The functions COper::ReadVector(), COper::ReadMatrix()CXlOper::ReadVector() and CXlOper::ReadMatrix() support the use of named bounding variables.

If the *plUBound* argument of ReadVector()
or the *plUBound1* or *plUBound2* arguments of ReadMatrix() are not zero,
then they are used as pointers to a bounding variable.

The upper bound value will be treated as the size() of the vector, unless the XLA_BOUND_UBOUND_INNER bit of the lFlags argument has been set, in which case its value will be size() - 1 (following Visual Basic conventions).

If the bounding variable contains a value >= 0 before the call to ReadXXX(), then it will be treated as the required size of the vector/matrix. For example, if the variable contains 10, then the function ReadVector() will fail if the input variable does not contain exactly 10 non-empty items, and will return an error message like "#Error: Expected 10 items for Input".

If the bounding variable contains -1 before the call to ReadXXX(), then its value will be set to the upper bound of the vector or matrix that has been read in.

If a bounding variable is used by more than one call to ReadMatrix() or ReadVector(), then it can be used to ensure that all the arrays read in by these calls are the same size.

Consider the following example, with two vector inputs X and Y containing 3 and 5 cells respectively.

CopyC++

long lBound = -1; std::vector<long> vecX; std::vector<double> vecY; // Because lBound contains -1, the call to X->ReadVector() will set its value. bOk = bOk && X->ReadVector(vecX, "X", xloResult, &lBound); // After reading X, lBound will be set to 3 // Because lBound now does not contain -1, the call to Y->ReadVector() will expect an upper bound of 3. bOk = bOk && Y->ReadVector(vecY, "Y", xloResult, &lBound); // The call will fail and an error string, "#Error: Expected 3 items for Y", will be returned.

Similarly, you can ensure that a matrix input is square, by assigning the same bounds to *plBound1 and *plBound2.

CopyC++

long lBound = -1; xlp::matrix<long> matX; bOk = bOk && X->ReadMatrix(matX, "X", xloResult, 0, &lBound, &lBound);

See matrix & vector flags for a full list of flag values.

COper::ReadVector() | COper::ReadMatrix() | CXlOper::ReadVector() | CXlOper::ReadMatrix() | matrix & vector flags