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GPXSee/src/GUI/scaleitem.cpp
2019-05-23 08:44:55 +02:00

153 lines
3.7 KiB
C++

#include <cmath>
#include <QApplication>
#include <QPainter>
#include "common/util.h"
#include "font.h"
#include "scaleitem.h"
#define BORDER_WIDTH 1
#define SCALE_WIDTH 135
#define SCALE_HEIGHT 5
#define SEGMENTS 3
#define PADDING 4
ScaleItem::ScaleItem(QGraphicsItem *parent) : QGraphicsItem(parent)
{
_units = Metric;
_res = 1.0;
_digitalZoom = 0;
_font.setPixelSize(FONT_SIZE);
_font.setFamily(FONT_FAMILY);
}
void ScaleItem::paint(QPainter *painter, const QStyleOptionGraphicsItem *option,
QWidget *widget)
{
Q_UNUSED(option);
Q_UNUSED(widget);
QFontMetrics fm(_font);
QRect br;
painter->setRenderHint(QPainter::Antialiasing, false);
painter->setFont(_font);
painter->setPen(QPen(Qt::black, BORDER_WIDTH));
for (int i = 0; i < _ticks.size(); i++) {
br = _ticks.at(i).boundingBox;
painter->drawText(_width * i - br.width()/2, br.height() + 1,
QString::number(_ticks.at(i).value));
}
painter->drawText(_width * SEGMENTS + PADDING, SCALE_HEIGHT + PADDING
+ br.height() + fm.descent(), _unitsStr);
painter->drawRect(QRectF(0, br.height() + PADDING, SEGMENTS * _width,
SCALE_HEIGHT));
for (int i = 0; i < SEGMENTS; i += 2)
painter->fillRect(QRectF(i * _width, br.height() + PADDING, _width,
SCALE_HEIGHT), Qt::black);
/*
painter->setPen(Qt::red);
painter->drawRect(boundingRect());
*/
}
void ScaleItem::computeScale()
{
qreal res = _res * pow(2, -_digitalZoom);
if (_units == Imperial) {
_length = niceNum((res * M2FT * SCALE_WIDTH) / SEGMENTS, true);
if (_length >= MIINFT) {
_length = niceNum((res * M2MI * SCALE_WIDTH) / SEGMENTS, true);
_width = (_length / (res * M2MI));
_scale = true;
} else {
_width = (_length / (res * M2FT));
_scale = false;
}
} else if (_units == Nautical) {
_length = niceNum((res * M2FT * SCALE_WIDTH) / SEGMENTS, true);
if (_length >= NMIINFT) {
_length = niceNum((res * M2NMI * SCALE_WIDTH) / SEGMENTS, true);
_width = (_length / (res * M2NMI));
_scale = true;
} else {
_width = (_length / (res * M2FT));
_scale = false;
}
} else {
_length = niceNum((res * SCALE_WIDTH) / SEGMENTS, true);
if (_length >= KMINM) {
_length *= M2KM;
_width = (_length / (res * M2KM));
_scale = true;
} else {
_width = (_length / res);
_scale = false;
}
}
}
void ScaleItem::updateCache()
{
QFontMetrics fm(_font);
_ticks = QVector<Tick>(SEGMENTS + 1);
for (int i = 0; i < _ticks.size(); i++) {
Tick &t = _ticks[i];
t.value = _length * i;
t.boundingBox = fm.tightBoundingRect(QString::number(t.value));
}
if (_units == Imperial)
_unitsStr = _scale ? qApp->translate("ScaleItem", "mi")
: qApp->translate("ScaleItem", "ft");
else if (_units == Nautical)
_unitsStr = _scale ? qApp->translate("ScaleItem", "nmi")
: qApp->translate("ScaleItem", "ft");
else
_unitsStr = _scale ? qApp->translate("ScaleItem", "km")
: qApp->translate("ScaleItem", "m");
_unitsBB = fm.tightBoundingRect(_unitsStr);
QRect ss = _ticks.isEmpty() ? QRect() : _ticks.first().boundingBox;
QRect es = _ticks.isEmpty() ? QRect() : _ticks.last().boundingBox;
_boundingRect = QRectF(-ss.width()/2, 0, _width * SEGMENTS + ss.width()/2
+ qMax(_unitsBB.width() + PADDING, es.width()/2) + 1, SCALE_HEIGHT
+ PADDING + ss.height() + 2*fm.descent());
}
void ScaleItem::setResolution(qreal res)
{
prepareGeometryChange();
_res = res;
computeScale();
updateCache();
update();
}
void ScaleItem::setUnits(Units units)
{
prepareGeometryChange();
_units = units;
computeScale();
updateCache();
update();
}
void ScaleItem::setDigitalZoom(qreal zoom)
{
prepareGeometryChange();
_digitalZoom = zoom;
computeScale();
updateCache();
update();
setScale(pow(2, -_digitalZoom));
}