33 return QObject::tr(
"Standard Deviation" );
43 std::unique_ptr<QgsClassificationStandardDeviation >
c = std::make_unique< QgsClassificationStandardDeviation >();
55QList<double> QgsClassificationStandardDeviation::calculateBreaks(
double &minimum,
double &maximum,
56 const QList<double> &values,
int nclasses, QString &error )
67 if ( values.isEmpty() )
68 return QList<double>();
72 const int n = values.count();
74 for (
int i = 0; i < n; i++ )
78 mean = mean /
static_cast< double >( n );
81 for (
int i = 0; i < n; i++ )
83 sd = values[i] - mean;
86 mStdDev = std::sqrt( mStdDev / n );
91 QList<double> breaks =
QgsSymbolLayerUtils::prettyBreaks( ( minimum - mEffectiveSymmetryPoint ) / mStdDev, ( maximum - mEffectiveSymmetryPoint ) / mStdDev, nclasses );
94 for (
int i = 0; i < breaks.count(); i++ )
95 breaks[i] = ( breaks[i] * mStdDev ) + mEffectiveSymmetryPoint;
102 const QString lowerLabel = valueToLabel( lowerValue );
103 const QString upperLabel = valueToLabel( upperValue );
108 return QStringLiteral(
"< %1" ).arg( upperLabel );
112 label.replace( QLatin1String(
"%1" ), lowerLabel ).replace( QLatin1String(
"%2" ), upperLabel );
116 return QStringLiteral(
"≥ %1" ).arg( lowerLabel );
122QString QgsClassificationStandardDeviation::valueToLabel(
const double value )
const
124 const double normalized = ( value - mEffectiveSymmetryPoint ) / mStdDev;
125 return QObject::tr(
" %1 Std Dev" ).arg( QLocale().toString( normalized,
'f', 2 ) );
133 element.setAttribute( QStringLiteral(
"std_dev" ), QString::number( mStdDev,
'f', 16 ) );
134 element.setAttribute( QStringLiteral(
"effective_symmetry_point" ), QString::number( mEffectiveSymmetryPoint,
'f', 16 ) );
141 mStdDev = element.attribute( QStringLiteral(
"std_dev" ), QStringLiteral(
"1.0" ) ).toDouble();
142 mEffectiveSymmetryPoint = element.attribute( QStringLiteral(
"effective_symmetry_point" ), QStringLiteral(
"0.0" ) ).toDouble();
static QIcon getThemeIcon(const QString &name, const QColor &fillColor=QColor(), const QColor &strokeColor=QColor())
Helper to get a theme icon.
QgsClassificationMethod is an abstract class for implementations of classification methods.
double symmetryPoint() const
Returns the symmetry point for symmetric mode.
bool symmetricModeEnabled() const
Returns if the symmetric mode is enabled.
static void makeBreaksSymmetric(QList< double > &breaks, double symmetryPoint, bool astride)
Remove the breaks that are above the existing opposite sign classes to keep colors symmetrically bala...
ClassPosition
Defines the class position.
@ LowerBound
The class is at the lower bound.
@ UpperBound
The class is at the upper bound.
@ Inner
The class is not at a bound.
bool symmetryAstride() const
Returns if the symmetric mode is astride if true, it will remove the symmetry point break so that the...
QString labelFormat() const
Returns the format of the label for the classes.
void copyBase(QgsClassificationMethod *c) const
Copy the parameters (shall be used in clone implementation)
QIcon icon() const override
The icon of the method.
QString name() const override
The readable and translate name of the method.
QgsClassificationStandardDeviation()
static const QString METHOD_ID
void writeXml(QDomElement &element, const QgsReadWriteContext &context) const override
Writes extra information about the method.
QString labelForRange(double lowerValue, double upperValue, ClassPosition position) const override
Returns the label for a range.
QString id() const override
The id of the method as saved in the project, must be unique in registry.
void readXml(const QDomElement &element, const QgsReadWriteContext &context) override
Reads extra information to apply it to the method.
std::unique_ptr< QgsClassificationMethod > clone() const override
Returns a clone of the method.
The class is used as a container of context for various read/write operations on other objects.
static QList< double > prettyBreaks(double minimum, double maximum, int classes)
Computes a sequence of about 'classes' equally spaced round values which cover the range of values fr...
As part of the API refactoring and improvements which landed in the Processing API was substantially reworked from the x version This was done in order to allow much of the underlying Processing framework to be ported into c