jdk/test/java/lang/invoke/InvokeGenericTest.java - edge/openjdk - Git at Google

 /*
  * Copyright (c) 2009, 2013, 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.
  */

 /* @test
  * @summary unit tests for java.lang.invoke.MethodHandle.invoke
  * @compile InvokeGenericTest.java
  * @run testng/othervm test.java.lang.invoke.InvokeGenericTest
  */

 package test.java.lang.invoke;

 import java.lang.invoke.*;
 import static java.lang.invoke.MethodHandles.*;
 import static java.lang.invoke.MethodType.*;
 import java.lang.reflect.*;
 import java.util.*;
 import org.testng.*;
 import static org.testng.AssertJUnit.*;
 import org.testng.annotations.*;

 /**
  *
  * @author jrose
  */
 @SuppressWarnings("cast")  // various casts help emphasize arguments to invokeExact
 public class InvokeGenericTest {
     // How much output?
     static int verbosity = 0;
     static {
         String vstr = System.getProperty("test.java.lang.invoke.InvokeGenericTest.verbosity");
         if (vstr != null)  verbosity = Integer.parseInt(vstr);
     }

 //    public static void main(String... av) throws Throwable {
 //        new InvokeGenericTest().testFirst();
 //    }

     @Test
     public void testFirst() throws Throwable {
         verbosity += 9; try {
             // left blank for debugging
         } finally { printCounts(); verbosity -= 9; }
     }

     public InvokeGenericTest() {
     }

     String testName;
     static int allPosTests, allNegTests;
     int posTests, negTests;
     @AfterMethod
     public void printCounts() {
         if (verbosity >= 2 && (posTests | negTests) != 0) {
             System.out.println();
             if (posTests != 0)  System.out.println("=== "+testName+": "+posTests+" positive test cases run");
             if (negTests != 0)  System.out.println("=== "+testName+": "+negTests+" negative test cases run");
             allPosTests += posTests;
             allNegTests += negTests;
             posTests = negTests = 0;
         }
     }
     void countTest(boolean positive) {
         if (positive) ++posTests;
         else          ++negTests;
     }
     void countTest() { countTest(true); }
     void startTest(String name) {
         if (testName != null)  printCounts();
         if (verbosity >= 1)
             System.out.println("["+name+"]");
         posTests = negTests = 0;
         testName = name;
     }

     @BeforeClass
     public static void setUpClass() throws Exception {
         calledLog.clear();
         calledLog.add(null);
         nextArgVal = INITIAL_ARG_VAL;
     }

     @AfterClass
     public static void tearDownClass() throws Exception {
         int posTests = allPosTests, negTests = allNegTests;
         if (verbosity >= 2 && (posTests | negTests) != 0) {
             System.out.println();
             if (posTests != 0)  System.out.println("=== "+posTests+" total positive test cases");
             if (negTests != 0)  System.out.println("=== "+negTests+" total negative test cases");
         }
     }

     static List<Object> calledLog = new ArrayList<>();
     static Object logEntry(String name, Object... args) {
         return Arrays.asList(name, Arrays.asList(args));
     }
     static Object called(String name, Object... args) {
         Object entry = logEntry(name, args);
         calledLog.add(entry);
         return entry;
     }
     static void assertCalled(String name, Object... args) {
         Object expected = logEntry(name, args);
         Object actual   = calledLog.get(calledLog.size() - 1);
         if (expected.equals(actual) && verbosity < 9)  return;
         System.out.println("assertCalled "+name+":");
         System.out.println("expected:   "+expected);
         System.out.println("actual:     "+actual);
         System.out.println("ex. types:  "+getClasses(expected));
         System.out.println("act. types: "+getClasses(actual));
         assertEquals("previous method call", expected, actual);
     }
     static void printCalled(MethodHandle target, String name, Object... args) {
         if (verbosity >= 3)
             System.out.println("calling MH="+target+" to "+name+Arrays.toString(args));
     }

     static Object castToWrapper(Object value, Class<?> dst) {
         Object wrap = null;
         if (value instanceof Number)
             wrap = castToWrapperOrNull(((Number)value).longValue(), dst);
         if (value instanceof Character)
             wrap = castToWrapperOrNull((char)(Character)value, dst);
         if (wrap != null)  return wrap;
         return dst.cast(value);
     }

     static Object castToWrapperOrNull(long value, Class<?> dst) {
         if (dst == int.class || dst == Integer.class)
             return (int)(value);
         if (dst == long.class || dst == Long.class)
             return (long)(value);
         if (dst == char.class || dst == Character.class)
             return (char)(value);
         if (dst == short.class || dst == Short.class)
             return (short)(value);
         if (dst == float.class || dst == Float.class)
             return (float)(value);
         if (dst == double.class || dst == Double.class)
             return (double)(value);
         if (dst == byte.class || dst == Byte.class)
             return (byte)(value);
         if (dst == boolean.class || dst == boolean.class)
             return ((value % 29) & 1) == 0;
         return null;
     }

     static final int ONE_MILLION = (1000*1000),  // first int value
                      TEN_BILLION = (10*1000*1000*1000),  // scale factor to reach upper 32 bits
                      INITIAL_ARG_VAL = ONE_MILLION << 1;  // <<1 makes space for sign bit;
     static long nextArgVal;
     static long nextArg(boolean moreBits) {
         long val = nextArgVal++;
         long sign = -(val & 1); // alternate signs
         val >>= 1;
         if (moreBits)
             // Guarantee some bits in the high word.
             // In any case keep the decimal representation simple-looking,
             // with lots of zeroes, so as not to make the printed decimal
             // strings unnecessarily noisy.
             val += (val % ONE_MILLION) * TEN_BILLION;
         return val ^ sign;
     }
     static int nextArg() {
         // Produce a 32-bit result something like ONE_MILLION+(smallint).
         // Example: 1_000_042.
         return (int) nextArg(false);
     }
     static long nextArg(Class<?> kind) {
         if (kind == long.class   || kind == Long.class ||
             kind == double.class || kind == Double.class)
             // produce a 64-bit result something like
             // ((TEN_BILLION+1) * (ONE_MILLION+(smallint)))
             // Example: 10_000_420_001_000_042.
             return nextArg(true);
         return (long) nextArg();
     }

     static Object randomArg(Class<?> param) {
         Object wrap = castToWrapperOrNull(nextArg(param), param);
         if (wrap != null) {
             return wrap;
         }
 //        import sun.invoke.util.Wrapper;
 //        Wrapper wrap = Wrapper.forBasicType(dst);
 //        if (wrap == Wrapper.OBJECT && Wrapper.isWrapperType(dst))
 //            wrap = Wrapper.forWrapperType(dst);
 //        if (wrap != Wrapper.OBJECT)
 //            return wrap.wrap(nextArg++);
         if (param.isInterface()) {
             for (Class<?> c : param.getClasses()) {
                 if (param.isAssignableFrom(c) && !c.isInterface())
                     { param = c; break; }
             }
         }
         if (param.isInterface() || param.isAssignableFrom(String.class))
             return "#"+nextArg();
         else
             try {
                 return param.newInstance();
             } catch (InstantiationException | IllegalAccessException ex) {
             }
         return null;  // random class not Object, String, Integer, etc.
     }
     static Object[] randomArgs(Class<?>... params) {
         Object[] args = new Object[params.length];
         for (int i = 0; i < args.length; i++)
             args[i] = randomArg(params[i]);
         return args;
     }
     static Object[] randomArgs(int nargs, Class<?> param) {
         Object[] args = new Object[nargs];
         for (int i = 0; i < args.length; i++)
             args[i] = randomArg(param);
         return args;
     }

     static final Object ANON_OBJ = new Object();
     static Object zeroArg(Class<?> param) {
         Object x = castToWrapperOrNull(0L, param);
         if (x != null)  return x;
         if (param.isInterface() || param.isAssignableFrom(String.class))  return "\"\"";
         if (param == Object.class)  return ANON_OBJ;
         if (param.getComponentType() != null)  return Array.newInstance(param.getComponentType(), 0);
         return null;
     }
     static Object[] zeroArgs(Class<?>... params) {
         Object[] args = new Object[params.length];
         for (int i = 0; i < args.length; i++)
             args[i] = zeroArg(params[i]);
         return args;
     }
     static Object[] zeroArgs(List<Class<?>> params) {
         return zeroArgs(params.toArray(new Class<?>[0]));
     }

     @SafeVarargs @SuppressWarnings("varargs")
     static <T, E extends T> T[] array(Class<T[]> atype, E... a) {
         return Arrays.copyOf(a, a.length, atype);
     }
     @SafeVarargs @SuppressWarnings("varargs")
     static <T> T[] cat(T[] a, T... b) {
         int alen = a.length, blen = b.length;
         if (blen == 0)  return a;
         T[] c = Arrays.copyOf(a, alen + blen);
         System.arraycopy(b, 0, c, alen, blen);
         return c;
     }
     static Integer[] boxAll(int... vx) {
         Integer[] res = new Integer[vx.length];
         for (int i = 0; i < res.length; i++) {
             res[i] = vx[i];
         }
         return res;
     }
     static Object getClasses(Object x) {
         if (x == null)  return x;
         if (x instanceof String)  return x;  // keep the name
         if (x instanceof List) {
             // recursively report classes of the list elements
             Object[] xa = ((List)x).toArray();
             for (int i = 0; i < xa.length; i++)
                 xa[i] = getClasses(xa[i]);
             return Arrays.asList(xa);
         }
         return x.getClass().getSimpleName();
     }

     static MethodHandle changeArgTypes(MethodHandle target, Class<?> argType) {
         return changeArgTypes(target, 0, 999, argType);
     }
     static MethodHandle changeArgTypes(MethodHandle target,
             int beg, int end, Class<?> argType) {
         MethodType targetType = target.type();
         end = Math.min(end, targetType.parameterCount());
         ArrayList<Class<?>> argTypes = new ArrayList<>(targetType.parameterList());
         Collections.fill(argTypes.subList(beg, end), argType);
         MethodType ttype2 = MethodType.methodType(targetType.returnType(), argTypes);
         return target.asType(ttype2);
     }

     // This lookup is good for all members in and under InvokeGenericTest.
     static final Lookup LOOKUP = MethodHandles.lookup();

     Map<List<Class<?>>, MethodHandle> CALLABLES = new HashMap<>();
     MethodHandle callable(List<Class<?>> params) {
         MethodHandle mh = CALLABLES.get(params);
         if (mh == null) {
             mh = collector_MH.asType(methodType(Object.class, params));
             CALLABLES.put(params, mh);
         }
         return mh;
     }
     MethodHandle callable(Class<?>... params) {
         return callable(Arrays.asList(params));
     }
     private static Object collector(Object... args) {
         return Arrays.asList(args);
     }
     private static final MethodHandle collector_MH;
     static {
         try {
             collector_MH
                 = LOOKUP.findStatic(LOOKUP.lookupClass(),
                                     "collector",
                                     methodType(Object.class, Object[].class));
         } catch (ReflectiveOperationException ex) {
             throw new RuntimeException(ex);
         }
     }

     @Test
     public void testSimple() throws Throwable {
         startTest("testSimple");
         countTest();
         String[] args = { "one", "two" };
         MethodHandle mh = callable(Object.class, String.class);
         Object res; List<?> resl;
         res = resl = (List<?>) mh.invoke((String)args[0], (Object)args[1]);
         //System.out.println(res);
         assertEquals(Arrays.asList(args), res);
     }

     @Test
     public void testSimplePrims() throws Throwable {
         startTest("testSimplePrims");
         countTest();
         int[] args = { 1, 2 };
         MethodHandle mh = callable(Object.class, Object.class);
         Object res; List<?> resl;
         res = resl = (List<?>) mh.invoke(args[0], args[1]);
         //System.out.println(res);
         assertEquals(Arrays.toString(args), res.toString());
     }

     @Test
     public void testAlternateName() throws Throwable {
         startTest("testAlternateName");
         countTest();
         String[] args = { "one", "two" };
         MethodHandle mh = callable(Object.class, String.class);
         Object res; List<?> resl;
         res = resl = (List<?>) mh.invoke((String)args[0], (Object)args[1]);
         //System.out.println(res);
         assertEquals(Arrays.asList(args), res);
     }

     @Test
     public void testWrongArgumentCount() throws Throwable {
         startTest("testWrongArgumentCount");
         for (int i = 0; i <= 10; i++) {
             testWrongArgumentCount(Collections.<Class<?>>nCopies(i, Integer.class));
             if (i <= 4) {
                 testWrongArgumentCount(Collections.<Class<?>>nCopies(i, int.class));
                 testWrongArgumentCount(Collections.<Class<?>>nCopies(i, long.class));
             }
         }
     }
     public void testWrongArgumentCount(List<Class<?>> params) throws Throwable {
         int max = params.size();
         for (int i = 0; i < max; i++) {
             List<Class<?>> params2 = params.subList(0, i);
             for (int k = 0; k <= 2; k++) {
                 if (k == 1)  params  = methodType(Object.class,  params).generic().parameterList();
                 if (k == 2)  params2 = methodType(Object.class, params2).generic().parameterList();
                 testWrongArgumentCount(params, params2);
                 testWrongArgumentCount(params2, params);
             }
         }
     }
     public void testWrongArgumentCount(List<Class<?>> expect, List<Class<?>> observe) throws Throwable {
         countTest(false);
         if (expect.equals(observe))
             assert(false);
         MethodHandle target = callable(expect);
         Object[] args = zeroArgs(observe);
         Object junk;
         try {
             switch (args.length) {
             case 0:
                 junk = target.invoke(); break;
             case 1:
                 junk = target.invoke(args[0]); break;
             case 2:
                 junk = target.invoke(args[0], args[1]); break;
             case 3:
                 junk = target.invoke(args[0], args[1], args[2]); break;
             case 4:
                 junk = target.invoke(args[0], args[1], args[2], args[3]); break;
             default:
                 junk = target.invokeWithArguments(args); break;
             }
         } catch (WrongMethodTypeException ex) {
             return;
         } catch (Exception ex) {
             throw new RuntimeException("wrong exception calling "+target+" on "+Arrays.asList(args), ex);
         }
         throw new RuntimeException("bad success calling "+target+" on "+Arrays.asList(args));
     }

     /** Make a list of all combinations of the given types, with the given arities.
      *  A void return type is possible iff the first type is void.class.
      */
     static List<MethodType> allMethodTypes(int minargc, int maxargc, Class<?>... types) {
         ArrayList<MethodType> result = new ArrayList<>();
         if (types.length > 0) {
             ArrayList<MethodType> argcTypes = new ArrayList<>();
             // build arity-zero types first
             for (Class<?> rtype : types) {
                 argcTypes.add(MethodType.methodType(rtype));
             }
             if (types[0] == void.class)
                 // void is not an argument type
                 types = Arrays.copyOfRange(types, 1, types.length);
             for (int argc = 0; argc <= maxargc; argc++) {
                 if (argc >= minargc)
                     result.addAll(argcTypes);
                 if (argc >= maxargc)
                     break;
                 ArrayList<MethodType> prevTypes = argcTypes;
                 argcTypes = new ArrayList<>();
                 for (MethodType prevType : prevTypes) {
                     for (Class<?> ptype : types) {
                         argcTypes.add(prevType.insertParameterTypes(argc, ptype));
                     }
                 }
             }
         }
         return Collections.unmodifiableList(result);
     }
     static List<MethodType> allMethodTypes(int argc, Class<?>... types) {
         return allMethodTypes(argc, argc, types);
     }

     MethodHandle toString_MH;

     @Test
     public void testReferenceConversions() throws Throwable {
         startTest("testReferenceConversions");
         toString_MH = LOOKUP.
             findVirtual(Object.class, "toString", MethodType.methodType(String.class));
         Object[] args = { "one", "two" };
         for (MethodType type : allMethodTypes(2, Object.class, String.class, CharSequence.class)) {
             testReferenceConversions(type, args);
         }
     }
     public void testReferenceConversions(MethodType type, Object... args) throws Throwable {
         countTest();
         int nargs = args.length;
         List<Object> argList = Arrays.asList(args);
         String expectString = argList.toString();
         if (verbosity > 3)  System.out.println("target type: "+type+expectString);
         MethodHandle mh = callable(type.parameterList());
         mh = MethodHandles.filterReturnValue(mh, toString_MH);
         mh = mh.asType(type);
         Object res = null;
         if (nargs == 2) {
             res = mh.invoke((Object)args[0], (Object)args[1]);
             assertEquals(expectString, res);
             res = mh.invoke((String)args[0], (Object)args[1]);
             assertEquals(expectString, res);
             res = mh.invoke((Object)args[0], (String)args[1]);
             assertEquals(expectString, res);
             res = mh.invoke((String)args[0], (String)args[1]);
             assertEquals(expectString, res);
             res = mh.invoke((String)args[0], (CharSequence)args[1]);
             assertEquals(expectString, res);
             res = mh.invoke((CharSequence)args[0], (Object)args[1]);
             assertEquals(expectString, res);
             res = (String) mh.invoke((Object)args[0], (Object)args[1]);
             assertEquals(expectString, res);
             res = (String) mh.invoke((String)args[0], (Object)args[1]);
             assertEquals(expectString, res);
             res = (CharSequence) mh.invoke((String)args[0], (Object)args[1]);
             assertEquals(expectString, res);
         } else {
             assert(false);  // write this code
         }
         //System.out.println(res);
     }


     @Test
     public void testBoxConversions() throws Throwable {
         startTest("testBoxConversions");
         countTest();
         Object[] args = { 1, 2 };
         MethodHandle mh = callable(Object.class, int.class);
         Object res; List<?> resl; int resi;
         res = resl = (List<?>) mh.invoke((int)args[0], (Object)args[1]);
         //System.out.println(res);
         assertEquals(Arrays.asList(args), res);
         mh = MethodHandles.identity(int.class);
         mh = MethodHandles.dropArguments(mh, 1, int.class);
         res = resi = (int) mh.invoke((Object) args[0], (Object) args[1]);
         assertEquals(args[0], res);
         res = resi = (int) mh.invoke((int) args[0], (Object) args[1]);
         assertEquals(args[0], res);
     }

 }
	/*
	* Copyright (c) 2009, 2013, 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.
	*/

	/* @test
	* @summary unit tests for java.lang.invoke.MethodHandle.invoke
	* @compile InvokeGenericTest.java
	* @run testng/othervm test.java.lang.invoke.InvokeGenericTest
	*/

	package test.java.lang.invoke;

	import java.lang.invoke.*;
	import static java.lang.invoke.MethodHandles.*;
	import static java.lang.invoke.MethodType.*;
	import java.lang.reflect.*;
	import java.util.*;
	import org.testng.*;
	import static org.testng.AssertJUnit.*;
	import org.testng.annotations.*;

	/**
	*
	* @author jrose
	*/
	@SuppressWarnings("cast") // various casts help emphasize arguments to invokeExact
	public class InvokeGenericTest {
	// How much output?
	static int verbosity = 0;
	static {
	String vstr = System.getProperty("test.java.lang.invoke.InvokeGenericTest.verbosity");
	if (vstr != null) verbosity = Integer.parseInt(vstr);
	}

	// public static void main(String... av) throws Throwable {
	// new InvokeGenericTest().testFirst();
	// }

	@Test
	public void testFirst() throws Throwable {
	verbosity += 9; try {
	// left blank for debugging
	} finally { printCounts(); verbosity -= 9; }
	}

	public InvokeGenericTest() {
	}

	String testName;
	static int allPosTests, allNegTests;
	int posTests, negTests;
	@AfterMethod
	public void printCounts() {
	if (verbosity >= 2 && (posTests \| negTests) != 0) {
	System.out.println();
	if (posTests != 0) System.out.println("=== "+testName+": "+posTests+" positive test cases run");
	if (negTests != 0) System.out.println("=== "+testName+": "+negTests+" negative test cases run");
	allPosTests += posTests;
	allNegTests += negTests;
	posTests = negTests = 0;
	}
	}
	void countTest(boolean positive) {
	if (positive) ++posTests;
	else ++negTests;
	}
	void countTest() { countTest(true); }
	void startTest(String name) {
	if (testName != null) printCounts();
	if (verbosity >= 1)
	System.out.println("["+name+"]");
	posTests = negTests = 0;
	testName = name;
	}

	@BeforeClass
	public static void setUpClass() throws Exception {
	calledLog.clear();
	calledLog.add(null);
	nextArgVal = INITIAL_ARG_VAL;
	}

	@AfterClass
	public static void tearDownClass() throws Exception {
	int posTests = allPosTests, negTests = allNegTests;
	if (verbosity >= 2 && (posTests \| negTests) != 0) {
	System.out.println();
	if (posTests != 0) System.out.println("=== "+posTests+" total positive test cases");
	if (negTests != 0) System.out.println("=== "+negTests+" total negative test cases");
	}
	}

	static List<Object> calledLog = new ArrayList<>();
	static Object logEntry(String name, Object... args) {
	return Arrays.asList(name, Arrays.asList(args));
	}
	static Object called(String name, Object... args) {
	Object entry = logEntry(name, args);
	calledLog.add(entry);
	return entry;
	}
	static void assertCalled(String name, Object... args) {
	Object expected = logEntry(name, args);
	Object actual = calledLog.get(calledLog.size() - 1);
	if (expected.equals(actual) && verbosity < 9) return;
	System.out.println("assertCalled "+name+":");
	System.out.println("expected: "+expected);
	System.out.println("actual: "+actual);
	System.out.println("ex. types: "+getClasses(expected));
	System.out.println("act. types: "+getClasses(actual));
	assertEquals("previous method call", expected, actual);
	}
	static void printCalled(MethodHandle target, String name, Object... args) {
	if (verbosity >= 3)
	System.out.println("calling MH="+target+" to "+name+Arrays.toString(args));
	}

	static Object castToWrapper(Object value, Class<?> dst) {
	Object wrap = null;
	if (value instanceof Number)
	wrap = castToWrapperOrNull(((Number)value).longValue(), dst);
	if (value instanceof Character)
	wrap = castToWrapperOrNull((char)(Character)value, dst);
	if (wrap != null) return wrap;
	return dst.cast(value);
	}

	static Object castToWrapperOrNull(long value, Class<?> dst) {
	if (dst == int.class \|\| dst == Integer.class)
	return (int)(value);
	if (dst == long.class \|\| dst == Long.class)
	return (long)(value);
	if (dst == char.class \|\| dst == Character.class)
	return (char)(value);
	if (dst == short.class \|\| dst == Short.class)
	return (short)(value);
	if (dst == float.class \|\| dst == Float.class)
	return (float)(value);
	if (dst == double.class \|\| dst == Double.class)
	return (double)(value);
	if (dst == byte.class \|\| dst == Byte.class)
	return (byte)(value);
	if (dst == boolean.class \|\| dst == boolean.class)
	return ((value % 29) & 1) == 0;
	return null;
	}

	static final int ONE_MILLION = (1000*1000), // first int value
	TEN_BILLION = (1010001000*1000), // scale factor to reach upper 32 bits
	INITIAL_ARG_VAL = ONE_MILLION << 1; // <<1 makes space for sign bit;
	static long nextArgVal;
	static long nextArg(boolean moreBits) {
	long val = nextArgVal++;
	long sign = -(val & 1); // alternate signs
	val >>= 1;
	if (moreBits)
	// Guarantee some bits in the high word.
	// In any case keep the decimal representation simple-looking,
	// with lots of zeroes, so as not to make the printed decimal
	// strings unnecessarily noisy.
	val += (val % ONE_MILLION) * TEN_BILLION;
	return val ^ sign;
	}
	static int nextArg() {
	// Produce a 32-bit result something like ONE_MILLION+(smallint).
	// Example: 1_000_042.
	return (int) nextArg(false);
	}
	static long nextArg(Class<?> kind) {
	if (kind == long.class \|\| kind == Long.class \|\|
	kind == double.class \|\| kind == Double.class)
	// produce a 64-bit result something like
	// ((TEN_BILLION+1) * (ONE_MILLION+(smallint)))
	// Example: 10_000_420_001_000_042.
	return nextArg(true);
	return (long) nextArg();
	}

	static Object randomArg(Class<?> param) {
	Object wrap = castToWrapperOrNull(nextArg(param), param);
	if (wrap != null) {
	return wrap;
	}
	// import sun.invoke.util.Wrapper;
	// Wrapper wrap = Wrapper.forBasicType(dst);
	// if (wrap == Wrapper.OBJECT && Wrapper.isWrapperType(dst))
	// wrap = Wrapper.forWrapperType(dst);
	// if (wrap != Wrapper.OBJECT)
	// return wrap.wrap(nextArg++);
	if (param.isInterface()) {
	for (Class<?> c : param.getClasses()) {
	if (param.isAssignableFrom(c) && !c.isInterface())
	{ param = c; break; }
	}
	}
	if (param.isInterface() \|\| param.isAssignableFrom(String.class))
	return "#"+nextArg();
	else
	try {
	return param.newInstance();
	} catch (InstantiationException \| IllegalAccessException ex) {
	}
	return null; // random class not Object, String, Integer, etc.
	}
	static Object[] randomArgs(Class<?>... params) {
	Object[] args = new Object[params.length];
	for (int i = 0; i < args.length; i++)
	args[i] = randomArg(params[i]);
	return args;
	}
	static Object[] randomArgs(int nargs, Class<?> param) {
	Object[] args = new Object[nargs];
	for (int i = 0; i < args.length; i++)
	args[i] = randomArg(param);
	return args;
	}

	static final Object ANON_OBJ = new Object();
	static Object zeroArg(Class<?> param) {
	Object x = castToWrapperOrNull(0L, param);
	if (x != null) return x;
	if (param.isInterface() \|\| param.isAssignableFrom(String.class)) return "\"\"";
	if (param == Object.class) return ANON_OBJ;
	if (param.getComponentType() != null) return Array.newInstance(param.getComponentType(), 0);
	return null;
	}
	static Object[] zeroArgs(Class<?>... params) {
	Object[] args = new Object[params.length];
	for (int i = 0; i < args.length; i++)
	args[i] = zeroArg(params[i]);
	return args;
	}
	static Object[] zeroArgs(List<Class<?>> params) {
	return zeroArgs(params.toArray(new Class<?>[0]));
	}

	@SafeVarargs @SuppressWarnings("varargs")
	static <T, E extends T> T[] array(Class<T[]> atype, E... a) {
	return Arrays.copyOf(a, a.length, atype);
	}
	@SafeVarargs @SuppressWarnings("varargs")
	static <T> T[] cat(T[] a, T... b) {
	int alen = a.length, blen = b.length;
	if (blen == 0) return a;
	T[] c = Arrays.copyOf(a, alen + blen);
	System.arraycopy(b, 0, c, alen, blen);
	return c;
	}
	static Integer[] boxAll(int... vx) {
	Integer[] res = new Integer[vx.length];
	for (int i = 0; i < res.length; i++) {
	res[i] = vx[i];
	}
	return res;
	}
	static Object getClasses(Object x) {
	if (x == null) return x;
	if (x instanceof String) return x; // keep the name
	if (x instanceof List) {
	// recursively report classes of the list elements
	Object[] xa = ((List)x).toArray();
	for (int i = 0; i < xa.length; i++)
	xa[i] = getClasses(xa[i]);
	return Arrays.asList(xa);
	}
	return x.getClass().getSimpleName();
	}

	static MethodHandle changeArgTypes(MethodHandle target, Class<?> argType) {
	return changeArgTypes(target, 0, 999, argType);
	}
	static MethodHandle changeArgTypes(MethodHandle target,
	int beg, int end, Class<?> argType) {
	MethodType targetType = target.type();
	end = Math.min(end, targetType.parameterCount());
	ArrayList<Class<?>> argTypes = new ArrayList<>(targetType.parameterList());
	Collections.fill(argTypes.subList(beg, end), argType);
	MethodType ttype2 = MethodType.methodType(targetType.returnType(), argTypes);
	return target.asType(ttype2);
	}

	// This lookup is good for all members in and under InvokeGenericTest.
	static final Lookup LOOKUP = MethodHandles.lookup();

	Map<List<Class<?>>, MethodHandle> CALLABLES = new HashMap<>();
	MethodHandle callable(List<Class<?>> params) {
	MethodHandle mh = CALLABLES.get(params);
	if (mh == null) {
	mh = collector_MH.asType(methodType(Object.class, params));
	CALLABLES.put(params, mh);
	}
	return mh;
	}
	MethodHandle callable(Class<?>... params) {
	return callable(Arrays.asList(params));
	}
	private static Object collector(Object... args) {
	return Arrays.asList(args);
	}
	private static final MethodHandle collector_MH;
	static {
	try {
	collector_MH
	= LOOKUP.findStatic(LOOKUP.lookupClass(),
	"collector",
	methodType(Object.class, Object[].class));
	} catch (ReflectiveOperationException ex) {
	throw new RuntimeException(ex);
	}
	}

	@Test
	public void testSimple() throws Throwable {
	startTest("testSimple");
	countTest();
	String[] args = { "one", "two" };
	MethodHandle mh = callable(Object.class, String.class);
	Object res; List<?> resl;
	res = resl = (List<?>) mh.invoke((String)args[0], (Object)args[1]);
	//System.out.println(res);
	assertEquals(Arrays.asList(args), res);
	}

	@Test
	public void testSimplePrims() throws Throwable {
	startTest("testSimplePrims");
	countTest();
	int[] args = { 1, 2 };
	MethodHandle mh = callable(Object.class, Object.class);
	Object res; List<?> resl;
	res = resl = (List<?>) mh.invoke(args[0], args[1]);
	//System.out.println(res);
	assertEquals(Arrays.toString(args), res.toString());
	}

	@Test
	public void testAlternateName() throws Throwable {
	startTest("testAlternateName");
	countTest();
	String[] args = { "one", "two" };
	MethodHandle mh = callable(Object.class, String.class);
	Object res; List<?> resl;
	res = resl = (List<?>) mh.invoke((String)args[0], (Object)args[1]);
	//System.out.println(res);
	assertEquals(Arrays.asList(args), res);
	}

	@Test
	public void testWrongArgumentCount() throws Throwable {
	startTest("testWrongArgumentCount");
	for (int i = 0; i <= 10; i++) {
	testWrongArgumentCount(Collections.<Class<?>>nCopies(i, Integer.class));
	if (i <= 4) {
	testWrongArgumentCount(Collections.<Class<?>>nCopies(i, int.class));
	testWrongArgumentCount(Collections.<Class<?>>nCopies(i, long.class));
	}
	}
	}
	public void testWrongArgumentCount(List<Class<?>> params) throws Throwable {
	int max = params.size();
	for (int i = 0; i < max; i++) {
	List<Class<?>> params2 = params.subList(0, i);
	for (int k = 0; k <= 2; k++) {
	if (k == 1) params = methodType(Object.class, params).generic().parameterList();
	if (k == 2) params2 = methodType(Object.class, params2).generic().parameterList();
	testWrongArgumentCount(params, params2);
	testWrongArgumentCount(params2, params);
	}
	}
	}
	public void testWrongArgumentCount(List<Class<?>> expect, List<Class<?>> observe) throws Throwable {
	countTest(false);
	if (expect.equals(observe))
	assert(false);
	MethodHandle target = callable(expect);
	Object[] args = zeroArgs(observe);
	Object junk;
	try {
	switch (args.length) {
	case 0:
	junk = target.invoke(); break;
	case 1:
	junk = target.invoke(args[0]); break;
	case 2:
	junk = target.invoke(args[0], args[1]); break;
	case 3:
	junk = target.invoke(args[0], args[1], args[2]); break;
	case 4:
	junk = target.invoke(args[0], args[1], args[2], args[3]); break;
	default:
	junk = target.invokeWithArguments(args); break;
	}
	} catch (WrongMethodTypeException ex) {
	return;
	} catch (Exception ex) {
	throw new RuntimeException("wrong exception calling "+target+" on "+Arrays.asList(args), ex);
	}
	throw new RuntimeException("bad success calling "+target+" on "+Arrays.asList(args));
	}

	/** Make a list of all combinations of the given types, with the given arities.
	* A void return type is possible iff the first type is void.class.
	*/
	static List<MethodType> allMethodTypes(int minargc, int maxargc, Class<?>... types) {
	ArrayList<MethodType> result = new ArrayList<>();
	if (types.length > 0) {
	ArrayList<MethodType> argcTypes = new ArrayList<>();
	// build arity-zero types first
	for (Class<?> rtype : types) {
	argcTypes.add(MethodType.methodType(rtype));
	}
	if (types[0] == void.class)
	// void is not an argument type
	types = Arrays.copyOfRange(types, 1, types.length);
	for (int argc = 0; argc <= maxargc; argc++) {
	if (argc >= minargc)
	result.addAll(argcTypes);
	if (argc >= maxargc)
	break;
	ArrayList<MethodType> prevTypes = argcTypes;
	argcTypes = new ArrayList<>();
	for (MethodType prevType : prevTypes) {
	for (Class<?> ptype : types) {
	argcTypes.add(prevType.insertParameterTypes(argc, ptype));
	}
	}
	}
	}
	return Collections.unmodifiableList(result);
	}
	static List<MethodType> allMethodTypes(int argc, Class<?>... types) {
	return allMethodTypes(argc, argc, types);
	}

	MethodHandle toString_MH;

	@Test
	public void testReferenceConversions() throws Throwable {
	startTest("testReferenceConversions");
	toString_MH = LOOKUP.
	findVirtual(Object.class, "toString", MethodType.methodType(String.class));
	Object[] args = { "one", "two" };
	for (MethodType type : allMethodTypes(2, Object.class, String.class, CharSequence.class)) {
	testReferenceConversions(type, args);
	}
	}
	public void testReferenceConversions(MethodType type, Object... args) throws Throwable {
	countTest();
	int nargs = args.length;
	List<Object> argList = Arrays.asList(args);
	String expectString = argList.toString();
	if (verbosity > 3) System.out.println("target type: "+type+expectString);
	MethodHandle mh = callable(type.parameterList());
	mh = MethodHandles.filterReturnValue(mh, toString_MH);
	mh = mh.asType(type);
	Object res = null;
	if (nargs == 2) {
	res = mh.invoke((Object)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	res = mh.invoke((String)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	res = mh.invoke((Object)args[0], (String)args[1]);
	assertEquals(expectString, res);
	res = mh.invoke((String)args[0], (String)args[1]);
	assertEquals(expectString, res);
	res = mh.invoke((String)args[0], (CharSequence)args[1]);
	assertEquals(expectString, res);
	res = mh.invoke((CharSequence)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	res = (String) mh.invoke((Object)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	res = (String) mh.invoke((String)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	res = (CharSequence) mh.invoke((String)args[0], (Object)args[1]);
	assertEquals(expectString, res);
	} else {
	assert(false); // write this code
	}
	//System.out.println(res);
	}


	@Test
	public void testBoxConversions() throws Throwable {
	startTest("testBoxConversions");
	countTest();
	Object[] args = { 1, 2 };
	MethodHandle mh = callable(Object.class, int.class);
	Object res; List<?> resl; int resi;
	res = resl = (List<?>) mh.invoke((int)args[0], (Object)args[1]);
	//System.out.println(res);
	assertEquals(Arrays.asList(args), res);
	mh = MethodHandles.identity(int.class);
	mh = MethodHandles.dropArguments(mh, 1, int.class);
	res = resi = (int) mh.invoke((Object) args[0], (Object) args[1]);
	assertEquals(args[0], res);
	res = resi = (int) mh.invoke((int) args[0], (Object) args[1]);
	assertEquals(args[0], res);
	}

	}