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528 lines
13 KiB
528 lines
13 KiB
//+-------------------------------------------------------------------------
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//
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// Microsoft Windows
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//
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// Copyright (C) Microsoft Corporation, 1997 - 1998
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//
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// File: mdvect.h
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//
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//--------------------------------------------------------------------------
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//
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// mdvect.h: multi-dimensional array handling
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//
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#ifndef _MDVECT_H_
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#define _MDVECT_H_
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/*
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Multidimensional array classes and templates.
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Each array carries the dimensionality of each dimension as a short integer;
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the signed value is reinterpreted for projections and redimensioning.
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Note that giving a subscript array (VIMD) whose length is less than the
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dimensionality of the target array produces a subscript with lower dimensions
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assumed to be equal to zero. This is useful for indexing to lowest-dimensioned
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rows for probability tables.
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Types used (see basics.h):
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REAL is a double
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VLREAL is valarray<REAL>
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IMD is an unsigned index into a multi-dimensional array
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VIMD is a vector of IMD
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SIMD is a signed index into a multi-dimensional array;
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it's used for projecting dimensions out
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VSIMD is a vector of SIMD
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An MDVSLICE is dimensionality and iteration information for an m-d vector or maxtrix.
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The template TMDVDENSE defines a generic multi-dimensional array which a pair of
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elements:
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'first' is a flat (1-d) valarray of an unspecified type (e.g., REAL)
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'second' is an MDVSLICE describing its dimensionality
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The nested class TMDVDENSE::Iterator (note the capital 'I') is the smart iterator
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for classes derived from TMDVDENSE<>.
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*/
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#include <stdarg.h>
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#include "algos.h"
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typedef valarray<REAL> VLREAL;
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// 'valarray' comparison templates
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template<class _V>
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struct lessv : binary_function<_V, _V, bool>
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{
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bool operator()(const _V & vra, const _V & vrb) const
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{
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int cmin = _cpp_min( vra.size(), vrb.size() );
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for ( int i = 0 ; i < cmin ; i++ )
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{
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if ( vra[i] < vrb[i] )
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return true;
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if ( vra[i] > vrb[i] )
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return false;
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}
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return vra.size() < vrb.size();
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}
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};
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/////////////////////////////////////////////////////////////////////////////////
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// Class MDVSLICE:
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// Similar to 'gslice'. Has gslice converter (see 'valarray' header).
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// Contains integer array of lengths, array of strides
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// and starting point.
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/////////////////////////////////////////////////////////////////////////////////
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class MDVSLICE
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{
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public:
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// Construct a slice from complete data (like gslice)
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MDVSLICE ( size_t _S,
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const VIMD & _L,
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const VIMD & _D)
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: _Start(_S),
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_Len(_L),
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_Stride(_D)
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{}
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// Construct a slice given only the dimensions
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MDVSLICE ( const VIMD & _L, size_t _S = 0 )
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{
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Init( _L, _S );
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}
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MDVSLICE ( int cdim, int ibound, ... )
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: _Start(0)
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{
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va_list vl;
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va_start( vl, cdim );
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Init( cdim, vl );
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}
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MDVSLICE ( const VSIMD & vsimd, size_t _S = 0 )
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{
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Init( vsimd, _S );
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}
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bool operator == ( const MDVSLICE & sl ) const
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{
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return _Start == sl._Start
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&& vequal(_Len,sl._Len)
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&& vequal(_Stride,sl._Stride);
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}
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bool operator != ( const MDVSLICE & sl ) const
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{
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return !(*this == sl);
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}
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// Provided for compatibility with gslice
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MDVSLICE()
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: _Start(0) {}
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// Return an equivalent gslice for use with other 'valarray' operations
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gslice Gslice () const;
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void Init ( const VIMD & _L, size_t _S = 0 )
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{
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_Start = _S;
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_Len = _L;
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StrideFromLength();
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}
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void Init ( const VSIMD & vsimd, size_t _S = 0 )
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{
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int cd = vsimd.size();
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vbool vboolMissing(cd);
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_Len.resize(cd);
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_Start = _S;
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for ( int i = 0; i < cd; i++ )
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{
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SIMD simd = vsimd[i];
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if ( vboolMissing[i] = simd < 0 )
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_Len[i] = - simd;
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else
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_Len[i] = simd;
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}
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StrideFromLength( & vboolMissing );
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}
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void Init ( int cdim, ... )
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{
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va_list vl;
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va_start( vl, cdim );
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Init( cdim, vl );
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}
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void Init ( int cdim, va_list & vl )
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{
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_Len.resize(cdim);
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for ( int idim = 0; idim < cdim; idim++ )
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{
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_Len[idim] = va_arg(vl,int);
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}
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StrideFromLength();
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}
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/********************************************************
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* Accessors to internal data
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*********************************************************/
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size_t start() const
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{return _Start; }
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const VIMD & size() const
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{return _Len; }
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const VIMD & stride() const
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{return _Stride; }
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// Return the number of dimensions
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size_t _Nslice() const
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{ return _Len.size(); }
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// Return the total number of elements according to this slice
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size_t _Totlen() const
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{
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size_t _L = _Len.size() > 0;
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if ( _L )
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{
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for (size_t _I = 0; _I < _Len.size(); ++_I )
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{
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if ( _Len[_I] )
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_L *= _Len[_I];
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}
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}
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return _L;
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}
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/********************************************************
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* Subscript handling. There are two levels, one leaves
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* the subscript array unchanged, the other updates it.
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* There is a set of overloads for these which allow
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* reordering of dimensions.
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*********************************************************/
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// Return the index offset based upon the subscript array given
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size_t _IOff ( const VIMD& _Idx ) const
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{
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size_t _K = _Start;
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for (size_t _I = 0; _I < _Idx.size(); ++_I)
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_K += _Idx[_I] * _Stride[_I];
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return _K;
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}
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// Return the index offset based upon the varargs array given
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size_t _IOff ( int i, ... ) const
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{
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va_list vl;
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va_start( vl, i );
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return _IOff( i, vl );
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}
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size_t _IOff ( int i, va_list & vl ) const
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{
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size_t ioff = _Start;
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int j;
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for ( j = 0; j < _Len.size() && i >= 0 ; ++j )
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{
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ioff += i * _Stride[j];
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i = va_arg(vl,int);
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}
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return j == _Len.size() ? ioff : -1;
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}
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// Bump the subscript array to its next valid index
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void _Upd (VIMD & _Idx) const
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{
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for (size_t _I = _Len.size(); 0 < _I--;)
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{
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if (++_Idx[_I] < _Len[_I])
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break;
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_Idx[_I] = 0;
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}
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}
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// Iterate to the next subscript by computing its offset and updating
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// THIS IS THE FUNCTION USED FOR NORMAL ITERATION
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size_t _Off (VIMD& _Idx) const
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{
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size_t _K = _IOff(_Idx);
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_Upd(_Idx);
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return _K;
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}
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// Dimension reordering overloads; each behaves identically to its
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// base function, but accepts a dimension reordering array
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size_t _IOff(const VIMD& _Idx, const VIMD& _Idim) const
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{
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size_t _K = _Start;
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for (size_t _I = 0; _I < _Idx.size(); ++_I)
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{
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size_t _II = _Idim[_I];
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_K += _Idx[_II] * _Stride[_II];
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}
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return _K;
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}
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void _Upd (VIMD & _Idx, const VIMD& _Idim) const
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{
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for (size_t _I = _Len.size(); 0 < _I--;)
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{
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size_t _II = _Idim[_I];
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if (++_Idx[_II] < _Len[_II])
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break;
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_Idx[_II] = 0;
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}
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}
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size_t _Off (VIMD& _Idx, const VIMD& _Idim) const
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{
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size_t _K = _IOff(_Idx,_Idim);
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_Upd(_Idx,_Idim);
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return _K;
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}
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// Return an array like (0,1,2,3,...) for use with
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// the dimension-reordering members above
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void InitDimReorder ( VIMD & vimdDim ) const
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{
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vimdDim.resize( _Nslice() );
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for ( size_t i = 0 ; i < vimdDim.size() ; ++i )
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{
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vimdDim[i] = i;
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}
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}
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protected:
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size_t _Start; // Absolute starting offset into array
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VIMD _Len; // Signed integer array of dimension lengths
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VIMD _Stride; // Signed integer array of strides
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// Given the dimension lengths, compute the array of strides.
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inline void StrideFromLength ( const vbool * pvboolMissing = NULL );
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};
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/////////////////////////////////////////////////////////////////////////////////
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//
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// Template TMDVDENSE: Generalized multidimensional array handling.
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// Base class is 'valarray', so member elements must be available
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// (directly or through conversion) for mathematical operations.
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// For example, there's a "sum()" member for valarrays.
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//
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/////////////////////////////////////////////////////////////////////////////////
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template<class T>
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class TMDVDENSE : public pair<valarray<T>,MDVSLICE>
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{
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typedef valarray<T> vr_base;
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typedef pair<valarray<T>,MDVSLICE> pair_base;
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public:
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TMDVDENSE ( const VIMD & vimd )
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: pair_base( vr_base(), vimd )
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{ SyncSize(); }
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TMDVDENSE () {}
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~ TMDVDENSE () {}
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void Init ( const VIMD & vimd, size_t start = 0 )
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{
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second.Init( vimd, start );
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SyncSize();
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}
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void Init ( const MDVSLICE & mdvs )
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{
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second = mdvs;
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SyncSize();
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}
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void Init ( int cdim, ... )
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{
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va_list vl;
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va_start( vl, cdim );
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Init( cdim, vl );
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}
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void Init ( int cdim, va_list & vl )
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{
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second.Init( cdim, vl );
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SyncSize();
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}
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void SyncSize ()
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{
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size_t cElem = second._Totlen();
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if ( first.size() != cElem )
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first.resize( cElem );
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}
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// Subscripting as flat array
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T & operator [] ( int i )
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{ return first.operator[](i); }
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T operator [] ( int i ) const
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{ return first.operator[](i); }
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// Subscripting as m-d array
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T & operator [] ( const VIMD & vimd )
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{ return (*this)[ second._IOff(vimd) ]; }
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T operator [] ( const VIMD & vimd ) const
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{ return (*this)[ second._IOff(vimd) ]; }
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size_t size () const
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{ return first.size(); }
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const MDVSLICE & Slice () const
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{ return second ; }
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const VIMD & VimdDim () const
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{ return second.size(); }
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bool operator == ( const TMDVDENSE & mdv ) const
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{
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return vequal(first,mdv.first)
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&& second == mdv.second;
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}
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bool operator != ( const TMDVDENSE & mdv ) const
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{
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return !(*this == mdv);
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}
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class Iterator
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{
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public:
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Iterator ( TMDVDENSE & mdv )
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: _mdv(mdv),
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_mdvSlice( mdv.Slice() ),
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_itcurr(0),
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_itend( mdv.size() ),
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_bDimReorder(false)
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{
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assert( _mdvSlice._Totlen() == _itend );
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_vimd.resize(_mdvSlice._Nslice());
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}
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Iterator ( TMDVDENSE & mdv, const MDVSLICE & mdvslice )
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: _mdv(mdv),
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_mdvSlice( mdvslice ),
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_itcurr(0),
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_itend( mdvslice._Totlen() ),
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_bDimReorder(false)
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{
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_vimd.resize(_mdvSlice._Nslice());
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}
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void Reset()
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{
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vclear( _vimd, 0 );
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_itcurr = 0;
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}
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// Return flat index given const subscript array
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size_t Indx ( const VIMD & vimd ) const
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{
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return _bDimReorder
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? _mdvSlice._IOff( vimd, _vimdDim )
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: _mdvSlice._IOff( vimd );
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}
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// Return flat index given subscript array; update sub array
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size_t IndxUpd ( VIMD & vimd )
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{
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return _bDimReorder
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? _mdvSlice._Off( vimd, _vimdDim )
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: _mdvSlice._Off( vimd );
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}
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// Return current flat index, no update
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size_t Indx () const
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{ return Indx( _vimd ); }
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// Return current flat index, with update
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size_t IndxUpd ()
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{
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if ( _itcurr < _itend )
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_itcurr++;
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return IndxUpd( _vimd );
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}
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// Return current datum, no update
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T & operator[] ( VIMD & vimd )
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{ return _mdv[Indx()]; }
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// Return current datum, update sub array
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T & Next ()
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{ return _mdv[IndxUpd()]; }
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size_t ICurr () const
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{ return _itcurr; }
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size_t IEnd () const
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{ return _itend; }
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bool BNext () const
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{ return _itcurr < _itend; }
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const VIMD & Vitmd () const
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{ return _vimd; }
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const MDVSLICE & Slice() const
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{ return _mdvSlice; }
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void SetDimReorder ( const VIMD & vimdDim )
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{
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_vimdDim = vimdDim;
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_bDimReorder = true;
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// MSRDEVBUG: assert that the contents mention all dimensions correctly
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}
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TMDVDENSE & Mdv ()
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{ return _mdv; }
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bool BReorder () const
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{ return _bDimReorder; }
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const VIMD & VimdReorder () const
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{ return _vimdDim; }
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protected:
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TMDVDENSE & _mdv; // Flat valarray
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const MDVSLICE & _mdvSlice; // Multidimensional slice
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VIMD _vimd; // Iteration control
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VIMD _vimdDim; // Dimension reordering (optional)
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size_t _itcurr; // Current iteration point
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size_t _itend; // Iteration terminus
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bool _bDimReorder; // Dimension reordering?
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};
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friend class Iterator;
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};
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/////////////////////////////////////////////////////////////////////////////////
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// MDVSLICE member functions
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/////////////////////////////////////////////////////////////////////////////////
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inline
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void MDVSLICE :: StrideFromLength ( const vbool * pvboolMissing )
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{
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size_t cd = _Len.size();
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_Stride.resize(cd);
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size_t c = 1;
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size_t cmiss = pvboolMissing
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? pvboolMissing->size()
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: 0;
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for ( int i = cd; --i >= 0 ; )
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{
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int l = _Len[i];
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if ( l == 0 )
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continue;
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if ( i < cmiss && (*pvboolMissing)[i] )
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{
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_Stride[i] = 0;
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}
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else
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{
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_Stride[i] = c;
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c *= l;
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}
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}
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}
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// Construct a gslice from an MDVSLICE
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inline
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gslice MDVSLICE :: Gslice () const
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{
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_Sizarray vszLength;
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_Sizarray vszStride;
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return gslice( _Start,
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vdup( vszLength, _Len ),
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vdup( vszStride, _Stride ) );
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}
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// End of mdvect.h
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#endif
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