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statistics: highlight selected bar

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When all items of a bar in a bar chart are selected, highlight them
by overlaying with a checkerboard pattern. A gray checkerboard seems to
work reasonably well, regardless of base color.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
This commit is contained in:
Berthold Stoeger 2021-02-07 14:33:48 +01:00 committed by Dirk Hohndel
parent d63d4cd3c3
commit 06a091643e
5 changed files with 107 additions and 5 deletions
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23
stats/barseries.cpp
View file

@ -6,6 +6,7 @@
#include "statstranslations.h" #include "statstranslations.h"
#include "statsview.h" #include "statsview.h"
#include "zvalues.h" #include "zvalues.h"
#include "core/dive.h"
#include "core/selection.h" #include "core/selection.h"
#include <math.h> // for lrint() #include <math.h> // for lrint()
@ -183,11 +184,14 @@ void BarSeries::Item::highlight(int subitem, bool highlight, int binCount)
subitems[subitem].highlight(highlight, binCount); subitems[subitem].highlight(highlight, binCount);
} }
// For single-bin charts, selected items are marked with a special fill and border color.
// For multi-bin charts, they are marked by a differend border color and border width.
void BarSeries::SubItem::highlight(bool highlight, int binCount) void BarSeries::SubItem::highlight(bool highlight, int binCount)
{ {
fill = highlight ? highlightedColor : binColor(bin_nr, binCount); fill = highlight ? highlightedColor : binColor(bin_nr, binCount);
QColor border = highlight ? highlightedBorderColor : ::borderColor; QColor border = highlight ? highlightedBorderColor : ::borderColor;
item->setColor(fill, border); item->setColor(fill, border);
item->setSelected(selected);
if (label) if (label)
label->highlight(highlight, bin_nr, binCount, fill); label->highlight(highlight, bin_nr, binCount, fill);
} }
@ -243,9 +247,10 @@ std::vector<BarSeries::SubItem> BarSeries::makeSubItems(std::vector<SubItemDesc>
int bin_nr = 0; int bin_nr = 0;
for (auto &[v, dives, label]: items) { for (auto &[v, dives, label]: items) {
if (v > 0.0) { if (v > 0.0) {
bool selected = std::all_of(dives.begin(), dives.end(), [] (const dive *d) { return d->selected; });
res.push_back({ view.createChartItem<ChartBarItem>(ChartZValue::Series, barBorderWidth, horizontal), res.push_back({ view.createChartItem<ChartBarItem>(ChartZValue::Series, barBorderWidth, horizontal),
std::move(dives), std::move(dives),
{}, from, from + v, bin_nr }); {}, from, from + v, bin_nr, selected });
if (!label.empty()) if (!label.empty())
res.back().label = std::make_unique<BarLabel>(view, label, bin_nr, binCount()); res.back().label = std::make_unique<BarLabel>(view, label, bin_nr, binCount());
} }
@ -418,3 +423,19 @@ bool BarSeries::selectItemsUnderMouse(const QPointF &pos, bool)
setSelection(dives, dives.empty() ? nullptr : dives.front()); setSelection(dives, dives.empty() ? nullptr : dives.front());
return true; return true;
} }
void BarSeries::divesSelected(const QVector<dive *> &)
{
for (Item &item: items) {
for (SubItem &subitem: item.subitems) {
bool selected = std::all_of(subitem.dives.begin(), subitem.dives.end(), [] (const dive *d) { return d->selected; });
if (subitem.selected != selected) {
subitem.selected = selected;
Index idx(&item - &items[0], &subitem - &item.subitems[0]);
bool highlight = idx == highlighted;
item.highlight(idx.subitem, highlight, binCount());
}
}
}
}

2
stats/barseries.h
View file

@ -104,6 +104,7 @@ private:
double value_from; double value_from;
double value_to; double value_to;
int bin_nr; int bin_nr;
bool selected;
QColor fill; QColor fill;
void updatePosition(BarSeries *series, bool horizontal, bool stacked, void updatePosition(BarSeries *series, bool horizontal, bool stacked,
double from, double to, int binCount); double from, double to, int binCount);
@ -146,6 +147,7 @@ private:
bool stacked); bool stacked);
std::vector<QString> makeInfo(const Item &item, int subitem) const; std::vector<QString> makeInfo(const Item &item, int subitem) const;
int binCount() const; int binCount() const;
void divesSelected(const QVector<dive *> &) override;
}; };
#endif #endif

76
stats/chartitem.cpp
View file

@ -9,6 +9,7 @@
#include <QSGImageNode> #include <QSGImageNode>
#include <QSGRectangleNode> #include <QSGRectangleNode>
#include <QSGTexture> #include <QSGTexture>
#include <QSGTextureMaterial>
static int round_up(double f) static int round_up(double f)
{ {
@ -140,6 +141,7 @@ static QSGTexture *createScatterTexture(StatsView &view, const QColor &color, co
static QSGTexture *scatterItemTexture = nullptr; static QSGTexture *scatterItemTexture = nullptr;
static QSGTexture *scatterItemSelectedTexture = nullptr; static QSGTexture *scatterItemSelectedTexture = nullptr;
static QSGTexture *scatterItemHighlightedTexture = nullptr; static QSGTexture *scatterItemHighlightedTexture = nullptr;
static QSGTexture *selectedTexture = nullptr; // A checkerboard pattern.
QSGTexture *ChartScatterItem::getTexture() const QSGTexture *ChartScatterItem::getTexture() const
{ {
@ -330,6 +332,12 @@ void setPoint(QSGGeometry::Point2D &v, const QPointF &p)
v.set(static_cast<float>(p.x()), static_cast<float>(p.y())); v.set(static_cast<float>(p.x()), static_cast<float>(p.y()));
} }
void setPoint(QSGGeometry::TexturedPoint2D &v, const QPointF &p, const QPointF &t)
{
v.set(static_cast<float>(p.x()), static_cast<float>(p.y()),
static_cast<float>(t.x()), static_cast<float>(t.y()));
}
void ChartLineItem::render() void ChartLineItem::render()
{ {
if (!node) { if (!node) {
@ -395,8 +403,8 @@ void ChartRectLineItem::render()
} }
ChartBarItem::ChartBarItem(StatsView &v, ChartZValue z, double borderWidth, bool horizontal) : HideableChartItem(v, z), ChartBarItem::ChartBarItem(StatsView &v, ChartZValue z, double borderWidth, bool horizontal) : HideableChartItem(v, z),
borderWidth(borderWidth), horizontal(horizontal), borderWidth(borderWidth), selected(false), horizontal(horizontal),
positionDirty(false), colorDirty(false) positionDirty(false), colorDirty(false), selectedDirty(false)
{ {
} }
@ -404,6 +412,18 @@ ChartBarItem::~ChartBarItem()
{ {
} }
QSGTexture *ChartBarItem::getSelectedTexture() const
{
if (!selectedTexture) {
QImage img(2, 2, QImage::Format_ARGB32);
img.fill(Qt::transparent);
img.setPixelColor(0, 0, selectionOverlayColor);
img.setPixelColor(1, 1, selectionOverlayColor);
selectedTexture = view.w()->createTextureFromImage(img, QQuickWindow::TextureHasAlphaChannel);
}
return selectedTexture;
}
void ChartBarItem::render() void ChartBarItem::render()
{ {
if (!node) { if (!node) {
@ -419,7 +439,7 @@ void ChartBarItem::render()
node->node->appendChildNode(borderNode.get()); node->node->appendChildNode(borderNode.get());
view.addQSGNode(node.get(), zValue); view.addQSGNode(node.get(), zValue);
positionDirty = colorDirty = true; positionDirty = colorDirty = selectedDirty = true;
} }
updateVisible(); updateVisible();
@ -448,11 +468,48 @@ void ChartBarItem::render()
borderNode->markDirty(QSGNode::DirtyGeometry); borderNode->markDirty(QSGNode::DirtyGeometry);
} }
positionDirty = colorDirty = false; if (selectedDirty) {
if (selected) {
if (!selectionNode) {
// Create the selection overlay if it didn't exist up to now.
selectionGeometry.reset(new QSGGeometry(QSGGeometry::defaultAttributes_TexturedPoint2D(), 4));
selectionGeometry->setDrawingMode(QSGGeometry::DrawTriangleFan);
selectionMaterial.reset(new QSGTextureMaterial);
selectionMaterial->setTexture(getSelectedTexture());
selectionMaterial->setHorizontalWrapMode(QSGTexture::Repeat);
selectionMaterial->setVerticalWrapMode(QSGTexture::Repeat);
selectionNode.reset(new QSGGeometryNode);
selectionNode->setGeometry(selectionGeometry.get());
selectionNode->setMaterial(selectionMaterial.get());
}
node->node->appendChildNode(selectionNode.get());
// Update the position of the selection overlay, even if the position didn't change.
positionDirty = true;
} else {
if (selectionNode)
node->node->removeChildNode(selectionNode.get());
}
}
if (selected && positionDirty) {
// The checkerboard texture is 2x2. By dividing the coordinates by 4, every square is 2x2 pixels on the screen.
auto selectionVertices = selectionGeometry->vertexDataAsTexturedPoint2D();
selectionNode->markDirty(QSGNode::DirtyGeometry);
setPoint(selectionVertices[0], rect.topLeft(), QPointF());
setPoint(selectionVertices[1], rect.topRight(), QPointF(rect.width() / 4.0, 0.0));
setPoint(selectionVertices[2], rect.bottomRight(), QPointF(rect.width() / 4.0, rect.height() / 4.0));
setPoint(selectionVertices[3], rect.bottomLeft(), QPointF(0.0, rect.height() / 4.0));
}
positionDirty = colorDirty = selectedDirty = false;
} }
void ChartBarItem::setColor(QColor colorIn, QColor borderColorIn) void ChartBarItem::setColor(QColor colorIn, QColor borderColorIn)
{ {
if (color == colorIn)
return;
color = colorIn; color = colorIn;
borderColor = borderColorIn; borderColor = borderColorIn;
colorDirty = true; colorDirty = true;
@ -461,11 +518,22 @@ void ChartBarItem::setColor(QColor colorIn, QColor borderColorIn)
void ChartBarItem::setRect(const QRectF &rectIn) void ChartBarItem::setRect(const QRectF &rectIn)
{ {
if (rect == rectIn)
return;
rect = rectIn; rect = rectIn;
positionDirty = true; positionDirty = true;
markDirty(); markDirty();
} }
void ChartBarItem::setSelected(bool selectedIn)
{
if (selected == selectedIn)
return;
selected = selectedIn;
selectedDirty = true;
markDirty();
}
QRectF ChartBarItem::getRect() const QRectF ChartBarItem::getRect() const
{ {
return rect; return rect;

10
stats/chartitem.h
View file

@ -15,6 +15,7 @@ class QSGFlatColorMaterial;
class QSGImageNode; class QSGImageNode;
class QSGRectangleNode; class QSGRectangleNode;
class QSGTexture; class QSGTexture;
class QSGTextureMaterial;
class StatsView; class StatsView;
enum class ChartZValue : int; enum class ChartZValue : int;
@ -148,18 +149,27 @@ public:
~ChartBarItem(); ~ChartBarItem();
void setColor(QColor color, QColor borderColor); void setColor(QColor color, QColor borderColor);
void setRect(const QRectF &rect); void setRect(const QRectF &rect);
void setSelected(bool selected);
QRectF getRect() const; QRectF getRect() const;
void render() override; // Only call on render thread! void render() override; // Only call on render thread!
protected: protected:
QColor color, borderColor; QColor color, borderColor;
double borderWidth; double borderWidth;
QRectF rect; QRectF rect;
bool selected;
bool horizontal; bool horizontal;
bool positionDirty; bool positionDirty;
bool colorDirty; bool colorDirty;
bool selectedDirty;
std::unique_ptr<QSGGeometryNode> borderNode; std::unique_ptr<QSGGeometryNode> borderNode;
std::unique_ptr<QSGFlatColorMaterial> borderMaterial; std::unique_ptr<QSGFlatColorMaterial> borderMaterial;
std::unique_ptr<QSGGeometry> borderGeometry; std::unique_ptr<QSGGeometry> borderGeometry;
private:
// Overlay for selected items. Created on demand.
std::unique_ptr<QSGGeometryNode> selectionNode;
std::unique_ptr<QSGTextureMaterial> selectionMaterial;
std::unique_ptr<QSGGeometry> selectionGeometry;
QSGTexture *getSelectedTexture() const;
}; };
// A box-and-whiskers item. This is a bit lazy: derive from the bar item and add whiskers. // A box-and-whiskers item. This is a bit lazy: derive from the bar item and add whiskers.

1
stats/statscolors.h
View file

@ -25,6 +25,7 @@ inline const QColor regressionItemColor(Qt::red);
inline const QColor meanMarkerColor(Qt::green); inline const QColor meanMarkerColor(Qt::green);
inline const QColor medianMarkerColor(Qt::red); inline const QColor medianMarkerColor(Qt::red);
inline const QColor selectionLassoColor(Qt::black); inline const QColor selectionLassoColor(Qt::black);
inline const QColor selectionOverlayColor(Qt::lightGray);
QColor binColor(int bin, int numBins); QColor binColor(int bin, int numBins);
QColor labelColor(int bin, size_t numBins); QColor labelColor(int bin, size_t numBins);