307 lines
8.8 KiB
Text
307 lines
8.8 KiB
Text
//$$ newmatex.cpp Exception handler
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// Copyright (C) 1992,3,4,7: R B Davies
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#define WANT_STREAM // include.h will get stream fns
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#include "include.h" // include standard files
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#include "newmat.h"
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#ifdef use_namespace
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namespace NEWMAT {
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#endif
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unsigned long OverflowException::Select;
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unsigned long SingularException::Select;
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unsigned long NPDException::Select;
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unsigned long ConvergenceException::Select;
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unsigned long ProgramException::Select;
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unsigned long IndexException::Select;
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unsigned long VectorException::Select;
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unsigned long NotSquareException::Select;
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unsigned long SubMatrixDimensionException::Select;
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unsigned long IncompatibleDimensionsException::Select;
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unsigned long NotDefinedException::Select;
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unsigned long CannotBuildException::Select;
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unsigned long InternalException::Select;
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static void MatrixDetails(const GeneralMatrix& A)
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// write matrix details to Exception buffer
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{
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MatrixBandWidth bw = A.BandWidth(); int ubw = bw.upper; int lbw = bw.lower;
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BaseException::AddMessage("MatrixType = ");
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BaseException::AddMessage(A.Type().Value());
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BaseException::AddMessage(" # Rows = "); BaseException::AddInt(A.Nrows());
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BaseException::AddMessage("; # Cols = "); BaseException::AddInt(A.Ncols());
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if (lbw >=0)
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{ BaseException::AddMessage("; lower BW = "); BaseException::AddInt(lbw); }
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if (ubw >=0)
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{ BaseException::AddMessage("; upper BW = "); BaseException::AddInt(ubw); }
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BaseException::AddMessage("\n");
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}
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NPDException::NPDException(const GeneralMatrix& A)
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: Runtime_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: matrix not positive definite\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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SingularException::SingularException(const GeneralMatrix& A)
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: Runtime_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: matrix is singular\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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ConvergenceException::ConvergenceException(const GeneralMatrix& A)
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: Runtime_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: process fails to converge\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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ConvergenceException::ConvergenceException(const char* c) : Runtime_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\n\n");
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if (c) Tracer::AddTrace();
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}
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OverflowException::OverflowException(const char* c) : Runtime_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\n\n");
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if (c) Tracer::AddTrace();
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}
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ProgramException::ProgramException(const char* c) : Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\n\n");
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if (c) Tracer::AddTrace();
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}
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ProgramException::ProgramException(const char* c, const GeneralMatrix& A)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\n\n");
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MatrixDetails(A);
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if (c) Tracer::AddTrace();
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}
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ProgramException::ProgramException(const char* c, const GeneralMatrix& A,
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const GeneralMatrix& B) : Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\n\n");
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MatrixDetails(A); MatrixDetails(B);
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if (c) Tracer::AddTrace();
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}
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ProgramException::ProgramException(const char* c, MatrixType a, MatrixType b)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(c); AddMessage("\nMatrixTypes = ");
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AddMessage(a.Value()); AddMessage("; ");
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AddMessage(b.Value()); AddMessage("\n\n");
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if (c) Tracer::AddTrace();
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}
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VectorException::VectorException() : Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: cannot convert matrix to vector\n\n");
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Tracer::AddTrace();
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}
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VectorException::VectorException(const GeneralMatrix& A)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: cannot convert matrix to vector\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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NotSquareException::NotSquareException(const GeneralMatrix& A)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: matrix is not square\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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SubMatrixDimensionException::SubMatrixDimensionException()
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: incompatible submatrix dimension\n\n");
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Tracer::AddTrace();
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}
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IncompatibleDimensionsException::IncompatibleDimensionsException()
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: incompatible dimensions\n\n");
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Tracer::AddTrace();
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}
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IncompatibleDimensionsException::IncompatibleDimensionsException
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(const GeneralMatrix& A, const GeneralMatrix& B)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: incompatible dimensions\n\n");
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MatrixDetails(A); MatrixDetails(B);
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Tracer::AddTrace();
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}
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NotDefinedException::NotDefinedException(const char* op, const char* matrix)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: ");
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AddMessage(op);
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AddMessage(" not defined for ");
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AddMessage(matrix);
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AddMessage("\n\n");
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Tracer::AddTrace();
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}
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CannotBuildException::CannotBuildException(const char* matrix)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: cannot build matrix type ");
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AddMessage(matrix); AddMessage("\n\n");
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Tracer::AddTrace();
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}
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IndexException::IndexException(int i, const GeneralMatrix& A)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: index error: requested index = ");
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AddInt(i); AddMessage("\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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IndexException::IndexException(int i, int j, const GeneralMatrix& A)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: index error: requested indices = ");
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AddInt(i); AddMessage(", "); AddInt(j);
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AddMessage("\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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IndexException::IndexException(int i, const GeneralMatrix& A, bool)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("detected by Newmat: element error: requested index (wrt 0) = ");
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AddInt(i);
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AddMessage("\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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IndexException::IndexException(int i, int j, const GeneralMatrix& A, bool)
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: Logic_error()
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{
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Select = BaseException::Select;
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AddMessage(
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"detected by Newmat: element error: requested indices (wrt 0) = ");
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AddInt(i); AddMessage(", "); AddInt(j);
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AddMessage("\n\n");
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MatrixDetails(A);
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Tracer::AddTrace();
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}
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InternalException::InternalException(const char* c) : Logic_error()
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{
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Select = BaseException::Select;
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AddMessage("internal error detected by Newmat: please inform author\n");
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AddMessage(c); AddMessage("\n\n");
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Tracer::AddTrace();
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}
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/************************* ExeCounter functions *****************************/
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#ifdef DO_REPORT
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int ExeCounter::nreports; // will be set to zero
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ExeCounter::ExeCounter(int xl, int xf) : line(xl), fileid(xf), nexe(0) {}
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ExeCounter::~ExeCounter()
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{
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nreports++;
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cout << "REPORT " << setw(6) << nreports << " "
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<< setw(6) << fileid << " " << setw(6) << line
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<< " " << setw(6) << nexe << "\n";
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}
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#endif
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/**************************** error handler *******************************/
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void MatrixErrorNoSpace(void* v) { if (!v) Throw(Bad_alloc()); }
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// throw exception if v is null
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/************************* miscellanous errors ***************************/
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void CroutMatrix::GetRow(MatrixRowCol&)
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{ Throw(NotDefinedException("GetRow","Crout")); }
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void CroutMatrix::GetCol(MatrixRowCol&)
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{ Throw(NotDefinedException("GetCol","Crout")); }
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void CroutMatrix::operator=(const BaseMatrix&)
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{ Throw(NotDefinedException("=","Crout")); }
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void BandLUMatrix::GetRow(MatrixRowCol&)
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{ Throw(NotDefinedException("GetRow","BandLUMatrix")); }
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void BandLUMatrix::GetCol(MatrixRowCol&)
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{ Throw(NotDefinedException("GetCol","BandLUMatrix")); }
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void BandLUMatrix::operator=(const BaseMatrix&)
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{ Throw(NotDefinedException("=","BandLUMatrix")); }
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void BaseMatrix::IEQND() const
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{ Throw(NotDefinedException("inequalities", "matrices")); }
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#ifdef TEMPS_DESTROYED_QUICKLY_R
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ReturnMatrixX::ReturnMatrixX(const ReturnMatrixX& tm)
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: gm(tm.gm) { Throw(ProgramException("ReturnMatrixX error")); }
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#endif
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#ifdef use_namespace
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}
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#endif
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