/**
* Checks for overflow when assigning one primitive type to another. Non-primitive types check
* for overflow during assignment.
*/
private void checkOverflow() {
String maxLiteral = null;
String minLiteral = null;
if (lhsType == null) {
return;
}
// Assume that equivalent types can be assigned without overflow
if (lhsType.getSqlTypeName() == rhsType.getSqlTypeName()) {
return;
}
// Approximate numerics have a wider range than exact numerics
if (SqlTypeUtil.isApproximateNumeric(lhsType) && SqlTypeUtil.isExactNumeric(rhsType)) {
return;
}
// We can skip an error check if the left type is "larger"
if (SqlTypeUtil.isIntType(lhsType)
&& SqlTypeUtil.isIntType(rhsType)
&& (SqlTypeUtil.maxValue(lhsType) >= SqlTypeUtil.maxValue(rhsType))) {
return;
}
if (SqlTypeUtil.isExactNumeric(lhsType)) {
String numClassName = SqlTypeUtil.getNumericJavaClassName(lhsType);
minLiteral = numClassName + ".MIN_VALUE";
maxLiteral = numClassName + ".MAX_VALUE";
} else if (SqlTypeUtil.isApproximateNumeric(lhsType)) {
String numClassName = SqlTypeUtil.getNumericJavaClassName(lhsType);
maxLiteral = numClassName + ".MAX_VALUE";
minLiteral = "-" + maxLiteral;
}
if (maxLiteral == null) {
return;
}
Statement ifstmt =
new IfStatement(
new BinaryExpression(
new BinaryExpression(
rhsExp, BinaryExpression.LESS, new Literal(Literal.STRING, minLiteral)),
BinaryExpression.LOGICAL_OR,
new BinaryExpression(
rhsExp, BinaryExpression.GREATER, new Literal(Literal.STRING, maxLiteral))),
getThrowStmtList());
addStatement(ifstmt);
}
/**
* Casts the rhs to a non nullable primitive value. Non nullable primitive values only have a
* single value field.
*/
private Expression castToNotNullPrimitive() {
// If the left and the right types are the same, perform a
// trivial cast.
if (lhsType == rhsType) {
return getDirectAssignment();
}
// Retrieve the value of the right side if it is a nullable
// primitive or a Datetime or an Interval type.
// TODO: is Decimal a nullable primitive?
if (translator.isNullablePrimitive(rhsType)
|| SqlTypeUtil.isDatetime(rhsType)
|| SqlTypeUtil.isInterval(rhsType)) {
rhsExp = getValue(rhsType, rhsExp);
}
// Get the name of the numeric class such as Byte, Short, etc.
String numClassName = SqlTypeUtil.getNumericJavaClassName(lhsType);
OJClass lhsClass = getLhsClass();
// When casting from a string (or binary) to a number, trim the
// value and perform the cast by calling a class-specific parsing
// function.
if ((numClassName != null)
&& SqlTypeUtil.inCharOrBinaryFamilies(rhsType)
&& !SqlTypeUtil.isLob(rhsType)) {
// TODO: toString will cause too much garbage collection.
rhsExp = new MethodCall(rhsExp, "toString", new ExpressionList());
rhsExp = new MethodCall(rhsExp, "trim", new ExpressionList());
String methodName = "parse" + numClassName;
if (lhsType.getSqlTypeName() == SqlTypeName.INTEGER) {
methodName = "parseInt";
}
rhsExp =
new MethodCall(
new Literal(Literal.STRING, numClassName), methodName, new ExpressionList(rhsExp));
Variable outTemp = translator.getRelImplementor().newVariable();
translator.addStatement(
new VariableDeclaration(
TypeName.forOJClass(lhsClass), new VariableDeclarator(outTemp.toString(), rhsExp)));
rhsExp = outTemp;
// Note: this check for overflow should only be required
// when the string conversion does not perform a check.
checkOverflow();
} else if ((lhsType.getSqlTypeName() == SqlTypeName.BOOLEAN)
&& SqlTypeUtil.inCharOrBinaryFamilies(rhsType)
&& !SqlTypeUtil.isLob(rhsType)) {
// Casting from string to boolean relies on the runtime type.
// Note: string is trimmed by conversion method.
// TODO: toString will cause too much garbage collection.
Expression str = new MethodCall(rhsExp, "toString", new ExpressionList());
rhsExp =
new MethodCall(
OJClass.forClass(NullablePrimitive.NullableBoolean.class),
"convertString",
new ExpressionList(str));
} else {
// In general, check for overflow
checkOverflow();
}
roundAsNeeded();
rhsExp = new CastExpression(lhsClass, rhsExp);
return getDirectAssignment();
}