public virtual void TestAsReadOnlyBuffer()
{
buf.Clear();
buf.Mark();
buf.Position = (buf.Limit);
// readonly's contents should be the same as buf
Int32Buffer @readonly = buf.AsReadOnlyBuffer();
assertNotSame(buf, @readonly);
assertTrue(@readonly.IsReadOnly);
assertEquals(buf.Position, @readonly.Position);
assertEquals(buf.Limit, @readonly.Limit);
//assertEquals(buf.IsDirect, @readonly.IsDirect); // J2N: IsDirect not supported
assertEquals(buf.Order, @readonly.Order);
assertContentEquals(buf, @readonly);
// readonly's position, mark, and limit should be independent to buf
@readonly.Reset();
assertEquals(@readonly.Position, 0);
@readonly.Clear();
assertEquals(buf.Position, buf.Limit);
buf.Reset();
assertEquals(buf.Position, 0);
}
//6231529
private static void callReset(Int32Buffer b)
{
b.Position = (0);
b.Mark();
b.Duplicate().Reset();
b.AsReadOnlyBuffer().Reset();
}
public static void test(int level, Int32Buffer b, bool direct)
{
Show(level, b);
//if (direct != b.IsDirect) // J2N: IsDirect not supported
// fail("Wrong direction", b);
// Gets and puts
relPut(b);
relGet(b);
absGet(b);
bulkGet(b);
absPut(b);
relGet(b);
absGet(b);
bulkGet(b);
bulkPutArray(b);
relGet(b);
bulkPutBuffer(b);
relGet(b);
// Compact
relPut(b);
b.Position = (13);
b.Compact();
b.Flip();
relGet(b, 13);
// Exceptions
relPut(b);
b.Limit = (b.Capacity / 2);
b.Position = (b.Limit);
tryCatch(b, typeof(BufferUnderflowException), () =>
{
b.Get();
});
tryCatch(b, typeof(BufferOverflowException), () =>
{
b.Put((int)42);
});
// The index must be non-negative and lesss than the buffer's limit.
tryCatch(b, typeof(ArgumentOutOfRangeException), () =>
{
b.Get(b.Limit);
});
tryCatch(b, typeof(ArgumentOutOfRangeException), () =>
{
b.Get(-1);
});
tryCatch(b, typeof(ArgumentOutOfRangeException), () =>
{
b.Put(b.Limit, (int)42);
});
tryCatch(b, typeof(InvalidMarkException), () =>
{
b.Position = (0);
b.Mark();
b.Compact();
b.Reset();
});
// Values
b.Clear();
b.Put((int)0);
b.Put((int)-1);
b.Put((int)1);
b.Put(int.MaxValue);
b.Put(int.MinValue);
int v;
b.Flip();
ck(b, b.Get(), 0);
ck(b, b.Get(), (int)-1);
ck(b, b.Get(), 1);
ck(b, b.Get(), int.MaxValue);
ck(b, b.Get(), int.MinValue);
// Comparison
b.Rewind();
Int32Buffer b2 = Int32Buffer.Allocate(b.Capacity);
b2.Put(b);
b2.Flip();
b.Position = (2);
b2.Position = (2);
if (!b.Equals(b2))
{
for (int i = 2; i < b.Limit; i++)
{
int x = b.Get(i);
int y = b2.Get(i);
if (x != y)
{
output.WriteLine("[" + i + "] " + x + " != " + y);
}
}
fail("Identical buffers not equal", b, b2);
}
if (b.CompareTo(b2) != 0)
{
fail("Comparison to identical buffer != 0", b, b2);
}
b.Limit = (b.Limit + 1);
b.Position = (b.Limit - 1);
b.Put((int)99);
b.Rewind();
b2.Rewind();
if (b.Equals(b2))
{
fail("Non-identical buffers equal", b, b2);
}
if (b.CompareTo(b2) <= 0)
{
fail("Comparison to shorter buffer <= 0", b, b2);
}
b.Limit = (b.Limit - 1);
b.Put(2, (int)42);
if (b.Equals(b2))
{
fail("Non-identical buffers equal", b, b2);
}
if (b.CompareTo(b2) <= 0)
{
fail("Comparison to lesser buffer <= 0", b, b2);
}
// Check equals and compareTo with interesting values
foreach (int x in VALUES)
{
Int32Buffer xb = Int32Buffer.Wrap(new int[] { x });
if (xb.CompareTo(xb) != 0)
{
fail("compareTo not reflexive", xb, xb, x, x);
}
if (!xb.Equals(xb))
{
fail("equals not reflexive", xb, xb, x, x);
}
foreach (int y in VALUES)
{
Int32Buffer yb = Int32Buffer.Wrap(new int[] { y });
if (xb.CompareTo(yb) != -yb.CompareTo(xb))
{
fail("compareTo not anti-symmetric",
xb, yb, x, y);
}
if ((xb.CompareTo(yb) == 0) != xb.Equals(yb))
{
fail("compareTo inconsistent with equals",
xb, yb, x, y);
}
if (xb.CompareTo(yb) != x.CompareTo(y))
{
fail("Incorrect results for Int32Buffer.compareTo",
xb, yb, x, y);
}
if (xb.Equals(yb) != ((x == y) /*|| ((x != x) && (y != y))*/))
{
fail("Incorrect results for Int32Buffer.equals",
xb, yb, x, y);
}
}
}
// Sub, dup
relPut(b);
relGet(b.Duplicate());
b.Position = (13);
relGet(b.Duplicate(), 13);
relGet(b.Duplicate().Slice(), 13);
relGet(b.Slice(), 13);
relGet(b.Slice().Duplicate(), 13);
// Slice
b.Position = (5);
Int32Buffer sb = b.Slice();
checkSlice(b, sb);
b.Position = (0);
Int32Buffer sb2 = sb.Slice();
checkSlice(sb, sb2);
if (!sb.Equals(sb2))
{
fail("Sliced slices do not match", sb, sb2);
}
if ((sb.HasArray) && (sb.ArrayOffset != sb2.ArrayOffset))
{
fail("Array offsets do not match: "
+ sb.ArrayOffset + " != " + sb2.ArrayOffset, sb, sb2);
}
// Read-only views
b.Rewind();
Int32Buffer rb = b.AsReadOnlyBuffer();
if (!b.Equals(rb))
{
fail("Buffer not equal to read-only view", b, rb);
}
Show(level + 1, rb);
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
relPut(rb);
});
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
absPut(rb);
});
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
bulkPutArray(rb);
});
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
bulkPutBuffer(rb);
});
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
rb.Compact();
});
if (rb.GetType().Name.StartsWith("Heap"))
{
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
var _ = rb.Array;
});
tryCatch(b, typeof(ReadOnlyBufferException), () =>
{
var _ = rb.ArrayOffset;
});
if (rb.HasArray)
{
fail("Read-only heap buffer's backing array is accessible",
rb);
}
}
// Bulk puts from read-only buffers
b.Clear();
rb.Rewind();
b.Put(rb);
relPut(b); // Required by testViews
}