This kind of extensions load geometry just before the render starts. They´re useful to decrease the size of the scene file and even to create loaders for new file formats. This class is defined in geometryextension.h.
class CgeometryLoaderExtension : public CbaseExtension { public: virtual bool loadMesh( Cmaxwell::Cobject& meshToLoad ) = 0; virtual bool getBoundingBox( Cpoint& min, Cpoint& max ) { return false; }; virtual bool getProxyDisplayPoints( const dword& percent, const dword& maxPoints, dword& nPoints, float*& points ) { return false; }; virtual bool getProxyDisplayLines( const dword& percent, const dword& maxLines, dword& nPoints, float*& points, dword& nLines, dword*& pointsPerLine ) { return false; } virtual bool getProxyDisplayFaces( const dword& percent, const dword& maxFaces, dword& nPoints, float*& points, dword& nFaces, dword*& faces ) { return false; } };
The most important part of the extension functionality resides in loadMesh, which must be implemented. The rest are optional functions. getBoundingBox, if implemented, returns the maximum and minimum points of the geometry's bounding box, in local coordinates of the object. This function is called at the voxelization stage, just before starting to render.
One of the other three functions getProxyDisplay* should be implemented if the extension writer wants to draw an approximate proxy of the object in the Studio viewport. For example, the MaxwellGrass extension uses getProxyDisplayLines to draw some lines representing grass strands.
The class extension constructor is used mainly to create the extension parameters (look at the example below) and, possibly, allocate data structures needed throughout the life of the extension. These data structures must be freed in the class destructor. initializeForRendering is called just before rendering starts, and the incoming pMaxwell (always check != NULL ) is useful for accessing the scene while executing loadMesh.
loadMesh
virtual bool loadMesh( Cmaxwell::Cobject& meshToLoad ) = 0;
Main function of the extension. It is where the actual work of filling a geometric object is done.
Arguments
Cmaxwell::Cobject& meshToLoad : input/output, reference to the object being created.
Returns
true on success, otherwise false;
getBoundingBox
virtual bool getBoundingBox( Cpoint& min, Cpoint& max );
Returns the bounding box of the newly created object, in local coordinates of the object.
Arguments
Cpoint& min : output, reference to the lower corner of the bounding box.
Cpoint& max : output, reference to the upper corner of the bounding box.
Returns
true on success, otherwise false;
getProxyDisplayPoints
virtual bool getProxyDisplayPoints( const dword& percent, const dword& maxPoints, dword& nPoints,
float*& points );
Allocates and fills the "points" array with the coordinates of points to be drawn in the Studio viewport. Also sets "nPoints" to the actual number of points filled.
Arguments
const dword& percent : input, goes from 0 to 100, indicating the degree of desired precision to draw the proxy.
const dword& maxPoints : input, the maximum number of points allowed.
dword& nPoints : output, the actual number of points allocated. Must be <= maxPoints.
float*& points : output, array with the points, x0y0z0x1y1z1x2y2z2....
Returns
true on success, otherwise false;
getProxyDisplayLines
virtual bool getProxyDisplayLines( const dword& percent, const dword& maxPoints, const dword& maxLines,
dword& nPoints, float*& points, dword& nLines, dword*& pointsPerLine );
Allocates and fills the "points" array and "pointsPerLine" array with with the coordinates of points, and number of points per line to be drawn in the Studio viewport. Also sets "nPoints" to the actual number of points created and nLines to the actual number of lines created.
Arguments
const dword& percent : input, goes from 0 to 100, indicating the degree of desired precision to draw the proxy.
const dword& maxPoints : input, the maximum number of points allowed.
const dword& maxLines : input, the maximum number of lines allowed.
dword& nPoints : output, the actual number of points allocated. Must be <= maxPoints.
float*& points : output, array with the points, x0y0z0x1y1z1x2y2z2....
dword& nLines : output, the actual number of lines created. Must be <= maxLines.
dword*& pointsPerLine : output, array with the number of points per line, n0n1n2.... If this array is NULL, then the number of points per line is constant, and is nPoints/nLines.
Returns
true on success, otherwise false;
getProxyDisplayFaces
virtual bool getProxyDisplayFaces( const dword& percent, const dword& maxFaces, dword& nPoints,
float*& points, dword& nFaces, dword*& faces );
Allocates and fills the "points" array and "faces" array with with the coordinates of points, and indexes to vertices to be drawn in the Studio viewport. Also sets "nPoints" to the actual number of points created and "nFaces" to the actual number of triangles created.
Arguments
const dword& percent : input, goes from 0 to 100, indicating the degree of desired precision to draw the proxy.
const dword& maxPoints : input, the maximum number of points allowed.
const dword& maxFaces : input, the maximum number of faces allowed.
dword& nPoints : output, the actual number of points allocated. Must be <= maxPoints.
float*& points : output, array with the points, x0y0z0x1y1z1x2y2z2....
dword& nFaces : output, the actual number of faces created. Must be <= maxLines.
dword*& : output, array with the indices to vertices in the "points" array v00v01v02v10v11v12v20v21v22....
Returns
true on success, otherwise false;
#include <math.h> #include "extensionmanager.h" #include "geometryextension.h" #include "maxwell.h" class CubeExampleExtension : public CgeometryLoaderExtension { DECLARE_EXTENSION_METHODS( "CubeExample", CubeExampleExtension, 1 ) Cmaxwell* pMaxwellLocal; //Handy to access the scene. public: CubeExampleExtension() { getExtensionData()->createDouble( "Cube size", 1.0, 0, 1000 );//Create parameter with Default value } ~CubeExampleExtension() { } bool initializeForRendering ( Cmaxwell* pMaxwell ) { pMaxwellLocal = pMaxwell; return true; } bool loadMesh( Cmaxwell::Cobject &cube ) { //Get the extension parameter getExtensionData()->getDouble( "Cube size", cubeSize ); //Create the mesh cube.initializeMesh( 8, 6, 12, 1 ); //Add the vertices Cpoint point; point.assign( 0.0, 0.0, 0.0 ); cube.setVertex ( 0, 0, point ); point.assign( 0.0, 0.0, cubeSize ); cube.setVertex ( 1, 0, point ); point.assign( cubeSize, 0.0, cubeSize ); cube.setVertex ( 2, 0, point ); point.assign( cubeSize, 0.0, 0.0 ); cube.setVertex ( 3, 0, point ); point.assign( 0.0, cubeSize, 0.0 ); cube.setVertex ( 4, 0, point ); point.assign( 0.0, cubeSize, cubeSize ); cube.setVertex ( 5, 0, point ); point.assign( cubeSize, cubeSize, cubeSize ); cube.setVertex ( 6, 0, point ); point.assign( cubeSize, cubeSize, 0.0 ); cube.setVertex ( 7, 0, point ); //Set some normals Cvector normal; normal.assign( 1.0, 0.0, 0.0 ); cube.setNormal( 0, 0, normal ); normal.assign( -1.0, 0.0, 0.0 ); cube.setNormal( 1, 0, normal ); normal.assign( 0.0, 1.0, 0.0 ); cube.setNormal( 2, 0, normal ); normal.assign( 0.0, -1.0, 0.0 ); cube.setNormal( 3, 0, normal ); normal.assign( 0.0, 0.0, 1.0 ); cube.setNormal( 4, 0, normal ); normal.assign( 0.0, 0.0, -1.0 ); cube.setNormal( 5, 0, normal ); //Add triangles cube.setTriangle ( 0, 0, 2, 1, 3, 3, 3 ); cube.setTriangle ( 1, 0, 3, 2, 3, 3, 3 ); cube.setTriangle ( 2, 4, 5, 6, 2, 2, 2 ); cube.setTriangle ( 3, 4, 6, 7, 2, 2, 2 ); cube.setTriangle ( 4, 2, 3, 7, 0, 0, 0 ); cube.setTriangle ( 5, 2, 7, 6, 0, 0, 0 ); cube.setTriangle ( 6, 0, 1, 5, 1, 1, 1 ); cube.setTriangle ( 7, 0, 5, 4, 1, 1, 1 ); cube.setTriangle ( 8, 1, 2, 6, 4, 4, 4 ); cube.setTriangle ( 9, 1, 6, 5, 4, 4, 4 ); cube.setTriangle ( 10, 0, 4, 7, 5, 5, 5 ); cube.setTriangle ( 11, 0, 7, 3, 5, 5, 5 ); //Generate some uvs dword cchanIdx = 0; dword daChan; cube.addChannelUVW( daChan, cchanIdx ); Cbase projBase; projBase.origin.assign( 0.5, 0.5, 0.5 ); projBase.xAxis.assign( 1.0, 0.0, 0.0 ); projBase.yAxis.assign( 0.0, 1.0, 0.0 ); projBase.zAxis.assign( 0.0, 0.0, 1.0 ); Cvector scale; scale.assign( 0.5, 0.5, 1.0 ); byte sux = cube.generateCubicUVW( cchanIdx, projBase ); return true; } bool getBoundingBox( Cvector &bmin, Cvector& bmax) { bmin.assign( -cubeSize, -cubeSize, -cubeSize ); bmax.assign( cubeSize, cubeSize, cubeSize ); return true; } }; EXPORT_GEOMETRY_LOADER_EXTENSION( CubeExampleExtension )