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#include <QMutexLocker>
#include <QCoreApplication>
#include <QPointF>
#include <QList>
#include "functionconfig.h"
#include <QtAlgorithms>
#include <QtAlgorithms>
#include <QSettings>
#include <QPixmap>
#include <algorithm>
#include <cmath>
void Map::setTrackingActive(bool blnActive)
{
activep = blnActive;
}
Map::Map() :
_mutex(QMutex::Recursive),
activep(false),
max_x(0),
max_y(0),
lazy_reload(true)
{
}
Map::num Map::getValue(Map::num x) {
QMutexLocker foo(&_mutex);
if (lazy_reload)
{
lazy_reload = false;
reload();
}
num q = x * precision();
int xi = (int)q;
num yi = getValueInternal(xi);
num yiplus1 = getValueInternal(xi + (x < 0 ? -1 : 1));
num f = (q-xi);
num ret = yiplus1 * f + yi * (1 - f); // at least do a linear interpolation.
last_input_value.setX(std::abs(x));
last_input_value.setY(std::abs(ret));
return ret;
}
bool Map::getLastPoint(QPointF& point ) {
QMutexLocker foo(&_mutex);
point = last_input_value;
return activep;
}
Map::num Map::getValueInternal(int x) {
num sign = x < 0 ? -1 : 1;
x = abs(x);
num ret;
int sz = cur.data.size();
if (sz == 0)
ret = 0;
else
ret = cur.data[std::min<unsigned>(x, sz-1)] * max_y / integral_max;
return ret * sign;
}
static QPointF ensureInBounds(QList<QPointF> points, int i) {
int siz = points.size();
if (siz == 0 || i < 0)
return QPointF(0, 0);
if (siz > i)
return points[i];
return points[siz - 1];
}
static bool sortFn(const QPointF& one, const QPointF& two) {
return one.x() < two.x();
}
void Map::reload() {
if (cur.input.size())
{
qStableSort(cur.input.begin(), cur.input.end(), sortFn);
QList<QPointF> input = cur.input;
auto& data = cur.data;
data = std::vector<integral>(value_count);
const int mult = precision();
const int sz = data.size();
for (int i = 0; i < sz; i++)
data[i] = integral_max;
if (input.size() == 1)
{
for (int k = 0; k < input[0].x() * mult; k++) {
if (k < sz)
data[k] = input[0].y() * k * integral_max / (input[0].x() * mult) / max_y ;
}
}
else if (input[0].x() > 1e-2)
input.prepend(QPointF(0, 0));
for (int i = 0; i < sz; i++) {
const QPointF p0 = ensureInBounds(input, i - 1);
const QPointF p1 = ensureInBounds(input, i);
const QPointF p2 = ensureInBounds(input, i + 1);
const QPointF p3 = ensureInBounds(input, i + 2);
using n = double;
const n p0_x = p0.x(), p1_x = p1.x(), p2_x = p2.x(), p3_x = p3.x();
const n p0_y = p0.y(), p1_y = p1.y(), p2_y = p2.y(), p3_y = p3.y();
// multiplier helps fill in all the x's needed
const int mult_ = mult * 20;
const int end = std::min<int>(sz, p2.x() * mult_);
const int start = p1.x() * mult;
const n max = end - start;
for (int j = start; j < end; j++) {
const n t = (j - start) / max;
const n t2 = t*t;
const n t3 = t*t*t;
// XXX we could solve for t instead -sh 20150811
const int x = .5 * ((2. * p1_x) +
(-p0_x + p2_x) * t +
(2. * p0_x - 5. * p1_x + 4. * p2_x - p3_x) * t2 +
(-p0_x + 3. * p1_x - 3. * p2_x + p3_x) * t3)
* mult;
if (x < 0 || x >= sz || data[x] != integral_max)
continue;
const n y = .5 * ((2. * p1_y) +
(-p0_y + p2_y) * t +
(2. * p0_y - 5. * p1_y + 4. * p2_y - p3_y) * t2 +
(-p0_y + 3. * p1_y - 3. * p2_y + p3_y) * t3);
const n y_ = std::min<n>(max_y, std::max<n>(y, 0));
data[x] = y_ * integral_max / max_y;
}
}
integral last = 0;
for (int i = 0; i < sz; i++)
{
if (data[i] == integral_max)
data[i] = last;
last = data[i];
}
}
else
cur.data.clear();
}
void Map::removePoint(int i) {
QMutexLocker foo(&_mutex);
if (i >= 0 && i < cur.input.size())
{
cur.input.removeAt(i);
lazy_reload = true;
}
}
void Map::addPoint(QPointF pt) {
QMutexLocker foo(&_mutex);
cur.input.append(pt);
lazy_reload = true;
qStableSort(cur.input.begin(), cur.input.end(), sortFn);
}
void Map::movePoint(int idx, QPointF pt) {
QMutexLocker foo(&_mutex);
if (idx >= 0 && idx < cur.input.size())
{
cur.input[idx] = pt;
lazy_reload = true;
// we don't allow points to be reodered, so no sort here
}
}
const QList<QPointF> Map::getPoints() {
QMutexLocker foo(&_mutex);
return cur.input;
}
void Map::invalidate_unsaved_settings()
{
QMutexLocker foo(&_mutex);
cur = saved;
lazy_reload = true;
}
void Map::loadSettings(QSettings& settings, const QString& title) {
QMutexLocker foo(&_mutex);
QPointF newPoint;
QList<QPointF> points;
settings.beginGroup(QString("Curves-%1").arg(title));
int max = settings.value("point-count", 0).toInt();
for (int i = 0; i < max; i++) {
newPoint = QPointF(settings.value(QString("point-%1-x").arg(i), 0).toDouble(),
settings.value(QString("point-%1-y").arg(i), 0).toDouble());
if (newPoint.x() > max_x) {
newPoint.setX(max_x);
}
if (newPoint.y() > max_y) {
newPoint.setY(max_y);
}
points.append(newPoint);
}
settings.endGroup();
if (max == 0)
points.append(QPointF(maxInput(), maxOutput()));
cur.input = points;
lazy_reload = true;
saved = cur;
}
void Map::saveSettings(QSettings& settings, const QString& title) {
QMutexLocker foo(&_mutex);
settings.beginGroup(QString("Curves-%1").arg(title));
int max = cur.input.size();
settings.setValue("point-count", max);
for (int i = 0; i < max; i++) {
settings.setValue(QString("point-%1-x").arg(i), cur.input[i].x());
settings.setValue(QString("point-%1-y").arg(i), cur.input[i].y());
}
for (int i = max; true; i++)
{
QString x = QString("point-%1-x").arg(i);
if (!settings.contains(x))
break;
settings.remove(x);
settings.remove(QString("point-%1-y").arg(i));
}
saved = cur;
settings.endGroup();
}
int Map::precision() const {
if (cur.input.size())
return value_count / std::max<num>(1, (cur.input[cur.input.size() - 1].x()));
return 1;
}
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