static inline void apply(Geometry1 const& geometry1, Geometry2 const& geometry2, MultiLineString const& mls_int1, MultiLineString const& mls_int2, std::string const& case_id, double tolerance = std::numeric_limits<double>::epsilon()) { #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << "test case: " << case_id << std::endl; std::stringstream sstr; sstr << "svgs/" << case_id << ".svg"; #ifdef TEST_WITH_SVG to_svg(geometry1, geometry2, sstr.str()); #endif #endif Geometry1 rg1(geometry1); bg::reverse<Geometry1>(rg1); Geometry2 rg2(geometry2); bg::reverse<Geometry2>(rg2); typedef typename bg::tag_cast < Geometry1, bg::linear_tag >::type tag1_type; typedef typename bg::tag_cast < Geometry2, bg::linear_tag >::type tag2_type; bool const are_linear = boost::is_same<tag1_type, bg::linear_tag>::value && boost::is_same<tag2_type, bg::linear_tag>::value; test_get_turns_ll_invariance<are_linear>::apply(geometry1, geometry2); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl << "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%" << std::endl << std::endl; #endif test_get_turns_ll_invariance<are_linear>::apply(rg1, geometry2); base_test(geometry1, geometry2, mls_int1, mls_int2, case_id, tolerance); // base_test(rg1, rg2, mls_int1, mls_int2); base_test_all(geometry1, geometry2); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl; std::cout << std::endl; #endif }
void CanvasRenderer::paintCameraBorder(QPainter &painter) { for ( int i = 0; i < mObject->getLayerCount(); ++i ) { Layer* layer = mObject->getLayer( i ); if ( layer->type() == Layer::CAMERA && (i == mLayerIndex || mOptions.nShowAllLayers > 0) && layer->visible() ) { if ( i == mLayerIndex || mOptions.nShowAllLayers != 1 ) { painter.setOpacity( 1.0 ); } else { painter.setOpacity( 0.8 ); } QRectF viewRect = painter.viewport(); QRect boundingRect = mViewTransform.inverted().mapRect( viewRect ).toRect(); LayerCamera* cameraLayer = dynamic_cast< LayerCamera* >( layer ); QRect cameraRect = cameraLayer->getViewRect(); painter.setWorldMatrixEnabled( true ); painter.setPen( Qt::NoPen ); painter.setBrush( QColor( 0, 0, 0, 160 ) ); QRegion rg1(boundingRect); QRegion rg2(cameraRect); QRegion rg3=rg1.subtracted(rg2); painter.setClipRegion(rg3); painter.drawRect( boundingRect ); painter.setClipping(false); painter.setPen( Qt::black ); painter.setBrush( Qt::NoBrush ); painter.drawRect( cameraRect ); } } }
void tst_QBrush::testQGradientCopyConstructor() { { QLinearGradient lg1(101, 102, 103, 104); QLinearGradient lg2 = lg1; QCOMPARE(lg1.start(), lg2.start()); QCOMPARE(lg1.finalStop(), lg2.finalStop()); QGradient g = lg1; QCOMPARE(((QLinearGradient *) &g)->start(), lg1.start()); QCOMPARE(((QLinearGradient *) &g)->finalStop(), lg1.finalStop()); } { QRadialGradient rg1(101, 102, 103, 104, 105); QRadialGradient rg2 = rg1; QCOMPARE(rg1.center(), rg2.center()); QCOMPARE(rg1.focalPoint(), rg2.focalPoint()); QCOMPARE(rg1.radius(), rg2.radius()); QGradient g = rg1; QCOMPARE(((QRadialGradient *) &g)->center(), rg1.center()); QCOMPARE(((QRadialGradient *) &g)->focalPoint(), rg1.focalPoint()); QCOMPARE(((QRadialGradient *) &g)->radius(), rg1.radius()); } { QConicalGradient cg1(101, 102, 103); QConicalGradient cg2 = cg1; QCOMPARE(cg1.center(), cg2.center()); QCOMPARE(cg1.angle(), cg2.angle()); QGradient g = cg1; QCOMPARE(((QConicalGradient *) &g)->center(), cg1.center()); QCOMPARE(((QConicalGradient *) &g)->angle(), cg1.angle()); } }
static inline void apply(Geometry1 const& geometry1, Geometry2 const& geometry2, MultiLineString const& mls_diff, std::string const& case_id, double tolerance = std::numeric_limits<double>::epsilon()) { #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << "test case: " << case_id << std::endl; std::stringstream sstr; sstr << "svgs/" << case_id << ".svg"; #ifdef TEST_WITH_SVG to_svg(geometry1, geometry2, sstr.str()); #endif #endif Geometry1 rg1(geometry1); bg::reverse<Geometry1>(rg1); Geometry2 rg2(geometry2); bg::reverse<Geometry2>(rg2); test_get_turns_ll_invariance<>::apply(geometry1, geometry2); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl << "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%" << std::endl << std::endl; #endif test_get_turns_ll_invariance<>::apply(rg1, geometry2); base_test(geometry1, geometry2, mls_diff, case_id, tolerance); base_test(geometry1, rg2, mls_diff, case_id, tolerance, false); base_test(rg1, geometry2, mls_diff, case_id, tolerance, false, true); base_test(rg1, rg2, mls_diff, case_id, tolerance, false, true); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl; std::cout << std::endl; #endif }
static inline void apply(Geometry1 const& geometry1, Geometry2 const& geometry2, MultiLineString const& mls_int1, MultiLineString const& mls_int2, std::string const& case_id) { #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << "test case: " << case_id << std::endl; std::stringstream sstr; sstr << "svgs/" << case_id << ".svg"; #ifdef TEST_WITH_SVG to_svg(geometry1, geometry2, sstr.str()); #endif #endif Geometry1 rg1(geometry1); bg::reverse<Geometry1>(rg1); Geometry2 rg2(geometry2); bg::reverse<Geometry2>(rg2); test_get_turns_ll_invariance<>::apply(geometry1, geometry2); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl << "%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%" << std::endl << std::endl; #endif test_get_turns_ll_invariance<>::apply(rg1, geometry2); base_test(geometry1, geometry2, mls_int1, mls_int2, case_id); // base_test(rg1, rg2, mls_int1, mls_int2); base_test_all(geometry1, geometry2); #ifdef BOOST_GEOMETRY_TEST_DEBUG std::cout << std::endl; std::cout << std::endl; #endif }