/* gYAxis Implementation
*
* Copyright (c) 2019-2022 The OSCAR Team
* Copyright (c) 2011-2018 Mark Watkins <mark@jedimark.net>
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of the source code
* for more details. */
#define TEST_MACROS_ENABLEDoff
#include <test_macros.h>
#include "Graphs/gYAxis.h"
#include <QDebug>
#include <math.h>
#include "Graphs/glcommon.h"
#include "Graphs/gGraph.h"
#include "Graphs/gGraphView.h"
#include "SleepLib/profiles.h"
#include <QFontMetrics>
gXGrid::gXGrid(QColor col)
: Layer(NoChannel)
{
Q_UNUSED(col)
m_major_color = QColor(180, 180, 180, 64);
//m_major_color=QColor(180,180,180,92);
m_minor_color = QColor(230, 230, 230, 64);
m_show_major_lines = true;
m_show_minor_lines = true;
}
gXGrid::~gXGrid()
{
}
void gXGrid::paint(QPainter &painter, gGraph &w, const QRegion ®ion)
{
float left = region.boundingRect().left();
float top = region.boundingRect().top()+0.001f;
float width = region.boundingRect().width();
float height = region.boundingRect().height();
//int x, y;
EventDataType miny = w.physMinY();
EventDataType maxy = w.physMaxY();
w.roundY(miny, maxy);
//EventDataType dy=maxy-miny;
if (height < 0) { return; }
// static QString fd = "0";
// GetTextExtent(fd, x, y);
QFontMetrics fm(*defaultfont);
int y=fm.height();
double max_yticks = round(height / (y + 14.0*w.printScaleY())); // plus spacing between lines
//double yt=1/max_yticks;
double mxy = maxy; //MAX(fabs(maxy), fabs(miny));
double mny = miny;
// if (miny < 0) {
// mny = -mxy;
// }
double rxy = mxy - mny;
int myt;
bool fnd = false;
for (myt = max_yticks; myt >= 1.001; myt--) {
float v = rxy / float(myt);
if (float(v) == int(v)) {
fnd = true;
break;
}
}
if (fnd) { max_yticks = myt; }
else {
max_yticks = 2;
}
double yt = 1 / max_yticks;
double ymult = height / rxy;
double min_ytick = rxy * yt;
float ty, h;
if (min_ytick <= 0) {
qDebug() << "min_ytick error in gXGrid::paint() in" << w.title();
return;
}
if (min_ytick >= 1000000) {
min_ytick = 100;
}
QVector<QLineF> majorlines;
QVector<QLineF> minorlines;
for (double i = miny; i <= maxy + min_ytick + 0.001; i += min_ytick) {
ty = (i - miny) * ymult;
h = top + height - ty;
if (m_show_major_lines && (i > miny)) {
majorlines.append(QLineF(left, h, left + width, h));
}
double z = (min_ytick / 4) * ymult;
double g = h;
for (int i = 0; i < 3; i++) {
g += z;
if (g > top + height) { break; }
//if (vertcnt>=maxverts) {
// qWarning() << "vertarray bounds exceeded in gYAxis for " << w.title() << "graph" << "MinY =" <<miny << "MaxY =" << maxy << "min_ytick=" <<min_ytick;
// break;
// }
if (m_show_minor_lines) {// && (i > miny)) {
minorlines.append(QLineF(left, g, left + width, g));
}
}
}
painter.setPen(QPen(m_major_color,1));
painter.drawLines(majorlines);
painter.setPen(QPen(m_minor_color,1));
painter.drawLines(minorlines);
w.graphView()->lines_drawn_this_frame += majorlines.size() + minorlines.size();
}
gYAxis::gYAxis(QColor col)
: Layer(NoChannel)
{
m_line_color = col;
m_text_color = col;
m_yaxis_scale = 1;
}
gYAxis::~gYAxis()
{
}
int gYAxis::minimumWidth()
{
return Margin;
}
void gYAxis::paint(QPainter &painter, gGraph &w, const QRegion ®ion)
{
float left = region.boundingRect().left();
float top = region.boundingRect().top()+0.001;
float width = region.boundingRect().width();
float height = region.boundingRect().height();
int x, y; //,yh=0;
//Todo: clean this up as there is a lot of duplicate code between the sections
QFontMetrics fm(*defaultfont);
static QString fd;
if (0) {
} else {
if (height < 0) { return; }
if (height > 4000) { return; }
int labelW = 0;
EventDataType miny = w.physMinY();
EventDataType maxy = w.physMaxY();
w.roundY(miny, maxy);
EventDataType dy = maxy - miny;
// GetTextExtent(fd, x, y);
y=fm.height();
//x=0;
#ifdef DEBUG_LAYOUT
painter.setPen(Qt::green);
painter.drawLine(0,top,100,top);
#endif
double max_yticks = round(height / (y + 14.0)); // plus spacing between lines
double mxy = maxy; // MAX(fabs(maxy), fabs(miny));
double mny = miny;
if (miny < 0) {
// mny = -mxy;
}
double rxy = mxy - mny;
int myt;
bool fnd = false;
for (myt = max_yticks; myt > 2; myt--) {
float v = rxy / float(myt);
if (qAbs(v - int(v)) < 0.000001) {
fnd = true;
break;
}
}
if (fnd) { max_yticks = myt; }
double yt = 1 / max_yticks;
double ymult = height / rxy;
double min_ytick = rxy * yt;
//if (dy>5) {
// min_ytick=round(min_ytick);
//} else {
//}
float ty, h;
if (min_ytick <= 0) {
qDebug() << "min_ytick error in gYAxis::paint() in" << w.title();
return;
}
if (min_ytick >= 1000000) {
min_ytick = 100;
}
QVector<QLineF> ticks;
QRect r2;
float shorttick = 4.0 * w.printScaleX();
for (double i = miny; i <= maxy + min_ytick + 0.001; i += min_ytick) {
ty = (i - miny) * ymult;
if (dy < 5) {
fd = Format(i * m_yaxis_scale, 2);
} else {
fd = Format(i * m_yaxis_scale, 1);
}
r2 = fm.boundingRect(fd);
x = r2.width();
y = r2.height();
//GetTextExtent(fd, x, y); // performance bottleneck..
if (x > labelW) { labelW = x; }
h = top + height - ty;
if (h < top-0.002) { continue; }
w.renderText(fd, left + width - shorttick*2 - x, (h + (y / 2.0)), 0, m_text_color, defaultfont);
ticks.append(QLineF(left + width - shorttick, h, left + width, h));
double z = (min_ytick / 4) * ymult;
double g = h;
for (int i = 0; i < 3; i++) {
g += z;
if (g > top + height + 0.002) { break; }
ticks.append(QLineF(left + width - shorttick/2, g, left + width, g));
}
}
painter.setPen(Qt::black);
painter.drawLines(ticks);
w.graphView()->lines_drawn_this_frame += ticks.size();
}
}
const QString gYAxis::Format(EventDataType v, int dp)
{
return QString::number(v, 'f', dp);
}
bool gYAxis::mouseMoveEvent(QMouseEvent *event, gGraph *graph)
{
if (!AppSetting->graphTooltips()) {
return false;
}
graph->timedRedraw(0);
int x = event->x();
int y = event->y();
if (!graph->units().isEmpty()) {
graph->ToolTip(graph->unitsTooltip(), x+10, y+10, TT_AlignLeft);
// graph->redraw();
}
return false;
}
bool gYAxis::mouseDoubleClickEvent(QMouseEvent *event, gGraph *graph)
{
if (graph) {
graph->mouseDoubleClickYAxis(event);
}
return false;
}
const QString gYAxisTime::Format(EventDataType v, int dp)
{
int h = int(v) % 24;
int m = int(v * 60) % 60;
int s = int(v * 3600) % 60;
char pm[3] = {"pm"};
if (show_12hr) {
h >= 12 ? pm[0] = 'a' : pm[0] = 'p';
h %= 12;
if (h == 0) { h = 12; }
} else {
pm[0] = 0;
}
if (dp > 2) { return QString().sprintf("%02i:%02i:%02i%s", h, m, s, pm); }
return QString().sprintf("%i:%02i%s", h, m, pm);
}
const QString gYAxisWeight::Format(EventDataType v, int dp)
{
Q_UNUSED(dp)
return weightString(v, m_unitsystem);
}