Plan 9 from Bell Labs’s /usr/web/sources/contrib/fgb/root/sys/src/cmd/tcl/tests/info.test

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


# -*- tcl -*-
# Commands covered:  info
#
# 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) 1991-1994 The Regents of the University of California.
# Copyright (c) 1994-1997 Sun Microsystems, Inc.
# Copyright (c) 1998-1999 by Scriptics Corporation.
# Copyright (c) 2006      ActiveState
#
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
#
# RCS: @(#) $Id: info.test,v 1.47.2.12 2010/08/03 16:50:49 andreas_kupries Exp $

if {[lsearch [namespace children] ::tcltest] == -1} {
    package require tcltest 2
    namespace import -force ::tcltest::*
}

# Set up namespaces needed to test operation of "info args", "info body",
# "info default", and "info procs" with imported procedures.

catch {namespace delete test_ns_info1 test_ns_info2}

namespace eval test_ns_info1 {
    namespace export *
    proc p {x} {return "x=$x"}
    proc q {{y 27} {z {}}} {return "y=$y"}
}

test info-1.1 {info args option} {
    proc t1 {a bbb c} {return foo}
    info args t1
} {a bbb c}
test info-1.2 {info args option} {
    proc t1 {{a default1} {bbb default2} {c default3} args} {return foo}
    info a t1
} {a bbb c args}
test info-1.3 {info args option} {
    proc t1 "" {return foo}
    info args t1
} {}
test info-1.4 {info args option} -body {
    catch {rename t1 {}}
    info args t1
} -returnCodes error -result {"t1" isn't a procedure}
test info-1.5 {info args option} -body {
    info args set
} -returnCodes error -result {"set" isn't a procedure}
test info-1.6 {info args option} {
    proc t1 {a b} {set c 123; set d $c}
    t1 1 2
    info args t1
} {a b}
test info-1.7 {info args option} {
    catch {namespace delete test_ns_info2}
    namespace eval test_ns_info2 {
        namespace import ::test_ns_info1::*
        list [info args p] [info args q]
    }
} {x {y z}}

test info-2.1 {info body option} {
    proc t1 {} {body of t1}
    info body t1
} {body of t1}
test info-2.2 {info body option} -body {
    info body set
} -returnCodes error -result {"set" isn't a procedure}
test info-2.3 {info body option} -body {
    info args set 1
} -returnCodes error -result {wrong # args: should be "info args procname"}
test info-2.4 {info body option} {
    catch {namespace delete test_ns_info2}
    namespace eval test_ns_info2 {
        namespace import ::test_ns_info1::*
        list [info body p] [info body q]
    }
} {{return "x=$x"} {return "y=$y"}}
# Prior to 8.3.0 this would cause a crash because [info body]
# would return the bytecompiled version of foo, which the catch
# would then try and eval out of the foo context, accessing
# compiled local indices
test info-2.5 {info body option, returning bytecompiled bodies} {
    catch {unset args}
    proc foo {args} {
	foreach v $args {
	    upvar $v var
	    return "variable $v existence: [info exists var]"
	}
    }
    foo a
    list [catch [info body foo] msg] $msg
} {1 {can't read "args": no such variable}}
# Fix for problem tested for in info-2.5 caused problems when
# procedure body had no string rep (i.e. was not yet bytecode)
# causing an empty string to be returned [Bug #545644]
test info-2.6 {info body option, returning list bodies} {
    proc foo args [list subst bar]
    list [string bytelength [info body foo]] \
	    [foo; string bytelength [info body foo]]
} {9 9}

proc testinfocmdcount {} {
    set x [info cmdcount]
    set y 12345
    set z [info cm]
    expr $z-$x
}
test info-3.1 {info cmdcount compiled} {
    testinfocmdcount
} 4
test info-3.2 {info cmdcount evaled} {
    set x [info cmdcount]
    set y 12345
    set z [info cm]
    expr $z-$x
} 4
test info-3.3 {info cmdcount evaled} [info body testinfocmdcount] 4
test info-3.4 {info cmdcount option} -body {
    info cmdcount 1
} -returnCodes error -result {wrong # args: should be "info cmdcount"}

test info-4.1 {info commands option} {
    proc t1 {} {}
    proc t2 {} {}
    set x " [info commands] "
    list [string match {* t1 *} $x] [string match {* t2 *} $x] \
            [string match {* set *} $x] [string match {* list *} $x]
} {1 1 1 1}
test info-4.2 {info commands option} {
    proc t1 {} {}
    rename t1 {}
    set x [info comm]
    string match {* t1 *} $x
} 0
test info-4.3 {info commands option} {
    proc _t1_ {} {}
    proc _t2_ {} {}
    info commands _t1_
} _t1_
test info-4.4 {info commands option} {
    proc _t1_ {} {}
    proc _t2_ {} {}
    lsort [info commands _t*]
} {_t1_ _t2_}
catch {rename _t1_ {}}
catch {rename _t2_ {}}
test info-4.5 {info commands option} -returnCodes error -body {
    info commands a b
} -result {wrong # args: should be "info commands ?pattern?"}
# Also some tests in namespace.test

test info-5.1 {info complete option} -body {
    info complete
} -returnCodes error -result {wrong # args: should be "info complete command"}
test info-5.2 {info complete option} {
    info complete abc
} 1
test info-5.3 {info complete option} {
    info complete "\{abcd "
} 0
test info-5.4 {info complete option} {
    info complete {# Comment should be complete command}
} 1
test info-5.5 {info complete option} {
    info complete {[a [b] }
} 0
test info-5.6 {info complete option} {
    info complete {[a [b]}
} 0

test info-6.1 {info default option} {
    proc t1 {a b {c d} {e "long default value"}} {}
    info default t1 a value
} 0
test info-6.2 {info default option} {
    proc t1 {a b {c d} {e "long default value"}} {}
    set value 12345
    info d t1 a value
    set value
} {}
test info-6.3 {info default option} {
    proc t1 {a b {c d} {e "long default value"}} {}
    info default t1 c value
} 1
test info-6.4 {info default option} {
    proc t1 {a b {c d} {e "long default value"}} {}
    set value 12345
    info default t1 c value
    set value
} d
test info-6.5 {info default option} {
    proc t1 {a b {c d} {e "long default value"}} {}
    set value 12345
    set x [info default t1 e value]
    list $x $value
} {1 {long default value}}
test info-6.6 {info default option} -returnCodes error -body {
    info default a b
} -result {wrong # args: should be "info default procname arg varname"}
test info-6.7 {info default option} -returnCodes error -body {
    info default _nonexistent_ a b
} -result {"_nonexistent_" isn't a procedure}
test info-6.8 {info default option} -returnCodes error -body {
    proc t1 {a b} {}
    info default t1 x value
} -result {procedure "t1" doesn't have an argument "x"}
test info-6.9 {info default option} -returnCodes error -setup {
    catch {unset a}
} -body {
    set a(0) 88
    proc t1 {a b} {}
    info default t1 a a
} -returnCodes error -result {couldn't store default value in variable "a"}
test info-6.10 {info default option} -setup {
    catch {unset a}
} -body {
    set a(0) 88
    proc t1 {{a 18} b} {}
    info default t1 a a
} -returnCodes error -result {couldn't store default value in variable "a"}
test info-6.11 {info default option} {
    catch {namespace delete test_ns_info2}
    namespace eval test_ns_info2 {
        namespace import ::test_ns_info1::*
        list [info default p x foo] $foo [info default q y bar] $bar
    }
} {0 {} 1 27}
catch {unset a}

test info-7.1 {info exists option} {
    set value foo
    info exists value
} 1
catch {unset _nonexistent_}
test info-7.2 {info exists option} {
    info exists _nonexistent_
} 0
test info-7.3 {info exists option} {
    proc t1 {x} {return [info exists x]}
    t1 2
} 1
test info-7.4 {info exists option} {
    proc t1 {x} {
        global _nonexistent_
        return [info exists _nonexistent_]
    }
    t1 2
} 0
test info-7.5 {info exists option} {
    proc t1 {x} {
        set y 47
        return [info exists y]
    }
    t1 2
} 1
test info-7.6 {info exists option} {
    proc t1 {x} {return [info exists value]}
    t1 2
} 0
test info-7.7 {info exists option} -setup {
    catch {unset x}
} -body {
    set x(2) 44
    list [info exists x] [info exists x(1)] [info exists x(2)]
} -result {1 0 1}
catch {unset x}
test info-7.8 {info exists option} -body {
    info exists
} -returnCodes error -result {wrong # args: should be "info exists varName"}
test info-7.9 {info exists option} -body {
    info exists 1 2
} -returnCodes error -result {wrong # args: should be "info exists varName"}

test info-8.1 {info globals option} {
    set x 1
    set y 2
    set value 23
    set a " [info globals] "
    list [string match {* x *} $a] [string match {* y *} $a] \
            [string match {* value *} $a] [string match {* _foobar_ *} $a]
} {1 1 1 0}
test info-8.2 {info globals option} {
    set _xxx1 1
    set _xxx2 2
    lsort [info g _xxx*]
} {_xxx1 _xxx2}
test info-8.3 {info globals option} -returnCodes error -body {
    info globals 1 2
} -result {wrong # args: should be "info globals ?pattern?"}
test info-8.4 {info globals option: may have leading namespace qualifiers} {
    set x 0
    list [info globals x] [info globals :x] [info globals ::x] [info globals :::x] [info globals ::::x]
} {x {} x x x}
test info-8.5 {info globals option: only return existing global variables} {
    -setup {
	catch {unset ::NO_SUCH_VAR}
	proc evalInProc script {eval $script}
    }
    -body {
	evalInProc {global NO_SUCH_VAR; info globals NO_SUCH_VAR}
    }
    -cleanup {
	rename evalInProc {}
    }
    -result {}
}

test info-9.1 {info level option} {
    info level
} 0
test info-9.2 {info level option} {
    proc t1 {a b} {
        set x [info le]
        set y [info level 1]
        list $x $y
    }
    t1 146 testString
} {1 {t1 146 testString}}
test info-9.3 {info level option} {
    proc t1 {a b} {
        t2 [expr $a*2] $b
    }
    proc t2 {x y} {
        list [info level] [info level 1] [info level 2] [info level -1] \
                [info level 0]
    }
    t1 146 {a {b c} {{{c}}}}
} {2 {t1 146 {a {b c} {{{c}}}}} {t2 292 {a {b c} {{{c}}}}} {t1 146 {a {b c} {{{c}}}}} {t2 292 {a {b c} {{{c}}}}}}
test info-9.4 {info level option} {
    proc t1 {} {
        set x [info level]
        set y [info level 1]
        list $x $y
    }
    t1
} {1 t1}
test info-9.5 {info level option} -body {
    info level 1 2
} -returnCodes error -result {wrong # args: should be "info level ?number?"}
test info-9.6 {info level option} -body {
    info level 123a
} -returnCodes error -result {expected integer but got "123a"}
test info-9.7 {info level option} -body {
    info level 0
} -returnCodes error -result {bad level "0"}
test info-9.8 {info level option} -body {
    proc t1 {} {info level -1}
    t1
} -returnCodes error -result {bad level "-1"}
test info-9.9 {info level option} -body {
    proc t1 {x} {info level $x}
    t1 -3
} -returnCodes error -result {bad level "-3"}
test info-9.10 {info level option, namespaces} {
    set msg [namespace eval t {info level 0}]
    namespace delete t
    set msg
} {namespace eval t {info level 0}}
test info-9.11 {info level option, aliases} -constraints knownBug -setup {
    proc w {x y z} {info level 0}
    interp alias {} a {} w a b
} -body {
    a c
} -cleanup {
    rename a {}
    rename w {}
} -result {a c}
test info-9.12 {info level option, ensembles} -constraints knownBug -setup {
    proc w {x y z} {info level 0}
    namespace ensemble create -command a -map {foo ::w}
} -body {
    a foo 1 2 3
} -cleanup {
    rename a {}
    rename w {}
} -result {a foo 1 2 3}

set savedLibrary $tcl_library
test info-10.1 {info library option} -body {
    info library x
} -returnCodes error -result {wrong # args: should be "info library"}
test info-10.2 {info library option} {
    set tcl_library 12345
    info library
} {12345}
test info-10.3 {info library option} -body {
    unset tcl_library
    info library
} -returnCodes error -result {no library has been specified for Tcl}
set tcl_library $savedLibrary

test info-11.1 {info loaded option} -body {
    info loaded a b
} -returnCodes error -result {wrong # args: should be "info loaded ?interp?"}
test info-11.2 {info loaded option} {
    list [catch {info loaded {}}] [catch {info loaded gorp} msg] $msg
} {0 1 {could not find interpreter "gorp"}}

test info-12.1 {info locals option} {
    set a 22
    proc t1 {x y} {
        set b 13
        set c testing
        global a
	global aa
	set aa 23
        return [info locals]
    }
    lsort [t1 23 24]
} {b c x y}
test info-12.2 {info locals option} {
    proc t1 {x y} {
        set xx1 2
        set xx2 3
        set y 4
        return [info loc x*]
    }
    lsort [t1 2 3]
} {x xx1 xx2}
test info-12.3 {info locals option} -body {
    info locals 1 2
} -returnCodes error -result {wrong # args: should be "info locals ?pattern?"}
test info-12.4 {info locals option} {
    info locals
} {}
test info-12.5 {info locals option} {
    proc t1 {} {return [info locals]}
    t1
} {}
test info-12.6 {info locals vs unset compiled locals} {
    proc t1 {lst} {
        foreach $lst $lst {}
        unset lst
        return [info locals]
    }
    lsort [t1 {a b c c d e f}]
} {a b c d e f}
test info-12.7 {info locals with temporary variables} {
    proc t1 {} {
        foreach a {b c} {}
        info locals
    }
    t1
} {a}

test info-13.1 {info nameofexecutable option} -returnCodes error -body {
    info nameofexecutable foo
} -result {wrong # args: should be "info nameofexecutable"}

test info-14.1 {info patchlevel option} {
    set a [info patchlevel]
    regexp {[0-9]+\.[0-9]+([p[0-9]+)?} $a
} 1
test info-14.2 {info patchlevel option} -returnCodes error -body {
    info patchlevel a
} -result {wrong # args: should be "info patchlevel"}
test info-14.3 {info patchlevel option} -setup {
    set t $tcl_patchLevel
} -body {
    unset tcl_patchLevel
    info patchlevel
} -cleanup {
    set tcl_patchLevel $t
} -returnCodes error -result {can't read "tcl_patchLevel": no such variable}

test info-15.1 {info procs option} {
    proc t1 {} {}
    proc t2 {} {}
    set x " [info procs] "
    list [string match {* t1 *} $x] [string match {* t2 *} $x] \
            [string match {* _undefined_ *} $x]
} {1 1 0}
test info-15.2 {info procs option} {
    proc _tt1 {} {}
    proc _tt2 {} {}
    lsort [info pr _tt*]
} {_tt1 _tt2}
catch {rename _tt1 {}}
catch {rename _tt2 {}}
test info-15.3 {info procs option} -body {
    info procs 2 3
} -returnCodes error -result {wrong # args: should be "info procs ?pattern?"}
test info-15.4 {info procs option} -setup {
    catch {namespace delete test_ns_info2}
} -body {
    namespace eval test_ns_info2 {
        namespace import ::test_ns_info1::*
        proc r {} {}
        list [info procs] [info procs p*]
    }
} -result {{p q r} p}
test info-15.5 {info procs option with a proc in a namespace} -setup {
    catch {namespace delete test_ns_info2}
} -body {
    namespace eval test_ns_info2 {
	proc p1 { arg } {
	    puts cmd
	}
        proc p2 { arg } {
	    puts cmd
	}
    }
    info procs ::test_ns_info2::p1
} -result {::test_ns_info2::p1}
test info-15.6 {info procs option with a pattern in a namespace} -setup {
    catch {namespace delete test_ns_info2}
} -body {
    namespace eval test_ns_info2 {
	proc p1 { arg } {
	    puts cmd
	}
        proc p2 { arg } {
	    puts cmd
	}
    }
    lsort [info procs ::test_ns_info2::p*]
} -result [lsort [list ::test_ns_info2::p1 ::test_ns_info2::p2]]
test info-15.7 {info procs option with a global shadowing proc} -setup {
    catch {namespace delete test_ns_info2}
} -body {
    proc string_cmd { arg } {
        puts cmd
    }
    namespace eval test_ns_info2 {
	proc string_cmd { arg } {
	    puts cmd
	}
    }
    info procs test_ns_info2::string*
} -result {::test_ns_info2::string_cmd}
# This regression test is currently commented out because it requires
# that the implementation of "info procs" looks into the global namespace,
# which it does not (in contrast to "info commands")
test info-15.8 {info procs option with a global shadowing proc} -setup {
    catch {namespace delete test_ns_info2}
} -constraints knownBug -body {
    proc string_cmd { arg } {
        puts cmd
    }
    proc string_cmd2 { arg } {
        puts cmd
    }
    namespace eval test_ns_info2 {
	proc string_cmd { arg } {
	    puts cmd
	}
    }
    namespace eval test_ns_info2 {
        lsort [info procs string*]
    }
} -result [lsort [list string_cmd string_cmd2]]

test info-16.1 {info script option} -returnCodes error -body {
    info script x x
} -result {wrong # args: should be "info script ?filename?"}
test info-16.2 {info script option} {
    file tail [info sc]
} "info.test"
set gorpfile [makeFile "info script\n" gorp.info]
test info-16.3 {info script option} {
    list [source $gorpfile] [file tail [info script]]
} [list $gorpfile info.test]
test info-16.4 {resetting "info script" after errors} {
    catch {source ~_nobody_/foo}
    file tail [info script]
} "info.test"
test info-16.5 {resetting "info script" after errors} {
    catch {source _nonexistent_}
    file tail [info script]
} "info.test"
test info-16.6 {info script option} {
    set script [info script]
    list [file tail [info script]] \
	    [info script newname.txt] \
	    [file tail [info script $script]]
} [list info.test newname.txt info.test]
test info-16.7 {info script option} {
    set script [info script]
    info script newname.txt
    list [source $gorpfile] [file tail [info script]] \
	    [file tail [info script $script]]
} [list $gorpfile newname.txt info.test]
removeFile gorp.info
set gorpfile [makeFile {list [info script] [info script foo.bar]} gorp.info]
test info-16.8 {info script option} {
    list [source $gorpfile] [file tail [info script]]
} [list [list $gorpfile foo.bar] info.test]
removeFile gorp.info

test info-17.1 {info sharedlibextension option} -returnCodes error -body {
    info sharedlibextension foo
} -result {wrong # args: should be "info sharedlibextension"}

test info-18.1 {info tclversion option} {
    scan [info tclversion] "%d.%d%c" a b c
} 2
test info-18.2 {info tclversion option} -body {
    info t 2
} -returnCodes error -result {wrong # args: should be "info tclversion"}
test info-18.3 {info tclversion option} -body {
    unset tcl_version
    info tclversion
} -returnCodes error -setup {
    set t $tcl_version
} -cleanup {
    set tcl_version $t
} -result {can't read "tcl_version": no such variable}

test info-19.1 {info vars option} {
    set a 1
    set b 2
    proc t1 {x y} {
        global a b
        set c 33
        return [info vars]
    }
    lsort [t1 18 19]
} {a b c x y}
test info-19.2 {info vars option} {
    set xxx1 1
    set xxx2 2
    proc t1 {xxa y} {
        global xxx1 xxx2
        set c 33
        return [info vars x*]
    }
    lsort [t1 18 19]
} {xxa xxx1 xxx2}
test info-19.3 {info vars option} {
    lsort [info vars]
} [lsort [info globals]]
test info-19.4 {info vars option} -returnCodes error -body {
    info vars a b
} -result {wrong # args: should be "info vars ?pattern?"}
test info-19.5 {info vars with temporary variables} {
    proc t1 {} {
        foreach a {b c} {}
        info vars
    }
    t1
} {a}
test info-19.6 {info vars: Bug 1072654} -setup {
    namespace eval :: unset -nocomplain foo
    catch {namespace delete x}
} -body {
    namespace eval x info vars foo
} -cleanup {
    namespace delete x
} -result {}

set functions {abs acos asin atan atan2 bool ceil cos cosh double entier exp floor fmod hypot int isqrt log log10 max min pow rand round sin sinh sqrt srand tan tanh wide}
# Check whether the extra testing functions are defined...
if {!([catch {expr T1()} msg] && ($msg eq {invalid command name "tcl::mathfunc::T1"}))} {
    set functions "T1 T2 T3 $functions"  ;# A lazy way of prepending!
}
test info-20.1 {info functions option} {info functions sin} sin
test info-20.2 {info functions option} {lsort [info functions]} $functions
test info-20.3 {info functions option} {
    lsort [info functions a*]
} {abs acos asin atan atan2}
test info-20.4 {info functions option} {
    lsort [info functions *tan*]
} {atan atan2 tan tanh}
test info-20.5 {info functions option} -returnCodes error -body {
    info functions raise an error
} -result {wrong # args: should be "info functions ?pattern?"}

test info-21.1 {miscellaneous error conditions} -returnCodes error -body {
    info
} -result {wrong # args: should be "info subcommand ?argument ...?"}
test info-21.2 {miscellaneous error conditions} -returnCodes error -body {
    info gorp
} -result {unknown or ambiguous subcommand "gorp": must be args, body, cmdcount, commands, complete, default, exists, frame, functions, globals, hostname, level, library, loaded, locals, nameofexecutable, patchlevel, procs, script, sharedlibextension, tclversion, or vars}
test info-21.3 {miscellaneous error conditions} -returnCodes error -body {
    info c
} -result {unknown or ambiguous subcommand "c": must be args, body, cmdcount, commands, complete, default, exists, frame, functions, globals, hostname, level, library, loaded, locals, nameofexecutable, patchlevel, procs, script, sharedlibextension, tclversion, or vars}
test info-21.4 {miscellaneous error conditions} -returnCodes error -body {
    info l
} -result {unknown or ambiguous subcommand "l": must be args, body, cmdcount, commands, complete, default, exists, frame, functions, globals, hostname, level, library, loaded, locals, nameofexecutable, patchlevel, procs, script, sharedlibextension, tclversion, or vars}
test info-21.5 {miscellaneous error conditions} -returnCodes error -body {
    info s
} -result {unknown or ambiguous subcommand "s": must be args, body, cmdcount, commands, complete, default, exists, frame, functions, globals, hostname, level, library, loaded, locals, nameofexecutable, patchlevel, procs, script, sharedlibextension, tclversion, or vars}

##
# ### ### ### ######### ######### #########
## info frame

## Helper
# For the more complex results we cut the file name down to remove
# path dependencies, and we use only part of the first line of the
# reported command. The latter is required because otherwise the whole
# test case may appear in some results, but the result is part of the
# testcase. An infinite string would be required to describe that. The
# cutting-down breaks this.

proc reduce {frame} {
    set  pos [lsearch -exact $frame cmd]
    incr pos
    set  cmd [lindex $frame $pos]
    if {[regexp \n $cmd]} {
	set first [string range [lindex [split $cmd \n] 0] 0 end-4]
	set frame [lreplace $frame $pos $pos $first]
    }
    set pos [lsearch -exact $frame file]
    if {$pos >=0} {
	incr pos
	set tail  [file tail [lindex $frame $pos]]
	set frame [lreplace $frame $pos $pos $tail]
    }
    set frame
}

## Helper
# Generate a stacktrace from the current location to top.  This code
# not only depends on the exact location of things, but also on the
# implementation of tcltest. Any changes and these tests will have to
# be updated.

proc etrace {} {
    set res {}
    set level [info frame]
    while {$level} {
	lappend res [list $level [reduce [info frame $level]]]
	incr level -1
    }
    return $res
}

##

test info-22.0 {info frame, levels} {!singleTestInterp} {
    info frame
} 7
test info-22.1 {info frame, bad level relative} {!singleTestInterp} {
    # catch is another level!, i.e. we have 8, not 7
    catch {info frame -8} msg
    set msg
} {bad level "-8"}
test info-22.2 {info frame, bad level absolute} {!singleTestInterp} {
    # catch is another level!, i.e. we have 8, not 7
    catch {info frame 9} msg
    set msg
} {bad level "9"}
test info-22.3 {info frame, current, relative} -match glob -body {
    info frame 0
} -result {type source line 750 file * cmd {info frame 0} proc ::tcltest::RunTest}
test info-22.4 {info frame, current, relative, nested} -match glob -body {
    set res [info frame 0]
} -result {type source line 753 file * cmd {info frame 0} proc ::tcltest::RunTest}
test info-22.5 {info frame, current, absolute} -constraints {!singleTestInterp} -match glob -body {
    reduce [info frame 7]
} -result {type source line 756 file * cmd {info frame 7} proc ::tcltest::RunTest}
test info-22.6 {info frame, global, relative} {!singleTestInterp} {
    reduce [info frame -6]
} {type source line 758 file info.test cmd test\ info-22.6\ \{info\ frame,\ global,\ relative\}\ \{!singleTestInter level 0}
test info-22.7 {info frame, global, absolute} {!singleTestInterp} {
    reduce [info frame 1]
} {type source line 761 file info.test cmd test\ info-22.7\ \{info\ frame,\ global,\ absolute\}\ \{!singleTestInter level 0}
test info-22.8 {info frame, basic trace} -constraints {!singleTestInterp} -match glob -body {
    join [lrange [etrace] 0 2] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type source line 765 file info.test cmd etrace proc ::tcltest::RunTest}
* {type source line * file tcltest* cmd {uplevel 1 $script} proc ::tcltest::RunTest}}






## The line 1967 is off by 5 from the true value of 1972. This is a knownBug, see testcase 30.0
test info-23.0 {eval'd info frame} {!singleTestInterp} {
    eval {info frame}
} 8
test info-23.1 {eval'd info frame, semi-dynamic} {!singleTestInterp} {
    eval info frame
} 8
test info-23.2 {eval'd info frame, dynamic} {!singleTestInterp} {
    set script {info frame}
    eval $script
} 8
test info-23.3 {eval'd info frame, literal} -match glob -body {
    eval {
	info frame 0
    }
} -result {type source line 788 file * cmd {info frame 0} proc ::tcltest::RunTest}
test info-23.4 {eval'd info frame, semi-dynamic} {
    eval info frame 0
} {type eval line 1 cmd {info frame 0} proc ::tcltest::RunTest}
test info-23.5 {eval'd info frame, dynamic} {
    set script {info frame 0}
    eval $script
} {type eval line 1 cmd {info frame 0} proc ::tcltest::RunTest}
test info-23.6 {eval'd info frame, trace} -constraints {!singleTestInterp} -match glob -body {
    set script {etrace}
    join [lrange [eval $script] 0 2] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type eval line 1 cmd etrace proc ::tcltest::RunTest}
* {type source line 800 file info.test cmd {eval $script} proc ::tcltest::RunTest}}






## The line 1967 is off by 5 from the true value of 1972. This is a knownBug, see testcase 30.0
# -------------------------------------------------------------------------

# Procedures defined in scripts which are arguments to control
# structures (like 'namespace eval', 'interp eval', 'if', 'while',
# 'switch', 'catch', 'for', 'foreach', etc.) have no absolute
# location. The command implementations execute such scripts through
# Tcl_EvalObjEx. Flag 0 causes it to use the bytecode compiler. This
# causes the connection to the context to be lost. Currently only
# procedure bodies are able to remember their context.

# NOTE THAT THESE DO NOT USE THE -setup OPTION TO [test]

# -------------------------------------------------------------------------

namespace eval foo {
    proc bar {} {info frame 0}
}

test info-24.0 {info frame, interaction, namespace eval} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 826 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

set flag 1
if {$flag} {
    namespace eval foo {}
    proc ::foo::bar {} {info frame 0}
}

test info-24.1 {info frame, interaction, if} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 840 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

set flag 1
while {$flag} {
    namespace eval foo {}
    proc ::foo::bar {} {info frame 0}
    set flag 0
}

test info-24.2 {info frame, interaction, while} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 854 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

catch {
    namespace eval foo {}
    proc ::foo::bar {} {info frame 0}
}

test info-24.3 {info frame, interaction, catch} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 868 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

foreach var val {
    namespace eval foo {}
    proc ::foo::bar {} {info frame 0}
    break
}

test info-24.4 {info frame, interaction, foreach} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 881 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

for {} {1} {} {
    namespace eval foo {}
    proc ::foo::bar {} {info frame 0}
    break
}

test info-24.5 {info frame, interaction, for} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 895 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace eval foo {}
set x foo
switch -exact -- $x {
    foo {
	proc ::foo::bar {} {info frame 0}
    }
}

test info-24.6.0 {info frame, interaction, switch, list body} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
    unset x
} -result {type source line 911 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace eval foo {}
set x foo
switch -exact -- $x foo {
    proc ::foo::bar {} {info frame 0}
}

test info-24.6.1 {info frame, interaction, switch, multi-body} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
    unset x
} -result {type source line 927 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace eval foo {}
set x foo
switch -exact -- $x [list foo {
    proc ::foo::bar {} {info frame 0}
}]

test info-24.6.2 {info frame, interaction, switch, list body, dynamic} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
    unset x
} -result {type proc line 1 cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace eval foo {}
dict for {k v} {foo bar} {
    proc ::foo::bar {} {info frame 0}
}

test info-24.7 {info frame, interaction, dict for} {
    reduce [foo::bar]
} {type source line 956 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
set thedict {foo bar}
dict with thedict {
    proc ::foo::bar {} {info frame 0}
}

test info-24.8 {info frame, interaction, dict with} {
    reduce [foo::bar]
} {type source line 970 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo
unset thedict

# -------------------------------------------------------------------------

namespace eval foo {}
dict filter {foo bar} script {k v} {
    proc ::foo::bar {} {info frame 0}
    set x 1
}

test info-24.9 {info frame, interaction, dict filter} {
    reduce [foo::bar]
} {type source line 984 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo
unset x

# -------------------------------------------------------------------------

eval {
    proc bar {} {info frame 0}
}

test info-25.0 {info frame, proc in eval} {
    reduce [bar]
} {type source line 998 file info.test cmd {info frame 0} proc ::bar level 0}
# Don't need to clean up yet...

proc bar {} {info frame 0}

test info-25.1 {info frame, regular proc} {
    reduce [bar]
} {type source line 1006 file info.test cmd {info frame 0} proc ::bar level 0}

rename bar {}

# -------------------------------------------------------------------------
# More info-30.x test cases at the end of the file.
test info-30.0 {bs+nl in literal words} {
    if {1} {
	set res \
	    [reduce [info frame 0]];# 1019
    }
    set res
    # This was reporting line 3 instead of the correct 4 because the
    # bs+nl combination is subst by the parser before the 'if'
    # command, and the bcc, see the word. Fixed by recording the
    # offsets of all bs+nl sequences in literal words, then using the
    # information in the bcc and other places to bump line numbers when
    # parsing over the location. Also affected: testcases 22.8 and 23.6.
} {type source line 1019 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

# -------------------------------------------------------------------------
# See 24.0 - 24.5 for similar situations, using literal scripts.

set body {set flag 0
    set a c
    set res [info frame 0]} ;# line 3!

test info-31.0 {ns eval, script in variable} {set res {}
    namespace eval foo $body
    set res
} {type eval line 3 cmd {info frame 0} level 0}
catch {namespace delete foo}

test info-31.1 {if, script in variable} {
    if 1 $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

test info-31.1a {if, script in variable} {
    if 1 then $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

test info-31.2 {while, script in variable} {
    set flag 1
    while {$flag} $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

# .3 - proc - scoping prevent return of result ...

test info-31.4 {foreach, script in variable} {
    foreach var val $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

test info-31.5 {for, script in variable} {
    set flag 1
    for {} {$flag} {} $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

test info-31.6 {eval, script in variable} {
    eval $body
    set res
} {type eval line 3 cmd {info frame 0} proc ::tcltest::RunTest}

# -------------------------------------------------------------------------

set body {
    foo {
	proc ::foo::bar {} {info frame 0}
    }
}

namespace eval foo {}
set x foo
switch -exact -- $x $body

test info-31.7 {info frame, interaction, switch, dynamic} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
    unset x
} -result {type proc line 1 cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

set body {
    proc ::foo::bar {} {info frame 0}
}

namespace eval foo {}
eval $body

test info-32.0 {info frame, dynamic procedure} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type proc line 1 cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace {*}{
    eval
    foo
    {proc bar {} {info frame 0}}
}
test info-33.0 {{*}, literal, direct} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 1116 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    set flag 1
    if {*}{
	{$flag}
	{info frame 0}
    }
}
test info-33.1 {{*}, literal, simple, bytecompiled} -body {
    reduce [foo::bar]
} -cleanup {
    namespace delete foo
} -result {type source line 1131 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------

namespace {*}"
    eval
    foo
    {proc bar {} {info frame 0}}
"
test info-33.2 {{*}, literal, direct} {
    reduce [foo::bar]
} {type source line 1145 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace {*}"eval\nfoo\n{proc bar {} {info frame 0}}\n"

test info-33.2a {{*}, literal, not simple, direct} {
    reduce [foo::bar]
} {type proc line 1 cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    set flag 1
    if {*}"
	{1}
	{info frame 0}
    "
}
test info-33.3 {{*}, literal, simple, bytecompiled} {
    reduce [foo::bar]
} {type source line 1170 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    set flag 1
    if {*}"\n{1}\n{info frame 0}"
}
test info-33.3a {{*}, literal, not simple, bytecompiled} {
    reduce [foo::bar]
} {type eval line 1 cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

set body {
    eval
    foo
    {proc bar {} {
	info frame 0
    }}
}
namespace {*}$body
test info-34.0 {{*}, dynamic, direct} {
    reduce [foo::bar]
} {type proc line 2 cmd {info frame 0} proc ::foo::bar level 0}

unset body
namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
set body {
    {$flag}
    {info frame 0}
}
proc foo::bar {} {
    global body ; set flag 1
    if {*}$body
}
test info-34.1 {{*}, literal, bytecompiled} {
    reduce [foo::bar]
} {type eval line 1 cmd {info frame 0} proc ::foo::bar level 0}

unset body
namespace delete foo

# -------------------------------------------------------------------------

proc foo {} {
    apply {
	{x y}
	{info frame 0}
    } 0 0
}
test info-35.0 {apply, literal} {
    reduce [foo]
} {type source line 1232 file info.test cmd {info frame 0} lambda {
	{x y}
	{info frame 0}
    } level 0}
rename foo {}

set lambda {
    {x y}
    {info frame 0}
}
test info-35.1 {apply, dynamic} {
    reduce [apply $lambda 0 0]
} {type proc line 1 cmd {info frame 0} lambda {
    {x y}
    {info frame 0}
} level 0}
unset lambda

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    dict for {k v} {foo bar} {
	set x [info frame 0]
    }
    set x
}
test info-36.0 {info frame, dict for, bcc} {
    reduce [foo::bar]
} {type source line 1260 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    set x foo
    switch -exact -- $x {
	foo {set y [info frame 0]}
    }
    set y
}

test info-36.1.0 {switch, list literal, bcc} {
    reduce [foo::bar]
} {type source line 1276 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

namespace eval foo {}
proc foo::bar {} {
    set x foo
    switch -exact -- $x foo {set y [info frame 0]}
    set y
}

test info-36.1.1 {switch, multi-body literals, bcc} {
    reduce [foo::bar]
} {type source line 1292 file info.test cmd {info frame 0} proc ::foo::bar level 0}

namespace delete foo

# -------------------------------------------------------------------------

test info-37.0 {eval pure list, single line} -constraints {!singleTestInterp} -match glob -body {
    # Basically, counting the newline in the word seen through $foo
    # doesn't really make sense. It makes a bit of sense if the word
    # would have been a string literal in the command list.
    #
    # Problem: At the point where we see the list elements we cannot
    # distinguish the two cases, thus we cannot switch between
    # count/not-count, it is has to be one or the other for all
    # cases. Of the two possibilities miguel convinced me that 'not
    # counting' is the more proper.
    set foo {b
	c}
    set cmd [list foreach $foo {x y} {
	set res [join [lrange [etrace] 0 2] \n]
	break
    }]
    eval $cmd
    set res
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type eval line 2 cmd etrace proc ::tcltest::RunTest}
* {type eval line 1 cmd foreac proc ::tcltest::RunTest}}

# -------------------------------------------------------------------------

# 6 cases.
## DV. direct-var          - unchanged
## DPV direct-proc-var     - ditto
## PPV proc-proc-var       - ditto
## DL. direct-literal      - now tracking absolute location
## DPL direct-proc-literal - ditto
## PPL proc-proc-literal   - ditto
## ### ### ### ######### ######### #########"

proc control {vv script} {
    upvar 1 $vv var
    return [uplevel 1 $script]
}

proc datal {} {
    control y {
	set y PPL
	etrace
    }
}

proc datav {} {
    set script {
	set y PPV
	etrace
    }
    control y $script
}

test info-38.1 {location information for uplevel, dv, direct-var} -match glob -body {
    set script {
	set y DV.
	etrace
    }
    join [lrange [uplevel \#0 $script] 0 2] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type eval line 3 cmd etrace proc ::tcltest::RunTest}
* {type source line 1362 file info.test cmd {uplevel \\#0 $script} proc ::tcltest::RunTest}}

test info-38.2 {location information for uplevel, dl, direct-literal} -match glob -body {
    join [lrange [uplevel \#0 {
	set y DL.
	etrace
    }] 0 2] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type source line 1370 file info.test cmd etrace proc ::tcltest::RunTest}
* {type source line 1368 file info.test cmd uplevel\\ \\\\ proc ::tcltest::RunTest}}

test info-38.3 {location information for uplevel, dpv, direct-proc-var} -match glob -body {
    set script {
	set y DPV
	etrace
    }
    join [lrange [control y $script] 0 3] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type eval line 3 cmd etrace proc ::control}
* {type source line 1339 file info.test cmd {uplevel 1 $script} proc ::control}
* {type source line 1381 file info.test cmd {control y $script} proc ::tcltest::RunTest}}

test info-38.4 {location information for uplevel, dpv, direct-proc-literal} -match glob -body {
    join [lrange [control y {
	set y DPL
	etrace
    }] 0 3] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type source line 1390 file info.test cmd etrace proc ::control}
* {type source line 1339 file info.test cmd {uplevel 1 $script} proc ::control}
* {type source line 1388 file info.test cmd control proc ::tcltest::RunTest}}

test info-38.5 {location information for uplevel, ppv, proc-proc-var} -match glob -body {
    join [lrange [datav] 0 4] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type eval line 3 cmd etrace proc ::control}
* {type source line 1339 file info.test cmd {uplevel 1 $script} proc ::control}
* {type source line 1354 file info.test cmd {control y $script} proc ::datav level 1}
* {type source line 1398 file info.test cmd datav proc ::tcltest::RunTest}}

test info-38.6 {location information for uplevel, ppl, proc-proc-literal} -match glob -body {
    join [lrange [datal] 0 4] \n
} -result {* {type source line 728 file info.test cmd {info frame $level} proc ::etrace level 0}
* {type source line 1345 file info.test cmd etrace proc ::control}
* {type source line 1339 file info.test cmd {uplevel 1 $script} proc ::control}
* {type source line 1343 file info.test cmd control proc ::datal level 1}
* {type source line 1406 file info.test cmd datal proc ::tcltest::RunTest}}

# -------------------------------------------------------------------------
# literal sharing

test info-39.0 {location information not confused by literal sharing} -body {
    namespace eval ::foo {}
    proc ::foo::bar {} {
	lappend res {}
	lappend res [reduce [eval {info frame 0}]]
	lappend res [reduce [eval {info frame 0}]]
	return $res
    }
    set res [::foo::bar]
    namespace delete ::foo
    join $res \n
} -result {
type source line 1420 file info.test cmd {info frame 0} proc ::foo::bar level 0
type source line 1421 file info.test cmd {info frame 0} proc ::foo::bar level 0}

# -------------------------------------------------------------------------
# Additional tests for info-30.*, handling of continuation lines (bs+nl sequences).

test info-30.1 {bs+nl in literal words, procedure body, compiled} {
    proc abra {} {
	if {1} \
	    {
		return \
		    [reduce [info frame 0]];# line 1439
	    }
    }
    set res [abra]
    rename abra {}
    set res
} {type source line 1439 file info.test cmd {info frame 0} proc ::abra level 0}

test info-30.2 {bs+nl in literal words, namespace script} {
    namespace eval xxx {
	set res \
	    [reduce [info frame 0]];# line 1450
    }
    set res
} {type source line 1450 file info.test cmd {info frame 0} level 0}

test info-30.3 {bs+nl in literal words, namespace multi-word script} {
    namespace eval xxx set res \
	[list [reduce [info frame 0]]];# line 1457
    set res
} {type source line 1457 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.4 {bs+nl in literal words, eval script} {
    eval {
	set ::res \
	    [reduce [info frame 0]];# line 1464
    }
    set res
} {type source line 1464 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.5 {bs+nl in literal words, eval script, with nested words} {
    eval {
	if {1} \
	    {
		set ::res \
		    [reduce [info frame 0]];# line 1474
	    }
    }
    set res
} {type source line 1474 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.6 {bs+nl in computed word} {
    set res "\
[reduce [info frame 0]]";# line 1482
} { type source line 1482 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.7 {bs+nl in computed word, in proc} {
    proc abra {} {
	return "\
[reduce [info frame 0]]";# line 1488
    }
    set res [abra]
    rename abra {}
    set res
} { type source line 1488 file info.test cmd {info frame 0} proc ::abra level 0}

test info-30.8 {bs+nl in computed word, nested eval} {
    eval {
	set \
	    res "\
[reduce [info frame 0]]";# line 1499
}
} { type source line 1499 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.9 {bs+nl in computed word, nested eval} {
    eval {
	set \
	    res "\
[reduce \
     [info frame 0]]";# line 1508
}
} { type source line 1508 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.10 {bs+nl in computed word, key to array} {
    set tmp([set \
	    res "\
[reduce \
     [info frame 0]]"]) x ; #1516
    unset tmp
    set res
} { type source line 1516 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.11 {bs+nl in subst arguments, no true counting} {
    subst {[set \
	    res "\
[reduce \
     [info frame 0]]"]}
} { type eval line 1 cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.12 {bs+nl in computed word, nested eval} {
    eval {
	set \
	    res "\
[set x {}] \
[reduce \
     [info frame 0]]";# line 1534
}
} {   type source line 1534 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.13 {bs+nl in literal words, uplevel script, with nested words} {
    uplevel #0 {
	if {1} \
	    {
		set ::res \
		    [reduce [info frame 0]];# line 1543
	    }
    }
    set res
} {type source line 1543 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.14 {bs+nl, literal word, uplevel through proc} {
    proc abra {script} {
	uplevel 1 $script
    }
    set res [abra {
	return "\
[reduce [info frame 0]]";# line 1555
    }]
    rename abra {}
    set res
} { type source line 1555 file info.test cmd {info frame 0} proc ::abra}

test info-30.15 {bs+nl in literal words, nested proc body, compiled} {
    proc a {} {
	proc b {} {
	    if {1} \
		{
		    return \
			[reduce [info frame 0]];# line 1567
		}
	}
    }
    a ; set res [b]
    rename a {}
    rename b {}
    set res
} {type source line 1567 file info.test cmd {info frame 0} proc ::b level 0}

test info-30.16 {bs+nl in multi-body switch, compiled} {
    proc a {value} {
	switch -regexp -- $value \
	    ^key     { info frame 0; # 1580 } \
	    \t###    { info frame 0; # 1581 } \
	    {[0-9]*} { info frame 0; # 1582 }
    }
    set res {}
    lappend res [reduce [a {key   }]]
    lappend res [reduce [a {1alpha}]]
    set res "\n[join $res \n]"
} {
type source line 1580 file info.test cmd {info frame 0} proc ::a level 0
type source line 1582 file info.test cmd {info frame 0} proc ::a level 0}

test info-30.17 {bs+nl in multi-body switch, direct} {
    switch -regexp -- {key    } \
	^key     { reduce [info frame 0] ;# 1594 } \
        \t###    { } \
        {[0-9]*} { }
} {type source line 1594 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.18 {bs+nl, literal word, uplevel through proc, appended, loss of primary tracking data} {
    proc abra {script} {
	append script "\n# end of script"
	uplevel 1 $script
    }
    set res [abra {
	return "\
[reduce [info frame 0]]";# line 1606, still line of 3 appended script
    }]
    rename abra {}
    set res
} { type eval line 3 cmd {info frame 0} proc ::abra}
# { type source line 1606 file info.test cmd {info frame 0} proc ::abra}

test info-30.19 {bs+nl in single-body switch, compiled} {
    proc a {value} {
	switch -regexp -- $value {
	    ^key     { reduce \
			   [info frame 0] }
	    \t       { reduce \
			   [info frame 0] }
	    {[0-9]*} { reduce \
			   [info frame 0] }
	}
    }
    set res {}
    lappend res [a {key   }]
    lappend res [a {1alpha}]
    set res "\n[join $res \n]"
} {
type source line 1617 file info.test cmd {info frame 0} proc ::a level 0
type source line 1621 file info.test cmd {info frame 0} proc ::a level 0}

test info-30.20 {bs+nl in single-body switch, direct} {
    switch -regexp -- {key    } { \

	^key     { reduce \
		       [info frame 0] }
	\t###    { }
        {[0-9]*} { }
    }
} {type source line 1636 file info.test cmd {info frame 0} proc ::tcltest::RunTest}

test info-30.21 {bs+nl in if, full compiled} {
    proc a {value} {
	if {$value} \
	    {info frame 0} \
	    {info frame 0}
    }
    set res {}
    lappend res [reduce [a 1]]
    lappend res [reduce [a 0]]
    set res "\n[join $res \n]"
} {
type source line 1645 file info.test cmd {info frame 0} proc ::a level 0
type source line 1646 file info.test cmd {info frame 0} proc ::a level 0}

test info-30.22 {bs+nl in computed word, key to array, compiled} {
    proc a {} {
	set tmp([set \
		     res "\
[reduce \
     [info frame 0]]"]) x ; #1661
    unset tmp
    set res
    }
    set res [a]
    rename a {}
    set res
} { type source line 1661 file info.test cmd {info frame 0} proc ::a level 0}

test info-30.23 {bs+nl in multi-body switch, full compiled} {
    proc a {value} {
	switch -exact -- $value \
	    key     { info frame 0; # 1673 } \
	    xxx     { info frame 0; # 1674 } \
	    000     { info frame 0; # 1675 }
    }
    set res {}
    lappend res [reduce [a key]]
    lappend res [reduce [a 000]]
    set res "\n[join $res \n]"
} {
type source line 1673 file info.test cmd {info frame 0} proc ::a level 0
type source line 1675 file info.test cmd {info frame 0} proc ::a level 0}

test info-30.24 {bs+nl in single-body switch, full compiled} {
    proc a {value} {
	switch -exact -- $value {
	    key { reduce \
		      [info frame 0] }
	    xxx { reduce \
		      [info frame 0] }
	    000 { reduce \
		      [info frame 0] }
	}
    }
    set res {}
    lappend res [a key]
    lappend res [a 000]
    set res "\n[join $res \n]"
} {
type source line 1689 file info.test cmd {info frame 0} proc ::a level 0
type source line 1693 file info.test cmd {info frame 0} proc ::a level 0}

# -------------------------------------------------------------------------
# literal sharing 2, bug 2933089

test info-39.1 {location information not confused by literal sharing, bug 2933089} -setup {
    set result {}

    proc print_one {} {}
    proc test_info_frame {} {
	set x 1
	set y x

	if "$x != 1" {
	} else {
	    print_one
	} ;#line 1717^

	if "$$y != 1" {
	} else {
	    print_one
	} ;#line 1722^
	# Do not put the comments listing the line numbers into the
	# branches. We need shared literals, and the comments would
	# make them different, thus unshared.
    }

    proc get_frame_info { cmd_str op } {
	lappend ::result [reduce [eval {info frame -3}]]
    }
    trace add execution print_one enter get_frame_info
} -body {
    test_info_frame;
    join $result \n
} -cleanup {
    trace remove execution print_one enter get_frame_info
    rename get_frame_info {}
    rename test_info_frame {}
    rename print_one {}
} -result {type source line 1717 file info.test cmd print_one proc ::test_info_frame level 1
type source line 1722 file info.test cmd print_one proc ::test_info_frame level 1}

# -------------------------------------------------------------------------

# cleanup
catch {namespace delete test_ns_info1 test_ns_info2}
::tcltest::cleanupTests
return

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