void ParticleEmitter3D::PrepareEmitterParameters(Particle * particle, float32 velocity, int32 emitIndex)
{
	Vector3 tempPosition = Vector3();
	Matrix4 * worldTransformPtr = GetWorldTransformPtr();
	Matrix3 rotationMatrix;
	rotationMatrix.Identity();

	if(worldTransformPtr)
	{
		tempPosition = worldTransformPtr->GetTranslationVector();
		rotationMatrix = Matrix3(*worldTransformPtr);;
	}

	//Vector3 tempPosition = particlesFollow ? Vector3() : position;
    if (emitterType == EMITTER_POINT)
    {
        particle->position = tempPosition;
    }
    else if (emitterType == EMITTER_RECT)
    {        
        float32 rand05_x = (float32)Random::Instance()->RandFloat() - 0.5f; // [-0.5f, 0.5f]
        float32 rand05_y = (float32)Random::Instance()->RandFloat() - 0.5f; // [-0.5f, 0.5f]
        float32 rand05_z = (float32)Random::Instance()->RandFloat() - 0.5f; // [-0.5f, 0.5f]
        Vector3 lineDirection(0, 0, 0);
        if(size)
            lineDirection = Vector3(size->GetValue(time).x * rand05_x, size->GetValue(time).y * rand05_y, size->GetValue(time).z * rand05_z);		
		//particle->position = tempPosition + lineDirection;
        particle->position = tempPosition + TransformPerserveLength(lineDirection, rotationMatrix);
    }
	else if ((emitterType == EMITTER_ONCIRCLE_VOLUME) ||
			 (emitterType == EMITTER_ONCIRCLE_EDGES))
	{
		CalculateParticlePositionForCircle(particle, tempPosition, rotationMatrix);
	}

    if (emitterType == EMITTER_SHOCKWAVE)
    {
		// For "Shockwave" emitters the calculation is different.
		PrepareEmitterParametersShockwave(particle, velocity, emitIndex, tempPosition, rotationMatrix);
	}
	else
	{
		PrepareEmitterParametersGeneric(particle, velocity, emitIndex, tempPosition, rotationMatrix);
	}

	if(worldTransformPtr)
	{
		Matrix4 newTransform = *worldTransformPtr;
		newTransform._30 = newTransform._31 = newTransform._32 = 0;		
		float32 speedLength = particle->speed.Length();
		
		particle->speed = particle->speed*newTransform;
		float32 speedLengthAfter = particle->speed.Length();
		if (speedLengthAfter)
			particle->speed*=speedLength/speedLengthAfter;
		
	}	
}
Esempio n. 2
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//Concat a matrix and a vector
Vector2 operator*(const Matrix3 &lhs, const Vector2 &rhs)
{
	Matrix3 temp;
	temp.Identity();
	Vector2 result;
	for(int y = 0; y < 2; ++y)
	{
			temp.m[0][y] = lhs.m[0][y]*rhs.x + lhs.m[1][y]*rhs.y + lhs.m[y][2];
	}
	result.x = temp.m[0][0];
	result.y = temp.m[0][1];
	return result;
}
Esempio n. 3
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void  Opengl2dPainter::drawBegin(Pen& pen, Matrix3& matrix)
{
    OpenglContext oglcontext(_pPimpl->hdc, _pPimpl->hrc);

    if (pen.color().a < 255)
    {
        glEnable(GL_BLEND);
        glBlendFunc(GL_SRC_ALPHA,GL_ONE);
    }

    glColor4ub( pen.color().r, pen.color().g, pen.color().b, pen.color().a );
    _pPimpl->pen = pen;
    _pPimpl->localMatrix = matrix;

    glLineWidth( _pPimpl->pen.width());
    if (pen.linestyle() != 0xFFFF)
    {
        glEnable(GL_LINE_STIPPLE);
        glLineStipple(1, pen.linestyle());
    }

    Matrix3 selectedMovingMatrix;
    selectedMovingMatrix.Identity();

    // apply matrix
    Matrix3 m3 = _pPimpl->worldMatrix * selectedMovingMatrix * _pPimpl->localMatrix;

    FLOAT m[4*4] = {0, };
    m[0] = m3.element[0];
    m[1] = m3.element[3];
    m[2] = 0.0f;
    m[3] = 0.0f;
    m[4] = m3.element[1];
    m[5] = m3.element[4];
    m[6] = 0.0f;
    m[7] = 0.0f;
    m[8] = 0.0f;
    m[9] = 0.0f;
    m[10] = 1.0f;
    m[11] = 0.0f;
    m[12] = m3.element[2];
    m[13] = m3.element[5];
    m[14] = 0.0f;
    m[15] = 1.0f;

    glLoadMatrixf(m);
}
Esempio n. 4
0
ObjectRenderer::pShapeStruct    ObjectRenderer::LoadShape(const pXmlTree tree){
    if(tree==NULL) return NULL;

    REALTYPE *array;

    pXmlTree tmpTree = tree;

    pShapeStruct shape  = NULL;

    if((tmpTree->GetName()=="Shape")){
        gLOG.Append("Setting up Shape : %s",tmpTree->GetData().c_str());
        gLOG.SetDeltaIndent(2);

        int size;
        Matrix3 scale;
        scale.Identity();
        if(tmpTree->Find("Scale")){
            size=tmpTree->GetArray("Scale",&array);
            if(size==3){
                                scale.Diag(Vector3(array));
                                scale.RefNoCheck(0,0) = array[0];
                                scale.RefNoCheck(1,1) = array[1];
                                scale.RefNoCheck(2,2) = array[2];
            }else{
                                gLOG.Append("Error: Bad <Scale> array size (should be 3)");
            }
        }


        string params = tmpTree->Get("Params",string(""));
        vector<string> ptokens = Tokenize(RemoveSpaces(params));

        shape               = new ShapeStruct;
        shape->shape        = new GL3DObject();
        shape->strShapeName = tmpTree->GetData();
        shape->scale[0] = scale.At(0,0);
        shape->scale[1] = scale.At(1,1);
        shape->scale[2] = scale.At(2,2);

              if(tmpTree->GetData().length()==0){
                    gLOG.Append("Error: No shape specified");
        }else if(tmpTree->GetData() == "Cube"){
                shape->shape->GenerateCube();
        }else if(tmpTree->GetData() == "Cylinder"){
                if(ptokens.size()>=1){
                    shape->shape->GenerateCylinder(atoi(ptokens[0].c_str()));
                }else{
                    shape->shape->GenerateCylinder(16);
                }
        }else if(tmpTree->GetData() == "Sphere"){
                if(ptokens.size()>=2){
                    shape->shape->GenerateSphere(atoi(ptokens[0].c_str()),atoi(ptokens[1].c_str()));
                }else{
                    shape->shape->GenerateSphere(16,12);
                }
        }else if(tmpTree->GetData() == "Capsule"){
                if(ptokens.size()==1){
                    shape->shape->GenerateCapsule(atof(ptokens[0].c_str()),16,6);
                }else if(ptokens.size()>=3){
                    shape->shape->GenerateCapsule(atof(ptokens[0].c_str()),atoi(ptokens[1].c_str()),atoi(ptokens[2].c_str()));
                }else{
                    shape->shape->GenerateCapsule(0.5*(scale.RefNoCheck(0,0)+scale.RefNoCheck(1,1)),16,6);
                }
        }else if(tmpTree->GetData() == "HeightField"){
                if(tmpTree->Find("DataFile")){
                    string filename = tmpTree->GetBasePath()+string("/")+tmpTree->Find("DataFile")->GetData();
                    Matrix hf;
                    if(hf.Load(filename.c_str())){
                        shape->shape->GenerateHeightField(hf,1,1,1);
                    }else{
                        delete shape->shape; shape->shape=NULL;
                        gLOG.Append("Error: Height field file %s failed to open",filename.c_str());
                    }
                }else{
                    delete shape->shape; shape->shape=NULL;
                    gLOG.Append("Error: Height field: No <DataFile> specified...");
                }



                /*if(ptokens.size()==1){
                    shape->shape->GenerateCapsule(atof(ptokens[0].c_str()),16,6);
                }else if(ptokens.size()>=3){
                    shape->shape->GenerateCapsule(atof(ptokens[0].c_str()),atoi(ptokens[1].c_str()),atoi(ptokens[2].c_str()));
                }else{
                    shape->shape->GenerateCapsule(0.5*(scale.RefNoCheck(0,0)+scale.RefNoCheck(1,1)),16,6);
                }*/
        }else{
            bool bShapeFound = false;
            string shapeFile;
            if(!bShapeFound){
                shapeFile = tmpTree->GetData();
                bShapeFound = FileFinder::Find(shapeFile);
                if(bShapeFound) shapeFile = FileFinder::GetString();
            }
            if(!bShapeFound){
                shapeFile = mBasePath+"/"+tmpTree->GetData();
                bShapeFound = FileFinder::Find(shapeFile);
                if(bShapeFound) shapeFile = FileFinder::GetString();
            }
            if(!bShapeFound){
                shapeFile = tmpTree->GetBasePath()+"/"+tmpTree->GetData();
                bShapeFound = FileFinder::Find(shapeFile);
                if(bShapeFound) shapeFile = FileFinder::GetString();
            }
            if(bShapeFound){
                if(!shape->shape->LoadFromObjFile(shapeFile.c_str())){
                    delete shape->shape; shape->shape=NULL;
                    gLOG.Append("Error: Unable to load shape file: %s",shapeFile.c_str());
                }
            }else{
                gLOG.Append("Error: Unable to find shape file: %s",shapeFile.c_str());
            }
        }

        if(tmpTree->Find("Origin")){
            size=tmpTree->GetArray("Origin",&array);
            if(size==3){            shape->refShape.SetOrigin().Set(array);
            }else{                  shape->refShape.SetOrigin().Zero();
                                    gLOG.Append("Error: Bad <Origin> array size (should be 3)");
            }
        }else{
                                    shape->refShape.SetOrigin().Zero();
                                    gLOG.Append("Warning: No <Origin> defined");
        }

        if(tmpTree->Find("Orient")){
            size=tmpTree->GetArray("Orient",&array);
            if(size==9){            shape->refShape.SetOrient().Set(array);
                                    shape->refShape.SetOrient().Normalize();
            }else if(size==3){      shape->refShape.SetOrient().SRotationV(Vector3(array));
            }else{                  shape->refShape.SetOrient().Identity();
                                    gLOG.Append("Error: Bad <Orient> array size (should be 3(axis*angle) or 9(full rotation matrix))");
            }
        }else{
                                    shape->refShape.SetOrient().Identity();
                                    gLOG.Append("Warning: No <Orient> defined");
        }
        shape->refShape.Update();

        if(tmpTree->Find("Color")){
            size=tmpTree->GetArray("Color",&array);
            if(size==3){            memcpy(shape->color,array,3*sizeof(REALTYPE));
                                    shape->color[3] = 1.0;
            }else if(size==4){      memcpy(shape->color,array,4*sizeof(REALTYPE));
            }else{                  shape->color[0] = 1.0;
                                    shape->color[1] = 1.0;
                                    shape->color[2] = 1.0;
                                    shape->color[3] = 1.0;
                                    gLOG.Append("Error: Bad <Color> array size (should be 3 or 4)");
            }
        }else{
                                    shape->color[0] = 1.0;
                                    shape->color[1] = 1.0;
                                    shape->color[2] = 1.0;
                                    shape->color[3] = 1.0;
                                    gLOG.Append("Warning: No <Color> defined");
        }
        if(tmpTree->Find("DoubleFace")){
        	shape->culling = tmpTree->Get("DoubleFace",false);
        }
        else
        {
        	shape->culling = false;
        }

        if(shape->shape!=NULL){
            shape->shape->Transform(scale);
            shape->shape->Transform(shape->refShape.GetHMatrix());

            /*
            pXmlTree tmpShadowTree;
            if((tmpShadowTree=tmpTree->Find("Shadow"))!=NULL){
                string params = tmpShadowTree->Get("Params",string(""));
                vector<string> ptokens = Tokenize(RemoveSpaces(params));

                GL3DObject *shadow = new GL3DObject();
                      if(tmpShadowTree->GetData() == "Cube"){
                        shadow->GenerateCube();
                }else if(tmpShadowTree->GetData() == "Cylinder"){
                        if(ptokens.size()>=1){
                            shadow->GenerateCylinder(atoi(ptokens[0].c_str()));
                        }else{
                            shadow->GenerateCylinder(8);
                        }
                }else if(tmpShadowTree->GetData() == "Sphere"){
                        if(ptokens.size()>=2){
                            shadow->GenerateSphere(atoi(ptokens[0].c_str()),atoi(ptokens[1].c_str()));
                        }else{
                            shadow->GenerateSphere(4,4);
                        }
                }else if(tmpShadowTree->GetData() == "Clone"){
                        delete shadow;
                        shadow=shape->shape->Clone();
                }else{
                    if(!shadow->LoadFromObjFile(tmpShadowTree->GetData().c_str(),true)){
                        delete shadow; shadow=NULL;
                    }
                }
                if(shadow!=NULL){
                    shadow->Transform(shape->refShape.GetHMatrix());

                    if(tmpShadowTree->Find("Origin")){
                        Vector3 origin;
                        origin.Set(Vector(array,tmpShadowTree->GetArray("Origin",&array)));
                        shadow->AddOffset(origin);
                    }
                    if(tmpShadowTree->Find("Orient")){
                        Matrix3 orient;
                        orient.Set(Matrix(array,tmpShadowTree->GetArray("Orient",&array)/3,3));
                        shadow->Transform(orient);
                    }
                    shape->shape->SetShadow(shadow);
                }
            }
            */
        }
        gLOG.SetDeltaIndent(-2);

    }


    return shape;
}