/// \ingroup newmat
///@{
/// \file tmti.cpp
/// Part of matrix library test program.
/// Test exceptions
//#define WANT_STREAM
#include "include.h"
#include "newmatap.h"
//#include "newmatio.h"
#include "tmt.h"
#ifdef use_namespace
using namespace NEWMAT;
#endif
void WillNotConverge()
{
Matrix A(10,10);
Throw(ConvergenceException(A));
}
void ReSizeMatrix(Matrix& A)
// for seeing if we can redimension a vector as a matrix
{ A.ReSize(4,5); }
void trymati()
{
#ifndef DisableExceptions
Tracer et("Eighteenth test of Matrix package");
Matrix RUStillThere(10,20); RUStillThere = 1553;
Tracer::PrintTrace();
ColumnVector checks(23); checks = 1.0; checks(1) = 0.0;
Try { WillNotConverge(); }
Catch(ConvergenceException) { checks(2) = 0; }
CatchAll { checks(1) = 1; }
Try { Matrix M(10,10); SymmetricMatrix S = M; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(3) = 0; }
CatchAll { checks(1) = 1; }
Try { Matrix M(10,10); M(10,11) = 2.0; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(IndexException) { checks(4) = 0; }
CatchAll { checks(1) = 1; }
Try { Matrix M(10,10); M = 0.0; M = M.i(); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(1) = 1; }
Catch(SingularException) { checks(5) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try { ColumnVector A(30), B(50); A = 5; B = 3; FFT(A,B,A,B); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(6) = 0; }
CatchAll { checks(1) = 1; }
Try
{
ColumnVector A(30); A = 5; Matrix At = A.t();
DiagonalMatrix D;
SVD(At,D);
}
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(Logic_error) { checks(6) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try { BandMatrix X(10,3,4); X(1,10) = 4.0; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(IndexException) { checks(7) = 0; }
CatchAll { checks(1) = 1; }
Try
{
SymmetricMatrix S(10); S = 5;
LowerTriangularMatrix L = Cholesky(S);
}
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(1) = 1; }
Catch(NPDException) { checks(8) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try { BandMatrix M(10,3,5); M = 0.0; Matrix XM = M.i(); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(1) = 1; }
Catch(SingularException) { checks(9) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try { ColumnVector X(10); ColumnVector Y; X = 5; X = X - Y; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(IncompatibleDimensionsException) { checks(10) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try
{
UpperTriangularMatrix U(3); RowVector RV(3); RV = 10;
U.Row(2) = RV;
}
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(11) = 0; }
Catch(Bad_alloc) { checks(1) = 1; }
CatchAndThrow;
Try { DiagonalMatrix D(3); D << 12 << 13 << 14 << 15; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(12) = 0; }
CatchAndThrow;
Try { ColumnVector D(3); D << 12 << 13; D << 1 << 2 << 3; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(13) = 0; }
CatchAndThrow;
Try { { ColumnVector D(3); D << 12 << 13; } }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(14) = 0; }
CatchAndThrow;
Try { ColumnVector CV; ReSizeMatrix(CV); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(VectorException) { checks(15) = 0; }
CatchAndThrow;
Try { RowVector RV(20); ReSizeMatrix(RV); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(VectorException) { checks(16) = 0; }
CatchAndThrow;
Try
{
UpperTriangularMatrix U(10); U = 5;
DiagonalMatrix D(10); D = 2;
D += U; // illegal conversion
}
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(17) = 0; }
CatchAndThrow;
Try { Matrix A(2,3), B(2,3); if (A < B) A = B; }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(NotDefinedException) { checks(18) = 0; }
CatchAndThrow;
Try { SymmetricBandMatrix A(3,1); A = 1; A = A.Reverse(); }
Catch(ConvergenceException) { checks(1) = 1; }
Catch(InternalException) { checks(1) = 1; }
Catch(NotDefinedException) { checks(19) = 0; }
CatchAndThrow;
Try
{
Matrix A(5,5); A = 1.0;
UpperTriangularMatrix B(10);
B.SubMatrix(3,7,3,7) = A;
}
Catch(ProgramException) { checks(20) = 0; }
CatchAndThrow;
Try { { RowVector D(1); D << 12 << 13; } }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(21) = 0; }
CatchAndThrow;
Try { { RowVector D(0); D << 12; } }
Catch(InternalException) { checks(1) = 1; }
Catch(ProgramException) { checks(22) = 0; }
CatchAndThrow;
Try { Matrix M(10,10); Matrix XM(3,3); M = 0.0; XM = M.i(); }
Catch(SingularException) { checks(23) = 0; }
CatchAll { checks(1) = 1; }
Print(checks);
Matrix RUStillThere1(10,20); RUStillThere1 = 1553;
RUStillThere = RUStillThere - RUStillThere1;
Print(RUStillThere);
#endif
}
///@}
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