3dpcp/3rdparty/newmat/tmtg.cpp

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2012-09-16 12:33:11 +00:00
//#define WANT_STREAM
#define WANT_MATH // for sqrt
#include "include.h"
#include "newmatap.h"
#include "tmt.h"
#ifdef use_namespace
using namespace NEWMAT;
#endif
void trymatg()
{
// cout << "\nSixteenth test of Matrix package\n";
// cout << "\n";
Tracer et("Sixteenth test of Matrix package");
Tracer::PrintTrace();
int i,j;
Matrix M(4,7);
for (i=1; i<=4; i++) for (j=1; j<=7; j++) M(i,j) = 100 * i + j;
ColumnVector CV = M.AsColumn();
{
Tracer et1("Stage 1");
RowVector test(7);
test(1) = SumSquare(M);
test(2) = SumSquare(CV);
test(3) = SumSquare(CV.t());
test(4) = SumSquare(CV.AsDiagonal());
test(5) = SumSquare(M.AsColumn());
test(6) = Matrix(CV.t()*CV)(1,1);
test(7) = (CV.t()*CV).AsScalar();
test = test - 2156560.0; Print(test);
}
UpperTriangularMatrix U(6);
for (i=1; i<=6; i++) for (j=i; j<=6; j++) U(i,j) = i + (i-j) * (i-j);
M = U; DiagonalMatrix D; D << U;
LowerTriangularMatrix L = U.t(); SymmetricMatrix S; S << (L+U)/2.0;
{
Tracer et1("Stage 2");
RowVector test(6);
test(1) = U.Trace();
test(2) = L.Trace();
test(3) = D.Trace();
test(4) = S.Trace();
test(5) = M.Trace();
test(6) = ((L+U)/2.0).Trace();
test = test - 21; Print(test);
test(1) = LogDeterminant(U).Value();
test(2) = LogDeterminant(L).Value();
test(3) = LogDeterminant(D).Value();
test(4) = LogDeterminant(D).Value();
test(5) = LogDeterminant((L+D)/2.0).Value();
test(6) = Determinant((L+D)/2.0);
test = test - 720; Clean(test,0.000000001); Print(test);
}
{
Tracer et1("Stage 3");
S << L*U; M = S;
RowVector test(8);
test(1) = LogDeterminant(S).Value();
test(2) = LogDeterminant(M).Value();
test(3) = LogDeterminant(L*U).Value();
test(4) = LogDeterminant(Matrix(L*L)).Value();
test(5) = Determinant(S);
test(6) = Determinant(M);
test(7) = Determinant(L*U);
test(8) = Determinant(Matrix(L*L));
test = test - 720.0 * 720.0; Clean(test,0.00000001); Print(test);
}
{
Tracer et1("Stage 4");
M = S * S;
Matrix SX = S;
RowVector test(3);
test(1) = SumSquare(S);
test(2) = SumSquare(SX);
test(3) = Trace(M);
test = test - 3925961.0; Print(test);
}
{
Tracer et1("Stage 5");
SymmetricMatrix SM(10), SN(10);
Real S = 0.0;
for (i=1; i<=10; i++) for (j=i; j<=10; j++)
{
SM(i,j) = 1.5 * i - j; SN(i,j) = SM(i,j) * SM(i,j);
if (SM(i,j) < 0.0) SN(i,j) = - SN(i,j);
S += SN(i,j) * ((i==j) ? 1.0 : 2.0);
}
Matrix M = SM, N = SN; RowVector test(4);
test(1) = SumAbsoluteValue(SN);
test(2) = SumAbsoluteValue(-SN);
test(3) = SumAbsoluteValue(N);
test(4) = SumAbsoluteValue(-N);
test = test - 1168.75; Print(test);
test(1) = Sum(SN);
test(2) = -Sum(-SN);
test(3) = Sum(N);
test(4) = -Sum(-N);
test = test - S; Print(test);
test(1) = MaximumAbsoluteValue(SM);
test(2) = MaximumAbsoluteValue(-SM);
test(3) = MaximumAbsoluteValue(M);
test(4) = MaximumAbsoluteValue(-M);
test = test - 8.5; Print(test);
}
{
Tracer et1("Stage 6");
Matrix M(15,20); Real value = 0.0;
for (i=1; i<=15; i++) { for (j=1; j<=20; j++) M(i,j) = 1.5 * i - j; }
for (i=1; i<=20; i++)
{ Real v = SumAbsoluteValue(M.Column(i)); if (value<v) value = v; }
RowVector test(3);
test(1) = value;
test(2) = Norm1(M);
test(3) = NormInfinity(M.t());
test = test - 165; Print(test);
test.ReSize(5);
ColumnVector CV = M.AsColumn(); M = CV.t();
test(1) = Norm1(CV.t());
test(2) = MaximumAbsoluteValue(M);
test(3) = NormInfinity(CV);
test(4) = Norm1(M);
test(5) = NormInfinity(M.t());
test = test - 21.5; Print(test);
}
{
Tracer et1("Stage 7");
Matrix M(15,20);
for (i=1; i<=15; i++) { for (j=1; j<=20; j++) M(i,j) = 2.5 * i - j; }
SymmetricMatrix SM; SM << M * M.t();
ColumnVector test(6);
test(1) = sqrt(SumSquare(M)) - NormFrobenius(M);
Real a = sqrt(SumSquare(SM));
test(2) = NormFrobenius(M * M.t()) - a;
test(3) = SM.NormFrobenius() - a;
test(4) = (M * M.t()).NormFrobenius() - a;
test(5) = NormFrobenius(SM) - a;
test(6) = Trace(SM) - M.SumSquare();
Clean(test, 0.00000001); Print(test);
}
// cout << "\nEnd of Sixteenth test\n";
}