# This test collection covers some unwanted interactions between command # literal sharing and the use of command resolvers (per-interp) which cause # command literals to be re-used with their command references being invalid # in the reusing context. Sourcing this file into Tcl runs the tests and # generates output for errors. No output means no errors were found. # # Copyright (c) 2011 Gustaf Neumann # Copyright (c) 2011 Stefan Sobernig # # 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 if {"::tcltest" in [namespace children]} { namespace import -force ::tcltest::* } ::tcltest::loadTestedCommands catch [list package require -exact Tcltest [info patchlevel]] testConstraint testinterpresolver [llength [info commands testinterpresolver]] test resolver-1.1 {cmdNameObj sharing vs. cmd resolver: namespace import} -setup { testinterpresolver up namespace eval ::ns1 { proc z {} { return Z } namespace export z } proc ::y {} { return Y } proc ::x {} { z } } -constraints testinterpresolver -body { # 1) Have the proc body compiled: During compilation or, alternatively, # the first evaluation of the compiled body, the InterpCmdResolver (see # tclTest.c) maps the cmd token "z" to "::y"; this mapping is saved in the # resulting CmdName Tcl_Obj with the print string "z". The CmdName Tcl_Obj # is turned into a command literal shared for a given (here: the global) # namespace. set r0 [x]; # --> The result of [x] is "Y" # 2) After having requested cmd resolution above, we can now use the # globally shared CmdName Tcl_Obj "z", now bound to cmd ::y. This is # certainly questionable, but defensible set r1 [z]; # --> The result of [z] is "Y" # 3) We import from the namespace ns1 another z. [namespace import] takes # care "shadowed" cmd references, however, till now cmd literals have not # been touched. This is, however, necessary since the BC compiler (used in # the [namespace eval]) seems to be eager to reuse CmdName Tcl_Objs as cmd # literals for a given NS scope. We expect, that r2 is "Z", the result of # the namespace imported cmd. namespace eval :: { namespace import ::ns1::z set r2 [z] } list $r0 $r1 $::r2 } -cleanup { testinterpresolver down rename ::x "" rename ::y "" namespace delete ::ns1 } -result {Y Y Z} test resolver-1.2 {cmdNameObj sharing vs. cmd resolver: proc creation} -setup { testinterpresolver up proc ::y {} { return Y } proc ::x {} { z } } -constraints testinterpresolver -body { set r0 [x] set r1 [z] proc ::foo {} { proc ::z {} { return Z } return [z] } list $r0 $r1 [::foo] } -cleanup { testinterpresolver down rename ::x "" rename ::y "" rename ::foo "" rename ::z "" } -result {Y Y Z} test resolver-1.3 {cmdNameObj sharing vs. cmd resolver: rename} -setup { testinterpresolver up proc ::Z {} { return Z } proc ::y {} { return Y } proc ::x {} { z } } -constraints testinterpresolver -body { set r0 [x] set r1 [z] namespace eval :: { rename ::Z ::z set r2 [z] } list $r0 $r1 $r2 } -cleanup { testinterpresolver down rename ::x "" rename ::y "" rename ::z "" } -result {Y Y Z} test resolver-1.4 {cmdNameObj sharing vs. cmd resolver: interp expose} -setup { testinterpresolver up proc ::Z {} { return Z } interp hide {} Z proc ::y {} { return Y } proc ::x {} { z } } -constraints testinterpresolver -body { set r0 [x] set r1 [z] interp expose {} Z z namespace eval :: { set r2 [z] } list $r0 $r1 $r2 } -cleanup { testinterpresolver down rename ::x "" rename ::y "" rename ::z "" } -result {Y Y Z} test resolver-1.5 {cmdNameObj sharing vs. cmd resolver: other than global NS} -setup { testinterpresolver up namespace eval ::ns1 { proc z {} { return Z } namespace export z } proc ::y {} { return Y } namespace eval ::ns2 { proc x {} { z } } namespace eval :: { variable r2 "" } } -constraints testinterpresolver -body { set r0 [namespace eval ::ns2 {x}] set r1 [namespace eval ::ns2 {z}] namespace eval ::ns2 { namespace import ::ns1::z set r2 [z] } list $r0 $r1 $r2 } -cleanup { testinterpresolver down namespace delete ::ns2 namespace delete ::ns1 } -result {Y Y Z} test resolver-1.6 {cmdNameObj sharing vs. cmd resolver: interp alias} -setup { testinterpresolver up proc ::Z {} { return Z } proc ::y {} { return Y } proc ::x {} { z } } -constraints testinterpresolver -body { set r0 [x] set r1 [z] namespace eval :: { interp alias {} ::z {} ::Z set r2 [z] } list $r0 $r1 $r2 } -cleanup { testinterpresolver down rename ::x "" rename ::y "" rename ::Z "" } -result {Y Y Z} test resolver-2.1 {compiled var resolver: Bug #3383616} -setup { testinterpresolver up # The compiled var resolver fetches just variables starting with a capital # "T" and stores some test information in the resolver-specific resolver # var info. proc ::x {} { set T1 100 return $T1 } } -constraints testinterpresolver -body { # Call "x" the first time, causing a byte code compilation of the body. # During the compilation the compiled var resolver, the resolve-specific # var info is allocated, during the execution of the body, the variable is # fetched and cached. x # During later calls, the cached variable is reused. x # When the proc is freed, the resolver-specific resolver var info is # freed. This did not happen before fix #3383616. rename ::x "" } -cleanup { testinterpresolver down } -result {} # # The test resolver-3.1* test bad interactions of resolvers on the "global" # (per interp) literal pools. A resolver might resolve a cmd literal depending # on a context differently, whereas the cmd literal sharing assumed that the # namespace containing the literal solely determines the resolved cmd (and is # resolver-agnostic). # # In order to make the test cases for the per-interpreter cmd literal pool # reproducable and to minimize interactions between test cases, we use a slave # interpreter per test-case. # # # Testing resolver in namespace-based context "ctx1" # test resolver-3.1a { interp command resolver, resolve literal "z" in proc "x1" in context "ctx1" } -setup { interp create i0 testinterpresolver up i0 i0 eval { proc y {} { return yy } namespace eval ::ns { proc x1 {} { z } } } } -constraints testinterpresolver -body { set r [i0 eval {namespace eval ::ctx1 { ::ns::x1 }}] return $r } -cleanup { testinterpresolver down i0 interp delete i0 } -result {yy} # # Testing resolver in namespace-based context "ctx2" # test resolver-3.1b { interp command resolver, resolve literal "z" in proc "x2" in context "ctx2" } -setup { interp create i0 testinterpresolver up i0 i0 eval { proc Y {} { return YY } namespace eval ::ns { proc x2 {} { z } } } } -constraints testinterpresolver -body { set r [i0 eval {namespace eval ::ctx2 { ::ns::x2 }}] return $r } -cleanup { testinterpresolver down i0 interp delete i0 } -result {YY} # # Testing resolver in namespace-based context "ctx1" and "ctx2" in the same # interpreter. # test resolver-3.1c { interp command resolver, resolve literal "z" in proc "x1" in context "ctx1", resolve literal "z" in proc "x2" in context "ctx2" Test, whether the shared cmd literal created by the first byte-code compilation interacts with the second one. } -setup { interp create i0 testinterpresolver up i0 i0 eval { proc y {} { return yy } proc Y {} { return YY } namespace eval ::ns { proc x1 {} { z } proc x2 {} { z } } } } -constraints testinterpresolver -body { set r1 [i0 eval {namespace eval ::ctx1 { ::ns::x1 }}] set r2 [i0 eval {namespace eval ::ctx2 { ::ns::x2 }}] set r3 [i0 eval {namespace eval ::ctx1 { ::ns::x1 }}] return [list $r1 $r2 $r3] } -cleanup { testinterpresolver down i0 interp delete i0 } -result {yy YY yy} cleanupTests return # Local Variables: # mode: tcl # fill-column: 78 # End: