/** * Determines whether a {@link RexCall} requires decimal expansion. It usually requires expansion * if it has decimal operands. * * <p>Exceptions to this rule are: * * <ul> * <li>isNull doesn't require expansion * <li>It's okay to cast decimals to and from char types * <li>It's okay to cast nulls as decimals * <li>Casts require expansion if their return type is decimal * <li>Reinterpret casts can handle a decimal operand * </ul> * * @param expr expression possibly in need of expansion * @param recurse whether to check nested calls * @return whether the expression requires expansion */ public static boolean requiresDecimalExpansion(RexNode expr, boolean recurse) { if (!(expr instanceof RexCall)) { return false; } RexCall call = (RexCall) expr; boolean localCheck = true; switch (call.getKind()) { case Reinterpret: case IsNull: localCheck = false; break; case Cast: RelDataType lhsType = call.getType(); RelDataType rhsType = call.operands[0].getType(); if (rhsType.getSqlTypeName() == SqlTypeName.NULL) { return false; } if (SqlTypeUtil.inCharFamily(lhsType) || SqlTypeUtil.inCharFamily(rhsType)) { localCheck = false; } else if (SqlTypeUtil.isDecimal(lhsType) && (lhsType != rhsType)) { return true; } break; default: localCheck = call.getOperator().requiresDecimalExpansion(); } if (localCheck) { if (SqlTypeUtil.isDecimal(call.getType())) { // NOTE jvs 27-Mar-2007: Depending on the type factory, the // result of a division may be decimal, even though both inputs // are integer. return true; } for (int i = 0; i < call.operands.length; i++) { if (SqlTypeUtil.isDecimal(call.operands[i].getType())) { return true; } } } return (recurse && requiresDecimalExpansion(call.operands, recurse)); }
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() + "'"); } } } }
public boolean isFieldCaseSensitive(int fieldOrdinal) { RelDataType type = getFieldType(fieldOrdinal); return SqlTypeUtil.inCharFamily(type); }
private Expression castToAssignableValueImpl() { if (requiresSpecializedCast()) { if (rhsType.isNullable() && (!SqlTypeUtil.isDecimal(rhsType))) { rhsExp = getValue(rhsType, rhsExp); } addStatement( new ExpressionStatement( new MethodCall( lhsExp, "cast", new ExpressionList(rhsExp, Literal.makeLiteral(lhsType.getPrecision()))))); } else { // Set current_date for casting time to timestamp. If // rhsType is null then we may have to be ready for anything. // But it will be null even for current_timestamp, so the // condition below seems a bit excessive. if ((lhsType.getSqlTypeName() == SqlTypeName.TIMESTAMP) && ((rhsType == null) || (rhsType.getSqlTypeName() == SqlTypeName.TIME))) { addStatement( new ExpressionStatement( new MethodCall(lhsExp, "setCurrentDate", new ExpressionList(getCurrentDate())))); } addStatement( new ExpressionStatement( new MethodCall( lhsExp, AssignableValue.ASSIGNMENT_METHOD_NAME, new ExpressionList(rhsExp)))); } // Trim precision of datetime values. // if (((lhsType.getSqlTypeName() == SqlTypeName.TIMESTAMP) || (lhsType.getSqlTypeName() == SqlTypeName.TIME))) { if ((rhsType != null) // FIXME: JavaType(java.sql.Time) and // JavaType(java.sql.Timestamp) say they support precision // but do not. && !rhsType.toString().startsWith("JavaType(") && rhsType.getSqlTypeName().allowsPrec() && (lhsType.getPrecision() < rhsType.getPrecision())) { int lhsPrecision = lhsType.getPrecision(); if (lhsPrecision == -1) { lhsPrecision = 0; } addStatement( new ExpressionStatement( new MethodCall( lhsExp, SqlDateTimeWithoutTZ.ADJUST_PRECISION_METHOD_NAME, new ExpressionList(Literal.makeLiteral(lhsPrecision))))); } } boolean mayNeedPadOrTruncate = false; if (SqlTypeUtil.inCharOrBinaryFamilies(lhsType) && !SqlTypeUtil.isLob(lhsType)) { mayNeedPadOrTruncate = true; } if (mayNeedPadOrTruncate) { // check overflow if it is datetime. // TODO: should check it at the run time. // so, it should be in the // cast(SqlDateTimeWithTZ, int precision); if ((rhsType != null) && (rhsType.getSqlTypeName() != null)) { SqlTypeName typeName = rhsType.getSqlTypeName(); int precision = 0; switch (typeName) { case DATE: precision = 10; break; case TIME: precision = 8; break; case TIMESTAMP: precision = 19; break; } if ((precision != 0) && (precision > lhsType.getPrecision())) { addStatement( new IfStatement( new BinaryExpression( Literal.makeLiteral(precision), BinaryExpression.GREATER, Literal.makeLiteral(lhsType.getPrecision())), getThrowStmtList())); } } if ((rhsType != null) && (rhsType.getFamily() == lhsType.getFamily()) && !SqlTypeUtil.isLob(rhsType)) { // we may be able to skip pad/truncate based on // known facts about source and target precisions if (SqlTypeUtil.isBoundedVariableWidth(lhsType)) { if (lhsType.getPrecision() >= rhsType.getPrecision()) { // target precision is greater than source // precision, so truncation is impossible // and we can skip adjustment return lhsExp; } } else { if ((lhsType.getPrecision() == rhsType.getPrecision()) && !SqlTypeUtil.isBoundedVariableWidth(rhsType)) { // source and target are both fixed-width, and // precisions are the same, so there's no adjustment // needed return lhsExp; } } } // determine target precision Expression precisionExp = Literal.makeLiteral(lhsType.getPrecision()); // need to pad only for fixed width Expression needPadExp = Literal.makeLiteral(!SqlTypeUtil.isBoundedVariableWidth(lhsType)); // pad character is 0 for binary, space for character Expression padByteExp; if (!SqlTypeUtil.inCharFamily(lhsType)) { padByteExp = new CastExpression(OJSystem.BYTE, Literal.makeLiteral(0)); } else { padByteExp = new CastExpression(OJSystem.BYTE, Literal.makeLiteral(' ')); } // generate the call to do the job addStatement( new ExpressionStatement( new MethodCall( lhsExp, BytePointer.ENFORCE_PRECISION_METHOD_NAME, new ExpressionList(precisionExp, needPadExp, padByteExp)))); } return lhsExp; }