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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#pragma once
#include "address.hxx"
#include "matrixoperators.hxx"
#include "types.hxx"
#include <formula/errorcodes.hxx>
#include "scdllapi.h"
#include <svl/sharedstring.hxx>
#include <svl/sharedstringpool.hxx>
#include <memory>
#include <utility>
#include <vector>
#define DEBUG_MATRIX 0
class ScInterpreter;
struct ScInterpreterContext;
class ScMatrixImpl;
enum class FormulaError : sal_uInt16;
namespace sc {
struct Compare;
struct CompareOptions;
}
/**
* Try NOT to use this struct. This struct should go away in a hopefully
* not so distant future.
*/
struct ScMatrixValue
{
double fVal;
svl::SharedString aStr;
ScMatValType nType;
/// Only valid if ScMatrix methods indicate so!
const svl::SharedString& GetString() const { return aStr; }
/// Only valid if ScMatrix methods indicate that this is no string!
FormulaError GetError() const { return GetDoubleErrorValue(fVal); }
/// Only valid if ScMatrix methods indicate that this is a boolean
bool GetBoolean() const { return fVal != 0.0; }
ScMatrixValue() : fVal(0.0), nType(ScMatValType::Empty) {}
ScMatrixValue(const ScMatrixValue& r) = default;
ScMatrixValue& operator= (const ScMatrixValue& r) = default;
bool operator== (const ScMatrixValue& r) const
{
if (nType != r.nType)
return false;
switch (nType)
{
case ScMatValType::Value:
case ScMatValType::Boolean:
return fVal == r.fVal;
break;
default:
;
}
return aStr == r.aStr;
}
bool operator!= (const ScMatrixValue& r) const
{
return !operator==(r);
}
};
/**
* Matrix data type that can store values of mixed types. Each element can
* be one of the following types: numeric, string, boolean, empty, and empty
* path.
*/
class ScMatrix final
{
friend class ScMatrixImpl;
mutable size_t nRefCnt; // reference count
mutable bool mbCloneIfConst; // Whether the matrix is cloned with a CloneIfConst() call.
std::unique_ptr<ScMatrixImpl> pImpl;
ScMatrix( const ScMatrix& ) = delete;
ScMatrix& operator=( const ScMatrix&) = delete;
public:
SC_DLLPUBLIC ScMatrix(SCSIZE nC, SCSIZE nR);
SC_DLLPUBLIC ScMatrix(SCSIZE nC, SCSIZE nR, double fInitVal);
ScMatrix( size_t nC, size_t nR, const std::vector<double>& rInitVals );
~ScMatrix();
typedef std::function<void(size_t, size_t, double)> DoubleOpFunction;
typedef std::function<void(size_t, size_t, bool)> BoolOpFunction;
typedef std::function<void(size_t, size_t, svl::SharedString)> StringOpFunction;
typedef std::function<void(size_t, size_t)> EmptyOpFunction;
typedef std::function<double(double, double)> CalculateOpFunction;
/**
* When adding all numerical matrix elements for a scalar result such as
* summation, the interpreter wants to separate the first non-zero value
* with the rest of the summed values. This is necessary for better
* numerical stability, unless we sort all by absolute values before
* summing (not really an option) or use another algorithm, e.g. Kahan's
* summation algorithm,
* https://en.wikipedia.org/wiki/Kahan_summation_algorithm
*/
template<typename tRes>
struct IterateResultMultiple
{
std::vector<tRes> maAccumulator;
size_t mnCount;
IterateResultMultiple(size_t nCount) :
maAccumulator(0), mnCount(nCount) {}
};
typedef IterateResultMultiple<KahanSum> KahanIterateResultMultiple;
typedef IterateResultMultiple<double> DoubleIterateResultMultiple;
/**
* Iterator for executing one operation with the matrix data.
*/
template<typename tRes>
struct IterateResult
{
tRes maAccumulator;
size_t mnCount;
IterateResult(tRes fAccumulator, size_t nCount)
: maAccumulator(fAccumulator), mnCount(nCount) {}
};
typedef IterateResult<KahanSum> KahanIterateResult;
typedef IterateResult<double> DoubleIterateResult;
/** Checks nC or nR for zero and uses GetElementsMax() whether a matrix of
the size of nC*nR could be allocated. A zero size (both nC and nR zero)
matrix is allowed for later resize.
*/
bool static IsSizeAllocatable( SCSIZE nC, SCSIZE nR );
/// Value or boolean.
static bool IsValueType( ScMatValType nType )
{
return nType <= ScMatValType::Boolean;
}
/// Boolean.
static bool IsBooleanType( ScMatValType nType )
{
return nType == ScMatValType::Boolean;
}
/// String, empty or empty path, but not value nor boolean.
static bool IsNonValueType( ScMatValType nType )
{
return bool(nType & ScMatValType::NonvalueMask);
}
/** String, but not empty or empty path or any other type.
Not named IsStringType to prevent confusion because previously
IsNonValueType was named IsStringType. */
static bool IsRealStringType( ScMatValType nType )
{
return (nType & ScMatValType::NonvalueMask) == ScMatValType::String;
}
/// Empty, but not empty path or any other type.
static bool IsEmptyType( ScMatValType nType )
{
return (nType & ScMatValType::NonvalueMask) == ScMatValType::Empty;
}
/// Empty path, but not empty or any other type.
static bool IsEmptyPathType( ScMatValType nType )
{
return (nType & ScMatValType::NonvalueMask) == ScMatValType::EmptyPath;
}
/** Clone the matrix. */
ScMatrix* Clone() const;
/** Clone the matrix if mbCloneIfConst (immutable) is set, otherwise
return _this_ matrix, to be assigned to a ScMatrixRef. */
ScMatrix* CloneIfConst();
/** Set the matrix to mutable for CloneIfConst(), only the interpreter
should do this and know the consequences. */
void SetMutable();
/** Set the matrix to immutable for CloneIfConst(), only the interpreter
should do this and know the consequences. */
void SetImmutable() const;
/**
* Resize the matrix to specified new dimension.
*/
SC_DLLPUBLIC void Resize(SCSIZE nC, SCSIZE nR);
void Resize(SCSIZE nC, SCSIZE nR, double fVal);
/** Clone the matrix and extend it to the new size. nNewCols and nNewRows
MUST be at least of the size of the original matrix. */
ScMatrix* CloneAndExtend(SCSIZE nNewCols, SCSIZE nNewRows) const;
SC_DLLPUBLIC void IncRef() const;
SC_DLLPUBLIC void DecRef() const;
void SetErrorInterpreter( ScInterpreter* p);
SC_DLLPUBLIC void GetDimensions( SCSIZE& rC, SCSIZE& rR) const;
SCSIZE GetElementCount() const;
bool ValidColRow( SCSIZE nC, SCSIZE nR) const;
/** For a row vector or column vector, if the position does not point into
the vector but is a valid column or row offset it is adapted such that
it points to an element to be replicated, same column row 0 for a row
vector, same row column 0 for a column vector. Else, for a 2D matrix,
returns false.
*/
bool ValidColRowReplicated( SCSIZE & rC, SCSIZE & rR ) const;
/** Checks if the matrix position is within the matrix. If it is not, for a
row vector or column vector the position is adapted such that it points
to an element to be replicated, same column row 0 for a row vector,
same row column 0 for a column vector. Else, for a 2D matrix and
position not within matrix, returns false.
*/
bool ValidColRowOrReplicated( SCSIZE & rC, SCSIZE & rR ) const;
SC_DLLPUBLIC void PutDouble( double fVal, SCSIZE nC, SCSIZE nR);
void PutDouble( double fVal, SCSIZE nIndex);
void PutDoubleTrans( double fVal, SCSIZE nIndex);
void PutDouble(const double* pArray, size_t nLen, SCSIZE nC, SCSIZE nR);
SC_DLLPUBLIC void PutString( const svl::SharedString& rStr, SCSIZE nC, SCSIZE nR) ;
void PutString( const svl::SharedString& rStr, SCSIZE nIndex) ;
void PutStringTrans( const svl::SharedString& rStr, SCSIZE nIndex) ;
void PutString( const svl::SharedString* pArray, size_t nLen, SCSIZE nC, SCSIZE nR) ;
SC_DLLPUBLIC void PutEmpty( SCSIZE nC, SCSIZE nR);
void PutEmpty(SCSIZE nIndex);
void PutEmptyTrans( SCSIZE nIndex );
/// Jump sal_False without path
void PutEmptyPath( SCSIZE nC, SCSIZE nR) ;
SC_DLLPUBLIC void PutError( FormulaError nErrorCode, SCSIZE nC, SCSIZE nR ) ;
SC_DLLPUBLIC void PutBoolean( bool bVal, SCSIZE nC, SCSIZE nR) ;
void FillDouble( double fVal,
SCSIZE nC1, SCSIZE nR1, SCSIZE nC2, SCSIZE nR2 ) ;
/** Put a column vector of doubles, starting at row nR, must fit into dimensions. */
void PutDoubleVector( const ::std::vector< double > & rVec, SCSIZE nC, SCSIZE nR ) ;
/** Put a column vector of strings, starting at row nR, must fit into dimensions. */
void PutStringVector( const ::std::vector< svl::SharedString > & rVec, SCSIZE nC, SCSIZE nR ) ;
/** Put a column vector of empties, starting at row nR, must fit into dimensions. */
void PutEmptyVector( SCSIZE nCount, SCSIZE nC, SCSIZE nR ) ;
/** Put a column vector of empty results, starting at row nR, must fit into dimensions. */
void PutEmptyResultVector( SCSIZE nCount, SCSIZE nC, SCSIZE nR ) ;
/** Put a column vector of empty paths, starting at row nR, must fit into dimensions. */
void PutEmptyPathVector( SCSIZE nCount, SCSIZE nC, SCSIZE nR ) ;
/** May be used before obtaining the double value of an element to avoid
passing its NAN around.
@ATTENTION: MUST NOT be used if the element is a string!
Use GetErrorIfNotString() instead if not sure.
@returns 0 if no error, else one of err... constants */
FormulaError GetError( SCSIZE nC, SCSIZE nR) const ;
/** Use in ScInterpreter to obtain the error code, if any.
@returns 0 if no error or string element, else one of err... constants */
FormulaError GetErrorIfNotString( SCSIZE nC, SCSIZE nR) const
{ return IsValue( nC, nR) ? GetError( nC, nR) : FormulaError::NONE; }
/// @return 0.0 if empty or empty path, else value or DoubleError.
double GetDouble( SCSIZE nC, SCSIZE nR) const ;
/// @return 0.0 if empty or empty path, else value or DoubleError.
double GetDouble( SCSIZE nIndex) const ;
/// @return value or DoubleError or string converted to value.
double GetDoubleWithStringConversion( SCSIZE nC, SCSIZE nR ) const ;
/// @return empty string if empty or empty path, else string content.
svl::SharedString GetString( SCSIZE nC, SCSIZE nR) const ;
/// @return empty string if empty or empty path, else string content.
svl::SharedString GetString( SCSIZE nIndex) const ;
/** @returns the matrix element's string if one is present, otherwise the
numerical value formatted as string, or in case of an error the error
string is returned; an empty string for empty, a "FALSE" string for
empty path. */
svl::SharedString GetString( ScInterpreterContext& rContext, SCSIZE nC, SCSIZE nR) const ;
/// @ATTENTION: If bString the ScMatrixValue->pS may still be NULL to indicate
/// an empty string!
SC_DLLPUBLIC ScMatrixValue Get( SCSIZE nC, SCSIZE nR) const ;
/** @return <TRUE/> if string or any empty, empty cell, empty result, empty
path, in fact non-value. */
bool IsStringOrEmpty( SCSIZE nIndex ) const ;
/** @return <TRUE/> if string or any empty, empty cell, empty result, empty
path, in fact non-value. */
bool IsStringOrEmpty( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if empty or empty cell or empty result, not empty path.
bool IsEmpty( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if empty cell, not empty or empty result or empty path.
bool IsEmptyCell( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if empty result, not empty or empty cell or empty path.
bool IsEmptyResult( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if empty path, not empty or empty cell or empty result.
bool IsEmptyPath( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if value or boolean.
bool IsValue( SCSIZE nIndex ) const ;
/// @return <TRUE/> if value or boolean.
bool IsValue( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if value or boolean or empty or empty path.
bool IsValueOrEmpty( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if boolean.
bool IsBoolean( SCSIZE nC, SCSIZE nR ) const ;
/// @return <TRUE/> if entire matrix is numeric, including booleans, with no strings or empties
bool IsNumeric() const ;
void MatTrans( const ScMatrix& mRes) const ;
void MatCopy ( const ScMatrix& mRes) const ;
// Convert ScInterpreter::CompareMat values (-1,0,1) to boolean values
void CompareEqual() ;
void CompareNotEqual() ;
void CompareLess() ;
void CompareGreater() ;
void CompareLessEqual() ;
void CompareGreaterEqual() ;
double And() const ; // logical AND of all matrix values, or NAN
double Or() const ; // logical OR of all matrix values, or NAN
double Xor() const ; // logical XOR of all matrix values, or NAN
KahanIterateResult Sum( bool bTextAsZero, bool bIgnoreErrorValues = false ) const ;
KahanIterateResult SumSquare( bool bTextAsZero, bool bIgnoreErrorValues = false ) const ;
DoubleIterateResult Product( bool bTextAsZero, bool bIgnoreErrorValues = false ) const ;
size_t Count(bool bCountStrings, bool bCountErrors, bool bIgnoreEmptyStrings = false) const ;
size_t MatchDoubleInColumns(double fValue, size_t nCol1, size_t nCol2) const ;
size_t MatchStringInColumns(const svl::SharedString& rStr, size_t nCol1, size_t nCol2) const ;
double GetMaxValue( bool bTextAsZero, bool bIgnoreErrorValues = false ) const ;
double GetMinValue( bool bTextAsZero, bool bIgnoreErrorValues = false ) const ;
double GetGcd() const ;
double GetLcm() const ;
ScMatrixRef CompareMatrix(
sc::Compare& rComp, size_t nMatPos, sc::CompareOptions* pOptions ) const ;
/**
* Convert the content of matrix into a linear array of numeric values.
* String elements are mapped to NaN's and empty elements are mapped to
* either NaN or zero values.
*
* @param bEmptyAsZero if true empty elements are mapped to zero values,
* otherwise they become NaN values.
*/
void GetDoubleArray( std::vector<double>& rArray, bool bEmptyAsZero = true ) const ;
void MergeDoubleArrayMultiply( std::vector<double>& rArray ) const ;
void NotOp(const ScMatrix& rMat) ;
void NegOp(const ScMatrix& rMat) ;
void AddOp(double fVal, const ScMatrix& rMat) ;
void SubOp(bool bFlag, double fVal, const ScMatrix& rMat) ;
void MulOp(double fVal, const ScMatrix& rMat) ;
void DivOp(bool bFlag, double fVal, const ScMatrix& rMat) ;
void PowOp(bool bFlag, double fVal, const ScMatrix& rMat) ;
KahanIterateResultMultiple CollectKahan(const std::vector<sc::op::kOp>& aOp) ;
void ExecuteOperation(const std::pair<size_t, size_t>& rStartPos, const std::pair<size_t, size_t>& rEndPos,
DoubleOpFunction aDoubleFunc, BoolOpFunction aBoolFunc, StringOpFunction aStringFunc,
EmptyOpFunction aEmptyFunc) const ;
void MatConcat(SCSIZE nMaxCol, SCSIZE nMaxRow, const ScMatrixRef& xMat1, const ScMatrixRef& xMat2,
ScInterpreterContext& rContext, svl::SharedStringPool& rPool) ;
/** Apply binary operation to values from two input matrices, storing result into this matrix. */
void ExecuteBinaryOp(SCSIZE nMaxCol, SCSIZE nMaxRow, const ScMatrix& rInputMat1, const ScMatrix& rInputMat2,
ScInterpreter* pInterpreter, const CalculateOpFunction& op);
#if DEBUG_MATRIX
void Dump() const;
#endif
};
inline void intrusive_ptr_add_ref(const ScMatrix* p)
{
p->IncRef();
}
inline void intrusive_ptr_release(const ScMatrix* p)
{
p->DecRef();
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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