private void testDouble(boolean useFloat) { double[] d = {Double.NEGATIVE_INFINITY, -1, 0, 1, Double.POSITIVE_INFINITY, Double.NaN}; Value[] values = new Value[d.length]; for (int i = 0; i < d.length; i++) { Value v = useFloat ? (Value) ValueFloat.get((float) d[i]) : (Value) ValueDouble.get(d[i]); values[i] = v; assertTrue(values[i].compareTypeSafe(values[i], null) == 0); assertTrue(v.equals(v)); assertEquals(i < 2 ? -1 : i > 2 ? 1 : 0, v.getSignum()); } for (int i = 0; i < d.length - 1; i++) { assertTrue(values[i].compareTypeSafe(values[i + 1], null) < 0); assertTrue(values[i + 1].compareTypeSafe(values[i], null) > 0); assertTrue(!values[i].equals(values[i + 1])); } }
private void testModulusDouble() { final ValueDouble vd1 = ValueDouble.get(12); new AssertThrows(ErrorCode.DIVISION_BY_ZERO_1) { @Override public void test() { vd1.modulus(ValueDouble.get(0)); } }; ValueDouble vd2 = ValueDouble.get(10); ValueDouble vd3 = vd1.modulus(vd2); assertEquals(2, vd3.getDouble()); }
/** * Read a value. * * @return the value */ public Value readValue() { int type = data[pos++] & 255; switch (type) { case Value.NULL: return ValueNull.INSTANCE; case BOOLEAN_TRUE: return ValueBoolean.get(true); case BOOLEAN_FALSE: return ValueBoolean.get(false); case INT_NEG: return ValueInt.get(-readVarInt()); case Value.INT: return ValueInt.get(readVarInt()); case LONG_NEG: return ValueLong.get(-readVarLong()); case Value.LONG: return ValueLong.get(readVarLong()); case Value.BYTE: return ValueByte.get(readByte()); case Value.SHORT: return ValueShort.get(readShortInt()); case DECIMAL_0_1: return (ValueDecimal) ValueDecimal.ZERO; case DECIMAL_0_1 + 1: return (ValueDecimal) ValueDecimal.ONE; case DECIMAL_SMALL_0: return ValueDecimal.get(BigDecimal.valueOf(readVarLong())); case DECIMAL_SMALL: { int scale = readVarInt(); return ValueDecimal.get(BigDecimal.valueOf(readVarLong(), scale)); } case Value.DECIMAL: { int scale = readVarInt(); int len = readVarInt(); byte[] buff = DataUtils.newBytes(len); read(buff, 0, len); BigInteger b = new BigInteger(buff); return ValueDecimal.get(new BigDecimal(b, scale)); } case LOCAL_DATE: { return ValueDate.fromDateValue(readVarLong()); } case Value.DATE: { long x = readVarLong() * MILLIS_PER_MINUTE; return ValueDate.get(new Date(DateTimeUtils.getTimeUTCWithoutDst(x))); } case LOCAL_TIME: { long nanos = readVarLong() * 1000000 + readVarLong(); return ValueTime.fromNanos(nanos); } case Value.TIME: // need to normalize the year, month and day return ValueTime.get(new Time(DateTimeUtils.getTimeUTCWithoutDst(readVarLong()))); case LOCAL_TIMESTAMP: { long dateValue = readVarLong(); long nanos = readVarLong() * 1000000 + readVarLong(); return ValueTimestamp.fromDateValueAndNanos(dateValue, nanos); } case Value.TIMESTAMP: { Timestamp ts = new Timestamp(DateTimeUtils.getTimeUTCWithoutDst(readVarLong())); ts.setNanos(readVarInt()); return ValueTimestamp.get(ts); } case Value.BYTES: { int len = readVarInt(); byte[] b = DataUtils.newBytes(len); read(b, 0, len); return ValueBytes.getNoCopy(b); } case Value.GEOMETRY: { int len = readVarInt(); byte[] b = DataUtils.newBytes(len); read(b, 0, len); return ValueGeometry.get(b); } case Value.JAVA_OBJECT: { int len = readVarInt(); byte[] b = DataUtils.newBytes(len); read(b, 0, len); return ValueJavaObject.getNoCopy(null, b, handler); } case Value.UUID: return ValueUuid.get(readLong(), readLong()); case Value.STRING: return ValueString.get(readString()); case Value.STRING_IGNORECASE: return ValueStringIgnoreCase.get(readString()); case Value.STRING_FIXED: return ValueStringFixed.get(readString()); case FLOAT_0_1: return ValueFloat.get(0); case FLOAT_0_1 + 1: return ValueFloat.get(1); case DOUBLE_0_1: return ValueDouble.get(0); case DOUBLE_0_1 + 1: return ValueDouble.get(1); case Value.DOUBLE: return ValueDouble.get(Double.longBitsToDouble(Long.reverse(readVarLong()))); case Value.FLOAT: return ValueFloat.get(Float.intBitsToFloat(Integer.reverse(readVarInt()))); case Value.BLOB: case Value.CLOB: { int smallLen = readVarInt(); if (smallLen >= 0) { byte[] small = DataUtils.newBytes(smallLen); read(small, 0, smallLen); return ValueLobDb.createSmallLob(type, small); } else if (smallLen == -3) { int tableId = readVarInt(); long lobId = readVarLong(); long precision = readVarLong(); ValueLobDb lob = ValueLobDb.create(type, handler, tableId, lobId, null, precision); return lob; } else { int tableId = readVarInt(); int objectId = readVarInt(); long precision = 0; boolean compression = false; // -1: regular; -2: regular, but not linked (in this case: // including file name) if (smallLen == -1 || smallLen == -2) { precision = readVarLong(); compression = readByte() == 1; } if (smallLen == -2) { String filename = readString(); return ValueLob.openUnlinked( type, handler, tableId, objectId, precision, compression, filename); } return ValueLob.openLinked(type, handler, tableId, objectId, precision, compression); } } case Value.ARRAY: { int len = readVarInt(); Value[] list = new Value[len]; for (int i = 0; i < len; i++) { list[i] = readValue(); } return ValueArray.get(list); } case Value.RESULT_SET: { SimpleResultSet rs = new SimpleResultSet(); rs.setAutoClose(false); int columns = readVarInt(); for (int i = 0; i < columns; i++) { rs.addColumn(readString(), readVarInt(), readVarInt(), readVarInt()); } while (true) { if (readByte() == 0) { break; } Object[] o = new Object[columns]; for (int i = 0; i < columns; i++) { o[i] = readValue().getObject(); } rs.addRow(o); } return ValueResultSet.get(rs); } default: if (type >= INT_0_15 && type < INT_0_15 + 16) { return ValueInt.get(type - INT_0_15); } else if (type >= LONG_0_7 && type < LONG_0_7 + 8) { return ValueLong.get(type - LONG_0_7); } else if (type >= BYTES_0_31 && type < BYTES_0_31 + 32) { int len = type - BYTES_0_31; byte[] b = DataUtils.newBytes(len); read(b, 0, len); return ValueBytes.getNoCopy(b); } else if (type >= STRING_0_31 && type < STRING_0_31 + 32) { return ValueString.get(readString(type - STRING_0_31)); } throw DbException.get(ErrorCode.FILE_CORRUPTED_1, "type: " + type); } }