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#include <memory>
#include <QtTest/QTest>
#include <QtCore/QDebug>
#include <QImage>
#include <poppler-qt5.h>
// Unit tests for rendering axial shadings without full opacity
class TestStrokeOpacity : public QObject
{
Q_OBJECT
public:
explicit TestStrokeOpacity(QObject *parent = nullptr) : QObject(parent) { }
private slots:
void checkStrokeOpacity_data();
void checkStrokeOpacity();
};
void TestStrokeOpacity::checkStrokeOpacity_data()
{
QTest::addColumn<int>("backendType");
QTest::newRow("splash") << (int)Poppler::Document::SplashBackend;
QTest::newRow("qpainter") << (int)Poppler::Document::QPainterBackend;
}
void TestStrokeOpacity::checkStrokeOpacity()
{
QFETCH(int, backendType);
auto doc = std::unique_ptr<Poppler::Document>(Poppler::Document::load(TESTDATADIR "/unittestcases/stroke-alpha-pattern.pdf"));
QVERIFY(doc != nullptr);
doc->setRenderBackend((Poppler::Document::RenderBackend)backendType);
// BUG: For some reason splash gets the opacity wrong when antialiasing is switched off
if (backendType == (int)Poppler::Document::SplashBackend) {
doc->setRenderHint(Poppler::Document::Antialiasing, true);
}
const auto page = std::unique_ptr<Poppler::Page>(doc->page(0));
QVERIFY(page != nullptr);
// Render (at low resolution and with cropped marging)
QImage image = page->renderToImage(36, 36, 40, 50, 200, 230);
// The actual tests start here
// Allow a tolerance.
int tolerance;
auto approximatelyEqual = [&tolerance](QRgb c0, const QColor &c1) {
return std::abs(qAlpha(c0) - c1.alpha()) <= tolerance && std::abs(qRed(c0) - c1.red()) <= tolerance && std::abs(qGreen(c0) - c1.green()) <= tolerance && std::abs(qBlue(c0) - c1.blue()) <= tolerance;
};
// At the lower left of the test document is a square with an axial shading,
// which should be rendered with opacity 0.25.
// Check that with a sample pixel
auto pixel = image.pixel(70, 160);
// Splash and QPainter backends implement shadings slightly differently,
// hence we cannot expect to get precisely the same colors.
tolerance = 2;
QVERIFY(approximatelyEqual(pixel, QColor(253, 233, 196, 255)));
// At the upper left of the test document is a stroked square with an axial shading.
// This is implemented by filling a clip region defined by a stroke outline.
// Check whether the backend really only renders the stroke, not the region
// surrounded by the stroke.
auto pixelUpperLeftInterior = image.pixel(70, 70);
tolerance = 0;
QVERIFY(approximatelyEqual(pixelUpperLeftInterior, Qt::white));
// Now check whether that stroke is semi-transparent.
// Bug https://gitlab.freedesktop.org/poppler/poppler/-/issues/178
auto pixelUpperLeftOnStroke = image.pixel(70, 20);
tolerance = 2;
QVERIFY(approximatelyEqual(pixelUpperLeftOnStroke, QColor(253, 233, 196, 255)));
// At the upper right there is a semi-transparent stroked red square
// a) Make sure that the color is correct.
auto pixelUpperRightOnStroke = image.pixel(130, 20);
tolerance = 0;
QVERIFY(approximatelyEqual(pixelUpperRightOnStroke, QColor(246, 196, 206, 255)));
// b) Make sure that it is really stroked, not filled
auto pixelUpperRightInterior = image.pixel(130, 50);
QVERIFY(approximatelyEqual(pixelUpperRightInterior, Qt::white));
}
QTEST_GUILESS_MAIN(TestStrokeOpacity)
#include "check_stroke_opacity.moc"