32 return QStringLiteral(
"texture" );
37 std::unique_ptr< QgsTiledSceneTextureRenderer > res = std::make_unique< QgsTiledSceneTextureRenderer >();
38 res->setFillSymbol( mFillSymbol->clone() );
47 std::unique_ptr< QgsTiledSceneTextureRenderer > r = std::make_unique< QgsTiledSceneTextureRenderer >();
49 const QDomElement fillSymbolElem = element.firstChildElement( QStringLiteral(
"fillSymbol" ) );
50 if ( !fillSymbolElem.isNull() )
52 const QDomElement symbolElem = fillSymbolElem.firstChildElement( QStringLiteral(
"symbol" ) );
53 std::unique_ptr< QgsFillSymbol >
fillSymbol( QgsSymbolLayerUtils::loadSymbol<QgsFillSymbol>( symbolElem, context ) );
59 r->restoreCommonProperties( element, context );
66 QVariantMap properties;
67 properties.insert( QStringLiteral(
"color" ), QStringLiteral(
"224,224,224" ) );
68 properties.insert( QStringLiteral(
"style" ), QStringLiteral(
"solid" ) );
69 properties.insert( QStringLiteral(
"style_border" ), QStringLiteral(
"solid" ) );
70 properties.insert( QStringLiteral(
"color_border" ), QStringLiteral(
"124,124,124" ) );
71 properties.insert( QStringLiteral(
"width_border" ), QStringLiteral(
"0.1" ) );
72 properties.insert( QStringLiteral(
"joinstyle" ), QStringLiteral(
"round" ) );
79 return mFillSymbol.get();
84 mFillSymbol.reset( symbol );
89 QDomElement rendererElem = doc.createElement( QStringLiteral(
"renderer" ) );
91 rendererElem.setAttribute( QStringLiteral(
"type" ), QStringLiteral(
"texture" ) );
94 QDomElement fillSymbolElem = doc.createElement( QStringLiteral(
"fillSymbol" ) );
99 fillSymbolElem.appendChild( symbolElement );
100 rendererElem.appendChild( fillSymbolElem );
122 mFillSymbol->renderPolygon( triangle,
nullptr,
nullptr, context.
renderContext() );
132 context.
textureCoordinates( textureX1, textureY1, textureX2, textureY2, textureX3, textureY3 );
135 painter->setPen( Qt::NoPen );
137 auto unitNormal = [](
const QPointF p1,
const QPointF p2 )
139 const float dx = p2.x() - p1.x();
140 const float dy = p2.y() - p1.y();
141 QPointF n( -dy, dx );
142 const double length = std::sqrt( n.x() * n.x() + n.y() * n.y() );
143 return QPointF( n.x() / length, n.y() / length );
146 auto intersect = [](
const QPointF p1,
const QPointF p2,
const QPointF q1,
const QPointF q2 )
148 const double a1 = p2.y() - p1.y();
149 const double b1 = p1.x() - p2.x();
150 const double c1 = a1 * p1.x() + b1 * p1.y();
152 const double a2 = q2.y() - q1.y();
153 const double b2 = q1.x() - q2.x();
154 const double c2 = a2 * q1.x() + b2 * q1.y();
156 const double det = a1 * b2 - a2 * b1;
164 return QPointF( ( b2 * c1 - b1 * c2 ) / det,
165 ( a1 * c2 - a2 * c1 ) / det );
169 auto smallestAngleInTriangle = [](
const QPolygonF & triangle )
171 const QPointF p1 = triangle.at( 0 );
172 const QPointF p2 = triangle.at( 1 );
173 const QPointF p3 = triangle.at( 2 );
175 const QPointF v1 = p2 - p1;
176 const QPointF v2 = p3 - p2;
177 const QPointF v3 = p1 - p3;
179 const double a = std::sqrt( v1.x() * v1.x() + v1.y() * v1.y() );
180 const double b = std::sqrt( v2.x() * v2.x() + v2.y() * v2.y() );
181 const double c = std::sqrt( v3.x() * v3.x() + v3.y() * v3.y() );
185 std::acos( ( b * b +
c *
c - a * a ) / ( 2 * b *
c ) ),
186 std::acos( ( a * a +
c *
c - b * b ) / ( 2 * a *
c ) ) ),
187 std::acos( ( a * a + b * b -
c *
c ) / ( 2 * a * b ) )
191 auto growTriangle = [&unitNormal, &intersect](
const QPolygonF & triangle,
float pixels )
193 QPair< QPointF, QPointF > offsetEdges[3];
194 for (
int i = 0; i < 3; ++i )
196 const QPointF p1 = triangle.at( i );
197 const QPointF p2 = triangle.at( i + 1 );
198 const QPointF n = unitNormal( p1, p2 );
200 const QPointF offsetP1( p1.x() + n.x() * pixels, p1.y() + n.y() * pixels );
201 const QPointF offsetP2( p2.x() + n.x() * pixels, p2.y() + n.y() * pixels );
203 offsetEdges[i] = { offsetP1, offsetP2 };
210 static double constexpr MAX_TRIANGLE_GROW_PIXELS_SQUARED = 3 * 3;
211 for (
int i = 0; i < 3; ++i )
213 const auto &edge1 = offsetEdges[i];
214 const auto &edge2 = offsetEdges[i == 0 ? 2 : ( i - 1 )];
216 const QPointF vertex = intersect( edge1.first, edge1.second, edge2.first, edge2.second );
217 if ( vertex.isNull() )
220 const QPointF originalPoint = triangle.at( i );
223 double delta = std::pow( vertex.x() - originalPoint.x(), 2 ) + std::pow( vertex.y() - originalPoint.y(), 2 );
224 if ( delta > MAX_TRIANGLE_GROW_PIXELS_SQUARED )
226 double dx = ( vertex.x() - originalPoint.x() ) * MAX_TRIANGLE_GROW_PIXELS_SQUARED / delta;
227 double dy = ( vertex.y() - originalPoint.y() ) * MAX_TRIANGLE_GROW_PIXELS_SQUARED / delta;
228 result << triangle.at( i ) + QPointF( dx, dy );
233 result << result.at( 0 );
239 const double minAngle = smallestAngleInTriangle( triangle ) * 180 / M_PI;
240 if ( std::isnan( minAngle ) || minAngle < 0.1 )
248 growTriangle( triangle, 1 ),
250 textureX1, textureY1,
251 textureX2, textureY2,
@ RequiresTextures
Renderer requires textures.
@ ForceRasterRender
Layer should always be rendered as a raster image.
@ RendersTriangles
Renderer can render triangle primitives.
A fill symbol type, for rendering Polygon and MultiPolygon geometries.
static QgsFillSymbol * createSimple(const QVariantMap &properties)
Create a fill symbol with one symbol layer: SimpleFill with specified properties.
static bool drawTriangleUsingTexture(QPainter *painter, const QPolygonF &triangle, const QImage &textureImage, float textureX1, float textureY1, float textureX2, float textureY2, float textureX3, float textureY3)
Draws a triangle onto a painter using a mapped texture image.
The class is used as a container of context for various read/write operations on other objects.
QPainter * painter()
Returns the destination QPainter for the render operation.
static QDomElement saveSymbol(const QString &symbolName, const QgsSymbol *symbol, QDomDocument &doc, const QgsReadWriteContext &context)
Writes a symbol definition to XML.
Encapsulates the render context for a 2D tiled scene rendering operation.
void textureCoordinates(float &textureX1, float &textureY1, float &textureX2, float &textureY2, float &textureX3, float &textureY3) const
Returns the current texture coordinates.
QgsRenderContext & renderContext()
Returns a reference to the context's render context.
QImage textureImage() const
Returns the current texture image.
Abstract base class for 2d tiled scene renderers.
void saveCommonProperties(QDomElement &element, const QgsReadWriteContext &context) const
Saves common renderer properties (such as point size and screen error) to the specified DOM element.
virtual void stopRender(QgsTiledSceneRenderContext &context)
Must be called when a render cycle has finished, to allow the renderer to clean up.
virtual void startRender(QgsTiledSceneRenderContext &context)
Must be called when a new render cycle is started.
void copyCommonProperties(QgsTiledSceneRenderer *destination) const
Copies common tiled scene renderer properties (such as screen error) to the destination renderer.
void startRender(QgsTiledSceneRenderContext &context) override
Must be called when a new render cycle is started.
QDomElement save(QDomDocument &doc, const QgsReadWriteContext &context) const override
Saves the renderer configuration to an XML element.
static QgsFillSymbol * createDefaultFillSymbol()
Returns a copy of the default fill symbol used to render triangles without textures.
QgsTiledSceneTextureRenderer()
Constructor for QgsTiledSceneTextureRenderer.
QgsFillSymbol * fillSymbol() const
Returns the fill symbol used to render triangles without textures.
void renderLine(QgsTiledSceneRenderContext &context, const QPolygonF &line) override
Renders a line.
QgsTiledSceneRenderer * clone() const override
Create a deep copy of this renderer.
void setFillSymbol(QgsFillSymbol *symbol)
Sets the fill symbol used to render triangles without textures.
QString type() const override
Returns the identifier of the renderer type.
static QgsTiledSceneRenderer * create(QDomElement &element, const QgsReadWriteContext &context)
Creates a textured renderer from an XML element.
void stopRender(QgsTiledSceneRenderContext &context) override
Must be called when a render cycle has finished, to allow the renderer to clean up.
~QgsTiledSceneTextureRenderer()
void renderTriangle(QgsTiledSceneRenderContext &context, const QPolygonF &triangle) override
Renders a triangle.
Qgis::TiledSceneRendererFlags flags() const override
Returns flags which control how the renderer behaves.
As part of the API refactoring and improvements which landed in the Processing API was substantially reworked from the x version This was done in order to allow much of the underlying Processing framework to be ported into c
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)