/** * Verify an unknown datatype URI is coded. */ public void test_datatype_unknown() { fixture.datatypeLiteral2key(new URIImpl("http://www.bigdata.com/foo"), "foo"); }
/** * Verify an unknown datatype URI is coded. */ public void test_datatype_unknown() { fixture.datatypeLiteral2key(new URIImpl("http://www.bigdata.com/foo"), "foo"); }
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_float_not_double() { final String lit1 = "04.21"; final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT,lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE,lit1); if (log.isInfoEnabled()) { log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); }
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_float_not_double() { final String lit1 = "04.21"; final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT,lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE,lit1); if (log.isInfoEnabled()) { log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); }
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_int_not_double_or_float() { final String lit1 = "4"; final byte[] k0 = fixture.datatypeLiteral2key(XMLSchema.INT, lit1); final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT, lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE, lit1); if (log.isInfoEnabled()) { log.info("k0(float:" + lit1 + ") = " + BytesUtil.toString(k0)); log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k0, k1) != 0); assertTrue(BytesUtil.compareBytes(k0, k2) != 0); }
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_int_not_double_or_float() { final String lit1 = "4"; final byte[] k0 = fixture.datatypeLiteral2key(XMLSchema.INT, lit1); final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT, lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE, lit1); if (log.isInfoEnabled()) { log.info("k0(float:" + lit1 + ") = " + BytesUtil.toString(k0)); log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k0, k1) != 0); assertTrue(BytesUtil.compareBytes(k0, k2) != 0); }
public void test_datatypeLiteral_xsd_int() { final URI datatype = XMLSchema.INT; // Note: leading zeros are ignored in the xsd:int value space. final String lit1 = "-4"; final String lit2 = "005"; final String lit3 = "5"; final String lit4 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(int:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(int:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k2(int:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(int:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) < 0); assertTrue(BytesUtil.compareBytes(k3, k4) < 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k2, k3) != 0); // 005 != 5 }
public void test_datatypeLiteral_xsd_int() { final URI datatype = XMLSchema.INT; // Note: leading zeros are ignored in the xsd:int value space. final String lit1 = "-4"; final String lit2 = "005"; final String lit3 = "5"; final String lit4 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(int:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(int:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k2(int:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(int:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) < 0); assertTrue(BytesUtil.compareBytes(k3, k4) < 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k2, k3) != 0); // 005 != 5 }
/** * Verify an unknown datatype URI is coded. */ public void test_datatype_unknown() { fixture.datatypeLiteral2key(new URIImpl("http://www.bigdata.com/foo"), "foo"); }
final String lit5 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); final byte[] k5 = fixture.datatypeLiteral2key(datatype,lit5);
final String lit5 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); final byte[] k5 = fixture.datatypeLiteral2key(datatype,lit5);
public void test_datatypeLiteral_xsd_boolean() { final URI datatype = XMLSchema.BOOLEAN; final String lit1 = "true"; final String lit2 = "false"; final String lit3 = "1"; final String lit4 = "0"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(boolean:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(boolean:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k3(boolean:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(boolean:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); assertTrue(BytesUtil.compareBytes(k1, k2) > 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k1, k3) != 0); // true != 1 assertTrue(BytesUtil.compareBytes(k2, k4) != 0); // false != 0 }
public void test_datatypeLiteral_xsd_boolean() { final URI datatype = XMLSchema.BOOLEAN; final String lit1 = "true"; final String lit2 = "false"; final String lit3 = "1"; final String lit4 = "0"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(boolean:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(boolean:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k3(boolean:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(boolean:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); assertTrue(BytesUtil.compareBytes(k1, k2) > 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k1, k3) != 0); // true != 1 assertTrue(BytesUtil.compareBytes(k2, k4) != 0); // false != 0 }
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_float_not_double() { final String lit1 = "04.21"; final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT,lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE,lit1); if (log.isInfoEnabled()) { log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); }
fixture.datatypeLiteral2key(XMLSchema.LONG, "-1"),// fixture.datatypeLiteral2key(XMLSchema.INT, "-1")// )); fixture.datatypeLiteral2key(XMLSchema.LONG, "-1"),// fixture.datatypeLiteral2key(XMLSchema.SHORT, "-1")// )); fixture.datatypeLiteral2key(XMLSchema.LONG, "-1"),// fixture.datatypeLiteral2key(XMLSchema.BYTE, "-1")// )); fixture.datatypeLiteral2key(XMLSchema.INT, "-1"),// fixture.datatypeLiteral2key(XMLSchema.SHORT, "-1")// )); fixture.datatypeLiteral2key(XMLSchema.INT, "-1"),// fixture.datatypeLiteral2key(XMLSchema.BYTE, "-1")// )); fixture.datatypeLiteral2key(XMLSchema.SHORT, "-1"),// fixture.datatypeLiteral2key(XMLSchema.BYTE, "-1")// ));
/** * Verify that some value spaces are disjoint. */ public void test_datatypeLiteral_xsd_int_not_double_or_float() { final String lit1 = "4"; final byte[] k0 = fixture.datatypeLiteral2key(XMLSchema.INT, lit1); final byte[] k1 = fixture.datatypeLiteral2key(XMLSchema.FLOAT, lit1); final byte[] k2 = fixture.datatypeLiteral2key(XMLSchema.DOUBLE, lit1); if (log.isInfoEnabled()) { log.info("k0(float:" + lit1 + ") = " + BytesUtil.toString(k0)); log.info("k1(float:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(double:" + lit1 + ") = " + BytesUtil.toString(k2)); } assertTrue(BytesUtil.compareBytes(k0, k1) != 0); assertTrue(BytesUtil.compareBytes(k0, k2) != 0); }
public void test_datatypeLiteral_xsd_int() { final URI datatype = XMLSchema.INT; // Note: leading zeros are ignored in the xsd:int value space. final String lit1 = "-4"; final String lit2 = "005"; final String lit3 = "5"; final String lit4 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(int:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(int:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k2(int:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(int:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) < 0); assertTrue(BytesUtil.compareBytes(k3, k4) < 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k2, k3) != 0); // 005 != 5 }
final String lit5 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); final byte[] k5 = fixture.datatypeLiteral2key(datatype,lit5);
final String lit5 = "6"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); final byte[] k5 = fixture.datatypeLiteral2key(datatype,lit5);
public void test_datatypeLiteral_xsd_boolean() { final URI datatype = XMLSchema.BOOLEAN; final String lit1 = "true"; final String lit2 = "false"; final String lit3 = "1"; final String lit4 = "0"; final byte[] k1 = fixture.datatypeLiteral2key(datatype,lit1); final byte[] k2 = fixture.datatypeLiteral2key(datatype,lit2); final byte[] k3 = fixture.datatypeLiteral2key(datatype,lit3); final byte[] k4 = fixture.datatypeLiteral2key(datatype,lit4); if (log.isInfoEnabled()) { log.info("k1(boolean:" + lit1 + ") = " + BytesUtil.toString(k1)); log.info("k2(boolean:" + lit2 + ") = " + BytesUtil.toString(k2)); log.info("k3(boolean:" + lit3 + ") = " + BytesUtil.toString(k3)); log.info("k4(boolean:" + lit4 + ") = " + BytesUtil.toString(k4)); } assertTrue(BytesUtil.compareBytes(k1, k2) != 0); assertTrue(BytesUtil.compareBytes(k1, k2) > 0); /* * Note: if we do not normalize data type values then these are * inequalities. */ assertTrue(BytesUtil.compareBytes(k1, k3) != 0); // true != 1 assertTrue(BytesUtil.compareBytes(k2, k4) != 0); // false != 0 }