#!/bin/sh
#
# Copyright 2002 Sun Microsystems, Inc. All Rights Reserved.
# DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
#
# This code is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License version 2 only, as
# published by the Free Software Foundation.
#
# This code is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
# version 2 for more details (a copy is included in the LICENSE file that
# accompanied this code).
#
# You should have received a copy of the GNU General Public License version
# 2 along with this work; if not, write to the Free Software Foundation,
# Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
#
# Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
# CA 95054 USA or visit www.sun.com if you need additional information or
# have any questions.
#
# @test
# @bug 4663146
# @summary Arguments match no method error
# @author Jim Holmlund/Suvasis
#
# @run shell/timeout=300 EvalArgs.sh
# The bug is that, for example, if a String is passed
# as an arg to a func where an Object is expected,
# the above error occurs. jdb doesnt notice that this is
# legal because String is an instance of Object.
# These are variables that can be set to control execution
#pkg=untitled7
classname=EvalArgs
#compileOptions=-g
#java="java_g"
createJavaFile()
{
cat <<EOF > $classname.java.1
public class $classname {
static jj1 myjj1;
static jj2 myjj2;
static oranges myoranges;
static boolean jjboolean = true;
static byte jjbyte = 1;
static char jjchar = 'a';
static double jjdouble = 2.2;
static float jjfloat = 3.1f;
static int jjint = 4;
static long jjlong = 5;
static short jjshort = 6;
static int[] jjintArray = {7, 8};
static float[] jjfloatArray = {9.1f, 10.2f};
public static void main(String args[]) {
myjj1 = new jj1();
myjj2 = new jj2();
myoranges = new oranges();
// prove that these work
System.out.println( ffjj1(myjj1));
System.out.println( ffjj1(myjj2));
System.out.println("$classname.ffoverload($classname.jjboolean) = " +
$classname.ffoverload($classname.jjboolean));
System.out.println("$classname.ffoverload($classname.jjbyte) = " +
$classname.ffoverload($classname.jjbyte));
System.out.println("$classname.ffoverload($classname.jjchar) = " +
$classname.ffoverload($classname.jjchar));
System.out.println("$classname.ffoverload($classname.jjdouble) = " +
$classname.ffoverload($classname.jjdouble));
//This doesn't even compile
//System.out.println( "ffintArray(jjfloatArray) = " + ffintArray(jjfloatArray));
gus();
}
static void gus() {
int x = 0; // @1 breakpoint
}
public static String ffjj1(jj1 arg) {
return arg.me;
}
public static String ffjj2(jj2 arg) {
return arg.me;
}
static String ffboolean(boolean p1) {
return "ffbool: p1 = " + p1;
}
static String ffbyte(byte p1) {
return "ffbyte: p1 = " + p1;
}
static String ffchar(char p1) {
return "ffchar: p1 = " + p1;
}
static String ffdouble(double p1) {
return "ffdouble: p1 = " + p1;
}
static String fffloat(float p1) {
return "fffloat: p1 = " + p1;
}
static String ffint(int p1) {
return "ffint: p1 = " + p1;
}
static String fflong(long p1) {
return "fflong: p1 = " + p1;
}
static String ffshort(short p1) {
return "ffshort: p1 = " + p1;
}
static String ffintArray(int[] p1) {
return "ffintArray: p1 = " + p1;
}
// Overloaded funcs
public static String ffoverload(jj1 arg) {
return arg.me;
}
static String ffoverload(boolean p1) {
return "ffoverload: boolean p1 = " + p1;
}
/***
static String ffoverload(byte p1) {
return "ffoverload: byte p1 = " + p1;
}
***/
static String ffoverload(char p1) {
return "ffoverload: char p1 = " + p1;
}
static String ffoverload(double p1) {
return "ffoverload: double p1 = " + p1;
}
static String ffoverload(float p1) {
return "ffoverload: float p1 = " + p1;
}
/***
static String ffoverload(int p1) {
return "ffoverload: int p1 = " + p1;
}
***/
static String ffoverload(long p1) {
return "ffoverload: long p1 = " + p1;
}
static String ffoverload(short p1) {
return "ffoverload: short p1 = " + p1;
}
static String ffoverload(int[] p1) {
return "ffoverload: int array p1 = " + p1;
}
static class jj1 {
String me;
jj1() {
me = "jj1name";
}
public String toString() {
return me;
}
}
static class jj2 extends jj1 {
jj2() {
super();
me = "jj2name";
}
}
static class oranges {
oranges() {
}
}
}
EOF
}
# drive jdb by sending cmds to it and examining its output
dojdbCmds()
{
setBkpts @1
runToBkpt @1
# verify that it works ok when arg types are the same as
# the param types
cmd eval "$classname.ffboolean($classname.jjboolean)"
cmd eval "$classname.ffbyte($classname.jjbyte)"
cmd eval "$classname.ffchar($classname.jjchar)"
cmd eval "$classname.ffdouble($classname.jjdouble)"
cmd eval "$classname.fffloat($classname.jjfloat)"
cmd eval "$classname.ffint($classname.jjint)"
cmd eval "$classname.fflong($classname.jjlong)"
cmd eval "$classname.ffshort($classname.jjshort)"
cmd eval "$classname.ffintArray($classname.jjintArray)"
cmd eval "$classname.ffjj1($classname.myjj1)"
# Provide a visual break in the output
cmd print 1
# Verify mixing primitive types works ok
# These should work even though the arg types are
# not the same because there is only one
# method with each name.
cmd eval "$classname.ffbyte($classname.jjint)"
cmd eval "$classname.ffchar($classname.jjdouble)"
cmd eval "$classname.ffdouble($classname.jjfloat)"
cmd eval "$classname.fffloat($classname.jjshort)"
cmd eval "$classname.ffint($classname.jjlong)"
cmd eval "$classname.fflong($classname.jjchar)"
cmd eval "$classname.ffshort($classname.jjbyte)"
cmd print 1
# Verify that passing a subclass object works
cmd eval "$classname.ffjj1($classname.myjj2)"
cmd eval "$classname.myjj1.toString().equals("jj1name")"
cmd print 1
# Overloaded methods. These should pass
# because there is an exact match.
cmd eval "$classname.ffoverload($classname.jjboolean)"
cmd eval "$classname.ffoverload($classname.jjchar)"
cmd eval "$classname.ffoverload($classname.jjdouble)"
cmd eval "$classname.ffoverload($classname.jjfloat)"
cmd eval "$classname.ffoverload($classname.jjlong)"
cmd eval "$classname.ffoverload($classname.jjshort)"
cmd eval "$classname.ffoverload($classname.jjintArray)"
cmd eval "$classname.ffoverload($classname.myjj1)"
cmd eval "$classname.ffoverload($classname.myjj2)"
jdbFailIfPresent "Arguments match no method"
cmd print 1
cmd print '"These should fail with msg Arguments match multiple methods"'
# These overload calls should fail because ther
# isn't an exact match and jdb isn't smart enough
# to figure out which of several possibilities
# should be called
cmd eval "$classname.ffoverload($classname.jjbyte)"
jdbFailIfNotPresent "Arguments match multiple methods" 3
cmd eval "$classname.ffoverload($classname.jjint)"
jdbFailIfNotPresent "Arguments match multiple methods" 3
cmd print 1
cmd print '"These should fail with InvalidTypeExceptions"'
cmd eval "$classname.ffboolean($classname.jjbyte)"
jdbFailIfNotPresent "InvalidTypeException" 3
cmd eval "$classname.ffintArray($classname.jjint)"
jdbFailIfNotPresent "InvalidTypeException" 3
cmd eval "$classname.ffintArray($classname.jjfloatArray)"
jdbFailIfNotPresent "InvalidTypeException" 3
cmd eval "$classname.ffjj2($classname.myjj1)"
jdbFailIfNotPresent "InvalidTypeException" 3
cmd eval "$classname.ffjj2($classname.myoranges)"
jdbFailIfNotPresent "InvalidTypeException" 3
cmd quit
}
mysetup()
{
if [ -z "$TESTSRC" ] ; then
TESTSRC=.
fi
for ii in . $TESTSRC $TESTSRC/.. ; do
if [ -r "$ii/ShellScaffold.sh" ] ; then
. $ii/ShellScaffold.sh
break
fi
done
}
# You could replace this next line with the contents
# of ShellScaffold.sh and this script will run just the same.
mysetup
runit
pass