/* Copyright (C) 1996, 1997 John W. Eaton This file is part of Octave. Octave 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, or (at your option) any later version. Octave 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 Octave; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #if !defined (octave_idx_vector_h) #define octave_idx_vector_h 1 #if defined (__GNUG__) #pragma interface #endif class ostream; class ColumnVector; class boolMatrix; class Matrix; class Range; class idx_vector { private: class idx_vector_rep { public: idx_vector_rep (void) { colon = 0; len = 0; num_zeros = 0; num_ones = 0; one_zero = 0; orig_nr = 0; orig_nc = 0; initialized = 0; frozen = 0; colon_equiv_checked = 0; colon_equiv = 0; data = 0; } idx_vector_rep (const ColumnVector& v); idx_vector_rep (const Matrix& m); idx_vector_rep (const Range& r); idx_vector_rep (double d); idx_vector_rep (char c); idx_vector_rep (bool b); idx_vector_rep (const boolMatrix& bm); idx_vector_rep (const idx_vector_rep& a); ~idx_vector_rep (void) { delete [] data; } idx_vector_rep& operator = (const idx_vector_rep& a); int ok (void) { return initialized; } int capacity (void) const { return len; } int length (int colon_len) const { return colon ? colon_len : len; } int elem (int n) const { return colon ? n : data[n]; } int checkelem (int n) const; int operator () (int n) const { return checkelem (n); } int max (void) const { return max_val; } int min (void) const { return min_val; } int one_zero_only (void) const { return one_zero; } int zeros_count (void) const { return num_zeros; } int ones_count (void) const { return num_ones; } int is_colon (void) const { return colon; } int is_colon_equiv (int n, int sort_uniq); void sort (bool uniq); int orig_rows (void) const { return orig_nr; } int orig_columns (void) const { return orig_nc; } // other stuff void shorten (int n); // Unsafe. Avoid at all cost. int freeze (int z_len, const char *tag, int resize_ok); // i/o ostream& print (ostream& os) const; int *data; int len; int num_zeros; int num_ones; int max_val; int min_val; int orig_nr; int orig_nc; int count; int frozen_at_z_len; int frozen_len; unsigned int colon : 1; unsigned int one_zero : 1; unsigned int initialized : 1; unsigned int frozen : 1; unsigned int colon_equiv_checked : 1; unsigned int colon_equiv : 1; void init_state (void); void maybe_convert_one_zero_to_idx (int z_len); }; public: idx_vector (void) { rep = new idx_vector_rep (); rep->count = 1; } idx_vector (const ColumnVector& v) { rep = new idx_vector_rep (v); rep->count = 1; } idx_vector (const Matrix& m) { rep = new idx_vector_rep (m); rep->count = 1; } idx_vector (const Range& r) { rep = new idx_vector_rep (r); rep->count = 1; } idx_vector (double d) { rep = new idx_vector_rep (d); rep->count = 1; } idx_vector (char c) { rep = new idx_vector_rep (c); rep->count = 1; } idx_vector (bool b) { rep = new idx_vector_rep (b); rep->count = 1; } idx_vector (const boolMatrix& bm) { rep = new idx_vector_rep (bm); rep->count = 1; } idx_vector (const idx_vector& a) { rep = a.rep; rep->count++; } ~idx_vector (void) { if (--rep->count <= 0) delete rep; } idx_vector& operator = (const idx_vector& a) { if (this != &a) { if (--rep->count <= 0) delete rep; rep = a.rep; rep->count++; } return *this; } operator bool () const { return rep->ok (); } int capacity (void) const { return rep->capacity (); } int length (int cl) const { return rep->length (cl); } int elem (int n) const { return rep->elem (n); } int checkelem (int n) const { return rep->checkelem (n); } int operator () (int n) const { return rep->operator () (n); } int max (void) const { return rep->max (); } int min (void) const { return rep->min (); } int one_zero_only (void) const { return rep->one_zero_only (); } int zeros_count (void) const { return rep->zeros_count (); } int ones_count (void) const { return rep->ones_count (); } int is_colon (void) const { return rep->is_colon (); } int is_colon_equiv (int n, int sort_uniq = 0) const { return rep->is_colon_equiv (n, sort_uniq); } void sort (bool uniq = false) { rep->sort (uniq); } int orig_rows (void) const { return rep->orig_rows (); } int orig_columns (void) const { return rep->orig_columns (); } int orig_empty (void) const { return (! is_colon () && (orig_rows () == 0 || orig_columns () == 0)); } // Unsafe. Avoid at all cost. void shorten (int n) { rep->shorten (n); } // i/o int freeze (int z_len, const char *tag, int resize_ok = 0) { return rep->freeze (z_len, tag, resize_ok); } ostream& print (ostream& os) const { return rep->print (os); } friend ostream& operator << (ostream& os, const idx_vector& a) { return a.print (os); } void maybe_convert_one_zero_to_idx (int z_len) { rep->maybe_convert_one_zero_to_idx (z_len); } private: idx_vector_rep *rep; void init_state (void) { rep->init_state (); } }; #endif /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */