test/hotspot/jtreg/vmTestbase/nsk/jdi/DoubleValue/value/value001.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.DoubleValue.value;

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

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

 /**
  * The test for the implementation of an object of the type     <BR>
  * DoubleValue.                                                 <BR>
  *                                                              <BR>
  * The test checks up that results of the method                <BR>
  * <code>com.sun.jdi.DoubleValue.value()</code>                 <BR>
  * complies with its spec.                                      <BR>
  * <BR>
  * The cases for testing are as follows :               <BR>
  *                                                      <BR>
  * when a gebuggee executes the following :                             <BR>
  *      public static double pos_inf      =  Double.POSITIVE_INFINITY;  <BR>
  *      public static double pos_zero     =  0.0d;                      <BR>
  *      public static double neg_zero     = -0.0d;                      <BR>
  *      public static double neg_inf      =  Double.NEGATIVE_INFINITY;  <BR>
  *      public static double pos_largest  =  Double.MAX_VALUE;          <BR>
  *      public static double pos_smallest =  Double.MIN_VALUE;          <BR>
  *      public static double neg_largest  = -Double.MAX_VALUE;          <BR>
  *      public static double neg_smallest = -Double.MIN_VALUE;          <BR>
  *      public static double double_nan   =  Double.NaN;                <BR>
  *                                                                      <BR>
  * which a debugger mirros as :                         <BR>
  *                                                      <BR>
  *      DoubleValue dvpos_inf;                          <BR>
  *      DoubleValue dvpos_zero;                         <BR>
  *      DoubleValue dvneg_zero;                         <BR>
  *      DoubleValue dvneg_inf;                          <BR>
  *      DoubleValue dvpos_largest;                      <BR>
  *      DoubleValue dvpos_smallest;                     <BR>
  *      DoubleValue dvneg_largest;                      <BR>
  *      DoubleValue dvneg_smallest;                     <BR>
  *      DoubleValue dvdouble_nan;                       <BR>
  *                                                      <BR>
  * the following is true:                               <BR>
  *                                                              <BR>
  *      dvneg_inf.value()      == Double.NEGATIVE_INFINITY      <BR>
  *      dvneg_largest.value()  == -Double.MAX_VALUE             <BR>
  *      dvneg_smallest.value() == -Double.MIN_VALUE             <BR>
  *      dvneg_zero.value()     == -0.0d                         <BR>
  *      dvpos_zero.value()     ==  0.0d                         <BR>
  *      dvpos_smallest.value() == Double.MIN_VALUE              <BR>
  *      dvpos_largest.value()  == Double.MAX_VALUE              <BR>
  *      dvpos_inf.value()      == Double.POSITIVE_INFINITY      <BR>
  *      dvdouble_nan.value()   != dvdouble_nan.value()          <BR>
  * <BR>
  */

 public class value001 {

     //----------------------------------------------------- templete section
     static final int PASSED = 0;
     static final int FAILED = 2;
     static final int PASS_BASE = 95;

     //----------------------------------------------------- templete parameters
     static final String
     sHeader1 = "\n==> nsk/jdi/DoubleValue/value/value001",
     sHeader2 = "--> value001: ",
     sHeader3 = "##> value001: ";

     //----------------------------------------------------- main method

     public static void main (String argv[]) {
         int result = run(argv, System.out);
         System.exit(result + PASS_BASE);
     }

     public static int run (String argv[], PrintStream out) {
         return new value001().runThis(argv, out);
     }

      //--------------------------------------------------   log procedures

     private static boolean verbMode = false;

     private static Log  logHandler;

     private static void log1(String message) {
         logHandler.display(sHeader1 + message);
     }
     private static void log2(String message) {
         logHandler.display(sHeader2 + message);
     }
     private static void log3(String message) {
         logHandler.complain(sHeader3 + message);
     }

     //  ************************************************    test parameters

     private String debuggeeName =
         "nsk.jdi.DoubleValue.value.value001a";

     //====================================================== test program

     static ArgumentHandler      argsHandler;
     static int                  testExitCode = PASSED;

     //------------------------------------------------------ common section

     private int runThis (String argv[], PrintStream out) {

         Debugee debuggee;

         argsHandler     = new ArgumentHandler(argv);
         logHandler      = new Log(out, argsHandler);
         Binder binder   = new Binder(argsHandler, logHandler);

         if (argsHandler.verbose()) {
             debuggee = binder.bindToDebugee(debuggeeName + " -vbs");  // *** tp
         } else {
             debuggee = binder.bindToDebugee(debuggeeName);            // *** tp
         }

         IOPipe pipe     = new IOPipe(debuggee);

         debuggee.redirectStderr(out);
         log2("value001a debuggee launched");
         debuggee.resume();

         String line = pipe.readln();
         if ((line == null) || !line.equals("ready")) {
             log3("signal received is not 'ready' but: " + line);
             return FAILED;
         } else {
             log2("'ready' recieved");
         }

         VirtualMachine vm = debuggee.VM();

     //------------------------------------------------------  testing section
         log1("      TESTING BEGINS");

         for (int i = 0; ; i++) {
             pipe.println("newcheck");
             line = pipe.readln();

             if (line.equals("checkend")) {
                 log2("     : returned string is 'checkend'");
                 break ;
             } else if (!line.equals("checkready")) {
                 log3("ERROR: returned string is not 'checkready'");
                 testExitCode = FAILED;
                 break ;
             }

             log1("new check: #" + i);

             //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part

             List listOfDebuggeeExecClasses = vm.classesByName(debuggeeName);
             if (listOfDebuggeeExecClasses.size() != 1) {
                 testExitCode = FAILED;
                 log3("ERROR: listOfDebuggeeExecClasses.size() != 1");
                 break ;
             }
             ReferenceType execClass =
                         (ReferenceType) listOfDebuggeeExecClasses.get(0);

             Field fdneg_inf      = execClass.fieldByName("neg_inf");
             Field fdneg_largest  = execClass.fieldByName("neg_largest");
             Field fdneg_smallest = execClass.fieldByName("neg_smallest");
             Field fdneg_zero     = execClass.fieldByName("neg_zero");
             Field fdpos_zero     = execClass.fieldByName("pos_zero");
             Field fdpos_smallest = execClass.fieldByName("pos_smallest");
             Field fdpos_largest  = execClass.fieldByName("pos_largest");
             Field fdpos_inf      = execClass.fieldByName("pos_inf");
             Field fddouble_nan   = execClass.fieldByName("double_nan");

             DoubleValue dvneg_inf      = (DoubleValue) execClass.getValue(fdneg_inf);
             DoubleValue dvneg_largest  = (DoubleValue) execClass.getValue(fdneg_largest);
             DoubleValue dvneg_smallest = (DoubleValue) execClass.getValue(fdneg_smallest);
             DoubleValue dvneg_zero     = (DoubleValue) execClass.getValue(fdneg_zero);
             DoubleValue dvpos_zero     = (DoubleValue) execClass.getValue(fdpos_zero);
             DoubleValue dvpos_smallest = (DoubleValue) execClass.getValue(fdpos_smallest);
             DoubleValue dvpos_largest  = (DoubleValue) execClass.getValue(fdpos_largest);
             DoubleValue dvpos_inf      = (DoubleValue) execClass.getValue(fdpos_inf);
             DoubleValue dvdouble_nan   = (DoubleValue) execClass.getValue(fddouble_nan);

             int i2;

             for (i2 = 0; ; i2++) {

                 int expresult = 0;

                 log2("new check: #" + i2);

                 switch (i2) {

             case 0: if (dvneg_inf.value() != Double.NEGATIVE_INFINITY)
                         expresult = 1;
                     break;

             case 1: if (dvneg_largest.value() != -Double.MAX_VALUE)
                         expresult = 1;
                     break;

             case 2: if (dvneg_smallest.value() != -Double.MIN_VALUE)
                         expresult = 1;
                     break;

             case 3: if (dvneg_zero.value() != -0.0d)
                         expresult = 1;
                     break;

             case 4: if (dvpos_zero.value() != 0.0d)
                         expresult = 1;
                     break;

             case 5: if (dvpos_smallest.value() != Double.MIN_VALUE)
                         expresult = 1;
                     break;

             case 6: if (dvpos_largest.value() != Double.MAX_VALUE)
                         expresult = 1;
                     break;

             case 7: if (dvpos_inf.value() != Double.POSITIVE_INFINITY)
                         expresult = 1;
                     break;

             case 8: if ( !(dvdouble_nan.value() != dvdouble_nan.value()) )
                         expresult = 1;
                     break;


                 default: expresult = 2;
                          break ;
                 }

                 if (expresult == 2) {
                     log2("      test cases finished");
                     break ;
                 } else if (expresult == 1) {
                     log3("ERROR: expresult != true;  check # = " + i);
                     testExitCode = FAILED;
                 }
             }
             //~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
         }
         log1("      TESTING ENDS");

     //--------------------------------------------------   test summary section
     //-------------------------------------------------    standard end section

         pipe.println("quit");
         log2("waiting for the debuggee to finish ...");
         debuggee.waitFor();

         int status = debuggee.getStatus();
         if (status != PASSED + PASS_BASE) {
             log3("debuggee returned UNEXPECTED exit status: " +
                    status + " != PASS_BASE");
             testExitCode = FAILED;
         } else {
             log2("debuggee returned expected exit status: " +
                    status + " == PASS_BASE");
         }

         if (testExitCode != PASSED) {
             logHandler.complain("TEST FAILED");
         }
         return testExitCode;
     }
 }
	/*
	* 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.DoubleValue.value;

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

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

	/**
	* The test for the implementation of an object of the type <BR>
	* DoubleValue. <BR>
	* <BR>
	* The test checks up that results of the method <BR>
	* <code>com.sun.jdi.DoubleValue.value()</code> <BR>
	* complies with its spec. <BR>
	* <BR>
	* The cases for testing are as follows : <BR>
	* <BR>
	* when a gebuggee executes the following : <BR>
	* public static double pos_inf = Double.POSITIVE_INFINITY; <BR>
	* public static double pos_zero = 0.0d; <BR>
	* public static double neg_zero = -0.0d; <BR>
	* public static double neg_inf = Double.NEGATIVE_INFINITY; <BR>
	* public static double pos_largest = Double.MAX_VALUE; <BR>
	* public static double pos_smallest = Double.MIN_VALUE; <BR>
	* public static double neg_largest = -Double.MAX_VALUE; <BR>
	* public static double neg_smallest = -Double.MIN_VALUE; <BR>
	* public static double double_nan = Double.NaN; <BR>
	* <BR>
	* which a debugger mirros as : <BR>
	* <BR>
	* DoubleValue dvpos_inf; <BR>
	* DoubleValue dvpos_zero; <BR>
	* DoubleValue dvneg_zero; <BR>
	* DoubleValue dvneg_inf; <BR>
	* DoubleValue dvpos_largest; <BR>
	* DoubleValue dvpos_smallest; <BR>
	* DoubleValue dvneg_largest; <BR>
	* DoubleValue dvneg_smallest; <BR>
	* DoubleValue dvdouble_nan; <BR>
	* <BR>
	* the following is true: <BR>
	* <BR>
	* dvneg_inf.value() == Double.NEGATIVE_INFINITY <BR>
	* dvneg_largest.value() == -Double.MAX_VALUE <BR>
	* dvneg_smallest.value() == -Double.MIN_VALUE <BR>
	* dvneg_zero.value() == -0.0d <BR>
	* dvpos_zero.value() == 0.0d <BR>
	* dvpos_smallest.value() == Double.MIN_VALUE <BR>
	* dvpos_largest.value() == Double.MAX_VALUE <BR>
	* dvpos_inf.value() == Double.POSITIVE_INFINITY <BR>
	* dvdouble_nan.value() != dvdouble_nan.value() <BR>
	* <BR>
	*/

	public class value001 {

	//----------------------------------------------------- templete section
	static final int PASSED = 0;
	static final int FAILED = 2;
	static final int PASS_BASE = 95;

	//----------------------------------------------------- templete parameters
	static final String
	sHeader1 = "\n==> nsk/jdi/DoubleValue/value/value001",
	sHeader2 = "--> value001: ",
	sHeader3 = "##> value001: ";

	//----------------------------------------------------- main method

	public static void main (String argv[]) {
	int result = run(argv, System.out);
	System.exit(result + PASS_BASE);
	}

	public static int run (String argv[], PrintStream out) {
	return new value001().runThis(argv, out);
	}

	//-------------------------------------------------- log procedures

	private static boolean verbMode = false;

	private static Log logHandler;

	private static void log1(String message) {
	logHandler.display(sHeader1 + message);
	}
	private static void log2(String message) {
	logHandler.display(sHeader2 + message);
	}
	private static void log3(String message) {
	logHandler.complain(sHeader3 + message);
	}

	// ************************************************ test parameters

	private String debuggeeName =
	"nsk.jdi.DoubleValue.value.value001a";

	//====================================================== test program

	static ArgumentHandler argsHandler;
	static int testExitCode = PASSED;

	//------------------------------------------------------ common section

	private int runThis (String argv[], PrintStream out) {

	Debugee debuggee;

	argsHandler = new ArgumentHandler(argv);
	logHandler = new Log(out, argsHandler);
	Binder binder = new Binder(argsHandler, logHandler);

	if (argsHandler.verbose()) {
	debuggee = binder.bindToDebugee(debuggeeName + " -vbs"); // *** tp
	} else {
	debuggee = binder.bindToDebugee(debuggeeName); // *** tp
	}

	IOPipe pipe = new IOPipe(debuggee);

	debuggee.redirectStderr(out);
	log2("value001a debuggee launched");
	debuggee.resume();

	String line = pipe.readln();
	if ((line == null) \|\| !line.equals("ready")) {
	log3("signal received is not 'ready' but: " + line);
	return FAILED;
	} else {
	log2("'ready' recieved");
	}

	VirtualMachine vm = debuggee.VM();

	//------------------------------------------------------ testing section
	log1(" TESTING BEGINS");

	for (int i = 0; ; i++) {
	pipe.println("newcheck");
	line = pipe.readln();

	if (line.equals("checkend")) {
	log2(" : returned string is 'checkend'");
	break ;
	} else if (!line.equals("checkready")) {
	log3("ERROR: returned string is not 'checkready'");
	testExitCode = FAILED;
	break ;
	}

	log1("new check: #" + i);

	//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ variable part

	List listOfDebuggeeExecClasses = vm.classesByName(debuggeeName);
	if (listOfDebuggeeExecClasses.size() != 1) {
	testExitCode = FAILED;
	log3("ERROR: listOfDebuggeeExecClasses.size() != 1");
	break ;
	}
	ReferenceType execClass =
	(ReferenceType) listOfDebuggeeExecClasses.get(0);

	Field fdneg_inf = execClass.fieldByName("neg_inf");
	Field fdneg_largest = execClass.fieldByName("neg_largest");
	Field fdneg_smallest = execClass.fieldByName("neg_smallest");
	Field fdneg_zero = execClass.fieldByName("neg_zero");
	Field fdpos_zero = execClass.fieldByName("pos_zero");
	Field fdpos_smallest = execClass.fieldByName("pos_smallest");
	Field fdpos_largest = execClass.fieldByName("pos_largest");
	Field fdpos_inf = execClass.fieldByName("pos_inf");
	Field fddouble_nan = execClass.fieldByName("double_nan");

	DoubleValue dvneg_inf = (DoubleValue) execClass.getValue(fdneg_inf);
	DoubleValue dvneg_largest = (DoubleValue) execClass.getValue(fdneg_largest);
	DoubleValue dvneg_smallest = (DoubleValue) execClass.getValue(fdneg_smallest);
	DoubleValue dvneg_zero = (DoubleValue) execClass.getValue(fdneg_zero);
	DoubleValue dvpos_zero = (DoubleValue) execClass.getValue(fdpos_zero);
	DoubleValue dvpos_smallest = (DoubleValue) execClass.getValue(fdpos_smallest);
	DoubleValue dvpos_largest = (DoubleValue) execClass.getValue(fdpos_largest);
	DoubleValue dvpos_inf = (DoubleValue) execClass.getValue(fdpos_inf);
	DoubleValue dvdouble_nan = (DoubleValue) execClass.getValue(fddouble_nan);

	int i2;

	for (i2 = 0; ; i2++) {

	int expresult = 0;

	log2("new check: #" + i2);

	switch (i2) {

	case 0: if (dvneg_inf.value() != Double.NEGATIVE_INFINITY)
	expresult = 1;
	break;

	case 1: if (dvneg_largest.value() != -Double.MAX_VALUE)
	expresult = 1;
	break;

	case 2: if (dvneg_smallest.value() != -Double.MIN_VALUE)
	expresult = 1;
	break;

	case 3: if (dvneg_zero.value() != -0.0d)
	expresult = 1;
	break;

	case 4: if (dvpos_zero.value() != 0.0d)
	expresult = 1;
	break;

	case 5: if (dvpos_smallest.value() != Double.MIN_VALUE)
	expresult = 1;
	break;

	case 6: if (dvpos_largest.value() != Double.MAX_VALUE)
	expresult = 1;
	break;

	case 7: if (dvpos_inf.value() != Double.POSITIVE_INFINITY)
	expresult = 1;
	break;

	case 8: if ( !(dvdouble_nan.value() != dvdouble_nan.value()) )
	expresult = 1;
	break;


	default: expresult = 2;
	break ;
	}

	if (expresult == 2) {
	log2(" test cases finished");
	break ;
	} else if (expresult == 1) {
	log3("ERROR: expresult != true; check # = " + i);
	testExitCode = FAILED;
	}
	}
	//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
	}
	log1(" TESTING ENDS");

	//-------------------------------------------------- test summary section
	//------------------------------------------------- standard end section

	pipe.println("quit");
	log2("waiting for the debuggee to finish ...");
	debuggee.waitFor();

	int status = debuggee.getStatus();
	if (status != PASSED + PASS_BASE) {
	log3("debuggee returned UNEXPECTED exit status: " +
	status + " != PASS_BASE");
	testExitCode = FAILED;
	} else {
	log2("debuggee returned expected exit status: " +
	status + " == PASS_BASE");
	}

	if (testExitCode != PASSED) {
	logHandler.complain("TEST FAILED");
	}
	return testExitCode;
	}
	}