91e66dedc9
This is to prevent including the whole scmatrix.hxx header in document.hxx.
392 lines
13 KiB
C++
392 lines
13 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/*************************************************************************
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*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* Copyright 2000, 2010 Oracle and/or its affiliates.
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*
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* OpenOffice.org - a multi-platform office productivity suite
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*
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* This file is part of OpenOffice.org.
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*
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* OpenOffice.org is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Lesser General Public License version 3
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* only, as published by the Free Software Foundation.
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*
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* OpenOffice.org is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License version 3 for more details
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* (a copy is included in the LICENSE file that accompanied this code).
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*
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* You should have received a copy of the GNU Lesser General Public License
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* version 3 along with OpenOffice.org. If not, see
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* <http://www.openoffice.org/license.html>
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* for a copy of the LGPLv3 License.
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*
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************************************************************************/
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#ifndef SC_MATRIX_HXX
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#define SC_MATRIX_HXX
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#include "global.hxx"
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#include "types.hxx"
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#include "formula/errorcodes.hxx"
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#include <tools/string.hxx>
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#include "scdllapi.h"
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#include <boost/intrusive_ptr.hpp>
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class SvStream;
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class ScInterpreter;
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class SvNumberFormatter;
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class ScMatrixImpl;
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typedef BYTE ScMatValType;
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const ScMatValType SC_MATVAL_VALUE = 0x00;
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const ScMatValType SC_MATVAL_BOOLEAN = 0x01;
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const ScMatValType SC_MATVAL_STRING = 0x02;
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const ScMatValType SC_MATVAL_EMPTY = SC_MATVAL_STRING | 0x04; // STRING plus flag
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const ScMatValType SC_MATVAL_EMPTYPATH = SC_MATVAL_EMPTY | 0x08; // EMPTY plus flag
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const ScMatValType SC_MATVAL_NONVALUE = SC_MATVAL_EMPTYPATH; // mask of all non-value bits
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struct ScMatrixValue
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{
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union {
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double fVal;
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const String* pS;
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};
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ScMatValType nType;
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/// Only valid if ScMatrix methods indicate so!
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const String& GetString() const { return pS ? *pS : EMPTY_STRING; }
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/// Only valid if ScMatrix methods indicate that this is no string!
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USHORT GetError() const { return GetDoubleErrorValue( fVal); }
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/// Only valid if ScMatrix methods indicate that this is a boolean
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bool GetBoolean() const { return fVal != 0.0; }
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ScMatrixValue() : pS(NULL), nType(SC_MATVAL_EMPTY) {}
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ScMatrixValue(const ScMatrixValue& r) : nType(r.nType)
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{
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switch (nType)
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{
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case SC_MATVAL_VALUE:
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case SC_MATVAL_BOOLEAN:
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fVal = r.fVal;
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break;
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default:
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pS = r.pS;
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}
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}
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bool operator== (const ScMatrixValue& r) const
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{
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if (nType != r.nType)
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return false;
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switch (nType)
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{
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case SC_MATVAL_VALUE:
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case SC_MATVAL_BOOLEAN:
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return fVal == r.fVal;
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break;
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default:
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;
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}
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if (!pS)
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return r.pS == NULL;
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return GetString().Equals(r.GetString());
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}
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bool operator!= (const ScMatrixValue& r) const
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{
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return !operator==(r);
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}
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ScMatrixValue& operator= (const ScMatrixValue& r)
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{
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nType = r.nType;
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switch (nType)
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{
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case SC_MATVAL_VALUE:
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case SC_MATVAL_BOOLEAN:
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fVal = r.fVal;
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break;
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default:
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pS = r.pS;
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}
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return *this;
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}
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};
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/**
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* Matrix data type that can store values of mixed types. Each element can
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* be one of the following types: numeric, string, boolean, empty, and empty
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* path.
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*
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* This class also supports four different density types: filled zero,
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* filled empty, sparse zero, and sparse empty. The filled density type
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* allocates memory for every single element at all times, whereas the
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* sparse density types allocates memory only for non-default elements.
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*/
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class SC_DLLPUBLIC ScMatrix
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{
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ScMatrixImpl* pImpl;
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mutable size_t nRefCnt; // reference count
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// only delete via Delete()
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~ScMatrix();
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// not implemented, prevent usage
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ScMatrix( const ScMatrix& );
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ScMatrix& operator=( const ScMatrix&);
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public:
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enum DensityType
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{
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FILLED_ZERO,
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FILLED_EMPTY,
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SPARSE_ZERO,
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SPARSE_EMPTY
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};
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/**
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* When adding all numerical matrix elements for a scalar result such as
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* summation, the interpreter wants to separate the first non-zero value
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* with the rest of the summed values.
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*
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* TODO: Find out if we still need to do this. If not, we can re-write
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* ScInterpreter::IterateParameters() to make it simpler and remove this
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* struct.
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*/
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struct IterateResult
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{
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double mfFirst;
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double mfRest;
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size_t mnCount;
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IterateResult(double fFirst, double fRest, size_t nCount) :
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mfFirst(fFirst), mfRest(fRest), mnCount(nCount) {}
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IterateResult(const IterateResult& r) :
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mfFirst(r.mfFirst), mfRest(r.mfRest), mnCount(r.mnCount) {}
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};
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/// The maximum number of elements a matrix may have at runtime.
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inline static size_t GetElementsMax()
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{
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// Roughly 125MB in total, divided by 8+1 per element => 14M elements.
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const size_t nMemMax = 0x08000000 / (sizeof(ScMatrixValue) + sizeof(ScMatValType));
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// With MAXROWCOUNT==65536 and 128 columns => 8M elements ~72MB.
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const size_t nArbitraryLimit = (size_t)MAXROWCOUNT * 128;
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// Stuffed with a million rows would limit this to 14 columns.
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return nMemMax < nArbitraryLimit ? nMemMax : nArbitraryLimit;
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}
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/// Value or boolean.
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inline static bool IsValueType( ScMatValType nType )
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{
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return nType <= SC_MATVAL_BOOLEAN;
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}
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/// Boolean.
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inline static bool IsBooleanType( ScMatValType nType )
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{
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return nType == SC_MATVAL_BOOLEAN;
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}
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/// String, empty or empty path, but not value nor boolean.
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inline static bool IsNonValueType( ScMatValType nType )
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{
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return (nType & SC_MATVAL_NONVALUE) != 0;
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}
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/** String, but not empty or empty path or any other type.
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Not named IsStringType to prevent confusion because previously
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IsNonValueType was named IsStringType. */
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inline static bool IsRealStringType( ScMatValType nType )
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{
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return (nType & SC_MATVAL_NONVALUE) == SC_MATVAL_STRING;
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}
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/// Empty, but not empty path or any other type.
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inline static bool IsEmptyType( ScMatValType nType )
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{
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return (nType & SC_MATVAL_NONVALUE) == SC_MATVAL_EMPTY;
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}
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/// Empty path, but not empty or any other type.
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inline static bool IsEmptyPathType( ScMatValType nType )
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{
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return (nType & SC_MATVAL_NONVALUE) == SC_MATVAL_EMPTYPATH;
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}
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ScMatrix( SCSIZE nC, SCSIZE nR, DensityType eType = FILLED_ZERO);
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/** Clone the matrix. */
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ScMatrix* Clone() const;
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ScMatrix* Clone( DensityType eType) const;
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/** Clone the matrix if mbCloneIfConst (immutable) is set, otherwise
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return _this_ matrix, to be assigned to a ScMatrixRef. */
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ScMatrix* CloneIfConst();
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/** Set the matrix to (im)mutable for CloneIfConst(), only the interpreter
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should do this and know the consequences. */
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void SetImmutable( bool bVal );
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/**
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* Resize the matrix to specified new dimension.
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*/
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void Resize( SCSIZE nC, SCSIZE nR);
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/** Clone the matrix and extend it to the new size. nNewCols and nNewRows
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MUST be at least of the size of the original matrix. */
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ScMatrix* CloneAndExtend( SCSIZE nNewCols, SCSIZE nNewRows, DensityType eType) const;
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inline void IncRef() const
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{
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++nRefCnt;
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}
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inline void DecRef() const
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{
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--nRefCnt;
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if (nRefCnt == 0)
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delete this;
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}
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DensityType GetDensityType() const;
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void SetErrorInterpreter( ScInterpreter* p);
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void GetDimensions( SCSIZE& rC, SCSIZE& rR) const;
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SCSIZE GetElementCount() const;
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bool ValidColRow( SCSIZE nC, SCSIZE nR) const;
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SCSIZE CalcOffset( SCSIZE nC, SCSIZE nR) const;
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/** For a row vector or column vector, if the position does not point into
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the vector but is a valid column or row offset it is adapted such that
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it points to an element to be replicated, same column row 0 for a row
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vector, same row column 0 for a column vector. Else, for a 2D matrix,
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returns false.
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*/
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bool ValidColRowReplicated( SCSIZE & rC, SCSIZE & rR ) const;
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/** Checks if the matrix position is within the matrix. If it is not, for a
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row vector or column vector the position is adapted such that it points
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to an element to be replicated, same column row 0 for a row vector,
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same row column 0 for a column vector. Else, for a 2D matrix and
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position not within matrix, returns false.
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*/
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bool ValidColRowOrReplicated( SCSIZE & rC, SCSIZE & rR ) const;
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void PutDouble( double fVal, SCSIZE nC, SCSIZE nR);
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void PutDouble( double fVal, SCSIZE nIndex);
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void PutString( const String& rStr, SCSIZE nC, SCSIZE nR);
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void PutString( const String& rStr, SCSIZE nIndex);
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void PutEmpty( SCSIZE nC, SCSIZE nR);
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/// Jump FALSE without path
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void PutEmptyPath( SCSIZE nC, SCSIZE nR);
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void PutError( USHORT nErrorCode, SCSIZE nC, SCSIZE nR );
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void PutBoolean( bool bVal, SCSIZE nC, SCSIZE nR);
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void FillDouble( double fVal,
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SCSIZE nC1, SCSIZE nR1, SCSIZE nC2, SCSIZE nR2 );
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/** May be used before obtaining the double value of an element to avoid
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passing its NAN around.
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@ATTENTION: MUST NOT be used if the element is a string!
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Use GetErrorIfNotString() instead if not sure.
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@returns 0 if no error, else one of err... constants */
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USHORT GetError( SCSIZE nC, SCSIZE nR) const;
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/** Use in ScInterpreter to obtain the error code, if any.
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@returns 0 if no error or string element, else one of err... constants */
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USHORT GetErrorIfNotString( SCSIZE nC, SCSIZE nR) const
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{ return IsValue( nC, nR) ? GetError( nC, nR) : 0; }
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/// @return 0.0 if empty or empty path, else value or DoubleError.
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double GetDouble( SCSIZE nC, SCSIZE nR) const;
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/// @return 0.0 if empty or empty path, else value or DoubleError.
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double GetDouble( SCSIZE nIndex) const;
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/// @return empty string if empty or empty path, else string content.
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const String& GetString( SCSIZE nC, SCSIZE nR) const;
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/// @return empty string if empty or empty path, else string content.
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const String& GetString( SCSIZE nIndex) const;
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/** @returns the matrix element's string if one is present, otherwise the
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numerical value formatted as string, or in case of an error the error
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string is returned; an empty string for empty, a "FALSE" string for
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empty path. */
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String GetString( SvNumberFormatter& rFormatter, SCSIZE nC, SCSIZE nR) const;
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/// @ATTENTION: If bString the ScMatrixValue->pS may still be NULL to indicate
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/// an empty string!
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ScMatrixValue Get( SCSIZE nC, SCSIZE nR) const;
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/// @return <TRUE/> if string or empty or empty path, in fact non-value.
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BOOL IsString( SCSIZE nIndex ) const;
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/// @return <TRUE/> if string or empty or empty path, in fact non-value.
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BOOL IsString( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if empty or empty path.
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BOOL IsEmpty( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if empty path.
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BOOL IsEmptyPath( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if value or boolean.
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BOOL IsValue( SCSIZE nIndex ) const;
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/// @return <TRUE/> if value or boolean.
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BOOL IsValue( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if value or boolean or empty or empty path.
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BOOL IsValueOrEmpty( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if boolean.
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BOOL IsBoolean( SCSIZE nC, SCSIZE nR ) const;
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/// @return <TRUE/> if entire matrix is numeric, including booleans, with no strings or empties
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BOOL IsNumeric() const;
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void MatTrans( ScMatrix& mRes) const;
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void MatCopy ( ScMatrix& mRes) const;
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// Convert ScInterpreter::CompareMat values (-1,0,1) to boolean values
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void CompareEqual();
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void CompareNotEqual();
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void CompareLess();
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void CompareGreater();
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void CompareLessEqual();
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void CompareGreaterEqual();
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double And() const; // logical AND of all matrix values, or NAN
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double Or() const; // logical OR of all matrix values, or NAN
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IterateResult Sum(bool bTextAsZero) const;
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IterateResult SumSquare(bool bTextAsZero) const;
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IterateResult Product(bool bTextAsZero) const;
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size_t Count(bool bCountStrings) const;
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// All other matrix functions MatMult, MInv, ... are in ScInterpreter
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// to be numerically safe.
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};
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inline void intrusive_ptr_add_ref(const ScMatrix* p)
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{
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p->IncRef();
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}
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inline void intrusive_ptr_release(const ScMatrix* p)
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{
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p->DecRef();
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}
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#endif // SC_MATRIX_HXX
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/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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