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21 
22 
23 
24 // MARKER(update_precomp.py): autogen include statement, do not remove
25 #include "precompiled_chart2.hxx"
26 #include "LogarithmicRegressionCurveCalculator.hxx"
27 #include "macros.hxx"
28 #include "RegressionCalculationHelper.hxx"
29 
30 #include <rtl/math.hxx>
31 #include <rtl/ustrbuf.hxx>
32 
33 using namespace ::com::sun::star;
34 
35 using ::rtl::OUString;
36 using ::rtl::OUStringBuffer;
37 
38 namespace chart
39 {
40 
LogarithmicRegressionCurveCalculator()41 LogarithmicRegressionCurveCalculator::LogarithmicRegressionCurveCalculator() :
42         m_fSlope( 0.0 ),
43         m_fIntercept( 0.0 )
44 {
45     ::rtl::math::setNan( & m_fSlope );
46     ::rtl::math::setNan( & m_fIntercept );
47 }
48 
~LogarithmicRegressionCurveCalculator()49 LogarithmicRegressionCurveCalculator::~LogarithmicRegressionCurveCalculator()
50 {}
51 
52 // ____ XRegressionCurve ____
recalculateRegression(const uno::Sequence<double> & aXValues,const uno::Sequence<double> & aYValues)53 void SAL_CALL LogarithmicRegressionCurveCalculator::recalculateRegression(
54     const uno::Sequence< double >& aXValues,
55     const uno::Sequence< double >& aYValues )
56     throw (uno::RuntimeException)
57 {
58     RegressionCalculationHelper::tDoubleVectorPair aValues(
59         RegressionCalculationHelper::cleanup(
60             aXValues, aYValues,
61             RegressionCalculationHelper::isValidAndXPositive()));
62 
63     const size_t nMax = aValues.first.size();
64     if( nMax == 0 )
65     {
66         ::rtl::math::setNan( & m_fSlope );
67         ::rtl::math::setNan( & m_fIntercept );
68         ::rtl::math::setNan( & m_fCorrelationCoeffitient );
69         return;
70     }
71 
72     double fAverageX = 0.0, fAverageY = 0.0;
73     size_t i = 0;
74     for( i = 0; i < nMax; ++i )
75     {
76         fAverageX += log( aValues.first[i] );
77         fAverageY += aValues.second[i];
78     }
79 
80     const double fN = static_cast< double >( nMax );
81     fAverageX /= fN;
82     fAverageY /= fN;
83 
84     double fQx = 0.0, fQy = 0.0, fQxy = 0.0;
85     for( i = 0; i < nMax; ++i )
86     {
87         double fDeltaX = log( aValues.first[i] ) - fAverageX;
88         double fDeltaY = aValues.second[i] - fAverageY;
89 
90         fQx  += fDeltaX * fDeltaX;
91         fQy  += fDeltaY * fDeltaY;
92         fQxy += fDeltaX * fDeltaY;
93     }
94 
95     m_fSlope = fQxy / fQx;
96     m_fIntercept = fAverageY - m_fSlope * fAverageX;
97     m_fCorrelationCoeffitient = fQxy / sqrt( fQx * fQy );
98 }
99 
getCurveValue(double x)100 double SAL_CALL LogarithmicRegressionCurveCalculator::getCurveValue( double x )
101     throw (lang::IllegalArgumentException,
102            uno::RuntimeException)
103 {
104     double fResult;
105     ::rtl::math::setNan( & fResult );
106 
107     if( ! ( ::rtl::math::isNan( m_fSlope ) ||
108             ::rtl::math::isNan( m_fIntercept )))
109     {
110         fResult = m_fSlope * log( x ) + m_fIntercept;
111     }
112 
113     return fResult;
114 }
115 
getCurveValues(double min,double max,::sal_Int32 nPointCount,const uno::Reference<chart2::XScaling> & xScalingX,const uno::Reference<chart2::XScaling> & xScalingY,::sal_Bool bMaySkipPointsInCalculation)116 uno::Sequence< geometry::RealPoint2D > SAL_CALL LogarithmicRegressionCurveCalculator::getCurveValues(
117     double min, double max, ::sal_Int32 nPointCount,
118     const uno::Reference< chart2::XScaling >& xScalingX,
119     const uno::Reference< chart2::XScaling >& xScalingY,
120     ::sal_Bool bMaySkipPointsInCalculation )
121     throw (lang::IllegalArgumentException,
122            uno::RuntimeException)
123 {
124     if( bMaySkipPointsInCalculation &&
125         isLogarithmicScaling( xScalingX ) &&
126         isLinearScaling( xScalingY ))
127     {
128         // optimize result
129         uno::Sequence< geometry::RealPoint2D > aResult( 2 );
130         aResult[0].X = min;
131         aResult[0].Y = this->getCurveValue( min );
132         aResult[1].X = max;
133         aResult[1].Y = this->getCurveValue( max );
134 
135         return aResult;
136     }
137     return RegressionCurveCalculator::getCurveValues( min, max, nPointCount, xScalingX, xScalingY, bMaySkipPointsInCalculation );
138 }
139 
ImplGetRepresentation(const uno::Reference<util::XNumberFormatter> & xNumFormatter,::sal_Int32 nNumberFormatKey) const140 OUString LogarithmicRegressionCurveCalculator::ImplGetRepresentation(
141     const uno::Reference< util::XNumberFormatter >& xNumFormatter,
142     ::sal_Int32 nNumberFormatKey ) const
143 {
144     OUStringBuffer aBuf( C2U( "f(x) = " ));
145 
146     bool bHaveSlope = false;
147 
148     if( m_fSlope != 0.0 )
149     {
150         if( ::rtl::math::approxEqual( fabs( m_fSlope ), 1.0 ))
151         {
152             if( m_fSlope < 0 )
153                 aBuf.append( UC_MINUS_SIGN );
154         }
155         else
156         {
157             aBuf.append( getFormattedString( xNumFormatter, nNumberFormatKey, m_fSlope ));
158             aBuf.append( UC_SPACE );
159         }
160         aBuf.appendAscii( RTL_CONSTASCII_STRINGPARAM( "ln(x)" ));
161         bHaveSlope = true;
162     }
163 
164     if( bHaveSlope )
165     {
166         if( m_fIntercept < 0.0 )
167         {
168             aBuf.append( UC_SPACE );
169             aBuf.append( UC_MINUS_SIGN );
170             aBuf.append( UC_SPACE );
171             aBuf.append( getFormattedString( xNumFormatter, nNumberFormatKey, fabs( m_fIntercept )));
172         }
173         else if( m_fIntercept > 0.0 )
174         {
175             aBuf.appendAscii( RTL_CONSTASCII_STRINGPARAM( " + " ));
176             aBuf.append( getFormattedString( xNumFormatter, nNumberFormatKey, m_fIntercept ));
177         }
178     }
179     else
180     {
181         aBuf.append( getFormattedString( xNumFormatter, nNumberFormatKey, m_fIntercept ));
182     }
183 
184     return aBuf.makeStringAndClear();
185 }
186 
187 } //  namespace chart
188