bind/java/SeqTest.java - mobile - Git at Google

 // Copyright 2014 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package go;

 import android.test.InstrumentationTestCase;
 import android.test.MoreAsserts;

 import java.util.Arrays;
 import java.util.Random;

 import go.testpkg.*;
 import go.secondpkg.Secondpkg;

 public class SeqTest extends InstrumentationTestCase {
   public SeqTest() {
   }

   public void testConst() {
     assertEquals("const String", "a string", Testpkg.AString);
     assertEquals("const Int", 7, Testpkg.AnInt);
     assertEquals("const Bool", true, Testpkg.ABool);
     assertEquals("const Float", 0.12345, Testpkg.AFloat, 0.0001);

     assertEquals("const MinInt32", -1<<31, Testpkg.MinInt32);
     assertEquals("const MaxInt32", (1<<31) - 1, Testpkg.MaxInt32);
     assertEquals("const MinInt64", -1L<<63, Testpkg.MinInt64);
     assertEquals("const MaxInt64", (1L<<63) - 1, Testpkg.MaxInt64);
     assertEquals("const SmallestNonzeroFloat64", 4.940656458412465441765687928682213723651e-324, Testpkg.SmallestNonzeroFloat64, 1e-323);
     assertEquals("const MaxFloat64", 1.797693134862315708145274237317043567981e+308, Testpkg.MaxFloat64, 0.0001);
     assertEquals("const SmallestNonzeroFloat32", 1.401298464324817070923729583289916131280e-45, Testpkg.SmallestNonzeroFloat32, 1e-44);
     assertEquals("const MaxFloat32", 3.40282346638528859811704183484516925440e+38, Testpkg.MaxFloat32, 0.0001);
     assertEquals("const Log2E", 1/0.693147180559945309417232121458176568075500134360255254120680009, Testpkg.Log2E, 0.0001);
   }

   public void testRefMap() {
     // Ensure that the RefMap.live count is kept in sync
     // even a particular reference number is removed and
     // added again
     Seq.RefMap m = new Seq.RefMap();
     Seq.Ref r = new Seq.Ref(1, null);
     m.put(r.refnum, r);
     m.remove(r.refnum);
     m.put(r.refnum, r);
     // Force the RefMap to grow, to activate the sanity
     // checking of the live count in RefMap.grow.
     for (int i = 2; i < 24; i++) {
       m.put(i, new Seq.Ref(i, null));
     }
   }

   public void testVar() {
     assertEquals("var StringVar", "a string var", Testpkg.getStringVar());

     String newStringVar = "a new string var";
     Testpkg.setStringVar(newStringVar);
     assertEquals("var StringVar", newStringVar, Testpkg.getStringVar());

     assertEquals("var IntVar", 77, Testpkg.getIntVar());

     long newIntVar = 777;
     Testpkg.setIntVar(newIntVar);
     assertEquals("var IntVar", newIntVar, Testpkg.getIntVar());

     S s0 = Testpkg.getStructVar();
     assertEquals("var StructVar", "a struct var", s0.String());
     S s1 = Testpkg.New();
     Testpkg.setStructVar(s1);
     assertEquals("var StructVar", s1.String(), Testpkg.getStructVar().String());

     AnI obj = new AnI();
     obj.name = "this is an I";
     Testpkg.setInterfaceVar(obj);
     assertEquals("var InterfaceVar", obj.String(), Testpkg.getInterfaceVar().String());
   }

   public void testAssets() {
     // Make sure that a valid context is set before reading assets
     Seq.setContext(getInstrumentation().getContext());
     String want = "Hello, Assets.\n";
     String got = Testpkg.ReadAsset();
     assertEquals("Asset read", want, got);
   }

   public void testAdd() {
     long res = Testpkg.Add(3, 4);
     assertEquals("Unexpected arithmetic failure", 7, res);
   }

   public void testBool() {
     assertTrue(Testpkg.Negate(false));
     assertFalse(Testpkg.Negate(true));
   }

   public void testShortString() {
     String want = "a short string";
     String got = Testpkg.StrDup(want);
     assertEquals("Strings should match", want, got);

     want = "";
     got = Testpkg.StrDup(want);
     assertEquals("Strings should match (empty string)", want, got);

     got = Testpkg.StrDup(null);
     assertEquals("Strings should match (null string)", want, got);
   }

   public void testLongString() {
     StringBuilder b = new StringBuilder();
     for (int i = 0; i < 128*1024; i++) {
       b.append("0123456789");
     }
     String want = b.toString();
     String got = Testpkg.StrDup(want);
     assertEquals("Strings should match", want, got);
   }

   public void testUnicode() {
     String[] tests = new String[]{
       "abcxyz09{}",
       "Hello, 世界",
       "\uffff\uD800\uDC00\uD800\uDC01\uD808\uDF45\uDBFF\uDFFF",
       // From Go std lib tests in unicode/utf16/utf16_test.go
       "\u0001\u0002\u0003\u0004",
       "\uffff\ud800\udc00\ud800\udc01\ud808\udf45\udbff\udfff",
       "\ud800a",
       "\udfff"
     };
     String[] wants = new String[]{
       "abcxyz09{}",
       "Hello, 世界",
       "\uffff\uD800\uDC00\uD800\uDC01\uD808\uDF45\uDBFF\uDFFF",
       "\u0001\u0002\u0003\u0004",
       "\uffff\ud800\udc00\ud800\udc01\ud808\udf45\udbff\udfff",
       "\ufffda",
       "\ufffd"
     };
     for (int i = 0; i < tests.length; i++) {
       String got = Testpkg.StrDup(tests[i]);
       String want = wants[i];
       assertEquals("Strings should match", want, got);
     }
   }

   public void testNilErr() throws Exception {
     Testpkg.Err(null); // returns nil, no exception
   }

   public void testErr() {
     String msg = "Go errors are dropped into the confusing space of exceptions";
     try {
       Testpkg.Err(msg);
       fail("expected non-nil error to be turned into an exception");
     } catch (Exception e) {
       assertEquals("messages should match", msg, e.getMessage());
     }
   }

   public void testByteArray() {
     for (int i = 0; i < 2048; i++) {
       if (i == 0) {
         byte[] got = Testpkg.BytesAppend(null, null);
         assertEquals("Bytes(null+null) should match", (byte[])null, got);
         got = Testpkg.BytesAppend(new byte[0], new byte[0]);
         assertEquals("Bytes(empty+empty) should match", (byte[])null, got);
         continue;
       }

       byte[] want = new byte[i];
       new Random().nextBytes(want);

       byte[] s1 = null;
       byte[] s2 = null;
       if (i > 0) {
         s1 = Arrays.copyOfRange(want, 0, 1);
       }
       if (i > 1) {
         s2 = Arrays.copyOfRange(want, 1, i);
       }
       byte[] got = Testpkg.BytesAppend(s1, s2);
       MoreAsserts.assertEquals("Bytes(len="+i+") should match", want, got);
     }
   }

   // Test for golang.org/issue/9486.
   public void testByteArrayAfterString() {
     byte[] bytes = new byte[1024];
     for (int i=0; i < bytes.length; i++) {
            bytes[i] = 8;
     }

     String stuff = "stuff";
     byte[] got = Testpkg.AppendToString(stuff, bytes);

     try {
       byte[] s = stuff.getBytes("UTF-8");
       byte[] want = new byte[s.length + bytes.length];
       System.arraycopy(s, 0, want, 0, s.length);
       System.arraycopy(bytes, 0, want, s.length, bytes.length);
       MoreAsserts.assertEquals("Bytes should match", want, got);
     } catch (Exception e) {
       fail("Cannot perform the test: " + e.toString());
     }
   }

   public void testGoRefGC() {
     S s = Testpkg.New();
     runGC();
     long collected = Testpkg.NumSCollected();
     assertEquals("Only S should be pinned", 0, collected);

     s = null;
     runGC();
     collected = Testpkg.NumSCollected();
     assertEquals("S should be collected", 1, collected);
   }

   private class AnI implements I {
     public void E() throws Exception {
       throw new Exception("my exception from E");
     }

     boolean calledF;
     public void F() {
       calledF = true;
     }

     public I I() {
       return this;
     }

     public S S() {
       return Testpkg.New();
     }

     public String StoString(S s) {
       return s.String();
     }

     public long V() {
       return 1234;
     }

     public long VE() throws Exception {
       throw new Exception("my exception from VE");
     }

     public String name;

     public String String() {
       return name;
     }

   }

   // TODO(hyangah): add tests for methods that take parameters.

   public void testInterfaceMethodReturnsError() {
     final AnI obj = new AnI();
     try {
       Testpkg.CallE(obj);
       fail("Expecting exception but none was thrown.");
     } catch (Exception e) {
       assertEquals("Error messages should match", "my exception from E", e.getMessage());
     }
   }

   public void testInterfaceMethodVoid() {
     final AnI obj = new AnI();
     Testpkg.CallF(obj);
     assertTrue("Want AnI.F to be called", obj.calledF);
   }

   public void testInterfaceMethodReturnsInterface() {
     AnI obj = new AnI();
     obj.name = "testing AnI.I";
     I i = Testpkg.CallI(obj);
     assertEquals("Want AnI.I to return itself", i.String(), obj.String());

     runGC();

     i = Testpkg.CallI(obj);
     assertEquals("Want AnI.I to return itself", i.String(), obj.String());
   }

   public void testInterfaceMethodReturnsStructPointer() {
     final AnI obj = new AnI();
     for (int i = 0; i < 5; i++) {
     	S s = Testpkg.CallS(obj);
 	runGC();
     }
   }

   public void testInterfaceMethodTakesStructPointer() {
     final AnI obj = new AnI();
     S s = Testpkg.CallS(obj);
     String got = obj.StoString(s);
     String want = s.String();
     assertEquals("Want AnI.StoString(s) to call s's String", want, got);
   }

   public void testInterfaceMethodReturnsInt() {
     final AnI obj = new AnI();
     assertEquals("Values must match", 1234, Testpkg.CallV(obj));
   }

   public void testInterfaceMethodReturnsIntOrError() {
     final AnI obj = new AnI();
     try {
       long v = Testpkg.CallVE(obj);
       fail("Expecting exception but none was thrown and got value " + v);
     } catch (Exception e) {
       assertEquals("Error messages should match", "my exception from VE", e.getMessage());
     }
   }

   boolean finalizedAnI;

   private class AnI_Traced extends AnI {
     @Override
     public void finalize() throws Throwable {
       finalizedAnI = true;
       super.finalize();
     }
   }

   public void testJavaRefGC() {
     finalizedAnI = false;
     AnI obj = new AnI_Traced();
     Testpkg.CallF(obj);
     assertTrue("want F to be called", obj.calledF);
     Testpkg.CallF(obj);
     obj = null;
     runGC();
     assertTrue("want obj to be collected", finalizedAnI);
   }

   public void testJavaRefKeep() {
     finalizedAnI = false;
     AnI obj = new AnI_Traced();
     Testpkg.CallF(obj);
     Testpkg.CallF(obj);
     obj = null;
     runGC();
     assertTrue("want obj not to be kept by Go", finalizedAnI);

     finalizedAnI = false;
     obj = new AnI_Traced();
     Testpkg.Keep(obj);
     obj = null;
     runGC();
     assertFalse("want obj to be kept live by Go", finalizedAnI);
   }

   private int countI = 0;

   private class CountI implements I {
     public void F() { countI++; }

     public void E() throws Exception {}
     public I I() { return null; }
     public S S() { return null; }
     public String StoString(S s) { return ""; }
     public long V() { return 0; }
     public long VE() throws Exception { return 0; }
     public String String() { return ""; }
   }

   public void testGoRefMapGrow() {
     CountI obj = new CountI();
     Testpkg.Keep(obj);

     // Push active references beyond base map size.
     for (int i = 0; i < 24; i++) {
       CountI o = new CountI();
       Testpkg.CallF(o);
       if (i%3==0) {
         Testpkg.Keep(o);
       }
     }
     runGC();
     for (int i = 0; i < 128; i++) {
       Testpkg.CallF(new CountI());
     }

     Testpkg.CallF(obj); // original object needs to work.

     assertEquals(countI, 1+24+128);
   }

   private void runGC() {
     System.gc();
     System.runFinalization();
     Testpkg.GC();
     System.gc();
     System.runFinalization();
   }

   public void testUnnamedParams() {
     final String msg = "1234567";
     assertEquals("want the length of \"1234567\" passed after unnamed params",
 		    7, Testpkg.UnnamedParams(10, 20, msg));
   }

   public void testPointerToStructAsField() {
     Node a = Testpkg.NewNode("A");
     Node b = Testpkg.NewNode("B");
     a.setNext(b);
     String got = a.String();
     assertEquals("want Node A points to Node B", "A:B:<end>", got);
   }

   public void testImplementsInterface() {
     Interface intf = Testpkg.NewConcrete();
   }

   public void testErrorField() {
     final String want = "an error message";
     Node n = Testpkg.NewNode("ErrTest");
     n.setErr(want);
     String got = n.getErr();
     assertEquals("want back the error message we set", want, got);
   }

   //test if we have JNI local reference table overflow error
   public void testLocalReferenceOverflow() {
     Testpkg.CallWithCallback(new GoCallback() {

       @Override
       public void VarUpdate() {
         //do nothing
       }
     });
   }

   public void testNullReferences() {
     assertTrue(Testpkg.CallWithNull(null, new NullTest() {
       public NullTest Null() {
         return null;
       }
     }));
 	assertEquals("Go nil interface is null", null, Testpkg.NewNullInterface());
 	assertEquals("Go nil struct pointer is null", null, Testpkg.NewNullStruct());
   }

   public void testPassByteArray() {
     Testpkg.PassByteArray(new B() {
       @Override public void B(byte[] b) {
         byte[] want = new byte[]{1, 2, 3, 4};
         MoreAsserts.assertEquals("bytes should match", want, b);
       }
     });
   }

   public void testReader() {
     byte[] b = new byte[8];
     try {
       long n = Testpkg.ReadIntoByteArray(b);
       assertEquals("wrote to the entire byte array", b.length, n);
       byte[] want = new byte[b.length];
       for (int i = 0; i < want.length; i++)
         want[i] = (byte)i;
       MoreAsserts.assertEquals("bytes should match", want, b);
      } catch (Exception e) {
        fail("Failed to write: " + e.toString());
      }
   }

   public void testGoroutineCallback() {
     Testpkg.GoroutineCallback(new Receiver() {
       @Override public void Hello(String msg) {
       }
     });
   }

   public void testImportedPkg() {
     Testpkg.CallImportedI(new go.secondpkg.I() {
       @Override public long F(long i) {
         return i;
       }
     });
     assertEquals("imported string should match", Secondpkg.HelloString, Secondpkg.Hello());
     go.secondpkg.I i = Testpkg.NewImportedI();
     go.secondpkg.S s = Testpkg.NewImportedS();
     i = Testpkg.getImportedVarI();
     s = Testpkg.getImportedVarS();
     assertEquals("numbers should match", 8, i.F(8));
     assertEquals("numbers should match", 8, s.F(8));
     Testpkg.setImportedVarI(i);
     Testpkg.setImportedVarS(s);
     ImportedFields fields = Testpkg.NewImportedFields();
     i = fields.getI();
     s = fields.getS();
     fields.setI(i);
     fields.setS(s);
     Testpkg.WithImportedI(i);
     Testpkg.WithImportedS(s);

     go.secondpkg.IF f = new AnI();
     f = Testpkg.New();
     go.secondpkg.Ser ser = Testpkg.NewSer();
   }

   public void testRoundtripEquality() {
     I want = new AnI();
     assertTrue("java object passed through Go should not be wrapped", want == Testpkg.IDup(want));
     InterfaceDupper idup = new InterfaceDupper(){
       @Override public Interface IDup(Interface i) {
         return i;
       }
     };
     assertTrue("Go interface passed through Java should not be wrapped", Testpkg.CallIDupper(idup));
     ConcreteDupper cdup = new ConcreteDupper(){
       @Override public Concrete CDup(Concrete c) {
         return c;
       }
     };
     assertTrue("Go struct passed through Java should not be wrapped", Testpkg.CallCDupper(cdup));
   }

   public void testEmptyError() {
     try {
       Testpkg.EmptyError();
       fail("Empty error wasn't caught");
     } catch (Exception e) {
     }
     EmptyErrorer empty = new EmptyErrorer() {
       @Override public void EmptyError() throws Exception {
         throw new Exception("");
       }
     };
     try {
       Testpkg.CallEmptyError(empty);
       fail("Empty exception wasn't caught");
     } catch (Exception e) {
     }
   }
 }
	// Copyright 2014 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package go;

	import android.test.InstrumentationTestCase;
	import android.test.MoreAsserts;

	import java.util.Arrays;
	import java.util.Random;

	import go.testpkg.*;
	import go.secondpkg.Secondpkg;

	public class SeqTest extends InstrumentationTestCase {
	public SeqTest() {
	}

	public void testConst() {
	assertEquals("const String", "a string", Testpkg.AString);
	assertEquals("const Int", 7, Testpkg.AnInt);
	assertEquals("const Bool", true, Testpkg.ABool);
	assertEquals("const Float", 0.12345, Testpkg.AFloat, 0.0001);

	assertEquals("const MinInt32", -1<<31, Testpkg.MinInt32);
	assertEquals("const MaxInt32", (1<<31) - 1, Testpkg.MaxInt32);
	assertEquals("const MinInt64", -1L<<63, Testpkg.MinInt64);
	assertEquals("const MaxInt64", (1L<<63) - 1, Testpkg.MaxInt64);
	assertEquals("const SmallestNonzeroFloat64", 4.940656458412465441765687928682213723651e-324, Testpkg.SmallestNonzeroFloat64, 1e-323);
	assertEquals("const MaxFloat64", 1.797693134862315708145274237317043567981e+308, Testpkg.MaxFloat64, 0.0001);
	assertEquals("const SmallestNonzeroFloat32", 1.401298464324817070923729583289916131280e-45, Testpkg.SmallestNonzeroFloat32, 1e-44);
	assertEquals("const MaxFloat32", 3.40282346638528859811704183484516925440e+38, Testpkg.MaxFloat32, 0.0001);
	assertEquals("const Log2E", 1/0.693147180559945309417232121458176568075500134360255254120680009, Testpkg.Log2E, 0.0001);
	}

	public void testRefMap() {
	// Ensure that the RefMap.live count is kept in sync
	// even a particular reference number is removed and
	// added again
	Seq.RefMap m = new Seq.RefMap();
	Seq.Ref r = new Seq.Ref(1, null);
	m.put(r.refnum, r);
	m.remove(r.refnum);
	m.put(r.refnum, r);
	// Force the RefMap to grow, to activate the sanity
	// checking of the live count in RefMap.grow.
	for (int i = 2; i < 24; i++) {
	m.put(i, new Seq.Ref(i, null));
	}
	}

	public void testVar() {
	assertEquals("var StringVar", "a string var", Testpkg.getStringVar());

	String newStringVar = "a new string var";
	Testpkg.setStringVar(newStringVar);
	assertEquals("var StringVar", newStringVar, Testpkg.getStringVar());

	assertEquals("var IntVar", 77, Testpkg.getIntVar());

	long newIntVar = 777;
	Testpkg.setIntVar(newIntVar);
	assertEquals("var IntVar", newIntVar, Testpkg.getIntVar());

	S s0 = Testpkg.getStructVar();
	assertEquals("var StructVar", "a struct var", s0.String());
	S s1 = Testpkg.New();
	Testpkg.setStructVar(s1);
	assertEquals("var StructVar", s1.String(), Testpkg.getStructVar().String());

	AnI obj = new AnI();
	obj.name = "this is an I";
	Testpkg.setInterfaceVar(obj);
	assertEquals("var InterfaceVar", obj.String(), Testpkg.getInterfaceVar().String());
	}

	public void testAssets() {
	// Make sure that a valid context is set before reading assets
	Seq.setContext(getInstrumentation().getContext());
	String want = "Hello, Assets.\n";
	String got = Testpkg.ReadAsset();
	assertEquals("Asset read", want, got);
	}

	public void testAdd() {
	long res = Testpkg.Add(3, 4);
	assertEquals("Unexpected arithmetic failure", 7, res);
	}

	public void testBool() {
	assertTrue(Testpkg.Negate(false));
	assertFalse(Testpkg.Negate(true));
	}

	public void testShortString() {
	String want = "a short string";
	String got = Testpkg.StrDup(want);
	assertEquals("Strings should match", want, got);

	want = "";
	got = Testpkg.StrDup(want);
	assertEquals("Strings should match (empty string)", want, got);

	got = Testpkg.StrDup(null);
	assertEquals("Strings should match (null string)", want, got);
	}

	public void testLongString() {
	StringBuilder b = new StringBuilder();
	for (int i = 0; i < 128*1024; i++) {
	b.append("0123456789");
	}
	String want = b.toString();
	String got = Testpkg.StrDup(want);
	assertEquals("Strings should match", want, got);
	}

	public void testUnicode() {
	String[] tests = new String[]{
	"abcxyz09{}",
	"Hello, 世界",
	"\uffff\uD800\uDC00\uD800\uDC01\uD808\uDF45\uDBFF\uDFFF",
	// From Go std lib tests in unicode/utf16/utf16_test.go
	"\u0001\u0002\u0003\u0004",
	"\uffff\ud800\udc00\ud800\udc01\ud808\udf45\udbff\udfff",
	"\ud800a",
	"\udfff"
	};
	String[] wants = new String[]{
	"abcxyz09{}",
	"Hello, 世界",
	"\uffff\uD800\uDC00\uD800\uDC01\uD808\uDF45\uDBFF\uDFFF",
	"\u0001\u0002\u0003\u0004",
	"\uffff\ud800\udc00\ud800\udc01\ud808\udf45\udbff\udfff",
	"\ufffda",
	"\ufffd"
	};
	for (int i = 0; i < tests.length; i++) {
	String got = Testpkg.StrDup(tests[i]);
	String want = wants[i];
	assertEquals("Strings should match", want, got);
	}
	}

	public void testNilErr() throws Exception {
	Testpkg.Err(null); // returns nil, no exception
	}

	public void testErr() {
	String msg = "Go errors are dropped into the confusing space of exceptions";
	try {
	Testpkg.Err(msg);
	fail("expected non-nil error to be turned into an exception");
	} catch (Exception e) {
	assertEquals("messages should match", msg, e.getMessage());
	}
	}

	public void testByteArray() {
	for (int i = 0; i < 2048; i++) {
	if (i == 0) {
	byte[] got = Testpkg.BytesAppend(null, null);
	assertEquals("Bytes(null+null) should match", (byte[])null, got);
	got = Testpkg.BytesAppend(new byte[0], new byte[0]);
	assertEquals("Bytes(empty+empty) should match", (byte[])null, got);
	continue;
	}

	byte[] want = new byte[i];
	new Random().nextBytes(want);

	byte[] s1 = null;
	byte[] s2 = null;
	if (i > 0) {
	s1 = Arrays.copyOfRange(want, 0, 1);
	}
	if (i > 1) {
	s2 = Arrays.copyOfRange(want, 1, i);
	}
	byte[] got = Testpkg.BytesAppend(s1, s2);
	MoreAsserts.assertEquals("Bytes(len="+i+") should match", want, got);
	}
	}

	// Test for golang.org/issue/9486.
	public void testByteArrayAfterString() {
	byte[] bytes = new byte[1024];
	for (int i=0; i < bytes.length; i++) {
	bytes[i] = 8;
	}

	String stuff = "stuff";
	byte[] got = Testpkg.AppendToString(stuff, bytes);

	try {
	byte[] s = stuff.getBytes("UTF-8");
	byte[] want = new byte[s.length + bytes.length];
	System.arraycopy(s, 0, want, 0, s.length);
	System.arraycopy(bytes, 0, want, s.length, bytes.length);
	MoreAsserts.assertEquals("Bytes should match", want, got);
	} catch (Exception e) {
	fail("Cannot perform the test: " + e.toString());
	}
	}

	public void testGoRefGC() {
	S s = Testpkg.New();
	runGC();
	long collected = Testpkg.NumSCollected();
	assertEquals("Only S should be pinned", 0, collected);

	s = null;
	runGC();
	collected = Testpkg.NumSCollected();
	assertEquals("S should be collected", 1, collected);
	}

	private class AnI implements I {
	public void E() throws Exception {
	throw new Exception("my exception from E");
	}

	boolean calledF;
	public void F() {
	calledF = true;
	}

	public I I() {
	return this;
	}

	public S S() {
	return Testpkg.New();
	}

	public String StoString(S s) {
	return s.String();
	}

	public long V() {
	return 1234;
	}

	public long VE() throws Exception {
	throw new Exception("my exception from VE");
	}

	public String name;

	public String String() {
	return name;
	}

	}

	// TODO(hyangah): add tests for methods that take parameters.

	public void testInterfaceMethodReturnsError() {
	final AnI obj = new AnI();
	try {
	Testpkg.CallE(obj);
	fail("Expecting exception but none was thrown.");
	} catch (Exception e) {
	assertEquals("Error messages should match", "my exception from E", e.getMessage());
	}
	}

	public void testInterfaceMethodVoid() {
	final AnI obj = new AnI();
	Testpkg.CallF(obj);
	assertTrue("Want AnI.F to be called", obj.calledF);
	}

	public void testInterfaceMethodReturnsInterface() {
	AnI obj = new AnI();
	obj.name = "testing AnI.I";
	I i = Testpkg.CallI(obj);
	assertEquals("Want AnI.I to return itself", i.String(), obj.String());

	runGC();

	i = Testpkg.CallI(obj);
	assertEquals("Want AnI.I to return itself", i.String(), obj.String());
	}

	public void testInterfaceMethodReturnsStructPointer() {
	final AnI obj = new AnI();
	for (int i = 0; i < 5; i++) {
	S s = Testpkg.CallS(obj);
	runGC();
	}
	}

	public void testInterfaceMethodTakesStructPointer() {
	final AnI obj = new AnI();
	S s = Testpkg.CallS(obj);
	String got = obj.StoString(s);
	String want = s.String();
	assertEquals("Want AnI.StoString(s) to call s's String", want, got);
	}

	public void testInterfaceMethodReturnsInt() {
	final AnI obj = new AnI();
	assertEquals("Values must match", 1234, Testpkg.CallV(obj));
	}

	public void testInterfaceMethodReturnsIntOrError() {
	final AnI obj = new AnI();
	try {
	long v = Testpkg.CallVE(obj);
	fail("Expecting exception but none was thrown and got value " + v);
	} catch (Exception e) {
	assertEquals("Error messages should match", "my exception from VE", e.getMessage());
	}
	}

	boolean finalizedAnI;

	private class AnI_Traced extends AnI {
	@Override
	public void finalize() throws Throwable {
	finalizedAnI = true;
	super.finalize();
	}
	}

	public void testJavaRefGC() {
	finalizedAnI = false;
	AnI obj = new AnI_Traced();
	Testpkg.CallF(obj);
	assertTrue("want F to be called", obj.calledF);
	Testpkg.CallF(obj);
	obj = null;
	runGC();
	assertTrue("want obj to be collected", finalizedAnI);
	}

	public void testJavaRefKeep() {
	finalizedAnI = false;
	AnI obj = new AnI_Traced();
	Testpkg.CallF(obj);
	Testpkg.CallF(obj);
	obj = null;
	runGC();
	assertTrue("want obj not to be kept by Go", finalizedAnI);

	finalizedAnI = false;
	obj = new AnI_Traced();
	Testpkg.Keep(obj);
	obj = null;
	runGC();
	assertFalse("want obj to be kept live by Go", finalizedAnI);
	}

	private int countI = 0;

	private class CountI implements I {
	public void F() { countI++; }

	public void E() throws Exception {}
	public I I() { return null; }
	public S S() { return null; }
	public String StoString(S s) { return ""; }
	public long V() { return 0; }
	public long VE() throws Exception { return 0; }
	public String String() { return ""; }
	}

	public void testGoRefMapGrow() {
	CountI obj = new CountI();
	Testpkg.Keep(obj);

	// Push active references beyond base map size.
	for (int i = 0; i < 24; i++) {
	CountI o = new CountI();
	Testpkg.CallF(o);
	if (i%3==0) {
	Testpkg.Keep(o);
	}
	}
	runGC();
	for (int i = 0; i < 128; i++) {
	Testpkg.CallF(new CountI());
	}

	Testpkg.CallF(obj); // original object needs to work.

	assertEquals(countI, 1+24+128);
	}

	private void runGC() {
	System.gc();
	System.runFinalization();
	Testpkg.GC();
	System.gc();
	System.runFinalization();
	}

	public void testUnnamedParams() {
	final String msg = "1234567";
	assertEquals("want the length of \"1234567\" passed after unnamed params",
	7, Testpkg.UnnamedParams(10, 20, msg));
	}

	public void testPointerToStructAsField() {
	Node a = Testpkg.NewNode("A");
	Node b = Testpkg.NewNode("B");
	a.setNext(b);
	String got = a.String();
	assertEquals("want Node A points to Node B", "A:B:<end>", got);
	}

	public void testImplementsInterface() {
	Interface intf = Testpkg.NewConcrete();
	}

	public void testErrorField() {
	final String want = "an error message";
	Node n = Testpkg.NewNode("ErrTest");
	n.setErr(want);
	String got = n.getErr();
	assertEquals("want back the error message we set", want, got);
	}

	//test if we have JNI local reference table overflow error
	public void testLocalReferenceOverflow() {
	Testpkg.CallWithCallback(new GoCallback() {

	@Override
	public void VarUpdate() {
	//do nothing
	}
	});
	}

	public void testNullReferences() {
	assertTrue(Testpkg.CallWithNull(null, new NullTest() {
	public NullTest Null() {
	return null;
	}
	}));
	assertEquals("Go nil interface is null", null, Testpkg.NewNullInterface());
	assertEquals("Go nil struct pointer is null", null, Testpkg.NewNullStruct());
	}

	public void testPassByteArray() {
	Testpkg.PassByteArray(new B() {
	@Override public void B(byte[] b) {
	byte[] want = new byte[]{1, 2, 3, 4};
	MoreAsserts.assertEquals("bytes should match", want, b);
	}
	});
	}

	public void testReader() {
	byte[] b = new byte[8];
	try {
	long n = Testpkg.ReadIntoByteArray(b);
	assertEquals("wrote to the entire byte array", b.length, n);
	byte[] want = new byte[b.length];
	for (int i = 0; i < want.length; i++)
	want[i] = (byte)i;
	MoreAsserts.assertEquals("bytes should match", want, b);
	} catch (Exception e) {
	fail("Failed to write: " + e.toString());
	}
	}

	public void testGoroutineCallback() {
	Testpkg.GoroutineCallback(new Receiver() {
	@Override public void Hello(String msg) {
	}
	});
	}

	public void testImportedPkg() {
	Testpkg.CallImportedI(new go.secondpkg.I() {
	@Override public long F(long i) {
	return i;
	}
	});
	assertEquals("imported string should match", Secondpkg.HelloString, Secondpkg.Hello());
	go.secondpkg.I i = Testpkg.NewImportedI();
	go.secondpkg.S s = Testpkg.NewImportedS();
	i = Testpkg.getImportedVarI();
	s = Testpkg.getImportedVarS();
	assertEquals("numbers should match", 8, i.F(8));
	assertEquals("numbers should match", 8, s.F(8));
	Testpkg.setImportedVarI(i);
	Testpkg.setImportedVarS(s);
	ImportedFields fields = Testpkg.NewImportedFields();
	i = fields.getI();
	s = fields.getS();
	fields.setI(i);
	fields.setS(s);
	Testpkg.WithImportedI(i);
	Testpkg.WithImportedS(s);

	go.secondpkg.IF f = new AnI();
	f = Testpkg.New();
	go.secondpkg.Ser ser = Testpkg.NewSer();
	}

	public void testRoundtripEquality() {
	I want = new AnI();
	assertTrue("java object passed through Go should not be wrapped", want == Testpkg.IDup(want));
	InterfaceDupper idup = new InterfaceDupper(){
	@Override public Interface IDup(Interface i) {
	return i;
	}
	};
	assertTrue("Go interface passed through Java should not be wrapped", Testpkg.CallIDupper(idup));
	ConcreteDupper cdup = new ConcreteDupper(){
	@Override public Concrete CDup(Concrete c) {
	return c;
	}
	};
	assertTrue("Go struct passed through Java should not be wrapped", Testpkg.CallCDupper(cdup));
	}

	public void testEmptyError() {
	try {
	Testpkg.EmptyError();
	fail("Empty error wasn't caught");
	} catch (Exception e) {
	}
	EmptyErrorer empty = new EmptyErrorer() {
	@Override public void EmptyError() throws Exception {
	throw new Exception("");
	}
	};
	try {
	Testpkg.CallEmptyError(empty);
	fail("Empty exception wasn't caught");
	} catch (Exception e) {
	}
	}
	}