/**
* Extracts the string value from a string literal, a chain of string literals, or a CAST of a
* string literal.
*
* @deprecated Use {@link #value(SqlNode)}
*/
@Deprecated // to be removed before 2.0
public static String stringValue(SqlNode node) {
if (node instanceof SqlLiteral) {
SqlLiteral literal = (SqlLiteral) node;
assert SqlTypeUtil.inCharFamily(literal.getTypeName());
return literal.toValue();
} else if (SqlUtil.isLiteralChain(node)) {
final SqlLiteral literal = SqlLiteralChainOperator.concatenateOperands((SqlCall) node);
assert SqlTypeUtil.inCharFamily(literal.getTypeName());
return literal.toValue();
} else if (node instanceof SqlCall
&& ((SqlCall) node).getOperator() == SqlStdOperatorTable.CAST) {
return stringValue(((SqlCall) node).operand(0));
} else {
throw Util.newInternal("invalid string literal: " + node);
}
}
/**
* Creates a call to the CAST operator, expanding if possible.
*
* @param type Type to cast to
* @param exp Expression being cast
* @return Call to CAST operator
*/
public RexNode makeCast(RelDataType type, RexNode exp) {
final SqlTypeName sqlType = type.getSqlTypeName();
if (exp instanceof RexLiteral) {
RexLiteral literal = (RexLiteral) exp;
Comparable value = literal.getValue();
if (RexLiteral.valueMatchesType(value, sqlType, false)
&& (!(value instanceof NlsString)
|| (type.getPrecision() >= ((NlsString) value).getValue().length()))
&& (!(value instanceof ByteString)
|| (type.getPrecision() >= ((ByteString) value).length()))) {
switch (literal.getTypeName()) {
case CHAR:
if (value instanceof NlsString) {
value = ((NlsString) value).rtrim();
}
break;
case TIMESTAMP:
case TIME:
final Calendar calendar = (Calendar) value;
int scale = type.getScale();
if (scale == RelDataType.SCALE_NOT_SPECIFIED) {
scale = 0;
}
calendar.setTimeInMillis(
SqlFunctions.round(
calendar.getTimeInMillis(), DateTimeUtils.powerX(10, 3 - scale)));
break;
case INTERVAL_DAY_TIME:
BigDecimal value2 = (BigDecimal) value;
final long multiplier =
literal.getType().getIntervalQualifier().getStartUnit().multiplier;
SqlTypeName typeName = type.getSqlTypeName();
// Not all types are allowed for literals
switch (typeName) {
case INTEGER:
typeName = SqlTypeName.BIGINT;
}
return makeLiteral(
value2.divide(BigDecimal.valueOf(multiplier), 0, BigDecimal.ROUND_HALF_DOWN),
type,
typeName);
}
return makeLiteral(value, type, literal.getTypeName());
}
} else if (SqlTypeUtil.isInterval(type) && SqlTypeUtil.isExactNumeric(exp.getType())) {
return makeCastExactToInterval(type, exp);
} else if (SqlTypeUtil.isExactNumeric(type) && SqlTypeUtil.isInterval(exp.getType())) {
return makeCastIntervalToExact(type, exp);
} else if (sqlType == SqlTypeName.BOOLEAN && SqlTypeUtil.isExactNumeric(exp.getType())) {
return makeCastExactToBoolean(type, exp);
} else if (exp.getType().getSqlTypeName() == SqlTypeName.BOOLEAN
&& SqlTypeUtil.isExactNumeric(type)) {
return makeCastBooleanToExact(type, exp);
}
return makeAbstractCast(type, exp);
}
/**
* Extracts the value from a literal.
*
* <p>Cases:
*
* <ul>
* <li>If the node is a character literal, a chain of string literals, or a CAST of a character
* literal, returns the value as a {@link NlsString}.
* <li>If the node is a numeric literal, or a negated numeric literal, returns the value as a
* {@link BigDecimal}.
* <li>If the node is a {@link SqlIntervalQualifier}, returns its {@link TimeUnitRange}.
* <li>If the node is INTERVAL_DAY_TIME in {@link SqlTypeFamily}, returns its sign multiplied by
* its millisecond equivalent value
* <li>If the node is INTERVAL_YEAR_MONTH in {@link SqlTypeFamily}, returns its sign multiplied
* by its months equivalent value
* <li>Otherwise the behavior is not specified.
* </ul>
*/
public static Comparable value(SqlNode node) {
if (node instanceof SqlLiteral) {
SqlLiteral literal = (SqlLiteral) node;
switch (literal.getTypeName().getFamily()) {
case CHARACTER:
return (NlsString) literal.value;
case NUMERIC:
return (BigDecimal) literal.value;
case INTERVAL_YEAR_MONTH:
final SqlIntervalLiteral.IntervalValue valMonth =
(SqlIntervalLiteral.IntervalValue) literal.value;
return valMonth.getSign() * SqlParserUtil.intervalToMonths(valMonth);
case INTERVAL_DAY_TIME:
final SqlIntervalLiteral.IntervalValue valTime =
(SqlIntervalLiteral.IntervalValue) literal.value;
return valTime.getSign() * SqlParserUtil.intervalToMillis(valTime);
}
}
if (SqlUtil.isLiteralChain(node)) {
assert node instanceof SqlCall;
final SqlLiteral literal = SqlLiteralChainOperator.concatenateOperands((SqlCall) node);
assert SqlTypeUtil.inCharFamily(literal.getTypeName());
return (NlsString) literal.value;
}
if (node instanceof SqlIntervalQualifier) {
SqlIntervalQualifier qualifier = (SqlIntervalQualifier) node;
return qualifier.timeUnitRange;
}
switch (node.getKind()) {
case CAST:
assert node instanceof SqlCall;
return value(((SqlCall) node).operand(0));
case MINUS_PREFIX:
assert node instanceof SqlCall;
Comparable o = value(((SqlCall) node).operand(0));
if (o instanceof BigDecimal) {
BigDecimal bigDecimal = (BigDecimal) o;
return bigDecimal.negate();
}
// fall through
default:
throw Util.newInternal("invalid literal: " + node);
}
}
/**
* Transforms this literal (which must be of type character) into a new one in which 4-digit
* Unicode escape sequences have been replaced with the corresponding Unicode characters.
*
* @param unicodeEscapeChar escape character (e.g. backslash) for Unicode numeric sequences; 0
* implies no transformation
* @return transformed literal
*/
public SqlLiteral unescapeUnicode(char unicodeEscapeChar) {
if (unicodeEscapeChar == 0) {
return this;
}
assert SqlTypeUtil.inCharFamily(getTypeName());
NlsString ns = (NlsString) value;
String s = ns.getValue();
StringBuilder sb = new StringBuilder();
int n = s.length();
for (int i = 0; i < n; ++i) {
char c = s.charAt(i);
if (c == unicodeEscapeChar) {
if (n > (i + 1)) {
if (s.charAt(i + 1) == unicodeEscapeChar) {
sb.append(unicodeEscapeChar);
++i;
continue;
}
}
if ((i + 5) > n) {
throw SqlUtil.newContextException(
getParserPosition(), RESOURCE.unicodeEscapeMalformed(i));
}
final String u = s.substring(i + 1, i + 5);
final int v;
try {
v = Integer.parseInt(u, 16);
} catch (NumberFormatException ex) {
throw SqlUtil.newContextException(
getParserPosition(), RESOURCE.unicodeEscapeMalformed(i));
}
sb.append((char) (v & 0xFFFF));
// skip hexits
i += 4;
} else {
sb.append(c);
}
}
ns = new NlsString(sb.toString(), ns.getCharsetName(), ns.getCollation());
return new SqlCharStringLiteral(ns, getParserPosition());
}
public static void checkCharsetAndCollateConsistentIfCharType(RelDataType type) {
// (every charset must have a default collation)
if (SqlTypeUtil.inCharFamily(type)) {
Charset strCharset = type.getCharset();
Charset colCharset = type.getCollation().getCharset();
assert null != strCharset;
assert null != colCharset;
if (!strCharset.equals(colCharset)) {
if (false) {
// todo: enable this checking when we have a charset to
// collation mapping
throw new Error(
type.toString()
+ " was found to have charset '"
+ strCharset.name()
+ "' and a mismatched collation charset '"
+ colCharset.name()
+ "'");
}
}
}
}
/**
* Creates a reference to a given field of the input record.
*
* @param type Type of field
* @param i Ordinal of field
* @return Reference to field
*/
public RexInputRef makeInputRef(RelDataType type, int i) {
type = SqlTypeUtil.addCharsetAndCollation(type, typeFactory);
return new RexInputRef(i, type);
}
/**
* Retrieves an interval or decimal node's integer representation
*
* @param node the interval or decimal value as an opaque type
* @return an integer representation of the decimal value
*/
public RexNode decodeIntervalOrDecimal(RexNode node) {
assert SqlTypeUtil.isDecimal(node.getType()) || SqlTypeUtil.isInterval(node.getType());
RelDataType bigintType = typeFactory.createSqlType(SqlTypeName.BIGINT);
return makeReinterpretCast(matchNullability(bigintType, node), node, makeLiteral(false));
}
