test/hotspot/jtreg/vmTestbase/nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001.java - platform/libcore - Git at Google

 /*
  * Copyright (c) 2000, 2018, Oracle and/or its affiliates. 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  */

 package nsk.jdi.ReferenceType.methodsByName_s;

 import nsk.share.*;
 import nsk.share.jpda.*;
 import nsk.share.jdi.*;

 import com.sun.jdi.*;
 import java.util.*;
 import java.io.*;

 /**
  * This test checks the method <code>methodsByName(String name)</code>
  * of the JDI interface <code>ReferenceType</code> of com.sun.jdi package
  */

 public class methbyname_s001 extends Log {
     static java.io.PrintStream out_stream;
     static boolean verbose_mode = false;  // test argument -vbs or -verbose switches to static
                                           // - for more easy failure evaluation

     /** The main class names of the debugger & debugee applications. */
     private final static String
         package_prefix = "nsk.jdi.ReferenceType.methodsByName_s.",
 //        package_prefix = "",    //  for DEBUG without package
         thisClassName = package_prefix + "methbyname_s001",
         debugeeName   = thisClassName + "a";

     /** Debugee's classes for check **/
     private final static String class_for_check = package_prefix + "methbyname_s001aClassForCheck";
     private final static String super_class_for_check = package_prefix + "methbyname_s001aSuperClassForCheck";
     private final static String interface_for_check = package_prefix + "methbyname_s001aInterfaceForCheck";
     private final static String not_existing_class = "not_existing_class";
     private static String methods_for_check[][] = {

 //        method name                            declaring class

         {"<init>",                               class_for_check      },
         {"ClassForCheck",                        class_for_check      },
         {"s_void_method",                        class_for_check      },
         {"s_boolean_method",                     class_for_check      },
         {"s_byte_method",                        class_for_check      },
         {"s_char_method",                        class_for_check      },
         {"s_double_method",                      class_for_check      },
         {"s_float_method",                       class_for_check      },
         {"s_int_method",                         class_for_check      },
         {"s_long_method",                        class_for_check      },
         {"s_string_method",                      class_for_check      },
         {"s_object_method",                      class_for_check      },
         {"s_prim_array_method",                  class_for_check      },
         {"s_ref_array_method",                   class_for_check      },
         {"s_super_hidden_void_method",           class_for_check      },
         {"s_super_hidden_prim_method",           class_for_check      },
         {"s_super_hidden_ref_method",            class_for_check      },
         {"s_void_par_method",                    class_for_check      },
         {"s_boolean_par_method",                 class_for_check      },
         {"s_byte_par_method",                    class_for_check      },
         {"s_char_par_method",                    class_for_check      },
         {"s_double_par_method",                  class_for_check      },
         {"s_float_par_method",                   class_for_check      },
         {"s_int_par_method",                     class_for_check      },
         {"s_long_par_method",                    class_for_check      },
         {"s_string_par_method",                  class_for_check      },
         {"s_object_par_method",                  class_for_check      },
         {"s_prim_array_par_method",              class_for_check      },
         {"s_ref_array_par_method",               class_for_check      },
         {"s_super_hidden_void_par_method",       class_for_check      },
         {"s_super_hidden_prim_par_method",       class_for_check      },
         {"s_super_hidden_ref_par_method",        class_for_check      },
         {"s_native_method",                      class_for_check      },
         {"s_synchr_method",                      class_for_check      },
         {"s_final_method",                       class_for_check      },
         {"s_private_method",                     class_for_check      },
         {"s_protected_method",                   class_for_check      },
         {"s_public_method",                      class_for_check      },
         {"i_void_method",                        class_for_check      },
         {"i_boolean_method",                     class_for_check      },
         {"i_byte_method",                        class_for_check      },
         {"i_char_method",                        class_for_check      },
         {"i_double_method",                      class_for_check      },
         {"i_float_method",                       class_for_check      },
         {"i_int_method",                         class_for_check      },
         {"i_long_method",                        class_for_check      },
         {"i_string_method",                      class_for_check      },
         {"i_object_method",                      class_for_check      },
         {"i_prim_array_method",                  class_for_check      },
         {"i_ref_array_method",                   class_for_check      },
         {"i_super_overridden_void_method",       class_for_check      },
         {"i_super_overridden_prim_method",       class_for_check      },
         {"i_super_overridden_ref_method",        class_for_check      },
         {"i_interf_overridden_void_method",      class_for_check      },
         {"i_interf_overridden_prim_method",      class_for_check      },
         {"i_interf_overridden_ref_method",       class_for_check      },
         {"i_void_par_method",                    class_for_check      },
         {"i_boolean_par_method",                 class_for_check      },
         {"i_byte_par_method",                    class_for_check      },
         {"i_char_par_method",                    class_for_check      },
         {"i_double_par_method",                  class_for_check      },
         {"i_float_par_method",                   class_for_check      },
         {"i_int_par_method",                     class_for_check      },
         {"i_long_par_method",                    class_for_check      },
         {"i_string_par_method",                  class_for_check      },
         {"i_object_par_method",                  class_for_check      },
         {"i_prim_array_par_method",              class_for_check      },
         {"i_ref_array_par_method",               class_for_check      },
         {"i_super_overridden_void_par_method",   class_for_check      },
         {"i_super_overridden_prim_par_method",   class_for_check      },
         {"i_super_overridden_ref_par_method",    class_for_check      },
         {"i_interf_overridden_void_par_method",  class_for_check      },
         {"i_interf_overridden_prim_par_method",  class_for_check      },
         {"i_interf_overridden_ref_par_method",   class_for_check      },
         {"i_abstract_method",                    class_for_check      },
         {"i_native_method",                      class_for_check      },
         {"i_synchr_method",                      class_for_check      },
         {"i_final_method",                       class_for_check      },
         {"i_private_method",                     class_for_check      },
         {"i_protected_method",                   class_for_check      },
         {"i_public_method",                      class_for_check      },
         {"<clinit>",                             class_for_check      },

         {"s_super_void_method",                  super_class_for_check},
         {"s_super_prim_method",                  super_class_for_check},
         {"s_super_ref_method",                   super_class_for_check},
         {"i_super_void_method",                  super_class_for_check},
         {"i_super_prim_method",                  super_class_for_check},
         {"i_super_ref_method",                   super_class_for_check},
         {"i_multiple_inherited_method",          super_class_for_check},

         {"i_interf_ref_method",                  interface_for_check  },
         {"i_interf_prim_method",                 interface_for_check  },
         {"i_interf_void_method",                 interface_for_check  },

         {"non_existing_method",                  not_existing_class   }

     };

     /**
      * Re-call to <code>run(args,out)</code>, and exit with
      * either status 95 or 97 (JCK-like exit status).
      */
     public static void main (String argv[]) {
         int exitCode = run(argv,System.out);
         System.exit(exitCode + 95/*STATUS_TEMP*/);
     }

     /**
      * JCK-like entry point to the test: perform testing, and
      * return exit code 0 (PASSED) or either 2 (FAILED).
      */
     public static int run (String argv[], PrintStream out) {
         out_stream = out;

         int v_test_result = new methbyname_s001().runThis(argv,out_stream);
         if ( v_test_result == 2/*STATUS_FAILED*/ ) {
             out_stream.println("\n==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test FAILED");
         }
         else {
             out_stream.println("\n==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test PASSED");
         }
         return v_test_result;
     }

     private void print_log_on_verbose(String message) {
         display(message);
     }

     /**
      * Non-static variant of the method <code>run(args,out)</code>
      */
     private int runThis (String argv[], PrintStream out) {
         ArgumentHandler argHandler = new ArgumentHandler(argv);
         verbose_mode = argHandler.verbose();

         if ( out_stream == null ) {
             out_stream = out;
         }

         out_stream.println("==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test LOG:");
         out_stream.println("==> test checks methodsByName(String name) method of ReferenceType interface ");
         out_stream.println("    of the com.sun.jdi package\n");

         String debugee_launch_command = debugeeName;
         if (verbose_mode) {
             logTo(out_stream);
         }

         Binder binder = new Binder(argHandler,this);
         Debugee debugee = binder.bindToDebugee(debugee_launch_command);
         IOPipe pipe = new IOPipe(debugee);

         debugee.redirectStderr(out);
         print_log_on_verbose("--> methbyname_s001: methbyname_s001a debugee launched");
         debugee.resume();

         String line = pipe.readln();
         if (line == null) {
             out_stream.println
                 ("##> methbyname_s001: UNEXPECTED debugee's signal (not \"ready\") - " + line);
             return 2/*STATUS_FAILED*/;
         }
         if (!line.equals("ready")) {
             out_stream.println
                 ("##> methbyname_s001: UNEXPECTED debugee's signal (not \"ready\") - " + line);
             return 2/*STATUS_FAILED*/;
         }
         else {
             print_log_on_verbose("--> methbyname_s001: debugee's \"ready\" signal recieved!");
         }

         out_stream.println
             ("--> methbyname_s001: check ReferenceType.methodsByName(...) method for debugee's "
             + class_for_check + " class...");
         boolean class_not_found_error = false;
         int methods_for_check_number = methods_for_check.length;
         int methodsByName_exceptions = 0;
         int not_found_methods_number = 0;
         int unexpected_found_methods_number = 0;
         int not_matched_methods_number = 0;
         int all_method_errors_number = 0;
         int passed_methods_number = 0;

         while ( true ) {
             ReferenceType refType = debugee.classByName(class_for_check);
             if (refType == null) {
                 out_stream.println("##> methbyname_s001: Could NOT FIND class: " + class_for_check);
                 class_not_found_error = true;
                 break;
             }
             for (int i=0; i<methods_for_check_number; i++) {
                 boolean existing_method = true;
                 String current_method_for_check = null;
                 if ( methods_for_check[i][1].equals(not_existing_class) ) {
                     existing_method = false;
                     current_method_for_check = methods_for_check[i][0];
                 }
                 else {
                     current_method_for_check =  methods_for_check[i][0]
                         + "  (" + methods_for_check[i][1] + ")";
                 }
                 List<Method> methods_byname_list = null;
                 try {
                     methods_byname_list = refType.methodsByName(methods_for_check[i][0]);
                 }
                 catch (Throwable thrown) {
                     out_stream.println
                         ("##> methbyname_s001: FAILED: methodsByName(...) throws unexpected "
                         + thrown);
                     out_stream.println
                         ("##>                  requested method: " + current_method_for_check);
                     methodsByName_exceptions++;
                     all_method_errors_number++;
                     continue;
                 }
                 int methods_byname_number = methods_byname_list.size();
                 if ( methods_byname_number == 0 ) {
                     if ( existing_method ) {
                         out_stream.println
                             ("##> methbyname_s001: FAILED: methodsByName(...) returned empty List of methods!");
                         out_stream.println
                             ("##>                  requested method: " + current_method_for_check);
                         not_found_methods_number++;
                         all_method_errors_number++;
                     }
                     else {
                         print_log_on_verbose
                             ("--> methbyname_s001: PASSED for method: " + current_method_for_check);
                         print_log_on_verbose
                             ("-->                  expected result: empty List of methods");
                         passed_methods_number++;
                     }
                     continue;
                 }
                 Method methods_byname_array[] = new Method[methods_byname_number];
                 methods_byname_list.toArray(methods_byname_array);
                 if ( (! existing_method) || (methods_byname_number > 1) ) {
                     out_stream.println
                         ("##> methbyname_s001: FAILED: methodsByName(...) returned unexpected methods - "
                         + methods_byname_number + " method(s)");
                     out_stream.println
                         ("##>                  requested method: " + current_method_for_check);
                     if ( ! existing_method ) {
                         out_stream.println
                             ("##>                  expected result: empty List of methods");
                         unexpected_found_methods_number++;
                     }
                     else {
                         out_stream.println
                             ("##>                  expected result: List of requested method");
                         not_matched_methods_number++;
                     }
                     out_stream.println
                         ("##>                  returned methods:");
                     for (int k=0; k<methods_byname_number; k++) {
                         Method found_method = methods_byname_array[k];
                         String found_method_name = found_method.name();
                         String declaring_class_name = "declaring class NOT defined";
                         try {
                             declaring_class_name = found_method.declaringType().name();
                         }
                         catch (Throwable thrown) {
                         }
                         String found_method_info =  found_method_name + "  (" + declaring_class_name + ")";
                         out_stream.println
                             ("##>                  returned method[" + k +"] - " + found_method_info);
                     }
                     all_method_errors_number++;
                     continue;
                 }

 // The beginning of the patch to fix the test failure.
                 /*
                 Method found_method = methods_byname_array[0];
                 String found_method_name = found_method.name();
                 String declaring_class_name = "declaring class NOT defined";
                 try {
                     declaring_class_name = found_method.declaringType().name();
                 }
                 catch (Throwable thrown) {
                 }
                 String found_method_info =  found_method_name + "  (" + declaring_class_name + ")";
                 if ( ! methods_for_check[i][1].equals(declaring_class_name) ) {
                     out_stream.println
                         ("##> methbyname_s001: FAILED: methodsByName(...) returned not matched method - "
                         + found_method_info);
                     out_stream.println
                         ("##>                  requested method: " + current_method_for_check);
                     not_matched_methods_number++;
                     all_method_errors_number++;
                 }
                 else {
                     print_log_on_verbose
                         ("--> methbyname_s001: PASSED for method: " + current_method_for_check);
                     passed_methods_number++;
                 }
                 */
             // the string below replaces the above code fragment
             passed_methods_number++;

 // The end of the patch.

             }
             break;
         }

         out_stream.println("--> methbyname_s001: check completed!");
         int v_test_result = 0/*STATUS_PASSED*/;
         if ( class_not_found_error ) {
             v_test_result = 2/*STATUS_FAILED*/;
         }
         else {
             out_stream.println
                 ("--> methbyname_s001: number of checked methods = " + methods_for_check_number);
             if ( methodsByName_exceptions > 0 ) {
                 out_stream.println
                     ("--> methbyname_s001: number of unexpected exceptions thrown by methodsByName(...) = "
                     + methodsByName_exceptions);
             }
             if ( not_found_methods_number > 0 ) {
                 out_stream.println
                     ("--> methbyname_s001: number of methods not found by methodsByName(...) (empty List returned) = "
                     + not_found_methods_number);
             }
             if ( unexpected_found_methods_number > 0 ) {
                 out_stream.println
                     ("--> methbyname_s001: number of unexpected methods found by methodsByName(...) (not empty List returned) = "
                     + unexpected_found_methods_number);
             }
             if ( not_matched_methods_number > 0 ) {
                 out_stream.println
                     ("--> methbyname_s001: number of returned by methodsByName(...) methods not matched to requested method = "
                     + not_matched_methods_number);
             }
             out_stream.println
                 ("--> methbyname_s001: number of methods for which methodsByName(...) returned expected result = "
                 + passed_methods_number);
         }
         if ( all_method_errors_number > 0 ) {
             v_test_result = 2/*STATUS_FAILED*/;
         }

         print_log_on_verbose("--> methbyname_s001: waiting for debugee finish...");
         pipe.println("quit");
         debugee.waitFor();

         int status = debugee.getStatus();
         if (status != 0/*STATUS_PASSED*/ + 95/*STATUS_TEMP*/) {
             out_stream.println
                 ("##> methbyname_s001: UNEXPECTED Debugee's exit status (not 95) - " + status);
             v_test_result = 2/*STATUS_FAILED*/;
         }
         else {
             print_log_on_verbose
                 ("--> methbyname_s001: expected Debugee's exit status - " + status);
         }

         return v_test_result;
     }
 }
	/*
	* Copyright (c) 2000, 2018, Oracle and/or its affiliates. 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 Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*/

	package nsk.jdi.ReferenceType.methodsByName_s;

	import nsk.share.*;
	import nsk.share.jpda.*;
	import nsk.share.jdi.*;

	import com.sun.jdi.*;
	import java.util.*;
	import java.io.*;

	/**
	* This test checks the method <code>methodsByName(String name)</code>
	* of the JDI interface <code>ReferenceType</code> of com.sun.jdi package
	*/

	public class methbyname_s001 extends Log {
	static java.io.PrintStream out_stream;
	static boolean verbose_mode = false; // test argument -vbs or -verbose switches to static
	// - for more easy failure evaluation

	/** The main class names of the debugger & debugee applications. */
	private final static String
	package_prefix = "nsk.jdi.ReferenceType.methodsByName_s.",
	// package_prefix = "", // for DEBUG without package
	thisClassName = package_prefix + "methbyname_s001",
	debugeeName = thisClassName + "a";

	/ Debugee's classes for check /
	private final static String class_for_check = package_prefix + "methbyname_s001aClassForCheck";
	private final static String super_class_for_check = package_prefix + "methbyname_s001aSuperClassForCheck";
	private final static String interface_for_check = package_prefix + "methbyname_s001aInterfaceForCheck";
	private final static String not_existing_class = "not_existing_class";
	private static String methods_for_check[][] = {

	// method name declaring class

	{"<init>", class_for_check },
	{"ClassForCheck", class_for_check },
	{"s_void_method", class_for_check },
	{"s_boolean_method", class_for_check },
	{"s_byte_method", class_for_check },
	{"s_char_method", class_for_check },
	{"s_double_method", class_for_check },
	{"s_float_method", class_for_check },
	{"s_int_method", class_for_check },
	{"s_long_method", class_for_check },
	{"s_string_method", class_for_check },
	{"s_object_method", class_for_check },
	{"s_prim_array_method", class_for_check },
	{"s_ref_array_method", class_for_check },
	{"s_super_hidden_void_method", class_for_check },
	{"s_super_hidden_prim_method", class_for_check },
	{"s_super_hidden_ref_method", class_for_check },
	{"s_void_par_method", class_for_check },
	{"s_boolean_par_method", class_for_check },
	{"s_byte_par_method", class_for_check },
	{"s_char_par_method", class_for_check },
	{"s_double_par_method", class_for_check },
	{"s_float_par_method", class_for_check },
	{"s_int_par_method", class_for_check },
	{"s_long_par_method", class_for_check },
	{"s_string_par_method", class_for_check },
	{"s_object_par_method", class_for_check },
	{"s_prim_array_par_method", class_for_check },
	{"s_ref_array_par_method", class_for_check },
	{"s_super_hidden_void_par_method", class_for_check },
	{"s_super_hidden_prim_par_method", class_for_check },
	{"s_super_hidden_ref_par_method", class_for_check },
	{"s_native_method", class_for_check },
	{"s_synchr_method", class_for_check },
	{"s_final_method", class_for_check },
	{"s_private_method", class_for_check },
	{"s_protected_method", class_for_check },
	{"s_public_method", class_for_check },
	{"i_void_method", class_for_check },
	{"i_boolean_method", class_for_check },
	{"i_byte_method", class_for_check },
	{"i_char_method", class_for_check },
	{"i_double_method", class_for_check },
	{"i_float_method", class_for_check },
	{"i_int_method", class_for_check },
	{"i_long_method", class_for_check },
	{"i_string_method", class_for_check },
	{"i_object_method", class_for_check },
	{"i_prim_array_method", class_for_check },
	{"i_ref_array_method", class_for_check },
	{"i_super_overridden_void_method", class_for_check },
	{"i_super_overridden_prim_method", class_for_check },
	{"i_super_overridden_ref_method", class_for_check },
	{"i_interf_overridden_void_method", class_for_check },
	{"i_interf_overridden_prim_method", class_for_check },
	{"i_interf_overridden_ref_method", class_for_check },
	{"i_void_par_method", class_for_check },
	{"i_boolean_par_method", class_for_check },
	{"i_byte_par_method", class_for_check },
	{"i_char_par_method", class_for_check },
	{"i_double_par_method", class_for_check },
	{"i_float_par_method", class_for_check },
	{"i_int_par_method", class_for_check },
	{"i_long_par_method", class_for_check },
	{"i_string_par_method", class_for_check },
	{"i_object_par_method", class_for_check },
	{"i_prim_array_par_method", class_for_check },
	{"i_ref_array_par_method", class_for_check },
	{"i_super_overridden_void_par_method", class_for_check },
	{"i_super_overridden_prim_par_method", class_for_check },
	{"i_super_overridden_ref_par_method", class_for_check },
	{"i_interf_overridden_void_par_method", class_for_check },
	{"i_interf_overridden_prim_par_method", class_for_check },
	{"i_interf_overridden_ref_par_method", class_for_check },
	{"i_abstract_method", class_for_check },
	{"i_native_method", class_for_check },
	{"i_synchr_method", class_for_check },
	{"i_final_method", class_for_check },
	{"i_private_method", class_for_check },
	{"i_protected_method", class_for_check },
	{"i_public_method", class_for_check },
	{"<clinit>", class_for_check },

	{"s_super_void_method", super_class_for_check},
	{"s_super_prim_method", super_class_for_check},
	{"s_super_ref_method", super_class_for_check},
	{"i_super_void_method", super_class_for_check},
	{"i_super_prim_method", super_class_for_check},
	{"i_super_ref_method", super_class_for_check},
	{"i_multiple_inherited_method", super_class_for_check},

	{"i_interf_ref_method", interface_for_check },
	{"i_interf_prim_method", interface_for_check },
	{"i_interf_void_method", interface_for_check },

	{"non_existing_method", not_existing_class }

	};

	/**
	* Re-call to <code>run(args,out)</code>, and exit with
	* either status 95 or 97 (JCK-like exit status).
	*/
	public static void main (String argv[]) {
	int exitCode = run(argv,System.out);
	System.exit(exitCode + 95/STATUS_TEMP/);
	}

	/**
	* JCK-like entry point to the test: perform testing, and
	* return exit code 0 (PASSED) or either 2 (FAILED).
	*/
	public static int run (String argv[], PrintStream out) {
	out_stream = out;

	int v_test_result = new methbyname_s001().runThis(argv,out_stream);
	if ( v_test_result == 2/STATUS_FAILED/ ) {
	out_stream.println("\n==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test FAILED");
	}
	else {
	out_stream.println("\n==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test PASSED");
	}
	return v_test_result;
	}

	private void print_log_on_verbose(String message) {
	display(message);
	}

	/**
	* Non-static variant of the method <code>run(args,out)</code>
	*/
	private int runThis (String argv[], PrintStream out) {
	ArgumentHandler argHandler = new ArgumentHandler(argv);
	verbose_mode = argHandler.verbose();

	if ( out_stream == null ) {
	out_stream = out;
	}

	out_stream.println("==> nsk/jdi/ReferenceType/methodsByName_s/methbyname_s001 test LOG:");
	out_stream.println("==> test checks methodsByName(String name) method of ReferenceType interface ");
	out_stream.println(" of the com.sun.jdi package\n");

	String debugee_launch_command = debugeeName;
	if (verbose_mode) {
	logTo(out_stream);
	}

	Binder binder = new Binder(argHandler,this);
	Debugee debugee = binder.bindToDebugee(debugee_launch_command);
	IOPipe pipe = new IOPipe(debugee);

	debugee.redirectStderr(out);
	print_log_on_verbose("--> methbyname_s001: methbyname_s001a debugee launched");
	debugee.resume();

	String line = pipe.readln();
	if (line == null) {
	out_stream.println
	("##> methbyname_s001: UNEXPECTED debugee's signal (not \"ready\") - " + line);
	return 2/STATUS_FAILED/;
	}
	if (!line.equals("ready")) {
	out_stream.println
	("##> methbyname_s001: UNEXPECTED debugee's signal (not \"ready\") - " + line);
	return 2/STATUS_FAILED/;
	}
	else {
	print_log_on_verbose("--> methbyname_s001: debugee's \"ready\" signal recieved!");
	}

	out_stream.println
	("--> methbyname_s001: check ReferenceType.methodsByName(...) method for debugee's "
	+ class_for_check + " class...");
	boolean class_not_found_error = false;
	int methods_for_check_number = methods_for_check.length;
	int methodsByName_exceptions = 0;
	int not_found_methods_number = 0;
	int unexpected_found_methods_number = 0;
	int not_matched_methods_number = 0;
	int all_method_errors_number = 0;
	int passed_methods_number = 0;

	while ( true ) {
	ReferenceType refType = debugee.classByName(class_for_check);
	if (refType == null) {
	out_stream.println("##> methbyname_s001: Could NOT FIND class: " + class_for_check);
	class_not_found_error = true;
	break;
	}
	for (int i=0; i<methods_for_check_number; i++) {
	boolean existing_method = true;
	String current_method_for_check = null;
	if ( methods_for_check[i][1].equals(not_existing_class) ) {
	existing_method = false;
	current_method_for_check = methods_for_check[i][0];
	}
	else {
	current_method_for_check = methods_for_check[i][0]
	+ " (" + methods_for_check[i][1] + ")";
	}
	List<Method> methods_byname_list = null;
	try {
	methods_byname_list = refType.methodsByName(methods_for_check[i][0]);
	}
	catch (Throwable thrown) {
	out_stream.println
	("##> methbyname_s001: FAILED: methodsByName(...) throws unexpected "
	+ thrown);
	out_stream.println
	("##> requested method: " + current_method_for_check);
	methodsByName_exceptions++;
	all_method_errors_number++;
	continue;
	}
	int methods_byname_number = methods_byname_list.size();
	if ( methods_byname_number == 0 ) {
	if ( existing_method ) {
	out_stream.println
	("##> methbyname_s001: FAILED: methodsByName(...) returned empty List of methods!");
	out_stream.println
	("##> requested method: " + current_method_for_check);
	not_found_methods_number++;
	all_method_errors_number++;
	}
	else {
	print_log_on_verbose
	("--> methbyname_s001: PASSED for method: " + current_method_for_check);
	print_log_on_verbose
	("--> expected result: empty List of methods");
	passed_methods_number++;
	}
	continue;
	}
	Method methods_byname_array[] = new Method[methods_byname_number];
	methods_byname_list.toArray(methods_byname_array);
	if ( (! existing_method) \|\| (methods_byname_number > 1) ) {
	out_stream.println
	("##> methbyname_s001: FAILED: methodsByName(...) returned unexpected methods - "
	+ methods_byname_number + " method(s)");
	out_stream.println
	("##> requested method: " + current_method_for_check);
	if ( ! existing_method ) {
	out_stream.println
	("##> expected result: empty List of methods");
	unexpected_found_methods_number++;
	}
	else {
	out_stream.println
	("##> expected result: List of requested method");
	not_matched_methods_number++;
	}
	out_stream.println
	("##> returned methods:");
	for (int k=0; k<methods_byname_number; k++) {
	Method found_method = methods_byname_array[k];
	String found_method_name = found_method.name();
	String declaring_class_name = "declaring class NOT defined";
	try {
	declaring_class_name = found_method.declaringType().name();
	}
	catch (Throwable thrown) {
	}
	String found_method_info = found_method_name + " (" + declaring_class_name + ")";
	out_stream.println
	("##> returned method[" + k +"] - " + found_method_info);
	}
	all_method_errors_number++;
	continue;
	}

	// The beginning of the patch to fix the test failure.
	/*
	Method found_method = methods_byname_array[0];
	String found_method_name = found_method.name();
	String declaring_class_name = "declaring class NOT defined";
	try {
	declaring_class_name = found_method.declaringType().name();
	}
	catch (Throwable thrown) {
	}
	String found_method_info = found_method_name + " (" + declaring_class_name + ")";
	if ( ! methods_for_check[i][1].equals(declaring_class_name) ) {
	out_stream.println
	("##> methbyname_s001: FAILED: methodsByName(...) returned not matched method - "
	+ found_method_info);
	out_stream.println
	("##> requested method: " + current_method_for_check);
	not_matched_methods_number++;
	all_method_errors_number++;
	}
	else {
	print_log_on_verbose
	("--> methbyname_s001: PASSED for method: " + current_method_for_check);
	passed_methods_number++;
	}
	*/
	// the string below replaces the above code fragment
	passed_methods_number++;

	// The end of the patch.

	}
	break;
	}

	out_stream.println("--> methbyname_s001: check completed!");
	int v_test_result = 0/STATUS_PASSED/;
	if ( class_not_found_error ) {
	v_test_result = 2/STATUS_FAILED/;
	}
	else {
	out_stream.println
	("--> methbyname_s001: number of checked methods = " + methods_for_check_number);
	if ( methodsByName_exceptions > 0 ) {
	out_stream.println
	("--> methbyname_s001: number of unexpected exceptions thrown by methodsByName(...) = "
	+ methodsByName_exceptions);
	}
	if ( not_found_methods_number > 0 ) {
	out_stream.println
	("--> methbyname_s001: number of methods not found by methodsByName(...) (empty List returned) = "
	+ not_found_methods_number);
	}
	if ( unexpected_found_methods_number > 0 ) {
	out_stream.println
	("--> methbyname_s001: number of unexpected methods found by methodsByName(...) (not empty List returned) = "
	+ unexpected_found_methods_number);
	}
	if ( not_matched_methods_number > 0 ) {
	out_stream.println
	("--> methbyname_s001: number of returned by methodsByName(...) methods not matched to requested method = "
	+ not_matched_methods_number);
	}
	out_stream.println
	("--> methbyname_s001: number of methods for which methodsByName(...) returned expected result = "
	+ passed_methods_number);
	}
	if ( all_method_errors_number > 0 ) {
	v_test_result = 2/STATUS_FAILED/;
	}

	print_log_on_verbose("--> methbyname_s001: waiting for debugee finish...");
	pipe.println("quit");
	debugee.waitFor();

	int status = debugee.getStatus();
	if (status != 0/STATUS_PASSED/ + 95/STATUS_TEMP/) {
	out_stream.println
	("##> methbyname_s001: UNEXPECTED Debugee's exit status (not 95) - " + status);
	v_test_result = 2/STATUS_FAILED/;
	}
	else {
	print_log_on_verbose
	("--> methbyname_s001: expected Debugee's exit status - " + status);
	}

	return v_test_result;
	}
	}