $x } {junk junk2} test encoding-5.1 {Tcl_SetSystemEncoding} { set old [encoding system] encoding system jis0208 set x [encoding convertto \u4e4e] encoding system identity encoding system $old set x } {8C} test encoding-5.2 {Tcl_SetSystemEncoding: test ref count} { set old [encoding system] encoding system $old string compare $old [encoding system] } {0} test encoding-6.1 {Tcl_CreateEncoding: new} {testencoding} { testencoding create foo {toutf 1} {fromutf 2} set x {} encoding convertfrom foo abcd encoding convertto foo abcd testencoding delete foo set x } {{toutf 1} {fromutf 2}} test encoding-6.2 {Tcl_CreateEncoding: replace encoding} {testencoding} { testencoding create foo {toutf a} {fromutf b} set x {} encoding convertfrom foo abcd encoding convertto foo abcd testencoding delete foo set x } {{toutf a} {fromutf b}} test encoding-7.1 {Tcl_ExternalToUtfDString: small buffer} { encoding convertfrom jis0208 8c8c8c8c } "\u543e\u543e\u543e\u543e" test encoding-7.2 {Tcl_UtfToExternalDString: big buffer} { set a 8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C8C append a $a append a $a append a $a append a $a set x [encoding convertfrom jis0208 $a] list [string length $x] [string index $x 0] } "512 \u4e4e" test encoding-8.1 {Tcl_ExternalToUtf} { set f [open [file join [temporaryDirectory] dummy] w] fconfigure $f -translation binary -encoding iso8859-1 puts -nonewline $f "ab\x8c\xc1g" close $f set f [open [file join [temporaryDirectory] dummy] r] fconfigure $f -translation binary -encoding shiftjis set x [read $f] close $f file delete [file join [temporaryDirectory] dummy] set x } "ab\u4e4eg" test encoding-9.1 {Tcl_UtfToExternalDString: small buffer} { encoding convertto jis0208 "\u543e\u543e\u543e\u543e" } {8c8c8c8c} test encoding-9.2 {Tcl_UtfToExternalDString: big buffer} { set a \u4e4e\u4e4e\u4e4e\u4e4e\u4e4e\u4e4e\u4e4e\u4e4e append a $a append a $a append a $a append a $a append a $a append a $a set x [encoding convertto jis0208 $a] list [string length $x] [string range $x 0 1] } "1024 8C" test encoding-10.1 {Tcl_UtfToExternal} { set f [open [file join [temporaryDirectory] dummy] w] fconfigure $f -translation binary -encoding shiftjis puts -nonewline $f "ab\u4e4eg" close $f set f [open [file join [temporaryDirectory] dummy] r] fconfigure $f -translation binary -encoding iso8859-1 set x [read $f] close $f file delete [file join [temporaryDirectory] dummy] set x } "ab\x8c\xc1g" proc viewable {str} { set res "" foreach c [split $str {}] { if {[string is print $c] && [string is ascii $c]} { append res $c } else { append res "\\u[format %4.4x [scan $c %c]]" } } return "$str ($res)" } test encoding-11.1 {LoadEncodingFile: unknown encoding} {testencoding} { set system [encoding system] set path [testencoding path] encoding system iso8859-1 testencoding path {} set x [list [catch {encoding convertto jis0208 \u4e4e} msg] $msg] testencoding path $path encoding system $system lappend x [encoding convertto jis0208 \u4e4e] } {1 {unknown encoding "jis0208"} 8C} test encoding-11.2 {LoadEncodingFile: single-byte} { encoding convertfrom jis0201 \xa1 } "\uff61" test encoding-11.3 {LoadEncodingFile: double-byte} { encoding convertfrom jis0208 8C } "\u4e4e" test encoding-11.4 {LoadEncodingFile: multi-byte} { encoding convertfrom shiftjis \x8c\xc1 } "\u4e4e" test encoding-11.5 {LoadEncodingFile: escape file} { viewable [encoding convertto iso2022 \u4e4e] } [viewable "\x1b\$B8C\x1b(B"] test encoding-11.5.1 {LoadEncodingFile: escape file} { viewable [encoding convertto iso2022-jp \u4e4e] } [viewable "\x1b\$B8C\x1b(B"] test encoding-11.6 {LoadEncodingFile: invalid file} {testencoding} { set system [encoding system] set path [testencoding path] encoding system identity cd [temporaryDirectory] testencoding path tmp makeDirectory tmp makeDirectory [file join tmp encoding] set f [open [file join tmp encoding splat.enc] w] fconfigure $f -translation binary puts $f "abcdefghijklmnop" close $f set x [list [catch {encoding convertto splat \u4e4e} msg] $msg] file delete [file join [temporaryDirectory] tmp encoding splat.enc] removeDirectory [file join tmp encoding] removeDirectory tmp cd [workingDirectory] testencoding path $path encoding system $system set x } {1 {invalid encoding file "splat"}} # OpenEncodingFile is fully tested by the rest of the tests in this file. test encoding-12.1 {LoadTableEncoding: normal encoding} { set x [encoding convertto iso8859-3 \u120] append x [encoding convertto iso8859-3 \ud5] append x [encoding convertfrom iso8859-3 \xd5] } "\xd5?\u120" test encoding-12.2 {LoadTableEncoding: single-byte encoding} { set x [encoding convertto iso8859-3 ab\u0120g] append x [encoding convertfrom iso8859-3 ab\xd5g] } "ab\xd5gab\u120g" test encoding-12.3 {LoadTableEncoding: multi-byte encoding} { set x [encoding convertto shiftjis ab\u4e4eg] append x [encoding convertfrom shiftjis ab\x8c\xc1g] } "ab\x8c\xc1gab\u4e4eg" test encoding-12.4 {LoadTableEncoding: double-byte encoding} { set x [encoding convertto jis0208 \u4e4e\u3b1] append x [encoding convertfrom jis0208 8C&A] } "8C&A\u4e4e\u3b1" test encoding-12.5 {LoadTableEncoding: symbol encoding} { set x [encoding convertto symbol \u3b3] append x [encoding convertto symbol \u67] append x [encoding convertfrom symbol \x67] } "\x67\x67\u3b3" test encoding-13.1 {LoadEscapeTable} { viewable [set x [encoding convertto iso2022 ab\u4e4e\u68d9g]] } [viewable "ab\x1b\$B8C\x1b\$\(DD%\x1b(Bg"] test encoding-14.1 {BinaryProc} { encoding convertto identity \x12\x34\x56\xff\x69 } "\x12\x34\x56\xc3\xbf\x69" test encoding-15.1 {UtfToUtfProc} { encoding convertto utf-8 \xa3 } "\xc2\xa3" test encoding-15.2 {UtfToUtfProc null character output} { set x \u0000 set y [encoding convertto utf-8 \u0000] set y [encoding convertfrom identity $y] binary scan $y H* z list [string bytelength $x] [string bytelength $y] $z } {2 1 00} test encoding-15.3 {UtfToUtfProc null character input} { set x [encoding convertfrom identity \x00] set y [encoding convertfrom utf-8 $x] binary scan [encoding convertto identity $y] H* z list [string bytelength $x] [string bytelength $y] $z } {1 2 c080} test encoding-16.1 {UnicodeToUtfProc} { set val [encoding convertfrom unicode NN] list $val [format %x [scan $val %c]] } "\u4e4e 4e4e" test encoding-17.1 {UtfToUnicodeProc} { } {} test encoding-18.1 {TableToUtfProc} { } {} test encoding-19.1 {TableFromUtfProc} { } {} test encoding-20.1 {TableFreefProc} { } {} test encoding-21.1 {EscapeToUtfProc} { } {} test encoding-22.1 {EscapeFromUtfProc} { } {} set ::iso2022encData "\u001b\$B;d\$I\$b\$G\$O!\"%A%C%W\$49XF~;~\$K\$4EPO?\$\$\$?\$@\$\$\$?\$4=;=j\$r%-%c%C%7%e%\"%&%H\$N:]\$N\u001b(B \u001b\$B>.@Z= 0} { if {$count} { incr count 1 ; # account for newline append out \n } append out $line incr count $num } close $fid if {[string compare $::iso2022uniData $out]} { return -code error "iso2022-jp read in doesn't match original" } list $count $out } [list [string length $::iso2022uniData] $::iso2022uniData] test encoding-23.3 {iso2022-jp escape encoding test} { # read $fis reads size in chars, not raw bytes. set fid [open iso2022.txt r] fconfigure $fid -encoding iso2022-jp set data [read $fid 50] close $fid set data } [string range $::iso2022uniData 0 49] ; # 0 .. 49 inclusive == 50 cd [workingDirectory] test encoding-24.1 {EscapeFreeProc on open channels} -constraints { exec } -setup { # Bug #524674 input set file [makeFile { set f [open [file join [file dirname [info script]] iso2022.txt]] fconfigure $f -encoding iso2022-jp gets $f } iso2022.tcl] } -body { exec [interpreter] $file } -cleanup { removeFile iso2022.tcl } -result {} test encoding-24.2 {EscapeFreeProc on open channels} -constraints { exec } -setup { # Bug #524674 output set file [makeFile { encoding system cp1252; # Bug #2891556 crash revelator fconfigure stdout -encoding iso2022-jp puts ab\u4e4e\u68d9g exit } iso2022.tcl] } -body { viewable [exec [interpreter] $file] } -cleanup { removeFile iso2022.tcl } -result "ab\x1b\$B8C\x1b\$(DD%\x1b(Bg (ab\\u001b\$B8C\\u001b\$(DD%\\u001b(Bg)" test encoding-24.3 {EscapeFreeProc on open channels} {stdio} { # Bug #219314 - if we don't free escape encodings correctly on # channel closure, we go boom set file [makeFile { encoding system iso2022-jp set a "\u4e4e\u4e5e\u4e5f"; # 3 Japanese Kanji letters puts $a } iso2022.tcl] set f [open "|[list [interpreter] $file]"] fconfigure $f -encoding iso2022-jp set count [gets $f line] close $f removeFile iso2022.tcl list $count [viewable $line] } [list 3 "\u4e4e\u4e5e\u4e5f (\\u4e4e\\u4e5e\\u4e5f)"] file delete [file join [temporaryDirectory] iso2022.txt] # # Begin jajp encoding round-trip conformity tests # proc foreach-jisx0208 {varName command} { upvar 1 $varName code foreach range { {2121 217E} {2221 222E} {223A 2241} {224A 2250} {225C 226A} {2272 2279} {227E 227E} {2330 2339} {2421 2473} {2521 2576} {2821 2821} {282C 282C} {2837 2837} {30 21 4E 7E} {4F21 4F53} {50 21 73 7E} {7421 7426} } { if {[llength $range] == 2} { # for adhoc range. simple {first last}. inclusive. set first [scan [lindex $range 0] %x] set last [scan [lindex $range 1] %x] for {set i $first} {$i <= $last} {incr i} { set code $i uplevel 1 $command } } elseif {[llength $range] == 4} { # for uniform range. set h0 [scan [lindex $range 0] %x] set l0 [scan [lindex $range 1] %x] set hend [scan [lindex $range 2] %x] set lend [scan [lindex $range 3] %x] for {set hi $h0} {$hi <= $hend} {incr hi} { for {set lo $l0} {$lo <= $lend} {incr lo} { set code [expr {$hi << 8 | ($lo & 0xff)}] uplevel 1 $command } } } else { error "really?" } } } proc gen-jisx0208-euc-jp {code} { binary format cc \ [expr {($code >> 8) | 0x80}] [expr {($code & 0xff) | 0x80}] } proc gen-jisx0208-iso2022-jp {code} { binary format a3cca3 \ "\x1b\$B" [expr {$code >> 8}] [expr {$code & 0xff}] "\x1b(B" } proc gen-jisx0208-cp932 {code} { set c1 [expr {($code >> 8) | 0x80}] set c2 [expr {($code & 0xff)| 0x80}] if {$c1 % 2} { set c1 [expr {($c1 >> 1) + ($c1 < 0xdf ? 0x31 : 0x71)}] incr c2 [expr {- (0x60 + ($c2 < 0xe0))}] } else { set c1 [expr {($c1 >> 1) + ($c1 < 0xdf ? 0x30 : 0x70)}] incr c2 -2 } binary format cc $c1 $c2 } proc channel-diff {fa fb} { set diff {} while {[gets $fa la] >= 0 && [gets $fb lb] >= 0} { if {[string compare $la $lb] == 0} continue # lappend diff $la $lb # For more readable (easy to analyze) output. set code [lindex $la 0] binary scan [lindex $la 1] H* expected binary scan [lindex $lb 1] H* got lappend diff [list $code $expected $got] } set diff } # Create char tables. cd [temporaryDirectory] foreach enc {cp932 euc-jp iso2022-jp} { set f [open $enc.chars w] fconfigure $f -encoding binary foreach-jisx0208 code { puts $f [format "%04X %s" $code [gen-jisx0208-$enc $code]] } close $f } # shiftjis == cp932 for jisx0208. file copy -force cp932.chars shiftjis.chars set NUM 0 foreach from {cp932 shiftjis euc-jp iso2022-jp} { foreach to {cp932 shiftjis euc-jp iso2022-jp} { test encoding-25.[incr NUM] "jisx0208 $from => $to" { cd [temporaryDirectory] set f [open $from.chars] fconfigure $f -encoding $from set out [open $from.$to.out w] fconfigure $out -encoding $to puts -nonewline $out [read $f] close $out close $f # then compare $to.chars <=> $from.to.out as binary. set fa [open $to.chars] fconfigure $fa -encoding binary set fb [open $from.$to.out] fconfigure $fb -encoding binary set diff [channel-diff $fa $fb] close $fa close $fb # Difference should be empty. set diff } {} } } eval [list file delete] [glob -directory [temporaryDirectory] *.chars *.out] # ===> Cut here <=== # EscapeFreeProc, GetTableEncoding, unilen # are fully tested by the rest of this file # cleanup ::tcltest::cleanupTests return