📄 view_source.c
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/* matrix/view_source.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001 Gerard Jungman, Brian Gough * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */QUALIFIED_VIEW (_gsl_matrix,view)FUNCTION (gsl_matrix, view_array) (QUALIFIER ATOMIC * array, const size_t n1, const size_t n2){ QUALIFIED_VIEW (_gsl_matrix,view) view = NULL_MATRIX_VIEW; if (n1 == 0) { GSL_ERROR_VAL ("matrix dimension n1 must be positive integer", GSL_EINVAL, view); } else if (n2 == 0) { GSL_ERROR_VAL ("matrix dimension n2 must be positive integer", GSL_EINVAL, view); } { TYPE(gsl_matrix) m = NULL_MATRIX; m.data = (ATOMIC *)array; m.size1 = n1; m.size2 = n2; m.tda = n2; m.block = 0; m.owner = 0; ((VIEW(_gsl_matrix, view) *)&view)->matrix = m; return view; }}QUALIFIED_VIEW (_gsl_matrix,view)FUNCTION(gsl_matrix, view_array_with_tda) (QUALIFIER ATOMIC * base, const size_t n1, const size_t n2, const size_t tda){ QUALIFIED_VIEW (_gsl_matrix,view) view = NULL_MATRIX_VIEW; if (n1 == 0) { GSL_ERROR_VAL ("matrix dimension n1 must be positive integer", GSL_EINVAL, view); } else if (n2 == 0) { GSL_ERROR_VAL ("matrix dimension n2 must be positive integer", GSL_EINVAL, view); } else if (n2 > tda) { GSL_ERROR_VAL ("matrix dimension n2 must not exceed tda", GSL_EINVAL, view); } { TYPE(gsl_matrix) m = NULL_MATRIX; m.data = (ATOMIC *)base; m.size1 = n1; m.size2 = n2; m.tda = tda; m.block = 0; m.owner = 0; ((VIEW(_gsl_matrix, view) *)&view)->matrix = m; return view; }}QUALIFIED_VIEW (_gsl_matrix,view)FUNCTION(gsl_matrix, view_vector) (QUALIFIED_TYPE(gsl_vector) * v, const size_t n1, const size_t n2){ QUALIFIED_VIEW (_gsl_matrix,view) view = NULL_MATRIX_VIEW; if (n1 == 0) { GSL_ERROR_VAL ("matrix dimension n1 must be positive integer", GSL_EINVAL, view); } else if (n2 == 0) { GSL_ERROR_VAL ("matrix dimension n2 must be positive integer", GSL_EINVAL, view); } else if (v->stride != 1) { GSL_ERROR_VAL ("vector must have unit stride", GSL_EINVAL, view); } else if (n1 * n2 > v->size) { GSL_ERROR_VAL ("matrix size exceeds size of original", GSL_EINVAL, view); } { TYPE(gsl_matrix) m = NULL_MATRIX; m.data = v->data; m.size1 = n1; m.size2 = n2; m.tda = n2; m.block = v->block; m.owner = 0; ((VIEW(_gsl_matrix, view) *)&view)->matrix = m; return view; }}QUALIFIED_VIEW (_gsl_matrix,view)FUNCTION(gsl_matrix, view_vector_with_tda) (QUALIFIED_TYPE(gsl_vector) * v, const size_t n1, const size_t n2, const size_t tda){ QUALIFIED_VIEW (_gsl_matrix,view) view = NULL_MATRIX_VIEW; if (n1 == 0) { GSL_ERROR_VAL ("matrix dimension n1 must be positive integer", GSL_EINVAL, view); } else if (n2 == 0) { GSL_ERROR_VAL ("matrix dimension n2 must be positive integer", GSL_EINVAL, view); } else if (v->stride != 1) { GSL_ERROR_VAL ("vector must have unit stride", GSL_EINVAL, view); } else if (n2 > tda) { GSL_ERROR_VAL ("matrix dimension n2 must not exceed tda", GSL_EINVAL, view); } else if (n1 * tda > v->size) { GSL_ERROR_VAL ("matrix size exceeds size of original", GSL_EINVAL, view); } { TYPE(gsl_matrix) m = NULL_MATRIX; m.data = v->data; m.size1 = n1; m.size2 = n2; m.tda = tda; m.block = v->block; m.owner = 0; ((VIEW(_gsl_matrix, view) *)&view)->matrix = m; return view; }}#ifdef JUNKintFUNCTION (gsl_matrix, view_from_matrix) (TYPE(gsl_matrix) * m, TYPE(gsl_matrix) * mm, const size_t k1, const size_t k2, const size_t n1, const size_t n2){ if (n1 == 0) { GSL_ERROR_VAL ("matrix dimension n1 must be positive integer", GSL_EINVAL, 0); } else if (n2 == 0) { GSL_ERROR_VAL ("matrix dimension n2 must be positive integer", GSL_EINVAL, 0); } else if (k1 + n1 > mm->size1) { GSL_ERROR_VAL ("submatrix dimension 1 exceeds size of original", GSL_EINVAL, 0); } else if (k2 + n2 > mm->size2) { GSL_ERROR_VAL ("submatrix dimension 2 exceeds size of original", GSL_EINVAL, 0); } m->data = mm->data + k1 * mm->tda + k2 ; m->size1 = n1; m->size2 = n2; m->tda = mm->tda; m->block = mm->block; m->owner = 0; return GSL_SUCCESS;}intFUNCTION (gsl_vector, view_row_from_matrix) (TYPE(gsl_vector) * v, TYPE(gsl_matrix) * m, const size_t i){ const size_t column_length = m->size1; if (i >= column_length) { GSL_ERROR ("row index is out of range", GSL_EINVAL); } if (v->block != 0) { GSL_ERROR ("vector already has memory allocated to it", GSL_ENOMEM); } v->data = m->data + MULTIPLICITY * i * m->tda ; v->size = m->size2; v->stride = 1; return GSL_SUCCESS;}intFUNCTION (gsl_vector, view_col_from_matrix) (TYPE(gsl_vector) * v, TYPE(gsl_matrix) * m, const size_t j){ const size_t row_length = m->size2; if (j >= row_length) { GSL_ERROR_VAL ("column index is out of range", GSL_EINVAL, 0); } if (v->block != 0) { GSL_ERROR ("vector already has memory allocated to it", GSL_ENOMEM); } v->data = m->data + MULTIPLICITY * j ; v->size = m->size1; v->stride = m->tda; return GSL_SUCCESS;}#endif /* JUNK */⌨️ 快捷键说明
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