This is the right article if you want to triangulate polygons or carry out polygon clipping. In Fade, a zone defines a specific area of a triangulation and you can use it to combine shapes with the boolean set operations union, difference,symmetric difference and intersection. From the result zone you can easily calculate the total area, obtain its triangles or its contour.
You can define a zone as
- the area inside or outside a polygon
- the area grown from a seed point up to defined fences
- the area of the whole triangulation (global zone)
- the area of arbitrary triangles
The below example code (examples_2D/ex4_zones.cpp in the download) demonstrates that.
Preparing two initial Polygons
- Insert 4 bounding box points into a new
Fade_2Dobject. - Create points on two circles (
vCircle0,vCircle1) - Create segments (
vSegment0,vSegment1) - Create two polygons (
ConstraintGraph2 pCG0, pCG1) - Draw the triangulation
// * 1 * Insert 4 bounding box points
Fade_2D dt;
dt.insert(Point2(0,0));
dt.insert(Point2(+100,0));
dt.insert(Point2(100,50));
dt.insert(Point2(0,50));
// * 2 * Create points on two circles
std::vector<Point2> vCircle0;
std::vector<Point2> vCircle1;
int numPoints(8);
double radius(22);
//generateCircle( num,centerX,centerY,radiusX,radiusY,vOut);
generateCircle(numPoints,25.0,25.0,radius,radius,vCircle0);
generateCircle(numPoints,75.0,25.0,radius,radius,vCircle1);
// * 3 * Create segments
std::vector<Segment2> vSegments0;
std::vector<Segment2> vSegments1;
for(int i=0;i<numPoints;++i)
{
Segment2 seg0(vCircle0[i],vCircle0[(i+1)%numPoints]);
Segment2 seg1(vCircle1[i],vCircle1[(i+1)%numPoints]);
vSegments0.push_back(seg0);
vSegments1.push_back(seg1);
}
// * 4 * Insert the segments as constraint graphs
ConstraintGraph2* pCG0=dt.createConstraint(vSegments0,CIS_CONSTRAINED_DELAUNAY);
ConstraintGraph2* pCG1=dt.createConstraint(vSegments1,CIS_CONSTRAINED_DELAUNAY);
// * 5 * Visualize
dt.show("example4_constraints.ps",true);
Creating zones inside and outside a polygon
ConstraintGraph pCG1 is the left polygon circle in the above image. Let’s create a Zone2 inside and another one outside this polygon now.
// + Zone inside pCG0:
Zone2* pZoneInside(dt.createZone(pCG0,ZL_INSIDE));
pZoneInside->show("example4_zoneInside.ps",true,true);
// + Zone outside pCG0:
Zone2* pZoneOutside(dt.createZone(pCG0,ZL_OUTSIDE));
pZoneOutside->show("example4_zoneOutside.ps",true,true);
Zone grown from a seed point
In addition to zones inside and outside a polygon, zones can also grow from a specific seed point. This is demonstrated by the code below that uses a vector of ConstraintGraph objects (polygons in our case) and a point seedPoint near the lower left corner of the below image. It grows a zone from the seed point. The edges of the ConstraintGraph2 objects in vCG (in our case the two polygon circles) act as fence which stops the growing process.
vector<ConstraintGraph2*> vCG;
vCG.push_back(pCG0);
vCG.push_back(pCG1);
Point2 seedPoint(5.0,5.0); // Point near the lower left corner
Zone2* pZoneGrow(dt.createZone(vCG,ZL_GROW,seedPoint));
pZoneGrow->show("example4_zoneGrow.ps",true,true);
The global zone
A global zone consists of all existing triangles.
Zone2* pZoneGlobal(dt.createZone(NULL,ZL_GLOBAL));
pZoneGlobal->show("example4_zoneGlobal.ps",true,true);
Zone creation from arbitrary triangles
You can create a zone from an arbitrary set of triangles, connected or not. The example code below first fetches all triangles from the triangulation. Then it chooses only half of them to create a zone.
// + Zone defined by specific triangles
vector<Triangle2*> vT;
dt.getTrianglePointers(vT);
vT.resize(vT.size()/2);
Zone2* pZoneRandomTriangles(dt.createZone(vT));
pZoneRandomTriangles->show("example4_zoneFromTriangles.ps",true,true);
This article covered creation of zones while the next post Zone Operations computes the union, the intersection, the difference and symmetric difference of such zones.