# This file contains tests for the files tclCompile.c, tclCompCmds.c and # tclLiteral.c # # 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) 1997 by Sun Microsystems, Inc. # Copyright (c) 1998-1999 by Scriptics Corporation. # # See the file "license.terms" for information on usage and redistribution of # this file, and for a DISCLAIMER OF ALL WARRANTIES. package require tcltest 2 namespace import -force ::tcltest::* ::tcltest::loadTestedCommands catch [list package require -exact Tcltest [info patchlevel]] testConstraint exec [llength [info commands exec]] testConstraint memory [llength [info commands memory]] testConstraint testevalex [llength [info commands testevalex]] # The following tests are very incomplete, although the rest of the # test suite covers this file fairly well. catch {rename p ""} catch {namespace delete test_ns_compile} catch {unset x} catch {unset y} catch {unset a} test compile-1.1 {TclCompileString: look up cmds in proc ns, not current ns} -setup { catch {namespace delete test_ns_compile} catch {unset x} } -body { set x 123 namespace eval test_ns_compile { proc set {args} { global x lappend x test_ns_compile::set } proc p {} { set 0 } } list [test_ns_compile::p] [set x] } -result {{123 test_ns_compile::set} {123 test_ns_compile::set}} test compile-1.2 {TclCompileString, error result is reset if TclGetLong determines word isn't an integer} { proc p {x} {info commands 3m} list [catch {p} msg] $msg } {1 {wrong # args: should be "p x"}} test compile-2.1 {TclCompileDollarVar: global scalar name with ::s} -setup { catch {unset x} } -body { set x 123 list $::x [expr {"x" in [info globals]}] } -result {123 1} test compile-2.2 {TclCompileDollarVar: global scalar name with ::s} -setup { catch {unset y} } -body { proc p {} { set ::y 789 return $::y } list [p] $::y [expr {"y" in [info globals]}] } -result {789 789 1} test compile-2.3 {TclCompileDollarVar: global array name with ::s} -setup { catch {unset a} } -body { set ::a(1) 2 list $::a(1) [set ::a($::a(1)) 3] $::a(2) [expr {"a" in [info globals]}] } -result {2 3 3 1} test compile-2.4 {TclCompileDollarVar: global scalar name with ::s} -setup { catch {unset a} } -body { proc p {} { set ::a(1) 1 return $::a($::a(1)) } list [p] $::a(1) [expr {"a" in [info globals]}] } -result {1 1 1} test compile-2.5 {TclCompileDollarVar: global array, called as ${arrName(0)}} -setup { catch {unset a} } -body { proc p {} { global a set a(1) 1 return ${a(1)}$::a(1)$a(1) } list [p] $::a(1) [expr {"a" in [info globals]}] } -result {111 1 1} test compile-3.1 {TclCompileCatchCmd: only catch cmds with scalar vars are compiled inline} -setup { catch {unset a} } -body { set a(1) xyzzyx proc p {} { global a catch {set x 123} a(1) } list [p] $a(1) } -result {0 123} test compile-3.2 {TclCompileCatchCmd: non-local variables} { set ::foo 1 proc catch-test {} { catch {set x 3} ::foo } catch-test return $::foo } 3 test compile-3.3 {TclCompileCatchCmd: overagressive compiling [bug 219184]} { proc catch-test {str} { catch [eval $str GOOD] error BAD } catch {catch-test error} ::foo return $::foo } {GOOD} test compile-3.4 {TclCompileCatchCmd: bcc'ed [return] is caught} { proc foo {} { set fail [catch { return 1 }] ; # {} return 2 } foo } {2} test compile-3.5 {TclCompileCatchCmd: recover from error, [Bug 705406]} { proc foo {} { catch { if {[a]} { if b {} } } } list [catch foo msg] $msg } {0 1} test compile-3.6 {TclCompileCatchCmd: error in storing result [Bug 3098302]} {*}{ -setup { namespace eval catchtest { variable result1 {} } trace add variable catchtest::result1 write catchtest::failtrace proc catchtest::failtrace {n1 n2 op} { return -code error "trace on $n1 fails by request" } } -body { proc catchtest::x {} { variable result1 set count 0 for {set i 0} {$i < 10} {incr i} { set status2 [catch { set status1 [catch { return -code error -level 0 "original failure" } result1 options1] } result2 options2] incr count } list $count $result2 } catchtest::x } -result {10 {can't set "result1": trace on result1 fails by request}} -cleanup {namespace delete catchtest} } test compile-3.7 {TclCompileCatchCmd: error in storing options [Bug 3098302]} {*}{ -setup { namespace eval catchtest { variable options1 {} } trace add variable catchtest::options1 write catchtest::failtrace proc catchtest::failtrace {n1 n2 op} { return -code error "trace on $n1 fails by request" } } -body { proc catchtest::x {} { variable options1 set count 0 for {set i 0} {$i < 10} {incr i} { set status2 [catch { set status1 [catch { return -code error -level 0 "original failure" } result1 options1] } result2 options2] incr count } list $count $result2 } catchtest::x } -result {10 {can't set "options1": trace on options1 fails by request}} -cleanup {namespace delete catchtest} } test compile-4.1 {TclCompileForCmd: command substituted test expression} { set i 0 set j 0 # Should be "forever" for {} [expr $i < 3] {} { set j [incr i] if {$j > 3} break } set j } {4} test compile-5.1 {TclCompileForeachCmd: exception stack} { proc foreach-exception-test {} { foreach array(index) [list 1 2 3] break foreach array(index) [list 1 2 3] break foreach scalar [list 1 2 3] break } list [catch foreach-exception-test result] $result } {0 {}} test compile-5.2 {TclCompileForeachCmd: non-local variables} { set ::foo 1 proc foreach-test {} { foreach ::foo {1 2 3} {} } foreach-test set ::foo } 3 test compile-5.3 {TclCompileForeachCmd: [Bug b9b2079e6d]} -setup { proc demo {} { foreach x y { if 1 break else } } } -body { demo } -cleanup { rename demo {} } -returnCodes error -result {wrong # args: no script following "else" argument} test compile-6.1 {TclCompileSetCmd: global scalar names with ::s} -setup { catch {unset x} catch {unset y} } -body { set x 123 proc p {} { set ::y 789 return $::y } list $::x [expr {"x" in [info globals]}] \ [p] $::y [expr {"y" in [info globals]}] } -result {123 1 789 789 1} test compile-6.2 {TclCompileSetCmd: global array names with ::s} -setup { catch {unset a} } -body { set ::a(1) 2 proc p {} { set ::a(1) 1 return $::a($::a(1)) } list $::a(1) [p] [set ::a($::a(1)) 3] $::a(1) [expr {"a" in [info globals]}] } -result {2 1 3 3 1} test compile-6.3 {TclCompileSetCmd: namespace var names with ::s} -setup { catch {namespace delete test_ns_compile} catch {unset x} } -body { namespace eval test_ns_compile { variable v hello variable arr set ::x $::test_ns_compile::v set ::test_ns_compile::arr(1) 123 } list $::x $::test_ns_compile::arr(1) } -result {hello 123} test compile-7.1 {TclCompileWhileCmd: command substituted test expression} { set i 0 set j 0 # Should be "forever" while [expr $i < 3] { set j [incr i] if {$j > 3} break } set j } {4} test compile-8.1 {CollectArgInfo: binary data} { list [catch "string length \000foo" msg] $msg } {0 4} test compile-8.2 {CollectArgInfo: binary data} { list [catch "string length foo\000" msg] $msg } {0 4} test compile-8.3 {CollectArgInfo: handle "]" at end of command properly} { set x ] } {]} test compile-9.1 {UpdateStringOfByteCode: called for duplicate of compiled empty object} { proc p {} { set x {} eval $x append x { } eval $x } p } {} test compile-10.1 {BLACKBOX: exception stack overflow} { set x {{0}} set y 0 while {$y < 100} { if !$x {incr y} } } {} test compile-11.1 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { # shared object - Interp result && Var 'r' set r [list foobar] # command that will add error to result lindex a bogus }} } -returnCodes error -result {bad index "bogus": must be integer?[+-]integer? or end?[+-]integer?} test compile-11.2 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; string index a bogus }} } -returnCodes error -result {bad index "bogus": must be integer?[+-]integer? or end?[+-]integer?} test compile-11.3 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; string index a 0o9 }} } -returnCodes error -match glob -result {*invalid octal number*} test compile-11.4 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; array set var {one two many} }} } -returnCodes error -result {list must have an even number of elements} test compile-11.5 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; incr foo bar baz}} } -returnCodes error -result {wrong # args: should be "incr varName ?increment?"} test compile-11.6 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; incr}} } -returnCodes error -result {wrong # args: should be "incr varName ?increment?"} test compile-11.7 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; expr !a }} } -returnCodes error -match glob -result * test compile-11.8 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; expr {!a} }} } -returnCodes error -match glob -result * test compile-11.9 {Tcl_Append*: ensure Tcl_ResetResult is used properly} -body { apply {{} { set r [list foobar] ; llength "\{" }} list [catch {p} msg] $msg } -returnCodes error -result {unmatched open brace in list} # # Special section for tests of tclLiteral.c # The following tests check for incorrect memory handling in # TclReleaseLiteral. They are only effective when tcl is compiled with # TCL_MEM_DEBUG # # Special test for leak on interp delete [Bug 467523]. test compile-12.1 {testing literal leak on interp delete} -setup { proc getbytes {} { set lines [split [memory info] "\n"] lindex $lines 3 3 } } -constraints memory -body { set end [getbytes] for {set i 0} {$i < 5} {incr i} { interp create foo foo eval { namespace eval bar {} } interp delete foo set tmp $end set end [getbytes] } set leakedBytes [expr {$end - $tmp}] } -cleanup { rename getbytes {} unset -nocomplain end i tmp leakedBytes } -result 0 # Special test for a memory error in a preliminary fix of [Bug 467523]. It # requires executing a helpfile. Presumably the child process is used because # when this test fails, it crashes. test compile-12.2 {testing error on literal deletion} -constraints {memory exec} -body { set sourceFile [makeFile { for {set i 0} {$i < 5} {incr i} { namespace eval bar {} namespace delete bar } puts 0 } source.file] exec [interpreter] $sourceFile } -cleanup { catch {removeFile $sourceFile} } -result 0 # Test to catch buffer overrun in TclCompileTokens from buf 530320 test compile-12.3 {check for a buffer overrun} -body { proc crash {} { puts $array([expr {a+2}]) } crash } -returnCodes error -cleanup { rename crash {} } -match glob -result * test compile-12.4 {TclCleanupLiteralTable segfault} -body { # Tcl Bug 1001997 # Here, we're trying to test a case that causes a crash in # TclCleanupLiteralTable. The conditions that we're trying to establish # are: # - TclCleanupLiteralTable is attempting to clean up a bytecode object in # the literal table. # - The bytecode object in question contains the only reference to another # literal. # - The literal in question is in the same hash bucket as the bytecode # object, and immediately follows it in the chain. # Since newly registered literals are added at the FRONT of the bucket # chains, and since the bytecode object is registered before its literals, # this is difficult to achieve. What we do is: # (a) do a [namespace eval] of a string that's calculated to hash into # the same bucket as a literal that it contains. In this case, the # script and the variable 'bugbug' land in the same bucket. # (b) do a [namespace eval] of a string that contains enough literals to # force TclRegisterLiteral to rebuild the global literal table. The # newly created hash buckets will contain the literals, IN REVERSE # ORDER, thus putting the bytecode immediately ahead of 'bugbug' and # 'bug4345bug'. The bytecode object will contain the only references # to those two literals. # (c) Delete the interpreter to invoke TclCleanupLiteralTable and tickle # the bug. proc foo {} { set i [interp create] $i eval { namespace eval ::w {concat 4649; variable bugbug} namespace eval ::w { concat x1 x2 x3 x4 x5 x6 x7 x8 x9 x10 \ x11 x12 x13 x14 x15 x16 x17 x18 x19 x20 \ x21 x22 x23 x24 x25 x26 x27 x28 x29 x30 \ x31 x32 X33 X34 X35 X36 X37 X38 X39 X40 \ x41 x42 x43 x44 x45 x46 x47 x48 x49 x50 \ x51 x52 x53 x54 x55 x56 x57 x58 x59 x60 \ x61 x62 x63 x64 concat y1 y2 y3 y4 y5 y6 y7 y8 y9 y10 \ y11 y12 y13 y14 y15 y16 y17 y18 y19 y20 \ y21 y22 y23 y24 y25 y26 y27 y28 y29 y30 \ y31 y32 Y33 Y34 Y35 Y36 Y37 Y38 Y39 Y40 \ y41 y42 y43 y44 y45 y46 y47 y48 y49 y50 \ y51 y52 y53 y54 y55 y56 y57 y58 y59 y60 \ y61 y62 y63 y64 concat z1 z2 z3 z4 z5 z6 z7 z8 z9 z10 \ z11 z12 z13 z14 z15 z16 z17 z18 z19 z20 \ z21 z22 z23 z24 z25 z26 z27 z28 z29 z30 \ z31 z32 } } interp delete $i; # must not crash return ok } foo } -cleanup { rename foo {} } -result ok # Special test for underestimating the maxStackSize required for a compiled # command. A failure will cause a segfault in the child process. test compile-13.1 {testing underestimate of maxStackSize in list cmd} {exec} { set body {set x [list} for {set i 0} {$i < 3000} {incr i} { append body " $i" } append body {]; puts OK} regsub BODY {proc crash {} {BODY}; crash} $body script list [catch {exec [interpreter] << $script} msg] $msg } {0 OK} # Tests of nested compile (body in body compilation), should not generate stack overflow # (with abnormal program termination), bug [fec0c17d39]: proc _ti_gencode {} { # creates test interpreter on demand with [gencode] generator: if {[interp exists ti]} { return } interp create ti ti eval {proc gencode {nr {cmd eval} {nl 0}} { set code "" set e ""; if {$nl} {set e "\n"} for {set i 0} {$i < $nr} {incr i} { append code "$cmd \{$e" } append code "lappend result 1$e" for {set i 0} {$i < $nr} {incr i} { append code "\}$e" } #puts [format "%% %.40s ... %d bytes" $code [string length $code]] return $code }} } test compile-13.2 {TclCompileScript: testing expected nested scripts compilation} -setup { _ti_gencode interp recursionlimit ti [expr {10000+50}] ti eval {set result {}} } -body { # Test different compilation variants (instructions evalStk, invokeStk, etc), # with 1500 (1000 in debug) nested scripts (bodies). If you get SO/SF exceptions on some low-stack # boxes or systems, please don't decrease it (either provide a constraint) ti eval {foreach cmd {eval "if 1" try catch} { set c [gencode [expr {![::tcl::pkgconfig get debug] ? 1500 : 1000}] $cmd] if 1 $c }} ti eval {set result} } -result {1 1 1 1} test compile-13.3 {TclCompileScript: testing check of max depth by nested scripts compilation} -setup { _ti_gencode interp recursionlimit ti 100 ti eval {set result {}} } -body { # Test different compilation variants (instructions evalStk, invokeStk, etc), # with 500 nested scripts (bodies). It must generate "too many nested compilations" # error for any variant we're testing here: ti eval {foreach cmd {eval "if 1" try catch} { set c [gencode 500 $cmd] lappend errors [catch $c e] $e }} #puts $errors # all of nested calls exceed the limit, so must end with "too many nested compilations" # (or evaluations, depending on compile method/instruction and "mixed" compile within # evaliation), so no one succeeds, the result must be empty: ti eval {set result} } -result {} # # clean up: if {[interp exists ti]} { interp delete ti } rename _ti_gencode {} # Tests compile-14.* for [Bug 599788] [Bug 0c043a175a47da8c2342] test compile-14.1 {testing errors in element name; segfault?} {} { catch {set a([error])} msg1 catch {set bubba([join $abba $jubba]) $vol} msg2 list $msg1 $msg2 } {{wrong # args: should be "error message ?errorInfo? ?errorCode?"} {can't read "abba": no such variable}} test compile-14.2 {testing element name "$"} -body { unset -nocomplain a set a() 1 set a(1) 2 set a($) 3 list [set a()] [set a(1)] [set a($)] [unset a() a(1); lindex [array names a] 0] } -cleanup {unset a} -result [list 1 2 3 {$}] # Tests compile-15.* cover Tcl Bug 633204 test compile-15.1 {proper TCL_RETURN code from [return]} { apply {{} {catch return}} } 2 test compile-15.2 {proper TCL_RETURN code from [return]} { apply {{} {catch {return foo}}} } 2 test compile-15.3 {proper TCL_RETURN code from [return]} { apply {{} {catch {return $::tcl_library}}} } 2 test compile-15.4 {proper TCL_RETURN code from [return]} { apply {{} {catch {return [info library]}}} } 2 test compile-15.5 {proper TCL_RETURN code from [return]} { apply {{} {catch {set a 1}; return}} } "" for {set noComp 0} {$noComp <= 1} {incr noComp} { if $noComp { interp alias {} run {} testevalex set constraints testevalex } else { interp alias {} run {} if 1 set constraints {} } test compile-16.1.$noComp {TclCompileScript: word expansion} $constraints { run "list [string repeat {{*}a } 255]" } [lrepeat 255 a] test compile-16.2.$noComp {TclCompileScript: word expansion} $constraints { run "list [string repeat {{*}a } 256]" } [lrepeat 256 a] test compile-16.3.$noComp {TclCompileScript: word expansion} $constraints { run "list [string repeat {{*}a } 257]" } [lrepeat 257 a] test compile-16.4.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list} } {} test compile-16.5.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list {*}{x y z}} } {x y z} test compile-16.6.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list {*}[list x y z]} } {x y z} test compile-16.7.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list {*}[list x y z][list x y z]} } {x y zx y z} test compile-16.8.$noComp {TclCompileScript: word expansion} -body { set l {x y z} run {{*}list {*}$l} } -constraints $constraints -cleanup { unset l } -result {x y z} test compile-16.9.$noComp {TclCompileScript: word expansion} -body { set l {x y z} run {{*}list {*}$l$l} } -constraints $constraints -cleanup { unset l } -result {x y zx y z} test compile-16.10.$noComp {TclCompileScript: word expansion} -body { run {{*}\{} } -constraints $constraints -returnCodes error \ -result {unmatched open brace in list} test compile-16.11.$noComp {TclCompileScript: word expansion} -body { proc badList {} {return \{} run {{*}[badList]} } -constraints $constraints -cleanup { rename badList {} } -returnCodes error -result {unmatched open brace in list} test compile-16.12.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list x y z} } {x y z} test compile-16.13.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list x y {*}z} } {x y z} test compile-16.14.$noComp {TclCompileScript: word expansion} $constraints { run {{*}list x {*}y z} } {x y z} test compile-16.15.$noComp {TclCompileScript: word expansion} $constraints { run {list x y {*}z} } {x y z} test compile-16.16.$noComp {TclCompileScript: word expansion} $constraints { run {list x {*}y z} } {x y z} test compile-16.17.$noComp {TclCompileScript: word expansion} $constraints { run {list {*}x y z} } {x y z} # These tests note that expansion can in theory cause the number of arguments # to a command to exceed INT_MAX, which is as big as objc is allowed to get. # # In practice, it seems we will run out of memory before we confront this # issue. Note that compiled operations run out of memory at smaller objc # values than direct string evaluation. # # These tests are constrained as knownBug because they are likely to cause # memory allocation panics somewhere, and we don't want panics in the test # suite. # test compile-16.18.$noComp {TclCompileScript: word expansion} -body { proc LongList {} {return [lrepeat [expr {1<<10}] x]} llength [run "list [string repeat {{*}[LongList] } [expr {1<<10}]]"] } -constraints [linsert $constraints 0 knownBug] -cleanup { rename LongList {} } -returnCodes ok -result [expr {1<<20}] test compile-16.19.$noComp {TclCompileScript: word expansion} -body { proc LongList {} {return [lrepeat [expr {1<<11}] x]} llength [run "list [string repeat {{*}[LongList] } [expr {1<<11}]]"] } -constraints [linsert $constraints 0 knownBug] -cleanup { rename LongList {} } -returnCodes ok -result [expr {1<<22}] test compile-16.20.$noComp {TclCompileScript: word expansion} -body { proc LongList {} {return [lrepeat [expr {1<<12}] x]} llength [run "list [string repeat {{*}[LongList] } [expr {1<<12}]]"] } -constraints [linsert $constraints 0 knownBug] -cleanup { rename LongList {} } -returnCodes ok -result [expr {1<<24}] # This is the one that should cause overflow test compile-16.21.$noComp {TclCompileScript: word expansion} -body { proc LongList {} {return [lrepeat [expr {1<<16}] x]} llength [run "list [string repeat {{*}[LongList] } [expr {1<<16}]]"] } -constraints [linsert $constraints 0 knownBug] -cleanup { rename LongList {} } -returnCodes ok -result [expr {wide(1)<<32}] test compile-16.22.$noComp { Bug 845412: TclCompileScript: word expansion not mandatory } -body { # This test may crash and will fail unless Bug 845412 is fixed. proc ReturnResults args {return $args} run "ReturnResults [string repeat {x } 260]" } -constraints $constraints -cleanup { rename ReturnResults {} } -returnCodes ok -result [string trim [string repeat {x } 260]] test compile-16.23.$noComp { Bug 1032805: defer parse error until run time } -constraints $constraints -body { namespace eval x { run { proc if {a b} {uplevel 1 [list set $a $b]} if 1 {syntax {}{}} } } } -cleanup { namespace delete x } -returnCodes ok -result {syntax {}{}} test compile-16.24.$noComp { Bug 1638414: bad list constant as first expanded term } -constraints $constraints -body { run "{*}\"\{foo bar\"" } -returnCodes error -result {unmatched open brace in list} test compile-16.25.$noComp {TclCompileScript: word expansion, naked backslashes} $constraints { run {list {*}{a \n b}} } {a { } b} test compile-16.26.$noComp {TclCompileScript: word expansion, protected backslashes} $constraints { run {list {*}{a {\n} b}} } {a {\n} b} } ;# End of noComp loop # These tests are messy because it wrecks the interpreter it runs in! They # demonstrate issues arising from [FRQ 1101710] test compile-17.1 {Command interpretation binding for compiled code} -constraints knownBug -setup { set i [interp create] } -body { $i eval { if 1 { expr [ proc expr args {return substituted} format {[subst compiled]} ] } } } -cleanup { interp delete $i } -result substituted test compile-17.2 {Command interpretation binding for non-compiled code} -setup { set i [interp create] } -body { $i eval { if 1 { [subst expr] [ proc expr args {return substituted} format {[subst compiled]} ] } } } -cleanup { interp delete $i } -result substituted # This tests the supported parts of the unsupported [disassemble] command. It # does not check the format of disassembled bytecode though; that's liable to # change without warning. set disassemblables [linsert [join { constructor destructor lambda method objmethod proc script } ", "] end-1 or] test compile-18.1 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble } -match glob -result {wrong # args: should be "*"} test compile-18.2 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble ? } -result "bad type \"?\": must be $disassemblables" test compile-18.3 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble lambda } -match glob -result {wrong # args: should be "* lambda lambdaTerm"} test compile-18.4 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble lambda \{ } -result "can't interpret \"\{\" as a lambda expression" test compile-18.5 {disassembler - basics} -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble lambda {{} {}} } -match glob -result * test compile-18.6 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble proc } -match glob -result {wrong # args: should be "* proc procName"} test compile-18.7 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble proc nosuchproc } -result {"nosuchproc" isn't a procedure} test compile-18.8 {disassembler - basics} -setup { proc chewonthis {} {} } -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble proc chewonthis } -cleanup { rename chewonthis {} } -match glob -result * test compile-18.9 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble script } -match glob -result {wrong # args: should be "* script script"} test compile-18.10 {disassembler - basics} -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble script {} } -match glob -result * test compile-18.11 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble method } -match glob -result {wrong # args: should be "* method className methodName"} test compile-18.12 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble method nosuchclass foo } -result {nosuchclass does not refer to an object} test compile-18.13 {disassembler - basics} -returnCodes error -setup { oo::object create justanobject } -body { tcl::unsupported::disassemble method justanobject foo } -cleanup { justanobject destroy } -result {"justanobject" is not a class} test compile-18.14 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble method oo::object nosuchmethod } -result {unknown method "nosuchmethod"} test compile-18.15 {disassembler - basics} -setup { oo::class create foo {method bar {} {}} } -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble method foo bar } -cleanup { foo destroy } -match glob -result * test compile-18.16 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble objmethod } -match glob -result {wrong # args: should be "* objmethod objectName methodName"} test compile-18.17 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble objmethod nosuchobject foo } -result {nosuchobject does not refer to an object} test compile-18.18 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble objmethod oo::object nosuchmethod } -result {unknown method "nosuchmethod"} test compile-18.19 {disassembler - basics} -setup { oo::object create foo oo::objdefine foo {method bar {} {}} } -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble objmethod foo bar } -cleanup { foo destroy } -match glob -result * # There never was a compile-18.20. # The keys of the dictionary produced by [getbytecode] are defined. set bytecodekeys {literals variables exception instructions auxiliary commands script namespace stackdepth exceptdepth} test compile-18.21 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode } -match glob -result {wrong # args: should be "*"} test compile-18.22 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode ? } -result "bad type \"?\": must be $disassemblables" test compile-18.23 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode lambda } -match glob -result {wrong # args: should be "* lambda lambdaTerm"} test compile-18.24 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode lambda \{ } -result "can't interpret \"\{\" as a lambda expression" test compile-18.25 {disassembler - basics} -body { dict keys [tcl::unsupported::getbytecode lambda {{} {}}] } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.26 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode proc } -match glob -result {wrong # args: should be "* proc procName"} test compile-18.27 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode proc nosuchproc } -result {"nosuchproc" isn't a procedure} test compile-18.28 {disassembler - basics} -setup { proc chewonthis {} {} } -body { dict keys [tcl::unsupported::getbytecode proc chewonthis] } -cleanup { rename chewonthis {} } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.28.1 {disassembler - tricky bit} -setup { eval [list proc chewonthis {} {}] } -body { dict keys [tcl::unsupported::getbytecode proc chewonthis] } -cleanup { rename chewonthis {} } -result $bytecodekeys test compile-18.28.2 {disassembler - tricky bit} -setup { eval {proc chewonthis {} {}} } -body { dict keys [tcl::unsupported::getbytecode proc chewonthis] } -cleanup { rename chewonthis {} } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.28.3 {disassembler - tricky bit} -setup { proc Proc {n a b} { proc $n $a $b } Proc chewonthis {} {} } -body { dict keys [tcl::unsupported::getbytecode proc chewonthis] } -cleanup { rename Proc {} rename chewonthis {} } -result $bytecodekeys test compile-18.28.4 {disassembler - tricky bit} -setup { proc Proc {n a b} { tailcall proc $n $a $b } Proc chewonthis {} {} } -body { dict keys [tcl::unsupported::getbytecode proc chewonthis] } -cleanup { rename Proc {} rename chewonthis {} } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.29 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode script } -match glob -result {wrong # args: should be "* script script"} test compile-18.30 {disassembler - basics} -body { dict keys [tcl::unsupported::getbytecode script {}] } -result $bytecodekeys test compile-18.31 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode method } -match glob -result {wrong # args: should be "* method className methodName"} test compile-18.32 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode method nosuchclass foo } -result {nosuchclass does not refer to an object} test compile-18.33 {disassembler - basics} -returnCodes error -setup { oo::object create justanobject } -body { tcl::unsupported::getbytecode method justanobject foo } -cleanup { justanobject destroy } -result {"justanobject" is not a class} test compile-18.34 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode method oo::object nosuchmethod } -result {unknown method "nosuchmethod"} test compile-18.35 {disassembler - basics} -setup { oo::class create foo {method bar {} {}} } -body { dict keys [tcl::unsupported::getbytecode method foo bar] } -cleanup { foo destroy } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.36 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode objmethod } -match glob -result {wrong # args: should be "* objmethod objectName methodName"} test compile-18.37 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode objmethod nosuchobject foo } -result {nosuchobject does not refer to an object} test compile-18.38 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode objmethod oo::object nosuchmethod } -result {unknown method "nosuchmethod"} test compile-18.39 {disassembler - basics} -setup { oo::object create foo oo::objdefine foo {method bar {} {}} } -body { dict keys [tcl::unsupported::getbytecode objmethod foo bar] } -cleanup { foo destroy } -result "$bytecodekeys initiallinenumber sourcefile" test compile-18.40 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble constructor } -match glob -result {wrong # args: should be "* constructor className"} test compile-18.41 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble constructor nosuchclass } -result {nosuchclass does not refer to an object} test compile-18.42 {disassembler - basics} -returnCodes error -setup { oo::object create justanobject } -body { tcl::unsupported::disassemble constructor justanobject } -cleanup { justanobject destroy } -result {"justanobject" is not a class} test compile-18.43 {disassembler - basics} -returnCodes error -setup { oo::class create constructorless } -body { tcl::unsupported::disassemble constructor constructorless } -cleanup { constructorless destroy } -result {"constructorless" has no defined constructor} test compile-18.44 {disassembler - basics} -setup { oo::class create foo {constructor {} {set x 1}} } -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble constructor foo } -cleanup { foo destroy } -match glob -result * test compile-18.45 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode constructor } -match glob -result {wrong # args: should be "* constructor className"} test compile-18.46 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode constructor nosuchobject } -result {nosuchobject does not refer to an object} test compile-18.47 {disassembler - basics} -returnCodes error -setup { oo::class create constructorless } -body { tcl::unsupported::getbytecode constructor constructorless } -cleanup { constructorless destroy } -result {"constructorless" has no defined constructor} test compile-18.48 {disassembler - basics} -setup { oo::class create foo {constructor {} {set x 1}} } -body { dict keys [tcl::unsupported::getbytecode constructor foo] } -cleanup { foo destroy } -result "$bytecodekeys" # There is no compile-18.49 test compile-18.50 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble destructor } -match glob -result {wrong # args: should be "* destructor className"} test compile-18.51 {disassembler - basics} -returnCodes error -body { tcl::unsupported::disassemble destructor nosuchclass } -result {nosuchclass does not refer to an object} test compile-18.52 {disassembler - basics} -returnCodes error -setup { oo::object create justanobject } -body { tcl::unsupported::disassemble destructor justanobject } -cleanup { justanobject destroy } -result {"justanobject" is not a class} test compile-18.53 {disassembler - basics} -returnCodes error -setup { oo::class create constructorless } -body { tcl::unsupported::disassemble destructor constructorless } -cleanup { constructorless destroy } -result {"constructorless" has no defined destructor} test compile-18.54 {disassembler - basics} -setup { oo::class create foo {destructor {set x 1}} } -body { # Allow any string: the result format is not defined anywhere! tcl::unsupported::disassemble destructor foo } -cleanup { foo destroy } -match glob -result * test compile-18.55 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode destructor } -match glob -result {wrong # args: should be "* destructor className"} test compile-18.56 {disassembler - basics} -returnCodes error -body { tcl::unsupported::getbytecode destructor nosuchobject } -result {nosuchobject does not refer to an object} test compile-18.57 {disassembler - basics} -returnCodes error -setup { oo::class create constructorless } -body { tcl::unsupported::getbytecode destructor constructorless } -cleanup { constructorless destroy } -result {"constructorless" has no defined destructor} test compile-18.58 {disassembler - basics} -setup { oo::class create foo {destructor {set x 1}} } -body { dict keys [tcl::unsupported::getbytecode destructor foo] } -cleanup { foo destroy } -result "$bytecodekeys" test compile-19.0 {Bug 3614102: reset stack housekeeping} -body { # This will panic in a --enable-symbols=compile build, unless bug is fixed. apply {{} {list [if 1]}} } -returnCodes error -match glob -result * test compile-20.1 {ensure there are no infinite loops in optimizing} { tcl::unsupported::disassemble script { while 1 { return -code continue -level 0 } } return } {} test compile-20.2 {ensure there are no infinite loops in optimizing} { tcl::unsupported::disassemble script { while 1 { while 1 { return -code break -level 0 } } } return } {} test compile-21.1 {stack balance management} { apply {{} { set result {} while 1 { lappend result a lappend result [list b [break]] lappend result c } return $result }} } a test compile-21.2 {stack balance management} { apply {{} { set result {} while {[incr i] <= 10} { lappend result $i lappend result [list b [continue] c] lappend result c } return $result }} } {1 2 3 4 5 6 7 8 9 10} test compile-21.3 {stack balance management} { apply {args { set result {} while 1 { lappend result a lappend result [concat {*}$args [break]] lappend result c } return $result }} P Q R S T } a test compile-21.4 {stack balance management} { apply {args { set result {} while {[incr i] <= 10} { lappend result $i lappend result [concat {*}$args [continue] c] lappend result c } return $result }} P Q R S T } {1 2 3 4 5 6 7 8 9 10} # TODO sometime - check that bytecode from tbcload is *not* disassembled. # cleanup catch {rename p ""} catch {namespace delete test_ns_compile} catch {unset x} catch {unset y} catch {unset a} ::tcltest::cleanupTests return # Local Variables: # mode: tcl # fill-column: 78 # End: