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#ifndef com_sun_star_chart2_XRegressionCurveCalculator_idl
#define com_sun_star_chart2_XRegressionCurveCalculator_idl
#include <com/sun/star/uno/XInterface.idl>
#include <com/sun/star/util/XNumberFormatsSupplier.idl>
#include <com/sun/star/lang/IllegalArgumentException.idl>
#include <com/sun/star/geometry/RealPoint2D.idl>
#include <com/sun/star/chart2/XScaling.idl>
module com
{
module sun
{
module star
{
module chart2
{
interface XRegressionCurveCalculator : com::sun::star::uno::XInterface
{
/** recalculates the parameters of the internal regression curve according to
the <it>x</it>- and <it>y</it>-values given.
@param aXValues
All x-values that represent the measurement points on
which the regression is based
@param aYValues
All y-values that represent the measurement points on
which the regression is based
*/
void recalculateRegression( [in] sequence< double > aXValues,
[in] sequence< double > aYValues );
/** calculates the value of the regression curve for <it>x</it>.
@param x
The abscissa value for which the value of the regression
curve should be calculated. All numbers that are part of
the domain of the regression function are valid.
@return
If <it>x</it> is element of the domain of the regression
curve function, the result is its value.
@throws com::sun::star::lang::IllegalArgumentException
If <it>x</it> is not part of the domain of the regression
function.
*/
double getCurveValue( [in] double x )
raises( com::sun::star::lang::IllegalArgumentException );
/** calculate multiple points of a regression curve at once. Note
that this method may optimize the output by returning less
points, e.g. for a line you may get only two resulting points
instead of <member>nPointCount</member> points. This is only
allowed if the parameter
<member>bMaySkipPointsInCalculation</member> is set to
<TRUE/>.
<p>It is important that a renderer takes the scalings into
account. When one of these parameters is unknown, no
optimization must be done.</p>
@param bMaySkipPointsInCalculation determines whether it is
allowed to skip points in the calculation. When this
parameter is <TRUE/> it is assumed that the underlying
coordinate system is cartesian.
@param xScalingX a scaling that is used for the values in
x-direction
@param xScalingY a scaling that is used for the values in
y-direction
*/
sequence< com::sun::star::geometry::RealPoint2D > getCurveValues(
[in] double min,
[in] double max,
[in] long nPointCount,
[in] XScaling xScalingX,
[in] XScaling xScalingY,
[in] boolean bMaySkipPointsInCalculation )
raises( com::sun::star::lang::IllegalArgumentException );
/** Returns the value of the correlation coefficient for the given
regression. This value is often denoted as <it>r</it> or
<it>R</it>.
<p>The value of <it>r</it> is signed. Often
<it>r</it><sup>2</sup> is used instead of <it>r</it> to denote
a regression curve's accuray.</p>
@return
The return value is the fraction of the variance in the
data that is explained by the regression.
*/
double getCorrelationCoefficient();
/** Retrieve a string showing the regression curve's function with
calculated parameters.
@return
The string returned contains the regression curve's
formula in a form <pre>"f(x) = ..."</pre>, where the
calculated parts are filled out. For a linear regression
you might get <pre>"f(x) = 0.341 x + 1.45"</pre>.
*/
string getRepresentation();
/** Returns a representation using the given numnber format for formatting all numbers
contained in the formula.
@see getRepresentation
*/
string getFormattedRepresentation( [in] com::sun::star::util::XNumberFormatsSupplier xNumFmtSupplier,
[in] long nNumberFormatKey );
};
} ; // chart2
} ; // com
} ; // sun
} ; // star
#endif
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