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LimeReport/limereport/lraxisdata.cpp

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#include "lraxisdata.h"
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#include <QDebug>
#include <cmath>
namespace LimeReport {
AxisData::AxisData(AxisType type, QObject* parent):
QObject(parent),
m_rangeMin(0),
m_rangeMax(0),
m_minValue(0),
m_maxValue(0),
m_step(0),
m_delta(0),
m_segmentCount(4),
m_calculateAxisScale(false),
m_reverseDirection(false),
m_manualMaximum(0),
m_manualMinimum(0),
m_manualStep(0),
m_isMaximumAutomatic(true),
m_isMinimumAutomatic(true),
m_isStepAutomatic(true),
m_type(type)
{
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}
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QString AxisData::toString() const
{
// Just for debug purposes
QString str;
QTextStream stream(&str);
stream << "{ "
<< "min: " << m_minValue << ", max: " << m_maxValue << ", step: " << m_step
<< ", range min: " << m_rangeMin << ", range max: " << m_rangeMax
<< ", segments: " << m_segmentCount << ", reverseDiection: " << m_reverseDirection
<< ", calculateAxisScale: " << m_calculateAxisScale
<< ", manualMaxEnabled: " << !m_isMaximumAutomatic
<< ", manualMinEnabled: " << !m_isMinimumAutomatic
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<< ", manualStepEnabled: " << !m_isStepAutomatic << ", manualMax: " << m_manualMaximum
<< ", manualMin: " << m_manualMinimum << ", manualStep: " << m_manualStep << " }";
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return str;
}
void AxisData::copy(AxisData* other)
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{
m_calculateAxisScale = other->calculateAxisScale();
m_reverseDirection = other->reverseDirection();
m_manualMaximum = other->manualMaximum();
m_manualMinimum = other->manualMinimum();
m_manualStep = other->manualStep();
m_isMaximumAutomatic = other->isMaximumAutomatic();
m_isMinimumAutomatic = other->isMinimumAutomatic();
m_isStepAutomatic = other->isStepAutomatic();
}
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void AxisData::update()
{
if (m_calculateAxisScale) {
calculateRoundedAxisScale();
} else {
calculateSimpleAxisScale();
}
m_delta = m_step * m_segmentCount;
// Update manual values if they are automatic
if (m_isStepAutomatic) {
m_manualStep = m_step;
}
if (m_isMinimumAutomatic) {
m_manualMinimum = m_rangeMin;
}
if (m_isMaximumAutomatic) {
m_manualMaximum = m_rangeMax;
}
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}
void AxisData::update(qreal minValue, qreal maxValue)
{
m_minValue = minValue;
m_maxValue = maxValue;
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update();
}
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void AxisData::updateForDesignMode()
{
m_minValue = 0;
m_maxValue = 40;
const bool tmp = m_calculateAxisScale;
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m_calculateAxisScale = false;
update();
m_calculateAxisScale = tmp;
}
int AxisData::segmentCount() const { return m_segmentCount; }
bool AxisData::calculateAxisScale() const { return m_calculateAxisScale; }
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qreal AxisData::rangeMin() const { return m_rangeMin; }
qreal AxisData::rangeMax() const { return m_rangeMax; }
qreal AxisData::minValue() const { return m_minValue; }
qreal AxisData::maxValue() const { return m_maxValue; }
qreal AxisData::step() const { return m_step; }
qreal AxisData::delta() const { return m_delta; }
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void AxisData::calculateRoundedAxisScale()
{
const int maximumSegmentCount = 10;
bool calculateStep = isStepAutomatic();
const bool calculateMinimum = isMinimumAutomatic();
const bool calculateMaximum = isMaximumAutomatic();
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qreal temporaryMin = 0;
qreal temporaryMax = 0;
if (calculateMinimum) {
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temporaryMin = qMin(0.0, minValue());
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} else {
temporaryMin = qMin(manualMinimum(), minValue());
}
if (calculateMaximum) {
temporaryMax = maxValue();
} else {
temporaryMax = qMax(manualMaximum(), maxValue());
}
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m_step = calculateStep ? 0 : manualStep();
if (temporaryMax == temporaryMin) {
if (temporaryMax == 0) {
temporaryMax = 1;
} else {
temporaryMax *= 2;
}
}
const qreal minAndMaxSpacingOffset = 0.95;
qreal stepMagnitude = 0.0;
qreal normalizedStep = 0.0;
bool isStepNormalized = false;
bool isLoopFinished = false;
// Calculate until segment count is below maximum
while (!isLoopFinished) {
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if (calculateStep) {
if (isStepNormalized) {
if (normalizedStep == 1.0) {
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normalizedStep = 2.0;
} else if (normalizedStep == 2.0) {
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normalizedStep = 5.0;
} else {
normalizedStep = 1.0;
stepMagnitude *= 10;
}
} else {
const double startingStep = (temporaryMax - temporaryMin) / maximumSegmentCount;
const int exponent = static_cast<int>(floor(log10(startingStep)));
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stepMagnitude = pow(10.0, static_cast<double>(exponent));
normalizedStep = startingStep / stepMagnitude;
if (normalizedStep <= 1.0) {
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normalizedStep = 1.0;
} else if (normalizedStep <= 2.0) {
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normalizedStep = 2.0;
} else if (normalizedStep <= 5.0) {
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normalizedStep = 5.0;
} else {
normalizedStep = 1.0;
stepMagnitude *= 10;
}
isStepNormalized = true;
}
m_step = normalizedStep * stepMagnitude;
}
qreal currentAxisMinimum = temporaryMin;
qreal currentAxisMaximum = temporaryMax;
if (calculateMinimum) {
currentAxisMinimum = calculateNewMinimum(currentAxisMinimum, m_step);
const qreal currentDelta = currentAxisMaximum - currentAxisMinimum;
const qreal actualDelta = currentAxisMaximum - minValue();
if ((currentAxisMinimum != 0.0)
&& ((actualDelta / currentDelta) > minAndMaxSpacingOffset)) {
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currentAxisMinimum -= m_step;
}
}
if (calculateMaximum) {
currentAxisMaximum = calculateNewMaximum(currentAxisMaximum, m_step);
const qreal currentDelta = currentAxisMaximum - currentAxisMinimum;
const qreal actualDelta = maxValue() - currentAxisMinimum;
if ((currentAxisMaximum != 0.0)
&& ((actualDelta / currentDelta) > minAndMaxSpacingOffset)) {
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currentAxisMaximum += m_step;
}
}
m_segmentCount
= static_cast<int>(round((currentAxisMaximum - currentAxisMinimum) / m_step));
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m_rangeMin = currentAxisMinimum;
m_rangeMax = currentAxisMaximum;
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// Check also if step is correctly calucalted. It is possible for float steps that
// there might be a difference. Recalculate the step in that case.
const qreal tmpStep = (m_rangeMax - m_rangeMin) / m_segmentCount;
isLoopFinished = m_segmentCount <= maximumSegmentCount && qFuzzyCompare(tmpStep, m_step);
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if (!isLoopFinished) {
// Configured step may be invalid, calculating it automatically
calculateStep = true;
}
}
}
void AxisData::calculateSimpleAxisScale()
{
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qreal min = 0;
if (m_minValue < 0) {
min = minValue();
}
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m_segmentCount = 4;
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const int delta = maxValue() - min;
int max = delta;
while (max % m_segmentCount != 0) {
max++;
}
m_rangeMax = minValue() + max;
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m_step = max / m_segmentCount;
m_rangeMin = minValue();
}
double AxisData::calculateNewMinimum(qreal min, qreal step) const
{
if (step <= 0.0)
return min;
double ret = floor(min / step) * step;
if (ret > min && !qFuzzyCompare(ret, min)) {
ret -= step;
}
return ret;
}
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double AxisData::calculateNewMaximum(qreal max, qreal step) const
{
if (step <= 0.0)
return max;
double ret = floor(max / step) * step;
if (ret < max && !qFuzzyCompare(ret, max)) {
ret += step;
}
return ret;
}
void AxisData::setCalculateAxisScale(bool newCalculateAxisScale)
{
m_calculateAxisScale = newCalculateAxisScale;
}
bool AxisData::reverseDirection() const { return m_reverseDirection; }
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void AxisData::setReverseDirection(bool reverseDirection) { m_reverseDirection = reverseDirection; }
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qreal AxisData::manualMaximum() const { return m_manualMaximum; }
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void AxisData::setManualMaximum(qreal newManualMaximum) { m_manualMaximum = newManualMaximum; }
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qreal AxisData::manualMinimum() const { return m_manualMinimum; }
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void AxisData::setManualMinimum(qreal newManualMinimum) { m_manualMinimum = newManualMinimum; }
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qreal AxisData::manualStep() const { return m_manualStep; }
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void AxisData::setManualStep(qreal newManualStep) { m_manualStep = newManualStep; }
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bool AxisData::isMaximumAutomatic() const { return m_isMaximumAutomatic; }
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void AxisData::setIsMaximumAutomatic(bool newIsMaximumAutomatic)
{
m_isMaximumAutomatic = newIsMaximumAutomatic;
}
bool AxisData::isMinimumAutomatic() const { return m_isMinimumAutomatic; }
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void AxisData::setIsMinimumAutomatic(bool newIsMinimumAutomatic)
{
m_isMinimumAutomatic = newIsMinimumAutomatic;
}
bool AxisData::isStepAutomatic() const { return m_isStepAutomatic; }
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void AxisData::setIsStepAutomatic(bool newIsStepAutomatic)
{
m_isStepAutomatic = newIsStepAutomatic;
}
AxisData::AxisType AxisData::type() const { return m_type; }
} // namespace LimeReport