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8.5/msgcat-1.5.0.tm��0000644��00000037526�14711164053�0007354 0��ustar�00��# msgcat.tcl -- # # This file defines various procedures which implement a # message catalog facility for Tcl programs. It should be # loaded with the command "package require msgcat". # # Copyright (c) 1998-2000 by Ajuba Solutions. # Copyright (c) 1998 by Mark Harrison. # # See the file "license.terms" for information on usage and redistribution # of this file, and for a DISCLAIMER OF ALL WARRANTIES. package require Tcl 8.5 # When the version number changes, be sure to update the pkgIndex.tcl file, # and the installation directory in the Makefiles. package provide msgcat 1.5.0 namespace eval msgcat { namespace export mc mcload mclocale mcmax mcmset mcpreferences mcset \ mcunknown mcflset mcflmset # Records the current locale as passed to mclocale variable Locale "" # Records the list of locales to search variable Loclist {} # Records the locale of the currently sourced message catalogue file variable FileLocale # Records the mapping between source strings and translated strings. The # dict key is of the form "<locale> <namespace> <src>", where locale and # namespace should be themselves dict values and the value is # the translated string. variable Msgs [dict create] # Map of language codes used in Windows registry to those of ISO-639 if {[info sharedlibextension] eq ".dll"} { variable WinRegToISO639 [dict create {}{ 01 ar 0401 ar_SA 0801 ar_IQ 0c01 ar_EG 1001 ar_LY 1401 ar_DZ 1801 ar_MA 1c01 ar_TN 2001 ar_OM 2401 ar_YE 2801 ar_SY 2c01 ar_JO 3001 ar_LB 3401 ar_KW 3801 ar_AE 3c01 ar_BH 4001 ar_QA 02 bg 0402 bg_BG 03 ca 0403 ca_ES 04 zh 0404 zh_TW 0804 zh_CN 0c04 zh_HK 1004 zh_SG 1404 zh_MO 05 cs 0405 cs_CZ 06 da 0406 da_DK 07 de 0407 de_DE 0807 de_CH 0c07 de_AT 1007 de_LU 1407 de_LI 08 el 0408 el_GR 09 en 0409 en_US 0809 en_GB 0c09 en_AU 1009 en_CA 1409 en_NZ 1809 en_IE 1c09 en_ZA 2009 en_JM 2409 en_GD 2809 en_BZ 2c09 en_TT 3009 en_ZW 3409 en_PH 0a es 040a es_ES 080a es_MX 0c0a es_ES@modern 100a es_GT 140a es_CR 180a es_PA 1c0a es_DO 200a es_VE 240a es_CO 280a es_PE 2c0a es_AR 300a es_EC 340a es_CL 380a es_UY 3c0a es_PY 400a es_BO 440a es_SV 480a es_HN 4c0a es_NI 500a es_PR 0b fi 040b fi_FI 0c fr 040c fr_FR 080c fr_BE 0c0c fr_CA 100c fr_CH 140c fr_LU 180c fr_MC 0d he 040d he_IL 0e hu 040e hu_HU 0f is 040f is_IS 10 it 0410 it_IT 0810 it_CH 11 ja 0411 ja_JP 12 ko 0412 ko_KR 13 nl 0413 nl_NL 0813 nl_BE 14 no 0414 no_NO 0814 nn_NO 15 pl 0415 pl_PL 16 pt 0416 pt_BR 0816 pt_PT 17 rm 0417 rm_CH 18 ro 0418 ro_RO 0818 ro_MO 19 ru 0819 ru_MO 1a hr 041a hr_HR 081a sr_YU 0c1a sr_YU@cyrillic 1b sk 041b sk_SK 1c sq 041c sq_AL 1d sv 041d sv_SE 081d sv_FI 1e th 041e th_TH 1f tr 041f tr_TR 20 ur 0420 ur_PK 0820 ur_IN 21 id 0421 id_ID 22 uk 0422 uk_UA 23 be 0423 be_BY 24 sl 0424 sl_SI 25 et 0425 et_EE 26 lv 0426 lv_LV 27 lt 0427 lt_LT 28 tg 0428 tg_TJ 29 fa 0429 fa_IR 2a vi 042a vi_VN 2b hy 042b hy_AM 2c az 042c az_AZ@latin 082c az_AZ@cyrillic 2d eu 2e wen 042e wen_DE 2f mk 042f mk_MK 30 bnt 0430 bnt_TZ 31 ts 0431 ts_ZA 32 tn 33 ven 0433 ven_ZA 34 xh 0434 xh_ZA 35 zu 0435 zu_ZA 36 af 0436 af_ZA 37 ka 0437 ka_GE 38 fo 0438 fo_FO 39 hi 0439 hi_IN 3a mt 043a mt_MT 3b se 043b se_NO 043c gd_UK 083c ga_IE 3d yi 043d yi_IL 3e ms 043e ms_MY 083e ms_BN 3f kk 043f kk_KZ 40 ky 0440 ky_KG 41 sw 0441 sw_KE 42 tk 0442 tk_TM 43 uz 0443 uz_UZ@latin 0843 uz_UZ@cyrillic 44 tt 0444 tt_RU 45 bn 0445 bn_IN 46 pa 0446 pa_IN 47 gu 0447 gu_IN 48 or 0448 or_IN 49 ta 4a te 044a te_IN 4b kn 044b kn_IN 4c ml 044c ml_IN 4d as 044d as_IN 4e mr 044e mr_IN 4f sa 044f sa_IN 50 mn 51 bo 0451 bo_CN 52 cy 0452 cy_GB 53 km 0453 km_KH 54 lo 0454 lo_LA 55 my 0455 my_MM 56 gl 0456 gl_ES 57 kok 0457 kok_IN 58 mni 0458 mni_IN 59 sd 5a syr 045a syr_TR 5b si 045b si_LK 5c chr 045c chr_US 5d iu 045d iu_CA 5e am 045e am_ET 5f ber 045f ber_MA 60 ks 0460 ks_PK 0860 ks_IN 61 ne 0461 ne_NP 0861 ne_IN 62 fy 0462 fy_NL 63 ps 64 tl 0464 tl_PH 65 div 0465 div_MV 66 bin 0466 bin_NG 67 ful 0467 ful_NG 68 ha 0468 ha_NG 69 nic 0469 nic_NG 6a yo 046a yo_NG 70 ibo 0470 ibo_NG 71 kau 0471 kau_NG 72 om 0472 om_ET 73 ti 0473 ti_ET 74 gn 0474 gn_PY 75 cpe 0475 cpe_US 76 la 0476 la_VA 77 so 0477 so_SO 78 sit 0478 sit_CN 79 pap 0479 pap_AN }] } } # msgcat::mc -- # # Find the translation for the given string based on the current # locale setting. Check the local namespace first, then look in each # parent namespace until the source is found. If additional args are # specified, use the format command to work them into the traslated # string. # # Arguments: # src The string to translate. # args Args to pass to the format command # # Results: # Returns the translated string. Propagates errors thrown by the # format command. proc msgcat::mc {src args} { # Check for the src in each namespace starting from the local and # ending in the global. variable Msgs variable Loclist variable Locale set ns [uplevel 1 [list ::namespace current]] while {$ns != ""} { foreach loc $Loclist { if {[dict exists $Msgs $loc $ns $src]} { if {[llength $args] == 0} { return [dict get $Msgs $loc $ns $src] } else { return [format [dict get $Msgs $loc $ns $src] {}$args] } } } set ns [namespace parent $ns] } # we have not found the translation return [uplevel 1 [list [namespace origin mcunknown] \ $Locale $src {}$args]] } # msgcat::mclocale -- # # Query or set the current locale. # # Arguments: # newLocale (Optional) The new locale string. Locale strings # should be composed of one or more sublocale parts # separated by underscores (e.g. en_US). # # Results: # Returns the current locale. proc msgcat::mclocale {args} { variable Loclist variable Locale set len [llength $args] if {$len > 1} { return -code error "wrong # args: should be\ \"[lindex [info level 0] 0] ?newLocale?\"" } if {$len == 1} { set newLocale [lindex $args 0] if {$newLocale ne [file tail $newLocale]} { return -code error "invalid newLocale value \"$newLocale\":\ could be path to unsafe code." } set Locale [string tolower $newLocale] set Loclist {} set word "" foreach part [split $Locale _] { set word [string trim "${word}_${part}" _] if {$word ne [lindex $Loclist 0]} { set Loclist [linsert $Loclist 0 $word] } } lappend Loclist {} set Locale [lindex $Loclist 0] } return $Locale } # msgcat::mcpreferences -- # # Fetch the list of locales used to look up strings, ordered from # most preferred to least preferred. # # Arguments: # None. # # Results: # Returns an ordered list of the locales preferred by the user. proc msgcat::mcpreferences {} { variable Loclist return $Loclist } # msgcat::mcload -- # # Attempt to load message catalogs for each locale in the # preference list from the specified directory. # # Arguments: # langdir The directory to search. # # Results: # Returns the number of message catalogs that were loaded. proc msgcat::mcload {langdir} { variable FileLocale # Save the file locale if we are recursively called if {[info exists FileLocale]} { set nestedFileLocale $FileLocale } set x 0 foreach p [mcpreferences] { if { $p eq {} } { set p ROOT } set langfile [file join $langdir $p.msg] if {[file exists $langfile]} { incr x set FileLocale [string tolower [file tail [file rootname $langfile]]] if {"root" eq $FileLocale} { set FileLocale "" } uplevel 1 [list ::source -encoding utf-8 $langfile] unset FileLocale } } if {[info exists nestedFileLocale]} { set FileLocale $nestedFileLocale } return $x } # msgcat::mcset -- # # Set the translation for a given string in a specified locale. # # Arguments: # locale The locale to use. # src The source string. # dest (Optional) The translated string. If omitted, # the source string is used. # # Results: # Returns the new locale. proc msgcat::mcset {locale src {dest ""}} { variable Msgs if {[llength [info level 0]] == 3} { ;# dest not specified set dest $src } set ns [uplevel 1 [list ::namespace current]] set locale [string tolower $locale] dict set Msgs $locale $ns $src $dest return $dest } # msgcat::mcflset -- # # Set the translation for a given string in the current file locale. # # Arguments: # src The source string. # dest (Optional) The translated string. If omitted, # the source string is used. # # Results: # Returns the new locale. proc msgcat::mcflset {src {dest ""}} { variable FileLocale variable Msgs if {![info exists FileLocale]} { return -code error \ "must only be used inside a message catalog loaded with ::msgcat::mcload" } if {[llength [info level 0]] == 2} { ;# dest not specified set dest $src } set ns [uplevel 1 [list ::namespace current]] dict set Msgs $FileLocale $ns $src $dest return $dest } # msgcat::mcmset -- # # Set the translation for multiple strings in a specified locale. # # Arguments: # locale The locale to use. # pairs One or more src/dest pairs (must be even length) # # Results: # Returns the number of pairs processed proc msgcat::mcmset {locale pairs } { variable Msgs set length [llength $pairs] if {$length % 2} { return -code error "bad translation list:\ should be \"[lindex [info level 0] 0] locale {src dest ...}\"" } set locale [string tolower $locale] set ns [uplevel 1 [list ::namespace current]] foreach {src dest} $pairs { dict set Msgs $locale $ns $src $dest } return [expr {$length / 2}] } # msgcat::mcflmset -- # # Set the translation for multiple strings in the mc file locale. # # Arguments: # pairs One or more src/dest pairs (must be even length) # # Results: # Returns the number of pairs processed proc msgcat::mcflmset {pairs} { variable FileLocale variable Msgs if {![info exists FileLocale]} { return -code error \ "must only be used inside a message catalog loaded with ::msgcat::mcload" } set length [llength $pairs] if {$length % 2} { return -code error "bad translation list:\ should be \"[lindex [info level 0] 0] locale {src dest ...}\"" } set ns [uplevel 1 [list ::namespace current]] foreach {src dest} $pairs { dict set Msgs $FileLocale $ns $src $dest } return [expr {$length / 2}] } # msgcat::mcunknown -- # # This routine is called by msgcat::mc if a translation cannot # be found for a string. This routine is intended to be replaced # by an application specific routine for error reporting # purposes. The default behavior is to return the source string. # If additional args are specified, the format command will be used # to work them into the traslated string. # # Arguments: # locale The current locale. # src The string to be translated. # args Args to pass to the format command # # Results: # Returns the translated value. proc msgcat::mcunknown {locale src args} { if {[llength $args]} { return [format $src {}$args] } else { return $src } } # msgcat::mcmax -- # # Calculates the maximum length of the translated strings of the given # list. # # Arguments: # args strings to translate. # # Results: # Returns the length of the longest translated string. proc msgcat::mcmax {args} { set max 0 foreach string $args { set translated [uplevel 1 [list [namespace origin mc] $string]] set len [string length $translated] if {$len>$max} { set max $len } } return $max } # Convert the locale values stored in environment variables to a form # suitable for passing to [mclocale] proc msgcat::ConvertLocale {value} { # Assume $value is of form: $language[_$territory][.$codeset][@modifier] # Convert to form: $language[_$territory][_$modifier] # # Comment out expanded RE version -- bugs alleged # regexp -expanded { # ^ # Match all the way to the beginning # ([^_.@]) # Match "lanugage"; ends with _, ., or @ # (_([^.@]))? # Match (optional) "territory"; starts with _ # ([.]([^@]))? # Match (optional) "codeset"; starts with . # (@(.))? # Match (optional) "modifier"; starts with @ # $ # Match all the way to the end # } $value -> language _ territory _ codeset _ modifier if {![regexp {^([^_.@]+)(_([^.@]))?([.]([^@]))?(@(.))?$} $value \ -> language _ territory _ codeset _ modifier]} { return -code error "invalid locale '$value': empty language part" } set ret $language if {[string length $territory]} { append ret _$territory } if {[string length $modifier]} { append ret _$modifier } return $ret } # Initialize the default locale proc msgcat::Init {} { global env # # set default locale, try to get from environment # foreach varName {LC_ALL LC_MESSAGES LANG} { if {[info exists env($varName)] && ("" ne $env($varName))} { if {![catch { mclocale [ConvertLocale $env($varName)] }]} { return } } } # # On Darwin, fallback to current CFLocale identifier if available. # if {[info exists ::tcl::mac::locale] && $::tcl::mac::locale ne ""} { if {![catch { mclocale [ConvertLocale $::tcl::mac::locale] }]} { return } } # # The rest of this routine is special processing for Windows or # Cygwin. All other platforms, get out now. # if {([info sharedlibextension] ne ".dll") \|\| [catch {package require registry}]} { mclocale C return } # # On Windows or Cygwin, try to set locale depending on registry # settings, or fall back on locale of "C". # # First check registry value LocalName present from Windows Vista # which contains the local string as RFC5646, composed of: # [a-z]{2,3} : language # -[a-z]{4} : script (optional, translated by table Latn->latin) # -[a-z]{2}\|[0-9]{3} : territory (optional, numerical region codes not used) # (-.)* : variant, extension, private use (optional, not used) # Those are translated to local strings. # Examples: de-CH -> de_ch, sr-Latn-CS -> sr_cs@latin, es-419 -> es # set key {HKEY_CURRENT_USER\Control Panel\International} if {([registry values $key "LocaleName"] ne "") && [regexp {^([a-z]{2,3})(?:-([a-z]{4}))?(?:-([a-z]{2}))?(?:-.+)?$}\ [string tolower [registry get $key "LocaleName"]] match locale\ script territory]} { if {"" ne $territory} { append locale _ $territory } set modifierDict [dict create latn latin cyrl cyrillic] if {[dict exists $modifierDict $script]} { append locale @ [dict get $modifierDict $script] } if {![catch { mclocale [ConvertLocale $locale] }]} { return } } # then check key locale which contains a numerical language ID if {[catch { set locale [registry get $key "locale"] }]} { mclocale C return } # # Keep trying to match against smaller and smaller suffixes # of the registry value, since the latter hexadigits appear # to determine general language and earlier hexadigits determine # more precise information, such as territory. For example, # 0409 - English - United States # 0809 - English - United Kingdom # Add more translations to the WinRegToISO639 array above. # variable WinRegToISO639 set locale [string tolower $locale] while {[string length $locale]} { if {![catch { mclocale [ConvertLocale [dict get $WinRegToISO639 $locale]] }]} { return } set locale [string range $locale 1 end] } # # No translation known. Fall back on "C" locale # mclocale C } msgcat::Init ��8.5/tcltest-2.3.4.tm��0000644��00000304567�14711164053�0007565 0��ustar�00��# tcltest.tcl -- # # This file contains support code for the Tcl test suite. It # defines the tcltest namespace and finds and defines the output # directory, constraints available, output and error channels, # etc. used by Tcl tests. See the tcltest man page for more # details. # # This design was based on the Tcl testing approach designed and # initially implemented by Mary Ann May-Pumphrey of Sun # Microsystems. # # Copyright (c) 1994-1997 Sun Microsystems, Inc. # Copyright (c) 1998-1999 by Scriptics Corporation. # Copyright (c) 2000 by Ajuba Solutions # Contributions from Don Porter, NIST, 2002. (not subject to US copyright) # All rights reserved. package require Tcl 8.5 ;# -verbose line uses [info frame] namespace eval tcltest { # When the version number changes, be sure to update the pkgIndex.tcl file, # and the install directory in the Makefiles. When the minor version # changes (new feature) be sure to update the man page as well. variable Version 2.3.4 # Compatibility support for dumb variables defined in tcltest 1 # Do not use these. Call [package provide Tcl] and [info patchlevel] # yourself. You don't need tcltest to wrap it for you. variable version [package provide Tcl] variable patchLevel [info patchlevel] ##### Export the public tcltest procs; several categories # # Export the main functional commands that do useful things namespace export cleanupTests loadTestedCommands makeDirectory \ makeFile removeDirectory removeFile runAllTests test # Export configuration commands that control the functional commands namespace export configure customMatch errorChannel interpreter \ outputChannel testConstraint # Export commands that are duplication (candidates for deprecation) namespace export bytestring ;# dups [encoding convertfrom identity] namespace export debug ;# [configure -debug] namespace export errorFile ;# [configure -errfile] namespace export limitConstraints ;# [configure -limitconstraints] namespace export loadFile ;# [configure -loadfile] namespace export loadScript ;# [configure -load] namespace export match ;# [configure -match] namespace export matchFiles ;# [configure -file] namespace export matchDirectories ;# [configure -relateddir] namespace export normalizeMsg ;# application of [customMatch] namespace export normalizePath ;# [file normalize] (8.4) namespace export outputFile ;# [configure -outfile] namespace export preserveCore ;# [configure -preservecore] namespace export singleProcess ;# [configure -singleproc] namespace export skip ;# [configure -skip] namespace export skipFiles ;# [configure -notfile] namespace export skipDirectories ;# [configure -asidefromdir] namespace export temporaryDirectory ;# [configure -tmpdir] namespace export testsDirectory ;# [configure -testdir] namespace export verbose ;# [configure -verbose] namespace export viewFile ;# binary encoding [read] namespace export workingDirectory ;# [cd] [pwd] # Export deprecated commands for tcltest 1 compatibility namespace export getMatchingFiles mainThread restoreState saveState \ threadReap # tcltest::normalizePath -- # # This procedure resolves any symlinks in the path thus creating # a path without internal redirection. It assumes that the # incoming path is absolute. # # Arguments # pathVar - name of variable containing path to modify. # # Results # The path is modified in place. # # Side Effects: # None. # proc normalizePath {pathVar} { upvar $pathVar path set oldpwd [pwd] catch {cd $path} set path [pwd] cd $oldpwd return $path } ##### Verification commands used to test values of variables and options # # Verification command that accepts everything proc AcceptAll {value} { return $value } # Verification command that accepts valid Tcl lists proc AcceptList { list } { return [lrange $list 0 end] } # Verification command that accepts a glob pattern proc AcceptPattern { pattern } { return [AcceptAll $pattern] } # Verification command that accepts integers proc AcceptInteger { level } { return [incr level 0] } # Verification command that accepts boolean values proc AcceptBoolean { boolean } { return [expr {$boolean && $boolean}] } # Verification command that accepts (syntactically) valid Tcl scripts proc AcceptScript { script } { if {![info complete $script]} { return -code error "invalid Tcl script: $script" } return $script } # Verification command that accepts (converts to) absolute pathnames proc AcceptAbsolutePath { path } { return [file join [pwd] $path] } # Verification command that accepts existing readable directories proc AcceptReadable { path } { if {![file readable $path]} { return -code error "\"$path\" is not readable" } return $path } proc AcceptDirectory { directory } { set directory [AcceptAbsolutePath $directory] if {![file exists $directory]} { return -code error "\"$directory\" does not exist" } if {![file isdir $directory]} { return -code error "\"$directory\" is not a directory" } return [AcceptReadable $directory] } ##### Initialize internal arrays of tcltest, but only if the caller # has not already pre-initialized them. This is done to support # compatibility with older tests that directly access internals # rather than go through command interfaces. # proc ArrayDefault {varName value} { variable $varName if {[array exists $varName]} { return } if {[info exists $varName]} { # Pre-initialized value is a scalar: destroy it! unset $varName } array set $varName $value } # save the original environment so that it can be restored later ArrayDefault originalEnv [array get ::env] # initialize numTests array to keep track of the number of tests # that pass, fail, and are skipped. ArrayDefault numTests [list Total 0 Passed 0 Skipped 0 Failed 0] # createdNewFiles will store test files as indices and the list of # files (that should not have been) left behind by the test files # as values. ArrayDefault createdNewFiles {} # initialize skippedBecause array to keep track of constraints that # kept tests from running; a constraint name of "userSpecifiedSkip" # means that the test appeared on the list of tests that matched the # -skip value given to the flag; "userSpecifiedNonMatch" means that # the test didn't match the argument given to the -match flag; both # of these constraints are counted only if tcltest::debug is set to # true. ArrayDefault skippedBecause {} # initialize the testConstraints array to keep track of valid # predefined constraints (see the explanation for the # InitConstraints proc for more details). ArrayDefault testConstraints {} ##### Initialize internal variables of tcltest, but only if the caller # has not already pre-initialized them. This is done to support # compatibility with older tests that directly access internals # rather than go through command interfaces. # proc Default {varName value {verify AcceptAll}} { variable $varName if {![info exists $varName]} { variable $varName [$verify $value] } else { variable $varName [$verify [set $varName]] } } # Save any arguments that we might want to pass through to other # programs. This is used by the -args flag. # FINDUSER Default parameters {} # Count the number of files tested (0 if runAllTests wasn't called). # runAllTests will set testSingleFile to false, so stats will # not be printed until runAllTests calls the cleanupTests proc. # The currentFailure var stores the boolean value of whether the # current test file has had any failures. The failFiles list # stores the names of test files that had failures. Default numTestFiles 0 AcceptInteger Default testSingleFile true AcceptBoolean Default currentFailure false AcceptBoolean Default failFiles {} AcceptList # Tests should remove all files they create. The test suite will # check the current working dir for files created by the tests. # filesMade keeps track of such files created using the makeFile and # makeDirectory procedures. filesExisted stores the names of # pre-existing files. # # Note that $filesExisted lists only those files that exist in # the original [temporaryDirectory]. Default filesMade {} AcceptList Default filesExisted {} AcceptList proc FillFilesExisted {} { variable filesExisted # Save the names of files that already exist in the scratch directory. foreach file [glob -nocomplain -directory [temporaryDirectory] ] { lappend filesExisted [file tail $file] } # After successful filling, turn this into a no-op. proc FillFilesExisted args {} } # Kept only for compatibility Default constraintsSpecified {} AcceptList trace variable constraintsSpecified r {set ::tcltest::constraintsSpecified \ [array names ::tcltest::testConstraints] ;# } # tests that use threads need to know which is the main thread Default mainThread 1 variable mainThread if {[info commands thread::id] != {}} { set mainThread [thread::id] } elseif {[info commands testthread] != {}} { set mainThread [testthread id] } # Set workingDirectory to [pwd]. The default output directory for # Tcl tests is the working directory. Whenever this value changes # change to that directory. variable workingDirectory trace variable workingDirectory w \ [namespace code {cd $workingDirectory ;#}] Default workingDirectory [pwd] AcceptAbsolutePath proc workingDirectory { {dir ""} } { variable workingDirectory if {[llength [info level 0]] == 1} { return $workingDirectory } set workingDirectory [AcceptAbsolutePath $dir] } # Set the location of the execuatble Default tcltest [info nameofexecutable] trace variable tcltest w [namespace code {testConstraint stdio \ [eval [ConstraintInitializer stdio]] ;#}] # save the platform information so it can be restored later Default originalTclPlatform [array get ::tcl_platform] # If a core file exists, save its modification time. if {[file exists [file join [workingDirectory] core]]} { Default coreModTime \ [file mtime [file join [workingDirectory] core]] } # stdout and stderr buffers for use when we want to store them Default outData {} Default errData {} # keep track of test level for nested test commands variable testLevel 0 # the variables and procs that existed when saveState was called are # stored in a variable of the same name Default saveState {} # Internationalization support -- used in [SetIso8859_1_Locale] and # [RestoreLocale]. Those commands are used in cmdIL.test. if {![info exists [namespace current]::isoLocale]} { variable isoLocale fr switch -- $::tcl_platform(platform) { "unix" { # Try some 'known' values for some platforms: switch -exact -- $::tcl_platform(os) { "FreeBSD" { set isoLocale fr_FR.ISO_8859-1 } HP-UX { set isoLocale fr_FR.iso88591 } Linux - IRIX { set isoLocale fr } default { # Works on SunOS 4 and Solaris, and maybe # others... Define it to something else on your # system if you want to test those. set isoLocale iso_8859_1 } } } "windows" { set isoLocale French } } } variable ChannelsWeOpened; array set ChannelsWeOpened {} # output goes to stdout by default Default outputChannel stdout proc outputChannel { {filename ""} } { variable outputChannel variable ChannelsWeOpened # This is very subtle and tricky, so let me try to explain. # (Hopefully this longer comment will be clear when I come # back in a few months, unlike its predecessor :) ) # # The [outputChannel] command (and underlying variable) have to # be kept in sync with the [configure -outfile] configuration # option ( and underlying variable Option(-outfile) ). This is # accomplished with a write trace on Option(-outfile) that will # update [outputChannel] whenver a new value is written. That # much is easy. # # The trick is that in order to maintain compatibility with # version 1 of tcltest, we must allow every configuration option # to get its inital value from command line arguments. This is # accomplished by setting initial read traces on all the # configuration options to parse the command line option the first # time they are read. These traces are cancelled whenever the # program itself calls [configure]. # # OK, then so to support tcltest 1 compatibility, it seems we want # to get the return from [outputFile] to trigger the read traces, # just in case. # # BUT! A little known feature of Tcl variable traces is that # traces are disabled during the handling of other traces. So, # if we trigger read traces on Option(-outfile) and that triggers # command line parsing which turns around and sets an initial # value for Option(-outfile) -- <whew!> -- the write trace that # would keep [outputChannel] in sync with that new initial value # would not fire! # # SO, finally, as a workaround, instead of triggering read traces # by invoking [outputFile], we instead trigger the same set of # read traces by invoking [debug]. Any command that reads a # configuration option would do. [debug] is just a handy one. # The end result is that we support tcltest 1 compatibility and # keep outputChannel and -outfile in sync in all cases. debug if {[llength [info level 0]] == 1} { return $outputChannel } if {[info exists ChannelsWeOpened($outputChannel)]} { close $outputChannel unset ChannelsWeOpened($outputChannel) } switch -exact -- $filename { stderr - stdout { set outputChannel $filename } default { set outputChannel [open $filename a] set ChannelsWeOpened($outputChannel) 1 # If we created the file in [temporaryDirectory], then # [cleanupTests] will delete it, unless we claim it was # already there. set outdir [normalizePath [file dirname \ [file join [pwd] $filename]]] if {[string equal $outdir [temporaryDirectory]]} { variable filesExisted FillFilesExisted set filename [file tail $filename] if {[lsearch -exact $filesExisted $filename] == -1} { lappend filesExisted $filename } } } } return $outputChannel } # errors go to stderr by default Default errorChannel stderr proc errorChannel { {filename ""} } { variable errorChannel variable ChannelsWeOpened # This is subtle and tricky. See the comment above in # [outputChannel] for a detailed explanation. debug if {[llength [info level 0]] == 1} { return $errorChannel } if {[info exists ChannelsWeOpened($errorChannel)]} { close $errorChannel unset ChannelsWeOpened($errorChannel) } switch -exact -- $filename { stderr - stdout { set errorChannel $filename } default { set errorChannel [open $filename a] set ChannelsWeOpened($errorChannel) 1 # If we created the file in [temporaryDirectory], then # [cleanupTests] will delete it, unless we claim it was # already there. set outdir [normalizePath [file dirname \ [file join [pwd] $filename]]] if {[string equal $outdir [temporaryDirectory]]} { variable filesExisted FillFilesExisted set filename [file tail $filename] if {[lsearch -exact $filesExisted $filename] == -1} { lappend filesExisted $filename } } } } return $errorChannel } ##### Set up the configurable options # # The configurable options of the package variable Option; array set Option {} # Usage strings for those options variable Usage; array set Usage {} # Verification commands for those options variable Verify; array set Verify {} # Initialize the default values of the configurable options that are # historically associated with an exported variable. If that variable # is already set, support compatibility by accepting its pre-set value. # Use [trace] to establish ongoing connection between the deprecated # exported variable and the modern option kept as a true internal var. # Also set up usage string and value testing for the option. proc Option {option value usage {verify AcceptAll} {varName {}}} { variable Option variable Verify variable Usage variable OptionControlledVariables variable DefaultValue set Usage($option) $usage set Verify($option) $verify set DefaultValue($option) $value if {[catch {$verify $value} msg]} { return -code error $msg } else { set Option($option) $msg } if {[string length $varName]} { variable $varName if {[info exists $varName]} { if {[catch {$verify [set $varName]} msg]} { return -code error $msg } else { set Option($option) $msg } unset $varName } namespace eval [namespace current] \ [list upvar 0 Option($option) $varName] # Workaround for Bug (now Feature Request) 572889. Grrrr.... # Track all the variables tied to options lappend OptionControlledVariables $varName # Later, set auto-configure read traces on all # of them, since a single trace on Option does not work. proc $varName {{value {}}} [subst -nocommands { if {[llength [info level 0]] == 2} { Configure $option [set value] } return [Configure $option] }] } } proc MatchingOption {option} { variable Option set match [array names Option $option] switch -- [llength $match] { 0 { set sorted [lsort [array names Option]] set values [join [lrange $sorted 0 end-1] ", "] append values ", or [lindex $sorted end]" return -code error "unknown option $option: should be\ one of $values" } 1 { return [lindex $match 0] } default { # Exact match trumps ambiguity if {[lsearch -exact $match $option] >= 0} { return $option } set values [join [lrange $match 0 end-1] ", "] append values ", or [lindex $match end]" return -code error "ambiguous option $option:\ could match $values" } } } proc EstablishAutoConfigureTraces {} { variable OptionControlledVariables foreach varName [concat $OptionControlledVariables Option] { variable $varName trace variable $varName r [namespace code {ProcessCmdLineArgs ;#}] } } proc RemoveAutoConfigureTraces {} { variable OptionControlledVariables foreach varName [concat $OptionControlledVariables Option] { variable $varName foreach pair [trace vinfo $varName] { foreach {op cmd} $pair break if {[string equal r $op] && [string match ProcessCmdLineArgs $cmd]} { trace vdelete $varName $op $cmd } } } # Once the traces are removed, this can become a no-op proc RemoveAutoConfigureTraces {} {} } proc Configure args { variable Option variable Verify set n [llength $args] if {$n == 0} { return [lsort [array names Option]] } if {$n == 1} { if {[catch {MatchingOption [lindex $args 0]} option]} { return -code error $option } return $Option($option) } while {[llength $args] > 1} { if {[catch {MatchingOption [lindex $args 0]} option]} { return -code error $option } if {[catch {$Verify($option) [lindex $args 1]} value]} { return -code error "invalid $option\ value \"[lindex $args 1]\": $value" } set Option($option) $value set args [lrange $args 2 end] } if {[llength $args]} { if {[catch {MatchingOption [lindex $args 0]} option]} { return -code error $option } return -code error "missing value for option $option" } } proc configure args { RemoveAutoConfigureTraces set code [catch {Configure {}$args} msg] return -code $code $msg } proc AcceptVerbose { level } { set level [AcceptList $level] if {[llength $level] == 1} { if {![regexp {^(pass\|body\|skip\|start\|error\|line)$} $level]} { # translate single characters abbreviations to expanded list set level [string map {p pass b body s skip t start e error l line} \ [split $level {}]] } } set valid [list] foreach v $level { if {[regexp {^(pass\|body\|skip\|start\|error\|line)$} $v]} { lappend valid $v } } return $valid } proc IsVerbose {level} { variable Option return [expr {[lsearch -exact $Option(-verbose) $level] != -1}] } # Default verbosity is to show bodies of failed tests Option -verbose {body error} { Takes any combination of the values 'p', 's', 'b', 't', 'e' and 'l'. Test suite will display all passed tests if 'p' is specified, all skipped tests if 's' is specified, the bodies of failed tests if 'b' is specified, and when tests start if 't' is specified. ErrorInfo is displayed if 'e' is specified. Source file line information of failed tests is displayed if 'l' is specified. } AcceptVerbose verbose # Match and skip patterns default to the empty list, except for # matchFiles, which defaults to all .test files in the # testsDirectory and matchDirectories, which defaults to all # directories. Option -match { Run all tests within the specified files that match one of the list of glob patterns given. } AcceptList match Option -skip {} { Skip all tests within the specified tests (via -match) and files that match one of the list of glob patterns given. } AcceptList skip Option -file .test { Run tests in all test files that match the glob pattern given. } AcceptPattern matchFiles # By default, skip files that appear to be SCCS lock files. Option -notfile l..test { Skip all test files that match the glob pattern given. } AcceptPattern skipFiles Option -relateddir * { Run tests in directories that match the glob pattern given. } AcceptPattern matchDirectories Option -asidefromdir {} { Skip tests in directories that match the glob pattern given. } AcceptPattern skipDirectories # By default, don't save core files Option -preservecore 0 { If 2, save any core files produced during testing in the directory specified by -tmpdir. If 1, notify the user if core files are created. } AcceptInteger preserveCore # debug output doesn't get printed by default; debug level 1 spits # up only the tests that were skipped because they didn't match or # were specifically skipped. A debug level of 2 would spit up the # tcltest variables and flags provided; a debug level of 3 causes # some additional output regarding operations of the test harness. # The tcltest package currently implements only up to debug level 3. Option -debug 0 { Internal debug level } AcceptInteger debug proc SetSelectedConstraints args { variable Option foreach c $Option(-constraints) { testConstraint $c 1 } } Option -constraints {} { Do not skip the listed constraints listed in -constraints. } AcceptList trace variable Option(-constraints) w \ [namespace code {SetSelectedConstraints ;#}] # Don't run only the "-constraint" specified tests by default proc ClearUnselectedConstraints args { variable Option variable testConstraints if {!$Option(-limitconstraints)} {return} foreach c [array names testConstraints] { if {[lsearch -exact $Option(-constraints) $c] == -1} { testConstraint $c 0 } } } Option -limitconstraints 0 { whether to run only tests with the constraints } AcceptBoolean limitConstraints trace variable Option(-limitconstraints) w \ [namespace code {ClearUnselectedConstraints ;#}] # A test application has to know how to load the tested commands # into the interpreter. Option -load {} { Specifies the script to load the tested commands. } AcceptScript loadScript # Default is to run each test file in a separate process Option -singleproc 0 { whether to run all tests in one process } AcceptBoolean singleProcess proc AcceptTemporaryDirectory { directory } { set directory [AcceptAbsolutePath $directory] if {![file exists $directory]} { file mkdir $directory } set directory [AcceptDirectory $directory] if {![file writable $directory]} { if {[string equal [workingDirectory] $directory]} { # Special exception: accept the default value # even if the directory is not writable return $directory } return -code error "\"$directory\" is not writeable" } return $directory } # Directory where files should be created Option -tmpdir [workingDirectory] { Save temporary files in the specified directory. } AcceptTemporaryDirectory temporaryDirectory trace variable Option(-tmpdir) w \ [namespace code {normalizePath Option(-tmpdir) ;#}] # Tests should not rely on the current working directory. # Files that are part of the test suite should be accessed relative # to [testsDirectory] Option -testdir [workingDirectory] { Search tests in the specified directory. } AcceptDirectory testsDirectory trace variable Option(-testdir) w \ [namespace code {normalizePath Option(-testdir) ;#}] proc AcceptLoadFile { file } { if {[string equal "" $file]} {return $file} set file [file join [temporaryDirectory] $file] return [AcceptReadable $file] } proc ReadLoadScript {args} { variable Option if {[string equal "" $Option(-loadfile)]} {return} set tmp [open $Option(-loadfile) r] loadScript [read $tmp] close $tmp } Option -loadfile {} { Read the script to load the tested commands from the specified file. } AcceptLoadFile loadFile trace variable Option(-loadfile) w [namespace code ReadLoadScript] proc AcceptOutFile { file } { if {[string equal stderr $file]} {return $file} if {[string equal stdout $file]} {return $file} return [file join [temporaryDirectory] $file] } # output goes to stdout by default Option -outfile stdout { Send output from test runs to the specified file. } AcceptOutFile outputFile trace variable Option(-outfile) w \ [namespace code {outputChannel $Option(-outfile) ;#}] # errors go to stderr by default Option -errfile stderr { Send errors from test runs to the specified file. } AcceptOutFile errorFile trace variable Option(-errfile) w \ [namespace code {errorChannel $Option(-errfile) ;#}] proc loadIntoSlaveInterpreter {slave args} { variable Version interp eval $slave [package ifneeded tcltest $Version] interp eval $slave "tcltest::configure {}{$args}" interp alias $slave ::tcltest::ReportToMaster \ {} ::tcltest::ReportedFromSlave } proc ReportedFromSlave {total passed skipped failed because newfiles} { variable numTests variable skippedBecause variable createdNewFiles incr numTests(Total) $total incr numTests(Passed) $passed incr numTests(Skipped) $skipped incr numTests(Failed) $failed foreach {constraint count} $because { incr skippedBecause($constraint) $count } foreach {testfile created} $newfiles { lappend createdNewFiles($testfile) {}$created } return } } ##################################################################### # tcltest::Debug* -- # # Internal helper procedures to write out debug information # dependent on the chosen level. A test shell may overide # them, f.e. to redirect the output into a different # channel, or even into a GUI. # tcltest::DebugPuts -- # # Prints the specified string if the current debug level is # higher than the provided level argument. # # Arguments: # level The lowest debug level triggering the output # string The string to print out. # # Results: # Prints the string. Nothing else is allowed. # # Side Effects: # None. # proc tcltest::DebugPuts {level string} { variable debug if {$debug >= $level} { puts $string } return } # tcltest::DebugPArray -- # # Prints the contents of the specified array if the current # debug level is higher than the provided level argument # # Arguments: # level The lowest debug level triggering the output # arrayvar The name of the array to print out. # # Results: # Prints the contents of the array. Nothing else is allowed. # # Side Effects: # None. # proc tcltest::DebugPArray {level arrayvar} { variable debug if {$debug >= $level} { catch {upvar $arrayvar $arrayvar} parray $arrayvar } return } # Define our own [parray] in ::tcltest that will inherit use of the [puts] # defined in ::tcltest. NOTE: Ought to construct with [info args] and # [info default], but can't be bothered now. If [parray] changes, then # this will need changing too. auto_load ::parray proc tcltest::parray {a {pattern }} [info body ::parray] # tcltest::DebugDo -- # # Executes the script if the current debug level is greater than # the provided level argument # # Arguments: # level The lowest debug level triggering the execution. # script The tcl script executed upon a debug level high enough. # # Results: # Arbitrary side effects, dependent on the executed script. # # Side Effects: # None. # proc tcltest::DebugDo {level script} { variable debug if {$debug >= $level} { uplevel 1 $script } return } ##################################################################### proc tcltest::Warn {msg} { puts [outputChannel] "WARNING: $msg" } # tcltest::mainThread # # Accessor command for tcltest variable mainThread. # proc tcltest::mainThread { {new ""} } { variable mainThread if {[llength [info level 0]] == 1} { return $mainThread } set mainThread $new } # tcltest::testConstraint -- # # sets a test constraint to a value; to do multiple constraints, # call this proc multiple times. also returns the value of the # named constraint if no value was supplied. # # Arguments: # constraint - name of the constraint # value - new value for constraint (should be boolean) - if not # supplied, this is a query # # Results: # content of tcltest::testConstraints($constraint) # # Side effects: # none proc tcltest::testConstraint {constraint {value ""}} { variable testConstraints variable Option DebugPuts 3 "entering testConstraint $constraint $value" if {[llength [info level 0]] == 2} { return $testConstraints($constraint) } # Check for boolean values if {[catch {expr {$value && $value}} msg]} { return -code error $msg } if {[limitConstraints] && [lsearch -exact $Option(-constraints) $constraint] == -1} { set value 0 } set testConstraints($constraint) $value } # tcltest::interpreter -- # # the interpreter name stored in tcltest::tcltest # # Arguments: # executable name # # Results: # content of tcltest::tcltest # # Side effects: # None. proc tcltest::interpreter { {interp ""} } { variable tcltest if {[llength [info level 0]] == 1} { return $tcltest } if {[string equal {} $interp]} { set tcltest {} } else { set tcltest $interp } } ##################################################################### # tcltest::AddToSkippedBecause -- # # Increments the variable used to track how many tests were # skipped because of a particular constraint. # # Arguments: # constraint The name of the constraint to be modified # # Results: # Modifies tcltest::skippedBecause; sets the variable to 1 if # didn't previously exist - otherwise, it just increments it. # # Side effects: # None. proc tcltest::AddToSkippedBecause { constraint {value 1}} { # add the constraint to the list of constraints that kept tests # from running variable skippedBecause if {[info exists skippedBecause($constraint)]} { incr skippedBecause($constraint) $value } else { set skippedBecause($constraint) $value } return } # tcltest::PrintError -- # # Prints errors to tcltest::errorChannel and then flushes that # channel, making sure that all messages are < 80 characters per # line. # # Arguments: # errorMsg String containing the error to be printed # # Results: # None. # # Side effects: # None. proc tcltest::PrintError {errorMsg} { set InitialMessage "Error: " set InitialMsgLen [string length $InitialMessage] puts -nonewline [errorChannel] $InitialMessage # Keep track of where the end of the string is. set endingIndex [string length $errorMsg] if {$endingIndex < (80 - $InitialMsgLen)} { puts [errorChannel] $errorMsg } else { # Print up to 80 characters on the first line, including the # InitialMessage. set beginningIndex [string last " " [string range $errorMsg 0 \ [expr {80 - $InitialMsgLen}]]] puts [errorChannel] [string range $errorMsg 0 $beginningIndex] while {![string equal end $beginningIndex]} { puts -nonewline [errorChannel] \ [string repeat " " $InitialMsgLen] if {($endingIndex - $beginningIndex) < (80 - $InitialMsgLen)} { puts [errorChannel] [string trim \ [string range $errorMsg $beginningIndex end]] break } else { set newEndingIndex [expr {[string last " " \ [string range $errorMsg $beginningIndex \ [expr {$beginningIndex + (80 - $InitialMsgLen)}] ]] + $beginningIndex}] if {($newEndingIndex <= 0) \|\| ($newEndingIndex <= $beginningIndex)} { set newEndingIndex end } puts [errorChannel] [string trim \ [string range $errorMsg \ $beginningIndex $newEndingIndex]] set beginningIndex $newEndingIndex } } } flush [errorChannel] return } # tcltest::SafeFetch -- # # The following trace procedure makes it so that we can safely # refer to non-existent members of the testConstraints array # without causing an error. Instead, reading a non-existent # member will return 0. This is necessary because tests are # allowed to use constraint "X" without ensuring that # testConstraints("X") is defined. # # Arguments: # n1 - name of the array (testConstraints) # n2 - array key value (constraint name) # op - operation performed on testConstraints (generally r) # # Results: # none # # Side effects: # sets testConstraints($n2) to 0 if it's referenced but never # before used proc tcltest::SafeFetch {n1 n2 op} { variable testConstraints DebugPuts 3 "entering SafeFetch $n1 $n2 $op" if {[string equal {} $n2]} {return} if {![info exists testConstraints($n2)]} { if {[catch {testConstraint $n2 [eval [ConstraintInitializer $n2]]}]} { testConstraint $n2 0 } } } # tcltest::ConstraintInitializer -- # # Get or set a script that when evaluated in the tcltest namespace # will return a boolean value with which to initialize the # associated constraint. # # Arguments: # constraint - name of the constraint initialized by the script # script - the initializer script # # Results # boolean value of the constraint - enabled or disabled # # Side effects: # Constraint is initialized for future reference by [test] proc tcltest::ConstraintInitializer {constraint {script ""}} { variable ConstraintInitializer DebugPuts 3 "entering ConstraintInitializer $constraint $script" if {[llength [info level 0]] == 2} { return $ConstraintInitializer($constraint) } # Check for boolean values if {![info complete $script]} { return -code error "ConstraintInitializer must be complete script" } set ConstraintInitializer($constraint) $script } # tcltest::InitConstraints -- # # Call all registered constraint initializers to force initialization # of all known constraints. # See the tcltest man page for the list of built-in constraints defined # in this procedure. # # Arguments: # none # # Results: # The testConstraints array is reset to have an index for each # built-in test constraint. # # Side Effects: # None. # proc tcltest::InitConstraints {} { variable ConstraintInitializer initConstraintsHook foreach constraint [array names ConstraintInitializer] { testConstraint $constraint } } proc tcltest::DefineConstraintInitializers {} { ConstraintInitializer singleTestInterp {singleProcess} # All the 'pc' constraints are here for backward compatibility and # are not documented. They have been replaced with equivalent 'win' # constraints. ConstraintInitializer unixOnly \ {string equal $::tcl_platform(platform) unix} ConstraintInitializer macOnly \ {string equal $::tcl_platform(platform) macintosh} ConstraintInitializer pcOnly \ {string equal $::tcl_platform(platform) windows} ConstraintInitializer winOnly \ {string equal $::tcl_platform(platform) windows} ConstraintInitializer unix {testConstraint unixOnly} ConstraintInitializer mac {testConstraint macOnly} ConstraintInitializer pc {testConstraint pcOnly} ConstraintInitializer win {testConstraint winOnly} ConstraintInitializer unixOrPc \ {expr {[testConstraint unix] \|\| [testConstraint pc]}} ConstraintInitializer macOrPc \ {expr {[testConstraint mac] \|\| [testConstraint pc]}} ConstraintInitializer unixOrWin \ {expr {[testConstraint unix] \|\| [testConstraint win]}} ConstraintInitializer macOrWin \ {expr {[testConstraint mac] \|\| [testConstraint win]}} ConstraintInitializer macOrUnix \ {expr {[testConstraint mac] \|\| [testConstraint unix]}} ConstraintInitializer nt {string equal $::tcl_platform(os) "Windows NT"} ConstraintInitializer 95 {string equal $::tcl_platform(os) "Windows 95"} ConstraintInitializer 98 {string equal $::tcl_platform(os) "Windows 98"} # The following Constraints switches are used to mark tests that # should work, but have been temporarily disabled on certain # platforms because they don't and we haven't gotten around to # fixing the underlying problem. ConstraintInitializer tempNotPc {expr {![testConstraint pc]}} ConstraintInitializer tempNotWin {expr {![testConstraint win]}} ConstraintInitializer tempNotMac {expr {![testConstraint mac]}} ConstraintInitializer tempNotUnix {expr {![testConstraint unix]}} # The following Constraints switches are used to mark tests that # crash on certain platforms, so that they can be reactivated again # when the underlying problem is fixed. ConstraintInitializer pcCrash {expr {![testConstraint pc]}} ConstraintInitializer winCrash {expr {![testConstraint win]}} ConstraintInitializer macCrash {expr {![testConstraint mac]}} ConstraintInitializer unixCrash {expr {![testConstraint unix]}} # Skip empty tests ConstraintInitializer emptyTest {format 0} # By default, tests that expose known bugs are skipped. ConstraintInitializer knownBug {format 0} # By default, non-portable tests are skipped. ConstraintInitializer nonPortable {format 0} # Some tests require user interaction. ConstraintInitializer userInteraction {format 0} # Some tests must be skipped if the interpreter is not in # interactive mode ConstraintInitializer interactive \ {expr {[info exists ::tcl_interactive] && $::tcl_interactive}} # Some tests can only be run if the installation came from a CD # image instead of a web image. Some tests must be skipped if you # are running as root on Unix. Other tests can only be run if you # are running as root on Unix. ConstraintInitializer root {expr \ {[string equal unix $::tcl_platform(platform)] && ([string equal root $::tcl_platform(user)] \|\| [string equal "" $::tcl_platform(user)])}} ConstraintInitializer notRoot {expr {![testConstraint root]}} # Set nonBlockFiles constraint: 1 means this platform supports # setting files into nonblocking mode. ConstraintInitializer nonBlockFiles { set code [expr {[catch {set f [open defs r]}] \|\| [catch {fconfigure $f -blocking off}]}] catch {close $f} set code } # Set asyncPipeClose constraint: 1 means this platform supports # async flush and async close on a pipe. # # Test for SCO Unix - cannot run async flushing tests because a # potential problem with select is apparently interfering. # (Mark Diekhans). ConstraintInitializer asyncPipeClose {expr { !([string equal unix $::tcl_platform(platform)] && ([catch {exec uname -X \| fgrep {Release = 3.2v}}] == 0))}} # Test to see if we have a broken version of sprintf with respect # to the "e" format of floating-point numbers. ConstraintInitializer eformat {string equal [format %g 5e-5] 5e-05} # Test to see if execed commands such as cat, echo, rm and so forth # are present on this machine. ConstraintInitializer unixExecs { set code 1 if {[string equal macintosh $::tcl_platform(platform)]} { set code 0 } if {[string equal windows $::tcl_platform(platform)]} { if {[catch { set file _tcl_test_remove_me.txt makeFile {hello} $file }]} { set code 0 } elseif { [catch {exec cat $file}] \|\| [catch {exec echo hello}] \|\| [catch {exec sh -c echo hello}] \|\| [catch {exec wc $file}] \|\| [catch {exec sleep 1}] \|\| [catch {exec echo abc > $file}] \|\| [catch {exec chmod 644 $file}] \|\| [catch {exec rm $file}] \|\| [llength [auto_execok mkdir]] == 0 \|\| [llength [auto_execok fgrep]] == 0 \|\| [llength [auto_execok grep]] == 0 \|\| [llength [auto_execok ps]] == 0 } { set code 0 } removeFile $file } set code } ConstraintInitializer stdio { set code 0 if {![catch {set f [open "\|[list [interpreter]]" w]}]} { if {![catch {puts $f exit}]} { if {![catch {close $f}]} { set code 1 } } } set code } # Deliberately call socket with the wrong number of arguments. The # error message you get will indicate whether sockets are available # on this system. ConstraintInitializer socket { catch {socket} msg string compare $msg "sockets are not available on this system" } # Check for internationalization ConstraintInitializer hasIsoLocale { if {[llength [info commands testlocale]] == 0} { set code 0 } else { set code [string length [SetIso8859_1_Locale]] RestoreLocale } set code } } ##################################################################### # Usage and command line arguments processing. # tcltest::PrintUsageInfo # # Prints out the usage information for package tcltest. This can # be customized with the redefinition of [PrintUsageInfoHook]. # # Arguments: # none # # Results: # none # # Side Effects: # none proc tcltest::PrintUsageInfo {} { puts [Usage] PrintUsageInfoHook } proc tcltest::Usage { {option ""} } { variable Usage variable Verify if {[llength [info level 0]] == 1} { set msg "Usage: [file tail [info nameofexecutable]] script " append msg "?-help? ?flag value? ... \n" append msg "Available flags (and valid input values) are:" set max 0 set allOpts [concat -help [Configure]] foreach opt $allOpts { set foo [Usage $opt] foreach [list x type($opt) usage($opt)] $foo break set line($opt) " $opt $type($opt) " set length($opt) [string length $line($opt)] if {$length($opt) > $max} {set max $length($opt)} } set rest [expr {72 - $max}] foreach opt $allOpts { append msg \n$line($opt) append msg [string repeat " " [expr {$max - $length($opt)}]] set u [string trim $usage($opt)] catch {append u " (default: \[[Configure $opt]])"} regsub -all {\s\n\s} $u " " u while {[string length $u] > $rest} { set break [string wordstart $u $rest] if {$break == 0} { set break [string wordend $u 0] } append msg [string range $u 0 [expr {$break - 1}]] set u [string trim [string range $u $break end]] append msg \n[string repeat " " $max] } append msg $u } return $msg\n } elseif {[string equal -help $option]} { return [list -help "" "Display this usage information."] } else { set type [lindex [info args $Verify($option)] 0] return [list $option $type $Usage($option)] } } # tcltest::ProcessFlags -- # # process command line arguments supplied in the flagArray - this # is called by processCmdLineArgs. Modifies tcltest variables # according to the content of the flagArray. # # Arguments: # flagArray - array containing name/value pairs of flags # # Results: # sets tcltest variables according to their values as defined by # flagArray # # Side effects: # None. proc tcltest::ProcessFlags {flagArray} { # Process -help first if {[lsearch -exact $flagArray {-help}] != -1} { PrintUsageInfo exit 1 } if {[llength $flagArray] == 0} { RemoveAutoConfigureTraces } else { set args $flagArray while {[llength $args]>1 && [catch {configure {}$args} msg]} { # Something went wrong parsing $args for tcltest options # Check whether the problem is "unknown option" if {[regexp {^unknown option (\S+):} $msg -> option]} { # Could be this is an option the Hook knows about set moreOptions [processCmdLineArgsAddFlagsHook] if {[lsearch -exact $moreOptions $option] == -1} { # Nope. Report the error, including additional options, # but keep going if {[llength $moreOptions]} { append msg ", " append msg [join [lrange $moreOptions 0 end-1] ", "] append msg "or [lindex $moreOptions end]" } Warn $msg } } else { # error is something other than "unknown option" # notify user of the error; and exit puts [errorChannel] $msg exit 1 } # To recover, find that unknown option and remove up to it. # then retry while {![string equal [lindex $args 0] $option]} { set args [lrange $args 2 end] } set args [lrange $args 2 end] } if {[llength $args] == 1} { puts [errorChannel] \ "missing value for option [lindex $args 0]" exit 1 } } # Call the hook catch { array set flag $flagArray processCmdLineArgsHook [array get flag] } return } # tcltest::ProcessCmdLineArgs -- # # This procedure must be run after constraint initialization is # set up (by [DefineConstraintInitializers]) because some constraints # can be overridden. # # Perform configuration according to the command-line options. # # Arguments: # none # # Results: # Sets the above-named variables in the tcltest namespace. # # Side Effects: # None. # proc tcltest::ProcessCmdLineArgs {} { variable originalEnv variable testConstraints # The "argv" var doesn't exist in some cases, so use {}. if {![info exists ::argv]} { ProcessFlags {} } else { ProcessFlags $::argv } # Spit out everything you know if we're at a debug level 2 or # greater DebugPuts 2 "Flags passed into tcltest:" if {[info exists ::env(TCLTEST_OPTIONS)]} { DebugPuts 2 \ " ::env(TCLTEST_OPTIONS): $::env(TCLTEST_OPTIONS)" } if {[info exists ::argv]} { DebugPuts 2 " argv: $::argv" } DebugPuts 2 "tcltest::debug = [debug]" DebugPuts 2 "tcltest::testsDirectory = [testsDirectory]" DebugPuts 2 "tcltest::workingDirectory = [workingDirectory]" DebugPuts 2 "tcltest::temporaryDirectory = [temporaryDirectory]" DebugPuts 2 "tcltest::outputChannel = [outputChannel]" DebugPuts 2 "tcltest::errorChannel = [errorChannel]" DebugPuts 2 "Original environment (tcltest::originalEnv):" DebugPArray 2 originalEnv DebugPuts 2 "Constraints:" DebugPArray 2 testConstraints } ##################################################################### # Code to run the tests goes here. # tcltest::TestPuts -- # # Used to redefine puts in test environment. Stores whatever goes # out on stdout in tcltest::outData and stderr in errData before # sending it on to the regular puts. # # Arguments: # same as standard puts # # Results: # none # # Side effects: # Intercepts puts; data that would otherwise go to stdout, stderr, # or file channels specified in outputChannel and errorChannel # does not get sent to the normal puts function. namespace eval tcltest::Replace { namespace export puts } proc tcltest::Replace::puts {args} { variable [namespace parent]::outData variable [namespace parent]::errData switch [llength $args] { 1 { # Only the string to be printed is specified append outData [lindex $args 0]\n return # return [Puts [lindex $args 0]] } 2 { # Either -nonewline or channelId has been specified if {[string equal -nonewline [lindex $args 0]]} { append outData [lindex $args end] return # return [Puts -nonewline [lindex $args end]] } else { set channel [lindex $args 0] set newline \n } } 3 { if {[string equal -nonewline [lindex $args 0]]} { # Both -nonewline and channelId are specified, unless # it's an error. -nonewline is supposed to be argv[0]. set channel [lindex $args 1] set newline "" } } } if {[info exists channel]} { if {[string equal $channel [[namespace parent]::outputChannel]] \|\| [string equal $channel stdout]} { append outData [lindex $args end]$newline return } elseif {[string equal $channel [[namespace parent]::errorChannel]] \|\| [string equal $channel stderr]} { append errData [lindex $args end]$newline return } } # If we haven't returned by now, we don't know how to handle the # input. Let puts handle it. return [Puts {}$args] } # tcltest::Eval -- # # Evaluate the script in the test environment. If ignoreOutput is # false, store data sent to stderr and stdout in outData and # errData. Otherwise, ignore this output altogether. # # Arguments: # script Script to evaluate # ?ignoreOutput? Indicates whether or not to ignore output # sent to stdout & stderr # # Results: # result from running the script # # Side effects: # Empties the contents of outData and errData before running a # test if ignoreOutput is set to 0. proc tcltest::Eval {script {ignoreOutput 1}} { variable outData variable errData DebugPuts 3 "[lindex [info level 0] 0] called" if {!$ignoreOutput} { set outData {} set errData {} rename ::puts [namespace current]::Replace::Puts namespace eval :: [list namespace import [namespace origin Replace::puts]] namespace import Replace::puts } set result [uplevel 1 $script] if {!$ignoreOutput} { namespace forget puts namespace eval :: namespace forget puts rename [namespace current]::Replace::Puts ::puts } return $result } # tcltest::CompareStrings -- # # compares the expected answer to the actual answer, depending on # the mode provided. Mode determines whether a regexp, exact, # glob or custom comparison is done. # # Arguments: # actual - string containing the actual result # expected - pattern to be matched against # mode - type of comparison to be done # # Results: # result of the match # # Side effects: # None. proc tcltest::CompareStrings {actual expected mode} { variable CustomMatch if {![info exists CustomMatch($mode)]} { return -code error "No matching command registered for `-match $mode'" } set match [namespace eval :: $CustomMatch($mode) [list $expected $actual]] if {[catch {expr {$match && $match}} result]} { return -code error "Invalid result from `-match $mode' command: $result" } return $match } # tcltest::customMatch -- # # registers a command to be called when a particular type of # matching is required. # # Arguments: # nickname - Keyword for the type of matching # cmd - Incomplete command that implements that type of matching # when completed with expected string and actual string # and then evaluated. # # Results: # None. # # Side effects: # Sets the variable tcltest::CustomMatch proc tcltest::customMatch {mode script} { variable CustomMatch if {![info complete $script]} { return -code error \ "invalid customMatch script; can't evaluate after completion" } set CustomMatch($mode) $script } # tcltest::SubstArguments list # # This helper function takes in a list of words, then perform a # substitution on the list as though each word in the list is a separate # argument to the Tcl function. For example, if this function is # invoked as: # # SubstArguments {$a {$a}} # # Then it is as though the function is invoked as: # # SubstArguments $a {$a} # # This code is adapted from Paul Duffin's function "SplitIntoWords". # The original function can be found on: # # http://purl.org/thecliff/tcl/wiki/858.html # # Results: # a list containing the result of the substitution # # Exceptions: # An error may occur if the list containing unbalanced quote or # unknown variable. # # Side Effects: # None. # proc tcltest::SubstArguments {argList} { # We need to split the argList up into tokens but cannot use list # operations as they throw away some significant quoting, and # [split] ignores braces as it should. Therefore what we do is # gradually build up a string out of whitespace seperated strings. # We cannot use [split] to split the argList into whitespace # separated strings as it throws away the whitespace which maybe # important so we have to do it all by hand. set result {} set token "" while {[string length $argList]} { # Look for the next word containing a quote: " { } if {[regexp -indices {[^ \t\n][\"\{\}]+[^ \t\n]} \ $argList all]} { # Get the text leading up to this word, but not including # this word, from the argList. set text [string range $argList 0 \ [expr {[lindex $all 0] - 1}]] # Get the word with the quote set word [string range $argList \ [lindex $all 0] [lindex $all 1]] # Remove all text up to and including the word from the # argList. set argList [string range $argList \ [expr {[lindex $all 1] + 1}] end] } else { # Take everything up to the end of the argList. set text $argList set word {} set argList {} } if {$token != {}} { # If we saw a word with quote before, then there is a # multi-word token starting with that word. In this case, # add the text and the current word to this token. append token $text $word } else { # Add the text to the result. There is no need to parse # the text because it couldn't be a part of any multi-word # token. Then start a new multi-word token with the word # because we need to pass this token to the Tcl parser to # check for balancing quotes append result $text set token $word } if { [catch {llength $token} length] == 0 && $length == 1} { # The token is a valid list so add it to the result. # lappend result [string trim $token] append result \{$token\} set token {} } } # If the last token has not been added to the list then there # is a problem. if { [string length $token] } { error "incomplete token \"$token\"" } return $result } # tcltest::test -- # # This procedure runs a test and prints an error message if the test # fails. If verbose has been set, it also prints a message even if the # test succeeds. The test will be skipped if it doesn't match the # match variable, if it matches an element in skip, or if one of the # elements of "constraints" turns out not to be true. # # If testLevel is 1, then this is a top level test, and we record # pass/fail information; otherwise, this information is not logged and # is not added to running totals. # # Attributes: # Only description is a required attribute. All others are optional. # Default values are indicated. # # constraints - A list of one or more keywords, each of which # must be the name of an element in the array # "testConstraints". If any of these elements is # zero, the test is skipped. This attribute is # optional; default is {} # body - Script to run to carry out the test. It must # return a result that can be checked for # correctness. This attribute is optional; # default is {} # result - Expected result from script. This attribute is # optional; default is {}. # output - Expected output sent to stdout. This attribute # is optional; default is {}. # errorOutput - Expected output sent to stderr. This attribute # is optional; default is {}. # returnCodes - Expected return codes. This attribute is # optional; default is {0 2}. # setup - Code to run before $script (above). This # attribute is optional; default is {}. # cleanup - Code to run after $script (above). This # attribute is optional; default is {}. # match - specifies type of matching to do on result, # output, errorOutput; this must be a string # previously registered by a call to [customMatch]. # The strings exact, glob, and regexp are pre-registered # by the tcltest package. Default value is exact. # # Arguments: # name - Name of test, in the form foo-1.2. # description - Short textual description of the test, to # help humans understand what it does. # # Results: # None. # # Side effects: # Just about anything is possible depending on the test. # proc tcltest::test {name description args} { global tcl_platform variable testLevel variable coreModTime DebugPuts 3 "test $name $args" DebugDo 1 { variable TestNames catch { puts "test name '$name' re-used; prior use in $TestNames($name)" } set TestNames($name) [info script] } FillFilesExisted incr testLevel # Pre-define everything to null except output and errorOutput. We # determine whether or not to trap output based on whether or not # these variables (output & errorOutput) are defined. foreach item {constraints setup cleanup body result returnCodes match} { set $item {} } # Set the default match mode set match exact # Set the default match values for return codes (0 is the standard # expected return value if everything went well; 2 represents # 'return' being used in the test script). set returnCodes [list 0 2] # The old test format can't have a 3rd argument (constraints or # script) that starts with '-'. if {[string match - [lindex $args 0]] \|\| ([llength $args] <= 1)} { if {[llength $args] == 1} { set list [SubstArguments [lindex $args 0]] foreach {element value} $list { set testAttributes($element) $value } foreach item {constraints match setup body cleanup \ result returnCodes output errorOutput} { if {[info exists testAttributes(-$item)]} { set testAttributes(-$item) [uplevel 1 \ ::concat $testAttributes(-$item)] } } } else { array set testAttributes $args } set validFlags {-setup -cleanup -body -result -returnCodes \ -match -output -errorOutput -constraints} foreach flag [array names testAttributes] { if {[lsearch -exact $validFlags $flag] == -1} { incr testLevel -1 set sorted [lsort $validFlags] set options [join [lrange $sorted 0 end-1] ", "] append options ", or [lindex $sorted end]" return -code error "bad option \"$flag\": must be $options" } } # store whatever the user gave us foreach item [array names testAttributes] { set [string trimleft $item "-"] $testAttributes($item) } # Check the values supplied for -match variable CustomMatch if {[lsearch [array names CustomMatch] $match] == -1} { incr testLevel -1 set sorted [lsort [array names CustomMatch]] set values [join [lrange $sorted 0 end-1] ", "] append values ", or [lindex $sorted end]" return -code error "bad -match value \"$match\":\ must be $values" } # Replace symbolic valies supplied for -returnCodes foreach {strcode numcode} {ok 0 normal 0 error 1 return 2 break 3 continue 4} { set returnCodes [string map -nocase [list $strcode $numcode] $returnCodes] } } else { # This is parsing for the old test command format; it is here # for backward compatibility. set result [lindex $args end] if {[llength $args] == 2} { set body [lindex $args 0] } elseif {[llength $args] == 3} { set constraints [lindex $args 0] set body [lindex $args 1] } else { incr testLevel -1 return -code error "wrong # args:\ should be \"test name desc ?options?\"" } } if {[Skipped $name $constraints]} { incr testLevel -1 return } # Save information about the core file. if {[preserveCore]} { if {[file exists [file join [workingDirectory] core]]} { set coreModTime [file mtime [file join [workingDirectory] core]] } } # First, run the setup script set code [catch {uplevel 1 $setup} setupMsg] if {$code == 1} { set errorInfo(setup) $::errorInfo set errorCode(setup) $::errorCode } set setupFailure [expr {$code != 0}] # Only run the test body if the setup was successful if {!$setupFailure} { # Verbose notification of $body start if {[IsVerbose start]} { puts [outputChannel] "---- $name start" flush [outputChannel] } set command [list [namespace origin RunTest] $name $body] if {[info exists output] \|\| [info exists errorOutput]} { set testResult [uplevel 1 [list [namespace origin Eval] $command 0]] } else { set testResult [uplevel 1 [list [namespace origin Eval] $command 1]] } foreach {actualAnswer returnCode} $testResult break if {$returnCode == 1} { set errorInfo(body) $::errorInfo set errorCode(body) $::errorCode } } # Always run the cleanup script set code [catch {uplevel 1 $cleanup} cleanupMsg] if {$code == 1} { set errorInfo(cleanup) $::errorInfo set errorCode(cleanup) $::errorCode } set cleanupFailure [expr {$code != 0}] set coreFailure 0 set coreMsg "" # check for a core file first - if one was created by the test, # then the test failed if {[preserveCore]} { if {[file exists [file join [workingDirectory] core]]} { # There's only a test failure if there is a core file # and (1) there previously wasn't one or (2) the new # one is different from the old one. if {[info exists coreModTime]} { if {$coreModTime != [file mtime \ [file join [workingDirectory] core]]} { set coreFailure 1 } } else { set coreFailure 1 } if {([preserveCore] > 1) && ($coreFailure)} { append coreMsg "\nMoving file to:\ [file join [temporaryDirectory] core-$name]" catch {file rename -force \ [file join [workingDirectory] core] \ [file join [temporaryDirectory] core-$name] } msg if {[string length $msg] > 0} { append coreMsg "\nError:\ Problem renaming core file: $msg" } } } } # check if the return code matched the expected return code set codeFailure 0 if {!$setupFailure && [lsearch -exact $returnCodes $returnCode] == -1} { set codeFailure 1 } # If expected output/error strings exist, we have to compare # them. If the comparison fails, then so did the test. set outputFailure 0 variable outData if {[info exists output] && !$codeFailure} { if {[set outputCompare [catch { CompareStrings $outData $output $match } outputMatch]] == 0} { set outputFailure [expr {!$outputMatch}] } else { set outputFailure 1 } } set errorFailure 0 variable errData if {[info exists errorOutput] && !$codeFailure} { if {[set errorCompare [catch { CompareStrings $errData $errorOutput $match } errorMatch]] == 0} { set errorFailure [expr {!$errorMatch}] } else { set errorFailure 1 } } # check if the answer matched the expected answer # Only check if we ran the body of the test (no setup failure) if {$setupFailure \|\| $codeFailure} { set scriptFailure 0 } elseif {[set scriptCompare [catch { CompareStrings $actualAnswer $result $match } scriptMatch]] == 0} { set scriptFailure [expr {!$scriptMatch}] } else { set scriptFailure 1 } # if we didn't experience any failures, then we passed variable numTests if {!($setupFailure \|\| $cleanupFailure \|\| $coreFailure \|\| $outputFailure \|\| $errorFailure \|\| $codeFailure \|\| $scriptFailure)} { if {$testLevel == 1} { incr numTests(Passed) if {[IsVerbose pass]} { puts [outputChannel] "++++ $name PASSED" } } incr testLevel -1 return } # We know the test failed, tally it... if {$testLevel == 1} { incr numTests(Failed) } # ... then report according to the type of failure variable currentFailure true if {![IsVerbose body]} { set body "" } puts [outputChannel] "\n" if {[IsVerbose line]} { if {![catch {set testFrame [info frame -1]}] && [dict get $testFrame type] eq "source"} { set testFile [dict get $testFrame file] set testLine [dict get $testFrame line] } else { set testFile [file normalize [uplevel 1 {info script}]] if {[file readable $testFile]} { set testFd [open $testFile r] set testLine [expr {[lsearch -regexp \ [split [read $testFd] "\n"] \ "^\[ \t\]test [string map {. \\.} $name] "]+1}] close $testFd } } if {[info exists testLine]} { puts [outputChannel] "$testFile:$testLine: error: test failed:\ $name [string trim $description]" } } puts [outputChannel] "==== $name\ [string trim $description] FAILED" if {[string length $body]} { puts [outputChannel] "==== Contents of test case:" puts [outputChannel] $body } if {$setupFailure} { puts [outputChannel] "---- Test setup\ failed:\n$setupMsg" if {[info exists errorInfo(setup)]} { puts [outputChannel] "---- errorInfo(setup): $errorInfo(setup)" puts [outputChannel] "---- errorCode(setup): $errorCode(setup)" } } if {$scriptFailure} { if {$scriptCompare} { puts [outputChannel] "---- Error testing result: $scriptMatch" } else { puts [outputChannel] "---- Result was:\n$actualAnswer" puts [outputChannel] "---- Result should have been\ ($match matching):\n$result" } } if {$codeFailure} { switch -- $returnCode { 0 { set msg "Test completed normally" } 1 { set msg "Test generated error" } 2 { set msg "Test generated return exception" } 3 { set msg "Test generated break exception" } 4 { set msg "Test generated continue exception" } default { set msg "Test generated exception" } } puts [outputChannel] "---- $msg; Return code was: $returnCode" puts [outputChannel] "---- Return code should have been\ one of: $returnCodes" if {[IsVerbose error]} { if {[info exists errorInfo(body)] && ([lsearch $returnCodes 1]<0)} { puts [outputChannel] "---- errorInfo: $errorInfo(body)" puts [outputChannel] "---- errorCode: $errorCode(body)" } } } if {$outputFailure} { if {$outputCompare} { puts [outputChannel] "---- Error testing output: $outputMatch" } else { puts [outputChannel] "---- Output was:\n$outData" puts [outputChannel] "---- Output should have been\ ($match matching):\n$output" } } if {$errorFailure} { if {$errorCompare} { puts [outputChannel] "---- Error testing errorOutput: $errorMatch" } else { puts [outputChannel] "---- Error output was:\n$errData" puts [outputChannel] "---- Error output should have\ been ($match matching):\n$errorOutput" } } if {$cleanupFailure} { puts [outputChannel] "---- Test cleanup failed:\n$cleanupMsg" if {[info exists errorInfo(cleanup)]} { puts [outputChannel] "---- errorInfo(cleanup): $errorInfo(cleanup)" puts [outputChannel] "---- errorCode(cleanup): $errorCode(cleanup)" } } if {$coreFailure} { puts [outputChannel] "---- Core file produced while running\ test! $coreMsg" } puts [outputChannel] "==== $name FAILED\n" incr testLevel -1 return } # Skipped -- # # Given a test name and it constraints, returns a boolean indicating # whether the current configuration says the test should be skipped. # # Side Effects: Maintains tally of total tests seen and tests skipped. # proc tcltest::Skipped {name constraints} { variable testLevel variable numTests variable testConstraints if {$testLevel == 1} { incr numTests(Total) } # skip the test if it's name matches an element of skip foreach pattern [skip] { if {[string match $pattern $name]} { if {$testLevel == 1} { incr numTests(Skipped) DebugDo 1 {AddToSkippedBecause userSpecifiedSkip} } return 1 } } # skip the test if it's name doesn't match any element of match set ok 0 foreach pattern [match] { if {[string match $pattern $name]} { set ok 1 break } } if {!$ok} { if {$testLevel == 1} { incr numTests(Skipped) DebugDo 1 {AddToSkippedBecause userSpecifiedNonMatch} } return 1 } if {[string equal {} $constraints]} { # If we're limited to the listed constraints and there aren't # any listed, then we shouldn't run the test. if {[limitConstraints]} { AddToSkippedBecause userSpecifiedLimitConstraint if {$testLevel == 1} { incr numTests(Skipped) } return 1 } } else { # "constraints" argument exists; # make sure that the constraints are satisfied. set doTest 0 if {[string match {[$\[]} $constraints] != 0} { # full expression, e.g. {$foo > [info tclversion]} catch {set doTest [uplevel #0 [list expr $constraints]]} } elseif {[regexp {[^.:_a-zA-Z0-9 \n\r\t]+} $constraints] != 0} { # something like {a \|\| b} should be turned into # $testConstraints(a) \|\| $testConstraints(b). regsub -all {[.\w]+} $constraints {$testConstraints(&)} c catch {set doTest [eval [list expr $c]]} } elseif {![catch {llength $constraints}]} { # just simple constraints such as {unixOnly fonts}. set doTest 1 foreach constraint $constraints { if {(![info exists testConstraints($constraint)]) \ \|\| (!$testConstraints($constraint))} { set doTest 0 # store the constraint that kept the test from # running set constraints $constraint break } } } if {!$doTest} { if {[IsVerbose skip]} { puts [outputChannel] "++++ $name SKIPPED: $constraints" } if {$testLevel == 1} { incr numTests(Skipped) AddToSkippedBecause $constraints } return 1 } } return 0 } # RunTest -- # # This is where the body of a test is evaluated. The combination of # [RunTest] and [Eval] allows the output and error output of the test # body to be captured for comparison against the expected values. proc tcltest::RunTest {name script} { DebugPuts 3 "Running $name {$script}" # If there is no "memory" command (because memory debugging isn't # enabled), then don't attempt to use the command. if {[llength [info commands memory]] == 1} { memory tag $name } set code [catch {uplevel 1 $script} actualAnswer] return [list $actualAnswer $code] } ##################################################################### # tcltest::cleanupTestsHook -- # # This hook allows a harness that builds upon tcltest to specify # additional things that should be done at cleanup. # if {[llength [info commands tcltest::cleanupTestsHook]] == 0} { proc tcltest::cleanupTestsHook {} {} } # tcltest::cleanupTests -- # # Remove files and dirs created using the makeFile and makeDirectory # commands since the last time this proc was invoked. # # Print the names of the files created without the makeFile command # since the tests were invoked. # # Print the number tests (total, passed, failed, and skipped) since the # tests were invoked. # # Restore original environment (as reported by special variable env). # # Arguments: # calledFromAllFile - if 0, behave as if we are running a single # test file within an entire suite of tests. if we aren't running # a single test file, then don't report status. check for new # files created during the test run and report on them. if 1, # report collated status from all the test file runs. # # Results: # None. # # Side Effects: # None # proc tcltest::cleanupTests {{calledFromAllFile 0}} { variable filesMade variable filesExisted variable createdNewFiles variable testSingleFile variable numTests variable numTestFiles variable failFiles variable skippedBecause variable currentFailure variable originalEnv variable originalTclPlatform variable coreModTime FillFilesExisted set testFileName [file tail [info script]] # Hook to handle reporting to a parent interpreter if {[llength [info commands [namespace current]::ReportToMaster]]} { ReportToMaster $numTests(Total) $numTests(Passed) $numTests(Skipped) \ $numTests(Failed) [array get skippedBecause] \ [array get createdNewFiles] set testSingleFile false } # Call the cleanup hook cleanupTestsHook # Remove files and directories created by the makeFile and # makeDirectory procedures. Record the names of files in # workingDirectory that were not pre-existing, and associate them # with the test file that created them. if {!$calledFromAllFile} { foreach file $filesMade { if {[file exists $file]} { DebugDo 1 {Warn "cleanupTests deleting $file..."} catch {file delete -force $file} } } set currentFiles {} foreach file [glob -nocomplain \ -directory [temporaryDirectory] ] { lappend currentFiles [file tail $file] } set newFiles {} foreach file $currentFiles { if {[lsearch -exact $filesExisted $file] == -1} { lappend newFiles $file } } set filesExisted $currentFiles if {[llength $newFiles] > 0} { set createdNewFiles($testFileName) $newFiles } } if {$calledFromAllFile \|\| $testSingleFile} { # print stats puts -nonewline [outputChannel] "$testFileName:" foreach index [list "Total" "Passed" "Skipped" "Failed"] { puts -nonewline [outputChannel] \ "\t$index\t$numTests($index)" } puts [outputChannel] "" # print number test files sourced # print names of files that ran tests which failed if {$calledFromAllFile} { puts [outputChannel] \ "Sourced $numTestFiles Test Files." set numTestFiles 0 if {[llength $failFiles] > 0} { puts [outputChannel] \ "Files with failing tests: $failFiles" set failFiles {} } } # if any tests were skipped, print the constraints that kept # them from running. set constraintList [array names skippedBecause] if {[llength $constraintList] > 0} { puts [outputChannel] \ "Number of tests skipped for each constraint:" foreach constraint [lsort $constraintList] { puts [outputChannel] \ "\t$skippedBecause($constraint)\t$constraint" unset skippedBecause($constraint) } } # report the names of test files in createdNewFiles, and reset # the array to be empty. set testFilesThatTurded [lsort [array names createdNewFiles]] if {[llength $testFilesThatTurded] > 0} { puts [outputChannel] "Warning: files left behind:" foreach testFile $testFilesThatTurded { puts [outputChannel] \ "\t$testFile:\t$createdNewFiles($testFile)" unset createdNewFiles($testFile) } } # reset filesMade, filesExisted, and numTests set filesMade {} foreach index [list "Total" "Passed" "Skipped" "Failed"] { set numTests($index) 0 } # exit only if running Tk in non-interactive mode # This should be changed to determine if an event # loop is running, which is the real issue. # Actually, this doesn't belong here at all. A package # really has no business [exit]-ing an application. if {![catch {package present Tk}] && ![testConstraint interactive]} { exit } } else { # if we're deferring stat-reporting until all files are sourced, # then add current file to failFile list if any tests in this # file failed if {$currentFailure \ && ([lsearch -exact $failFiles $testFileName] == -1)} { lappend failFiles $testFileName } set currentFailure false # restore the environment to the state it was in before this package # was loaded set newEnv {} set changedEnv {} set removedEnv {} foreach index [array names ::env] { if {![info exists originalEnv($index)]} { lappend newEnv $index unset ::env($index) } else { if {$::env($index) != $originalEnv($index)} { lappend changedEnv $index set ::env($index) $originalEnv($index) } } } foreach index [array names originalEnv] { if {![info exists ::env($index)]} { lappend removedEnv $index set ::env($index) $originalEnv($index) } } if {[llength $newEnv] > 0} { puts [outputChannel] \ "env array elements created:\t$newEnv" } if {[llength $changedEnv] > 0} { puts [outputChannel] \ "env array elements changed:\t$changedEnv" } if {[llength $removedEnv] > 0} { puts [outputChannel] \ "env array elements removed:\t$removedEnv" } set changedTclPlatform {} foreach index [array names originalTclPlatform] { if {$::tcl_platform($index) \ != $originalTclPlatform($index)} { lappend changedTclPlatform $index set ::tcl_platform($index) $originalTclPlatform($index) } } if {[llength $changedTclPlatform] > 0} { puts [outputChannel] "tcl_platform array elements\ changed:\t$changedTclPlatform" } if {[file exists [file join [workingDirectory] core]]} { if {[preserveCore] > 1} { puts "rename core file (> 1)" puts [outputChannel] "produced core file! \ Moving file to: \ [file join [temporaryDirectory] core-$testFileName]" catch {file rename -force \ [file join [workingDirectory] core] \ [file join [temporaryDirectory] core-$testFileName] } msg if {[string length $msg] > 0} { PrintError "Problem renaming file: $msg" } } else { # Print a message if there is a core file and (1) there # previously wasn't one or (2) the new one is different # from the old one. if {[info exists coreModTime]} { if {$coreModTime != [file mtime \ [file join [workingDirectory] core]]} { puts [outputChannel] "A core file was created!" } } else { puts [outputChannel] "A core file was created!" } } } } flush [outputChannel] flush [errorChannel] return } ##################################################################### # Procs that determine which tests/test files to run # tcltest::GetMatchingFiles # # Looks at the patterns given to match and skip files and uses # them to put together a list of the tests that will be run. # # Arguments: # directory to search # # Results: # The constructed list is returned to the user. This will # primarily be used in 'all.tcl' files. It is used in # runAllTests. # # Side Effects: # None # a lower case version is needed for compatibility with tcltest 1.0 proc tcltest::getMatchingFiles args {GetMatchingFiles {}$args} proc tcltest::GetMatchingFiles { args } { if {[llength $args]} { set dirList $args } else { # Finding tests only in [testsDirectory] is normal operation. # This procedure is written to accept multiple directory arguments # only to satisfy version 1 compatibility. set dirList [list [testsDirectory]] } set matchingFiles [list] foreach directory $dirList { # List files in $directory that match patterns to run. set matchFileList [list] foreach match [matchFiles] { set matchFileList [concat $matchFileList \ [glob -directory $directory -types {b c f p s} \ -nocomplain -- $match]] } # List files in $directory that match patterns to skip. set skipFileList [list] foreach skip [skipFiles] { set skipFileList [concat $skipFileList \ [glob -directory $directory -types {b c f p s} \ -nocomplain -- $skip]] } # Add to result list all files in match list and not in skip list foreach file $matchFileList { if {[lsearch -exact $skipFileList $file] == -1} { lappend matchingFiles $file } } } if {[llength $matchingFiles] == 0} { PrintError "No test files remain after applying your match and\ skip patterns!" } return $matchingFiles } # tcltest::GetMatchingDirectories -- # # Looks at the patterns given to match and skip directories and # uses them to put together a list of the test directories that we # should attempt to run. (Only subdirectories containing an # "all.tcl" file are put into the list.) # # Arguments: # root directory from which to search # # Results: # The constructed list is returned to the user. This is used in # the primary all.tcl file. # # Side Effects: # None. proc tcltest::GetMatchingDirectories {rootdir} { # Determine the skip list first, to avoid [glob]-ing over subdirectories # we're going to throw away anyway. Be sure we skip the $rootdir if it # comes up to avoid infinite loops. set skipDirs [list $rootdir] foreach pattern [skipDirectories] { set skipDirs [concat $skipDirs [glob -directory $rootdir -types d \ -nocomplain -- $pattern]] } # Now step through the matching directories, prune out the skipped ones # as you go. set matchDirs [list] foreach pattern [matchDirectories] { foreach path [glob -directory $rootdir -types d -nocomplain -- \ $pattern] { if {[lsearch -exact $skipDirs $path] == -1} { set matchDirs [concat $matchDirs [GetMatchingDirectories $path]] if {[file exists [file join $path all.tcl]]} { lappend matchDirs $path } } } } if {[llength $matchDirs] == 0} { DebugPuts 1 "No test directories remain after applying match\ and skip patterns!" } return $matchDirs } # tcltest::runAllTests -- # # prints output and sources test files according to the match and # skip patterns provided. after sourcing test files, it goes on # to source all.tcl files in matching test subdirectories. # # Arguments: # shell being tested # # Results: # None. # # Side effects: # None. proc tcltest::runAllTests { {shell ""} } { variable testSingleFile variable numTestFiles variable numTests variable failFiles variable DefaultValue FillFilesExisted if {[llength [info level 0]] == 1} { set shell [interpreter] } set testSingleFile false puts [outputChannel] "Tests running in interp: $shell" puts [outputChannel] "Tests located in: [testsDirectory]" puts [outputChannel] "Tests running in: [workingDirectory]" puts [outputChannel] "Temporary files stored in\ [temporaryDirectory]" # [file system] first available in Tcl 8.4 if {![catch {file system [testsDirectory]} result] && ![string equal native [lindex $result 0]]} { # If we aren't running in the native filesystem, then we must # run the tests in a single process (via 'source'), because # trying to run then via a pipe will fail since the files don't # really exist. singleProcess 1 } if {[singleProcess]} { puts [outputChannel] \ "Test files sourced into current interpreter" } else { puts [outputChannel] \ "Test files run in separate interpreters" } if {[llength [skip]] > 0} { puts [outputChannel] "Skipping tests that match: [skip]" } puts [outputChannel] "Running tests that match: [match]" if {[llength [skipFiles]] > 0} { puts [outputChannel] \ "Skipping test files that match: [skipFiles]" } if {[llength [matchFiles]] > 0} { puts [outputChannel] \ "Only running test files that match: [matchFiles]" } set timeCmd {clock format [clock seconds]} puts [outputChannel] "Tests began at [eval $timeCmd]" # Run each of the specified tests foreach file [lsort [GetMatchingFiles]] { set tail [file tail $file] puts [outputChannel] $tail flush [outputChannel] if {[singleProcess]} { incr numTestFiles uplevel 1 [list ::source $file] } else { # Pass along our configuration to the child processes. # EXCEPT for the -outfile, because the parent process # needs to read and process output of children. set childargv [list] foreach opt [Configure] { if {[string equal $opt -outfile]} {continue} set value [Configure $opt] # Don't bother passing default configuration options if {[string equal $value $DefaultValue($opt)]} { continue } lappend childargv $opt $value } set cmd [linsert $childargv 0 \| $shell $file] if {[catch { incr numTestFiles set pipeFd [open $cmd "r"] while {[gets $pipeFd line] >= 0} { if {[regexp [join { {^([^:]+):\t} {Total\t([0-9]+)\t} {Passed\t([0-9]+)\t} {Skipped\t([0-9]+)\t} {Failed\t([0-9]+)} } ""] $line null testFile \ Total Passed Skipped Failed]} { foreach index {Total Passed Skipped Failed} { incr numTests($index) [set $index] } if {$Failed > 0} { lappend failFiles $testFile } } elseif {[regexp [join { {^Number of tests skipped } {for each constraint:} {\|^\t(\d+)\t(.+)$} } ""] $line match skipped constraint]} { if {[string match \t $match]} { AddToSkippedBecause $constraint $skipped } } else { puts [outputChannel] $line } } close $pipeFd } msg]} { puts [outputChannel] "Test file error: $msg" # append the name of the test to a list to be reported # later lappend testFileFailures $file } } } # cleanup puts [outputChannel] "\nTests ended at [eval $timeCmd]" cleanupTests 1 if {[info exists testFileFailures]} { puts [outputChannel] "\nTest files exiting with errors: \n" foreach file $testFileFailures { puts [outputChannel] " [file tail $file]\n" } } # Checking for subdirectories in which to run tests foreach directory [GetMatchingDirectories [testsDirectory]] { set dir [file tail $directory] puts [outputChannel] [string repeat ~ 44] puts [outputChannel] "$dir test began at [eval $timeCmd]\n" uplevel 1 [list ::source [file join $directory all.tcl]] set endTime [eval $timeCmd] puts [outputChannel] "\n$dir test ended at $endTime" puts [outputChannel] "" puts [outputChannel] [string repeat ~ 44] } return } ##################################################################### # Test utility procs - not used in tcltest, but may be useful for # testing. # tcltest::loadTestedCommands -- # # Uses the specified script to load the commands to test. Allowed to # be empty, as the tested commands could have been compiled into the # interpreter. # # Arguments # none # # Results # none # # Side Effects: # none. proc tcltest::loadTestedCommands {} { variable l if {[string equal {} [loadScript]]} { return } return [uplevel 1 [loadScript]] } # tcltest::saveState -- # # Save information regarding what procs and variables exist. # # Arguments: # none # # Results: # Modifies the variable saveState # # Side effects: # None. proc tcltest::saveState {} { variable saveState uplevel 1 [list ::set [namespace which -variable saveState]] \ {[::list [::info procs] [::info vars]]} DebugPuts 2 "[lindex [info level 0] 0]: $saveState" return } # tcltest::restoreState -- # # Remove procs and variables that didn't exist before the call to # [saveState]. # # Arguments: # none # # Results: # Removes procs and variables from your environment if they don't # exist in the saveState variable. # # Side effects: # None. proc tcltest::restoreState {} { variable saveState foreach p [uplevel 1 {::info procs}] { if {([lsearch [lindex $saveState 0] $p] < 0) && ![string equal [namespace current]::$p \ [uplevel 1 [list ::namespace origin $p]]]} { DebugPuts 2 "[lindex [info level 0] 0]: Removing proc $p" uplevel 1 [list ::catch [list ::rename $p {}]] } } foreach p [uplevel 1 {::info vars}] { if {[lsearch [lindex $saveState 1] $p] < 0} { DebugPuts 2 "[lindex [info level 0] 0]:\ Removing variable $p" uplevel 1 [list ::catch [list ::unset $p]] } } return } # tcltest::normalizeMsg -- # # Removes "extra" newlines from a string. # # Arguments: # msg String to be modified # # Results: # string with extra newlines removed # # Side effects: # None. proc tcltest::normalizeMsg {msg} { regsub "\n$" [string tolower $msg] "" msg set msg [string map [list "\n\n" "\n"] $msg] return [string map [list "\n\}" "\}"] $msg] } # tcltest::makeFile -- # # Create a new file with the name <name>, and write <contents> to it. # # If this file hasn't been created via makeFile since the last time # cleanupTests was called, add it to the $filesMade list, so it will be # removed by the next call to cleanupTests. # # Arguments: # contents content of the new file # name name of the new file # directory directory name for new file # # Results: # absolute path to the file created # # Side effects: # None. proc tcltest::makeFile {contents name {directory ""}} { variable filesMade FillFilesExisted if {[llength [info level 0]] == 3} { set directory [temporaryDirectory] } set fullName [file join $directory $name] DebugPuts 3 "[lindex [info level 0] 0]:\ putting ``$contents'' into $fullName" set fd [open $fullName w] fconfigure $fd -translation lf if {[string equal [string index $contents end] \n]} { puts -nonewline $fd $contents } else { puts $fd $contents } close $fd if {[lsearch -exact $filesMade $fullName] == -1} { lappend filesMade $fullName } return $fullName } # tcltest::removeFile -- # # Removes the named file from the filesystem # # Arguments: # name file to be removed # directory directory from which to remove file # # Results: # return value from [file delete] # # Side effects: # None. proc tcltest::removeFile {name {directory ""}} { variable filesMade FillFilesExisted if {[llength [info level 0]] == 2} { set directory [temporaryDirectory] } set fullName [file join $directory $name] DebugPuts 3 "[lindex [info level 0] 0]: removing $fullName" set idx [lsearch -exact $filesMade $fullName] set filesMade [lreplace $filesMade $idx $idx] if {$idx == -1} { DebugDo 1 { Warn "removeFile removing \"$fullName\":\n not created by makeFile" } } if {![file isfile $fullName]} { DebugDo 1 { Warn "removeFile removing \"$fullName\":\n not a file" } } return [file delete $fullName] } # tcltest::makeDirectory -- # # Create a new dir with the name <name>. # # If this dir hasn't been created via makeDirectory since the last time # cleanupTests was called, add it to the $directoriesMade list, so it # will be removed by the next call to cleanupTests. # # Arguments: # name name of the new directory # directory directory in which to create new dir # # Results: # absolute path to the directory created # # Side effects: # None. proc tcltest::makeDirectory {name {directory ""}} { variable filesMade FillFilesExisted if {[llength [info level 0]] == 2} { set directory [temporaryDirectory] } set fullName [file join $directory $name] DebugPuts 3 "[lindex [info level 0] 0]: creating $fullName" file mkdir $fullName if {[lsearch -exact $filesMade $fullName] == -1} { lappend filesMade $fullName } return $fullName } # tcltest::removeDirectory -- # # Removes a named directory from the file system. # # Arguments: # name Name of the directory to remove # directory Directory from which to remove # # Results: # return value from [file delete] # # Side effects: # None proc tcltest::removeDirectory {name {directory ""}} { variable filesMade FillFilesExisted if {[llength [info level 0]] == 2} { set directory [temporaryDirectory] } set fullName [file join $directory $name] DebugPuts 3 "[lindex [info level 0] 0]: deleting $fullName" set idx [lsearch -exact $filesMade $fullName] set filesMade [lreplace $filesMade $idx $idx] if {$idx == -1} { DebugDo 1 { Warn "removeDirectory removing \"$fullName\":\n not created\ by makeDirectory" } } if {![file isdirectory $fullName]} { DebugDo 1 { Warn "removeDirectory removing \"$fullName\":\n not a directory" } } return [file delete -force $fullName] } # tcltest::viewFile -- # # reads the content of a file and returns it # # Arguments: # name of the file to read # directory in which file is located # # Results: # content of the named file # # Side effects: # None. proc tcltest::viewFile {name {directory ""}} { FillFilesExisted if {[llength [info level 0]] == 2} { set directory [temporaryDirectory] } set fullName [file join $directory $name] set f [open $fullName] set data [read -nonewline $f] close $f return $data } # tcltest::bytestring -- # # Construct a string that consists of the requested sequence of bytes, # as opposed to a string of properly formed UTF-8 characters. # This allows the tester to # 1. Create denormalized or improperly formed strings to pass to C # procedures that are supposed to accept strings with embedded NULL # bytes. # 2. Confirm that a string result has a certain pattern of bytes, for # instance to confirm that "\xe0\0" in a Tcl script is stored # internally in UTF-8 as the sequence of bytes "\xc3\xa0\xc0\x80". # # Generally, it's a bad idea to examine the bytes in a Tcl string or to # construct improperly formed strings in this manner, because it involves # exposing that Tcl uses UTF-8 internally. # # Arguments: # string being converted # # Results: # result fom encoding # # Side effects: # None proc tcltest::bytestring {string} { return [encoding convertfrom identity $string] } # tcltest::OpenFiles -- # # used in io tests, uses testchannel # # Arguments: # None. # # Results: # ??? # # Side effects: # None. proc tcltest::OpenFiles {} { if {[catch {testchannel open} result]} { return {} } return $result } # tcltest::LeakFiles -- # # used in io tests, uses testchannel # # Arguments: # None. # # Results: # ??? # # Side effects: # None. proc tcltest::LeakFiles {old} { if {[catch {testchannel open} new]} { return {} } set leak {} foreach p $new { if {[lsearch $old $p] < 0} { lappend leak $p } } return $leak } # # Internationalization / ISO support procs -- dl # # tcltest::SetIso8859_1_Locale -- # # used in cmdIL.test, uses testlocale # # Arguments: # None. # # Results: # None. # # Side effects: # None. proc tcltest::SetIso8859_1_Locale {} { variable previousLocale variable isoLocale if {[info commands testlocale] != ""} { set previousLocale [testlocale ctype] testlocale ctype $isoLocale } return } # tcltest::RestoreLocale -- # # used in cmdIL.test, uses testlocale # # Arguments: # None. # # Results: # None. # # Side effects: # None. proc tcltest::RestoreLocale {} { variable previousLocale if {[info commands testlocale] != ""} { testlocale ctype $previousLocale } return } # tcltest::threadReap -- # # Kill all threads except for the main thread. # Do nothing if testthread is not defined. # # Arguments: # none. # # Results: # Returns the number of existing threads. # # Side Effects: # none. # proc tcltest::threadReap {} { if {[info commands testthread] != {}} { # testthread built into tcltest testthread errorproc ThreadNullError while {[llength [testthread names]] > 1} { foreach tid [testthread names] { if {$tid != [mainThread]} { catch { testthread send -async $tid {testthread exit} } } } ## Enter a bit a sleep to give the threads enough breathing ## room to kill themselves off, otherwise the end up with a ## massive queue of repeated events after 1 } testthread errorproc ThreadError return [llength [testthread names]] } elseif {[info commands thread::id] != {}} { # Thread extension thread::errorproc ThreadNullError while {[llength [thread::names]] > 1} { foreach tid [thread::names] { if {$tid != [mainThread]} { catch {thread::send -async $tid {thread::exit}} } } ## Enter a bit a sleep to give the threads enough breathing ## room to kill themselves off, otherwise the end up with a ## massive queue of repeated events after 1 } thread::errorproc ThreadError return [llength [thread::names]] } else { return 1 } return 0 } # Initialize the constraints and set up command line arguments namespace eval tcltest { # Define initializers for all the built-in contraint definitions DefineConstraintInitializers # Set up the constraints in the testConstraints array to be lazily # initialized by a registered initializer, or by "false" if no # initializer is registered. trace variable testConstraints r [namespace code SafeFetch] # Only initialize constraints at package load time if an # [initConstraintsHook] has been pre-defined. This is only # for compatibility support. The modern way to add a custom # test constraint is to just call the [testConstraint] command # straight away, without all this "hook" nonsense. if {[string equal [namespace current] \ [namespace qualifiers [namespace which initConstraintsHook]]]} { InitConstraints } else { proc initConstraintsHook {} {} } # Define the standard match commands customMatch exact [list string equal] customMatch glob [list string match] customMatch regexp [list regexp --] # If the TCLTEST_OPTIONS environment variable exists, configure # tcltest according to the option values it specifies. This has # the effect of resetting tcltest's default configuration. proc ConfigureFromEnvironment {} { upvar #0 env(TCLTEST_OPTIONS) options if {[catch {llength $options} msg]} { Warn "invalid TCLTEST_OPTIONS \"$options\":\n invalid\ Tcl list: $msg" return } if {[llength $options] % 2} { Warn "invalid TCLTEST_OPTIONS: \"$options\":\n should be\ -option value ?-option value ...?" return } if {[catch {Configure {}$options} msg]} { Warn "invalid TCLTEST_OPTIONS: \"$options\":\n $msg" return } } if {[info exists ::env(TCLTEST_OPTIONS)]} { ConfigureFromEnvironment } proc LoadTimeCmdLineArgParsingRequired {} { set required false if {[info exists ::argv] && [lsearch -exact $::argv -help] != -1} { # The command line asks for -help, so give it (and exit) # right now. ([configure] does not process -help) set required true } foreach hook { PrintUsageInfoHook processCmdLineArgsHook processCmdLineArgsAddFlagsHook } { if {[string equal [namespace current] [namespace qualifiers \ [namespace which $hook]]]} { set required true } else { proc $hook args {} } } return $required } # Only initialize configurable options from the command line arguments # at package load time if necessary for backward compatibility. This # lets the tcltest user call [configure] for themselves if they wish. # Traces are established for auto-configuration from the command line # if any configurable options are accessed before the user calls # [configure]. if {[LoadTimeCmdLineArgParsingRequired]} { ProcessCmdLineArgs } else { EstablishAutoConfigureTraces } package provide [namespace tail [namespace current]] $Version } ��8.4/platform/shell-1.1.4.tm��0000644��00000013531�14711164053�0011016 0��ustar�00�� # -- tcl -- # ### ### ### ######### ######### ######### ## Overview # Higher-level commands which invoke the functionality of this package # for an arbitrary tcl shell (tclsh, wish, ...). This is required by a # repository as while the tcl shell executing packages uses the same # platform in general as a repository application there can be # differences in detail (i.e. 32/64 bit builds). # ### ### ### ######### ######### ######### ## Requirements package require platform namespace eval ::platform::shell {} # ### ### ### ######### ######### ######### ## Implementation # -- platform::shell::generic proc ::platform::shell::generic {shell} { # Argument is the path to a tcl shell. CHECK $shell LOCATE base out set code {} # Forget any pre-existing platform package, it might be in # conflict with this one. lappend code {package forget platform} # Inject our platform package lappend code [list source $base] # Query and print the architecture lappend code {puts [platform::generic]} # And done lappend code {exit 0} set arch [RUN $shell [join $code \n]] if {$out} {file delete -force $base} return $arch } # -- platform::shell::identify proc ::platform::shell::identify {shell} { # Argument is the path to a tcl shell. CHECK $shell LOCATE base out set code {} # Forget any pre-existing platform package, it might be in # conflict with this one. lappend code {package forget platform} # Inject our platform package lappend code [list source $base] # Query and print the architecture lappend code {puts [platform::identify]} # And done lappend code {exit 0} set arch [RUN $shell [join $code \n]] if {$out} {file delete -force $base} return $arch } # -- platform::shell::platform proc ::platform::shell::platform {shell} { # Argument is the path to a tcl shell. CHECK $shell set code {} lappend code {puts $tcl_platform(platform)} lappend code {exit 0} return [RUN $shell [join $code \n]] } # ### ### ### ######### ######### ######### ## Internal helper commands. proc ::platform::shell::CHECK {shell} { if {![file exists $shell]} { return -code error "Shell \"$shell\" does not exist" } if {![file executable $shell]} { return -code error "Shell \"$shell\" is not executable (permissions)" } return } proc ::platform::shell::LOCATE {bv ov} { upvar 1 $bv base $ov out # Locate the platform package for injection into the specified # shell. We are using package management to find it, whereever it # is, instead of using hardwired relative paths. This allows us to # install the two packages as TMs without breaking the code # here. If the found package is wrapped we copy the code somewhere # where the spawned shell will be able to read it. # This code is brittle, it needs has to adapt to whatever changes # are made to the TM code, i.e. the provide statement generated by # tm.tcl set pl [package ifneeded platform [package require platform]] set base [lindex $pl end] set out 0 if {[lindex [file system $base]] ne "native"} { set temp [TEMP] file copy -force $base $temp set base $temp set out 1 } return } proc ::platform::shell::RUN {shell code} { set c [TEMP] set cc [open $c w] puts $cc $code close $cc set e [TEMP] set code [catch { exec $shell $c 2> $e } res] file delete $c if {$code} { append res \n[read [set chan [open $e r]]][close $chan] file delete $e return -code error "Shell \"$shell\" is not executable ($res)" } file delete $e return $res } proc ::platform::shell::TEMP {} { set prefix platform # This code is copied out of Tcllib's fileutil package. # (TempFile/tempfile) set tmpdir [DIR] set chars "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789" set nrand_chars 10 set maxtries 10 set access [list RDWR CREAT EXCL TRUNC] set permission 0600 set channel "" set checked_dir_writable 0 set mypid [pid] for {set i 0} {$i < $maxtries} {incr i} { set newname $prefix for {set j 0} {$j < $nrand_chars} {incr j} { append newname [string index $chars \ [expr {int(rand()62)}]] } set newname [file join $tmpdir $newname] if {[file exists $newname]} { after 1 } else { if {[catch {open $newname $access $permission} channel]} { if {!$checked_dir_writable} { set dirname [file dirname $newname] if {![file writable $dirname]} { return -code error "Directory $dirname is not writable" } set checked_dir_writable 1 } } else { # Success close $channel return [file normalize $newname] } } } if {$channel != ""} { return -code error "Failed to open a temporary file: $channel" } else { return -code error "Failed to find an unused temporary file name" } } proc ::platform::shell::DIR {} { # This code is copied out of Tcllib's fileutil package. # (TempDir/tempdir) global tcl_platform env set attempdirs [list] foreach tmp {TMPDIR TEMP TMP} { if { [info exists env($tmp)] } { lappend attempdirs $env($tmp) } } switch $tcl_platform(platform) { windows { lappend attempdirs "C:\\TEMP" "C:\\TMP" "\\TEMP" "\\TMP" } macintosh { set tmpdir $env(TRASH_FOLDER) ;# a better place? } default { lappend attempdirs \ [file join / tmp] \ [file join / var tmp] \ [file join / usr tmp] } } lappend attempdirs [pwd] foreach tmp $attempdirs { if { [file isdirectory $tmp] && [file writable $tmp] } { return [file normalize $tmp] } } # Fail if nothing worked. return -code error "Unable to determine a proper directory for temporary files" } # ### ### ### ######### ######### ######### ## Ready package provide platform::shell 1.1.4 ��8.4/platform-1.0.10.tm��0000644��00000023177�14711164053�0007772 0��ustar�00��# -- tcl -- # ### ### ### ######### ######### ######### ## Overview # Heuristics to assemble a platform identifier from publicly available # information. The identifier describes the platform of the currently # running tcl shell. This is a mixture of the runtime environment and # of build-time properties of the executable itself. # # Examples: # <1> A tcl shell executing on a x86_64 processor, but having a # wordsize of 4 was compiled for the x86 environment, i.e. 32 # bit, and loaded packages have to match that, and not the # actual cpu. # # <2> The hp/solaris 32/64 bit builds of the core cannot be # distinguished by looking at tcl_platform. As packages have to # match the 32/64 information we have to look in more places. In # this case we inspect the executable itself (magic numbers, # i.e. fileutil::magic::filetype). # # The basic information used comes out of the 'os' and 'machine' # entries of the 'tcl_platform' array. A number of general and # os/machine specific transformation are applied to get a canonical # result. # # General # Only the first element of 'os' is used - we don't care whether we # are on "Windows NT" or "Windows XP" or whatever. # # Machine specific # % arm* -> arm # % sun4* -> sparc # % intel -> ix86 # % i86 -> ix86 # % Power* -> powerpc # % x86_64 + wordSize 4 => x86 code # # OS specific # % AIX are always powerpc machines # % HP-UX 9000/800 etc means parisc # % linux has to take glibc version into account # % sunos -> solaris, and keep version number # # NOTE: A platform like linux glibc 2.3, which can use glibc 2.2 stuff # has to provide all possible allowed platform identifiers when # searching search. Ditto a solaris 2.8 platform can use solaris 2.6 # packages. Etc. This is handled by the other procedure, see below. # ### ### ### ######### ######### ######### ## Requirements namespace eval ::platform {} # ### ### ### ######### ######### ######### ## Implementation # -- platform::generic # # Assembles an identifier for the generic platform. It leaves out # details like kernel version, libc version, etc. proc ::platform::generic {} { global tcl_platform set plat [string tolower [lindex $tcl_platform(os) 0]] set cpu $tcl_platform(machine) switch -glob -- $cpu { sun4* { set cpu sparc } intel - i86 { set cpu ix86 } x86_64 { if {$tcl_platform(wordSize) == 4} { # See Example <1> at the top of this file. set cpu ix86 } } "Power" { set cpu powerpc } "arm" { set cpu arm } ia64 { if {$tcl_platform(wordSize) == 4} { append cpu _32 } } } switch -- $plat { windows { set plat win32 if {$cpu eq "amd64"} { # Do not check wordSize, win32-x64 is an IL32P64 platform. set cpu x86_64 } } sunos { set plat solaris if {[string match "ix86" $cpu]} { if {$tcl_platform(wordSize) == 8} { set cpu x86_64 } } elseif {![string match "ia64" $cpu]} { # sparc if {$tcl_platform(wordSize) == 8} { append cpu 64 } } } darwin { set plat macosx # Correctly identify the cpu when running as a 64bit # process on a machine with a 32bit kernel if {$cpu eq "ix86"} { if {$tcl_platform(wordSize) == 8} { set cpu x86_64 } } } aix { set cpu powerpc if {$tcl_platform(wordSize) == 8} { append cpu 64 } } hp-ux { set plat hpux if {![string match "ia64" $cpu]} { set cpu parisc if {$tcl_platform(wordSize) == 8} { append cpu 64 } } } osf1 { set plat tru64 } } return "${plat}-${cpu}" } # -- platform::identify # # Assembles an identifier for the exact platform, by extending the # generic identifier. I.e. it adds in details like kernel version, # libc version, etc., if they are relevant for the loading of # packages on the platform. proc ::platform::identify {} { global tcl_platform set id [generic] regexp {^([^-]+)-([^-]+)$} $id -> plat cpu switch -- $plat { solaris { regsub {^5} $tcl_platform(osVersion) 2 text append plat $text return "${plat}-${cpu}" } macosx { set major [lindex [split $tcl_platform(osVersion) .] 0] if {$major > 8} { incr major -4 append plat 10.$major return "${plat}-${cpu}" } } linux { # Look for the libc.so and determine its version # (libc5/6, libc6 further glibc 2.X) set v unknown # Determine in which directory to look. /lib, or /lib64. # For that we use the tcl_platform(wordSize). # # We could use the 'cpu' info, per the equivalence below, # that however would be restricted to intel. And this may # be a arm, mips, etc. system. The wordsize is more # fundamental. # # ix86 <=> (wordSize == 4) <=> 32 bit ==> /lib # x86_64 <=> (wordSize == 8) <=> 64 bit ==> /lib64 # # Do not look into /lib64 even if present, if the cpu # doesn't fit. # TODO: Determine the prefixes (i386, x86_64, ...) for # other cpus. The path after the generic one is utterly # specific to intel right now. Ok, on Ubuntu, possibly # other Debian systems we may apparently be able to query # the necessary CPU code. If we can't we simply use the # hardwired fallback. switch -exact -- $tcl_platform(wordSize) { 4 { lappend bases /lib if {[catch { exec dpkg-architecture -qDEB_HOST_MULTIARCH } res]} { lappend bases /lib/i386-linux-gnu } else { # dpkg-arch returns the full tripled, not just cpu. lappend bases /lib/$res } } 8 { lappend bases /lib64 if {[catch { exec dpkg-architecture -qDEB_HOST_MULTIARCH } res]} { lappend bases /lib/x86_64-linux-gnu } else { # dpkg-arch returns the full tripled, not just cpu. lappend bases /lib/$res } } default { return -code error "Bad wordSize $tcl_platform(wordSize), expected 4 or 8" } } foreach base $bases { if {[LibcVersion $base -> v]} break } append plat -$v return "${plat}-${cpu}" } } return $id } proc ::platform::LibcVersion {base _->_ vv} { upvar 1 $vv v set libclist [lsort [glob -nocomplain -directory $base libc]] if {![llength $libclist]} { return 0 } set libc [lindex $libclist 0] # Try executing the library first. This should suceed # for a glibc library, and return the version # information. if {![catch { set vdata [lindex [split [exec $libc] \n] 0] }]} { regexp {([0-9]+(\.[0-9]+))} $vdata -> v foreach {major minor} [split $v .] break set v glibc${major}.${minor} return 1 } else { # We had trouble executing the library. We are now # inspecting its name to determine the version # number. This code by Larry McVoy. if {[regexp -- {libc-([0-9]+)\.([0-9]+)} $libc -> major minor]} { set v glibc${major}.${minor} return 1 } } return 0 } # -- platform::patterns # # Given an exact platform identifier, i.e. _not_ the generic # identifier it assembles a list of exact platform identifier # describing platform which should be compatible with the # input. # # I.e. packages for all platforms in the result list should be # loadable on the specified platform. # << Should we add the generic identifier to the list as well ? In # general it is not compatible I believe. So better not. In many # cases the exact identifier is identical to the generic one # anyway. # >> proc ::platform::patterns {id} { set res [list $id] if {$id eq "tcl"} {return $res} switch -glob -- $id { solaris-* { if {[regexp {solaris([^-])-(.)} $id -> v cpu]} { if {$v eq ""} {return $id} foreach {major minor} [split $v .] break incr minor -1 for {set j $minor} {$j >= 6} {incr j -1} { lappend res solaris${major}.${j}-${cpu} } } } linux- { if {[regexp {linux-glibc([^-])-(.)} $id -> v cpu]} { foreach {major minor} [split $v .] break incr minor -1 for {set j $minor} {$j >= 0} {incr j -1} { lappend res linux-glibc${major}.${j}-${cpu} } } } macosx- { # 10.5+ if {[regexp {macosx([^-])-(.)} $id -> v cpu]} { switch -exact -- $cpu { ix86 - x86_64 { set alt i386-x86_64 } default { set alt {} } } if {$v ne ""} { foreach {major minor} [split $v .] break # Add 10.5 to 10.minor to patterns. set res {} for {set j $minor} {$j >= 5} {incr j -1} { lappend res macosx${major}.${j}-${cpu} lappend res macosx${major}.${j}-universal if {$alt ne {}} { lappend res macosx${major}.${j}-$alt } } # Add unversioned patterns for 10.3/10.4 builds. lappend res macosx-${cpu} lappend res macosx-universal if {$alt ne {}} { lappend res macosx-$alt } } else { lappend res macosx-universal if {$alt ne {}} { lappend res macosx-$alt } } } else { lappend res macosx-universal } } macosx-powerpc { lappend res macosx-universal } macosx-x86_64 - macosx-ix86 { lappend res macosx-universal macosx-i386-x86_64 } } lappend res tcl ; # Pure tcl packages are always compatible. return $res } # ### ### ### ######### ######### ######### ## Ready package provide platform 1.0.10 # ### ### ### ######### ######### ######### ## Demo application if {[info exists argv0] && ($argv0 eq [info script])} { puts ==================================== parray tcl_platform puts ==================================== puts Generic\ identification:\ [::platform::generic] puts Exact\ identification:\ \ \ [::platform::identify] puts ==================================== puts Search\ patterns: puts \ [join [::platform::patterns [::platform::identify]] \n\ ] puts ==================================== exit 0 } ��8.4/http-2.7.10.tm��0000644��00000116207�14711164053�0007132 0��ustar�00��# http.tcl -- # # Client-side HTTP for GET, POST, and HEAD commands. These routines can # be used in untrusted code that uses the Safesock security policy. # These procedures use a callback interface to avoid using vwait, which # is not defined in the safe base. # # See the file "license.terms" for information on usage and redistribution of # this file, and for a DISCLAIMER OF ALL WARRANTIES. package require Tcl 8.4 # Keep this in sync with pkgIndex.tcl and with the install directories in # Makefiles package provide http 2.7.10 namespace eval http { # Allow resourcing to not clobber existing data variable http if {![info exists http]} { array set http { -accept / -proxyhost {} -proxyport {} -proxyfilter http::ProxyRequired -urlencoding utf-8 } set http(-useragent) "Tcl http client package [package provide http]" } proc init {} { # Set up the map for quoting chars. RFC3986 Section 2.3 say percent # encode all except: "... percent-encoded octets in the ranges of # ALPHA (%41-%5A and %61-%7A), DIGIT (%30-%39), hyphen (%2D), period # (%2E), underscore (%5F), or tilde (%7E) should not be created by URI # producers ..." for {set i 0} {$i <= 256} {incr i} { set c [format %c $i] if {![string match {[-._~a-zA-Z0-9]} $c]} { set map($c) %[format %.2X $i] } } # These are handled specially set map(\n) %0D%0A variable formMap [array get map] # Create a map for HTTP/1.1 open sockets variable socketmap if {[info exists socketmap]} { # Close but don't remove open sockets on re-init foreach {url sock} [array get socketmap] { catch {close $sock} } } array set socketmap {} } init variable urlTypes if {![info exists urlTypes]} { set urlTypes(http) [list 80 ::socket] } variable encodings [string tolower [encoding names]] # This can be changed, but iso8859-1 is the RFC standard. variable defaultCharset if {![info exists defaultCharset]} { set defaultCharset "iso8859-1" } # Force RFC 3986 strictness in geturl url verification? variable strict if {![info exists strict]} { set strict 1 } # Let user control default keepalive for compatibility variable defaultKeepalive if {![info exists defaultKeepalive]} { set defaultKeepalive 0 } namespace export geturl config reset wait formatQuery register unregister # Useful, but not exported: data size status code } # http::Log -- # # Debugging output -- define this to observe HTTP/1.1 socket usage. # Should echo any args received. # # Arguments: # msg Message to output # proc http::Log {args} {} # http::register -- # # See documentation for details. # # Arguments: # proto URL protocol prefix, e.g. https # port Default port for protocol # command Command to use to create socket # Results: # list of port and command that was registered. proc http::register {proto port command} { variable urlTypes set urlTypes($proto) [list $port $command] } # http::unregister -- # # Unregisters URL protocol handler # # Arguments: # proto URL protocol prefix, e.g. https # Results: # list of port and command that was unregistered. proc http::unregister {proto} { variable urlTypes if {![info exists urlTypes($proto)]} { return -code error "unsupported url type \"$proto\"" } set old $urlTypes($proto) unset urlTypes($proto) return $old } # http::config -- # # See documentation for details. # # Arguments: # args Options parsed by the procedure. # Results: # TODO proc http::config {args} { variable http set options [lsort [array names http -]] set usage [join $options ", "] if {[llength $args] == 0} { set result {} foreach name $options { lappend result $name $http($name) } return $result } set options [string map {- ""} $options] set pat ^-(?:[join $options \|])$ if {[llength $args] == 1} { set flag [lindex $args 0] if {![regexp -- $pat $flag]} { return -code error "Unknown option $flag, must be: $usage" } return $http($flag) } else { foreach {flag value} $args { if {![regexp -- $pat $flag]} { return -code error "Unknown option $flag, must be: $usage" } set http($flag) $value } } } # http::Finish -- # # Clean up the socket and eval close time callbacks # # Arguments: # token Connection token. # errormsg (optional) If set, forces status to error. # skipCB (optional) If set, don't call the -command callback. This # is useful when geturl wants to throw an exception instead # of calling the callback. That way, the same error isn't # reported to two places. # # Side Effects: # Closes the socket proc http::Finish {token {errormsg ""} {skipCB 0}} { variable $token upvar 0 $token state global errorInfo errorCode if {$errormsg ne ""} { set state(error) [list $errormsg $errorInfo $errorCode] set state(status) "error" } if { ($state(status) eq "timeout") \|\| ($state(status) eq "error") \|\| ([info exists state(connection)] && ($state(connection) eq "close")) } then { CloseSocket $state(sock) $token } if {[info exists state(after)]} { after cancel $state(after) } if {[info exists state(-command)] && !$skipCB && ![info exists state(done-command-cb)]} { set state(done-command-cb) yes if {[catch {eval $state(-command) {$token}} err] && $errormsg eq ""} { set state(error) [list $err $errorInfo $errorCode] set state(status) error } } } # http::CloseSocket - # # Close a socket and remove it from the persistent sockets table. If # possible an http token is included here but when we are called from a # fileevent on remote closure we need to find the correct entry - hence # the second section. proc ::http::CloseSocket {s {token {}}} { variable socketmap catch {fileevent $s readable {}} set conn_id {} if {$token ne ""} { variable $token upvar 0 $token state if {[info exists state(socketinfo)]} { set conn_id $state(socketinfo) } } else { set map [array get socketmap] set ndx [lsearch -exact $map $s] if {$ndx != -1} { incr ndx -1 set conn_id [lindex $map $ndx] } } if {$conn_id eq {} \|\| ![info exists socketmap($conn_id)]} { Log "Closing socket $s (no connection info)" if {[catch {close $s} err]} { Log "Error: $err" } } else { if {[info exists socketmap($conn_id)]} { Log "Closing connection $conn_id (sock $socketmap($conn_id))" if {[catch {close $socketmap($conn_id)} err]} { Log "Error: $err" } unset socketmap($conn_id) } else { Log "Cannot close connection $conn_id - no socket in socket map" } } } # http::reset -- # # See documentation for details. # # Arguments: # token Connection token. # why Status info. # # Side Effects: # See Finish proc http::reset {token {why reset}} { variable $token upvar 0 $token state set state(status) $why catch {fileevent $state(sock) readable {}} catch {fileevent $state(sock) writable {}} Finish $token if {[info exists state(error)]} { set errorlist $state(error) unset state eval ::error $errorlist } } # http::geturl -- # # Establishes a connection to a remote url via http. # # Arguments: # url The http URL to goget. # args Option value pairs. Valid options include: # -blocksize, -validate, -headers, -timeout # Results: # Returns a token for this connection. This token is the name of an # array that the caller should unset to garbage collect the state. proc http::geturl {url args} { variable http variable urlTypes variable defaultCharset variable defaultKeepalive variable strict # Initialize the state variable, an array. We'll return the name of this # array as the token for the transaction. if {![info exists http(uid)]} { set http(uid) 0 } set token [namespace current]::[incr http(uid)] variable $token upvar 0 $token state reset $token # Process command options. array set state { -binary false -blocksize 8192 -queryblocksize 8192 -validate 0 -headers {} -timeout 0 -type application/x-www-form-urlencoded -queryprogress {} -protocol 1.1 binary 0 state connecting meta {} coding {} currentsize 0 totalsize 0 querylength 0 queryoffset 0 type text/html body {} status "" http "" connection close } set state(-keepalive) $defaultKeepalive set state(-strict) $strict # These flags have their types verified [Bug 811170] array set type { -binary boolean -blocksize integer -queryblocksize integer -strict boolean -timeout integer -validate boolean } set state(charset) $defaultCharset set options { -binary -blocksize -channel -command -handler -headers -keepalive -method -myaddr -progress -protocol -query -queryblocksize -querychannel -queryprogress -strict -timeout -type -validate } set usage [join [lsort $options] ", "] set options [string map {- ""} $options] set pat ^-(?:[join $options \|])$ foreach {flag value} $args { if {[regexp -- $pat $flag]} { # Validate numbers if { [info exists type($flag)] && ![string is $type($flag) -strict $value] } then { unset $token return -code error \ "Bad value for $flag ($value), must be $type($flag)" } set state($flag) $value } else { unset $token return -code error "Unknown option $flag, can be: $usage" } } # Make sure -query and -querychannel aren't both specified set isQueryChannel [info exists state(-querychannel)] set isQuery [info exists state(-query)] if {$isQuery && $isQueryChannel} { unset $token return -code error "Can't combine -query and -querychannel options!" } # Validate URL, determine the server host and port, and check proxy case # Recognize user:pass@host URLs also, although we do not do anything with # that info yet. # URLs have basically four parts. # First, before the colon, is the protocol scheme (e.g. http) # Second, for HTTP-like protocols, is the authority # The authority is preceded by // and lasts up to (but not including) # the following / and it identifies up to four parts, of which only one, # the host, is required (if an authority is present at all). All other # parts of the authority (user name, password, port number) are optional. # Third is the resource name, which is split into two parts at a ? # The first part (from the single "/" up to "?") is the path, and the # second part (from that "?" up to "#") is the query. HOWEVER, we do # not need to separate them; we send the whole lot to the server. # Fourth is the fragment identifier, which is everything after the first # "#" in the URL. The fragment identifier MUST NOT be sent to the server # and indeed, we don't bother to validate it (it could be an error to # pass it in here, but it's cheap to strip). # # An example of a URL that has all the parts: # # http://jschmoe:xyzzy@www.bogus.net:8000/foo/bar.tml?q=foo#changes # # The "http" is the protocol, the user is "jschmoe", the password is # "xyzzy", the host is "www.bogus.net", the port is "8000", the path is # "/foo/bar.tml", the query is "q=foo", and the fragment is "changes". # # Note that the RE actually combines the user and password parts, as # recommended in RFC 3986. Indeed, that RFC states that putting passwords # in URLs is a Really Bad Idea, something with which I would agree utterly. # Also note that we do not currently support IPv6 addresses. # # From a validation perspective, we need to ensure that the parts of the # URL that are going to the server are correctly encoded. This is only # done if $state(-strict) is true (inherited from $::http::strict). set URLmatcher {(?x) # this is _expanded_ syntax ^ (?: (\w+) : ) ? # <protocol scheme> (?: // (?: ( [^@/\#?]+ # <userinfo part of authority> ) @ )? ( [^/:\#?]+ ) # <host part of authority> (?: : (\d+) )? # <port part of authority> )? ( / [^\#])? # <path> (including query) (?: \# (.) )? # <fragment> $ } # Phase one: parse if {![regexp -- $URLmatcher $url -> proto user host port srvurl]} { unset $token return -code error "Unsupported URL: $url" } # Phase two: validate if {$host eq ""} { # Caller has to provide a host name; we do not have a "default host" # that would enable us to handle relative URLs. unset $token return -code error "Missing host part: $url" # Note that we don't check the hostname for validity here; if it's # invalid, we'll simply fail to resolve it later on. } if {$port ne "" && $port > 65535} { unset $token return -code error "Invalid port number: $port" } # The user identification and resource identification parts of the URL can # have encoded characters in them; take care! if {$user ne ""} { # Check for validity according to RFC 3986, Appendix A set validityRE {(?xi) ^ (?: [-\w.~!$&'()+,;=:] \| %[0-9a-f][0-9a-f] )+ $ } if {$state(-strict) && ![regexp -- $validityRE $user]} { unset $token # Provide a better error message in this error case if {[regexp {(?i)%(?![0-9a-f][0-9a-f]).?.?} $user bad]} { return -code error \ "Illegal encoding character usage \"$bad\" in URL user" } return -code error "Illegal characters in URL user" } } if {$srvurl ne ""} { # Check for validity according to RFC 3986, Appendix A set validityRE {(?xi) ^ # Path part (already must start with / character) (?: [-\w.~!$&'()+,;=:@/] \| %[0-9a-f][0-9a-f] ) # Query part (optional, permits ? characters) (?: \? (?: [-\w.~!$&'()+,;=:@/?] \| %[0-9a-f][0-9a-f] ) )? $ } if {$state(-strict) && ![regexp -- $validityRE $srvurl]} { unset $token # Provide a better error message in this error case if {[regexp {(?i)%(?![0-9a-f][0-9a-f])..} $srvurl bad]} { return -code error \ "Illegal encoding character usage \"$bad\" in URL path" } return -code error "Illegal characters in URL path" } } else { set srvurl / } if {$proto eq ""} { set proto http } if {![info exists urlTypes($proto)]} { unset $token return -code error "Unsupported URL type \"$proto\"" } set defport [lindex $urlTypes($proto) 0] set defcmd [lindex $urlTypes($proto) 1] if {$port eq ""} { set port $defport } if {![catch {$http(-proxyfilter) $host} proxy]} { set phost [lindex $proxy 0] set pport [lindex $proxy 1] } # OK, now reassemble into a full URL set url ${proto}:// if {$user ne ""} { append url $user append url @ } append url $host if {$port != $defport} { append url : $port } append url $srvurl # Don't append the fragment! set state(url) $url # If a timeout is specified we set up the after event and arrange for an # asynchronous socket connection. set sockopts [list] if {$state(-timeout) > 0} { set state(after) [after $state(-timeout) \ [list http::reset $token timeout]] lappend sockopts -async } # If we are using the proxy, we must pass in the full URL that includes # the server name. if {[info exists phost] && ($phost ne "")} { set srvurl $url set targetAddr [list $phost $pport] } else { set targetAddr [list $host $port] } # Proxy connections aren't shared among different hosts. set state(socketinfo) $host:$port # See if we are supposed to use a previously opened channel. if {$state(-keepalive)} { variable socketmap if {[info exists socketmap($state(socketinfo))]} { if {[catch {fconfigure $socketmap($state(socketinfo))}]} { Log "WARNING: socket for $state(socketinfo) was closed" unset socketmap($state(socketinfo)) } else { set sock $socketmap($state(socketinfo)) Log "reusing socket $sock for $state(socketinfo)" catch {fileevent $sock writable {}} catch {fileevent $sock readable {}} } } # don't automatically close this connection socket set state(connection) {} } if {![info exists sock]} { # Pass -myaddr directly to the socket command if {[info exists state(-myaddr)]} { lappend sockopts -myaddr $state(-myaddr) } if {[catch {eval $defcmd $sockopts $targetAddr} sock]} { # something went wrong while trying to establish the connection. # Clean up after events and such, but DON'T call the command # callback (if available) because we're going to throw an # exception from here instead. set state(sock) $sock Finish $token "" 1 cleanup $token return -code error $sock } } set state(sock) $sock Log "Using $sock for $state(socketinfo)" \ [expr {$state(-keepalive)?"keepalive":""}] if {$state(-keepalive)} { set socketmap($state(socketinfo)) $sock } # Wait for the connection to complete. if {$state(-timeout) > 0} { fileevent $sock writable [list http::Connect $token] http::wait $token if {![info exists state]} { # If we timed out then Finish has been called and the users # command callback may have cleaned up the token. If so we end up # here with nothing left to do. return $token } elseif {$state(status) eq "error"} { # Something went wrong while trying to establish the connection. # Clean up after events and such, but DON'T call the command # callback (if available) because we're going to throw an # exception from here instead. set err [lindex $state(error) 0] cleanup $token return -code error $err } elseif {$state(status) ne "connect"} { # Likely to be connection timeout return $token } set state(status) "" } # Send data in cr-lf format, but accept any line terminators fconfigure $sock -translation {auto crlf} -buffersize $state(-blocksize) # The following is disallowed in safe interpreters, but the socket is # already in non-blocking mode in that case. catch {fconfigure $sock -blocking off} set how GET if {$isQuery} { set state(querylength) [string length $state(-query)] if {$state(querylength) > 0} { set how POST set contDone 0 } else { # There's no query data. unset state(-query) set isQuery 0 } } elseif {$state(-validate)} { set how HEAD } elseif {$isQueryChannel} { set how POST # The query channel must be blocking for the async Write to # work properly. fconfigure $state(-querychannel) -blocking 1 -translation binary set contDone 0 } if {[info exists state(-method)] && $state(-method) ne ""} { set how $state(-method) } if {[catch { puts $sock "$how $srvurl HTTP/$state(-protocol)" puts $sock "Accept: $http(-accept)" array set hdrs $state(-headers) if {[info exists hdrs(Host)]} { # Allow Host spoofing. [Bug 928154] puts $sock "Host: $hdrs(Host)" } elseif {$port == $defport} { # Don't add port in this case, to handle broken servers. [Bug # #504508] puts $sock "Host: $host" } else { puts $sock "Host: $host:$port" } unset hdrs puts $sock "User-Agent: $http(-useragent)" if {$state(-protocol) == 1.0 && $state(-keepalive)} { puts $sock "Connection: keep-alive" } if {$state(-protocol) > 1.0 && !$state(-keepalive)} { puts $sock "Connection: close" ;# RFC2616 sec 8.1.2.1 } if {[info exists phost] && ($phost ne "") && $state(-keepalive)} { puts $sock "Proxy-Connection: Keep-Alive" } set accept_encoding_seen 0 set content_type_seen 0 foreach {key value} $state(-headers) { if {[string equal -nocase $key "host"]} { continue } if {[string equal -nocase $key "accept-encoding"]} { set accept_encoding_seen 1 } if {[string equal -nocase $key "content-type"]} { set content_type_seen 1 } set value [string map [list \n "" \r ""] $value] set key [string trim $key] if {[string equal -nocase $key "content-length"]} { set contDone 1 set state(querylength) $value } if {[string length $key]} { puts $sock "$key: $value" } } # Soft zlib dependency check - no package require if { !$accept_encoding_seen && ([package vsatisfies [package provide Tcl] 8.6] \|\| [llength [package provide zlib]]) && !([info exists state(-channel)] \|\| [info exists state(-handler)]) } then { puts $sock "Accept-Encoding: gzip, identity, ;q=0.1" } if {$isQueryChannel && $state(querylength) == 0} { # Try to determine size of data in channel. If we cannot seek, the # surrounding catch will trap us set start [tell $state(-querychannel)] seek $state(-querychannel) 0 end set state(querylength) \ [expr {[tell $state(-querychannel)] - $start}] seek $state(-querychannel) $start } # Flush the request header and set up the fileevent that will either # push the POST data or read the response. # # fileevent note: # # It is possible to have both the read and write fileevents active at # this point. The only scenario it seems to affect is a server that # closes the connection without reading the POST data. (e.g., early # versions TclHttpd in various error cases). Depending on the # platform, the client may or may not be able to get the response from # the server because of the error it will get trying to write the post # data. Having both fileevents active changes the timing and the # behavior, but no two platforms (among Solaris, Linux, and NT) behave # the same, and none behave all that well in any case. Servers should # always read their POST data if they expect the client to read their # response. if {$isQuery \|\| $isQueryChannel} { if {!$content_type_seen} { puts $sock "Content-Type: $state(-type)" } if {!$contDone} { puts $sock "Content-Length: $state(querylength)" } puts $sock "" fconfigure $sock -translation {auto binary} fileevent $sock writable [list http::Write $token] } else { puts $sock "" flush $sock fileevent $sock readable [list http::Event $sock $token] } if {![info exists state(-command)]} { # geturl does EVERYTHING asynchronously, so if the user calls it # synchronously, we just do a wait here. wait $token if {$state(status) eq "error"} { # Something went wrong, so throw the exception, and the # enclosing catch will do cleanup. return -code error [lindex $state(error) 0] } } } err]} then { # The socket probably was never connected, or the connection dropped # later. # Clean up after events and such, but DON'T call the command callback # (if available) because we're going to throw an exception from here # instead. # if state(status) is error, it means someone's already called Finish # to do the above-described clean up. if {$state(status) ne "error"} { Finish $token $err 1 } cleanup $token return -code error $err } return $token } # Data access functions: # Data - the URL data # Status - the transaction status: ok, reset, eof, timeout # Code - the HTTP transaction code, e.g., 200 # Size - the size of the URL data proc http::data {token} { variable $token upvar 0 $token state return $state(body) } proc http::status {token} { if {![info exists $token]} { return "error" } variable $token upvar 0 $token state return $state(status) } proc http::code {token} { variable $token upvar 0 $token state return $state(http) } proc http::ncode {token} { variable $token upvar 0 $token state if {[regexp {[0-9]{3}} $state(http) numeric_code]} { return $numeric_code } else { return $state(http) } } proc http::size {token} { variable $token upvar 0 $token state return $state(currentsize) } proc http::meta {token} { variable $token upvar 0 $token state return $state(meta) } proc http::error {token} { variable $token upvar 0 $token state if {[info exists state(error)]} { return $state(error) } return "" } # http::cleanup # # Garbage collect the state associated with a transaction # # Arguments # token The token returned from http::geturl # # Side Effects # unsets the state array proc http::cleanup {token} { variable $token upvar 0 $token state if {[info exists state]} { unset state } } # http::Connect # # This callback is made when an asyncronous connection completes. # # Arguments # token The token returned from http::geturl # # Side Effects # Sets the status of the connection, which unblocks # the waiting geturl call proc http::Connect {token} { variable $token upvar 0 $token state set err "due to unexpected EOF" if { [eof $state(sock)] \|\| [set err [fconfigure $state(sock) -error]] ne "" } then { Finish $token "connect failed $err" 1 } else { set state(status) connect fileevent $state(sock) writable {} } return } # http::Write # # Write POST query data to the socket # # Arguments # token The token for the connection # # Side Effects # Write the socket and handle callbacks. proc http::Write {token} { variable $token upvar 0 $token state set sock $state(sock) # Output a block. Tcl will buffer this if the socket blocks set done 0 if {[catch { # Catch I/O errors on dead sockets if {[info exists state(-query)]} { # Chop up large query strings so queryprogress callback can give # smooth feedback. puts -nonewline $sock \ [string range $state(-query) $state(queryoffset) \ [expr {$state(queryoffset) + $state(-queryblocksize) - 1}]] incr state(queryoffset) $state(-queryblocksize) if {$state(queryoffset) >= $state(querylength)} { set state(queryoffset) $state(querylength) set done 1 } } else { # Copy blocks from the query channel set outStr [read $state(-querychannel) $state(-queryblocksize)] puts -nonewline $sock $outStr incr state(queryoffset) [string length $outStr] if {[eof $state(-querychannel)]} { set done 1 } } } err]} then { # Do not call Finish here, but instead let the read half of the socket # process whatever server reply there is to get. set state(posterror) $err set done 1 } if {$done} { catch {flush $sock} fileevent $sock writable {} fileevent $sock readable [list http::Event $sock $token] } # Callback to the client after we've completely handled everything. if {[string length $state(-queryprogress)]} { eval $state(-queryprogress) \ [list $token $state(querylength) $state(queryoffset)] } } # http::Event # # Handle input on the socket # # Arguments # sock The socket receiving input. # token The token returned from http::geturl # # Side Effects # Read the socket and handle callbacks. proc http::Event {sock token} { variable $token upvar 0 $token state if {![info exists state]} { Log "Event $sock with invalid token '$token' - remote close?" if {![eof $sock]} { if {[set d [read $sock]] ne ""} { Log "WARNING: additional data left on closed socket" } } CloseSocket $sock return } if {$state(state) eq "connecting"} { if {[catch {gets $sock state(http)} n]} { return [Finish $token $n] } elseif {$n >= 0} { set state(state) "header" } } elseif {$state(state) eq "header"} { if {[catch {gets $sock line} n]} { return [Finish $token $n] } elseif {$n == 0} { # We have now read all headers # We ignore HTTP/1.1 100 Continue returns. RFC2616 sec 8.2.3 if {$state(http) == "" \|\| [lindex $state(http) 1] == 100} { return } set state(state) body # If doing a HEAD, then we won't get any body if {$state(-validate)} { Eof $token return } # For non-chunked transfer we may have no body - in this case we # may get no further file event if the connection doesn't close # and no more data is sent. We can tell and must finish up now - # not later. if { !(([info exists state(connection)] && ($state(connection) eq "close")) \|\| [info exists state(transfer)]) && ($state(totalsize) == 0) } then { Log "body size is 0 and no events likely - complete." Eof $token return } # We have to use binary translation to count bytes properly. fconfigure $sock -translation binary if { $state(-binary) \|\| ![string match -nocase text $state(type)] } then { # Turn off conversions for non-text data set state(binary) 1 } if { $state(binary) \|\| [string match gzip $state(coding)] \|\| [string match compress $state(coding)] } then { if {[info exists state(-channel)]} { fconfigure $state(-channel) -translation binary } } if { [info exists state(-channel)] && ![info exists state(-handler)] } then { # Initiate a sequence of background fcopies fileevent $sock readable {} CopyStart $sock $token return } } elseif {$n > 0} { # Process header lines if {[regexp -nocase {^([^:]+):(.+)$} $line x key value]} { switch -- [string tolower $key] { content-type { set state(type) [string trim [string tolower $value]] # grab the optional charset information if {[regexp -nocase \ {charset\s=\s\"((?:[^""]\|\\\"))\"} \ $state(type) -> cs]} { set state(charset) [string map {{\"} \"} $cs] } else { regexp -nocase {charset\s=\s(\S+?);?} \ $state(type) -> state(charset) } } content-length { set state(totalsize) [string trim $value] } content-encoding { set state(coding) [string trim $value] } transfer-encoding { set state(transfer) \ [string trim [string tolower $value]] } proxy-connection - connection { set state(connection) \ [string trim [string tolower $value]] } } lappend state(meta) $key [string trim $value] } } } else { # Now reading body if {[catch { if {[info exists state(-handler)]} { set n [eval $state(-handler) [list $sock $token]] } elseif {[info exists state(transfer_final)]} { set line [getTextLine $sock] set n [string length $line] if {$n > 0} { Log "found $n bytes following final chunk" append state(transfer_final) $line } else { Log "final chunk part" Eof $token } } elseif { [info exists state(transfer)] && $state(transfer) eq "chunked" } then { set size 0 set chunk [getTextLine $sock] set n [string length $chunk] if {[string trim $chunk] ne ""} { scan $chunk %x size if {$size != 0} { set bl [fconfigure $sock -blocking] fconfigure $sock -blocking 1 set chunk [read $sock $size] fconfigure $sock -blocking $bl set n [string length $chunk] if {$n >= 0} { append state(body) $chunk } if {$size != [string length $chunk]} { Log "WARNING: mis-sized chunk:\ was [string length $chunk], should be $size" } getTextLine $sock } else { set state(transfer_final) {} } } } else { #Log "read non-chunk $state(currentsize) of $state(totalsize)" set block [read $sock $state(-blocksize)] set n [string length $block] if {$n >= 0} { append state(body) $block } } if {[info exists state]} { if {$n >= 0} { incr state(currentsize) $n } # If Content-Length - check for end of data. if { ($state(totalsize) > 0) && ($state(currentsize) >= $state(totalsize)) } then { Eof $token } } } err]} then { return [Finish $token $err] } else { if {[info exists state(-progress)]} { eval $state(-progress) \ [list $token $state(totalsize) $state(currentsize)] } } } # catch as an Eof above may have closed the socket already if {![catch {eof $sock} eof] && $eof} { if {[info exists $token]} { set state(connection) close Eof $token } else { # open connection closed on a token that has been cleaned up. CloseSocket $sock } return } } # http::getTextLine -- # # Get one line with the stream in blocking crlf mode # # Arguments # sock The socket receiving input. # # Results: # The line of text, without trailing newline proc http::getTextLine {sock} { set tr [fconfigure $sock -translation] set bl [fconfigure $sock -blocking] fconfigure $sock -translation crlf -blocking 1 set r [gets $sock] fconfigure $sock -translation $tr -blocking $bl return $r } # http::CopyStart # # Error handling wrapper around fcopy # # Arguments # sock The socket to copy from # token The token returned from http::geturl # # Side Effects # This closes the connection upon error proc http::CopyStart {sock token} { variable $token upvar 0 $token state if {[catch { fcopy $sock $state(-channel) -size $state(-blocksize) -command \ [list http::CopyDone $token] } err]} then { Finish $token $err } } # http::CopyDone # # fcopy completion callback # # Arguments # token The token returned from http::geturl # count The amount transfered # # Side Effects # Invokes callbacks proc http::CopyDone {token count {error {}}} { variable $token upvar 0 $token state set sock $state(sock) incr state(currentsize) $count if {[info exists state(-progress)]} { eval $state(-progress) \ [list $token $state(totalsize) $state(currentsize)] } # At this point the token may have been reset if {[string length $error]} { Finish $token $error } elseif {[catch {eof $sock} iseof] \|\| $iseof} { Eof $token } else { CopyStart $sock $token } } # http::Eof # # Handle eof on the socket # # Arguments # token The token returned from http::geturl # # Side Effects # Clean up the socket proc http::Eof {token {force 0}} { variable $token upvar 0 $token state if {$state(state) eq "header"} { # Premature eof set state(status) eof } else { set state(status) ok } if {($state(coding) eq "gzip") && [string length $state(body)] > 0} { if {[catch { if {[package vsatisfies [package present Tcl] 8.6]} { # The zlib integration into 8.6 includes proper gzip support set state(body) [zlib gunzip $state(body)] } else { set state(body) [Gunzip $state(body)] } } err]} then { return [Finish $token $err] } } if {!$state(binary)} { # If we are getting text, set the incoming channel's encoding # correctly. iso8859-1 is the RFC default, but this could be any IANA # charset. However, we only know how to convert what we have # encodings for. set enc [CharsetToEncoding $state(charset)] if {$enc ne "binary"} { set state(body) [encoding convertfrom $enc $state(body)] } # Translate text line endings. set state(body) [string map {\r\n \n \r \n} $state(body)] } Finish $token } # http::wait -- # # See documentation for details. # # Arguments: # token Connection token. # # Results: # The status after the wait. proc http::wait {token} { variable $token upvar 0 $token state if {![info exists state(status)] \|\| $state(status) eq ""} { # We must wait on the original variable name, not the upvar alias vwait ${token}(status) } return [status $token] } # http::formatQuery -- # # See documentation for details. Call http::formatQuery with an even # number of arguments, where the first is a name, the second is a value, # the third is another name, and so on. # # Arguments: # args A list of name-value pairs. # # Results: # TODO proc http::formatQuery {args} { set result "" set sep "" foreach i $args { append result $sep [mapReply $i] if {$sep eq "="} { set sep & } else { set sep = } } return $result } # http::mapReply -- # # Do x-www-urlencoded character mapping # # Arguments: # string The string the needs to be encoded # # Results: # The encoded string proc http::mapReply {string} { variable http variable formMap # The spec says: "non-alphanumeric characters are replaced by '%HH'". Use # a pre-computed map and [string map] to do the conversion (much faster # than [regsub]/[subst]). [Bug 1020491] if {$http(-urlencoding) ne ""} { set string [encoding convertto $http(-urlencoding) $string] return [string map $formMap $string] } set converted [string map $formMap $string] if {[string match "\[\u0100-\uffff\]*" $converted]} { regexp {[\u0100-\uffff]} $converted badChar # Return this error message for maximum compatability... :^/ return -code error \ "can't read \"formMap($badChar)\": no such element in array" } return $converted } # http::ProxyRequired -- # Default proxy filter. # # Arguments: # host The destination host # # Results: # The current proxy settings proc http::ProxyRequired {host} { variable http if {[info exists http(-proxyhost)] && [string length $http(-proxyhost)]} { if { ![info exists http(-proxyport)] \|\| ![string length $http(-proxyport)] } then { set http(-proxyport) 8080 } return [list $http(-proxyhost) $http(-proxyport)] } } # http::CharsetToEncoding -- # # Tries to map a given IANA charset to a tcl encoding. If no encoding # can be found, returns binary. # proc http::CharsetToEncoding {charset} { variable encodings set charset [string tolower $charset] if {[regexp {iso-?8859-([0-9]+)} $charset -> num]} { set encoding "iso8859-$num" } elseif {[regexp {iso-?2022-(jp\|kr)} $charset -> ext]} { set encoding "iso2022-$ext" } elseif {[regexp {shift[-_]?js} $charset]} { set encoding "shiftjis" } elseif {[regexp {(?:windows\|cp)-?([0-9]+)} $charset -> num]} { set encoding "cp$num" } elseif {$charset eq "us-ascii"} { set encoding "ascii" } elseif {[regexp {(?:iso-?)?lat(?:in)?-?([0-9]+)} $charset -> num]} { switch -- $num { 5 {set encoding "iso8859-9"} 1 - 2 - 3 { set encoding "iso8859-$num" } } } else { # other charset, like euc-xx, utf-8,... may directly map to encoding set encoding $charset } set idx [lsearch -exact $encodings $encoding] if {$idx >= 0} { return $encoding } else { return "binary" } } # http::Gunzip -- # # Decompress data transmitted using the gzip transfer coding. # # FIX ME: redo using zlib sinflate proc http::Gunzip {data} { binary scan $data Scb5icc magic method flags time xfl os set pos 10 if {$magic != 0x1f8b} { return -code error "invalid data: supplied data is not in gzip format" } if {$method != 8} { return -code error "invalid compression method" } # lassign [split $flags ""] f_text f_crc f_extra f_name f_comment foreach {f_text f_crc f_extra f_name f_comment} [split $flags ""] break set extra "" if {$f_extra} { binary scan $data @${pos}S xlen incr pos 2 set extra [string range $data $pos $xlen] set pos [incr xlen] } set name "" if {$f_name} { set ndx [string first \0 $data $pos] set name [string range $data $pos $ndx] set pos [incr ndx] } set comment "" if {$f_comment} { set ndx [string first \0 $data $pos] set comment [string range $data $pos $ndx] set pos [incr ndx] } set fcrc "" if {$f_crc} { set fcrc [string range $data $pos [incr pos]] incr pos } binary scan [string range $data end-7 end] ii crc size set inflated [zlib inflate [string range $data $pos end-8]] set chk [zlib crc32 $inflated] if {($crc & 0xffffffff) != ($chk & 0xffffffff)} { return -code error "invalid data: checksum mismatch $crc != $chk" } return $inflated } # Local variables: # indent-tabs-mode: t # End: ��

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