153 lines
4.7 KiB
Text
153 lines
4.7 KiB
Text
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//#define WANT_STREAM
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#include "include.h"
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#include "newmatap.h"
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//#include "newmatio.h"
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#include "tmt.h"
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#ifdef use_namespace
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using namespace NEWMAT;
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#endif
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void trymatj()
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{
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Tracer et("Nineteenth test of Matrix package");
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Tracer::PrintTrace();
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// testing elementwise (SP) products
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{
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Tracer et1("Stage 1");
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Matrix A(13,7), B(13,7), C(13,7);
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int i,j;
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for (i=1;i<=13;i++) for (j=1; j<=7; j++)
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{
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Real a = (i+j*j)/2, b = (i*j-i/4);
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A(i,j)=a; B(i,j)=b; C(i,j)=a*b;
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}
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// Where complete matrix routine can be used
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Matrix X = SP(A,B)-C; Print(X);
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X = SP(A,B+1.0)-A-C; Print(X);
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X = SP(A-1,B)+B-C; Print(X);
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X = SP(A-1,B+1)+B-A-C+1; Print(X);
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// Where row-wise routine will be used
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A = A.Rows(7,13); B = B.Rows(7,13); C = C.Rows(7,13);
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LowerTriangularMatrix LTA; LTA << A;
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UpperTriangularMatrix UTB; UTB << B;
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DiagonalMatrix DC; DC << C;
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X = SP(LTA,UTB) - DC; Print(X);
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X = SP(LTA*2,UTB) - DC*2; Print(X);
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X = SP(LTA, UTB /2) - DC/2; Print(X);
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X = SP(LTA/2, UTB*2) - DC; Print(X);
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DiagonalMatrix DX;
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DX << SP(A,B); DX << (DX-C); Print(DX);
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DX << SP(A*4,B); DX << (DX-C*4); Print(DX);
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DX << SP(A,B*2); DX << (DX-C*2); Print(DX);
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DX << SP(A/4,B/4); DX << (DX-C/16); Print(DX);
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LowerTriangularMatrix LX;
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LX = SP(LTA,B); LX << (LX-C); Print(LX);
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LX = SP(LTA*3,B); LX << (LX-C*3); Print(LX);
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LX = SP(LTA,B*5); LX << (LX-C*5); Print(LX);
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LX = SP(-LTA,-B); LX << (LX-C); Print(LX);
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}
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{
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// Symmetric Matrices
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Tracer et1("Stage 2");
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SymmetricMatrix A(25), B(25), C(25);
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int i,j;
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for (i=1;i<=25;i++) for (j=i;j<=25;j++)
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{
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Real a = i*j +i - j + 3;
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Real b = i * i + j;
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A(i,j)=a; B(i,j)=b; C(i,j)=a*b;
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}
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UpperTriangularMatrix UT;
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UT << SP(A,B); UT << (UT - C); Print(UT);
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Matrix MA = A, X;
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X = SP(MA,B)-C; Print(X);
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X = SP(A,B)-C; Print(X);
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SymmetricBandMatrix BA(25,5), BB(25,5), BC(25,5);
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BA.Inject(A); BB.Inject(B); BC.Inject(C);
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X = SP(BA,BB)-BC; Print(X);
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X = SP(BA*7,BB)-BC*7; Print(X);
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X = SP(BA,BB/8)-BC/8; Print(X);
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X = SP(BA*16,BB/16)-BC; Print(X);
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X = SP(BA,BB); X=X-BC; Print(X);
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X = SP(BA*2, BB/2)-BC; Print(X);
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X = SP(BA, BB/2)-BC/2; Print(X);
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X = SP(BA*2, BB)-BC*2; Print(X);
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}
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{
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// Band matrices
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Tracer et1("Stage 3");
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Matrix A(19,19), B(19,19), C(19,19);
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int i,j;
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for (i=1;i<=19;i++) for (j=1;j<=19;j++)
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{
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Real a = i*j +i - 1.5*j + 3;
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Real b = i * i + j;
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A(i,j)=a; B(i,j)=b; C(i,j)=a*b;
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}
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BandMatrix BA(19,10,7), BB(19,8,15), BC(19,8,7);
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BA.Inject(A); BB.Inject(B); BC.Inject(C);
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Matrix X; BandMatrix BX; ColumnVector BW(2);
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X = SP(BA,BB); X=X-BC; Print(X);
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X = SP(BA/8,BB); X=X-BC/8; Print(X);
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X = SP(BA,BB*17); X=X-BC*17; Print(X);
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X = SP(BA/4,BB*7); X=X-BC*7/4; Print(X);
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X = SP(BA,BB)-BC; Print(X);
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X = SP(BA/8,BB)-BC/8; Print(X);
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X = SP(BA,BB*17)-BC*17; Print(X);
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X = SP(BA/4,BB*7)-BC*7/4; Print(X);
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BX = SP(BA,BB);
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BW(1)=BX.upper-7; BW(2)=BX.lower-8; Print(BW);
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BA.ReSize(19,7,10); BB.ReSize(19,15,8);
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BC.ReSize(19,7,8);
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BA.Inject(A); BB.Inject(B); BC.Inject(C);
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X = SP(BA,BB); X=X-BC; Print(X);
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X = SP(BA/8,BB); X=X-BC/8; Print(X);
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X = SP(BA,BB*17); X=X-BC*17; Print(X);
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X = SP(BA/4,BB*7); X=X-BC*7/4; Print(X);
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X = SP(BA,BB)-BC; Print(X);
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X = SP(BA/8,BB)-BC/8; Print(X);
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X = SP(BA,BB*17)-BC*17; Print(X);
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X = SP(BA/4,BB*7)-BC*7/4; Print(X);
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BX = SP(BA,BB);
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BW(1)=BX.upper-8; BW(2)=BX.lower-7; Print(BW);
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}
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{
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// SymmetricBandMatrices
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Tracer et1("Stage 4");
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Matrix A(7,7), B(7,7);
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int i,j;
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for (i=1;i<=7;i++) for (j=1;j<=7;j++)
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{
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Real a = i*j +i - 1.5*j + 3;
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Real b = i * i + j;
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A(i,j)=a; B(i,j)=b;
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}
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BandMatrix BA(7,2,4), BB(7,3,1), BC(7,2,1);
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BA.Inject(A);
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SymmetricBandMatrix SB(7,3);
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SymmetricMatrix S; S << (B+B.t());
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SB.Inject(S); A = BA; S = SB;
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Matrix X;
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X = SP(BA,SB); X=X-SP(A,S); Print(X);
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X = SP(BA*2,SB); X=X-SP(A,S*2); Print(X);
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X = SP(BA,SB/4); X=X-SP(A/4,S); Print(X);
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X = SP(BA*4,SB/4); X=X-SP(A,S); Print(X);
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X = SP(BA,SB)-SP(A,S); Print(X);
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X = SP(BA*2,SB)-SP(A,S*2); Print(X);
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X = SP(BA,SB/4)-SP(A/4,S); Print(X);
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X = SP(BA*4,SB/4)-SP(A,S); Print(X);
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}
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}
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