From: guido Date: Mon, 21 May 2001 14:13:56 +0000 (+0000) Subject: new class vector2d X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=2502935897b5bf2eae05bfebf5b88a292e419f1a;p=dealii-svn.git new class vector2d git-svn-id: https://svn.dealii.org/trunk@4680 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/base/include/base/data_out_base.h b/deal.II/base/include/base/data_out_base.h index 0c102d721c..1ef0c47755 100644 --- a/deal.II/base/include/base/data_out_base.h +++ b/deal.II/base/include/base/data_out_base.h @@ -15,7 +15,7 @@ #include -#include +#include #include #include #include @@ -418,7 +418,7 @@ class DataOutBase * should yield the same value for all * patches provided. */ - FullMatrix data; + vector2d data; /** * Default constructor. Sets diff --git a/deal.II/base/source/data_out_base.cc b/deal.II/base/source/data_out_base.cc index a5fab0fa25..ebab9e0012 100644 --- a/deal.II/base/source/data_out_base.cc +++ b/deal.II/base/source/data_out_base.cc @@ -385,16 +385,16 @@ void DataOutBase::write_ucd (const typename std::vector > &p { const unsigned int n_subdivisions = patch->n_subdivisions; - Assert (patch->data.m() == n_data_sets, - ExcUnexpectedNumberOfDatasets (patch->data.m(), n_data_sets)); - Assert (patch->data.n() == (dim==1 ? + Assert (patch->data.n_rows() == n_data_sets, + ExcUnexpectedNumberOfDatasets (patch->data.n_rows(), n_data_sets)); + Assert (patch->data.n_cols() == (dim==1 ? n_subdivisions+1 : (dim==2 ? (n_subdivisions+1)*(n_subdivisions+1) : (dim==3 ? (n_subdivisions+1)*(n_subdivisions+1)*(n_subdivisions+1) : 0))), - ExcInvalidDatasetSize (patch->data.n(), n_subdivisions+1)); + ExcInvalidDatasetSize (patch->data.n_cols(), n_subdivisions+1)); switch (dim) { @@ -531,16 +531,16 @@ void DataOutBase::write_gnuplot (const typename std::vector { const unsigned int n_subdivisions = patch->n_subdivisions; - Assert (patch->data.m() == n_data_sets, - ExcUnexpectedNumberOfDatasets (patch->data.m(), n_data_sets)); - Assert (patch->data.n() == (dim==1 ? + Assert (patch->data.n_rows() == n_data_sets, + ExcUnexpectedNumberOfDatasets (patch->data.n_rows(), n_data_sets)); + Assert (patch->data.n_cols() == (dim==1 ? n_subdivisions+1 : (dim==2 ? (n_subdivisions+1)*(n_subdivisions+1) : (dim==3 ? (n_subdivisions+1)*(n_subdivisions+1)*(n_subdivisions+1) : 0))), - ExcInvalidDatasetSize (patch->data.n(), n_subdivisions+1)); + ExcInvalidDatasetSize (patch->data.n_cols(), n_subdivisions+1)); switch (dim) { @@ -830,16 +830,16 @@ void DataOutBase::write_povray (const typename std::vector > { const unsigned int n_subdivisions = patch->n_subdivisions; - Assert (patch->data.m() == n_data_sets, - ExcUnexpectedNumberOfDatasets (patch->data.m(), n_data_sets)); - Assert (patch->data.n() == (dim==1 ? + Assert (patch->data.n_rows() == n_data_sets, + ExcUnexpectedNumberOfDatasets (patch->data.n_rows(), n_data_sets)); + Assert (patch->data.n_cols() == (dim==1 ? n_subdivisions+1 : (dim==2 ? (n_subdivisions+1)*(n_subdivisions+1) : (dim==3 ? (n_subdivisions+1)*(n_subdivisions+1)*(n_subdivisions+1) : 0))), - ExcInvalidDatasetSize (patch->data.n(), n_subdivisions+1)); + ExcInvalidDatasetSize (patch->data.n_cols(), n_subdivisions+1)); for (unsigned int i=0; i > { const unsigned int n_subdivisions = patch->n_subdivisions; - Assert (patch->data.m() == n_data_sets, - ExcUnexpectedNumberOfDatasets (patch->data.m(), n_data_sets)); - Assert (patch->data.n() == (dim==1 ? + Assert (patch->data.n_rows() == n_data_sets, + ExcUnexpectedNumberOfDatasets (patch->data.n_rows(), n_data_sets)); + Assert (patch->data.n_cols() == (dim==1 ? n_subdivisions+1 : (dim==2 ? (n_subdivisions+1)*(n_subdivisions+1) : (dim==3 ? (n_subdivisions+1)*(n_subdivisions+1)*(n_subdivisions+1) : 0))), - ExcInvalidDatasetSize (patch->data.n(), n_subdivisions+1)); + ExcInvalidDatasetSize (patch->data.n_cols(), n_subdivisions+1)); std::vector > ver((n_subdivisions+1)* @@ -1193,21 +1193,21 @@ void DataOutBase::write_eps (const typename std::vector > &p (patch->vertices[3] * (1-x_frac))) * y_frac1) }; - Assert ((flags.height_vector < patch->data.m()) || - patch->data.m() == 0, + Assert ((flags.height_vector < patch->data.n_rows()) || + patch->data.n_rows() == 0, ExcInvalidVectorNumber (flags.height_vector, - patch->data.m())); + patch->data.n_rows())); const double heights[4] - = { patch->data.m() != 0 ? + = { patch->data.n_rows() != 0 ? patch->data(flags.height_vector,i*(n_subdivisions+1) + j) * flags.z_scaling : 0, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.height_vector,(i+1)*(n_subdivisions+1) + j) * flags.z_scaling : 0, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.height_vector,(i+1)*(n_subdivisions+1) + j+1) * flags.z_scaling : 0, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.height_vector,i*(n_subdivisions+1) + j+1) * flags.z_scaling : 0}; @@ -1278,21 +1278,21 @@ void DataOutBase::write_eps (const typename std::vector > &p if (flags.draw_cells && flags.shade_cells) { - Assert ((flags.color_vector < patch->data.m()) || - patch->data.m() == 0, + Assert ((flags.color_vector < patch->data.n_rows()) || + patch->data.n_rows() == 0, ExcInvalidVectorNumber (flags.color_vector, - patch->data.m())); + patch->data.n_rows())); const double color_values[4] - = { patch->data.m() != 0 ? + = { patch->data.n_rows() != 0 ? patch->data(flags.color_vector,i*(n_subdivisions+1) + j) : 1, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.color_vector,(i+1)*(n_subdivisions+1) + j) : 1, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.color_vector,(i+1)*(n_subdivisions+1) + j+1) : 1, - patch->data.m() != 0 ? + patch->data.n_rows() != 0 ? patch->data(flags.color_vector,i*(n_subdivisions+1) + j+1) : 1}; // set color value to average of the value @@ -1473,8 +1473,8 @@ void DataOutBase::write_gmv (const typename std::vector > &p // first patch. checks against all // other patches are made in // write_gmv_reorder_data_vectors - Assert (n_data_sets == patches[0].data.m(), - ExcUnexpectedNumberOfDatasets (patches[0].data.m(), n_data_sets)); + Assert (n_data_sets == patches[0].data.n_rows(), + ExcUnexpectedNumberOfDatasets (patches[0].data.n_rows(), n_data_sets)); /////////////////////// @@ -1788,8 +1788,8 @@ void DataOutBase::write_vtk (const typename std::vector > &p // first patch. checks against all // other patches are made in // write_gmv_reorder_data_vectors - Assert (n_data_sets == patches[0].data.m(), - ExcUnexpectedNumberOfDatasets (patches[0].data.m(), n_data_sets)); + Assert (n_data_sets == patches[0].data.n_rows(), + ExcUnexpectedNumberOfDatasets (patches[0].data.n_rows(), n_data_sets)); /////////////////////// @@ -2115,7 +2115,7 @@ DataOutBase::write_gmv_reorder_data_vectors (const typename std::vectorn_subdivisions; - Assert (patch->data.m() == n_data_sets, - ExcUnexpectedNumberOfDatasets (patch->data.m(), n_data_sets)); - Assert (patch->data.n() == (dim==1 ? + Assert (patch->data.n_rows() == n_data_sets, + ExcUnexpectedNumberOfDatasets (patch->data.n_rows(), n_data_sets)); + Assert (patch->data.n_cols() == (dim==1 ? n_subdivisions+1 : (dim==2 ? (n_subdivisions+1)*(n_subdivisions+1) : (dim==3 ? (n_subdivisions+1)*(n_subdivisions+1)*(n_subdivisions+1) : 0))), - ExcInvalidDatasetSize (patch->data.n(), n_subdivisions+1)); + ExcInvalidDatasetSize (patch->data.n_cols(), n_subdivisions+1)); switch (dim) { diff --git a/deal.II/doc/news/2001/c-3-1.html b/deal.II/doc/news/2001/c-3-1.html index 4948d4a040..55bd4af311 100644 --- a/deal.II/doc/news/2001/c-3-1.html +++ b/deal.II/doc/news/2001/c-3-1.html @@ -125,6 +125,16 @@ documentation, etc.

base

    + +
  1. + + New: class vector2d was introduced + in analogy to STL class vector. The + bew class provides a two-dimensional array and replaces the use + of FullMatrix in the base library. +
    + (GK 2001/05/21) +

  2. Improved: JobIdentifier::operator() includes host name if diff --git a/deal.II/lac/include/lac/full_matrix.h b/deal.II/lac/include/lac/full_matrix.h index 790ca439f3..91d92c6dd3 100644 --- a/deal.II/lac/include/lac/full_matrix.h +++ b/deal.II/lac/include/lac/full_matrix.h @@ -17,7 +17,7 @@ /*---------------------------- fullmatrix.h ---------------------------*/ #include -#include +#include #include @@ -60,7 +60,7 @@ template class Vector; * @author Guido Kanschat, Franz-Theo Suttmeier, Wolfgang Bangerth, 1993-2001 */ template -class FullMatrix : public Subscriptor +class FullMatrix : public vector2d { public: /** @@ -99,11 +99,6 @@ class FullMatrix : public Subscriptor const unsigned int cols, const number* entries); - - /** - * Destructor. Release all memory. - */ - ~FullMatrix(); /** * Comparison operator. Be careful with @@ -126,7 +121,7 @@ class FullMatrix : public Subscriptor * generate a predefined copy * operator which is not what we want. */ - FullMatrix& operator = (const FullMatrix& src); +// FullMatrix& operator = (const FullMatrix& src); /** * Assignment operator. @@ -134,8 +129,8 @@ class FullMatrix : public Subscriptor * into the matrix. The size is * adjusted if needed. */ - template - FullMatrix& operator = (const FullMatrix& src); +// template +// FullMatrix& operator = (const FullMatrix& src); /** @@ -158,6 +153,12 @@ class FullMatrix : public Subscriptor const unsigned int j=0); + /** + * Make function of base class available. + */ + template + void fill (const number2*); + /** * Fill with permutation of another matrix. * @@ -180,28 +181,20 @@ class FullMatrix : public Subscriptor const std::vector& p_rows, const std::vector& p_cols); - /** - * Fill matrix with an array of numbers. - * The array is arranged line by line. No - * range checking is performed. - */ - template - void fill (const number2* entries); - /** * Set dimension to $m\times n$ and * allocate memory if necessary. Forget * the previous content of the matrix. */ - void reinit (const unsigned int m, - const unsigned int n); +// void reinit (const unsigned int m, +// const unsigned int n); /** * Set dimension to $n\times n$ and * allocate memory if necessary. Forget * the previous content of the matrix. */ - void reinit (const unsigned int n); +// void reinit (const unsigned int n); /** * Set dimension to $m(B)\times n(B)$ and @@ -210,8 +203,8 @@ class FullMatrix : public Subscriptor * However, this function does not copy * the contents of @p{B}. */ - template - void reinit (const FullMatrix &B); +// template +// void reinit (const FullMatrix &B); /** * Number of rows of this matrix. @@ -237,31 +230,7 @@ class FullMatrix : public Subscriptor */ bool all_zero () const; - /** - * Return the value of the element @p{(i,j)}. - * Does the same as the private @p{el(i,j)} - * function but does bounds checking in - * debug mode. - */ - number operator() (const unsigned int i, - const unsigned int j) const; - /** - * Return a read-write reference to - * the element @p{(i,j)}. - * Does the same as the private @p{el(i,j)} - * function but does bounds checking in - * debug mode. - */ - number& operator() (const unsigned int i, - const unsigned int j); - - /** - * Set all entries in the matrix to - * zero. Do not resize the matrix. - */ - void clear (); - /** * Weighted addition. The matrix * @p{s*B} is added to @p{this}. @@ -656,7 +625,7 @@ class FullMatrix : public Subscriptor * of this object. */ unsigned int memory_consumption () const; - + /** * Exception */ @@ -693,80 +662,11 @@ class FullMatrix : public Subscriptor << " matrix dimension " << arg1); private: - /** - * Component-array. - */ - number *val; - - /** - * Dimension of range. - * Actual number of Columns - */ - unsigned int dim_range; - - /** - * Dimension of image. Actual number of Rows - */ - unsigned int dim_image; - - /** - * Dimension of the array - * holding the values of the - * matrix elements. Determines - * amount of reserved memory. - * - * Actually, the allocated array may - * not have a size equal to the number - * of elements of this matrix, since - * reallocation only happens when the - * size of the matrix is increased. - * Therefore, if the matrix size was - * decreased somewhen in the past, - * @p{val_size} will be larger than - * @p{dim_range * dim_image}. - */ - unsigned int val_size; - - /** - * Return a read-write reference to the - * element @p{(i,j)}. - * - * This function does no bounds - * checking and is only to be used - * internally and in functions - * already checked. - */ - number & el (const unsigned int i, const unsigned int j); - - /** - * Return the value of the element @p{(i,j)}. - * - * This function does no bounds checking - * and is only to be used - * internally and in functions - * already checked. - */ - number el (const unsigned int i, const unsigned int j) const; }; /*-------------------------Inline functions -------------------------------*/ -template -inline number & -FullMatrix::el (const unsigned int i, const unsigned int j) -{ - return val[i*dim_range+j]; -}; - - - -template -inline number -FullMatrix::el (const unsigned int i, const unsigned int j) const -{ - return val[i*dim_range+j]; -}; @@ -774,7 +674,7 @@ template inline unsigned int FullMatrix::m() const { - return dim_image; + return n_rows(); }; @@ -783,30 +683,18 @@ template inline unsigned int FullMatrix::n() const { - return dim_range; -}; - - - -template -inline number -FullMatrix::operator() (const unsigned int i, const unsigned int j) const -{ - Assert (i -inline number & -FullMatrix::operator() (const unsigned int i, const unsigned int j) +template +inline +void FullMatrix::fill (const number2* src) { - Assert (i::fill(src); +} + /*---------------------------- fullmatrix.h ---------------------------*/ diff --git a/deal.II/lac/include/lac/full_matrix.templates.h b/deal.II/lac/include/lac/full_matrix.templates.h index 9126c9fa84..1c492bf0cb 100644 --- a/deal.II/lac/include/lac/full_matrix.templates.h +++ b/deal.II/lac/include/lac/full_matrix.templates.h @@ -26,136 +26,39 @@ template FullMatrix::FullMatrix (const unsigned int n) : - val (0), - dim_range (0), - dim_image (0), - val_size (0) -{ - reinit (n,n); -}; + vector2d (n) +{} template FullMatrix::FullMatrix (const unsigned int m, const unsigned int n) : - val (0), - dim_range (0), - dim_image (0), - val_size (0) -{ - reinit (m,n); -}; + vector2d (m, n) +{} template FullMatrix::FullMatrix (const unsigned int m, const unsigned int n, const number* entries) : - val (0), - dim_range (0), - dim_image (0), - val_size (0) -{ - reinit (m,n); - - if (dim_range*dim_image != 0) - std::copy (entries, entries+dim_image*dim_range, val); -}; + vector2d (m, n, entries) +{} template FullMatrix::FullMatrix (const FullMatrix &m) : - Subscriptor (), - val (0), - dim_range (0), - dim_image (0), - val_size (0) -{ - reinit (m.dim_image, m.dim_range); - if (dim_range*dim_image != 0) - std::copy (&m.val[0], &m.val[dim_image*dim_range], - &val[0]); -}; - - -template -FullMatrix::~FullMatrix () -{ - if (val != 0) - delete[] val; -}; - - -template -void -FullMatrix::reinit (const unsigned int mm, - const unsigned int nn) -{ - dim_range = nn; - dim_image = mm; - - // if zero size was given: free all - // memory - if ((dim_range==0) || (dim_image == 0)) - { - if (val != 0) - delete[] val; - - val = 0; - val_size = 0; - - // set both sizes to zero, even - // if one was previously - // nonzero. This simplifies - // some Assertions. - dim_range = dim_image = 0; - - return; - }; - - // if new size is nonzero: - // if necessary: allocate - // additional memory - if (val_size -void -FullMatrix::reinit (const unsigned int n) -{ - reinit (n, n); -}; - - -template -template -void -FullMatrix::reinit (const FullMatrix &B) -{ - reinit (B.m(), B.n()); -}; + vector2d (m) +{} template bool FullMatrix::all_zero () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); - const number *p = &val[0], - *e = &val[n()*m()]; + const number *p = data(), + *e = data() + n()*m(); while (p!=e) if (*p++ != 0.0) return false; @@ -171,7 +74,7 @@ FullMatrix::vmult (Vector& dst, const Vector& src, const bool adding) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(dst.size() == m(), ExcDimensionMismatch(dst.size(), m())); Assert(src.size() == n(), ExcDimensionMismatch(src.size(), n())); @@ -181,11 +84,11 @@ FullMatrix::vmult (Vector& dst, number2 s; number2 s0,s1,s2; s = src(0); - s0 = s*val[0]; s1 = s*val[3]; s2 = s*val[6]; + s0 = s*data()[0]; s1 = s*data()[3]; s2 = s*data()[6]; s = src(1); - s0 += s*val[1]; s1 += s*val[4]; s2 += s*val[7]; + s0 += s*data()[1]; s1 += s*data()[4]; s2 += s*data()[7]; s = src(2); - s0 += s*val[2]; s1 += s*val[5]; s2 += s*val[8]; + s0 += s*data()[2]; s1 += s*data()[5]; s2 += s*data()[8]; if (!adding) { @@ -205,13 +108,13 @@ FullMatrix::vmult (Vector& dst, number2 s; number2 s0,s1,s2,s3; s = src(0); - s0 = s*val[0]; s1 = s*val[4]; s2 = s*val[8]; s3 = s*val[12]; + s0 = s*data()[0]; s1 = s*data()[4]; s2 = s*data()[8]; s3 = s*data()[12]; s = src(1); - s0 += s*val[1]; s1 += s*val[5]; s2 += s*val[9]; s3 += s*val[13]; + s0 += s*data()[1]; s1 += s*data()[5]; s2 += s*data()[9]; s3 += s*data()[13]; s = src(2); - s0 += s*val[2]; s1 += s*val[6]; s2 += s*val[10]; s3 += s*val[14]; + s0 += s*data()[2]; s1 += s*data()[6]; s2 += s*data()[10]; s3 += s*data()[14]; s = src(3); - s0 += s*val[3]; s1 += s*val[7]; s2 += s*val[11]; s3 += s*val[15]; + s0 += s*data()[3]; s1 += s*data()[7]; s2 += s*data()[11]; s3 += s*data()[15]; if (!adding) { @@ -233,29 +136,29 @@ FullMatrix::vmult (Vector& dst, number2 s; number2 s0,s1,s2,s3,s4,s5,s6,s7; s = src(0); - s0 = s*val[0]; s1 = s*val[8]; s2 = s*val[16]; s3 = s*val[24]; - s4 = s*val[32]; s5 = s*val[40]; s6 = s*val[48]; s7 = s*val[56]; + s0 = s*data()[0]; s1 = s*data()[8]; s2 = s*data()[16]; s3 = s*data()[24]; + s4 = s*data()[32]; s5 = s*data()[40]; s6 = s*data()[48]; s7 = s*data()[56]; s = src(1); - s0 += s*val[1]; s1 += s*val[9]; s2 += s*val[17]; s3 += s*val[25]; - s4 += s*val[33]; s5 += s*val[41]; s6 += s*val[49]; s7 += s*val[57]; + s0 += s*data()[1]; s1 += s*data()[9]; s2 += s*data()[17]; s3 += s*data()[25]; + s4 += s*data()[33]; s5 += s*data()[41]; s6 += s*data()[49]; s7 += s*data()[57]; s = src(2); - s0 += s*val[2]; s1 += s*val[10]; s2 += s*val[18]; s3 += s*val[26]; - s4 += s*val[34]; s5 += s*val[42]; s6 += s*val[50]; s7 += s*val[58]; + s0 += s*data()[2]; s1 += s*data()[10]; s2 += s*data()[18]; s3 += s*data()[26]; + s4 += s*data()[34]; s5 += s*data()[42]; s6 += s*data()[50]; s7 += s*data()[58]; s = src(3); - s0 += s*val[3]; s1 += s*val[11]; s2 += s*val[19]; s3 += s*val[27]; - s4 += s*val[35]; s5 += s*val[43]; s6 += s*val[51]; s7 += s*val[59]; + s0 += s*data()[3]; s1 += s*data()[11]; s2 += s*data()[19]; s3 += s*data()[27]; + s4 += s*data()[35]; s5 += s*data()[43]; s6 += s*data()[51]; s7 += s*data()[59]; s = src(4); - s0 += s*val[4]; s1 += s*val[12]; s2 += s*val[20]; s3 += s*val[28]; - s4 += s*val[36]; s5 += s*val[44]; s6 += s*val[52]; s7 += s*val[60]; + s0 += s*data()[4]; s1 += s*data()[12]; s2 += s*data()[20]; s3 += s*data()[28]; + s4 += s*data()[36]; s5 += s*data()[44]; s6 += s*data()[52]; s7 += s*data()[60]; s = src(5); - s0 += s*val[5]; s1 += s*val[13]; s2 += s*val[21]; s3 += s*val[29]; - s4 += s*val[37]; s5 += s*val[45]; s6 += s*val[53]; s7 += s*val[61]; + s0 += s*data()[5]; s1 += s*data()[13]; s2 += s*data()[21]; s3 += s*data()[29]; + s4 += s*data()[37]; s5 += s*data()[45]; s6 += s*data()[53]; s7 += s*data()[61]; s = src(6); - s0 += s*val[6]; s1 += s*val[14]; s2 += s*val[22]; s3 += s*val[30]; - s4 += s*val[38]; s5 += s*val[46]; s6 += s*val[54]; s7 += s*val[62]; + s0 += s*data()[6]; s1 += s*data()[14]; s2 += s*data()[22]; s3 += s*data()[30]; + s4 += s*data()[38]; s5 += s*data()[46]; s6 += s*data()[54]; s7 += s*data()[62]; s = src(7); - s0 += s*val[7]; s1 += s*val[15]; s2 += s*val[23]; s3 += s*val[31]; - s4 += s*val[39]; s5 += s*val[47]; s6 += s*val[55]; s7 += s*val[63]; + s0 += s*data()[7]; s1 += s*data()[15]; s2 += s*data()[23]; s3 += s*data()[31]; + s4 += s*data()[39]; s5 += s*data()[47]; s6 += s*data()[55]; s7 += s*data()[63]; if (!adding) { @@ -282,7 +185,7 @@ FullMatrix::vmult (Vector& dst, } else { - number* e = val; + const number* e = data(); const unsigned int size_m = m(), size_n = n(); if (!adding) @@ -316,7 +219,7 @@ void FullMatrix::Tvmult (Vector &dst, const Vector &src, const bool adding) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(dst.size() == n(), ExcDimensionMismatch(dst.size(), n())); Assert(src.size() == m(), ExcDimensionMismatch(src.size(), m())); @@ -353,7 +256,7 @@ double FullMatrix::residual (Vector& dst, const Vector& src, const Vector& right) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(dst.size() == m(), ExcDimensionMismatch(dst.size(), m())); Assert(src.size() == n(), ExcDimensionMismatch(src.size(), n())); @@ -379,7 +282,7 @@ template void FullMatrix::forward (Vector& dst, const Vector& src) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(dst.size() == m(), ExcDimensionMismatch(dst.size(), m())); Assert(src.size() == n(), ExcDimensionMismatch(src.size(), n())); @@ -401,7 +304,7 @@ template void FullMatrix::backward (Vector& dst, const Vector& src) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); unsigned int j; unsigned int nu = (m()::backward (Vector& dst, } -template -FullMatrix& -FullMatrix::operator = (const FullMatrix& m) -{ - reinit (m); - if (dim_range*dim_image != 0) - std::copy (&m.val[0], &m.val[dim_image*dim_range], - &val[0]); +/* template */ +/* template */ +/* FullMatrix& */ +/* FullMatrix::operator = (const FullMatrix& m) */ +/* { */ - return *this; -} - - -template -template -FullMatrix& -FullMatrix::operator = (const FullMatrix& m) -{ - reinit(m); - if (dim_range*dim_image != 0) - copy (&m.val[0], &m.val[dim_image*dim_range], - &val[0]); - - return *this; -} +/* } */ template @@ -463,25 +348,25 @@ void FullMatrix::fill_permutation (const FullMatrix &src, const std::vector& p_rows, const std::vector& p_cols) { - Assert (p_rows.size() == dim_image, - ExcDimensionMismatch (p_rows.size(), dim_image)); - Assert (p_cols.size() == dim_range, - ExcDimensionMismatch (p_cols.size(), dim_range)); + Assert (p_rows.size() == n_rows(), + ExcDimensionMismatch (p_rows.size(), n_rows())); + Assert (p_cols.size() == n_cols(), + ExcDimensionMismatch (p_cols.size(), n_cols())); - for (unsigned int i=0;i -template -void FullMatrix::fill (const number2* entries) -{ - if (dim_range*dim_image != 0) - std::copy (entries, entries+dim_image*dim_range, val); -} +/* template */ +/* template */ +/* void FullMatrix::fill (const number2* entries) */ +/* { */ +/* if (n_cols()*n_rows() != 0) */ +/* std::copy (entries, entries+n_rows()*n_cols(), data()); */ +/* } */ @@ -490,7 +375,7 @@ void FullMatrix::add_row (const unsigned int i, const number s, const unsigned int j) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); for (unsigned int k=0; k::add_row (const unsigned int i, const number t, const unsigned int k) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); const unsigned int size_m = m(); for (unsigned l=0; l void FullMatrix::add_col (const unsigned int i, const number s, const unsigned int j) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); for (unsigned int k=0; k::add_col (const unsigned int i, const number s, const unsigned int j, const number t, const unsigned int k) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); for (unsigned int l=0; l::add_col (const unsigned int i, const number s, template void FullMatrix::swap_row (const unsigned int i, const unsigned int j) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number s; for (unsigned int k=0; k::swap_row (const unsigned int i, const unsigned int j) template void FullMatrix::swap_col (const unsigned int i, const unsigned int j) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number s; for (unsigned int k=0; k::swap_col (const unsigned int i, const unsigned int j) template void FullMatrix::diagadd (const number src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (m() == n(), ExcDimensionMismatch(m(),n())); for (unsigned int i=0; i::mmult (FullMatrix &dst, const FullMatrix &src, const bool adding) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (n() == src.m(), ExcDimensionMismatch(n(), src.m())); Assert (dst.n() == src.n(), ExcDimensionMismatch(dst.n(), src.n())); Assert (dst.m() == m(), ExcDimensionMismatch(m(), dst.m())); @@ -611,7 +496,7 @@ void FullMatrix::Tmmult (FullMatrix &dst, const FullMatrix &src, const bool adding) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (m() == src.m(), ExcDimensionMismatch(m(), src.m())); Assert (n() == dst.m(), ExcDimensionMismatch(n(), dst.m())); Assert (src.n() == dst.n(), ExcDimensionMismatch(src.n(), dst.n())); @@ -642,14 +527,14 @@ template template number2 FullMatrix::matrix_norm_square (const Vector &v) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(m() == v.size(), ExcDimensionMismatch(m(),v.size())); Assert(n() == v.size(), ExcDimensionMismatch(n(),v.size())); number2 sum = 0.; const unsigned int n_rows = m(); - const number *val_ptr = &val[0]; + const number *val_ptr = data(); const number2 *v_ptr; for (unsigned int row=0; row number2 FullMatrix::matrix_scalar_product (const Vector &u, const Vector &v) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert(m() == u.size(), ExcDimensionMismatch(m(),v.size())); Assert(n() == v.size(), ExcDimensionMismatch(n(),v.size())); @@ -680,7 +565,7 @@ number2 FullMatrix::matrix_scalar_product (const Vector &u, number2 sum = 0.; const unsigned int n_rows = m(); const unsigned int n_cols = n(); - const number *val_ptr = &val[0]; + const number *val_ptr = data(); const number2 *v_ptr; for (unsigned int row=0; row::matrix_scalar_product (const Vector &u, template number FullMatrix::l1_norm () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number sum=0, max=0; const unsigned int n_rows = m(), n_cols = n(); @@ -721,7 +606,7 @@ number FullMatrix::l1_norm () const template number FullMatrix::linfty_norm () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number sum=0, max=0; const unsigned int n_rows = m(), n_cols = n(); @@ -744,7 +629,7 @@ FullMatrix::print (std::ostream &s, const unsigned int w, const unsigned int p) const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); for (unsigned int i=0; i void FullMatrix::add (const number s,const FullMatrix& src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (m() == src.m(), ExcDimensionMismatch(m(), src.m())); Assert (n() == src.n(), ExcDimensionMismatch(n(), src.n())); + number* val = const_cast (data()); + const number2* srcval = src.data(); + if ((n()==3) && (m()==3)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[1]; - val[2] += s * src.val[2]; - val[3] += s * src.val[3]; - val[4] += s * src.val[4]; - val[5] += s * src.val[5]; - val[6] += s * src.val[6]; - val[7] += s * src.val[7]; - val[8] += s * src.val[8]; + val[0] += s * srcval[0]; + val[1] += s * srcval[1]; + val[2] += s * srcval[2]; + val[3] += s * srcval[3]; + val[4] += s * srcval[4]; + val[5] += s * srcval[5]; + val[6] += s * srcval[6]; + val[7] += s * srcval[7]; + val[8] += s * srcval[8]; } else if ((n()==4) && (m()==4)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[1]; - val[2] += s * src.val[2]; - val[3] += s * src.val[3]; - val[4] += s * src.val[4]; - val[5] += s * src.val[5]; - val[6] += s * src.val[6]; - val[7] += s * src.val[7]; - val[8] += s * src.val[8]; - val[9] += s * src.val[9]; - val[10] += s * src.val[10]; - val[11] += s * src.val[11]; - val[12] += s * src.val[12]; - val[13] += s * src.val[13]; - val[14] += s * src.val[14]; - val[15] += s * src.val[15]; + val[0] += s * srcval[0]; + val[1] += s * srcval[1]; + val[2] += s * srcval[2]; + val[3] += s * srcval[3]; + val[4] += s * srcval[4]; + val[5] += s * srcval[5]; + val[6] += s * srcval[6]; + val[7] += s * srcval[7]; + val[8] += s * srcval[8]; + val[9] += s * srcval[9]; + val[10] += s * srcval[10]; + val[11] += s * srcval[11]; + val[12] += s * srcval[12]; + val[13] += s * srcval[13]; + val[14] += s * srcval[14]; + val[15] += s * srcval[15]; } else if ((n()==8) && (m()==8)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[1]; - val[2] += s * src.val[2]; - val[3] += s * src.val[3]; - val[4] += s * src.val[4]; - val[5] += s * src.val[5]; - val[6] += s * src.val[6]; - val[7] += s * src.val[7]; - val[8] += s * src.val[8]; - val[9] += s * src.val[9]; - val[10] += s * src.val[10]; - val[11] += s * src.val[11]; - val[12] += s * src.val[12]; - val[13] += s * src.val[13]; - val[14] += s * src.val[14]; - val[15] += s * src.val[15]; - val[16] += s * src.val[16]; - val[17] += s * src.val[17]; - val[18] += s * src.val[18]; - val[19] += s * src.val[19]; - - val[20] += s * src.val[20]; - val[21] += s * src.val[21]; - val[22] += s * src.val[22]; - val[23] += s * src.val[23]; - val[24] += s * src.val[24]; - val[25] += s * src.val[25]; - val[26] += s * src.val[26]; - val[27] += s * src.val[27]; - val[28] += s * src.val[28]; - val[29] += s * src.val[29]; - - val[30] += s * src.val[30]; - val[31] += s * src.val[31]; - val[32] += s * src.val[32]; - val[33] += s * src.val[33]; - val[34] += s * src.val[34]; - val[35] += s * src.val[35]; - val[36] += s * src.val[36]; - val[37] += s * src.val[37]; - val[38] += s * src.val[38]; - val[39] += s * src.val[39]; - - val[40] += s * src.val[40]; - val[41] += s * src.val[41]; - val[42] += s * src.val[42]; - val[43] += s * src.val[43]; - val[44] += s * src.val[44]; - val[45] += s * src.val[45]; - val[46] += s * src.val[46]; - val[47] += s * src.val[47]; - val[48] += s * src.val[48]; - val[49] += s * src.val[49]; - - val[50] += s * src.val[50]; - val[51] += s * src.val[51]; - val[52] += s * src.val[52]; - val[53] += s * src.val[53]; - val[54] += s * src.val[54]; - val[55] += s * src.val[55]; - val[56] += s * src.val[56]; - val[57] += s * src.val[57]; - val[58] += s * src.val[58]; - val[59] += s * src.val[59]; - - val[60] += s * src.val[60]; - val[61] += s * src.val[61]; - val[62] += s * src.val[62]; - val[63] += s * src.val[63]; + val[0] += s * srcval[0]; + val[1] += s * srcval[1]; + val[2] += s * srcval[2]; + val[3] += s * srcval[3]; + val[4] += s * srcval[4]; + val[5] += s * srcval[5]; + val[6] += s * srcval[6]; + val[7] += s * srcval[7]; + val[8] += s * srcval[8]; + val[9] += s * srcval[9]; + val[10] += s * srcval[10]; + val[11] += s * srcval[11]; + val[12] += s * srcval[12]; + val[13] += s * srcval[13]; + val[14] += s * srcval[14]; + val[15] += s * srcval[15]; + val[16] += s * srcval[16]; + val[17] += s * srcval[17]; + val[18] += s * srcval[18]; + val[19] += s * srcval[19]; + + val[20] += s * srcval[20]; + val[21] += s * srcval[21]; + val[22] += s * srcval[22]; + val[23] += s * srcval[23]; + val[24] += s * srcval[24]; + val[25] += s * srcval[25]; + val[26] += s * srcval[26]; + val[27] += s * srcval[27]; + val[28] += s * srcval[28]; + val[29] += s * srcval[29]; + + val[30] += s * srcval[30]; + val[31] += s * srcval[31]; + val[32] += s * srcval[32]; + val[33] += s * srcval[33]; + val[34] += s * srcval[34]; + val[35] += s * srcval[35]; + val[36] += s * srcval[36]; + val[37] += s * srcval[37]; + val[38] += s * srcval[38]; + val[39] += s * srcval[39]; + + val[40] += s * srcval[40]; + val[41] += s * srcval[41]; + val[42] += s * srcval[42]; + val[43] += s * srcval[43]; + val[44] += s * srcval[44]; + val[45] += s * srcval[45]; + val[46] += s * srcval[46]; + val[47] += s * srcval[47]; + val[48] += s * srcval[48]; + val[49] += s * srcval[49]; + + val[50] += s * srcval[50]; + val[51] += s * srcval[51]; + val[52] += s * srcval[52]; + val[53] += s * srcval[53]; + val[54] += s * srcval[54]; + val[55] += s * srcval[55]; + val[56] += s * srcval[56]; + val[57] += s * srcval[57]; + val[58] += s * srcval[58]; + val[59] += s * srcval[59]; + + val[60] += s * srcval[60]; + val[61] += s * srcval[61]; + val[62] += s * srcval[62]; + val[63] += s * srcval[63]; } else { const unsigned int size = n()*m(); for (unsigned int i=0; i void FullMatrix::add_diag (const number s, const FullMatrix& src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (m() == src.m(), ExcDimensionMismatch(m(), src.m())); Assert (n() == src.n(), ExcDimensionMismatch(n(), src.n())); + number* val = const_cast (data()); + const number2* srcval = src.data(); + if ((n()==3) && (m()==3)) { - val[0] += s * src.val[0]; - val[0] += s * src.val[1]; - val[0] += s * src.val[2]; - val[3] += s * src.val[3]; - val[3] += s * src.val[4]; - val[3] += s * src.val[5]; - val[6] += s * src.val[6]; - val[6] += s * src.val[7]; - val[6] += s * src.val[8]; + val[0] += s * srcval[0]; + val[0] += s * srcval[1]; + val[0] += s * srcval[2]; + val[3] += s * srcval[3]; + val[3] += s * srcval[4]; + val[3] += s * srcval[5]; + val[6] += s * srcval[6]; + val[6] += s * srcval[7]; + val[6] += s * srcval[8]; } else if ((n()==4) && (m()==4)) { - val[0] += s * src.val[0]; - val[0] += s * src.val[1]; - val[0] += s * src.val[2]; - val[0] += s * src.val[3]; - val[4] += s * src.val[4]; - val[4] += s * src.val[5]; - val[4] += s * src.val[6]; - val[4] += s * src.val[7]; - val[8] += s * src.val[8]; - val[8] += s * src.val[9]; - val[8] += s * src.val[10]; - val[8] += s * src.val[11]; - val[12] += s * src.val[12]; - val[12] += s * src.val[13]; - val[12] += s * src.val[14]; - val[12] += s * src.val[15]; + val[0] += s * srcval[0]; + val[0] += s * srcval[1]; + val[0] += s * srcval[2]; + val[0] += s * srcval[3]; + val[4] += s * srcval[4]; + val[4] += s * srcval[5]; + val[4] += s * srcval[6]; + val[4] += s * srcval[7]; + val[8] += s * srcval[8]; + val[8] += s * srcval[9]; + val[8] += s * srcval[10]; + val[8] += s * srcval[11]; + val[12] += s * srcval[12]; + val[12] += s * srcval[13]; + val[12] += s * srcval[14]; + val[12] += s * srcval[15]; } else if ((n()==8) && (m()==8)) { - val[0] += s * src.val[0]; - val[0] += s * src.val[1]; - val[0] += s * src.val[2]; - val[0] += s * src.val[3]; - val[0] += s * src.val[4]; - val[0] += s * src.val[5]; - val[0] += s * src.val[6]; - val[0] += s * src.val[7]; - val[8] += s * src.val[8]; - val[8] += s * src.val[9]; - val[8] += s * src.val[10]; - val[8] += s * src.val[11]; - val[8] += s * src.val[12]; - val[8] += s * src.val[13]; - val[8] += s * src.val[14]; - val[8] += s * src.val[15]; - val[16] += s * src.val[16]; - val[16] += s * src.val[17]; - val[16] += s * src.val[18]; - val[16] += s * src.val[19]; - - val[16] += s * src.val[20]; - val[16] += s * src.val[21]; - val[16] += s * src.val[22]; - val[16] += s * src.val[23]; - val[24] += s * src.val[24]; - val[24] += s * src.val[25]; - val[24] += s * src.val[26]; - val[24] += s * src.val[27]; - val[24] += s * src.val[28]; - val[24] += s * src.val[29]; - - val[24] += s * src.val[30]; - val[24] += s * src.val[31]; - val[32] += s * src.val[32]; - val[32] += s * src.val[33]; - val[32] += s * src.val[34]; - val[32] += s * src.val[35]; - val[32] += s * src.val[36]; - val[32] += s * src.val[37]; - val[32] += s * src.val[38]; - val[32] += s * src.val[39]; - - val[40] += s * src.val[40]; - val[40] += s * src.val[41]; - val[40] += s * src.val[42]; - val[40] += s * src.val[43]; - val[40] += s * src.val[44]; - val[40] += s * src.val[45]; - val[40] += s * src.val[46]; - val[40] += s * src.val[47]; - val[48] += s * src.val[48]; - val[48] += s * src.val[49]; - - val[48] += s * src.val[50]; - val[48] += s * src.val[51]; - val[48] += s * src.val[52]; - val[48] += s * src.val[53]; - val[48] += s * src.val[54]; - val[48] += s * src.val[55]; - val[56] += s * src.val[56]; - val[56] += s * src.val[57]; - val[56] += s * src.val[58]; - val[56] += s * src.val[59]; - - val[56] += s * src.val[60]; - val[56] += s * src.val[61]; - val[56] += s * src.val[62]; - val[56] += s * src.val[63]; + val[0] += s * srcval[0]; + val[0] += s * srcval[1]; + val[0] += s * srcval[2]; + val[0] += s * srcval[3]; + val[0] += s * srcval[4]; + val[0] += s * srcval[5]; + val[0] += s * srcval[6]; + val[0] += s * srcval[7]; + val[8] += s * srcval[8]; + val[8] += s * srcval[9]; + val[8] += s * srcval[10]; + val[8] += s * srcval[11]; + val[8] += s * srcval[12]; + val[8] += s * srcval[13]; + val[8] += s * srcval[14]; + val[8] += s * srcval[15]; + val[16] += s * srcval[16]; + val[16] += s * srcval[17]; + val[16] += s * srcval[18]; + val[16] += s * srcval[19]; + + val[16] += s * srcval[20]; + val[16] += s * srcval[21]; + val[16] += s * srcval[22]; + val[16] += s * srcval[23]; + val[24] += s * srcval[24]; + val[24] += s * srcval[25]; + val[24] += s * srcval[26]; + val[24] += s * srcval[27]; + val[24] += s * srcval[28]; + val[24] += s * srcval[29]; + + val[24] += s * srcval[30]; + val[24] += s * srcval[31]; + val[32] += s * srcval[32]; + val[32] += s * srcval[33]; + val[32] += s * srcval[34]; + val[32] += s * srcval[35]; + val[32] += s * srcval[36]; + val[32] += s * srcval[37]; + val[32] += s * srcval[38]; + val[32] += s * srcval[39]; + + val[40] += s * srcval[40]; + val[40] += s * srcval[41]; + val[40] += s * srcval[42]; + val[40] += s * srcval[43]; + val[40] += s * srcval[44]; + val[40] += s * srcval[45]; + val[40] += s * srcval[46]; + val[40] += s * srcval[47]; + val[48] += s * srcval[48]; + val[48] += s * srcval[49]; + + val[48] += s * srcval[50]; + val[48] += s * srcval[51]; + val[48] += s * srcval[52]; + val[48] += s * srcval[53]; + val[48] += s * srcval[54]; + val[48] += s * srcval[55]; + val[56] += s * srcval[56]; + val[56] += s * srcval[57]; + val[56] += s * srcval[58]; + val[56] += s * srcval[59]; + + val[56] += s * srcval[60]; + val[56] += s * srcval[61]; + val[56] += s * srcval[62]; + val[56] += s * srcval[63]; } else { const unsigned int size = n()*m(); for (unsigned int i=0; i void FullMatrix::Tadd (const number s, const FullMatrix& src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); Assert (m() == n(), ExcNotQuadratic()); Assert (m() == src.m(), ExcDimensionMismatch(m(), src.m())); Assert (n() == src.n(), ExcDimensionMismatch(n(), src.n())); + number* val = const_cast (data()); + const number2* srcval = src.data(); + if ((n()==3) && (m()==3)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[3]; - val[2] += s * src.val[6]; + val[0] += s * srcval[0]; + val[1] += s * srcval[3]; + val[2] += s * srcval[6]; - val[3] += s * src.val[1]; - val[4] += s * src.val[4]; - val[5] += s * src.val[7]; + val[3] += s * srcval[1]; + val[4] += s * srcval[4]; + val[5] += s * srcval[7]; - val[6] += s * src.val[2]; - val[7] += s * src.val[5]; - val[8] += s * src.val[8]; + val[6] += s * srcval[2]; + val[7] += s * srcval[5]; + val[8] += s * srcval[8]; } else if ((n()==4) && (m()==4)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[4]; - val[2] += s * src.val[8]; - val[3] += s * src.val[12]; - - val[4] += s * src.val[1]; - val[5] += s * src.val[5]; - val[6] += s * src.val[9]; - val[7] += s * src.val[13]; - - val[8] += s * src.val[2]; - val[9] += s * src.val[6]; - val[10] += s * src.val[10]; - val[11] += s * src.val[14]; - - val[12] += s * src.val[3]; - val[13] += s * src.val[7]; - val[14] += s * src.val[11]; - val[15] += s * src.val[15]; + val[0] += s * srcval[0]; + val[1] += s * srcval[4]; + val[2] += s * srcval[8]; + val[3] += s * srcval[12]; + + val[4] += s * srcval[1]; + val[5] += s * srcval[5]; + val[6] += s * srcval[9]; + val[7] += s * srcval[13]; + + val[8] += s * srcval[2]; + val[9] += s * srcval[6]; + val[10] += s * srcval[10]; + val[11] += s * srcval[14]; + + val[12] += s * srcval[3]; + val[13] += s * srcval[7]; + val[14] += s * srcval[11]; + val[15] += s * srcval[15]; } else if ((n()==8) && (m()==8)) { - val[0] += s * src.val[0]; - val[1] += s * src.val[8]; - val[2] += s * src.val[16]; - val[3] += s * src.val[24]; - val[4] += s * src.val[32]; - val[5] += s * src.val[40]; - val[6] += s * src.val[48]; - val[7] += s * src.val[56]; - - val[8] += s * src.val[1]; - val[9] += s * src.val[9]; - val[10] += s * src.val[17]; - val[11] += s * src.val[25]; - val[12] += s * src.val[33]; - val[13] += s * src.val[41]; - val[14] += s * src.val[49]; - val[15] += s * src.val[57]; - - val[16] += s * src.val[2]; - val[17] += s * src.val[10]; - val[18] += s * src.val[18]; - val[19] += s * src.val[26]; - val[20] += s * src.val[34]; - val[21] += s * src.val[42]; - val[22] += s * src.val[50]; - val[23] += s * src.val[58]; - - val[24] += s * src.val[3]; - val[25] += s * src.val[11]; - val[26] += s * src.val[19]; - val[27] += s * src.val[27]; - val[28] += s * src.val[35]; - val[29] += s * src.val[43]; - val[30] += s * src.val[51]; - val[31] += s * src.val[59]; - - val[32] += s * src.val[4]; - val[33] += s * src.val[12]; - val[34] += s * src.val[20]; - val[35] += s * src.val[28]; - val[36] += s * src.val[36]; - val[37] += s * src.val[44]; - val[38] += s * src.val[52]; - val[39] += s * src.val[60]; - - val[40] += s * src.val[5]; - val[41] += s * src.val[13]; - val[42] += s * src.val[21]; - val[43] += s * src.val[29]; - val[44] += s * src.val[37]; - val[45] += s * src.val[45]; - val[46] += s * src.val[53]; - val[47] += s * src.val[61]; - - val[48] += s * src.val[6]; - val[49] += s * src.val[14]; - val[50] += s * src.val[22]; - val[51] += s * src.val[30]; - val[52] += s * src.val[38]; - val[53] += s * src.val[46]; - val[54] += s * src.val[54]; - val[55] += s * src.val[62]; - - val[56] += s * src.val[7]; - val[57] += s * src.val[15]; - val[58] += s * src.val[23]; - val[59] += s * src.val[31]; - val[60] += s * src.val[39]; - val[61] += s * src.val[47]; - val[62] += s * src.val[55]; - val[63] += s * src.val[63]; + val[0] += s * srcval[0]; + val[1] += s * srcval[8]; + val[2] += s * srcval[16]; + val[3] += s * srcval[24]; + val[4] += s * srcval[32]; + val[5] += s * srcval[40]; + val[6] += s * srcval[48]; + val[7] += s * srcval[56]; + + val[8] += s * srcval[1]; + val[9] += s * srcval[9]; + val[10] += s * srcval[17]; + val[11] += s * srcval[25]; + val[12] += s * srcval[33]; + val[13] += s * srcval[41]; + val[14] += s * srcval[49]; + val[15] += s * srcval[57]; + + val[16] += s * srcval[2]; + val[17] += s * srcval[10]; + val[18] += s * srcval[18]; + val[19] += s * srcval[26]; + val[20] += s * srcval[34]; + val[21] += s * srcval[42]; + val[22] += s * srcval[50]; + val[23] += s * srcval[58]; + + val[24] += s * srcval[3]; + val[25] += s * srcval[11]; + val[26] += s * srcval[19]; + val[27] += s * srcval[27]; + val[28] += s * srcval[35]; + val[29] += s * srcval[43]; + val[30] += s * srcval[51]; + val[31] += s * srcval[59]; + + val[32] += s * srcval[4]; + val[33] += s * srcval[12]; + val[34] += s * srcval[20]; + val[35] += s * srcval[28]; + val[36] += s * srcval[36]; + val[37] += s * srcval[44]; + val[38] += s * srcval[52]; + val[39] += s * srcval[60]; + + val[40] += s * srcval[5]; + val[41] += s * srcval[13]; + val[42] += s * srcval[21]; + val[43] += s * srcval[29]; + val[44] += s * srcval[37]; + val[45] += s * srcval[45]; + val[46] += s * srcval[53]; + val[47] += s * srcval[61]; + + val[48] += s * srcval[6]; + val[49] += s * srcval[14]; + val[50] += s * srcval[22]; + val[51] += s * srcval[30]; + val[52] += s * srcval[38]; + val[53] += s * srcval[46]; + val[54] += s * srcval[54]; + val[55] += s * srcval[62]; + + val[56] += s * srcval[7]; + val[57] += s * srcval[15]; + val[58] += s * srcval[23]; + val[59] += s * srcval[31]; + val[60] += s * srcval[39]; + val[61] += s * srcval[47]; + val[62] += s * srcval[55]; + val[63] += s * srcval[63]; } else Assert (false, ExcNotImplemented(n())); @@ -1127,17 +1021,18 @@ FullMatrix::Tadd (const number s, const FullMatrix& src) template bool -FullMatrix::operator == (const FullMatrix &m) const +FullMatrix::operator == (const FullMatrix &M) const { // the matrices may either be both // empty, or of same size and with // same values, if they shall be // equal - return ( ((val==0) && (m.val==0)) || - ((dim_range==m.dim_range) && - (dim_image==m.dim_image) && - std::equal (&val[0], &val[dim_range*dim_image], - &m.val[0]))); + bool result = (data()==0) && (M.data()==0); + result = result || ((m()==M.m()) && (n()==M.n()) && + std::equal (data(), data()+m()*n(), + M.data())); + + return result; }; @@ -1145,13 +1040,13 @@ template double FullMatrix::determinant () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); - Assert (dim_range == dim_image, - ExcDimensionMismatch(dim_range, dim_image)); - Assert ((dim_range>=1) && (dim_range<=3), ExcNotImplemented(dim_range)); + Assert (n_cols() == n_rows(), + ExcDimensionMismatch(n_cols(), n_rows())); + Assert ((n_cols()>=1) && (n_cols()<=3), ExcNotImplemented(n_cols())); - switch (dim_range) + switch (n_cols()) { case 1: return el(0,0); @@ -1174,11 +1069,11 @@ template number FullMatrix::norm2 () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number s = 0.; - for (unsigned int i=0;i number FullMatrix::relative_symmetry_norm2 () const { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); number s = 0.; number a = 0.; - for (unsigned int i=0;i::relative_symmetry_norm2 () const } -template -void FullMatrix::clear () -{ - if (val != 0) - std::fill_n (&val[0], n()*m(), 0); -}; - - template void FullMatrix::invert (const FullMatrix &M) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); - Assert (dim_range == dim_image, ExcNotQuadratic()); - Assert (dim_range == M.dim_range, - ExcDimensionMismatch(dim_range,M.dim_range)); - Assert (dim_image == M.dim_image, - ExcDimensionMismatch(dim_image,M.dim_image)); + Assert (n_cols() == n_rows(), ExcNotQuadratic()); + Assert (n_cols() == M.n_cols(), + ExcDimensionMismatch(n_cols(),M.n_cols())); + Assert (n_rows() == M.n_rows(), + ExcDimensionMismatch(n_rows(),M.n_rows())); - switch (dim_range) + switch (n_cols()) { case 1: - val[0] = 1.0/M.val[0]; + el(0,0) = 1.0/M.el(0,0); return; case 2: // this is Maple output, @@ -1381,7 +1268,7 @@ FullMatrix::print_formatted (std::ostream &out, { unsigned int width = width_; - Assert ((val != 0) || (dim_range+dim_image==0), + Assert ((data() != 0) || (n_cols()+n_rows()==0), ExcInternalError()); // set output format, but store old @@ -1423,8 +1310,8 @@ template void FullMatrix::gauss_jordan() { - Assert (val != 0, ExcEmptyMatrix()); - Assert (dim_range == dim_image, ExcNotQuadratic()); + Assert (data() != 0, ExcEmptyMatrix()); + Assert (n_cols() == n_rows(), ExcNotQuadratic()); // Gauss-Jordan-Algorithmus // cf. Stoer I (4th Edition) p. 153 @@ -1493,11 +1380,11 @@ template void FullMatrix::householder(Vector& src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); // m > n, src.n() = m - Assert (dim_range <= dim_image, ExcDimensionMismatch(dim_range, dim_image)); - Assert (src.size() == dim_image, ExcDimensionMismatch(src.size(), dim_image)); + Assert (n_cols() <= n_rows(), ExcDimensionMismatch(n_cols(), n_rows())); + Assert (src.size() == n_rows(), ExcDimensionMismatch(src.size(), n_rows())); for (unsigned int j=0 ; j double FullMatrix::least_squares(Vector& dst, Vector& src) { - Assert (val != 0, ExcEmptyMatrix()); + Assert (data() != 0, ExcEmptyMatrix()); // m > n, m = src.n, n = dst.n @@ -1554,7 +1441,8 @@ template unsigned int FullMatrix::memory_consumption () const { - return sizeof(*this) + val_size*sizeof(number); + return sizeof(*this) - sizeof (vector2d) + + vector2d::memory_consumption(); }; diff --git a/deal.II/lac/source/full_matrix.double.cc b/deal.II/lac/source/full_matrix.double.cc index 9af1dd9c6c..0b6cfca695 100644 --- a/deal.II/lac/source/full_matrix.double.cc +++ b/deal.II/lac/source/full_matrix.double.cc @@ -23,7 +23,6 @@ template class FullMatrix; //template FullMatrix& FullMatrix::operator =(const FullMatrix&); template void FullMatrix::fill (const FullMatrix&, const unsigned, const unsigned); -template void FullMatrix::reinit (const FullMatrix&); template void FullMatrix::add (const TYPEMAT, const FullMatrix&); template void FullMatrix::Tadd (const TYPEMAT, const FullMatrix&); template void FullMatrix::mmult (FullMatrix&, const FullMatrix&, const bool) const; @@ -34,7 +33,6 @@ template void FullMatrix::add_diag (const TYPEMAT, const FullMatrix::fill (const TYPEVEC*); template void FullMatrix::fill_permutation (const FullMatrix&, const std::vector&, const std::vector&); @@ -51,7 +49,6 @@ template double FullMatrix::least_squares(Vector&, Vector::fill (const TYPEVEC*); template void FullMatrix::fill_permutation (const FullMatrix&, const std::vector&, const std::vector&); diff --git a/deal.II/lac/source/full_matrix.float.cc b/deal.II/lac/source/full_matrix.float.cc index a70961cf86..04e8f8f9ab 100644 --- a/deal.II/lac/source/full_matrix.float.cc +++ b/deal.II/lac/source/full_matrix.float.cc @@ -22,7 +22,6 @@ template class FullMatrix; //template FullMatrix& FullMatrix::operator =(const FullMatrix&); template void FullMatrix::fill (const FullMatrix&, const unsigned, const unsigned); -template void FullMatrix::reinit (const FullMatrix&); template void FullMatrix::add (const TYPEMAT, const FullMatrix&); template void FullMatrix::Tadd (const TYPEMAT, const FullMatrix&); template void FullMatrix::mmult (FullMatrix&, const FullMatrix&, const bool) const; @@ -33,7 +32,6 @@ template void FullMatrix::add_diag (const TYPEMAT, const FullMatrix::fill (const TYPEVEC*); template void FullMatrix::fill_permutation (const FullMatrix&, const std::vector&, const std::vector&); @@ -50,7 +48,6 @@ template double FullMatrix::least_squares(Vector&, Vector::fill (const TYPEVEC*); template void FullMatrix::fill_permutation (const FullMatrix&, const std::vector&, const std::vector&);