tuxclocker/editprofile.cpp
2019-01-18 15:48:34 +02:00

356 lines
11 KiB
C++

#include "editprofile.h"
#include "ui_editprofile.h"
#include "mainwindow.h"
editProfile::editProfile(QWidget *parent) :
QDialog(parent),
ui(new Ui::editProfile)
{
ui->setupUi(this);
// Get the main widget backgorund palette and use the colors for the plots
QPalette palette;
palette.setCurrentColorGroup(QPalette::Active);
QColor color = palette.color(QPalette::Background);
QColor textColor = palette.color(QPalette::Text);
QColor graphColor = palette.color(QPalette::Highlight);
QPen graphPen;
graphPen.setWidth(2);
graphPen.setColor(graphColor);
QPen tickPen;
tickPen.setWidthF(0.5);
tickPen.setColor(textColor);
// Define the filler line vectors and graphs so they don't need to be recreated every update
leftLineX.append(x_lower);
leftLineX.append(0);
leftLineY.append(0);
leftLineY.append(0);
rightLineX.append(0);
rightLineX.append(x_upper);
rightLineY.append(0);
rightLineY.append(0);
ui->curvePlot->addGraph();
ui->curvePlot->addGraph();
ui->curvePlot->addGraph();
ui->curvePlot->graph(0)->setScatterStyle(QCPScatterStyle::ssCircle);
ui->curvePlot->graph(0)->setLineStyle(QCPGraph::lsLine);
ui->curvePlot->setBackground(color);
ui->curvePlot->xAxis->setLabelColor(textColor);
ui->curvePlot->yAxis->setLabelColor(textColor);
ui->curvePlot->xAxis->setTickLabelColor(textColor);
ui->curvePlot->yAxis->setTickLabelColor(textColor);
ui->curvePlot->graph(0)->setPen(graphPen);
ui->curvePlot->graph(1)->setPen(graphPen);
ui->curvePlot->graph(2)->setPen(graphPen);
ui->curvePlot->xAxis->setTickPen(tickPen);
ui->curvePlot->yAxis->setTickPen(tickPen);
ui->curvePlot->xAxis->setSubTickPen(tickPen);
ui->curvePlot->yAxis->setSubTickPen(tickPen);
ui->curvePlot->xAxis->setBasePen(tickPen);
ui->curvePlot->yAxis->setBasePen(tickPen);
ui->curvePlot->xAxis->setLabel("Temperature");
ui->curvePlot->yAxis->setLabel("Fan speed (%)");
ui->curvePlot->xAxis->setRange(x_lower, (x_upper+5));
ui->curvePlot->yAxis->setRange(y_lower, (y_upper+5));
connect(ui->curvePlot, SIGNAL(mouseDoubleClick(QMouseEvent*)), SLOT(clickedGraph(QMouseEvent*)));
connect(ui->curvePlot, SIGNAL(plottableClick(QCPAbstractPlottable*,int,QMouseEvent*)), SLOT(clickedPoint(QCPAbstractPlottable*,int,QMouseEvent*)));
connect(ui->curvePlot, SIGNAL(mousePress(QMouseEvent*)), SLOT(detectPress(QMouseEvent*)));
connect(ui->curvePlot, SIGNAL(mouseMove(QMouseEvent*)), SLOT(detectMove(QMouseEvent*)));
connect(ui->curvePlot, SIGNAL(mouseRelease(QMouseEvent*)), SLOT(detectRelease(QMouseEvent*)));
connect(ui->curvePlot, SIGNAL(mouseMove(QMouseEvent*)), SLOT(getClosestCoords(QMouseEvent*)));
// Load the existing points to the graph
MainWindow mw;
for (int i=0; i<mw.xCurvePoints.length(); i++) {
qv_x.append(mw.xCurvePoints[i]);
qv_y.append(mw.yCurvePoints[i]);
}
ui->curvePlot->graph(0)->setData(qv_x, qv_y);
drawFillerLines();
QCPItemText *text = new QCPItemText(ui->curvePlot);
coordText = text;
}
editProfile::~editProfile()
{
delete ui;
}
void editProfile::addPoint(double x, double y)
{
y = round(y);
x = round(x);
if (qv_x.length() != 0) {
checkForDuplicatePoint(x, y);
}
if ((x_lower<=x) && (x<=x_upper) && (y_lower<=y) && (y<=y_upper) && !duplicatePoint) {
qv_x.append(x);
qv_y.append(y);
index_y = qv_y.size()-1;
index_x = qv_x.size()-1;
}
}
void editProfile::rePlot()
{
ui->curvePlot->replot();
ui->curvePlot->update();
}
void editProfile::clickedGraph(QMouseEvent *event)
{
QPoint point = event->pos();
addPoint(ui->curvePlot->xAxis->pixelToCoord(point.x()), ui->curvePlot->yAxis->pixelToCoord(point.y()));
ui->curvePlot->graph(0)->setData(qv_x, qv_y);
drawFillerLines();
}
void editProfile::clickedPoint(QCPAbstractPlottable *plottable, int dataIndex, QMouseEvent *event)
{
checkForNearbyPoints(event);
ycoord = round(ycoord);
xcoord = round(xcoord);
if (isNearbyPoint && qv_x.length() != 0) {
for (int i=0; i<qv_y.length(); i++ ) {
qv_y[i] = round(qv_y[i]);
qv_x[i] = round(qv_x[i]);
if ((qv_x[i] == xcoord) && (qv_y[i] == ycoord)) {
qv_x.remove(i);
qv_y.remove(i);
break;
}
}
ui->curvePlot->graph(0)->setData(qv_x, qv_y);
rePlot();
drawFillerLines();
}
}
bool editProfile::checkForNearbyPoints(QMouseEvent *event)
{
if (qv_x.length() != 0) {
QPoint point = event->pos();
double pointerxcoord = ui->curvePlot->xAxis->pixelToCoord(point.x());
double pointerycoord = ui->curvePlot->yAxis->pixelToCoord(point.y());
for (int i=0; i<qv_x.length(); i++) {
if ((abs(pointerxcoord - qv_x[i]) < selectionPrecision) && abs(pointerycoord - qv_y[i]) < selectionPrecision) {
isNearbyPoint = true;
break;
}
else {
isNearbyPoint = false;
}
}
return isNearbyPoint;
}
}
int editProfile::getDataIndex(QCPAbstractPlottable *plottable, int dataIndex)
{
dataIndex = pointIndex;
qDebug() << pointIndex;
return pointIndex;
}
bool editProfile::checkForDuplicatePoint(int x, int y)
// Return true if there is a duplicate point
{
for (int i=0; i<qv_x.length(); i++) {
qv_x[i] = round(qv_x[i]);
qv_y[i] = round(qv_y[i]);
if ((x == qv_x[i]) && (y == qv_y[i])) {
duplicatePoint = true;
}
}
return duplicatePoint;
}
void editProfile::getClosestCoords(QMouseEvent *event)
{
// Get the coordinates of the point that the mouse is over
if (qv_y.size() > 0) {
QPoint cursor = event->pos();
double pointerycoord = ui->curvePlot->yAxis->pixelToCoord(cursor.y());
double pointerxcoord = ui->curvePlot->xAxis->pixelToCoord(cursor.x());
for (int i=0; i<qv_y.size(); i++) {
if (sqrt(abs(pointerxcoord - qv_x[i]) * (abs(pointerxcoord - qv_x[i])) + abs(pointerycoord - qv_y[i]) * abs(pointerycoord - qv_y[i])) < selectionPrecision) {
xcoord = qv_x[i];
ycoord = qv_y[i];
break;
}
}
}
getPointIndices();
}
bool editProfile::detectMove(QMouseEvent *event)
{
mouseMoving = true;
if (mouseMoving && mousePressed) {
initializeDragging(event);
}
return mouseMoving;
}
bool editProfile::detectPress(QMouseEvent *event)
{
mousePressed = true;
if (mouseMoving && mousePressed) {
initializeDragging(event);
}
return mousePressed;
}
bool editProfile::initializeDragging(QMouseEvent *event)
{
// Decides whether to start dragging the point
mouseDragging = true;
checkForNearbyPoints(event);
if (isNearbyPoint || draggingPoint) {
dragPoint(index_x, index_y, event);
draggingPoint = true;
}
return mouseDragging;
}
void editProfile::getPointIndices()
{
if (qv_y.size() > 0) {
for (int i=0; i<qv_y.size(); i++) {
if ((qv_x[i] == xcoord) && (qv_y[i] == ycoord)) {
index_x = i;
index_y = i;
break;
}
}
}
}
void editProfile::dragPoint(int index_x, int index_y, QMouseEvent* event)
{
// Moves the selected point by index
// Sleep here so we don't take up so much CPU time
QThread::msleep(10);
QPoint point = event->pos();
qv_y[index_y] = round(ui->curvePlot->yAxis->pixelToCoord(point.y()));
qv_x[index_x] = round(ui->curvePlot->xAxis->pixelToCoord(point.x()));
if (qv_x[index_x] > x_upper) {
qv_x[index_x] = x_upper;
}
if (qv_x[index_x] < x_lower) {
qv_x[index_x] = x_lower;
}
if (qv_y[index_y] > y_upper) {
qv_y[index_y] = y_upper;
}
if (qv_y[index_y] < y_lower) {
qv_y[index_y] = y_lower;
}
// Display the coordinates
QPalette palette;
palette.setCurrentColorGroup(QPalette::Active);
QColor textColor = palette.color(QPalette::Text);
//coordText->position->setType(QCPItemPosition::ptPlotCoords);
if (ui->curvePlot->xAxis->pixelToCoord(point.x()) < x_upper*0.1) {
coordText->position->setCoords(x_upper*0.1, qv_y[index_y] + 4);
} else if (ui->curvePlot->xAxis->pixelToCoord(point.x()) > x_upper*0.9) {
coordText->position->setCoords(x_upper*0.9, qv_y[index_y] + 4);
} else {
coordText->position->setCoords(qv_x[index_x], qv_y[index_y] + 4);
}
QString xString = QString::number(qv_x[index_x]);
QString yString = QString::number(qv_y[index_y]);
coordText->setText(xString + ", " + yString);
coordText->setColor(textColor);
ui->curvePlot->graph(0)->setData(qv_x, qv_y);
drawFillerLines();
}
void editProfile::drawFillerLines()
{
// Draw the filler lines separately so they don't interfere with the main data. graph(1) = leftward line, graph(2) = rightward line
leftLineX[1] = ui->curvePlot->graph(0)->dataSortKey(0);
leftLineY[0] = ui->curvePlot->graph(0)->dataMainValue(0);
leftLineY[1] = ui->curvePlot->graph(0)->dataMainValue(0);
ui->curvePlot->graph(1)->setData(leftLineX, leftLineY);
rightLineX[0] = ui->curvePlot->graph(0)->dataSortKey(qv_x.length() -1);
rightLineY[0] = ui->curvePlot->graph(0)->dataMainValue(qv_x.length() -1);
rightLineY[1] = ui->curvePlot->graph(0)->dataMainValue(qv_x.length() -1);
ui->curvePlot->graph(2)->setData(rightLineX, rightLineY);
rePlot();
}
void editProfile::detectRelease(QMouseEvent *event)
{
mousePressed = false;
mouseMoving = false;
mouseDragging = false;
draggingPoint = false;
coordText->setText("");
rePlot();
}
void editProfile::on_pushButton_clicked()
{
qDebug() << draggingPoint;
coordText->setText("");
}
void editProfile::on_saveButton_clicked()
{
QString xString;
QString yString;
for (int i=0; i<qv_x.length(); i++) {
QString x = QString::number(ui->curvePlot->graph(0)->dataSortKey(i));
QString y = QString::number(ui->curvePlot->graph(0)->dataMainValue(i));
xString.append(x + ", ");
yString.append(y + ", ");
}
/*MainWindow mw;
QVariant xarray = xString;
QVariant yarray = yString;
qDebug() << xarray.toString() << yarray.toString();
QSettings settings("nvfancurve");
QString xsetting = mw.currentProfile;
QString ysetting = mw.currentProfile;
ysetting.append("/ypoints");
xsetting.append("/xpoints");
settings.setValue(xsetting, xarray);
settings.setValue(ysetting, yarray); */
QSettings settings("nvfancurve");
settings.beginGroup("General");
QString currentProfile = settings.value("currentProfile").toString();
QString latestUUID = settings.value("latestUUID").toString();
qDebug() << latestUUID;
settings.endGroup();
settings.beginGroup(currentProfile);
settings.beginGroup(latestUUID);
settings.setValue("ypoints", yString);
settings.setValue("xpoints", xString);
}
void editProfile::on_clearButton_clicked()
{
MainWindow mw;
qv_x.clear();
qv_y.clear();
qDebug() << mw.currentProfile;
ui->curvePlot->graph(0)->setData(qv_x, qv_y);
drawFillerLines();
}