// Copyright (C) 2020 Jakub Melka
//
// This file is part of PdfForQt.
//
// PdfForQt is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// PdfForQt is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with PDFForQt. If not, see .
#include "pdfsnapper.h"
#include "pdfcompiler.h"
#include "pdfwidgetutils.h"
#include "pdfdrawspacecontroller.h"
#include
namespace pdf
{
void PDFSnapInfo::addPageMediaBox(const QRectF& mediaBox)
{
QPointF tl = mediaBox.topLeft();
QPointF tr = mediaBox.topRight();
QPointF bl = mediaBox.bottomLeft();
QPointF br = mediaBox.bottomRight();
QPointF center = mediaBox.center();
m_snapPoints.insert(m_snapPoints.cend(), {
SnapPoint(SnapType::PageCorner, tl ),
SnapPoint(SnapType::PageCorner, tr ),
SnapPoint(SnapType::PageCorner, bl ),
SnapPoint(SnapType::PageCorner, br ),
SnapPoint(SnapType::PageCenter, center)
});
addLine(tl, tr);
addLine(tr, br);
addLine(br, bl);
addLine(tl, bl);
}
void PDFSnapInfo::addImage(const std::array& points, const QImage& image)
{
m_snapPoints.insert(m_snapPoints.cend(), {
SnapPoint(SnapType::ImageCorner, points[0]),
SnapPoint(SnapType::ImageCorner, points[1]),
SnapPoint(SnapType::ImageCorner, points[2]),
SnapPoint(SnapType::ImageCorner, points[3]),
SnapPoint(SnapType::ImageCenter, points[4])
});
for (size_t i = 0; i < 4; ++i)
{
addLine(points[i], points[(i + 1) % 4]);
}
SnapImage snapImage;
snapImage.imagePath.moveTo(points[0]);
snapImage.imagePath.lineTo(points[1]);
snapImage.imagePath.lineTo(points[2]);
snapImage.imagePath.lineTo(points[3]);
snapImage.imagePath.lineTo(points[0]);
snapImage.image = image;
m_snapImages.emplace_back(qMove(snapImage));
}
void PDFSnapInfo::addLine(const QPointF& start, const QPointF& end)
{
QLineF line(start, end);
m_snapPoints.emplace_back(SnapType::LineCenter, line.center());
m_snapLines.emplace_back(line);
}
PDFSnapper::PDFSnapper()
{
}
void PDFSnapper::drawSnapPoints(QPainter* painter) const
{
Q_ASSERT(painter);
painter->save();
painter->setRenderHint(QPainter::Antialiasing, true);
QPen pen = painter->pen();
pen.setCapStyle(Qt::RoundCap);
pen.setWidth(m_snapPointPixelSize);
for (const ViewportSnapPoint& snapPoint : m_snapPoints)
{
if (!isSnappingAllowed(snapPoint.pageIndex))
{
// We are drawing only snap points, which are on current page
continue;
}
QColor color = pen.color();
QColor newColor = color;
switch (snapPoint.type)
{
case SnapType::PageCorner:
newColor = Qt::blue;
break;
case SnapType::GeneratedLineProjection:
newColor = Qt::green;
break;
default:
newColor = Qt::red;
break;
}
if (color != newColor)
{
pen.setColor(newColor);
painter->setPen(pen);
}
QPoint point = snapPoint.viewportPoint.toPoint();
painter->drawPoint(point);
}
if (isSnapped())
{
pen.setColor(Qt::yellow);
painter->setPen(pen);
QPoint point = m_snappedPoint->viewportPoint.toPoint();
painter->drawPoint(point);
}
painter->restore();
}
bool PDFSnapper::isSnappingAllowed(PDFInteger pageIndex) const
{
return (m_currentPage == -1) || (m_currentPage == pageIndex);
}
void PDFSnapper::updateSnappedPoint(const QPointF& mousePoint)
{
m_snappedPoint = std::nullopt;
m_snappedImage = std::nullopt;
m_mousePoint = mousePoint;
// Iterate trough all points, check, if some satisfies condition
const PDFReal toleranceSquared = m_snapPointTolerance * m_snapPointTolerance;
for (const ViewportSnapPoint& snapPoint : m_snapPoints)
{
QPointF difference = mousePoint - snapPoint.viewportPoint;
PDFReal distanceSquared = QPointF::dotProduct(difference, difference);
if (distanceSquared < toleranceSquared && isSnappingAllowed(snapPoint.pageIndex))
{
m_snappedPoint = snapPoint;
break;
}
}
// Iterate trough all images, check, if some is under mouse cursor
for (const ViewportSnapImage& snapImage : m_snapImages)
{
if (snapImage.viewportPath.contains(mousePoint))
{
m_snappedImage = snapImage;
break;
}
}
}
void PDFSnapper::buildSnapPoints(const PDFWidgetSnapshot& snapshot)
{
// First, clear all snap points
m_snapPoints.clear();
// Second, create snapping points from snapshot
for (const PDFWidgetSnapshot::SnapshotItem& item : snapshot.items)
{
if (!item.compiledPage)
{
continue;
}
const PDFSnapInfo* info = item.compiledPage->getSnapInfo();
for (const PDFSnapInfo::SnapPoint& snapPoint : info->getSnapPoints())
{
ViewportSnapPoint viewportSnapPoint;
viewportSnapPoint.type = snapPoint.type;
viewportSnapPoint.point = snapPoint.point;
viewportSnapPoint.pageIndex = item.pageIndex;
viewportSnapPoint.viewportPoint = item.pageToDeviceMatrix.map(snapPoint.point);
m_snapPoints.push_back(qMove(viewportSnapPoint));
}
// Fill line projections snap points
if (m_currentPage == item.pageIndex && m_referencePoint.has_value())
{
QPointF referencePoint = *m_referencePoint;
for (const QLineF& line : info->getLines())
{
// Project point onto line.
const qreal lineLength = line.length();
QPointF vector = referencePoint - line.p1();
QPointF tangentVector = (line.p2() - line.p1()) / lineLength;
const qreal absoluteParameter = QPointF::dotProduct(vector, tangentVector);
if (absoluteParameter >= 0 && absoluteParameter <= lineLength)
{
QPointF projectedSnapPoint = line.pointAt(absoluteParameter / lineLength);
const PDFReal tolerance = lineLength * 0.01;
const PDFReal squaredTolerance = tolerance * tolerance;
// Test, if projected snap point is not already present in snap points
auto testSamePoints = [projectedSnapPoint, squaredTolerance](const ViewportSnapPoint& testedSnapPoint)
{
return isFuzzyComparedPointsSame(projectedSnapPoint, testedSnapPoint.point, squaredTolerance);
};
if (m_snapPoints.cend() == std::find_if(m_snapPoints.cbegin(), m_snapPoints.cend(), testSamePoints))
{
ViewportSnapPoint viewportSnapPoint;
viewportSnapPoint.type = SnapType::GeneratedLineProjection;
viewportSnapPoint.point = projectedSnapPoint;
viewportSnapPoint.pageIndex = item.pageIndex;
viewportSnapPoint.viewportPoint = item.pageToDeviceMatrix.map(projectedSnapPoint);
m_snapPoints.push_back(qMove(viewportSnapPoint));
}
}
}
}
}
// Third, update snap shot position
updateSnappedPoint(m_mousePoint);
}
void PDFSnapper::buildSnapImages(const PDFWidgetSnapshot& snapshot)
{
// First, clear all snap images
m_snapImages.clear();
// Second, create snapping points from snapshot
for (const PDFWidgetSnapshot::SnapshotItem& item : snapshot.items)
{
if (!item.compiledPage)
{
continue;
}
const PDFSnapInfo* info = item.compiledPage->getSnapInfo();
for (const PDFSnapInfo::SnapImage& snapImage : info->getSnapImages())
{
ViewportSnapImage viewportSnapImage;
viewportSnapImage.image = snapImage.image;
viewportSnapImage.imagePath = snapImage.imagePath;
viewportSnapImage.pageIndex = item.pageIndex;
viewportSnapImage.viewportPath = item.pageToDeviceMatrix.map(snapImage.imagePath);
m_snapImages.emplace_back(qMove(viewportSnapImage));
}
}
}
int PDFSnapper::getSnapPointTolerance() const
{
return m_snapPointTolerance;
}
void PDFSnapper::setSnapPointTolerance(int snapPointTolerance)
{
m_snapPointTolerance = snapPointTolerance;
}
QPointF PDFSnapper::getSnappedPoint() const
{
if (isSnapped())
{
return m_snappedPoint->viewportPoint;
}
return m_mousePoint;
}
const PDFSnapper::ViewportSnapImage* PDFSnapper::getSnappedImage() const
{
if (m_snappedImage.has_value())
{
return &*m_snappedImage;
}
return nullptr;
}
void PDFSnapper::setReferencePoint(PDFInteger pageIndex, QPointF pagePoint)
{
m_currentPage = pageIndex;
m_referencePoint = pagePoint;
}
void PDFSnapper::clearReferencePoint()
{
m_currentPage = -1;
m_referencePoint = std::nullopt;
}
void PDFSnapper::clear()
{
clearReferencePoint();
m_snapPoints.clear();
m_snapImages.clear();
m_snappedPoint = std::nullopt;
m_snappedImage = std::nullopt;
m_mousePoint = QPointF();
}
} // namespace pdf