# This file tests the filesystem and vfs internals. # # This file contains a collection of tests for one or more of the Tcl built-in # commands. Sourcing this file into Tcl runs the tests and generates output # for errors. No output means no errors were found. # # Copyright (c) 2002 Vincent Darley. # # See the file "license.terms" for information on usage and redistribution of # this file, and for a DISCLAIMER OF ALL WARRANTIES. if {"::tcltest" ni [namespace children]} { package require tcltest 2.5 namespace import -force ::tcltest::* } namespace eval ::tcl::test::fileSystem { namespace import ::tcltest::* catch { file delete -force link.file file delete -force dir.link file delete -force [file join dir.dir linkinside.file] } testConstraint loaddll 0 catch { ::tcltest::loadTestedCommands package require -exact Tcltest [info patchlevel] set ::ddever [package require dde] set ::ddelib [lindex [package ifneeded dde $::ddever] 1] set ::regver [package require registry] set ::reglib [lindex [package ifneeded registry $::regver] 1] testConstraint loaddll 1 } # Test for commands defined in Tcltest executable testConstraint testfilesystem [llength [info commands ::testfilesystem]] testConstraint testsetplatform [llength [info commands ::testsetplatform]] testConstraint testsimplefilesystem [llength [info commands ::testsimplefilesystem]] # Some things fail under all Continuous Integration systems for subtle reasons # such as CI often running with elevated privileges in a container. testConstraint notInCIenv [expr {![info exists ::env(CI)]}] cd [tcltest::temporaryDirectory] makeFile "test file" gorp.file makeDirectory dir.dir makeDirectory [file join dir.dir dirinside.dir] makeFile "test file in directory" [file join dir.dir inside.file] testConstraint unusedDrive 0 testConstraint moreThanOneDrive 0 apply {{} { # The variables 'drive' and 'drives' will be used below. variable drive {} drives {} if {[testConstraint win]} { set vols [string map [list :/ {}] [file volumes]] for {set i 0} {$i < 26} {incr i} { set drive [format %c [expr {$i + 65}]] if {$drive ni $vols} { testConstraint unusedDrive 1 break } } set dir [pwd] try { foreach vol [file volumes] { if {![catch {cd $vol}]} { lappend drives $vol } } testConstraint moreThanOneDrive [llength $drives] } finally { cd $dir } } } ::tcl::test::fileSystem} proc testPathEqual {one two} { if {$one eq $two} { return "ok" } return "not equal: $one $two" } testConstraint hasLinks [expr {![catch { file link link.file gorp.file cd dir.dir file link \ [file join linkinside.file] \ [file join inside.file] cd .. file link dir.link dir.dir cd dir.dir file link [file join dirinside.link] \ [file join dirinside.dir] cd .. }]}] if {[testConstraint testsetplatform]} { set platform [testgetplatform] } # ---------------------------------------------------------------------- test filesystem-1.0 {link normalisation} {hasLinks} { string equal [file normalize gorp.file] [file normalize link.file] } {0} test filesystem-1.1 {link normalisation} {hasLinks} { string equal [file normalize dir.dir] [file normalize dir.link] } {0} test filesystem-1.2 {link normalisation} {hasLinks unix} { testPathEqual [file normalize [file join gorp.file foo]] \ [file normalize [file join link.file foo]] } ok test filesystem-1.3 {link normalisation} {hasLinks} { testPathEqual [file normalize [file join dir.dir foo]] \ [file normalize [file join dir.link foo]] } ok test filesystem-1.4 {link normalisation} {hasLinks} { testPathEqual [file normalize [file join dir.dir inside.file]] \ [file normalize [file join dir.link inside.file]] } ok test filesystem-1.5 {link normalisation} {hasLinks} { testPathEqual [file normalize [file join dir.dir linkinside.file]] \ [file normalize [file join dir.dir linkinside.file]] } ok test filesystem-1.6 {link normalisation} {hasLinks} { string equal [file normalize [file join dir.dir linkinside.file]] \ [file normalize [file join dir.link inside.file]] } {0} test filesystem-1.7 {link normalisation} {hasLinks unix} { testPathEqual [file normalize [file join dir.link linkinside.file foo]] \ [file normalize [file join dir.dir inside.file foo]] } ok test filesystem-1.8 {link normalisation} {hasLinks} { string equal [file normalize [file join dir.dir linkinside.filefoo]] \ [file normalize [file join dir.link inside.filefoo]] } {0} test filesystem-1.9 {link normalisation} -setup { file delete -force dir.link } -constraints {unix hasLinks} -body { file link dir.link [file nativename dir.dir] testPathEqual [file normalize [file join dir.dir linkinside.file foo]] \ [file normalize [file join dir.link inside.file foo]] } -result ok test filesystem-1.10 {link normalisation: double link} -constraints { unix hasLinks } -body { file link dir2.link dir.link testPathEqual [file normalize [file join dir.dir linkinside.file foo]] \ [file normalize [file join dir2.link inside.file foo]] } -cleanup { file delete dir2.link } -result ok makeDirectory dir2.file test filesystem-1.11 {link normalisation: double link, back in tree} {unix hasLinks} { file link dir2.link dir.link file link [file join dir2.file dir2.link] [file join .. dir2.link] testPathEqual [file normalize [file join dir.dir linkinside.file foo]] \ [file normalize [file join dir2.file dir2.link inside.file foo]] } ok test filesystem-1.12 {file new native path} {} { for {set i 0} {$i < 10} {incr i} { foreach f [lsort [glob -nocomplain -type l *]] { catch {file readlink $f} } } # If we reach here we've succeeded. We used to crash above. expr {1} } {1} test filesystem-1.13 {file normalisation} {win} { # This used to be broken file normalize C:/thislongnamedoesntexist } {C:/thislongnamedoesntexist} test filesystem-1.14 {file normalisation} {win} { # This used to be broken file normalize c:/ } {C:/} test filesystem-1.15 {file normalisation} {win} { file normalize c:/../ } {C:/} test filesystem-1.16 {file normalisation} {win} { file normalize c:/. } {C:/} test filesystem-1.17 {file normalisation} {win} { file normalize c:/.. } {C:/} test filesystem-1.17.1 {file normalisation} {win} { file normalize c:\\.. } {C:/} test filesystem-1.18 {file normalisation} {win} { file normalize c:/./ } {C:/} test filesystem-1.19 {file normalisation} {win unusedDrive} { file normalize ${drive}:/./../../.. } "${drive}:/" test filesystem-1.20 {file normalisation} {win} { file normalize //name/foo/../ } {//name/foo} test filesystem-1.21 {file normalisation} {win} { file normalize C:///foo/./ } {C:/foo} test filesystem-1.22 {file normalisation} {win} { file normalize //name/foo/. } {//name/foo} test filesystem-1.23 {file normalisation} {win} { file normalize c:/./foo } {C:/foo} test filesystem-1.24 {file normalisation} {win unusedDrive} { file normalize ${drive}:/./../../../a } "${drive}:/a" test filesystem-1.25 {file normalisation} {win unusedDrive} { file normalize ${drive}:/./.././../../a } "${drive}:/a" test filesystem-1.25.1 {file normalisation} {win unusedDrive} { file normalize ${drive}:/./.././..\\..\\a\\bb } "${drive}:/a/bb" test filesystem-1.26 {link normalisation: link and ..} -setup { file delete -force dir2.link } -constraints {hasLinks} -body { set dir [file join dir2 foo bar] file mkdir $dir file link dir2.link [file join dir2 foo bar] testPathEqual [file normalize [file join dir2 foo x]] \ [file normalize [file join dir2.link .. x]] } -result ok test filesystem-1.27 {file normalisation: up and down with ..} { set dir [file join dir2 foo bar] file mkdir $dir set dir2 [file join dir2 .. dir2 foo .. foo bar] list [testPathEqual [file normalize $dir] [file normalize $dir2]] \ [file exists $dir] [file exists $dir2] } {ok 1 1} test filesystem-1.28 {link normalisation: link with .. and ..} -setup { file delete -force dir2.link } -constraints {hasLinks} -body { set dir [file join dir2 foo bar] file mkdir $dir set to [file join dir2 .. dir2 foo .. foo bar] file link dir2.link $to testPathEqual [file normalize [file join dir2 foo x]] \ [file normalize [file join dir2.link .. x]] } -result ok test filesystem-1.29 {link normalisation: link with ..} -setup { file delete -force dir2.link } -constraints {hasLinks} -body { set dir [file join dir2 foo bar] file mkdir $dir set to [file join dir2 .. dir2 foo .. foo bar] file link dir2.link $to set res [file normalize [file join dir2.link x yyy z]] if {[string match *..* $res]} { return "$res must not contain '..'" } return "ok" } -result {ok} test filesystem-1.29.1 {link normalisation with two consecutive links} {hasLinks} { testPathEqual [file normalize [file join dir.link dirinside.link abc]] \ [file normalize [file join dir.dir dirinside.dir abc]] } ok file delete -force dir2.file file delete -force dir2.link file delete -force link.file dir.link file delete -force dir2 file delete -force [file join dir.dir dirinside.link] removeFile [file join dir.dir inside.file] removeDirectory [file join dir.dir dirinside.dir] removeDirectory dir.dir test filesystem-1.30 {normalisation of nonexistent user} -body { file normalize ~noonewiththisname } -returnCodes error -result {user "noonewiththisname" doesn't exist} test filesystem-1.30.1 {normalisation of existing user} -body { catch {file normalize ~$::tcl_platform(user)} } -result {0} test filesystem-1.30.2 {normalisation of nonexistent user specified as user@domain} -body { file normalize ~nonexistentuser@nonexistentdomain } -returnCodes error -result {user "nonexistentuser@nonexistentdomain" doesn't exist} test filesystem-1.31 {link normalisation: link near filesystem root} {testsetplatform} { testsetplatform unix file normalize /foo/../bar } {/bar} test filesystem-1.32 {link normalisation: link near filesystem root} {testsetplatform} { testsetplatform unix file normalize /../bar } {/bar} test filesystem-1.33 {link normalisation: link near filesystem root} {testsetplatform} { testsetplatform windows set res [file normalize C:/../bar] if {[testConstraint unix]} { # Some unices go further in normalizing this -- not really a problem # since this is a Windows test. regexp {C:/bar$} $res res } set res } {C:/bar} if {[testConstraint testsetplatform]} { testsetplatform $platform } test filesystem-1.34 {file normalisation with '/./'} -body { file normalize /foo/bar/anc/./.tml } -match regexp -result {^(?:(?!/\./).)*$} test filesystem-1.35a {file normalisation with '/./'} -body { file normalize /ffo/bar/anc/./foo/.tml } -match regexp -result {^(?:(?!/\./).)*$} test filesystem-1.35b {file normalisation with '/./'} { llength [regexp -all foo [file normalize /ffo/bar/anc/./foo/.tml]] } 1 test filesystem-1.36a {file normalisation with '/./'} -body { file normalize /foo/bar/anc/././asdasd/.tml } -match regexp -result {^(?:(?!/\./).)*$} test filesystem-1.36b {file normalisation with '/./'} { llength [regexp -all asdasd [file normalize /foo/bar/anc/././asdasd/.tml]] } 1 test filesystem-1.37 {file normalisation with '/./'} -body { set fname "/abc/./def/./ghi/./asda/.././.././asd/x/../../../../....." file norm $fname } -match regexp -result {^(?:[^/]|/(?:[^/]|$))+$} test filesystem-1.38 {file normalisation with volume relative} -setup { set dir [pwd] } -constraints {win moreThanOneDrive notInCIenv} -body { set path "[string range [lindex $drives 0] 0 1]foo" cd [lindex $drives 1] file norm $path } -cleanup { cd $dir } -result "[lindex $drives 0]foo" test filesystem-1.39 {file normalisation with volume relative} -setup { set old [pwd] } -constraints {win} -body { set drv C:/ cd [lindex [glob -type d -dir $drv *] 0] file norm [string range $drv 0 1] } -cleanup { cd $old } -match regexp -result {.*[^/]} test filesystem-1.40 {file normalisation with repeated separators} { testPathEqual [file norm foo////bar] [file norm foo/bar] } ok test filesystem-1.41 {file normalisation with repeated separators} {win} { testPathEqual [file norm foo\\\\\\bar] [file norm foo/bar] } ok test filesystem-1.42 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/..] [file norm /] } ok test filesystem-1.42.1 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/../] [file norm /] } ok test filesystem-1.43 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/foo/../..] [file norm /] } ok test filesystem-1.43.1 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/foo/../../] [file norm /] } ok test filesystem-1.44 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/foo/../../bar] [file norm /bar] } ok test filesystem-1.45 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/../../bar] [file norm /bar] } ok test filesystem-1.46 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /xxx/../bar] [file norm /bar] } ok test filesystem-1.47 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /..] [file norm /] } ok test filesystem-1.48 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /../] [file norm /] } ok test filesystem-1.49 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /.] [file norm /] } ok test filesystem-1.50 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /./] [file norm /] } ok test filesystem-1.51 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /../..] [file norm /] } ok test filesystem-1.51.1 {file normalisation .. beyond root (Bug 1379287)} { testPathEqual [file norm /../../] [file norm /] } ok test filesystem-1.52 {bug f9f390d0fa: file join where strep is not canonical} -constraints unix -body { set x //foo file normalize $x file join $x bar } -result /foo/bar test filesystem-1.52.1 {bug f9f390d0fa: file join where strep is not canonical} -body { set x //foo file normalize $x file join $x } -result /foo test filesystem-1.53 {[Bug 3559678] - normalize when tail is empty} { string match */ [file normalize [lindex [glob -dir [pwd] {{}}] 0]] } 0 test filesystem-1.54 {[Bug ce3a211dcb] - normalize when tail is empty} -setup { set save [pwd] cd [set home [makeDirectory ce3a211dcb]] makeDirectory A $home cd [lindex [glob */] 0] } -body { string match */A [pwd] } -cleanup { cd $home removeDirectory A $home cd $save removeDirectory ce3a211dcb } -result 1 test filesystem-2.0 {new native path} {unix} { foreach f [lsort [glob -nocomplain /usr/bin/c*]] { catch {file readlink $f} } # If we reach here we've succeeded. We used to crash above. return ok } ok # Make sure the testfilesystem hasn't been registered. if {[testConstraint testfilesystem]} { proc resetfs {} { while {![catch {testfilesystem 0}]} {} } } test filesystem-3.1 {Tcl_FSRegister & Tcl_FSUnregister} testfilesystem { set result {} lappend result [testfilesystem 1] lappend result [testfilesystem 0] lappend result [catch {testfilesystem 0} msg] $msg } {registered unregistered 1 failed} test filesystem-3.3 {Tcl_FSRegister} testfilesystem { testfilesystem 1 testfilesystem 1 testfilesystem 0 testfilesystem 0 } {unregistered} test filesystem-3.4 {Tcl_FSRegister} -constraints testfilesystem -body { testfilesystem 1 file system bar } -cleanup { testfilesystem 0 } -result {reporting} test filesystem-3.5 {Tcl_FSUnregister} testfilesystem { resetfs lindex [file system bar] 0 } {native} test filesystem-4.0 {testfilesystem} -constraints testfilesystem -body { testfilesystem 1 set filesystemReport {} file exists foo testfilesystem 0 return $filesystemReport } -match glob -result {*{access foo}} test filesystem-4.1 {testfilesystem} -constraints testfilesystem -body { testfilesystem 1 set filesystemReport {} catch {file stat foo bar} testfilesystem 0 return $filesystemReport } -match glob -result {*{stat foo}} test filesystem-4.2 {testfilesystem} -constraints testfilesystem -body { testfilesystem 1 set filesystemReport {} catch {file lstat foo bar} testfilesystem 0 return $filesystemReport } -match glob -result {*{lstat foo}} test filesystem-4.3 {testfilesystem} -constraints testfilesystem -body { testfilesystem 1 set filesystemReport {} catch {glob *} testfilesystem 0 return $filesystemReport } -match glob -result {*{matchindirectory *}*} test filesystem-5.1 {cache and ~} -constraints testfilesystem -setup { set orig $::env(HOME) } -body { set ::env(HOME) /foo/bar/blah set testdir ~ set res1 "Parent of ~ (/foo/bar/blah) is [file dirname $testdir]" set ::env(HOME) /a/b/c set res2 "Parent of ~ (/a/b/c) is [file dirname $testdir]" list $res1 $res2 } -cleanup { set ::env(HOME) $orig } -match regexp -result {{Parent of ~ \(/foo/bar/blah\) is ([a-zA-Z]:)?(/cygwin)?(/foo/bar|foo:bar)} {Parent of ~ \(/a/b/c\) is ([a-zA-Z]:)?(/cygwin)?(/a/b|a:b)}} test filesystem-6.1 {empty file name} -returnCodes error -body { open "" } -result {couldn't open "": no such file or directory} test filesystem-6.2 {empty file name} -returnCodes error -body { file stat "" arr } -result {could not read "": no such file or directory} test filesystem-6.3 {empty file name} -returnCodes error -body { file atime "" } -result {could not read "": no such file or directory} test filesystem-6.4 {empty file name} -returnCodes error -body { file attributes "" } -result {could not read "": no such file or directory} test filesystem-6.5 {empty file name} -returnCodes error -body { file copy "" "" } -result {error copying "": no such file or directory} test filesystem-6.6 {empty file name} {file delete ""} {} test filesystem-6.7 {empty file name} {file dirname ""} . test filesystem-6.8 {empty file name} {file executable ""} 0 test filesystem-6.9 {empty file name} {file exists ""} 0 test filesystem-6.10 {empty file name} {file extension ""} {} test filesystem-6.11 {empty file name} {file isdirectory ""} 0 test filesystem-6.12 {empty file name} {file isfile ""} 0 test filesystem-6.13 {empty file name} {file join ""} {} test filesystem-6.14 {empty file name} -returnCodes error -body { file link "" } -result {could not read link "": no such file or directory} test filesystem-6.15 {empty file name} -returnCodes error -body { file lstat "" arr } -result {could not read "": no such file or directory} test filesystem-6.16 {empty file name} -returnCodes error -body { file mtime "" } -result {could not read "": no such file or directory} test filesystem-6.17 {empty file name} -returnCodes error -body { file mtime "" 0 } -result {could not read "": no such file or directory} test filesystem-6.18 {empty file name} -returnCodes error -body { file mkdir "" } -result {can't create directory "": no such file or directory} test filesystem-6.19 {empty file name} {file nativename ""} {} test filesystem-6.20 {empty file name} {file normalize ""} {} test filesystem-6.21 {empty file name} {file owned ""} 0 test filesystem-6.22 {empty file name} {file pathtype ""} relative test filesystem-6.23 {empty file name} {file readable ""} 0 test filesystem-6.24 {empty file name} -returnCodes error -body { file readlink "" } -result {could not read link "": no such file or directory} test filesystem-6.25 {empty file name} -returnCodes error -body { file rename "" "" } -result {error renaming "": no such file or directory} test filesystem-6.26 {empty file name} {file rootname ""} {} test filesystem-6.27 {empty file name} -returnCodes error -body { file separator "" } -result {unrecognised path} test filesystem-6.28 {empty file name} -returnCodes error -body { file size "" } -result {could not read "": no such file or directory} test filesystem-6.29 {empty file name} {file split ""} {} test filesystem-6.30 {empty file name} -returnCodes error -body { file system "" } -result {unrecognised path} test filesystem-6.31 {empty file name} {file tail ""} {} test filesystem-6.32 {empty file name} -returnCodes error -body { file type "" } -result {could not read "": no such file or directory} test filesystem-6.33 {empty file name} {file writable ""} 0 test filesystem-6.34 {file name with (invalid) nul character} { list [catch "open foo\x00" msg] $msg } [list 1 "couldn't open \"foo\x00\": filename is invalid on this platform"] # Make sure the testfilesystem hasn't been registered. if {[testConstraint testfilesystem]} { while {![catch {testfilesystem 0}]} {} } test filesystem-7.1.1 {load from vfs} -setup { set dir [pwd] } -constraints {win testsimplefilesystem loaddll} -body { # This may cause a crash on exit cd [file dirname $::ddelib] testsimplefilesystem 1 # This loads dde via a complex copy-to-temp operation load simplefs:/[file tail $::ddelib] Dde testsimplefilesystem 0 return ok # The real result of this test is what happens when Tcl exits. } -cleanup { cd $dir } -result ok test filesystem-7.1.2 {load from vfs, and then unload again} -setup { set dir [pwd] } -constraints {win testsimplefilesystem loaddll} -body { # This may cause a crash on exit cd [file dirname $::reglib] testsimplefilesystem 1 # This loads reg via a complex copy-to-temp operation load simplefs:/[file tail $::reglib] Registry unload simplefs:/[file tail $::reglib] testsimplefilesystem 0 return ok # The real result of this test is what happens when Tcl exits. } -cleanup { cd $dir } -result ok test filesystem-7.2 {cross-filesystem copy from vfs maintains mtime} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -constraints testsimplefilesystem -body { # We created this file several tests ago. set origtime [file mtime gorp.file] set res [file exists gorp.file] testsimplefilesystem 1 file delete -force theCopy file copy simplefs:/gorp.file theCopy testsimplefilesystem 0 set newtime [file mtime theCopy] lappend res [expr {$origtime == $newtime ? 1 : "$origtime != $newtime"}] } -cleanup { catch {file delete theCopy} cd $dir } -result {1 1} test filesystem-7.3 {glob in simplefs} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -constraints testsimplefilesystem -body { file mkdir simpledir close [open [file join simpledir simplefile] w] testsimplefilesystem 1 glob -nocomplain -dir simplefs:/simpledir * } -cleanup { catch {testsimplefilesystem 0} file delete -force simpledir cd $dir } -result {simplefs:/simpledir/simplefile} test filesystem-7.3.1 {glob in simplefs: no path/dir} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -constraints testsimplefilesystem -body { file mkdir simpledir close [open [file join simpledir simplefile] w] testsimplefilesystem 1 set res [glob -nocomplain simplefs:/simpledir/*] lappend res {*}[glob -nocomplain simplefs:/simpledir] } -cleanup { catch {testsimplefilesystem 0} file delete -force simpledir cd $dir } -result {simplefs:/simpledir/simplefile simplefs:/simpledir} test filesystem-7.3.2 {glob in simplefs: no path/dir, no subdirectory} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -constraints testsimplefilesystem -body { file mkdir simpledir close [open [file join simpledir simplefile] w] testsimplefilesystem 1 glob -nocomplain simplefs:/s* } -cleanup { catch {testsimplefilesystem 0} file delete -force simpledir cd $dir } -match glob -result ?* test filesystem-7.3.3 {glob in simplefs: pattern is a volume} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -constraints testsimplefilesystem -body { file mkdir simpledir close [open [file join simpledir simplefile] w] testsimplefilesystem 1 glob -nocomplain simplefs:/* } -cleanup { testsimplefilesystem 0 file delete -force simpledir cd $dir } -match glob -result ?* test filesystem-7.4 {cross-filesystem file copy with -force} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] set fout [open [file join simplefile] w] puts -nonewline $fout "1234567890" close $fout testsimplefilesystem 1 } -constraints testsimplefilesystem -body { # First copy should succeed set res [catch {file copy simplefs:/simplefile file2} err] lappend res $err # Second copy should fail (no -force) lappend res [catch {file copy simplefs:/simplefile file2} err] lappend res $err # Third copy should succeed (-force) lappend res [catch {file copy -force simplefs:/simplefile file2} err] lappend res $err lappend res [file exists file2] } -cleanup { catch {testsimplefilesystem 0} file delete -force simplefile file delete -force file2 cd $dir } -result {0 {} 1 {error copying "simplefs:/simplefile" to "file2": file already exists} 0 {} 1} test filesystem-7.5 {cross-filesystem file copy with -force} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] set fout [open [file join simplefile] w] puts -nonewline $fout "1234567890" close $fout testsimplefilesystem 1 } -constraints {testsimplefilesystem unix} -body { # First copy should succeed set res [catch {file copy simplefs:/simplefile file2} err] lappend res $err file attributes file2 -permissions 0o000 # Second copy should fail (no -force) lappend res [catch {file copy simplefs:/simplefile file2} err] lappend res $err # Third copy should succeed (-force) lappend res [catch {file copy -force simplefs:/simplefile file2} err] lappend res $err lappend res [file exists file2] } -cleanup { testsimplefilesystem 0 file delete -force simplefile file delete -force file2 cd $dir } -result {0 {} 1 {error copying "simplefs:/simplefile" to "file2": file already exists} 0 {} 1} test filesystem-7.6 {cross-filesystem dir copy with -force} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] file delete -force simpledir file mkdir simpledir file mkdir dir2 set fout [open [file join simpledir simplefile] w] puts -nonewline $fout "1234567890" close $fout testsimplefilesystem 1 } -constraints testsimplefilesystem -body { # First copy should succeed set res [catch {file copy simplefs:/simpledir dir2} err] lappend res $err # Second copy should fail (no -force) lappend res [catch {file copy simplefs:/simpledir dir2} err] lappend res $err # Third copy should succeed (-force) lappend res [catch {file copy -force simplefs:/simpledir dir2} err] lappend res $err lappend res [file exists [file join dir2 simpledir]] \ [file exists [file join dir2 simpledir simplefile]] } -cleanup { testsimplefilesystem 0 file delete -force simpledir file delete -force dir2 cd $dir } -result {0 {} 1 {error copying "simplefs:/simpledir" to "dir2/simpledir": file already exists} 0 {} 1 1} test filesystem-7.7 {cross-filesystem dir copy with -force} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] file delete -force simpledir file mkdir simpledir file mkdir dir2 set fout [open [file join simpledir simplefile] w] puts -nonewline $fout "1234567890" close $fout testsimplefilesystem 1 } -constraints {testsimplefilesystem unix} -body { # First copy should succeed set res [catch {file copy simplefs:/simpledir dir2} err] lappend res $err # Second copy should fail (no -force) lappend res [catch {file copy simplefs:/simpledir dir2} err] lappend res $err # Third copy should succeed (-force) # I've noticed on some Unices that this only succeeds intermittently (some # runs work, some fail). This needs examining further. lappend res [catch {file copy -force simplefs:/simpledir dir2} err] lappend res $err lappend res [file exists [file join dir2 simpledir]] \ [file exists [file join dir2 simpledir simplefile]] } -cleanup { testsimplefilesystem 0 file delete -force simpledir file delete -force dir2 cd $dir } -result {0 {} 1 {error copying "simplefs:/simpledir" to "dir2/simpledir": file already exists} 0 {} 1 1} removeFile gorp.file test filesystem-7.8 {vfs cd} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] file delete -force simpledir file mkdir simpledir testsimplefilesystem 1 } -constraints testsimplefilesystem -body { # This can variously cause an infinite loop or simply have no effect at # all (before certain bugs were fixed, of course). cd simplefs:/simpledir pwd } -cleanup { cd [tcltest::temporaryDirectory] testsimplefilesystem 0 file delete -force simpledir cd $dir } -result {simplefs:/simpledir} test filesystem-8.1 {relative path objects and caching of pwd} -setup { set dir [pwd] cd [tcltest::temporaryDirectory] } -body { makeDirectory abc makeDirectory def makeFile "contents" [file join abc foo] cd abc set f "foo" set res {} lappend res [file exists $f] lappend res [file exists $f] cd .. cd def # If we haven't cleared the object's cwd cache, Tcl will think it still # exists. lappend res [file exists $f] lappend res [file exists $f] } -cleanup { removeFile [file join abc foo] removeDirectory abc removeDirectory def cd $dir } -result {1 1 0 0} test filesystem-8.2 {relative path objects and use of pwd} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { set dir "abc" makeDirectory $dir makeFile "contents" [file join abc foo] cd $dir file exists [lindex [glob *] 0] } -cleanup { cd [tcltest::temporaryDirectory] removeFile [file join abc foo] removeDirectory abc cd $origdir } -result 1 test filesystem-8.3 {path objects and empty string} { set anchor "" set dst foo set res $dst set yyy [file split $anchor] set dst [file join $anchor $dst] lappend res $dst $yyy } {foo foo {}} proc TestFind1 {d f} { set r1 [file exists [file join $d $f]] lappend res "[file join $d $f] found: $r1" lappend res "is dir a dir? [file isdirectory $d]" set r2 [file exists [file join $d $f]] lappend res "[file join $d $f] found: $r2" return $res } proc TestFind2 {d f} { set r1 [file exists [file join $d $f]] lappend res "[file join $d $f] found: $r1" lappend res "is dir a dir? [file isdirectory [file join $d]]" set r2 [file exists [file join $d $f]] lappend res "[file join $d $f] found: $r2" return $res } test filesystem-9.1 {path objects and join and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir [file join a b c] TestFind1 a [file join b . c] } -cleanup { file delete -force a cd $origdir } -result {{a/b/./c found: 1} {is dir a dir? 1} {a/b/./c found: 1}} test filesystem-9.2 {path objects and join and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir [file join a b c] TestFind2 a [file join b . c] } -cleanup { file delete -force a cd $origdir } -result {{a/b/./c found: 1} {is dir a dir? 1} {a/b/./c found: 1}} test filesystem-9.2.1 {path objects and join and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir [file join a b c] TestFind2 a [file join b .] } -cleanup { file delete -force a cd $origdir } -result {{a/b/. found: 1} {is dir a dir? 1} {a/b/. found: 1}} test filesystem-9.3 {path objects and join and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir [file join a b c] TestFind1 a [file join b .. b c] } -cleanup { file delete -force a cd $origdir } -result {{a/b/../b/c found: 1} {is dir a dir? 1} {a/b/../b/c found: 1}} test filesystem-9.4 {path objects and join and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir [file join a b c] TestFind2 a [file join b .. b c] } -cleanup { file delete -force a cd $origdir } -result {{a/b/../b/c found: 1} {is dir a dir? 1} {a/b/../b/c found: 1}} test filesystem-9.5 {path objects and file tail and object rep} -setup { set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir dgp close [open dgp/test w] foreach relative [glob -nocomplain [file join * test]] { set absolute [file join [pwd] $relative] set res [list [file tail $absolute] "test"] } return $res } -cleanup { file delete -force dgp cd $origdir } -result {test test} test filesystem-9.6 {path objects and file tail and object rep} win { set res {} set p "C:\\toto" lappend res [file join $p toto] file isdirectory $p lappend res [file join $p toto] } {C:/toto/toto C:/toto/toto} test filesystem-9.7 {path objects and glob and file tail and tilde} -setup { set res {} set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir tilde close [open tilde/~testNotExist w] cd tilde set file [lindex [glob *test*] 0] lappend res [file exists $file] [catch {file tail $file} r] $r lappend res $file lappend res [file exists $file] [catch {file tail $file} r] $r lappend res [catch {file tail $file} r] $r } -cleanup { cd [tcltest::temporaryDirectory] file delete -force tilde cd $origdir } -result {0 1 {user "testNotExist" doesn't exist} ~testNotExist 0 1 {user "testNotExist" doesn't exist} 1 {user "testNotExist" doesn't exist}} test filesystem-9.8 {path objects and glob and file tail and tilde} -setup { set res {} set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir tilde close [open tilde/~testNotExist w] cd tilde set file1 [lindex [glob *test*] 0] set file2 "~testNotExist" lappend res $file1 $file2 lappend res [catch {file tail $file1} r] $r lappend res [catch {file tail $file2} r] $r } -cleanup { cd [tcltest::temporaryDirectory] file delete -force tilde cd $origdir } -result {~testNotExist ~testNotExist 1 {user "testNotExist" doesn't exist} 1 {user "testNotExist" doesn't exist}} test filesystem-9.9 {path objects and glob and file tail and tilde} -setup { set res {} set origdir [pwd] cd [tcltest::temporaryDirectory] } -body { file mkdir tilde close [open tilde/~testNotExist w] cd tilde set file1 [lindex [glob *test*] 0] set file2 "~testNotExist" lappend res [catch {file exists $file1} r] $r lappend res [catch {file exists $file2} r] $r lappend res [string equal $file1 $file2] } -cleanup { cd [tcltest::temporaryDirectory] file delete -force tilde cd $origdir } -result {0 0 0 0 1} # ---------------------------------------------------------------------- test filesystem-10.1 {Bug 3414754} { string match */ [file join [pwd] foo/] } 0 cleanupTests unset -nocomplain drive drives } namespace delete ::tcl::test::fileSystem return # Local Variables: # mode: tcl # End: