# Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004 Free Software Foundation
proc load_gcc_lib { filename } {
global srcdir
load_file $srcdir/../../gcc/testsuite/lib/$filename
}
load_lib libgloss.exp
load_gcc_lib target-libpath.exp
# GCJ_UNDER_TEST is the compiler under test.
global tmpdir
if ![info exists tmpdir] {
set tmpdir "/tmp"
}
# This is like `prune_warnings', but it also prunes away a warning
# from the bytecode front end that we don't care about.
proc libjava_prune_warnings {text} {
set text [prune_warnings $text]
set tlist [split $text \n]
set len [llength $tlist]
for {set i [expr {$len - 1}]} {$i >= 2} {incr i -1} {
if {[string match "*unreachable bytecode*" [lindex $tlist $i]]} {
# Delete this line, all other unreachable warnings and the previous
# two lines containing the method and class.
set j [expr {$i - 1}]
while {[string match "*unreachable bytecode*" [lindex $tlist $j]]} {
incr j -1
}
incr j -1
set tlist [lreplace $tlist $j $i]
set i $j
}
}
return [join $tlist \n]
}
# This is like `target_compile' but it does some surgery to work
# around stupid DejaGNU bugs. In particular DejaGNU has very poor
# quoting, so for instance a `$' will be re-evaluated at spawn time.
# We don't want that.
proc libjava_tcompile {source destfile type options} {
# This strange-looking expression really does quote the `$'.
regsub -all -- {\$} $source {\$} source
regsub -all -- {\$} $destfile {\$} destfile
return [target_compile $source $destfile $type $options]
}
# Read an `xfail' file if it exists. Returns a list of xfail tokens.
proc libjava_read_xfail {file} {
if {! [file exists $file]} {
return ""
}
set fd [open $file r]
set tokens [string trim [read $fd]]
close $fd
return $tokens
}
# Find a particular executable. FIXME: this relies on DejaGnu
# internals. These should probably be exposed in a better way.
proc libjava_find_program {prog} {
global tool_root_dir
set file [lookfor_file $tool_root_dir $prog]
if { $file == "" } {
set file [lookfor_file $tool_root_dir gcc/$prog];
}
if {$file == ""} {
set file $prog
}
return $file
}
# Find `jv-scan'.
proc find_jvscan {} {
return [libjava_find_program jv-scan]
}
# Find `gcjh'.
proc find_gcjh {} {
return [libjava_find_program gcjh]
}
proc find_javac {} {
global SUN_JAVAC GCJ_UNDER_TEST env libgcj_jar
# If JDK doesn't run on your platform but some other
# JDK-compatible javac does, you may set SUN_JAVAC to point to it.
# One of the most important properties of a SUN_JAVAC is that it
# must create class-files even for classes that have not been
# specified in the command line, but that were needed to compile
# those that have. For example, Pizza won't do it, but you can
# use `kaffe sun.tools.javac.Main', if you have Sun's classes.zip
# in the kaffe's default search path.
if {![info exists SUN_JAVAC]} {
if {[info exists env(SUN_JAVAC)]} {
set SUN_JAVAC $env(SUN_JAVAC)
} else {
set SUN_JAVAC "$GCJ_UNDER_TEST -C -I$libgcj_jar"
}
}
return $SUN_JAVAC
}
proc bytecompile_file { file objdir {classpath {}} } {
global env
set dirname [file dirname $file]
set javac [find_javac]
if {$classpath != ""} then {
set env(CLASSPATH) $classpath
}
set here [pwd]
cd $dirname
send_log "byte compile: $javac -g [list $file] -d $objdir 2>@ stdout\n"
if {[catch {
set q [eval exec "$javac -g [list $file] -d $objdir 2>@ stdout"]
} msg]} then {
send_log "couldn't compile $file: $msg\n"
set r 0
} else {
set r 1
}
cd $here
return $r
}
set libjava_initialized 0
#
# Build the status wrapper library as needed.
#
proc libjava_init { args } {
global wrapper_file;
global wrap_compile_flags;
global libjava_initialized libjava_uses_threads
global GCJ_UNDER_TEST
global TOOL_EXECUTABLE
global env objdir
global env libgcj_jar
global tool_root_dir
global libjava_libgcc_s_path
global target_triplet
# We set LC_ALL and LANG to C so that we get the same error messages as expected.
setenv LC_ALL C
setenv LANG C
if { $libjava_initialized == 1 } { return; }
if ![info exists GCJ_UNDER_TEST] {
if [info exists TOOL_EXECUTABLE] {
set GCJ_UNDER_TEST $TOOL_EXECUTABLE;
} else {
if [info exists env(GCJ)] {
set GCJ_UNDER_TEST $env(GCJ)
} else {
set GCJ_UNDER_TEST "[find_gcj]"
}
}
}
# Find the libgcj jar file.
set libgcj_jar [glob $objdir/../libgcj-*.jar]
verbose "jar file is $libgcj_jar"
# FIXME: This finds libgcj.spec for the default multilib.
# If thread models differ between multilibs, this has to be moved
# to libjava_arguments
set specdir [libjava_find_spec]
# The -B is so we find libgcj.spec.
set text [eval exec "$GCJ_UNDER_TEST -B$specdir -v 2>@ stdout"]
regexp -- "Thread model: (\[^\n\]+)\n" $text ignore model
set libjava_uses_threads [expr {! ($model == "no"
|| $model == "none"
|| $model == "single")}]
# Always set encoding used by gcj.
append GCJ_UNDER_TEST " --encoding=UTF-8"
set wrapper_file "";
set wrap_compile_flags "";
if [target_info exists needs_status_wrapper] {
set result [build_wrapper "testglue.o"];
if { $result != "" } {
set wrapper_file [lindex $result 0];
set wrap_compile_flags [lindex $result 1];
} else {
warning "Status wrapper failed to build."
}
}
# Finally, add the gcc build directory so that we can find the
# shared libgcc. This, like much of dejagnu, is hideous.
set libjava_libgcc_s_path {}
if { [istarget "*-*-darwin*"] } {
set so_extension "dylib"
} else {
set so_extension "so"
}
set gccdir [lookfor_file $tool_root_dir gcc/libgcc_s.${so_extension}]
if {$gccdir != ""} {
set gccdir [file dirname $gccdir]
lappend libjava_libgcc_s_path $gccdir
verbose "libjava_libgcc_s_path = $libjava_libgcc_s_path"
set compiler ${gccdir}/xgcc
if { [is_remote host] == 0 && [which $compiler] != 0 } {
foreach i "[exec $compiler --print-multi-lib]" {
set mldir ""
regexp -- "\[a-z0-9=/\.-\]*;" $i mldir
set mldir [string trimright $mldir "\;@"]
if { "$mldir" == "." } {
continue
}
if { [llength [glob -nocomplain ${gccdir}/${mldir}/libgcc_s*.${so_extension}.*]] >= 1 } {
lappend libjava_libgcc_s_path "${gccdir}/${mldir}"
}
}
}
}
set libjava_initialized 1
}
# Find a library. We know where libtool puts the actual libraries,
# and we look there. The implementation is fairly hacky. We can't
# compile with -nodefaultlibs, because that will also eliminate the
# system libraries we need. In order to have gcj still work, it must
# find the appropriate libraries so we must add -L options for their
# paths. However we can't simply use those libraries; we still need
# libtool for linking.
# Don't return the the lib${name}.la files here, since this causes the
# libraries to be linked twice: once as lib${name}.so/dylib and another time
# via gcj's implicit -l${name}. This is both unnecessary and causes the
# Solaris ld to warn: attempted multiple inclusion of file. This warning
# is not ignored by the dejagnu framework and cannot be disabled.
proc libjava_find_lib {dir name} {
global base_dir
set gp [get_multilibs]
foreach extension {so dll a} {
foreach sub {.libs _libs} {
if {$gp != ""} {
if {[file exists $gp/$dir/$sub/lib${name}.${extension}]} then {
# Just return the `-L' option. The library itself
# will be picked up via the spec file.
return "-L$gp/$dir/$sub"
}
}
# Just return the `-L' option. The library itself will be
# picked up via the spec file.
set lib [findfile \
$base_dir/../../$dir/$sub/lib${name}.${extension} \
"-L$base_dir/../../$dir/$sub" \
""]
if {$lib != ""} {
return $lib
}
}
}
return ""
}
# Find libgcj.spec. We need to use the file corresponding to the multilib
# under test since they might differ. Append a trailing slash since this
# is used with -B.
proc libjava_find_spec {} {
global objdir
return "$objdir/../"
}
# Find `gij'. Return empty string if not found.
proc libjava_find_gij {} {
global base_dir objdir
set gijdir [lookfor_file [get_multilibs] libjava];
if {! [file exists $gijdir/gij]} {
return ""
}
return $gijdir/gij
}
# Remove a bunch of files.
proc gcj_cleanup {args} {
foreach file $args {
if {[string match *.o $file]} {
verbose "removing [file rootname $file].lo"
file delete -force [file rootname $file].lo
}
file delete -force -- $file
verbose "removing $file"
}
# It is simplest to do this instead of trying to figure out what
# bits in .libs ought to be removed.
catch {system "rm -rf .libs"}
}
# Compute arguments needed for compiler. MODE is a libtool mode:
# either compile or link.
proc libjava_arguments {{mode compile}} {
global base_dir
global LIBJAVA
global srcdir subdir objdir
global TOOL_OPTIONS
global GCJ_UNDER_TEST
global tmpdir
global runtests
global env
global tool_root_dir
global libgcj_jar
global libjava_libgcc_s_path
global libjava_ld_library_path
global ld_library_path
global target_triplet
if [info exists LIBJAVA] {
set libjava $LIBJAVA;
} else {
set libjava [libjava_find_lib libjava gcj]
}
verbose "using LIBJAVA = $libjava" 2
set args ""
# Basically we want to build up a colon separated path list from
# the value of $libjava.
set lpath "."
foreach dir [list $libjava] {
foreach item [split $dir " "] {
switch -glob -- $item {
"-L*" {
lappend lpath [string range $item 2 end]
}
}
}
}
set lpath [concat $lpath $libjava_libgcc_s_path]
verbose "lpath = $lpath ; libgcc_s_path = $libjava_libgcc_s_path"
set ld_library_path [join $lpath :]
set libjava_ld_library_path "$ld_library_path"
# That's enough to make things work for the normal case.
# If we wanted to handle an arbitrary value of libjava,
# then we'd have to do a lot more work.
set_ld_library_path_env_vars
if [info exists env(LD_LIBRARY_PATH)] {
verbose "LD_LIBRARY_PATH = $env(LD_LIBRARY_PATH)"
}
# Determine CLASSPATH separator
if { [string match "i?86-pc-mingw32*" $target_triplet] } {
set sep ";"
} else {
set sep ":"
}
# Set the CLASSPATH environment variable
global env
set env(CLASSPATH) \
[join [list . $srcdir/$subdir $objdir $libgcj_jar] $sep]
verbose "CLASSPATH is $env(CLASSPATH)"
if {$mode == "link"} {
global wrapper_file wrap_compile_flags
lappend args "additional_flags=$wrap_compile_flags"
lappend args "libs=$wrapper_file"
lappend args "libs=$libjava"
lappend args debug
}
if { [target_info needs_status_wrapper]!="" && [info exists gluefile] } {
lappend args "libs=${gluefile}"
lappend args "ldflags=$wrap_flags"
}
if [info exists TOOL_OPTIONS] {
lappend args "additional_flags=$TOOL_OPTIONS"
}
# Determine libgcj.spec corresponding to multilib under test.
set specdir [libjava_find_spec]
# Search for libtool. We need it to link.
set found_compiler 0
set d [absolute $objdir]
foreach x {. .. ../.. ../../..} {
if {[file exists $d/$x/libtool]} then {
# We have to run silently to avoid DejaGNU lossage.
lappend args \
"compiler=$d/$x/libtool --silent --tag=GCJ --mode=$mode $GCJ_UNDER_TEST -B$specdir"
set found_compiler 1
break
}
}
if {! $found_compiler} {
# Append -B$specdir so that we find libgcj.spec before it
# is installed.
lappend args "compiler=$GCJ_UNDER_TEST -B$specdir"
}
# Avoid libtool wrapper scripts when possible.
# but not if libtool warnings results in FAILs
if {$mode == "link"} {
if {! [istarget "*-*-cygwin*"] && ! [istarget "*-*-mingw*"] } {
lappend args "additional_flags=-no-install"
}
if { [istarget "*-*-darwin*"] } {
lappend args "additional_flags=-bind_at_load"
lappend args "additional_flags=-multiply_defined suppress"
}
}
return $args
}
# Link a bunch of objects into a program. MAIN is the name of the
# class holding `main'. Return 0 on failure.
proc gcj_link {program main files {options {}}} {
set arguments [libjava_arguments link]
if {[llength $options]} {
eval lappend arguments $options
}
lappend arguments "additional_flags=--main=$main"
set x [libjava_prune_warnings \
[libjava_tcompile $files $program executable $arguments]]
if {$x != ""} {
verbose "link failure: $x" 2
fail "linking $program"
setup_xfail "*-*-*"
fail "running $program"
return 0
}
pass "linking $program"
return 1
}
# Invoke the program and see what happens. Return 0 on failure.
proc gcj_invoke {program expectFile ld_library_additions} {
global env
global libjava_ld_library_path
global ld_library_path
set ld_library_path "$libjava_ld_library_path"
if {[llength $ld_library_additions] > 0} {
append ld_library_path :[join $ld_library_additions :]
}
set_ld_library_path_env_vars
if [info exists env(LD_LIBRARY_PATH)] {
verbose "LD_LIBRARY_PATH=$env(LD_LIBRARY_PATH)"
}
set result [libjava_load ./$program]
set status [lindex $result 0]
set output [lindex $result 1]
# Restore setting
restore_ld_library_path_env_vars
if {$status != "pass"} {
verbose "got $output"
fail "$program run"
untested "$program output"
return 0
}
set id [open $expectFile r]
set expected [read $id]
close $id
if {! [string compare $output $expected]} {
pass "$program output"
return 1
} else {
fail "$program output"
return 0
}
}
# Invoke a program and check its output. EXECUTABLE is the program;
# ARGS are the arguments to the program. Returns 1 if tests passed
# (or things were left untested), 0 otherwise.
proc libjava_invoke {errname testName optName executable inpfile resultfile
ld_library_additions args} {
global env
global libjava_ld_library_path
global ld_library_path
set ld_library_path "$libjava_ld_library_path"
if {[llength $ld_library_additions] > 0} {
append ld_library_path :[join $ld_library_additions :]
}
set_ld_library_path_env_vars
if [info exists env(LD_LIBRARY_PATH)] {
verbose "LD_LIBRARY_PATH=$env(LD_LIBRARY_PATH)"
}
upvar $optName opts
if {[info exists opts(no-exec)]} {
if {[info exists opts(need-threads)]} {
# This means we wanted to try to run it but we couldn't
# because threads aren't supported. So we have to
# generate an `untested'.
untested "$errname execution - $testName"
untested "$errname output - $testName"
}
return 1
}
set result [libjava_load $executable $args "$inpfile"]
set status [lindex $result 0]
set output [lindex $result 1]
# Restore LD_LIBRARY_PATH setting.
restore_ld_library_path_env_vars
if {[info exists opts(xfail-exec)]} then {
setup_xfail *-*-*
}
$status "$errname execution - $testName"
if { $status != "pass" } {
untested "$errname output - $testName"
return 0
}
verbose "resultfile is $resultfile"
set id [open $resultfile r]
set expected ""
append expected [read $id]
regsub -all "\r" "$output" "" output
regsub "\n*$" $expected "" expected
regsub "\n*$" $output "" output
regsub "^\n*" $expected "" expected
regsub "^\n*" $output "" output
regsub -all "\[ \t\]\[ \t\]*" $expected " " expected
regsub -all "\[ \t\]*\n\n*" $expected "\n" expected
regsub -all "\[ \t\]\[ \t\]*" $output " " output
regsub -all "\[ \t\]*\n\n*" $output "\n" output
verbose "expected is $expected"
verbose "actual is $output"
set passed 0
if {[info exists opts(regexp_match)]} {
if [regexp $expected $output] {
set passed 1
}
} else {
if { $expected == $output } {
set passed 1
}
}
if {[info exists opts(xfail-output)]} {
setup_xfail *-*-*
}
if { $passed == 1 } {
pass "$errname output - $testName"
} else {
fail "$errname output - $testName"
}
close $id
return $passed
}
#
# Run the test specified by srcfile and resultfile. compile_args and
# exec_args are options telling this proc how to work.
#
proc test_libjava_from_source { options srcfile compile_args inpfile resultfile exec_args } {
global base_dir
global srcdir subdir objdir
global TOOL_OPTIONS
global GCJ_UNDER_TEST
global tmpdir
global runtests
# Make opts into an array.
set opts(_) x
unset opts(_)
foreach item $exec_args {
set opts($item) x
}
# If we need threads and we don't have them then set the `no-exec'
# flag. This is case is also handled specially later.
if {[info exists opts(need-threads)]} {
global libjava_uses_threads
if {! $libjava_uses_threads} {
set opts(no-exec) x
}
}
set errname [file rootname [file tail $srcfile]]
if {! [runtest_file_p $runtests $errname]} {
return
}
if {[info exists opts(no-link)]} {
set mode compile
} else {
set mode link
}
set args [libjava_arguments $mode]
if {! [info exists opts(no-link)]} {
# Add the --main flag
lappend args "additional_flags=--main=[file rootname [file tail $srcfile]]"
if { $compile_args != "" } {
lappend args "additional_flags=$compile_args"
}
}
regsub "^.*/(\[^/.\]+)\[.\]\[^/]*$" "$srcfile" "\\1" out
set executable "${objdir}/$out"
if {[info exists opts(no-link)]} {
append executable ".o"
set target object
} else {
# DOS/win32 targets default to .exe if no suffix is given
# We then try to delete a file that doesn't exist. It is
# simpler to add the suffix everywhere.
append executable ".exe"
set target executable
}
if { $compile_args != "" } {
set errname "$errname $compile_args"
}
set removeList [list $executable]
set x [libjava_prune_warnings \
[libjava_tcompile $srcfile "$executable" $target $args]]
if {[info exists opts(xfail-gcj)]} {
setup_xfail *-*-*
}
if { $x != "" } {
verbose "target_compile failed: $x" 2
if {[info exists opts(shouldfail)]} {
pass "$errname compilation from source"
eval gcj_cleanup $removeList
return
}
fail "$errname compilation from source"
if {[info exists opts(xfail-gcj)]
|| ! [info exists opts(no-exec)]
|| [info exists opts(need-threads)]} {
untested "$errname execution from source compiled test"
untested "$errname output from source compiled test"
}
return
}
if {[info exists opts(shouldfail)]} {
fail "$errname compilation from source"
return
}
pass "$errname compilation from source"
# Set up the options the way they are expected by libjava_invoke.
if {[info exists opts(xfail-source-output)]} {
set opts(xfail-output) x
}
if {[libjava_invoke $errname "source compiled test" opts $executable \
$inpfile $resultfile ""]} {
# Everything ok, so clean up.
eval gcj_cleanup $removeList
}
}
#
# Run the test specified by srcfile and resultfile. compile_args and
# exec_args are options telling this proc how to work.
#
proc test_libjava_from_javac { options srcfile compile_args inpfile resultfile exec_args } {
global base_dir
global srcdir subdir objdir
global TOOL_OPTIONS
global GCJ_UNDER_TEST
global tmpdir
global runtests
global INTERPRETER
# Make opts into an array.
set opts(_) x
unset opts(_)
foreach item $exec_args {
set opts($item) x
}
# If we need threads and we don't have them then set the `no-exec'
# flag. This is case is also handled specially later.
if {[info exists opts(need-threads)]} {
global libjava_uses_threads
if {! $libjava_uses_threads} {
set opts(no-exec) x
}
}
set errname [file rootname [file tail $srcfile]]
if {! [runtest_file_p $runtests $errname]} {
return
}
# bytecompile files with Sun's compiler for now.
set bc_ok [bytecompile_file $srcfile $objdir]
set javac [find_javac]
# This is an ugly heuristic but it will have to do.
if {[string match *gcj* $javac]} {
set tag gcjC
} else {
set tag javac
}
if {[info exists opts(xfail-$tag)]} {
setup_xfail *-*-*
}
if {! $bc_ok} then {
if {[info exists opts(shouldfail)]} {
pass "$errname byte compilation"
return
}
fail "$errname byte compilation"
untested "$errname compilation from bytecode"
if {! [info exists opts(no-exec)]
|| [info exists opts(need-threads)]} {
untested "$errname execution from bytecode->native test"
untested "$errname output from bytecode->native test"
}
return
}
if {[info exists opts(shouldfail)]} {
fail "$errname byte compilation"
return
}
pass "$errname byte compilation"
set removeList {}
# Find name to use for --main, and name of all class files.
set jvscan [find_jvscan]
verbose "jvscan is $jvscan"
set main_name [string trim \
[libjava_prune_warnings \
[lindex [local_exec "$jvscan --encoding=UTF-8 $srcfile --print-main" "" "" 300] 1]]]
verbose "main name is $main_name"
set class_out [string trim \
[libjava_prune_warnings \
[lindex [local_exec "$jvscan --encoding=UTF-8 $srcfile --list-class" "" "" 300] 1]]]
verbose "class list is $class_out"
if {[string match "*parse error*" $main_name]
|| [string match "*parse error*" $class_out]} {
untested "$errname compilation from bytecode"
if {! [info exists opts(no-exec)]
|| [info exists opts(need-threads)]} {
untested "$errname execution from bytecode->native test"
untested "$errname output from bytecode->native test"
}
return
}
# Turn "a b" into "a.class b.class".
# Also, turn "foo.bar" into "foo/bar.class".
set class_files {}
foreach file [split [string trim $class_out]] {
set file [join [split $file .] /]
lappend class_files $objdir/$file.class
}
eval lappend removeList $class_files
# Usually it is an error for a test program not to have a `main'
# method. However, for no-exec tests it is ok. Treat no-link
# like no-exec here.
if {[info exists opts(no-link)]} {
set opts(no-exec) x
}
set largs {}
if {[info exists opts(no-exec)]} {
set type object
set mode compile
} elseif {$main_name == ""} {
perror "No `main' given in program $errname"
return
} else {
set type executable
lappend largs "additional_flags=--main=$main_name"
# DOS/win32 targets default to .exe if no suffix is given
# We then try to delete a file that doesn't exist. It is
# simpler to add the suffix everywhere.
set executable "${objdir}/${main_name}.exe"
set mode link
}
# We purposely ignore errors here; we still want to run the other
# appropriate tests.
set gij [libjava_find_gij]
# libjava_find_gij will return "" if it couldn't find the
# program; in this case we want to skip the test.
if {$INTERPRETER == "yes" && $gij != ""} {
libjava_invoke $errname "gij test" opts $gij \
$inpfile $resultfile "" $main_name
}
# Initial arguments.
set args [libjava_arguments $mode]
eval lappend args $largs
if { $compile_args != "" } {
lappend args "additional_flags=$compile_args"
}
if { $compile_args != "" } {
set errname "$errname $compile_args"
}
verbose "compilation command = $args" 2
# When compiling and not linking, we have to build each .o
# separately. We do this because DejaGNU's target_compile won't
# accept an empty "destfile" argument when the mode is "compile".
if {$mode == "compile"} {
foreach c_file $class_files {
set executable [file rootname [file tail $c_file]].o
# Don't write files which contain $ chars.
regsub -all "\\$" $executable "\^" executable
set x [libjava_prune_warnings \
[libjava_tcompile '$c_file' "$executable" $type $args]]
lappend removeList $executable
if {$x != ""} {
break
}
}
} else {
# This is so evil: we de-listify CLASS_FILES so that we can
# turn around and quote the `$' in it for the shell. I really
# hate DejaGNU. It is so !@#$!@# unpredictable.
set hack ""
foreach stupid $class_files {
set hack "$hack $stupid"
}
lappend removeList $executable
set x [libjava_prune_warnings \
[libjava_tcompile $hack "$executable" $type $args]]
}
if {[info exists opts(xfail-byte)]} {
setup_xfail *-*-*
}
if { $x != "" } {
verbose "target_compile failed: $x" 2
fail "$errname compilation from bytecode"
if {! [info exists opts(no-exec)]
|| [info exists opts(need-threads)]} {
untested "$errname execution from bytecode->native test"
untested "$errname output from bytecode->native test"
}
return;
}
pass "$errname compilation from bytecode"
# Set up the options the way they are expected by libjava_invoke.
if {[info exists opts(xfail-byte-output)]} {
set opts(xfail-output) x
}
if {[libjava_invoke $errname "bytecode->native test" opts $executable \
$inpfile $resultfile ""]} {
# Everything ok, so clean up.
eval gcj_cleanup $removeList
}
}
#
# Run the test specified by srcfile and resultfile. compile_args and
# exec_args are options telling this proc how to work.
# `no-link' don't try to link the program
# `no-exec' don't try to run the test
# `xfail-gcj' compilation from source will fail
# `xfail-javac' compilation with javac will fail
# `xfail-gcjC' compilation with gcj -C will fail
# `shouldfail' compilation from source is supposed to fail
# This is different from xfail, which marks a known
# failure that we just haven't fixed.
# A compilation marked this way should fail with any
# front end.
# `xfail-byte' compilation from bytecode will fail
# `xfail-exec' exec will fail
# `xfail-output'
# output will be wrong
# `xfail-byte-output'
# output will be wrong when compiled from bytecode
# `xfail-source-output'
# output will be wrong when compiled from source code
# `need-threads'
# test relies on thread support
#
proc test_libjava { options srcfile compile_args inpfile resultfile exec_args } {
test_libjava_from_source $options $srcfile $compile_args $inpfile $resultfile $exec_args
test_libjava_from_javac $options $srcfile $compile_args $inpfile $resultfile $exec_args
}
#
# libjava_version -- extract and print the version number of libjavap
#
proc default_libjava_version {} {
}
proc default_libjava_start { } {
}
# Local Variables:
# tcl-indent-level:4
# End: