3dpcp/3rdparty/newmat/tmt.cpp

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2012-09-16 12:33:11 +00:00
#define WANT_STREAM
#include "include.h"
#include "newmat.h"
#include "tmt.h"
#ifdef use_namespace
//using namespace NEWMAT;
namespace NEWMAT {
#endif
/**************************** test program ******************************/
class PrintCounter
{
int count;
const char* s;
public:
~PrintCounter();
PrintCounter(const char * sx) : count(0), s(sx) {}
void operator++() { count++; }
};
PrintCounter PCZ("Number of non-zero matrices (should be 1) = ");
PrintCounter PCN("Number of matrices tested = ");
PrintCounter::~PrintCounter()
{ cout << s << count << "\n"; }
void Print(const Matrix& X)
{
++PCN;
cout << "\nMatrix type: " << X.Type().Value() << " (";
cout << X.Nrows() << ", ";
cout << X.Ncols() << ")\n\n";
if (X.IsZero()) { cout << "All elements are zero\n" << flush; return; }
int nr=X.Nrows(); int nc=X.Ncols();
for (int i=1; i<=nr; i++)
{
for (int j=1; j<=nc; j++) cout << X(i,j) << "\t";
cout << "\n";
}
cout << flush; ++PCZ;
}
void Print(const UpperTriangularMatrix& X)
{
++PCN;
cout << "\nMatrix type: " << X.Type().Value() << " (";
cout << X.Nrows() << ", ";
cout << X.Ncols() << ")\n\n";
if (X.IsZero()) { cout << "All elements are zero\n" << flush; return; }
int nr=X.Nrows(); int nc=X.Ncols();
for (int i=1; i<=nr; i++)
{
int j;
for (j=1; j<i; j++) cout << "\t";
for (j=i; j<=nc; j++) cout << X(i,j) << "\t";
cout << "\n";
}
cout << flush; ++PCZ;
}
void Print(const DiagonalMatrix& X)
{
++PCN;
cout << "\nMatrix type: " << X.Type().Value() << " (";
cout << X.Nrows() << ", ";
cout << X.Ncols() << ")\n\n";
if (X.IsZero()) { cout << "All elements are zero\n" << flush; return; }
int nr=X.Nrows(); int nc=X.Ncols();
for (int i=1; i<=nr; i++)
{
for (int j=1; j<i; j++) cout << "\t";
if (i<=nc) cout << X(i,i) << "\t";
cout << "\n";
}
cout << flush; ++PCZ;
}
void Print(const SymmetricMatrix& X)
{
++PCN;
cout << "\nMatrix type: " << X.Type().Value() << " (";
cout << X.Nrows() << ", ";
cout << X.Ncols() << ")\n\n";
if (X.IsZero()) { cout << "All elements are zero\n" << flush; return; }
int nr=X.Nrows(); int nc=X.Ncols();
for (int i=1; i<=nr; i++)
{
int j;
for (j=1; j<i; j++) cout << X(j,i) << "\t";
for (j=i; j<=nc; j++) cout << X(i,j) << "\t";
cout << "\n";
}
cout << flush; ++PCZ;
}
void Print(const LowerTriangularMatrix& X)
{
++PCN;
cout << "\nMatrix type: " << X.Type().Value() << " (";
cout << X.Nrows() << ", ";
cout << X.Ncols() << ")\n\n";
if (X.IsZero()) { cout << "All elements are zero\n" << flush; return; }
int nr=X.Nrows();
for (int i=1; i<=nr; i++)
{
for (int j=1; j<=i; j++) cout << X(i,j) << "\t";
cout << "\n";
}
cout << flush; ++PCZ;
}
void Clean(Matrix& A, Real c)
{
int nr = A.Nrows(); int nc = A.Ncols();
for (int i=1; i<=nr; i++)
{
for (int j=1; j<=nc; j++)
{ Real a = A(i,j); if ((a < c) && (a > -c)) A(i,j) = 0.0; }
}
}
void Clean(DiagonalMatrix& A, Real c)
{
int nr = A.Nrows();
for (int i=1; i<=nr; i++)
{ Real a = A(i,i); if ((a < c) && (a > -c)) A(i,i) = 0.0; }
}
void PentiumCheck(Real N, Real D)
{
Real R = N / D;
R = R * D - N;
if ( R > 1 || R < -1)
cout << "Pentium error detected: % error = " << 100 * R / N << "\n";
}
#ifdef use_namespace
}
using namespace NEWMAT;
#endif
//*************************** main program **********************************
void TestTypeAdd(); // test +
void TestTypeMult(); // test *
void TestTypeConcat(); // test |
void TestTypeSP(); // test SP
void TestTypeKP(); // test KP
void TestTypeOrder(); // test >=
int main()
{
Real* s1; Real* s2; Real* s3; Real* s4;
cout << "\nBegin test\n"; // Forces cout to allocate memory at beginning
cout << "Now print a real number: " << 3.14159265 << endl;
// Throw exception to set up exception buffer
#ifndef DisableExceptions
Try { Throw(BaseException("Just a dummy\n")); }
CatchAll {}
#else
cout << "Not doing exceptions\n";
#endif
{ Matrix A1(40,200); s1 = A1.Store(); }
{ Matrix A1(1,1); s3 = A1.Store(); }
{
Tracer et("Matrix test program");
Matrix A(25,150);
{
int i;
RowVector A(8);
for (i=1;i<=7;i++) A(i)=0.0; A(8)=1.0;
Print(A);
}
cout << "\n";
TestTypeAdd(); TestTypeMult(); TestTypeConcat();
TestTypeSP(); TestTypeKP(); TestTypeOrder();
Try {
trymat1();
trymat2();
trymat3();
trymat4();
trymat5();
trymat6();
trymat7();
trymat8();
trymat9();
trymata();
trymatb();
trymatc();
trymatd();
trymate();
trymatf();
trymatg();
trymath();
trymati();
trymatj();
trymatk();
trymatl();
trymatm();
cout << "\nEnd of tests\n";
}
CatchAll
{
cout << "\nTest program fails - exception generated\n\n";
cout << BaseException::what();
}
}
{ Matrix A1(40,200); s2 = A1.Store(); }
cout << "\n(The following memory checks are probably not valid with all\n";
cout << "compilers - see documentation)\n";
cout << "\nChecking for lost memory: "
<< (unsigned long)s1 << " " << (unsigned long)s2 << " ";
if (s1 != s2) cout << " - error\n"; else cout << " - ok\n";
{ Matrix A1(1,1); s4 = A1.Store(); }
cout << "\nChecking for lost memory: "
<< (unsigned long)s3 << " " << (unsigned long)s4 << " ";
if (s3 != s4) cout << " - error\n\n"; else cout << " - ok\n\n";
// check for Pentium bug
PentiumCheck(4195835L,3145727L);
PentiumCheck(5244795L,3932159L);
#ifdef DO_FREE_CHECK
FreeCheck::Status();
#endif
return 0;
}
//************************ test type manipulation **************************/
// These functions may cause problems for Glockenspiel 2.0c; they are used
// only for testing so you can delete them
void TestTypeAdd()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << "+ ";
int i;
for (i=0; i<MatrixType::nTypes(); i++) cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << (list[j]+list[i]).Value() << " ";
cout << "\n";
}
cout << "\n";
}
void TestTypeMult()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << "* ";
int i;
for (i=0; i<MatrixType::nTypes(); i++)
cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << (list[j]*list[i]).Value() << " ";
cout << "\n";
}
cout << "\n";
}
void TestTypeConcat()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << "| ";
int i;
for (i=0; i<MatrixType::nTypes(); i++)
cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << (list[j] | list[i]).Value() << " ";
cout << "\n";
}
cout << "\n";
}
void TestTypeSP()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << "SP ";
int i;
for (i=0; i<MatrixType::nTypes(); i++)
cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << (list[j].SP(list[i])).Value() << " ";
cout << "\n";
}
cout << "\n";
}
void TestTypeKP()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << "KP ";
int i;
for (i=0; i<MatrixType::nTypes(); i++)
cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << (list[j].KP(list[i])).Value() << " ";
cout << "\n";
}
cout << "\n";
}
void TestTypeOrder()
{
MatrixType list[10];
list[0] = MatrixType::UT;
list[1] = MatrixType::LT;
list[2] = MatrixType::Rt;
list[3] = MatrixType::Sm;
list[4] = MatrixType::Dg;
list[5] = MatrixType::BM;
list[6] = MatrixType::UB;
list[7] = MatrixType::LB;
list[8] = MatrixType::SB;
list[9] = MatrixType::Id;
cout << ">= ";
int i;
for (i = 0; i<MatrixType::nTypes(); i++)
cout << list[i].Value() << " ";
cout << "\n";
for (i=0; i<MatrixType::nTypes(); i++)
{
cout << list[i].Value() << " ";
for (int j=0; j<MatrixType::nTypes(); j++)
cout << ((list[j]>=list[i]) ? "Yes " : "No ");
cout << "\n";
}
cout << "\n";
}