Retro68/gcc/libjava/testsuite/libjava.jni/jni.exp

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2012-03-27 23:13:14 +00:00
# Tests for JNI code.
# Compile a single C file and produce a .so file. OPTIONS is a list
# of options to pass to the compiler. Returns 0 on failure, 1 on
# success.
proc gcj_jni_compile_c_to_so {file {options {}}} {
global srcdir subdir
global host_triplet
verbose "options: $options"
set options_cxx $options
set options ""
# Apple uses a different extension for shared/dynamic libraries
# so we check against powerpc-apple-darwin and set them to
# dylib.
# HP-UX uses sl, so we check this too, otherwise we take so.
if { [istarget "*-*-darwin*"] } {
set so_extension "dylib"
set so_flag "-dynamiclib"
} elseif { [istarget "hppa*-hp-hpux*"] } {
set so_extension "sl"
set so_flag "-shared"
} elseif { [istarget "*-*-cygwin*"] || [istarget "*-*-mingw*"] } {
set so_extension "dll"
set so_flag "-shared"
} else {
set so_extension "so"
set so_flag "-shared"
}
set filename [file tail $file]
set name [file rootname $filename]
set soname lib${name}.${so_extension}
if { [istarget "*arm-*eabi*"] } {
lappend options "additional_flags=-fexceptions"
}
lappend options "additional_flags=${so_flag} -fPIC"
# Find the generated header.
lappend options "additional_flags=-I. -I.. -I$srcdir/$subdir -fdollars-in-identifiers"
# Ensure that the generated header has correct prototypes.
set cfile [file rootname $file].c
if { [file exists $cfile]} {
# This option is only valid for C sources.
lappend options "additional_flags=-Wmissing-prototypes"
}
# Find jni.h and jni_md.h.
lappend options "additional_flags=-I$srcdir/../include -I$srcdir/../classpath/include"
# Append C++ options
lappend options "additional_flags=$options_cxx"
set x [libjava_prune_warnings \
[target_compile $file $soname executable $options]]
if {$x != ""} {
verbose "target_compile failed: $x" 2
fail "$filename compilation"
return 0
}
pass "$filename compilation"
return 1
}
# Build a header file from a .class file. Return 0 on failure.
proc gcj_jni_build_header {file} {
global libgcj_jar
set gcjh [find_gcjh]
set file [file rootname $file]
set cmd "$gcjh -jni -force -classpath .:$libgcj_jar $file"
verbose $cmd
set x [string trim [libjava_prune_warnings \
[lindex [local_exec $cmd "" "" 300] 1]]]
if {$x != ""} {
verbose "local_exec failed: $x" 2
fail "$file header generation"
return 0
}
pass "$file header generation"
return 1
}
# Do all the work for a single JNI test. Return 0 on failure.
proc gcj_jni_test_one {file} {
global runtests
global host_triplet
global INTERPRETER
# Apple uses a different extension for shared/dynamic libraries
# so we check against powerpc-apple-darwin and set them to
# dylib.
# HP-UX uses sl, so we check this too, otherwise we take so.
if { [istarget "*-*-darwin*"] } {
set so_extension "dylib"
} elseif { [istarget "hppa*-hp-hpux*"] } {
set so_extension "sl"
} elseif { [istarget "*-*-cygwin*"] || [istarget "*-*-mingw*"] } {
set so_extension "dll"
} else {
set so_extension "so"
}
# The base name. We use it for several purposes.
set main [file rootname [file tail $file]]
if {! [runtest_file_p $runtests $main]
|| $main == "pr29812" || $main == "pr29812_injar"} {
# Simply skip it.
return 1
}
# if {! [bytecompile_file $file [pwd]]} {
# fail "bytecompile $file"
# # FIXME - should use `untested' on all remaining tests.
# # But that is hard.
# return 0
# }
# pass "bytecompile $file"
# set bytefile [file rootname [file tail $file]].class
# if {! [gcj_jni_build_header $bytefile]} {
# # FIXME
# return 0
# }
set cfile [file rootname $file].c
set cxxflags ""
set cxxldlibflags {}
# If there is no `.c' file, assume there is a `.cc' file.
if {! [file exists $cfile]} {
set cfile [file rootname $file].cc
set cxxflaglist {}
foreach arg [split [libjava_find_lib libstdc++-v3/src stdc++] " "] {
switch -glob -- $arg {
"-L*" {
set arg [string range $arg 2 end]
lappend cxxldlibflags $arg
# Strip the `.libs' directory; we link with libtool which
# doesn't need it.
set arg "-L[file dirname $arg]"
}
}
lappend cxxflaglist $arg
# In case the libstdc++ is not installed yet, we pass the build
# directory of it to the cxxflaglist.
lappend cxxflaglist "-L$cxxldlibflags"
}
# If you're building the compiler with --prefix set to a place
# where it's not yet installed, then the linker won't be able to
# find the libgcc used by libffi.dylib. We could pass the
# -dylib_file option, but that's complicated, and it's much easier
# to just make the linker find libgcc using -L options.
if { [istarget "*-*-darwin*"] } {
lappend cxxflaglist "-shared-libgcc -lstdc++"
} else {
lappend cxxflaglist "-lstdc++"
}
# ARM C++ emits an ABI warning for varargs.
if { [istarget "arm*"] } {
lappend cxxflaglist "-Wno-abi"
}
set cxxflags [join $cxxflaglist]
}
if {! [gcj_jni_compile_c_to_so $cfile $cxxflags]} {
# FIXME
return 0
}
set args [list "additional_flags=-fjni"]
if {! [gcj_link $main $main $file $args]} {
# FIXME
return 0
}
set resultfile [file rootname $file].out
if {! [gcj_invoke $main $resultfile $cxxldlibflags]} {
# FIXME
return 0
}
# We purposely ignore errors here; we still want to run the other
# appropriate tests.
set errname [file rootname [file tail $file]]
set gij [libjava_find_gij]
# libjava_find_gij will return "" if it couldn't find the
# program; in this case we want to skip the test.
# If the libraries are not installed yet, we have to pass them via
# cxxldlibflags to libjava_invoke.
if {$INTERPRETER == "yes" && $gij != ""} {
libjava_invoke $errname "gij test" opts $gij \
"" $resultfile $cxxldlibflags \
-classpath $file $main
}
# When we succeed we remove all our clutter.
eval gcj_cleanup [glob -nocomplain -- ${main}.*] \
[list $main lib${main}.${so_extension}]
return 1
}
# Compile a single C file and produce a binary. OPTIONS is a list of
# options to pass to the compiler. Returns 0 on failure, 1 on
# success.
proc gcj_jni_invocation_compile_c_to_binary {file {options {}}} {
global srcdir subdir
global host_triplet
verbose "options: $options"
set options_cxx $options
set options ""
set filename [file tail $file]
set name [file rootname $filename]
# Set some darwin specific options
if { [istarget "*-*-darwin*"] } {
lappend options "additional_flags= -bind_at_load -multiply_defined suppress"
}
# Find the generated header.
lappend options "additional_flags=-I. -I.. -I$srcdir/$subdir"
# Find jni.h and jni_md.h.
lappend options "additional_flags=-I$srcdir/../include -I$srcdir/../classpath/include -fdollars-in-identifiers"
# Append C++ options
lappend options "additional_flags=$options_cxx"
set x [libjava_prune_warnings \
[target_compile $file $name executable $options]]
if {$x != ""} {
verbose "target_compile failed: $x" 2
fail "$filename compilation"
return 0
}
pass "$filename compilation"
return 1
}
proc gcj_jni_get_cxxflags_invocation {} {
global libiconv
global LIBJAVA
if {$libiconv == ""} {
set libiconv "-liconv"
}
if [info exists LIBJAVA] {
set libjava $LIBJAVA;
} else {
set libjava [libjava_find_lib libjava gcj]
}
set cxxflags "$libjava -ljvm"
# Darwin needs -liconv linked, otherwise we get some unresolved.
# If you're building the compiler with --prefix set to a place
# where it's not yet installed, then the linker won't be able to
# find the libgcc used by libffi.dylib. We could pass the
# -dylib_file option, but that's complicated, and it's much easier
# to just make the linker find libgcc using -L options.
# Similar logic applies to libgcj.
if { [istarget "*-*-darwin*"] } {
eval lappend cxxflags "-shared-libgcc -lgcj $libiconv"
}
2015-08-28 15:33:40 +00:00
# FreeBSD needs -liconv linked, otherwise we get some unresolved.
if { [istarget "*-*-freebsd*"] } {
eval lappend cxxflags "$libiconv"
}
2012-03-27 23:13:14 +00:00
# Make sure libgcc unwinder is used on 64-bit Solaris 10+/x86 rather than
# the libc one.
if { [istarget "*-*-solaris*"] } {
lappend cxxflags "-shared-libgcc"
}
return $cxxflags
}
# Do all the work for a single invocation API test. Return 0 on
# failure.
proc gcj_jni_invocation_test_one {file} {
global env
global runtests
global host_triplet
global INTERPRETER
# The base name. We use it for several purposes.
set main [file rootname [file tail $file]]
if {! [runtest_file_p $runtests $main]} {
# Simply skip it.
return 1
}
# if {! [bytecompile_file $file [pwd]]} {
# fail "bytecompile $file"
# # FIXME - should use `untested' on all remaining tests.
# # But that is hard.
# return 0
# }
# pass "bytecompile $file"
set cfile [file rootname $file].c
set cxxflags [gcj_jni_get_cxxflags_invocation]
if {! [gcj_jni_invocation_compile_c_to_binary $cfile $cxxflags]} {
# FIXME
return 0
}
set resultfile [file rootname $file].out
set env(CLASSPATH) $file
verbose "CLASSPATH = $env(CLASSPATH)"
if {! [gcj_invoke $main $resultfile ""]} {
unset env(CLASSPATH)
# FIXME
return 0
}
unset env(CLASSPATH)
# We purposely ignore errors here; we still want to run the other
# appropriate tests.
set errname [file rootname [file tail $file]]
# When we succeed we remove all our clutter.
eval gcj_cleanup [glob -nocomplain -- ${main}.*] \
[list $main]
return 1
}
proc gcj_jni_pr29812 {} {
global srcdir subdir
global INTERPRETER runtests
# Set up a global we need.
libjava_arguments
set b ${srcdir}/${subdir}
if {! [runtest_file_p $runtests pr29812]} {
# Simply skip it.
return 1
}
if {! [gcj_jni_compile_c_to_so $b/pr29812.c ""]} {
return 0
}
if {! [gcj_jni_compile_c_to_so $b/pr29812_injar.c ""]} {
return 0
}
set gij [libjava_find_gij]
if {$INTERPRETER == "yes" && $gij != ""} {
if {! [libjava_invoke pr29812 "gij test" opts $gij \
"" $b/pr29812.out "" \
-classpath $b/pr29812.jar pr29812 $b/pr29812_injar.jar]} {
return 0
}
}
# When we succeed we remove all our clutter.
eval gcj_cleanup [glob -nocomplain -- *pr29812*]
}
# Run the JNI tests.
proc gcj_jni_run {} {
global srcdir subdir
global build_triplet host_triplet
# For now we only test JNI on native builds.
if {$build_triplet == $host_triplet} {
catch { lsort [glob -nocomplain ${srcdir}/${subdir}/*.jar] } srcfiles
foreach x $srcfiles {
gcj_jni_test_one $x
}
# Run JNI invocation API tests
catch { lsort [glob -nocomplain ${srcdir}/${subdir}/invocation/*.jar] } srcfiles
foreach x $srcfiles {
gcj_jni_invocation_test_one $x
}
gcj_jni_pr29812
} else {
verbose "JNI tests not run in cross-compilation environment"
}
}
gcj_jni_run